{- This file was auto-generated from lnrpc/ln0.proto by the proto-lens-protoc program. -} {-# LANGUAGE ScopedTypeVariables, DataKinds, TypeFamilies, UndecidableInstances, GeneralizedNewtypeDeriving, MultiParamTypeClasses, FlexibleContexts, FlexibleInstances, PatternSynonyms, MagicHash, NoImplicitPrelude, BangPatterns, TypeApplications, OverloadedStrings, DerivingStrategies, DeriveGeneric#-} {-# OPTIONS_GHC -Wno-unused-imports#-} {-# OPTIONS_GHC -Wno-duplicate-exports#-} {-# OPTIONS_GHC -Wno-dodgy-exports#-} module Proto.Lnrpc.Ln0 ( AMPRecord(), Amount(), ChanInfoRequest(), ChanPointShim(), Channel(), ChannelBalanceRequest(), ChannelBalanceResponse(), ChannelCloseSummary(), ChannelCloseSummary'ClosureType(..), ChannelCloseSummary'ClosureType(), ChannelCloseSummary'ClosureType'UnrecognizedValue, ChannelConstraints(), ChannelEdge(), ChannelEdgeUpdate(), ChannelEventSubscription(), ChannelEventUpdate(), ChannelEventUpdate'Channel(..), _ChannelEventUpdate'OpenChannel, _ChannelEventUpdate'ClosedChannel, _ChannelEventUpdate'ActiveChannel, _ChannelEventUpdate'InactiveChannel, _ChannelEventUpdate'PendingOpenChannel, _ChannelEventUpdate'FullyResolvedChannel, ChannelEventUpdate'UpdateType(..), ChannelEventUpdate'UpdateType(), ChannelEventUpdate'UpdateType'UnrecognizedValue, ChannelGraph(), ChannelGraphRequest(), ChannelPoint(), ChannelPoint'FundingTxid(..), _ChannelPoint'FundingTxidBytes, _ChannelPoint'FundingTxidStr, ClosedChannelUpdate(), CommitmentType(..), CommitmentType(), CommitmentType'UnrecognizedValue, EdgeLocator(), Feature(), FeatureBit(..), FeatureBit(), FeatureBit'UnrecognizedValue, FeeLimit(), FeeLimit'Limit(..), _FeeLimit'Fixed, _FeeLimit'FixedMsat, _FeeLimit'Percent, FloatMetric(), FundingPsbtFinalize(), FundingPsbtVerify(), FundingShim(), FundingShim'Shim(..), _FundingShim'ChanPointShim, _FundingShim'PsbtShim, FundingShimCancel(), FundingStateStepResp(), FundingTransitionMsg(), FundingTransitionMsg'Trigger(..), _FundingTransitionMsg'ShimRegister, _FundingTransitionMsg'ShimCancel, _FundingTransitionMsg'PsbtVerify, _FundingTransitionMsg'PsbtFinalize, GraphTopologySubscription(), GraphTopologyUpdate(), HTLC(), Hop(), Hop'CustomRecordsEntry(), HopHint(), Initiator(..), Initiator(), Initiator'UnrecognizedValue, KeyDescriptor(), KeyLocator(), LightningNode(), LightningNode'FeaturesEntry(), MPPRecord(), NetworkInfo(), NetworkInfoRequest(), NodeAddress(), NodeInfo(), NodeInfoRequest(), NodeMetricType(..), NodeMetricType(), NodeMetricType'UnrecognizedValue, NodeMetricsRequest(), NodeMetricsResponse(), NodeMetricsResponse'BetweennessCentralityEntry(), NodePair(), NodeUpdate(), NodeUpdate'FeaturesEntry(), OutPoint(), PendingChannelsRequest(), PendingChannelsResponse(), PendingChannelsResponse'ClosedChannel(), PendingChannelsResponse'Commitments(), PendingChannelsResponse'ForceClosedChannel(), PendingChannelsResponse'ForceClosedChannel'AnchorState(..), PendingChannelsResponse'ForceClosedChannel'AnchorState(), PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue, PendingChannelsResponse'PendingChannel(), PendingChannelsResponse'PendingOpenChannel(), PendingChannelsResponse'WaitingCloseChannel(), PendingHTLC(), PendingUpdate(), PsbtShim(), QueryRoutesRequest(), QueryRoutesRequest'DestCustomRecordsEntry(), QueryRoutesResponse(), Resolution(), ResolutionOutcome(..), ResolutionOutcome(), ResolutionOutcome'UnrecognizedValue, ResolutionType(..), ResolutionType(), ResolutionType'UnrecognizedValue, Route(), RouteHint(), RoutingPolicy(), StopRequest(), StopResponse(), WalletAccountBalance(), WalletBalanceRequest(), WalletBalanceResponse(), WalletBalanceResponse'AccountBalanceEntry() ) where import qualified Data.ProtoLens.Runtime.Control.DeepSeq as Control.DeepSeq import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Prism as Data.ProtoLens.Prism import qualified Text.PrettyPrint.GenericPretty.Instance import qualified GHC.Generics import qualified Text.PrettyPrint.GenericPretty import qualified Data.ProtoLens.Runtime.Prelude as Prelude import qualified Data.ProtoLens.Runtime.Data.Int as Data.Int import qualified Data.ProtoLens.Runtime.Data.Monoid as Data.Monoid import qualified Data.ProtoLens.Runtime.Data.Word as Data.Word import qualified Data.ProtoLens.Runtime.Data.ProtoLens as Data.ProtoLens import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Bytes as Data.ProtoLens.Encoding.Bytes import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Growing as Data.ProtoLens.Encoding.Growing import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Parser.Unsafe as Data.ProtoLens.Encoding.Parser.Unsafe import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Wire as Data.ProtoLens.Encoding.Wire import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Field as Data.ProtoLens.Field import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Message.Enum as Data.ProtoLens.Message.Enum import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Service.Types as Data.ProtoLens.Service.Types import qualified Data.ProtoLens.Runtime.Lens.Family2 as Lens.Family2 import qualified Data.ProtoLens.Runtime.Lens.Family2.Unchecked as Lens.Family2.Unchecked import qualified Data.ProtoLens.Runtime.Data.Text as Data.Text import qualified Data.ProtoLens.Runtime.Data.Map as Data.Map import qualified Data.ProtoLens.Runtime.Data.ByteString as Data.ByteString import qualified Data.ProtoLens.Runtime.Data.ByteString.Char8 as Data.ByteString.Char8 import qualified Data.ProtoLens.Runtime.Data.Text.Encoding as Data.Text.Encoding import qualified Data.ProtoLens.Runtime.Data.Vector as Data.Vector import qualified Data.ProtoLens.Runtime.Data.Vector.Generic as Data.Vector.Generic import qualified Data.ProtoLens.Runtime.Data.Vector.Unboxed as Data.Vector.Unboxed import qualified Data.ProtoLens.Runtime.Text.Read as Text.Read {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.rootShare' @:: Lens' AMPRecord Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.setId' @:: Lens' AMPRecord Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.childIndex' @:: Lens' AMPRecord Data.Word.Word32@ -} data AMPRecord = AMPRecord'_constructor {_AMPRecord'rootShare :: !Data.ByteString.ByteString, _AMPRecord'setId :: !Data.ByteString.ByteString, _AMPRecord'childIndex :: !Data.Word.Word32, _AMPRecord'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show AMPRecord where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out AMPRecord instance Data.ProtoLens.Field.HasField AMPRecord "rootShare" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AMPRecord'rootShare (\ x__ y__ -> x__ {_AMPRecord'rootShare = y__})) Prelude.id instance Data.ProtoLens.Field.HasField AMPRecord "setId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AMPRecord'setId (\ x__ y__ -> x__ {_AMPRecord'setId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField AMPRecord "childIndex" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AMPRecord'childIndex (\ x__ y__ -> x__ {_AMPRecord'childIndex = y__})) Prelude.id instance Data.ProtoLens.Message AMPRecord where messageName _ = Data.Text.pack "lnrpc.AMPRecord" packedMessageDescriptor _ = "\n\ \\tAMPRecord\DC2\GS\n\ \\n\ \root_share\CAN\SOH \SOH(\fR\trootShare\DC2\NAK\n\ \\ACKset_id\CAN\STX \SOH(\fR\ENQsetId\DC2\US\n\ \\vchild_index\CAN\ETX \SOH(\rR\n\ \childIndex" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let rootShare__field_descriptor = Data.ProtoLens.FieldDescriptor "root_share" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"rootShare")) :: Data.ProtoLens.FieldDescriptor AMPRecord setId__field_descriptor = Data.ProtoLens.FieldDescriptor "set_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"setId")) :: Data.ProtoLens.FieldDescriptor AMPRecord childIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "child_index" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"childIndex")) :: Data.ProtoLens.FieldDescriptor AMPRecord in Data.Map.fromList [(Data.ProtoLens.Tag 1, rootShare__field_descriptor), (Data.ProtoLens.Tag 2, setId__field_descriptor), (Data.ProtoLens.Tag 3, childIndex__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _AMPRecord'_unknownFields (\ x__ y__ -> x__ {_AMPRecord'_unknownFields = y__}) defMessage = AMPRecord'_constructor {_AMPRecord'rootShare = Data.ProtoLens.fieldDefault, _AMPRecord'setId = Data.ProtoLens.fieldDefault, _AMPRecord'childIndex = Data.ProtoLens.fieldDefault, _AMPRecord'_unknownFields = []} parseMessage = let loop :: AMPRecord -> Data.ProtoLens.Encoding.Bytes.Parser AMPRecord loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "root_share" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"rootShare") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "set_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"setId") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "child_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"childIndex") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "AMPRecord" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"rootShare") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"setId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"childIndex") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData AMPRecord where rnf = \ x__ -> Control.DeepSeq.deepseq (_AMPRecord'_unknownFields x__) (Control.DeepSeq.deepseq (_AMPRecord'rootShare x__) (Control.DeepSeq.deepseq (_AMPRecord'setId x__) (Control.DeepSeq.deepseq (_AMPRecord'childIndex x__) ()))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.sat' @:: Lens' Amount Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.msat' @:: Lens' Amount Data.Word.Word64@ -} data Amount = Amount'_constructor {_Amount'sat :: !Data.Word.Word64, _Amount'msat :: !Data.Word.Word64, _Amount'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show Amount where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out Amount instance Data.ProtoLens.Field.HasField Amount "sat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Amount'sat (\ x__ y__ -> x__ {_Amount'sat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Amount "msat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Amount'msat (\ x__ y__ -> x__ {_Amount'msat = y__})) Prelude.id instance Data.ProtoLens.Message Amount where messageName _ = Data.Text.pack "lnrpc.Amount" packedMessageDescriptor _ = "\n\ \\ACKAmount\DC2\DLE\n\ \\ETXsat\CAN\SOH \SOH(\EOTR\ETXsat\DC2\DC2\n\ \\EOTmsat\CAN\STX \SOH(\EOTR\EOTmsat" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let sat__field_descriptor = Data.ProtoLens.FieldDescriptor "sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"sat")) :: Data.ProtoLens.FieldDescriptor Amount msat__field_descriptor = Data.ProtoLens.FieldDescriptor "msat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"msat")) :: Data.ProtoLens.FieldDescriptor Amount in Data.Map.fromList [(Data.ProtoLens.Tag 1, sat__field_descriptor), (Data.ProtoLens.Tag 2, msat__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Amount'_unknownFields (\ x__ y__ -> x__ {_Amount'_unknownFields = y__}) defMessage = Amount'_constructor {_Amount'sat = Data.ProtoLens.fieldDefault, _Amount'msat = Data.ProtoLens.fieldDefault, _Amount'_unknownFields = []} parseMessage = let loop :: Amount -> Data.ProtoLens.Encoding.Bytes.Parser Amount loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"sat") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"msat") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Amount" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"sat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"msat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData Amount where rnf = \ x__ -> Control.DeepSeq.deepseq (_Amount'_unknownFields x__) (Control.DeepSeq.deepseq (_Amount'sat x__) (Control.DeepSeq.deepseq (_Amount'msat x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.chanId' @:: Lens' ChanInfoRequest Data.Word.Word64@ -} data ChanInfoRequest = ChanInfoRequest'_constructor {_ChanInfoRequest'chanId :: !Data.Word.Word64, _ChanInfoRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChanInfoRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChanInfoRequest instance Data.ProtoLens.Field.HasField ChanInfoRequest "chanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanInfoRequest'chanId (\ x__ y__ -> x__ {_ChanInfoRequest'chanId = y__})) Prelude.id instance Data.ProtoLens.Message ChanInfoRequest where messageName _ = Data.Text.pack "lnrpc.ChanInfoRequest" packedMessageDescriptor _ = "\n\ \\SIChanInfoRequest\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let chanId__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanId")) :: Data.ProtoLens.FieldDescriptor ChanInfoRequest in Data.Map.fromList [(Data.ProtoLens.Tag 1, chanId__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChanInfoRequest'_unknownFields (\ x__ y__ -> x__ {_ChanInfoRequest'_unknownFields = y__}) defMessage = ChanInfoRequest'_constructor {_ChanInfoRequest'chanId = Data.ProtoLens.fieldDefault, _ChanInfoRequest'_unknownFields = []} parseMessage = let loop :: ChanInfoRequest -> Data.ProtoLens.Encoding.Bytes.Parser ChanInfoRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanId") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChanInfoRequest" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData ChanInfoRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChanInfoRequest'_unknownFields x__) (Control.DeepSeq.deepseq (_ChanInfoRequest'chanId x__) ()) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.amt' @:: Lens' ChanPointShim Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.chanPoint' @:: Lens' ChanPointShim ChannelPoint@ * 'Proto.Lnrpc.Ln0_Fields.maybe'chanPoint' @:: Lens' ChanPointShim (Prelude.Maybe ChannelPoint)@ * 'Proto.Lnrpc.Ln0_Fields.localKey' @:: Lens' ChanPointShim KeyDescriptor@ * 'Proto.Lnrpc.Ln0_Fields.maybe'localKey' @:: Lens' ChanPointShim (Prelude.Maybe KeyDescriptor)@ * 'Proto.Lnrpc.Ln0_Fields.remoteKey' @:: Lens' ChanPointShim Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.pendingChanId' @:: Lens' ChanPointShim Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.thawHeight' @:: Lens' ChanPointShim Data.Word.Word32@ -} data ChanPointShim = ChanPointShim'_constructor {_ChanPointShim'amt :: !Data.Int.Int64, _ChanPointShim'chanPoint :: !(Prelude.Maybe ChannelPoint), _ChanPointShim'localKey :: !(Prelude.Maybe KeyDescriptor), _ChanPointShim'remoteKey :: !Data.ByteString.ByteString, _ChanPointShim'pendingChanId :: !Data.ByteString.ByteString, _ChanPointShim'thawHeight :: !Data.Word.Word32, _ChanPointShim'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChanPointShim where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChanPointShim instance Data.ProtoLens.Field.HasField ChanPointShim "amt" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'amt (\ x__ y__ -> x__ {_ChanPointShim'amt = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChanPointShim "chanPoint" ChannelPoint where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'chanPoint (\ x__ y__ -> x__ {_ChanPointShim'chanPoint = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChanPointShim "maybe'chanPoint" (Prelude.Maybe ChannelPoint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'chanPoint (\ x__ y__ -> x__ {_ChanPointShim'chanPoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChanPointShim "localKey" KeyDescriptor where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'localKey (\ x__ y__ -> x__ {_ChanPointShim'localKey = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChanPointShim "maybe'localKey" (Prelude.Maybe KeyDescriptor) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'localKey (\ x__ y__ -> x__ {_ChanPointShim'localKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChanPointShim "remoteKey" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'remoteKey (\ x__ y__ -> x__ {_ChanPointShim'remoteKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChanPointShim "pendingChanId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'pendingChanId (\ x__ y__ -> x__ {_ChanPointShim'pendingChanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChanPointShim "thawHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChanPointShim'thawHeight (\ x__ y__ -> x__ {_ChanPointShim'thawHeight = y__})) Prelude.id instance Data.ProtoLens.Message ChanPointShim where messageName _ = Data.Text.pack "lnrpc.ChanPointShim" packedMessageDescriptor _ = "\n\ \\rChanPointShim\DC2\DLE\n\ \\ETXamt\CAN\SOH \SOH(\ETXR\ETXamt\DC22\n\ \\n\ \chan_point\CAN\STX \SOH(\v2\DC3.lnrpc.ChannelPointR\tchanPoint\DC21\n\ \\tlocal_key\CAN\ETX \SOH(\v2\DC4.lnrpc.KeyDescriptorR\blocalKey\DC2\GS\n\ \\n\ \remote_key\CAN\EOT \SOH(\fR\tremoteKey\DC2&\n\ \\SIpending_chan_id\CAN\ENQ \SOH(\fR\rpendingChanId\DC2\US\n\ \\vthaw_height\CAN\ACK \SOH(\rR\n\ \thawHeight" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let amt__field_descriptor = Data.ProtoLens.FieldDescriptor "amt" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amt")) :: Data.ProtoLens.FieldDescriptor ChanPointShim chanPoint__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_point" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelPoint) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'chanPoint")) :: Data.ProtoLens.FieldDescriptor ChanPointShim localKey__field_descriptor = Data.ProtoLens.FieldDescriptor "local_key" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor KeyDescriptor) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'localKey")) :: Data.ProtoLens.FieldDescriptor ChanPointShim remoteKey__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_key" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteKey")) :: Data.ProtoLens.FieldDescriptor ChanPointShim pendingChanId__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pendingChanId")) :: Data.ProtoLens.FieldDescriptor ChanPointShim thawHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "thaw_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"thawHeight")) :: Data.ProtoLens.FieldDescriptor ChanPointShim in Data.Map.fromList [(Data.ProtoLens.Tag 1, amt__field_descriptor), (Data.ProtoLens.Tag 2, chanPoint__field_descriptor), (Data.ProtoLens.Tag 3, localKey__field_descriptor), (Data.ProtoLens.Tag 4, remoteKey__field_descriptor), (Data.ProtoLens.Tag 5, pendingChanId__field_descriptor), (Data.ProtoLens.Tag 6, thawHeight__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChanPointShim'_unknownFields (\ x__ y__ -> x__ {_ChanPointShim'_unknownFields = y__}) defMessage = ChanPointShim'_constructor {_ChanPointShim'amt = Data.ProtoLens.fieldDefault, _ChanPointShim'chanPoint = Prelude.Nothing, _ChanPointShim'localKey = Prelude.Nothing, _ChanPointShim'remoteKey = Data.ProtoLens.fieldDefault, _ChanPointShim'pendingChanId = Data.ProtoLens.fieldDefault, _ChanPointShim'thawHeight = Data.ProtoLens.fieldDefault, _ChanPointShim'_unknownFields = []} parseMessage = let loop :: ChanPointShim -> Data.ProtoLens.Encoding.Bytes.Parser ChanPointShim loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "amt" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amt") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "chan_point" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanPoint") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "local_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localKey") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "remote_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteKey") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pending_chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingChanId") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "thaw_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"thawHeight") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChanPointShim" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amt") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'chanPoint") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'localKey") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pendingChanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"thawHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData ChanPointShim where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChanPointShim'_unknownFields x__) (Control.DeepSeq.deepseq (_ChanPointShim'amt x__) (Control.DeepSeq.deepseq (_ChanPointShim'chanPoint x__) (Control.DeepSeq.deepseq (_ChanPointShim'localKey x__) (Control.DeepSeq.deepseq (_ChanPointShim'remoteKey x__) (Control.DeepSeq.deepseq (_ChanPointShim'pendingChanId x__) (Control.DeepSeq.deepseq (_ChanPointShim'thawHeight x__) ())))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.active' @:: Lens' Channel Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.remotePubkey' @:: Lens' Channel Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.channelPoint' @:: Lens' Channel Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.chanId' @:: Lens' Channel Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.capacity' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.localBalance' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.remoteBalance' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.commitFee' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.commitWeight' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.feePerKw' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.unsettledBalance' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.totalSatoshisSent' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.totalSatoshisReceived' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.numUpdates' @:: Lens' Channel Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.pendingHtlcs' @:: Lens' Channel [HTLC]@ * 'Proto.Lnrpc.Ln0_Fields.vec'pendingHtlcs' @:: Lens' Channel (Data.Vector.Vector HTLC)@ * 'Proto.Lnrpc.Ln0_Fields.csvDelay' @:: Lens' Channel Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.private' @:: Lens' Channel Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.initiator' @:: Lens' Channel Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.chanStatusFlags' @:: Lens' Channel Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.localChanReserveSat' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.remoteChanReserveSat' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.staticRemoteKey' @:: Lens' Channel Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.commitmentType' @:: Lens' Channel CommitmentType@ * 'Proto.Lnrpc.Ln0_Fields.lifetime' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.uptime' @:: Lens' Channel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.closeAddress' @:: Lens' Channel Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.pushAmountSat' @:: Lens' Channel Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.thawHeight' @:: Lens' Channel Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.localConstraints' @:: Lens' Channel ChannelConstraints@ * 'Proto.Lnrpc.Ln0_Fields.maybe'localConstraints' @:: Lens' Channel (Prelude.Maybe ChannelConstraints)@ * 'Proto.Lnrpc.Ln0_Fields.remoteConstraints' @:: Lens' Channel ChannelConstraints@ * 'Proto.Lnrpc.Ln0_Fields.maybe'remoteConstraints' @:: Lens' Channel (Prelude.Maybe ChannelConstraints)@ -} data Channel = Channel'_constructor {_Channel'active :: !Prelude.Bool, _Channel'remotePubkey :: !Data.Text.Text, _Channel'channelPoint :: !Data.Text.Text, _Channel'chanId :: !Data.Word.Word64, _Channel'capacity :: !Data.Int.Int64, _Channel'localBalance :: !Data.Int.Int64, _Channel'remoteBalance :: !Data.Int.Int64, _Channel'commitFee :: !Data.Int.Int64, _Channel'commitWeight :: !Data.Int.Int64, _Channel'feePerKw :: !Data.Int.Int64, _Channel'unsettledBalance :: !Data.Int.Int64, _Channel'totalSatoshisSent :: !Data.Int.Int64, _Channel'totalSatoshisReceived :: !Data.Int.Int64, _Channel'numUpdates :: !Data.Word.Word64, _Channel'pendingHtlcs :: !(Data.Vector.Vector HTLC), _Channel'csvDelay :: !Data.Word.Word32, _Channel'private :: !Prelude.Bool, _Channel'initiator :: !Prelude.Bool, _Channel'chanStatusFlags :: !Data.Text.Text, _Channel'localChanReserveSat :: !Data.Int.Int64, _Channel'remoteChanReserveSat :: !Data.Int.Int64, _Channel'staticRemoteKey :: !Prelude.Bool, _Channel'commitmentType :: !CommitmentType, _Channel'lifetime :: !Data.Int.Int64, _Channel'uptime :: !Data.Int.Int64, _Channel'closeAddress :: !Data.Text.Text, _Channel'pushAmountSat :: !Data.Word.Word64, _Channel'thawHeight :: !Data.Word.Word32, _Channel'localConstraints :: !(Prelude.Maybe ChannelConstraints), _Channel'remoteConstraints :: !(Prelude.Maybe ChannelConstraints), _Channel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show Channel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out Channel instance Data.ProtoLens.Field.HasField Channel "active" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'active (\ x__ y__ -> x__ {_Channel'active = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "remotePubkey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'remotePubkey (\ x__ y__ -> x__ {_Channel'remotePubkey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "channelPoint" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'channelPoint (\ x__ y__ -> x__ {_Channel'channelPoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "chanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'chanId (\ x__ y__ -> x__ {_Channel'chanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "capacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'capacity (\ x__ y__ -> x__ {_Channel'capacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "localBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'localBalance (\ x__ y__ -> x__ {_Channel'localBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "remoteBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'remoteBalance (\ x__ y__ -> x__ {_Channel'remoteBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "commitFee" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'commitFee (\ x__ y__ -> x__ {_Channel'commitFee = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "commitWeight" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'commitWeight (\ x__ y__ -> x__ {_Channel'commitWeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "feePerKw" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'feePerKw (\ x__ y__ -> x__ {_Channel'feePerKw = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "unsettledBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'unsettledBalance (\ x__ y__ -> x__ {_Channel'unsettledBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "totalSatoshisSent" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'totalSatoshisSent (\ x__ y__ -> x__ {_Channel'totalSatoshisSent = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "totalSatoshisReceived" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'totalSatoshisReceived (\ x__ y__ -> x__ {_Channel'totalSatoshisReceived = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "numUpdates" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'numUpdates (\ x__ y__ -> x__ {_Channel'numUpdates = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "pendingHtlcs" [HTLC] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'pendingHtlcs (\ x__ y__ -> x__ {_Channel'pendingHtlcs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Channel "vec'pendingHtlcs" (Data.Vector.Vector HTLC) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'pendingHtlcs (\ x__ y__ -> x__ {_Channel'pendingHtlcs = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "csvDelay" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'csvDelay (\ x__ y__ -> x__ {_Channel'csvDelay = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "private" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'private (\ x__ y__ -> x__ {_Channel'private = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "initiator" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'initiator (\ x__ y__ -> x__ {_Channel'initiator = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "chanStatusFlags" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'chanStatusFlags (\ x__ y__ -> x__ {_Channel'chanStatusFlags = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "localChanReserveSat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'localChanReserveSat (\ x__ y__ -> x__ {_Channel'localChanReserveSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "remoteChanReserveSat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'remoteChanReserveSat (\ x__ y__ -> x__ {_Channel'remoteChanReserveSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "staticRemoteKey" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'staticRemoteKey (\ x__ y__ -> x__ {_Channel'staticRemoteKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "commitmentType" CommitmentType where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'commitmentType (\ x__ y__ -> x__ {_Channel'commitmentType = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "lifetime" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'lifetime (\ x__ y__ -> x__ {_Channel'lifetime = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "uptime" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'uptime (\ x__ y__ -> x__ {_Channel'uptime = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "closeAddress" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'closeAddress (\ x__ y__ -> x__ {_Channel'closeAddress = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "pushAmountSat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'pushAmountSat (\ x__ y__ -> x__ {_Channel'pushAmountSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "thawHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'thawHeight (\ x__ y__ -> x__ {_Channel'thawHeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "localConstraints" ChannelConstraints where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'localConstraints (\ x__ y__ -> x__ {_Channel'localConstraints = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Channel "maybe'localConstraints" (Prelude.Maybe ChannelConstraints) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'localConstraints (\ x__ y__ -> x__ {_Channel'localConstraints = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Channel "remoteConstraints" ChannelConstraints where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'remoteConstraints (\ x__ y__ -> x__ {_Channel'remoteConstraints = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Channel "maybe'remoteConstraints" (Prelude.Maybe ChannelConstraints) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Channel'remoteConstraints (\ x__ y__ -> x__ {_Channel'remoteConstraints = y__})) Prelude.id instance Data.ProtoLens.Message Channel where messageName _ = Data.Text.pack "lnrpc.Channel" packedMessageDescriptor _ = "\n\ \\aChannel\DC2\SYN\n\ \\ACKactive\CAN\SOH \SOH(\bR\ACKactive\DC2#\n\ \\rremote_pubkey\CAN\STX \SOH(\tR\fremotePubkey\DC2#\n\ \\rchannel_point\CAN\ETX \SOH(\tR\fchannelPoint\DC2\ESC\n\ \\achan_id\CAN\EOT \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\SUB\n\ \\bcapacity\CAN\ENQ \SOH(\ETXR\bcapacity\DC2#\n\ \\rlocal_balance\CAN\ACK \SOH(\ETXR\flocalBalance\DC2%\n\ \\SOremote_balance\CAN\a \SOH(\ETXR\rremoteBalance\DC2\GS\n\ \\n\ \commit_fee\CAN\b \SOH(\ETXR\tcommitFee\DC2#\n\ \\rcommit_weight\CAN\t \SOH(\ETXR\fcommitWeight\DC2\FS\n\ \\n\ \fee_per_kw\CAN\n\ \ \SOH(\ETXR\bfeePerKw\DC2+\n\ \\DC1unsettled_balance\CAN\v \SOH(\ETXR\DLEunsettledBalance\DC2.\n\ \\DC3total_satoshis_sent\CAN\f \SOH(\ETXR\DC1totalSatoshisSent\DC26\n\ \\ETBtotal_satoshis_received\CAN\r \SOH(\ETXR\NAKtotalSatoshisReceived\DC2\US\n\ \\vnum_updates\CAN\SO \SOH(\EOTR\n\ \numUpdates\DC20\n\ \\rpending_htlcs\CAN\SI \ETX(\v2\v.lnrpc.HTLCR\fpendingHtlcs\DC2\US\n\ \\tcsv_delay\CAN\DLE \SOH(\rR\bcsvDelayB\STX\CAN\SOH\DC2\CAN\n\ \\aprivate\CAN\DC1 \SOH(\bR\aprivate\DC2\FS\n\ \\tinitiator\CAN\DC2 \SOH(\bR\tinitiator\DC2*\n\ \\DC1chan_status_flags\CAN\DC3 \SOH(\tR\SIchanStatusFlags\DC27\n\ \\SYNlocal_chan_reserve_sat\CAN\DC4 \SOH(\ETXR\DC3localChanReserveSatB\STX\CAN\SOH\DC29\n\ \\ETBremote_chan_reserve_sat\CAN\NAK \SOH(\ETXR\DC4remoteChanReserveSatB\STX\CAN\SOH\DC2.\n\ \\DC1static_remote_key\CAN\SYN \SOH(\bR\SIstaticRemoteKeyB\STX\CAN\SOH\DC2>\n\ \\SIcommitment_type\CAN\SUB \SOH(\SO2\NAK.lnrpc.CommitmentTypeR\SOcommitmentType\DC2\SUB\n\ \\blifetime\CAN\ETB \SOH(\ETXR\blifetime\DC2\SYN\n\ \\ACKuptime\CAN\CAN \SOH(\ETXR\ACKuptime\DC2#\n\ \\rclose_address\CAN\EM \SOH(\tR\fcloseAddress\DC2&\n\ \\SIpush_amount_sat\CAN\ESC \SOH(\EOTR\rpushAmountSat\DC2\US\n\ \\vthaw_height\CAN\FS \SOH(\rR\n\ \thawHeight\DC2F\n\ \\DC1local_constraints\CAN\GS \SOH(\v2\EM.lnrpc.ChannelConstraintsR\DLElocalConstraints\DC2H\n\ \\DC2remote_constraints\CAN\RS \SOH(\v2\EM.lnrpc.ChannelConstraintsR\DC1remoteConstraints" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let active__field_descriptor = Data.ProtoLens.FieldDescriptor "active" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"active")) :: Data.ProtoLens.FieldDescriptor Channel remotePubkey__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_pubkey" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remotePubkey")) :: Data.ProtoLens.FieldDescriptor Channel channelPoint__field_descriptor = Data.ProtoLens.FieldDescriptor "channel_point" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"channelPoint")) :: Data.ProtoLens.FieldDescriptor Channel chanId__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanId")) :: Data.ProtoLens.FieldDescriptor Channel capacity__field_descriptor = Data.ProtoLens.FieldDescriptor "capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"capacity")) :: Data.ProtoLens.FieldDescriptor Channel localBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "local_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"localBalance")) :: Data.ProtoLens.FieldDescriptor Channel remoteBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteBalance")) :: Data.ProtoLens.FieldDescriptor Channel commitFee__field_descriptor = Data.ProtoLens.FieldDescriptor "commit_fee" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"commitFee")) :: Data.ProtoLens.FieldDescriptor Channel commitWeight__field_descriptor = Data.ProtoLens.FieldDescriptor "commit_weight" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"commitWeight")) :: Data.ProtoLens.FieldDescriptor Channel feePerKw__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_per_kw" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"feePerKw")) :: Data.ProtoLens.FieldDescriptor Channel unsettledBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "unsettled_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"unsettledBalance")) :: Data.ProtoLens.FieldDescriptor Channel totalSatoshisSent__field_descriptor = Data.ProtoLens.FieldDescriptor "total_satoshis_sent" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalSatoshisSent")) :: Data.ProtoLens.FieldDescriptor Channel totalSatoshisReceived__field_descriptor = Data.ProtoLens.FieldDescriptor "total_satoshis_received" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalSatoshisReceived")) :: Data.ProtoLens.FieldDescriptor Channel numUpdates__field_descriptor = Data.ProtoLens.FieldDescriptor "num_updates" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"numUpdates")) :: Data.ProtoLens.FieldDescriptor Channel pendingHtlcs__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_htlcs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor HTLC) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"pendingHtlcs")) :: Data.ProtoLens.FieldDescriptor Channel csvDelay__field_descriptor = Data.ProtoLens.FieldDescriptor "csv_delay" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"csvDelay")) :: Data.ProtoLens.FieldDescriptor Channel private__field_descriptor = Data.ProtoLens.FieldDescriptor "private" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"private")) :: Data.ProtoLens.FieldDescriptor Channel initiator__field_descriptor = Data.ProtoLens.FieldDescriptor "initiator" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"initiator")) :: Data.ProtoLens.FieldDescriptor Channel chanStatusFlags__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_status_flags" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanStatusFlags")) :: Data.ProtoLens.FieldDescriptor Channel localChanReserveSat__field_descriptor = Data.ProtoLens.FieldDescriptor "local_chan_reserve_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"localChanReserveSat")) :: Data.ProtoLens.FieldDescriptor Channel remoteChanReserveSat__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_chan_reserve_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteChanReserveSat")) :: Data.ProtoLens.FieldDescriptor Channel staticRemoteKey__field_descriptor = Data.ProtoLens.FieldDescriptor "static_remote_key" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"staticRemoteKey")) :: Data.ProtoLens.FieldDescriptor Channel commitmentType__field_descriptor = Data.ProtoLens.FieldDescriptor "commitment_type" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor CommitmentType) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"commitmentType")) :: Data.ProtoLens.FieldDescriptor Channel lifetime__field_descriptor = Data.ProtoLens.FieldDescriptor "lifetime" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"lifetime")) :: Data.ProtoLens.FieldDescriptor Channel uptime__field_descriptor = Data.ProtoLens.FieldDescriptor "uptime" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"uptime")) :: Data.ProtoLens.FieldDescriptor Channel closeAddress__field_descriptor = Data.ProtoLens.FieldDescriptor "close_address" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closeAddress")) :: Data.ProtoLens.FieldDescriptor Channel pushAmountSat__field_descriptor = Data.ProtoLens.FieldDescriptor "push_amount_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pushAmountSat")) :: Data.ProtoLens.FieldDescriptor Channel thawHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "thaw_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"thawHeight")) :: Data.ProtoLens.FieldDescriptor Channel localConstraints__field_descriptor = Data.ProtoLens.FieldDescriptor "local_constraints" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelConstraints) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'localConstraints")) :: Data.ProtoLens.FieldDescriptor Channel remoteConstraints__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_constraints" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelConstraints) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'remoteConstraints")) :: Data.ProtoLens.FieldDescriptor Channel in Data.Map.fromList [(Data.ProtoLens.Tag 1, active__field_descriptor), (Data.ProtoLens.Tag 2, remotePubkey__field_descriptor), (Data.ProtoLens.Tag 3, channelPoint__field_descriptor), (Data.ProtoLens.Tag 4, chanId__field_descriptor), (Data.ProtoLens.Tag 5, capacity__field_descriptor), (Data.ProtoLens.Tag 6, localBalance__field_descriptor), (Data.ProtoLens.Tag 7, remoteBalance__field_descriptor), (Data.ProtoLens.Tag 8, commitFee__field_descriptor), (Data.ProtoLens.Tag 9, commitWeight__field_descriptor), (Data.ProtoLens.Tag 10, feePerKw__field_descriptor), (Data.ProtoLens.Tag 11, unsettledBalance__field_descriptor), (Data.ProtoLens.Tag 12, totalSatoshisSent__field_descriptor), (Data.ProtoLens.Tag 13, totalSatoshisReceived__field_descriptor), (Data.ProtoLens.Tag 14, numUpdates__field_descriptor), (Data.ProtoLens.Tag 15, pendingHtlcs__field_descriptor), (Data.ProtoLens.Tag 16, csvDelay__field_descriptor), (Data.ProtoLens.Tag 17, private__field_descriptor), (Data.ProtoLens.Tag 18, initiator__field_descriptor), (Data.ProtoLens.Tag 19, chanStatusFlags__field_descriptor), (Data.ProtoLens.Tag 20, localChanReserveSat__field_descriptor), (Data.ProtoLens.Tag 21, remoteChanReserveSat__field_descriptor), (Data.ProtoLens.Tag 22, staticRemoteKey__field_descriptor), (Data.ProtoLens.Tag 26, commitmentType__field_descriptor), (Data.ProtoLens.Tag 23, lifetime__field_descriptor), (Data.ProtoLens.Tag 24, uptime__field_descriptor), (Data.ProtoLens.Tag 25, closeAddress__field_descriptor), (Data.ProtoLens.Tag 27, pushAmountSat__field_descriptor), (Data.ProtoLens.Tag 28, thawHeight__field_descriptor), (Data.ProtoLens.Tag 29, localConstraints__field_descriptor), (Data.ProtoLens.Tag 30, remoteConstraints__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Channel'_unknownFields (\ x__ y__ -> x__ {_Channel'_unknownFields = y__}) defMessage = Channel'_constructor {_Channel'active = Data.ProtoLens.fieldDefault, _Channel'remotePubkey = Data.ProtoLens.fieldDefault, _Channel'channelPoint = Data.ProtoLens.fieldDefault, _Channel'chanId = Data.ProtoLens.fieldDefault, _Channel'capacity = Data.ProtoLens.fieldDefault, _Channel'localBalance = Data.ProtoLens.fieldDefault, _Channel'remoteBalance = Data.ProtoLens.fieldDefault, _Channel'commitFee = Data.ProtoLens.fieldDefault, _Channel'commitWeight = Data.ProtoLens.fieldDefault, _Channel'feePerKw = Data.ProtoLens.fieldDefault, _Channel'unsettledBalance = Data.ProtoLens.fieldDefault, _Channel'totalSatoshisSent = Data.ProtoLens.fieldDefault, _Channel'totalSatoshisReceived = Data.ProtoLens.fieldDefault, _Channel'numUpdates = Data.ProtoLens.fieldDefault, _Channel'pendingHtlcs = Data.Vector.Generic.empty, _Channel'csvDelay = Data.ProtoLens.fieldDefault, _Channel'private = Data.ProtoLens.fieldDefault, _Channel'initiator = Data.ProtoLens.fieldDefault, _Channel'chanStatusFlags = Data.ProtoLens.fieldDefault, _Channel'localChanReserveSat = Data.ProtoLens.fieldDefault, _Channel'remoteChanReserveSat = Data.ProtoLens.fieldDefault, _Channel'staticRemoteKey = Data.ProtoLens.fieldDefault, _Channel'commitmentType = Data.ProtoLens.fieldDefault, _Channel'lifetime = Data.ProtoLens.fieldDefault, _Channel'uptime = Data.ProtoLens.fieldDefault, _Channel'closeAddress = Data.ProtoLens.fieldDefault, _Channel'pushAmountSat = Data.ProtoLens.fieldDefault, _Channel'thawHeight = Data.ProtoLens.fieldDefault, _Channel'localConstraints = Prelude.Nothing, _Channel'remoteConstraints = Prelude.Nothing, _Channel'_unknownFields = []} parseMessage = let loop :: Channel -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld HTLC -> Data.ProtoLens.Encoding.Bytes.Parser Channel loop x mutable'pendingHtlcs = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'pendingHtlcs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'pendingHtlcs) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'pendingHtlcs") frozen'pendingHtlcs x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "active" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"active") y x) mutable'pendingHtlcs 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "remote_pubkey" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remotePubkey") y x) mutable'pendingHtlcs 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "channel_point" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channelPoint") y x) mutable'pendingHtlcs 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanId") y x) mutable'pendingHtlcs 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"capacity") y x) mutable'pendingHtlcs 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "local_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localBalance") y x) mutable'pendingHtlcs 56 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "remote_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteBalance") y x) mutable'pendingHtlcs 64 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "commit_fee" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"commitFee") y x) mutable'pendingHtlcs 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "commit_weight" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"commitWeight") y x) mutable'pendingHtlcs 80 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee_per_kw" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feePerKw") y x) mutable'pendingHtlcs 88 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "unsettled_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"unsettledBalance") y x) mutable'pendingHtlcs 96 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_satoshis_sent" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalSatoshisSent") y x) mutable'pendingHtlcs 104 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_satoshis_received" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalSatoshisReceived") y x) mutable'pendingHtlcs 112 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "num_updates" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"numUpdates") y x) mutable'pendingHtlcs 122 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_htlcs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'pendingHtlcs y) loop x v 128 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "csv_delay" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"csvDelay") y x) mutable'pendingHtlcs 136 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "private" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"private") y x) mutable'pendingHtlcs 144 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "initiator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"initiator") y x) mutable'pendingHtlcs 154 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "chan_status_flags" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanStatusFlags") y x) mutable'pendingHtlcs 160 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "local_chan_reserve_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localChanReserveSat") y x) mutable'pendingHtlcs 168 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "remote_chan_reserve_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteChanReserveSat") y x) mutable'pendingHtlcs 176 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "static_remote_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"staticRemoteKey") y x) mutable'pendingHtlcs 208 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "commitment_type" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"commitmentType") y x) mutable'pendingHtlcs 184 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "lifetime" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"lifetime") y x) mutable'pendingHtlcs 192 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "uptime" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"uptime") y x) mutable'pendingHtlcs 202 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "close_address" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closeAddress") y x) mutable'pendingHtlcs 216 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "push_amount_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pushAmountSat") y x) mutable'pendingHtlcs 224 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "thaw_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"thawHeight") y x) mutable'pendingHtlcs 234 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "local_constraints" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localConstraints") y x) mutable'pendingHtlcs 242 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "remote_constraints" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteConstraints") y x) mutable'pendingHtlcs wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'pendingHtlcs in (Data.ProtoLens.Encoding.Bytes.) (do mutable'pendingHtlcs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'pendingHtlcs) "Channel" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"active") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remotePubkey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"channelPoint") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"capacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"localBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 56) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"commitFee") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 64) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"commitWeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"feePerKw") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 80) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"unsettledBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 88) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalSatoshisSent") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 96) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalSatoshisReceived") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 104) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"numUpdates") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 112) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 122) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'pendingHtlcs") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"csvDelay") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 128) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"private") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 136) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"initiator") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 144) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanStatusFlags") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 154) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"localChanReserveSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 160) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteChanReserveSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 168) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"staticRemoteKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 176) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"commitmentType") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 208) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"lifetime") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 184) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"uptime") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 192) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closeAddress") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 202) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pushAmountSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 216) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"thawHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 224) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'localConstraints") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 234) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'remoteConstraints") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 242) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))))))))))))))))))))))))) instance Control.DeepSeq.NFData Channel where rnf = \ x__ -> Control.DeepSeq.deepseq (_Channel'_unknownFields x__) (Control.DeepSeq.deepseq (_Channel'active x__) (Control.DeepSeq.deepseq (_Channel'remotePubkey x__) (Control.DeepSeq.deepseq (_Channel'channelPoint x__) (Control.DeepSeq.deepseq (_Channel'chanId x__) (Control.DeepSeq.deepseq (_Channel'capacity x__) (Control.DeepSeq.deepseq (_Channel'localBalance x__) (Control.DeepSeq.deepseq (_Channel'remoteBalance x__) (Control.DeepSeq.deepseq (_Channel'commitFee x__) (Control.DeepSeq.deepseq (_Channel'commitWeight x__) (Control.DeepSeq.deepseq (_Channel'feePerKw x__) (Control.DeepSeq.deepseq (_Channel'unsettledBalance x__) (Control.DeepSeq.deepseq (_Channel'totalSatoshisSent x__) (Control.DeepSeq.deepseq (_Channel'totalSatoshisReceived x__) (Control.DeepSeq.deepseq (_Channel'numUpdates x__) (Control.DeepSeq.deepseq (_Channel'pendingHtlcs x__) (Control.DeepSeq.deepseq (_Channel'csvDelay x__) (Control.DeepSeq.deepseq (_Channel'private x__) (Control.DeepSeq.deepseq (_Channel'initiator x__) (Control.DeepSeq.deepseq (_Channel'chanStatusFlags x__) (Control.DeepSeq.deepseq (_Channel'localChanReserveSat x__) (Control.DeepSeq.deepseq (_Channel'remoteChanReserveSat x__) (Control.DeepSeq.deepseq (_Channel'staticRemoteKey x__) (Control.DeepSeq.deepseq (_Channel'commitmentType x__) (Control.DeepSeq.deepseq (_Channel'lifetime x__) (Control.DeepSeq.deepseq (_Channel'uptime x__) (Control.DeepSeq.deepseq (_Channel'closeAddress x__) (Control.DeepSeq.deepseq (_Channel'pushAmountSat x__) (Control.DeepSeq.deepseq (_Channel'thawHeight x__) (Control.DeepSeq.deepseq (_Channel'localConstraints x__) (Control.DeepSeq.deepseq (_Channel'remoteConstraints x__) ())))))))))))))))))))))))))))))) {- | Fields : -} data ChannelBalanceRequest = ChannelBalanceRequest'_constructor {_ChannelBalanceRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelBalanceRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelBalanceRequest instance Data.ProtoLens.Message ChannelBalanceRequest where messageName _ = Data.Text.pack "lnrpc.ChannelBalanceRequest" packedMessageDescriptor _ = "\n\ \\NAKChannelBalanceRequest" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _ChannelBalanceRequest'_unknownFields (\ x__ y__ -> x__ {_ChannelBalanceRequest'_unknownFields = y__}) defMessage = ChannelBalanceRequest'_constructor {_ChannelBalanceRequest'_unknownFields = []} parseMessage = let loop :: ChannelBalanceRequest -> Data.ProtoLens.Encoding.Bytes.Parser ChannelBalanceRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelBalanceRequest" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData ChannelBalanceRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelBalanceRequest'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.balance' @:: Lens' ChannelBalanceResponse Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.pendingOpenBalance' @:: Lens' ChannelBalanceResponse Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.localBalance' @:: Lens' ChannelBalanceResponse Amount@ * 'Proto.Lnrpc.Ln0_Fields.maybe'localBalance' @:: Lens' ChannelBalanceResponse (Prelude.Maybe Amount)@ * 'Proto.Lnrpc.Ln0_Fields.remoteBalance' @:: Lens' ChannelBalanceResponse Amount@ * 'Proto.Lnrpc.Ln0_Fields.maybe'remoteBalance' @:: Lens' ChannelBalanceResponse (Prelude.Maybe Amount)@ * 'Proto.Lnrpc.Ln0_Fields.unsettledLocalBalance' @:: Lens' ChannelBalanceResponse Amount@ * 'Proto.Lnrpc.Ln0_Fields.maybe'unsettledLocalBalance' @:: Lens' ChannelBalanceResponse (Prelude.Maybe Amount)@ * 'Proto.Lnrpc.Ln0_Fields.unsettledRemoteBalance' @:: Lens' ChannelBalanceResponse Amount@ * 'Proto.Lnrpc.Ln0_Fields.maybe'unsettledRemoteBalance' @:: Lens' ChannelBalanceResponse (Prelude.Maybe Amount)@ * 'Proto.Lnrpc.Ln0_Fields.pendingOpenLocalBalance' @:: Lens' ChannelBalanceResponse Amount@ * 'Proto.Lnrpc.Ln0_Fields.maybe'pendingOpenLocalBalance' @:: Lens' ChannelBalanceResponse (Prelude.Maybe Amount)@ * 'Proto.Lnrpc.Ln0_Fields.pendingOpenRemoteBalance' @:: Lens' ChannelBalanceResponse Amount@ * 'Proto.Lnrpc.Ln0_Fields.maybe'pendingOpenRemoteBalance' @:: Lens' ChannelBalanceResponse (Prelude.Maybe Amount)@ -} data ChannelBalanceResponse = ChannelBalanceResponse'_constructor {_ChannelBalanceResponse'balance :: !Data.Int.Int64, _ChannelBalanceResponse'pendingOpenBalance :: !Data.Int.Int64, _ChannelBalanceResponse'localBalance :: !(Prelude.Maybe Amount), _ChannelBalanceResponse'remoteBalance :: !(Prelude.Maybe Amount), _ChannelBalanceResponse'unsettledLocalBalance :: !(Prelude.Maybe Amount), _ChannelBalanceResponse'unsettledRemoteBalance :: !(Prelude.Maybe Amount), _ChannelBalanceResponse'pendingOpenLocalBalance :: !(Prelude.Maybe Amount), _ChannelBalanceResponse'pendingOpenRemoteBalance :: !(Prelude.Maybe Amount), _ChannelBalanceResponse'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelBalanceResponse where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelBalanceResponse instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "balance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'balance (\ x__ y__ -> x__ {_ChannelBalanceResponse'balance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "pendingOpenBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'pendingOpenBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'pendingOpenBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "localBalance" Amount where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'localBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'localBalance = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "maybe'localBalance" (Prelude.Maybe Amount) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'localBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'localBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "remoteBalance" Amount where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'remoteBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'remoteBalance = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "maybe'remoteBalance" (Prelude.Maybe Amount) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'remoteBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'remoteBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "unsettledLocalBalance" Amount where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'unsettledLocalBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'unsettledLocalBalance = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "maybe'unsettledLocalBalance" (Prelude.Maybe Amount) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'unsettledLocalBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'unsettledLocalBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "unsettledRemoteBalance" Amount where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'unsettledRemoteBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'unsettledRemoteBalance = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "maybe'unsettledRemoteBalance" (Prelude.Maybe Amount) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'unsettledRemoteBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'unsettledRemoteBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "pendingOpenLocalBalance" Amount where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'pendingOpenLocalBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'pendingOpenLocalBalance = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "maybe'pendingOpenLocalBalance" (Prelude.Maybe Amount) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'pendingOpenLocalBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'pendingOpenLocalBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "pendingOpenRemoteBalance" Amount where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'pendingOpenRemoteBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'pendingOpenRemoteBalance = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelBalanceResponse "maybe'pendingOpenRemoteBalance" (Prelude.Maybe Amount) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelBalanceResponse'pendingOpenRemoteBalance (\ x__ y__ -> x__ {_ChannelBalanceResponse'pendingOpenRemoteBalance = y__})) Prelude.id instance Data.ProtoLens.Message ChannelBalanceResponse where messageName _ = Data.Text.pack "lnrpc.ChannelBalanceResponse" packedMessageDescriptor _ = "\n\ \\SYNChannelBalanceResponse\DC2\FS\n\ \\abalance\CAN\SOH \SOH(\ETXR\abalanceB\STX\CAN\SOH\DC24\n\ \\DC4pending_open_balance\CAN\STX \SOH(\ETXR\DC2pendingOpenBalanceB\STX\CAN\SOH\DC22\n\ \\rlocal_balance\CAN\ETX \SOH(\v2\r.lnrpc.AmountR\flocalBalance\DC24\n\ \\SOremote_balance\CAN\EOT \SOH(\v2\r.lnrpc.AmountR\rremoteBalance\DC2E\n\ \\ETBunsettled_local_balance\CAN\ENQ \SOH(\v2\r.lnrpc.AmountR\NAKunsettledLocalBalance\DC2G\n\ \\CANunsettled_remote_balance\CAN\ACK \SOH(\v2\r.lnrpc.AmountR\SYNunsettledRemoteBalance\DC2J\n\ \\SUBpending_open_local_balance\CAN\a \SOH(\v2\r.lnrpc.AmountR\ETBpendingOpenLocalBalance\DC2L\n\ \\ESCpending_open_remote_balance\CAN\b \SOH(\v2\r.lnrpc.AmountR\CANpendingOpenRemoteBalance" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let balance__field_descriptor = Data.ProtoLens.FieldDescriptor "balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"balance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse pendingOpenBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_open_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pendingOpenBalance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse localBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "local_balance" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Amount) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'localBalance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse remoteBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_balance" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Amount) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'remoteBalance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse unsettledLocalBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "unsettled_local_balance" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Amount) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'unsettledLocalBalance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse unsettledRemoteBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "unsettled_remote_balance" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Amount) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'unsettledRemoteBalance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse pendingOpenLocalBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_open_local_balance" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Amount) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'pendingOpenLocalBalance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse pendingOpenRemoteBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_open_remote_balance" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Amount) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'pendingOpenRemoteBalance")) :: Data.ProtoLens.FieldDescriptor ChannelBalanceResponse in Data.Map.fromList [(Data.ProtoLens.Tag 1, balance__field_descriptor), (Data.ProtoLens.Tag 2, pendingOpenBalance__field_descriptor), (Data.ProtoLens.Tag 3, localBalance__field_descriptor), (Data.ProtoLens.Tag 4, remoteBalance__field_descriptor), (Data.ProtoLens.Tag 5, unsettledLocalBalance__field_descriptor), (Data.ProtoLens.Tag 6, unsettledRemoteBalance__field_descriptor), (Data.ProtoLens.Tag 7, pendingOpenLocalBalance__field_descriptor), (Data.ProtoLens.Tag 8, pendingOpenRemoteBalance__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelBalanceResponse'_unknownFields (\ x__ y__ -> x__ {_ChannelBalanceResponse'_unknownFields = y__}) defMessage = ChannelBalanceResponse'_constructor {_ChannelBalanceResponse'balance = Data.ProtoLens.fieldDefault, _ChannelBalanceResponse'pendingOpenBalance = Data.ProtoLens.fieldDefault, _ChannelBalanceResponse'localBalance = Prelude.Nothing, _ChannelBalanceResponse'remoteBalance = Prelude.Nothing, _ChannelBalanceResponse'unsettledLocalBalance = Prelude.Nothing, _ChannelBalanceResponse'unsettledRemoteBalance = Prelude.Nothing, _ChannelBalanceResponse'pendingOpenLocalBalance = Prelude.Nothing, _ChannelBalanceResponse'pendingOpenRemoteBalance = Prelude.Nothing, _ChannelBalanceResponse'_unknownFields = []} parseMessage = let loop :: ChannelBalanceResponse -> Data.ProtoLens.Encoding.Bytes.Parser ChannelBalanceResponse loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"balance") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "pending_open_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingOpenBalance") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "local_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localBalance") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "remote_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteBalance") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "unsettled_local_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"unsettledLocalBalance") y x) 50 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "unsettled_remote_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"unsettledRemoteBalance") y x) 58 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_open_local_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingOpenLocalBalance") y x) 66 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_open_remote_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingOpenRemoteBalance") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelBalanceResponse" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"balance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pendingOpenBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'localBalance") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'remoteBalance") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'unsettledLocalBalance") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'unsettledRemoteBalance") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'pendingOpenLocalBalance") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 58) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'pendingOpenRemoteBalance") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 66) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))) instance Control.DeepSeq.NFData ChannelBalanceResponse where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelBalanceResponse'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'balance x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'pendingOpenBalance x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'localBalance x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'remoteBalance x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'unsettledLocalBalance x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'unsettledRemoteBalance x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'pendingOpenLocalBalance x__) (Control.DeepSeq.deepseq (_ChannelBalanceResponse'pendingOpenRemoteBalance x__) ())))))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.channelPoint' @:: Lens' ChannelCloseSummary Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.chanId' @:: Lens' ChannelCloseSummary Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.chainHash' @:: Lens' ChannelCloseSummary Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.closingTxHash' @:: Lens' ChannelCloseSummary Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.remotePubkey' @:: Lens' ChannelCloseSummary Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.capacity' @:: Lens' ChannelCloseSummary Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.closeHeight' @:: Lens' ChannelCloseSummary Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.settledBalance' @:: Lens' ChannelCloseSummary Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.timeLockedBalance' @:: Lens' ChannelCloseSummary Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.closeType' @:: Lens' ChannelCloseSummary ChannelCloseSummary'ClosureType@ * 'Proto.Lnrpc.Ln0_Fields.openInitiator' @:: Lens' ChannelCloseSummary Initiator@ * 'Proto.Lnrpc.Ln0_Fields.closeInitiator' @:: Lens' ChannelCloseSummary Initiator@ * 'Proto.Lnrpc.Ln0_Fields.resolutions' @:: Lens' ChannelCloseSummary [Resolution]@ * 'Proto.Lnrpc.Ln0_Fields.vec'resolutions' @:: Lens' ChannelCloseSummary (Data.Vector.Vector Resolution)@ -} data ChannelCloseSummary = ChannelCloseSummary'_constructor {_ChannelCloseSummary'channelPoint :: !Data.Text.Text, _ChannelCloseSummary'chanId :: !Data.Word.Word64, _ChannelCloseSummary'chainHash :: !Data.Text.Text, _ChannelCloseSummary'closingTxHash :: !Data.Text.Text, _ChannelCloseSummary'remotePubkey :: !Data.Text.Text, _ChannelCloseSummary'capacity :: !Data.Int.Int64, _ChannelCloseSummary'closeHeight :: !Data.Word.Word32, _ChannelCloseSummary'settledBalance :: !Data.Int.Int64, _ChannelCloseSummary'timeLockedBalance :: !Data.Int.Int64, _ChannelCloseSummary'closeType :: !ChannelCloseSummary'ClosureType, _ChannelCloseSummary'openInitiator :: !Initiator, _ChannelCloseSummary'closeInitiator :: !Initiator, _ChannelCloseSummary'resolutions :: !(Data.Vector.Vector Resolution), _ChannelCloseSummary'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelCloseSummary where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelCloseSummary instance Data.ProtoLens.Field.HasField ChannelCloseSummary "channelPoint" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'channelPoint (\ x__ y__ -> x__ {_ChannelCloseSummary'channelPoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "chanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'chanId (\ x__ y__ -> x__ {_ChannelCloseSummary'chanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "chainHash" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'chainHash (\ x__ y__ -> x__ {_ChannelCloseSummary'chainHash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "closingTxHash" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'closingTxHash (\ x__ y__ -> x__ {_ChannelCloseSummary'closingTxHash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "remotePubkey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'remotePubkey (\ x__ y__ -> x__ {_ChannelCloseSummary'remotePubkey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "capacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'capacity (\ x__ y__ -> x__ {_ChannelCloseSummary'capacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "closeHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'closeHeight (\ x__ y__ -> x__ {_ChannelCloseSummary'closeHeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "settledBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'settledBalance (\ x__ y__ -> x__ {_ChannelCloseSummary'settledBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "timeLockedBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'timeLockedBalance (\ x__ y__ -> x__ {_ChannelCloseSummary'timeLockedBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "closeType" ChannelCloseSummary'ClosureType where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'closeType (\ x__ y__ -> x__ {_ChannelCloseSummary'closeType = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "openInitiator" Initiator where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'openInitiator (\ x__ y__ -> x__ {_ChannelCloseSummary'openInitiator = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "closeInitiator" Initiator where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'closeInitiator (\ x__ y__ -> x__ {_ChannelCloseSummary'closeInitiator = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelCloseSummary "resolutions" [Resolution] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'resolutions (\ x__ y__ -> x__ {_ChannelCloseSummary'resolutions = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField ChannelCloseSummary "vec'resolutions" (Data.Vector.Vector Resolution) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelCloseSummary'resolutions (\ x__ y__ -> x__ {_ChannelCloseSummary'resolutions = y__})) Prelude.id instance Data.ProtoLens.Message ChannelCloseSummary where messageName _ = Data.Text.pack "lnrpc.ChannelCloseSummary" packedMessageDescriptor _ = "\n\ \\DC3ChannelCloseSummary\DC2#\n\ \\rchannel_point\CAN\SOH \SOH(\tR\fchannelPoint\DC2\ESC\n\ \\achan_id\CAN\STX \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\GS\n\ \\n\ \chain_hash\CAN\ETX \SOH(\tR\tchainHash\DC2&\n\ \\SIclosing_tx_hash\CAN\EOT \SOH(\tR\rclosingTxHash\DC2#\n\ \\rremote_pubkey\CAN\ENQ \SOH(\tR\fremotePubkey\DC2\SUB\n\ \\bcapacity\CAN\ACK \SOH(\ETXR\bcapacity\DC2!\n\ \\fclose_height\CAN\a \SOH(\rR\vcloseHeight\DC2'\n\ \\SIsettled_balance\CAN\b \SOH(\ETXR\SOsettledBalance\DC2.\n\ \\DC3time_locked_balance\CAN\t \SOH(\ETXR\DC1timeLockedBalance\DC2E\n\ \\n\ \close_type\CAN\n\ \ \SOH(\SO2&.lnrpc.ChannelCloseSummary.ClosureTypeR\tcloseType\DC27\n\ \\SOopen_initiator\CAN\v \SOH(\SO2\DLE.lnrpc.InitiatorR\ropenInitiator\DC29\n\ \\SIclose_initiator\CAN\f \SOH(\SO2\DLE.lnrpc.InitiatorR\SOcloseInitiator\DC23\n\ \\vresolutions\CAN\r \ETX(\v2\DC1.lnrpc.ResolutionR\vresolutions\"\138\SOH\n\ \\vClosureType\DC2\NAK\n\ \\DC1COOPERATIVE_CLOSE\DLE\NUL\DC2\NAK\n\ \\DC1LOCAL_FORCE_CLOSE\DLE\SOH\DC2\SYN\n\ \\DC2REMOTE_FORCE_CLOSE\DLE\STX\DC2\DLE\n\ \\fBREACH_CLOSE\DLE\ETX\DC2\DC4\n\ \\DLEFUNDING_CANCELED\DLE\EOT\DC2\r\n\ \\tABANDONED\DLE\ENQ" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let channelPoint__field_descriptor = Data.ProtoLens.FieldDescriptor "channel_point" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"channelPoint")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary chanId__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanId")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary chainHash__field_descriptor = Data.ProtoLens.FieldDescriptor "chain_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chainHash")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary closingTxHash__field_descriptor = Data.ProtoLens.FieldDescriptor "closing_tx_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closingTxHash")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary remotePubkey__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_pubkey" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remotePubkey")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary capacity__field_descriptor = Data.ProtoLens.FieldDescriptor "capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"capacity")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary closeHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "close_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closeHeight")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary settledBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "settled_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"settledBalance")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary timeLockedBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "time_locked_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"timeLockedBalance")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary closeType__field_descriptor = Data.ProtoLens.FieldDescriptor "close_type" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor ChannelCloseSummary'ClosureType) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closeType")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary openInitiator__field_descriptor = Data.ProtoLens.FieldDescriptor "open_initiator" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor Initiator) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"openInitiator")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary closeInitiator__field_descriptor = Data.ProtoLens.FieldDescriptor "close_initiator" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor Initiator) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closeInitiator")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary resolutions__field_descriptor = Data.ProtoLens.FieldDescriptor "resolutions" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Resolution) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"resolutions")) :: Data.ProtoLens.FieldDescriptor ChannelCloseSummary in Data.Map.fromList [(Data.ProtoLens.Tag 1, channelPoint__field_descriptor), (Data.ProtoLens.Tag 2, chanId__field_descriptor), (Data.ProtoLens.Tag 3, chainHash__field_descriptor), (Data.ProtoLens.Tag 4, closingTxHash__field_descriptor), (Data.ProtoLens.Tag 5, remotePubkey__field_descriptor), (Data.ProtoLens.Tag 6, capacity__field_descriptor), (Data.ProtoLens.Tag 7, closeHeight__field_descriptor), (Data.ProtoLens.Tag 8, settledBalance__field_descriptor), (Data.ProtoLens.Tag 9, timeLockedBalance__field_descriptor), (Data.ProtoLens.Tag 10, closeType__field_descriptor), (Data.ProtoLens.Tag 11, openInitiator__field_descriptor), (Data.ProtoLens.Tag 12, closeInitiator__field_descriptor), (Data.ProtoLens.Tag 13, resolutions__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelCloseSummary'_unknownFields (\ x__ y__ -> x__ {_ChannelCloseSummary'_unknownFields = y__}) defMessage = ChannelCloseSummary'_constructor {_ChannelCloseSummary'channelPoint = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'chanId = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'chainHash = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'closingTxHash = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'remotePubkey = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'capacity = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'closeHeight = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'settledBalance = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'timeLockedBalance = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'closeType = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'openInitiator = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'closeInitiator = Data.ProtoLens.fieldDefault, _ChannelCloseSummary'resolutions = Data.Vector.Generic.empty, _ChannelCloseSummary'_unknownFields = []} parseMessage = let loop :: ChannelCloseSummary -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Resolution -> Data.ProtoLens.Encoding.Bytes.Parser ChannelCloseSummary loop x mutable'resolutions = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'resolutions <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'resolutions) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'resolutions") frozen'resolutions x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "channel_point" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channelPoint") y x) mutable'resolutions 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanId") y x) mutable'resolutions 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "chain_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chainHash") y x) mutable'resolutions 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "closing_tx_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closingTxHash") y x) mutable'resolutions 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "remote_pubkey" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remotePubkey") y x) mutable'resolutions 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"capacity") y x) mutable'resolutions 56 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "close_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closeHeight") y x) mutable'resolutions 64 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "settled_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"settledBalance") y x) mutable'resolutions 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "time_locked_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"timeLockedBalance") y x) mutable'resolutions 80 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "close_type" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closeType") y x) mutable'resolutions 88 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "open_initiator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"openInitiator") y x) mutable'resolutions 96 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "close_initiator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closeInitiator") y x) mutable'resolutions 106 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "resolutions" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'resolutions y) loop x v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'resolutions in (Data.ProtoLens.Encoding.Bytes.) (do mutable'resolutions <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'resolutions) "ChannelCloseSummary" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"channelPoint") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chainHash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closingTxHash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remotePubkey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"capacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closeHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 56) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"settledBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 64) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"timeLockedBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closeType") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 80) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"openInitiator") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 88) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closeInitiator") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 96) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 106) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'resolutions") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))))))))) instance Control.DeepSeq.NFData ChannelCloseSummary where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelCloseSummary'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'channelPoint x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'chanId x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'chainHash x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'closingTxHash x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'remotePubkey x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'capacity x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'closeHeight x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'settledBalance x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'timeLockedBalance x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'closeType x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'openInitiator x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'closeInitiator x__) (Control.DeepSeq.deepseq (_ChannelCloseSummary'resolutions x__) ()))))))))))))) newtype ChannelCloseSummary'ClosureType'UnrecognizedValue = ChannelCloseSummary'ClosureType'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out ChannelCloseSummary'ClosureType'UnrecognizedValue data ChannelCloseSummary'ClosureType = ChannelCloseSummary'COOPERATIVE_CLOSE | ChannelCloseSummary'LOCAL_FORCE_CLOSE | ChannelCloseSummary'REMOTE_FORCE_CLOSE | ChannelCloseSummary'BREACH_CLOSE | ChannelCloseSummary'FUNDING_CANCELED | ChannelCloseSummary'ABANDONED | ChannelCloseSummary'ClosureType'Unrecognized !ChannelCloseSummary'ClosureType'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum ChannelCloseSummary'ClosureType where maybeToEnum 0 = Prelude.Just ChannelCloseSummary'COOPERATIVE_CLOSE maybeToEnum 1 = Prelude.Just ChannelCloseSummary'LOCAL_FORCE_CLOSE maybeToEnum 2 = Prelude.Just ChannelCloseSummary'REMOTE_FORCE_CLOSE maybeToEnum 3 = Prelude.Just ChannelCloseSummary'BREACH_CLOSE maybeToEnum 4 = Prelude.Just ChannelCloseSummary'FUNDING_CANCELED maybeToEnum 5 = Prelude.Just ChannelCloseSummary'ABANDONED maybeToEnum k = Prelude.Just (ChannelCloseSummary'ClosureType'Unrecognized (ChannelCloseSummary'ClosureType'UnrecognizedValue (Prelude.fromIntegral k))) showEnum ChannelCloseSummary'COOPERATIVE_CLOSE = "COOPERATIVE_CLOSE" showEnum ChannelCloseSummary'LOCAL_FORCE_CLOSE = "LOCAL_FORCE_CLOSE" showEnum ChannelCloseSummary'REMOTE_FORCE_CLOSE = "REMOTE_FORCE_CLOSE" showEnum ChannelCloseSummary'BREACH_CLOSE = "BREACH_CLOSE" showEnum ChannelCloseSummary'FUNDING_CANCELED = "FUNDING_CANCELED" showEnum ChannelCloseSummary'ABANDONED = "ABANDONED" showEnum (ChannelCloseSummary'ClosureType'Unrecognized (ChannelCloseSummary'ClosureType'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "COOPERATIVE_CLOSE" = Prelude.Just ChannelCloseSummary'COOPERATIVE_CLOSE | (Prelude.