This tutorial builds on the FIDL server tutorial. For the full set of FIDL tutorials, refer to the overview.
This tutorial implements a client for a FIDL protocol and runs it against the server created in the previous tutorial. The client in this tutorial is asynchronous. There is an [alternate tutorial][sync-client] for synchronous clients.
If you want to write the code yourself, delete the following directories:
rm -r examples/fidl/dart/client/*
Set up a hello world dart_app in examples/fidl/dart/client, with a name of echo-dart-client.
Once you have created your component, ensure that the following works:
fx set core.x64 --with //examples/fidl/dart/client
Note: If necessary, refer back to the previous tutorial.
Build the Fuchsia image:
fx build
In a separate terminal, run:
fx serve
In a separate terminal, run:
fx shell run fuchsia-pkg://fuchsia.com/echo-dart-client#meta/echo-dart-client.cmx
Add the following dependencies:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/dart/client/BUILD.gn" region_tag="deps" %}
Then, import them in lib/main.dart:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/dart/client/lib/main.dart" region_tag="imports" %}
These dependencies are explained in the server tutorial.
Include the Echo protocol in the client component's sandbox by editing the component manifest in client.cmx.
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/rust/client/client.cmx" %}
The steps in this section explain how to add code to the main() function that connects the client to the server and makes requests to it.
The FIDL bindings generate a class for each protocol that can be used to make requests to a server, called a proxy class. To connect to the server, the client needs to initialize a proxy class and then bind it to the server:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/dart/client/lib/main.dart" region_tag="main" highlight="4,5,6,7" %}
Similar to the server code, the client uses ComponentContext to access the component's context. The difference is that the incoming property is used instead of the outgoing property, since the client is connecting to a protocol rather than offering one. Additionally, since no outgoing services are added, it uses the ComponentContext.createAndServe() convenience method.
The connectToService call does a number of things under the hood:
EchoProxy. EchoProxy, similarly to EchoBinding, binds to a channel and listens for incoming messages (and sends messages back) on the channel. The channel end bound to the EchoProxy is a fidl.InterfaceHandle<Echo>, whereas the other end of the channel is a fidl.InterfaceRequest<Echo>.Echo protocol. Specifically, it requests the other end of the channel (from the previous step) to be connected to the protocol located at the service name of the Echo protocol.In the background, this request triggers the follow sequence of events:
fidl.InterfaceRequest<Echo>) that was provided by the client.The code makes two requests to the server:
EchoString requestSendString request{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/dart/client/lib/main.dart" region_tag="main" highlight="9,10,11,12,13,14" %}
The call to EchoString returns a future, which resolves to the response returned by the server. The returned future will resolve to an error if there is either an error sending the request or receiving the response (e.g. when decoding the message, or if an epitaph was received).
The call to SendString returns a Future<void> since it is a fire and forget method.
The bindings reference describes how these proxy methods are generated.
The code then waits for a single OnString event from the server:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/dart/client/lib/main.dart" region_tag="main" highlight="15,16,17" %}
This is done by taking the event stream from the client object, then waiting for a single event from it.
If you run the client directly, it will not connect to the server correctly because the client does not automatically get the Echo protocol provided in its sandbox (in /svc). To get this to work, a launcher tool is provided that launches the server, creates a new Environment for the client that provides the server's protocol, then launches the client in it.
Configure your GN build as follows:
fx set core.x64 --with //examples/fidl/dart/server --with //examples/fidl/dart/client --with //examples/fidl/dart/launcher_bin
Build the Fuchsia image:
fx build
Run the launcher by passing it the client URL, the server URL, and the protocol that the server provides to the client:
fx shell run fuchsia-pkg://fuchsia.com/example-launcher-dart#meta/example-launcher-dart.cmx fuchsia-pkg://fuchsia.com/echo-dart-client#meta/echo-dart-client.cmx fuchsia-pkg://fuchsia.com/echo-dart-server#meta/echo-dart-server.cmx fuchsia.examples.Echo
You should see the print output in the QEMU console (or using fx log).
[105541.570] 489493:489495> Listening for incoming connections... [105541.573] 489493:489495> Received EchoString request for string "hello" [105541.574] 489493:489495> Response sent successfully [105541.574] 489272:489274> response: "hello" [105541.575] 489493:489495> Received SendString request for string "hi" [105541.575] 489493:489495> Event sent successfully [105541.575] 489272:489274> Received OnString event for string "hi"