grpc.io/content/en/docs/languages/cpp/quickstart.md

title	description	weight	spelling	cmake-version
Quick start	This guide gets you started with gRPC in C++ with a simple working example.	10	cSpell:ignore autoconf automake cmake cout DCMAKE endl libtool mkdir popd pushd	3.17.0

In the C++ world, there's no universally accepted standard for managing project dependencies. In this quick start, you'll follow steps to build and locally install gRPC before building and running this quick start's Hello World example.

Setup

Choose a directory to hold locally installed packages. This page assumes that the environment variable MY_INSTALL_DIR holds this directory path. For example:

$ export MY_INSTALL_DIR=$HOME/.local

Ensure that the directory exists:

$ mkdir -p $MY_INSTALL_DIR

Add the local bin folder to your path variable, for example:

$ export PATH="$PATH:$MY_INSTALL_DIR/bin"

Prerequisites

cmake

Version 3.13 or later of cmake is required to install gRPC locally.

• Linux

  $ sudo apt install -y cmake
  

• macOS:

  $ brew install cmake
  

• For general cmake installation instructions, see [Installing CMake][].

Check the version of cmake:

$ cmake --version

Under Linux, the version of the system-wide cmake can be too low. You can install a more recent version into your local installation directory as follows:

$ wget -q -O cmake-linux.sh https://github.com/Kitware/CMake/releases/download/v{{< param cmake-version >}}/cmake-{{< param cmake-version >}}-Linux-x86_64.sh
$ sh cmake-linux.sh -- --skip-license --prefix=$MY_INSTALL_DIR
$ rm cmake-linux.sh

gRPC and Protocol Buffers

While not mandatory, gRPC applications usually leverage [Protocol Buffers][pb] for service definitions and data serialization, and the example code uses [proto3][].

The following instructions will locally install gRPC and Protocol Buffers.

1. Install the basic tools required to build gRPC:

   • Linux

     $ sudo apt install -y build-essential autoconf libtool pkg-config
     

   • macOS:

     $ brew install autoconf automake libtool pkg-config
     

2. Clone the grpc repo and its submodules:

   $ git clone --recurse-submodules -b {{< param grpc_vers.core >}} https://github.com/grpc/grpc
   $ cd grpc
   

3. Build and locally install gRPC and all requisite tools:

   $ mkdir -p cmake/build
   $ pushd cmake/build
   $ cmake -DgRPC_INSTALL=ON \
         -DgRPC_BUILD_TESTS=OFF \
         -DCMAKE_INSTALL_PREFIX=$MY_INSTALL_DIR \
         ../..
   $ make -j
   $ make install
   $ popd
   

More information:

• You can find a complete set of instructions for building gRPC C++ in Building from source.
• For general instructions on how to add gRPC as a dependency to your C++ project, see Start using gRPC C++.

Build the example

The example code is part of the grpc repo source, which you cloned as part of the steps of the previous section.

1. Change to the example's directory:

   $ cd examples/cpp/helloworld
   

2. Build the example using cmake:

   $ mkdir -p cmake/build
   $ pushd cmake/build
   $ cmake -DCMAKE_PREFIX_PATH=$MY_INSTALL_DIR ../..
   $ make -j
   

   {{% alert title="Note" color="info" %}} Getting build failures? Most issues, at this point, are a result of a faulty installation. Ensure that the have the right versions of cmake, and carefully recheck your installation. {{% /alert %}}

Try it!

Run the example from the example build directory examples/cpp/helloworld/cmake/build:

1. Run the server:

   $ ./greeter_server
   

2. From a different terminal, run the client and see the client output:

   $ ./greeter_client
   Greeter received: Hello world
   

Congratulations! You've just run a client-server application with gRPC.