==) k "LOCAL_FORCE_CLOSE" = Prelude.Just ChannelCloseSummary'LOCAL_FORCE_CLOSE | (Prelude.==) k "REMOTE_FORCE_CLOSE" = Prelude.Just ChannelCloseSummary'REMOTE_FORCE_CLOSE | (Prelude.==) k "BREACH_CLOSE" = Prelude.Just ChannelCloseSummary'BREACH_CLOSE | (Prelude.==) k "FUNDING_CANCELED" = Prelude.Just ChannelCloseSummary'FUNDING_CANCELED | (Prelude.==) k "ABANDONED" = Prelude.Just ChannelCloseSummary'ABANDONED | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded ChannelCloseSummary'ClosureType where minBound = ChannelCloseSummary'COOPERATIVE_CLOSE maxBound = ChannelCloseSummary'ABANDONED instance Prelude.Enum ChannelCloseSummary'ClosureType where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum ClosureType: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum ChannelCloseSummary'COOPERATIVE_CLOSE = 0 fromEnum ChannelCloseSummary'LOCAL_FORCE_CLOSE = 1 fromEnum ChannelCloseSummary'REMOTE_FORCE_CLOSE = 2 fromEnum ChannelCloseSummary'BREACH_CLOSE = 3 fromEnum ChannelCloseSummary'FUNDING_CANCELED = 4 fromEnum ChannelCloseSummary'ABANDONED = 5 fromEnum (ChannelCloseSummary'ClosureType'Unrecognized (ChannelCloseSummary'ClosureType'UnrecognizedValue k)) = Prelude.fromIntegral k succ ChannelCloseSummary'ABANDONED = Prelude.error "ChannelCloseSummary'ClosureType.succ: bad argument ChannelCloseSummary'ABANDONED. This value would be out of bounds." succ ChannelCloseSummary'COOPERATIVE_CLOSE = ChannelCloseSummary'LOCAL_FORCE_CLOSE succ ChannelCloseSummary'LOCAL_FORCE_CLOSE = ChannelCloseSummary'REMOTE_FORCE_CLOSE succ ChannelCloseSummary'REMOTE_FORCE_CLOSE = ChannelCloseSummary'BREACH_CLOSE succ ChannelCloseSummary'BREACH_CLOSE = ChannelCloseSummary'FUNDING_CANCELED succ ChannelCloseSummary'FUNDING_CANCELED = ChannelCloseSummary'ABANDONED succ (ChannelCloseSummary'ClosureType'Unrecognized _) = Prelude.error "ChannelCloseSummary'ClosureType.succ: bad argument: unrecognized value" pred ChannelCloseSummary'COOPERATIVE_CLOSE = Prelude.error "ChannelCloseSummary'ClosureType.pred: bad argument ChannelCloseSummary'COOPERATIVE_CLOSE. This value would be out of bounds." pred ChannelCloseSummary'LOCAL_FORCE_CLOSE = ChannelCloseSummary'COOPERATIVE_CLOSE pred ChannelCloseSummary'REMOTE_FORCE_CLOSE = ChannelCloseSummary'LOCAL_FORCE_CLOSE pred ChannelCloseSummary'BREACH_CLOSE = ChannelCloseSummary'REMOTE_FORCE_CLOSE pred ChannelCloseSummary'FUNDING_CANCELED = ChannelCloseSummary'BREACH_CLOSE pred ChannelCloseSummary'ABANDONED = ChannelCloseSummary'FUNDING_CANCELED pred (ChannelCloseSummary'ClosureType'Unrecognized _) = Prelude.error "ChannelCloseSummary'ClosureType.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault ChannelCloseSummary'ClosureType where fieldDefault = ChannelCloseSummary'COOPERATIVE_CLOSE instance Control.DeepSeq.NFData ChannelCloseSummary'ClosureType where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out ChannelCloseSummary'ClosureType {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.csvDelay' @:: Lens' ChannelConstraints Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.chanReserveSat' @:: Lens' ChannelConstraints Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.dustLimitSat' @:: Lens' ChannelConstraints Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.maxPendingAmtMsat' @:: Lens' ChannelConstraints Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.minHtlcMsat' @:: Lens' ChannelConstraints Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.maxAcceptedHtlcs' @:: Lens' ChannelConstraints Data.Word.Word32@ -} data ChannelConstraints = ChannelConstraints'_constructor {_ChannelConstraints'csvDelay :: !Data.Word.Word32, _ChannelConstraints'chanReserveSat :: !Data.Word.Word64, _ChannelConstraints'dustLimitSat :: !Data.Word.Word64, _ChannelConstraints'maxPendingAmtMsat :: !Data.Word.Word64, _ChannelConstraints'minHtlcMsat :: !Data.Word.Word64, _ChannelConstraints'maxAcceptedHtlcs :: !Data.Word.Word32, _ChannelConstraints'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelConstraints where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelConstraints instance Data.ProtoLens.Field.HasField ChannelConstraints "csvDelay" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelConstraints'csvDelay (\ x__ y__ -> x__ {_ChannelConstraints'csvDelay = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelConstraints "chanReserveSat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelConstraints'chanReserveSat (\ x__ y__ -> x__ {_ChannelConstraints'chanReserveSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelConstraints "dustLimitSat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelConstraints'dustLimitSat (\ x__ y__ -> x__ {_ChannelConstraints'dustLimitSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelConstraints "maxPendingAmtMsat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelConstraints'maxPendingAmtMsat (\ x__ y__ -> x__ {_ChannelConstraints'maxPendingAmtMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelConstraints "minHtlcMsat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelConstraints'minHtlcMsat (\ x__ y__ -> x__ {_ChannelConstraints'minHtlcMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelConstraints "maxAcceptedHtlcs" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelConstraints'maxAcceptedHtlcs (\ x__ y__ -> x__ {_ChannelConstraints'maxAcceptedHtlcs = y__})) Prelude.id instance Data.ProtoLens.Message ChannelConstraints where messageName _ = Data.Text.pack "lnrpc.ChannelConstraints" packedMessageDescriptor _ = "\n\ \\DC2ChannelConstraints\DC2\ESC\n\ \\tcsv_delay\CAN\SOH \SOH(\rR\bcsvDelay\DC2(\n\ \\DLEchan_reserve_sat\CAN\STX \SOH(\EOTR\SOchanReserveSat\DC2$\n\ \\SOdust_limit_sat\CAN\ETX \SOH(\EOTR\fdustLimitSat\DC2/\n\ \\DC4max_pending_amt_msat\CAN\EOT \SOH(\EOTR\DC1maxPendingAmtMsat\DC2\"\n\ \\rmin_htlc_msat\CAN\ENQ \SOH(\EOTR\vminHtlcMsat\DC2,\n\ \\DC2max_accepted_htlcs\CAN\ACK \SOH(\rR\DLEmaxAcceptedHtlcs" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let csvDelay__field_descriptor = Data.ProtoLens.FieldDescriptor "csv_delay" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"csvDelay")) :: Data.ProtoLens.FieldDescriptor ChannelConstraints chanReserveSat__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_reserve_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanReserveSat")) :: Data.ProtoLens.FieldDescriptor ChannelConstraints dustLimitSat__field_descriptor = Data.ProtoLens.FieldDescriptor "dust_limit_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"dustLimitSat")) :: Data.ProtoLens.FieldDescriptor ChannelConstraints maxPendingAmtMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "max_pending_amt_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxPendingAmtMsat")) :: Data.ProtoLens.FieldDescriptor ChannelConstraints minHtlcMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "min_htlc_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"minHtlcMsat")) :: Data.ProtoLens.FieldDescriptor ChannelConstraints maxAcceptedHtlcs__field_descriptor = Data.ProtoLens.FieldDescriptor "max_accepted_htlcs" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxAcceptedHtlcs")) :: Data.ProtoLens.FieldDescriptor ChannelConstraints in Data.Map.fromList [(Data.ProtoLens.Tag 1, csvDelay__field_descriptor), (Data.ProtoLens.Tag 2, chanReserveSat__field_descriptor), (Data.ProtoLens.Tag 3, dustLimitSat__field_descriptor), (Data.ProtoLens.Tag 4, maxPendingAmtMsat__field_descriptor), (Data.ProtoLens.Tag 5, minHtlcMsat__field_descriptor), (Data.ProtoLens.Tag 6, maxAcceptedHtlcs__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelConstraints'_unknownFields (\ x__ y__ -> x__ {_ChannelConstraints'_unknownFields = y__}) defMessage = ChannelConstraints'_constructor {_ChannelConstraints'csvDelay = Data.ProtoLens.fieldDefault, _ChannelConstraints'chanReserveSat = Data.ProtoLens.fieldDefault, _ChannelConstraints'dustLimitSat = Data.ProtoLens.fieldDefault, _ChannelConstraints'maxPendingAmtMsat = Data.ProtoLens.fieldDefault, _ChannelConstraints'minHtlcMsat = Data.ProtoLens.fieldDefault, _ChannelConstraints'maxAcceptedHtlcs = Data.ProtoLens.fieldDefault, _ChannelConstraints'_unknownFields = []} parseMessage = let loop :: ChannelConstraints -> Data.ProtoLens.Encoding.Bytes.Parser ChannelConstraints loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "csv_delay" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"csvDelay") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_reserve_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanReserveSat") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "dust_limit_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"dustLimitSat") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "max_pending_amt_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxPendingAmtMsat") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "min_htlc_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"minHtlcMsat") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "max_accepted_htlcs" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxAcceptedHtlcs") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelConstraints" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"csvDelay") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanReserveSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"dustLimitSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxPendingAmtMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"minHtlcMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxAcceptedHtlcs") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData ChannelConstraints where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelConstraints'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelConstraints'csvDelay x__) (Control.DeepSeq.deepseq (_ChannelConstraints'chanReserveSat x__) (Control.DeepSeq.deepseq (_ChannelConstraints'dustLimitSat x__) (Control.DeepSeq.deepseq (_ChannelConstraints'maxPendingAmtMsat x__) (Control.DeepSeq.deepseq (_ChannelConstraints'minHtlcMsat x__) (Control.DeepSeq.deepseq (_ChannelConstraints'maxAcceptedHtlcs x__) ())))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.channelId' @:: Lens' ChannelEdge Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.chanPoint' @:: Lens' ChannelEdge Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.lastUpdate' @:: Lens' ChannelEdge Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.node1Pub' @:: Lens' ChannelEdge Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.node2Pub' @:: Lens' ChannelEdge Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.capacity' @:: Lens' ChannelEdge Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.node1Policy' @:: Lens' ChannelEdge RoutingPolicy@ * 'Proto.Lnrpc.Ln0_Fields.maybe'node1Policy' @:: Lens' ChannelEdge (Prelude.Maybe RoutingPolicy)@ * 'Proto.Lnrpc.Ln0_Fields.node2Policy' @:: Lens' ChannelEdge RoutingPolicy@ * 'Proto.Lnrpc.Ln0_Fields.maybe'node2Policy' @:: Lens' ChannelEdge (Prelude.Maybe RoutingPolicy)@ -} data ChannelEdge = ChannelEdge'_constructor {_ChannelEdge'channelId :: !Data.Word.Word64, _ChannelEdge'chanPoint :: !Data.Text.Text, _ChannelEdge'lastUpdate :: !Data.Word.Word32, _ChannelEdge'node1Pub :: !Data.Text.Text, _ChannelEdge'node2Pub :: !Data.Text.Text, _ChannelEdge'capacity :: !Data.Int.Int64, _ChannelEdge'node1Policy :: !(Prelude.Maybe RoutingPolicy), _ChannelEdge'node2Policy :: !(Prelude.Maybe RoutingPolicy), _ChannelEdge'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelEdge where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelEdge instance Data.ProtoLens.Field.HasField ChannelEdge "channelId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'channelId (\ x__ y__ -> x__ {_ChannelEdge'channelId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdge "chanPoint" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'chanPoint (\ x__ y__ -> x__ {_ChannelEdge'chanPoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdge "lastUpdate" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'lastUpdate (\ x__ y__ -> x__ {_ChannelEdge'lastUpdate = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdge "node1Pub" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'node1Pub (\ x__ y__ -> x__ {_ChannelEdge'node1Pub = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdge "node2Pub" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'node2Pub (\ x__ y__ -> x__ {_ChannelEdge'node2Pub = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdge "capacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'capacity (\ x__ y__ -> x__ {_ChannelEdge'capacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdge "node1Policy" RoutingPolicy where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'node1Policy (\ x__ y__ -> x__ {_ChannelEdge'node1Policy = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelEdge "maybe'node1Policy" (Prelude.Maybe RoutingPolicy) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'node1Policy (\ x__ y__ -> x__ {_ChannelEdge'node1Policy = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdge "node2Policy" RoutingPolicy where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'node2Policy (\ x__ y__ -> x__ {_ChannelEdge'node2Policy = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelEdge "maybe'node2Policy" (Prelude.Maybe RoutingPolicy) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdge'node2Policy (\ x__ y__ -> x__ {_ChannelEdge'node2Policy = y__})) Prelude.id instance Data.ProtoLens.Message ChannelEdge where messageName _ = Data.Text.pack "lnrpc.ChannelEdge" packedMessageDescriptor _ = "\n\ \\vChannelEdge\DC2!\n\ \\n\ \channel_id\CAN\SOH \SOH(\EOTR\tchannelIdB\STX0\SOH\DC2\GS\n\ \\n\ \chan_point\CAN\STX \SOH(\tR\tchanPoint\DC2#\n\ \\vlast_update\CAN\ETX \SOH(\rR\n\ \lastUpdateB\STX\CAN\SOH\DC2\ESC\n\ \\tnode1_pub\CAN\EOT \SOH(\tR\bnode1Pub\DC2\ESC\n\ \\tnode2_pub\CAN\ENQ \SOH(\tR\bnode2Pub\DC2\SUB\n\ \\bcapacity\CAN\ACK \SOH(\ETXR\bcapacity\DC27\n\ \\fnode1_policy\CAN\a \SOH(\v2\DC4.lnrpc.RoutingPolicyR\vnode1Policy\DC27\n\ \\fnode2_policy\CAN\b \SOH(\v2\DC4.lnrpc.RoutingPolicyR\vnode2Policy" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let channelId__field_descriptor = Data.ProtoLens.FieldDescriptor "channel_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"channelId")) :: Data.ProtoLens.FieldDescriptor ChannelEdge chanPoint__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_point" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanPoint")) :: Data.ProtoLens.FieldDescriptor ChannelEdge lastUpdate__field_descriptor = Data.ProtoLens.FieldDescriptor "last_update" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"lastUpdate")) :: Data.ProtoLens.FieldDescriptor ChannelEdge node1Pub__field_descriptor = Data.ProtoLens.FieldDescriptor "node1_pub" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"node1Pub")) :: Data.ProtoLens.FieldDescriptor ChannelEdge node2Pub__field_descriptor = Data.ProtoLens.FieldDescriptor "node2_pub" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"node2Pub")) :: Data.ProtoLens.FieldDescriptor ChannelEdge capacity__field_descriptor = Data.ProtoLens.FieldDescriptor "capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"capacity")) :: Data.ProtoLens.FieldDescriptor ChannelEdge node1Policy__field_descriptor = Data.ProtoLens.FieldDescriptor "node1_policy" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RoutingPolicy) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'node1Policy")) :: Data.ProtoLens.FieldDescriptor ChannelEdge node2Policy__field_descriptor = Data.ProtoLens.FieldDescriptor "node2_policy" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RoutingPolicy) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'node2Policy")) :: Data.ProtoLens.FieldDescriptor ChannelEdge in Data.Map.fromList [(Data.ProtoLens.Tag 1, channelId__field_descriptor), (Data.ProtoLens.Tag 2, chanPoint__field_descriptor), (Data.ProtoLens.Tag 3, lastUpdate__field_descriptor), (Data.ProtoLens.Tag 4, node1Pub__field_descriptor), (Data.ProtoLens.Tag 5, node2Pub__field_descriptor), (Data.ProtoLens.Tag 6, capacity__field_descriptor), (Data.ProtoLens.Tag 7, node1Policy__field_descriptor), (Data.ProtoLens.Tag 8, node2Policy__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelEdge'_unknownFields (\ x__ y__ -> x__ {_ChannelEdge'_unknownFields = y__}) defMessage = ChannelEdge'_constructor {_ChannelEdge'channelId = Data.ProtoLens.fieldDefault, _ChannelEdge'chanPoint = Data.ProtoLens.fieldDefault, _ChannelEdge'lastUpdate = Data.ProtoLens.fieldDefault, _ChannelEdge'node1Pub = Data.ProtoLens.fieldDefault, _ChannelEdge'node2Pub = Data.ProtoLens.fieldDefault, _ChannelEdge'capacity = Data.ProtoLens.fieldDefault, _ChannelEdge'node1Policy = Prelude.Nothing, _ChannelEdge'node2Policy = Prelude.Nothing, _ChannelEdge'_unknownFields = []} parseMessage = let loop :: ChannelEdge -> Data.ProtoLens.Encoding.Bytes.Parser ChannelEdge loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "channel_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channelId") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "chan_point" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanPoint") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "last_update" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"lastUpdate") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "node1_pub" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"node1Pub") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "node2_pub" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"node2Pub") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"capacity") y x) 58 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "node1_policy" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"node1Policy") y x) 66 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "node2_policy" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"node2Policy") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelEdge" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"channelId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanPoint") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"lastUpdate") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"node1Pub") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"node2Pub") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"capacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'node1Policy") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 58) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'node2Policy") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 66) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))) instance Control.DeepSeq.NFData ChannelEdge where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelEdge'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelEdge'channelId x__) (Control.DeepSeq.deepseq (_ChannelEdge'chanPoint x__) (Control.DeepSeq.deepseq (_ChannelEdge'lastUpdate x__) (Control.DeepSeq.deepseq (_ChannelEdge'node1Pub x__) (Control.DeepSeq.deepseq (_ChannelEdge'node2Pub x__) (Control.DeepSeq.deepseq (_ChannelEdge'capacity x__) (Control.DeepSeq.deepseq (_ChannelEdge'node1Policy x__) (Control.DeepSeq.deepseq (_ChannelEdge'node2Policy x__) ())))))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.chanId' @:: Lens' ChannelEdgeUpdate Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.chanPoint' @:: Lens' ChannelEdgeUpdate ChannelPoint@ * 'Proto.Lnrpc.Ln0_Fields.maybe'chanPoint' @:: Lens' ChannelEdgeUpdate (Prelude.Maybe ChannelPoint)@ * 'Proto.Lnrpc.Ln0_Fields.capacity' @:: Lens' ChannelEdgeUpdate Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.routingPolicy' @:: Lens' ChannelEdgeUpdate RoutingPolicy@ * 'Proto.Lnrpc.Ln0_Fields.maybe'routingPolicy' @:: Lens' ChannelEdgeUpdate (Prelude.Maybe RoutingPolicy)@ * 'Proto.Lnrpc.Ln0_Fields.advertisingNode' @:: Lens' ChannelEdgeUpdate Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.connectingNode' @:: Lens' ChannelEdgeUpdate Data.Text.Text@ -} data ChannelEdgeUpdate = ChannelEdgeUpdate'_constructor {_ChannelEdgeUpdate'chanId :: !Data.Word.Word64, _ChannelEdgeUpdate'chanPoint :: !(Prelude.Maybe ChannelPoint), _ChannelEdgeUpdate'capacity :: !Data.Int.Int64, _ChannelEdgeUpdate'routingPolicy :: !(Prelude.Maybe RoutingPolicy), _ChannelEdgeUpdate'advertisingNode :: !Data.Text.Text, _ChannelEdgeUpdate'connectingNode :: !Data.Text.Text, _ChannelEdgeUpdate'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelEdgeUpdate where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelEdgeUpdate instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "chanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'chanId (\ x__ y__ -> x__ {_ChannelEdgeUpdate'chanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "chanPoint" ChannelPoint where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'chanPoint (\ x__ y__ -> x__ {_ChannelEdgeUpdate'chanPoint = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "maybe'chanPoint" (Prelude.Maybe ChannelPoint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'chanPoint (\ x__ y__ -> x__ {_ChannelEdgeUpdate'chanPoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "capacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'capacity (\ x__ y__ -> x__ {_ChannelEdgeUpdate'capacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "routingPolicy" RoutingPolicy where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'routingPolicy (\ x__ y__ -> x__ {_ChannelEdgeUpdate'routingPolicy = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "maybe'routingPolicy" (Prelude.Maybe RoutingPolicy) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'routingPolicy (\ x__ y__ -> x__ {_ChannelEdgeUpdate'routingPolicy = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "advertisingNode" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'advertisingNode (\ x__ y__ -> x__ {_ChannelEdgeUpdate'advertisingNode = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEdgeUpdate "connectingNode" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'connectingNode (\ x__ y__ -> x__ {_ChannelEdgeUpdate'connectingNode = y__})) Prelude.id instance Data.ProtoLens.Message ChannelEdgeUpdate where messageName _ = Data.Text.pack "lnrpc.ChannelEdgeUpdate" packedMessageDescriptor _ = "\n\ \\DC1ChannelEdgeUpdate\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC22\n\ \\n\ \chan_point\CAN\STX \SOH(\v2\DC3.lnrpc.ChannelPointR\tchanPoint\DC2\SUB\n\ \\bcapacity\CAN\ETX \SOH(\ETXR\bcapacity\DC2;\n\ \\SOrouting_policy\CAN\EOT \SOH(\v2\DC4.lnrpc.RoutingPolicyR\rroutingPolicy\DC2)\n\ \\DLEadvertising_node\CAN\ENQ \SOH(\tR\SIadvertisingNode\DC2'\n\ \\SIconnecting_node\CAN\ACK \SOH(\tR\SOconnectingNode" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let chanId__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanId")) :: Data.ProtoLens.FieldDescriptor ChannelEdgeUpdate chanPoint__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_point" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelPoint) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'chanPoint")) :: Data.ProtoLens.FieldDescriptor ChannelEdgeUpdate capacity__field_descriptor = Data.ProtoLens.FieldDescriptor "capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"capacity")) :: Data.ProtoLens.FieldDescriptor ChannelEdgeUpdate routingPolicy__field_descriptor = Data.ProtoLens.FieldDescriptor "routing_policy" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RoutingPolicy) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'routingPolicy")) :: Data.ProtoLens.FieldDescriptor ChannelEdgeUpdate advertisingNode__field_descriptor = Data.ProtoLens.FieldDescriptor "advertising_node" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"advertisingNode")) :: Data.ProtoLens.FieldDescriptor ChannelEdgeUpdate connectingNode__field_descriptor = Data.ProtoLens.FieldDescriptor "connecting_node" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"connectingNode")) :: Data.ProtoLens.FieldDescriptor ChannelEdgeUpdate in Data.Map.fromList [(Data.ProtoLens.Tag 1, chanId__field_descriptor), (Data.ProtoLens.Tag 2, chanPoint__field_descriptor), (Data.ProtoLens.Tag 3, capacity__field_descriptor), (Data.ProtoLens.Tag 4, routingPolicy__field_descriptor), (Data.ProtoLens.Tag 5, advertisingNode__field_descriptor), (Data.ProtoLens.Tag 6, connectingNode__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelEdgeUpdate'_unknownFields (\ x__ y__ -> x__ {_ChannelEdgeUpdate'_unknownFields = y__}) defMessage = ChannelEdgeUpdate'_constructor {_ChannelEdgeUpdate'chanId = Data.ProtoLens.fieldDefault, _ChannelEdgeUpdate'chanPoint = Prelude.Nothing, _ChannelEdgeUpdate'capacity = Data.ProtoLens.fieldDefault, _ChannelEdgeUpdate'routingPolicy = Prelude.Nothing, _ChannelEdgeUpdate'advertisingNode = Data.ProtoLens.fieldDefault, _ChannelEdgeUpdate'connectingNode = Data.ProtoLens.fieldDefault, _ChannelEdgeUpdate'_unknownFields = []} parseMessage = let loop :: ChannelEdgeUpdate -> Data.ProtoLens.Encoding.Bytes.Parser ChannelEdgeUpdate loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanId") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "chan_point" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanPoint") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"capacity") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "routing_policy" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"routingPolicy") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "advertising_node" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"advertisingNode") y x) 50 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "connecting_node" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"connectingNode") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelEdgeUpdate" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'chanPoint") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"capacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'routingPolicy") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"advertisingNode") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"connectingNode") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData ChannelEdgeUpdate where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelEdgeUpdate'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelEdgeUpdate'chanId x__) (Control.DeepSeq.deepseq (_ChannelEdgeUpdate'chanPoint x__) (Control.DeepSeq.deepseq (_ChannelEdgeUpdate'capacity x__) (Control.DeepSeq.deepseq (_ChannelEdgeUpdate'routingPolicy x__) (Control.DeepSeq.deepseq (_ChannelEdgeUpdate'advertisingNode x__) (Control.DeepSeq.deepseq (_ChannelEdgeUpdate'connectingNode x__) ())))))) {- | Fields : -} data ChannelEventSubscription = ChannelEventSubscription'_constructor {_ChannelEventSubscription'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelEventSubscription where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelEventSubscription instance Data.ProtoLens.Message ChannelEventSubscription where messageName _ = Data.Text.pack "lnrpc.ChannelEventSubscription" packedMessageDescriptor _ = "\n\ \\CANChannelEventSubscription" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _ChannelEventSubscription'_unknownFields (\ x__ y__ -> x__ {_ChannelEventSubscription'_unknownFields = y__}) defMessage = ChannelEventSubscription'_constructor {_ChannelEventSubscription'_unknownFields = []} parseMessage = let loop :: ChannelEventSubscription -> Data.ProtoLens.Encoding.Bytes.Parser ChannelEventSubscription loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelEventSubscription" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData ChannelEventSubscription where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelEventSubscription'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.type'' @:: Lens' ChannelEventUpdate ChannelEventUpdate'UpdateType@ * 'Proto.Lnrpc.Ln0_Fields.maybe'channel' @:: Lens' ChannelEventUpdate (Prelude.Maybe ChannelEventUpdate'Channel)@ * 'Proto.Lnrpc.Ln0_Fields.maybe'openChannel' @:: Lens' ChannelEventUpdate (Prelude.Maybe Channel)@ * 'Proto.Lnrpc.Ln0_Fields.openChannel' @:: Lens' ChannelEventUpdate Channel@ * 'Proto.Lnrpc.Ln0_Fields.maybe'closedChannel' @:: Lens' ChannelEventUpdate (Prelude.Maybe ChannelCloseSummary)@ * 'Proto.Lnrpc.Ln0_Fields.closedChannel' @:: Lens' ChannelEventUpdate ChannelCloseSummary@ * 'Proto.Lnrpc.Ln0_Fields.maybe'activeChannel' @:: Lens' ChannelEventUpdate (Prelude.Maybe ChannelPoint)@ * 'Proto.Lnrpc.Ln0_Fields.activeChannel' @:: Lens' ChannelEventUpdate ChannelPoint@ * 'Proto.Lnrpc.Ln0_Fields.maybe'inactiveChannel' @:: Lens' ChannelEventUpdate (Prelude.Maybe ChannelPoint)@ * 'Proto.Lnrpc.Ln0_Fields.inactiveChannel' @:: Lens' ChannelEventUpdate ChannelPoint@ * 'Proto.Lnrpc.Ln0_Fields.maybe'pendingOpenChannel' @:: Lens' ChannelEventUpdate (Prelude.Maybe PendingUpdate)@ * 'Proto.Lnrpc.Ln0_Fields.pendingOpenChannel' @:: Lens' ChannelEventUpdate PendingUpdate@ * 'Proto.Lnrpc.Ln0_Fields.maybe'fullyResolvedChannel' @:: Lens' ChannelEventUpdate (Prelude.Maybe ChannelPoint)@ * 'Proto.Lnrpc.Ln0_Fields.fullyResolvedChannel' @:: Lens' ChannelEventUpdate ChannelPoint@ -} data ChannelEventUpdate = ChannelEventUpdate'_constructor {_ChannelEventUpdate'type' :: !ChannelEventUpdate'UpdateType, _ChannelEventUpdate'channel :: !(Prelude.Maybe ChannelEventUpdate'Channel), _ChannelEventUpdate'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelEventUpdate where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelEventUpdate data ChannelEventUpdate'Channel = ChannelEventUpdate'OpenChannel !Channel | ChannelEventUpdate'ClosedChannel !ChannelCloseSummary | ChannelEventUpdate'ActiveChannel !ChannelPoint | ChannelEventUpdate'InactiveChannel !ChannelPoint | ChannelEventUpdate'PendingOpenChannel !PendingUpdate | ChannelEventUpdate'FullyResolvedChannel !ChannelPoint deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out ChannelEventUpdate'Channel instance Data.ProtoLens.Field.HasField ChannelEventUpdate "type'" ChannelEventUpdate'UpdateType where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'type' (\ x__ y__ -> x__ {_ChannelEventUpdate'type' = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEventUpdate "maybe'channel" (Prelude.Maybe ChannelEventUpdate'Channel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelEventUpdate "maybe'openChannel" (Prelude.Maybe Channel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'OpenChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'OpenChannel y__)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "openChannel" Channel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'OpenChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'OpenChannel y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "maybe'closedChannel" (Prelude.Maybe ChannelCloseSummary) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'ClosedChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'ClosedChannel y__)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "closedChannel" ChannelCloseSummary where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'ClosedChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'ClosedChannel y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "maybe'activeChannel" (Prelude.Maybe ChannelPoint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'ActiveChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'ActiveChannel y__)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "activeChannel" ChannelPoint where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'ActiveChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'ActiveChannel y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "maybe'inactiveChannel" (Prelude.Maybe ChannelPoint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'InactiveChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'InactiveChannel y__)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "inactiveChannel" ChannelPoint where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'InactiveChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'InactiveChannel y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "maybe'pendingOpenChannel" (Prelude.Maybe PendingUpdate) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'PendingOpenChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'PendingOpenChannel y__)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "pendingOpenChannel" PendingUpdate where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'PendingOpenChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'PendingOpenChannel y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "maybe'fullyResolvedChannel" (Prelude.Maybe ChannelPoint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'FullyResolvedChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'FullyResolvedChannel y__)) instance Data.ProtoLens.Field.HasField ChannelEventUpdate "fullyResolvedChannel" ChannelPoint where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelEventUpdate'channel (\ x__ y__ -> x__ {_ChannelEventUpdate'channel = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelEventUpdate'FullyResolvedChannel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelEventUpdate'FullyResolvedChannel y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Message ChannelEventUpdate where messageName _ = Data.Text.pack "lnrpc.ChannelEventUpdate" packedMessageDescriptor _ = "\n\ \\DC2ChannelEventUpdate\DC23\n\ \\fopen_channel\CAN\SOH \SOH(\v2\SO.lnrpc.ChannelH\NULR\vopenChannel\DC2C\n\ \\SOclosed_channel\CAN\STX \SOH(\v2\SUB.lnrpc.ChannelCloseSummaryH\NULR\rclosedChannel\DC2<\n\ \\SOactive_channel\CAN\ETX \SOH(\v2\DC3.lnrpc.ChannelPointH\NULR\ractiveChannel\DC2@\n\ \\DLEinactive_channel\CAN\EOT \SOH(\v2\DC3.lnrpc.ChannelPointH\NULR\SIinactiveChannel\DC2H\n\ \\DC4pending_open_channel\CAN\ACK \SOH(\v2\DC4.lnrpc.PendingUpdateH\NULR\DC2pendingOpenChannel\DC2K\n\ \\SYNfully_resolved_channel\CAN\a \SOH(\v2\DC3.lnrpc.ChannelPointH\NULR\DC4fullyResolvedChannel\DC28\n\ \\EOTtype\CAN\ENQ \SOH(\SO2$.lnrpc.ChannelEventUpdate.UpdateTypeR\EOTtype\"\146\SOH\n\ \\n\ \UpdateType\DC2\DLE\n\ \\fOPEN_CHANNEL\DLE\NUL\DC2\DC2\n\ \\SOCLOSED_CHANNEL\DLE\SOH\DC2\DC2\n\ \\SOACTIVE_CHANNEL\DLE\STX\DC2\DC4\n\ \\DLEINACTIVE_CHANNEL\DLE\ETX\DC2\CAN\n\ \\DC4PENDING_OPEN_CHANNEL\DLE\EOT\DC2\SUB\n\ \\SYNFULLY_RESOLVED_CHANNEL\DLE\ENQB\t\n\ \\achannel" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let type'__field_descriptor = Data.ProtoLens.FieldDescriptor "type" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor ChannelEventUpdate'UpdateType) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"type'")) :: Data.ProtoLens.FieldDescriptor ChannelEventUpdate openChannel__field_descriptor = Data.ProtoLens.FieldDescriptor "open_channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Channel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'openChannel")) :: Data.ProtoLens.FieldDescriptor ChannelEventUpdate closedChannel__field_descriptor = Data.ProtoLens.FieldDescriptor "closed_channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelCloseSummary) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'closedChannel")) :: Data.ProtoLens.FieldDescriptor ChannelEventUpdate activeChannel__field_descriptor = Data.ProtoLens.FieldDescriptor "active_channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelPoint) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'activeChannel")) :: Data.ProtoLens.FieldDescriptor ChannelEventUpdate inactiveChannel__field_descriptor = Data.ProtoLens.FieldDescriptor "inactive_channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelPoint) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'inactiveChannel")) :: Data.ProtoLens.FieldDescriptor ChannelEventUpdate pendingOpenChannel__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_open_channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingUpdate) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'pendingOpenChannel")) :: Data.ProtoLens.FieldDescriptor ChannelEventUpdate fullyResolvedChannel__field_descriptor = Data.ProtoLens.FieldDescriptor "fully_resolved_channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelPoint) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'fullyResolvedChannel")) :: Data.ProtoLens.FieldDescriptor ChannelEventUpdate in Data.Map.fromList [(Data.ProtoLens.Tag 5, type'__field_descriptor), (Data.ProtoLens.Tag 1, openChannel__field_descriptor), (Data.ProtoLens.Tag 2, closedChannel__field_descriptor), (Data.ProtoLens.Tag 3, activeChannel__field_descriptor), (Data.ProtoLens.Tag 4, inactiveChannel__field_descriptor), (Data.ProtoLens.Tag 6, pendingOpenChannel__field_descriptor), (Data.ProtoLens.Tag 7, fullyResolvedChannel__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelEventUpdate'_unknownFields (\ x__ y__ -> x__ {_ChannelEventUpdate'_unknownFields = y__}) defMessage = ChannelEventUpdate'_constructor {_ChannelEventUpdate'type' = Data.ProtoLens.fieldDefault, _ChannelEventUpdate'channel = Prelude.Nothing, _ChannelEventUpdate'_unknownFields = []} parseMessage = let loop :: ChannelEventUpdate -> Data.ProtoLens.Encoding.Bytes.Parser ChannelEventUpdate loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "type" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"type'") y x) 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "open_channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"openChannel") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "closed_channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closedChannel") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "active_channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"activeChannel") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "inactive_channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"inactiveChannel") y x) 50 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_open_channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingOpenChannel") y x) 58 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "fully_resolved_channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fullyResolvedChannel") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelEventUpdate" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"type'") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'channel") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (ChannelEventUpdate'OpenChannel v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (ChannelEventUpdate'ClosedChannel v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (ChannelEventUpdate'ActiveChannel v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (ChannelEventUpdate'InactiveChannel v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (ChannelEventUpdate'PendingOpenChannel v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (ChannelEventUpdate'FullyResolvedChannel v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 58) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData ChannelEventUpdate where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelEventUpdate'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelEventUpdate'type' x__) (Control.DeepSeq.deepseq (_ChannelEventUpdate'channel x__) ())) instance Control.DeepSeq.NFData ChannelEventUpdate'Channel where rnf (ChannelEventUpdate'OpenChannel x__) = Control.DeepSeq.rnf x__ rnf (ChannelEventUpdate'ClosedChannel x__) = Control.DeepSeq.rnf x__ rnf (ChannelEventUpdate'ActiveChannel x__) = Control.DeepSeq.rnf x__ rnf (ChannelEventUpdate'InactiveChannel x__) = Control.DeepSeq.rnf x__ rnf (ChannelEventUpdate'PendingOpenChannel x__) = Control.DeepSeq.rnf x__ rnf (ChannelEventUpdate'FullyResolvedChannel x__) = Control.DeepSeq.rnf x__ _ChannelEventUpdate'OpenChannel :: Data.ProtoLens.Prism.Prism' ChannelEventUpdate'Channel Channel _ChannelEventUpdate'OpenChannel = Data.ProtoLens.Prism.prism' ChannelEventUpdate'OpenChannel (\ p__ -> case p__ of (ChannelEventUpdate'OpenChannel p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _ChannelEventUpdate'ClosedChannel :: Data.ProtoLens.Prism.Prism' ChannelEventUpdate'Channel ChannelCloseSummary _ChannelEventUpdate'ClosedChannel = Data.ProtoLens.Prism.prism' ChannelEventUpdate'ClosedChannel (\ p__ -> case p__ of (ChannelEventUpdate'ClosedChannel p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _ChannelEventUpdate'ActiveChannel :: Data.ProtoLens.Prism.Prism' ChannelEventUpdate'Channel ChannelPoint _ChannelEventUpdate'ActiveChannel = Data.ProtoLens.Prism.prism' ChannelEventUpdate'ActiveChannel (\ p__ -> case p__ of (ChannelEventUpdate'ActiveChannel p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _ChannelEventUpdate'InactiveChannel :: Data.ProtoLens.Prism.Prism' ChannelEventUpdate'Channel ChannelPoint _ChannelEventUpdate'InactiveChannel = Data.ProtoLens.Prism.prism' ChannelEventUpdate'InactiveChannel (\ p__ -> case p__ of (ChannelEventUpdate'InactiveChannel p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _ChannelEventUpdate'PendingOpenChannel :: Data.ProtoLens.Prism.Prism' ChannelEventUpdate'Channel PendingUpdate _ChannelEventUpdate'PendingOpenChannel = Data.ProtoLens.Prism.prism' ChannelEventUpdate'PendingOpenChannel (\ p__ -> case p__ of (ChannelEventUpdate'PendingOpenChannel p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _ChannelEventUpdate'FullyResolvedChannel :: Data.ProtoLens.Prism.Prism' ChannelEventUpdate'Channel ChannelPoint _ChannelEventUpdate'FullyResolvedChannel = Data.ProtoLens.Prism.prism' ChannelEventUpdate'FullyResolvedChannel (\ p__ -> case p__ of (ChannelEventUpdate'FullyResolvedChannel p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) newtype ChannelEventUpdate'UpdateType'UnrecognizedValue = ChannelEventUpdate'UpdateType'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out ChannelEventUpdate'UpdateType'UnrecognizedValue data ChannelEventUpdate'UpdateType = ChannelEventUpdate'OPEN_CHANNEL | ChannelEventUpdate'CLOSED_CHANNEL | ChannelEventUpdate'ACTIVE_CHANNEL | ChannelEventUpdate'INACTIVE_CHANNEL | ChannelEventUpdate'PENDING_OPEN_CHANNEL | ChannelEventUpdate'FULLY_RESOLVED_CHANNEL | ChannelEventUpdate'UpdateType'Unrecognized !ChannelEventUpdate'UpdateType'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum ChannelEventUpdate'UpdateType where maybeToEnum 0 = Prelude.Just ChannelEventUpdate'OPEN_CHANNEL maybeToEnum 1 = Prelude.Just ChannelEventUpdate'CLOSED_CHANNEL maybeToEnum 2 = Prelude.Just ChannelEventUpdate'ACTIVE_CHANNEL maybeToEnum 3 = Prelude.Just ChannelEventUpdate'INACTIVE_CHANNEL maybeToEnum 4 = Prelude.Just ChannelEventUpdate'PENDING_OPEN_CHANNEL maybeToEnum 5 = Prelude.Just ChannelEventUpdate'FULLY_RESOLVED_CHANNEL maybeToEnum k = Prelude.Just (ChannelEventUpdate'UpdateType'Unrecognized (ChannelEventUpdate'UpdateType'UnrecognizedValue (Prelude.fromIntegral k))) showEnum ChannelEventUpdate'OPEN_CHANNEL = "OPEN_CHANNEL" showEnum ChannelEventUpdate'CLOSED_CHANNEL = "CLOSED_CHANNEL" showEnum ChannelEventUpdate'ACTIVE_CHANNEL = "ACTIVE_CHANNEL" showEnum ChannelEventUpdate'INACTIVE_CHANNEL = "INACTIVE_CHANNEL" showEnum ChannelEventUpdate'PENDING_OPEN_CHANNEL = "PENDING_OPEN_CHANNEL" showEnum ChannelEventUpdate'FULLY_RESOLVED_CHANNEL = "FULLY_RESOLVED_CHANNEL" showEnum (ChannelEventUpdate'UpdateType'Unrecognized (ChannelEventUpdate'UpdateType'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "OPEN_CHANNEL" = Prelude.Just ChannelEventUpdate'OPEN_CHANNEL | (Prelude.==) k "CLOSED_CHANNEL" = Prelude.Just ChannelEventUpdate'CLOSED_CHANNEL | (Prelude.==) k "ACTIVE_CHANNEL" = Prelude.Just ChannelEventUpdate'ACTIVE_CHANNEL | (Prelude.==) k "INACTIVE_CHANNEL" = Prelude.Just ChannelEventUpdate'INACTIVE_CHANNEL | (Prelude.==) k "PENDING_OPEN_CHANNEL" = Prelude.Just ChannelEventUpdate'PENDING_OPEN_CHANNEL | (Prelude.==) k "FULLY_RESOLVED_CHANNEL" = Prelude.Just ChannelEventUpdate'FULLY_RESOLVED_CHANNEL | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded ChannelEventUpdate'UpdateType where minBound = ChannelEventUpdate'OPEN_CHANNEL maxBound = ChannelEventUpdate'FULLY_RESOLVED_CHANNEL instance Prelude.Enum ChannelEventUpdate'UpdateType where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum UpdateType: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum ChannelEventUpdate'OPEN_CHANNEL = 0 fromEnum ChannelEventUpdate'CLOSED_CHANNEL = 1 fromEnum ChannelEventUpdate'ACTIVE_CHANNEL = 2 fromEnum ChannelEventUpdate'INACTIVE_CHANNEL = 3 fromEnum ChannelEventUpdate'PENDING_OPEN_CHANNEL = 4 fromEnum ChannelEventUpdate'FULLY_RESOLVED_CHANNEL = 5 fromEnum (ChannelEventUpdate'UpdateType'Unrecognized (ChannelEventUpdate'UpdateType'UnrecognizedValue k)) = Prelude.fromIntegral k succ ChannelEventUpdate'FULLY_RESOLVED_CHANNEL = Prelude.error "ChannelEventUpdate'UpdateType.succ: bad argument ChannelEventUpdate'FULLY_RESOLVED_CHANNEL. This value would be out of bounds." succ ChannelEventUpdate'OPEN_CHANNEL = ChannelEventUpdate'CLOSED_CHANNEL succ ChannelEventUpdate'CLOSED_CHANNEL = ChannelEventUpdate'ACTIVE_CHANNEL succ ChannelEventUpdate'ACTIVE_CHANNEL = ChannelEventUpdate'INACTIVE_CHANNEL succ ChannelEventUpdate'INACTIVE_CHANNEL = ChannelEventUpdate'PENDING_OPEN_CHANNEL succ ChannelEventUpdate'PENDING_OPEN_CHANNEL = ChannelEventUpdate'FULLY_RESOLVED_CHANNEL succ (ChannelEventUpdate'UpdateType'Unrecognized _) = Prelude.error "ChannelEventUpdate'UpdateType.succ: bad argument: unrecognized value" pred ChannelEventUpdate'OPEN_CHANNEL = Prelude.error "ChannelEventUpdate'UpdateType.pred: bad argument ChannelEventUpdate'OPEN_CHANNEL. This value would be out of bounds." pred ChannelEventUpdate'CLOSED_CHANNEL = ChannelEventUpdate'OPEN_CHANNEL pred ChannelEventUpdate'ACTIVE_CHANNEL = ChannelEventUpdate'CLOSED_CHANNEL pred ChannelEventUpdate'INACTIVE_CHANNEL = ChannelEventUpdate'ACTIVE_CHANNEL pred ChannelEventUpdate'PENDING_OPEN_CHANNEL = ChannelEventUpdate'INACTIVE_CHANNEL pred ChannelEventUpdate'FULLY_RESOLVED_CHANNEL = ChannelEventUpdate'PENDING_OPEN_CHANNEL pred (ChannelEventUpdate'UpdateType'Unrecognized _) = Prelude.error "ChannelEventUpdate'UpdateType.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault ChannelEventUpdate'UpdateType where fieldDefault = ChannelEventUpdate'OPEN_CHANNEL instance Control.DeepSeq.NFData ChannelEventUpdate'UpdateType where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out ChannelEventUpdate'UpdateType {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.nodes' @:: Lens' ChannelGraph [LightningNode]@ * 'Proto.Lnrpc.Ln0_Fields.vec'nodes' @:: Lens' ChannelGraph (Data.Vector.Vector LightningNode)@ * 'Proto.Lnrpc.Ln0_Fields.edges' @:: Lens' ChannelGraph [ChannelEdge]@ * 'Proto.Lnrpc.Ln0_Fields.vec'edges' @:: Lens' ChannelGraph (Data.Vector.Vector ChannelEdge)@ -} data ChannelGraph = ChannelGraph'_constructor {_ChannelGraph'nodes :: !(Data.Vector.Vector LightningNode), _ChannelGraph'edges :: !(Data.Vector.Vector ChannelEdge), _ChannelGraph'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelGraph where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelGraph instance Data.ProtoLens.Field.HasField ChannelGraph "nodes" [LightningNode] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelGraph'nodes (\ x__ y__ -> x__ {_ChannelGraph'nodes = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField ChannelGraph "vec'nodes" (Data.Vector.Vector LightningNode) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelGraph'nodes (\ x__ y__ -> x__ {_ChannelGraph'nodes = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelGraph "edges" [ChannelEdge] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelGraph'edges (\ x__ y__ -> x__ {_ChannelGraph'edges = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField ChannelGraph "vec'edges" (Data.Vector.Vector ChannelEdge) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelGraph'edges (\ x__ y__ -> x__ {_ChannelGraph'edges = y__})) Prelude.id instance Data.ProtoLens.Message ChannelGraph where messageName _ = Data.Text.pack "lnrpc.ChannelGraph" packedMessageDescriptor _ = "\n\ \\fChannelGraph\DC2*\n\ \\ENQnodes\CAN\SOH \ETX(\v2\DC4.lnrpc.LightningNodeR\ENQnodes\DC2(\n\ \\ENQedges\CAN\STX \ETX(\v2\DC2.lnrpc.ChannelEdgeR\ENQedges" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let nodes__field_descriptor = Data.ProtoLens.FieldDescriptor "nodes" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor LightningNode) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"nodes")) :: Data.ProtoLens.FieldDescriptor ChannelGraph edges__field_descriptor = Data.ProtoLens.FieldDescriptor "edges" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelEdge) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"edges")) :: Data.ProtoLens.FieldDescriptor ChannelGraph in Data.Map.fromList [(Data.ProtoLens.Tag 1, nodes__field_descriptor), (Data.ProtoLens.Tag 2, edges__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelGraph'_unknownFields (\ x__ y__ -> x__ {_ChannelGraph'_unknownFields = y__}) defMessage = ChannelGraph'_constructor {_ChannelGraph'nodes = Data.Vector.Generic.empty, _ChannelGraph'edges = Data.Vector.Generic.empty, _ChannelGraph'_unknownFields = []} parseMessage = let loop :: ChannelGraph -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld ChannelEdge -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld LightningNode -> Data.ProtoLens.Encoding.Bytes.Parser ChannelGraph loop x mutable'edges mutable'nodes = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'edges <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'edges) frozen'nodes <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'nodes) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'edges") frozen'edges (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'nodes") frozen'nodes x))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "nodes" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'nodes y) loop x mutable'edges v 18 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "edges" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'edges y) loop x v mutable'nodes wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'edges mutable'nodes in (Data.ProtoLens.Encoding.Bytes.) (do mutable'edges <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'nodes <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'edges mutable'nodes) "ChannelGraph" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'nodes") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'edges") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData ChannelGraph where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelGraph'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelGraph'nodes x__) (Control.DeepSeq.deepseq (_ChannelGraph'edges x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.includeUnannounced' @:: Lens' ChannelGraphRequest Prelude.Bool@ -} data ChannelGraphRequest = ChannelGraphRequest'_constructor {_ChannelGraphRequest'includeUnannounced :: !Prelude.Bool, _ChannelGraphRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelGraphRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelGraphRequest instance Data.ProtoLens.Field.HasField ChannelGraphRequest "includeUnannounced" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelGraphRequest'includeUnannounced (\ x__ y__ -> x__ {_ChannelGraphRequest'includeUnannounced = y__})) Prelude.id instance Data.ProtoLens.Message ChannelGraphRequest where messageName _ = Data.Text.pack "lnrpc.ChannelGraphRequest" packedMessageDescriptor _ = "\n\ \\DC3ChannelGraphRequest\DC2/\n\ \\DC3include_unannounced\CAN\SOH \SOH(\bR\DC2includeUnannounced" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let includeUnannounced__field_descriptor = Data.ProtoLens.FieldDescriptor "include_unannounced" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"includeUnannounced")) :: Data.ProtoLens.FieldDescriptor ChannelGraphRequest in Data.Map.fromList [(Data.ProtoLens.Tag 1, includeUnannounced__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelGraphRequest'_unknownFields (\ x__ y__ -> x__ {_ChannelGraphRequest'_unknownFields = y__}) defMessage = ChannelGraphRequest'_constructor {_ChannelGraphRequest'includeUnannounced = Data.ProtoLens.fieldDefault, _ChannelGraphRequest'_unknownFields = []} parseMessage = let loop :: ChannelGraphRequest -> Data.ProtoLens.Encoding.Bytes.Parser ChannelGraphRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "include_unannounced" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"includeUnannounced") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelGraphRequest" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"includeUnannounced") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData ChannelGraphRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelGraphRequest'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelGraphRequest'includeUnannounced x__) ()) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.outputIndex' @:: Lens' ChannelPoint Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.maybe'fundingTxid' @:: Lens' ChannelPoint (Prelude.Maybe ChannelPoint'FundingTxid)@ * 'Proto.Lnrpc.Ln0_Fields.maybe'fundingTxidBytes' @:: Lens' ChannelPoint (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Lnrpc.Ln0_Fields.fundingTxidBytes' @:: Lens' ChannelPoint Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.maybe'fundingTxidStr' @:: Lens' ChannelPoint (Prelude.Maybe Data.Text.Text)@ * 'Proto.Lnrpc.Ln0_Fields.fundingTxidStr' @:: Lens' ChannelPoint Data.Text.Text@ -} data ChannelPoint = ChannelPoint'_constructor {_ChannelPoint'outputIndex :: !Data.Word.Word32, _ChannelPoint'fundingTxid :: !(Prelude.Maybe ChannelPoint'FundingTxid), _ChannelPoint'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ChannelPoint where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ChannelPoint data ChannelPoint'FundingTxid = ChannelPoint'FundingTxidBytes !Data.ByteString.ByteString | ChannelPoint'FundingTxidStr !Data.Text.Text deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out ChannelPoint'FundingTxid instance Data.ProtoLens.Field.HasField ChannelPoint "outputIndex" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelPoint'outputIndex (\ x__ y__ -> x__ {_ChannelPoint'outputIndex = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelPoint "maybe'fundingTxid" (Prelude.Maybe ChannelPoint'FundingTxid) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelPoint'fundingTxid (\ x__ y__ -> x__ {_ChannelPoint'fundingTxid = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ChannelPoint "maybe'fundingTxidBytes" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelPoint'fundingTxid (\ x__ y__ -> x__ {_ChannelPoint'fundingTxid = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelPoint'FundingTxidBytes x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelPoint'FundingTxidBytes y__)) instance Data.ProtoLens.Field.HasField ChannelPoint "fundingTxidBytes" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelPoint'fundingTxid (\ x__ y__ -> x__ {_ChannelPoint'fundingTxid = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelPoint'FundingTxidBytes x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelPoint'FundingTxidBytes y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField ChannelPoint "maybe'fundingTxidStr" (Prelude.Maybe Data.Text.Text) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelPoint'fundingTxid (\ x__ y__ -> x__ {_ChannelPoint'fundingTxid = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelPoint'FundingTxidStr x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelPoint'FundingTxidStr y__)) instance Data.ProtoLens.Field.HasField ChannelPoint "fundingTxidStr" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ChannelPoint'fundingTxid (\ x__ y__ -> x__ {_ChannelPoint'fundingTxid = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (ChannelPoint'FundingTxidStr x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap ChannelPoint'FundingTxidStr y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Message ChannelPoint where messageName _ = Data.Text.pack "lnrpc.ChannelPoint" packedMessageDescriptor _ = "\n\ \\fChannelPoint\DC2.\n\ \\DC2funding_txid_bytes\CAN\SOH \SOH(\fH\NULR\DLEfundingTxidBytes\DC2*\n\ \\DLEfunding_txid_str\CAN\STX \SOH(\tH\NULR\SOfundingTxidStr\DC2!\n\ \\foutput_index\CAN\ETX \SOH(\rR\voutputIndexB\SO\n\ \\ffunding_txid" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let outputIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "output_index" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outputIndex")) :: Data.ProtoLens.FieldDescriptor ChannelPoint fundingTxidBytes__field_descriptor = Data.ProtoLens.FieldDescriptor "funding_txid_bytes" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'fundingTxidBytes")) :: Data.ProtoLens.FieldDescriptor ChannelPoint fundingTxidStr__field_descriptor = Data.ProtoLens.FieldDescriptor "funding_txid_str" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'fundingTxidStr")) :: Data.ProtoLens.FieldDescriptor ChannelPoint in Data.Map.fromList [(Data.ProtoLens.Tag 3, outputIndex__field_descriptor), (Data.ProtoLens.Tag 1, fundingTxidBytes__field_descriptor), (Data.ProtoLens.Tag 2, fundingTxidStr__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ChannelPoint'_unknownFields (\ x__ y__ -> x__ {_ChannelPoint'_unknownFields = y__}) defMessage = ChannelPoint'_constructor {_ChannelPoint'outputIndex = Data.ProtoLens.fieldDefault, _ChannelPoint'fundingTxid = Prelude.Nothing, _ChannelPoint'_unknownFields = []} parseMessage = let loop :: ChannelPoint -> Data.ProtoLens.Encoding.Bytes.Parser ChannelPoint loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "output_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outputIndex") y x) 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "funding_txid_bytes" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fundingTxidBytes") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "funding_txid_str" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fundingTxidStr") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ChannelPoint" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outputIndex") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'fundingTxid") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (ChannelPoint'FundingTxidBytes v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v) (Prelude.Just (ChannelPoint'FundingTxidStr v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData ChannelPoint where rnf = \ x__ -> Control.DeepSeq.deepseq (_ChannelPoint'_unknownFields x__) (Control.DeepSeq.deepseq (_ChannelPoint'outputIndex x__) (Control.DeepSeq.deepseq (_ChannelPoint'fundingTxid x__) ())) instance Control.DeepSeq.NFData ChannelPoint'FundingTxid where rnf (ChannelPoint'FundingTxidBytes x__) = Control.DeepSeq.rnf x__ rnf (ChannelPoint'FundingTxidStr x__) = Control.DeepSeq.rnf x__ _ChannelPoint'FundingTxidBytes :: Data.ProtoLens.Prism.Prism' ChannelPoint'FundingTxid Data.ByteString.ByteString _ChannelPoint'FundingTxidBytes = Data.ProtoLens.Prism.prism' ChannelPoint'FundingTxidBytes (\ p__ -> case p__ of (ChannelPoint'FundingTxidBytes p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _ChannelPoint'FundingTxidStr :: Data.ProtoLens.Prism.Prism' ChannelPoint'FundingTxid Data.Text.Text _ChannelPoint'FundingTxidStr = Data.ProtoLens.Prism.prism' ChannelPoint'FundingTxidStr (\ p__ -> case p__ of (ChannelPoint'FundingTxidStr p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.chanId' @:: Lens' ClosedChannelUpdate Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.capacity' @:: Lens' ClosedChannelUpdate Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.closedHeight' @:: Lens' ClosedChannelUpdate Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.chanPoint' @:: Lens' ClosedChannelUpdate ChannelPoint@ * 'Proto.Lnrpc.Ln0_Fields.maybe'chanPoint' @:: Lens' ClosedChannelUpdate (Prelude.Maybe ChannelPoint)@ -} data ClosedChannelUpdate = ClosedChannelUpdate'_constructor {_ClosedChannelUpdate'chanId :: !Data.Word.Word64, _ClosedChannelUpdate'capacity :: !Data.Int.Int64, _ClosedChannelUpdate'closedHeight :: !Data.Word.Word32, _ClosedChannelUpdate'chanPoint :: !(Prelude.Maybe ChannelPoint), _ClosedChannelUpdate'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show ClosedChannelUpdate where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out ClosedChannelUpdate instance Data.ProtoLens.Field.HasField ClosedChannelUpdate "chanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ClosedChannelUpdate'chanId (\ x__ y__ -> x__ {_ClosedChannelUpdate'chanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ClosedChannelUpdate "capacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ClosedChannelUpdate'capacity (\ x__ y__ -> x__ {_ClosedChannelUpdate'capacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ClosedChannelUpdate "closedHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ClosedChannelUpdate'closedHeight (\ x__ y__ -> x__ {_ClosedChannelUpdate'closedHeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ClosedChannelUpdate "chanPoint" ChannelPoint where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ClosedChannelUpdate'chanPoint (\ x__ y__ -> x__ {_ClosedChannelUpdate'chanPoint = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ClosedChannelUpdate "maybe'chanPoint" (Prelude.Maybe ChannelPoint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ClosedChannelUpdate'chanPoint (\ x__ y__ -> x__ {_ClosedChannelUpdate'chanPoint = y__})) Prelude.id instance Data.ProtoLens.Message ClosedChannelUpdate where messageName _ = Data.Text.pack "lnrpc.ClosedChannelUpdate" packedMessageDescriptor _ = "\n\ \\DC3ClosedChannelUpdate\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\SUB\n\ \\bcapacity\CAN\STX \SOH(\ETXR\bcapacity\DC2#\n\ \\rclosed_height\CAN\ETX \SOH(\rR\fclosedHeight\DC22\n\ \\n\ \chan_point\CAN\EOT \SOH(\v2\DC3.lnrpc.ChannelPointR\tchanPoint" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let chanId__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanId")) :: Data.ProtoLens.FieldDescriptor ClosedChannelUpdate capacity__field_descriptor = Data.ProtoLens.FieldDescriptor "capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"capacity")) :: Data.ProtoLens.FieldDescriptor ClosedChannelUpdate closedHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "closed_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closedHeight")) :: Data.ProtoLens.FieldDescriptor ClosedChannelUpdate chanPoint__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_point" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelPoint) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'chanPoint")) :: Data.ProtoLens.FieldDescriptor ClosedChannelUpdate in Data.Map.fromList [(Data.ProtoLens.Tag 1, chanId__field_descriptor), (Data.ProtoLens.Tag 2, capacity__field_descriptor), (Data.ProtoLens.Tag 3, closedHeight__field_descriptor), (Data.ProtoLens.Tag 4, chanPoint__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ClosedChannelUpdate'_unknownFields (\ x__ y__ -> x__ {_ClosedChannelUpdate'_unknownFields = y__}) defMessage = ClosedChannelUpdate'_constructor {_ClosedChannelUpdate'chanId = Data.ProtoLens.fieldDefault, _ClosedChannelUpdate'capacity = Data.ProtoLens.fieldDefault, _ClosedChannelUpdate'closedHeight = Data.ProtoLens.fieldDefault, _ClosedChannelUpdate'chanPoint = Prelude.Nothing, _ClosedChannelUpdate'_unknownFields = []} parseMessage = let loop :: ClosedChannelUpdate -> Data.ProtoLens.Encoding.Bytes.Parser ClosedChannelUpdate loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanId") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"capacity") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "closed_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closedHeight") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "chan_point" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanPoint") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ClosedChannelUpdate" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"capacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closedHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'chanPoint") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))) instance Control.DeepSeq.NFData ClosedChannelUpdate where rnf = \ x__ -> Control.DeepSeq.deepseq (_ClosedChannelUpdate'_unknownFields x__) (Control.DeepSeq.deepseq (_ClosedChannelUpdate'chanId x__) (Control.DeepSeq.deepseq (_ClosedChannelUpdate'capacity x__) (Control.DeepSeq.deepseq (_ClosedChannelUpdate'closedHeight x__) (Control.DeepSeq.deepseq (_ClosedChannelUpdate'chanPoint x__) ())))) newtype CommitmentType'UnrecognizedValue = CommitmentType'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out CommitmentType'UnrecognizedValue data CommitmentType = UNKNOWN_COMMITMENT_TYPE | LEGACY | STATIC_REMOTE_KEY | ANCHORS | SCRIPT_ENFORCED_LEASE | CommitmentType'Unrecognized !CommitmentType'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum CommitmentType where maybeToEnum 0 = Prelude.Just UNKNOWN_COMMITMENT_TYPE maybeToEnum 1 = Prelude.Just LEGACY maybeToEnum 2 = Prelude.Just STATIC_REMOTE_KEY maybeToEnum 3 = Prelude.Just ANCHORS maybeToEnum 4 = Prelude.Just SCRIPT_ENFORCED_LEASE maybeToEnum k = Prelude.Just (CommitmentType'Unrecognized (CommitmentType'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UNKNOWN_COMMITMENT_TYPE = "UNKNOWN_COMMITMENT_TYPE" showEnum LEGACY = "LEGACY" showEnum STATIC_REMOTE_KEY = "STATIC_REMOTE_KEY" showEnum ANCHORS = "ANCHORS" showEnum SCRIPT_ENFORCED_LEASE = "SCRIPT_ENFORCED_LEASE" showEnum (CommitmentType'Unrecognized (CommitmentType'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UNKNOWN_COMMITMENT_TYPE" = Prelude.Just UNKNOWN_COMMITMENT_TYPE | (Prelude.==) k "LEGACY" = Prelude.Just LEGACY | (Prelude.==) k "STATIC_REMOTE_KEY" = Prelude.Just STATIC_REMOTE_KEY | (Prelude.==) k "ANCHORS" = Prelude.Just ANCHORS | (Prelude.==) k "SCRIPT_ENFORCED_LEASE" = Prelude.Just SCRIPT_ENFORCED_LEASE | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded CommitmentType where minBound = UNKNOWN_COMMITMENT_TYPE maxBound = SCRIPT_ENFORCED_LEASE instance Prelude.Enum CommitmentType where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum CommitmentType: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UNKNOWN_COMMITMENT_TYPE = 0 fromEnum LEGACY = 1 fromEnum STATIC_REMOTE_KEY = 2 fromEnum ANCHORS = 3 fromEnum SCRIPT_ENFORCED_LEASE = 4 fromEnum (CommitmentType'Unrecognized (CommitmentType'UnrecognizedValue k)) = Prelude.fromIntegral k succ SCRIPT_ENFORCED_LEASE = Prelude.error "CommitmentType.succ: bad argument SCRIPT_ENFORCED_LEASE. This value would be out of bounds." succ UNKNOWN_COMMITMENT_TYPE = LEGACY succ LEGACY = STATIC_REMOTE_KEY succ STATIC_REMOTE_KEY = ANCHORS succ ANCHORS = SCRIPT_ENFORCED_LEASE succ (CommitmentType'Unrecognized _) = Prelude.error "CommitmentType.succ: bad argument: unrecognized value" pred UNKNOWN_COMMITMENT_TYPE = Prelude.error "CommitmentType.pred: bad argument UNKNOWN_COMMITMENT_TYPE. This value would be out of bounds." pred LEGACY = UNKNOWN_COMMITMENT_TYPE pred STATIC_REMOTE_KEY = LEGACY pred ANCHORS = STATIC_REMOTE_KEY pred SCRIPT_ENFORCED_LEASE = ANCHORS pred (CommitmentType'Unrecognized _) = Prelude.error "CommitmentType.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault CommitmentType where fieldDefault = UNKNOWN_COMMITMENT_TYPE instance Control.DeepSeq.NFData CommitmentType where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out CommitmentType {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.channelId' @:: Lens' EdgeLocator Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.directionReverse' @:: Lens' EdgeLocator Prelude.Bool@ -} data EdgeLocator = EdgeLocator'_constructor {_EdgeLocator'channelId :: !Data.Word.Word64, _EdgeLocator'directionReverse :: !Prelude.Bool, _EdgeLocator'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show EdgeLocator where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out EdgeLocator instance Data.ProtoLens.Field.HasField EdgeLocator "channelId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _EdgeLocator'channelId (\ x__ y__ -> x__ {_EdgeLocator'channelId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField EdgeLocator "directionReverse" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _EdgeLocator'directionReverse (\ x__ y__ -> x__ {_EdgeLocator'directionReverse = y__})) Prelude.id instance Data.ProtoLens.Message EdgeLocator where messageName _ = Data.Text.pack "lnrpc.EdgeLocator" packedMessageDescriptor _ = "\n\ \\vEdgeLocator\DC2!\n\ \\n\ \channel_id\CAN\SOH \SOH(\EOTR\tchannelIdB\STX0\SOH\DC2+\n\ \\DC1direction_reverse\CAN\STX \SOH(\bR\DLEdirectionReverse" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let channelId__field_descriptor = Data.ProtoLens.FieldDescriptor "channel_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"channelId")) :: Data.ProtoLens.FieldDescriptor EdgeLocator directionReverse__field_descriptor = Data.ProtoLens.FieldDescriptor "direction_reverse" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"directionReverse")) :: Data.ProtoLens.FieldDescriptor EdgeLocator in Data.Map.fromList [(Data.ProtoLens.Tag 1, channelId__field_descriptor), (Data.ProtoLens.Tag 2, directionReverse__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _EdgeLocator'_unknownFields (\ x__ y__ -> x__ {_EdgeLocator'_unknownFields = y__}) defMessage = EdgeLocator'_constructor {_EdgeLocator'channelId = Data.ProtoLens.fieldDefault, _EdgeLocator'directionReverse = Data.ProtoLens.fieldDefault, _EdgeLocator'_unknownFields = []} parseMessage = let loop :: EdgeLocator -> Data.ProtoLens.Encoding.Bytes.Parser EdgeLocator loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "channel_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channelId") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "direction_reverse" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"directionReverse") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "EdgeLocator" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"channelId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"directionReverse") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData EdgeLocator where rnf = \ x__ -> Control.DeepSeq.deepseq (_EdgeLocator'_unknownFields x__) (Control.DeepSeq.deepseq (_EdgeLocator'channelId x__) (Control.DeepSeq.deepseq (_EdgeLocator'directionReverse x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.name' @:: Lens' Feature Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.isRequired' @:: Lens' Feature Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.isKnown' @:: Lens' Feature Prelude.Bool@ -} data Feature = Feature'_constructor {_Feature'name :: !Data.Text.Text, _Feature'isRequired :: !Prelude.Bool, _Feature'isKnown :: !Prelude.Bool, _Feature'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show Feature where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out Feature instance Data.ProtoLens.Field.HasField Feature "name" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Feature'name (\ x__ y__ -> x__ {_Feature'name = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Feature "isRequired" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Feature'isRequired (\ x__ y__ -> x__ {_Feature'isRequired = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Feature "isKnown" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Feature'isKnown (\ x__ y__ -> x__ {_Feature'isKnown = y__})) Prelude.id instance Data.ProtoLens.Message Feature where messageName _ = Data.Text.pack "lnrpc.Feature" packedMessageDescriptor _ = "\n\ \\aFeature\DC2\DC2\n\ \\EOTname\CAN\STX \SOH(\tR\EOTname\DC2\US\n\ \\vis_required\CAN\ETX \SOH(\bR\n\ \isRequired\DC2\EM\n\ \\bis_known\CAN\EOT \SOH(\bR\aisKnown" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let name__field_descriptor = Data.ProtoLens.FieldDescriptor "name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"name")) :: Data.ProtoLens.FieldDescriptor Feature isRequired__field_descriptor = Data.ProtoLens.FieldDescriptor "is_required" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"isRequired")) :: Data.ProtoLens.FieldDescriptor Feature isKnown__field_descriptor = Data.ProtoLens.FieldDescriptor "is_known" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"isKnown")) :: Data.ProtoLens.FieldDescriptor Feature in Data.Map.fromList [(Data.ProtoLens.Tag 2, name__field_descriptor), (Data.ProtoLens.Tag 3, isRequired__field_descriptor), (Data.ProtoLens.Tag 4, isKnown__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Feature'_unknownFields (\ x__ y__ -> x__ {_Feature'_unknownFields = y__}) defMessage = Feature'_constructor {_Feature'name = Data.ProtoLens.fieldDefault, _Feature'isRequired = Data.ProtoLens.fieldDefault, _Feature'isKnown = Data.ProtoLens.fieldDefault, _Feature'_unknownFields = []} parseMessage = let loop :: Feature -> Data.ProtoLens.Encoding.Bytes.Parser Feature loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"name") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "is_required" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"isRequired") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "is_known" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"isKnown") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Feature" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"name") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"isRequired") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"isKnown") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Feature where rnf = \ x__ -> Control.DeepSeq.deepseq (_Feature'_unknownFields x__) (Control.DeepSeq.deepseq (_Feature'name x__) (Control.DeepSeq.deepseq (_Feature'isRequired x__) (Control.DeepSeq.deepseq (_Feature'isKnown x__) ()))) newtype FeatureBit'UnrecognizedValue = FeatureBit'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out FeatureBit'UnrecognizedValue data FeatureBit = DATALOSS_PROTECT_REQ | DATALOSS_PROTECT_OPT | INITIAL_ROUING_SYNC | UPFRONT_SHUTDOWN_SCRIPT_REQ | UPFRONT_SHUTDOWN_SCRIPT_OPT | GOSSIP_QUERIES_REQ | GOSSIP_QUERIES_OPT | TLV_ONION_REQ | TLV_ONION_OPT | EXT_GOSSIP_QUERIES_REQ | EXT_GOSSIP_QUERIES_OPT | STATIC_REMOTE_KEY_REQ | STATIC_REMOTE_KEY_OPT | PAYMENT_ADDR_REQ | PAYMENT_ADDR_OPT | MPP_REQ | MPP_OPT | WUMBO_CHANNELS_REQ | WUMBO_CHANNELS_OPT | ANCHORS_REQ | ANCHORS_OPT | ANCHORS_ZERO_FEE_HTLC_REQ | ANCHORS_ZERO_FEE_HTLC_OPT | AMP_REQ | AMP_OPT | FeatureBit'Unrecognized !FeatureBit'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum FeatureBit where maybeToEnum 0 = Prelude.Just DATALOSS_PROTECT_REQ maybeToEnum 1 = Prelude.Just DATALOSS_PROTECT_OPT maybeToEnum 3 = Prelude.Just INITIAL_ROUING_SYNC maybeToEnum 4 = Prelude.Just UPFRONT_SHUTDOWN_SCRIPT_REQ maybeToEnum 5 = Prelude.Just UPFRONT_SHUTDOWN_SCRIPT_OPT maybeToEnum 6 = Prelude.Just GOSSIP_QUERIES_REQ maybeToEnum 7 = Prelude.Just GOSSIP_QUERIES_OPT maybeToEnum 8 = Prelude.Just TLV_ONION_REQ maybeToEnum 9 = Prelude.Just TLV_ONION_OPT maybeToEnum 10 = Prelude.Just EXT_GOSSIP_QUERIES_REQ maybeToEnum 11 = Prelude.Just EXT_GOSSIP_QUERIES_OPT maybeToEnum 12 = Prelude.Just STATIC_REMOTE_KEY_REQ maybeToEnum 13 = Prelude.Just STATIC_REMOTE_KEY_OPT maybeToEnum 14 = Prelude.Just PAYMENT_ADDR_REQ maybeToEnum 15 = Prelude.Just PAYMENT_ADDR_OPT maybeToEnum 16 = Prelude.Just MPP_REQ maybeToEnum 17 = Prelude.Just MPP_OPT maybeToEnum 18 = Prelude.Just WUMBO_CHANNELS_REQ maybeToEnum 19 = Prelude.Just WUMBO_CHANNELS_OPT maybeToEnum 20 = Prelude.Just ANCHORS_REQ maybeToEnum 21 = Prelude.Just ANCHORS_OPT maybeToEnum 22 = Prelude.Just ANCHORS_ZERO_FEE_HTLC_REQ maybeToEnum 23 = Prelude.Just ANCHORS_ZERO_FEE_HTLC_OPT maybeToEnum 30 = Prelude.Just AMP_REQ maybeToEnum 31 = Prelude.Just AMP_OPT maybeToEnum k = Prelude.Just (FeatureBit'Unrecognized (FeatureBit'UnrecognizedValue (Prelude.fromIntegral k))) showEnum DATALOSS_PROTECT_REQ = "DATALOSS_PROTECT_REQ" showEnum DATALOSS_PROTECT_OPT = "DATALOSS_PROTECT_OPT" showEnum INITIAL_ROUING_SYNC = "INITIAL_ROUING_SYNC" showEnum UPFRONT_SHUTDOWN_SCRIPT_REQ = "UPFRONT_SHUTDOWN_SCRIPT_REQ" showEnum UPFRONT_SHUTDOWN_SCRIPT_OPT = "UPFRONT_SHUTDOWN_SCRIPT_OPT" showEnum GOSSIP_QUERIES_REQ = "GOSSIP_QUERIES_REQ" showEnum GOSSIP_QUERIES_OPT = "GOSSIP_QUERIES_OPT" showEnum TLV_ONION_REQ = "TLV_ONION_REQ" showEnum TLV_ONION_OPT = "TLV_ONION_OPT" showEnum EXT_GOSSIP_QUERIES_REQ = "EXT_GOSSIP_QUERIES_REQ" showEnum EXT_GOSSIP_QUERIES_OPT = "EXT_GOSSIP_QUERIES_OPT" showEnum STATIC_REMOTE_KEY_REQ = "STATIC_REMOTE_KEY_REQ" showEnum STATIC_REMOTE_KEY_OPT = "STATIC_REMOTE_KEY_OPT" showEnum PAYMENT_ADDR_REQ = "PAYMENT_ADDR_REQ" showEnum PAYMENT_ADDR_OPT = "PAYMENT_ADDR_OPT" showEnum MPP_REQ = "MPP_REQ" showEnum MPP_OPT = "MPP_OPT" showEnum WUMBO_CHANNELS_REQ = "WUMBO_CHANNELS_REQ" showEnum WUMBO_CHANNELS_OPT = "WUMBO_CHANNELS_OPT" showEnum ANCHORS_REQ = "ANCHORS_REQ" showEnum ANCHORS_OPT = "ANCHORS_OPT" showEnum ANCHORS_ZERO_FEE_HTLC_REQ = "ANCHORS_ZERO_FEE_HTLC_REQ" showEnum ANCHORS_ZERO_FEE_HTLC_OPT = "ANCHORS_ZERO_FEE_HTLC_OPT" showEnum AMP_REQ = "AMP_REQ" showEnum AMP_OPT = "AMP_OPT" showEnum (FeatureBit'Unrecognized (FeatureBit'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "DATALOSS_PROTECT_REQ" = Prelude.Just DATALOSS_PROTECT_REQ | (Prelude.