Safe Haskell	None
Language	Haskell2010

Network.GRPC.Server.Handlers

Synopsis

type UnaryHandler s m = Request -> MethodInput s m -> IO (MethodOutput s m)
type ServerStreamHandler s m a = Request -> MethodInput s m -> IO (a, ServerStream s m a)
newtype ServerStream s m a = ServerStream {
- serverStreamNext :: a -> IO (Maybe (a, MethodOutput s m))
}
type ClientStreamHandler s m a = Request -> IO (a, ClientStream s m a)
data ClientStream s m a = ClientStream {
- clientStreamHandler :: a -> MethodInput s m -> IO a
- clientStreamFinalizer :: a -> IO (MethodOutput s m)
}
type BiDiStreamHandler s m a = Request -> IO (a, BiDiStream s m a)
data BiDiStep s m a
- = Abort
- | WaitInput !(a -> MethodInput s m -> IO a) !(a -> IO a)
- | WriteOutput !a (MethodOutput s m)
data BiDiStream s m a = BiDiStream {
- bidirNextStep :: a -> IO (BiDiStep s m a)
}
unary :: (Service s, HasMethod s m) => RPC s m -> UnaryHandler s m -> ServiceHandler
serverStream :: (Service s, HasMethod s m, MethodStreamingType s m ~ ServerStreaming) => RPC s m -> ServerStreamHandler s m a -> ServiceHandler
clientStream :: (Service s, HasMethod s m, MethodStreamingType s m ~ ClientStreaming) => RPC s m -> ClientStreamHandler s m a -> ServiceHandler
bidiStream :: (Service s, HasMethod s m, MethodStreamingType s m ~ BiDiStreaming) => RPC s m -> BiDiStreamHandler s m a -> ServiceHandler
generalStream :: (Service s, HasMethod s m) => RPC s m -> GeneralStreamHandler s m a b -> ServiceHandler
handleUnary :: (Service s, HasMethod s m) => RPC s m -> UnaryHandler s m -> WaiHandler
handleServerStream :: (Service s, HasMethod s m) => RPC s m -> ServerStreamHandler s m a -> WaiHandler
handleClientStream :: (Service s, HasMethod s m) => RPC s m -> ClientStreamHandler s m a -> WaiHandler
handleBiDiStream :: (Service s, HasMethod s m) => RPC s m -> BiDiStreamHandler s m a -> WaiHandler
type GeneralStreamHandler s m a b = Request -> IO (a, IncomingStream s m a, b, OutgoingStream s m b)
data IncomingStream s m a = IncomingStream {
- incomingStreamHandler :: a -> MethodInput s m -> IO a
- incomingStreamFinalizer :: a -> IO ()
}
data OutgoingStream s m a = OutgoingStream {
- outgoingStreamNext :: a -> IO (Maybe (a, MethodOutput s m))
}
handleGeneralStream :: (Service s, HasMethod s m) => RPC s m -> GeneralStreamHandler s m a b -> WaiHandler
handleRequestChunksLoop :: Message a => Decoder (Either String a) -> (ByteString -> a -> IO b) -> IO b -> IO ByteString -> IO b
errorOnLeftOver :: (a -> IO b) -> ByteString -> a -> IO b

Documentation

type UnaryHandler s m = Request -> MethodInput s m -> IO (MethodOutput s m) Source #

Handy type to refer to Handler for unary RPCs handler.

type ServerStreamHandler s m a = Request -> MethodInput s m -> IO (a, ServerStream s m a) Source #

Handy type for 'server-streaming' RPCs.

We expect an implementation to: - read the input request - return an initial state and an state-passing action that the server code will call to fetch the output to send to the client (or close an a Nothing) See ServerStream for the type which embodies these requirements.

newtype ServerStream s m a Source #

Constructors

ServerStream
Fields serverStreamNext :: a -> IO (Maybe (a, MethodOutput s m))

type ClientStreamHandler s m a = Request -> IO (a, ClientStream s m a) Source #

Handy type for 'client-streaming' RPCs.

