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This PR adds a WebSocket grid feature that allows servers to communicate via a single two-way connection. There are two request types: * Single requests, which are `[]byte => ([]byte, error)`. This is for efficient small roundtrips with small payloads. * Streaming requests which are `[]byte, chan []byte => chan []byte (and error)`, which allows for different combinations of full two-way streams with an initial payload. Only a single stream is created between two machines - and there is, as such, no server/client relation since both sides can initiate and handle requests. Which server initiates the request is decided deterministically on the server names. Requests are made through a mux client and server, which handles message passing, congestion, cancelation, timeouts, etc. If a connection is lost, all requests are canceled, and the calling server will try to reconnect. Registered handlers can operate directly on byte slices or use a higher-level generics abstraction. There is no versioning of handlers/clients, and incompatible changes should be handled by adding new handlers. The request path can be changed to a new one for any protocol changes. First, all servers create a "Manager." The manager must know its address as well as all remote addresses. This will manage all connections. To get a connection to any remote, ask the manager to provide it given the remote address using. ``` func (m *Manager) Connection(host string) *Connection ``` All serverside handlers must also be registered on the manager. This will make sure that all incoming requests are served. The number of in-flight requests and responses must also be given for streaming requests. The "Connection" returned manages the mux-clients. Requests issued to the connection will be sent to the remote. * `func (c *Connection) Request(ctx context.Context, h HandlerID, req []byte) ([]byte, error)` performs a single request and returns the result. Any deadline provided on the request is forwarded to the server, and canceling the context will make the function return at once. * `func (c *Connection) NewStream(ctx context.Context, h HandlerID, payload []byte) (st *Stream, err error)` will initiate a remote call and send the initial payload. ```Go // A Stream is a two-way stream. // All responses *must* be read by the caller. // If the call is canceled through the context, //The appropriate error will be returned. type Stream struct { // Responses from the remote server. // Channel will be closed after an error or when the remote closes. // All responses *must* be read by the caller until either an error is returned or the channel is closed. // Canceling the context will cause the context cancellation error to be returned. Responses <-chan Response // Requests sent to the server. // If the handler is defined with 0 incoming capacity this will be nil. // Channel *must* be closed to signal the end of the stream. // If the request context is canceled, the stream will no longer process requests. Requests chan<- []byte } type Response struct { Msg []byte Err error } ``` There are generic versions of the server/client handlers that allow the use of type safe implementations for data types that support msgpack marshal/unmarshal.
252 lines
9.4 KiB
Markdown
252 lines
9.4 KiB
Markdown
# MinIO Grid
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The MinIO Grid is a package that provides two-way communication between servers.
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It uses a single two-way connection to send and receive messages between servers.
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It includes built in muxing of concurrent requests as well as congestion handling for streams.
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Requests can be "Single Payload" or "Streamed".
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Use the MinIO Grid for:
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* Small, frequent requests with low latency requirements.
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* Long-running requests with small/medium payloads.
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Do *not* use the MinIO Grid for:
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* Large payloads.
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Only a single connection is ever made between two servers.
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Likely this means that this connection will not be able to saturate network bandwidth.
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Therefore, using this for large payloads will likely be slower than using a separate connection,
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and other connections will be blocked while the large payload is being sent.
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## Handlers & Routes
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Handlers have a predefined Handler ID.
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In addition, there can be several *static* subroutes used to differentiate between different handlers of the same ID.
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A subroute on a client must match a subroute on the server. So routes cannot be used for dynamic routing, unlike HTTP.
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Handlers should remain backwards compatible. If a breaking API change is required, a new handler ID should be created.
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## Setup & Configuration
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A **Manager** is used to manage all incoming and outgoing connections to a server.
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On startup all remote servers must be specified.
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From that individual connections will be spawned to each remote server,
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or incoming requests will be hooked up to the appropriate connection.
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To get a connection to a specific server, use `Manager.Connection(host)` to get a connection to the specified host.
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From this connection individual requests can be made.
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Each handler, with optional subroutes can be registered with the manager using
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`Manager.RegisterXHandler(handlerID, handler, subroutes...)`.
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A `Handler()` function provides an HTTP handler, which should be hooked up to the appropriate route on the server.
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On startup, the manager will start connecting to remotes and also starts listening for incoming connections.
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Until a connection is established, all outgoing requests will return `ErrDisconnected`.
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# Usage
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## Single Payload Requests
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Single payload requests are requests and responses that are sent in a single message.
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In essence, they are `[]byte` -> `[]byte, error` functions.
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It is not possible to return *both* an error and a response.
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Handlers are registered on the manager using `(*Manager).RegisterSingleHandler(id HandlerID, h SingleHandlerFn, subroute ...string)`.
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The server handler function has this signature: `type SingleHandlerFn func(payload []byte) ([]byte, *RemoteErr)`.
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Sample handler:
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```go
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handler := func(payload []byte) ([]byte, *grid.RemoteErr) {
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// Do something with payload
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return []byte("response"), nil
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}
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err := manager.RegisterSingleHandler(grid.HandlerDiskInfo, handler)
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```
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Sample call:
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```go
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// Get a connection to the remote host
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conn := manager.Connection(host)
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payload := []byte("request")
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response, err := conn.SingleRequest(ctx, grid.HandlerDiskInfo, payload)
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```
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If the error type is `*RemoteErr`, then the error was returned by the remote server. Otherwise it is a local error.
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Context timeouts are propagated, and a default timeout of 1 minute is added if none is specified.