==) k "DATALOSS_PROTECT_OPT" = Prelude.Just DATALOSS_PROTECT_OPT | (Prelude.==) k "INITIAL_ROUING_SYNC" = Prelude.Just INITIAL_ROUING_SYNC | (Prelude.==) k "UPFRONT_SHUTDOWN_SCRIPT_REQ" = Prelude.Just UPFRONT_SHUTDOWN_SCRIPT_REQ | (Prelude.==) k "UPFRONT_SHUTDOWN_SCRIPT_OPT" = Prelude.Just UPFRONT_SHUTDOWN_SCRIPT_OPT | (Prelude.==) k "GOSSIP_QUERIES_REQ" = Prelude.Just GOSSIP_QUERIES_REQ | (Prelude.==) k "GOSSIP_QUERIES_OPT" = Prelude.Just GOSSIP_QUERIES_OPT | (Prelude.==) k "TLV_ONION_REQ" = Prelude.Just TLV_ONION_REQ | (Prelude.==) k "TLV_ONION_OPT" = Prelude.Just TLV_ONION_OPT | (Prelude.==) k "EXT_GOSSIP_QUERIES_REQ" = Prelude.Just EXT_GOSSIP_QUERIES_REQ | (Prelude.==) k "EXT_GOSSIP_QUERIES_OPT" = Prelude.Just EXT_GOSSIP_QUERIES_OPT | (Prelude.==) k "STATIC_REMOTE_KEY_REQ" = Prelude.Just STATIC_REMOTE_KEY_REQ | (Prelude.==) k "STATIC_REMOTE_KEY_OPT" = Prelude.Just STATIC_REMOTE_KEY_OPT | (Prelude.==) k "PAYMENT_ADDR_REQ" = Prelude.Just PAYMENT_ADDR_REQ | (Prelude.==) k "PAYMENT_ADDR_OPT" = Prelude.Just PAYMENT_ADDR_OPT | (Prelude.==) k "MPP_REQ" = Prelude.Just MPP_REQ | (Prelude.==) k "MPP_OPT" = Prelude.Just MPP_OPT | (Prelude.==) k "WUMBO_CHANNELS_REQ" = Prelude.Just WUMBO_CHANNELS_REQ | (Prelude.==) k "WUMBO_CHANNELS_OPT" = Prelude.Just WUMBO_CHANNELS_OPT | (Prelude.==) k "ANCHORS_REQ" = Prelude.Just ANCHORS_REQ | (Prelude.==) k "ANCHORS_OPT" = Prelude.Just ANCHORS_OPT | (Prelude.==) k "ANCHORS_ZERO_FEE_HTLC_REQ" = Prelude.Just ANCHORS_ZERO_FEE_HTLC_REQ | (Prelude.==) k "ANCHORS_ZERO_FEE_HTLC_OPT" = Prelude.Just ANCHORS_ZERO_FEE_HTLC_OPT | (Prelude.==) k "AMP_REQ" = Prelude.Just AMP_REQ | (Prelude.==) k "AMP_OPT" = Prelude.Just AMP_OPT | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded FeatureBit where minBound = DATALOSS_PROTECT_REQ maxBound = AMP_OPT instance Prelude.Enum FeatureBit where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum FeatureBit: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum DATALOSS_PROTECT_REQ = 0 fromEnum DATALOSS_PROTECT_OPT = 1 fromEnum INITIAL_ROUING_SYNC = 3 fromEnum UPFRONT_SHUTDOWN_SCRIPT_REQ = 4 fromEnum UPFRONT_SHUTDOWN_SCRIPT_OPT = 5 fromEnum GOSSIP_QUERIES_REQ = 6 fromEnum GOSSIP_QUERIES_OPT = 7 fromEnum TLV_ONION_REQ = 8 fromEnum TLV_ONION_OPT = 9 fromEnum EXT_GOSSIP_QUERIES_REQ = 10 fromEnum EXT_GOSSIP_QUERIES_OPT = 11 fromEnum STATIC_REMOTE_KEY_REQ = 12 fromEnum STATIC_REMOTE_KEY_OPT = 13 fromEnum PAYMENT_ADDR_REQ = 14 fromEnum PAYMENT_ADDR_OPT = 15 fromEnum MPP_REQ = 16 fromEnum MPP_OPT = 17 fromEnum WUMBO_CHANNELS_REQ = 18 fromEnum WUMBO_CHANNELS_OPT = 19 fromEnum ANCHORS_REQ = 20 fromEnum ANCHORS_OPT = 21 fromEnum ANCHORS_ZERO_FEE_HTLC_REQ = 22 fromEnum ANCHORS_ZERO_FEE_HTLC_OPT = 23 fromEnum AMP_REQ = 30 fromEnum AMP_OPT = 31 fromEnum (FeatureBit'Unrecognized (FeatureBit'UnrecognizedValue k)) = Prelude.fromIntegral k succ AMP_OPT = Prelude.error "FeatureBit.succ: bad argument AMP_OPT. This value would be out of bounds." succ DATALOSS_PROTECT_REQ = DATALOSS_PROTECT_OPT succ DATALOSS_PROTECT_OPT = INITIAL_ROUING_SYNC succ INITIAL_ROUING_SYNC = UPFRONT_SHUTDOWN_SCRIPT_REQ succ UPFRONT_SHUTDOWN_SCRIPT_REQ = UPFRONT_SHUTDOWN_SCRIPT_OPT succ UPFRONT_SHUTDOWN_SCRIPT_OPT = GOSSIP_QUERIES_REQ succ GOSSIP_QUERIES_REQ = GOSSIP_QUERIES_OPT succ GOSSIP_QUERIES_OPT = TLV_ONION_REQ succ TLV_ONION_REQ = TLV_ONION_OPT succ TLV_ONION_OPT = EXT_GOSSIP_QUERIES_REQ succ EXT_GOSSIP_QUERIES_REQ = EXT_GOSSIP_QUERIES_OPT succ EXT_GOSSIP_QUERIES_OPT = STATIC_REMOTE_KEY_REQ succ STATIC_REMOTE_KEY_REQ = STATIC_REMOTE_KEY_OPT succ STATIC_REMOTE_KEY_OPT = PAYMENT_ADDR_REQ succ PAYMENT_ADDR_REQ = PAYMENT_ADDR_OPT succ PAYMENT_ADDR_OPT = MPP_REQ succ MPP_REQ = MPP_OPT succ MPP_OPT = WUMBO_CHANNELS_REQ succ WUMBO_CHANNELS_REQ = WUMBO_CHANNELS_OPT succ WUMBO_CHANNELS_OPT = ANCHORS_REQ succ ANCHORS_REQ = ANCHORS_OPT succ ANCHORS_OPT = ANCHORS_ZERO_FEE_HTLC_REQ succ ANCHORS_ZERO_FEE_HTLC_REQ = ANCHORS_ZERO_FEE_HTLC_OPT succ ANCHORS_ZERO_FEE_HTLC_OPT = AMP_REQ succ AMP_REQ = AMP_OPT succ (FeatureBit'Unrecognized _) = Prelude.error "FeatureBit.succ: bad argument: unrecognized value" pred DATALOSS_PROTECT_REQ = Prelude.error "FeatureBit.pred: bad argument DATALOSS_PROTECT_REQ. This value would be out of bounds." pred DATALOSS_PROTECT_OPT = DATALOSS_PROTECT_REQ pred INITIAL_ROUING_SYNC = DATALOSS_PROTECT_OPT pred UPFRONT_SHUTDOWN_SCRIPT_REQ = INITIAL_ROUING_SYNC pred UPFRONT_SHUTDOWN_SCRIPT_OPT = UPFRONT_SHUTDOWN_SCRIPT_REQ pred GOSSIP_QUERIES_REQ = UPFRONT_SHUTDOWN_SCRIPT_OPT pred GOSSIP_QUERIES_OPT = GOSSIP_QUERIES_REQ pred TLV_ONION_REQ = GOSSIP_QUERIES_OPT pred TLV_ONION_OPT = TLV_ONION_REQ pred EXT_GOSSIP_QUERIES_REQ = TLV_ONION_OPT pred EXT_GOSSIP_QUERIES_OPT = EXT_GOSSIP_QUERIES_REQ pred STATIC_REMOTE_KEY_REQ = EXT_GOSSIP_QUERIES_OPT pred STATIC_REMOTE_KEY_OPT = STATIC_REMOTE_KEY_REQ pred PAYMENT_ADDR_REQ = STATIC_REMOTE_KEY_OPT pred PAYMENT_ADDR_OPT = PAYMENT_ADDR_REQ pred MPP_REQ = PAYMENT_ADDR_OPT pred MPP_OPT = MPP_REQ pred WUMBO_CHANNELS_REQ = MPP_OPT pred WUMBO_CHANNELS_OPT = WUMBO_CHANNELS_REQ pred ANCHORS_REQ = WUMBO_CHANNELS_OPT pred ANCHORS_OPT = ANCHORS_REQ pred ANCHORS_ZERO_FEE_HTLC_REQ = ANCHORS_OPT pred ANCHORS_ZERO_FEE_HTLC_OPT = ANCHORS_ZERO_FEE_HTLC_REQ pred AMP_REQ = ANCHORS_ZERO_FEE_HTLC_OPT pred AMP_OPT = AMP_REQ pred (FeatureBit'Unrecognized _) = Prelude.error "FeatureBit.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault FeatureBit where fieldDefault = DATALOSS_PROTECT_REQ instance Control.DeepSeq.NFData FeatureBit where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out FeatureBit {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.maybe'limit' @:: Lens' FeeLimit (Prelude.Maybe FeeLimit'Limit)@ * 'Proto.Lnrpc.Ln0_Fields.maybe'fixed' @:: Lens' FeeLimit (Prelude.Maybe Data.Int.Int64)@ * 'Proto.Lnrpc.Ln0_Fields.fixed' @:: Lens' FeeLimit Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.maybe'fixedMsat' @:: Lens' FeeLimit (Prelude.Maybe Data.Int.Int64)@ * 'Proto.Lnrpc.Ln0_Fields.fixedMsat' @:: Lens' FeeLimit Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.maybe'percent' @:: Lens' FeeLimit (Prelude.Maybe Data.Int.Int64)@ * 'Proto.Lnrpc.Ln0_Fields.percent' @:: Lens' FeeLimit Data.Int.Int64@ -} data FeeLimit = FeeLimit'_constructor {_FeeLimit'limit :: !(Prelude.Maybe FeeLimit'Limit), _FeeLimit'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FeeLimit where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FeeLimit data FeeLimit'Limit = FeeLimit'Fixed !Data.Int.Int64 | FeeLimit'FixedMsat !Data.Int.Int64 | FeeLimit'Percent !Data.Int.Int64 deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out FeeLimit'Limit instance Data.ProtoLens.Field.HasField FeeLimit "maybe'limit" (Prelude.Maybe FeeLimit'Limit) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FeeLimit'limit (\ x__ y__ -> x__ {_FeeLimit'limit = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FeeLimit "maybe'fixed" (Prelude.Maybe Data.Int.Int64) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FeeLimit'limit (\ x__ y__ -> x__ {_FeeLimit'limit = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FeeLimit'Fixed x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FeeLimit'Fixed y__)) instance Data.ProtoLens.Field.HasField FeeLimit "fixed" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FeeLimit'limit (\ x__ y__ -> x__ {_FeeLimit'limit = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FeeLimit'Fixed x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FeeLimit'Fixed y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField FeeLimit "maybe'fixedMsat" (Prelude.Maybe Data.Int.Int64) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FeeLimit'limit (\ x__ y__ -> x__ {_FeeLimit'limit = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FeeLimit'FixedMsat x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FeeLimit'FixedMsat y__)) instance Data.ProtoLens.Field.HasField FeeLimit "fixedMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FeeLimit'limit (\ x__ y__ -> x__ {_FeeLimit'limit = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FeeLimit'FixedMsat x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FeeLimit'FixedMsat y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField FeeLimit "maybe'percent" (Prelude.Maybe Data.Int.Int64) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FeeLimit'limit (\ x__ y__ -> x__ {_FeeLimit'limit = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FeeLimit'Percent x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FeeLimit'Percent y__)) instance Data.ProtoLens.Field.HasField FeeLimit "percent" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FeeLimit'limit (\ x__ y__ -> x__ {_FeeLimit'limit = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FeeLimit'Percent x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FeeLimit'Percent y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Message FeeLimit where messageName _ = Data.Text.pack "lnrpc.FeeLimit" packedMessageDescriptor _ = "\n\ \\bFeeLimit\DC2\SYN\n\ \\ENQfixed\CAN\SOH \SOH(\ETXH\NULR\ENQfixed\DC2\US\n\ \\n\ \fixed_msat\CAN\ETX \SOH(\ETXH\NULR\tfixedMsat\DC2\SUB\n\ \\apercent\CAN\STX \SOH(\ETXH\NULR\apercentB\a\n\ \\ENQlimit" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let fixed__field_descriptor = Data.ProtoLens.FieldDescriptor "fixed" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'fixed")) :: Data.ProtoLens.FieldDescriptor FeeLimit fixedMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "fixed_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'fixedMsat")) :: Data.ProtoLens.FieldDescriptor FeeLimit percent__field_descriptor = Data.ProtoLens.FieldDescriptor "percent" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'percent")) :: Data.ProtoLens.FieldDescriptor FeeLimit in Data.Map.fromList [(Data.ProtoLens.Tag 1, fixed__field_descriptor), (Data.ProtoLens.Tag 3, fixedMsat__field_descriptor), (Data.ProtoLens.Tag 2, percent__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FeeLimit'_unknownFields (\ x__ y__ -> x__ {_FeeLimit'_unknownFields = y__}) defMessage = FeeLimit'_constructor {_FeeLimit'limit = Prelude.Nothing, _FeeLimit'_unknownFields = []} parseMessage = let loop :: FeeLimit -> Data.ProtoLens.Encoding.Bytes.Parser FeeLimit loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fixed" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fixed") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fixed_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fixedMsat") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "percent" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"percent") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FeeLimit" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'limit") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (FeeLimit'Fixed v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral v) (Prelude.Just (FeeLimit'FixedMsat v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral v) (Prelude.Just (FeeLimit'Percent v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData FeeLimit where rnf = \ x__ -> Control.DeepSeq.deepseq (_FeeLimit'_unknownFields x__) (Control.DeepSeq.deepseq (_FeeLimit'limit x__) ()) instance Control.DeepSeq.NFData FeeLimit'Limit where rnf (FeeLimit'Fixed x__) = Control.DeepSeq.rnf x__ rnf (FeeLimit'FixedMsat x__) = Control.DeepSeq.rnf x__ rnf (FeeLimit'Percent x__) = Control.DeepSeq.rnf x__ _FeeLimit'Fixed :: Data.ProtoLens.Prism.Prism' FeeLimit'Limit Data.Int.Int64 _FeeLimit'Fixed = Data.ProtoLens.Prism.prism' FeeLimit'Fixed (\ p__ -> case p__ of (FeeLimit'Fixed p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _FeeLimit'FixedMsat :: Data.ProtoLens.Prism.Prism' FeeLimit'Limit Data.Int.Int64 _FeeLimit'FixedMsat = Data.ProtoLens.Prism.prism' FeeLimit'FixedMsat (\ p__ -> case p__ of (FeeLimit'FixedMsat p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _FeeLimit'Percent :: Data.ProtoLens.Prism.Prism' FeeLimit'Limit Data.Int.Int64 _FeeLimit'Percent = Data.ProtoLens.Prism.prism' FeeLimit'Percent (\ p__ -> case p__ of (FeeLimit'Percent p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.value' @:: Lens' FloatMetric Prelude.Double@ * 'Proto.Lnrpc.Ln0_Fields.normalizedValue' @:: Lens' FloatMetric Prelude.Double@ -} data FloatMetric = FloatMetric'_constructor {_FloatMetric'value :: !Prelude.Double, _FloatMetric'normalizedValue :: !Prelude.Double, _FloatMetric'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FloatMetric where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FloatMetric instance Data.ProtoLens.Field.HasField FloatMetric "value" Prelude.Double where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FloatMetric'value (\ x__ y__ -> x__ {_FloatMetric'value = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FloatMetric "normalizedValue" Prelude.Double where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FloatMetric'normalizedValue (\ x__ y__ -> x__ {_FloatMetric'normalizedValue = y__})) Prelude.id instance Data.ProtoLens.Message FloatMetric where messageName _ = Data.Text.pack "lnrpc.FloatMetric" packedMessageDescriptor _ = "\n\ \\vFloatMetric\DC2\DC4\n\ \\ENQvalue\CAN\SOH \SOH(\SOHR\ENQvalue\DC2)\n\ \\DLEnormalized_value\CAN\STX \SOH(\SOHR\SInormalizedValue" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.ScalarField Data.ProtoLens.DoubleField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Double) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"value")) :: Data.ProtoLens.FieldDescriptor FloatMetric normalizedValue__field_descriptor = Data.ProtoLens.FieldDescriptor "normalized_value" (Data.ProtoLens.ScalarField Data.ProtoLens.DoubleField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Double) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"normalizedValue")) :: Data.ProtoLens.FieldDescriptor FloatMetric in Data.Map.fromList [(Data.ProtoLens.Tag 1, value__field_descriptor), (Data.ProtoLens.Tag 2, normalizedValue__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FloatMetric'_unknownFields (\ x__ y__ -> x__ {_FloatMetric'_unknownFields = y__}) defMessage = FloatMetric'_constructor {_FloatMetric'value = Data.ProtoLens.fieldDefault, _FloatMetric'normalizedValue = Data.ProtoLens.fieldDefault, _FloatMetric'_unknownFields = []} parseMessage = let loop :: FloatMetric -> Data.ProtoLens.Encoding.Bytes.Parser FloatMetric loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 9 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Data.ProtoLens.Encoding.Bytes.wordToDouble Data.ProtoLens.Encoding.Bytes.getFixed64) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") y x) 17 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Data.ProtoLens.Encoding.Bytes.wordToDouble Data.ProtoLens.Encoding.Bytes.getFixed64) "normalized_value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"normalizedValue") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FloatMetric" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"value") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 9) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putFixed64 Data.ProtoLens.Encoding.Bytes.doubleToWord _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"normalizedValue") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 17) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putFixed64 Data.ProtoLens.Encoding.Bytes.doubleToWord _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData FloatMetric where rnf = \ x__ -> Control.DeepSeq.deepseq (_FloatMetric'_unknownFields x__) (Control.DeepSeq.deepseq (_FloatMetric'value x__) (Control.DeepSeq.deepseq (_FloatMetric'normalizedValue x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.signedPsbt' @:: Lens' FundingPsbtFinalize Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.pendingChanId' @:: Lens' FundingPsbtFinalize Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.finalRawTx' @:: Lens' FundingPsbtFinalize Data.ByteString.ByteString@ -} data FundingPsbtFinalize = FundingPsbtFinalize'_constructor {_FundingPsbtFinalize'signedPsbt :: !Data.ByteString.ByteString, _FundingPsbtFinalize'pendingChanId :: !Data.ByteString.ByteString, _FundingPsbtFinalize'finalRawTx :: !Data.ByteString.ByteString, _FundingPsbtFinalize'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FundingPsbtFinalize where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FundingPsbtFinalize instance Data.ProtoLens.Field.HasField FundingPsbtFinalize "signedPsbt" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingPsbtFinalize'signedPsbt (\ x__ y__ -> x__ {_FundingPsbtFinalize'signedPsbt = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FundingPsbtFinalize "pendingChanId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingPsbtFinalize'pendingChanId (\ x__ y__ -> x__ {_FundingPsbtFinalize'pendingChanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FundingPsbtFinalize "finalRawTx" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingPsbtFinalize'finalRawTx (\ x__ y__ -> x__ {_FundingPsbtFinalize'finalRawTx = y__})) Prelude.id instance Data.ProtoLens.Message FundingPsbtFinalize where messageName _ = Data.Text.pack "lnrpc.FundingPsbtFinalize" packedMessageDescriptor _ = "\n\ \\DC3FundingPsbtFinalize\DC2\US\n\ \\vsigned_psbt\CAN\SOH \SOH(\fR\n\ \signedPsbt\DC2&\n\ \\SIpending_chan_id\CAN\STX \SOH(\fR\rpendingChanId\DC2 \n\ \\ffinal_raw_tx\CAN\ETX \SOH(\fR\n\ \finalRawTx" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let signedPsbt__field_descriptor = Data.ProtoLens.FieldDescriptor "signed_psbt" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"signedPsbt")) :: Data.ProtoLens.FieldDescriptor FundingPsbtFinalize pendingChanId__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pendingChanId")) :: Data.ProtoLens.FieldDescriptor FundingPsbtFinalize finalRawTx__field_descriptor = Data.ProtoLens.FieldDescriptor "final_raw_tx" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"finalRawTx")) :: Data.ProtoLens.FieldDescriptor FundingPsbtFinalize in Data.Map.fromList [(Data.ProtoLens.Tag 1, signedPsbt__field_descriptor), (Data.ProtoLens.Tag 2, pendingChanId__field_descriptor), (Data.ProtoLens.Tag 3, finalRawTx__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FundingPsbtFinalize'_unknownFields (\ x__ y__ -> x__ {_FundingPsbtFinalize'_unknownFields = y__}) defMessage = FundingPsbtFinalize'_constructor {_FundingPsbtFinalize'signedPsbt = Data.ProtoLens.fieldDefault, _FundingPsbtFinalize'pendingChanId = Data.ProtoLens.fieldDefault, _FundingPsbtFinalize'finalRawTx = Data.ProtoLens.fieldDefault, _FundingPsbtFinalize'_unknownFields = []} parseMessage = let loop :: FundingPsbtFinalize -> Data.ProtoLens.Encoding.Bytes.Parser FundingPsbtFinalize loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "signed_psbt" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"signedPsbt") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pending_chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingChanId") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "final_raw_tx" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"finalRawTx") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FundingPsbtFinalize" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"signedPsbt") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pendingChanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"finalRawTx") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData FundingPsbtFinalize where rnf = \ x__ -> Control.DeepSeq.deepseq (_FundingPsbtFinalize'_unknownFields x__) (Control.DeepSeq.deepseq (_FundingPsbtFinalize'signedPsbt x__) (Control.DeepSeq.deepseq (_FundingPsbtFinalize'pendingChanId x__) (Control.DeepSeq.deepseq (_FundingPsbtFinalize'finalRawTx x__) ()))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.fundedPsbt' @:: Lens' FundingPsbtVerify Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.pendingChanId' @:: Lens' FundingPsbtVerify Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.skipFinalize' @:: Lens' FundingPsbtVerify Prelude.Bool@ -} data FundingPsbtVerify = FundingPsbtVerify'_constructor {_FundingPsbtVerify'fundedPsbt :: !Data.ByteString.ByteString, _FundingPsbtVerify'pendingChanId :: !Data.ByteString.ByteString, _FundingPsbtVerify'skipFinalize :: !Prelude.Bool, _FundingPsbtVerify'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FundingPsbtVerify where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FundingPsbtVerify instance Data.ProtoLens.Field.HasField FundingPsbtVerify "fundedPsbt" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingPsbtVerify'fundedPsbt (\ x__ y__ -> x__ {_FundingPsbtVerify'fundedPsbt = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FundingPsbtVerify "pendingChanId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingPsbtVerify'pendingChanId (\ x__ y__ -> x__ {_FundingPsbtVerify'pendingChanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FundingPsbtVerify "skipFinalize" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingPsbtVerify'skipFinalize (\ x__ y__ -> x__ {_FundingPsbtVerify'skipFinalize = y__})) Prelude.id instance Data.ProtoLens.Message FundingPsbtVerify where messageName _ = Data.Text.pack "lnrpc.FundingPsbtVerify" packedMessageDescriptor _ = "\n\ \\DC1FundingPsbtVerify\DC2\US\n\ \\vfunded_psbt\CAN\SOH \SOH(\fR\n\ \fundedPsbt\DC2&\n\ \\SIpending_chan_id\CAN\STX \SOH(\fR\rpendingChanId\DC2#\n\ \\rskip_finalize\CAN\ETX \SOH(\bR\fskipFinalize" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let fundedPsbt__field_descriptor = Data.ProtoLens.FieldDescriptor "funded_psbt" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"fundedPsbt")) :: Data.ProtoLens.FieldDescriptor FundingPsbtVerify pendingChanId__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pendingChanId")) :: Data.ProtoLens.FieldDescriptor FundingPsbtVerify skipFinalize__field_descriptor = Data.ProtoLens.FieldDescriptor "skip_finalize" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"skipFinalize")) :: Data.ProtoLens.FieldDescriptor FundingPsbtVerify in Data.Map.fromList [(Data.ProtoLens.Tag 1, fundedPsbt__field_descriptor), (Data.ProtoLens.Tag 2, pendingChanId__field_descriptor), (Data.ProtoLens.Tag 3, skipFinalize__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FundingPsbtVerify'_unknownFields (\ x__ y__ -> x__ {_FundingPsbtVerify'_unknownFields = y__}) defMessage = FundingPsbtVerify'_constructor {_FundingPsbtVerify'fundedPsbt = Data.ProtoLens.fieldDefault, _FundingPsbtVerify'pendingChanId = Data.ProtoLens.fieldDefault, _FundingPsbtVerify'skipFinalize = Data.ProtoLens.fieldDefault, _FundingPsbtVerify'_unknownFields = []} parseMessage = let loop :: FundingPsbtVerify -> Data.ProtoLens.Encoding.Bytes.Parser FundingPsbtVerify loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "funded_psbt" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fundedPsbt") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pending_chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingChanId") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "skip_finalize" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"skipFinalize") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FundingPsbtVerify" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"fundedPsbt") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pendingChanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"skipFinalize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData FundingPsbtVerify where rnf = \ x__ -> Control.DeepSeq.deepseq (_FundingPsbtVerify'_unknownFields x__) (Control.DeepSeq.deepseq (_FundingPsbtVerify'fundedPsbt x__) (Control.DeepSeq.deepseq (_FundingPsbtVerify'pendingChanId x__) (Control.DeepSeq.deepseq (_FundingPsbtVerify'skipFinalize x__) ()))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.maybe'shim' @:: Lens' FundingShim (Prelude.Maybe FundingShim'Shim)@ * 'Proto.Lnrpc.Ln0_Fields.maybe'chanPointShim' @:: Lens' FundingShim (Prelude.Maybe ChanPointShim)@ * 'Proto.Lnrpc.Ln0_Fields.chanPointShim' @:: Lens' FundingShim ChanPointShim@ * 'Proto.Lnrpc.Ln0_Fields.maybe'psbtShim' @:: Lens' FundingShim (Prelude.Maybe PsbtShim)@ * 'Proto.Lnrpc.Ln0_Fields.psbtShim' @:: Lens' FundingShim PsbtShim@ -} data FundingShim = FundingShim'_constructor {_FundingShim'shim :: !(Prelude.Maybe FundingShim'Shim), _FundingShim'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FundingShim where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FundingShim data FundingShim'Shim = FundingShim'ChanPointShim !ChanPointShim | FundingShim'PsbtShim !PsbtShim deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out FundingShim'Shim instance Data.ProtoLens.Field.HasField FundingShim "maybe'shim" (Prelude.Maybe FundingShim'Shim) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingShim'shim (\ x__ y__ -> x__ {_FundingShim'shim = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FundingShim "maybe'chanPointShim" (Prelude.Maybe ChanPointShim) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingShim'shim (\ x__ y__ -> x__ {_FundingShim'shim = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingShim'ChanPointShim x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingShim'ChanPointShim y__)) instance Data.ProtoLens.Field.HasField FundingShim "chanPointShim" ChanPointShim where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingShim'shim (\ x__ y__ -> x__ {_FundingShim'shim = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingShim'ChanPointShim x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingShim'ChanPointShim y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField FundingShim "maybe'psbtShim" (Prelude.Maybe PsbtShim) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingShim'shim (\ x__ y__ -> x__ {_FundingShim'shim = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingShim'PsbtShim x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingShim'PsbtShim y__)) instance Data.ProtoLens.Field.HasField FundingShim "psbtShim" PsbtShim where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingShim'shim (\ x__ y__ -> x__ {_FundingShim'shim = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingShim'PsbtShim x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingShim'PsbtShim y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Message FundingShim where messageName _ = Data.Text.pack "lnrpc.FundingShim" packedMessageDescriptor _ = "\n\ \\vFundingShim\DC2>\n\ \\SIchan_point_shim\CAN\SOH \SOH(\v2\DC4.lnrpc.ChanPointShimH\NULR\rchanPointShim\DC2.\n\ \\tpsbt_shim\CAN\STX \SOH(\v2\SI.lnrpc.PsbtShimH\NULR\bpsbtShimB\ACK\n\ \\EOTshim" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let chanPointShim__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_point_shim" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChanPointShim) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'chanPointShim")) :: Data.ProtoLens.FieldDescriptor FundingShim psbtShim__field_descriptor = Data.ProtoLens.FieldDescriptor "psbt_shim" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PsbtShim) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'psbtShim")) :: Data.ProtoLens.FieldDescriptor FundingShim in Data.Map.fromList [(Data.ProtoLens.Tag 1, chanPointShim__field_descriptor), (Data.ProtoLens.Tag 2, psbtShim__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FundingShim'_unknownFields (\ x__ y__ -> x__ {_FundingShim'_unknownFields = y__}) defMessage = FundingShim'_constructor {_FundingShim'shim = Prelude.Nothing, _FundingShim'_unknownFields = []} parseMessage = let loop :: FundingShim -> Data.ProtoLens.Encoding.Bytes.Parser FundingShim loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "chan_point_shim" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanPointShim") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "psbt_shim" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"psbtShim") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FundingShim" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'shim") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (FundingShim'ChanPointShim v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (FundingShim'PsbtShim v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData FundingShim where rnf = \ x__ -> Control.DeepSeq.deepseq (_FundingShim'_unknownFields x__) (Control.DeepSeq.deepseq (_FundingShim'shim x__) ()) instance Control.DeepSeq.NFData FundingShim'Shim where rnf (FundingShim'ChanPointShim x__) = Control.DeepSeq.rnf x__ rnf (FundingShim'PsbtShim x__) = Control.DeepSeq.rnf x__ _FundingShim'ChanPointShim :: Data.ProtoLens.Prism.Prism' FundingShim'Shim ChanPointShim _FundingShim'ChanPointShim = Data.ProtoLens.Prism.prism' FundingShim'ChanPointShim (\ p__ -> case p__ of (FundingShim'ChanPointShim p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _FundingShim'PsbtShim :: Data.ProtoLens.Prism.Prism' FundingShim'Shim PsbtShim _FundingShim'PsbtShim = Data.ProtoLens.Prism.prism' FundingShim'PsbtShim (\ p__ -> case p__ of (FundingShim'PsbtShim p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.pendingChanId' @:: Lens' FundingShimCancel Data.ByteString.ByteString@ -} data FundingShimCancel = FundingShimCancel'_constructor {_FundingShimCancel'pendingChanId :: !Data.ByteString.ByteString, _FundingShimCancel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FundingShimCancel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FundingShimCancel instance Data.ProtoLens.Field.HasField FundingShimCancel "pendingChanId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingShimCancel'pendingChanId (\ x__ y__ -> x__ {_FundingShimCancel'pendingChanId = y__})) Prelude.id instance Data.ProtoLens.Message FundingShimCancel where messageName _ = Data.Text.pack "lnrpc.FundingShimCancel" packedMessageDescriptor _ = "\n\ \\DC1FundingShimCancel\DC2&\n\ \\SIpending_chan_id\CAN\SOH \SOH(\fR\rpendingChanId" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let pendingChanId__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pendingChanId")) :: Data.ProtoLens.FieldDescriptor FundingShimCancel in Data.Map.fromList [(Data.ProtoLens.Tag 1, pendingChanId__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FundingShimCancel'_unknownFields (\ x__ y__ -> x__ {_FundingShimCancel'_unknownFields = y__}) defMessage = FundingShimCancel'_constructor {_FundingShimCancel'pendingChanId = Data.ProtoLens.fieldDefault, _FundingShimCancel'_unknownFields = []} parseMessage = let loop :: FundingShimCancel -> Data.ProtoLens.Encoding.Bytes.Parser FundingShimCancel loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pending_chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingChanId") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FundingShimCancel" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pendingChanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData FundingShimCancel where rnf = \ x__ -> Control.DeepSeq.deepseq (_FundingShimCancel'_unknownFields x__) (Control.DeepSeq.deepseq (_FundingShimCancel'pendingChanId x__) ()) {- | Fields : -} data FundingStateStepResp = FundingStateStepResp'_constructor {_FundingStateStepResp'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FundingStateStepResp where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FundingStateStepResp instance Data.ProtoLens.Message FundingStateStepResp where messageName _ = Data.Text.pack "lnrpc.FundingStateStepResp" packedMessageDescriptor _ = "\n\ \\DC4FundingStateStepResp" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _FundingStateStepResp'_unknownFields (\ x__ y__ -> x__ {_FundingStateStepResp'_unknownFields = y__}) defMessage = FundingStateStepResp'_constructor {_FundingStateStepResp'_unknownFields = []} parseMessage = let loop :: FundingStateStepResp -> Data.ProtoLens.Encoding.Bytes.Parser FundingStateStepResp loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FundingStateStepResp" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData FundingStateStepResp where rnf = \ x__ -> Control.DeepSeq.deepseq (_FundingStateStepResp'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.maybe'trigger' @:: Lens' FundingTransitionMsg (Prelude.Maybe FundingTransitionMsg'Trigger)@ * 'Proto.Lnrpc.Ln0_Fields.maybe'shimRegister' @:: Lens' FundingTransitionMsg (Prelude.Maybe FundingShim)@ * 'Proto.Lnrpc.Ln0_Fields.shimRegister' @:: Lens' FundingTransitionMsg FundingShim@ * 'Proto.Lnrpc.Ln0_Fields.maybe'shimCancel' @:: Lens' FundingTransitionMsg (Prelude.Maybe FundingShimCancel)@ * 'Proto.Lnrpc.Ln0_Fields.shimCancel' @:: Lens' FundingTransitionMsg FundingShimCancel@ * 'Proto.Lnrpc.Ln0_Fields.maybe'psbtVerify' @:: Lens' FundingTransitionMsg (Prelude.Maybe FundingPsbtVerify)@ * 'Proto.Lnrpc.Ln0_Fields.psbtVerify' @:: Lens' FundingTransitionMsg FundingPsbtVerify@ * 'Proto.Lnrpc.Ln0_Fields.maybe'psbtFinalize' @:: Lens' FundingTransitionMsg (Prelude.Maybe FundingPsbtFinalize)@ * 'Proto.Lnrpc.Ln0_Fields.psbtFinalize' @:: Lens' FundingTransitionMsg FundingPsbtFinalize@ -} data FundingTransitionMsg = FundingTransitionMsg'_constructor {_FundingTransitionMsg'trigger :: !(Prelude.Maybe FundingTransitionMsg'Trigger), _FundingTransitionMsg'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show FundingTransitionMsg where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out FundingTransitionMsg data FundingTransitionMsg'Trigger = FundingTransitionMsg'ShimRegister !FundingShim | FundingTransitionMsg'ShimCancel !FundingShimCancel | FundingTransitionMsg'PsbtVerify !FundingPsbtVerify | FundingTransitionMsg'PsbtFinalize !FundingPsbtFinalize deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out FundingTransitionMsg'Trigger instance Data.ProtoLens.Field.HasField FundingTransitionMsg "maybe'trigger" (Prelude.Maybe FundingTransitionMsg'Trigger) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FundingTransitionMsg "maybe'shimRegister" (Prelude.Maybe FundingShim) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'ShimRegister x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'ShimRegister y__)) instance Data.ProtoLens.Field.HasField FundingTransitionMsg "shimRegister" FundingShim where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'ShimRegister x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'ShimRegister y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField FundingTransitionMsg "maybe'shimCancel" (Prelude.Maybe FundingShimCancel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'ShimCancel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'ShimCancel y__)) instance Data.ProtoLens.Field.HasField FundingTransitionMsg "shimCancel" FundingShimCancel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'ShimCancel x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'ShimCancel y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField FundingTransitionMsg "maybe'psbtVerify" (Prelude.Maybe FundingPsbtVerify) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'PsbtVerify x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'PsbtVerify y__)) instance Data.ProtoLens.Field.HasField FundingTransitionMsg "psbtVerify" FundingPsbtVerify where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'PsbtVerify x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'PsbtVerify y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField FundingTransitionMsg "maybe'psbtFinalize" (Prelude.Maybe FundingPsbtFinalize) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'PsbtFinalize x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'PsbtFinalize y__)) instance Data.ProtoLens.Field.HasField FundingTransitionMsg "psbtFinalize" FundingPsbtFinalize where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FundingTransitionMsg'trigger (\ x__ y__ -> x__ {_FundingTransitionMsg'trigger = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (FundingTransitionMsg'PsbtFinalize x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap FundingTransitionMsg'PsbtFinalize y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Message FundingTransitionMsg where messageName _ = Data.Text.pack "lnrpc.FundingTransitionMsg" packedMessageDescriptor _ = "\n\ \\DC4FundingTransitionMsg\DC29\n\ \\rshim_register\CAN\SOH \SOH(\v2\DC2.lnrpc.FundingShimH\NULR\fshimRegister\DC2;\n\ \\vshim_cancel\CAN\STX \SOH(\v2\CAN.lnrpc.FundingShimCancelH\NULR\n\ \shimCancel\DC2;\n\ \\vpsbt_verify\CAN\ETX \SOH(\v2\CAN.lnrpc.FundingPsbtVerifyH\NULR\n\ \psbtVerify\DC2A\n\ \\rpsbt_finalize\CAN\EOT \SOH(\v2\SUB.lnrpc.FundingPsbtFinalizeH\NULR\fpsbtFinalizeB\t\n\ \\atrigger" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let shimRegister__field_descriptor = Data.ProtoLens.FieldDescriptor "shim_register" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor FundingShim) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'shimRegister")) :: Data.ProtoLens.FieldDescriptor FundingTransitionMsg shimCancel__field_descriptor = Data.ProtoLens.FieldDescriptor "shim_cancel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor FundingShimCancel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'shimCancel")) :: Data.ProtoLens.FieldDescriptor FundingTransitionMsg psbtVerify__field_descriptor = Data.ProtoLens.FieldDescriptor "psbt_verify" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor FundingPsbtVerify) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'psbtVerify")) :: Data.ProtoLens.FieldDescriptor FundingTransitionMsg psbtFinalize__field_descriptor = Data.ProtoLens.FieldDescriptor "psbt_finalize" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor FundingPsbtFinalize) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'psbtFinalize")) :: Data.ProtoLens.FieldDescriptor FundingTransitionMsg in Data.Map.fromList [(Data.ProtoLens.Tag 1, shimRegister__field_descriptor), (Data.ProtoLens.Tag 2, shimCancel__field_descriptor), (Data.ProtoLens.Tag 3, psbtVerify__field_descriptor), (Data.ProtoLens.Tag 4, psbtFinalize__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FundingTransitionMsg'_unknownFields (\ x__ y__ -> x__ {_FundingTransitionMsg'_unknownFields = y__}) defMessage = FundingTransitionMsg'_constructor {_FundingTransitionMsg'trigger = Prelude.Nothing, _FundingTransitionMsg'_unknownFields = []} parseMessage = let loop :: FundingTransitionMsg -> Data.ProtoLens.Encoding.Bytes.Parser FundingTransitionMsg loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "shim_register" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"shimRegister") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "shim_cancel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"shimCancel") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "psbt_verify" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"psbtVerify") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "psbt_finalize" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"psbtFinalize") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FundingTransitionMsg" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'trigger") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (FundingTransitionMsg'ShimRegister v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (FundingTransitionMsg'ShimCancel v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (FundingTransitionMsg'PsbtVerify v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v) (Prelude.Just (FundingTransitionMsg'PsbtFinalize v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData FundingTransitionMsg where rnf = \ x__ -> Control.DeepSeq.deepseq (_FundingTransitionMsg'_unknownFields x__) (Control.DeepSeq.deepseq (_FundingTransitionMsg'trigger x__) ()) instance Control.DeepSeq.NFData FundingTransitionMsg'Trigger where rnf (FundingTransitionMsg'ShimRegister x__) = Control.DeepSeq.rnf x__ rnf (FundingTransitionMsg'ShimCancel x__) = Control.DeepSeq.rnf x__ rnf (FundingTransitionMsg'PsbtVerify x__) = Control.DeepSeq.rnf x__ rnf (FundingTransitionMsg'PsbtFinalize x__) = Control.DeepSeq.rnf x__ _FundingTransitionMsg'ShimRegister :: Data.ProtoLens.Prism.Prism' FundingTransitionMsg'Trigger FundingShim _FundingTransitionMsg'ShimRegister = Data.ProtoLens.Prism.prism' FundingTransitionMsg'ShimRegister (\ p__ -> case p__ of (FundingTransitionMsg'ShimRegister p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _FundingTransitionMsg'ShimCancel :: Data.ProtoLens.Prism.Prism' FundingTransitionMsg'Trigger FundingShimCancel _FundingTransitionMsg'ShimCancel = Data.ProtoLens.Prism.prism' FundingTransitionMsg'ShimCancel (\ p__ -> case p__ of (FundingTransitionMsg'ShimCancel p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _FundingTransitionMsg'PsbtVerify :: Data.ProtoLens.Prism.Prism' FundingTransitionMsg'Trigger FundingPsbtVerify _FundingTransitionMsg'PsbtVerify = Data.ProtoLens.Prism.prism' FundingTransitionMsg'PsbtVerify (\ p__ -> case p__ of (FundingTransitionMsg'PsbtVerify p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _FundingTransitionMsg'PsbtFinalize :: Data.ProtoLens.Prism.Prism' FundingTransitionMsg'Trigger FundingPsbtFinalize _FundingTransitionMsg'PsbtFinalize = Data.ProtoLens.Prism.prism' FundingTransitionMsg'PsbtFinalize (\ p__ -> case p__ of (FundingTransitionMsg'PsbtFinalize p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : -} data GraphTopologySubscription = GraphTopologySubscription'_constructor {_GraphTopologySubscription'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show GraphTopologySubscription where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out GraphTopologySubscription instance Data.ProtoLens.Message GraphTopologySubscription where messageName _ = Data.Text.pack "lnrpc.GraphTopologySubscription" packedMessageDescriptor _ = "\n\ \\EMGraphTopologySubscription" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _GraphTopologySubscription'_unknownFields (\ x__ y__ -> x__ {_GraphTopologySubscription'_unknownFields = y__}) defMessage = GraphTopologySubscription'_constructor {_GraphTopologySubscription'_unknownFields = []} parseMessage = let loop :: GraphTopologySubscription -> Data.ProtoLens.Encoding.Bytes.Parser GraphTopologySubscription loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "GraphTopologySubscription" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData GraphTopologySubscription where rnf = \ x__ -> Control.DeepSeq.deepseq (_GraphTopologySubscription'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.nodeUpdates' @:: Lens' GraphTopologyUpdate [NodeUpdate]@ * 'Proto.Lnrpc.Ln0_Fields.vec'nodeUpdates' @:: Lens' GraphTopologyUpdate (Data.Vector.Vector NodeUpdate)@ * 'Proto.Lnrpc.Ln0_Fields.channelUpdates' @:: Lens' GraphTopologyUpdate [ChannelEdgeUpdate]@ * 'Proto.Lnrpc.Ln0_Fields.vec'channelUpdates' @:: Lens' GraphTopologyUpdate (Data.Vector.Vector ChannelEdgeUpdate)@ * 'Proto.Lnrpc.Ln0_Fields.closedChans' @:: Lens' GraphTopologyUpdate [ClosedChannelUpdate]@ * 'Proto.Lnrpc.Ln0_Fields.vec'closedChans' @:: Lens' GraphTopologyUpdate (Data.Vector.Vector ClosedChannelUpdate)@ -} data GraphTopologyUpdate = GraphTopologyUpdate'_constructor {_GraphTopologyUpdate'nodeUpdates :: !(Data.Vector.Vector NodeUpdate), _GraphTopologyUpdate'channelUpdates :: !(Data.Vector.Vector ChannelEdgeUpdate), _GraphTopologyUpdate'closedChans :: !(Data.Vector.Vector ClosedChannelUpdate), _GraphTopologyUpdate'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show GraphTopologyUpdate where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out GraphTopologyUpdate instance Data.ProtoLens.Field.HasField GraphTopologyUpdate "nodeUpdates" [NodeUpdate] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GraphTopologyUpdate'nodeUpdates (\ x__ y__ -> x__ {_GraphTopologyUpdate'nodeUpdates = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField GraphTopologyUpdate "vec'nodeUpdates" (Data.Vector.Vector NodeUpdate) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GraphTopologyUpdate'nodeUpdates (\ x__ y__ -> x__ {_GraphTopologyUpdate'nodeUpdates = y__})) Prelude.id instance Data.ProtoLens.Field.HasField GraphTopologyUpdate "channelUpdates" [ChannelEdgeUpdate] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GraphTopologyUpdate'channelUpdates (\ x__ y__ -> x__ {_GraphTopologyUpdate'channelUpdates = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField GraphTopologyUpdate "vec'channelUpdates" (Data.Vector.Vector ChannelEdgeUpdate) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GraphTopologyUpdate'channelUpdates (\ x__ y__ -> x__ {_GraphTopologyUpdate'channelUpdates = y__})) Prelude.id instance Data.ProtoLens.Field.HasField GraphTopologyUpdate "closedChans" [ClosedChannelUpdate] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GraphTopologyUpdate'closedChans (\ x__ y__ -> x__ {_GraphTopologyUpdate'closedChans = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField GraphTopologyUpdate "vec'closedChans" (Data.Vector.Vector ClosedChannelUpdate) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GraphTopologyUpdate'closedChans (\ x__ y__ -> x__ {_GraphTopologyUpdate'closedChans = y__})) Prelude.id instance Data.ProtoLens.Message GraphTopologyUpdate where messageName _ = Data.Text.pack "lnrpc.GraphTopologyUpdate" packedMessageDescriptor _ = "\n\ \\DC3GraphTopologyUpdate\DC24\n\ \\fnode_updates\CAN\SOH \ETX(\v2\DC1.lnrpc.NodeUpdateR\vnodeUpdates\DC2A\n\ \\SIchannel_updates\CAN\STX \ETX(\v2\CAN.lnrpc.ChannelEdgeUpdateR\SOchannelUpdates\DC2=\n\ \\fclosed_chans\CAN\ETX \ETX(\v2\SUB.lnrpc.ClosedChannelUpdateR\vclosedChans" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let nodeUpdates__field_descriptor = Data.ProtoLens.FieldDescriptor "node_updates" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NodeUpdate) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"nodeUpdates")) :: Data.ProtoLens.FieldDescriptor GraphTopologyUpdate channelUpdates__field_descriptor = Data.ProtoLens.FieldDescriptor "channel_updates" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelEdgeUpdate) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"channelUpdates")) :: Data.ProtoLens.FieldDescriptor GraphTopologyUpdate closedChans__field_descriptor = Data.ProtoLens.FieldDescriptor "closed_chans" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ClosedChannelUpdate) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"closedChans")) :: Data.ProtoLens.FieldDescriptor GraphTopologyUpdate in Data.Map.fromList [(Data.ProtoLens.Tag 1, nodeUpdates__field_descriptor), (Data.ProtoLens.Tag 2, channelUpdates__field_descriptor), (Data.ProtoLens.Tag 3, closedChans__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _GraphTopologyUpdate'_unknownFields (\ x__ y__ -> x__ {_GraphTopologyUpdate'_unknownFields = y__}) defMessage = GraphTopologyUpdate'_constructor {_GraphTopologyUpdate'nodeUpdates = Data.Vector.Generic.empty, _GraphTopologyUpdate'channelUpdates = Data.Vector.Generic.empty, _GraphTopologyUpdate'closedChans = Data.Vector.Generic.empty, _GraphTopologyUpdate'_unknownFields = []} parseMessage = let loop :: GraphTopologyUpdate -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld ChannelEdgeUpdate -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld ClosedChannelUpdate -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld NodeUpdate -> Data.ProtoLens.Encoding.Bytes.Parser GraphTopologyUpdate loop x mutable'channelUpdates mutable'closedChans mutable'nodeUpdates = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'channelUpdates <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'channelUpdates) frozen'closedChans <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'closedChans) frozen'nodeUpdates <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'nodeUpdates) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'channelUpdates") frozen'channelUpdates (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'closedChans") frozen'closedChans (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'nodeUpdates") frozen'nodeUpdates x)))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "node_updates" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'nodeUpdates y) loop x mutable'channelUpdates mutable'closedChans v 18 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "channel_updates" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'channelUpdates y) loop x v mutable'closedChans mutable'nodeUpdates 26 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "closed_chans" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'closedChans y) loop x mutable'channelUpdates v mutable'nodeUpdates wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'channelUpdates mutable'closedChans mutable'nodeUpdates in (Data.ProtoLens.Encoding.Bytes.) (do mutable'channelUpdates <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'closedChans <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'nodeUpdates <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'channelUpdates mutable'closedChans mutable'nodeUpdates) "GraphTopologyUpdate" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'nodeUpdates") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'channelUpdates") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'closedChans") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData GraphTopologyUpdate where rnf = \ x__ -> Control.DeepSeq.deepseq (_GraphTopologyUpdate'_unknownFields x__) (Control.DeepSeq.deepseq (_GraphTopologyUpdate'nodeUpdates x__) (Control.DeepSeq.deepseq (_GraphTopologyUpdate'channelUpdates x__) (Control.DeepSeq.deepseq (_GraphTopologyUpdate'closedChans x__) ()))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.incoming' @:: Lens' HTLC Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.amount' @:: Lens' HTLC Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.hashLock' @:: Lens' HTLC Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.expirationHeight' @:: Lens' HTLC Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.htlcIndex' @:: Lens' HTLC Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.forwardingChannel' @:: Lens' HTLC Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.forwardingHtlcIndex' @:: Lens' HTLC Data.Word.Word64@ -} data HTLC = HTLC'_constructor {_HTLC'incoming :: !Prelude.Bool, _HTLC'amount :: !Data.Int.Int64, _HTLC'hashLock :: !Data.ByteString.ByteString, _HTLC'expirationHeight :: !Data.Word.Word32, _HTLC'htlcIndex :: !Data.Word.Word64, _HTLC'forwardingChannel :: !Data.Word.Word64, _HTLC'forwardingHtlcIndex :: !Data.Word.Word64, _HTLC'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show HTLC where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out HTLC instance Data.ProtoLens.Field.HasField HTLC "incoming" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HTLC'incoming (\ x__ y__ -> x__ {_HTLC'incoming = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HTLC "amount" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HTLC'amount (\ x__ y__ -> x__ {_HTLC'amount = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HTLC "hashLock" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HTLC'hashLock (\ x__ y__ -> x__ {_HTLC'hashLock = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HTLC "expirationHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HTLC'expirationHeight (\ x__ y__ -> x__ {_HTLC'expirationHeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HTLC "htlcIndex" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HTLC'htlcIndex (\ x__ y__ -> x__ {_HTLC'htlcIndex = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HTLC "forwardingChannel" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HTLC'forwardingChannel (\ x__ y__ -> x__ {_HTLC'forwardingChannel = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HTLC "forwardingHtlcIndex" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HTLC'forwardingHtlcIndex (\ x__ y__ -> x__ {_HTLC'forwardingHtlcIndex = y__})) Prelude.id instance Data.ProtoLens.Message HTLC where messageName _ = Data.Text.pack "lnrpc.HTLC" packedMessageDescriptor _ = "\n\ \\EOTHTLC\DC2\SUB\n\ \\bincoming\CAN\SOH \SOH(\bR\bincoming\DC2\SYN\n\ \\ACKamount\CAN\STX \SOH(\ETXR\ACKamount\DC2\ESC\n\ \\thash_lock\CAN\ETX \SOH(\fR\bhashLock\DC2+\n\ \\DC1expiration_height\CAN\EOT \SOH(\rR\DLEexpirationHeight\DC2\GS\n\ \\n\ \htlc_index\CAN\ENQ \SOH(\EOTR\thtlcIndex\DC2-\n\ \\DC2forwarding_channel\CAN\ACK \SOH(\EOTR\DC1forwardingChannel\DC22\n\ \\NAKforwarding_htlc_index\CAN\a \SOH(\EOTR\DC3forwardingHtlcIndex" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let incoming__field_descriptor = Data.ProtoLens.FieldDescriptor "incoming" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"incoming")) :: Data.ProtoLens.FieldDescriptor HTLC amount__field_descriptor = Data.ProtoLens.FieldDescriptor "amount" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amount")) :: Data.ProtoLens.FieldDescriptor HTLC hashLock__field_descriptor = Data.ProtoLens.FieldDescriptor "hash_lock" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"hashLock")) :: Data.ProtoLens.FieldDescriptor HTLC expirationHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "expiration_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"expirationHeight")) :: Data.ProtoLens.FieldDescriptor HTLC htlcIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "htlc_index" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"htlcIndex")) :: Data.ProtoLens.FieldDescriptor HTLC forwardingChannel__field_descriptor = Data.ProtoLens.FieldDescriptor "forwarding_channel" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"forwardingChannel")) :: Data.ProtoLens.FieldDescriptor HTLC forwardingHtlcIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "forwarding_htlc_index" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"forwardingHtlcIndex")) :: Data.ProtoLens.FieldDescriptor HTLC in Data.Map.fromList [(Data.ProtoLens.Tag 1, incoming__field_descriptor), (Data.ProtoLens.Tag 2, amount__field_descriptor), (Data.ProtoLens.Tag 3, hashLock__field_descriptor), (Data.ProtoLens.Tag 4, expirationHeight__field_descriptor), (Data.ProtoLens.Tag 5, htlcIndex__field_descriptor), (Data.ProtoLens.Tag 6, forwardingChannel__field_descriptor), (Data.ProtoLens.Tag 7, forwardingHtlcIndex__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _HTLC'_unknownFields (\ x__ y__ -> x__ {_HTLC'_unknownFields = y__}) defMessage = HTLC'_constructor {_HTLC'incoming = Data.ProtoLens.fieldDefault, _HTLC'amount = Data.ProtoLens.fieldDefault, _HTLC'hashLock = Data.ProtoLens.fieldDefault, _HTLC'expirationHeight = Data.ProtoLens.fieldDefault, _HTLC'htlcIndex = Data.ProtoLens.fieldDefault, _HTLC'forwardingChannel = Data.ProtoLens.fieldDefault, _HTLC'forwardingHtlcIndex = Data.ProtoLens.fieldDefault, _HTLC'_unknownFields = []} parseMessage = let loop :: HTLC -> Data.ProtoLens.Encoding.Bytes.Parser HTLC loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "incoming" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"incoming") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "amount" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amount") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "hash_lock" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"hashLock") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "expiration_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"expirationHeight") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "htlc_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"htlcIndex") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "forwarding_channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"forwardingChannel") y x) 56 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "forwarding_htlc_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"forwardingHtlcIndex") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "HTLC" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"incoming") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amount") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"hashLock") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"expirationHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"htlcIndex") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"forwardingChannel") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"forwardingHtlcIndex") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 56) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))) instance Control.DeepSeq.NFData HTLC where rnf = \ x__ -> Control.DeepSeq.deepseq (_HTLC'_unknownFields x__) (Control.DeepSeq.deepseq (_HTLC'incoming x__) (Control.DeepSeq.deepseq (_HTLC'amount x__) (Control.DeepSeq.deepseq (_HTLC'hashLock x__) (Control.DeepSeq.deepseq (_HTLC'expirationHeight x__) (Control.DeepSeq.deepseq (_HTLC'htlcIndex x__) (Control.DeepSeq.deepseq (_HTLC'forwardingChannel x__) (Control.DeepSeq.deepseq (_HTLC'forwardingHtlcIndex x__) ()))))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.chanId' @:: Lens' Hop Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.chanCapacity' @:: Lens' Hop Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.amtToForward' @:: Lens' Hop Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.fee' @:: Lens' Hop Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.expiry' @:: Lens' Hop Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.amtToForwardMsat' @:: Lens' Hop Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.feeMsat' @:: Lens' Hop Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.pubKey' @:: Lens' Hop Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.tlvPayload' @:: Lens' Hop Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.mppRecord' @:: Lens' Hop MPPRecord@ * 'Proto.Lnrpc.Ln0_Fields.maybe'mppRecord' @:: Lens' Hop (Prelude.Maybe MPPRecord)@ * 'Proto.Lnrpc.Ln0_Fields.ampRecord' @:: Lens' Hop AMPRecord@ * 'Proto.Lnrpc.Ln0_Fields.maybe'ampRecord' @:: Lens' Hop (Prelude.Maybe AMPRecord)@ * 'Proto.Lnrpc.Ln0_Fields.customRecords' @:: Lens' Hop (Data.Map.Map Data.Word.Word64 Data.ByteString.ByteString)@ -} data Hop = Hop'_constructor {_Hop'chanId :: !Data.Word.Word64, _Hop'chanCapacity :: !Data.Int.Int64, _Hop'amtToForward :: !Data.Int.Int64, _Hop'fee :: !Data.Int.Int64, _Hop'expiry :: !Data.Word.Word32, _Hop'amtToForwardMsat :: !Data.Int.Int64, _Hop'feeMsat :: !Data.Int.Int64, _Hop'pubKey :: !Data.Text.Text, _Hop'tlvPayload :: !Prelude.Bool, _Hop'mppRecord :: !(Prelude.Maybe MPPRecord), _Hop'ampRecord :: !(Prelude.Maybe AMPRecord), _Hop'customRecords :: !(Data.Map.Map Data.Word.Word64 Data.ByteString.ByteString), _Hop'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show Hop where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out Hop instance Data.ProtoLens.Field.HasField Hop "chanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'chanId (\ x__ y__ -> x__ {_Hop'chanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "chanCapacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'chanCapacity (\ x__ y__ -> x__ {_Hop'chanCapacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "amtToForward" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'amtToForward (\ x__ y__ -> x__ {_Hop'amtToForward = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "fee" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'fee (\ x__ y__ -> x__ {_Hop'fee = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "expiry" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'expiry (\ x__ y__ -> x__ {_Hop'expiry = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "amtToForwardMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'amtToForwardMsat (\ x__ y__ -> x__ {_Hop'amtToForwardMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "feeMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'feeMsat (\ x__ y__ -> x__ {_Hop'feeMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "pubKey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'pubKey (\ x__ y__ -> x__ {_Hop'pubKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "tlvPayload" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'tlvPayload (\ x__ y__ -> x__ {_Hop'tlvPayload = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "mppRecord" MPPRecord where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'mppRecord (\ x__ y__ -> x__ {_Hop'mppRecord = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Hop "maybe'mppRecord" (Prelude.Maybe MPPRecord) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'mppRecord (\ x__ y__ -> x__ {_Hop'mppRecord = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "ampRecord" AMPRecord where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'ampRecord (\ x__ y__ -> x__ {_Hop'ampRecord = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Hop "maybe'ampRecord" (Prelude.Maybe AMPRecord) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'ampRecord (\ x__ y__ -> x__ {_Hop'ampRecord = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop "customRecords" (Data.Map.Map Data.Word.Word64 Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'customRecords (\ x__ y__ -> x__ {_Hop'customRecords = y__})) Prelude.id instance Data.ProtoLens.Message Hop where messageName _ = Data.Text.pack "lnrpc.Hop" packedMessageDescriptor _ = "\n\ \\ETXHop\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2'\n\ \\rchan_capacity\CAN\STX \SOH(\ETXR\fchanCapacityB\STX\CAN\SOH\DC2(\n\ \\SOamt_to_forward\CAN\ETX \SOH(\ETXR\famtToForwardB\STX\CAN\SOH\DC2\DC4\n\ \\ETXfee\CAN\EOT \SOH(\ETXR\ETXfeeB\STX\CAN\SOH\DC2\SYN\n\ \\ACKexpiry\CAN\ENQ \SOH(\rR\ACKexpiry\DC2-\n\ \\DC3amt_to_forward_msat\CAN\ACK \SOH(\ETXR\DLEamtToForwardMsat\DC2\EM\n\ \\bfee_msat\CAN\a \SOH(\ETXR\afeeMsat\DC2\ETB\n\ \\apub_key\CAN\b \SOH(\tR\ACKpubKey\DC2\US\n\ \\vtlv_payload\CAN\t \SOH(\bR\n\ \tlvPayload\DC2/\n\ \\n\ \mpp_record\CAN\n\ \ \SOH(\v2\DLE.lnrpc.MPPRecordR\tmppRecord\DC2/\n\ \\n\ \amp_record\CAN\f \SOH(\v2\DLE.lnrpc.AMPRecordR\tampRecord\DC2D\n\ \\SOcustom_records\CAN\v \ETX(\v2\GS.lnrpc.Hop.CustomRecordsEntryR\rcustomRecords\SUB@\n\ \\DC2CustomRecordsEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\EOTR\ETXkey\DC2\DC4\n\ \\ENQvalue\CAN\STX \SOH(\fR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let chanId__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanId")) :: Data.ProtoLens.FieldDescriptor Hop chanCapacity__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanCapacity")) :: Data.ProtoLens.FieldDescriptor Hop amtToForward__field_descriptor = Data.ProtoLens.FieldDescriptor "amt_to_forward" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amtToForward")) :: Data.ProtoLens.FieldDescriptor Hop fee__field_descriptor = Data.ProtoLens.FieldDescriptor "fee" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"fee")) :: Data.ProtoLens.FieldDescriptor Hop expiry__field_descriptor = Data.ProtoLens.FieldDescriptor "expiry" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"expiry")) :: Data.ProtoLens.FieldDescriptor Hop amtToForwardMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "amt_to_forward_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amtToForwardMsat")) :: Data.ProtoLens.FieldDescriptor Hop feeMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"feeMsat")) :: Data.ProtoLens.FieldDescriptor Hop pubKey__field_descriptor = Data.ProtoLens.FieldDescriptor "pub_key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pubKey")) :: Data.ProtoLens.FieldDescriptor Hop tlvPayload__field_descriptor = Data.ProtoLens.FieldDescriptor "tlv_payload" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"tlvPayload")) :: Data.ProtoLens.FieldDescriptor Hop mppRecord__field_descriptor = Data.ProtoLens.FieldDescriptor "mpp_record" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor MPPRecord) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'mppRecord")) :: Data.ProtoLens.FieldDescriptor Hop ampRecord__field_descriptor = Data.ProtoLens.FieldDescriptor "amp_record" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor AMPRecord) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'ampRecord")) :: Data.ProtoLens.FieldDescriptor Hop customRecords__field_descriptor = Data.ProtoLens.FieldDescriptor "custom_records" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Hop'CustomRecordsEntry) (Data.ProtoLens.MapField (Data.ProtoLens.Field.field @"key") (Data.ProtoLens.Field.field @"value") (Data.ProtoLens.Field.field @"customRecords")) :: Data.ProtoLens.FieldDescriptor Hop in Data.Map.fromList [(Data.ProtoLens.Tag 1, chanId__field_descriptor), (Data.ProtoLens.Tag 2, chanCapacity__field_descriptor), (Data.ProtoLens.Tag 3, amtToForward__field_descriptor), (Data.ProtoLens.Tag 4, fee__field_descriptor), (Data.ProtoLens.Tag 5, expiry__field_descriptor), (Data.ProtoLens.Tag 6, amtToForwardMsat__field_descriptor), (Data.ProtoLens.Tag 7, feeMsat__field_descriptor), (Data.ProtoLens.Tag 8, pubKey__field_descriptor), (Data.ProtoLens.Tag 9, tlvPayload__field_descriptor), (Data.ProtoLens.Tag 10, mppRecord__field_descriptor), (Data.ProtoLens.Tag 12, ampRecord__field_descriptor), (Data.ProtoLens.Tag 11, customRecords__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Hop'_unknownFields (\ x__ y__ -> x__ {_Hop'_unknownFields = y__}) defMessage = Hop'_constructor {_Hop'chanId = Data.ProtoLens.fieldDefault, _Hop'chanCapacity = Data.ProtoLens.fieldDefault, _Hop'amtToForward = Data.ProtoLens.fieldDefault, _Hop'fee = Data.ProtoLens.fieldDefault, _Hop'expiry = Data.ProtoLens.fieldDefault, _Hop'amtToForwardMsat = Data.ProtoLens.fieldDefault, _Hop'feeMsat = Data.ProtoLens.fieldDefault, _Hop'pubKey = Data.ProtoLens.fieldDefault, _Hop'tlvPayload = Data.ProtoLens.fieldDefault, _Hop'mppRecord = Prelude.Nothing, _Hop'ampRecord = Prelude.Nothing, _Hop'customRecords = Data.Map.empty, _Hop'_unknownFields = []} parseMessage = let loop :: Hop -> Data.ProtoLens.Encoding.Bytes.Parser Hop loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanId") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "chan_capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanCapacity") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "amt_to_forward" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amtToForward") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fee") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "expiry" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"expiry") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "amt_to_forward_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amtToForwardMsat") y x) 56 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feeMsat") y x) 66 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "pub_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pubKey") y x) 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "tlv_payload" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"tlvPayload") y x) 82 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "mpp_record" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"mppRecord") y x) 98 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "amp_record" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"ampRecord") y x) 90 -> do !(entry :: Hop'CustomRecordsEntry) <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "custom_records" (let key = Lens.Family2.view (Data.ProtoLens.Field.field @"key") entry value = Lens.Family2.view (Data.ProtoLens.Field.field @"value") entry in loop (Lens.Family2.over (Data.ProtoLens.Field.field @"customRecords") (\ !t -> Data.Map.insert key value t) x)) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Hop" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanCapacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amtToForward") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"fee") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"expiry") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amtToForwardMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"feeMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 56) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pubKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 66) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"tlvPayload") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'mppRecord") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 82) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'ampRecord") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 98) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (Data.Monoid.mconcat (Prelude.map (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 90) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage (Lens.Family2.set (Data.ProtoLens.Field.field @"key") (Prelude.fst _v) (Lens.Family2.set (Data.ProtoLens.Field.field @"value") (Prelude.snd _v) (Data.ProtoLens.defMessage :: Hop'CustomRecordsEntry))))) (Data.Map.toList (Lens.Family2.view (Data.ProtoLens.Field.field @"customRecords") _x)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))))))) instance Control.DeepSeq.NFData Hop where rnf = \ x__ -> Control.DeepSeq.deepseq (_Hop'_unknownFields x__) (Control.DeepSeq.deepseq (_Hop'chanId x__) (Control.DeepSeq.deepseq (_Hop'chanCapacity x__) (Control.DeepSeq.deepseq (_Hop'amtToForward x__) (Control.DeepSeq.deepseq (_Hop'fee x__) (Control.DeepSeq.deepseq (_Hop'expiry x__) (Control.DeepSeq.deepseq (_Hop'amtToForwardMsat x__) (Control.DeepSeq.deepseq (_Hop'feeMsat x__) (Control.DeepSeq.deepseq (_Hop'pubKey x__) (Control.DeepSeq.deepseq (_Hop'tlvPayload x__) (Control.DeepSeq.deepseq (_Hop'mppRecord x__) (Control.DeepSeq.deepseq (_Hop'ampRecord x__) (Control.DeepSeq.deepseq (_Hop'customRecords x__) ())))))))))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.key' @:: Lens' Hop'CustomRecordsEntry Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.value' @:: Lens' Hop'CustomRecordsEntry Data.ByteString.ByteString@ -} data Hop'CustomRecordsEntry = Hop'CustomRecordsEntry'_constructor {_Hop'CustomRecordsEntry'key :: !Data.Word.Word64, _Hop'CustomRecordsEntry'value :: !Data.ByteString.ByteString, _Hop'CustomRecordsEntry'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show Hop'CustomRecordsEntry where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out Hop'CustomRecordsEntry instance Data.ProtoLens.Field.HasField Hop'CustomRecordsEntry "key" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'CustomRecordsEntry'key (\ x__ y__ -> x__ {_Hop'CustomRecordsEntry'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Hop'CustomRecordsEntry "value" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Hop'CustomRecordsEntry'value (\ x__ y__ -> x__ {_Hop'CustomRecordsEntry'value = y__})) Prelude.id instance Data.ProtoLens.Message Hop'CustomRecordsEntry where messageName _ = Data.Text.pack "lnrpc.Hop.CustomRecordsEntry" packedMessageDescriptor _ = "\n\ \\DC2CustomRecordsEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\EOTR\ETXkey\DC2\DC4\n\ \\ENQvalue\CAN\STX \SOH(\fR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"key")) :: Data.ProtoLens.FieldDescriptor Hop'CustomRecordsEntry value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"value")) :: Data.ProtoLens.FieldDescriptor Hop'CustomRecordsEntry in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Hop'CustomRecordsEntry'_unknownFields (\ x__ y__ -> x__ {_Hop'CustomRecordsEntry'_unknownFields = y__}) defMessage = Hop'CustomRecordsEntry'_constructor {_Hop'CustomRecordsEntry'key = Data.ProtoLens.fieldDefault, _Hop'CustomRecordsEntry'value = Data.ProtoLens.fieldDefault, _Hop'CustomRecordsEntry'_unknownFields = []} parseMessage = let loop :: Hop'CustomRecordsEntry -> Data.ProtoLens.Encoding.Bytes.Parser Hop'CustomRecordsEntry loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "CustomRecordsEntry" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"key") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"value") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData Hop'CustomRecordsEntry where rnf = \ x__ -> Control.DeepSeq.deepseq (_Hop'CustomRecordsEntry'_unknownFields x__) (Control.DeepSeq.deepseq (_Hop'CustomRecordsEntry'key x__) (Control.DeepSeq.deepseq (_Hop'CustomRecordsEntry'value x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.nodeId' @:: Lens' HopHint Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.chanId' @:: Lens' HopHint Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.feeBaseMsat' @:: Lens' HopHint Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.feeProportionalMillionths' @:: Lens' HopHint Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.cltvExpiryDelta' @:: Lens' HopHint Data.Word.Word32@ -} data HopHint = HopHint'_constructor {_HopHint'nodeId :: !Data.Text.Text, _HopHint'chanId :: !Data.Word.Word64, _HopHint'feeBaseMsat :: !Data.Word.Word32, _HopHint'feeProportionalMillionths :: !Data.Word.Word32, _HopHint'cltvExpiryDelta :: !Data.Word.Word32, _HopHint'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show HopHint where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out HopHint instance Data.ProtoLens.Field.HasField HopHint "nodeId" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HopHint'nodeId (\ x__ y__ -> x__ {_HopHint'nodeId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HopHint "chanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HopHint'chanId (\ x__ y__ -> x__ {_HopHint'chanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HopHint "feeBaseMsat" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HopHint'feeBaseMsat (\ x__ y__ -> x__ {_HopHint'feeBaseMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HopHint "feeProportionalMillionths" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HopHint'feeProportionalMillionths (\ x__ y__ -> x__ {_HopHint'feeProportionalMillionths = y__})) Prelude.id instance Data.ProtoLens.Field.HasField HopHint "cltvExpiryDelta" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _HopHint'cltvExpiryDelta (\ x__ y__ -> x__ {_HopHint'cltvExpiryDelta = y__})) Prelude.id instance Data.ProtoLens.Message HopHint where messageName _ = Data.Text.pack "lnrpc.HopHint" packedMessageDescriptor _ = "\n\ \\aHopHint\DC2\ETB\n\ \\anode_id\CAN\SOH \SOH(\tR\ACKnodeId\DC2\ESC\n\ \\achan_id\CAN\STX \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\"\n\ \\rfee_base_msat\CAN\ETX \SOH(\rR\vfeeBaseMsat\DC2>\n\ \\ESCfee_proportional_millionths\CAN\EOT \SOH(\rR\EMfeeProportionalMillionths\DC2*\n\ \\DC1cltv_expiry_delta\CAN\ENQ \SOH(\rR\SIcltvExpiryDelta" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let nodeId__field_descriptor = Data.ProtoLens.FieldDescriptor "node_id" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"nodeId")) :: Data.ProtoLens.FieldDescriptor HopHint chanId__field_descriptor = Data.ProtoLens.FieldDescriptor "chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"chanId")) :: Data.ProtoLens.FieldDescriptor HopHint feeBaseMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_base_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"feeBaseMsat")) :: Data.ProtoLens.FieldDescriptor HopHint feeProportionalMillionths__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_proportional_millionths" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"feeProportionalMillionths")) :: Data.ProtoLens.FieldDescriptor HopHint cltvExpiryDelta__field_descriptor = Data.ProtoLens.FieldDescriptor "cltv_expiry_delta" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"cltvExpiryDelta")) :: Data.ProtoLens.FieldDescriptor HopHint in Data.Map.fromList [(Data.ProtoLens.Tag 1, nodeId__field_descriptor), (Data.ProtoLens.Tag 2, chanId__field_descriptor), (Data.ProtoLens.Tag 3, feeBaseMsat__field_descriptor), (Data.ProtoLens.Tag 4, feeProportionalMillionths__field_descriptor), (Data.ProtoLens.Tag 5, cltvExpiryDelta__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _HopHint'_unknownFields (\ x__ y__ -> x__ {_HopHint'_unknownFields = y__}) defMessage = HopHint'_constructor {_HopHint'nodeId = Data.ProtoLens.fieldDefault, _HopHint'chanId = Data.ProtoLens.fieldDefault, _HopHint'feeBaseMsat = Data.ProtoLens.fieldDefault, _HopHint'feeProportionalMillionths = Data.ProtoLens.fieldDefault, _HopHint'cltvExpiryDelta = Data.ProtoLens.fieldDefault, _HopHint'_unknownFields = []} parseMessage = let loop :: HopHint -> Data.ProtoLens.Encoding.Bytes.Parser HopHint loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "node_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"nodeId") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"chanId") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee_base_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feeBaseMsat") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee_proportional_millionths" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feeProportionalMillionths") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "cltv_expiry_delta" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"cltvExpiryDelta") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "HopHint" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"nodeId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"chanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"feeBaseMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"feeProportionalMillionths") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"cltvExpiryDelta") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))) instance Control.DeepSeq.NFData HopHint where rnf = \ x__ -> Control.DeepSeq.deepseq (_HopHint'_unknownFields x__) (Control.DeepSeq.deepseq (_HopHint'nodeId x__) (Control.DeepSeq.deepseq (_HopHint'chanId x__) (Control.DeepSeq.deepseq (_HopHint'feeBaseMsat x__) (Control.DeepSeq.deepseq (_HopHint'feeProportionalMillionths x__) (Control.DeepSeq.deepseq (_HopHint'cltvExpiryDelta x__) ()))))) newtype Initiator'UnrecognizedValue = Initiator'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out Initiator'UnrecognizedValue data Initiator = INITIATOR_UNKNOWN | INITIATOR_LOCAL | INITIATOR_REMOTE | INITIATOR_BOTH | Initiator'Unrecognized !Initiator'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum Initiator where maybeToEnum 0 = Prelude.Just INITIATOR_UNKNOWN maybeToEnum 1 = Prelude.Just INITIATOR_LOCAL maybeToEnum 2 = Prelude.Just INITIATOR_REMOTE maybeToEnum 3 = Prelude.Just INITIATOR_BOTH maybeToEnum k = Prelude.Just (Initiator'Unrecognized (Initiator'UnrecognizedValue (Prelude.fromIntegral k))) showEnum INITIATOR_UNKNOWN = "INITIATOR_UNKNOWN" showEnum INITIATOR_LOCAL = "INITIATOR_LOCAL" showEnum INITIATOR_REMOTE = "INITIATOR_REMOTE" showEnum INITIATOR_BOTH = "INITIATOR_BOTH" showEnum (Initiator'Unrecognized (Initiator'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "INITIATOR_UNKNOWN" = Prelude.Just INITIATOR_UNKNOWN | (Prelude.