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gRPC JSON transcoding in ASP.NET Core

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 high-performance Remote Procedure Call (RPC) framework. gRPC uses HTTP/2, streaming, Protobuf, and message contracts to create high-performance, real-time services.

One limitation with gRPC is that not every platform can use it. Browsers don't fully support HTTP/2, making REST APIs and JSON the primary way to get data into browser apps. Despite the benefits that gRPC brings, REST APIs and JSON have an important place in modern apps. Building gRPC and JSON Web APIs adds unwanted overhead to app development.

This document discusses how to create JSON Web APIs using gRPC services.

Overview

gRPC JSON transcoding is an extension for ASP.NET Core that creates RESTful JSON APIs for gRPC services. Once configured, transcoding allows apps to call gRPC services with familiar HTTP concepts:

  • HTTP verbs
  • URL parameter binding
  • JSON requests/responses

gRPC can still be used to call services.

Note

gRPC JSON transcoding replaces gRPC HTTP API, an alternative experimental extension.

Usage

  1. Add a package reference to Microsoft.AspNetCore.Grpc.JsonTranscoding.

  2. Register transcoding in server startup code by adding AddJsonTranscoding: In the Program.cs file, change builder.Services.AddGrpc(); to builder.Services.AddGrpc().AddJsonTranscoding();.

  3. Add <IncludeHttpRuleProtos>true</IncludeHttpRuleProtos> to the property group in the project file (.csproj):

    <Project Sdk="Microsoft.NET.Sdk.Web">
    
      <PropertyGroup>
        <TargetFramework>net8.0</TargetFramework>
        <Nullable>enable</Nullable>
        <ImplicitUsings>enable</ImplicitUsings>
        <InvariantGlobalization>true</InvariantGlobalization>
        <IncludeHttpRuleProtos>true</IncludeHttpRuleProtos>
      </PropertyGroup>
    
  4. Annotate gRPC methods in your .proto files with HTTP bindings and routes:

    syntax = "proto3";
    
    option csharp_namespace = "GrpcServiceTranscoding";
    import "google/api/annotations.proto";
    
    package greet;
    
    // The greeting service definition.
    service Greeter {
      rpc SayHello (HelloRequest) returns (HelloReply) {
        option (google.api.http) = {
          get: "/v1/greeter/{name}"
        };
      }
    }
    
    // The request message containing the user's name.
    message HelloRequest {
      string name = 1;
    }
    
    // The response message containing the greetings.
    message HelloReply {
      string message = 1;
    }
    

The SayHello gRPC method can now be invoked as gRPC and as a JSON Web API:

  • Request: GET /v1/greeter/world
  • Response: { "message": "Hello world" }

If the server is configured to write logs for each request, server logs show that a gRPC service executes the HTTP call. Transcoding maps the incoming HTTP request to a gRPC message and converts the response message to JSON.

info: Microsoft.AspNetCore.Hosting.Diagnostics[1]
      Request starting HTTP/1.1 GET https://localhost:5001/v1/greeter/world
info: Microsoft.AspNetCore.Routing.EndpointMiddleware[0]
      Executing endpoint 'gRPC - /v1/greeter/{name}'
info: Server.GreeterService[0]
      Sending hello to world
info: Microsoft.AspNetCore.Routing.EndpointMiddleware[1]
      Executed endpoint 'gRPC - /v1/greeter/{name}'
info: Microsoft.AspNetCore.Hosting.Diagnostics[2]
      Request finished in 1.996ms 200 application/json

Annotate gRPC methods

gRPC methods must be annotated with an HTTP rule before they support transcoding. The HTTP rule includes information about how to call the gRPC method, such as the HTTP method and route.

service Greeter {
  rpc SayHello (HelloRequest) returns (HelloReply) {
    option (google.api.http) = {
      get: "/v1/greeter/{name}"
    };
  }
}

The proceeding example:

  • Defines a Greeter service with a SayHello method. The method has an HTTP rule specified using the name google.api.http.
  • The method is accessible with GET requests and the /v1/greeter/{name} route.
  • The name field on the request message is bound to a route parameter.

