Redigera

Dela via


Overview for gRPC on .NET

Note

This isn't the latest version of this article. For the current release, see the .NET 9 version of this article.

Warning

This version of ASP.NET Core is no longer supported. For more information, see .NET and .NET Core Support Policy. For the current release, see the .NET 8 version of this article.

Important

This information relates to a pre-release product that may be substantially modified before it's commercially released. Microsoft makes no warranties, express or implied, with respect to the information provided here.

For the current release, see the .NET 9 version of this article.

By James Newton-King

gRPC is a language agnostic, high-performance Remote Procedure Call (RPC) framework.

The main benefits of gRPC are:

  • Modern, high-performance, lightweight RPC framework.
  • Contract-first API development, using Protocol Buffers by default, allowing for language agnostic implementations.
  • Tooling available for many languages to generate strongly-typed servers and clients.
  • Supports client, server, and bi-directional streaming calls.
  • Reduced network usage with Protobuf binary serialization.

These benefits make gRPC ideal for:

  • Lightweight microservices where efficiency is critical.
  • Polyglot systems where multiple languages are required for development.
  • Point-to-point real-time services that need to handle streaming requests or responses.

C# Tooling support for .proto files

gRPC uses a contract-first approach to API development. Services and messages are defined in .proto files:

syntax = "proto3";

service Greeter {
  rpc SayHello (HelloRequest) returns (HelloReply);
}

message HelloRequest {
  string name = 1;
}

message HelloReply {
  string message = 1;
}

.NET types for services, clients, and messages are automatically generated by including .proto files in a project:

  • Add a package reference to Grpc.Tools package.
  • Add .proto files to the <Protobuf> item group.
<ItemGroup>
  <Protobuf Include="Protos\greet.proto" />
</ItemGroup>

For more information on gRPC tooling support, see gRPC services with C#.

gRPC services on ASP.NET Core

gRPC services can be hosted on ASP.NET Core. Services have full integration with ASP.NET Core features such as logging, dependency injection (DI), authentication, and authorization.

Add gRPC services to an ASP.NET Core app

gRPC requires the Grpc.AspNetCore package. For information on configuring gRPC in a .NET app, see Configure gRPC.

The gRPC service project template

The ASP.NET Core gRPC Service project template provides a starter service:

public class GreeterService : Greeter.GreeterBase
{
    private readonly ILogger<GreeterService> _logger;

    public GreeterService(ILogger<GreeterService> logger)
    {
        _logger = logger;
    }

    public override Task<HelloReply> SayHello(HelloRequest request,
        ServerCallContext context)
    {
        _logger.LogInformation("Saying hello to {Name}", request.Name);
        return Task.FromResult(new HelloReply 
        {
            Message = "Hello " + request.Name
        });
    }
}

GreeterService inherits from the GreeterBase type, which is generated from the Greeter service in the .proto file. The service is made accessible to clients in Program.cs:

app.MapGrpcService<GreeterService>();

To learn more about gRPC services on ASP.NET Core, see gRPC services with ASP.NET Core.

Call gRPC services with a .NET client

gRPC clients are concrete client types that are generated from .proto files. The concrete gRPC client has methods that translate to the gRPC service in the .proto file.

var channel = GrpcChannel.ForAddress("https://localhost:5001");
var client = new Greeter.GreeterClient(channel);

var response = await client.SayHelloAsync(
    new HelloRequest { Name = "World" });

Console.WriteLine(response.Message);

A gRPC client is created using a channel, which represents a long-lived connection to a gRPC service. A channel can be created using GrpcChannel.ForAddress.

For more information on creating clients, and calling different service methods, see Call gRPC services with the .NET client.

Additional resources

gRPC is a language agnostic, high-performance Remote Procedure Call (RPC) framework.

The main benefits of gRPC are:

  • Modern, high-performance, lightweight RPC framework.
  • Contract-first API development, using Protocol Buffers by default, allowing for language agnostic implementations.
  • Tooling available for many languages to generate strongly-typed servers and clients.
  • Supports client, server, and bi-directional streaming calls.
  • Reduced network usage with Protobuf binary serialization.

These benefits make gRPC ideal for:

  • Lightweight microservices where efficiency is critical.
  • Polyglot systems where multiple languages are required for development.
  • Point-to-point real-time services that need to handle streaming requests or responses.

C# Tooling support for .proto files

gRPC uses a contract-first approach to API development. Services and messages are defined in .proto files:

syntax = "proto3";

service Greeter {
  rpc SayHello (HelloRequest) returns (HelloReply);
}

message HelloRequest {
  string name = 1;
}

message HelloReply {
  string message = 1;
}

.NET types for services, clients, and messages are automatically generated by including .proto files in a project:

  • Add a package reference to Grpc.Tools package.
  • Add .proto files to the <Protobuf> item group.
<ItemGroup>
  <Protobuf Include="Protos\greet.proto" />
</ItemGroup>

For more information on gRPC tooling support, see gRPC services with C#.

gRPC services on ASP.NET Core

gRPC services can be hosted on ASP.NET Core. Services have full integration with ASP.NET Core features such as logging, dependency injection (DI), authentication, and authorization.

Add gRPC services to an ASP.NET Core app

gRPC requires the Grpc.AspNetCore package. For information on configuring gRPC in a .NET app, see Configure gRPC.

The gRPC service project template

The gRPC service project template provides a starter service:

public class GreeterService : Greeter.GreeterBase
{
    private readonly ILogger<GreeterService> _logger;

    public GreeterService(ILogger<GreeterService> logger)
    {
        _logger = logger;
    }

    public override Task<HelloReply> SayHello(HelloRequest request,
        ServerCallContext context)
    {
        _logger.LogInformation("Saying hello to {Name}", request.Name);
        return Task.FromResult(new HelloReply 
        {
            Message = "Hello " + request.Name
        });
    }
}

GreeterService inherits from the GreeterBase type, which is generated from the Greeter service in the .proto file. The service is made accessible to clients in Startup.cs:

app.UseEndpoints(endpoints =>
{
    endpoints.MapGrpcService<GreeterService>();
});

To learn more about gRPC services on ASP.NET Core, see gRPC services with ASP.NET Core.

Call gRPC services with a .NET client

gRPC clients are concrete client types that are generated from .proto files. The concrete gRPC client has methods that translate to the gRPC service in the .proto file.

var channel = GrpcChannel.ForAddress("https://localhost:5001");
var client = new Greeter.GreeterClient(channel);

var response = await client.SayHelloAsync(
    new HelloRequest { Name = "World" });

Console.WriteLine(response.Message);

A gRPC client is created using a channel, which represents a long-lived connection to a gRPC service. A channel can be created using GrpcChannel.ForAddress.

For more information on creating clients, and calling different service methods, see Call gRPC services with the .NET client.

Additional resources