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There is no cancellation propagation for single payload requests.
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When the context is canceled, the request will return at once with an appropriate error.
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However, the remote call will not see the cancellation - as can be seen from the 'missing' context on the handler.
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The result will be discarded.
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### Typed handlers
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Typed handlers are handlers that have a specific type for the request and response payloads.
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These must provide `msgp` serialization and deserialization.
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In the examples we use a `MSS` type, which is a `map[string]string` that is `msgp` serializable.
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```go
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handler := func(request *grid.MSS) (*grid.MSS, *grid.RemoteErr) {
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fmt.Println("Got request with field", request["myfield"])
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// Do something with payload
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return NewMSSWith(map[string]string{"result": "ok"}), nil
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}
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// Create a typed handler.
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// Due to current generics limitations, a constructor of the empty type must be provided.
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instance := grid.NewSingleHandler[*grid.MSS, *grid.MSS](h, grid.NewMSS, grid.NewMSS)
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// Register the handler on the manager
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instance.Register(manager, handler)
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// The typed instance is also used for calls
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conn := manager.Connection("host")
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resp, err := instance.Call(ctx, conn, grid.NewMSSWith(map[string]string{"myfield": "myvalue"}))
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if err == nil {
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fmt.Println("Got response with field", resp["result"])
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}
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```
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The wrapper will handle all serialization and de-seralization of the request and response,
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and furthermore provides re-use of the structs used for the request and response.
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Note that Responses sent for serialization are automatically reused for similar requests.
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If the response contains shared data it will cause issues, since each unique response is reused.
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To disable this behavior, use `(SingleHandler).WithSharedResponse()` to disable it.
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## Streaming Requests
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Streams consists of an initial request with payload and allows for full two-way communication between the client and server.
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The handler function has this signature.
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Sample handler:
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```go
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handler := func(ctx context.Context, payload []byte, in <-chan []byte, out chan<- []byte) *RemoteErr {
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fmt.Println("Got request with initial payload", p, "from", GetCaller(ctx context.Context))
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fmt.Println("Subroute:", GetSubroute(ctx))
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for {
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select {
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case <-ctx.Done():
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return nil
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case req, ok := <-in:
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if !ok {
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break
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}
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// Do something with payload
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out <- []byte("response")
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// Return the request for reuse
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grid.PutByteBuffer(req)
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}
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}
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// out is closed by the caller and should never be closed by the handler.
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return nil
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}
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err := manager.RegisterStreamingHandler(grid.HandlerDiskInfo, StreamHandler{
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Handle: handler,
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Subroute: "asubroute",
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OutCapacity: 1,
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InCapacity: 1,
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})
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```
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Sample call:
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```go
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// Get a connection to the remote host
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conn := manager.Connection(host).Subroute("asubroute")
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payload := []byte("request")
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stream, err := conn.NewStream(ctx, grid.HandlerDiskInfo, payload)
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if err != nil {
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return err
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}
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// Read results from the stream
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err = stream.Results(func(result []byte) error {
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fmt.Println("Got result", string(result))
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// Return the response for reuse
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grid.PutByteBuffer(result)
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return nil
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})
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```
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Context cancellation and timeouts are propagated to the handler.
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The client does not wait for the remote handler to finish before returning.
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Returning any error will also cancel the stream remotely.
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CAREFUL: When utilizing two-way communication, it is important to ensure that the remote handler is not blocked on a send.
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If the remote handler is blocked on a send, and the client is trying to send without the remote receiving,
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the operation would become deadlocked if the channels are full.
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### Typed handlers
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Typed handlers are handlers that have a specific type for the request and response payloads.
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```go
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// Create a typed handler.
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handler := func(ctx context.Context, p *Payload, in <-chan *Req, out chan<- *Resp) *RemoteErr {
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fmt.Println("Got request with initial payload", p, "from", GetCaller(ctx context.Context))
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fmt.Println("Subroute:", GetSubroute(ctx))
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for {
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select {
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case <-ctx.Done():
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return nil
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case req, ok := <-in:
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if !ok {
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break
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}
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fmt.Println("Got request", in)
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// Do something with payload
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out <- Resp{"response"}
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}
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// out is closed by the caller and should never be closed by the handler.
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return nil
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}
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// Create a typed handler.
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// Due to current generics limitations, a constructor of the empty type must be provided.
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instance := grid.NewStream[*Payload, *Req, *Resp](h, newPayload, newReq, newResp)
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// Tweakable options
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instance.WithPayload = true // default true when newPayload != nil
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instance.OutCapacity = 1 // default
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instance.InCapacity = 1 // default true when newReq != nil
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// Register the handler on the manager
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instance.Register(manager, handler, "asubroute")
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// The typed instance is also used for calls
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conn := manager.Connection("host").Subroute("asubroute")
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stream, err := instance.Call(ctx, conn, &Payload{"request payload"})
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if err != nil { ... }
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// Read results from the stream
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err = stream.Results(func(resp *Resp) error {
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fmt.Println("Got result", resp)
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// Return the response for reuse
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instance.PutResponse(resp)
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return nil
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})
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```
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There are handlers for requests with:
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* No input stream: `RegisterNoInput`.
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* No initial payload: `RegisterNoPayload`.
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Note that Responses sent for serialization are automatically reused for similar requests.
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If the response contains shared data it will cause issues, since each unique response is reused.
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To disable this behavior, use `(StreamTypeHandler).WithSharedResponse()` to disable it.
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