Many options are available for customizing how a gRPC method binds to a RESTful API. For more information about annotating gRPC methods and customizing JSON, see Configure HTTP and JSON for gRPC JSON transcoding.

Streaming methods

Traditional gRPC over HTTP/2 supports streaming in all directions. Transcoding is limited to server streaming only. Client streaming and bidirectional streaming methods aren't supported.

Server streaming methods use line-delimited JSON. Each message written using WriteAsync is serialized to JSON and followed by a new line.

The following server streaming method writes three messages:

public override async Task StreamingFromServer(ExampleRequest request,
    IServerStreamWriter<ExampleResponse> responseStream, ServerCallContext context)
{
    for (var i = 1; i <= 3; i++)
    {
        await responseStream.WriteAsync(new ExampleResponse { Text = $"Message {i}" });
        await Task.Delay(TimeSpan.FromSeconds(1));
    }
}

The client receives three line-delimited JSON objects:

{"Text":"Message 1"}
{"Text":"Message 2"}
{"Text":"Message 3"}

Note that the WriteIndented JSON setting doesn't apply to server streaming methods. Pretty printing adds new lines and whitespace to JSON, which can't be used with line-delimited JSON.

View or download an ASP.NET Core gPRC transcoding and streaming app sample.

HTTP protocol

The ASP.NET Core gRPC service template, included in the .NET SDK, creates an app that's only configured for HTTP/2. HTTP/2 is a good default when an app only supports traditional gRPC over HTTP/2. Transcoding, however, works with both HTTP/1.1 and HTTP/2. Some platforms, such as UWP or Unity, can't use HTTP/2. To support all client apps, configure the server to enable HTTP/1.1 and HTTP/2.

Update the default protocol in appsettings.json:

{
  "Kestrel": {
    "EndpointDefaults": {
      "Protocols": "Http1AndHttp2"
    }
  }
}

Alternatively, configure Kestrel endpoints in startup code.

Enabling HTTP/1.1 and HTTP/2 on the same port requires TLS for protocol negotiation. For more information about configuring HTTP protocols in a gRPC app, see ASP.NET Core gRPC protocol negotiation.

gRPC JSON transcoding vs gRPC-Web

Both transcoding and gRPC-Web allow gRPC services to be called from a browser. However, the way each does this is different:

  • gRPC-Web lets browser apps call gRPC services from the browser with the gRPC-Web client and Protobuf. gRPC-Web requires the browser app to generate a gRPC client and has the advantage of sending small, fast Protobuf messages.
  • Transcoding allows browser apps to call gRPC services as if they were RESTful APIs with JSON. The browser app doesn't need to generate a gRPC client or know anything about gRPC.

The previous Greeter service can be called using browser JavaScript APIs:

var name = nameInput.value;

fetch('/v1/greeter/' + name)
  .then((response) => response.json())
  .then((result) => {
    console.log(result.message);
    // Hello world
  });

grpc-gateway

grpc-gateway is another technology for creating RESTful JSON APIs from gRPC services. It uses the same .proto annotations to map HTTP concepts to gRPC services.

grpc-gateway uses code generation to create a reverse-proxy server. The reverse proxy translates RESTful calls into gRPC+Protobuf and sends the calls over HTTP/2 to the gRPC service. The benefit of this approach is the gRPC service doesn't know about the RESTful JSON APIs. Any gRPC server can use grpc-gateway.

Meanwhile, gRPC JSON transcoding runs inside an ASP.NET Core app. It deserializes JSON into Protobuf messages, then invokes the gRPC service directly. Transcoding in ASP.NET Core offers advantages to .NET app developers:

  • Less complex: Both gRPC services and mapped RESTful JSON API run out of one ASP.NET Core app.
  • Better performance: Transcoding deserializes JSON to Protobuf messages and invokes the gRPC service directly. There are significant performance benefits in doing this in-process versus making a new gRPC call to a different server.
  • Lower cost: Fewer servers result in a smaller monthly hosting bill.

