# rsocket-kotlin **Repository Path**: PayAbyss/rsocket-kotlin ## Basic Information - **Project Name**: rsocket-kotlin - **Description**: reactor kotlin copy - **Primary Language**: Kotlin - **License**: Apache-2.0 - **Default Branch**: master - **Homepage**: None - **GVP Project**: No ## Statistics - **Stars**: 0 - **Forks**: 0 - **Created**: 2022-06-24 - **Last Updated**: 2022-11-29 ## Categories & Tags **Categories**: Uncategorized **Tags**: None ## README # rsocket-kotlin RSocket Kotlin multi-platform implementation based on [kotlinx.coroutines](https://github.com/Kotlin/kotlinx.coroutines) and [ktor-io](https://github.com/ktorio/ktor). RSocket is a binary application protocol providing Reactive Streams semantics for use on byte stream transports such as TCP, WebSockets, QUIC and Aeron. It enables the following symmetric interaction models via async message passing over a single connection: * [Fire-and-Forget](https://rsocket.io/about/motivations#fire-and-forget) * [Request-Response](https://rsocket.io/about/motivations#requestresponse-single-response) * [Request-Stream](https://rsocket.io/about/motivations#requeststream-multi-response-finite) * [Request-Channel](https://rsocket.io/about/motivations#channel) Learn more at http://rsocket.io ## Supported platforms and transports : Local (in memory) transport is supported on all targets. Most of other transports are implemented using [ktor](https://github.com/ktorio/ktor) to ensure Kotlin multiplatform. So it depends on `ktor` client/server engines for available transports and platforms. ### Client transports: | | TCP | WebSocket | |-----------------------------|-----------------------------------------|------------| | JVM | ✅ via ktor | ✅ via ktor | | JS | ✅ via nodeJS (not supported in browser) | ✅ via ktor | | Native
(except windows) | ✅ via ktor | ✅ via ktor | ### Server transports: | | TCP | WebSocket | |-----------------------------|-----------------------------------------|------------| | JVM | ✅ via ktor | ✅ via ktor | | JS | ✅ via nodeJS (not supported in browser) | ❌ | | Native
(except windows) | ✅ via ktor | ✅ via ktor | ## Using in your projects rsocket-kotlin is available on [Maven Central](https://mvnrepository.com/artifact/io.rsocket.kotlin) Make sure, that you use Kotlin 1.6.20+, ktor 2.0.0+ and have `mavenCentral()` in the list of repositories: ```kotlin repositories { mavenCentral() } ``` ### Ktor plugins rsocket-kotlin provides [client](https://ktor.io/docs/http-client-plugins.html) and [server](https://ktor.io/docs/plugins.html) plugins for [ktor](https://ktor.io) Dependencies: ```kotlin dependencies { //for client implementation("io.rsocket.kotlin:rsocket-ktor-client:0.15.4") //for server implementation("io.rsocket.kotlin:rsocket-ktor-server:0.15.4") } ``` Example of client plugin usage: ```kotlin //create ktor client val client = HttpClient { install(WebSockets) //rsocket requires websockets plugin installed install(RSocketSupport) { //configure rSocket connector (all values have defaults) connector { maxFragmentSize = 1024 connectionConfig { keepAlive = KeepAlive( interval = 30.seconds, maxLifetime = 2.minutes ) //payload for setup frame setupPayload { buildPayload { data("""{ "data": "setup" }""") } } //mime types payloadMimeType = PayloadMimeType( data = WellKnownMimeType.ApplicationJson, metadata = WellKnownMimeType.MessageRSocketCompositeMetadata ) } //optional acceptor for server requests acceptor { RSocketRequestHandler { requestResponse { it } //echo request payload } } } } } //connect to some url val rSocket: RSocket = client.rSocket("wss://demo.rsocket.io/rsocket") //request stream val stream: Flow = rSocket.requestStream( buildPayload { data("""{ "data": "hello world" }""") } ) //take 5 values and print response stream.take(5).collect { payload: Payload -> println(payload.data.readText()) } ``` Example of server plugin usage: ```kotlin //create ktor server embeddedServer(CIO) { install(WebSockets) //rsocket requires websockets plugin installed install(RSocketSupport) { //configure rSocket server (all values have defaults) server { maxFragmentSize = 1024 //install interceptors