==) k "INITIATOR_LOCAL" = Prelude.Just INITIATOR_LOCAL | (Prelude.==) k "INITIATOR_REMOTE" = Prelude.Just INITIATOR_REMOTE | (Prelude.==) k "INITIATOR_BOTH" = Prelude.Just INITIATOR_BOTH | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded Initiator where minBound = INITIATOR_UNKNOWN maxBound = INITIATOR_BOTH instance Prelude.Enum Initiator where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum Initiator: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum INITIATOR_UNKNOWN = 0 fromEnum INITIATOR_LOCAL = 1 fromEnum INITIATOR_REMOTE = 2 fromEnum INITIATOR_BOTH = 3 fromEnum (Initiator'Unrecognized (Initiator'UnrecognizedValue k)) = Prelude.fromIntegral k succ INITIATOR_BOTH = Prelude.error "Initiator.succ: bad argument INITIATOR_BOTH. This value would be out of bounds." succ INITIATOR_UNKNOWN = INITIATOR_LOCAL succ INITIATOR_LOCAL = INITIATOR_REMOTE succ INITIATOR_REMOTE = INITIATOR_BOTH succ (Initiator'Unrecognized _) = Prelude.error "Initiator.succ: bad argument: unrecognized value" pred INITIATOR_UNKNOWN = Prelude.error "Initiator.pred: bad argument INITIATOR_UNKNOWN. This value would be out of bounds." pred INITIATOR_LOCAL = INITIATOR_UNKNOWN pred INITIATOR_REMOTE = INITIATOR_LOCAL pred INITIATOR_BOTH = INITIATOR_REMOTE pred (Initiator'Unrecognized _) = Prelude.error "Initiator.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault Initiator where fieldDefault = INITIATOR_UNKNOWN instance Control.DeepSeq.NFData Initiator where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out Initiator {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.rawKeyBytes' @:: Lens' KeyDescriptor Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.keyLoc' @:: Lens' KeyDescriptor KeyLocator@ * 'Proto.Lnrpc.Ln0_Fields.maybe'keyLoc' @:: Lens' KeyDescriptor (Prelude.Maybe KeyLocator)@ -} data KeyDescriptor = KeyDescriptor'_constructor {_KeyDescriptor'rawKeyBytes :: !Data.ByteString.ByteString, _KeyDescriptor'keyLoc :: !(Prelude.Maybe KeyLocator), _KeyDescriptor'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show KeyDescriptor where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out KeyDescriptor instance Data.ProtoLens.Field.HasField KeyDescriptor "rawKeyBytes" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _KeyDescriptor'rawKeyBytes (\ x__ y__ -> x__ {_KeyDescriptor'rawKeyBytes = y__})) Prelude.id instance Data.ProtoLens.Field.HasField KeyDescriptor "keyLoc" KeyLocator where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _KeyDescriptor'keyLoc (\ x__ y__ -> x__ {_KeyDescriptor'keyLoc = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField KeyDescriptor "maybe'keyLoc" (Prelude.Maybe KeyLocator) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _KeyDescriptor'keyLoc (\ x__ y__ -> x__ {_KeyDescriptor'keyLoc = y__})) Prelude.id instance Data.ProtoLens.Message KeyDescriptor where messageName _ = Data.Text.pack "lnrpc.KeyDescriptor" packedMessageDescriptor _ = "\n\ \\rKeyDescriptor\DC2\"\n\ \\rraw_key_bytes\CAN\SOH \SOH(\fR\vrawKeyBytes\DC2*\n\ \\akey_loc\CAN\STX \SOH(\v2\DC1.lnrpc.KeyLocatorR\ACKkeyLoc" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let rawKeyBytes__field_descriptor = Data.ProtoLens.FieldDescriptor "raw_key_bytes" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"rawKeyBytes")) :: Data.ProtoLens.FieldDescriptor KeyDescriptor keyLoc__field_descriptor = Data.ProtoLens.FieldDescriptor "key_loc" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor KeyLocator) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'keyLoc")) :: Data.ProtoLens.FieldDescriptor KeyDescriptor in Data.Map.fromList [(Data.ProtoLens.Tag 1, rawKeyBytes__field_descriptor), (Data.ProtoLens.Tag 2, keyLoc__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _KeyDescriptor'_unknownFields (\ x__ y__ -> x__ {_KeyDescriptor'_unknownFields = y__}) defMessage = KeyDescriptor'_constructor {_KeyDescriptor'rawKeyBytes = Data.ProtoLens.fieldDefault, _KeyDescriptor'keyLoc = Prelude.Nothing, _KeyDescriptor'_unknownFields = []} parseMessage = let loop :: KeyDescriptor -> Data.ProtoLens.Encoding.Bytes.Parser KeyDescriptor loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "raw_key_bytes" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"rawKeyBytes") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "key_loc" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"keyLoc") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "KeyDescriptor" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"rawKeyBytes") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'keyLoc") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData KeyDescriptor where rnf = \ x__ -> Control.DeepSeq.deepseq (_KeyDescriptor'_unknownFields x__) (Control.DeepSeq.deepseq (_KeyDescriptor'rawKeyBytes x__) (Control.DeepSeq.deepseq (_KeyDescriptor'keyLoc x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.keyFamily' @:: Lens' KeyLocator Data.Int.Int32@ * 'Proto.Lnrpc.Ln0_Fields.keyIndex' @:: Lens' KeyLocator Data.Int.Int32@ -} data KeyLocator = KeyLocator'_constructor {_KeyLocator'keyFamily :: !Data.Int.Int32, _KeyLocator'keyIndex :: !Data.Int.Int32, _KeyLocator'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show KeyLocator where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out KeyLocator instance Data.ProtoLens.Field.HasField KeyLocator "keyFamily" Data.Int.Int32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _KeyLocator'keyFamily (\ x__ y__ -> x__ {_KeyLocator'keyFamily = y__})) Prelude.id instance Data.ProtoLens.Field.HasField KeyLocator "keyIndex" Data.Int.Int32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _KeyLocator'keyIndex (\ x__ y__ -> x__ {_KeyLocator'keyIndex = y__})) Prelude.id instance Data.ProtoLens.Message KeyLocator where messageName _ = Data.Text.pack "lnrpc.KeyLocator" packedMessageDescriptor _ = "\n\ \\n\ \KeyLocator\DC2\GS\n\ \\n\ \key_family\CAN\SOH \SOH(\ENQR\tkeyFamily\DC2\ESC\n\ \\tkey_index\CAN\STX \SOH(\ENQR\bkeyIndex" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let keyFamily__field_descriptor = Data.ProtoLens.FieldDescriptor "key_family" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"keyFamily")) :: Data.ProtoLens.FieldDescriptor KeyLocator keyIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "key_index" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"keyIndex")) :: Data.ProtoLens.FieldDescriptor KeyLocator in Data.Map.fromList [(Data.ProtoLens.Tag 1, keyFamily__field_descriptor), (Data.ProtoLens.Tag 2, keyIndex__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _KeyLocator'_unknownFields (\ x__ y__ -> x__ {_KeyLocator'_unknownFields = y__}) defMessage = KeyLocator'_constructor {_KeyLocator'keyFamily = Data.ProtoLens.fieldDefault, _KeyLocator'keyIndex = Data.ProtoLens.fieldDefault, _KeyLocator'_unknownFields = []} parseMessage = let loop :: KeyLocator -> Data.ProtoLens.Encoding.Bytes.Parser KeyLocator loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "key_family" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"keyFamily") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "key_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"keyIndex") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "KeyLocator" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"keyFamily") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"keyIndex") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData KeyLocator where rnf = \ x__ -> Control.DeepSeq.deepseq (_KeyLocator'_unknownFields x__) (Control.DeepSeq.deepseq (_KeyLocator'keyFamily x__) (Control.DeepSeq.deepseq (_KeyLocator'keyIndex x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.lastUpdate' @:: Lens' LightningNode Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.pubKey' @:: Lens' LightningNode Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.alias' @:: Lens' LightningNode Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.addresses' @:: Lens' LightningNode [NodeAddress]@ * 'Proto.Lnrpc.Ln0_Fields.vec'addresses' @:: Lens' LightningNode (Data.Vector.Vector NodeAddress)@ * 'Proto.Lnrpc.Ln0_Fields.color' @:: Lens' LightningNode Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.features' @:: Lens' LightningNode (Data.Map.Map Data.Word.Word32 Feature)@ -} data LightningNode = LightningNode'_constructor {_LightningNode'lastUpdate :: !Data.Word.Word32, _LightningNode'pubKey :: !Data.Text.Text, _LightningNode'alias :: !Data.Text.Text, _LightningNode'addresses :: !(Data.Vector.Vector NodeAddress), _LightningNode'color :: !Data.Text.Text, _LightningNode'features :: !(Data.Map.Map Data.Word.Word32 Feature), _LightningNode'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show LightningNode where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out LightningNode instance Data.ProtoLens.Field.HasField LightningNode "lastUpdate" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'lastUpdate (\ x__ y__ -> x__ {_LightningNode'lastUpdate = y__})) Prelude.id instance Data.ProtoLens.Field.HasField LightningNode "pubKey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'pubKey (\ x__ y__ -> x__ {_LightningNode'pubKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField LightningNode "alias" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'alias (\ x__ y__ -> x__ {_LightningNode'alias = y__})) Prelude.id instance Data.ProtoLens.Field.HasField LightningNode "addresses" [NodeAddress] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'addresses (\ x__ y__ -> x__ {_LightningNode'addresses = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField LightningNode "vec'addresses" (Data.Vector.Vector NodeAddress) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'addresses (\ x__ y__ -> x__ {_LightningNode'addresses = y__})) Prelude.id instance Data.ProtoLens.Field.HasField LightningNode "color" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'color (\ x__ y__ -> x__ {_LightningNode'color = y__})) Prelude.id instance Data.ProtoLens.Field.HasField LightningNode "features" (Data.Map.Map Data.Word.Word32 Feature) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'features (\ x__ y__ -> x__ {_LightningNode'features = y__})) Prelude.id instance Data.ProtoLens.Message LightningNode where messageName _ = Data.Text.pack "lnrpc.LightningNode" packedMessageDescriptor _ = "\n\ \\rLightningNode\DC2\US\n\ \\vlast_update\CAN\SOH \SOH(\rR\n\ \lastUpdate\DC2\ETB\n\ \\apub_key\CAN\STX \SOH(\tR\ACKpubKey\DC2\DC4\n\ \\ENQalias\CAN\ETX \SOH(\tR\ENQalias\DC20\n\ \\taddresses\CAN\EOT \ETX(\v2\DC2.lnrpc.NodeAddressR\taddresses\DC2\DC4\n\ \\ENQcolor\CAN\ENQ \SOH(\tR\ENQcolor\DC2>\n\ \\bfeatures\CAN\ACK \ETX(\v2\".lnrpc.LightningNode.FeaturesEntryR\bfeatures\SUBK\n\ \\rFeaturesEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\rR\ETXkey\DC2$\n\ \\ENQvalue\CAN\STX \SOH(\v2\SO.lnrpc.FeatureR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let lastUpdate__field_descriptor = Data.ProtoLens.FieldDescriptor "last_update" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"lastUpdate")) :: Data.ProtoLens.FieldDescriptor LightningNode pubKey__field_descriptor = Data.ProtoLens.FieldDescriptor "pub_key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pubKey")) :: Data.ProtoLens.FieldDescriptor LightningNode alias__field_descriptor = Data.ProtoLens.FieldDescriptor "alias" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"alias")) :: Data.ProtoLens.FieldDescriptor LightningNode addresses__field_descriptor = Data.ProtoLens.FieldDescriptor "addresses" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NodeAddress) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"addresses")) :: Data.ProtoLens.FieldDescriptor LightningNode color__field_descriptor = Data.ProtoLens.FieldDescriptor "color" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"color")) :: Data.ProtoLens.FieldDescriptor LightningNode features__field_descriptor = Data.ProtoLens.FieldDescriptor "features" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor LightningNode'FeaturesEntry) (Data.ProtoLens.MapField (Data.ProtoLens.Field.field @"key") (Data.ProtoLens.Field.field @"value") (Data.ProtoLens.Field.field @"features")) :: Data.ProtoLens.FieldDescriptor LightningNode in Data.Map.fromList [(Data.ProtoLens.Tag 1, lastUpdate__field_descriptor), (Data.ProtoLens.Tag 2, pubKey__field_descriptor), (Data.ProtoLens.Tag 3, alias__field_descriptor), (Data.ProtoLens.Tag 4, addresses__field_descriptor), (Data.ProtoLens.Tag 5, color__field_descriptor), (Data.ProtoLens.Tag 6, features__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _LightningNode'_unknownFields (\ x__ y__ -> x__ {_LightningNode'_unknownFields = y__}) defMessage = LightningNode'_constructor {_LightningNode'lastUpdate = Data.ProtoLens.fieldDefault, _LightningNode'pubKey = Data.ProtoLens.fieldDefault, _LightningNode'alias = Data.ProtoLens.fieldDefault, _LightningNode'addresses = Data.Vector.Generic.empty, _LightningNode'color = Data.ProtoLens.fieldDefault, _LightningNode'features = Data.Map.empty, _LightningNode'_unknownFields = []} parseMessage = let loop :: LightningNode -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld NodeAddress -> Data.ProtoLens.Encoding.Bytes.Parser LightningNode loop x mutable'addresses = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'addresses <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'addresses) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'addresses") frozen'addresses x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "last_update" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"lastUpdate") y x) mutable'addresses 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "pub_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pubKey") y x) mutable'addresses 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "alias" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"alias") y x) mutable'addresses 34 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "addresses" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'addresses y) loop x v 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "color" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"color") y x) mutable'addresses 50 -> do !(entry :: LightningNode'FeaturesEntry) <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "features" (let key = Lens.Family2.view (Data.ProtoLens.Field.field @"key") entry value = Lens.Family2.view (Data.ProtoLens.Field.field @"value") entry in loop (Lens.Family2.over (Data.ProtoLens.Field.field @"features") (\ !t -> Data.Map.insert key value t) x) mutable'addresses) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'addresses in (Data.ProtoLens.Encoding.Bytes.) (do mutable'addresses <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'addresses) "LightningNode" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"lastUpdate") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pubKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"alias") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'addresses") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"color") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (Data.Monoid.mconcat (Prelude.map (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage (Lens.Family2.set (Data.ProtoLens.Field.field @"key") (Prelude.fst _v) (Lens.Family2.set (Data.ProtoLens.Field.field @"value") (Prelude.snd _v) (Data.ProtoLens.defMessage :: LightningNode'FeaturesEntry))))) (Data.Map.toList (Lens.Family2.view (Data.ProtoLens.Field.field @"features") _x)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData LightningNode where rnf = \ x__ -> Control.DeepSeq.deepseq (_LightningNode'_unknownFields x__) (Control.DeepSeq.deepseq (_LightningNode'lastUpdate x__) (Control.DeepSeq.deepseq (_LightningNode'pubKey x__) (Control.DeepSeq.deepseq (_LightningNode'alias x__) (Control.DeepSeq.deepseq (_LightningNode'addresses x__) (Control.DeepSeq.deepseq (_LightningNode'color x__) (Control.DeepSeq.deepseq (_LightningNode'features x__) ())))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.key' @:: Lens' LightningNode'FeaturesEntry Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.value' @:: Lens' LightningNode'FeaturesEntry Feature@ * 'Proto.Lnrpc.Ln0_Fields.maybe'value' @:: Lens' LightningNode'FeaturesEntry (Prelude.Maybe Feature)@ -} data LightningNode'FeaturesEntry = LightningNode'FeaturesEntry'_constructor {_LightningNode'FeaturesEntry'key :: !Data.Word.Word32, _LightningNode'FeaturesEntry'value :: !(Prelude.Maybe Feature), _LightningNode'FeaturesEntry'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show LightningNode'FeaturesEntry where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out LightningNode'FeaturesEntry instance Data.ProtoLens.Field.HasField LightningNode'FeaturesEntry "key" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'FeaturesEntry'key (\ x__ y__ -> x__ {_LightningNode'FeaturesEntry'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField LightningNode'FeaturesEntry "value" Feature where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'FeaturesEntry'value (\ x__ y__ -> x__ {_LightningNode'FeaturesEntry'value = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField LightningNode'FeaturesEntry "maybe'value" (Prelude.Maybe Feature) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _LightningNode'FeaturesEntry'value (\ x__ y__ -> x__ {_LightningNode'FeaturesEntry'value = y__})) Prelude.id instance Data.ProtoLens.Message LightningNode'FeaturesEntry where messageName _ = Data.Text.pack "lnrpc.LightningNode.FeaturesEntry" packedMessageDescriptor _ = "\n\ \\rFeaturesEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\rR\ETXkey\DC2$\n\ \\ENQvalue\CAN\STX \SOH(\v2\SO.lnrpc.FeatureR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"key")) :: Data.ProtoLens.FieldDescriptor LightningNode'FeaturesEntry value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Feature) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'value")) :: Data.ProtoLens.FieldDescriptor LightningNode'FeaturesEntry in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _LightningNode'FeaturesEntry'_unknownFields (\ x__ y__ -> x__ {_LightningNode'FeaturesEntry'_unknownFields = y__}) defMessage = LightningNode'FeaturesEntry'_constructor {_LightningNode'FeaturesEntry'key = Data.ProtoLens.fieldDefault, _LightningNode'FeaturesEntry'value = Prelude.Nothing, _LightningNode'FeaturesEntry'_unknownFields = []} parseMessage = let loop :: LightningNode'FeaturesEntry -> Data.ProtoLens.Encoding.Bytes.Parser LightningNode'FeaturesEntry loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FeaturesEntry" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"key") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'value") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData LightningNode'FeaturesEntry where rnf = \ x__ -> Control.DeepSeq.deepseq (_LightningNode'FeaturesEntry'_unknownFields x__) (Control.DeepSeq.deepseq (_LightningNode'FeaturesEntry'key x__) (Control.DeepSeq.deepseq (_LightningNode'FeaturesEntry'value x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.paymentAddr' @:: Lens' MPPRecord Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.totalAmtMsat' @:: Lens' MPPRecord Data.Int.Int64@ -} data MPPRecord = MPPRecord'_constructor {_MPPRecord'paymentAddr :: !Data.ByteString.ByteString, _MPPRecord'totalAmtMsat :: !Data.Int.Int64, _MPPRecord'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show MPPRecord where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out MPPRecord instance Data.ProtoLens.Field.HasField MPPRecord "paymentAddr" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MPPRecord'paymentAddr (\ x__ y__ -> x__ {_MPPRecord'paymentAddr = y__})) Prelude.id instance Data.ProtoLens.Field.HasField MPPRecord "totalAmtMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MPPRecord'totalAmtMsat (\ x__ y__ -> x__ {_MPPRecord'totalAmtMsat = y__})) Prelude.id instance Data.ProtoLens.Message MPPRecord where messageName _ = Data.Text.pack "lnrpc.MPPRecord" packedMessageDescriptor _ = "\n\ \\tMPPRecord\DC2!\n\ \\fpayment_addr\CAN\v \SOH(\fR\vpaymentAddr\DC2$\n\ \\SOtotal_amt_msat\CAN\n\ \ \SOH(\ETXR\ftotalAmtMsat" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let paymentAddr__field_descriptor = Data.ProtoLens.FieldDescriptor "payment_addr" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"paymentAddr")) :: Data.ProtoLens.FieldDescriptor MPPRecord totalAmtMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "total_amt_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalAmtMsat")) :: Data.ProtoLens.FieldDescriptor MPPRecord in Data.Map.fromList [(Data.ProtoLens.Tag 11, paymentAddr__field_descriptor), (Data.ProtoLens.Tag 10, totalAmtMsat__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _MPPRecord'_unknownFields (\ x__ y__ -> x__ {_MPPRecord'_unknownFields = y__}) defMessage = MPPRecord'_constructor {_MPPRecord'paymentAddr = Data.ProtoLens.fieldDefault, _MPPRecord'totalAmtMsat = Data.ProtoLens.fieldDefault, _MPPRecord'_unknownFields = []} parseMessage = let loop :: MPPRecord -> Data.ProtoLens.Encoding.Bytes.Parser MPPRecord loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 90 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "payment_addr" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"paymentAddr") y x) 80 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_amt_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalAmtMsat") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "MPPRecord" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"paymentAddr") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 90) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalAmtMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 80) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData MPPRecord where rnf = \ x__ -> Control.DeepSeq.deepseq (_MPPRecord'_unknownFields x__) (Control.DeepSeq.deepseq (_MPPRecord'paymentAddr x__) (Control.DeepSeq.deepseq (_MPPRecord'totalAmtMsat x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.graphDiameter' @:: Lens' NetworkInfo Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.avgOutDegree' @:: Lens' NetworkInfo Prelude.Double@ * 'Proto.Lnrpc.Ln0_Fields.maxOutDegree' @:: Lens' NetworkInfo Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.numNodes' @:: Lens' NetworkInfo Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.numChannels' @:: Lens' NetworkInfo Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.totalNetworkCapacity' @:: Lens' NetworkInfo Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.avgChannelSize' @:: Lens' NetworkInfo Prelude.Double@ * 'Proto.Lnrpc.Ln0_Fields.minChannelSize' @:: Lens' NetworkInfo Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.maxChannelSize' @:: Lens' NetworkInfo Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.medianChannelSizeSat' @:: Lens' NetworkInfo Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.numZombieChans' @:: Lens' NetworkInfo Data.Word.Word64@ -} data NetworkInfo = NetworkInfo'_constructor {_NetworkInfo'graphDiameter :: !Data.Word.Word32, _NetworkInfo'avgOutDegree :: !Prelude.Double, _NetworkInfo'maxOutDegree :: !Data.Word.Word32, _NetworkInfo'numNodes :: !Data.Word.Word32, _NetworkInfo'numChannels :: !Data.Word.Word32, _NetworkInfo'totalNetworkCapacity :: !Data.Int.Int64, _NetworkInfo'avgChannelSize :: !Prelude.Double, _NetworkInfo'minChannelSize :: !Data.Int.Int64, _NetworkInfo'maxChannelSize :: !Data.Int.Int64, _NetworkInfo'medianChannelSizeSat :: !Data.Int.Int64, _NetworkInfo'numZombieChans :: !Data.Word.Word64, _NetworkInfo'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NetworkInfo where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NetworkInfo instance Data.ProtoLens.Field.HasField NetworkInfo "graphDiameter" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'graphDiameter (\ x__ y__ -> x__ {_NetworkInfo'graphDiameter = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "avgOutDegree" Prelude.Double where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'avgOutDegree (\ x__ y__ -> x__ {_NetworkInfo'avgOutDegree = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "maxOutDegree" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'maxOutDegree (\ x__ y__ -> x__ {_NetworkInfo'maxOutDegree = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "numNodes" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'numNodes (\ x__ y__ -> x__ {_NetworkInfo'numNodes = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "numChannels" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'numChannels (\ x__ y__ -> x__ {_NetworkInfo'numChannels = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "totalNetworkCapacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'totalNetworkCapacity (\ x__ y__ -> x__ {_NetworkInfo'totalNetworkCapacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "avgChannelSize" Prelude.Double where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'avgChannelSize (\ x__ y__ -> x__ {_NetworkInfo'avgChannelSize = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "minChannelSize" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'minChannelSize (\ x__ y__ -> x__ {_NetworkInfo'minChannelSize = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "maxChannelSize" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'maxChannelSize (\ x__ y__ -> x__ {_NetworkInfo'maxChannelSize = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "medianChannelSizeSat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'medianChannelSizeSat (\ x__ y__ -> x__ {_NetworkInfo'medianChannelSizeSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NetworkInfo "numZombieChans" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NetworkInfo'numZombieChans (\ x__ y__ -> x__ {_NetworkInfo'numZombieChans = y__})) Prelude.id instance Data.ProtoLens.Message NetworkInfo where messageName _ = Data.Text.pack "lnrpc.NetworkInfo" packedMessageDescriptor _ = "\n\ \\vNetworkInfo\DC2%\n\ \\SOgraph_diameter\CAN\SOH \SOH(\rR\rgraphDiameter\DC2$\n\ \\SOavg_out_degree\CAN\STX \SOH(\SOHR\favgOutDegree\DC2$\n\ \\SOmax_out_degree\CAN\ETX \SOH(\rR\fmaxOutDegree\DC2\ESC\n\ \\tnum_nodes\CAN\EOT \SOH(\rR\bnumNodes\DC2!\n\ \\fnum_channels\CAN\ENQ \SOH(\rR\vnumChannels\DC24\n\ \\SYNtotal_network_capacity\CAN\ACK \SOH(\ETXR\DC4totalNetworkCapacity\DC2(\n\ \\DLEavg_channel_size\CAN\a \SOH(\SOHR\SOavgChannelSize\DC2(\n\ \\DLEmin_channel_size\CAN\b \SOH(\ETXR\SOminChannelSize\DC2(\n\ \\DLEmax_channel_size\CAN\t \SOH(\ETXR\SOmaxChannelSize\DC25\n\ \\ETBmedian_channel_size_sat\CAN\n\ \ \SOH(\ETXR\DC4medianChannelSizeSat\DC2(\n\ \\DLEnum_zombie_chans\CAN\v \SOH(\EOTR\SOnumZombieChans" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let graphDiameter__field_descriptor = Data.ProtoLens.FieldDescriptor "graph_diameter" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"graphDiameter")) :: Data.ProtoLens.FieldDescriptor NetworkInfo avgOutDegree__field_descriptor = Data.ProtoLens.FieldDescriptor "avg_out_degree" (Data.ProtoLens.ScalarField Data.ProtoLens.DoubleField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Double) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"avgOutDegree")) :: Data.ProtoLens.FieldDescriptor NetworkInfo maxOutDegree__field_descriptor = Data.ProtoLens.FieldDescriptor "max_out_degree" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxOutDegree")) :: Data.ProtoLens.FieldDescriptor NetworkInfo numNodes__field_descriptor = Data.ProtoLens.FieldDescriptor "num_nodes" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"numNodes")) :: Data.ProtoLens.FieldDescriptor NetworkInfo numChannels__field_descriptor = Data.ProtoLens.FieldDescriptor "num_channels" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"numChannels")) :: Data.ProtoLens.FieldDescriptor NetworkInfo totalNetworkCapacity__field_descriptor = Data.ProtoLens.FieldDescriptor "total_network_capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalNetworkCapacity")) :: Data.ProtoLens.FieldDescriptor NetworkInfo avgChannelSize__field_descriptor = Data.ProtoLens.FieldDescriptor "avg_channel_size" (Data.ProtoLens.ScalarField Data.ProtoLens.DoubleField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Double) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"avgChannelSize")) :: Data.ProtoLens.FieldDescriptor NetworkInfo minChannelSize__field_descriptor = Data.ProtoLens.FieldDescriptor "min_channel_size" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"minChannelSize")) :: Data.ProtoLens.FieldDescriptor NetworkInfo maxChannelSize__field_descriptor = Data.ProtoLens.FieldDescriptor "max_channel_size" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxChannelSize")) :: Data.ProtoLens.FieldDescriptor NetworkInfo medianChannelSizeSat__field_descriptor = Data.ProtoLens.FieldDescriptor "median_channel_size_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"medianChannelSizeSat")) :: Data.ProtoLens.FieldDescriptor NetworkInfo numZombieChans__field_descriptor = Data.ProtoLens.FieldDescriptor "num_zombie_chans" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"numZombieChans")) :: Data.ProtoLens.FieldDescriptor NetworkInfo in Data.Map.fromList [(Data.ProtoLens.Tag 1, graphDiameter__field_descriptor), (Data.ProtoLens.Tag 2, avgOutDegree__field_descriptor), (Data.ProtoLens.Tag 3, maxOutDegree__field_descriptor), (Data.ProtoLens.Tag 4, numNodes__field_descriptor), (Data.ProtoLens.Tag 5, numChannels__field_descriptor), (Data.ProtoLens.Tag 6, totalNetworkCapacity__field_descriptor), (Data.ProtoLens.Tag 7, avgChannelSize__field_descriptor), (Data.ProtoLens.Tag 8, minChannelSize__field_descriptor), (Data.ProtoLens.Tag 9, maxChannelSize__field_descriptor), (Data.ProtoLens.Tag 10, medianChannelSizeSat__field_descriptor), (Data.ProtoLens.Tag 11, numZombieChans__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NetworkInfo'_unknownFields (\ x__ y__ -> x__ {_NetworkInfo'_unknownFields = y__}) defMessage = NetworkInfo'_constructor {_NetworkInfo'graphDiameter = Data.ProtoLens.fieldDefault, _NetworkInfo'avgOutDegree = Data.ProtoLens.fieldDefault, _NetworkInfo'maxOutDegree = Data.ProtoLens.fieldDefault, _NetworkInfo'numNodes = Data.ProtoLens.fieldDefault, _NetworkInfo'numChannels = Data.ProtoLens.fieldDefault, _NetworkInfo'totalNetworkCapacity = Data.ProtoLens.fieldDefault, _NetworkInfo'avgChannelSize = Data.ProtoLens.fieldDefault, _NetworkInfo'minChannelSize = Data.ProtoLens.fieldDefault, _NetworkInfo'maxChannelSize = Data.ProtoLens.fieldDefault, _NetworkInfo'medianChannelSizeSat = Data.ProtoLens.fieldDefault, _NetworkInfo'numZombieChans = Data.ProtoLens.fieldDefault, _NetworkInfo'_unknownFields = []} parseMessage = let loop :: NetworkInfo -> Data.ProtoLens.Encoding.Bytes.Parser NetworkInfo loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "graph_diameter" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"graphDiameter") y x) 17 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Data.ProtoLens.Encoding.Bytes.wordToDouble Data.ProtoLens.Encoding.Bytes.getFixed64) "avg_out_degree" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"avgOutDegree") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "max_out_degree" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxOutDegree") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "num_nodes" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"numNodes") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "num_channels" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"numChannels") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_network_capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalNetworkCapacity") y x) 57 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Data.ProtoLens.Encoding.Bytes.wordToDouble Data.ProtoLens.Encoding.Bytes.getFixed64) "avg_channel_size" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"avgChannelSize") y x) 64 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "min_channel_size" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"minChannelSize") y x) 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "max_channel_size" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxChannelSize") y x) 80 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "median_channel_size_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"medianChannelSizeSat") y x) 88 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "num_zombie_chans" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"numZombieChans") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "NetworkInfo" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"graphDiameter") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"avgOutDegree") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 17) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putFixed64 Data.ProtoLens.Encoding.Bytes.doubleToWord _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxOutDegree") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"numNodes") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"numChannels") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalNetworkCapacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"avgChannelSize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 57) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putFixed64 Data.ProtoLens.Encoding.Bytes.doubleToWord _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"minChannelSize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 64) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxChannelSize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"medianChannelSizeSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 80) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"numZombieChans") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 88) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))))))) instance Control.DeepSeq.NFData NetworkInfo where rnf = \ x__ -> Control.DeepSeq.deepseq (_NetworkInfo'_unknownFields x__) (Control.DeepSeq.deepseq (_NetworkInfo'graphDiameter x__) (Control.DeepSeq.deepseq (_NetworkInfo'avgOutDegree x__) (Control.DeepSeq.deepseq (_NetworkInfo'maxOutDegree x__) (Control.DeepSeq.deepseq (_NetworkInfo'numNodes x__) (Control.DeepSeq.deepseq (_NetworkInfo'numChannels x__) (Control.DeepSeq.deepseq (_NetworkInfo'totalNetworkCapacity x__) (Control.DeepSeq.deepseq (_NetworkInfo'avgChannelSize x__) (Control.DeepSeq.deepseq (_NetworkInfo'minChannelSize x__) (Control.DeepSeq.deepseq (_NetworkInfo'maxChannelSize x__) (Control.DeepSeq.deepseq (_NetworkInfo'medianChannelSizeSat x__) (Control.DeepSeq.deepseq (_NetworkInfo'numZombieChans x__) ()))))))))))) {- | Fields : -} data NetworkInfoRequest = NetworkInfoRequest'_constructor {_NetworkInfoRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NetworkInfoRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NetworkInfoRequest instance Data.ProtoLens.Message NetworkInfoRequest where messageName _ = Data.Text.pack "lnrpc.NetworkInfoRequest" packedMessageDescriptor _ = "\n\ \\DC2NetworkInfoRequest" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _NetworkInfoRequest'_unknownFields (\ x__ y__ -> x__ {_NetworkInfoRequest'_unknownFields = y__}) defMessage = NetworkInfoRequest'_constructor {_NetworkInfoRequest'_unknownFields = []} parseMessage = let loop :: NetworkInfoRequest -> Data.ProtoLens.Encoding.Bytes.Parser NetworkInfoRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "NetworkInfoRequest" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData NetworkInfoRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_NetworkInfoRequest'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.network' @:: Lens' NodeAddress Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.addr' @:: Lens' NodeAddress Data.Text.Text@ -} data NodeAddress = NodeAddress'_constructor {_NodeAddress'network :: !Data.Text.Text, _NodeAddress'addr :: !Data.Text.Text, _NodeAddress'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeAddress where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeAddress instance Data.ProtoLens.Field.HasField NodeAddress "network" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeAddress'network (\ x__ y__ -> x__ {_NodeAddress'network = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeAddress "addr" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeAddress'addr (\ x__ y__ -> x__ {_NodeAddress'addr = y__})) Prelude.id instance Data.ProtoLens.Message NodeAddress where messageName _ = Data.Text.pack "lnrpc.NodeAddress" packedMessageDescriptor _ = "\n\ \\vNodeAddress\DC2\CAN\n\ \\anetwork\CAN\SOH \SOH(\tR\anetwork\DC2\DC2\n\ \\EOTaddr\CAN\STX \SOH(\tR\EOTaddr" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let network__field_descriptor = Data.ProtoLens.FieldDescriptor "network" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"network")) :: Data.ProtoLens.FieldDescriptor NodeAddress addr__field_descriptor = Data.ProtoLens.FieldDescriptor "addr" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"addr")) :: Data.ProtoLens.FieldDescriptor NodeAddress in Data.Map.fromList [(Data.ProtoLens.Tag 1, network__field_descriptor), (Data.ProtoLens.Tag 2, addr__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeAddress'_unknownFields (\ x__ y__ -> x__ {_NodeAddress'_unknownFields = y__}) defMessage = NodeAddress'_constructor {_NodeAddress'network = Data.ProtoLens.fieldDefault, _NodeAddress'addr = Data.ProtoLens.fieldDefault, _NodeAddress'_unknownFields = []} parseMessage = let loop :: NodeAddress -> Data.ProtoLens.Encoding.Bytes.Parser NodeAddress loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "network" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"network") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "addr" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"addr") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "NodeAddress" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"network") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"addr") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData NodeAddress where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeAddress'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeAddress'network x__) (Control.DeepSeq.deepseq (_NodeAddress'addr x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.node' @:: Lens' NodeInfo LightningNode@ * 'Proto.Lnrpc.Ln0_Fields.maybe'node' @:: Lens' NodeInfo (Prelude.Maybe LightningNode)@ * 'Proto.Lnrpc.Ln0_Fields.numChannels' @:: Lens' NodeInfo Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.totalCapacity' @:: Lens' NodeInfo Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.channels' @:: Lens' NodeInfo [ChannelEdge]@ * 'Proto.Lnrpc.Ln0_Fields.vec'channels' @:: Lens' NodeInfo (Data.Vector.Vector ChannelEdge)@ -} data NodeInfo = NodeInfo'_constructor {_NodeInfo'node :: !(Prelude.Maybe LightningNode), _NodeInfo'numChannels :: !Data.Word.Word32, _NodeInfo'totalCapacity :: !Data.Int.Int64, _NodeInfo'channels :: !(Data.Vector.Vector ChannelEdge), _NodeInfo'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeInfo where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeInfo instance Data.ProtoLens.Field.HasField NodeInfo "node" LightningNode where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfo'node (\ x__ y__ -> x__ {_NodeInfo'node = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField NodeInfo "maybe'node" (Prelude.Maybe LightningNode) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfo'node (\ x__ y__ -> x__ {_NodeInfo'node = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeInfo "numChannels" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfo'numChannels (\ x__ y__ -> x__ {_NodeInfo'numChannels = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeInfo "totalCapacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfo'totalCapacity (\ x__ y__ -> x__ {_NodeInfo'totalCapacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeInfo "channels" [ChannelEdge] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfo'channels (\ x__ y__ -> x__ {_NodeInfo'channels = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField NodeInfo "vec'channels" (Data.Vector.Vector ChannelEdge) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfo'channels (\ x__ y__ -> x__ {_NodeInfo'channels = y__})) Prelude.id instance Data.ProtoLens.Message NodeInfo where messageName _ = Data.Text.pack "lnrpc.NodeInfo" packedMessageDescriptor _ = "\n\ \\bNodeInfo\DC2(\n\ \\EOTnode\CAN\SOH \SOH(\v2\DC4.lnrpc.LightningNodeR\EOTnode\DC2!\n\ \\fnum_channels\CAN\STX \SOH(\rR\vnumChannels\DC2%\n\ \\SOtotal_capacity\CAN\ETX \SOH(\ETXR\rtotalCapacity\DC2.\n\ \\bchannels\CAN\EOT \ETX(\v2\DC2.lnrpc.ChannelEdgeR\bchannels" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let node__field_descriptor = Data.ProtoLens.FieldDescriptor "node" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor LightningNode) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'node")) :: Data.ProtoLens.FieldDescriptor NodeInfo numChannels__field_descriptor = Data.ProtoLens.FieldDescriptor "num_channels" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"numChannels")) :: Data.ProtoLens.FieldDescriptor NodeInfo totalCapacity__field_descriptor = Data.ProtoLens.FieldDescriptor "total_capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalCapacity")) :: Data.ProtoLens.FieldDescriptor NodeInfo channels__field_descriptor = Data.ProtoLens.FieldDescriptor "channels" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ChannelEdge) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"channels")) :: Data.ProtoLens.FieldDescriptor NodeInfo in Data.Map.fromList [(Data.ProtoLens.Tag 1, node__field_descriptor), (Data.ProtoLens.Tag 2, numChannels__field_descriptor), (Data.ProtoLens.Tag 3, totalCapacity__field_descriptor), (Data.ProtoLens.Tag 4, channels__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeInfo'_unknownFields (\ x__ y__ -> x__ {_NodeInfo'_unknownFields = y__}) defMessage = NodeInfo'_constructor {_NodeInfo'node = Prelude.Nothing, _NodeInfo'numChannels = Data.ProtoLens.fieldDefault, _NodeInfo'totalCapacity = Data.ProtoLens.fieldDefault, _NodeInfo'channels = Data.Vector.Generic.empty, _NodeInfo'_unknownFields = []} parseMessage = let loop :: NodeInfo -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld ChannelEdge -> Data.ProtoLens.Encoding.Bytes.Parser NodeInfo loop x mutable'channels = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'channels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'channels) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'channels") frozen'channels x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "node" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"node") y x) mutable'channels 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "num_channels" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"numChannels") y x) mutable'channels 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalCapacity") y x) mutable'channels 34 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "channels" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'channels y) loop x v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'channels in (Data.ProtoLens.Encoding.Bytes.) (do mutable'channels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'channels) "NodeInfo" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'node") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"numChannels") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalCapacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'channels") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))) instance Control.DeepSeq.NFData NodeInfo where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeInfo'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeInfo'node x__) (Control.DeepSeq.deepseq (_NodeInfo'numChannels x__) (Control.DeepSeq.deepseq (_NodeInfo'totalCapacity x__) (Control.DeepSeq.deepseq (_NodeInfo'channels x__) ())))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.pubKey' @:: Lens' NodeInfoRequest Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.includeChannels' @:: Lens' NodeInfoRequest Prelude.Bool@ -} data NodeInfoRequest = NodeInfoRequest'_constructor {_NodeInfoRequest'pubKey :: !Data.Text.Text, _NodeInfoRequest'includeChannels :: !Prelude.Bool, _NodeInfoRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeInfoRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeInfoRequest instance Data.ProtoLens.Field.HasField NodeInfoRequest "pubKey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfoRequest'pubKey (\ x__ y__ -> x__ {_NodeInfoRequest'pubKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeInfoRequest "includeChannels" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeInfoRequest'includeChannels (\ x__ y__ -> x__ {_NodeInfoRequest'includeChannels = y__})) Prelude.id instance Data.ProtoLens.Message NodeInfoRequest where messageName _ = Data.Text.pack "lnrpc.NodeInfoRequest" packedMessageDescriptor _ = "\n\ \\SINodeInfoRequest\DC2\ETB\n\ \\apub_key\CAN\SOH \SOH(\tR\ACKpubKey\DC2)\n\ \\DLEinclude_channels\CAN\STX \SOH(\bR\SIincludeChannels" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let pubKey__field_descriptor = Data.ProtoLens.FieldDescriptor "pub_key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pubKey")) :: Data.ProtoLens.FieldDescriptor NodeInfoRequest includeChannels__field_descriptor = Data.ProtoLens.FieldDescriptor "include_channels" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"includeChannels")) :: Data.ProtoLens.FieldDescriptor NodeInfoRequest in Data.Map.fromList [(Data.ProtoLens.Tag 1, pubKey__field_descriptor), (Data.ProtoLens.Tag 2, includeChannels__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeInfoRequest'_unknownFields (\ x__ y__ -> x__ {_NodeInfoRequest'_unknownFields = y__}) defMessage = NodeInfoRequest'_constructor {_NodeInfoRequest'pubKey = Data.ProtoLens.fieldDefault, _NodeInfoRequest'includeChannels = Data.ProtoLens.fieldDefault, _NodeInfoRequest'_unknownFields = []} parseMessage = let loop :: NodeInfoRequest -> Data.ProtoLens.Encoding.Bytes.Parser NodeInfoRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "pub_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pubKey") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "include_channels" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"includeChannels") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "NodeInfoRequest" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pubKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"includeChannels") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData NodeInfoRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeInfoRequest'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeInfoRequest'pubKey x__) (Control.DeepSeq.deepseq (_NodeInfoRequest'includeChannels x__) ())) newtype NodeMetricType'UnrecognizedValue = NodeMetricType'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out NodeMetricType'UnrecognizedValue data NodeMetricType = UNKNOWN | BETWEENNESS_CENTRALITY | NodeMetricType'Unrecognized !NodeMetricType'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum NodeMetricType where maybeToEnum 0 = Prelude.Just UNKNOWN maybeToEnum 1 = Prelude.Just BETWEENNESS_CENTRALITY maybeToEnum k = Prelude.Just (NodeMetricType'Unrecognized (NodeMetricType'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UNKNOWN = "UNKNOWN" showEnum BETWEENNESS_CENTRALITY = "BETWEENNESS_CENTRALITY" showEnum (NodeMetricType'Unrecognized (NodeMetricType'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UNKNOWN" = Prelude.Just UNKNOWN | (Prelude.==) k "BETWEENNESS_CENTRALITY" = Prelude.Just BETWEENNESS_CENTRALITY | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded NodeMetricType where minBound = UNKNOWN maxBound = BETWEENNESS_CENTRALITY instance Prelude.Enum NodeMetricType where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum NodeMetricType: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UNKNOWN = 0 fromEnum BETWEENNESS_CENTRALITY = 1 fromEnum (NodeMetricType'Unrecognized (NodeMetricType'UnrecognizedValue k)) = Prelude.fromIntegral k succ BETWEENNESS_CENTRALITY = Prelude.error "NodeMetricType.succ: bad argument BETWEENNESS_CENTRALITY. This value would be out of bounds." succ UNKNOWN = BETWEENNESS_CENTRALITY succ (NodeMetricType'Unrecognized _) = Prelude.error "NodeMetricType.succ: bad argument: unrecognized value" pred UNKNOWN = Prelude.error "NodeMetricType.pred: bad argument UNKNOWN. This value would be out of bounds." pred BETWEENNESS_CENTRALITY = UNKNOWN pred (NodeMetricType'Unrecognized _) = Prelude.error "NodeMetricType.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault NodeMetricType where fieldDefault = UNKNOWN instance Control.DeepSeq.NFData NodeMetricType where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out NodeMetricType {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.types' @:: Lens' NodeMetricsRequest [NodeMetricType]@ * 'Proto.Lnrpc.Ln0_Fields.vec'types' @:: Lens' NodeMetricsRequest (Data.Vector.Vector NodeMetricType)@ -} data NodeMetricsRequest = NodeMetricsRequest'_constructor {_NodeMetricsRequest'types :: !(Data.Vector.Vector NodeMetricType), _NodeMetricsRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeMetricsRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeMetricsRequest instance Data.ProtoLens.Field.HasField NodeMetricsRequest "types" [NodeMetricType] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeMetricsRequest'types (\ x__ y__ -> x__ {_NodeMetricsRequest'types = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField NodeMetricsRequest "vec'types" (Data.Vector.Vector NodeMetricType) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeMetricsRequest'types (\ x__ y__ -> x__ {_NodeMetricsRequest'types = y__})) Prelude.id instance Data.ProtoLens.Message NodeMetricsRequest where messageName _ = Data.Text.pack "lnrpc.NodeMetricsRequest" packedMessageDescriptor _ = "\n\ \\DC2NodeMetricsRequest\DC2+\n\ \\ENQtypes\CAN\SOH \ETX(\SO2\NAK.lnrpc.NodeMetricTypeR\ENQtypes" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let types__field_descriptor = Data.ProtoLens.FieldDescriptor "types" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor NodeMetricType) (Data.ProtoLens.RepeatedField Data.ProtoLens.Packed (Data.ProtoLens.Field.field @"types")) :: Data.ProtoLens.FieldDescriptor NodeMetricsRequest in Data.Map.fromList [(Data.ProtoLens.Tag 1, types__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeMetricsRequest'_unknownFields (\ x__ y__ -> x__ {_NodeMetricsRequest'_unknownFields = y__}) defMessage = NodeMetricsRequest'_constructor {_NodeMetricsRequest'types = Data.Vector.Generic.empty, _NodeMetricsRequest'_unknownFields = []} parseMessage = let loop :: NodeMetricsRequest -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld NodeMetricType -> Data.ProtoLens.Encoding.Bytes.Parser NodeMetricsRequest loop x mutable'types = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'types <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'types) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'types") frozen'types x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "types" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'types y) loop x v 10 -> do y <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) ((let ploop qs = do packedEnd <- Data.ProtoLens.Encoding.Bytes.atEnd if packedEnd then Prelude.return qs else do !q <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "types" qs' <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append qs q) ploop qs' in ploop) mutable'types) loop x y wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'types in (Data.ProtoLens.Encoding.Bytes.) (do mutable'types <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'types) "NodeMetricsRequest" buildMessage = \ _x -> (Data.Monoid.<>) (let p = Lens.Family2.view (Data.ProtoLens.Field.field @"vec'types") _x in if Data.Vector.Generic.null p then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) (Data.ProtoLens.Encoding.Bytes.runBuilder (Data.ProtoLens.Encoding.Bytes.foldMapBuilder ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum) p)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData NodeMetricsRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeMetricsRequest'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeMetricsRequest'types x__) ()) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.betweennessCentrality' @:: Lens' NodeMetricsResponse (Data.Map.Map Data.Text.Text FloatMetric)@ -} data NodeMetricsResponse = NodeMetricsResponse'_constructor {_NodeMetricsResponse'betweennessCentrality :: !(Data.Map.Map Data.Text.Text FloatMetric), _NodeMetricsResponse'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeMetricsResponse where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeMetricsResponse instance Data.ProtoLens.Field.HasField NodeMetricsResponse "betweennessCentrality" (Data.Map.Map Data.Text.Text FloatMetric) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeMetricsResponse'betweennessCentrality (\ x__ y__ -> x__ {_NodeMetricsResponse'betweennessCentrality = y__})) Prelude.id instance Data.ProtoLens.Message NodeMetricsResponse where messageName _ = Data.Text.pack "lnrpc.NodeMetricsResponse" packedMessageDescriptor _ = "\n\ \\DC3NodeMetricsResponse\DC2l\n\ \\SYNbetweenness_centrality\CAN\SOH \ETX(\v25.lnrpc.NodeMetricsResponse.BetweennessCentralityEntryR\NAKbetweennessCentrality\SUB\\\n\ \\SUBBetweennessCentralityEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\tR\ETXkey\DC2(\n\ \\ENQvalue\CAN\STX \SOH(\v2\DC2.lnrpc.FloatMetricR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let betweennessCentrality__field_descriptor = Data.ProtoLens.FieldDescriptor "betweenness_centrality" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NodeMetricsResponse'BetweennessCentralityEntry) (Data.ProtoLens.MapField (Data.ProtoLens.Field.field @"key") (Data.ProtoLens.Field.field @"value") (Data.ProtoLens.Field.field @"betweennessCentrality")) :: Data.ProtoLens.FieldDescriptor NodeMetricsResponse in Data.Map.fromList [(Data.ProtoLens.Tag 1, betweennessCentrality__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeMetricsResponse'_unknownFields (\ x__ y__ -> x__ {_NodeMetricsResponse'_unknownFields = y__}) defMessage = NodeMetricsResponse'_constructor {_NodeMetricsResponse'betweennessCentrality = Data.Map.empty, _NodeMetricsResponse'_unknownFields = []} parseMessage = let loop :: NodeMetricsResponse -> Data.ProtoLens.Encoding.Bytes.Parser NodeMetricsResponse loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do !(entry :: NodeMetricsResponse'BetweennessCentralityEntry) <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "betweenness_centrality" (let key = Lens.Family2.view (Data.ProtoLens.Field.field @"key") entry value = Lens.Family2.view (Data.ProtoLens.Field.field @"value") entry in loop (Lens.Family2.over (Data.ProtoLens.Field.field @"betweennessCentrality") (\ !t -> Data.Map.insert key value t) x)) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "NodeMetricsResponse" buildMessage = \ _x -> (Data.Monoid.<>) (Data.Monoid.mconcat (Prelude.map (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage (Lens.Family2.set (Data.ProtoLens.Field.field @"key") (Prelude.fst _v) (Lens.Family2.set (Data.ProtoLens.Field.field @"value") (Prelude.snd _v) (Data.ProtoLens.defMessage :: NodeMetricsResponse'BetweennessCentralityEntry))))) (Data.Map.toList (Lens.Family2.view (Data.ProtoLens.Field.field @"betweennessCentrality") _x)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData NodeMetricsResponse where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeMetricsResponse'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeMetricsResponse'betweennessCentrality x__) ()) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.key' @:: Lens' NodeMetricsResponse'BetweennessCentralityEntry Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.value' @:: Lens' NodeMetricsResponse'BetweennessCentralityEntry FloatMetric@ * 'Proto.Lnrpc.Ln0_Fields.maybe'value' @:: Lens' NodeMetricsResponse'BetweennessCentralityEntry (Prelude.Maybe FloatMetric)@ -} data NodeMetricsResponse'BetweennessCentralityEntry = NodeMetricsResponse'BetweennessCentralityEntry'_constructor {_NodeMetricsResponse'BetweennessCentralityEntry'key :: !Data.Text.Text, _NodeMetricsResponse'BetweennessCentralityEntry'value :: !(Prelude.Maybe FloatMetric), _NodeMetricsResponse'BetweennessCentralityEntry'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeMetricsResponse'BetweennessCentralityEntry where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeMetricsResponse'BetweennessCentralityEntry instance Data.ProtoLens.Field.HasField NodeMetricsResponse'BetweennessCentralityEntry "key" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeMetricsResponse'BetweennessCentralityEntry'key (\ x__ y__ -> x__ {_NodeMetricsResponse'BetweennessCentralityEntry'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeMetricsResponse'BetweennessCentralityEntry "value" FloatMetric where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeMetricsResponse'BetweennessCentralityEntry'value (\ x__ y__ -> x__ {_NodeMetricsResponse'BetweennessCentralityEntry'value = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField NodeMetricsResponse'BetweennessCentralityEntry "maybe'value" (Prelude.Maybe FloatMetric) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeMetricsResponse'BetweennessCentralityEntry'value (\ x__ y__ -> x__ {_NodeMetricsResponse'BetweennessCentralityEntry'value = y__})) Prelude.id instance Data.ProtoLens.Message NodeMetricsResponse'BetweennessCentralityEntry where messageName _ = Data.Text.pack "lnrpc.NodeMetricsResponse.BetweennessCentralityEntry" packedMessageDescriptor _ = "\n\ \\SUBBetweennessCentralityEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\tR\ETXkey\DC2(\n\ \\ENQvalue\CAN\STX \SOH(\v2\DC2.lnrpc.FloatMetricR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"key")) :: Data.ProtoLens.FieldDescriptor NodeMetricsResponse'BetweennessCentralityEntry value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor FloatMetric) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'value")) :: Data.ProtoLens.FieldDescriptor NodeMetricsResponse'BetweennessCentralityEntry in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeMetricsResponse'BetweennessCentralityEntry'_unknownFields (\ x__ y__ -> x__ {_NodeMetricsResponse'BetweennessCentralityEntry'_unknownFields = y__}) defMessage = NodeMetricsResponse'BetweennessCentralityEntry'_constructor {_NodeMetricsResponse'BetweennessCentralityEntry'key = Data.ProtoLens.fieldDefault, _NodeMetricsResponse'BetweennessCentralityEntry'value = Prelude.Nothing, _NodeMetricsResponse'BetweennessCentralityEntry'_unknownFields = []} parseMessage = let loop :: NodeMetricsResponse'BetweennessCentralityEntry -> Data.ProtoLens.Encoding.Bytes.Parser NodeMetricsResponse'BetweennessCentralityEntry loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "BetweennessCentralityEntry" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"key") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'value") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData NodeMetricsResponse'BetweennessCentralityEntry where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeMetricsResponse'BetweennessCentralityEntry'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeMetricsResponse'BetweennessCentralityEntry'key x__) (Control.DeepSeq.deepseq (_NodeMetricsResponse'BetweennessCentralityEntry'value x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.from' @:: Lens' NodePair Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.to' @:: Lens' NodePair Data.ByteString.ByteString@ -} data NodePair = NodePair'_constructor {_NodePair'from :: !Data.ByteString.ByteString, _NodePair'to :: !Data.ByteString.ByteString, _NodePair'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodePair where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodePair instance Data.ProtoLens.Field.HasField NodePair "from" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodePair'from (\ x__ y__ -> x__ {_NodePair'from = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodePair "to" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodePair'to (\ x__ y__ -> x__ {_NodePair'to = y__})) Prelude.id instance Data.ProtoLens.Message NodePair where messageName _ = Data.Text.pack "lnrpc.NodePair" packedMessageDescriptor _ = "\n\ \\bNodePair\DC2\DC2\n\ \\EOTfrom\CAN\SOH \SOH(\fR\EOTfrom\DC2\SO\n\ \\STXto\CAN\STX \SOH(\fR\STXto" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let from__field_descriptor = Data.ProtoLens.FieldDescriptor "from" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"from")) :: Data.ProtoLens.FieldDescriptor NodePair to__field_descriptor = Data.ProtoLens.FieldDescriptor "to" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"to")) :: Data.ProtoLens.FieldDescriptor NodePair in Data.Map.fromList [(Data.ProtoLens.Tag 1, from__field_descriptor), (Data.ProtoLens.Tag 2, to__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodePair'_unknownFields (\ x__ y__ -> x__ {_NodePair'_unknownFields = y__}) defMessage = NodePair'_constructor {_NodePair'from = Data.ProtoLens.fieldDefault, _NodePair'to = Data.ProtoLens.fieldDefault, _NodePair'_unknownFields = []} parseMessage = let loop :: NodePair -> Data.ProtoLens.Encoding.Bytes.Parser NodePair loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "from" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"from") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "to" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"to") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "NodePair" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"from") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"to") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData NodePair where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodePair'_unknownFields x__) (Control.DeepSeq.deepseq (_NodePair'from x__) (Control.DeepSeq.deepseq (_NodePair'to x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.addresses' @:: Lens' NodeUpdate [Data.Text.Text]@ * 'Proto.Lnrpc.Ln0_Fields.vec'addresses' @:: Lens' NodeUpdate (Data.Vector.Vector Data.Text.Text)@ * 'Proto.Lnrpc.Ln0_Fields.identityKey' @:: Lens' NodeUpdate Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.globalFeatures' @:: Lens' NodeUpdate Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.alias' @:: Lens' NodeUpdate Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.color' @:: Lens' NodeUpdate Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.nodeAddresses' @:: Lens' NodeUpdate [NodeAddress]@ * 'Proto.Lnrpc.Ln0_Fields.vec'nodeAddresses' @:: Lens' NodeUpdate (Data.Vector.Vector NodeAddress)@ * 'Proto.Lnrpc.Ln0_Fields.features' @:: Lens' NodeUpdate (Data.Map.Map Data.Word.Word32 Feature)@ -} data NodeUpdate = NodeUpdate'_constructor {_NodeUpdate'addresses :: !(Data.Vector.Vector Data.Text.Text), _NodeUpdate'identityKey :: !Data.Text.Text, _NodeUpdate'globalFeatures :: !Data.ByteString.ByteString, _NodeUpdate'alias :: !Data.Text.Text, _NodeUpdate'color :: !Data.Text.Text, _NodeUpdate'nodeAddresses :: !(Data.Vector.Vector NodeAddress), _NodeUpdate'features :: !(Data.Map.Map Data.Word.Word32 Feature), _NodeUpdate'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeUpdate where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeUpdate instance Data.ProtoLens.Field.HasField NodeUpdate "addresses" [Data.Text.Text] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'addresses (\ x__ y__ -> x__ {_NodeUpdate'addresses = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField NodeUpdate "vec'addresses" (Data.Vector.Vector Data.Text.Text) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'addresses (\ x__ y__ -> x__ {_NodeUpdate'addresses = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeUpdate "identityKey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'identityKey (\ x__ y__ -> x__ {_NodeUpdate'identityKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeUpdate "globalFeatures" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'globalFeatures (\ x__ y__ -> x__ {_NodeUpdate'globalFeatures = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeUpdate "alias" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'alias (\ x__ y__ -> x__ {_NodeUpdate'alias = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeUpdate "color" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'color (\ x__ y__ -> x__ {_NodeUpdate'color = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeUpdate "nodeAddresses" [NodeAddress] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'nodeAddresses (\ x__ y__ -> x__ {_NodeUpdate'nodeAddresses = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField NodeUpdate "vec'nodeAddresses" (Data.Vector.Vector NodeAddress) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'nodeAddresses (\ x__ y__ -> x__ {_NodeUpdate'nodeAddresses = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeUpdate "features" (Data.Map.Map Data.Word.Word32 Feature) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'features (\ x__ y__ -> x__ {_NodeUpdate'features = y__})) Prelude.id instance Data.ProtoLens.Message NodeUpdate where messageName _ = Data.Text.pack "lnrpc.NodeUpdate" packedMessageDescriptor _ = "\n\ \\n\ \NodeUpdate\DC2 \n\ \\taddresses\CAN\SOH \ETX(\tR\taddressesB\STX\CAN\SOH\DC2!\n\ \\fidentity_key\CAN\STX \SOH(\tR\videntityKey\DC2+\n\ \\SIglobal_features\CAN\ETX \SOH(\fR\SOglobalFeaturesB\STX\CAN\SOH\DC2\DC4\n\ \\ENQalias\CAN\EOT \SOH(\tR\ENQalias\DC2\DC4\n\ \\ENQcolor\CAN\ENQ \SOH(\tR\ENQcolor\DC29\n\ \\SOnode_addresses\CAN\a \ETX(\v2\DC2.lnrpc.NodeAddressR\rnodeAddresses\DC2;\n\ \\bfeatures\CAN\ACK \ETX(\v2\US.lnrpc.NodeUpdate.FeaturesEntryR\bfeatures\SUBK\n\ \\rFeaturesEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\rR\ETXkey\DC2$\n\ \\ENQvalue\CAN\STX \SOH(\v2\SO.lnrpc.FeatureR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let addresses__field_descriptor = Data.ProtoLens.FieldDescriptor "addresses" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"addresses")) :: Data.ProtoLens.FieldDescriptor NodeUpdate identityKey__field_descriptor = Data.ProtoLens.FieldDescriptor "identity_key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"identityKey")) :: Data.ProtoLens.FieldDescriptor NodeUpdate globalFeatures__field_descriptor = Data.ProtoLens.FieldDescriptor "global_features" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"globalFeatures")) :: Data.ProtoLens.FieldDescriptor NodeUpdate alias__field_descriptor = Data.ProtoLens.FieldDescriptor "alias" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"alias")) :: Data.ProtoLens.FieldDescriptor NodeUpdate color__field_descriptor = Data.ProtoLens.FieldDescriptor "color" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"color")) :: Data.ProtoLens.FieldDescriptor NodeUpdate nodeAddresses__field_descriptor = Data.ProtoLens.FieldDescriptor "node_addresses" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NodeAddress) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"nodeAddresses")) :: Data.ProtoLens.FieldDescriptor NodeUpdate features__field_descriptor = Data.ProtoLens.FieldDescriptor "features" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NodeUpdate'FeaturesEntry) (Data.ProtoLens.MapField (Data.ProtoLens.Field.field @"key") (Data.ProtoLens.Field.field @"value") (Data.ProtoLens.Field.field @"features")) :: Data.ProtoLens.FieldDescriptor NodeUpdate in Data.Map.fromList [(Data.ProtoLens.Tag 1, addresses__field_descriptor), (Data.ProtoLens.Tag 2, identityKey__field_descriptor), (Data.ProtoLens.Tag 3, globalFeatures__field_descriptor), (Data.ProtoLens.Tag 4, alias__field_descriptor), (Data.ProtoLens.Tag 5, color__field_descriptor), (Data.ProtoLens.Tag 7, nodeAddresses__field_descriptor), (Data.ProtoLens.Tag 6, features__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeUpdate'_unknownFields (\ x__ y__ -> x__ {_NodeUpdate'_unknownFields = y__}) defMessage = NodeUpdate'_constructor {_NodeUpdate'addresses = Data.Vector.Generic.empty, _NodeUpdate'identityKey = Data.ProtoLens.fieldDefault, _NodeUpdate'globalFeatures = Data.ProtoLens.fieldDefault, _NodeUpdate'alias = Data.ProtoLens.fieldDefault, _NodeUpdate'color = Data.ProtoLens.fieldDefault, _NodeUpdate'nodeAddresses = Data.Vector.Generic.empty, _NodeUpdate'features = Data.Map.empty, _NodeUpdate'_unknownFields = []} parseMessage = let loop :: NodeUpdate -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.Text.Text -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld NodeAddress -> Data.ProtoLens.Encoding.Bytes.Parser NodeUpdate loop x mutable'addresses mutable'nodeAddresses = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'addresses <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'addresses) frozen'nodeAddresses <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'nodeAddresses) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'addresses") frozen'addresses (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'nodeAddresses") frozen'nodeAddresses x))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "addresses" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'addresses y) loop x v mutable'nodeAddresses 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "identity_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"identityKey") y x) mutable'addresses mutable'nodeAddresses 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "global_features" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"globalFeatures") y x) mutable'addresses mutable'nodeAddresses 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "alias" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"alias") y x) mutable'addresses mutable'nodeAddresses 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "color" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"color") y x) mutable'addresses mutable'nodeAddresses 58 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "node_addresses" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'nodeAddresses y) loop x mutable'addresses v 50 -> do !(entry :: NodeUpdate'FeaturesEntry) <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "features" (let key = Lens.Family2.view (Data.ProtoLens.Field.field @"key") entry value = Lens.Family2.view (Data.ProtoLens.Field.field @"value") entry in loop (Lens.Family2.over (Data.ProtoLens.Field.field @"features") (\ !t -> Data.Map.insert key value t) x) mutable'addresses mutable'nodeAddresses) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'addresses mutable'nodeAddresses in (Data.ProtoLens.Encoding.Bytes.) (do mutable'addresses <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'nodeAddresses <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'addresses mutable'nodeAddresses) "NodeUpdate" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'addresses") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"identityKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"globalFeatures") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"alias") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"color") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 58) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'nodeAddresses") _x)) ((Data.Monoid.<>) (Data.Monoid.mconcat (Prelude.map (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage (Lens.Family2.set (Data.ProtoLens.Field.field @"key") (Prelude.fst _v) (Lens.Family2.set (Data.ProtoLens.Field.field @"value") (Prelude.snd _v) (Data.ProtoLens.defMessage :: NodeUpdate'FeaturesEntry))))) (Data.Map.toList (Lens.Family2.view (Data.ProtoLens.Field.field @"features") _x)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))) instance Control.DeepSeq.NFData NodeUpdate where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeUpdate'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeUpdate'addresses x__) (Control.DeepSeq.deepseq (_NodeUpdate'identityKey x__) (Control.DeepSeq.deepseq (_NodeUpdate'globalFeatures x__) (Control.DeepSeq.deepseq (_NodeUpdate'alias x__) (Control.DeepSeq.deepseq (_NodeUpdate'color x__) (Control.DeepSeq.deepseq (_NodeUpdate'nodeAddresses x__) (Control.DeepSeq.deepseq (_NodeUpdate'features x__) ()))))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.key' @:: Lens' NodeUpdate'FeaturesEntry Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.value' @:: Lens' NodeUpdate'FeaturesEntry Feature@ * 'Proto.Lnrpc.Ln0_Fields.maybe'value' @:: Lens' NodeUpdate'FeaturesEntry (Prelude.Maybe Feature)@ -} data NodeUpdate'FeaturesEntry = NodeUpdate'FeaturesEntry'_constructor {_NodeUpdate'FeaturesEntry'key :: !Data.Word.Word32, _NodeUpdate'FeaturesEntry'value :: !(Prelude.Maybe Feature), _NodeUpdate'FeaturesEntry'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show NodeUpdate'FeaturesEntry where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out NodeUpdate'FeaturesEntry instance Data.ProtoLens.Field.HasField NodeUpdate'FeaturesEntry "key" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'FeaturesEntry'key (\ x__ y__ -> x__ {_NodeUpdate'FeaturesEntry'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NodeUpdate'FeaturesEntry "value" Feature where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'FeaturesEntry'value (\ x__ y__ -> x__ {_NodeUpdate'FeaturesEntry'value = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField NodeUpdate'FeaturesEntry "maybe'value" (Prelude.Maybe Feature) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NodeUpdate'FeaturesEntry'value (\ x__ y__ -> x__ {_NodeUpdate'FeaturesEntry'value = y__})) Prelude.id instance Data.ProtoLens.Message NodeUpdate'FeaturesEntry where messageName _ = Data.Text.pack "lnrpc.NodeUpdate.FeaturesEntry" packedMessageDescriptor _ = "\n\ \\rFeaturesEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\rR\ETXkey\DC2$\n\ \\ENQvalue\CAN\STX \SOH(\v2\SO.lnrpc.FeatureR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"key")) :: Data.ProtoLens.FieldDescriptor NodeUpdate'FeaturesEntry value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Feature) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'value")) :: Data.ProtoLens.FieldDescriptor NodeUpdate'FeaturesEntry in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NodeUpdate'FeaturesEntry'_unknownFields (\ x__ y__ -> x__ {_NodeUpdate'FeaturesEntry'_unknownFields = y__}) defMessage = NodeUpdate'FeaturesEntry'_constructor {_NodeUpdate'FeaturesEntry'key = Data.ProtoLens.fieldDefault, _NodeUpdate'FeaturesEntry'value = Prelude.Nothing, _NodeUpdate'FeaturesEntry'_unknownFields = []} parseMessage = let loop :: NodeUpdate'FeaturesEntry -> Data.ProtoLens.Encoding.Bytes.Parser NodeUpdate'FeaturesEntry loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "FeaturesEntry" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"key") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'value") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData NodeUpdate'FeaturesEntry where rnf = \ x__ -> Control.DeepSeq.deepseq (_NodeUpdate'FeaturesEntry'_unknownFields x__) (Control.DeepSeq.deepseq (_NodeUpdate'FeaturesEntry'key x__) (Control.DeepSeq.deepseq (_NodeUpdate'FeaturesEntry'value x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.txidBytes' @:: Lens' OutPoint Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.txidStr' @:: Lens' OutPoint Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.outputIndex' @:: Lens' OutPoint Data.Word.Word32@ -} data OutPoint = OutPoint'_constructor {_OutPoint'txidBytes :: !Data.ByteString.ByteString, _OutPoint'txidStr :: !Data.Text.Text, _OutPoint'outputIndex :: !Data.Word.Word32, _OutPoint'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show OutPoint where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out OutPoint instance Data.ProtoLens.Field.HasField OutPoint "txidBytes" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _OutPoint'txidBytes (\ x__ y__ -> x__ {_OutPoint'txidBytes = y__})) Prelude.id instance Data.ProtoLens.Field.HasField OutPoint "txidStr" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _OutPoint'txidStr (\ x__ y__ -> x__ {_OutPoint'txidStr = y__})) Prelude.id instance Data.ProtoLens.Field.HasField OutPoint "outputIndex" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _OutPoint'outputIndex (\ x__ y__ -> x__ {_OutPoint'outputIndex = y__})) Prelude.id instance Data.ProtoLens.Message OutPoint where messageName _ = Data.Text.pack "lnrpc.OutPoint" packedMessageDescriptor _ = "\n\ \\bOutPoint\DC2\GS\n\ \\n\ \txid_bytes\CAN\SOH \SOH(\fR\ttxidBytes\DC2\EM\n\ \\btxid_str\CAN\STX \SOH(\tR\atxidStr\DC2!