For installation and usage of grpc-gateway, see the grpc-gateway README.

Additional resources

gRPC is a high-performance Remote Procedure Call (RPC) framework. gRPC uses HTTP/2, streaming, Protobuf, and message contracts to create high-performance, real-time services.

One limitation with gRPC is that not every platform can use it. Browsers don't fully support HTTP/2, making REST APIs and JSON the primary way to get data into browser apps. Despite the benefits that gRPC brings, REST APIs and JSON have an important place in modern apps. Building gRPC and JSON Web APIs adds unwanted overhead to app development.

This document discusses how to create JSON Web APIs using gRPC services.

Overview

gRPC JSON transcoding is an extension for ASP.NET Core that creates RESTful JSON APIs for gRPC services. Once configured, transcoding allows apps to call gRPC services with familiar HTTP concepts:

  • HTTP verbs
  • URL parameter binding
  • JSON requests/responses

gRPC can still be used to call services.

Note

gRPC JSON transcoding replaces gRPC HTTP API, an alternative experimental extension.

Usage

  1. Add a package reference to Microsoft.AspNetCore.Grpc.JsonTranscoding.
  2. Register transcoding in server startup code by adding AddJsonTranscoding: In the Program.cs file, change builder.Services.AddGrpc(); to builder.Services.AddGrpc().AddJsonTranscoding();.
  3. Create the directory structure /google/api in the project directory that contains the .csproj file.
  4. Add google/api/http.proto and google/api/annotations.proto files to the /google/api directory.
  5. Annotate gRPC methods in your .proto files with HTTP bindings and routes:
syntax = "proto3";

option csharp_namespace = "GrpcServiceTranscoding";
import "google/api/annotations.proto";

package greet;

// The greeting service definition.
service Greeter {
  rpc SayHello (HelloRequest) returns (HelloReply) {
    option (google.api.http) = {
      get: "/v1/greeter/{name}"
    };
  }
}

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

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

The SayHello gRPC method can now be invoked as gRPC and as a JSON Web API:

  • Request: GET /v1/greeter/world
  • Response: { "message": "Hello world" }

If the server is configured to write logs for each request, server logs show that a gRPC service executes the HTTP call. Transcoding maps the incoming HTTP request to a gRPC message and converts the response message to JSON.

info: Microsoft.AspNetCore.Hosting.Diagnostics[1]
      Request starting HTTP/1.1 GET https://localhost:5001/v1/greeter/world
info: Microsoft.AspNetCore.Routing.EndpointMiddleware[0]
      Executing endpoint 'gRPC - /v1/greeter/{name}'
info: Server.GreeterService[0]
      Sending hello to world
info: Microsoft.AspNetCore.Routing.EndpointMiddleware[1]
      Executed endpoint 'gRPC - /v1/greeter/{name}'
info: Microsoft.AspNetCore.Hosting.Diagnostics[2]
      Request finished in 1.996ms 200 application/json

Annotate gRPC methods

gRPC methods must be annotated with an HTTP rule before they support transcoding. The HTTP rule includes information about how to call the gRPC method, such as the HTTP method and route.

service Greeter {
  rpc SayHello (HelloRequest) returns (HelloReply) {
    option (google.api.http) = {
      get: "/v1/greeter/{name}"
    };
  }
}

The proceeding example:

  • Defines a Greeter service with a SayHello method. The method has an HTTP rule specified using the name google.api.http.
  • The method is accessible with GET requests and the /v1/greeter/{name} route.
  • The name field on the request message is bound to a route parameter.

Many options are available for customizing how a gRPC method binds to a RESTful API. For more information about annotating gRPC methods and customizing JSON, see Configure HTTP and JSON for gRPC JSON transcoding.