Update the gRPC service

Now let's look at how to update the application with an extra method on the server for the client to call. Our gRPC service is defined using protocol buffers; you can find out lots more about how to define a service in a .proto file in Introduction to gRPC and Basics tutorial. For now all you need to know is that both the server and the client stub have a SayHello() RPC method that takes a HelloRequest parameter from the client and returns a HelloResponse from the server, and that this method is defined like this:

// The greeting service definition.
service Greeter {
  // Sends a greeting
  rpc SayHello (HelloRequest) returns (HelloReply) {}
}

// The request message containing the user's name.
message HelloRequest {
  string name = 1;
}

// The response message containing the greetings
message HelloReply {
  string message = 1;
}

Open [examples/protos/helloworld.proto][] and add a new SayHelloAgain() method, with the same request and response types:

// The greeting service definition.
service Greeter {
  // Sends a greeting
  rpc SayHello (HelloRequest) returns (HelloReply) {}
  // Sends another greeting
  rpc SayHelloAgain (HelloRequest) returns (HelloReply) {}
}

// The request message containing the user's name.
message HelloRequest {
  string name = 1;
}

// The response message containing the greetings
message HelloReply {
  string message = 1;
}

Remember to save the file!

Regenerate gRPC code

Before you can use the new service method, you need to recompile the updated proto file.

From the example build directory examples/cpp/helloworld/cmake/build, run:

$ make -j

This regenerates helloworld.pb.{h,cc} and helloworld.grpc.pb.{h,cc}, which contains the generated client and server classes, as well as classes for populating, serializing, and retrieving our request and response types.

Update and run the application

You have new generated server and client code, but you still need to implement and call the new method in the human-written parts of our example application.

Update the server

Open greeter_server.cc from the example's root directory. Implement the new method like this:

class GreeterServiceImpl final : public Greeter::Service {
  Status SayHello(ServerContext* context, const HelloRequest* request,
                  HelloReply* reply) override {
     // ...
  }

  Status SayHelloAgain(ServerContext* context, const HelloRequest* request,
                       HelloReply* reply) override {
    std::string prefix("Hello again ");
    reply->set_message(prefix + request->name());
    return Status::OK;
  }
};

Update the client

A new SayHelloAgain() method is now available in the stub. We'll follow the same pattern as for the already present SayHello() and add a new SayHelloAgain() method to GreeterClient:

class GreeterClient {
 public:
  // ...
  std::string SayHello(const std::string& user) {
     // ...
  }

  std::string SayHelloAgain(const std::string& user) {
    // Follows the same pattern as SayHello.
    HelloRequest request;
    request.set_name(user);
    HelloReply reply;
    ClientContext context;

    // Here we can use the stub's newly available method we just added.
    Status status = stub_->SayHelloAgain(&context, request, &reply);
    if (status.ok()) {
      return reply.message();
    } else {
      std::cout << status.error_code() << ": " << status.error_message()
                << std::endl;
      return "RPC failed";
    }
  }

Finally, invoke this new method in main():

int main(int argc, char** argv) {
  // ...
  std::string reply = greeter.SayHello(user);
  std::cout << "Greeter received: " << reply << std::endl;

  reply = greeter.SayHelloAgain(user);
  std::cout << "Greeter received: " << reply << std::endl;

  return 0;
}

Run!

Run the client and server like you did before. Execute the following commands from the example build directory examples/cpp/helloworld/cmake/build:

1. Build the client and server after having made changes:

   $ make -j
   

2. Run the server:

   $ ./greeter_server
   

3. On a different terminal, run the client:

   $ ./greeter_client
   

   You'll see the following output:

   Greeter received: Hello world
   Greeter received: Hello again world
   

{{% alert title="Note" color="info" %}} Interested in an asynchronous version of the client and server? You'll find the greeter_async_{client,server}.cc files in the example's source directory.

{{% /alert %}}

What's next

• Learn how gRPC works in Introduction to gRPC and Core concepts.
• Work through the Basics tutorial.
• Explore the API reference.

[examples/protos/helloworld.proto]: https://github.com/grpc/grpc/blob/{{< param grpc_vers.core >}}/examples/protos/helloworld.proto [github.com/google/protobuf/releases]: https://github.com/google/protobuf/releases [Installing CMake]: https://cmake.org/install [pb]: https://developers.google.com/protocol-buffers [proto3]: https://developers.google.com/protocol-buffers/docs/proto3 [repo]: https://github.com/grpc/grpc/tree/{{< param grpc_vers.core >}} using-grpc: https://github.com/grpc/grpc/tree/master/src/cpp#to-start-using-grpc-c