\n\ \\foutput_index\CAN\ETX \SOH(\rR\voutputIndex" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let txidBytes__field_descriptor = Data.ProtoLens.FieldDescriptor "txid_bytes" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"txidBytes")) :: Data.ProtoLens.FieldDescriptor OutPoint txidStr__field_descriptor = Data.ProtoLens.FieldDescriptor "txid_str" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"txidStr")) :: Data.ProtoLens.FieldDescriptor OutPoint outputIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "output_index" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outputIndex")) :: Data.ProtoLens.FieldDescriptor OutPoint in Data.Map.fromList [(Data.ProtoLens.Tag 1, txidBytes__field_descriptor), (Data.ProtoLens.Tag 2, txidStr__field_descriptor), (Data.ProtoLens.Tag 3, outputIndex__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _OutPoint'_unknownFields (\ x__ y__ -> x__ {_OutPoint'_unknownFields = y__}) defMessage = OutPoint'_constructor {_OutPoint'txidBytes = Data.ProtoLens.fieldDefault, _OutPoint'txidStr = Data.ProtoLens.fieldDefault, _OutPoint'outputIndex = Data.ProtoLens.fieldDefault, _OutPoint'_unknownFields = []} parseMessage = let loop :: OutPoint -> Data.ProtoLens.Encoding.Bytes.Parser OutPoint loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "txid_bytes" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"txidBytes") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "txid_str" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"txidStr") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "output_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outputIndex") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "OutPoint" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"txidBytes") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"txidStr") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outputIndex") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData OutPoint where rnf = \ x__ -> Control.DeepSeq.deepseq (_OutPoint'_unknownFields x__) (Control.DeepSeq.deepseq (_OutPoint'txidBytes x__) (Control.DeepSeq.deepseq (_OutPoint'txidStr x__) (Control.DeepSeq.deepseq (_OutPoint'outputIndex x__) ()))) {- | Fields : -} data PendingChannelsRequest = PendingChannelsRequest'_constructor {_PendingChannelsRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsRequest instance Data.ProtoLens.Message PendingChannelsRequest where messageName _ = Data.Text.pack "lnrpc.PendingChannelsRequest" packedMessageDescriptor _ = "\n\ \\SYNPendingChannelsRequest" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsRequest'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsRequest'_unknownFields = y__}) defMessage = PendingChannelsRequest'_constructor {_PendingChannelsRequest'_unknownFields = []} parseMessage = let loop :: PendingChannelsRequest -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "PendingChannelsRequest" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData PendingChannelsRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsRequest'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.totalLimboBalance' @:: Lens' PendingChannelsResponse Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.pendingOpenChannels' @:: Lens' PendingChannelsResponse [PendingChannelsResponse'PendingOpenChannel]@ * 'Proto.Lnrpc.Ln0_Fields.vec'pendingOpenChannels' @:: Lens' PendingChannelsResponse (Data.Vector.Vector PendingChannelsResponse'PendingOpenChannel)@ * 'Proto.Lnrpc.Ln0_Fields.pendingClosingChannels' @:: Lens' PendingChannelsResponse [PendingChannelsResponse'ClosedChannel]@ * 'Proto.Lnrpc.Ln0_Fields.vec'pendingClosingChannels' @:: Lens' PendingChannelsResponse (Data.Vector.Vector PendingChannelsResponse'ClosedChannel)@ * 'Proto.Lnrpc.Ln0_Fields.pendingForceClosingChannels' @:: Lens' PendingChannelsResponse [PendingChannelsResponse'ForceClosedChannel]@ * 'Proto.Lnrpc.Ln0_Fields.vec'pendingForceClosingChannels' @:: Lens' PendingChannelsResponse (Data.Vector.Vector PendingChannelsResponse'ForceClosedChannel)@ * 'Proto.Lnrpc.Ln0_Fields.waitingCloseChannels' @:: Lens' PendingChannelsResponse [PendingChannelsResponse'WaitingCloseChannel]@ * 'Proto.Lnrpc.Ln0_Fields.vec'waitingCloseChannels' @:: Lens' PendingChannelsResponse (Data.Vector.Vector PendingChannelsResponse'WaitingCloseChannel)@ -} data PendingChannelsResponse = PendingChannelsResponse'_constructor {_PendingChannelsResponse'totalLimboBalance :: !Data.Int.Int64, _PendingChannelsResponse'pendingOpenChannels :: !(Data.Vector.Vector PendingChannelsResponse'PendingOpenChannel), _PendingChannelsResponse'pendingClosingChannels :: !(Data.Vector.Vector PendingChannelsResponse'ClosedChannel), _PendingChannelsResponse'pendingForceClosingChannels :: !(Data.Vector.Vector PendingChannelsResponse'ForceClosedChannel), _PendingChannelsResponse'waitingCloseChannels :: !(Data.Vector.Vector PendingChannelsResponse'WaitingCloseChannel), _PendingChannelsResponse'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsResponse where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse instance Data.ProtoLens.Field.HasField PendingChannelsResponse "totalLimboBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'totalLimboBalance (\ x__ y__ -> x__ {_PendingChannelsResponse'totalLimboBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse "pendingOpenChannels" [PendingChannelsResponse'PendingOpenChannel] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'pendingOpenChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'pendingOpenChannels = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PendingChannelsResponse "vec'pendingOpenChannels" (Data.Vector.Vector PendingChannelsResponse'PendingOpenChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'pendingOpenChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'pendingOpenChannels = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse "pendingClosingChannels" [PendingChannelsResponse'ClosedChannel] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'pendingClosingChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'pendingClosingChannels = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PendingChannelsResponse "vec'pendingClosingChannels" (Data.Vector.Vector PendingChannelsResponse'ClosedChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'pendingClosingChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'pendingClosingChannels = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse "pendingForceClosingChannels" [PendingChannelsResponse'ForceClosedChannel] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'pendingForceClosingChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'pendingForceClosingChannels = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PendingChannelsResponse "vec'pendingForceClosingChannels" (Data.Vector.Vector PendingChannelsResponse'ForceClosedChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'pendingForceClosingChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'pendingForceClosingChannels = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse "waitingCloseChannels" [PendingChannelsResponse'WaitingCloseChannel] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'waitingCloseChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'waitingCloseChannels = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PendingChannelsResponse "vec'waitingCloseChannels" (Data.Vector.Vector PendingChannelsResponse'WaitingCloseChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'waitingCloseChannels (\ x__ y__ -> x__ {_PendingChannelsResponse'waitingCloseChannels = y__})) Prelude.id instance Data.ProtoLens.Message PendingChannelsResponse where messageName _ = Data.Text.pack "lnrpc.PendingChannelsResponse" packedMessageDescriptor _ = "\n\ \\ETBPendingChannelsResponse\DC2.\n\ \\DC3total_limbo_balance\CAN\SOH \SOH(\ETXR\DC1totalLimboBalance\DC2e\n\ \\NAKpending_open_channels\CAN\STX \ETX(\v21.lnrpc.PendingChannelsResponse.PendingOpenChannelR\DC3pendingOpenChannels\DC2j\n\ \\CANpending_closing_channels\CAN\ETX \ETX(\v2,.lnrpc.PendingChannelsResponse.ClosedChannelR\SYNpendingClosingChannelsB\STX\CAN\SOH\DC2v\n\ \\RSpending_force_closing_channels\CAN\EOT \ETX(\v21.lnrpc.PendingChannelsResponse.ForceClosedChannelR\ESCpendingForceClosingChannels\DC2h\n\ \\SYNwaiting_close_channels\CAN\ENQ \ETX(\v22.lnrpc.PendingChannelsResponse.WaitingCloseChannelR\DC4waitingCloseChannels\SUB\217\ETX\n\ \\SOPendingChannel\DC2&\n\ \\SIremote_node_pub\CAN\SOH \SOH(\tR\rremoteNodePub\DC2#\n\ \\rchannel_point\CAN\STX \SOH(\tR\fchannelPoint\DC2\SUB\n\ \\bcapacity\CAN\ETX \SOH(\ETXR\bcapacity\DC2#\n\ \\rlocal_balance\CAN\EOT \SOH(\ETXR\flocalBalance\DC2%\n\ \\SOremote_balance\CAN\ENQ \SOH(\ETXR\rremoteBalance\DC23\n\ \\SYNlocal_chan_reserve_sat\CAN\ACK \SOH(\ETXR\DC3localChanReserveSat\DC25\n\ \\ETBremote_chan_reserve_sat\CAN\a \SOH(\ETXR\DC4remoteChanReserveSat\DC2.\n\ \\tinitiator\CAN\b \SOH(\SO2\DLE.lnrpc.InitiatorR\tinitiator\DC2>\n\ \\SIcommitment_type\CAN\t \SOH(\SO2\NAK.lnrpc.CommitmentTypeR\SOcommitmentType\DC26\n\ \\ETBnum_forwarding_packages\CAN\n\ \ \SOH(\ETXR\NAKnumForwardingPackages\SUB\240\SOH\n\ \\DC2PendingOpenChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2/\n\ \\DC3confirmation_height\CAN\STX \SOH(\rR\DC2confirmationHeight\DC2\GS\n\ \\n\ \commit_fee\CAN\EOT \SOH(\ETXR\tcommitFee\DC2#\n\ \\rcommit_weight\CAN\ENQ \SOH(\ETXR\fcommitWeight\DC2\FS\n\ \\n\ \fee_per_kw\CAN\ACK \SOH(\ETXR\bfeePerKw\SUB\209\SOH\n\ \\DC3WaitingCloseChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2#\n\ \\rlimbo_balance\CAN\STX \SOH(\ETXR\flimboBalance\DC2L\n\ \\vcommitments\CAN\ETX \SOH(\v2*.lnrpc.PendingChannelsResponse.CommitmentsR\vcommitments\SUB\163\STX\n\ \\vCommitments\DC2\GS\n\ \\n\ \local_txid\CAN\SOH \SOH(\tR\tlocalTxid\DC2\US\n\ \\vremote_txid\CAN\STX \SOH(\tR\n\ \remoteTxid\DC2.\n\ \\DC3remote_pending_txid\CAN\ETX \SOH(\tR\DC1remotePendingTxid\DC2/\n\ \\DC4local_commit_fee_sat\CAN\EOT \SOH(\EOTR\DC1localCommitFeeSat\DC21\n\ \\NAKremote_commit_fee_sat\CAN\ENQ \SOH(\EOTR\DC2remoteCommitFeeSat\DC2@\n\ \\GSremote_pending_commit_fee_sat\CAN\ACK \SOH(\EOTR\EMremotePendingCommitFeeSat\SUB{\n\ \\rClosedChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2!\n\ \\fclosing_txid\CAN\STX \SOH(\tR\vclosingTxid\SUB\238\ETX\n\ \\DC2ForceClosedChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2!\n\ \\fclosing_txid\CAN\STX \SOH(\tR\vclosingTxid\DC2#\n\ \\rlimbo_balance\CAN\ETX \SOH(\ETXR\flimboBalance\DC2'\n\ \\SImaturity_height\CAN\EOT \SOH(\rR\SOmaturityHeight\DC2.\n\ \\DC3blocks_til_maturity\CAN\ENQ \SOH(\ENQR\DC1blocksTilMaturity\DC2+\n\ \\DC1recovered_balance\CAN\ACK \SOH(\ETXR\DLErecoveredBalance\DC27\n\ \\rpending_htlcs\CAN\b \ETX(\v2\DC2.lnrpc.PendingHTLCR\fpendingHtlcs\DC2U\n\ \\ACKanchor\CAN\t \SOH(\SO2=.lnrpc.PendingChannelsResponse.ForceClosedChannel.AnchorStateR\ACKanchor\"1\n\ \\vAnchorState\DC2\t\n\ \\ENQLIMBO\DLE\NUL\DC2\r\n\ \\tRECOVERED\DLE\SOH\DC2\b\n\ \\EOTLOST\DLE\STX" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let totalLimboBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "total_limbo_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalLimboBalance")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse pendingOpenChannels__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_open_channels" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'PendingOpenChannel) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"pendingOpenChannels")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse pendingClosingChannels__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_closing_channels" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'ClosedChannel) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"pendingClosingChannels")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse pendingForceClosingChannels__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_force_closing_channels" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'ForceClosedChannel) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"pendingForceClosingChannels")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse waitingCloseChannels__field_descriptor = Data.ProtoLens.FieldDescriptor "waiting_close_channels" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'WaitingCloseChannel) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"waitingCloseChannels")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse in Data.Map.fromList [(Data.ProtoLens.Tag 1, totalLimboBalance__field_descriptor), (Data.ProtoLens.Tag 2, pendingOpenChannels__field_descriptor), (Data.ProtoLens.Tag 3, pendingClosingChannels__field_descriptor), (Data.ProtoLens.Tag 4, pendingForceClosingChannels__field_descriptor), (Data.ProtoLens.Tag 5, waitingCloseChannels__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsResponse'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsResponse'_unknownFields = y__}) defMessage = PendingChannelsResponse'_constructor {_PendingChannelsResponse'totalLimboBalance = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'pendingOpenChannels = Data.Vector.Generic.empty, _PendingChannelsResponse'pendingClosingChannels = Data.Vector.Generic.empty, _PendingChannelsResponse'pendingForceClosingChannels = Data.Vector.Generic.empty, _PendingChannelsResponse'waitingCloseChannels = Data.Vector.Generic.empty, _PendingChannelsResponse'_unknownFields = []} parseMessage = let loop :: PendingChannelsResponse -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PendingChannelsResponse'ClosedChannel -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PendingChannelsResponse'ForceClosedChannel -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PendingChannelsResponse'PendingOpenChannel -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PendingChannelsResponse'WaitingCloseChannel -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsResponse loop x mutable'pendingClosingChannels mutable'pendingForceClosingChannels mutable'pendingOpenChannels mutable'waitingCloseChannels = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'pendingClosingChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'pendingClosingChannels) frozen'pendingForceClosingChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'pendingForceClosingChannels) frozen'pendingOpenChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'pendingOpenChannels) frozen'waitingCloseChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'waitingCloseChannels) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'pendingClosingChannels") frozen'pendingClosingChannels (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'pendingForceClosingChannels") frozen'pendingForceClosingChannels (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'pendingOpenChannels") frozen'pendingOpenChannels (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'waitingCloseChannels") frozen'waitingCloseChannels x))))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_limbo_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalLimboBalance") y x) mutable'pendingClosingChannels mutable'pendingForceClosingChannels mutable'pendingOpenChannels mutable'waitingCloseChannels 18 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_open_channels" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'pendingOpenChannels y) loop x mutable'pendingClosingChannels mutable'pendingForceClosingChannels v mutable'waitingCloseChannels 26 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_closing_channels" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'pendingClosingChannels y) loop x v mutable'pendingForceClosingChannels mutable'pendingOpenChannels mutable'waitingCloseChannels 34 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_force_closing_channels" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'pendingForceClosingChannels y) loop x mutable'pendingClosingChannels v mutable'pendingOpenChannels mutable'waitingCloseChannels 42 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "waiting_close_channels" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'waitingCloseChannels y) loop x mutable'pendingClosingChannels mutable'pendingForceClosingChannels mutable'pendingOpenChannels v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'pendingClosingChannels mutable'pendingForceClosingChannels mutable'pendingOpenChannels mutable'waitingCloseChannels in (Data.ProtoLens.Encoding.Bytes.) (do mutable'pendingClosingChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'pendingForceClosingChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'pendingOpenChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'waitingCloseChannels <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'pendingClosingChannels mutable'pendingForceClosingChannels mutable'pendingOpenChannels mutable'waitingCloseChannels) "PendingChannelsResponse" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalLimboBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'pendingOpenChannels") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'pendingClosingChannels") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'pendingForceClosingChannels") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'waitingCloseChannels") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))) instance Control.DeepSeq.NFData PendingChannelsResponse where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsResponse'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'totalLimboBalance x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'pendingOpenChannels x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'pendingClosingChannels x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'pendingForceClosingChannels x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'waitingCloseChannels x__) ()))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.channel' @:: Lens' PendingChannelsResponse'ClosedChannel PendingChannelsResponse'PendingChannel@ * 'Proto.Lnrpc.Ln0_Fields.maybe'channel' @:: Lens' PendingChannelsResponse'ClosedChannel (Prelude.Maybe PendingChannelsResponse'PendingChannel)@ * 'Proto.Lnrpc.Ln0_Fields.closingTxid' @:: Lens' PendingChannelsResponse'ClosedChannel Data.Text.Text@ -} data PendingChannelsResponse'ClosedChannel = PendingChannelsResponse'ClosedChannel'_constructor {_PendingChannelsResponse'ClosedChannel'channel :: !(Prelude.Maybe PendingChannelsResponse'PendingChannel), _PendingChannelsResponse'ClosedChannel'closingTxid :: !Data.Text.Text, _PendingChannelsResponse'ClosedChannel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsResponse'ClosedChannel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'ClosedChannel instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ClosedChannel "channel" PendingChannelsResponse'PendingChannel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ClosedChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'ClosedChannel'channel = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ClosedChannel "maybe'channel" (Prelude.Maybe PendingChannelsResponse'PendingChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ClosedChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'ClosedChannel'channel = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ClosedChannel "closingTxid" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ClosedChannel'closingTxid (\ x__ y__ -> x__ {_PendingChannelsResponse'ClosedChannel'closingTxid = y__})) Prelude.id instance Data.ProtoLens.Message PendingChannelsResponse'ClosedChannel where messageName _ = Data.Text.pack "lnrpc.PendingChannelsResponse.ClosedChannel" packedMessageDescriptor _ = "\n\ \\rClosedChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2!\n\ \\fclosing_txid\CAN\STX \SOH(\tR\vclosingTxid" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let channel__field_descriptor = Data.ProtoLens.FieldDescriptor "channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'PendingChannel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'channel")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ClosedChannel closingTxid__field_descriptor = Data.ProtoLens.FieldDescriptor "closing_txid" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closingTxid")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ClosedChannel in Data.Map.fromList [(Data.ProtoLens.Tag 1, channel__field_descriptor), (Data.ProtoLens.Tag 2, closingTxid__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsResponse'ClosedChannel'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsResponse'ClosedChannel'_unknownFields = y__}) defMessage = PendingChannelsResponse'ClosedChannel'_constructor {_PendingChannelsResponse'ClosedChannel'channel = Prelude.Nothing, _PendingChannelsResponse'ClosedChannel'closingTxid = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'ClosedChannel'_unknownFields = []} parseMessage = let loop :: PendingChannelsResponse'ClosedChannel -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsResponse'ClosedChannel loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channel") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "closing_txid" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closingTxid") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "ClosedChannel" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'channel") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closingTxid") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData PendingChannelsResponse'ClosedChannel where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsResponse'ClosedChannel'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ClosedChannel'channel x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ClosedChannel'closingTxid x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.localTxid' @:: Lens' PendingChannelsResponse'Commitments Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.remoteTxid' @:: Lens' PendingChannelsResponse'Commitments Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.remotePendingTxid' @:: Lens' PendingChannelsResponse'Commitments Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.localCommitFeeSat' @:: Lens' PendingChannelsResponse'Commitments Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.remoteCommitFeeSat' @:: Lens' PendingChannelsResponse'Commitments Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.remotePendingCommitFeeSat' @:: Lens' PendingChannelsResponse'Commitments Data.Word.Word64@ -} data PendingChannelsResponse'Commitments = PendingChannelsResponse'Commitments'_constructor {_PendingChannelsResponse'Commitments'localTxid :: !Data.Text.Text, _PendingChannelsResponse'Commitments'remoteTxid :: !Data.Text.Text, _PendingChannelsResponse'Commitments'remotePendingTxid :: !Data.Text.Text, _PendingChannelsResponse'Commitments'localCommitFeeSat :: !Data.Word.Word64, _PendingChannelsResponse'Commitments'remoteCommitFeeSat :: !Data.Word.Word64, _PendingChannelsResponse'Commitments'remotePendingCommitFeeSat :: !Data.Word.Word64, _PendingChannelsResponse'Commitments'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsResponse'Commitments where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'Commitments instance Data.ProtoLens.Field.HasField PendingChannelsResponse'Commitments "localTxid" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'Commitments'localTxid (\ x__ y__ -> x__ {_PendingChannelsResponse'Commitments'localTxid = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'Commitments "remoteTxid" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'Commitments'remoteTxid (\ x__ y__ -> x__ {_PendingChannelsResponse'Commitments'remoteTxid = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'Commitments "remotePendingTxid" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'Commitments'remotePendingTxid (\ x__ y__ -> x__ {_PendingChannelsResponse'Commitments'remotePendingTxid = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'Commitments "localCommitFeeSat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'Commitments'localCommitFeeSat (\ x__ y__ -> x__ {_PendingChannelsResponse'Commitments'localCommitFeeSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'Commitments "remoteCommitFeeSat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'Commitments'remoteCommitFeeSat (\ x__ y__ -> x__ {_PendingChannelsResponse'Commitments'remoteCommitFeeSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'Commitments "remotePendingCommitFeeSat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'Commitments'remotePendingCommitFeeSat (\ x__ y__ -> x__ {_PendingChannelsResponse'Commitments'remotePendingCommitFeeSat = y__})) Prelude.id instance Data.ProtoLens.Message PendingChannelsResponse'Commitments where messageName _ = Data.Text.pack "lnrpc.PendingChannelsResponse.Commitments" packedMessageDescriptor _ = "\n\ \\vCommitments\DC2\GS\n\ \\n\ \local_txid\CAN\SOH \SOH(\tR\tlocalTxid\DC2\US\n\ \\vremote_txid\CAN\STX \SOH(\tR\n\ \remoteTxid\DC2.\n\ \\DC3remote_pending_txid\CAN\ETX \SOH(\tR\DC1remotePendingTxid\DC2/\n\ \\DC4local_commit_fee_sat\CAN\EOT \SOH(\EOTR\DC1localCommitFeeSat\DC21\n\ \\NAKremote_commit_fee_sat\CAN\ENQ \SOH(\EOTR\DC2remoteCommitFeeSat\DC2@\n\ \\GSremote_pending_commit_fee_sat\CAN\ACK \SOH(\EOTR\EMremotePendingCommitFeeSat" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let localTxid__field_descriptor = Data.ProtoLens.FieldDescriptor "local_txid" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"localTxid")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'Commitments remoteTxid__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_txid" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteTxid")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'Commitments remotePendingTxid__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_pending_txid" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remotePendingTxid")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'Commitments localCommitFeeSat__field_descriptor = Data.ProtoLens.FieldDescriptor "local_commit_fee_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"localCommitFeeSat")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'Commitments remoteCommitFeeSat__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_commit_fee_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteCommitFeeSat")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'Commitments remotePendingCommitFeeSat__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_pending_commit_fee_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remotePendingCommitFeeSat")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'Commitments in Data.Map.fromList [(Data.ProtoLens.Tag 1, localTxid__field_descriptor), (Data.ProtoLens.Tag 2, remoteTxid__field_descriptor), (Data.ProtoLens.Tag 3, remotePendingTxid__field_descriptor), (Data.ProtoLens.Tag 4, localCommitFeeSat__field_descriptor), (Data.ProtoLens.Tag 5, remoteCommitFeeSat__field_descriptor), (Data.ProtoLens.Tag 6, remotePendingCommitFeeSat__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsResponse'Commitments'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsResponse'Commitments'_unknownFields = y__}) defMessage = PendingChannelsResponse'Commitments'_constructor {_PendingChannelsResponse'Commitments'localTxid = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'Commitments'remoteTxid = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'Commitments'remotePendingTxid = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'Commitments'localCommitFeeSat = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'Commitments'remoteCommitFeeSat = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'Commitments'remotePendingCommitFeeSat = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'Commitments'_unknownFields = []} parseMessage = let loop :: PendingChannelsResponse'Commitments -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsResponse'Commitments loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "local_txid" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localTxid") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "remote_txid" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteTxid") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "remote_pending_txid" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remotePendingTxid") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "local_commit_fee_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localCommitFeeSat") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "remote_commit_fee_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteCommitFeeSat") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "remote_pending_commit_fee_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remotePendingCommitFeeSat") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Commitments" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"localTxid") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteTxid") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remotePendingTxid") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"localCommitFeeSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteCommitFeeSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remotePendingCommitFeeSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData PendingChannelsResponse'Commitments where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsResponse'Commitments'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'Commitments'localTxid x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'Commitments'remoteTxid x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'Commitments'remotePendingTxid x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'Commitments'localCommitFeeSat x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'Commitments'remoteCommitFeeSat x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'Commitments'remotePendingCommitFeeSat x__) ())))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.channel' @:: Lens' PendingChannelsResponse'ForceClosedChannel PendingChannelsResponse'PendingChannel@ * 'Proto.Lnrpc.Ln0_Fields.maybe'channel' @:: Lens' PendingChannelsResponse'ForceClosedChannel (Prelude.Maybe PendingChannelsResponse'PendingChannel)@ * 'Proto.Lnrpc.Ln0_Fields.closingTxid' @:: Lens' PendingChannelsResponse'ForceClosedChannel Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.limboBalance' @:: Lens' PendingChannelsResponse'ForceClosedChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.maturityHeight' @:: Lens' PendingChannelsResponse'ForceClosedChannel Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.blocksTilMaturity' @:: Lens' PendingChannelsResponse'ForceClosedChannel Data.Int.Int32@ * 'Proto.Lnrpc.Ln0_Fields.recoveredBalance' @:: Lens' PendingChannelsResponse'ForceClosedChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.pendingHtlcs' @:: Lens' PendingChannelsResponse'ForceClosedChannel [PendingHTLC]@ * 'Proto.Lnrpc.Ln0_Fields.vec'pendingHtlcs' @:: Lens' PendingChannelsResponse'ForceClosedChannel (Data.Vector.Vector PendingHTLC)@ * 'Proto.Lnrpc.Ln0_Fields.anchor' @:: Lens' PendingChannelsResponse'ForceClosedChannel PendingChannelsResponse'ForceClosedChannel'AnchorState@ -} data PendingChannelsResponse'ForceClosedChannel = PendingChannelsResponse'ForceClosedChannel'_constructor {_PendingChannelsResponse'ForceClosedChannel'channel :: !(Prelude.Maybe PendingChannelsResponse'PendingChannel), _PendingChannelsResponse'ForceClosedChannel'closingTxid :: !Data.Text.Text, _PendingChannelsResponse'ForceClosedChannel'limboBalance :: !Data.Int.Int64, _PendingChannelsResponse'ForceClosedChannel'maturityHeight :: !Data.Word.Word32, _PendingChannelsResponse'ForceClosedChannel'blocksTilMaturity :: !Data.Int.Int32, _PendingChannelsResponse'ForceClosedChannel'recoveredBalance :: !Data.Int.Int64, _PendingChannelsResponse'ForceClosedChannel'pendingHtlcs :: !(Data.Vector.Vector PendingHTLC), _PendingChannelsResponse'ForceClosedChannel'anchor :: !PendingChannelsResponse'ForceClosedChannel'AnchorState, _PendingChannelsResponse'ForceClosedChannel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsResponse'ForceClosedChannel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'ForceClosedChannel instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "channel" PendingChannelsResponse'PendingChannel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'channel = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "maybe'channel" (Prelude.Maybe PendingChannelsResponse'PendingChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'channel = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "closingTxid" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'closingTxid (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'closingTxid = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "limboBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'limboBalance (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'limboBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "maturityHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'maturityHeight (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'maturityHeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "blocksTilMaturity" Data.Int.Int32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'blocksTilMaturity (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'blocksTilMaturity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "recoveredBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'recoveredBalance (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'recoveredBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "pendingHtlcs" [PendingHTLC] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'pendingHtlcs (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'pendingHtlcs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "vec'pendingHtlcs" (Data.Vector.Vector PendingHTLC) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'pendingHtlcs (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'pendingHtlcs = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'ForceClosedChannel "anchor" PendingChannelsResponse'ForceClosedChannel'AnchorState where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'anchor (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'anchor = y__})) Prelude.id instance Data.ProtoLens.Message PendingChannelsResponse'ForceClosedChannel where messageName _ = Data.Text.pack "lnrpc.PendingChannelsResponse.ForceClosedChannel" packedMessageDescriptor _ = "\n\ \\DC2ForceClosedChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2!\n\ \\fclosing_txid\CAN\STX \SOH(\tR\vclosingTxid\DC2#\n\ \\rlimbo_balance\CAN\ETX \SOH(\ETXR\flimboBalance\DC2'\n\ \\SImaturity_height\CAN\EOT \SOH(\rR\SOmaturityHeight\DC2.\n\ \\DC3blocks_til_maturity\CAN\ENQ \SOH(\ENQR\DC1blocksTilMaturity\DC2+\n\ \\DC1recovered_balance\CAN\ACK \SOH(\ETXR\DLErecoveredBalance\DC27\n\ \\rpending_htlcs\CAN\b \ETX(\v2\DC2.lnrpc.PendingHTLCR\fpendingHtlcs\DC2U\n\ \\ACKanchor\CAN\t \SOH(\SO2=.lnrpc.PendingChannelsResponse.ForceClosedChannel.AnchorStateR\ACKanchor\"1\n\ \\vAnchorState\DC2\t\n\ \\ENQLIMBO\DLE\NUL\DC2\r\n\ \\tRECOVERED\DLE\SOH\DC2\b\n\ \\EOTLOST\DLE\STX" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let channel__field_descriptor = Data.ProtoLens.FieldDescriptor "channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'PendingChannel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'channel")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel closingTxid__field_descriptor = Data.ProtoLens.FieldDescriptor "closing_txid" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"closingTxid")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel limboBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "limbo_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"limboBalance")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel maturityHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "maturity_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maturityHeight")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel blocksTilMaturity__field_descriptor = Data.ProtoLens.FieldDescriptor "blocks_til_maturity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"blocksTilMaturity")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel recoveredBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "recovered_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"recoveredBalance")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel pendingHtlcs__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_htlcs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingHTLC) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"pendingHtlcs")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel anchor__field_descriptor = Data.ProtoLens.FieldDescriptor "anchor" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'ForceClosedChannel'AnchorState) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"anchor")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'ForceClosedChannel in Data.Map.fromList [(Data.ProtoLens.Tag 1, channel__field_descriptor), (Data.ProtoLens.Tag 2, closingTxid__field_descriptor), (Data.ProtoLens.Tag 3, limboBalance__field_descriptor), (Data.ProtoLens.Tag 4, maturityHeight__field_descriptor), (Data.ProtoLens.Tag 5, blocksTilMaturity__field_descriptor), (Data.ProtoLens.Tag 6, recoveredBalance__field_descriptor), (Data.ProtoLens.Tag 8, pendingHtlcs__field_descriptor), (Data.ProtoLens.Tag 9, anchor__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsResponse'ForceClosedChannel'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsResponse'ForceClosedChannel'_unknownFields = y__}) defMessage = PendingChannelsResponse'ForceClosedChannel'_constructor {_PendingChannelsResponse'ForceClosedChannel'channel = Prelude.Nothing, _PendingChannelsResponse'ForceClosedChannel'closingTxid = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'ForceClosedChannel'limboBalance = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'ForceClosedChannel'maturityHeight = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'ForceClosedChannel'blocksTilMaturity = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'ForceClosedChannel'recoveredBalance = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'ForceClosedChannel'pendingHtlcs = Data.Vector.Generic.empty, _PendingChannelsResponse'ForceClosedChannel'anchor = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'ForceClosedChannel'_unknownFields = []} parseMessage = let loop :: PendingChannelsResponse'ForceClosedChannel -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PendingHTLC -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsResponse'ForceClosedChannel loop x mutable'pendingHtlcs = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'pendingHtlcs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'pendingHtlcs) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'pendingHtlcs") frozen'pendingHtlcs x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channel") y x) mutable'pendingHtlcs 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "closing_txid" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"closingTxid") y x) mutable'pendingHtlcs 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "limbo_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"limboBalance") y x) mutable'pendingHtlcs 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "maturity_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maturityHeight") y x) mutable'pendingHtlcs 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "blocks_til_maturity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"blocksTilMaturity") y x) mutable'pendingHtlcs 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "recovered_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"recoveredBalance") y x) mutable'pendingHtlcs 66 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pending_htlcs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'pendingHtlcs y) loop x v 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "anchor" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"anchor") y x) mutable'pendingHtlcs wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'pendingHtlcs in (Data.ProtoLens.Encoding.Bytes.) (do mutable'pendingHtlcs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'pendingHtlcs) "ForceClosedChannel" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'channel") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"closingTxid") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"limboBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maturityHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"blocksTilMaturity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"recoveredBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 66) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'pendingHtlcs") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"anchor") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))) instance Control.DeepSeq.NFData PendingChannelsResponse'ForceClosedChannel where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'channel x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'closingTxid x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'limboBalance x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'maturityHeight x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'blocksTilMaturity x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'recoveredBalance x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'pendingHtlcs x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'ForceClosedChannel'anchor x__) ())))))))) newtype PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue = PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue data PendingChannelsResponse'ForceClosedChannel'AnchorState = PendingChannelsResponse'ForceClosedChannel'LIMBO | PendingChannelsResponse'ForceClosedChannel'RECOVERED | PendingChannelsResponse'ForceClosedChannel'LOST | PendingChannelsResponse'ForceClosedChannel'AnchorState'Unrecognized !PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum PendingChannelsResponse'ForceClosedChannel'AnchorState where maybeToEnum 0 = Prelude.Just PendingChannelsResponse'ForceClosedChannel'LIMBO maybeToEnum 1 = Prelude.Just PendingChannelsResponse'ForceClosedChannel'RECOVERED maybeToEnum 2 = Prelude.Just PendingChannelsResponse'ForceClosedChannel'LOST maybeToEnum k = Prelude.Just (PendingChannelsResponse'ForceClosedChannel'AnchorState'Unrecognized (PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue (Prelude.fromIntegral k))) showEnum PendingChannelsResponse'ForceClosedChannel'LIMBO = "LIMBO" showEnum PendingChannelsResponse'ForceClosedChannel'RECOVERED = "RECOVERED" showEnum PendingChannelsResponse'ForceClosedChannel'LOST = "LOST" showEnum (PendingChannelsResponse'ForceClosedChannel'AnchorState'Unrecognized (PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "LIMBO" = Prelude.Just PendingChannelsResponse'ForceClosedChannel'LIMBO | (Prelude.==) k "RECOVERED" = Prelude.Just PendingChannelsResponse'ForceClosedChannel'RECOVERED | (Prelude.==) k "LOST" = Prelude.Just PendingChannelsResponse'ForceClosedChannel'LOST | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded PendingChannelsResponse'ForceClosedChannel'AnchorState where minBound = PendingChannelsResponse'ForceClosedChannel'LIMBO maxBound = PendingChannelsResponse'ForceClosedChannel'LOST instance Prelude.Enum PendingChannelsResponse'ForceClosedChannel'AnchorState where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum AnchorState: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum PendingChannelsResponse'ForceClosedChannel'LIMBO = 0 fromEnum PendingChannelsResponse'ForceClosedChannel'RECOVERED = 1 fromEnum PendingChannelsResponse'ForceClosedChannel'LOST = 2 fromEnum (PendingChannelsResponse'ForceClosedChannel'AnchorState'Unrecognized (PendingChannelsResponse'ForceClosedChannel'AnchorState'UnrecognizedValue k)) = Prelude.fromIntegral k succ PendingChannelsResponse'ForceClosedChannel'LOST = Prelude.error "PendingChannelsResponse'ForceClosedChannel'AnchorState.succ: bad argument PendingChannelsResponse'ForceClosedChannel'LOST. This value would be out of bounds." succ PendingChannelsResponse'ForceClosedChannel'LIMBO = PendingChannelsResponse'ForceClosedChannel'RECOVERED succ PendingChannelsResponse'ForceClosedChannel'RECOVERED = PendingChannelsResponse'ForceClosedChannel'LOST succ (PendingChannelsResponse'ForceClosedChannel'AnchorState'Unrecognized _) = Prelude.error "PendingChannelsResponse'ForceClosedChannel'AnchorState.succ: bad argument: unrecognized value" pred PendingChannelsResponse'ForceClosedChannel'LIMBO = Prelude.error "PendingChannelsResponse'ForceClosedChannel'AnchorState.pred: bad argument PendingChannelsResponse'ForceClosedChannel'LIMBO. This value would be out of bounds." pred PendingChannelsResponse'ForceClosedChannel'RECOVERED = PendingChannelsResponse'ForceClosedChannel'LIMBO pred PendingChannelsResponse'ForceClosedChannel'LOST = PendingChannelsResponse'ForceClosedChannel'RECOVERED pred (PendingChannelsResponse'ForceClosedChannel'AnchorState'Unrecognized _) = Prelude.error "PendingChannelsResponse'ForceClosedChannel'AnchorState.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault PendingChannelsResponse'ForceClosedChannel'AnchorState where fieldDefault = PendingChannelsResponse'ForceClosedChannel'LIMBO instance Control.DeepSeq.NFData PendingChannelsResponse'ForceClosedChannel'AnchorState where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'ForceClosedChannel'AnchorState {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.remoteNodePub' @:: Lens' PendingChannelsResponse'PendingChannel Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.channelPoint' @:: Lens' PendingChannelsResponse'PendingChannel Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.capacity' @:: Lens' PendingChannelsResponse'PendingChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.localBalance' @:: Lens' PendingChannelsResponse'PendingChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.remoteBalance' @:: Lens' PendingChannelsResponse'PendingChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.localChanReserveSat' @:: Lens' PendingChannelsResponse'PendingChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.remoteChanReserveSat' @:: Lens' PendingChannelsResponse'PendingChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.initiator' @:: Lens' PendingChannelsResponse'PendingChannel Initiator@ * 'Proto.Lnrpc.Ln0_Fields.commitmentType' @:: Lens' PendingChannelsResponse'PendingChannel CommitmentType@ * 'Proto.Lnrpc.Ln0_Fields.numForwardingPackages' @:: Lens' PendingChannelsResponse'PendingChannel Data.Int.Int64@ -} data PendingChannelsResponse'PendingChannel = PendingChannelsResponse'PendingChannel'_constructor {_PendingChannelsResponse'PendingChannel'remoteNodePub :: !Data.Text.Text, _PendingChannelsResponse'PendingChannel'channelPoint :: !Data.Text.Text, _PendingChannelsResponse'PendingChannel'capacity :: !Data.Int.Int64, _PendingChannelsResponse'PendingChannel'localBalance :: !Data.Int.Int64, _PendingChannelsResponse'PendingChannel'remoteBalance :: !Data.Int.Int64, _PendingChannelsResponse'PendingChannel'localChanReserveSat :: !Data.Int.Int64, _PendingChannelsResponse'PendingChannel'remoteChanReserveSat :: !Data.Int.Int64, _PendingChannelsResponse'PendingChannel'initiator :: !Initiator, _PendingChannelsResponse'PendingChannel'commitmentType :: !CommitmentType, _PendingChannelsResponse'PendingChannel'numForwardingPackages :: !Data.Int.Int64, _PendingChannelsResponse'PendingChannel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsResponse'PendingChannel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'PendingChannel instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "remoteNodePub" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'remoteNodePub (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'remoteNodePub = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "channelPoint" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'channelPoint (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'channelPoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "capacity" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'capacity (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'capacity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "localBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'localBalance (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'localBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "remoteBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'remoteBalance (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'remoteBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "localChanReserveSat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'localChanReserveSat (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'localChanReserveSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "remoteChanReserveSat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'remoteChanReserveSat (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'remoteChanReserveSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "initiator" Initiator where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'initiator (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'initiator = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "commitmentType" CommitmentType where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'commitmentType (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'commitmentType = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingChannel "numForwardingPackages" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'numForwardingPackages (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'numForwardingPackages = y__})) Prelude.id instance Data.ProtoLens.Message PendingChannelsResponse'PendingChannel where messageName _ = Data.Text.pack "lnrpc.PendingChannelsResponse.PendingChannel" packedMessageDescriptor _ = "\n\ \\SOPendingChannel\DC2&\n\ \\SIremote_node_pub\CAN\SOH \SOH(\tR\rremoteNodePub\DC2#\n\ \\rchannel_point\CAN\STX \SOH(\tR\fchannelPoint\DC2\SUB\n\ \\bcapacity\CAN\ETX \SOH(\ETXR\bcapacity\DC2#\n\ \\rlocal_balance\CAN\EOT \SOH(\ETXR\flocalBalance\DC2%\n\ \\SOremote_balance\CAN\ENQ \SOH(\ETXR\rremoteBalance\DC23\n\ \\SYNlocal_chan_reserve_sat\CAN\ACK \SOH(\ETXR\DC3localChanReserveSat\DC25\n\ \\ETBremote_chan_reserve_sat\CAN\a \SOH(\ETXR\DC4remoteChanReserveSat\DC2.\n\ \\tinitiator\CAN\b \SOH(\SO2\DLE.lnrpc.InitiatorR\tinitiator\DC2>\n\ \\SIcommitment_type\CAN\t \SOH(\SO2\NAK.lnrpc.CommitmentTypeR\SOcommitmentType\DC26\n\ \\ETBnum_forwarding_packages\CAN\n\ \ \SOH(\ETXR\NAKnumForwardingPackages" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let remoteNodePub__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_node_pub" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteNodePub")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel channelPoint__field_descriptor = Data.ProtoLens.FieldDescriptor "channel_point" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"channelPoint")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel capacity__field_descriptor = Data.ProtoLens.FieldDescriptor "capacity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"capacity")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel localBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "local_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"localBalance")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel remoteBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteBalance")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel localChanReserveSat__field_descriptor = Data.ProtoLens.FieldDescriptor "local_chan_reserve_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"localChanReserveSat")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel remoteChanReserveSat__field_descriptor = Data.ProtoLens.FieldDescriptor "remote_chan_reserve_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"remoteChanReserveSat")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel initiator__field_descriptor = Data.ProtoLens.FieldDescriptor "initiator" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor Initiator) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"initiator")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel commitmentType__field_descriptor = Data.ProtoLens.FieldDescriptor "commitment_type" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor CommitmentType) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"commitmentType")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel numForwardingPackages__field_descriptor = Data.ProtoLens.FieldDescriptor "num_forwarding_packages" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"numForwardingPackages")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingChannel in Data.Map.fromList [(Data.ProtoLens.Tag 1, remoteNodePub__field_descriptor), (Data.ProtoLens.Tag 2, channelPoint__field_descriptor), (Data.ProtoLens.Tag 3, capacity__field_descriptor), (Data.ProtoLens.Tag 4, localBalance__field_descriptor), (Data.ProtoLens.Tag 5, remoteBalance__field_descriptor), (Data.ProtoLens.Tag 6, localChanReserveSat__field_descriptor), (Data.ProtoLens.Tag 7, remoteChanReserveSat__field_descriptor), (Data.ProtoLens.Tag 8, initiator__field_descriptor), (Data.ProtoLens.Tag 9, commitmentType__field_descriptor), (Data.ProtoLens.Tag 10, numForwardingPackages__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingChannel'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingChannel'_unknownFields = y__}) defMessage = PendingChannelsResponse'PendingChannel'_constructor {_PendingChannelsResponse'PendingChannel'remoteNodePub = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'channelPoint = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'capacity = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'localBalance = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'remoteBalance = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'localChanReserveSat = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'remoteChanReserveSat = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'initiator = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'commitmentType = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'numForwardingPackages = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingChannel'_unknownFields = []} parseMessage = let loop :: PendingChannelsResponse'PendingChannel -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsResponse'PendingChannel loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "remote_node_pub" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteNodePub") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "channel_point" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channelPoint") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "capacity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"capacity") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "local_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localBalance") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "remote_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteBalance") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "local_chan_reserve_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"localChanReserveSat") y x) 56 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "remote_chan_reserve_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"remoteChanReserveSat") y x) 64 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "initiator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"initiator") y x) 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "commitment_type" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"commitmentType") y x) 80 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "num_forwarding_packages" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"numForwardingPackages") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "PendingChannel" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteNodePub") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"channelPoint") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"capacity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"localBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"localChanReserveSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"remoteChanReserveSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 56) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"initiator") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 64) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"commitmentType") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"numForwardingPackages") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 80) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))))) instance Control.DeepSeq.NFData PendingChannelsResponse'PendingChannel where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'remoteNodePub x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'channelPoint x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'capacity x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'localBalance x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'remoteBalance x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'localChanReserveSat x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'remoteChanReserveSat x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'initiator x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'commitmentType x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingChannel'numForwardingPackages x__) ())))))))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.channel' @:: Lens' PendingChannelsResponse'PendingOpenChannel PendingChannelsResponse'PendingChannel@ * 'Proto.Lnrpc.Ln0_Fields.maybe'channel' @:: Lens' PendingChannelsResponse'PendingOpenChannel (Prelude.Maybe PendingChannelsResponse'PendingChannel)@ * 'Proto.Lnrpc.Ln0_Fields.confirmationHeight' @:: Lens' PendingChannelsResponse'PendingOpenChannel Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.commitFee' @:: Lens' PendingChannelsResponse'PendingOpenChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.commitWeight' @:: Lens' PendingChannelsResponse'PendingOpenChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.feePerKw' @:: Lens' PendingChannelsResponse'PendingOpenChannel Data.Int.Int64@ -} data PendingChannelsResponse'PendingOpenChannel = PendingChannelsResponse'PendingOpenChannel'_constructor {_PendingChannelsResponse'PendingOpenChannel'channel :: !(Prelude.Maybe PendingChannelsResponse'PendingChannel), _PendingChannelsResponse'PendingOpenChannel'confirmationHeight :: !Data.Word.Word32, _PendingChannelsResponse'PendingOpenChannel'commitFee :: !Data.Int.Int64, _PendingChannelsResponse'PendingOpenChannel'commitWeight :: !Data.Int.Int64, _PendingChannelsResponse'PendingOpenChannel'feePerKw :: !Data.Int.Int64, _PendingChannelsResponse'PendingOpenChannel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsResponse'PendingOpenChannel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'PendingOpenChannel instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingOpenChannel "channel" PendingChannelsResponse'PendingChannel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingOpenChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingOpenChannel'channel = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingOpenChannel "maybe'channel" (Prelude.Maybe PendingChannelsResponse'PendingChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingOpenChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingOpenChannel'channel = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingOpenChannel "confirmationHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingOpenChannel'confirmationHeight (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingOpenChannel'confirmationHeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingOpenChannel "commitFee" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingOpenChannel'commitFee (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingOpenChannel'commitFee = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingOpenChannel "commitWeight" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingOpenChannel'commitWeight (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingOpenChannel'commitWeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'PendingOpenChannel "feePerKw" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingOpenChannel'feePerKw (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingOpenChannel'feePerKw = y__})) Prelude.id instance Data.ProtoLens.Message PendingChannelsResponse'PendingOpenChannel where messageName _ = Data.Text.pack "lnrpc.PendingChannelsResponse.PendingOpenChannel" packedMessageDescriptor _ = "\n\ \\DC2PendingOpenChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2/\n\ \\DC3confirmation_height\CAN\STX \SOH(\rR\DC2confirmationHeight\DC2\GS\n\ \\n\ \commit_fee\CAN\EOT \SOH(\ETXR\tcommitFee\DC2#\n\ \\rcommit_weight\CAN\ENQ \SOH(\ETXR\fcommitWeight\DC2\FS\n\ \\n\ \fee_per_kw\CAN\ACK \SOH(\ETXR\bfeePerKw" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let channel__field_descriptor = Data.ProtoLens.FieldDescriptor "channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'PendingChannel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'channel")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingOpenChannel confirmationHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "confirmation_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"confirmationHeight")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingOpenChannel commitFee__field_descriptor = Data.ProtoLens.FieldDescriptor "commit_fee" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"commitFee")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingOpenChannel commitWeight__field_descriptor = Data.ProtoLens.FieldDescriptor "commit_weight" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"commitWeight")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingOpenChannel feePerKw__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_per_kw" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"feePerKw")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'PendingOpenChannel in Data.Map.fromList [(Data.ProtoLens.Tag 1, channel__field_descriptor), (Data.ProtoLens.Tag 2, confirmationHeight__field_descriptor), (Data.ProtoLens.Tag 4, commitFee__field_descriptor), (Data.ProtoLens.Tag 5, commitWeight__field_descriptor), (Data.ProtoLens.Tag 6, feePerKw__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsResponse'PendingOpenChannel'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsResponse'PendingOpenChannel'_unknownFields = y__}) defMessage = PendingChannelsResponse'PendingOpenChannel'_constructor {_PendingChannelsResponse'PendingOpenChannel'channel = Prelude.Nothing, _PendingChannelsResponse'PendingOpenChannel'confirmationHeight = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingOpenChannel'commitFee = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingOpenChannel'commitWeight = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingOpenChannel'feePerKw = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'PendingOpenChannel'_unknownFields = []} parseMessage = let loop :: PendingChannelsResponse'PendingOpenChannel -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsResponse'PendingOpenChannel loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channel") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "confirmation_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"confirmationHeight") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "commit_fee" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"commitFee") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "commit_weight" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"commitWeight") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee_per_kw" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feePerKw") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "PendingOpenChannel" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'channel") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"confirmationHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"commitFee") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"commitWeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"feePerKw") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))) instance Control.DeepSeq.NFData PendingChannelsResponse'PendingOpenChannel where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingOpenChannel'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingOpenChannel'channel x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingOpenChannel'confirmationHeight x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingOpenChannel'commitFee x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingOpenChannel'commitWeight x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'PendingOpenChannel'feePerKw x__) ()))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.channel' @:: Lens' PendingChannelsResponse'WaitingCloseChannel PendingChannelsResponse'PendingChannel@ * 'Proto.Lnrpc.Ln0_Fields.maybe'channel' @:: Lens' PendingChannelsResponse'WaitingCloseChannel (Prelude.Maybe PendingChannelsResponse'PendingChannel)@ * 'Proto.Lnrpc.Ln0_Fields.limboBalance' @:: Lens' PendingChannelsResponse'WaitingCloseChannel Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.commitments' @:: Lens' PendingChannelsResponse'WaitingCloseChannel PendingChannelsResponse'Commitments@ * 'Proto.Lnrpc.Ln0_Fields.maybe'commitments' @:: Lens' PendingChannelsResponse'WaitingCloseChannel (Prelude.Maybe PendingChannelsResponse'Commitments)@ -} data PendingChannelsResponse'WaitingCloseChannel = PendingChannelsResponse'WaitingCloseChannel'_constructor {_PendingChannelsResponse'WaitingCloseChannel'channel :: !(Prelude.Maybe PendingChannelsResponse'PendingChannel), _PendingChannelsResponse'WaitingCloseChannel'limboBalance :: !Data.Int.Int64, _PendingChannelsResponse'WaitingCloseChannel'commitments :: !(Prelude.Maybe PendingChannelsResponse'Commitments), _PendingChannelsResponse'WaitingCloseChannel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingChannelsResponse'WaitingCloseChannel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingChannelsResponse'WaitingCloseChannel instance Data.ProtoLens.Field.HasField PendingChannelsResponse'WaitingCloseChannel "channel" PendingChannelsResponse'PendingChannel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'WaitingCloseChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'WaitingCloseChannel'channel = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PendingChannelsResponse'WaitingCloseChannel "maybe'channel" (Prelude.Maybe PendingChannelsResponse'PendingChannel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'WaitingCloseChannel'channel (\ x__ y__ -> x__ {_PendingChannelsResponse'WaitingCloseChannel'channel = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'WaitingCloseChannel "limboBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'WaitingCloseChannel'limboBalance (\ x__ y__ -> x__ {_PendingChannelsResponse'WaitingCloseChannel'limboBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingChannelsResponse'WaitingCloseChannel "commitments" PendingChannelsResponse'Commitments where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'WaitingCloseChannel'commitments (\ x__ y__ -> x__ {_PendingChannelsResponse'WaitingCloseChannel'commitments = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PendingChannelsResponse'WaitingCloseChannel "maybe'commitments" (Prelude.Maybe PendingChannelsResponse'Commitments) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingChannelsResponse'WaitingCloseChannel'commitments (\ x__ y__ -> x__ {_PendingChannelsResponse'WaitingCloseChannel'commitments = y__})) Prelude.id instance Data.ProtoLens.Message PendingChannelsResponse'WaitingCloseChannel where messageName _ = Data.Text.pack "lnrpc.PendingChannelsResponse.WaitingCloseChannel" packedMessageDescriptor _ = "\n\ \\DC3WaitingCloseChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2#\n\ \\rlimbo_balance\CAN\STX \SOH(\ETXR\flimboBalance\DC2L\n\ \\vcommitments\CAN\ETX \SOH(\v2*.lnrpc.PendingChannelsResponse.CommitmentsR\vcommitments" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let channel__field_descriptor = Data.ProtoLens.FieldDescriptor "channel" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'PendingChannel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'channel")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'WaitingCloseChannel limboBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "limbo_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"limboBalance")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'WaitingCloseChannel commitments__field_descriptor = Data.ProtoLens.FieldDescriptor "commitments" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PendingChannelsResponse'Commitments) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'commitments")) :: Data.ProtoLens.FieldDescriptor PendingChannelsResponse'WaitingCloseChannel in Data.Map.fromList [(Data.ProtoLens.Tag 1, channel__field_descriptor), (Data.ProtoLens.Tag 2, limboBalance__field_descriptor), (Data.ProtoLens.Tag 3, commitments__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingChannelsResponse'WaitingCloseChannel'_unknownFields (\ x__ y__ -> x__ {_PendingChannelsResponse'WaitingCloseChannel'_unknownFields = y__}) defMessage = PendingChannelsResponse'WaitingCloseChannel'_constructor {_PendingChannelsResponse'WaitingCloseChannel'channel = Prelude.Nothing, _PendingChannelsResponse'WaitingCloseChannel'limboBalance = Data.ProtoLens.fieldDefault, _PendingChannelsResponse'WaitingCloseChannel'commitments = Prelude.Nothing, _PendingChannelsResponse'WaitingCloseChannel'_unknownFields = []} parseMessage = let loop :: PendingChannelsResponse'WaitingCloseChannel -> Data.ProtoLens.Encoding.Bytes.Parser PendingChannelsResponse'WaitingCloseChannel loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "channel" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"channel") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "limbo_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"limboBalance") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "commitments" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"commitments") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "WaitingCloseChannel" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'channel") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"limboBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'commitments") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData PendingChannelsResponse'WaitingCloseChannel where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingChannelsResponse'WaitingCloseChannel'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'WaitingCloseChannel'channel x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'WaitingCloseChannel'limboBalance x__) (Control.DeepSeq.deepseq (_PendingChannelsResponse'WaitingCloseChannel'commitments x__) ()))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.incoming' @:: Lens' PendingHTLC Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.amount' @:: Lens' PendingHTLC Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.outpoint' @:: Lens' PendingHTLC Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.maturityHeight' @:: Lens' PendingHTLC Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.blocksTilMaturity' @:: Lens' PendingHTLC Data.Int.Int32@ * 'Proto.Lnrpc.Ln0_Fields.stage' @:: Lens' PendingHTLC Data.Word.Word32@ -} data PendingHTLC = PendingHTLC'_constructor {_PendingHTLC'incoming :: !Prelude.Bool, _PendingHTLC'amount :: !Data.Int.Int64, _PendingHTLC'outpoint :: !Data.Text.Text, _PendingHTLC'maturityHeight :: !Data.Word.Word32, _PendingHTLC'blocksTilMaturity :: !Data.Int.Int32, _PendingHTLC'stage :: !Data.Word.Word32, _PendingHTLC'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingHTLC where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingHTLC instance Data.ProtoLens.Field.HasField PendingHTLC "incoming" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingHTLC'incoming (\ x__ y__ -> x__ {_PendingHTLC'incoming = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingHTLC "amount" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingHTLC'amount (\ x__ y__ -> x__ {_PendingHTLC'amount = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingHTLC "outpoint" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingHTLC'outpoint (\ x__ y__ -> x__ {_PendingHTLC'outpoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingHTLC "maturityHeight" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingHTLC'maturityHeight (\ x__ y__ -> x__ {_PendingHTLC'maturityHeight = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingHTLC "blocksTilMaturity" Data.Int.Int32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingHTLC'blocksTilMaturity (\ x__ y__ -> x__ {_PendingHTLC'blocksTilMaturity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingHTLC "stage" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingHTLC'stage (\ x__ y__ -> x__ {_PendingHTLC'stage = y__})) Prelude.id instance Data.ProtoLens.Message PendingHTLC where messageName _ = Data.Text.pack "lnrpc.PendingHTLC" packedMessageDescriptor _ = "\n\ \\vPendingHTLC\DC2\SUB\n\ \\bincoming\CAN\SOH \SOH(\bR\bincoming\DC2\SYN\n\ \\ACKamount\CAN\STX \SOH(\ETXR\ACKamount\DC2\SUB\n\ \\boutpoint\CAN\ETX \SOH(\tR\boutpoint\DC2'\n\ \\SImaturity_height\CAN\EOT \SOH(\rR\SOmaturityHeight\DC2.\n\ \\DC3blocks_til_maturity\CAN\ENQ \SOH(\ENQR\DC1blocksTilMaturity\DC2\DC4\n\ \\ENQstage\CAN\ACK \SOH(\rR\ENQstage" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let incoming__field_descriptor = Data.ProtoLens.FieldDescriptor "incoming" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"incoming")) :: Data.ProtoLens.FieldDescriptor PendingHTLC amount__field_descriptor = Data.ProtoLens.FieldDescriptor "amount" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amount")) :: Data.ProtoLens.FieldDescriptor PendingHTLC outpoint__field_descriptor = Data.ProtoLens.FieldDescriptor "outpoint" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outpoint")) :: Data.ProtoLens.FieldDescriptor PendingHTLC maturityHeight__field_descriptor = Data.ProtoLens.FieldDescriptor "maturity_height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maturityHeight")) :: Data.ProtoLens.FieldDescriptor PendingHTLC blocksTilMaturity__field_descriptor = Data.ProtoLens.FieldDescriptor "blocks_til_maturity" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"blocksTilMaturity")) :: Data.ProtoLens.FieldDescriptor PendingHTLC stage__field_descriptor = Data.ProtoLens.FieldDescriptor "stage" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"stage")) :: Data.ProtoLens.FieldDescriptor PendingHTLC in Data.Map.fromList [(Data.ProtoLens.Tag 1, incoming__field_descriptor), (Data.ProtoLens.Tag 2, amount__field_descriptor), (Data.ProtoLens.Tag 3, outpoint__field_descriptor), (Data.ProtoLens.Tag 4, maturityHeight__field_descriptor), (Data.ProtoLens.Tag 5, blocksTilMaturity__field_descriptor), (Data.ProtoLens.Tag 6, stage__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingHTLC'_unknownFields (\ x__ y__ -> x__ {_PendingHTLC'_unknownFields = y__}) defMessage = PendingHTLC'_constructor {_PendingHTLC'incoming = Data.ProtoLens.fieldDefault, _PendingHTLC'amount = Data.ProtoLens.fieldDefault, _PendingHTLC'outpoint = Data.ProtoLens.fieldDefault, _PendingHTLC'maturityHeight = Data.ProtoLens.fieldDefault, _PendingHTLC'blocksTilMaturity = Data.ProtoLens.fieldDefault, _PendingHTLC'stage = Data.ProtoLens.fieldDefault, _PendingHTLC'_unknownFields = []} parseMessage = let loop :: PendingHTLC -> Data.ProtoLens.Encoding.Bytes.Parser PendingHTLC loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "incoming" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"incoming") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "amount" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amount") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "outpoint" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outpoint") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "maturity_height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maturityHeight") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "blocks_til_maturity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"blocksTilMaturity") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "stage" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"stage") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "PendingHTLC" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"incoming") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amount") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outpoint") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maturityHeight") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"blocksTilMaturity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"stage") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData PendingHTLC where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingHTLC'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingHTLC'incoming x__) (Control.DeepSeq.deepseq (_PendingHTLC'amount x__) (Control.DeepSeq.deepseq (_PendingHTLC'outpoint x__) (Control.DeepSeq.deepseq (_PendingHTLC'maturityHeight x__) (Control.DeepSeq.deepseq (_PendingHTLC'blocksTilMaturity x__) (Control.DeepSeq.deepseq (_PendingHTLC'stage x__) ())))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.txid' @:: Lens' PendingUpdate Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.outputIndex' @:: Lens' PendingUpdate Data.Word.Word32@ -} data PendingUpdate = PendingUpdate'_constructor {_PendingUpdate'txid :: !Data.ByteString.ByteString, _PendingUpdate'outputIndex :: !Data.Word.Word32, _PendingUpdate'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PendingUpdate where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PendingUpdate instance Data.ProtoLens.Field.HasField PendingUpdate "txid" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingUpdate'txid (\ x__ y__ -> x__ {_PendingUpdate'txid = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PendingUpdate "outputIndex" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PendingUpdate'outputIndex (\ x__ y__ -> x__ {_PendingUpdate'outputIndex = y__})) Prelude.id instance Data.ProtoLens.Message PendingUpdate where messageName _ = Data.Text.pack "lnrpc.PendingUpdate" packedMessageDescriptor _ = "\n\ \\rPendingUpdate\DC2\DC2\n\ \\EOTtxid\CAN\SOH \SOH(\fR\EOTtxid\DC2!