{- This file was auto-generated from temporal/api/replication/v1/message.proto by the proto-lens-protoc program. -} {-# LANGUAGE ScopedTypeVariables, DataKinds, TypeFamilies, UndecidableInstances, GeneralizedNewtypeDeriving, MultiParamTypeClasses, FlexibleContexts, FlexibleInstances, PatternSynonyms, MagicHash, NoImplicitPrelude, DataKinds, BangPatterns, TypeApplications, OverloadedStrings, DerivingStrategies#-} {-# OPTIONS_GHC -Wno-unused-imports#-} {-# OPTIONS_GHC -Wno-duplicate-exports#-} {-# OPTIONS_GHC -Wno-dodgy-exports#-} module Proto.Temporal.Api.Replication.V1.Message ( ClusterReplicationConfig(), FailoverStatus(), NamespaceReplicationConfig() ) 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 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 import qualified Proto.Google.Protobuf.Timestamp import qualified Proto.Temporal.Api.Enums.V1.Namespace {- | Fields : * 'Proto.Temporal.Api.Replication.V1.Message_Fields.clusterName' @:: Lens' ClusterReplicationConfig Data.Text.Text@ -} data ClusterReplicationConfig = ClusterReplicationConfig'_constructor {_ClusterReplicationConfig'clusterName :: !Data.Text.Text, _ClusterReplicationConfig'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show ClusterReplicationConfig where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField ClusterReplicationConfig "clusterName" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ClusterReplicationConfig'clusterName (\ x__ y__ -> x__ {_ClusterReplicationConfig'clusterName = y__})) Prelude.id instance Data.ProtoLens.Message ClusterReplicationConfig where messageName _ = Data.Text.pack "temporal.api.replication.v1.ClusterReplicationConfig" packedMessageDescriptor _ = "\n\ \\CANClusterReplicationConfig\DC2!\n\ \\fcluster_name\CAN\SOH \SOH(\tR\vclusterName" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let clusterName__field_descriptor = Data.ProtoLens.FieldDescriptor "cluster_name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"clusterName")) :: Data.ProtoLens.FieldDescriptor ClusterReplicationConfig in Data.Map.fromList [(Data.ProtoLens.Tag 1, clusterName__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ClusterReplicationConfig'_unknownFields (\ x__ y__ -> x__ {_ClusterReplicationConfig'_unknownFields = y__}) defMessage = ClusterReplicationConfig'_constructor {_ClusterReplicationConfig'clusterName = Data.ProtoLens.fieldDefault, _ClusterReplicationConfig'_unknownFields = []} parseMessage = let loop :: ClusterReplicationConfig -> Data.ProtoLens.Encoding.Bytes.Parser ClusterReplicationConfig 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.getText (Prelude.fromIntegral len)) "cluster_name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"clusterName") 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) "ClusterReplicationConfig" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"clusterName") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData ClusterReplicationConfig where rnf = \ x__ -> Control.DeepSeq.deepseq (_ClusterReplicationConfig'_unknownFields x__) (Control.DeepSeq.deepseq (_ClusterReplicationConfig'clusterName x__) ()) {- | Fields : * 'Proto.Temporal.Api.Replication.V1.Message_Fields.failoverTime' @:: Lens' FailoverStatus Proto.Google.Protobuf.Timestamp.Timestamp@ * 'Proto.Temporal.Api.Replication.V1.Message_Fields.maybe'failoverTime' @:: Lens' FailoverStatus (Prelude.Maybe Proto.Google.Protobuf.Timestamp.Timestamp)@ * 'Proto.Temporal.Api.Replication.V1.Message_Fields.failoverVersion' @:: Lens' FailoverStatus Data.Int.Int64@ -} data FailoverStatus = FailoverStatus'_constructor {_FailoverStatus'failoverTime :: !(Prelude.Maybe Proto.Google.Protobuf.Timestamp.Timestamp), _FailoverStatus'failoverVersion :: !Data.Int.Int64, _FailoverStatus'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show FailoverStatus where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField FailoverStatus "failoverTime" Proto.Google.Protobuf.Timestamp.Timestamp where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FailoverStatus'failoverTime (\ x__ y__ -> x__ {_FailoverStatus'failoverTime = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField FailoverStatus "maybe'failoverTime" (Prelude.Maybe Proto.Google.Protobuf.Timestamp.Timestamp) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FailoverStatus'failoverTime (\ x__ y__ -> x__ {_FailoverStatus'failoverTime = y__})) Prelude.id instance Data.ProtoLens.Field.HasField FailoverStatus "failoverVersion" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _FailoverStatus'failoverVersion (\ x__ y__ -> x__ {_FailoverStatus'failoverVersion = y__})) Prelude.id instance Data.ProtoLens.Message FailoverStatus where messageName _ = Data.Text.pack "temporal.api.replication.v1.FailoverStatus" packedMessageDescriptor _ = "\n\ \\SOFailoverStatus\DC2?