gRPC-Web in ASP.NET Core gRPC apps
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 the .NET and .NET Core Support Policy. For the current release, see the .NET 9 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.
Learn how to configure an existing ASP.NET Core gRPC service to be callable from browser apps, using the gRPC-Web protocol. gRPC-Web allows browser JavaScript and Blazor apps to call gRPC services. It's not possible to call an HTTP/2 gRPC service from a browser-based app. gRPC services hosted in ASP.NET Core can be configured to support gRPC-Web alongside HTTP/2 gRPC.
For instructions on adding a gRPC service to an existing ASP.NET Core app, see Add gRPC services to an ASP.NET Core app.
For instructions on creating a gRPC project, see Create a .NET Core gRPC client and server in ASP.NET Core.
ASP.NET Core gRPC-Web versus Envoy
There are two choices for how to add gRPC-Web to an ASP.NET Core app:
- Support gRPC-Web alongside gRPC HTTP/2 in ASP.NET Core. This option uses middleware provided by the
Grpc.AspNetCore.Web
package. - Use the Envoy proxy's gRPC-Web support to translate gRPC-Web to gRPC HTTP/2. The translated call is then forwarded onto the ASP.NET Core app.
There are pros and cons to each approach. If an app's environment is already using Envoy as a proxy, it might make sense to also use Envoy to provide gRPC-Web support. For a basic solution for gRPC-Web that only requires ASP.NET Core, Grpc.AspNetCore.Web
is a good choice.
Configure gRPC-Web in ASP.NET Core
gRPC services hosted in ASP.NET Core can be configured to support gRPC-Web alongside HTTP/2 gRPC. gRPC-Web doesn't require any changes to services. The only modification is in setting the middleware in Program.cs
.
To enable gRPC-Web with an ASP.NET Core gRPC service:
- Add a reference to the
Grpc.AspNetCore.Web
package. - Configure the app to use gRPC-Web by adding
UseGrpcWeb
andEnableGrpcWeb
toProgram.cs
:
using GrpcGreeter.Services;
var builder = WebApplication.CreateBuilder(args);
builder.Services.AddGrpc();
var app = builder.Build();
app.UseGrpcWeb();
app.MapGrpcService<GreeterService>().EnableGrpcWeb();
app.MapGet("/", () => "This gRPC service is gRPC-Web enabled and is callable from browser apps using the gRPC-Web protocol");
app.Run();
The preceding code:
- Adds the gRPC-Web middleware,
UseGrpcWeb
, after routing and before endpoints. - Specifies that the
endpoints.MapGrpcService<GreeterService>()
method supports gRPC-Web withEnableGrpcWeb
.
Alternatively, the gRPC-Web middleware can be configured so that all services support gRPC-Web by default and EnableGrpcWeb
isn't required. Specify new GrpcWebOptions { DefaultEnabled = true }
when the middleware is added.
using GrpcGreeter.Services;
var builder = WebApplication.CreateBuilder(args);
builder.Services.AddGrpc();
var app = builder.Build();
app.UseGrpcWeb(new GrpcWebOptions { DefaultEnabled = true });
app.MapGrpcService<GreeterService>().EnableGrpcWeb();
app.MapGet("/", () => "All gRPC service are supported by default in this example, and are callable from browser apps using the gRPC-Web protocol");
app.Run();
Note
There is a known issue that causes gRPC-Web to fail when hosted by HTTP.sys in .NET Core 3.x.
A workaround to get gRPC-Web working on HTTP.sys is available in Grpc-web experimental and UseHttpSys()? (grpc/grpc-dotnet #853).
gRPC-Web and CORS
Browser security prevents a web page from making requests to a different domain than the one that served the web page. This restriction applies to making gRPC-Web calls with browser apps. For example, a browser app served by https://www.contoso.com
is blocked from calling gRPC-Web services hosted on https://services.contoso.com
. Cross-Origin Resource Sharing (CORS) can be used to relax this restriction.