\n\ \\foutput_index\CAN\STX \SOH(\rR\voutputIndex" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let txid__field_descriptor = Data.ProtoLens.FieldDescriptor "txid" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"txid")) :: Data.ProtoLens.FieldDescriptor PendingUpdate outputIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "output_index" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outputIndex")) :: Data.ProtoLens.FieldDescriptor PendingUpdate in Data.Map.fromList [(Data.ProtoLens.Tag 1, txid__field_descriptor), (Data.ProtoLens.Tag 2, outputIndex__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PendingUpdate'_unknownFields (\ x__ y__ -> x__ {_PendingUpdate'_unknownFields = y__}) defMessage = PendingUpdate'_constructor {_PendingUpdate'txid = Data.ProtoLens.fieldDefault, _PendingUpdate'outputIndex = Data.ProtoLens.fieldDefault, _PendingUpdate'_unknownFields = []} parseMessage = let loop :: PendingUpdate -> Data.ProtoLens.Encoding.Bytes.Parser PendingUpdate loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "txid" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"txid") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "output_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outputIndex") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "PendingUpdate" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"txid") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outputIndex") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData PendingUpdate where rnf = \ x__ -> Control.DeepSeq.deepseq (_PendingUpdate'_unknownFields x__) (Control.DeepSeq.deepseq (_PendingUpdate'txid x__) (Control.DeepSeq.deepseq (_PendingUpdate'outputIndex x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.pendingChanId' @:: Lens' PsbtShim Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.basePsbt' @:: Lens' PsbtShim Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.noPublish' @:: Lens' PsbtShim Prelude.Bool@ -} data PsbtShim = PsbtShim'_constructor {_PsbtShim'pendingChanId :: !Data.ByteString.ByteString, _PsbtShim'basePsbt :: !Data.ByteString.ByteString, _PsbtShim'noPublish :: !Prelude.Bool, _PsbtShim'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show PsbtShim where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out PsbtShim instance Data.ProtoLens.Field.HasField PsbtShim "pendingChanId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PsbtShim'pendingChanId (\ x__ y__ -> x__ {_PsbtShim'pendingChanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PsbtShim "basePsbt" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PsbtShim'basePsbt (\ x__ y__ -> x__ {_PsbtShim'basePsbt = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PsbtShim "noPublish" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PsbtShim'noPublish (\ x__ y__ -> x__ {_PsbtShim'noPublish = y__})) Prelude.id instance Data.ProtoLens.Message PsbtShim where messageName _ = Data.Text.pack "lnrpc.PsbtShim" packedMessageDescriptor _ = "\n\ \\bPsbtShim\DC2&\n\ \\SIpending_chan_id\CAN\SOH \SOH(\fR\rpendingChanId\DC2\ESC\n\ \\tbase_psbt\CAN\STX \SOH(\fR\bbasePsbt\DC2\GS\n\ \\n\ \no_publish\CAN\ETX \SOH(\bR\tnoPublish" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let pendingChanId__field_descriptor = Data.ProtoLens.FieldDescriptor "pending_chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pendingChanId")) :: Data.ProtoLens.FieldDescriptor PsbtShim basePsbt__field_descriptor = Data.ProtoLens.FieldDescriptor "base_psbt" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"basePsbt")) :: Data.ProtoLens.FieldDescriptor PsbtShim noPublish__field_descriptor = Data.ProtoLens.FieldDescriptor "no_publish" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"noPublish")) :: Data.ProtoLens.FieldDescriptor PsbtShim in Data.Map.fromList [(Data.ProtoLens.Tag 1, pendingChanId__field_descriptor), (Data.ProtoLens.Tag 2, basePsbt__field_descriptor), (Data.ProtoLens.Tag 3, noPublish__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PsbtShim'_unknownFields (\ x__ y__ -> x__ {_PsbtShim'_unknownFields = y__}) defMessage = PsbtShim'_constructor {_PsbtShim'pendingChanId = Data.ProtoLens.fieldDefault, _PsbtShim'basePsbt = Data.ProtoLens.fieldDefault, _PsbtShim'noPublish = Data.ProtoLens.fieldDefault, _PsbtShim'_unknownFields = []} parseMessage = let loop :: PsbtShim -> Data.ProtoLens.Encoding.Bytes.Parser PsbtShim loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pending_chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pendingChanId") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "base_psbt" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"basePsbt") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "no_publish" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"noPublish") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "PsbtShim" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pendingChanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"basePsbt") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"noPublish") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData PsbtShim where rnf = \ x__ -> Control.DeepSeq.deepseq (_PsbtShim'_unknownFields x__) (Control.DeepSeq.deepseq (_PsbtShim'pendingChanId x__) (Control.DeepSeq.deepseq (_PsbtShim'basePsbt x__) (Control.DeepSeq.deepseq (_PsbtShim'noPublish x__) ()))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.pubKey' @:: Lens' QueryRoutesRequest Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.amt' @:: Lens' QueryRoutesRequest Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.amtMsat' @:: Lens' QueryRoutesRequest Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.finalCltvDelta' @:: Lens' QueryRoutesRequest Data.Int.Int32@ * 'Proto.Lnrpc.Ln0_Fields.feeLimit' @:: Lens' QueryRoutesRequest FeeLimit@ * 'Proto.Lnrpc.Ln0_Fields.maybe'feeLimit' @:: Lens' QueryRoutesRequest (Prelude.Maybe FeeLimit)@ * 'Proto.Lnrpc.Ln0_Fields.ignoredNodes' @:: Lens' QueryRoutesRequest [Data.ByteString.ByteString]@ * 'Proto.Lnrpc.Ln0_Fields.vec'ignoredNodes' @:: Lens' QueryRoutesRequest (Data.Vector.Vector Data.ByteString.ByteString)@ * 'Proto.Lnrpc.Ln0_Fields.ignoredEdges' @:: Lens' QueryRoutesRequest [EdgeLocator]@ * 'Proto.Lnrpc.Ln0_Fields.vec'ignoredEdges' @:: Lens' QueryRoutesRequest (Data.Vector.Vector EdgeLocator)@ * 'Proto.Lnrpc.Ln0_Fields.sourcePubKey' @:: Lens' QueryRoutesRequest Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.useMissionControl' @:: Lens' QueryRoutesRequest Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.ignoredPairs' @:: Lens' QueryRoutesRequest [NodePair]@ * 'Proto.Lnrpc.Ln0_Fields.vec'ignoredPairs' @:: Lens' QueryRoutesRequest (Data.Vector.Vector NodePair)@ * 'Proto.Lnrpc.Ln0_Fields.cltvLimit' @:: Lens' QueryRoutesRequest Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.destCustomRecords' @:: Lens' QueryRoutesRequest (Data.Map.Map Data.Word.Word64 Data.ByteString.ByteString)@ * 'Proto.Lnrpc.Ln0_Fields.outgoingChanId' @:: Lens' QueryRoutesRequest Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.lastHopPubkey' @:: Lens' QueryRoutesRequest Data.ByteString.ByteString@ * 'Proto.Lnrpc.Ln0_Fields.routeHints' @:: Lens' QueryRoutesRequest [RouteHint]@ * 'Proto.Lnrpc.Ln0_Fields.vec'routeHints' @:: Lens' QueryRoutesRequest (Data.Vector.Vector RouteHint)@ * 'Proto.Lnrpc.Ln0_Fields.destFeatures' @:: Lens' QueryRoutesRequest [FeatureBit]@ * 'Proto.Lnrpc.Ln0_Fields.vec'destFeatures' @:: Lens' QueryRoutesRequest (Data.Vector.Vector FeatureBit)@ -} data QueryRoutesRequest = QueryRoutesRequest'_constructor {_QueryRoutesRequest'pubKey :: !Data.Text.Text, _QueryRoutesRequest'amt :: !Data.Int.Int64, _QueryRoutesRequest'amtMsat :: !Data.Int.Int64, _QueryRoutesRequest'finalCltvDelta :: !Data.Int.Int32, _QueryRoutesRequest'feeLimit :: !(Prelude.Maybe FeeLimit), _QueryRoutesRequest'ignoredNodes :: !(Data.Vector.Vector Data.ByteString.ByteString), _QueryRoutesRequest'ignoredEdges :: !(Data.Vector.Vector EdgeLocator), _QueryRoutesRequest'sourcePubKey :: !Data.Text.Text, _QueryRoutesRequest'useMissionControl :: !Prelude.Bool, _QueryRoutesRequest'ignoredPairs :: !(Data.Vector.Vector NodePair), _QueryRoutesRequest'cltvLimit :: !Data.Word.Word32, _QueryRoutesRequest'destCustomRecords :: !(Data.Map.Map Data.Word.Word64 Data.ByteString.ByteString), _QueryRoutesRequest'outgoingChanId :: !Data.Word.Word64, _QueryRoutesRequest'lastHopPubkey :: !Data.ByteString.ByteString, _QueryRoutesRequest'routeHints :: !(Data.Vector.Vector RouteHint), _QueryRoutesRequest'destFeatures :: !(Data.Vector.Vector FeatureBit), _QueryRoutesRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show QueryRoutesRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out QueryRoutesRequest instance Data.ProtoLens.Field.HasField QueryRoutesRequest "pubKey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'pubKey (\ x__ y__ -> x__ {_QueryRoutesRequest'pubKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "amt" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'amt (\ x__ y__ -> x__ {_QueryRoutesRequest'amt = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "amtMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'amtMsat (\ x__ y__ -> x__ {_QueryRoutesRequest'amtMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "finalCltvDelta" Data.Int.Int32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'finalCltvDelta (\ x__ y__ -> x__ {_QueryRoutesRequest'finalCltvDelta = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "feeLimit" FeeLimit where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'feeLimit (\ x__ y__ -> x__ {_QueryRoutesRequest'feeLimit = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField QueryRoutesRequest "maybe'feeLimit" (Prelude.Maybe FeeLimit) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'feeLimit (\ x__ y__ -> x__ {_QueryRoutesRequest'feeLimit = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "ignoredNodes" [Data.ByteString.ByteString] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'ignoredNodes (\ x__ y__ -> x__ {_QueryRoutesRequest'ignoredNodes = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField QueryRoutesRequest "vec'ignoredNodes" (Data.Vector.Vector Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'ignoredNodes (\ x__ y__ -> x__ {_QueryRoutesRequest'ignoredNodes = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "ignoredEdges" [EdgeLocator] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'ignoredEdges (\ x__ y__ -> x__ {_QueryRoutesRequest'ignoredEdges = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField QueryRoutesRequest "vec'ignoredEdges" (Data.Vector.Vector EdgeLocator) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'ignoredEdges (\ x__ y__ -> x__ {_QueryRoutesRequest'ignoredEdges = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "sourcePubKey" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'sourcePubKey (\ x__ y__ -> x__ {_QueryRoutesRequest'sourcePubKey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "useMissionControl" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'useMissionControl (\ x__ y__ -> x__ {_QueryRoutesRequest'useMissionControl = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "ignoredPairs" [NodePair] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'ignoredPairs (\ x__ y__ -> x__ {_QueryRoutesRequest'ignoredPairs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField QueryRoutesRequest "vec'ignoredPairs" (Data.Vector.Vector NodePair) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'ignoredPairs (\ x__ y__ -> x__ {_QueryRoutesRequest'ignoredPairs = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "cltvLimit" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'cltvLimit (\ x__ y__ -> x__ {_QueryRoutesRequest'cltvLimit = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "destCustomRecords" (Data.Map.Map Data.Word.Word64 Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'destCustomRecords (\ x__ y__ -> x__ {_QueryRoutesRequest'destCustomRecords = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "outgoingChanId" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'outgoingChanId (\ x__ y__ -> x__ {_QueryRoutesRequest'outgoingChanId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "lastHopPubkey" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'lastHopPubkey (\ x__ y__ -> x__ {_QueryRoutesRequest'lastHopPubkey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "routeHints" [RouteHint] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'routeHints (\ x__ y__ -> x__ {_QueryRoutesRequest'routeHints = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField QueryRoutesRequest "vec'routeHints" (Data.Vector.Vector RouteHint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'routeHints (\ x__ y__ -> x__ {_QueryRoutesRequest'routeHints = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest "destFeatures" [FeatureBit] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'destFeatures (\ x__ y__ -> x__ {_QueryRoutesRequest'destFeatures = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField QueryRoutesRequest "vec'destFeatures" (Data.Vector.Vector FeatureBit) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'destFeatures (\ x__ y__ -> x__ {_QueryRoutesRequest'destFeatures = y__})) Prelude.id instance Data.ProtoLens.Message QueryRoutesRequest where messageName _ = Data.Text.pack "lnrpc.QueryRoutesRequest" packedMessageDescriptor _ = "\n\ \\DC2QueryRoutesRequest\DC2\ETB\n\ \\apub_key\CAN\SOH \SOH(\tR\ACKpubKey\DC2\DLE\n\ \\ETXamt\CAN\STX \SOH(\ETXR\ETXamt\DC2\EM\n\ \\bamt_msat\CAN\f \SOH(\ETXR\aamtMsat\DC2(\n\ \\DLEfinal_cltv_delta\CAN\EOT \SOH(\ENQR\SOfinalCltvDelta\DC2,\n\ \\tfee_limit\CAN\ENQ \SOH(\v2\SI.lnrpc.FeeLimitR\bfeeLimit\DC2#\n\ \\rignored_nodes\CAN\ACK \ETX(\fR\fignoredNodes\DC2;\n\ \\rignored_edges\CAN\a \ETX(\v2\DC2.lnrpc.EdgeLocatorR\fignoredEdgesB\STX\CAN\SOH\DC2$\n\ \\SOsource_pub_key\CAN\b \SOH(\tR\fsourcePubKey\DC2.\n\ \\DC3use_mission_control\CAN\t \SOH(\bR\DC1useMissionControl\DC24\n\ \\rignored_pairs\CAN\n\ \ \ETX(\v2\SI.lnrpc.NodePairR\fignoredPairs\DC2\GS\n\ \\n\ \cltv_limit\CAN\v \SOH(\rR\tcltvLimit\DC2`\n\ \\DC3dest_custom_records\CAN\r \ETX(\v20.lnrpc.QueryRoutesRequest.DestCustomRecordsEntryR\DC1destCustomRecords\DC2,\n\ \\DLEoutgoing_chan_id\CAN\SO \SOH(\EOTR\SOoutgoingChanIdB\STX0\SOH\DC2&\n\ \\SIlast_hop_pubkey\CAN\SI \SOH(\fR\rlastHopPubkey\DC21\n\ \\vroute_hints\CAN\DLE \ETX(\v2\DLE.lnrpc.RouteHintR\n\ \routeHints\DC26\n\ \\rdest_features\CAN\DC1 \ETX(\SO2\DC1.lnrpc.FeatureBitR\fdestFeatures\SUBD\n\ \\SYNDestCustomRecordsEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\EOTR\ETXkey\DC2\DC4\n\ \\ENQvalue\CAN\STX \SOH(\fR\ENQvalue:\STX8\SOHJ\EOT\b\ETX\DLE\EOT" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let pubKey__field_descriptor = Data.ProtoLens.FieldDescriptor "pub_key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pubKey")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest amt__field_descriptor = Data.ProtoLens.FieldDescriptor "amt" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amt")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest amtMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "amt_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amtMsat")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest finalCltvDelta__field_descriptor = Data.ProtoLens.FieldDescriptor "final_cltv_delta" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"finalCltvDelta")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest feeLimit__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_limit" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor FeeLimit) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'feeLimit")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest ignoredNodes__field_descriptor = Data.ProtoLens.FieldDescriptor "ignored_nodes" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"ignoredNodes")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest ignoredEdges__field_descriptor = Data.ProtoLens.FieldDescriptor "ignored_edges" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor EdgeLocator) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"ignoredEdges")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest sourcePubKey__field_descriptor = Data.ProtoLens.FieldDescriptor "source_pub_key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"sourcePubKey")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest useMissionControl__field_descriptor = Data.ProtoLens.FieldDescriptor "use_mission_control" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"useMissionControl")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest ignoredPairs__field_descriptor = Data.ProtoLens.FieldDescriptor "ignored_pairs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NodePair) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"ignoredPairs")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest cltvLimit__field_descriptor = Data.ProtoLens.FieldDescriptor "cltv_limit" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"cltvLimit")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest destCustomRecords__field_descriptor = Data.ProtoLens.FieldDescriptor "dest_custom_records" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor QueryRoutesRequest'DestCustomRecordsEntry) (Data.ProtoLens.MapField (Data.ProtoLens.Field.field @"key") (Data.ProtoLens.Field.field @"value") (Data.ProtoLens.Field.field @"destCustomRecords")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest outgoingChanId__field_descriptor = Data.ProtoLens.FieldDescriptor "outgoing_chan_id" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outgoingChanId")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest lastHopPubkey__field_descriptor = Data.ProtoLens.FieldDescriptor "last_hop_pubkey" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"lastHopPubkey")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest routeHints__field_descriptor = Data.ProtoLens.FieldDescriptor "route_hints" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RouteHint) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"routeHints")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest destFeatures__field_descriptor = Data.ProtoLens.FieldDescriptor "dest_features" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor FeatureBit) (Data.ProtoLens.RepeatedField Data.ProtoLens.Packed (Data.ProtoLens.Field.field @"destFeatures")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest in Data.Map.fromList [(Data.ProtoLens.Tag 1, pubKey__field_descriptor), (Data.ProtoLens.Tag 2, amt__field_descriptor), (Data.ProtoLens.Tag 12, amtMsat__field_descriptor), (Data.ProtoLens.Tag 4, finalCltvDelta__field_descriptor), (Data.ProtoLens.Tag 5, feeLimit__field_descriptor), (Data.ProtoLens.Tag 6, ignoredNodes__field_descriptor), (Data.ProtoLens.Tag 7, ignoredEdges__field_descriptor), (Data.ProtoLens.Tag 8, sourcePubKey__field_descriptor), (Data.ProtoLens.Tag 9, useMissionControl__field_descriptor), (Data.ProtoLens.Tag 10, ignoredPairs__field_descriptor), (Data.ProtoLens.Tag 11, cltvLimit__field_descriptor), (Data.ProtoLens.Tag 13, destCustomRecords__field_descriptor), (Data.ProtoLens.Tag 14, outgoingChanId__field_descriptor), (Data.ProtoLens.Tag 15, lastHopPubkey__field_descriptor), (Data.ProtoLens.Tag 16, routeHints__field_descriptor), (Data.ProtoLens.Tag 17, destFeatures__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _QueryRoutesRequest'_unknownFields (\ x__ y__ -> x__ {_QueryRoutesRequest'_unknownFields = y__}) defMessage = QueryRoutesRequest'_constructor {_QueryRoutesRequest'pubKey = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'amt = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'amtMsat = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'finalCltvDelta = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'feeLimit = Prelude.Nothing, _QueryRoutesRequest'ignoredNodes = Data.Vector.Generic.empty, _QueryRoutesRequest'ignoredEdges = Data.Vector.Generic.empty, _QueryRoutesRequest'sourcePubKey = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'useMissionControl = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'ignoredPairs = Data.Vector.Generic.empty, _QueryRoutesRequest'cltvLimit = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'destCustomRecords = Data.Map.empty, _QueryRoutesRequest'outgoingChanId = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'lastHopPubkey = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'routeHints = Data.Vector.Generic.empty, _QueryRoutesRequest'destFeatures = Data.Vector.Generic.empty, _QueryRoutesRequest'_unknownFields = []} parseMessage = let loop :: QueryRoutesRequest -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld FeatureBit -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld EdgeLocator -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.ByteString.ByteString -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld NodePair -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld RouteHint -> Data.ProtoLens.Encoding.Bytes.Parser QueryRoutesRequest loop x mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'destFeatures <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'destFeatures) frozen'ignoredEdges <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'ignoredEdges) frozen'ignoredNodes <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'ignoredNodes) frozen'ignoredPairs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'ignoredPairs) frozen'routeHints <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'routeHints) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'destFeatures") frozen'destFeatures (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'ignoredEdges") frozen'ignoredEdges (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'ignoredNodes") frozen'ignoredNodes (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'ignoredPairs") frozen'ignoredPairs (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'routeHints") frozen'routeHints x)))))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "pub_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pubKey") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "amt" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amt") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 96 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "amt_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amtMsat") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "final_cltv_delta" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"finalCltvDelta") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "fee_limit" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feeLimit") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 50 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "ignored_nodes" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'ignoredNodes y) loop x mutable'destFeatures mutable'ignoredEdges v mutable'ignoredPairs mutable'routeHints 58 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "ignored_edges" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'ignoredEdges y) loop x mutable'destFeatures v mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 66 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "source_pub_key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"sourcePubKey") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "use_mission_control" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"useMissionControl") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 82 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "ignored_pairs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'ignoredPairs y) loop x mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes v mutable'routeHints 88 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "cltv_limit" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"cltvLimit") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 106 -> do !(entry :: QueryRoutesRequest'DestCustomRecordsEntry) <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "dest_custom_records" (let key = Lens.Family2.view (Data.ProtoLens.Field.field @"key") entry value = Lens.Family2.view (Data.ProtoLens.Field.field @"value") entry in loop (Lens.Family2.over (Data.ProtoLens.Field.field @"destCustomRecords") (\ !t -> Data.Map.insert key value t) x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints) 112 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "outgoing_chan_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outgoingChanId") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 122 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "last_hop_pubkey" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"lastHopPubkey") y x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 130 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "route_hints" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'routeHints y) loop x mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs v 136 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "dest_features" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'destFeatures y) loop x v mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints 138 -> do y <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) ((let ploop qs = do packedEnd <- Data.ProtoLens.Encoding.Bytes.atEnd if packedEnd then Prelude.return qs else do !q <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "dest_features" qs' <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append qs q) ploop qs' in ploop) mutable'destFeatures) loop x y mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints in (Data.ProtoLens.Encoding.Bytes.) (do mutable'destFeatures <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'ignoredEdges <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'ignoredNodes <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'ignoredPairs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'routeHints <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'destFeatures mutable'ignoredEdges mutable'ignoredNodes mutable'ignoredPairs mutable'routeHints) "QueryRoutesRequest" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pubKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amt") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amtMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 96) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"finalCltvDelta") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'feeLimit") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'ignoredNodes") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 58) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'ignoredEdges") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"sourcePubKey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 66) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"useMissionControl") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 82) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'ignoredPairs") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"cltvLimit") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 88) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (Data.Monoid.mconcat (Prelude.map (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 106) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage (Lens.Family2.set (Data.ProtoLens.Field.field @"key") (Prelude.fst _v) (Lens.Family2.set (Data.ProtoLens.Field.field @"value") (Prelude.snd _v) (Data.ProtoLens.defMessage :: QueryRoutesRequest'DestCustomRecordsEntry))))) (Data.Map.toList (Lens.Family2.view (Data.ProtoLens.Field.field @"destCustomRecords") _x)))) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outgoingChanId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 112) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"lastHopPubkey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 122) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 130) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'routeHints") _x)) ((Data.Monoid.<>) (let p = Lens.Family2.view (Data.ProtoLens.Field.field @"vec'destFeatures") _x in if Data.Vector.Generic.null p then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 138) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) (Data.ProtoLens.Encoding.Bytes.runBuilder (Data.ProtoLens.Encoding.Bytes.foldMapBuilder ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum) p)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))))))))))) instance Control.DeepSeq.NFData QueryRoutesRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_QueryRoutesRequest'_unknownFields x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'pubKey x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'amt x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'amtMsat x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'finalCltvDelta x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'feeLimit x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'ignoredNodes x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'ignoredEdges x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'sourcePubKey x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'useMissionControl x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'ignoredPairs x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'cltvLimit x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'destCustomRecords x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'outgoingChanId x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'lastHopPubkey x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'routeHints x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'destFeatures x__) ())))))))))))))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.key' @:: Lens' QueryRoutesRequest'DestCustomRecordsEntry Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.value' @:: Lens' QueryRoutesRequest'DestCustomRecordsEntry Data.ByteString.ByteString@ -} data QueryRoutesRequest'DestCustomRecordsEntry = QueryRoutesRequest'DestCustomRecordsEntry'_constructor {_QueryRoutesRequest'DestCustomRecordsEntry'key :: !Data.Word.Word64, _QueryRoutesRequest'DestCustomRecordsEntry'value :: !Data.ByteString.ByteString, _QueryRoutesRequest'DestCustomRecordsEntry'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show QueryRoutesRequest'DestCustomRecordsEntry where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out QueryRoutesRequest'DestCustomRecordsEntry instance Data.ProtoLens.Field.HasField QueryRoutesRequest'DestCustomRecordsEntry "key" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'DestCustomRecordsEntry'key (\ x__ y__ -> x__ {_QueryRoutesRequest'DestCustomRecordsEntry'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesRequest'DestCustomRecordsEntry "value" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesRequest'DestCustomRecordsEntry'value (\ x__ y__ -> x__ {_QueryRoutesRequest'DestCustomRecordsEntry'value = y__})) Prelude.id instance Data.ProtoLens.Message QueryRoutesRequest'DestCustomRecordsEntry where messageName _ = Data.Text.pack "lnrpc.QueryRoutesRequest.DestCustomRecordsEntry" packedMessageDescriptor _ = "\n\ \\SYNDestCustomRecordsEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\EOTR\ETXkey\DC2\DC4\n\ \\ENQvalue\CAN\STX \SOH(\fR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"key")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest'DestCustomRecordsEntry value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"value")) :: Data.ProtoLens.FieldDescriptor QueryRoutesRequest'DestCustomRecordsEntry in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _QueryRoutesRequest'DestCustomRecordsEntry'_unknownFields (\ x__ y__ -> x__ {_QueryRoutesRequest'DestCustomRecordsEntry'_unknownFields = y__}) defMessage = QueryRoutesRequest'DestCustomRecordsEntry'_constructor {_QueryRoutesRequest'DestCustomRecordsEntry'key = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'DestCustomRecordsEntry'value = Data.ProtoLens.fieldDefault, _QueryRoutesRequest'DestCustomRecordsEntry'_unknownFields = []} parseMessage = let loop :: QueryRoutesRequest'DestCustomRecordsEntry -> Data.ProtoLens.Encoding.Bytes.Parser QueryRoutesRequest'DestCustomRecordsEntry loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "DestCustomRecordsEntry" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"key") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"value") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData QueryRoutesRequest'DestCustomRecordsEntry where rnf = \ x__ -> Control.DeepSeq.deepseq (_QueryRoutesRequest'DestCustomRecordsEntry'_unknownFields x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'DestCustomRecordsEntry'key x__) (Control.DeepSeq.deepseq (_QueryRoutesRequest'DestCustomRecordsEntry'value x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.routes' @:: Lens' QueryRoutesResponse [Route]@ * 'Proto.Lnrpc.Ln0_Fields.vec'routes' @:: Lens' QueryRoutesResponse (Data.Vector.Vector Route)@ * 'Proto.Lnrpc.Ln0_Fields.successProb' @:: Lens' QueryRoutesResponse Prelude.Double@ -} data QueryRoutesResponse = QueryRoutesResponse'_constructor {_QueryRoutesResponse'routes :: !(Data.Vector.Vector Route), _QueryRoutesResponse'successProb :: !Prelude.Double, _QueryRoutesResponse'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show QueryRoutesResponse where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out QueryRoutesResponse instance Data.ProtoLens.Field.HasField QueryRoutesResponse "routes" [Route] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesResponse'routes (\ x__ y__ -> x__ {_QueryRoutesResponse'routes = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField QueryRoutesResponse "vec'routes" (Data.Vector.Vector Route) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesResponse'routes (\ x__ y__ -> x__ {_QueryRoutesResponse'routes = y__})) Prelude.id instance Data.ProtoLens.Field.HasField QueryRoutesResponse "successProb" Prelude.Double where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _QueryRoutesResponse'successProb (\ x__ y__ -> x__ {_QueryRoutesResponse'successProb = y__})) Prelude.id instance Data.ProtoLens.Message QueryRoutesResponse where messageName _ = Data.Text.pack "lnrpc.QueryRoutesResponse" packedMessageDescriptor _ = "\n\ \\DC3QueryRoutesResponse\DC2$\n\ \\ACKroutes\CAN\SOH \ETX(\v2\f.lnrpc.RouteR\ACKroutes\DC2!\n\ \\fsuccess_prob\CAN\STX \SOH(\SOHR\vsuccessProb" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let routes__field_descriptor = Data.ProtoLens.FieldDescriptor "routes" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Route) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"routes")) :: Data.ProtoLens.FieldDescriptor QueryRoutesResponse successProb__field_descriptor = Data.ProtoLens.FieldDescriptor "success_prob" (Data.ProtoLens.ScalarField Data.ProtoLens.DoubleField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Double) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"successProb")) :: Data.ProtoLens.FieldDescriptor QueryRoutesResponse in Data.Map.fromList [(Data.ProtoLens.Tag 1, routes__field_descriptor), (Data.ProtoLens.Tag 2, successProb__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _QueryRoutesResponse'_unknownFields (\ x__ y__ -> x__ {_QueryRoutesResponse'_unknownFields = y__}) defMessage = QueryRoutesResponse'_constructor {_QueryRoutesResponse'routes = Data.Vector.Generic.empty, _QueryRoutesResponse'successProb = Data.ProtoLens.fieldDefault, _QueryRoutesResponse'_unknownFields = []} parseMessage = let loop :: QueryRoutesResponse -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Route -> Data.ProtoLens.Encoding.Bytes.Parser QueryRoutesResponse loop x mutable'routes = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'routes <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'routes) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'routes") frozen'routes x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "routes" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'routes y) loop x v 17 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Data.ProtoLens.Encoding.Bytes.wordToDouble Data.ProtoLens.Encoding.Bytes.getFixed64) "success_prob" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"successProb") y x) mutable'routes wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'routes in (Data.ProtoLens.Encoding.Bytes.) (do mutable'routes <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'routes) "QueryRoutesResponse" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'routes") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"successProb") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 17) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putFixed64 Data.ProtoLens.Encoding.Bytes.doubleToWord _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData QueryRoutesResponse where rnf = \ x__ -> Control.DeepSeq.deepseq (_QueryRoutesResponse'_unknownFields x__) (Control.DeepSeq.deepseq (_QueryRoutesResponse'routes x__) (Control.DeepSeq.deepseq (_QueryRoutesResponse'successProb x__) ())) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.resolutionType' @:: Lens' Resolution ResolutionType@ * 'Proto.Lnrpc.Ln0_Fields.outcome' @:: Lens' Resolution ResolutionOutcome@ * 'Proto.Lnrpc.Ln0_Fields.outpoint' @:: Lens' Resolution OutPoint@ * 'Proto.Lnrpc.Ln0_Fields.maybe'outpoint' @:: Lens' Resolution (Prelude.Maybe OutPoint)@ * 'Proto.Lnrpc.Ln0_Fields.amountSat' @:: Lens' Resolution Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.sweepTxid' @:: Lens' Resolution Data.Text.Text@ -} data Resolution = Resolution'_constructor {_Resolution'resolutionType :: !ResolutionType, _Resolution'outcome :: !ResolutionOutcome, _Resolution'outpoint :: !(Prelude.Maybe OutPoint), _Resolution'amountSat :: !Data.Word.Word64, _Resolution'sweepTxid :: !Data.Text.Text, _Resolution'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show Resolution where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out Resolution instance Data.ProtoLens.Field.HasField Resolution "resolutionType" ResolutionType where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Resolution'resolutionType (\ x__ y__ -> x__ {_Resolution'resolutionType = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Resolution "outcome" ResolutionOutcome where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Resolution'outcome (\ x__ y__ -> x__ {_Resolution'outcome = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Resolution "outpoint" OutPoint where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Resolution'outpoint (\ x__ y__ -> x__ {_Resolution'outpoint = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Resolution "maybe'outpoint" (Prelude.Maybe OutPoint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Resolution'outpoint (\ x__ y__ -> x__ {_Resolution'outpoint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Resolution "amountSat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Resolution'amountSat (\ x__ y__ -> x__ {_Resolution'amountSat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Resolution "sweepTxid" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Resolution'sweepTxid (\ x__ y__ -> x__ {_Resolution'sweepTxid = y__})) Prelude.id instance Data.ProtoLens.Message Resolution where messageName _ = Data.Text.pack "lnrpc.Resolution" packedMessageDescriptor _ = "\n\ \\n\ \Resolution\DC2>\n\ \\SIresolution_type\CAN\SOH \SOH(\SO2\NAK.lnrpc.ResolutionTypeR\SOresolutionType\DC22\n\ \\aoutcome\CAN\STX \SOH(\SO2\CAN.lnrpc.ResolutionOutcomeR\aoutcome\DC2+\n\ \\boutpoint\CAN\ETX \SOH(\v2\SI.lnrpc.OutPointR\boutpoint\DC2\GS\n\ \\n\ \amount_sat\CAN\EOT \SOH(\EOTR\tamountSat\DC2\GS\n\ \\n\ \sweep_txid\CAN\ENQ \SOH(\tR\tsweepTxid" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let resolutionType__field_descriptor = Data.ProtoLens.FieldDescriptor "resolution_type" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor ResolutionType) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"resolutionType")) :: Data.ProtoLens.FieldDescriptor Resolution outcome__field_descriptor = Data.ProtoLens.FieldDescriptor "outcome" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor ResolutionOutcome) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outcome")) :: Data.ProtoLens.FieldDescriptor Resolution outpoint__field_descriptor = Data.ProtoLens.FieldDescriptor "outpoint" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor OutPoint) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'outpoint")) :: Data.ProtoLens.FieldDescriptor Resolution amountSat__field_descriptor = Data.ProtoLens.FieldDescriptor "amount_sat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"amountSat")) :: Data.ProtoLens.FieldDescriptor Resolution sweepTxid__field_descriptor = Data.ProtoLens.FieldDescriptor "sweep_txid" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"sweepTxid")) :: Data.ProtoLens.FieldDescriptor Resolution in Data.Map.fromList [(Data.ProtoLens.Tag 1, resolutionType__field_descriptor), (Data.ProtoLens.Tag 2, outcome__field_descriptor), (Data.ProtoLens.Tag 3, outpoint__field_descriptor), (Data.ProtoLens.Tag 4, amountSat__field_descriptor), (Data.ProtoLens.Tag 5, sweepTxid__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Resolution'_unknownFields (\ x__ y__ -> x__ {_Resolution'_unknownFields = y__}) defMessage = Resolution'_constructor {_Resolution'resolutionType = Data.ProtoLens.fieldDefault, _Resolution'outcome = Data.ProtoLens.fieldDefault, _Resolution'outpoint = Prelude.Nothing, _Resolution'amountSat = Data.ProtoLens.fieldDefault, _Resolution'sweepTxid = Data.ProtoLens.fieldDefault, _Resolution'_unknownFields = []} parseMessage = let loop :: Resolution -> Data.ProtoLens.Encoding.Bytes.Parser Resolution loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "resolution_type" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"resolutionType") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "outcome" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outcome") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "outpoint" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outpoint") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "amount_sat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"amountSat") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "sweep_txid" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"sweepTxid") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Resolution" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"resolutionType") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outcome") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'outpoint") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"amountSat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"sweepTxid") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))) instance Control.DeepSeq.NFData Resolution where rnf = \ x__ -> Control.DeepSeq.deepseq (_Resolution'_unknownFields x__) (Control.DeepSeq.deepseq (_Resolution'resolutionType x__) (Control.DeepSeq.deepseq (_Resolution'outcome x__) (Control.DeepSeq.deepseq (_Resolution'outpoint x__) (Control.DeepSeq.deepseq (_Resolution'amountSat x__) (Control.DeepSeq.deepseq (_Resolution'sweepTxid x__) ()))))) newtype ResolutionOutcome'UnrecognizedValue = ResolutionOutcome'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out ResolutionOutcome'UnrecognizedValue data ResolutionOutcome = OUTCOME_UNKNOWN | CLAIMED | UNCLAIMED | ABANDONED | FIRST_STAGE | TIMEOUT | ResolutionOutcome'Unrecognized !ResolutionOutcome'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum ResolutionOutcome where maybeToEnum 0 = Prelude.Just OUTCOME_UNKNOWN maybeToEnum 1 = Prelude.Just CLAIMED maybeToEnum 2 = Prelude.Just UNCLAIMED maybeToEnum 3 = Prelude.Just ABANDONED maybeToEnum 4 = Prelude.Just FIRST_STAGE maybeToEnum 5 = Prelude.Just TIMEOUT maybeToEnum k = Prelude.Just (ResolutionOutcome'Unrecognized (ResolutionOutcome'UnrecognizedValue (Prelude.fromIntegral k))) showEnum OUTCOME_UNKNOWN = "OUTCOME_UNKNOWN" showEnum CLAIMED = "CLAIMED" showEnum UNCLAIMED = "UNCLAIMED" showEnum ABANDONED = "ABANDONED" showEnum FIRST_STAGE = "FIRST_STAGE" showEnum TIMEOUT = "TIMEOUT" showEnum (ResolutionOutcome'Unrecognized (ResolutionOutcome'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "OUTCOME_UNKNOWN" = Prelude.Just OUTCOME_UNKNOWN | (Prelude.==) k "CLAIMED" = Prelude.Just CLAIMED | (Prelude.==) k "UNCLAIMED" = Prelude.Just UNCLAIMED | (Prelude.==) k "ABANDONED" = Prelude.Just ABANDONED | (Prelude.==) k "FIRST_STAGE" = Prelude.Just FIRST_STAGE | (Prelude.==) k "TIMEOUT" = Prelude.Just TIMEOUT | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded ResolutionOutcome where minBound = OUTCOME_UNKNOWN maxBound = TIMEOUT instance Prelude.Enum ResolutionOutcome where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum ResolutionOutcome: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum OUTCOME_UNKNOWN = 0 fromEnum CLAIMED = 1 fromEnum UNCLAIMED = 2 fromEnum ABANDONED = 3 fromEnum FIRST_STAGE = 4 fromEnum TIMEOUT = 5 fromEnum (ResolutionOutcome'Unrecognized (ResolutionOutcome'UnrecognizedValue k)) = Prelude.fromIntegral k succ TIMEOUT = Prelude.error "ResolutionOutcome.succ: bad argument TIMEOUT. This value would be out of bounds." succ OUTCOME_UNKNOWN = CLAIMED succ CLAIMED = UNCLAIMED succ UNCLAIMED = ABANDONED succ ABANDONED = FIRST_STAGE succ FIRST_STAGE = TIMEOUT succ (ResolutionOutcome'Unrecognized _) = Prelude.error "ResolutionOutcome.succ: bad argument: unrecognized value" pred OUTCOME_UNKNOWN = Prelude.error "ResolutionOutcome.pred: bad argument OUTCOME_UNKNOWN. This value would be out of bounds." pred CLAIMED = OUTCOME_UNKNOWN pred UNCLAIMED = CLAIMED pred ABANDONED = UNCLAIMED pred FIRST_STAGE = ABANDONED pred TIMEOUT = FIRST_STAGE pred (ResolutionOutcome'Unrecognized _) = Prelude.error "ResolutionOutcome.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault ResolutionOutcome where fieldDefault = OUTCOME_UNKNOWN instance Control.DeepSeq.NFData ResolutionOutcome where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out ResolutionOutcome newtype ResolutionType'UnrecognizedValue = ResolutionType'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show, GHC.Generics.Generic) instance Text.PrettyPrint.GenericPretty.Out ResolutionType'UnrecognizedValue data ResolutionType = TYPE_UNKNOWN | ANCHOR | INCOMING_HTLC | OUTGOING_HTLC | COMMIT | ResolutionType'Unrecognized !ResolutionType'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Data.ProtoLens.MessageEnum ResolutionType where maybeToEnum 0 = Prelude.Just TYPE_UNKNOWN maybeToEnum 1 = Prelude.Just ANCHOR maybeToEnum 2 = Prelude.Just INCOMING_HTLC maybeToEnum 3 = Prelude.Just OUTGOING_HTLC maybeToEnum 4 = Prelude.Just COMMIT maybeToEnum k = Prelude.Just (ResolutionType'Unrecognized (ResolutionType'UnrecognizedValue (Prelude.fromIntegral k))) showEnum TYPE_UNKNOWN = "TYPE_UNKNOWN" showEnum ANCHOR = "ANCHOR" showEnum INCOMING_HTLC = "INCOMING_HTLC" showEnum OUTGOING_HTLC = "OUTGOING_HTLC" showEnum COMMIT = "COMMIT" showEnum (ResolutionType'Unrecognized (ResolutionType'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "TYPE_UNKNOWN" = Prelude.Just TYPE_UNKNOWN | (Prelude.==) k "ANCHOR" = Prelude.Just ANCHOR | (Prelude.==) k "INCOMING_HTLC" = Prelude.Just INCOMING_HTLC | (Prelude.==) k "OUTGOING_HTLC" = Prelude.Just OUTGOING_HTLC | (Prelude.==) k "COMMIT" = Prelude.Just COMMIT | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded ResolutionType where minBound = TYPE_UNKNOWN maxBound = COMMIT instance Prelude.Enum ResolutionType where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum ResolutionType: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum TYPE_UNKNOWN = 0 fromEnum ANCHOR = 1 fromEnum INCOMING_HTLC = 2 fromEnum OUTGOING_HTLC = 3 fromEnum COMMIT = 4 fromEnum (ResolutionType'Unrecognized (ResolutionType'UnrecognizedValue k)) = Prelude.fromIntegral k succ COMMIT = Prelude.error "ResolutionType.succ: bad argument COMMIT. This value would be out of bounds." succ TYPE_UNKNOWN = ANCHOR succ ANCHOR = INCOMING_HTLC succ INCOMING_HTLC = OUTGOING_HTLC succ OUTGOING_HTLC = COMMIT succ (ResolutionType'Unrecognized _) = Prelude.error "ResolutionType.succ: bad argument: unrecognized value" pred TYPE_UNKNOWN = Prelude.error "ResolutionType.pred: bad argument TYPE_UNKNOWN. This value would be out of bounds." pred ANCHOR = TYPE_UNKNOWN pred INCOMING_HTLC = ANCHOR pred OUTGOING_HTLC = INCOMING_HTLC pred COMMIT = OUTGOING_HTLC pred (ResolutionType'Unrecognized _) = Prelude.error "ResolutionType.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault ResolutionType where fieldDefault = TYPE_UNKNOWN instance Control.DeepSeq.NFData ResolutionType where rnf x__ = Prelude.seq x__ () instance Text.PrettyPrint.GenericPretty.Out ResolutionType {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.totalTimeLock' @:: Lens' Route Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.totalFees' @:: Lens' Route Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.totalAmt' @:: Lens' Route Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.hops' @:: Lens' Route [Hop]@ * 'Proto.Lnrpc.Ln0_Fields.vec'hops' @:: Lens' Route (Data.Vector.Vector Hop)@ * 'Proto.Lnrpc.Ln0_Fields.totalFeesMsat' @:: Lens' Route Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.totalAmtMsat' @:: Lens' Route Data.Int.Int64@ -} data Route = Route'_constructor {_Route'totalTimeLock :: !Data.Word.Word32, _Route'totalFees :: !Data.Int.Int64, _Route'totalAmt :: !Data.Int.Int64, _Route'hops :: !(Data.Vector.Vector Hop), _Route'totalFeesMsat :: !Data.Int.Int64, _Route'totalAmtMsat :: !Data.Int.Int64, _Route'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show Route where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out Route instance Data.ProtoLens.Field.HasField Route "totalTimeLock" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Route'totalTimeLock (\ x__ y__ -> x__ {_Route'totalTimeLock = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Route "totalFees" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Route'totalFees (\ x__ y__ -> x__ {_Route'totalFees = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Route "totalAmt" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Route'totalAmt (\ x__ y__ -> x__ {_Route'totalAmt = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Route "hops" [Hop] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Route'hops (\ x__ y__ -> x__ {_Route'hops = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Route "vec'hops" (Data.Vector.Vector Hop) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Route'hops (\ x__ y__ -> x__ {_Route'hops = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Route "totalFeesMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Route'totalFeesMsat (\ x__ y__ -> x__ {_Route'totalFeesMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Route "totalAmtMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Route'totalAmtMsat (\ x__ y__ -> x__ {_Route'totalAmtMsat = y__})) Prelude.id instance Data.ProtoLens.Message Route where messageName _ = Data.Text.pack "lnrpc.Route" packedMessageDescriptor _ = "\n\ \\ENQRoute\DC2&\n\ \\SItotal_time_lock\CAN\SOH \SOH(\rR\rtotalTimeLock\DC2!\n\ \\n\ \total_fees\CAN\STX \SOH(\ETXR\ttotalFeesB\STX\CAN\SOH\DC2\US\n\ \\ttotal_amt\CAN\ETX \SOH(\ETXR\btotalAmtB\STX\CAN\SOH\DC2\RS\n\ \\EOThops\CAN\EOT \ETX(\v2\n\ \.lnrpc.HopR\EOThops\DC2&\n\ \\SItotal_fees_msat\CAN\ENQ \SOH(\ETXR\rtotalFeesMsat\DC2$\n\ \\SOtotal_amt_msat\CAN\ACK \SOH(\ETXR\ftotalAmtMsat" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let totalTimeLock__field_descriptor = Data.ProtoLens.FieldDescriptor "total_time_lock" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalTimeLock")) :: Data.ProtoLens.FieldDescriptor Route totalFees__field_descriptor = Data.ProtoLens.FieldDescriptor "total_fees" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalFees")) :: Data.ProtoLens.FieldDescriptor Route totalAmt__field_descriptor = Data.ProtoLens.FieldDescriptor "total_amt" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalAmt")) :: Data.ProtoLens.FieldDescriptor Route hops__field_descriptor = Data.ProtoLens.FieldDescriptor "hops" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Hop) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"hops")) :: Data.ProtoLens.FieldDescriptor Route totalFeesMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "total_fees_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalFeesMsat")) :: Data.ProtoLens.FieldDescriptor Route totalAmtMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "total_amt_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalAmtMsat")) :: Data.ProtoLens.FieldDescriptor Route in Data.Map.fromList [(Data.ProtoLens.Tag 1, totalTimeLock__field_descriptor), (Data.ProtoLens.Tag 2, totalFees__field_descriptor), (Data.ProtoLens.Tag 3, totalAmt__field_descriptor), (Data.ProtoLens.Tag 4, hops__field_descriptor), (Data.ProtoLens.Tag 5, totalFeesMsat__field_descriptor), (Data.ProtoLens.Tag 6, totalAmtMsat__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Route'_unknownFields (\ x__ y__ -> x__ {_Route'_unknownFields = y__}) defMessage = Route'_constructor {_Route'totalTimeLock = Data.ProtoLens.fieldDefault, _Route'totalFees = Data.ProtoLens.fieldDefault, _Route'totalAmt = Data.ProtoLens.fieldDefault, _Route'hops = Data.Vector.Generic.empty, _Route'totalFeesMsat = Data.ProtoLens.fieldDefault, _Route'totalAmtMsat = Data.ProtoLens.fieldDefault, _Route'_unknownFields = []} parseMessage = let loop :: Route -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Hop -> Data.ProtoLens.Encoding.Bytes.Parser Route loop x mutable'hops = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'hops <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'hops) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'hops") frozen'hops x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_time_lock" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalTimeLock") y x) mutable'hops 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_fees" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalFees") y x) mutable'hops 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_amt" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalAmt") y x) mutable'hops 34 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "hops" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'hops y) loop x v 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_fees_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalFeesMsat") y x) mutable'hops 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_amt_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalAmtMsat") y x) mutable'hops wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'hops in (Data.ProtoLens.Encoding.Bytes.) (do mutable'hops <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'hops) "Route" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalTimeLock") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalFees") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalAmt") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'hops") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalFeesMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalAmtMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData Route where rnf = \ x__ -> Control.DeepSeq.deepseq (_Route'_unknownFields x__) (Control.DeepSeq.deepseq (_Route'totalTimeLock x__) (Control.DeepSeq.deepseq (_Route'totalFees x__) (Control.DeepSeq.deepseq (_Route'totalAmt x__) (Control.DeepSeq.deepseq (_Route'hops x__) (Control.DeepSeq.deepseq (_Route'totalFeesMsat x__) (Control.DeepSeq.deepseq (_Route'totalAmtMsat x__) ())))))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.hopHints' @:: Lens' RouteHint [HopHint]@ * 'Proto.Lnrpc.Ln0_Fields.vec'hopHints' @:: Lens' RouteHint (Data.Vector.Vector HopHint)@ -} data RouteHint = RouteHint'_constructor {_RouteHint'hopHints :: !(Data.Vector.Vector HopHint), _RouteHint'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show RouteHint where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out RouteHint instance Data.ProtoLens.Field.HasField RouteHint "hopHints" [HopHint] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RouteHint'hopHints (\ x__ y__ -> x__ {_RouteHint'hopHints = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField RouteHint "vec'hopHints" (Data.Vector.Vector HopHint) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RouteHint'hopHints (\ x__ y__ -> x__ {_RouteHint'hopHints = y__})) Prelude.id instance Data.ProtoLens.Message RouteHint where messageName _ = Data.Text.pack "lnrpc.RouteHint" packedMessageDescriptor _ = "\n\ \\tRouteHint\DC2+\n\ \\thop_hints\CAN\SOH \ETX(\v2\SO.lnrpc.HopHintR\bhopHints" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let hopHints__field_descriptor = Data.ProtoLens.FieldDescriptor "hop_hints" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor HopHint) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"hopHints")) :: Data.ProtoLens.FieldDescriptor RouteHint in Data.Map.fromList [(Data.ProtoLens.Tag 1, hopHints__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _RouteHint'_unknownFields (\ x__ y__ -> x__ {_RouteHint'_unknownFields = y__}) defMessage = RouteHint'_constructor {_RouteHint'hopHints = Data.Vector.Generic.empty, _RouteHint'_unknownFields = []} parseMessage = let loop :: RouteHint -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld HopHint -> Data.ProtoLens.Encoding.Bytes.Parser RouteHint loop x mutable'hopHints = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'hopHints <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'hopHints) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'hopHints") frozen'hopHints x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "hop_hints" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'hopHints y) loop x v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'hopHints in (Data.ProtoLens.Encoding.Bytes.) (do mutable'hopHints <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'hopHints) "RouteHint" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'hopHints") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData RouteHint where rnf = \ x__ -> Control.DeepSeq.deepseq (_RouteHint'_unknownFields x__) (Control.DeepSeq.deepseq (_RouteHint'hopHints x__) ()) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.timeLockDelta' @:: Lens' RoutingPolicy Data.Word.Word32@ * 'Proto.Lnrpc.Ln0_Fields.minHtlc' @:: Lens' RoutingPolicy Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.feeBaseMsat' @:: Lens' RoutingPolicy Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.feeRateMilliMsat' @:: Lens' RoutingPolicy Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.disabled' @:: Lens' RoutingPolicy Prelude.Bool@ * 'Proto.Lnrpc.Ln0_Fields.maxHtlcMsat' @:: Lens' RoutingPolicy Data.Word.Word64@ * 'Proto.Lnrpc.Ln0_Fields.lastUpdate' @:: Lens' RoutingPolicy Data.Word.Word32@ -} data RoutingPolicy = RoutingPolicy'_constructor {_RoutingPolicy'timeLockDelta :: !Data.Word.Word32, _RoutingPolicy'minHtlc :: !Data.Int.Int64, _RoutingPolicy'feeBaseMsat :: !Data.Int.Int64, _RoutingPolicy'feeRateMilliMsat :: !Data.Int.Int64, _RoutingPolicy'disabled :: !Prelude.Bool, _RoutingPolicy'maxHtlcMsat :: !Data.Word.Word64, _RoutingPolicy'lastUpdate :: !Data.Word.Word32, _RoutingPolicy'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show RoutingPolicy where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out RoutingPolicy instance Data.ProtoLens.Field.HasField RoutingPolicy "timeLockDelta" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RoutingPolicy'timeLockDelta (\ x__ y__ -> x__ {_RoutingPolicy'timeLockDelta = y__})) Prelude.id instance Data.ProtoLens.Field.HasField RoutingPolicy "minHtlc" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RoutingPolicy'minHtlc (\ x__ y__ -> x__ {_RoutingPolicy'minHtlc = y__})) Prelude.id instance Data.ProtoLens.Field.HasField RoutingPolicy "feeBaseMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RoutingPolicy'feeBaseMsat (\ x__ y__ -> x__ {_RoutingPolicy'feeBaseMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField RoutingPolicy "feeRateMilliMsat" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RoutingPolicy'feeRateMilliMsat (\ x__ y__ -> x__ {_RoutingPolicy'feeRateMilliMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField RoutingPolicy "disabled" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RoutingPolicy'disabled (\ x__ y__ -> x__ {_RoutingPolicy'disabled = y__})) Prelude.id instance Data.ProtoLens.Field.HasField RoutingPolicy "maxHtlcMsat" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RoutingPolicy'maxHtlcMsat (\ x__ y__ -> x__ {_RoutingPolicy'maxHtlcMsat = y__})) Prelude.id instance Data.ProtoLens.Field.HasField RoutingPolicy "lastUpdate" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RoutingPolicy'lastUpdate (\ x__ y__ -> x__ {_RoutingPolicy'lastUpdate = y__})) Prelude.id instance Data.ProtoLens.Message RoutingPolicy where messageName _ = Data.Text.pack "lnrpc.RoutingPolicy" packedMessageDescriptor _ = "\n\ \\rRoutingPolicy\DC2&\n\ \\SItime_lock_delta\CAN\SOH \SOH(\rR\rtimeLockDelta\DC2\EM\n\ \\bmin_htlc\CAN\STX \SOH(\ETXR\aminHtlc\DC2\"\n\ \\rfee_base_msat\CAN\ETX \SOH(\ETXR\vfeeBaseMsat\DC2-\n\ \\DC3fee_rate_milli_msat\CAN\EOT \SOH(\ETXR\DLEfeeRateMilliMsat\DC2\SUB\n\ \\bdisabled\CAN\ENQ \SOH(\bR\bdisabled\DC2\"\n\ \\rmax_htlc_msat\CAN\ACK \SOH(\EOTR\vmaxHtlcMsat\DC2\US\n\ \\vlast_update\CAN\a \SOH(\rR\n\ \lastUpdate" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let timeLockDelta__field_descriptor = Data.ProtoLens.FieldDescriptor "time_lock_delta" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"timeLockDelta")) :: Data.ProtoLens.FieldDescriptor RoutingPolicy minHtlc__field_descriptor = Data.ProtoLens.FieldDescriptor "min_htlc" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"minHtlc")) :: Data.ProtoLens.FieldDescriptor RoutingPolicy feeBaseMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_base_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"feeBaseMsat")) :: Data.ProtoLens.FieldDescriptor RoutingPolicy feeRateMilliMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "fee_rate_milli_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"feeRateMilliMsat")) :: Data.ProtoLens.FieldDescriptor RoutingPolicy disabled__field_descriptor = Data.ProtoLens.FieldDescriptor "disabled" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"disabled")) :: Data.ProtoLens.FieldDescriptor RoutingPolicy maxHtlcMsat__field_descriptor = Data.ProtoLens.FieldDescriptor "max_htlc_msat" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxHtlcMsat")) :: Data.ProtoLens.FieldDescriptor RoutingPolicy lastUpdate__field_descriptor = Data.ProtoLens.FieldDescriptor "last_update" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"lastUpdate")) :: Data.ProtoLens.FieldDescriptor RoutingPolicy in Data.Map.fromList [(Data.ProtoLens.Tag 1, timeLockDelta__field_descriptor), (Data.ProtoLens.Tag 2, minHtlc__field_descriptor), (Data.ProtoLens.Tag 3, feeBaseMsat__field_descriptor), (Data.ProtoLens.Tag 4, feeRateMilliMsat__field_descriptor), (Data.ProtoLens.Tag 5, disabled__field_descriptor), (Data.ProtoLens.Tag 6, maxHtlcMsat__field_descriptor), (Data.ProtoLens.Tag 7, lastUpdate__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _RoutingPolicy'_unknownFields (\ x__ y__ -> x__ {_RoutingPolicy'_unknownFields = y__}) defMessage = RoutingPolicy'_constructor {_RoutingPolicy'timeLockDelta = Data.ProtoLens.fieldDefault, _RoutingPolicy'minHtlc = Data.ProtoLens.fieldDefault, _RoutingPolicy'feeBaseMsat = Data.ProtoLens.fieldDefault, _RoutingPolicy'feeRateMilliMsat = Data.ProtoLens.fieldDefault, _RoutingPolicy'disabled = Data.ProtoLens.fieldDefault, _RoutingPolicy'maxHtlcMsat = Data.ProtoLens.fieldDefault, _RoutingPolicy'lastUpdate = Data.ProtoLens.fieldDefault, _RoutingPolicy'_unknownFields = []} parseMessage = let loop :: RoutingPolicy -> Data.ProtoLens.Encoding.Bytes.Parser RoutingPolicy loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "time_lock_delta" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"timeLockDelta") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "min_htlc" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"minHtlc") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee_base_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feeBaseMsat") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "fee_rate_milli_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"feeRateMilliMsat") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "disabled" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"disabled") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "max_htlc_msat" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxHtlcMsat") y x) 56 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "last_update" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"lastUpdate") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "RoutingPolicy" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"timeLockDelta") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"minHtlc") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"feeBaseMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"feeRateMilliMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"disabled") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxHtlcMsat") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"lastUpdate") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 56) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))) instance Control.DeepSeq.NFData RoutingPolicy where rnf = \ x__ -> Control.DeepSeq.deepseq (_RoutingPolicy'_unknownFields x__) (Control.DeepSeq.deepseq (_RoutingPolicy'timeLockDelta x__) (Control.DeepSeq.deepseq (_RoutingPolicy'minHtlc x__) (Control.DeepSeq.deepseq (_RoutingPolicy'feeBaseMsat x__) (Control.DeepSeq.deepseq (_RoutingPolicy'feeRateMilliMsat x__) (Control.DeepSeq.deepseq (_RoutingPolicy'disabled x__) (Control.DeepSeq.deepseq (_RoutingPolicy'maxHtlcMsat x__) (Control.DeepSeq.deepseq (_RoutingPolicy'lastUpdate x__) ()))))))) {- | Fields : -} data StopRequest = StopRequest'_constructor {_StopRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show StopRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out StopRequest instance Data.ProtoLens.Message StopRequest where messageName _ = Data.Text.pack "lnrpc.StopRequest" packedMessageDescriptor _ = "\n\ \\vStopRequest" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _StopRequest'_unknownFields (\ x__ y__ -> x__ {_StopRequest'_unknownFields = y__}) defMessage = StopRequest'_constructor {_StopRequest'_unknownFields = []} parseMessage = let loop :: StopRequest -> Data.ProtoLens.Encoding.Bytes.Parser StopRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "StopRequest" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData StopRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_StopRequest'_unknownFields x__) () {- | Fields : -} data StopResponse = StopResponse'_constructor {_StopResponse'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show StopResponse where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out StopResponse instance Data.ProtoLens.Message StopResponse where messageName _ = Data.Text.pack "lnrpc.StopResponse" packedMessageDescriptor _ = "\n\ \\fStopResponse" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _StopResponse'_unknownFields (\ x__ y__ -> x__ {_StopResponse'_unknownFields = y__}) defMessage = StopResponse'_constructor {_StopResponse'_unknownFields = []} parseMessage = let loop :: StopResponse -> Data.ProtoLens.Encoding.Bytes.Parser StopResponse loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "StopResponse" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData StopResponse where rnf = \ x__ -> Control.DeepSeq.deepseq (_StopResponse'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.confirmedBalance' @:: Lens' WalletAccountBalance Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.unconfirmedBalance' @:: Lens' WalletAccountBalance Data.Int.Int64@ -} data WalletAccountBalance = WalletAccountBalance'_constructor {_WalletAccountBalance'confirmedBalance :: !Data.Int.Int64, _WalletAccountBalance'unconfirmedBalance :: !Data.Int.Int64, _WalletAccountBalance'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show WalletAccountBalance where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out WalletAccountBalance instance Data.ProtoLens.Field.HasField WalletAccountBalance "confirmedBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletAccountBalance'confirmedBalance (\ x__ y__ -> x__ {_WalletAccountBalance'confirmedBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField WalletAccountBalance "unconfirmedBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletAccountBalance'unconfirmedBalance (\ x__ y__ -> x__ {_WalletAccountBalance'unconfirmedBalance = y__})) Prelude.id instance Data.ProtoLens.Message WalletAccountBalance where messageName _ = Data.Text.pack "lnrpc.WalletAccountBalance" packedMessageDescriptor _ = "\n\ \\DC4WalletAccountBalance\DC2+\n\ \\DC1confirmed_balance\CAN\SOH \SOH(\ETXR\DLEconfirmedBalance\DC2/\n\ \\DC3unconfirmed_balance\CAN\STX \SOH(\ETXR\DC2unconfirmedBalance" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let confirmedBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "confirmed_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"confirmedBalance")) :: Data.ProtoLens.FieldDescriptor WalletAccountBalance unconfirmedBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "unconfirmed_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"unconfirmedBalance")) :: Data.ProtoLens.FieldDescriptor WalletAccountBalance in Data.Map.fromList [(Data.ProtoLens.Tag 1, confirmedBalance__field_descriptor), (Data.ProtoLens.Tag 2, unconfirmedBalance__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _WalletAccountBalance'_unknownFields (\ x__ y__ -> x__ {_WalletAccountBalance'_unknownFields = y__}) defMessage = WalletAccountBalance'_constructor {_WalletAccountBalance'confirmedBalance = Data.ProtoLens.fieldDefault, _WalletAccountBalance'unconfirmedBalance = Data.ProtoLens.fieldDefault, _WalletAccountBalance'_unknownFields = []} parseMessage = let loop :: WalletAccountBalance -> Data.ProtoLens.Encoding.Bytes.Parser WalletAccountBalance loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "confirmed_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"confirmedBalance") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "unconfirmed_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"unconfirmedBalance") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "WalletAccountBalance" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"confirmedBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"unconfirmedBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData WalletAccountBalance where rnf = \ x__ -> Control.DeepSeq.deepseq (_WalletAccountBalance'_unknownFields x__) (Control.DeepSeq.deepseq (_WalletAccountBalance'confirmedBalance x__) (Control.DeepSeq.deepseq (_WalletAccountBalance'unconfirmedBalance x__) ())) {- | Fields : -} data WalletBalanceRequest = WalletBalanceRequest'_constructor {_WalletBalanceRequest'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show WalletBalanceRequest where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out WalletBalanceRequest instance Data.ProtoLens.Message WalletBalanceRequest where messageName _ = Data.Text.pack "lnrpc.WalletBalanceRequest" packedMessageDescriptor _ = "\n\ \\DC4WalletBalanceRequest" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _WalletBalanceRequest'_unknownFields (\ x__ y__ -> x__ {_WalletBalanceRequest'_unknownFields = y__}) defMessage = WalletBalanceRequest'_constructor {_WalletBalanceRequest'_unknownFields = []} parseMessage = let loop :: WalletBalanceRequest -> Data.ProtoLens.Encoding.Bytes.Parser WalletBalanceRequest loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of { wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) } in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "WalletBalanceRequest" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData WalletBalanceRequest where rnf = \ x__ -> Control.DeepSeq.deepseq (_WalletBalanceRequest'_unknownFields x__) () {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.totalBalance' @:: Lens' WalletBalanceResponse Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.confirmedBalance' @:: Lens' WalletBalanceResponse Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.unconfirmedBalance' @:: Lens' WalletBalanceResponse Data.Int.Int64@ * 'Proto.Lnrpc.Ln0_Fields.accountBalance' @:: Lens' WalletBalanceResponse (Data.Map.Map Data.Text.Text WalletAccountBalance)@ -} data WalletBalanceResponse = WalletBalanceResponse'_constructor {_WalletBalanceResponse'totalBalance :: !Data.Int.Int64, _WalletBalanceResponse'confirmedBalance :: !Data.Int.Int64, _WalletBalanceResponse'unconfirmedBalance :: !Data.Int.Int64, _WalletBalanceResponse'accountBalance :: !(Data.Map.Map Data.Text.Text WalletAccountBalance), _WalletBalanceResponse'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show WalletBalanceResponse where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out WalletBalanceResponse instance Data.ProtoLens.Field.HasField WalletBalanceResponse "totalBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletBalanceResponse'totalBalance (\ x__ y__ -> x__ {_WalletBalanceResponse'totalBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField WalletBalanceResponse "confirmedBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletBalanceResponse'confirmedBalance (\ x__ y__ -> x__ {_WalletBalanceResponse'confirmedBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField WalletBalanceResponse "unconfirmedBalance" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletBalanceResponse'unconfirmedBalance (\ x__ y__ -> x__ {_WalletBalanceResponse'unconfirmedBalance = y__})) Prelude.id instance Data.ProtoLens.Field.HasField WalletBalanceResponse "accountBalance" (Data.Map.Map Data.Text.Text WalletAccountBalance) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletBalanceResponse'accountBalance (\ x__ y__ -> x__ {_WalletBalanceResponse'accountBalance = y__})) Prelude.id instance Data.ProtoLens.Message WalletBalanceResponse where messageName _ = Data.Text.pack "lnrpc.WalletBalanceResponse" packedMessageDescriptor _ = "\n\ \\NAKWalletBalanceResponse\DC2#\n\ \\rtotal_balance\CAN\SOH \SOH(\ETXR\ftotalBalance\DC2+\n\ \\DC1confirmed_balance\CAN\STX \SOH(\ETXR\DLEconfirmedBalance\DC2/\n\ \\DC3unconfirmed_balance\CAN\ETX \SOH(\ETXR\DC2unconfirmedBalance\DC2Y\n\ \\SIaccount_balance\CAN\EOT \ETX(\v20.lnrpc.WalletBalanceResponse.AccountBalanceEntryR\SOaccountBalance\SUB^\n\ \\DC3AccountBalanceEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\tR\ETXkey\DC21\n\ \\ENQvalue\CAN\STX \SOH(\v2\ESC.lnrpc.WalletAccountBalanceR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let totalBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "total_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalBalance")) :: Data.ProtoLens.FieldDescriptor WalletBalanceResponse confirmedBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "confirmed_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"confirmedBalance")) :: Data.ProtoLens.FieldDescriptor WalletBalanceResponse unconfirmedBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "unconfirmed_balance" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"unconfirmedBalance")) :: Data.ProtoLens.FieldDescriptor WalletBalanceResponse accountBalance__field_descriptor = Data.ProtoLens.FieldDescriptor "account_balance" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor WalletBalanceResponse'AccountBalanceEntry) (Data.ProtoLens.MapField (Data.ProtoLens.Field.field @"key") (Data.ProtoLens.Field.field @"value") (Data.ProtoLens.Field.field @"accountBalance")) :: Data.ProtoLens.FieldDescriptor WalletBalanceResponse in Data.Map.fromList [(Data.ProtoLens.Tag 1, totalBalance__field_descriptor), (Data.ProtoLens.Tag 2, confirmedBalance__field_descriptor), (Data.ProtoLens.Tag 3, unconfirmedBalance__field_descriptor), (Data.ProtoLens.Tag 4, accountBalance__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _WalletBalanceResponse'_unknownFields (\ x__ y__ -> x__ {_WalletBalanceResponse'_unknownFields = y__}) defMessage = WalletBalanceResponse'_constructor {_WalletBalanceResponse'totalBalance = Data.ProtoLens.fieldDefault, _WalletBalanceResponse'confirmedBalance = Data.ProtoLens.fieldDefault, _WalletBalanceResponse'unconfirmedBalance = Data.ProtoLens.fieldDefault, _WalletBalanceResponse'accountBalance = Data.Map.empty, _WalletBalanceResponse'_unknownFields = []} parseMessage = let loop :: WalletBalanceResponse -> Data.ProtoLens.Encoding.Bytes.Parser WalletBalanceResponse loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "total_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalBalance") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "confirmed_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"confirmedBalance") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "unconfirmed_balance" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"unconfirmedBalance") y x) 34 -> do !