\n\ \\rfailover_time\CAN\SOH \SOH(\v2\SUB.google.protobuf.TimestampR\ffailoverTime\DC2)\n\ \\DLEfailover_version\CAN\STX \SOH(\ETXR\SIfailoverVersion" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let failoverTime__field_descriptor = Data.ProtoLens.FieldDescriptor "failover_time" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Proto.Google.Protobuf.Timestamp.Timestamp) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'failoverTime")) :: Data.ProtoLens.FieldDescriptor FailoverStatus failoverVersion__field_descriptor = Data.ProtoLens.FieldDescriptor "failover_version" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"failoverVersion")) :: Data.ProtoLens.FieldDescriptor FailoverStatus in Data.Map.fromList [(Data.ProtoLens.Tag 1, failoverTime__field_descriptor), (Data.ProtoLens.Tag 2, failoverVersion__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _FailoverStatus'_unknownFields (\ x__ y__ -> x__ {_FailoverStatus'_unknownFields = y__}) defMessage = FailoverStatus'_constructor {_FailoverStatus'failoverTime = Prelude.Nothing, _FailoverStatus'failoverVersion = Data.ProtoLens.fieldDefault, _FailoverStatus'_unknownFields = []} parseMessage = let loop :: FailoverStatus -> Data.ProtoLens.Encoding.Bytes.Parser FailoverStatus 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) "failover_time" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"failoverTime") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "failover_version" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"failoverVersion") 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) "FailoverStatus" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'failoverTime") _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 @"failoverVersion") _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 FailoverStatus where rnf = \ x__ -> Control.DeepSeq.deepseq (_FailoverStatus'_unknownFields x__) (Control.DeepSeq.deepseq (_FailoverStatus'failoverTime x__) (Control.DeepSeq.deepseq (_FailoverStatus'failoverVersion x__) ())) {- | Fields : * 'Proto.Temporal.Api.Replication.V1.Message_Fields.activeClusterName' @:: Lens' NamespaceReplicationConfig Data.Text.Text@ * 'Proto.Temporal.Api.Replication.V1.Message_Fields.clusters' @:: Lens' NamespaceReplicationConfig [ClusterReplicationConfig]@ * 'Proto.Temporal.Api.Replication.V1.Message_Fields.vec'clusters' @:: Lens' NamespaceReplicationConfig (Data.Vector.Vector ClusterReplicationConfig)@ * 'Proto.Temporal.Api.Replication.V1.Message_Fields.state' @:: Lens' NamespaceReplicationConfig Proto.Temporal.Api.Enums.V1.Namespace.ReplicationState@ -} data NamespaceReplicationConfig = NamespaceReplicationConfig'_constructor {_NamespaceReplicationConfig'activeClusterName :: !Data.Text.Text, _NamespaceReplicationConfig'clusters :: !(Data.Vector.Vector ClusterReplicationConfig), _NamespaceReplicationConfig'state :: !Proto.Temporal.Api.Enums.V1.Namespace.ReplicationState, _NamespaceReplicationConfig'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show NamespaceReplicationConfig where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField NamespaceReplicationConfig "activeClusterName" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NamespaceReplicationConfig'activeClusterName (\ x__ y__ -> x__ {_NamespaceReplicationConfig'activeClusterName = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NamespaceReplicationConfig "clusters" [ClusterReplicationConfig] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NamespaceReplicationConfig'clusters (\ x__ y__ -> x__ {_NamespaceReplicationConfig'clusters = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField NamespaceReplicationConfig "vec'clusters" (Data.Vector.Vector ClusterReplicationConfig) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NamespaceReplicationConfig'clusters (\ x__ y__ -> x__ {_NamespaceReplicationConfig'clusters = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NamespaceReplicationConfig "state" Proto.Temporal.Api.Enums.V1.Namespace.ReplicationState where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NamespaceReplicationConfig'state (\ x__ y__ -> x__ {_NamespaceReplicationConfig'state = y__})) Prelude.id instance Data.ProtoLens.Message NamespaceReplicationConfig where messageName _ = Data.Text.pack "temporal.api.replication.v1.NamespaceReplicationConfig" packedMessageDescriptor _ = "\n\ \\SUBNamespaceReplicationConfig\DC2.