We expect an implementation to: - acknowledge a the new client stream by returning an initial state and two functions: - a state-passing handler for new client message - a state-aware handler for answering the client when it is ending its stream See ClientStream for the type which embodies these requirements.

data ClientStream s m a Source #

Constructors

ClientStream
Fields clientStreamHandler :: a -> MethodInput s m -> IO a clientStreamFinalizer :: a -> IO (MethodOutput s m)

type BiDiStreamHandler s m a = Request -> IO (a, BiDiStream s m a) Source #

Handy type for 'bidirectional-streaming' RPCs.

We expect an implementation to: - acknowlege a new bidirection stream by returning an initial state and one functions: - a state-passing function that returns a single action step The action may be to - stop immediately - wait and handle some input with a callback and a finalizer (if the client closes the stream on its side) that may change the state - return a value and a new state

There is no way to stop locally (that would mean sending HTTP2 trailers) and keep receiving messages from the client.

data BiDiStep s m a Source #

Constructors

Abort
WaitInput !(a -> MethodInput s m -> IO a) !(a -> IO a)
WriteOutput !a (MethodOutput s m)

data BiDiStream s m a Source #

Constructors

BiDiStream
Fields bidirNextStep :: a -> IO (BiDiStep s m a)

unary :: (Service s, HasMethod s m) => RPC s m -> UnaryHandler s m -> ServiceHandler Source #

Construct a handler for handling a unary RPC.

serverStream :: (Service s, HasMethod s m, MethodStreamingType s m ~ ServerStreaming) => RPC s m -> ServerStreamHandler s m a -> ServiceHandler Source #

Construct a handler for handling a server-streaming RPC.

clientStream :: (Service s, HasMethod s m, MethodStreamingType s m ~ ClientStreaming) => RPC s m -> ClientStreamHandler s m a -> ServiceHandler Source #

Construct a handler for handling a client-streaming RPC.

bidiStream :: (Service s, HasMethod s m, MethodStreamingType s m ~ BiDiStreaming) => RPC s m -> BiDiStreamHandler s m a -> ServiceHandler Source #

Construct a handler for handling a bidirectional-streaming RPC.

generalStream :: (Service s, HasMethod s m) => RPC s m -> GeneralStreamHandler s m a b -> ServiceHandler Source #

Construct a handler for handling a bidirectional-streaming RPC.

handleUnary :: (Service s, HasMethod s m) => RPC s m -> UnaryHandler s m -> WaiHandler Source #

Handle unary RPCs.

handleServerStream :: (Service s, HasMethod s m) => RPC s m -> ServerStreamHandler s m a -> WaiHandler Source #

Handle Server-Streaming RPCs.

handleClientStream :: (Service s, HasMethod s m) => RPC s m -> ClientStreamHandler s m a -> WaiHandler Source #

Handle Client-Streaming RPCs.

handleBiDiStream :: (Service s, HasMethod s m) => RPC s m -> BiDiStreamHandler s m a -> WaiHandler Source #

Handle Bidirectional-Streaming RPCs.

type GeneralStreamHandler s m a b = Request -> IO (a, IncomingStream s m a, b, OutgoingStream s m b) Source #

A GeneralStreamHandler combining server and client asynchronous streams.

data IncomingStream s m a Source #

Pair of handlers for reacting to incoming messages.

Constructors

IncomingStream
Fields incomingStreamHandler :: a -> MethodInput s m -> IO a incomingStreamFinalizer :: a -> IO ()

data OutgoingStream s m a Source #

Handler to decide on the next message (if any) to return.

Constructors

OutgoingStream
Fields outgoingStreamNext :: a -> IO (Maybe (a, MethodOutput s m))

handleGeneralStream :: (Service s, HasMethod s m) => RPC s m -> GeneralStreamHandler s m a b -> WaiHandler Source #

Handler for the somewhat general case where two threads behave concurrently: - one reads messages from the client - one returns messages to the client

handleRequestChunksLoop Source #

Arguments

:: Message a
=> Decoder (Either String a)	Message decoder.
-> (ByteString -> a -> IO b)	Handler for a single message. The ByteString corresponds to leftover data.
-> IO b	Handler for handling end-of-streams.
-> IO ByteString	Action to retrieve the next chunk.
-> IO b

Helpers to consume input in chunks.

errorOnLeftOver :: (a -> IO b) -> ByteString -> a -> IO b Source #

Combinator around message handler to error on left overs.

This combinator ensures that, unless for client stream, an unparsed piece of data with a correctly-read message is treated as an error.