(entry :: WalletBalanceResponse'AccountBalanceEntry) <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "account_balance" (let key = Lens.Family2.view (Data.ProtoLens.Field.field @"key") entry value = Lens.Family2.view (Data.ProtoLens.Field.field @"value") entry in loop (Lens.Family2.over (Data.ProtoLens.Field.field @"accountBalance") (\ !t -> Data.Map.insert key value t) x)) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "WalletBalanceResponse" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"totalBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"confirmedBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"unconfirmedBalance") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (Data.Monoid.mconcat (Prelude.map (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage (Lens.Family2.set (Data.ProtoLens.Field.field @"key") (Prelude.fst _v) (Lens.Family2.set (Data.ProtoLens.Field.field @"value") (Prelude.snd _v) (Data.ProtoLens.defMessage :: WalletBalanceResponse'AccountBalanceEntry))))) (Data.Map.toList (Lens.Family2.view (Data.ProtoLens.Field.field @"accountBalance") _x)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))) instance Control.DeepSeq.NFData WalletBalanceResponse where rnf = \ x__ -> Control.DeepSeq.deepseq (_WalletBalanceResponse'_unknownFields x__) (Control.DeepSeq.deepseq (_WalletBalanceResponse'totalBalance x__) (Control.DeepSeq.deepseq (_WalletBalanceResponse'confirmedBalance x__) (Control.DeepSeq.deepseq (_WalletBalanceResponse'unconfirmedBalance x__) (Control.DeepSeq.deepseq (_WalletBalanceResponse'accountBalance x__) ())))) {- | Fields : * 'Proto.Lnrpc.Ln0_Fields.key' @:: Lens' WalletBalanceResponse'AccountBalanceEntry Data.Text.Text@ * 'Proto.Lnrpc.Ln0_Fields.value' @:: Lens' WalletBalanceResponse'AccountBalanceEntry WalletAccountBalance@ * 'Proto.Lnrpc.Ln0_Fields.maybe'value' @:: Lens' WalletBalanceResponse'AccountBalanceEntry (Prelude.Maybe WalletAccountBalance)@ -} data WalletBalanceResponse'AccountBalanceEntry = WalletBalanceResponse'AccountBalanceEntry'_constructor {_WalletBalanceResponse'AccountBalanceEntry'key :: !Data.Text.Text, _WalletBalanceResponse'AccountBalanceEntry'value :: !(Prelude.Maybe WalletAccountBalance), _WalletBalanceResponse'AccountBalanceEntry'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord, GHC.Generics.Generic) instance Prelude.Show WalletBalanceResponse'AccountBalanceEntry where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Text.PrettyPrint.GenericPretty.Out WalletBalanceResponse'AccountBalanceEntry instance Data.ProtoLens.Field.HasField WalletBalanceResponse'AccountBalanceEntry "key" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletBalanceResponse'AccountBalanceEntry'key (\ x__ y__ -> x__ {_WalletBalanceResponse'AccountBalanceEntry'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField WalletBalanceResponse'AccountBalanceEntry "value" WalletAccountBalance where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletBalanceResponse'AccountBalanceEntry'value (\ x__ y__ -> x__ {_WalletBalanceResponse'AccountBalanceEntry'value = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField WalletBalanceResponse'AccountBalanceEntry "maybe'value" (Prelude.Maybe WalletAccountBalance) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WalletBalanceResponse'AccountBalanceEntry'value (\ x__ y__ -> x__ {_WalletBalanceResponse'AccountBalanceEntry'value = y__})) Prelude.id instance Data.ProtoLens.Message WalletBalanceResponse'AccountBalanceEntry where messageName _ = Data.Text.pack "lnrpc.WalletBalanceResponse.AccountBalanceEntry" packedMessageDescriptor _ = "\n\ \\DC3AccountBalanceEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\tR\ETXkey\DC21\n\ \\ENQvalue\CAN\STX \SOH(\v2\ESC.lnrpc.WalletAccountBalanceR\ENQvalue:\STX8\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"key")) :: Data.ProtoLens.FieldDescriptor WalletBalanceResponse'AccountBalanceEntry value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor WalletAccountBalance) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'value")) :: Data.ProtoLens.FieldDescriptor WalletBalanceResponse'AccountBalanceEntry in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _WalletBalanceResponse'AccountBalanceEntry'_unknownFields (\ x__ y__ -> x__ {_WalletBalanceResponse'AccountBalanceEntry'_unknownFields = y__}) defMessage = WalletBalanceResponse'AccountBalanceEntry'_constructor {_WalletBalanceResponse'AccountBalanceEntry'key = Data.ProtoLens.fieldDefault, _WalletBalanceResponse'AccountBalanceEntry'value = Prelude.Nothing, _WalletBalanceResponse'AccountBalanceEntry'_unknownFields = []} parseMessage = let loop :: WalletBalanceResponse'AccountBalanceEntry -> Data.ProtoLens.Encoding.Bytes.Parser WalletBalanceResponse'AccountBalanceEntry loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "AccountBalanceEntry" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"key") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'value") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData WalletBalanceResponse'AccountBalanceEntry where rnf = \ x__ -> Control.DeepSeq.deepseq (_WalletBalanceResponse'AccountBalanceEntry'_unknownFields x__) (Control.DeepSeq.deepseq (_WalletBalanceResponse'AccountBalanceEntry'key x__) (Control.DeepSeq.deepseq (_WalletBalanceResponse'AccountBalanceEntry'value x__) ())) packedFileDescriptor :: Data.ByteString.ByteString packedFileDescriptor = "\n\ \\SIlnrpc/ln0.proto\DC2\ENQlnrpc\"Y\n\ \\aFeature\DC2\DC2\n\ \\EOTname\CAN\STX \SOH(\tR\EOTname\DC2\US\n\ \\vis_required\CAN\ETX \SOH(\bR\n\ \isRequired\DC2\EM\n\ \\bis_known\CAN\EOT \SOH(\bR\aisKnown\"8\n\ \\tRouteHint\DC2+\n\ \\thop_hints\CAN\SOH \ETX(\v2\SO.lnrpc.HopHintR\bhopHints\"\207\SOH\n\ \\aHopHint\DC2\ETB\n\ \\anode_id\CAN\SOH \SOH(\tR\ACKnodeId\DC2\ESC\n\ \\achan_id\CAN\STX \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\"\n\ \\rfee_base_msat\CAN\ETX \SOH(\rR\vfeeBaseMsat\DC2>\n\ \\ESCfee_proportional_millionths\CAN\EOT \SOH(\rR\EMfeeProportionalMillionths\DC2*\n\ \\DC1cltv_expiry_delta\CAN\ENQ \SOH(\rR\SIcltvExpiryDelta\"\157\SOH\n\ \\fChannelPoint\DC2.\n\ \\DC2funding_txid_bytes\CAN\SOH \SOH(\fH\NULR\DLEfundingTxidBytes\DC2*\n\ \\DLEfunding_txid_str\CAN\STX \SOH(\tH\NULR\SOfundingTxidStr\DC2!\n\ \\foutput_index\CAN\ETX \SOH(\rR\voutputIndexB\SO\n\ \\ffunding_txid\"g\n\ \\bOutPoint\DC2\GS\n\ \\n\ \txid_bytes\CAN\SOH \SOH(\fR\ttxidBytes\DC2\EM\n\ \\btxid_str\CAN\STX \SOH(\tR\atxidStr\DC2!\n\ \\foutput_index\CAN\ETX \SOH(\rR\voutputIndex\"\132\STX\n\ \\DC2ChannelConstraints\DC2\ESC\n\ \\tcsv_delay\CAN\SOH \SOH(\rR\bcsvDelay\DC2(\n\ \\DLEchan_reserve_sat\CAN\STX \SOH(\EOTR\SOchanReserveSat\DC2$\n\ \\SOdust_limit_sat\CAN\ETX \SOH(\EOTR\fdustLimitSat\DC2/\n\ \\DC4max_pending_amt_msat\CAN\EOT \SOH(\EOTR\DC1maxPendingAmtMsat\DC2\"\n\ \\rmin_htlc_msat\CAN\ENQ \SOH(\EOTR\vminHtlcMsat\DC2,\n\ \\DC2max_accepted_htlcs\CAN\ACK \SOH(\rR\DLEmaxAcceptedHtlcs\"\215\t\n\ \\aChannel\DC2\SYN\n\ \\ACKactive\CAN\SOH \SOH(\bR\ACKactive\DC2#\n\ \\rremote_pubkey\CAN\STX \SOH(\tR\fremotePubkey\DC2#\n\ \\rchannel_point\CAN\ETX \SOH(\tR\fchannelPoint\DC2\ESC\n\ \\achan_id\CAN\EOT \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\SUB\n\ \\bcapacity\CAN\ENQ \SOH(\ETXR\bcapacity\DC2#\n\ \\rlocal_balance\CAN\ACK \SOH(\ETXR\flocalBalance\DC2%\n\ \\SOremote_balance\CAN\a \SOH(\ETXR\rremoteBalance\DC2\GS\n\ \\n\ \commit_fee\CAN\b \SOH(\ETXR\tcommitFee\DC2#\n\ \\rcommit_weight\CAN\t \SOH(\ETXR\fcommitWeight\DC2\FS\n\ \\n\ \fee_per_kw\CAN\n\ \ \SOH(\ETXR\bfeePerKw\DC2+\n\ \\DC1unsettled_balance\CAN\v \SOH(\ETXR\DLEunsettledBalance\DC2.\n\ \\DC3total_satoshis_sent\CAN\f \SOH(\ETXR\DC1totalSatoshisSent\DC26\n\ \\ETBtotal_satoshis_received\CAN\r \SOH(\ETXR\NAKtotalSatoshisReceived\DC2\US\n\ \\vnum_updates\CAN\SO \SOH(\EOTR\n\ \numUpdates\DC20\n\ \\rpending_htlcs\CAN\SI \ETX(\v2\v.lnrpc.HTLCR\fpendingHtlcs\DC2\US\n\ \\tcsv_delay\CAN\DLE \SOH(\rR\bcsvDelayB\STX\CAN\SOH\DC2\CAN\n\ \\aprivate\CAN\DC1 \SOH(\bR\aprivate\DC2\FS\n\ \\tinitiator\CAN\DC2 \SOH(\bR\tinitiator\DC2*\n\ \\DC1chan_status_flags\CAN\DC3 \SOH(\tR\SIchanStatusFlags\DC27\n\ \\SYNlocal_chan_reserve_sat\CAN\DC4 \SOH(\ETXR\DC3localChanReserveSatB\STX\CAN\SOH\DC29\n\ \\ETBremote_chan_reserve_sat\CAN\NAK \SOH(\ETXR\DC4remoteChanReserveSatB\STX\CAN\SOH\DC2.\n\ \\DC1static_remote_key\CAN\SYN \SOH(\bR\SIstaticRemoteKeyB\STX\CAN\SOH\DC2>\n\ \\SIcommitment_type\CAN\SUB \SOH(\SO2\NAK.lnrpc.CommitmentTypeR\SOcommitmentType\DC2\SUB\n\ \\blifetime\CAN\ETB \SOH(\ETXR\blifetime\DC2\SYN\n\ \\ACKuptime\CAN\CAN \SOH(\ETXR\ACKuptime\DC2#\n\ \\rclose_address\CAN\EM \SOH(\tR\fcloseAddress\DC2&\n\ \\SIpush_amount_sat\CAN\ESC \SOH(\EOTR\rpushAmountSat\DC2\US\n\ \\vthaw_height\CAN\FS \SOH(\rR\n\ \thawHeight\DC2F\n\ \\DC1local_constraints\CAN\GS \SOH(\v2\EM.lnrpc.ChannelConstraintsR\DLElocalConstraints\DC2H\n\ \\DC2remote_constraints\CAN\RS \SOH(\v2\EM.lnrpc.ChannelConstraintsR\DC1remoteConstraints\"\216\ENQ\n\ \\DC3ChannelCloseSummary\DC2#\n\ \\rchannel_point\CAN\SOH \SOH(\tR\fchannelPoint\DC2\ESC\n\ \\achan_id\CAN\STX \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\GS\n\ \\n\ \chain_hash\CAN\ETX \SOH(\tR\tchainHash\DC2&\n\ \\SIclosing_tx_hash\CAN\EOT \SOH(\tR\rclosingTxHash\DC2#\n\ \\rremote_pubkey\CAN\ENQ \SOH(\tR\fremotePubkey\DC2\SUB\n\ \\bcapacity\CAN\ACK \SOH(\ETXR\bcapacity\DC2!\n\ \\fclose_height\CAN\a \SOH(\rR\vcloseHeight\DC2'\n\ \\SIsettled_balance\CAN\b \SOH(\ETXR\SOsettledBalance\DC2.\n\ \\DC3time_locked_balance\CAN\t \SOH(\ETXR\DC1timeLockedBalance\DC2E\n\ \\n\ \close_type\CAN\n\ \ \SOH(\SO2&.lnrpc.ChannelCloseSummary.ClosureTypeR\tcloseType\DC27\n\ \\SOopen_initiator\CAN\v \SOH(\SO2\DLE.lnrpc.InitiatorR\ropenInitiator\DC29\n\ \\SIclose_initiator\CAN\f \SOH(\SO2\DLE.lnrpc.InitiatorR\SOcloseInitiator\DC23\n\ \\vresolutions\CAN\r \ETX(\v2\DC1.lnrpc.ResolutionR\vresolutions\"\138\SOH\n\ \\vClosureType\DC2\NAK\n\ \\DC1COOPERATIVE_CLOSE\DLE\NUL\DC2\NAK\n\ \\DC1LOCAL_FORCE_CLOSE\DLE\SOH\DC2\SYN\n\ \\DC2REMOTE_FORCE_CLOSE\DLE\STX\DC2\DLE\n\ \\fBREACH_CLOSE\DLE\ETX\DC2\DC4\n\ \\DLEFUNDING_CANCELED\DLE\EOT\DC2\r\n\ \\tABANDONED\DLE\ENQ\"F\n\ \\rPendingUpdate\DC2\DC2\n\ \\EOTtxid\CAN\SOH \SOH(\fR\EOTtxid\DC2!\n\ \\foutput_index\CAN\STX \SOH(\rR\voutputIndex\"\235\SOH\n\ \\n\ \Resolution\DC2>\n\ \\SIresolution_type\CAN\SOH \SOH(\SO2\NAK.lnrpc.ResolutionTypeR\SOresolutionType\DC22\n\ \\aoutcome\CAN\STX \SOH(\SO2\CAN.lnrpc.ResolutionOutcomeR\aoutcome\DC2+\n\ \\boutpoint\CAN\ETX \SOH(\v2\SI.lnrpc.OutPointR\boutpoint\DC2\GS\n\ \\n\ \amount_sat\CAN\EOT \SOH(\EOTR\tamountSat\DC2\GS\n\ \\n\ \sweep_txid\CAN\ENQ \SOH(\tR\tsweepTxid\"h\n\ \\bFeeLimit\DC2\SYN\n\ \\ENQfixed\CAN\SOH \SOH(\ETXH\NULR\ENQfixed\DC2\US\n\ \\n\ \fixed_msat\CAN\ETX \SOH(\ETXH\NULR\tfixedMsat\DC2\SUB\n\ \\apercent\CAN\STX \SOH(\ETXH\NULR\apercentB\a\n\ \\ENQlimit\"\134\STX\n\ \\EOTHTLC\DC2\SUB\n\ \\bincoming\CAN\SOH \SOH(\bR\bincoming\DC2\SYN\n\ \\ACKamount\CAN\STX \SOH(\ETXR\ACKamount\DC2\ESC\n\ \\thash_lock\CAN\ETX \SOH(\fR\bhashLock\DC2+\n\ \\DC1expiration_height\CAN\EOT \SOH(\rR\DLEexpirationHeight\DC2\GS\n\ \\n\ \htlc_index\CAN\ENQ \SOH(\EOTR\thtlcIndex\DC2-\n\ \\DC2forwarding_channel\CAN\ACK \SOH(\EOTR\DC1forwardingChannel\DC22\n\ \\NAKforwarding_htlc_index\CAN\a \SOH(\EOTR\DC3forwardingHtlcIndex\"H\n\ \\n\ \KeyLocator\DC2\GS\n\ \\n\ \key_family\CAN\SOH \SOH(\ENQR\tkeyFamily\DC2\ESC\n\ \\tkey_index\CAN\STX \SOH(\ENQR\bkeyIndex\"_\n\ \\rKeyDescriptor\DC2\"\n\ \\rraw_key_bytes\CAN\SOH \SOH(\fR\vrawKeyBytes\DC2*\n\ \\akey_loc\CAN\STX \SOH(\v2\DC1.lnrpc.KeyLocatorR\ACKkeyLoc\"\240\SOH\n\ \\rChanPointShim\DC2\DLE\n\ \\ETXamt\CAN\SOH \SOH(\ETXR\ETXamt\DC22\n\ \\n\ \chan_point\CAN\STX \SOH(\v2\DC3.lnrpc.ChannelPointR\tchanPoint\DC21\n\ \\tlocal_key\CAN\ETX \SOH(\v2\DC4.lnrpc.KeyDescriptorR\blocalKey\DC2\GS\n\ \\n\ \remote_key\CAN\EOT \SOH(\fR\tremoteKey\DC2&\n\ \\SIpending_chan_id\CAN\ENQ \SOH(\fR\rpendingChanId\DC2\US\n\ \\vthaw_height\CAN\ACK \SOH(\rR\n\ \thawHeight\"n\n\ \\bPsbtShim\DC2&\n\ \\SIpending_chan_id\CAN\SOH \SOH(\fR\rpendingChanId\DC2\ESC\n\ \\tbase_psbt\CAN\STX \SOH(\fR\bbasePsbt\DC2\GS\n\ \\n\ \no_publish\CAN\ETX \SOH(\bR\tnoPublish\"\133\SOH\n\ \\vFundingShim\DC2>\n\ \\SIchan_point_shim\CAN\SOH \SOH(\v2\DC4.lnrpc.ChanPointShimH\NULR\rchanPointShim\DC2.\n\ \\tpsbt_shim\CAN\STX \SOH(\v2\SI.lnrpc.PsbtShimH\NULR\bpsbtShimB\ACK\n\ \\EOTshim\";\n\ \\DC1FundingShimCancel\DC2&\n\ \\SIpending_chan_id\CAN\SOH \SOH(\fR\rpendingChanId\"\129\SOH\n\ \\DC1FundingPsbtVerify\DC2\US\n\ \\vfunded_psbt\CAN\SOH \SOH(\fR\n\ \fundedPsbt\DC2&\n\ \\SIpending_chan_id\CAN\STX \SOH(\fR\rpendingChanId\DC2#\n\ \\rskip_finalize\CAN\ETX \SOH(\bR\fskipFinalize\"\128\SOH\n\ \\DC3FundingPsbtFinalize\DC2\US\n\ \\vsigned_psbt\CAN\SOH \SOH(\fR\n\ \signedPsbt\DC2&\n\ \\SIpending_chan_id\CAN\STX \SOH(\fR\rpendingChanId\DC2 \n\ \\ffinal_raw_tx\CAN\ETX \SOH(\fR\n\ \finalRawTx\"\153\STX\n\ \\DC4FundingTransitionMsg\DC29\n\ \\rshim_register\CAN\SOH \SOH(\v2\DC2.lnrpc.FundingShimH\NULR\fshimRegister\DC2;\n\ \\vshim_cancel\CAN\STX \SOH(\v2\CAN.lnrpc.FundingShimCancelH\NULR\n\ \shimCancel\DC2;\n\ \\vpsbt_verify\CAN\ETX \SOH(\v2\CAN.lnrpc.FundingPsbtVerifyH\NULR\n\ \psbtVerify\DC2A\n\ \\rpsbt_finalize\CAN\EOT \SOH(\v2\SUB.lnrpc.FundingPsbtFinalizeH\NULR\fpsbtFinalizeB\t\n\ \\atrigger\"\SYN\n\ \\DC4FundingStateStepResp\"\204\SOH\n\ \\vPendingHTLC\DC2\SUB\n\ \\bincoming\CAN\SOH \SOH(\bR\bincoming\DC2\SYN\n\ \\ACKamount\CAN\STX \SOH(\ETXR\ACKamount\DC2\SUB\n\ \\boutpoint\CAN\ETX \SOH(\tR\boutpoint\DC2'\n\ \\SImaturity_height\CAN\EOT \SOH(\rR\SOmaturityHeight\DC2.\n\ \\DC3blocks_til_maturity\CAN\ENQ \SOH(\ENQR\DC1blocksTilMaturity\DC2\DC4\n\ \\ENQstage\CAN\ACK \SOH(\rR\ENQstage\"\CAN\n\ \\SYNPendingChannelsRequest\"\181\DC2\n\ \\ETBPendingChannelsResponse\DC2.\n\ \\DC3total_limbo_balance\CAN\SOH \SOH(\ETXR\DC1totalLimboBalance\DC2e\n\ \\NAKpending_open_channels\CAN\STX \ETX(\v21.lnrpc.PendingChannelsResponse.PendingOpenChannelR\DC3pendingOpenChannels\DC2j\n\ \\CANpending_closing_channels\CAN\ETX \ETX(\v2,.lnrpc.PendingChannelsResponse.ClosedChannelR\SYNpendingClosingChannelsB\STX\CAN\SOH\DC2v\n\ \\RSpending_force_closing_channels\CAN\EOT \ETX(\v21.lnrpc.PendingChannelsResponse.ForceClosedChannelR\ESCpendingForceClosingChannels\DC2h\n\ \\SYNwaiting_close_channels\CAN\ENQ \ETX(\v22.lnrpc.PendingChannelsResponse.WaitingCloseChannelR\DC4waitingCloseChannels\SUB\217\ETX\n\ \\SOPendingChannel\DC2&\n\ \\SIremote_node_pub\CAN\SOH \SOH(\tR\rremoteNodePub\DC2#\n\ \\rchannel_point\CAN\STX \SOH(\tR\fchannelPoint\DC2\SUB\n\ \\bcapacity\CAN\ETX \SOH(\ETXR\bcapacity\DC2#\n\ \\rlocal_balance\CAN\EOT \SOH(\ETXR\flocalBalance\DC2%\n\ \\SOremote_balance\CAN\ENQ \SOH(\ETXR\rremoteBalance\DC23\n\ \\SYNlocal_chan_reserve_sat\CAN\ACK \SOH(\ETXR\DC3localChanReserveSat\DC25\n\ \\ETBremote_chan_reserve_sat\CAN\a \SOH(\ETXR\DC4remoteChanReserveSat\DC2.\n\ \\tinitiator\CAN\b \SOH(\SO2\DLE.lnrpc.InitiatorR\tinitiator\DC2>\n\ \\SIcommitment_type\CAN\t \SOH(\SO2\NAK.lnrpc.CommitmentTypeR\SOcommitmentType\DC26\n\ \\ETBnum_forwarding_packages\CAN\n\ \ \SOH(\ETXR\NAKnumForwardingPackages\SUB\240\SOH\n\ \\DC2PendingOpenChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2/\n\ \\DC3confirmation_height\CAN\STX \SOH(\rR\DC2confirmationHeight\DC2\GS\n\ \\n\ \commit_fee\CAN\EOT \SOH(\ETXR\tcommitFee\DC2#\n\ \\rcommit_weight\CAN\ENQ \SOH(\ETXR\fcommitWeight\DC2\FS\n\ \\n\ \fee_per_kw\CAN\ACK \SOH(\ETXR\bfeePerKw\SUB\209\SOH\n\ \\DC3WaitingCloseChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2#\n\ \\rlimbo_balance\CAN\STX \SOH(\ETXR\flimboBalance\DC2L\n\ \\vcommitments\CAN\ETX \SOH(\v2*.lnrpc.PendingChannelsResponse.CommitmentsR\vcommitments\SUB\163\STX\n\ \\vCommitments\DC2\GS\n\ \\n\ \local_txid\CAN\SOH \SOH(\tR\tlocalTxid\DC2\US\n\ \\vremote_txid\CAN\STX \SOH(\tR\n\ \remoteTxid\DC2.\n\ \\DC3remote_pending_txid\CAN\ETX \SOH(\tR\DC1remotePendingTxid\DC2/\n\ \\DC4local_commit_fee_sat\CAN\EOT \SOH(\EOTR\DC1localCommitFeeSat\DC21\n\ \\NAKremote_commit_fee_sat\CAN\ENQ \SOH(\EOTR\DC2remoteCommitFeeSat\DC2@\n\ \\GSremote_pending_commit_fee_sat\CAN\ACK \SOH(\EOTR\EMremotePendingCommitFeeSat\SUB{\n\ \\rClosedChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2!\n\ \\fclosing_txid\CAN\STX \SOH(\tR\vclosingTxid\SUB\238\ETX\n\ \\DC2ForceClosedChannel\DC2G\n\ \\achannel\CAN\SOH \SOH(\v2-.lnrpc.PendingChannelsResponse.PendingChannelR\achannel\DC2!\n\ \\fclosing_txid\CAN\STX \SOH(\tR\vclosingTxid\DC2#\n\ \\rlimbo_balance\CAN\ETX \SOH(\ETXR\flimboBalance\DC2'\n\ \\SImaturity_height\CAN\EOT \SOH(\rR\SOmaturityHeight\DC2.\n\ \\DC3blocks_til_maturity\CAN\ENQ \SOH(\ENQR\DC1blocksTilMaturity\DC2+\n\ \\DC1recovered_balance\CAN\ACK \SOH(\ETXR\DLErecoveredBalance\DC27\n\ \\rpending_htlcs\CAN\b \ETX(\v2\DC2.lnrpc.PendingHTLCR\fpendingHtlcs\DC2U\n\ \\ACKanchor\CAN\t \SOH(\SO2=.lnrpc.PendingChannelsResponse.ForceClosedChannel.AnchorStateR\ACKanchor\"1\n\ \\vAnchorState\DC2\t\n\ \\ENQLIMBO\DLE\NUL\DC2\r\n\ \\tRECOVERED\DLE\SOH\DC2\b\n\ \\EOTLOST\DLE\STX\"\SUB\n\ \\CANChannelEventSubscription\"\255\EOT\n\ \\DC2ChannelEventUpdate\DC23\n\ \\fopen_channel\CAN\SOH \SOH(\v2\SO.lnrpc.ChannelH\NULR\vopenChannel\DC2C\n\ \\SOclosed_channel\CAN\STX \SOH(\v2\SUB.lnrpc.ChannelCloseSummaryH\NULR\rclosedChannel\DC2<\n\ \\SOactive_channel\CAN\ETX \SOH(\v2\DC3.lnrpc.ChannelPointH\NULR\ractiveChannel\DC2@\n\ \\DLEinactive_channel\CAN\EOT \SOH(\v2\DC3.lnrpc.ChannelPointH\NULR\SIinactiveChannel\DC2H\n\ \\DC4pending_open_channel\CAN\ACK \SOH(\v2\DC4.lnrpc.PendingUpdateH\NULR\DC2pendingOpenChannel\DC2K\n\ \\SYNfully_resolved_channel\CAN\a \SOH(\v2\DC3.lnrpc.ChannelPointH\NULR\DC4fullyResolvedChannel\DC28\n\ \\EOTtype\CAN\ENQ \SOH(\SO2$.lnrpc.ChannelEventUpdate.UpdateTypeR\EOTtype\"\146\SOH\n\ \\n\ \UpdateType\DC2\DLE\n\ \\fOPEN_CHANNEL\DLE\NUL\DC2\DC2\n\ \\SOCLOSED_CHANNEL\DLE\SOH\DC2\DC2\n\ \\SOACTIVE_CHANNEL\DLE\STX\DC2\DC4\n\ \\DLEINACTIVE_CHANNEL\DLE\ETX\DC2\CAN\n\ \\DC4PENDING_OPEN_CHANNEL\DLE\EOT\DC2\SUB\n\ \\SYNFULLY_RESOLVED_CHANNEL\DLE\ENQB\t\n\ \\achannel\"t\n\ \\DC4WalletAccountBalance\DC2+\n\ \\DC1confirmed_balance\CAN\SOH \SOH(\ETXR\DLEconfirmedBalance\DC2/\n\ \\DC3unconfirmed_balance\CAN\STX \SOH(\ETXR\DC2unconfirmedBalance\"\SYN\n\ \\DC4WalletBalanceRequest\"\213\STX\n\ \\NAKWalletBalanceResponse\DC2#\n\ \\rtotal_balance\CAN\SOH \SOH(\ETXR\ftotalBalance\DC2+\n\ \\DC1confirmed_balance\CAN\STX \SOH(\ETXR\DLEconfirmedBalance\DC2/\n\ \\DC3unconfirmed_balance\CAN\ETX \SOH(\ETXR\DC2unconfirmedBalance\DC2Y\n\ \\SIaccount_balance\CAN\EOT \ETX(\v20.lnrpc.WalletBalanceResponse.AccountBalanceEntryR\SOaccountBalance\SUB^\n\ \\DC3AccountBalanceEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\tR\ETXkey\DC21\n\ \\ENQvalue\CAN\STX \SOH(\v2\ESC.lnrpc.WalletAccountBalanceR\ENQvalue:\STX8\SOH\".\n\ \\ACKAmount\DC2\DLE\n\ \\ETXsat\CAN\SOH \SOH(\EOTR\ETXsat\DC2\DC2\n\ \\EOTmsat\CAN\STX \SOH(\EOTR\EOTmsat\"\ETB\n\ \\NAKChannelBalanceRequest\"\128\EOT\n\ \\SYNChannelBalanceResponse\DC2\FS\n\ \\abalance\CAN\SOH \SOH(\ETXR\abalanceB\STX\CAN\SOH\DC24\n\ \\DC4pending_open_balance\CAN\STX \SOH(\ETXR\DC2pendingOpenBalanceB\STX\CAN\SOH\DC22\n\ \\rlocal_balance\CAN\ETX \SOH(\v2\r.lnrpc.AmountR\flocalBalance\DC24\n\ \\SOremote_balance\CAN\EOT \SOH(\v2\r.lnrpc.AmountR\rremoteBalance\DC2E\n\ \\ETBunsettled_local_balance\CAN\ENQ \SOH(\v2\r.lnrpc.AmountR\NAKunsettledLocalBalance\DC2G\n\ \\CANunsettled_remote_balance\CAN\ACK \SOH(\v2\r.lnrpc.AmountR\SYNunsettledRemoteBalance\DC2J\n\ \\SUBpending_open_local_balance\CAN\a \SOH(\v2\r.lnrpc.AmountR\ETBpendingOpenLocalBalance\DC2L\n\ \\ESCpending_open_remote_balance\CAN\b \SOH(\v2\r.lnrpc.AmountR\CANpendingOpenRemoteBalance\"\174\ACK\n\ \\DC2QueryRoutesRequest\DC2\ETB\n\ \\apub_key\CAN\SOH \SOH(\tR\ACKpubKey\DC2\DLE\n\ \\ETXamt\CAN\STX \SOH(\ETXR\ETXamt\DC2\EM\n\ \\bamt_msat\CAN\f \SOH(\ETXR\aamtMsat\DC2(\n\ \\DLEfinal_cltv_delta\CAN\EOT \SOH(\ENQR\SOfinalCltvDelta\DC2,\n\ \\tfee_limit\CAN\ENQ \SOH(\v2\SI.lnrpc.FeeLimitR\bfeeLimit\DC2#\n\ \\rignored_nodes\CAN\ACK \ETX(\fR\fignoredNodes\DC2;\n\ \\rignored_edges\CAN\a \ETX(\v2\DC2.lnrpc.EdgeLocatorR\fignoredEdgesB\STX\CAN\SOH\DC2$\n\ \\SOsource_pub_key\CAN\b \SOH(\tR\fsourcePubKey\DC2.\n\ \\DC3use_mission_control\CAN\t \SOH(\bR\DC1useMissionControl\DC24\n\ \\rignored_pairs\CAN\n\ \ \ETX(\v2\SI.lnrpc.NodePairR\fignoredPairs\DC2\GS\n\ \\n\ \cltv_limit\CAN\v \SOH(\rR\tcltvLimit\DC2`\n\ \\DC3dest_custom_records\CAN\r \ETX(\v20.lnrpc.QueryRoutesRequest.DestCustomRecordsEntryR\DC1destCustomRecords\DC2,\n\ \\DLEoutgoing_chan_id\CAN\SO \SOH(\EOTR\SOoutgoingChanIdB\STX0\SOH\DC2&\n\ \\SIlast_hop_pubkey\CAN\SI \SOH(\fR\rlastHopPubkey\DC21\n\ \\vroute_hints\CAN\DLE \ETX(\v2\DLE.lnrpc.RouteHintR\n\ \routeHints\DC26\n\ \\rdest_features\CAN\DC1 \ETX(\SO2\DC1.lnrpc.FeatureBitR\fdestFeatures\SUBD\n\ \\SYNDestCustomRecordsEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\EOTR\ETXkey\DC2\DC4\n\ \\ENQvalue\CAN\STX \SOH(\fR\ENQvalue:\STX8\SOHJ\EOT\b\ETX\DLE\EOT\".\n\ \\bNodePair\DC2\DC2\n\ \\EOTfrom\CAN\SOH \SOH(\fR\EOTfrom\DC2\SO\n\ \\STXto\CAN\STX \SOH(\fR\STXto\"]\n\ \\vEdgeLocator\DC2!\n\ \\n\ \channel_id\CAN\SOH \SOH(\EOTR\tchannelIdB\STX0\SOH\DC2+\n\ \\DC1direction_reverse\CAN\STX \SOH(\bR\DLEdirectionReverse\"^\n\ \\DC3QueryRoutesResponse\DC2$\n\ \\ACKroutes\CAN\SOH \ETX(\v2\f.lnrpc.RouteR\ACKroutes\DC2!\n\ \\fsuccess_prob\CAN\STX \SOH(\SOHR\vsuccessProb\"\145\EOT\n\ \\ETXHop\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2'\n\ \\rchan_capacity\CAN\STX \SOH(\ETXR\fchanCapacityB\STX\CAN\SOH\DC2(\n\ \\SOamt_to_forward\CAN\ETX \SOH(\ETXR\famtToForwardB\STX\CAN\SOH\DC2\DC4\n\ \\ETXfee\CAN\EOT \SOH(\ETXR\ETXfeeB\STX\CAN\SOH\DC2\SYN\n\ \\ACKexpiry\CAN\ENQ \SOH(\rR\ACKexpiry\DC2-\n\ \\DC3amt_to_forward_msat\CAN\ACK \SOH(\ETXR\DLEamtToForwardMsat\DC2\EM\n\ \\bfee_msat\CAN\a \SOH(\ETXR\afeeMsat\DC2\ETB\n\ \\apub_key\CAN\b \SOH(\tR\ACKpubKey\DC2\US\n\ \\vtlv_payload\CAN\t \SOH(\bR\n\ \tlvPayload\DC2/\n\ \\n\ \mpp_record\CAN\n\ \ \SOH(\v2\DLE.lnrpc.MPPRecordR\tmppRecord\DC2/\n\ \\n\ \amp_record\CAN\f \SOH(\v2\DLE.lnrpc.AMPRecordR\tampRecord\DC2D\n\ \\SOcustom_records\CAN\v \ETX(\v2\GS.lnrpc.Hop.CustomRecordsEntryR\rcustomRecords\SUB@\n\ \\DC2CustomRecordsEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\EOTR\ETXkey\DC2\DC4\n\ \\ENQvalue\CAN\STX \SOH(\fR\ENQvalue:\STX8\SOH\"T\n\ \\tMPPRecord\DC2!\n\ \\fpayment_addr\CAN\v \SOH(\fR\vpaymentAddr\DC2$\n\ \\SOtotal_amt_msat\CAN\n\ \ \SOH(\ETXR\ftotalAmtMsat\"b\n\ \\tAMPRecord\DC2\GS\n\ \\n\ \root_share\CAN\SOH \SOH(\fR\trootShare\DC2\NAK\n\ \\ACKset_id\CAN\STX \SOH(\fR\ENQsetId\DC2\US\n\ \\vchild_index\CAN\ETX \SOH(\rR\n\ \childIndex\"\225\SOH\n\ \\ENQRoute\DC2&\n\ \\SItotal_time_lock\CAN\SOH \SOH(\rR\rtotalTimeLock\DC2!\n\ \\n\ \total_fees\CAN\STX \SOH(\ETXR\ttotalFeesB\STX\CAN\SOH\DC2\US\n\ \\ttotal_amt\CAN\ETX \SOH(\ETXR\btotalAmtB\STX\CAN\SOH\DC2\RS\n\ \\EOThops\CAN\EOT \ETX(\v2\n\ \.lnrpc.HopR\EOThops\DC2&\n\ \\SItotal_fees_msat\CAN\ENQ \SOH(\ETXR\rtotalFeesMsat\DC2$\n\ \\SOtotal_amt_msat\CAN\ACK \SOH(\ETXR\ftotalAmtMsat\"U\n\ \\SINodeInfoRequest\DC2\ETB\n\ \\apub_key\CAN\SOH \SOH(\tR\ACKpubKey\DC2)\n\ \\DLEinclude_channels\CAN\STX \SOH(\bR\SIincludeChannels\"\174\SOH\n\ \\bNodeInfo\DC2(\n\ \\EOTnode\CAN\SOH \SOH(\v2\DC4.lnrpc.LightningNodeR\EOTnode\DC2!\n\ \\fnum_channels\CAN\STX \SOH(\rR\vnumChannels\DC2%\n\ \\SOtotal_capacity\CAN\ETX \SOH(\ETXR\rtotalCapacity\DC2.\n\ \\bchannels\CAN\EOT \ETX(\v2\DC2.lnrpc.ChannelEdgeR\bchannels\"\180\STX\n\ \\rLightningNode\DC2\US\n\ \\vlast_update\CAN\SOH \SOH(\rR\n\ \lastUpdate\DC2\ETB\n\ \\apub_key\CAN\STX \SOH(\tR\ACKpubKey\DC2\DC4\n\ \\ENQalias\CAN\ETX \SOH(\tR\ENQalias\DC20\n\ \\taddresses\CAN\EOT \ETX(\v2\DC2.lnrpc.NodeAddressR\taddresses\DC2\DC4\n\ \\ENQcolor\CAN\ENQ \SOH(\tR\ENQcolor\DC2>\n\ \\bfeatures\CAN\ACK \ETX(\v2\".lnrpc.LightningNode.FeaturesEntryR\bfeatures\SUBK\n\ \\rFeaturesEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\rR\ETXkey\DC2$\n\ \\ENQvalue\CAN\STX \SOH(\v2\SO.lnrpc.FeatureR\ENQvalue:\STX8\SOH\";\n\ \\vNodeAddress\DC2\CAN\n\ \\anetwork\CAN\SOH \SOH(\tR\anetwork\DC2\DC2\n\ \\EOTaddr\CAN\STX \SOH(\tR\EOTaddr\"\134\STX\n\ \\rRoutingPolicy\DC2&\n\ \\SItime_lock_delta\CAN\SOH \SOH(\rR\rtimeLockDelta\DC2\EM\n\ \\bmin_htlc\CAN\STX \SOH(\ETXR\aminHtlc\DC2\"\n\ \\rfee_base_msat\CAN\ETX \SOH(\ETXR\vfeeBaseMsat\DC2-\n\ \\DC3fee_rate_milli_msat\CAN\EOT \SOH(\ETXR\DLEfeeRateMilliMsat\DC2\SUB\n\ \\bdisabled\CAN\ENQ \SOH(\bR\bdisabled\DC2\"\n\ \\rmax_htlc_msat\CAN\ACK \SOH(\EOTR\vmaxHtlcMsat\DC2\US\n\ \\vlast_update\CAN\a \SOH(\rR\n\ \lastUpdate\"\188\STX\n\ \\vChannelEdge\DC2!\n\ \\n\ \channel_id\CAN\SOH \SOH(\EOTR\tchannelIdB\STX0\SOH\DC2\GS\n\ \\n\ \chan_point\CAN\STX \SOH(\tR\tchanPoint\DC2#\n\ \\vlast_update\CAN\ETX \SOH(\rR\n\ \lastUpdateB\STX\CAN\SOH\DC2\ESC\n\ \\tnode1_pub\CAN\EOT \SOH(\tR\bnode1Pub\DC2\ESC\n\ \\tnode2_pub\CAN\ENQ \SOH(\tR\bnode2Pub\DC2\SUB\n\ \\bcapacity\CAN\ACK \SOH(\ETXR\bcapacity\DC27\n\ \\fnode1_policy\CAN\a \SOH(\v2\DC4.lnrpc.RoutingPolicyR\vnode1Policy\DC27\n\ \\fnode2_policy\CAN\b \SOH(\v2\DC4.lnrpc.RoutingPolicyR\vnode2Policy\"F\n\ \\DC3ChannelGraphRequest\DC2/\n\ \\DC3include_unannounced\CAN\SOH \SOH(\bR\DC2includeUnannounced\"d\n\ \\fChannelGraph\DC2*\n\ \\ENQnodes\CAN\SOH \ETX(\v2\DC4.lnrpc.LightningNodeR\ENQnodes\DC2(\n\ \\ENQedges\CAN\STX \ETX(\v2\DC2.lnrpc.ChannelEdgeR\ENQedges\"A\n\ \\DC2NodeMetricsRequest\DC2+\n\ \\ENQtypes\CAN\SOH \ETX(\SO2\NAK.lnrpc.NodeMetricTypeR\ENQtypes\"\225\SOH\n\ \\DC3NodeMetricsResponse\DC2l\n\ \\SYNbetweenness_centrality\CAN\SOH \ETX(\v25.lnrpc.NodeMetricsResponse.BetweennessCentralityEntryR\NAKbetweennessCentrality\SUB\\\n\ \\SUBBetweennessCentralityEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\tR\ETXkey\DC2(\n\ \\ENQvalue\CAN\STX \SOH(\v2\DC2.lnrpc.FloatMetricR\ENQvalue:\STX8\SOH\"N\n\ \\vFloatMetric\DC2\DC4\n\ \\ENQvalue\CAN\SOH \SOH(\SOHR\ENQvalue\DC2)\n\ \\DLEnormalized_value\CAN\STX \SOH(\SOHR\SInormalizedValue\".\n\ \\SIChanInfoRequest\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH\"\DC4\n\ \\DC2NetworkInfoRequest\"\213\ETX\n\ \\vNetworkInfo\DC2%\n\ \\SOgraph_diameter\CAN\SOH \SOH(\rR\rgraphDiameter\DC2$\n\ \\SOavg_out_degree\CAN\STX \SOH(\SOHR\favgOutDegree\DC2$\n\ \\SOmax_out_degree\CAN\ETX \SOH(\rR\fmaxOutDegree\DC2\ESC\n\ \\tnum_nodes\CAN\EOT \SOH(\rR\bnumNodes\DC2!\n\ \\fnum_channels\CAN\ENQ \SOH(\rR\vnumChannels\DC24\n\ \\SYNtotal_network_capacity\CAN\ACK \SOH(\ETXR\DC4totalNetworkCapacity\DC2(\n\ \\DLEavg_channel_size\CAN\a \SOH(\SOHR\SOavgChannelSize\DC2(\n\ \\DLEmin_channel_size\CAN\b \SOH(\ETXR\SOminChannelSize\DC2(\n\ \\DLEmax_channel_size\CAN\t \SOH(\ETXR\SOmaxChannelSize\DC25\n\ \\ETBmedian_channel_size_sat\CAN\n\ \ \SOH(\ETXR\DC4medianChannelSizeSat\DC2(\n\ \\DLEnum_zombie_chans\CAN\v \SOH(\EOTR\SOnumZombieChans\"\r\n\ \\vStopRequest\"\SO\n\ \\fStopResponse\"\ESC\n\ \\EMGraphTopologySubscription\"\205\SOH\n\ \\DC3GraphTopologyUpdate\DC24\n\ \\fnode_updates\CAN\SOH \ETX(\v2\DC1.lnrpc.NodeUpdateR\vnodeUpdates\DC2A\n\ \\SIchannel_updates\CAN\STX \ETX(\v2\CAN.lnrpc.ChannelEdgeUpdateR\SOchannelUpdates\DC2=\n\ \\fclosed_chans\CAN\ETX \ETX(\v2\SUB.lnrpc.ClosedChannelUpdateR\vclosedChans\"\239\STX\n\ \\n\ \NodeUpdate\DC2 \n\ \\taddresses\CAN\SOH \ETX(\tR\taddressesB\STX\CAN\SOH\DC2!\n\ \\fidentity_key\CAN\STX \SOH(\tR\videntityKey\DC2+\n\ \\SIglobal_features\CAN\ETX \SOH(\fR\SOglobalFeaturesB\STX\CAN\SOH\DC2\DC4\n\ \\ENQalias\CAN\EOT \SOH(\tR\ENQalias\DC2\DC4\n\ \\ENQcolor\CAN\ENQ \SOH(\tR\ENQcolor\DC29\n\ \\SOnode_addresses\CAN\a \ETX(\v2\DC2.lnrpc.NodeAddressR\rnodeAddresses\DC2;\n\ \\bfeatures\CAN\ACK \ETX(\v2\US.lnrpc.NodeUpdate.FeaturesEntryR\bfeatures\SUBK\n\ \\rFeaturesEntry\DC2\DLE\n\ \\ETXkey\CAN\SOH \SOH(\rR\ETXkey\DC2$\n\ \\ENQvalue\CAN\STX \SOH(\v2\SO.lnrpc.FeatureR\ENQvalue:\STX8\SOH\"\145\STX\n\ \\DC1ChannelEdgeUpdate\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC22\n\ \\n\ \chan_point\CAN\STX \SOH(\v2\DC3.lnrpc.ChannelPointR\tchanPoint\DC2\SUB\n\ \\bcapacity\CAN\ETX \SOH(\ETXR\bcapacity\DC2;\n\ \\SOrouting_policy\CAN\EOT \SOH(\v2\DC4.lnrpc.RoutingPolicyR\rroutingPolicy\DC2)\n\ \\DLEadvertising_node\CAN\ENQ \SOH(\tR\SIadvertisingNode\DC2'\n\ \\SIconnecting_node\CAN\ACK \SOH(\tR\SOconnectingNode\"\167\SOH\n\ \\DC3ClosedChannelUpdate\DC2\ESC\n\ \\achan_id\CAN\SOH \SOH(\EOTR\ACKchanIdB\STX0\SOH\DC2\SUB\n\ \\bcapacity\CAN\STX \SOH(\ETXR\bcapacity\DC2#\n\ \\rclosed_height\CAN\ETX \SOH(\rR\fclosedHeight\DC22\n\ \\n\ \chan_point\CAN\EOT 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\\ENQ\ENQ\NUL\STX\ENQ\SOH\DC2\ETX\SYN\EOT\SYN\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\ENQ\STX\DC2\ETX\SYN\EM\SUB\n\ \\v\n\ \\EOT\ENQ\NUL\STX\ACK\DC2\ETX\ETB\EOT\ESC\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\ACK\SOH\DC2\ETX\ETB\EOT\SYN\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\ACK\STX\DC2\ETX\ETB\EM\SUB\n\ \\v\n\ \\EOT\ENQ\NUL\STX\a\DC2\ETX\CAN\EOT\SYN\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\a\SOH\DC2\ETX\CAN\EOT\DC1\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\a\STX\DC2\ETX\CAN\DC4\NAK\n\ \\v\n\ \\EOT\ENQ\NUL\STX\b\DC2\ETX\EM\EOT\SYN\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\b\SOH\DC2\ETX\EM\EOT\DC1\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\b\STX\DC2\ETX\EM\DC4\NAK\n\ \\v\n\ \\EOT\ENQ\NUL\STX\t\DC2\ETX\SUB\EOT \n\ \\f\n\ \\ENQ\ENQ\NUL\STX\t\SOH\DC2\ETX\SUB\EOT\SUB\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\t\STX\DC2\ETX\SUB\GS\US\n\ \\v\n\ \\EOT\ENQ\NUL\STX\n\ \\DC2\ETX\ESC\EOT \n\ \\f\n\ \\ENQ\ENQ\NUL\STX\n\ \\SOH\DC2\ETX\ESC\EOT\SUB\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\n\ \\STX\DC2\ETX\ESC\GS\US\n\ \\v\n\ \\EOT\ENQ\NUL\STX\v\DC2\ETX\FS\EOT\US\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\v\SOH\DC2\ETX\FS\EOT\EM\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\v\STX\DC2\ETX\FS\FS\RS\n\ \\v\n\ \\EOT\ENQ\NUL\STX\f\DC2\ETX\GS\EOT\US\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\f\SOH\DC2\ETX\GS\EOT\EM\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\f\STX\DC2\ETX\GS\FS\RS\n\ \\v\n\ \\EOT\ENQ\NUL\STX\r\DC2\ETX\RS\EOT\SUB\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\r\SOH\DC2\ETX\RS\EOT\DC4\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\r\STX\DC2\ETX\RS\ETB\EM\n\ \\v\n\ \\EOT\ENQ\NUL\STX\SO\DC2\ETX\US\EOT\SUB\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SO\SOH\DC2\ETX\US\EOT\DC4\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SO\STX\DC2\ETX\US\ETB\EM\n\ \\v\n\ \\EOT\ENQ\NUL\STX\SI\DC2\ETX \EOT\DC1\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SI\SOH\DC2\ETX \EOT\v\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SI\STX\DC2\ETX \SO\DLE\n\ \\v\n\ \\EOT\ENQ\NUL\STX\DLE\DC2\ETX!\EOT\DC1\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DLE\SOH\DC2\ETX!\EOT\v\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DLE\STX\DC2\ETX!\SO\DLE\n\ \\v\n\ \\EOT\ENQ\NUL\STX\DC1\DC2\ETX\"\EOT\FS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC1\SOH\DC2\ETX\"\EOT\SYN\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC1\STX\DC2\ETX\"\EM\ESC\n\ \\v\n\ \\EOT\ENQ\NUL\STX\DC2\DC2\ETX#\EOT\FS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC2\SOH\DC2\ETX#\EOT\SYN\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC2\STX\DC2\ETX#\EM\ESC\n\ \\v\n\ \\EOT\ENQ\NUL\STX\DC3\DC2\ETX$\EOT\NAK\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC3\SOH\DC2\ETX$\EOT\SI\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC3\STX\DC2\ETX$\DC2\DC4\n\ \\v\n\ \\EOT\ENQ\NUL\STX\DC4\DC2\ETX%\EOT\NAK\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC4\SOH\DC2\ETX%\EOT\SI\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\DC4\STX\DC2\ETX%\DC2\DC4\n\ \\v\n\ \\EOT\ENQ\NUL\STX\NAK\DC2\ETX&\EOT#\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\NAK\SOH\DC2\ETX&\EOT\GS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\NAK\STX\DC2\ETX& \"\n\ \\v\n\ \\EOT\ENQ\NUL\STX\SYN\DC2\ETX'\EOT#\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SYN\SOH\DC2\ETX'\EOT\GS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SYN\STX\DC2\ETX' \"\n\ \\v\n\ \\EOT\ENQ\NUL\STX\ETB\DC2\ETX(\EOT\DC1\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\ETB\SOH\DC2\ETX(\EOT\v\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\ETB\STX\DC2\ETX(\SO\DLE\n\ \\v\n\ \\EOT\ENQ\NUL\STX\CAN\DC2\ETX)\EOT\DC1\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\CAN\SOH\DC2\ETX)\EOT\v\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\CAN\STX\DC2\ETX)\SO\DLE\n\ \\n\ \\n\ \\STX\EOT\SOH\DC2\EOT,\NUL2\SOH\n\ \\n\ \\n\ \\ETX\EOT\SOH\SOH\DC2\ETX,\b\DC1\n\ \l\n\ \\EOT\EOT\SOH\STX\NUL\DC2\ETX1\EOT#\SUB_\n\ \A list of hop hints that when chained together can assist in reaching a\n\ \specific destination.\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\EOT\DC2\ETX1\EOT\f\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ACK\DC2\ETX1\r\DC4\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\SOH\DC2\ETX1\NAK\RS\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ETX\DC2\ETX1!\"\n\ \\n\ \\n\ \\STX\EOT\STX\DC2\EOT4\NULF\SOH\n\ \\n\ \\n\ \\ETX\EOT\STX\SOH\DC2\ETX4\b\SI\n\ \F\n\ \\EOT\EOT\STX\STX\NUL\DC2\ETX6\EOT\ETB\SUB9 The public key of the node at the start of the channel.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ENQ\DC2\ETX6\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\SOH\DC2\ETX6\v\DC2\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ETX\DC2\ETX6\NAK\SYN\n\ \4\n\ \\EOT\EOT\STX\STX\SOH\DC2\ETX9\EOT,\SUB' The unique identifier of the channel.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ENQ\DC2\ETX9\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\SOH\DC2\ETX9\v\DC2\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ETX\DC2\ETX9\NAK\SYN\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\b\DC2\ETX9\ETB+\n\ \\r\n\ \\ACK\EOT\STX\STX\SOH\b\ACK\DC2\ETX9\CAN*\n\ \H\n\ \\EOT\EOT\STX\STX\STX\DC2\ETX<\EOT\GS\SUB; The base fee of the channel denominated in millisatoshis.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\ENQ\DC2\ETX<\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\SOH\DC2\ETX<\v\CAN\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\ETX\DC2\ETX<\ESC\FS\n\ \t\n\ \\EOT\EOT\STX\STX\ETX\DC2\ETXB\EOT+\SUBg\n\ \The fee rate of the channel for sending one satoshi across it denominated in\n\ \millionths of a satoshi.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\ETX\ENQ\DC2\ETXB\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\ETX\SOH\DC2\ETXB\v&\n\ \\f\n\ \\ENQ\EOT\STX\STX\ETX\ETX\DC2\ETXB)*\n\ \2\n\ \\EOT\EOT\STX\STX\EOT\DC2\ETXE\EOT!\SUB% The time-lock delta of the channel.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\EOT\ENQ\DC2\ETXE\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\EOT\SOH\DC2\ETXE\v\FS\n\ \\f\n\ \\ENQ\EOT\STX\STX\EOT\ETX\DC2\ETXE\US \n\ \\n\ \\n\ \\STX\EOT\ETX\DC2\EOTH\NULY\SOH\n\ \\n\ \\n\ \\ETX\EOT\ETX\SOH\DC2\ETXH\b\DC4\n\ \\f\n\ \\EOT\EOT\ETX\b\NUL\DC2\EOTI\EOTU\ENQ\n\ \\f\n\ \\ENQ\EOT\ETX\b\NUL\SOH\DC2\ETXI\n\ \\SYN\n\ \f\n\ \\EOT\EOT\ETX\STX\NUL\DC2\ETXN\b%\SUBY\n\ \Txid of the funding transaction. When using REST, this field must be\n\ \encoded as base64.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\ENQ\DC2\ETXN\b\r\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\SOH\DC2\ETXN\SO \n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\ETX\DC2\ETXN#$\n\ \a\n\ \\EOT\EOT\ETX\STX\SOH\DC2\ETXT\b$\SUBT\n\ \Hex-encoded string representing the byte-reversed hash of the funding\n\ \transaction.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\ENQ\DC2\ETXT\b\SO\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\SOH\DC2\ETXT\SI\US\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\ETX\DC2\ETXT\"#\n\ \A\n\ \\EOT\EOT\ETX\STX\STX\DC2\ETXX\EOT\FS\SUB4 The index of the output of the funding transaction\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\ENQ\DC2\ETXX\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\SOH\DC2\ETXX\v\ETB\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\ETX\DC2\ETXX\SUB\ESC\n\ \\n\ \\n\ \\STX\EOT\EOT\DC2\EOT[\NULd\SOH\n\ \\n\ \\n\ \\ETX\EOT\EOT\SOH\DC2\ETX[\b\DLE\n\ \9\n\ \\EOT\EOT\EOT\STX\NUL\DC2\ETX]\EOT\EM\SUB, Raw bytes representing the transaction id.\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\NUL\ENQ\DC2\ETX]\EOT\t\n\ \\f\n\ \\ENQ\EOT\EOT\STX\NUL\SOH\DC2\ETX]\n\ \\DC4\n\ \\f\n\ \\ENQ\EOT\EOT\STX\NUL\ETX\DC2\ETX]\ETB\CAN\n\ \L\n\ \\EOT\EOT\EOT\STX\SOH\DC2\ETX`\EOT\CAN\SUB? Reversed, hex-encoded string representing the transaction id.\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\SOH\ENQ\DC2\ETX`\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\SOH\SOH\DC2\ETX`\v\DC3\n\ \\f\n\ \\ENQ\EOT\EOT\STX\SOH\ETX\DC2\ETX`\SYN\ETB\n\ \:\n\ \\EOT\EOT\EOT\STX\STX\DC2\ETXc\EOT\FS\SUB- The index of the output on the transaction.\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\STX\ENQ\DC2\ETXc\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\STX\SOH\DC2\ETXc\v\ETB\n\ \\f\n\ \\ENQ\EOT\EOT\STX\STX\ETX\DC2\ETXc\SUB\ESC\n\ \\n\ \\n\ \\STX\ENQ\SOH\DC2\EOTf\NULk\SOH\n\ \\n\ \\n\ \\ETX\ENQ\SOH\SOH\DC2\ETXf\ENQ\SO\n\ \\v\n\ \\EOT\ENQ\SOH\STX\NUL\DC2\ETXg\EOT\SUB\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\NUL\SOH\DC2\ETXg\EOT\NAK\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\NUL\STX\DC2\ETXg\CAN\EM\n\ \\v\n\ \\EOT\ENQ\SOH\STX\SOH\DC2\ETXh\EOT\CAN\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\SOH\SOH\DC2\ETXh\EOT\DC3\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\SOH\STX\DC2\ETXh\SYN\ETB\n\ \\v\n\ \\EOT\ENQ\SOH\STX\STX\DC2\ETXi\EOT\EM\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\STX\SOH\DC2\ETXi\EOT\DC4\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\STX\STX\DC2\ETXi\ETB\CAN\n\ \\v\n\ \\EOT\ENQ\SOH\STX\ETX\DC2\ETXj\EOT\ETB\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\ETX\SOH\DC2\ETXj\EOT\DC2\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\ETX\STX\DC2\ETXj\NAK\SYN\n\ \\v\n\ \\STX\ENQ\STX\DC2\ENQm\NUL\144\SOH\SOH\n\ \\n\ \\n\ \\ETX\ENQ\STX\SOH\DC2\ETXm\ENQ\DC3\n\ \L\n\ \\EOT\ENQ\STX\STX\NUL\DC2\ETXq\EOT \SUB?\n\ \Returned when the commitment type isn't known or unavailable.\n\ \\n\ \\f\n\ \\ENQ\ENQ\STX\STX\NUL\SOH\DC2\ETXq\EOT\ESC\n\ \\f\n\ \\ENQ\ENQ\STX\STX\NUL\STX\DC2\ETXq\RS\US\n\ \Z\n\ \\EOT\ENQ\STX\STX\SOH\DC2\ETXw\EOT\SI\SUBM\n\ \A channel using the legacy commitment format having tweaked to_remote\n\ \keys.\n\ \\n\ \\f\n\ \\ENQ\ENQ\STX\STX\SOH\SOH\DC2\ETXw\EOT\n\ \\n\ \\f\n\ \\ENQ\ENQ\STX\STX\SOH\STX\DC2\ETXw\r\SO\n\ \\245\SOH\n\ \\EOT\ENQ\STX\STX\STX\DC2\ETX\DEL\EOT\SUB\SUB\231\SOH\n\ \A channel that uses the modern commitment format where the key in the\n\ \output of the remote party does not change each state. This makes back\n\ \up and recovery easier as when the channel is closed, the funds go\n\ \directly to that key.\n\ \\n\ \\f\n\ \\ENQ\ENQ\STX\STX\STX\SOH\DC2\ETX\DEL\EOT\NAK\n\ \\f\n\ \\ENQ\ENQ\STX\STX\STX\STX\DC2\ETX\DEL\CAN\EM\n\ \\173\SOH\n\ \\EOT\ENQ\STX\STX\ETX\DC2\EOT\134\SOH\EOT\DLE\SUB\158\SOH\n\ \A channel that uses a commitment format that has anchor outputs on the\n\ \commitments, allowing fee bumping after a force close transaction has\n\ \been broadcast.\n\ \\n\ \\r\n\ \\ENQ\ENQ\STX\STX\ETX\SOH\DC2\EOT\134\SOH\EOT\v\n\ \\r\n\ \\ENQ\ENQ\STX\STX\ETX\STX\DC2\EOT\134\SOH\SO\SI\n\ \\217\STX\n\ \\EOT\ENQ\STX\STX\EOT\DC2\EOT\143\SOH\EOT\RS\SUB\202\STX\n\ \A channel that uses a commitment type that builds upon the anchors\n\ \commitment format, but in addition requires a CLTV clause to spend outputs\n\ \paying to the channel initiator. This is intended for use on leased channels\n\ \to guarantee that the channel initiator has no incentives to close a leased\n\ \channel before its maturity date.\n\ \\n\ \\r\n\ \\ENQ\ENQ\STX\STX\EOT\SOH\DC2\EOT\143\SOH\EOT\EM\n\ \\r\n\ \\ENQ\ENQ\STX\STX\EOT\STX\DC2\EOT\143\SOH\FS\GS\n\ \\f\n\ \\STX\EOT\ENQ\DC2\ACK\146\SOH\NUL\168\SOH\SOH\n\ \\v\n\ \\ETX\EOT\ENQ\SOH\DC2\EOT\146\SOH\b\SUB\n\ \\166\SOH\n\ \\EOT\EOT\ENQ\STX\NUL\DC2\EOT\151\SOH\EOT\EM\SUB\151\SOH\n\ \The CSV delay expressed in relative blocks. If the channel is force closed,\n\ \we will need to wait for this many blocks before we can regain our funds.\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\NUL\ENQ\DC2\EOT\151\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\NUL\SOH\DC2\EOT\151\SOH\v\DC4\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\NUL\ETX\DC2\EOT\151\SOH\ETB\CAN\n\ \U\n\ \\EOT\EOT\ENQ\STX\SOH\DC2\EOT\154\SOH\EOT \SUBG The minimum satoshis this node is required to reserve in its balance.\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\SOH\ENQ\DC2\EOT\154\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\SOH\SOH\DC2\EOT\154\SOH\v\ESC\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\SOH\ETX\DC2\EOT\154\SOH\RS\US\n\ \N\n\ \\EOT\EOT\ENQ\STX\STX\DC2\EOT\157\SOH\EOT\RS\SUB@ The dust limit (in satoshis) of the initiator's commitment tx.\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\STX\ENQ\DC2\EOT\157\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\STX\SOH\DC2\EOT\157\SOH\v\EM\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\STX\ETX\DC2\EOT\157\SOH\FS\GS\n\ \b\n\ \\EOT\EOT\ENQ\STX\ETX\DC2\EOT\161\SOH\EOT$\SUBT The maximum amount of coins in millisatoshis that can be pending in this\n\ \ channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\ETX\ENQ\DC2\EOT\161\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\ETX\SOH\DC2\EOT\161\SOH\v\US\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\ETX\ETX\DC2\EOT\161\SOH\"#\n\ \R\n\ \\EOT\EOT\ENQ\STX\EOT\DC2\EOT\164\SOH\EOT\GS\SUBD The smallest HTLC in millisatoshis that the initiator will accept.\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\EOT\ENQ\DC2\EOT\164\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\EOT\SOH\DC2\EOT\164\SOH\v\CAN\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\EOT\ETX\DC2\EOT\164\SOH\ESC\FS\n\ \S\n\ \\EOT\EOT\ENQ\STX\ENQ\DC2\EOT\167\SOH\EOT\"\SUBE The total number of incoming HTLC's that the initiator will accept.\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\ENQ\ENQ\DC2\EOT\167\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\ENQ\SOH\DC2\EOT\167\SOH\v\GS\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\ENQ\ETX\DC2\EOT\167\SOH !\n\ \\f\n\ \\STX\EOT\ACK\DC2\ACK\170\SOH\NUL\193\STX\SOH\n\ \\v\n\ \\ETX\EOT\ACK\SOH\DC2\EOT\170\SOH\b\SI\n\ \5\n\ \\EOT\EOT\ACK\STX\NUL\DC2\EOT\172\SOH\EOT\DC4\SUB' Whether this channel is active or not\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NUL\ENQ\DC2\EOT\172\SOH\EOT\b\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NUL\SOH\DC2\EOT\172\SOH\t\SI\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NUL\ETX\DC2\EOT\172\SOH\DC2\DC3\n\ \6\n\ \\EOT\EOT\ACK\STX\SOH\DC2\EOT\175\SOH\EOT\GS\SUB( The identity pubkey of the remote node\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SOH\ENQ\DC2\EOT\175\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SOH\SOH\DC2\EOT\175\SOH\v\CAN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SOH\ETX\DC2\EOT\175\SOH\ESC\FS\n\ \\179\SOH\n\ \\EOT\EOT\ACK\STX\STX\DC2\EOT\182\SOH\EOT\GS\SUB\164\SOH\n\ \The outpoint (txid:index) of the funding transaction. With this value, Bob\n\ \will be able to generate a signature for Alice's version of the commitment\n\ \transaction.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\STX\ENQ\DC2\EOT\182\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\STX\SOH\DC2\EOT\182\SOH\v\CAN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\STX\ETX\DC2\EOT\182\SOH\ESC\FS\n\ \\193\SOH\n\ \\EOT\EOT\ACK\STX\ETX\DC2\EOT\189\SOH\EOT,\SUB\178\SOH\n\ \The unique channel ID for the channel. The first 3 bytes are the block\n\ \height, the next 3 the index within the block, and the last 2 bytes are the\n\ \output index for the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ETX\ENQ\DC2\EOT\189\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ETX\SOH\DC2\EOT\189\SOH\v\DC2\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ETX\ETX\DC2\EOT\189\SOH\NAK\SYN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ETX\b\DC2\EOT\189\SOH\ETB+\n\ \\SO\n\ \\ACK\EOT\ACK\STX\ETX\b\ACK\DC2\EOT\189\SOH\CAN*\n\ \>\n\ \\EOT\EOT\ACK\STX\EOT\DC2\EOT\192\SOH\EOT\ETB\SUB0 The total amount of funds held in this channel\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\EOT\ENQ\DC2\EOT\192\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\EOT\SOH\DC2\EOT\192\SOH\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT\ACK\STX\EOT\ETX\DC2\EOT\192\SOH\NAK\SYN\n\ \;\n\ \\EOT\EOT\ACK\STX\ENQ\DC2\EOT\195\SOH\EOT\FS\SUB- This node's current balance in this channel\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ENQ\ENQ\DC2\EOT\195\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ENQ\SOH\DC2\EOT\195\SOH\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ENQ\ETX\DC2\EOT\195\SOH\SUB\ESC\n\ \B\n\ \\EOT\EOT\ACK\STX\ACK\DC2\EOT\198\SOH\EOT\GS\SUB4 The counterparty's current balance in this channel\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ACK\ENQ\DC2\EOT\198\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ACK\SOH\DC2\EOT\198\SOH\n\ \\CAN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ACK\ETX\DC2\EOT\198\SOH\ESC\FS\n\ \\172\STX\n\ \\EOT\EOT\ACK\STX\a\DC2\EOT\206\SOH\EOT\EM\SUB\157\STX\n\ \The amount calculated to be paid in fees for the current set of commitment\n\ \transactions. The fee amount is persisted with the channel in order to\n\ \allow the fee amount to be removed and recalculated with each channel state\n\ \update, including updates that happen after a system restart.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\a\ENQ\DC2\EOT\206\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\a\SOH\DC2\EOT\206\SOH\n\ \\DC4\n\ \\r\n\ \\ENQ\EOT\ACK\STX\a\ETX\DC2\EOT\206\SOH\ETB\CAN\n\ \8\n\ \\EOT\EOT\ACK\STX\b\DC2\EOT\209\SOH\EOT\FS\SUB* The weight of the commitment transaction\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\b\ENQ\DC2\EOT\209\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\b\SOH\DC2\EOT\209\SOH\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT\ACK\STX\b\ETX\DC2\EOT\209\SOH\SUB\ESC\n\ \\225\SOH\n\ \\EOT\EOT\ACK\STX\t\DC2\EOT\216\SOH\EOT\SUB\SUB\210\SOH\n\ \The required number of satoshis per kilo-weight that the requester will pay\n\ \at all times, for both the funding transaction and commitment transaction.\n\ \This value can later be updated once the channel is open.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\t\ENQ\DC2\EOT\216\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\t\SOH\DC2\EOT\216\SOH\n\ \\DC4\n\ \\r\n\ \\ENQ\EOT\ACK\STX\t\ETX\DC2\EOT\216\SOH\ETB\EM\n\ \5\n\ \\EOT\EOT\ACK\STX\n\ \\DC2\EOT\219\SOH\EOT!\SUB' The unsettled balance in this channel\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\n\ \\ENQ\DC2\EOT\219\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\n\ \\SOH\DC2\EOT\219\SOH\n\ \\ESC\n\ \\r\n\ \\ENQ\EOT\ACK\STX\n\ \\ETX\DC2\EOT\219\SOH\RS \n\ \L\n\ \\EOT\EOT\ACK\STX\v\DC2\EOT\224\SOH\EOT#\SUB>\n\ \The total number of satoshis we've sent within this channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\v\ENQ\DC2\EOT\224\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\v\SOH\DC2\EOT\224\SOH\n\ \\GS\n\ \\r\n\ \\ENQ\EOT\ACK\STX\v\ETX\DC2\EOT\224\SOH \"\n\ \P\n\ \\EOT\EOT\ACK\STX\f\DC2\EOT\229\SOH\EOT'\SUBB\n\ \The total number of satoshis we've received within this channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\f\ENQ\DC2\EOT\229\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\f\SOH\DC2\EOT\229\SOH\n\ \!\n\ \\r\n\ \\ENQ\EOT\ACK\STX\f\ETX\DC2\EOT\229\SOH$&\n\ \J\n\ \\EOT\EOT\ACK\STX\r\DC2\EOT\234\SOH\EOT\FS\SUB<\n\ \The total number of updates conducted within this channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\r\ENQ\DC2\EOT\234\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\r\SOH\DC2\EOT\234\SOH\v\SYN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\r\ETX\DC2\EOT\234\SOH\EM\ESC\n\ \Y\n\ \\EOT\EOT\ACK\STX\SO\DC2\EOT\239\SOH\EOT%\SUBK\n\ \The list of active, uncleared HTLCs currently pending within the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SO\EOT\DC2\EOT\239\SOH\EOT\f\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SO\ACK\DC2\EOT\239\SOH\r\DC1\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SO\SOH\DC2\EOT\239\SOH\DC2\US\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SO\ETX\DC2\EOT\239\SOH\"$\n\ \\178\SOH\n\ \\EOT\EOT\ACK\STX\SI\DC2\EOT\246\SOH\EOT.\SUB\163\SOH\n\ \Deprecated. The CSV delay expressed in relative blocks. If the channel is\n\ \force closed, we will need to wait for this many blocks before we can regain\n\ \our funds.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SI\ENQ\DC2\EOT\246\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SI\SOH\DC2\EOT\246\SOH\v\DC4\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SI\ETX\DC2\EOT\246\SOH\ETB\EM\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SI\b\DC2\EOT\246\SOH\SUB-\n\ \\SO\n\ \\ACK\EOT\ACK\STX\SI\b\ETX\DC2\EOT\246\SOH\ESC,\n\ \I\n\ \\EOT\EOT\ACK\STX\DLE\DC2\EOT\249\SOH\EOT\SYN\SUB; Whether this channel is advertised to the network or not.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DLE\ENQ\DC2\EOT\249\SOH\EOT\b\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DLE\SOH\DC2\EOT\249\SOH\t\DLE\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DLE\ETX\DC2\EOT\249\SOH\DC3\NAK\n\ \B\n\ \\EOT\EOT\ACK\STX\DC1\DC2\EOT\252\SOH\EOT\CAN\SUB4 True if we were the ones that created the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC1\ENQ\DC2\EOT\252\SOH\EOT\b\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC1\SOH\DC2\EOT\252\SOH\t\DC2\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC1\ETX\DC2\EOT\252\SOH\NAK\ETB\n\ \H\n\ \\EOT\EOT\ACK\STX\DC2\DC2\EOT\255\SOH\EOT\"\SUB: A set of flags showing the current state of the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC2\ENQ\DC2\EOT\255\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC2\SOH\DC2\EOT\255\SOH\v\FS\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC2\ETX\DC2\EOT\255\SOH\US!\n\ \b\n\ \\EOT\EOT\ACK\STX\DC3\DC2\EOT\131\STX\EOT:\SUBT Deprecated. The minimum satoshis this node is required to reserve in its\n\ \ balance.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC3\ENQ\DC2\EOT\131\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC3\SOH\DC2\EOT\131\STX\n\ \ \n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC3\ETX\DC2\EOT\131\STX#%\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC3\b\DC2\EOT\131\STX&9\n\ \\SO\n\ \\ACK\EOT\ACK\STX\DC3\b\ETX\DC2\EOT\131\STX'8\n\ \f\n\ \\EOT\EOT\ACK\STX\DC4\DC2\EOT\137\STX\EOT;\SUBX\n\ \Deprecated. The minimum satoshis the other node is required to reserve in\n\ \its balance.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC4\ENQ\DC2\EOT\137\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC4\SOH\DC2\EOT\137\STX\n\ \!\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC4\ETX\DC2\EOT\137\STX$&\n\ \\r\n\ \\ENQ\EOT\ACK\STX\DC4\b\DC2\EOT\137\STX':\n\ \\SO\n\ \\ACK\EOT\ACK\STX\DC4\b\ETX\DC2\EOT\137\STX(9\n\ \0\n\ \\EOT\EOT\ACK\STX\NAK\DC2\EOT\140\STX\EOT4\SUB\" Deprecated. Use commitment_type.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NAK\ENQ\DC2\EOT\140\STX\EOT\b\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NAK\SOH\DC2\EOT\140\STX\t\SUB\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NAK\ETX\DC2\EOT\140\STX\GS\US\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NAK\b\DC2\EOT\140\STX 3\n\ \\SO\n\ \\ACK\EOT\ACK\STX\NAK\b\ETX\DC2\EOT\140\STX!2\n\ \9\n\ \\EOT\EOT\ACK\STX\SYN\DC2\EOT\143\STX\EOT(\SUB+ The commitment type used by this channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SYN\ACK\DC2\EOT\143\STX\EOT\DC2\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SYN\SOH\DC2\EOT\143\STX\DC3\"\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SYN\ETX\DC2\EOT\143\STX%'\n\ \\216\SOH\n\ \\EOT\EOT\ACK\STX\ETB\DC2\EOT\150\STX\EOT\CAN\SUB\201\SOH\n\ \The number of seconds that the channel has been monitored by the channel\n\ \scoring system. Scores are currently not persisted, so this value may be\n\ \less than the lifetime of the channel [EXPERIMENTAL].\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ETB\ENQ\DC2\EOT\150\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ETB\SOH\DC2\EOT\150\STX\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ETB\ETX\DC2\EOT\150\STX\NAK\ETB\n\ \\172\SOH\n\ \\EOT\EOT\ACK\STX\CAN\DC2\EOT\157\STX\EOT\SYN\SUB\157\SOH\n\ \The number of seconds that the remote peer has been observed as being online\n\ \by the channel scoring system over the lifetime of the channel\n\ \[EXPERIMENTAL].\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\CAN\ENQ\DC2\EOT\157\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\ACK\STX\CAN\SOH\DC2\EOT\157\STX\n\ \\DLE\n\ \\r\n\ \\ENQ\EOT\ACK\STX\CAN\ETX\DC2\EOT\157\STX\DC3\NAK\n\ \\247\STX\n\ \\EOT\EOT\ACK\STX\EM\DC2\EOT\166\STX\EOT\RS\SUB\232\STX\n\ \Close address is the address that we will enforce payout to on cooperative\n\ \close if the channel was opened utilizing option upfront shutdown. This\n\ \value can be set on channel open by setting close_address in an open channel\n\ \request. If this value is not set, you can still choose a payout address by\n\ \cooperatively closing with the delivery_address field set.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\EM\ENQ\DC2\EOT\166\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\EM\SOH\DC2\EOT\166\STX\v\CAN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\EM\ETX\DC2\EOT\166\STX\ESC\GS\n\ \\206\STX\n\ \\EOT\EOT\ACK\STX\SUB\DC2\EOT\175\STX\EOT \SUB\191\STX\n\ \The amount that the initiator of the channel optionally pushed to the remote\n\ \party on channel open. This amount will be zero if the channel initiator did\n\ \not push any funds to the remote peer. If the initiator field is true, we\n\ \pushed this amount to our peer, if it is false, the remote peer pushed this\n\ \amount to us.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SUB\ENQ\DC2\EOT\175\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SUB\SOH\DC2\EOT\175\STX\v\SUB\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SUB\ETX\DC2\EOT\175\STX\GS\US\n\ \\243\ETX\n\ \\EOT\EOT\ACK\STX\ESC\DC2\EOT\186\STX\EOT\FS\SUB\228\ETX\n\ \This uint32 indicates if this channel is to be considered 'frozen'. A\n\ \frozen channel doest not allow a cooperative channel close by the\n\ \initiator. The thaw_height is the height that this restriction stops\n\ \applying to the channel. This field is optional, not setting it or using a\n\ \value of zero will mean the channel has no additional restrictions. The\n\ \height can be interpreted in two ways: as a relative height if the value is\n\ \less than 500,000, or as an absolute height otherwise.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ESC\ENQ\DC2\EOT\186\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ESC\SOH\DC2\EOT\186\STX\v\SYN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\ESC\ETX\DC2\EOT\186\STX\EM\ESC\n\ \4\n\ \\EOT\EOT\ACK\STX\FS\DC2\EOT\189\STX\EOT.\SUB& List constraints for the local node.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\FS\ACK\DC2\EOT\189\STX\EOT\SYN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\FS\SOH\DC2\EOT\189\STX\ETB(\n\ \\r\n\ \\ENQ\EOT\ACK\STX\FS\ETX\DC2\EOT\189\STX+-\n\ \5\n\ \\EOT\EOT\ACK\STX\GS\DC2\EOT\192\STX\EOT/\SUB' List constraints for the remote node.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\GS\ACK\DC2\EOT\192\STX\EOT\SYN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\GS\SOH\DC2\EOT\192\STX\ETB)\n\ \\r\n\ \\ENQ\EOT\ACK\STX\GS\ETX\DC2\EOT\192\STX,.\n\ \\f\n\ \\STX\EOT\a\DC2\ACK\195\STX\NUL\252\STX\SOH\n\ \\v\n\ \\ETX\EOT\a\SOH\DC2\EOT\195\STX\b\ESC\n\ \E\n\ \\EOT\EOT\a\STX\NUL\DC2\EOT\197\STX\EOT\GS\SUB7 The outpoint (txid:index) of the funding transaction.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\NUL\ENQ\DC2\EOT\197\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\NUL\SOH\DC2\EOT\197\STX\v\CAN\n\ \\r\n\ \\ENQ\EOT\a\STX\NUL\ETX\DC2\EOT\197\STX\ESC\FS\n\ \7\n\ \\EOT\EOT\a\STX\SOH\DC2\EOT\200\STX\EOT,\SUB) The unique channel ID for the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\ENQ\DC2\EOT\200\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\SOH\DC2\EOT\200\STX\v\DC2\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\ETX\DC2\EOT\200\STX\NAK\SYN\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\b\DC2\EOT\200\STX\ETB+\n\ \\SO\n\ \\ACK\EOT\a\STX\SOH\b\ACK\DC2\EOT\200\STX\CAN*\n\ \O\n\ \\EOT\EOT\a\STX\STX\DC2\EOT\203\STX\EOT\SUB\SUBA The hash of the genesis block that this channel resides within.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\STX\ENQ\DC2\EOT\203\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\STX\SOH\DC2\EOT\203\STX\v\NAK\n\ \\r\n\ \\ENQ\EOT\a\STX\STX\ETX\DC2\EOT\203\STX\CAN\EM\n\ \Q\n\ \\EOT\EOT\a\STX\ETX\DC2\EOT\206\STX\EOT\US\SUBC The txid of the transaction which ultimately closed this channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ETX\ENQ\DC2\EOT\206\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ETX\SOH\DC2\EOT\206\STX\v\SUB\n\ \\r\n\ \\ENQ\EOT\a\STX\ETX\ETX\DC2\EOT\206\STX\GS\RS\n\ \R\n\ \\EOT\EOT\a\STX\EOT\DC2\EOT\209\STX\EOT\GS\SUBD Public key of the remote peer that we formerly had a channel with.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\EOT\ENQ\DC2\EOT\209\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\EOT\SOH\DC2\EOT\209\STX\v\CAN\n\ \\r\n\ \\ENQ\EOT\a\STX\EOT\ETX\DC2\EOT\209\STX\ESC\FS\n\ \.\n\ \\EOT\EOT\a\STX\ENQ\DC2\EOT\212\STX\EOT\ETB\SUB Total capacity of the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ENQ\ENQ\DC2\EOT\212\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\a\STX\ENQ\SOH\DC2\EOT\212\STX\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT\a\STX\ENQ\ETX\DC2\EOT\212\STX\NAK\SYN\n\ \B\n\ \\EOT\EOT\a\STX\ACK\DC2\EOT\215\STX\EOT\FS\SUB4 Height at which the funding transaction was spent.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ACK\ENQ\DC2\EOT\215\STX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ACK\SOH\DC2\EOT\215\STX\v\ETB\n\ \\r\n\ \\ENQ\EOT\a\STX\ACK\ETX\DC2\EOT\215\STX\SUB\ESC\n\ \>\n\ \\EOT\EOT\a\STX\a\DC2\EOT\218\STX\EOT\RS\SUB0 Settled balance at the time of channel closure\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\a\ENQ\DC2\EOT\218\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\a\STX\a\SOH\DC2\EOT\218\STX\n\ \\EM\n\ \\r\n\ \\ENQ\EOT\a\STX\a\ETX\DC2\EOT\218\STX\FS\GS\n\ \U\n\ \\EOT\EOT\a\STX\b\DC2\EOT\221\STX\EOT\"\SUBG The sum of all the time-locked outputs at the time of channel closure\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\b\ENQ\DC2\EOT\221\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\a\STX\b\SOH\DC2\EOT\221\STX\n\ \\GS\n\ \\r\n\ \\ENQ\EOT\a\STX\b\ETX\DC2\EOT\221\STX !\n\ \\SO\n\ \\EOT\EOT\a\EOT\NUL\DC2\ACK\223\STX\EOT\230\STX\ENQ\n\ \\r\n\ \\ENQ\EOT\a\EOT\NUL\SOH\DC2\EOT\223\STX\t\DC4\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\NUL\DC2\EOT\224\STX\b\RS\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\NUL\SOH\DC2\EOT\224\STX\b\EM\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\NUL\STX\DC2\EOT\224\STX\FS\GS\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\SOH\DC2\EOT\225\STX\b\RS\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SOH\SOH\DC2\EOT\225\STX\b\EM\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SOH\STX\DC2\EOT\225\STX\FS\GS\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\STX\DC2\EOT\226\STX\b\US\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\STX\SOH\DC2\EOT\226\STX\b\SUB\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\STX\STX\DC2\EOT\226\STX\GS\RS\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\ETX\DC2\EOT\227\STX\b\EM\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ETX\SOH\DC2\EOT\227\STX\b\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ETX\STX\DC2\EOT\227\STX\ETB\CAN\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\EOT\DC2\EOT\228\STX\b\GS\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\EOT\SOH\DC2\EOT\228\STX\b\CAN\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\EOT\STX\DC2\EOT\228\STX\ESC\FS\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\ENQ\DC2\EOT\229\STX\b\SYN\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ENQ\SOH\DC2\EOT\229\STX\b\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ENQ\STX\DC2\EOT\229\STX\DC4\NAK\n\ \6\n\ \\EOT\EOT\a\STX\t\DC2\EOT\233\STX\EOT \SUB( Details on how the channel was closed.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\t\ACK\DC2\EOT\233\STX\EOT\SI\n\ \\r\n\ \\ENQ\EOT\a\STX\t\SOH\DC2\EOT\233\STX\DLE\SUB\n\ \\r\n\ \\ENQ\EOT\a\STX\t\ETX\DC2\EOT\233\STX\GS\US\n\ \\208\SOH\n\ \\EOT\EOT\a\STX\n\ \\DC2\EOT\240\STX\EOT\"\SUB\193\SOH\n\ \Open initiator is the party that initiated opening the channel. Note that\n\ \this value may be unknown if the channel was closed before we migrated to\n\ \store open channel information after close.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\n\ \\ACK\DC2\EOT\240\STX\EOT\r\n\ \\r\n\ \\ENQ\EOT\a\STX\n\ \\SOH\DC2\EOT\240\STX\SO\FS\n\ \\r\n\ \\ENQ\EOT\a\STX\n\ \\ETX\DC2\EOT\240\STX\US!\n\ \\132\ETX\n\ \\EOT\EOT\a\STX\v\DC2\EOT\249\STX\EOT#\SUB\245\STX\n\ \Close initiator indicates which party initiated the close. This value will\n\ \be unknown for channels that were cooperatively closed before we started\n\ \tracking cooperative close initiators. Note that this indicates which party\n\ \initiated a close, and it is possible for both to initiate cooperative or\n\ \force closes, although only one party's close will be confirmed on chain.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\v\ACK\DC2\EOT\249\STX\EOT\r\n\ \\r\n\ \\ENQ\EOT\a\STX\v\SOH\DC2\EOT\249\STX\SO\GS\n\ \\r\n\ \\ENQ\EOT\a\STX\v\ETX\DC2\EOT\249\STX \"\n\ \\f\n\ \\EOT\EOT\a\STX\f\DC2\EOT\251\STX\EOT)\n\ \\r\n\ \\ENQ\EOT\a\STX\f\EOT\DC2\EOT\251\STX\EOT\f\n\ \\r\n\ \\ENQ\EOT\a\STX\f\ACK\DC2\EOT\251\STX\r\ETB\n\ \\r\n\ \\ENQ\EOT\a\STX\f\SOH\DC2\EOT\251\STX\CAN#\n\ \\r\n\ \\ENQ\EOT\a\STX\f\ETX\DC2\EOT\251\STX&(\n\ \\f\n\ \\STX\EOT\b\DC2\ACK\254\STX\NUL\129\ETX\SOH\n\ \\v\n\ \\ETX\EOT\b\SOH\DC2\EOT\254\STX\b\NAK\n\ \\f\n\ \\EOT\EOT\b\STX\NUL\DC2\EOT\255\STX\EOT\DC3\n\ \\r\n\ \\ENQ\EOT\b\STX\NUL\ENQ\DC2\EOT\255\STX\EOT\t\n\ \\r\n\ \\ENQ\EOT\b\STX\NUL\SOH\DC2\EOT\255\STX\n\ \\SO\n\ \\r\n\ \\ENQ\EOT\b\STX\NUL\ETX\DC2\EOT\255\STX\DC1\DC2\n\ \\f\n\ \\EOT\EOT\b\STX\SOH\DC2\EOT\128\ETX\EOT\FS\n\ \\r\n\ \\ENQ\EOT\b\STX\SOH\ENQ\DC2\EOT\128\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\b\STX\SOH\SOH\DC2\EOT\128\ETX\v\ETB\n\ \\r\n\ \\ENQ\EOT\b\STX\SOH\ETX\DC2\EOT\128\ETX\SUB\ESC\n\ \\f\n\ \\STX\ENQ\ETX\DC2\ACK\131\ETX\NUL\153\ETX\SOH\n\ \\v\n\ \\ETX\ENQ\ETX\SOH\DC2\EOT\131\ETX\ENQ\DC3\n\ \\f\n\ \\EOT\ENQ\ETX\STX\NUL\DC2\EOT\132\ETX\EOT\NAK\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\NUL\SOH\DC2\EOT\132\ETX\EOT\DLE\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\NUL\STX\DC2\EOT\132\ETX\DC3\DC4\n\ \-\n\ \\EOT\ENQ\ETX\STX\SOH\DC2\EOT\135\ETX\EOT\SI\SUB\US We resolved an anchor output.\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\SOH\SOH\DC2\EOT\135\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\SOH\STX\DC2\EOT\135\ETX\r\SO\n\ \\189\SOH\n\ \\EOT\ENQ\ETX\STX\STX\DC2\EOT\142\ETX\EOT\SYN\SUB\174\SOH\n\ \We are resolving an incoming htlc on chain. This if this htlc is\n\ \claimed, we swept the incoming htlc with the preimage. If it is timed\n\ \out, our peer swept the timeout path.\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\STX\SOH\DC2\EOT\142\ETX\EOT\DC1\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\STX\STX\DC2\EOT\142\ETX\DC4\NAK\n\ \\191\SOH\n\ \\EOT\ENQ\ETX\STX\ETX\DC2\EOT\149\ETX\EOT\SYN\SUB\176\SOH\n\ \We are resolving an outgoing htlc on chain. If this htlc is claimed,\n\ \the remote party swept the htlc with the preimage. If it is timed out,\n\ \we swept it with the timeout path.\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ETX\SOH\DC2\EOT\149\ETX\EOT\DC1\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ETX\STX\DC2\EOT\149\ETX\DC4\NAK\n\ \T\n\ \\EOT\ENQ\ETX\STX\EOT\DC2\EOT\152\ETX\EOT\SI\SUBF We force closed and need to sweep our time locked commitment output.\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\EOT\SOH\DC2\EOT\152\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\EOT\STX\DC2\EOT\152\ETX\r\SO\n\ \\f\n\ \\STX\ENQ\EOT\DC2\ACK\155\ETX\NUL\182\ETX\SOH\n\ \\v\n\ \\ETX\ENQ\EOT\SOH\DC2\EOT\155\ETX\ENQ\SYN\n\ \ \n\ \\EOT\ENQ\EOT\STX\NUL\DC2\EOT\157\ETX\EOT\CAN\SUB\DC2 Outcome unknown.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\NUL\SOH\DC2\EOT\157\ETX\EOT\DC3\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\NUL\STX\DC2\EOT\157\ETX\SYN\ETB\n\ \/\n\ \\EOT\ENQ\EOT\STX\SOH\DC2\EOT\160\ETX\EOT\DLE\SUB! An output was claimed on chain.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SOH\SOH\DC2\EOT\160\ETX\EOT\v\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SOH\STX\DC2\EOT\160\ETX\SO\SI\n\ \6\n\ \\EOT\ENQ\EOT\STX\STX\DC2\EOT\163\ETX\EOT\DC2\SUB( An output was left unclaimed on chain.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\STX\SOH\DC2\EOT\163\ETX\EOT\r\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\STX\STX\DC2\EOT\163\ETX\DLE\DC1\n\ \\232\SOH\n\ \\EOT\ENQ\EOT\STX\ETX\DC2\EOT\171\ETX\EOT\DC2\SUB\217\SOH\n\ \ResolverOutcomeAbandoned indicates that an output that we did not\n\ \claim on chain, for example an anchor that we did not sweep and a\n\ \third party claimed on chain, or a htlc that we could not decode\n\ \so left unclaimed.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ETX\SOH\DC2\EOT\171\ETX\EOT\r\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ETX\STX\DC2\EOT\171\ETX\DLE\DC1\n\ \\197\SOH\n\ \\EOT\ENQ\EOT\STX\EOT\DC2\EOT\178\ETX\EOT\DC4\SUB\182\SOH\n\ \If we force closed our channel, our htlcs need to be claimed in two\n\ \stages. This outcome represents the broadcast of a timeout or success\n\ \transaction for this two stage htlc claim.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\EOT\SOH\DC2\EOT\178\ETX\EOT\SI\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\EOT\STX\DC2\EOT\178\ETX\DC2\DC3\n\ \.\n\ \\EOT\ENQ\EOT\STX\ENQ\DC2\EOT\181\ETX\EOT\DLE\SUB A htlc was timed out on chain.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ENQ\SOH\DC2\EOT\181\ETX\EOT\v\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ENQ\STX\DC2\EOT\181\ETX\SO\SI\n\ \\f\n\ \\STX\EOT\t\DC2\ACK\184\ETX\NUL\200\ETX\SOH\n\ \\v\n\ \\ETX\EOT\t\SOH\DC2\EOT\184\ETX\b\DC2\n\ \4\n\ \\EOT\EOT\t\STX\NUL\DC2\EOT\186\ETX\EOT'\SUB& The type of output we are resolving.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\NUL\ACK\DC2\EOT\186\ETX\EOT\DC2\n\ \\r\n\ \\ENQ\EOT\t\STX\NUL\SOH\DC2\EOT\186\ETX\DC3\"\n\ \\r\n\ \\ENQ\EOT\t\STX\NUL\ETX\DC2\EOT\186\ETX%&\n\ \N\n\ \\EOT\EOT\t\STX\SOH\DC2\EOT\189\ETX\EOT\"\SUB@ The outcome of our on chain action that resolved the outpoint.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\SOH\ACK\DC2\EOT\189\ETX\EOT\NAK\n\ \\r\n\ \\ENQ\EOT\t\STX\SOH\SOH\DC2\EOT\189\ETX\SYN\GS\n\ \\r\n\ \\ENQ\EOT\t\STX\SOH\ETX\DC2\EOT\189\ETX !\n\ \>\n\ \\EOT\EOT\t\STX\STX\DC2\EOT\192\ETX\EOT\SUB\SUB0 The outpoint that was spent by the resolution.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\STX\ACK\DC2\EOT\192\ETX\EOT\f\n\ \\r\n\ \\ENQ\EOT\t\STX\STX\SOH\DC2\EOT\192\ETX\r\NAK\n\ \\r\n\ \\ENQ\EOT\t\STX\STX\ETX\DC2\EOT\192\ETX\CAN\EM\n\ \>\n\ \\EOT\EOT\t\STX\ETX\DC2\EOT\195\ETX\EOT\SUB\SUB0 The amount that was claimed by the resolution.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ETX\ENQ\DC2\EOT\195\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ETX\SOH\DC2\EOT\195\ETX\v\NAK\n\ \\r\n\ \\ENQ\EOT\t\STX\ETX\ETX\DC2\EOT\195\ETX\CAN\EM\n\ \_\n\ \\EOT\EOT\t\STX\EOT\DC2\EOT\199\ETX\EOT\SUB\SUBQ The hex-encoded transaction ID of the sweep transaction that spent the\n\ \ output.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\EOT\ENQ\DC2\EOT\199\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\EOT\SOH\DC2\EOT\199\ETX\v\NAK\n\ \\r\n\ \\ENQ\EOT\t\STX\EOT\ETX\DC2\EOT\199\ETX\CAN\EM\n\ \\f\n\ \\STX\EOT\n\ \\DC2\ACK\202\ETX\NUL\221\ETX\SOH\n\ \\v\n\ \\ETX\EOT\n\ \\SOH\DC2\EOT\202\ETX\b\DLE\n\ \\SO\n\ \\EOT\EOT\n\ \\b\NUL\DC2\ACK\203\ETX\EOT\220\ETX\ENQ\n\ \\r\n\ \\ENQ\EOT\n\ \\b\NUL\SOH\DC2\EOT\203\ETX\n\ \\SI\n\ \\DEL\n\ \\EOT\EOT\n\ \\STX\NUL\DC2\EOT\209\ETX\b\CAN\SUBq\n\ \The fee limit expressed as a fixed amount of satoshis.\n\ \\n\ \The fields fixed and fixed_msat are mutually exclusive.\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\NUL\ENQ\DC2\EOT\209\ETX\b\r\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\NUL\SOH\DC2\EOT\209\ETX\SO\DC3\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\NUL\ETX\DC2\EOT\209\ETX\SYN\ETB\n\ \\132\SOH\n\ \\EOT\EOT\n\ \\STX\SOH\DC2\EOT\216\ETX\b\GS\SUBv\n\ \The fee limit expressed as a fixed amount of millisatoshis.\n\ \\n\ \The fields fixed and fixed_msat are mutually exclusive.\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\SOH\ENQ\DC2\EOT\216\ETX\b\r\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\SOH\SOH\DC2\EOT\216\ETX\SO\CAN\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\SOH\ETX\DC2\EOT\216\ETX\ESC\FS\n\ \N\n\ \\EOT\EOT\n\ \\STX\STX\DC2\EOT\219\ETX\b\SUB\SUB@ The fee limit expressed as a percentage of the payment amount.\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\STX\ENQ\DC2\EOT\219\ETX\b\r\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\STX\SOH\DC2\EOT\219\ETX\SO\NAK\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\STX\ETX\DC2\EOT\219\ETX\CAN\EM\n\ \\f\n\ \\STX\EOT\v\DC2\ACK\223\ETX\NUL\243\ETX\SOH\n\ \\v\n\ \\ETX\EOT\v\SOH\DC2\EOT\223\ETX\b\f\n\ \\f\n\ \\EOT\EOT\v\STX\NUL\DC2\EOT\224\ETX\EOT\SYN\n\ \\r\n\ \\ENQ\EOT\v\STX\NUL\ENQ\DC2\EOT\224\ETX\EOT\b\n\ \\r\n\ \\ENQ\EOT\v\STX\NUL\SOH\DC2\EOT\224\ETX\t\DC1\n\ \\r\n\ \\ENQ\EOT\v\STX\NUL\ETX\DC2\EOT\224\ETX\DC4\NAK\n\ \\f\n\ \\EOT\EOT\v\STX\SOH\DC2\EOT\225\ETX\EOT\NAK\n\ \\r\n\ \\ENQ\EOT\v\STX\SOH\ENQ\DC2\EOT\225\ETX\EOT\t\n\ \\r\n\ \\ENQ\EOT\v\STX\SOH\SOH\DC2\EOT\225\ETX\n\ \\DLE\n\ \\r\n\ \\ENQ\EOT\v\STX\SOH\ETX\DC2\EOT\225\ETX\DC3\DC4\n\ \\f\n\ \\EOT\EOT\v\STX\STX\DC2\EOT\226\ETX\EOT\CAN\n\ \\r\n\ \\ENQ\EOT\v\STX\STX\ENQ\DC2\EOT\226\ETX\EOT\t\n\ \\r\n\ \\ENQ\EOT\v\STX\STX\SOH\DC2\EOT\226\ETX\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT\v\STX\STX\ETX\DC2\EOT\226\ETX\SYN\ETB\n\ \\f\n\ \\EOT\EOT\v\STX\ETX\DC2\EOT\227\ETX\EOT!\n\ \\r\n\ \\ENQ\EOT\v\STX\ETX\ENQ\DC2\EOT\227\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\v\STX\ETX\SOH\DC2\EOT\227\ETX\v\FS\n\ \\r\n\ \\ENQ\EOT\v\STX\ETX\ETX\DC2\EOT\227\ETX\US \n\ \:\n\ \\EOT\EOT\v\STX\EOT\DC2\EOT\230\ETX\EOT\SUB\SUB, Index identifying the htlc on the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\v\STX\EOT\ENQ\DC2\EOT\230\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\v\STX\EOT\SOH\DC2\EOT\230\ETX\v\NAK\n\ \\r\n\ \\ENQ\EOT\v\STX\EOT\ETX\DC2\EOT\230\ETX\CAN\EM\n\ \\204\ETX\n\ \\EOT\EOT\v\STX\ENQ\DC2\EOT\239\ETX\EOT\"\SUB\189\ETX If this HTLC is involved in a forwarding operation, this field indicates\n\ \ the forwarding channel. For an outgoing htlc, it is the incoming channel.\n\ \ For an incoming htlc, it is the outgoing channel. When the htlc\n\ \ originates from this node or this node is the final destination,\n\ \ forwarding_channel will be zero. The forwarding channel will also be zero\n\ \ for htlcs that need to be forwarded but don't have a forwarding decision\n\ \ persisted yet.\n\ \\n\ \\r\n\ \\ENQ\EOT\v\STX\ENQ\ENQ\DC2\EOT\239\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\v\STX\ENQ\SOH\DC2\EOT\239\ETX\v\GS\n\ \\r\n\ \\ENQ\EOT\v\STX\ENQ\ETX\DC2\EOT\239\ETX !\n\ \E\n\ \\EOT\EOT\v\STX\ACK\DC2\EOT\242\ETX\EOT%\SUB7 Index identifying the htlc on the forwarding channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\v\STX\ACK\ENQ\DC2\EOT\242\ETX\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\v\STX\ACK\SOH\DC2\EOT\242\ETX\v \n\ \\r\n\ \\ENQ\EOT\v\STX\ACK\ETX\DC2\EOT\242\ETX#$\n\ \!\n\ \\STX\EOT\f\DC2\ACK\249\ETX\NUL\255\ETX\SOH2\DC3\n\ \ HighLevel stuff\n\ \\n\ \\n\ \\v\n\ \\ETX\EOT\f\SOH\DC2\EOT\249\ETX\b\DC2\n\ \3\n\ \\EOT\EOT\f\STX\NUL\DC2\EOT\251\ETX\EOT\EM\SUB% The family of key being identified.\n\ \\n\ \\r\n\ \\ENQ\EOT\f\STX\NUL\ENQ\DC2\EOT\251\ETX\EOT\t\n\ \\r\n\ \\ENQ\EOT\f\STX\NUL\SOH\DC2\EOT\251\ETX\n\ \\DC4\n\ \\r\n\ \\ENQ\EOT\f\STX\NUL\ETX\DC2\EOT\251\ETX\ETB\CAN\n\ \>\n\ \\EOT\EOT\f\STX\SOH\DC2\EOT\254\ETX\EOT\CAN\SUB0 The precise index of the key being identified.\n\ \\n\ \\r\n\ \\ENQ\EOT\f\STX\SOH\ENQ\DC2\EOT\254\ETX\EOT\t\n\ \\r\n\ \\ENQ\EOT\f\STX\SOH\SOH\DC2\EOT\254\ETX\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT\f\STX\SOH\ETX\DC2\EOT\254\ETX\SYN\ETB\n\ \\f\n\ \\STX\EOT\r\DC2\ACK\129\EOT\NUL\139\EOT\SOH\n\ \\v\n\ \\ETX\EOT\r\SOH\DC2\EOT\129\EOT\b\NAK\n\ \:\n\ \\EOT\EOT\r\STX\NUL\DC2\EOT\133\EOT\EOT\FS\SUB,\n\ \The raw bytes of the key being identified.\n\ \\n\ \\r\n\ \\ENQ\EOT\r\STX\NUL\ENQ\DC2\EOT\133\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\r\STX\NUL\SOH\DC2\EOT\133\EOT\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT\r\STX\NUL\ETX\DC2\EOT\133\EOT\SUB\ESC\n\ \M\n\ \\EOT\EOT\r\STX\SOH\DC2\EOT\138\EOT\EOT\ESC\SUB?\n\ \The key locator that identifies which key to use for signing.\n\ \\n\ \\r\n\ \\ENQ\EOT\r\STX\SOH\ACK\DC2\EOT\138\EOT\EOT\SO\n\ \\r\n\ \\ENQ\EOT\r\STX\SOH\SOH\DC2\EOT\138\EOT\SI\SYN\n\ \\r\n\ \\ENQ\EOT\r\STX\SOH\ETX\DC2\EOT\138\EOT\EM\SUB\n\ \\f\n\ \\STX\EOT\SO\DC2\ACK\141\EOT\NUL\173\EOT\SOH\n\ \\v\n\ \\ETX\EOT\SO\SOH\DC2\EOT\141\EOT\b\NAK\n\ \l\n\ \\EOT\EOT\SO\STX\NUL\DC2\EOT\146\EOT\EOT\DC2\SUB^\n\ \The size of the pre-crafted output to be used as the channel point for this\n\ \channel funding.\n\ \\n\ \\r\n\ \\ENQ\EOT\SO\STX\NUL\ENQ\DC2\EOT\146\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\SO\STX\NUL\SOH\DC2\EOT\146\EOT\n\ \\r\n\ \\r\n\ \\ENQ\EOT\SO\STX\NUL\ETX\DC2\EOT\146\EOT\DLE\DC1\n\ \X\n\ \\EOT\EOT\SO\STX\SOH\DC2\EOT\149\EOT\EOT \SUBJ The target channel point to refrence in created commitment transactions.\n\ \\n\ \\r\n\ \\ENQ\EOT\SO\STX\SOH\ACK\DC2\EOT\149\EOT\EOT\DLE\n\ \\r\n\ \\ENQ\EOT\SO\STX\SOH\SOH\DC2\EOT\149\EOT\DC1\ESC\n\ \\r\n\ \\ENQ\EOT\SO\STX\SOH\ETX\DC2\EOT\149\EOT\RS\US\n\ \H\n\ \\EOT\EOT\SO\STX\STX\DC2\EOT\152\EOT\EOT \SUB: Our local key to use when creating the multi-sig output.\n\ \\n\ \\r\n\ \\ENQ\EOT\SO\STX\STX\ACK\DC2\EOT\152\EOT\EOT\DC1\n\ \\r\n\ \\ENQ\EOT\SO\STX\STX\SOH\DC2\EOT\152\EOT\DC2\ESC\n\ \\r\n\ \\ENQ\EOT\SO\STX\STX\ETX\DC2\EOT\152\EOT\RS\US\n\ \V\n\ \\EOT\EOT\SO\STX\ETX\DC2\EOT\155\EOT\EOT\EM\SUBH The key of the remote party to use when creating the multi-sig output.\n\ \\n\ \\r\n\ \\ENQ\EOT\SO\STX\ETX\ENQ\DC2\EOT\155\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\SO\STX\ETX\SOH\DC2\EOT\155\EOT\n\ \\DC4\n\ \\r\n\ \\ENQ\EOT\SO\STX\ETX\ETX\DC2\EOT\155\EOT\ETB\CAN\n\ \\250\SOH\n\ \\EOT\EOT\SO\STX\EOT\DC2\EOT\163\EOT\EOT\RS\SUB\235\SOH\n\ \If non-zero, then this will be used as the pending channel ID on the wire\n\ \protocol to initate the funding request. This is an optional field, and\n\ \should only be set if the responder is already expecting a specific pending\n\ \channel ID.\n\ \\n\ \\r\n\ \\ENQ\EOT\SO\STX\EOT\ENQ\DC2\EOT\163\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\SO\STX\EOT\SOH\DC2\EOT\163\EOT\n\ \\EM\n\ \\r\n\ \\ENQ\EOT\SO\STX\EOT\ETX\DC2\EOT\163\EOT\FS\GS\n\ \\252\STX\n\ \\EOT\EOT\SO\STX\ENQ\DC2\EOT\172\EOT\EOT\ESC\SUB\237\STX\n\ \This uint32 indicates if this channel is to be considered 'frozen'. A frozen\n\ \channel does not allow a cooperative channel close by the initiator. The\n\ \thaw_height is the height that this restriction stops applying to the\n\ \channel. The height can be interpreted in two ways: as a relative height if\n\ \the value is less than 500,000, or as an absolute height otherwise.\n\ \\n\ \\r\n\ \\ENQ\EOT\SO\STX\ENQ\ENQ\DC2\EOT\172\EOT\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\SO\STX\ENQ\SOH\DC2\EOT\172\EOT\v\SYN\n\ \\r\n\ \\ENQ\EOT\SO\STX\ENQ\ETX\DC2\EOT\172\EOT\EM\SUB\n\ \\f\n\ \\STX\EOT\SI\DC2\ACK\175\EOT\NUL\198\EOT\SOH\n\ \\v\n\ \\ETX\EOT\SI\SOH\DC2\EOT\175\EOT\b\DLE\n\ \\217\SOH\n\ \\EOT\EOT\SI\STX\NUL\DC2\EOT\181\EOT\EOT\RS\SUB\202\SOH\n\ \A unique identifier of 32 random bytes that will be used as the pending\n\ \channel ID to identify the PSBT state machine when interacting with it and\n\ \on the wire protocol to initiate the funding request.\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\NUL\ENQ\DC2\EOT\181\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\SI\STX\NUL\SOH\DC2\EOT\181\EOT\n\ \\EM\n\ \\r\n\ \\ENQ\EOT\SI\STX\NUL\ETX\DC2\EOT\181\EOT\FS\GS\n\ \\137\SOH\n\ \\EOT\EOT\SI\STX\SOH\DC2\EOT\187\EOT\EOT\CAN\SUB{\n\ \An optional base PSBT the new channel output will be added to. If this is\n\ \non-empty, it must be a binary serialized PSBT.\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\SOH\ENQ\DC2\EOT\187\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\SI\STX\SOH\SOH\DC2\EOT\187\EOT\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT\SI\STX\SOH\ETX\DC2\EOT\187\EOT\SYN\ETB\n\ \\197\ETX\n\ \\EOT\EOT\SI\STX\STX\DC2\EOT\197\EOT\EOT\CAN\SUB\182\ETX\n\ \If a channel should be part of a batch (multiple channel openings in one\n\ \transaction), it can be dangerous if the whole batch transaction is\n\ \published too early before all channel opening negotiations are completed.