\n\ \\DC3active_cluster_name\CAN\SOH \SOH(\tR\DC1activeClusterName\DC2Q\n\ \\bclusters\CAN\STX \ETX(\v25.temporal.api.replication.v1.ClusterReplicationConfigR\bclusters\DC2=\n\ \\ENQstate\CAN\ETX \SOH(\SO2'.temporal.api.enums.v1.ReplicationStateR\ENQstate" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let activeClusterName__field_descriptor = Data.ProtoLens.FieldDescriptor "active_cluster_name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"activeClusterName")) :: Data.ProtoLens.FieldDescriptor NamespaceReplicationConfig clusters__field_descriptor = Data.ProtoLens.FieldDescriptor "clusters" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ClusterReplicationConfig) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"clusters")) :: Data.ProtoLens.FieldDescriptor NamespaceReplicationConfig state__field_descriptor = Data.ProtoLens.FieldDescriptor "state" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor Proto.Temporal.Api.Enums.V1.Namespace.ReplicationState) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"state")) :: Data.ProtoLens.FieldDescriptor NamespaceReplicationConfig in Data.Map.fromList [(Data.ProtoLens.Tag 1, activeClusterName__field_descriptor), (Data.ProtoLens.Tag 2, clusters__field_descriptor), (Data.ProtoLens.Tag 3, state__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NamespaceReplicationConfig'_unknownFields (\ x__ y__ -> x__ {_NamespaceReplicationConfig'_unknownFields = y__}) defMessage = NamespaceReplicationConfig'_constructor {_NamespaceReplicationConfig'activeClusterName = Data.ProtoLens.fieldDefault, _NamespaceReplicationConfig'clusters = Data.Vector.Generic.empty, _NamespaceReplicationConfig'state = Data.ProtoLens.fieldDefault, _NamespaceReplicationConfig'_unknownFields = []} parseMessage = let loop :: NamespaceReplicationConfig -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld ClusterReplicationConfig -> Data.ProtoLens.Encoding.Bytes.Parser NamespaceReplicationConfig loop x mutable'clusters = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'clusters <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'clusters) (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'clusters") frozen'clusters 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.getText (Prelude.fromIntegral len)) "active_cluster_name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"activeClusterName") y x) mutable'clusters 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) "clusters" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'clusters y) loop x v 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "state" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"state") y x) mutable'clusters wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'clusters in (Data.ProtoLens.Encoding.Bytes.) (do mutable'clusters <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'clusters) "NamespaceReplicationConfig" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"activeClusterName") _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.<>) (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'clusters") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"state") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((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 NamespaceReplicationConfig where rnf = \ x__ -> Control.DeepSeq.deepseq (_NamespaceReplicationConfig'_unknownFields x__) (Control.DeepSeq.deepseq (_NamespaceReplicationConfig'activeClusterName x__) (Control.DeepSeq.deepseq (_NamespaceReplicationConfig'clusters x__) (Control.DeepSeq.deepseq (_NamespaceReplicationConfig'state x__) ()))) packedFileDescriptor :: Data.ByteString.ByteString packedFileDescriptor = "\n\ \)temporal/api/replication/v1/message.proto\DC2\ESCtemporal.api.replication.v1\SUB\USgoogle/protobuf/timestamp.proto\SUB%temporal/api/enums/v1/namespace.proto\"=\n\ \\CANClusterReplicationConfig\DC2!\n\ \\fcluster_name\CAN\SOH \SOH(\tR\vclusterName\"\222\SOH\n\ \\SUBNamespaceReplicationConfig\DC2.