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 for synchronous clients.
If you want to write the code yourself, delete the following directories:
rm -r examples/fidl/llcpp/client/*
Set up a hello world component in examples/fidl/llcpp/client
. You can name the component echo-client
, and give the package a name of echo-llcpp-client
.
Note: If necessary, refer back to the previous tutorial.
Once you have created your component, ensure that the following works:
fx set core.x64 --with //examples/fidl/llcpp/client
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-llcpp-client#meta/echo-client.cmx
Add the following dependencies:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/llcpp/client/BUILD.gn" region_tag="deps" %}
Then, include them in main.cc
:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/llcpp/client/main.cc" region_tag="includes" %}
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/llcpp/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.
As in the server, the code first sets up an async loop so that the client can listen for incoming responses from the server without blocking.
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/llcpp/client/main.cc" region_tag="main" highlight="2,3,17,27,29,30,42" %}
The dispatcher is used to run two pieces of async code. It is first used to run the EchoString
method, and quits when the response is received. It is then run after calling the SendString
in order to listen for events, and quits when an OnString
event is received. The call to ResetQuit()
in between these two instances allows the client to reuse the loop.
The client then connects to the service directory /svc
, and uses it to connect to the server.
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/llcpp/client/main.cc" region_tag="main" highlight="5,6,7,8,9,10" %}
In practice, this is done by calling fdio_service_connect_at
, passing it the service directory, the name of the service to connect to, as well as the channel that should get passed to the server. In parallel, the component manager will route the requested service name and channel to the server component, where the connect
function implemented in the server tutorial is called with these arguments, binding the channel to the server implementation.
An important point to note here is that this code assumes that /svc
already contains an instance of the Echo
protocol. This is not the case by default because of the sandboxing provided by the component framework. A workaround will be when running the example at the end of the tutorial.
The get_svc_directory()
function is defined as follows:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/llcpp/client/main.cc" region_tag="connect" %}
Similar to the fdio_service_connect_at
call above, this function initializes a channel, and passes the server end to fdio_service_connect
to connect to the /svc
directory, returning the client end.
Note: This pattern of making a request to connect one end of the channel to a service, then immediately using the client end to communicate with the service is known as request pipelining. This topic is covered further in a separate tutorial.
In order to make Echo
requests to the server, initialize a client using the other end of the channel from the previous step, the loop dispatcher, as well as an event handler struct:
{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/llcpp/client/main.cc" region_tag="main" highlight="11,12,13,14,15,16,17,18,19,20,21" %}
The event handlers should be a struct with fields corresponding to the events offered by the protocol (see LLCPP event handlers). In this case, a struct is defined with a single field corresponding to the handler for the OnString
event. The handler prints the string and quits the event loop.
The code makes three requests to the server:
EchoString
request.EchoString
request.SendString
request (async vs sync is not relevant for this case because it is a fire and forget method).{%includecode gerrit_repo="fuchsia/fuchsia" gerrit_path="examples/fidl/llcpp/client/main.cc" region_tag="main" highlight="23,24,25,26,27,28,32,33,34,39,40,41" %}
The client object works by overriding the dereference operator to return a protocol specific client implementation, allowing calls such as client->EchoString()
.
The asynchronous method call requires the request parameters followed by a response handler callback, which is called when the response is received.
The client object also allows synchronous calls, which will block until the response is received and return the response object. These are suffixed with _Sync
(e.g. client->EchoString_Sync()
).
In the synchronous case, a result object is returned, since the method call can fail. In the asynchronous case, the response handler callback takes as arguments the response parameters directly, since the handler is only called in the case of a successfull method call.
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/llcpp/server --with //examples/fidl/llcpp/client --with //examples/fidl/test:echo-launcher
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/echo-launcher#meta/launcher.cmx fuchsia-pkg://fuchsia.com/echo-llcpp-client#meta/echo-client.cmx fuchsia-pkg://fuchsia.com/echo-llcpp-server#meta/echo-server.cmx fuchsia.examples.Echo
You should see the print output in the QEMU console (or using fx log
).
[166633.167] 757796:757798> Running echo server [166633.489] 757796:757798> echo_server_llcpp: Incoming connection for fuchsia.examples.Echo [166633.528] 758101:758103> Got synchronous response: hello [166633.531] 758101:758103> Got response: hello [166633.531] 758101:758103> Got event: hi"