rsocket

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 Go to latest Published: Aug 6, 2019 License: Apache-2.0 Imports: 15 Imported by: 29

README

rsocket-go

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rsocket-go is an implementation of the RSocket protocol in Go. It is still under development, APIs are unstable and maybe change at any time until release of v1.0.0. Please do not use it in a production environment.

Features

  • Design For Golang.
  • Thin reactive-streams implementation.
  • Simulate Java SDK API.
  • Fast CLI (Compatible with https://github.com/rsocket/rsocket-cli).
    • Installation: go get github.com/rsocket/rsocket-go/cmd/rsocket-cli
    • Example: rsocket-cli --request -i hello_world --setup setup_me tcp://127.0.0.1:7878

Getting started

Start an echo server

package main

import (
	"context"

	"github.com/rsocket/rsocket-go"
	"github.com/rsocket/rsocket-go/payload"
	"github.com/rsocket/rsocket-go/rx/mono"
)

func main() {
	err := rsocket.Receive().
		Resume().
		Fragment(1024).
		Acceptor(func(setup payload.SetupPayload, sendingSocket rsocket.CloseableRSocket) rsocket.RSocket {
			// bind responder
			return rsocket.NewAbstractSocket(
				rsocket.RequestResponse(func(msg payload.Payload) mono.Mono {
					return mono.Just(msg)
				}),
			)
		}).
		Transport("tcp://127.0.0.1:7878").
		Serve(context.Background())
	panic(err)
}

Connect to echo server

package main

import (
	"context"
	"log"

	"github.com/rsocket/rsocket-go"
	"github.com/rsocket/rsocket-go/payload"
)

func main() {
	// Connect to server
	cli, err := rsocket.Connect().
		Resume().
		Fragment(1024).
		SetupPayload(payload.NewString("Hello", "World")).
		Transport("tcp://127.0.0.1:7878").
		Start(context.Background())
	if err != nil {
		panic(err)
	}
	defer cli.Close()
	// Send request
	result, err := cli.RequestResponse(payload.NewString("你好", "世界")).Block(context.Background())
	if err != nil {
		panic(err)
	}
	log.Println("response:", result)
}

NOTICE: more server examples are Here

Advanced

Load Balance

Basic load balance feature, see here.

Reactor API

Mono and Flux are two parts of Reactor API. They are based on my another project reactor-go.

Mono

Mono completes successfully by emitting an element, or with an error. Here is a tiny example:

package main

import (
	"context"
	"fmt"

	"github.com/jjeffcaii/reactor-go/scheduler"
	"github.com/rsocket/rsocket-go/payload"
	"github.com/rsocket/rsocket-go/rx"
	"github.com/rsocket/rsocket-go/rx/mono"
)

func main() {
	// Create a Mono using Just.
	m := mono.Just(payload.NewString("Hello World!", "text/plain"))

	// More create
	//m := mono.Create(func(i context.Context, sink mono.Sink) {
	//	sink.Success(payload.NewString("Hello World!", "text/plain"))
	//})

	done := make(chan struct{})

	m.
		DoFinally(func(s rx.SignalType) {
			close(done)
		}).
		DoOnSuccess(func(input payload.Payload) {
			// Handle and consume payload.
			// Do something here...
			fmt.Println("bingo:", input)
		}).
		SubscribeOn(scheduler.Elastic()).
		Subscribe(context.Background())

	<-done
}
Flux

Flux emits 0 to N elements, and then completes (successfully or with an error). Here is tiny example:

package main

import (
	"context"
	"fmt"

	flxx "github.com/jjeffcaii/reactor-go/flux"
	"github.com/rsocket/rsocket-go/extension"
	"github.com/rsocket/rsocket-go/payload"
	"github.com/rsocket/rsocket-go/rx/flux"
)

func main() {
	// Create a Flux and produce 10 elements.
	f := flux.Create(func(ctx context.Context, sink flux.Sink) {
		for i := 0; i < 10; i++ {
			sink.Next(payload.NewString(fmt.Sprintf("Hello@%d", i), extension.TextPlain.String()))
		}
		sink.Complete()
	})

	// Or use Just.
	//f := flux.Just(
	//	payload.NewString("foo", extension.TextPlain.String()),
	//	payload.NewString("bar", extension.TextPlain.String()),
	//	payload.NewString("qux", extension.TextPlain.String()),
	//)

	f.
		DoOnNext(func(elem payload.Payload) {
			// Handle and consume elements
			// Do something here...
			fmt.Println("bingo:", elem)
		}).
		Subscribe(context.Background())

	// Or you can use Raw reactor-go API. :-D
	f2 := flux.Raw(flxx.Range(0, 10).Map(func(i interface{}) interface{} {
		return payload.NewString(fmt.Sprintf("Hello@%d", i.(int)), extension.TextPlain.String())
	}))
	f2.
		DoOnNext(func(input payload.Payload) {
			fmt.Println("bingo:", input)
		}).
		BlockLast(context.Background())
}
Backpressure & RequestN

Flux support backpressure.