To allow a browser app to make cross-origin gRPC-Web calls, set up CORS in ASP.NET Core. Use the built-in CORS support, and expose gRPC-specific headers with WithExposedHeaders.
using GrpcGreeter.Services;
var builder = WebApplication.CreateBuilder(args);
builder.Services.AddGrpc();
builder.Services.AddCors(o => o.AddPolicy("AllowAll", builder =>
{
builder.AllowAnyOrigin()
.AllowAnyMethod()
.AllowAnyHeader()
.WithExposedHeaders("Grpc-Status", "Grpc-Message", "Grpc-Encoding", "Grpc-Accept-Encoding");
}));
var app = builder.Build();
app.UseGrpcWeb();
app.UseCors();
app.MapGrpcService<GreeterService>().EnableGrpcWeb()
.RequireCors("AllowAll");
app.MapGet("/", () => "This gRPC service is gRPC-Web enabled, CORS enabled, and is callable from browser apps using the gRPC-Web protocol");
app.Run();
The preceding code:
- Calls
AddCors
to add CORS services and configure a CORS policy that exposes gRPC-specific headers. - Calls
UseCors
to add the CORS middleware after routing configuration and before endpoints configuration. - Specifies that the
endpoints.MapGrpcService<GreeterService>()
method supports CORS withRequireCors
.
gRPC-Web and streaming
Traditional gRPC over HTTP/2 supports client, server and bidirectional streaming. gRPC-Web offers limited support for streaming:
- gRPC-Web browser clients don't support calling client streaming and bidirectional streaming methods.
- gRPC-Web .NET clients don't support calling client streaming and bidirectional streaming methods over HTTP/1.1.
- ASP.NET Core gRPC services hosted on Azure App Service and IIS don't support bidirectional streaming.
When using gRPC-Web, we only recommend the use of unary methods and server streaming methods.
HTTP protocol
The ASP.NET Core gRPC service template, included in the .NET SDK, creates an app that's only configured for HTTP/2. This is a good default when an app only supports traditional gRPC over HTTP/2. gRPC-Web, 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, see ASP.NET Core gRPC protocol negotiation.
Call gRPC-Web from the browser
Browser apps can use gRPC-Web to call gRPC services. There are some requirements and limitations when calling gRPC services with gRPC-Web from the browser:
- The server must contain configuration to support gRPC-Web.
- Client streaming and bidirectional streaming calls aren't supported. Server streaming is supported.
- Calling gRPC services on a different domain requires CORS configuration on the server.
JavaScript gRPC-Web client
A JavaScript gRPC-Web client exists. For instructions on how to use gRPC-Web from JavaScript, see write JavaScript client code with gRPC-Web.
Configure gRPC-Web with the .NET gRPC client
The .NET gRPC client can be configured to make gRPC-Web calls. This is useful for Blazor WebAssembly apps, which are hosted in the browser and have the same HTTP limitations of JavaScript code. Calling gRPC-Web with a .NET client is the same as HTTP/2 gRPC. The only modification is how the channel is created.
To use gRPC-Web:
- Add a reference to the
Grpc.Net.Client.Web
package. - Ensure the reference to
Grpc.Net.Client
package is version 2.29.0 or later. - Configure the channel to use the
GrpcWebHandler
:
var channel = GrpcChannel.ForAddress("https://localhost:53305", new GrpcChannelOptions
{
HttpHandler = new GrpcWebHandler(new HttpClientHandler())
});
var client = new Greeter.GreeterClient(channel);
var response = await client.SayHelloAsync(
new HelloRequest { Name = "GreeterClient" });
The preceding code:
- Configures a channel to use gRPC-Web.
- Creates a client and makes a call using the channel.
GrpcWebHandler
has the following configuration options:
InnerHandler
: The underlying HttpMessageHandler that makes the gRPC HTTP request, for example,HttpClientHandler
.GrpcWebMode
: An enumeration type that specifies whether the gRPC HTTP requestContent-Type
isapplication/grpc-web
orapplication/grpc-web-text
.GrpcWebMode.GrpcWeb
configures sending content without encoding. Default value.GrpcWebMode.GrpcWebText
configures base64-encoded content. Required for server streaming calls in browsers.
HttpVersion
: HTTP protocolVersion
used to set HttpRequestMessage.Version on the underlying gRPC HTTP request. gRPC-Web doesn't require a specific version and doesn't override the default unless specified.
Important
Generated gRPC clients have synchronous and asynchronous methods for calling unary methods. For example, SayHello
is synchronous, and SayHelloAsync
is asynchronous. Asynchronous methods are always required in Blazor WebAssembly. Calling a synchronous method in a Blazor WebAssembly app causes the app to become unresponsive.