\n\ \\DC3active_cluster_name\CAN\SOH \SOH(\tR\DC1activeClusterName\DC2Q\n\ \\bclusters\CAN\STX \ETX(\v25.temporal.api.replication.v1.ClusterReplicationConfigR\bclusters\DC2=\n\ \\ENQstate\CAN\ETX \SOH(\SO2'.temporal.api.enums.v1.ReplicationStateR\ENQstate\"|\n\ \\SOFailoverStatus\DC2?\n\ \\rfailover_time\CAN\SOH \SOH(\v2\SUB.google.protobuf.TimestampR\ffailoverTime\DC2)\n\ \\DLEfailover_version\CAN\STX \SOH(\ETXR\SIfailoverVersionB\162\SOH\n\ \\RSio.temporal.api.replication.v1B\fMessageProtoP\SOHZ-go.temporal.io/api/replication/v1;replication\170\STX\GSTemporalio.Api.Replication.V1\234\STX Temporalio::Api::Replication::V1J\192\SO\n\ \\ACK\DC2\EOT\SYN\NUL4\SOH\n\ \\241\b\n\ \\SOH\f\DC2\ETX\SYN\NUL\DC22\230\b The MIT License\n\ \\n\ \ Copyright (c) 2020 Temporal Technologies Inc. All rights reserved.\n\ \\n\ \ Permission is hereby granted, free of charge, to any person obtaining a copy\n\ \ of this software and associated documentation files (the \"Software\"), to deal\n\ \ in the Software without restriction, including without limitation the rights\n\ \ to use, copy, modify, merge, publish, distribute, sublicense, and/or sell\n\ \ copies of the Software, and to permit persons to whom the Software is\n\ \ furnished to do so, subject to the following conditions:\n\ \\n\ \ The above copyright notice and this permission notice shall be included in\n\ \ all copies or substantial portions of the Software.\n\ \\n\ \ THE SOFTWARE IS PROVIDED \"AS IS\", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\n\ \ IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\n\ \ FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE\n\ \ AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\n\ \ LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,\n\ \ OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN\n\ \ THE SOFTWARE.\n\ \\n\ \\b\n\ \\SOH\STX\DC2\ETX\CAN\NUL$\n\ \\b\n\ \\SOH\b\DC2\ETX\SUB\NULD\n\ \\t\n\ \\STX\b\v\DC2\ETX\SUB\NULD\n\ \\b\n\ \\SOH\b\DC2\ETX\ESC\NUL7\n\ \\t\n\ \\STX\b\SOH\DC2\ETX\ESC\NUL7\n\ \\b\n\ \\SOH\b\DC2\ETX\FS\NUL\"\n\ \\t\n\ \\STX\b\n\ \\DC2\ETX\FS\NUL\"\n\ \\b\n\ \\SOH\b\DC2\ETX\GS\NUL-\n\ \\t\n\ \\STX\b\b\DC2\ETX\GS\NUL-\n\ \\b\n\ \\SOH\b\DC2\ETX\RS\NUL9\n\ \\t\n\ \\STX\b-\DC2\ETX\RS\NUL9\n\ \\b\n\ \\SOH\b\DC2\ETX\US\NUL:\n\ \\t\n\ \\STX\b%\DC2\ETX\US\NUL:\n\ \\t\n\ \\STX\ETX\NUL\DC2\ETX!\NUL)\n\ \\t\n\ \\STX\ETX\SOH\DC2\ETX#\NUL/\n\ \\n\ \\n\ \\STX\EOT\NUL\DC2\EOT%\NUL'\SOH\n\ \\n\ \\n\ \\ETX\EOT\NUL\SOH\DC2\ETX%\b \n\ \\v\n\ \\EOT\EOT\NUL\STX\NUL\DC2\ETX&\EOT\FS\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\ENQ\DC2\ETX&\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\SOH\DC2\ETX&\v\ETB\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\ETX\DC2\ETX&\SUB\ESC\n\ \\n\ \\n\ \\STX\EOT\SOH\DC2\EOT)\NUL-\SOH\n\ \\n\ \\n\ \\ETX\EOT\SOH\SOH\DC2\ETX)\b\"\n\ \\v\n\ \\EOT\EOT\SOH\STX\NUL\DC2\ETX*\EOT#\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ENQ\DC2\ETX*\EOT\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\SOH\DC2\ETX*\v\RS\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ETX\DC2\ETX*!\"\n\ \\v\n\ \\EOT\EOT\SOH\STX\SOH\DC2\ETX+\EOT3\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\EOT\DC2\ETX+\EOT\f\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\ACK\DC2\ETX+\r%\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\SOH\DC2\ETX+&.\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\ETX\DC2\ETX+12\n\ \\v\n\ \\EOT\EOT\SOH\STX\STX\DC2\ETX,\EOT5\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\ACK\DC2\ETX,\EOT*\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\SOH\DC2\ETX,+0\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\ETX\DC2\ETX,34\n\ \G\n\ \\STX\EOT\STX\DC2\EOT0\NUL4\SOH\SUB; Represents a historical replication status of a Namespace\n\ \\n\ \\n\ \\n\ \\ETX\EOT\STX\SOH\DC2\ETX0\b\SYN\n\ \T\n\ \\EOT\EOT\STX\STX\NUL\DC2\ETX2\EOT0\SUBG Timestamp when the Cluster switched to the following failover_version\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ACK\DC2\ETX2\EOT\GS\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\SOH\DC2\ETX2\RS+\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ETX\DC2\ETX2./\n\ \\v\n\ \\EOT\EOT\STX\STX\SOH\DC2\ETX3\EOT\US\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ENQ\DC2\ETX3\EOT\t\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\SOH\DC2\ETX3\n\ \\SUB\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ETX\DC2\ETX3\GS\RSb\ACKproto3"