You can call func Request in Subscription or use LimitRate before subscribe.

package main

import (
	"context"
	"fmt"

	"github.com/rsocket/rsocket-go/extension"
	"github.com/rsocket/rsocket-go/payload"
	"github.com/rsocket/rsocket-go/rx"
	"github.com/rsocket/rsocket-go/rx/flux"
)

func main() {
	// Here is an example which consume Payload one by one.
	f := flux.Create(func(ctx context.Context, s flux.Sink) {
		for i := 0; i < 5; i++ {
			s.Next(payload.NewString(fmt.Sprintf("Hello@%d", i), extension.TextPlain.String()))
		}
		s.Complete()
	})

	var su rx.Subscription
	f.
		DoOnRequest(func(n int) {
			fmt.Printf("requesting next %d element......\n", n)
		}).
		Subscribe(
			context.Background(),
			rx.OnSubscribe(func(s rx.Subscription) {
				// Init Request 1 element.
				su = s
				su.Request(1)
			}),
			rx.OnNext(func(elem payload.Payload) {
				// Consume element, do something...
				fmt.Println("bingo:", elem)
				// Request for next one manually.
				su.Request(1)
			}),
		)
}
Dependencies
TODO
Transport
  • TCP
  • Websocket
Duplex Socket
  • MetadataPush
  • RequestFNF
  • RequestResponse
  • RequestStream
  • RequestChannel
Others
  • Resume
  • Keepalive
  • Fragmentation
  • Thin Reactor
  • Cancel
  • Error
  • Flow Control: RequestN
  • Flow Control: Lease
  • Load Balance

Documentation

Overview

Example 
// Serve a server
err := Receive().
	Acceptor(func(setup SetupPayload, sendingSocket CloseableRSocket) RSocket {
		return NewAbstractSocket(
			RequestResponse(func(msg Payload) mono.Mono {
				log.Println("incoming request:", msg)
				return mono.Just(NewString("Pong", time.Now().String()))
			}),
		)
	}).
	Transport("tcp://127.0.0.1:7878").
	Serve(context.Background())
if err != nil {
	panic(err)
}

// Connect to a server.
cli, err := Connect().
	SetupPayload(NewString("Hello World", "From Golang")).
	Transport("tcp://127.0.0.1:7878").
	Start(context.Background())
if err != nil {
	panic(err)
}
defer func() {
	_ = cli.Close()
}()
cli.RequestResponse(NewString("Ping", time.Now().String())).
	DoOnSuccess(func(elem Payload) {
		log.Println("incoming response:", elem)
	}).
	Subscribe(context.Background())

Output:

Index

Examples

Constants

This section is empty.

Variables

This section is empty.

Functions

This section is empty.

Types

type Client added in v0.2.0 

type Client interface {
	CloseableRSocket
}

Client is Client Side of a RSocket socket. Sends Frames to a RSocket Server.

type ClientBuilder 

type ClientBuilder interface {
	ClientTransportBuilder
	// Fragment set fragmentation size which default is 16_777_215(16MB).
	Fragment(mtu int) ClientBuilder
	// KeepAlive defines current client keepalive settings.
	KeepAlive(tickPeriod, ackTimeout time.Duration, missedAcks int) ClientBuilder
	// Resume enable resume for current RSocket.
	Resume(opts ...ClientResumeOptions) ClientBuilder
	// DataMimeType is used to set payload data MIME type.
	// Default MIME type is `application/binary`.
	DataMimeType(mime string) ClientBuilder
	// MetadataMimeType is used to set payload metadata MIME type.
	// Default MIME type is `application/binary`.
	MetadataMimeType(mime string) ClientBuilder
	// SetupPayload set the setup payload.
	SetupPayload(setup payload.Payload) ClientBuilder
	// OnClose register handler when client socket closed.
	OnClose(fn func()) ClientBuilder
	// Acceptor set acceptor for RSocket client.
	Acceptor(acceptor ClientSocketAcceptor) ClientTransportBuilder
}

ClientBuilder can be used to build a RSocket client.

func Connect 

func Connect() ClientBuilder

Connect create a new RSocket client builder with default settings.