Streaming methods

Traditional gRPC over HTTP/2 supports streaming in all directions. Transcoding is limited to server streaming only. Client streaming and bidirectional streaming methods aren't supported.

Server streaming methods use line-delimited JSON. Each message written using WriteAsync is serialized to JSON and followed by a new line.

The following server streaming method writes three messages:

public override async Task StreamingFromServer(ExampleRequest request,
    IServerStreamWriter<ExampleResponse> responseStream, ServerCallContext context)
{
    for (var i = 1; i <= 3; i++)
    {
        await responseStream.WriteAsync(new ExampleResponse { Text = $"Message {i}" });
        await Task.Delay(TimeSpan.FromSeconds(1));
    }
}

The client receives three line-delimited JSON objects:

{"Text":"Message 1"}
{"Text":"Message 2"}
{"Text":"Message 3"}

Note that the WriteIndented JSON setting doesn't apply to server streaming methods. Pretty printing adds new lines and whitespace to JSON, which can't be used with line-delimited JSON.

View or download an ASP.NET Core gPRC transcoding and streaming app sample.

HTTP protocol

The ASP.NET Core gRPC service template, included in the .NET SDK, creates an app that's only configured for HTTP/2. HTTP/2 is a good default when an app only supports traditional gRPC over HTTP/2. Transcoding, however, works with both HTTP/1.1 and HTTP/2. Some platforms, such as UWP or Unity, can't use HTTP/2. To support all client apps, configure the server to enable HTTP/1.1 and HTTP/2.

Update the default protocol in appsettings.json:

{
  "Kestrel": {
    "EndpointDefaults": {
      "Protocols": "Http1AndHttp2"
    }
  }
}

Alternatively, configure Kestrel endpoints in startup code.

Enabling HTTP/1.1 and HTTP/2 on the same port requires TLS for protocol negotiation. For more information about configuring HTTP protocols in a gRPC app, see ASP.NET Core gRPC protocol negotiation.

gRPC JSON transcoding vs gRPC-Web

Both transcoding and gRPC-Web allow gRPC services to be called from a browser. However, the way each does this is different:

  • gRPC-Web lets browser apps call gRPC services from the browser with the gRPC-Web client and Protobuf. gRPC-Web requires the browser app to generate a gRPC client and has the advantage of sending small, fast Protobuf messages.
  • Transcoding allows browser apps to call gRPC services as if they were RESTful APIs with JSON. The browser app doesn't need to generate a gRPC client or know anything about gRPC.

The previous Greeter service can be called using browser JavaScript APIs:

var name = nameInput.value;

fetch('/v1/greeter/' + name)
  .then((response) => response.json())
  .then((result) => {
    console.log(result.message);
    // Hello world
  });

grpc-gateway

grpc-gateway is another technology for creating RESTful JSON APIs from gRPC services. It uses the same .proto annotations to map HTTP concepts to gRPC services.

grpc-gateway uses code generation to create a reverse-proxy server. The reverse proxy translates RESTful calls into gRPC+Protobuf and sends the calls over HTTP/2 to the gRPC service. The benefit of this approach is the gRPC service doesn't know about the RESTful JSON APIs. Any gRPC server can use grpc-gateway.

Meanwhile, gRPC JSON transcoding runs inside an ASP.NET Core app. It deserializes JSON into Protobuf messages, then invokes the gRPC service directly. Transcoding in ASP.NET Core offers advantages to .NET app developers:

  • Less complex: Both gRPC services and mapped RESTful JSON API run out of one ASP.NET Core app.
  • Better performance: Transcoding deserializes JSON to Protobuf messages and invokes the gRPC service directly. There are significant performance benefits in doing this in-process versus making a new gRPC call to a different server.
  • Lower cost: Fewer servers result in a smaller monthly hosting bill.

For installation and usage of grpc-gateway, see the grpc-gateway README.

Additional resources