\n\ \This flag prevents this particular channel from broadcasting the transaction\n\ \after the negotiation with the remote peer. In a batch of channel openings\n\ \this flag should be set to true for every channel but the very last.\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\STX\ENQ\DC2\EOT\197\EOT\EOT\b\n\ \\r\n\ \\ENQ\EOT\SI\STX\STX\SOH\DC2\EOT\197\EOT\t\DC3\n\ \\r\n\ \\ENQ\EOT\SI\STX\STX\ETX\DC2\EOT\197\EOT\SYN\ETB\n\ \\f\n\ \\STX\EOT\DLE\DC2\ACK\200\EOT\NUL\214\EOT\SOH\n\ \\v\n\ \\ETX\EOT\DLE\SOH\DC2\EOT\200\EOT\b\DC3\n\ \\SO\n\ \\EOT\EOT\DLE\b\NUL\DC2\ACK\201\EOT\EOT\213\EOT\ENQ\n\ \\r\n\ \\ENQ\EOT\DLE\b\NUL\SOH\DC2\EOT\201\EOT\n\ \\SO\n\ \\149\SOH\n\ \\EOT\EOT\DLE\STX\NUL\DC2\EOT\206\EOT\b*\SUB\134\SOH\n\ \A channel shim where the channel point was fully constructed outside\n\ \of lnd's wallet and the transaction might already be published.\n\ \\n\ \\r\n\ \\ENQ\EOT\DLE\STX\NUL\ACK\DC2\EOT\206\EOT\b\NAK\n\ \\r\n\ \\ENQ\EOT\DLE\STX\NUL\SOH\DC2\EOT\206\EOT\SYN%\n\ \\r\n\ \\ENQ\EOT\DLE\STX\NUL\ETX\DC2\EOT\206\EOT()\n\ \a\n\ \\EOT\EOT\DLE\STX\SOH\DC2\EOT\212\EOT\b\US\SUBS\n\ \A channel shim that uses a PSBT to fund and sign the channel funding\n\ \transaction.\n\ \\n\ \\r\n\ \\ENQ\EOT\DLE\STX\SOH\ACK\DC2\EOT\212\EOT\b\DLE\n\ \\r\n\ \\ENQ\EOT\DLE\STX\SOH\SOH\DC2\EOT\212\EOT\DC1\SUB\n\ \\r\n\ \\ENQ\EOT\DLE\STX\SOH\ETX\DC2\EOT\212\EOT\GS\RS\n\ \\f\n\ \\STX\EOT\DC1\DC2\ACK\216\EOT\NUL\219\EOT\SOH\n\ \\v\n\ \\ETX\EOT\DC1\SOH\DC2\EOT\216\EOT\b\EM\n\ \U\n\ \\EOT\EOT\DC1\STX\NUL\DC2\EOT\218\EOT\EOT\RS\SUBG The pending channel ID of the channel to cancel the funding shim for.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC1\STX\NUL\ENQ\DC2\EOT\218\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC1\STX\NUL\SOH\DC2\EOT\218\EOT\n\ \\EM\n\ \\r\n\ \\ENQ\EOT\DC1\STX\NUL\ETX\DC2\EOT\218\EOT\FS\GS\n\ \\f\n\ \\STX\EOT\DC2\DC2\ACK\221\EOT\NUL\245\EOT\SOH\n\ \\v\n\ \\ETX\EOT\DC2\SOH\DC2\EOT\221\EOT\b\EM\n\ \\170\SOH\n\ \\EOT\EOT\DC2\STX\NUL\DC2\EOT\227\EOT\EOT\SUB\SUB\155\SOH\n\ \The funded but not yet signed PSBT that sends the exact channel capacity\n\ \amount to the PK script returned in the open channel message in a previous\n\ \step.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC2\STX\NUL\ENQ\DC2\EOT\227\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC2\STX\NUL\SOH\DC2\EOT\227\EOT\n\ \\NAK\n\ \\r\n\ \\ENQ\EOT\DC2\STX\NUL\ETX\DC2\EOT\227\EOT\CAN\EM\n\ \J\n\ \\EOT\EOT\DC2\STX\SOH\DC2\EOT\230\EOT\EOT\RS\SUB< The pending channel ID of the channel to get the PSBT for.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC2\STX\SOH\ENQ\DC2\EOT\230\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC2\STX\SOH\SOH\DC2\EOT\230\EOT\n\ \\EM\n\ \\r\n\ \\ENQ\EOT\DC2\STX\SOH\ETX\DC2\EOT\230\EOT\FS\GS\n\ \\215\ENQ\n\ \\EOT\EOT\DC2\STX\STX\DC2\EOT\244\EOT\EOT\ESC\SUB\200\ENQ\n\ \Can only be used if the no_publish flag was set to true in the OpenChannel\n\ \call meaning that the caller is solely responsible for publishing the final\n\ \funding transaction. If skip_finalize is set to true then lnd will not wait\n\ \for a FundingPsbtFinalize state step and instead assumes that a transaction\n\ \with the same TXID as the passed in PSBT will eventually confirm.\n\ \IT IS ABSOLUTELY IMPERATIVE that the TXID of the transaction that is\n\ \eventually published does have the _same TXID_ as the verified PSBT. That\n\ \means no inputs or outputs can change, only signatures can be added. If the\n\ \TXID changes between this call and the publish step then the channel will\n\ \never be created and the funds will be in limbo.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC2\STX\STX\ENQ\DC2\EOT\244\EOT\EOT\b\n\ \\r\n\ \\ENQ\EOT\DC2\STX\STX\SOH\DC2\EOT\244\EOT\t\SYN\n\ \\r\n\ \\ENQ\EOT\DC2\STX\STX\ETX\DC2\EOT\244\EOT\EM\SUB\n\ \\f\n\ \\STX\EOT\DC3\DC2\ACK\247\EOT\NUL\136\ENQ\SOH\n\ \\v\n\ \\ETX\EOT\DC3\SOH\DC2\EOT\247\EOT\b\ESC\n\ \\227\SOH\n\ \\EOT\EOT\DC3\STX\NUL\DC2\EOT\253\EOT\EOT\SUB\SUB\212\SOH\n\ \The funded PSBT that contains all witness data to send the exact channel\n\ \capacity amount to the PK script returned in the open channel message in a\n\ \previous step. Cannot be set at the same time as final_raw_tx.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC3\STX\NUL\ENQ\DC2\EOT\253\EOT\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC3\STX\NUL\SOH\DC2\EOT\253\EOT\n\ \\NAK\n\ \\r\n\ \\ENQ\EOT\DC3\STX\NUL\ETX\DC2\EOT\253\EOT\CAN\EM\n\ \J\n\ \\EOT\EOT\DC3\STX\SOH\DC2\EOT\128\ENQ\EOT\RS\SUB< The pending channel ID of the channel to get the PSBT for.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC3\STX\SOH\ENQ\DC2\EOT\128\ENQ\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC3\STX\SOH\SOH\DC2\EOT\128\ENQ\n\ \\EM\n\ \\r\n\ \\ENQ\EOT\DC3\STX\SOH\ETX\DC2\EOT\128\ENQ\FS\GS\n\ \\193\SOH\n\ \\EOT\EOT\DC3\STX\STX\DC2\EOT\135\ENQ\EOT\ESC\SUB\178\SOH\n\ \As an alternative to the signed PSBT with all witness data, the final raw\n\ \wire format transaction can also be specified directly. Cannot be set at the\n\ \same time as signed_psbt.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC3\STX\STX\ENQ\DC2\EOT\135\ENQ\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC3\STX\STX\SOH\DC2\EOT\135\ENQ\n\ \\SYN\n\ \\r\n\ \\ENQ\EOT\DC3\STX\STX\ETX\DC2\EOT\135\ENQ\EM\SUB\n\ \\f\n\ \\STX\EOT\DC4\DC2\ACK\138\ENQ\NUL\165\ENQ\SOH\n\ \\v\n\ \\ETX\EOT\DC4\SOH\DC2\EOT\138\ENQ\b\FS\n\ \\SO\n\ \\EOT\EOT\DC4\b\NUL\DC2\ACK\139\ENQ\EOT\164\ENQ\ENQ\n\ \\r\n\ \\ENQ\EOT\DC4\b\NUL\SOH\DC2\EOT\139\ENQ\n\ \\DC1\n\ \\194\SOH\n\ \\EOT\EOT\DC4\STX\NUL\DC2\EOT\145\ENQ\b&\SUB\179\SOH\n\ \The funding shim to register. This should be used before any\n\ \channel funding has began by the remote party, as it is intended as a\n\ \preparatory step for the full channel funding.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC4\STX\NUL\ACK\DC2\EOT\145\ENQ\b\DC3\n\ \\r\n\ \\ENQ\EOT\DC4\STX\NUL\SOH\DC2\EOT\145\ENQ\DC4!\n\ \\r\n\ \\ENQ\EOT\DC4\STX\NUL\ETX\DC2\EOT\145\ENQ$%\n\ \C\n\ \\EOT\EOT\DC4\STX\SOH\DC2\EOT\148\ENQ\b*\SUB5 Used to cancel an existing registered funding shim.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC4\STX\SOH\ACK\DC2\EOT\148\ENQ\b\EM\n\ \\r\n\ \\ENQ\EOT\DC4\STX\SOH\SOH\DC2\EOT\148\ENQ\SUB%\n\ \\r\n\ \\ENQ\EOT\DC4\STX\SOH\ETX\DC2\EOT\148\ENQ()\n\ \\181\SOH\n\ \\EOT\EOT\DC4\STX\STX\DC2\EOT\155\ENQ\b*\SUB\166\SOH\n\ \Used to continue a funding flow that was initiated to be executed\n\ \through a PSBT. This step verifies that the PSBT contains the correct\n\ \outputs to fund the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC4\STX\STX\ACK\DC2\EOT\155\ENQ\b\EM\n\ \\r\n\ \\ENQ\EOT\DC4\STX\STX\SOH\DC2\EOT\155\ENQ\SUB%\n\ \\r\n\ \\ENQ\EOT\DC4\STX\STX\ETX\DC2\EOT\155\ENQ()\n\ \\238\SOH\n\ \\EOT\EOT\DC4\STX\ETX\DC2\EOT\163\ENQ\b.\SUB\223\SOH\n\ \Used to continue a funding flow that was initiated to be executed\n\ \through a PSBT. This step finalizes the funded and signed PSBT, finishes\n\ \negotiation with the peer and finally publishes the resulting funding\n\ \transaction.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC4\STX\ETX\ACK\DC2\EOT\163\ENQ\b\ESC\n\ \\r\n\ \\ENQ\EOT\DC4\STX\ETX\SOH\DC2\EOT\163\ENQ\FS)\n\ \\r\n\ \\ENQ\EOT\DC4\STX\ETX\ETX\DC2\EOT\163\ENQ,-\n\ \\f\n\ \\STX\EOT\NAK\DC2\ACK\167\ENQ\NUL\168\ENQ\SOH\n\ \\v\n\ \\ETX\EOT\NAK\SOH\DC2\EOT\167\ENQ\b\FS\n\ \\f\n\ \\STX\EOT\SYN\DC2\ACK\170\ENQ\NUL\192\ENQ\SOH\n\ \\v\n\ \\ETX\EOT\SYN\SOH\DC2\EOT\170\ENQ\b\DC3\n\ \G\n\ \\EOT\EOT\SYN\STX\NUL\DC2\EOT\172\ENQ\EOT\SYN\SUB9 The direction within the channel that the htlc was sent\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\NUL\ENQ\DC2\EOT\172\ENQ\EOT\b\n\ \\r\n\ \\ENQ\EOT\SYN\STX\NUL\SOH\DC2\EOT\172\ENQ\t\DC1\n\ \\r\n\ \\ENQ\EOT\SYN\STX\NUL\ETX\DC2\EOT\172\ENQ\DC4\NAK\n\ \+\n\ \\EOT\EOT\SYN\STX\SOH\DC2\EOT\175\ENQ\EOT\NAK\SUB\GS The total value of the htlc\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\SOH\ENQ\DC2\EOT\175\ENQ\EOT\t\n\ \\r\n\ \\ENQ\EOT\SYN\STX\SOH\SOH\DC2\EOT\175\ENQ\n\ \\DLE\n\ \\r\n\ \\ENQ\EOT\SYN\STX\SOH\ETX\DC2\EOT\175\ENQ\DC3\DC4\n\ \F\n\ \\EOT\EOT\SYN\STX\STX\DC2\EOT\178\ENQ\EOT\CAN\SUB8 The final output to be swept back to the user's wallet\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\STX\ENQ\DC2\EOT\178\ENQ\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\STX\SOH\DC2\EOT\178\ENQ\v\DC3\n\ \\r\n\ \\ENQ\EOT\SYN\STX\STX\ETX\DC2\EOT\178\ENQ\SYN\ETB\n\ \M\n\ \\EOT\EOT\SYN\STX\ETX\DC2\EOT\181\ENQ\EOT\US\SUB? The next block height at which we can spend the current stage\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\ETX\ENQ\DC2\EOT\181\ENQ\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\ETX\SOH\DC2\EOT\181\ENQ\v\SUB\n\ \\r\n\ \\ENQ\EOT\SYN\STX\ETX\ETX\DC2\EOT\181\ENQ\GS\RS\n\ \\161\SOH\n\ \\EOT\EOT\SYN\STX\EOT\DC2\EOT\188\ENQ\EOT\"\SUB\146\SOH\n\ \The number of blocks remaining until the current stage can be swept.\n\ \Negative values indicate how many blocks have passed since becoming\n\ \mature.\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\EOT\ENQ\DC2\EOT\188\ENQ\EOT\t\n\ \\r\n\ \\ENQ\EOT\SYN\STX\EOT\SOH\DC2\EOT\188\ENQ\n\ \\GS\n\ \\r\n\ \\ENQ\EOT\SYN\STX\EOT\ETX\DC2\EOT\188\ENQ !\n\ \V\n\ \\EOT\EOT\SYN\STX\ENQ\DC2\EOT\191\ENQ\EOT\NAK\SUBH Indicates whether the htlc is in its first or second stage of recovery\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\ENQ\ENQ\DC2\EOT\191\ENQ\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\ENQ\SOH\DC2\EOT\191\ENQ\v\DLE\n\ \\r\n\ \\ENQ\EOT\SYN\STX\ENQ\ETX\DC2\EOT\191\ENQ\DC3\DC4\n\ \\f\n\ \\STX\EOT\ETB\DC2\ACK\194\ENQ\NUL\195\ENQ\SOH\n\ \\v\n\ \\ETX\EOT\ETB\SOH\DC2\EOT\194\ENQ\b\RS\n\ \\f\n\ \\STX\EOT\CAN\DC2\ACK\196\ENQ\NUL\228\ACK\SOH\n\ \\v\n\ \\ETX\EOT\CAN\SOH\DC2\EOT\196\ENQ\b\US\n\ \\SO\n\ \\EOT\EOT\CAN\ETX\NUL\DC2\ACK\197\ENQ\EOT\224\ENQ\ENQ\n\ \\r\n\ \\ENQ\EOT\CAN\ETX\NUL\SOH\DC2\EOT\197\ENQ\f\SUB\n\ \\SO\n\ \\ACK\EOT\CAN\ETX\NUL\STX\NUL\DC2\EOT\198\ENQ\b#\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\NUL\ENQ\DC2\EOT\198\ENQ\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\NUL\SOH\DC2\EOT\198\ENQ\SI\RS\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\NUL\ETX\DC2\EOT\198\ENQ!\"\n\ \\SO\n\ \\ACK\EOT\CAN\ETX\NUL\STX\SOH\DC2\EOT\199\ENQ\b!\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\SOH\ENQ\DC2\EOT\199\ENQ\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\SOH\SOH\DC2\EOT\199\ENQ\SI\FS\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\SOH\ETX\DC2\EOT\199\ENQ\US \n\ \\SO\n\ \\ACK\EOT\CAN\ETX\NUL\STX\STX\DC2\EOT\201\ENQ\b\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\STX\ENQ\DC2\EOT\201\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\STX\SOH\DC2\EOT\201\ENQ\SO\SYN\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\STX\ETX\DC2\EOT\201\ENQ\EM\SUB\n\ \\SO\n\ \\ACK\EOT\CAN\ETX\NUL\STX\ETX\DC2\EOT\203\ENQ\b \n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ETX\ENQ\DC2\EOT\203\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ETX\SOH\DC2\EOT\203\ENQ\SO\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ETX\ETX\DC2\EOT\203\ENQ\RS\US\n\ \\SO\n\ \\ACK\EOT\CAN\ETX\NUL\STX\EOT\DC2\EOT\204\ENQ\b!\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\EOT\ENQ\DC2\EOT\204\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\EOT\SOH\DC2\EOT\204\ENQ\SO\FS\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\EOT\ETX\DC2\EOT\204\ENQ\US \n\ \X\n\ \\ACK\EOT\CAN\ETX\NUL\STX\ENQ\DC2\EOT\208\ENQ\b)\SUBH The minimum satoshis this node is required to reserve in its\n\ \ balance.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ENQ\ENQ\DC2\EOT\208\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ENQ\SOH\DC2\EOT\208\ENQ\SO$\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ENQ\ETX\DC2\EOT\208\ENQ'(\n\ \\\\n\ \\ACK\EOT\CAN\ETX\NUL\STX\ACK\DC2\EOT\214\ENQ\b*\SUBL\n\ \The minimum satoshis the other node is required to reserve in its\n\ \balance.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ACK\ENQ\DC2\EOT\214\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ACK\SOH\DC2\EOT\214\ENQ\SO%\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\ACK\ETX\DC2\EOT\214\ENQ()\n\ \?\n\ \\ACK\EOT\CAN\ETX\NUL\STX\a\DC2\EOT\217\ENQ\b \SUB/ The party that initiated opening the channel.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\a\ACK\DC2\EOT\217\ENQ\b\DC1\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\a\SOH\DC2\EOT\217\ENQ\DC2\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\a\ETX\DC2\EOT\217\ENQ\RS\US\n\ \;\n\ \\ACK\EOT\CAN\ETX\NUL\STX\b\DC2\EOT\220\ENQ\b+\SUB+ The commitment type used by this channel.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\b\ACK\DC2\EOT\220\ENQ\b\SYN\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\b\SOH\DC2\EOT\220\ENQ\ETB&\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\b\ETX\DC2\EOT\220\ENQ)*\n\ \N\n\ \\ACK\EOT\CAN\ETX\NUL\STX\t\DC2\EOT\223\ENQ\b+\SUB> Total number of forwarding packages created in this channel.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\t\ENQ\DC2\EOT\223\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\t\SOH\DC2\EOT\223\ENQ\SO%\n\ \\SI\n\ \\a\EOT\CAN\ETX\NUL\STX\t\ETX\DC2\EOT\223\ENQ(*\n\ \\SO\n\ \\EOT\EOT\CAN\ETX\SOH\DC2\ACK\226\ENQ\EOT\251\ENQ\ENQ\n\ \\r\n\ \\ENQ\EOT\CAN\ETX\SOH\SOH\DC2\EOT\226\ENQ\f\RS\n\ \%\n\ \\ACK\EOT\CAN\ETX\SOH\STX\NUL\DC2\EOT\228\ENQ\b#\SUB\NAK The pending channel\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\NUL\ACK\DC2\EOT\228\ENQ\b\SYN\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\NUL\SOH\DC2\EOT\228\ENQ\ETB\RS\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\NUL\ETX\DC2\EOT\228\ENQ!\"\n\ \D\n\ \\ACK\EOT\CAN\ETX\SOH\STX\SOH\DC2\EOT\231\ENQ\b'\SUB4 The height at which this channel will be confirmed\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\SOH\ENQ\DC2\EOT\231\ENQ\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\SOH\SOH\DC2\EOT\231\ENQ\SI\"\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\SOH\ETX\DC2\EOT\231\ENQ%&\n\ \\174\STX\n\ \\ACK\EOT\CAN\ETX\SOH\STX\STX\DC2\EOT\240\ENQ\b\GS\SUB\157\STX\n\ \The amount calculated to be paid in fees for the current set of\n\ \commitment transactions. The fee amount is persisted with the channel\n\ \in order to allow the fee amount to be removed and recalculated with\n\ \each channel state update, including updates that happen after a system\n\ \restart.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\STX\ENQ\DC2\EOT\240\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\STX\SOH\DC2\EOT\240\ENQ\SO\CAN\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\STX\ETX\DC2\EOT\240\ENQ\ESC\FS\n\ \:\n\ \\ACK\EOT\CAN\ETX\SOH\STX\ETX\DC2\EOT\243\ENQ\b \SUB* The weight of the commitment transaction\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\ETX\ENQ\DC2\EOT\243\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\ETX\SOH\DC2\EOT\243\ENQ\SO\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\ETX\ETX\DC2\EOT\243\ENQ\RS\US\n\ \\227\SOH\n\ \\ACK\EOT\CAN\ETX\SOH\STX\EOT\DC2\EOT\250\ENQ\b\GS\SUB\210\SOH\n\ \The required number of satoshis per kilo-weight that the requester will\n\ \pay at all times, for both the funding transaction and commitment\n\ \transaction. This value can later be updated once the channel is open.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\EOT\ENQ\DC2\EOT\250\ENQ\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\EOT\SOH\DC2\EOT\250\ENQ\SO\CAN\n\ \\SI\n\ \\a\EOT\CAN\ETX\SOH\STX\EOT\ETX\DC2\EOT\250\ENQ\ESC\FS\n\ \\SO\n\ \\EOT\EOT\CAN\ETX\STX\DC2\ACK\253\ENQ\EOT\137\ACK\ENQ\n\ \\r\n\ \\ENQ\EOT\CAN\ETX\STX\SOH\DC2\EOT\253\ENQ\f\US\n\ \G\n\ \\ACK\EOT\CAN\ETX\STX\STX\NUL\DC2\EOT\255\ENQ\b#\SUB7 The pending channel waiting for closing tx to confirm\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\NUL\ACK\DC2\EOT\255\ENQ\b\SYN\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\NUL\SOH\DC2\EOT\255\ENQ\ETB\RS\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\NUL\ETX\DC2\EOT\255\ENQ!\"\n\ \D\n\ \\ACK\EOT\CAN\ETX\STX\STX\SOH\DC2\EOT\130\ACK\b \SUB4 The balance in satoshis encumbered in this channel\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\SOH\ENQ\DC2\EOT\130\ACK\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\SOH\SOH\DC2\EOT\130\ACK\SO\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\SOH\ETX\DC2\EOT\130\ACK\RS\US\n\ \b\n\ \\ACK\EOT\CAN\ETX\STX\STX\STX\DC2\EOT\136\ACK\b$\SUBR\n\ \A list of valid commitment transactions. Any of these can confirm at\n\ \this point.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\STX\ACK\DC2\EOT\136\ACK\b\DC3\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\STX\SOH\DC2\EOT\136\ACK\DC4\US\n\ \\SI\n\ \\a\EOT\CAN\ETX\STX\STX\STX\ETX\DC2\EOT\136\ACK\"#\n\ \\SO\n\ \\EOT\EOT\CAN\ETX\ETX\DC2\ACK\139\ACK\EOT\166\ACK\ENQ\n\ \\r\n\ \\ENQ\EOT\CAN\ETX\ETX\SOH\DC2\EOT\139\ACK\f\ETB\n\ \A\n\ \\ACK\EOT\CAN\ETX\ETX\STX\NUL\DC2\EOT\141\ACK\b\RS\SUB1 Hash of the local version of the commitment tx.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\NUL\ENQ\DC2\EOT\141\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\NUL\SOH\DC2\EOT\141\ACK\SI\EM\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\NUL\ETX\DC2\EOT\141\ACK\FS\GS\n\ \B\n\ \\ACK\EOT\CAN\ETX\ETX\STX\SOH\DC2\EOT\144\ACK\b\US\SUB2 Hash of the remote version of the commitment tx.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\SOH\ENQ\DC2\EOT\144\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\SOH\SOH\DC2\EOT\144\ACK\SI\SUB\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\SOH\ETX\DC2\EOT\144\ACK\GS\RS\n\ \J\n\ \\ACK\EOT\CAN\ETX\ETX\STX\STX\DC2\EOT\147\ACK\b'\SUB: Hash of the remote pending version of the commitment tx.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\STX\ENQ\DC2\EOT\147\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\STX\SOH\DC2\EOT\147\ACK\SI\"\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\STX\ETX\DC2\EOT\147\ACK%&\n\ \`\n\ \\ACK\EOT\CAN\ETX\ETX\STX\ETX\DC2\EOT\153\ACK\b(\SUBP\n\ \The amount in satoshis calculated to be paid in fees for the local\n\ \commitment.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\ETX\ENQ\DC2\EOT\153\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\ETX\SOH\DC2\EOT\153\ACK\SI#\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\ETX\ETX\DC2\EOT\153\ACK&'\n\ \a\n\ \\ACK\EOT\CAN\ETX\ETX\STX\EOT\DC2\EOT\159\ACK\b)\SUBQ\n\ \The amount in satoshis calculated to be paid in fees for the remote\n\ \commitment.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\EOT\ENQ\DC2\EOT\159\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\EOT\SOH\DC2\EOT\159\ACK\SI$\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\EOT\ETX\DC2\EOT\159\ACK'(\n\ \i\n\ \\ACK\EOT\CAN\ETX\ETX\STX\ENQ\DC2\EOT\165\ACK\b1\SUBY\n\ \The amount in satoshis calculated to be paid in fees for the remote\n\ \pending commitment.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\ENQ\ENQ\DC2\EOT\165\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\ENQ\SOH\DC2\EOT\165\ACK\SI,\n\ \\SI\n\ \\a\EOT\CAN\ETX\ETX\STX\ENQ\ETX\DC2\EOT\165\ACK/0\n\ \\SO\n\ \\EOT\EOT\CAN\ETX\EOT\DC2\ACK\168\ACK\EOT\174\ACK\ENQ\n\ \\r\n\ \\ENQ\EOT\CAN\ETX\EOT\SOH\DC2\EOT\168\ACK\f\EM\n\ \2\n\ \\ACK\EOT\CAN\ETX\EOT\STX\NUL\DC2\EOT\170\ACK\b#\SUB\" The pending channel to be closed\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\EOT\STX\NUL\ACK\DC2\EOT\170\ACK\b\SYN\n\ \\SI\n\ \\a\EOT\CAN\ETX\EOT\STX\NUL\SOH\DC2\EOT\170\ACK\ETB\RS\n\ \\SI\n\ \\a\EOT\CAN\ETX\EOT\STX\NUL\ETX\DC2\EOT\170\ACK!\"\n\ \?\n\ \\ACK\EOT\CAN\ETX\EOT\STX\SOH\DC2\EOT\173\ACK\b \SUB/ The transaction id of the closing transaction\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\EOT\STX\SOH\ENQ\DC2\EOT\173\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\EOT\STX\SOH\SOH\DC2\EOT\173\ACK\SI\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\EOT\STX\SOH\ETX\DC2\EOT\173\ACK\RS\US\n\ \\SO\n\ \\EOT\EOT\CAN\ETX\ENQ\DC2\ACK\176\ACK\EOT\208\ACK\ENQ\n\ \\r\n\ \\ENQ\EOT\CAN\ETX\ENQ\SOH\DC2\EOT\176\ACK\f\RS\n\ \8\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\NUL\DC2\EOT\178\ACK\b#\SUB( The pending channel to be force closed\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\NUL\ACK\DC2\EOT\178\ACK\b\SYN\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\NUL\SOH\DC2\EOT\178\ACK\ETB\RS\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\NUL\ETX\DC2\EOT\178\ACK!\"\n\ \?\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\SOH\DC2\EOT\181\ACK\b \SUB/ The transaction id of the closing transaction\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\SOH\ENQ\DC2\EOT\181\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\SOH\SOH\DC2\EOT\181\ACK\SI\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\SOH\ETX\DC2\EOT\181\ACK\RS\US\n\ \L\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\STX\DC2\EOT\184\ACK\b \SUB< The balance in satoshis encumbered in this pending channel\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\STX\ENQ\DC2\EOT\184\ACK\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\STX\SOH\DC2\EOT\184\ACK\SO\ESC\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\STX\ETX\DC2\EOT\184\ACK\RS\US\n\ \H\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\ETX\DC2\EOT\187\ACK\b#\SUB8 The height at which funds can be swept into the wallet\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ETX\ENQ\DC2\EOT\187\ACK\b\SO\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ETX\SOH\DC2\EOT\187\ACK\SI\RS\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ETX\ETX\DC2\EOT\187\ACK!\"\n\ \\158\SOH\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\EOT\DC2\EOT\194\ACK\b&\SUB\141\SOH\n\ \Remaining # of blocks until the commitment output can be swept.\n\ \Negative values indicate how many blocks have passed since becoming\n\ \mature.\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\EOT\ENQ\DC2\EOT\194\ACK\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\EOT\SOH\DC2\EOT\194\ACK\SO!\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\EOT\ETX\DC2\EOT\194\ACK$%\n\ \S\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\ENQ\DC2\EOT\197\ACK\b$\SUBC The total value of funds successfully recovered from this channel\n\ \\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ENQ\ENQ\DC2\EOT\197\ACK\b\r\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ENQ\SOH\DC2\EOT\197\ACK\SO\US\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ENQ\ETX\DC2\EOT\197\ACK\"#\n\ \\SO\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\ACK\DC2\EOT\199\ACK\b/\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ACK\EOT\DC2\EOT\199\ACK\b\DLE\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ACK\ACK\DC2\EOT\199\ACK\DC1\FS\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ACK\SOH\DC2\EOT\199\ACK\GS*\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\ACK\ETX\DC2\EOT\199\ACK-.\n\ \\DLE\n\ \\ACK\EOT\CAN\ETX\ENQ\EOT\NUL\DC2\ACK\201\ACK\b\205\ACK\t\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\EOT\NUL\SOH\DC2\EOT\201\ACK\r\CAN\n\ \\DLE\n\ \\b\EOT\CAN\ETX\ENQ\EOT\NUL\STX\NUL\DC2\EOT\202\ACK\f\SYN\n\ \\DC1\n\ \\t\EOT\CAN\ETX\ENQ\EOT\NUL\STX\NUL\SOH\DC2\EOT\202\ACK\f\DC1\n\ \\DC1\n\ \\t\EOT\CAN\ETX\ENQ\EOT\NUL\STX\NUL\STX\DC2\EOT\202\ACK\DC4\NAK\n\ \\DLE\n\ \\b\EOT\CAN\ETX\ENQ\EOT\NUL\STX\SOH\DC2\EOT\203\ACK\f\SUB\n\ \\DC1\n\ \\t\EOT\CAN\ETX\ENQ\EOT\NUL\STX\SOH\SOH\DC2\EOT\203\ACK\f\NAK\n\ \\DC1\n\ \\t\EOT\CAN\ETX\ENQ\EOT\NUL\STX\SOH\STX\DC2\EOT\203\ACK\CAN\EM\n\ \\DLE\n\ \\b\EOT\CAN\ETX\ENQ\EOT\NUL\STX\STX\DC2\EOT\204\ACK\f\NAK\n\ \\DC1\n\ \\t\EOT\CAN\ETX\ENQ\EOT\NUL\STX\STX\SOH\DC2\EOT\204\ACK\f\DLE\n\ \\DC1\n\ \\t\EOT\CAN\ETX\ENQ\EOT\NUL\STX\STX\STX\DC2\EOT\204\ACK\DC3\DC4\n\ \\SO\n\ \\ACK\EOT\CAN\ETX\ENQ\STX\a\DC2\EOT\207\ACK\b\US\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\a\ACK\DC2\EOT\207\ACK\b\DC3\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\a\SOH\DC2\EOT\207\ACK\DC4\SUB\n\ \\SI\n\ \\a\EOT\CAN\ETX\ENQ\STX\a\ETX\DC2\EOT\207\ACK\GS\RS\n\ \F\n\ \\EOT\EOT\CAN\STX\NUL\DC2\EOT\211\ACK\EOT\"\SUB8 The balance in satoshis encumbered in pending channels\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\NUL\ENQ\DC2\EOT\211\ACK\EOT\t\n\ \\r\n\ \\ENQ\EOT\CAN\STX\NUL\SOH\DC2\EOT\211\ACK\n\ \\GS\n\ \\r\n\ \\ENQ\EOT\CAN\STX\NUL\ETX\DC2\EOT\211\ACK !\n\ \(\n\ \\EOT\EOT\CAN\STX\SOH\DC2\EOT\214\ACK\EOT:\SUB\SUB Channels pending opening\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\SOH\EOT\DC2\EOT\214\ACK\EOT\f\n\ \\r\n\ \\ENQ\EOT\CAN\STX\SOH\ACK\DC2\EOT\214\ACK\r\US\n\ \\r\n\ \\ENQ\EOT\CAN\STX\SOH\SOH\DC2\EOT\214\ACK 5\n\ \\r\n\ \\ENQ\EOT\CAN\STX\SOH\ETX\DC2\EOT\214\ACK89\n\ \\209\SOH\n\ \\EOT\EOT\CAN\STX\STX\DC2\EOT\221\ACK\EOTL\SUB\194\SOH\n\ \Deprecated: Channels pending closing previously contained cooperatively\n\ \closed channels with a single confirmation. These channels are now\n\ \considered closed from the time we see them on chain.\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\EOT\DC2\EOT\221\ACK\EOT\f\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\ACK\DC2\EOT\221\ACK\r\SUB\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\SOH\DC2\EOT\221\ACK\ESC3\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\ETX\DC2\EOT\221\ACK67\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\b\DC2\EOT\221\ACK8K\n\ \\SO\n\ \\ACK\EOT\CAN\STX\STX\b\ETX\DC2\EOT\221\ACK9J\n\ \.\n\ \\EOT\EOT\CAN\STX\ETX\DC2\EOT\224\ACK\EOTC\SUB Channels pending force closing\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\ETX\EOT\DC2\EOT\224\ACK\EOT\f\n\ \\r\n\ \\ENQ\EOT\CAN\STX\ETX\ACK\DC2\EOT\224\ACK\r\US\n\ \\r\n\ \\ENQ\EOT\CAN\STX\ETX\SOH\DC2\EOT\224\ACK >\n\ \\r\n\ \\ENQ\EOT\CAN\STX\ETX\ETX\DC2\EOT\224\ACKAB\n\ \:\n\ \\EOT\EOT\CAN\STX\EOT\DC2\EOT\227\ACK\EOT<\SUB, Channels waiting for closing tx to confirm\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\EOT\EOT\DC2\EOT\227\ACK\EOT\f\n\ \\r\n\ \\ENQ\EOT\CAN\STX\EOT\ACK\DC2\EOT\227\ACK\r \n\ \\r\n\ \\ENQ\EOT\CAN\STX\EOT\SOH\DC2\EOT\227\ACK!7\n\ \\r\n\ \\ENQ\EOT\CAN\STX\EOT\ETX\DC2\EOT\227\ACK:;\n\ \\f\n\ \\STX\EOT\EM\DC2\ACK\230\ACK\NUL\231\ACK\SOH\n\ \\v\n\ \\ETX\EOT\EM\SOH\DC2\EOT\230\ACK\b \n\ \\f\n\ \\STX\EOT\SUB\DC2\ACK\233\ACK\NUL\253\ACK\SOH\n\ \\v\n\ \\ETX\EOT\SUB\SOH\DC2\EOT\233\ACK\b\SUB\n\ \\SO\n\ \\EOT\EOT\SUB\b\NUL\DC2\ACK\234\ACK\EOT\241\ACK\ENQ\n\ \\r\n\ \\ENQ\EOT\SUB\b\NUL\SOH\DC2\EOT\234\ACK\n\ \\DC1\n\ \\f\n\ \\EOT\EOT\SUB\STX\NUL\DC2\EOT\235\ACK\b!\n\ \\r\n\ \\ENQ\EOT\SUB\STX\NUL\ACK\DC2\EOT\235\ACK\b\SI\n\ \\r\n\ \\ENQ\EOT\SUB\STX\NUL\SOH\DC2\EOT\235\ACK\DLE\FS\n\ \\r\n\ \\ENQ\EOT\SUB\STX\NUL\ETX\DC2\EOT\235\ACK\US \n\ \\f\n\ \\EOT\EOT\SUB\STX\SOH\DC2\EOT\236\ACK\b/\n\ \\r\n\ \\ENQ\EOT\SUB\STX\SOH\ACK\DC2\EOT\236\ACK\b\ESC\n\ \\r\n\ \\ENQ\EOT\SUB\STX\SOH\SOH\DC2\EOT\236\ACK\FS*\n\ \\r\n\ \\ENQ\EOT\SUB\STX\SOH\ETX\DC2\EOT\236\ACK-.\n\ \\f\n\ \\EOT\EOT\SUB\STX\STX\DC2\EOT\237\ACK\b(\n\ \\r\n\ \\ENQ\EOT\SUB\STX\STX\ACK\DC2\EOT\237\ACK\b\DC4\n\ \\r\n\ \\ENQ\EOT\SUB\STX\STX\SOH\DC2\EOT\237\ACK\NAK#\n\ \\r\n\ \\ENQ\EOT\SUB\STX\STX\ETX\DC2\EOT\237\ACK&'\n\ \\f\n\ \\EOT\EOT\SUB\STX\ETX\DC2\EOT\238\ACK\b*\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ETX\ACK\DC2\EOT\238\ACK\b\DC4\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ETX\SOH\DC2\EOT\238\ACK\NAK%\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ETX\ETX\DC2\EOT\238\ACK()\n\ \\f\n\ \\EOT\EOT\SUB\STX\EOT\DC2\EOT\239\ACK\b/\n\ \\r\n\ \\ENQ\EOT\SUB\STX\EOT\ACK\DC2\EOT\239\ACK\b\NAK\n\ \\r\n\ \\ENQ\EOT\SUB\STX\EOT\SOH\DC2\EOT\239\ACK\SYN*\n\ \\r\n\ \\ENQ\EOT\SUB\STX\EOT\ETX\DC2\EOT\239\ACK-.\n\ \\f\n\ \\EOT\EOT\SUB\STX\ENQ\DC2\EOT\240\ACK\b0\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ENQ\ACK\DC2\EOT\240\ACK\b\DC4\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ENQ\SOH\DC2\EOT\240\ACK\NAK+\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ENQ\ETX\DC2\EOT\240\ACK./\n\ \\SO\n\ \\EOT\EOT\SUB\EOT\NUL\DC2\ACK\243\ACK\EOT\250\ACK\ENQ\n\ \\r\n\ \\ENQ\EOT\SUB\EOT\NUL\SOH\DC2\EOT\243\ACK\t\DC3\n\ \\SO\n\ \\ACK\EOT\SUB\EOT\NUL\STX\NUL\DC2\EOT\244\ACK\b\EM\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\NUL\SOH\DC2\EOT\244\ACK\b\DC4\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\NUL\STX\DC2\EOT\244\ACK\ETB\CAN\n\ \\SO\n\ \\ACK\EOT\SUB\EOT\NUL\STX\SOH\DC2\EOT\245\ACK\b\ESC\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\SOH\SOH\DC2\EOT\245\ACK\b\SYN\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\SOH\STX\DC2\EOT\245\ACK\EM\SUB\n\ \\SO\n\ \\ACK\EOT\SUB\EOT\NUL\STX\STX\DC2\EOT\246\ACK\b\ESC\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\STX\SOH\DC2\EOT\246\ACK\b\SYN\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\STX\STX\DC2\EOT\246\ACK\EM\SUB\n\ \\SO\n\ \\ACK\EOT\SUB\EOT\NUL\STX\ETX\DC2\EOT\247\ACK\b\GS\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\ETX\SOH\DC2\EOT\247\ACK\b\CAN\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\ETX\STX\DC2\EOT\247\ACK\ESC\FS\n\ \\SO\n\ \\ACK\EOT\SUB\EOT\NUL\STX\EOT\DC2\EOT\248\ACK\b!\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\EOT\SOH\DC2\EOT\248\ACK\b\FS\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\EOT\STX\DC2\EOT\248\ACK\US \n\ \\SO\n\ \\ACK\EOT\SUB\EOT\NUL\STX\ENQ\DC2\EOT\249\ACK\b#\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\ENQ\SOH\DC2\EOT\249\ACK\b\RS\n\ \\SI\n\ \\a\EOT\SUB\EOT\NUL\STX\ENQ\STX\DC2\EOT\249\ACK!\"\n\ \\f\n\ \\EOT\EOT\SUB\STX\ACK\DC2\EOT\252\ACK\EOT\CAN\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ACK\ACK\DC2\EOT\252\ACK\EOT\SO\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ACK\SOH\DC2\EOT\252\ACK\SI\DC3\n\ \\r\n\ \\ENQ\EOT\SUB\STX\ACK\ETX\DC2\EOT\252\ACK\SYN\ETB\n\ \\f\n\ \\STX\EOT\ESC\DC2\ACK\255\ACK\NUL\133\a\SOH\n\ \\v\n\ \\ETX\EOT\ESC\SOH\DC2\EOT\255\ACK\b\FS\n\ \O\n\ \\EOT\EOT\ESC\STX\NUL\DC2\EOT\129\a\EOT \SUBA The confirmed balance of the account (with >= 1 confirmations).\n\ \\n\ \\r\n\ \\ENQ\EOT\ESC\STX\NUL\ENQ\DC2\EOT\129\a\EOT\t\n\ \\r\n\ \\ENQ\EOT\ESC\STX\NUL\SOH\DC2\EOT\129\a\n\ \\ESC\n\ \\r\n\ \\ENQ\EOT\ESC\STX\NUL\ETX\DC2\EOT\129\a\RS\US\n\ \N\n\ \\EOT\EOT\ESC\STX\SOH\DC2\EOT\132\a\EOT\"\SUB@ The unconfirmed balance of the account (with 0 confirmations).\n\ \\n\ \\r\n\ \\ENQ\EOT\ESC\STX\SOH\ENQ\DC2\EOT\132\a\EOT\t\n\ \\r\n\ \\ENQ\EOT\ESC\STX\SOH\SOH\DC2\EOT\132\a\n\ \\GS\n\ \\r\n\ \\ENQ\EOT\ESC\STX\SOH\ETX\DC2\EOT\132\a !\n\ \\f\n\ \\STX\EOT\FS\DC2\ACK\135\a\NUL\136\a\SOH\n\ \\v\n\ \\ETX\EOT\FS\SOH\DC2\EOT\135\a\b\FS\n\ \\f\n\ \\STX\EOT\GS\DC2\ACK\138\a\NUL\150\a\SOH\n\ \\v\n\ \\ETX\EOT\GS\SOH\DC2\EOT\138\a\b\GS\n\ \)\n\ \\EOT\EOT\GS\STX\NUL\DC2\EOT\140\a\EOT\FS\SUB\ESC The balance of the wallet\n\ \\n\ \\r\n\ \\ENQ\EOT\GS\STX\NUL\ENQ\DC2\EOT\140\a\EOT\t\n\ \\r\n\ \\ENQ\EOT\GS\STX\NUL\SOH\DC2\EOT\140\a\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT\GS\STX\NUL\ETX\DC2\EOT\140\a\SUB\ESC\n\ \J\n\ \\EOT\EOT\GS\STX\SOH\DC2\EOT\143\a\EOT \SUB< The confirmed balance of a wallet(with >= 1 confirmations)\n\ \\n\ \\r\n\ \\ENQ\EOT\GS\STX\SOH\ENQ\DC2\EOT\143\a\EOT\t\n\ \\r\n\ \\ENQ\EOT\GS\STX\SOH\SOH\DC2\EOT\143\a\n\ \\ESC\n\ \\r\n\ \\ENQ\EOT\GS\STX\SOH\ETX\DC2\EOT\143\a\RS\US\n\ \I\n\ \\EOT\EOT\GS\STX\STX\DC2\EOT\146\a\EOT\"\SUB; The unconfirmed balance of a wallet(with 0 confirmations)\n\ \\n\ \\r\n\ \\ENQ\EOT\GS\STX\STX\ENQ\DC2\EOT\146\a\EOT\t\n\ \\r\n\ \\ENQ\EOT\GS\STX\STX\SOH\DC2\EOT\146\a\n\ \\GS\n\ \\r\n\ \\ENQ\EOT\GS\STX\STX\ETX\DC2\EOT\146\a !\n\ \G\n\ \\EOT\EOT\GS\STX\ETX\DC2\EOT\149\a\EOT:\SUB9 A mapping of each wallet account's name to its balance.\n\ \\n\ \\r\n\ \\ENQ\EOT\GS\STX\ETX\ACK\DC2\EOT\149\a\EOT%\n\ \\r\n\ \\ENQ\EOT\GS\STX\ETX\SOH\DC2\EOT\149\a&5\n\ \\r\n\ \\ENQ\EOT\GS\STX\ETX\ETX\DC2\EOT\149\a89\n\ \\f\n\ \\STX\EOT\RS\DC2\ACK\152\a\NUL\158\a\SOH\n\ \\v\n\ \\ETX\EOT\RS\SOH\DC2\EOT\152\a\b\SO\n\ \.\n\ \\EOT\EOT\RS\STX\NUL\DC2\EOT\154\a\EOT\DC3\SUB Value denominated in satoshis.\n\ \\n\ \\r\n\ \\ENQ\EOT\RS\STX\NUL\ENQ\DC2\EOT\154\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\RS\STX\NUL\SOH\DC2\EOT\154\a\v\SO\n\ \\r\n\ \\ENQ\EOT\RS\STX\NUL\ETX\DC2\EOT\154\a\DC1\DC2\n\ \4\n\ \\EOT\EOT\RS\STX\SOH\DC2\EOT\157\a\EOT\DC4\SUB& Value denominated in milli-satoshis.\n\ \\n\ \\r\n\ \\ENQ\EOT\RS\STX\SOH\ENQ\DC2\EOT\157\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\RS\STX\SOH\SOH\DC2\EOT\157\a\v\SI\n\ \\r\n\ \\ENQ\EOT\RS\STX\SOH\ETX\DC2\EOT\157\a\DC2\DC3\n\ \\f\n\ \\STX\EOT\US\DC2\ACK\160\a\NUL\161\a\SOH\n\ \\v\n\ \\ETX\EOT\US\SOH\DC2\EOT\160\a\b\GS\n\ \\f\n\ \\STX\EOT \DC2\ACK\162\a\NUL\186\a\SOH\n\ \\v\n\ \\ETX\EOT \SOH\DC2\EOT\162\a\b\RS\n\ \L\n\ \\EOT\EOT \STX\NUL\DC2\EOT\164\a\EOT*\SUB> Deprecated. Sum of channels balances denominated in satoshis\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\NUL\ENQ\DC2\EOT\164\a\EOT\t\n\ \\r\n\ \\ENQ\EOT \STX\NUL\SOH\DC2\EOT\164\a\n\ \\DC1\n\ \\r\n\ \\ENQ\EOT \STX\NUL\ETX\DC2\EOT\164\a\DC4\NAK\n\ \\r\n\ \\ENQ\EOT \STX\NUL\b\DC2\EOT\164\a\SYN)\n\ \\SO\n\ \\ACK\EOT \STX\NUL\b\ETX\DC2\EOT\164\a\ETB(\n\ \T\n\ \\EOT\EOT \STX\SOH\DC2\EOT\167\a\EOT7\SUBF Deprecated. Sum of channels pending balances denominated in satoshis\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\SOH\ENQ\DC2\EOT\167\a\EOT\t\n\ \\r\n\ \\ENQ\EOT \STX\SOH\SOH\DC2\EOT\167\a\n\ \\RS\n\ \\r\n\ \\ENQ\EOT \STX\SOH\ETX\DC2\EOT\167\a!\"\n\ \\r\n\ \\ENQ\EOT \STX\SOH\b\DC2\EOT\167\a#6\n\ \\SO\n\ \\ACK\EOT \STX\SOH\b\ETX\DC2\EOT\167\a$5\n\ \/\n\ \\EOT\EOT \STX\STX\DC2\EOT\170\a\EOT\GS\SUB! Sum of channels local balances.\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\STX\ACK\DC2\EOT\170\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\STX\SOH\DC2\EOT\170\a\v\CAN\n\ \\r\n\ \\ENQ\EOT \STX\STX\ETX\DC2\EOT\170\a\ESC\FS\n\ \0\n\ \\EOT\EOT \STX\ETX\DC2\EOT\173\a\EOT\RS\SUB\" Sum of channels remote balances.\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\ETX\ACK\DC2\EOT\173\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\ETX\SOH\DC2\EOT\173\a\v\EM\n\ \\r\n\ \\ENQ\EOT \STX\ETX\ETX\DC2\EOT\173\a\FS\GS\n\ \9\n\ \\EOT\EOT \STX\EOT\DC2\EOT\176\a\EOT'\SUB+ Sum of channels local unsettled balances.\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\EOT\ACK\DC2\EOT\176\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\EOT\SOH\DC2\EOT\176\a\v\"\n\ \\r\n\ \\ENQ\EOT \STX\EOT\ETX\DC2\EOT\176\a%&\n\ \:\n\ \\EOT\EOT \STX\ENQ\DC2\EOT\179\a\EOT(\SUB, Sum of channels remote unsettled balances.\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\ENQ\ACK\DC2\EOT\179\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\ENQ\SOH\DC2\EOT\179\a\v#\n\ \\r\n\ \\ENQ\EOT \STX\ENQ\ETX\DC2\EOT\179\a&'\n\ \7\n\ \\EOT\EOT \STX\ACK\DC2\EOT\182\a\EOT*\SUB) Sum of channels pending local balances.\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\ACK\ACK\DC2\EOT\182\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\ACK\SOH\DC2\EOT\182\a\v%\n\ \\r\n\ \\ENQ\EOT \STX\ACK\ETX\DC2\EOT\182\a()\n\ \8\n\ \\EOT\EOT \STX\a\DC2\EOT\185\a\EOT+\SUB* Sum of channels pending remote balances.\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\a\ACK\DC2\EOT\185\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT \STX\a\SOH\DC2\EOT\185\a\v&\n\ \\r\n\ \\ENQ\EOT \STX\a\ETX\DC2\EOT\185\a)*\n\ \\f\n\ \\STX\EOT!\DC2\ACK\188\a\NUL\166\b\SOH\n\ \\v\n\ \\ETX\EOT!\SOH\DC2\EOT\188\a\b\SUB\n\ \N\n\ \\EOT\EOT!\STX\NUL\DC2\EOT\190\a\EOT\ETB\SUB@ The 33-byte hex-encoded public key for the payment destination\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\NUL\ENQ\DC2\EOT\190\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\NUL\SOH\DC2\EOT\190\a\v\DC2\n\ \\r\n\ \\ENQ\EOT!\STX\NUL\ETX\DC2\EOT\190\a\NAK\SYN\n\ \n\n\ \\EOT\EOT!\STX\SOH\DC2\EOT\197\a\EOT\DC2\SUB`\n\ \The amount to send expressed in satoshis.\n\ \\n\ \The fields amt and amt_msat are mutually exclusive.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\SOH\ENQ\DC2\EOT\197\a\EOT\t\n\ \\r\n\ \\ENQ\EOT!\STX\SOH\SOH\DC2\EOT\197\a\n\ \\r\n\ \\r\n\ \\ENQ\EOT!\STX\SOH\ETX\DC2\EOT\197\a\DLE\DC1\n\ \s\n\ \\EOT\EOT!\STX\STX\DC2\EOT\204\a\EOT\CAN\SUBe\n\ \The amount to send expressed in millisatoshis.\n\ \\n\ \The fields amt and amt_msat are mutually exclusive.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\STX\ENQ\DC2\EOT\204\a\EOT\t\n\ \\r\n\ \\ENQ\EOT!\STX\STX\SOH\DC2\EOT\204\a\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT!\STX\STX\ETX\DC2\EOT\204\a\NAK\ETB\n\ \\v\n\ \\ETX\EOT!\t\DC2\EOT\206\a\EOT\SI\n\ \\f\n\ \\EOT\EOT!\t\NUL\DC2\EOT\206\a\r\SO\n\ \\r\n\ \\ENQ\EOT!\t\NUL\SOH\DC2\EOT\206\a\r\SO\n\ \\r\n\ \\ENQ\EOT!\t\NUL\STX\DC2\EOT\206\a\r\SO\n\ \\245\STX\n\ \\EOT\EOT!\STX\ETX\DC2\EOT\215\a\EOT\US\SUB\230\STX\n\ \An optional CLTV delta from the current height that should be used for the\n\ \timelock of the final hop. Note that unlike SendPayment, QueryRoutes does\n\ \not add any additional block padding on top of final_ctlv_delta. This\n\ \padding of a few blocks needs to be added manually or otherwise failures may\n\ \happen when a block comes in while the payment is in flight.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\ETX\ENQ\DC2\EOT\215\a\EOT\t\n\ \\r\n\ \\ENQ\EOT!\STX\ETX\SOH\DC2\EOT\215\a\n\ \\SUB\n\ \\r\n\ \\ENQ\EOT!\STX\ETX\ETX\DC2\EOT\215\a\GS\RS\n\ \\130\STX\n\ \\EOT\EOT!\STX\EOT\DC2\EOT\223\a\EOT\ESC\SUB\243\SOH\n\ \The maximum number of satoshis that will be paid as a fee of the payment.\n\ \This value can be represented either as a percentage of the amount being\n\ \sent, or as a fixed amount of the maximum fee the user is willing the pay to\n\ \send the payment.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\EOT\ACK\DC2\EOT\223\a\EOT\f\n\ \\r\n\ \\ENQ\EOT!\STX\EOT\SOH\DC2\EOT\223\a\r\SYN\n\ \\r\n\ \\ENQ\EOT!\STX\EOT\ETX\DC2\EOT\223\a\EM\SUB\n\ \w\n\ \\EOT\EOT!\STX\ENQ\DC2\EOT\229\a\EOT%\SUBi\n\ \A list of nodes to ignore during path finding. When using REST, these fields\n\ \must be encoded as base64.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\ENQ\EOT\DC2\EOT\229\a\EOT\f\n\ \\r\n\ \\ENQ\EOT!\STX\ENQ\ENQ\DC2\EOT\229\a\r\DC2\n\ \\r\n\ \\ENQ\EOT!\STX\ENQ\SOH\DC2\EOT\229\a\DC3 \n\ \\r\n\ \\ENQ\EOT!\STX\ENQ\ETX\DC2\EOT\229\a#$\n\ \J\n\ \\EOT\EOT!\STX\ACK\DC2\EOT\234\a\EOT?\SUB<\n\ \Deprecated. A list of edges to ignore during path finding.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\ACK\EOT\DC2\EOT\234\a\EOT\f\n\ \\r\n\ \\ENQ\EOT!\STX\ACK\ACK\DC2\EOT\234\a\r\CAN\n\ \\r\n\ \\ENQ\EOT!\STX\ACK\SOH\DC2\EOT\234\a\EM&\n\ \\r\n\ \\ENQ\EOT!\STX\ACK\ETX\DC2\EOT\234\a)*\n\ \\r\n\ \\ENQ\EOT!\STX\ACK\b\DC2\EOT\234\a+>\n\ \\SO\n\ \\ACK\EOT!\STX\ACK\b\ETX\DC2\EOT\234\a,=\n\ \j\n\ \\EOT\EOT!\STX\a\DC2\EOT\240\a\EOT\RS\SUB\\\n\ \The source node where the request route should originated from. If empty,\n\ \self is assumed.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\a\ENQ\DC2\EOT\240\a\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\a\SOH\DC2\EOT\240\a\v\EM\n\ \\r\n\ \\ENQ\EOT!\STX\a\ETX\DC2\EOT\240\a\FS\GS\n\ \n\n\ \\EOT\EOT!\STX\b\DC2\EOT\246\a\EOT!\SUB`\n\ \If set to true, edge probabilities from mission control will be used to get\n\ \the optimal route.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\b\ENQ\DC2\EOT\246\a\EOT\b\n\ \\r\n\ \\ENQ\EOT!\STX\b\SOH\DC2\EOT\246\a\t\FS\n\ \\r\n\ \\ENQ\EOT!\STX\b\ETX\DC2\EOT\246\a\US \n\ \W\n\ \\EOT\EOT!\STX\t\DC2\EOT\251\a\EOT)\SUBI\n\ \A list of directed node pairs that will be ignored during path finding.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\t\EOT\DC2\EOT\251\a\EOT\f\n\ \\r\n\ \\ENQ\EOT!\STX\t\ACK\DC2\EOT\251\a\r\NAK\n\ \\r\n\ \\ENQ\EOT!\STX\t\SOH\DC2\EOT\251\a\SYN#\n\ \\r\n\ \\ENQ\EOT!\STX\t\ETX\DC2\EOT\251\a&(\n\ \\231\SOH\n\ \\EOT\EOT!\STX\n\ \\DC2\EOT\130\b\EOT\ESC\SUB\216\SOH\n\ \An optional maximum total time lock for the route. If the source is empty or\n\ \ourselves, this should not exceed lnd's `--max-cltv-expiry` setting. If\n\ \zero, then the value of `--max-cltv-expiry` is used as the limit.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\n\ \\ENQ\DC2\EOT\130\b\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\n\ \\SOH\DC2\EOT\130\b\v\NAK\n\ \\r\n\ \\ENQ\EOT!\STX\n\ \\ETX\DC2\EOT\130\b\CAN\SUB\n\ \\162\ETX\n\ \\EOT\EOT!\STX\v\DC2\EOT\140\b\EOT0\SUB\147\ETX\n\ \An optional field that can be used to pass an arbitrary set of TLV records\n\ \to a peer which understands the new records. This can be used to pass\n\ \application specific data during the payment attempt. If the destination\n\ \does not support the specified records, an error will be returned.\n\ \Record types are required to be in the custom range >= 65536. When using\n\ \REST, the values must be encoded as base64.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\v\ACK\DC2\EOT\140\b\EOT\SYN\n\ \\r\n\ \\ENQ\EOT!\STX\v\SOH\DC2\EOT\140\b\ETB*\n\ \\r\n\ \\ENQ\EOT!\STX\v\ETX\DC2\EOT\140\b-/\n\ \t\n\ \\EOT\EOT!\STX\f\DC2\EOT\146\b\EOT6\SUBf\n\ \The channel id of the channel that must be taken to the first hop. If zero,\n\ \any channel may be used.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\f\ENQ\DC2\EOT\146\b\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\f\SOH\DC2\EOT\146\b\v\ESC\n\ \\r\n\ \\ENQ\EOT!\STX\f\ETX\DC2\EOT\146\b\RS \n\ \\r\n\ \\ENQ\EOT!\STX\f\b\DC2\EOT\146\b!5\n\ \\SO\n\ \\ACK\EOT!\STX\f\b\ACK\DC2\EOT\146\b\"4\n\ \W\n\ \\EOT\EOT!\STX\r\DC2\EOT\151\b\EOT\US\SUBI\n\ \The pubkey of the last hop of the route. If empty, any hop may be used.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\r\ENQ\DC2\EOT\151\b\EOT\t\n\ \\r\n\ \\ENQ\EOT!\STX\r\SOH\DC2\EOT\151\b\n\ \\EM\n\ \\r\n\ \\ENQ\EOT!\STX\r\ETX\DC2\EOT\151\b\FS\RS\n\ \W\n\ \\EOT\EOT!\STX\SO\DC2\EOT\156\b\EOT.\SUBI\n\ \Optional route hints to reach the destination through private channels.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\SO\EOT\DC2\EOT\156\b\EOT\f\n\ \\r\n\ \\ENQ\EOT!\STX\SO\ACK\DC2\EOT\156\b\r\FS\n\ \\r\n\ \\ENQ\EOT!\STX\SO\SOH\DC2\EOT\156\b\GS(\n\ \\r\n\ \\ENQ\EOT!\STX\SO\ETX\DC2\EOT\156\b+-\n\ \\195\STX\n\ \\EOT\EOT!\STX\SI\DC2\EOT\165\b\EOT1\SUB\180\STX\n\ \Features assumed to be supported by the final node. All transitive feature\n\ \dependencies must also be set properly. For a given feature bit pair, either\n\ \optional or remote may be set, but not both. If this field is nil or empty,\n\ \the router will try to load destination features from the graph as a\n\ \fallback.\n\ \\n\ \\r\n\ \\ENQ\EOT!\STX\SI\EOT\DC2\EOT\165\b\EOT\f\n\ \\r\n\ \\ENQ\EOT!\STX\SI\ACK\DC2\EOT\165\b\r\GS\n\ \\r\n\ \\ENQ\EOT!\STX\SI\SOH\DC2\EOT\165\b\RS+\n\ \\r\n\ \\ENQ\EOT!\STX\SI\ETX\DC2\EOT\165\b.0\n\ \\f\n\ \\STX\EOT\"\DC2\ACK\168\b\NUL\180\b\SOH\n\ \\v\n\ \\ETX\EOT\"\SOH\DC2\EOT\168\b\b\DLE\n\ \d\n\ \\EOT\EOT\"\STX\NUL\DC2\EOT\173\b\EOT\DC3\SUBV\n\ \The sending node of the pair. When using REST, this field must be encoded as\n\ \base64.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\NUL\ENQ\DC2\EOT\173\b\EOT\t\n\ \\r\n\ \\ENQ\EOT\"\STX\NUL\SOH\DC2\EOT\173\b\n\ \\SO\n\ \\r\n\ \\ENQ\EOT\"\STX\NUL\ETX\DC2\EOT\173\b\DC1\DC2\n\ \f\n\ \\EOT\EOT\"\STX\SOH\DC2\EOT\179\b\EOT\DC1\SUBX\n\ \The receiving node of the pair. When using REST, this field must be encoded\n\ \as base64.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\SOH\ENQ\DC2\EOT\179\b\EOT\t\n\ \\r\n\ \\ENQ\EOT\"\STX\SOH\SOH\DC2\EOT\179\b\n\ \\f\n\ \\r\n\ \\ENQ\EOT\"\STX\SOH\ETX\DC2\EOT\179\b\SI\DLE\n\ \\f\n\ \\STX\EOT#\DC2\ACK\182\b\NUL\193\b\SOH\n\ \\v\n\ \\ETX\EOT#\SOH\DC2\EOT\182\b\b\DC3\n\ \2\n\ \\EOT\EOT#\STX\NUL\DC2\EOT\184\b\EOT/\SUB$ The short channel id of this edge.\n\ \\n\ \\r\n\ \\ENQ\EOT#\STX\NUL\ENQ\DC2\EOT\184\b\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT#\STX\NUL\SOH\DC2\EOT\184\b\v\NAK\n\ \\r\n\ \\ENQ\EOT#\STX\NUL\ETX\DC2\EOT\184\b\CAN\EM\n\ \\r\n\ \\ENQ\EOT#\STX\NUL\b\DC2\EOT\184\b\SUB.\n\ \\SO\n\ \\ACK\EOT#\STX\NUL\b\ACK\DC2\EOT\184\b\ESC-\n\ \\149\STX\n\ \\EOT\EOT#\STX\SOH\DC2\EOT\192\b\EOT\US\SUB\134\STX\n\ \The direction of this edge. If direction_reverse is false, the direction\n\ \of this edge is from the channel endpoint with the lexicographically smaller\n\ \pub key to the endpoint with the larger pub key. If direction_reverse is\n\ \is true, the edge goes the other way.\n\ \\n\ \\r\n\ \\ENQ\EOT#\STX\SOH\ENQ\DC2\EOT\192\b\EOT\b\n\ \\r\n\ \\ENQ\EOT#\STX\SOH\SOH\DC2\EOT\192\b\t\SUB\n\ \\r\n\ \\ENQ\EOT#\STX\SOH\ETX\DC2\EOT\192\b\GS\RS\n\ \\f\n\ \\STX\EOT$\DC2\ACK\195\b\NUL\207\b\SOH\n\ \\v\n\ \\ETX\EOT$\SOH\DC2\EOT\195\b\b\ESC\n\ \\137\SOH\n\ \\EOT\EOT$\STX\NUL\DC2\EOT\200\b\EOT\RS\SUB{\n\ \The route that results from the path finding operation. This is still a\n\ \repeated field to retain backwards compatibility.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\NUL\EOT\DC2\EOT\200\b\EOT\f\n\ \\r\n\ \\ENQ\EOT$\STX\NUL\ACK\DC2\EOT\200\b\r\DC2\n\ \\r\n\ \\ENQ\EOT$\STX\NUL\SOH\DC2\EOT\200\b\DC3\EM\n\ \\r\n\ \\ENQ\EOT$\STX\NUL\ETX\DC2\EOT\200\b\FS\GS\n\ \x\n\ \\EOT\EOT$\STX\SOH\DC2\EOT\206\b\EOT\FS\SUBj\n\ \The success probability of the returned route based on the current mission\n\ \control state. [EXPERIMENTAL]\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\SOH\ENQ\DC2\EOT\206\b\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\SOH\SOH\DC2\EOT\206\b\v\ETB\n\ \\r\n\ \\ENQ\EOT$\STX\SOH\ETX\DC2\EOT\206\b\SUB\ESC\n\ \\f\n\ \\STX\EOT%\DC2\ACK\209\b\NUL\132\t\SOH\n\ \\v\n\ \\ETX\EOT%\SOH\DC2\EOT\209\b\b\v\n\ \\193\SOH\n\ \\EOT\EOT%\STX\NUL\DC2\EOT\215\b\EOT,\SUB\178\SOH\n\ \The unique channel ID for the channel. The first 3 bytes are the block\n\ \height, the next 3 the index within the block, and the last 2 bytes are the\n\ \output index for the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\NUL\ENQ\DC2\EOT\215\b\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\NUL\SOH\DC2\EOT\215\b\v\DC2\n\ \\r\n\ \\ENQ\EOT%\STX\NUL\ETX\DC2\EOT\215\b\NAK\SYN\n\ \\r\n\ \\ENQ\EOT%\STX\NUL\b\DC2\EOT\215\b\ETB+\n\ \\SO\n\ \\ACK\EOT%\STX\NUL\b\ACK\DC2\EOT\215\b\CAN*\n\ \\f\n\ \\EOT\EOT%\STX\SOH\DC2\EOT\216\b\EOT0\n\ \\r\n\ \\ENQ\EOT%\STX\SOH\ENQ\DC2\EOT\216\b\EOT\t\n\ \\r\n\ \\ENQ\EOT%\STX\SOH\SOH\DC2\EOT\216\b\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT%\STX\SOH\ETX\DC2\EOT\216\b\SUB\ESC\n\ \\r\n\ \\ENQ\EOT%\STX\SOH\b\DC2\EOT\216\b\FS/\n\ \\SO\n\ \\ACK\EOT%\STX\SOH\b\ETX\DC2\EOT\216\b\GS.\n\ \\f\n\ \\EOT\EOT%\STX\STX\DC2\EOT\217\b\EOT1\n\ \\r\n\ \\ENQ\EOT%\STX\STX\ENQ\DC2\EOT\217\b\EOT\t\n\ \\r\n\ \\ENQ\EOT%\STX\STX\SOH\DC2\EOT\217\b\n\ \\CAN\n\ \\r\n\ \\ENQ\EOT%\STX\STX\ETX\DC2\EOT\217\b\ESC\FS\n\ \\r\n\ \\ENQ\EOT%\STX\STX\b\DC2\EOT\217\b\GS0\n\ \\SO\n\ \\ACK\EOT%\STX\STX\b\ETX\DC2\EOT\217\b\RS/\n\ \\f\n\ \\EOT\EOT%\STX\ETX\DC2\EOT\218\b\EOT&\n\ \\r\n\ \\ENQ\EOT%\STX\ETX\ENQ\DC2\EOT\218\b\EOT\t\n\ \\r\n\ \\ENQ\EOT%\STX\ETX\SOH\DC2\EOT\218\b\n\ \\r\n\ \\r\n\ \\ENQ\EOT%\STX\ETX\ETX\DC2\EOT\218\b\DLE\DC1\n\ \\r\n\ \\ENQ\EOT%\STX\ETX\b\DC2\EOT\218\b\DC2%\n\ \\SO\n\ \\ACK\EOT%\STX\ETX\b\ETX\DC2\EOT\218\b\DC3$\n\ \\f\n\ \\EOT\EOT%\STX\EOT\DC2\EOT\219\b\EOT\SYN\n\ \\r\n\ \\ENQ\EOT%\STX\EOT\ENQ\DC2\EOT\219\b\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\EOT\SOH\DC2\EOT\219\b\v\DC1\n\ \\r\n\ \\ENQ\EOT%\STX\EOT\ETX\DC2\EOT\219\b\DC4\NAK\n\ \\f\n\ \\EOT\EOT%\STX\ENQ\DC2\EOT\220\b\EOT\"\n\ \\r\n\ \\ENQ\EOT%\STX\ENQ\ENQ\DC2\EOT\220\b\EOT\t\n\ \\r\n\ \\ENQ\EOT%\STX\ENQ\SOH\DC2\EOT\220\b\n\ \\GS\n\ \\r\n\ \\ENQ\EOT%\STX\ENQ\ETX\DC2\EOT\220\b !\n\ \\f\n\ \\EOT\EOT%\STX\ACK\DC2\EOT\221\b\EOT\ETB\n\ \\r\n\ \\ENQ\EOT%\STX\ACK\ENQ\DC2\EOT\221\b\EOT\t\n\ \\r\n\ \\ENQ\EOT%\STX\ACK\SOH\DC2\EOT\221\b\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT%\STX\ACK\ETX\DC2\EOT\221\b\NAK\SYN\n\ \\155\SOH\n\ \\EOT\EOT%\STX\a\DC2\EOT\227\b\EOT\ETB\SUB\140\SOH\n\ \An optional public key of the hop. If the public key is given, the payment\n\ \can be executed without relying on a copy of the channel graph.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\a\ENQ\DC2\EOT\227\b\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\a\SOH\DC2\EOT\227\b\v\DC2\n\ \\r\n\ \\ENQ\EOT%\STX\a\ETX\DC2\EOT\227\b\NAK\SYN\n\ \\230\SOH\n\ \\EOT\EOT%\STX\b\DC2\EOT\234\b\EOT\EM\SUB\215\SOH\n\ \If set to true, then this hop will be encoded using the new variable length\n\ \TLV format. Note that if any custom tlv_records below are specified, then\n\ \this field MUST be set to true for them to be encoded properly.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\b\ENQ\DC2\EOT\234\b\EOT\b\n\ \\r\n\ \\ENQ\EOT%\STX\b\SOH\DC2\EOT\234\b\t\DC4\n\ \\r\n\ \\ENQ\EOT%\STX\b\ETX\DC2\EOT\234\b\ETB\CAN\n\ \\154\STX\n\ \\EOT\EOT%\STX\t\DC2\EOT\242\b\EOT\RS\SUB\139\STX\n\ \An optional TLV record that signals the use of an MPP payment. If present,\n\ \the receiver will enforce that the same mpp_record is included in the final\n\ \hop payload of all non-zero payments in the HTLC set. If empty, a regular\n\ \single-shot payment is or was attempted.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\t\ACK\DC2\EOT\242\b\EOT\r\n\ \\r\n\ \\ENQ\EOT%\STX\t\SOH\DC2\EOT\242\b\SO\CAN\n\ \\r\n\ \\ENQ\EOT%\STX\t\ETX\DC2\EOT\242\b\ESC\GS\n\ \\142\ETX\n\ \\EOT\EOT%\STX\n\ \\DC2\EOT\252\b\EOT\RS\SUB\255\STX\n\ \An optional TLV record that signals the use of an AMP payment. If present,\n\ \the receiver will treat all received payments including the same\n\ \(payment_addr, set_id) pair as being part of one logical payment. The\n\ \payment will be settled by XORing the root_share's together and deriving the\n\ \child hashes and preimages according to BOLT XX. Must be used in conjunction\n\ \with mpp_record.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\n\ \\ACK\DC2\EOT\252\b\EOT\r\n\ \\r\n\ \\ENQ\EOT%\STX\n\ \\SOH\DC2\EOT\252\b\SO\CAN\n\ \\r\n\ \\ENQ\EOT%\STX\n\ \\ETX\DC2\EOT\252\b\ESC\GS\n\ \\210\SOH\n\ \\EOT\EOT%\STX\v\DC2\EOT\131\t\EOT+\SUB\195\SOH\n\ \An optional set of key-value TLV records. This is useful within the context\n\ \of the SendToRoute call as it allows callers to specify arbitrary K-V pairs\n\ \to drop off at each hop within the onion.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\v\ACK\DC2\EOT\131\t\EOT\SYN\n\ \\r\n\ \\ENQ\EOT%\STX\v\SOH\DC2\EOT\131\t\ETB%\n\ \\r\n\ \\ENQ\EOT%\STX\v\ETX\DC2\EOT\131\t(*\n\ \\f\n\ \\STX\EOT&\DC2\ACK\134\t\NUL\150\t\SOH\n\ \\v\n\ \\ETX\EOT&\SOH\DC2\EOT\134\t\b\DC1\n\ \\168\STX\n\ \\EOT\EOT&\STX\NUL\DC2\EOT\141\t\EOT\FS\SUB\153\STX\n\ \A unique, random identifier used to authenticate the sender as the intended\n\ \payer of a multi-path payment. The payment_addr must be the same for all\n\ \subpayments, and match the payment_addr provided in the receiver's invoice.\n\ \The same payment_addr must be used on all subpayments.\n\ \\n\ \\r\n\ \\ENQ\EOT&\STX\NUL\ENQ\DC2\EOT\141\t\EOT\t\n\ \\r\n\ \\ENQ\EOT&\STX\NUL\SOH\DC2\EOT\141\t\n\ \\SYN\n\ \\r\n\ \\ENQ\EOT&\STX\NUL\ETX\DC2\EOT\141\t\EM\ESC\n\ \\147\STX\n\ \\EOT\EOT&\STX\SOH\DC2\EOT\149\t\EOT\RS\SUB\132\STX\n\ \The total amount in milli-satoshis being sent as part of a larger multi-path\n\ \payment. The caller is responsible for ensuring subpayments to the same node\n\ \and payment_hash sum exactly to total_amt_msat. The same\n\ \total_amt_msat must be used on all subpayments.\n\ \\n\ \\r\n\ \\ENQ\EOT&\STX\SOH\ENQ\DC2\EOT\149\t\EOT\t\n\ \\r\n\ \\ENQ\EOT&\STX\SOH\SOH\DC2\EOT\149\t\n\ \\CAN\n\ \\r\n\ \\ENQ\EOT&\STX\SOH\ETX\DC2\EOT\149\t\ESC\GS\n\ \\f\n\ \\STX\EOT'\DC2\ACK\152\t\NUL\158\t\SOH\n\ \\v\n\ \\ETX\EOT'\SOH\DC2\EOT\152\t\b\DC1\n\ \\f\n\ \\EOT\EOT'\STX\NUL\DC2\EOT\153\t\EOT\EM\n\ \\r\n\ \\ENQ\EOT'\STX\NUL\ENQ\DC2\EOT\153\t\EOT\t\n\ \\r\n\ \\ENQ\EOT'\STX\NUL\SOH\DC2\EOT\153\t\n\ \\DC4\n\ \\r\n\ \\ENQ\EOT'\STX\NUL\ETX\DC2\EOT\153\t\ETB\CAN\n\ \\f\n\ \\EOT\EOT'\STX\SOH\DC2\EOT\155\t\EOT\NAK\n\ \\r\n\ \\ENQ\EOT'\STX\SOH\ENQ\DC2\EOT\155\t\EOT\t\n\ \\r\n\ \\ENQ\EOT'\STX\SOH\SOH\DC2\EOT\155\t\n\ \\DLE\n\ \\r\n\ \\ENQ\EOT'\STX\SOH\ETX\DC2\EOT\155\t\DC3\DC4\n\ \\f\n\ \\EOT\EOT'\STX\STX\DC2\EOT\157\t\EOT\ESC\n\ \\r\n\ \\ENQ\EOT'\STX\STX\ENQ\DC2\EOT\157\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT'\STX\STX\SOH\DC2\EOT\157\t\v\SYN\n\ \\r\n\ \\ENQ\EOT'\STX\STX\ETX\DC2\EOT\157\t\EM\SUB\n\ \\255\STX\n\ \\STX\EOT(\DC2\ACK\167\t\NUL\206\t\SOH\SUB\240\STX\n\ \A path through the channel graph which runs over one or more channels in\n\ \succession. This struct carries all the information required to craft the\n\ \Sphinx onion packet, and send the payment along the first hop in the path. A\n\ \route is only selected as valid if all the channels have sufficient capacity to\n\ \carry the initial payment amount after fees are accounted for.\n\ \\n\ \\v\n\ \\ETX\EOT(\SOH\DC2\EOT\167\t\b\r\n\ \\185\STX\n\ \\EOT\EOT(\STX\NUL\DC2\EOT\174\t\EOT\US\SUB\170\STX\n\ \The cumulative (final) time lock across the entire route. This is the CLTV\n\ \value that should be extended to the first hop in the route. All other hops\n\ \will decrement the time-lock as advertised, leaving enough time for all\n\ \hops to wait for or present the payment preimage to complete the payment.\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\NUL\ENQ\DC2\EOT\174\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\NUL\SOH\DC2\EOT\174\t\v\SUB\n\ \\r\n\ \\ENQ\EOT(\STX\NUL\ETX\DC2\EOT\174\t\GS\RS\n\ \\179\SOH\n\ \\EOT\EOT(\STX\SOH\DC2\EOT\181\t\EOT-\SUB\164\SOH\n\ \The sum of the fees paid at each hop within the final route. In the case\n\ \of a one-hop payment, this value will be zero as we don't need to pay a fee\n\ \to ourselves.\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\ENQ\DC2\EOT\181\t\EOT\t\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\SOH\DC2\EOT\181\t\n\ \\DC4\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\ETX\DC2\EOT\181\t\ETB\CAN\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\b\DC2\EOT\181\t\EM,\n\ \\SO\n\ \\ACK\EOT(\STX\SOH\b\ETX\DC2\EOT\181\t\SUB+\n\ \\216\STX\n\ \\EOT\EOT(\STX\STX\DC2\EOT\190\t\EOT,\SUB\201\STX\n\ \The total amount of funds required to complete a payment over this route.\n\ \This value includes the cumulative fees at each hop. As a result, the HTLC\n\ \extended to the first-hop in the route will need to have at least this many\n\ \satoshis, otherwise the route will fail at an intermediate node due to an\n\ \insufficient amount of fees.\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\STX\ENQ\DC2\EOT\190\t\EOT\t\n\ \\r\n\ \\ENQ\EOT(\STX\STX\SOH\DC2\EOT\190\t\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT(\STX\STX\ETX\DC2\EOT\190\t\SYN\ETB\n\ \\r\n\ \\ENQ\EOT(\STX\STX\b\DC2\EOT\190\t\CAN+\n\ \\SO\n\ \\ACK\EOT(\STX\STX\b\ETX\DC2\EOT\190\t\EM*\n\ \X\n\ \\EOT\EOT(\STX\ETX\DC2\EOT\195\t\EOT\SUB\SUBJ\n\ \Contains details concerning the specific forwarding details at each hop.\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\ETX\EOT\DC2\EOT\195\t\EOT\f\n\ \\r\n\ \\ENQ\EOT(\STX\ETX\ACK\DC2\EOT\195\t\r\DLE\n\ \\r\n\ \\ENQ\EOT(\STX\ETX\SOH\DC2\EOT\195\t\DC1\NAK\n\ \\r\n\ \\ENQ\EOT(\STX\ETX\ETX\DC2\EOT\195\t\CAN\EM\n\ \0\n\ \\EOT\EOT(\STX\EOT\DC2\EOT\200\t\EOT\RS\SUB\"\n\ \The total fees in millisatoshis.\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\EOT\ENQ\DC2\EOT\200\t\EOT\t\n\ \\r\n\ \\ENQ\EOT(\STX\EOT\SOH\DC2\EOT\200\t\n\ \\EM\n\ \\r\n\ \\ENQ\EOT(\STX\EOT\ETX\DC2\EOT\200\t\FS\GS\n\ \2\n\ \\EOT\EOT(\STX\ENQ\DC2\EOT\205\t\EOT\GS\SUB$\n\ \The total amount in millisatoshis.\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\ENQ\ENQ\DC2\EOT\205\t\EOT\t\n\ \\r\n\ \\ENQ\EOT(\STX\ENQ\SOH\DC2\EOT\205\t\n\ \\CAN\n\ \\r\n\ \\ENQ\EOT(\STX\ENQ\ETX\DC2\EOT\205\t\ESC\FS\n\ \\f\n\ \\STX\EOT)\DC2\ACK\208\t\NUL\214\t\SOH\n\ \\v\n\ \\ETX\EOT)\SOH\DC2\EOT\208\t\b\ETB\n\ \L\n\ \\EOT\EOT)\STX\NUL\DC2\EOT\210\t\EOT\ETB\SUB> The 33-byte hex-encoded compressed public of the target node\n\ \\n\ \\r\n\ \\ENQ\EOT)\STX\NUL\ENQ\DC2\EOT\210\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT)\STX\NUL\SOH\DC2\EOT\210\t\v\DC2\n\ \\r\n\ \\ENQ\EOT)\STX\NUL\ETX\DC2\EOT\210\t\NAK\SYN\n\ \R\n\ \\EOT\EOT)\STX\SOH\DC2\EOT\213\t\EOT\RS\SUBD If true, will include all known channels associated with the node.\n\ \\n\ \\r\n\ \\ENQ\EOT)\STX\SOH\ENQ\DC2\EOT\213\t\EOT\b\n\ \\r\n\ \\ENQ\EOT)\STX\SOH\SOH\DC2\EOT\213\t\t\EM\n\ \\r\n\ \\ENQ\EOT)\STX\SOH\ETX\DC2\EOT\213\t\FS\GS\n\ \\f\n\ \\STX\EOT*\DC2\ACK\216\t\NUL\233\t\SOH\n\ \\v\n\ \\ETX\EOT*\SOH\DC2\EOT\216\t\b\DLE\n\ \\255\SOH\n\ \\EOT\EOT*\STX\NUL\DC2\EOT\223\t\EOT\ESC\SUB\240\SOH\n\ \An individual vertex/node within the channel graph. A node is\n\ \connected to other nodes by one or more channel edges emanating from it. As\n\ \the graph is directed, a node will also have an incoming edge attached to\n\ \it for each outgoing edge.\n\ \\n\ \\r\n\ \\ENQ\EOT*\STX\NUL\ACK\DC2\EOT\223\t\EOT\DC1\n\ \\r\n\ \\ENQ\EOT*\STX\NUL\SOH\DC2\EOT\223\t\DC2\SYN\n\ \\r\n\ \\ENQ\EOT*\STX\NUL\ETX\DC2\EOT\223\t\EM\SUB\n\ \:\n\ \\EOT\EOT*\STX\SOH\DC2\EOT\226\t\EOT\FS\SUB, The total number of channels for the node.\n\ \\n\ \\r\n\ \\ENQ\EOT*\STX\SOH\ENQ\DC2\EOT\226\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT*\STX\SOH\SOH\DC2\EOT\226\t\v\ETB\n\ \\r\n\ \\ENQ\EOT*\STX\SOH\ETX\DC2\EOT\226\t\SUB\ESC\n\ \W\n\ \\EOT\EOT*\STX\STX\DC2\EOT\229\t\EOT\GS\SUBI The sum of all channels capacity for the node, denominated in satoshis.\n\ \\n\ \\r\n\ \\ENQ\EOT*\STX\STX\ENQ\DC2\EOT\229\t\EOT\t\n\ \\r\n\ \\ENQ\EOT*\STX\STX\SOH\DC2\EOT\229\t\n\ \\CAN\n\ \\r\n\ \\ENQ\EOT*\STX\STX\ETX\DC2\EOT\229\t\ESC\FS\n\ \;\n\ \\EOT\EOT*\STX\ETX\DC2\EOT\232\t\EOT&\SUB- A list of all public channels for the node.\n\ \\n\ \\r\n\ \\ENQ\EOT*\STX\ETX\EOT\DC2\EOT\232\t\EOT\f\n\ \\r\n\ \\ENQ\EOT*\STX\ETX\ACK\DC2\EOT\232\t\r\CAN\n\ \\r\n\ \\ENQ\EOT*\STX\ETX\SOH\DC2\EOT\232\t\EM!\n\ \\r\n\ \\ENQ\EOT*\STX\ETX\ETX\DC2\EOT\232\t$%\n\ \\255\SOH\n\ \\STX\EOT+\DC2\ACK\241\t\NUL\248\t\SOH\SUB\240\SOH\n\ \An individual vertex/node within the channel graph. A node is\n\ \connected to other nodes by one or more channel edges emanating from it. As the\n\ \graph is directed, a node will also have an incoming edge attached to it for\n\ \each outgoing edge.\n\ \\n\ \\v\n\ \\ETX\EOT+\SOH\DC2\EOT\241\t\b\NAK\n\ \\f\n\ \\EOT\EOT+\STX\NUL\DC2\EOT\242\t\EOT\ESC\n\ \\r\n\ \\ENQ\EOT+\STX\NUL\ENQ\DC2\EOT\242\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT+\STX\NUL\SOH\DC2\EOT\242\t\v\SYN\n\ \\r\n\ \\ENQ\EOT+\STX\NUL\ETX\DC2\EOT\242\t\EM\SUB\n\ \\f\n\ \\EOT\EOT+\STX\SOH\DC2\EOT\243\t\EOT\ETB\n\ \\r\n\ \\ENQ\EOT+\STX\SOH\ENQ\DC2\EOT\243\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT+\STX\SOH\SOH\DC2\EOT\243\t\v\DC2\n\ \\r\n\ \\ENQ\EOT+\STX\SOH\ETX\DC2\EOT\243\t\NAK\SYN\n\ \\f\n\ \\EOT\EOT+\STX\STX\DC2\EOT\244\t\EOT\NAK\n\ \\r\n\ \\ENQ\EOT+\STX\STX\ENQ\DC2\EOT\244\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT+\STX\STX\SOH\DC2\EOT\244\t\v\DLE\n\ \\r\n\ \\ENQ\EOT+\STX\STX\ETX\DC2\EOT\244\t\DC3\DC4\n\ \\f\n\ \\EOT\EOT+\STX\ETX\DC2\EOT\245\t\EOT'\n\ \\r\n\ \\ENQ\EOT+\STX\ETX\EOT\DC2\EOT\245\t\EOT\f\n\ \\r\n\ \\ENQ\EOT+\STX\ETX\ACK\DC2\EOT\245\t\r\CAN\n\ \\r\n\ \\ENQ\EOT+\STX\ETX\SOH\DC2\EOT\245\t\EM\"\n\ \\r\n\ \\ENQ\EOT+\STX\ETX\ETX\DC2\EOT\245\t%&\n\ \\f\n\ \\EOT\EOT+\STX\EOT\DC2\EOT\246\t\EOT\NAK\n\ \\r\n\ \\ENQ\EOT+\STX\EOT\ENQ\DC2\EOT\246\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT+\STX\EOT\SOH\DC2\EOT\246\t\v\DLE\n\ \\r\n\ \\ENQ\EOT+\STX\EOT\ETX\DC2\EOT\246\t\DC3\DC4\n\ \\f\n\ \\EOT\EOT+\STX\ENQ\DC2\EOT\247\t\EOT&\n\ \\r\n\ \\ENQ\EOT+\STX\ENQ\ACK\DC2\EOT\247\t\EOT\CAN\n\ \\r\n\ \\ENQ\EOT+\STX\ENQ\SOH\DC2\EOT\247\t\EM!\n\ \\r\n\ \\ENQ\EOT+\STX\ENQ\ETX\DC2\EOT\247\t$%\n\ \\f\n\ \\STX\EOT,\DC2\ACK\250\t\NUL\253\t\SOH\n\ \\v\n\ \\ETX\EOT,\SOH\DC2\EOT\250\t\b\DC3\n\ \\f\n\ \\EOT\EOT,\STX\NUL\DC2\EOT\251\t\EOT\ETB\n\ \\r\n\ \\ENQ\EOT,\STX\NUL\ENQ\DC2\EOT\251\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT,\STX\NUL\SOH\DC2\EOT\251\t\v\DC2\n\ \\r\n\ \\ENQ\EOT,\STX\NUL\ETX\DC2\EOT\251\t\NAK\SYN\n\ \\f\n\ \\EOT\EOT,\STX\SOH\DC2\EOT\252\t\EOT\DC4\n\ \\r\n\ \\ENQ\EOT,\STX\SOH\ENQ\DC2\EOT\252\t\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT,\STX\SOH\SOH\DC2\EOT\252\t\v\SI\n\ \\r\n\ \\ENQ\EOT,\STX\SOH\ETX\DC2\EOT\252\t\DC2\DC3\n\ \\f\n\ \\STX\EOT-\DC2\ACK\255\t\NUL\135\n\ \\SOH\n\ \\v\n\ \\ETX\EOT-\SOH\DC2\EOT\255\t\b\NAK\n\ \\f\n\ \\EOT\EOT-\STX\NUL\DC2\EOT\128\n\ \\EOT\US\n\ \\r\n\ \\ENQ\EOT-\STX\NUL\ENQ\DC2\EOT\128\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT-\STX\NUL\SOH\DC2\EOT\128\n\ \\v\SUB\n\ \\r\n\ \\ENQ\EOT-\STX\NUL\ETX\DC2\EOT\128\n\ \\GS\RS\n\ \\f\n\ \\EOT\EOT-\STX\SOH\DC2\EOT\129\n\ \\EOT\ETB\n\ \\r\n\ \\ENQ\EOT-\STX\SOH\ENQ\DC2\EOT\129\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT-\STX\SOH\SOH\DC2\EOT\129\n\ \\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT-\STX\SOH\ETX\DC2\EOT\129\n\ \\NAK\SYN\n\ \\f\n\ \\EOT\EOT-\STX\STX\DC2\EOT\130\n\ \\EOT\FS\n\ \\r\n\ \\ENQ\EOT-\STX\STX\ENQ\DC2\EOT\130\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT-\STX\STX\SOH\DC2\EOT\130\n\ \\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT-\STX\STX\ETX\DC2\EOT\130\n\ \\SUB\ESC\n\ \\f\n\ \\EOT\EOT-\STX\ETX\DC2\EOT\131\n\ \\EOT\"\n\ \\r\n\ \\ENQ\EOT-\STX\ETX\ENQ\DC2\EOT\131\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT-\STX\ETX\SOH\DC2\EOT\131\n\ \\n\ \\GS\n\ \\r\n\ \\ENQ\EOT-\STX\ETX\ETX\DC2\EOT\131\n\ \ !\n\ \\f\n\ \\EOT\EOT-\STX\EOT\DC2\EOT\132\n\ \\EOT\SYN\n\ \\r\n\ \\ENQ\EOT-\STX\EOT\ENQ\DC2\EOT\132\n\ \\EOT\b\n\ \\r\n\ \\ENQ\EOT-\STX\EOT\SOH\DC2\EOT\132\n\ \\t\DC1\n\ \\r\n\ \\ENQ\EOT-\STX\EOT\ETX\DC2\EOT\132\n\ \\DC4\NAK\n\ \\f\n\ \\EOT\EOT-\STX\ENQ\DC2\EOT\133\n\ \\EOT\GS\n\ \\r\n\ \\ENQ\EOT-\STX\ENQ\ENQ\DC2\EOT\133\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT-\STX\ENQ\SOH\DC2\EOT\133\n\ \\v\CAN\n\ \\r\n\ \\ENQ\EOT-\STX\ENQ\ETX\DC2\EOT\133\n\ \\ESC\FS\n\ \\f\n\ \\EOT\EOT-\STX\ACK\DC2\EOT\134\n\ \\EOT\ESC\n\ \\r\n\ \\ENQ\EOT-\STX\ACK\ENQ\DC2\EOT\134\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT-\STX\ACK\SOH\DC2\EOT\134\n\ \\v\SYN\n\ \\r\n\ \\ENQ\EOT-\STX\ACK\ETX\DC2\EOT\134\n\ \\EM\SUB\n\ \\251\STX\n\ \\STX\EOT.\DC2\ACK\144\n\ \\NUL\162\n\ \\SOH\SUB\236\STX\n\ \A fully authenticated channel along with all its unique attributes.\n\ \Once an authenticated channel announcement has been processed on the network,\n\ \then an instance of ChannelEdgeInfo encapsulating the channels attributes is\n\ \stored. The other portions relevant to routing policy of a channel are stored\n\ \within a ChannelEdgePolicy for each direction of the channel.\n\ \\n\ \\v\n\ \\ETX\EOT.\SOH\DC2\EOT\144\n\ \\b\DC3\n\ \\193\SOH\n\ \\EOT\EOT.\STX\NUL\DC2\EOT\150\n\ \\EOT/\SUB\178\SOH\n\ \The unique channel ID for the channel. The first 3 bytes are the block\n\ \height, the next 3 the index within the block, and the last 2 bytes are the\n\ \output index for the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT.\STX\NUL\ENQ\DC2\EOT\150\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT.\STX\NUL\SOH\DC2\EOT\150\n\ \\v\NAK\n\ \\r\n\ \\ENQ\EOT.\STX\NUL\ETX\DC2\EOT\150\n\ \\CAN\EM\n\ \\r\n\ \\ENQ\EOT.\STX\NUL\b\DC2\EOT\150\n\ \\SUB.\n\ \\SO\n\ \\ACK\EOT.\STX\NUL\b\ACK\DC2\EOT\150\n\ \\ESC-\n\ \\f\n\ \\EOT\EOT.\STX\SOH\DC2\EOT\151\n\ \\EOT\SUB\n\ \\r\n\ \\ENQ\EOT.\STX\SOH\ENQ\DC2\EOT\151\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT.\STX\SOH\SOH\DC2\EOT\151\n\ \\v\NAK\n\ \\r\n\ \\ENQ\EOT.\STX\SOH\ETX\DC2\EOT\151\n\ \\CAN\EM\n\ \\f\n\ \\EOT\EOT.\STX\STX\DC2\EOT\153\n\ \\EOT/\n\ \\r\n\ \\ENQ\EOT.\STX\STX\ENQ\DC2\EOT\153\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT.\STX\STX\SOH\DC2\EOT\153\n\ \\v\SYN\n\ \\r\n\ \\ENQ\EOT.\STX\STX\ETX\DC2\EOT\153\n\ \\EM\SUB\n\ \\r\n\ \\ENQ\EOT.\STX\STX\b\DC2\EOT\153\n\ \\ESC.\n\ \\SO\n\ \\ACK\EOT.\STX\STX\b\ETX\DC2\EOT\153\n\ \\FS-\n\ \\f\n\ \\EOT\EOT.\STX\ETX\DC2\EOT\155\n\ \\EOT\EM\n\ \\r\n\ \\ENQ\EOT.\STX\ETX\ENQ\DC2\EOT\155\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT.\STX\ETX\SOH\DC2\EOT\155\n\ \\v\DC4\n\ \\r\n\ \\ENQ\EOT.\STX\ETX\ETX\DC2\EOT\155\n\ \\ETB\CAN\n\ \\f\n\ \\EOT\EOT.\STX\EOT\DC2\EOT\156\n\ \\EOT\EM\n\ \\r\n\ \\ENQ\EOT.\STX\EOT\ENQ\DC2\EOT\156\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT.\STX\EOT\SOH\DC2\EOT\156\n\ \\v\DC4\n\ \\r\n\ \\ENQ\EOT.\STX\EOT\ETX\DC2\EOT\156\n\ \\ETB\CAN\n\ \\f\n\ \\EOT\EOT.\STX\ENQ\DC2\EOT\158\n\ \\EOT\ETB\n\ \\r\n\ \\ENQ\EOT.\STX\ENQ\ENQ\DC2\EOT\158\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT.\STX\ENQ\SOH\DC2\EOT\158\n\ \\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT.\STX\ENQ\ETX\DC2\EOT\158\n\ \\NAK\SYN\n\ \\f\n\ \\EOT\EOT.\STX\ACK\DC2\EOT\160\n\ \\EOT#\n\ \\r\n\ \\ENQ\EOT.\STX\ACK\ACK\DC2\EOT\160\n\ \\EOT\DC1\n\ \\r\n\ \\ENQ\EOT.\STX\ACK\SOH\DC2\EOT\160\n\ \\DC2\RS\n\ \\r\n\ \\ENQ\EOT.\STX\ACK\ETX\DC2\EOT\160\n\ \!\"\n\ \\f\n\ \\EOT\EOT.\STX\a\DC2\EOT\161\n\ \\EOT#\n\ \\r\n\ \\ENQ\EOT.\STX\a\ACK\DC2\EOT\161\n\ \\EOT\DC1\n\ \\r\n\ \\ENQ\EOT.\STX\a\SOH\DC2\EOT\161\n\ \\DC2\RS\n\ \\r\n\ \\ENQ\EOT.\STX\a\ETX\DC2\EOT\161\n\ \!\"\n\ \\f\n\ \\STX\EOT/\DC2\ACK\164\n\ \\NUL\171\n\ \\SOH\n\ \\v\n\ \\ETX\EOT/\SOH\DC2\EOT\164\n\ \\b\ESC\n\ \\236\SOH\n\ \\EOT\EOT/\STX\NUL\DC2\EOT\170\n\ \\EOT!\SUB\221\SOH\n\ \Whether unannounced channels are included in the response or not. If set,\n\ \unannounced channels are included. Unannounced channels are both private\n\ \channels, and public channels that are not yet announced to the network.\n\ \\n\ \\r\n\ \\ENQ\EOT/\STX\NUL\ENQ\DC2\EOT\170\n\ \\EOT\b\n\ \\r\n\ \\ENQ\EOT/\STX\NUL\SOH\DC2\EOT\170\n\ \\t\FS\n\ \\r\n\ \\ENQ\EOT/\STX\NUL\ETX\DC2\EOT\170\n\ \\US \n\ \E\n\ \\STX\EOT0\DC2\ACK\174\n\ \\NUL\180\n\ \\SOH\SUB7 Returns a new instance of the directed channel graph.\n\ \\n\ \\v\n\ \\ETX\EOT0\SOH\DC2\EOT\174\n\ \\b\DC4\n\ \B\n\ \\EOT\EOT0\STX\NUL\DC2\EOT\176\n\ \\EOT%\SUB4 The list of `LightningNode`s in this channel graph\n\ \\n\ \\r\n\ \\ENQ\EOT0\STX\NUL\EOT\DC2\EOT\176\n\ \\EOT\f\n\ \\r\n\ \\ENQ\EOT0\STX\NUL\ACK\DC2\EOT\176\n\ \\r\SUB\n\ \\r\n\ \\ENQ\EOT0\STX\NUL\SOH\DC2\EOT\176\n\ \\ESC \n\ \\r\n\ \\ENQ\EOT0\STX\NUL\ETX\DC2\EOT\176\n\ \#$\n\ \@\n\ \\EOT\EOT0\STX\SOH\DC2\EOT\179\n\ \\EOT#\SUB2 The list of `ChannelEdge`s in this channel graph\n\ \\n\ \\r\n\ \\ENQ\EOT0\STX\SOH\EOT\DC2\EOT\179\n\ \\EOT\f\n\ \\r\n\ \\ENQ\EOT0\STX\SOH\ACK\DC2\EOT\179\n\ \\r\CAN\n\ \\r\n\ \\ENQ\EOT0\STX\SOH\SOH\DC2\EOT\179\n\ \\EM\RS\n\ \\r\n\ \\ENQ\EOT0\STX\SOH\ETX\DC2\EOT\179\n\ \!\"\n\ \\f\n\ \\STX\ENQ\ENQ\DC2\ACK\182\n\ \\NUL\185\n\ \\SOH\n\ \\v\n\ \\ETX\ENQ\ENQ\SOH\DC2\EOT\182\n\ \\ENQ\DC3\n\ \\f\n\ \\EOT\ENQ\ENQ\STX\NUL\DC2\EOT\183\n\ \\EOT\DLE\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\NUL\SOH\DC2\EOT\183\n\ \\EOT\v\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\NUL\STX\DC2\EOT\183\n\ \\SO\SI\n\ \\f\n\ \\EOT\ENQ\ENQ\STX\SOH\DC2\EOT\184\n\ \\EOT\US\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\SOH\SOH\DC2\EOT\184\n\ \\EOT\SUB\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\SOH\STX\DC2\EOT\184\n\ \\GS\RS\n\ \\f\n\ \\STX\EOT1\DC2\ACK\187\n\ \\NUL\190\n\ \\SOH\n\ \\v\n\ \\ETX\EOT1\SOH\DC2\EOT\187\n\ \\b\SUB\n\ \+\n\ \\EOT\EOT1\STX\NUL\DC2\EOT\189\n\ \\EOT&\SUB\GS The requested node metrics.\n\ \\n\ \\r\n\ \\ENQ\EOT1\STX\NUL\EOT\DC2\EOT\189\n\ \\EOT\f\n\ \\r\n\ \\ENQ\EOT1\STX\NUL\ACK\DC2\EOT\189\n\ \\r\ESC\n\ \\r\n\ \\ENQ\EOT1\STX\NUL\SOH\DC2\EOT\189\n\ \\FS!\n\ \\r\n\ \\ENQ\EOT1\STX\NUL\ETX\DC2\EOT\189\n\ \$%\n\ \\f\n\ \\STX\EOT2\DC2\ACK\192\n\ \\NUL\201\n\ \\SOH\n\ \\v\n\ \\ETX\EOT2\SOH\DC2\EOT\192\n\ \\b\ESC\n\ \\180\STX\n\ \\EOT\EOT2\STX\NUL\DC2\EOT\200\n\ \\EOT8\SUB\165\STX\n\ \Betweenness centrality is the sum of the ratio of shortest paths that pass\n\ \through the node for each pair of nodes in the graph (not counting paths\n\ \starting or ending at this node).\n\ \Map of node pubkey to betweenness centrality of the node. Normalized\n\ \values are in the [0,1] closed interval.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\NUL\ACK\DC2\EOT\200\n\ \\EOT\FS\n\ \\r\n\ \\ENQ\EOT2\STX\NUL\SOH\DC2\EOT\200\n\ \\GS3\n\ \\r\n\ \\ENQ\EOT2\STX\NUL\ETX\DC2\EOT\200\n\ \67\n\ \\f\n\ \\STX\EOT3\DC2\ACK\203\n\ \\NUL\209\n\ \\SOH\n\ \\v\n\ \\ETX\EOT3\SOH\DC2\EOT\203\n\ \\b\DC3\n\ \&\n\ \\EOT\EOT3\STX\NUL\DC2\EOT\205\n\ \\EOT\NAK\SUB\CAN Arbitrary float value.\n\ \\n\ \\r\n\ \\ENQ\EOT3\STX\NUL\ENQ\DC2\EOT\205\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT3\STX\NUL\SOH\DC2\EOT\205\n\ \\v\DLE\n\ \\r\n\ \\ENQ\EOT3\STX\NUL\ETX\DC2\EOT\205\n\ \\DC3\DC4\n\ \8\n\ \\EOT\EOT3\STX\SOH\DC2\EOT\208\n\ \\EOT \SUB* The value normalized to [0,1] or [-1,1].\n\ \\n\ \\r\n\ \\ENQ\EOT3\STX\SOH\ENQ\DC2\EOT\208\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT3\STX\SOH\SOH\DC2\EOT\208\n\ \\v\ESC\n\ \\r\n\ \\ENQ\EOT3\STX\SOH\ETX\DC2\EOT\208\n\ \\RS\US\n\ \\f\n\ \\STX\EOT4\DC2\ACK\211\n\ \\NUL\218\n\ \\SOH\n\ \\v\n\ \\ETX\EOT4\SOH\DC2\EOT\211\n\ \\b\ETB\n\ \\193\SOH\n\ \\EOT\EOT4\STX\NUL\DC2\EOT\217\n\ \\EOT,\SUB\178\SOH\n\ \The unique channel ID for the channel. The first 3 bytes are the block\n\ \height, the next 3 the index within the block, and the last 2 bytes are the\n\ \output index for the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT4\STX\NUL\ENQ\DC2\EOT\217\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT4\STX\NUL\SOH\DC2\EOT\217\n\ \\v\DC2\n\ \\r\n\ \\ENQ\EOT4\STX\NUL\ETX\DC2\EOT\217\n\ \\NAK\SYN\n\ \\r\n\ \\ENQ\EOT4\STX\NUL\b\DC2\EOT\217\n\ \\ETB+\n\ \\SO\n\ \\ACK\EOT4\STX\NUL\b\ACK\DC2\EOT\217\n\ \\CAN*\n\ \\f\n\ \\STX\EOT5\DC2\ACK\220\n\ \\NUL\221\n\ \\SOH\n\ \\v\n\ \\ETX\EOT5\SOH\DC2\EOT\220\n\ \\b\SUB\n\ \\f\n\ \\STX\EOT6\DC2\ACK\222\n\ \\NUL\242\n\ \\SOH\n\ \\v\n\ \\ETX\EOT6\SOH\DC2\EOT\222\n\ \\b\DC3\n\ \\f\n\ \\EOT\EOT6\STX\NUL\DC2\EOT\223\n\ \\EOT\RS\n\ \\r\n\ \\ENQ\EOT6\STX\NUL\ENQ\DC2\EOT\223\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\NUL\SOH\DC2\EOT\223\n\ \\v\EM\n\ \\r\n\ \\ENQ\EOT6\STX\NUL\ETX\DC2\EOT\223\n\ \\FS\GS\n\ \\f\n\ \\EOT\EOT6\STX\SOH\DC2\EOT\224\n\ \\EOT\RS\n\ \\r\n\ \\ENQ\EOT6\STX\SOH\ENQ\DC2\EOT\224\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\SOH\SOH\DC2\EOT\224\n\ \\v\EM\n\ \\r\n\ \\ENQ\EOT6\STX\SOH\ETX\DC2\EOT\224\n\ \\FS\GS\n\ \\f\n\ \\EOT\EOT6\STX\STX\DC2\EOT\225\n\ \\EOT\RS\n\ \\r\n\ \\ENQ\EOT6\STX\STX\ENQ\DC2\EOT\225\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\STX\SOH\DC2\EOT\225\n\ \\v\EM\n\ \\r\n\ \\ENQ\EOT6\STX\STX\ETX\DC2\EOT\225\n\ \\FS\GS\n\ \\f\n\ \\EOT\EOT6\STX\ETX\DC2\EOT\227\n\ \\EOT\EM\n\ \\r\n\ \\ENQ\EOT6\STX\ETX\ENQ\DC2\EOT\227\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\ETX\SOH\DC2\EOT\227\n\ \\v\DC4\n\ \\r\n\ \\ENQ\EOT6\STX\ETX\ETX\DC2\EOT\227\n\ \\ETB\CAN\n\ \\f\n\ \\EOT\EOT6\STX\EOT\DC2\EOT\228\n\ \\EOT\FS\n\ \\r\n\ \\ENQ\EOT6\STX\EOT\ENQ\DC2\EOT\228\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\EOT\SOH\DC2\EOT\228\n\ \\v\ETB\n\ \\r\n\ \\ENQ\EOT6\STX\EOT\ETX\DC2\EOT\228\n\ \\SUB\ESC\n\ \\f\n\ \\EOT\EOT6\STX\ENQ\DC2\EOT\230\n\ \\EOT%\n\ \\r\n\ \\ENQ\EOT6\STX\ENQ\ENQ\DC2\EOT\230\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT6\STX\ENQ\SOH\DC2\EOT\230\n\ \\n\ \ \n\ \\r\n\ \\ENQ\EOT6\STX\ENQ\ETX\DC2\EOT\230\n\ \#$\n\ \\f\n\ \\EOT\EOT6\STX\ACK\DC2\EOT\232\n\ \\EOT \n\ \\r\n\ \\ENQ\EOT6\STX\ACK\ENQ\DC2\EOT\232\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\ACK\SOH\DC2\EOT\232\n\ \\v\ESC\n\ \\r\n\ \\ENQ\EOT6\STX\ACK\ETX\DC2\EOT\232\n\ \\RS\US\n\ \\f\n\ \\EOT\EOT6\STX\a\DC2\EOT\233\n\ \\EOT\US\n\ \\r\n\ \\ENQ\EOT6\STX\a\ENQ\DC2\EOT\233\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT6\STX\a\SOH\DC2\EOT\233\n\ \\n\ \\SUB\n\ \\r\n\ \\ENQ\EOT6\STX\a\ETX\DC2\EOT\233\n\ \\GS\RS\n\ \\f\n\ \\EOT\EOT6\STX\b\DC2\EOT\234\n\ \\EOT\US\n\ \\r\n\ \\ENQ\EOT6\STX\b\ENQ\DC2\EOT\234\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT6\STX\b\SOH\DC2\EOT\234\n\ \\n\ \\SUB\n\ \\r\n\ \\ENQ\EOT6\STX\b\ETX\DC2\EOT\234\n\ \\GS\RS\n\ \\f\n\ \\EOT\EOT6\STX\t\DC2\EOT\235\n\ \\EOT'\n\ \\r\n\ \\ENQ\EOT6\STX\t\ENQ\DC2\EOT\235\n\ \\EOT\t\n\ \\r\n\ \\ENQ\EOT6\STX\t\SOH\DC2\EOT\235\n\ \\n\ \!\n\ \\r\n\ \\ENQ\EOT6\STX\t\ETX\DC2\EOT\235\n\ \$&\n\ \6\n\ \\EOT\EOT6\STX\n\ \\DC2\EOT\238\n\ \\EOT!\SUB( The number of edges marked as zombies.\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\n\ \\ENQ\DC2\EOT\238\n\ \\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT6\STX\n\ \\SOH\DC2\EOT\238\n\ \\v\ESC\n\ \\r\n\ \\ENQ\EOT6\STX\n\ \\ETX\DC2\EOT\238\n\ \\RS \n\ \\f\n\ \\STX\EOT7\DC2\ACK\244\n\ \\NUL\245\n\ \\SOH\n\ \\v\n\ \\ETX\EOT7\SOH\DC2\EOT\244\n\ \\b\DC3\n\ \\f\n\ \\STX\EOT8\DC2\ACK\246\n\ \\NUL\247\n\ \\SOH\n\ \\v\n\ \\ETX\EOT8\SOH\DC2\EOT\246\n\ \\b\DC4\n\ \\f\n\ \\STX\EOT9\DC2\ACK\249\n\ \\NUL\250\n\ \\SOH\n\ \\v\n\ \\ETX\EOT9\SOH\DC2\EOT\249\n\ \\b!\n\ \\f\n\ \\STX\EOT:\DC2\ACK\251\n\ \\NUL\255\n\ \\SOH\n\ \\v\n\ \\ETX\EOT:\SOH\DC2\EOT\251\n\ \\b\ESC\n\ \\f\n\ \\EOT\EOT:\STX\NUL\DC2\EOT\252\n\ \\EOT)\n\ \\r\n\ \\ENQ\EOT:\STX\NUL\EOT\DC2\EOT\252\n\ \\EOT\f\n\ \\r\n\ \\ENQ\EOT:\STX\NUL\ACK\DC2\EOT\252\n\ \\r\ETB\n\ \\r\n\ \\ENQ\EOT:\STX\NUL\SOH\DC2\EOT\252\n\ \\CAN$\n\ \\r\n\ \\ENQ\EOT:\STX\NUL\ETX\DC2\EOT\252\n\ \'(\n\ \\f\n\ \\EOT\EOT:\STX\SOH\DC2\EOT\253\n\ \\EOT3\n\ \\r\n\ \\ENQ\EOT:\STX\SOH\EOT\DC2\EOT\253\n\ \\EOT\f\n\ \\r\n\ \\ENQ\EOT:\STX\SOH\ACK\DC2\EOT\253\n\ \\r\RS\n\ \\r\n\ \\ENQ\EOT:\STX\SOH\SOH\DC2\EOT\253\n\ \\US.\n\ \\r\n\ \\ENQ\EOT:\STX\SOH\ETX\DC2\EOT\253\n\ \12\n\ \\f\n\ \\EOT\EOT:\STX\STX\DC2\EOT\254\n\ \\EOT2\n\ \\r\n\ \\ENQ\EOT:\STX\STX\EOT\DC2\EOT\254\n\ \\EOT\f\n\ \\r\n\ \\ENQ\EOT:\STX\STX\ACK\DC2\EOT\254\n\ \\r \n\ \\r\n\ \\ENQ\EOT:\STX\STX\SOH\DC2\EOT\254\n\ \!-\n\ \\r\n\ \\ENQ\EOT:\STX\STX\ETX\DC2\EOT\254\n\ \01\n\ \\f\n\ \\STX\EOT;\DC2\ACK\128\v\NUL\150\v\SOH\n\ \\v\n\ \\ETX\EOT;\SOH\DC2\EOT\128\v\b\DC2\n\ \/\n\ \\EOT\EOT;\STX\NUL\DC2\EOT\132\v\EOT6\SUB!\n\ \Deprecated, use node_addresses.\n\ \\n\ \\r\n\ \\ENQ\EOT;\STX\NUL\EOT\DC2\EOT\132\v\EOT\f\n\ \\r\n\ \\ENQ\EOT;\STX\NUL\ENQ\DC2\EOT\132\v\r\DC3\n\ \\r\n\ \\ENQ\EOT;\STX\NUL\SOH\DC2\EOT\132\v\DC4\GS\n\ \\r\n\ \\ENQ\EOT;\STX\NUL\ETX\DC2\EOT\132\v !\n\ \\r\n\ \\ENQ\EOT;\STX\NUL\b\DC2\EOT\132\v\"5\n\ \\SO\n\ \\ACK\EOT;\STX\NUL\b\ETX\DC2\EOT\132\v#4\n\ \\f\n\ \\EOT\EOT;\STX\SOH\DC2\EOT\134\v\EOT\FS\n\ \\r\n\ \\ENQ\EOT;\STX\SOH\ENQ\DC2\EOT\134\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT;\STX\SOH\SOH\DC2\EOT\134\v\v\ETB\n\ \\r\n\ \\ENQ\EOT;\STX\SOH\ETX\DC2\EOT\134\v\SUB\ESC\n\ \)\n\ \\EOT\EOT;\STX\STX\DC2\EOT\139\v\EOT2\SUB\ESC\n\ \Deprecated, use features.\n\ \\n\ \\r\n\ \\ENQ\EOT;\STX\STX\ENQ\DC2\EOT\139\v\EOT\t\n\ \\r\n\ \\ENQ\EOT;\STX\STX\SOH\DC2\EOT\139\v\n\ \\EM\n\ \\r\n\ \\ENQ\EOT;\STX\STX\ETX\DC2\EOT\139\v\FS\GS\n\ \\r\n\ \\ENQ\EOT;\STX\STX\b\DC2\EOT\139\v\RS1\n\ \\SO\n\ \\ACK\EOT;\STX\STX\b\ETX\DC2\EOT\139\v\US0\n\ \\f\n\ \\EOT\EOT;\STX\ETX\DC2\EOT\141\v\EOT\NAK\n\ \\r\n\ \\ENQ\EOT;\STX\ETX\ENQ\DC2\EOT\141\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT;\STX\ETX\SOH\DC2\EOT\141\v\v\DLE\n\ \\r\n\ \\ENQ\EOT;\STX\ETX\ETX\DC2\EOT\141\v\DC3\DC4\n\ \\f\n\ \\EOT\EOT;\STX\EOT\DC2\EOT\142\v\EOT\NAK\n\ \\r\n\ \\ENQ\EOT;\STX\EOT\ENQ\DC2\EOT\142\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT;\STX\EOT\SOH\DC2\EOT\142\v\v\DLE\n\ \\r\n\ \\ENQ\EOT;\STX\EOT\ETX\DC2\EOT\142\v\DC3\DC4\n\ \\f\n\ \\EOT\EOT;\STX\ENQ\DC2\EOT\143\v\EOT,\n\ \\r\n\ \\ENQ\EOT;\STX\ENQ\EOT\DC2\EOT\143\v\EOT\f\n\ \\r\n\ \\ENQ\EOT;\STX\ENQ\ACK\DC2\EOT\143\v\r\CAN\n\ \\r\n\ \\ENQ\EOT;\STX\ENQ\SOH\DC2\EOT\143\v\EM'\n\ \\r\n\ \\ENQ\EOT;\STX\ENQ\ETX\DC2\EOT\143\v*+\n\ \k\n\ \\EOT\EOT;\STX\ACK\DC2\EOT\149\v\EOT&\SUB]\n\ \Features that the node has advertised in the init message, node\n\ \announcements and invoices.\n\ \\n\ \\r\n\ \\ENQ\EOT;\STX\ACK\ACK\DC2\EOT\149\v\EOT\CAN\n\ \\r\n\ \\ENQ\EOT;\STX\ACK\SOH\DC2\EOT\149\v\EM!\n\ \\r\n\ \\ENQ\EOT;\STX\ACK\ETX\DC2\EOT\149\v$%\n\ \\f\n\ \\STX\EOT<\DC2\ACK\151\v\NUL\167\v\SOH\n\ \\v\n\ \\ETX\EOT<\SOH\DC2\EOT\151\v\b\EM\n\ \\193\SOH\n\ \\EOT\EOT<\STX\NUL\DC2\EOT\157\v\EOT,\SUB\178\SOH\n\ \The unique channel ID for the channel. The first 3 bytes are the block\n\ \height, the next 3 the index within the block, and the last 2 bytes are the\n\ \output index for the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT<\STX\NUL\ENQ\DC2\EOT\157\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT<\STX\NUL\SOH\DC2\EOT\157\v\v\DC2\n\ \\r\n\ \\ENQ\EOT<\STX\NUL\ETX\DC2\EOT\157\v\NAK\SYN\n\ \\r\n\ \\ENQ\EOT<\STX\NUL\b\DC2\EOT\157\v\ETB+\n\ \\SO\n\ \\ACK\EOT<\STX\NUL\b\ACK\DC2\EOT\157\v\CAN*\n\ \\f\n\ \\EOT\EOT<\STX\SOH\DC2\EOT\159\v\EOT \n\ \\r\n\ \\ENQ\EOT<\STX\SOH\ACK\DC2\EOT\159\v\EOT\DLE\n\ \\r\n\ \\ENQ\EOT<\STX\SOH\SOH\DC2\EOT\159\v\DC1\ESC\n\ \\r\n\ \\ENQ\EOT<\STX\SOH\ETX\DC2\EOT\159\v\RS\US\n\ \\f\n\ \\EOT\EOT<\STX\STX\DC2\EOT\161\v\EOT\ETB\n\ \\r\n\ \\ENQ\EOT<\STX\STX\ENQ\DC2\EOT\161\v\EOT\t\n\ \\r\n\ \\ENQ\EOT<\STX\STX\SOH\DC2\EOT\161\v\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT<\STX\STX\ETX\DC2\EOT\161\v\NAK\SYN\n\ \\f\n\ \\EOT\EOT<\STX\ETX\DC2\EOT\163\v\EOT%\n\ \\r\n\ \\ENQ\EOT<\STX\ETX\ACK\DC2\EOT\163\v\EOT\DC1\n\ \\r\n\ \\ENQ\EOT<\STX\ETX\SOH\DC2\EOT\163\v\DC2 \n\ \\r\n\ \\ENQ\EOT<\STX\ETX\ETX\DC2\EOT\163\v#$\n\ \\f\n\ \\EOT\EOT<\STX\EOT\DC2\EOT\165\v\EOT \n\ \\r\n\ \\ENQ\EOT<\STX\EOT\ENQ\DC2\EOT\165\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT<\STX\EOT\SOH\DC2\EOT\165\v\v\ESC\n\ \\r\n\ \\ENQ\EOT<\STX\EOT\ETX\DC2\EOT\165\v\RS\US\n\ \\f\n\ \\EOT\EOT<\STX\ENQ\DC2\EOT\166\v\EOT\US\n\ \\r\n\ \\ENQ\EOT<\STX\ENQ\ENQ\DC2\EOT\166\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT<\STX\ENQ\SOH\DC2\EOT\166\v\v\SUB\n\ \\r\n\ \\ENQ\EOT<\STX\ENQ\ETX\DC2\EOT\166\v\GS\RS\n\ \\f\n\ \\STX\EOT=\DC2\ACK\168\v\NUL\178\v\SOH\n\ \\v\n\ \\ETX\EOT=\SOH\DC2\EOT\168\v\b\ESC\n\ \\193\SOH\n\ \\EOT\EOT=\STX\NUL\DC2\EOT\174\v\EOT,\SUB\178\SOH\n\ \The unique channel ID for the channel. The first 3 bytes are the block\n\ \height, the next 3 the index within the block, and the last 2 bytes are the\n\ \output index for the channel.\n\ \\n\ \\r\n\ \\ENQ\EOT=\STX\NUL\ENQ\DC2\EOT\174\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT=\STX\NUL\SOH\DC2\EOT\174\v\v\DC2\n\ \\r\n\ \\ENQ\EOT=\STX\NUL\ETX\DC2\EOT\174\v\NAK\SYN\n\ \\r\n\ \\ENQ\EOT=\STX\NUL\b\DC2\EOT\174\v\ETB+\n\ \\SO\n\ \\ACK\EOT=\STX\NUL\b\ACK\DC2\EOT\174\v\CAN*\n\ \\f\n\ \\EOT\EOT=\STX\SOH\DC2\EOT\175\v\EOT\ETB\n\ \\r\n\ \\ENQ\EOT=\STX\SOH\ENQ\DC2\EOT\175\v\EOT\t\n\ \\r\n\ \\ENQ\EOT=\STX\SOH\SOH\DC2\EOT\175\v\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT=\STX\SOH\ETX\DC2\EOT\175\v\NAK\SYN\n\ \\f\n\ \\EOT\EOT=\STX\STX\DC2\EOT\176\v\EOT\GS\n\ \\r\n\ \\ENQ\EOT=\STX\STX\ENQ\DC2\EOT\176\v\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT=\STX\STX\SOH\DC2\EOT\176\v\v\CAN\n\ \\r\n\ \\ENQ\EOT=\STX\STX\ETX\DC2\EOT\176\v\ESC\FS\n\ \\f\n\ \\EOT\EOT=\STX\ETX\DC2\EOT\177\v\EOT \n\ \\r\n\ \\ENQ\EOT=\STX\ETX\ACK\DC2\EOT\177\v\EOT\DLE\n\ \\r\n\ \\ENQ\EOT=\STX\ETX\SOH\DC2\EOT\177\v\DC1\ESC\n\ \\r\n\ \\ENQ\EOT=\STX\ETX\ETX\DC2\EOT\177\v\RS\USb\ACKproto3"