Merge pull request #278 from yang-g/async_doc

Add sync and async doc in README for helloworld
pull/3109/head
Abhishek Kumar 9 years ago
commit 209d047db8
  1. 168
      cpp/helloworld/README.md

@ -89,8 +89,172 @@ $ protoc -I ../../protos/ --cpp_out=. ../../protos/helloworld.proto
### Writing a client ### Writing a client
This is an incomplete tutorial. For now the reader should refer to [greeter_client.cc](https://github.com/grpc/grpc-common/blob/master/cpp/helloworld/greeter_client.cc). - Create a channel. A channel is a logical connection to an endpoint. A gRPC
channel can be created with the target address, credentials to use and
arguments as follows
```
auto channel = CreateChannel("localhost:50051", InsecureCredentials(), ChannelArguments());
```
- Create a stub. A stub implements the rpc methods of a service and in the
generated code, a method is provided to created a stub with a channel:
```
auto stub = helloworld::Greeter::NewStub(channel);
```
- Make a unary rpc, with `ClientContext` and request/response proto messages.
```
ClientContext context;
HelloRequest request;
request.set_name("hello");
HelloReply reply;
Status status = stub->SayHello(&context, request, &reply);
```
- Check returned status and response.
```
if (status.ok()) {
// check reply.message()
} else {
// rpc failed.
}
```
For a working example, refer to [greeter_client.cc](https://github.com/grpc/grpc-common/blob/master/cpp/helloworld/greeter_client.cc).
### Writing a server ### Writing a server
This is an incomplete tutorial. For now the reader should refer to [greeter_server.cc](https://github.com/grpc/grpc-common/blob/master/cpp/helloworld/greeter_server.cc). - Implement the service interface
```
class GreeterServiceImpl final : public Greeter::Service {
Status SayHello(ServerContext* context, const HelloRequest* request,
HelloReply* reply) override {
std::string prefix("Hello ");
reply->set_message(prefix + request->name());
return Status::OK;
}
};
```
- Build a server exporting the service
```
GreeterServiceImpl service;
ServerBuilder builder;
builder.AddListeningPort("0.0.0.0:50051", grpc::InsecureServerCredentials());
builder.RegisterService(&service);
std::unique_ptr<Server> server(builder.BuildAndStart());
```
For a working example, refer to [greeter_server.cc](https://github.com/grpc/grpc-common/blob/master/cpp/helloworld/greeter_server.cc).
### Writing asynchronous client and server
gRPC uses `CompletionQueue` API for asynchronous operations. The basic work flow
is
- bind a `CompletionQueue` to a rpc call
- do something like a read or write, present with a unique `void*` tag
- call `CompletionQueue::Next` to wait for operations to complete. If a tag
appears, it indicates that the corresponding operation is complete.
#### Async client
The channel and stub creation code is the same as the sync client.
- Initiate the rpc and create a handle for the rpc. Bind the rpc to a
`CompletionQueue`.
```
CompletionQueue cq;
auto rpc = stub->AsyncSayHello(&context, request, &cq);
```
- Ask for reply and final status, with a unique tag
```
Status status;
rpc->Finish(&reply, &status, (void*)1);
```
- Wait for the completion queue to return the next tag. The reply and status are
ready once the tag passed into the corresponding `Finish()` call is returned.
```
void* got_tag;
bool ok = false;
cq.Next(&got_tag, &ok);
if (ok && got_tag == (void*)1) {
// check reply and status
}
```
For a working example, refer to [greeter_async_client.cc](https://github.com/grpc/grpc-common/blob/master/cpp/helloworld/greeter_async_client.cc).
#### Async server
The server implementation requests a rpc call with a tag and then wait for the
completion queue to return the tag. The basic flow is
- Build a server exporting the async service
```
helloworld::Greeter::AsyncService service;
ServerBuilder builder;
builder.AddListeningPort("0.0.0.0:50051", InsecureServerCredentials());
builder.RegisterAsyncService(&service);
auto cq = builder.AddCompletionQueue();
auto server = builder.BuildAndStart();
```
- Request one rpc
```
ServerContext context;
HelloRequest request;
ServerAsyncResponseWriter<HelloReply> responder;
service.RequestSayHello(&context, &request, &responder, &cq, &cq, (void*)1);
```
- Wait for the completion queue to return the tag. The context, request and
responder are ready once the tag is retrieved.
```
HelloReply reply;
Status status;
void* got_tag;
bool ok = false;
cq.Next(&got_tag, &ok);
if (ok && got_tag == (void*)1) {
// set reply and status
responder.Finish(reply, status, (void*)2);
}
```
- Wait for the completion queue to return the tag. The rpc is finished when the
tag is back.
```
void* got_tag;
bool ok = false;
cq.Next(&got_tag, &ok);
if (ok && got_tag == (void*)2) {
// clean up
}
```
To handle multiple rpcs, the async server creates an object `CallData` to
maintain the state of each rpc and use the address of it as the unique tag. For
simplicity the server only uses one completion queue for all events, and runs a
main loop in `HandleRpcs` to query the queue.
For a working example, refer to [greeter_async_server.cc](https://github.com/grpc/grpc-common/blob/master/cpp/helloworld/greeter_async_server.cc).

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