.. _module-pw_rpc-ts: ------------------------- pw_rpc Web Module ------------------------- The ``pw_rpc`` module makes it possible to call Pigweed RPCs from TypeScript or JavaScript. The module includes client library to facilitate handling RPCs. This module is currently a work in progress. Creating an RPC Client ====================== The RPC client is instantiated from a list of channels and a set of protos. .. code-block:: typescript import { ProtoCollection } from 'pigweedjs/protos/collection'; const channels = [new Channel(1, savePacket), new Channel(5)]; const client = Client.fromProtoSet(channels, new ProtoCollection()); function savePacket(packetBytes: Uint8Array): void { const packet = RpcPacket.deserializeBinary(packetBytes); ... } To generate a ProtoSet/ProtoCollection from your own ``.proto`` files, use ``pw_proto_compiler`` in your ``package.json`` like this: .. code-block:: javascript ... "scripts": { "build-protos": "pw_proto_compiler -p protos/rpc1.proto -p protos/rpc2.proto --out dist/protos", This will generate a `collection.js` file which can be used similar to above example. Finding an RPC Method ===================== Once the client is instantiated with the correct proto library, the target RPC method is found by searching based on the full name: ``{packageName}.{serviceName}.{methodName}`` .. code-block:: typescript const channel = client.channel()!; unaryStub = channel.methodStub('pw.rpc.test1.TheTestService.SomeUnary')! as UnaryMethodStub; The four possible RPC stubs are ``UnaryMethodStub``, ``ServerStreamingMethodStub``, ``ClientStreamingMethodStub``, and ``BidirectionalStreamingMethodStub``. Note that ``channel.methodStub()`` returns a general stub. Since each stub type has different invoke parameters, the general stub should be typecast before using. Invoke an RPC with callbacks ============================ .. code-block:: typescript invoke(request?: Message, onNext: Callback = () => {}, onCompleted: Callback = () => {}, onError: Callback = () => {}): Call All RPC methods can be invoked with a set of callbacks that are triggered when either a response is received, the RPC is completed, or an error occurs. The example below demonstrates registering these callbacks on a Bidirectional RPC. Other RPC types can be invoked in a similar fashion. The request parameter may differ slightly between RPC types. .. code-block:: typescript bidiRpc = client.channel()?.methodStub( 'pw.rpc.test1.TheTestService.SomeBidi')! as BidirectionalStreamingMethodStub; // Configure callback functions const onNext = (response: Message) => { console.log(response); } const onComplete = (status: Status) => { console.log('completed!'); } const onError = (error: Error) => { console.log(); } bidiRpc.invoke(request, onNext, onComplete, onError); Open an RPC: ignore initial errors ===================================== Open allows you to start and register an RPC without crashing on errors. This is useful for starting an RPC before the server is ready. For instance, starting a logging RPC while the device is booting. .. code-block:: typescript open(request?: Message, onNext: Callback = () => {}, onCompleted: Callback = () => {}, onError: Callback = () => {}): Call Blocking RPCs: promise API ========================== Each MethodStub type provides an call() function that allows sending requests and awaiting responses through the promise API. The timeout field is optional. If no timeout is specified, the RPC will wait indefinitely. Unary RPC --------- .. code-block:: typescript unaryRpc = client.channel()?.methodStub( 'pw.rpc.test1.TheTestService.SomeUnary')! as UnaryMethodStub; const request = new unaryRpc.requestType(); request.setFooProperty(4); const timeout = 2000 // 2 seconds const [status, response] = await unaryRpc.call(request, timeout); Server Streaming RPC -------------------- .. code-block:: typescript serverStreamRpc = client.channel()?.methodStub( 'pw.rpc.test1.TheTestService.SomeServerStreaming')! as ServerStreamingMethodStub; const call = serverStreamRpc.invoke(); const timeout = 2000 for await (const response of call.getResponses(2, timeout)) { console.log(response); } const responses = call.getResponse() // All responses until stream end. while (!responses.done) { console.log(await responses.value()); } Client Streaming RPC -------------------- .. code-block:: typescript clientStreamRpc = client.channel()!.methodStub( 'pw.rpc.test1.TheTestService.SomeClientStreaming')! as ClientStreamingMethodStub; clientStreamRpc.invoke(); const request = new clientStreamRpc.method.requestType(); request.setFooProperty('foo_test'); clientStreamRpc.send(request); // Send three more requests, end the stream, and wait for a response. const timeout = 2000 // 2 seconds request.finishAndWait([request, request, request], timeout) .then(() => { console.log('Client stream finished successfully'); }) .catch((reason) => { console.log(`Client stream error: ${reason}`); }); Bidirectional Stream RPC ------------------------ .. code-block:: typescript bidiStreamingRpc = client.channel()!.methodStub( 'pw.rpc.test1.TheTestService.SomeBidiStreaming')! as BidirectionalStreamingMethodStub; bidiStreamingRpc.invoke(); const request = new bidiStreamingRpc.method.requestType(); request.setFooProperty('foo_test'); // Send requests bidiStreamingRpc.send(request); // Receive responses const timeout = 2000 // 2 seconds for await (const response of call.getResponses(1, timeout)) { console.log(response); } // Send three more requests, end the stream, and wait for a response. request.finishAndWait([request, request, request], timeout) .then(() => { console.log('Bidirectional stream finished successfully'); }) .catch((reason) => { console.log(`Bidirectional stream error: ${reason}`); });