Example 
cli, err := Connect().
	Resume().
	Fragment(65535).
	SetupPayload(NewString("Hello", "World")).
	Acceptor(func(socket RSocket) RSocket {
		return NewAbstractSocket(RequestResponse(func(msg Payload) mono.Mono {
			return mono.Just(NewString("Pong", time.Now().String()))
		}))
	}).
	Transport("tcp://127.0.0.1:7878").
	Start(context.Background())
if err != nil {
	panic(err)
}
defer func() {
	_ = cli.Close()
}()
// Simple FireAndForget.
cli.FireAndForget(NewString("This is a FNF message.", ""))
// Simple RequestResponse.
cli.RequestResponse(NewString("This is a RequestResponse message.", "")).
	DoOnSuccess(func(elem Payload) {
		log.Println("response:", elem)
	}).
	Subscribe(context.Background())
var s rx.Subscription
// RequestStream with backpressure. (one by one)
cli.RequestStream(NewString("This is a RequestStream message.", "")).
	DoOnNext(func(elem Payload) {
		log.Println("next element in stream:", elem)
		s.Request(1)
	}).
	Subscribe(context.Background(), rx.OnSubscribe(func(s rx.Subscription) {
		s.Request(1)
	}))
// Simple RequestChannel.
sendFlux := flux.Create(func(ctx context.Context, s flux.Sink) {
	for i := 0; i < 3; i++ {
		s.Next(NewString(fmt.Sprintf("This is a RequestChannel message #%d.", i), ""))
	}
	s.Complete()
})
cli.RequestChannel(sendFlux).
	DoOnNext(func(elem Payload) {
		log.Println("next element in channel:", elem)
	}).
	Subscribe(context.Background())

Output:

type ClientResumeOptions added in v0.2.0 

type ClientResumeOptions func(opts *resumeOpts)

ClientResumeOptions represents resume options for client.

func WithClientResumeToken added in v0.2.0 

func WithClientResumeToken(gen func() []byte) ClientResumeOptions

WithClientResumeToken creates a resume token generator.

type ClientSocketAcceptor 

type ClientSocketAcceptor = func(socket RSocket) RSocket

ClientSocketAcceptor is alias for RSocket handler function.

type ClientStarter 

type ClientStarter interface {
	// Start start a client socket.
	Start(ctx context.Context) (Client, error)
	// Start start a client socket with TLS.
	// Here's an example:
	// tc:=&tls.Config{
	//	InsecureSkipVerify: true,
	//}
	StartTLS(ctx context.Context, tc *tls.Config) (Client, error)
}

ClientStarter can be used to start a client.

type ClientTransportBuilder 

type ClientTransportBuilder interface {
	// Transport set Transport for current RSocket client.
	// URI is used to create RSocket Transport:
	// Example:
	// "tcp://127.0.0.1:7878" means a TCP RSocket transport.
	// "ws://127.0.0.1:8080/a/b/c" means a Websocket RSocket transport.
	// "wss://127.0.0.1:8080/a/b/c" means a  Websocket RSocket transport with HTTPS.
	Transport(uri string) ClientStarter
}

ClientTransportBuilder is used to build a RSocket client with custom Transport string.

type CloseableRSocket added in v0.2.0 

type CloseableRSocket interface {
	socket.Closeable
	RSocket
}

CloseableRSocket is a RSocket which support more events.

type OpServerResume added in v0.2.0 

type OpServerResume func(o *serverResumeOptions)

OpServerResume represents resume options for RSocket server.

func WithServerResumeSessionDuration added in v0.2.0 

func WithServerResumeSessionDuration(duration time.Duration) OpServerResume

WithServerResumeSessionDuration sets resume session duration for RSocket server.

type OptAbstractSocket 

type OptAbstractSocket func(*socket.AbstractRSocket)

OptAbstractSocket is option for abstract socket.

func FireAndForget 

func FireAndForget(fn func(msg payload.Payload)) OptAbstractSocket

FireAndForget register request handler for FireAndForget.

func MetadataPush 

func MetadataPush(fn func(msg payload.Payload)) OptAbstractSocket

MetadataPush register request handler for MetadataPush.

func RequestChannel 

func RequestChannel(fn func(msgs rx.Publisher) flux.Flux) OptAbstractSocket

RequestChannel register request handler for RequestChannel.

func RequestResponse 

func RequestResponse(fn func(msg payload.Payload) mono.Mono) OptAbstractSocket

RequestResponse register request handler for RequestResponse.

func RequestStream 

func RequestStream(fn func(msg payload.Payload) flux.Flux) OptAbstractSocket

RequestStream register request handler for RequestStream.