interceptors { forConnection(::SomeConnectionInterceptor) } } } //configure routing routing { //configure route `/rsocket` rSocket("rsocket") { println(config.setupPayload.data.readText()) //print setup payload data RSocketRequestHandler { //handler for request/response requestResponse { request: Payload -> println(request.data.readText()) //print request payload data delay(500) // work emulation buildPayload { data("""{ "data": "Server response" }""") } } //handler for request/stream requestStream { request: Payload -> println(request.data.readText()) //print request payload data flow { repeat(10) { i -> emit( buildPayload { data("""{ "data": "Server stream response: $i" }""") } ) } } } } } } }.start(true) ``` ### Standalone transports rsocket-kotlin also provides standalone transports which can be used to establish RSocket connection: Dependencies: ```kotlin dependencies { implementation("io.rsocket.kotlin:rsocket-core:0.15.4") // TCP ktor client/server transport implementation("io.rsocket.kotlin:rsocket-transport-ktor-tcp:0.15.4") // WS ktor client transport implementation("io.rsocket.kotlin:rsocket-transport-ktor-websocket-client:0.15.4") // WS ktor server transport implementation("io.rsocket.kotlin:rsocket-transport-ktor-websocket-server:0.15.4") // TCP nodeJS client/server transport implementation("io.rsocket.kotlin:rsocket-transport-nodejs-tcp:0.15.4") } ``` Example of usage standalone client transport: ```kotlin val transport = TcpClientTransport("0.0.0.0", 8080) val connector = RSocketConnector { //configuration goes here } val rsocket: RSocket = connector.connect(transport) //use rsocket to do request val response = rsocket.requestResponse(buildPayload { data("""{ "data": "hello world" }""") }) println(response.data.readText()) ``` Example of usage standalone server transport: ```kotlin val transport = TcpServerTransport("0.0.0.0", 8080) val connector = RSocketServer { //configuration goes here } val server: TcpServer = server.bind(transport) { RSocketRequestHandler { //handler for request/response requestResponse { request: Payload -> println(request.data.readText()) //print request payload data delay(500) // work emulation buildPayload { data("""{ "data": "Server response" }""") } } } } server.handlerJob.join() //wait for server to finish ``` ### More samples: - [multiplatform-chat](samples/chat) - chat implementation with JVM/JS/Native server and JVM/JS/Native client with shared classes and shared data serialization using [kotlinx.serialization](https://github.com/Kotlin/kotlinx.serialization) ## Reactive Streams Semantics From [RSocket protocol](https://github.com/rsocket/rsocket/blob/master/Protocol.md#reactive-streams-semantics): Reactive Streams semantics are used for flow control of Streams, Subscriptions, and Channels. This is a credit-based model where the Requester grants the Responder credit for the number of PAYLOADs it can send. It is sometimes referred to as "request-n" or "request(n)". `kotlinx.coroutines` doesn't truly support `request(n)` semantic, but it has flexible `CoroutineContext` which can be used to achieve something similar. `rsocket-kotlin` contains `RequestStrategy` coroutine context element, which defines, strategy for sending of `requestN`frames. Example: ```kotlin //assume we have client val client: RSocket = TODO() //and stream val stream: Flow = client.requestStream(Payload("data")) //now we can use `flowOn` to add request strategy to context of flow //here we use prefetch strategy which will send requestN for 10 elements, when, there is 5 elements left to collect //so on call `collect`, requestStream frame with requestN will be sent, and then, after 5 elements will be collected //new requestN with 5 will be sent, so collect will be smooth stream.flowOn(PrefetchStrategy(requestSize = 10, requestOn = 5)).collect { payload: Payload -> println(payload.data.readText()) } ``` ## Bugs and Feedback For bugs, questions and discussions please use the [Github Issues](https://github.com/rsocket/rsocket-kotlin/issues). ## LICENSE Copyright 2015-2022 the original author or authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.