type RSocket 

type RSocket interface {
	// FireAndForget is a single one-way message.
	FireAndForget(msg payload.Payload)
	// MetadataPush sends asynchronous Metadata frame.
	MetadataPush(msg payload.Payload)
	// RequestResponse request single response.
	RequestResponse(msg payload.Payload) mono.Mono
	// RequestStream request a completable stream.
	RequestStream(msg payload.Payload) flux.Flux
	// RequestChannel request a completable stream in both directions.
	RequestChannel(msgs rx.Publisher) flux.Flux
}

RSocket is a contract providing different interaction models for RSocket protocol.

func NewAbstractSocket 

func NewAbstractSocket(opts ...OptAbstractSocket) RSocket

NewAbstractSocket returns an abstract implementation of RSocket. You can specify the actual implementation of any request.

type ServerAcceptor 

type ServerAcceptor = func(setup payload.SetupPayload, sendingSocket CloseableRSocket) RSocket

ServerAcceptor is alias for server accepter.

type ServerBuilder 

type ServerBuilder interface {
	// Fragment set fragmentation size which default is 16_777_215(16MB).
	Fragment(mtu int) ServerBuilder
	// Resume enable resume for current server.
	Resume(opts ...OpServerResume) ServerBuilder
	// Acceptor register server acceptor which is used to handle incoming RSockets.
	Acceptor(acceptor ServerAcceptor) ServerTransportBuilder
	// OnStart register a handler when serve success.
	OnStart(onStart func()) ServerBuilder
}

ServerBuilder can be used to build a RSocket server.

func Receive 

func Receive() ServerBuilder

Receive receives server connections from client RSockets.

Example 
err := Receive().
	Resume(WithServerResumeSessionDuration(30 * time.Second)).
	Fragment(65535).
	Acceptor(func(setup SetupPayload, sendingSocket CloseableRSocket) RSocket {
		// Handle close.
		sendingSocket.OnClose(func() {
			log.Println("sending socket is closed")
		})
		// Request to client.
		sendingSocket.RequestResponse(NewString("Ping", time.Now().String())).
			DoOnSuccess(func(elem Payload) {
				log.Println("response of Ping from client:", elem)
			}).
			SubscribeOn(scheduler.Elastic()).
			Subscribe(context.Background())
		// Return responser which just echo.
		return NewAbstractSocket(
			FireAndForget(func(msg Payload) {
				log.Println("receive fnf:", msg)
			}),
			RequestResponse(func(msg Payload) mono.Mono {
				return mono.Just(msg)
			}),
			RequestStream(func(msg Payload) flux.Flux {
				return flux.Create(func(ctx context.Context, s flux.Sink) {
					for i := 0; i < 3; i++ {
						s.Next(NewString(msg.DataUTF8(), fmt.Sprintf("This is response #%04d", i)))
					}
					s.Complete()
				})
			}),
			RequestChannel(func(msgs rx.Publisher) flux.Flux {
				return msgs.(flux.Flux)
			}),
		)
	}).
	Transport("tcp://0.0.0.0:7878").
	Serve(context.Background())
panic(err)

Output:

type ServerTransportBuilder 

type ServerTransportBuilder interface {
	// Transport specify transport string.
	Transport(transport string) Start
}

ServerTransportBuilder is used to build a RSocket server with custom Transport string.

type Start 

type Start interface {
	// Serve serve RSocket server.
	Serve(ctx context.Context) error
	// Serve serve RSocket server with TLS.
	//
	// You can generate cert.pem and key.pem for local testing:
	//
	//	 go run $GOROOT/src/crypto/tls/generate_cert.go --host localhost
	//
	//	 Load X509
	//	cert, err := tls.LoadX509KeyPair("cert.pem", "key.pem")
	//	if err != nil {
	//		panic(err)
	//	}
	//	// Init TLS configuration.
	//	tc := &tls.Config{
	//		MinVersion:               tls.VersionTLS12,
	//		CurvePreferences:         []tls.CurveID{tls.CurveP521, tls.CurveP384, tls.CurveP256},
	//		PreferServerCipherSuites: true,
	//		CipherSuites: []uint16{
	//			tls.TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384,
	//			tls.TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA,
	//			tls.TLS_RSA_WITH_AES_256_GCM_SHA384,
	//			tls.TLS_RSA_WITH_AES_256_CBC_SHA,
	//		},
	//		Certificates: []tls.Certificate{cert},
	//	}
	ServeTLS(ctx context.Context, c *tls.Config) error
}

Start start a RSocket server.

Source Files

View all Source files

Directories

Path Synopsis
Package balancer defines APIs for load balancing in RSocket.
 Package balancer defines APIs for load balancing in RSocket.
cmd
echo
rsocket-cli
internal
common
fragmentation
framing
session
socket
transport
rx
flux
mono

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