Use gRPC client factory with gRPC-Web
Create a .NET client compatible with gRPC-Web using the gRPC client factory:
- Add package references to the project file for the following packages:
- Register a gRPC client with dependency injection (DI) using the generic
AddGrpcClient
extension method. In a Blazor WebAssembly app, services are registered with DI inProgram.cs
. - Configure
GrpcWebHandler
using the ConfigurePrimaryHttpMessageHandler extension method.
builder.Services
.AddGrpcClient<Greet.GreeterClient>(options =>
{
options.Address = new Uri("https://localhost:5001");
})
.ConfigurePrimaryHttpMessageHandler(
() => new GrpcWebHandler(new HttpClientHandler()));
For more information, see gRPC client factory integration in .NET.
Additional resources
Learn how to configure an existing ASP.NET Core gRPC service to be callable from browser apps, using the gRPC-Web protocol. gRPC-Web allows browser JavaScript and Blazor apps to call gRPC services. It's not possible to call an HTTP/2 gRPC service from a browser-based app. gRPC services hosted in ASP.NET Core can be configured to support gRPC-Web alongside HTTP/2 gRPC.
For instructions on adding a gRPC service to an existing ASP.NET Core app, see Add gRPC services to an ASP.NET Core app.
For instructions on creating a gRPC project, see Create a .NET Core gRPC client and server in ASP.NET Core.
ASP.NET Core gRPC-Web versus Envoy
There are two choices for how to add gRPC-Web to an ASP.NET Core app:
- Support gRPC-Web alongside gRPC HTTP/2 in ASP.NET Core. This option uses middleware provided by the
Grpc.AspNetCore.Web
package. - Use the Envoy proxy's gRPC-Web support to translate gRPC-Web to gRPC HTTP/2. The translated call is then forwarded onto the ASP.NET Core app.
There are pros and cons to each approach. If an app's environment is already using Envoy as a proxy, it might make sense to also use Envoy to provide gRPC-Web support. For a basic solution for gRPC-Web that only requires ASP.NET Core, Grpc.AspNetCore.Web
is a good choice.
Configure gRPC-Web in ASP.NET Core
gRPC services hosted in ASP.NET Core can be configured to support gRPC-Web alongside HTTP/2 gRPC. gRPC-Web doesn't require any changes to services. The only modification is in setting the middelware in Program.cs
.
To enable gRPC-Web with an ASP.NET Core gRPC service:
- Add a reference to the
Grpc.AspNetCore.Web
package. - Configure the app to use gRPC-Web by adding
UseGrpcWeb
andEnableGrpcWeb
toProgram.cs
:
using GrpcGreeter.Services;
var builder = WebApplication.CreateBuilder(args);
builder.Services.AddGrpc();
var app = builder.Build();
app.UseGrpcWeb();
app.MapGrpcService<GreeterService>().EnableGrpcWeb();
app.MapGet("/", () => "This gRPC service is gRPC-Web enabled and is callable from browser apps using the gRPC-Web protocol");
app.Run();
The preceding code:
- Adds the gRPC-Web middleware,
UseGrpcWeb
, after routing and before endpoints. - Specifies that the
endpoints.MapGrpcService<GreeterService>()
method supports gRPC-Web withEnableGrpcWeb
.
Alternatively, the gRPC-Web middleware can be configured so that all services support gRPC-Web by default and EnableGrpcWeb
isn't required. Specify new GrpcWebOptions { DefaultEnabled = true }
when the middleware is added.
using GrpcGreeter.Services;
var builder = WebApplication.CreateBuilder(args);
builder.Services.AddGrpc();
var app = builder.Build();
app.UseGrpcWeb(new GrpcWebOptions { DefaultEnabled = true });
app.MapGrpcService<GreeterService>().EnableGrpcWeb();
app.MapGet("/", () => "All gRPC service are supported by default in this example, and are callable from browser apps using the gRPC-Web protocol");
app.Run();
Note
There is a known issue that causes gRPC-Web to fail when hosted by HTTP.sys in .NET Core 3.x.
A workaround to get gRPC-Web working on HTTP.sys is available in Grpc-web experimental and UseHttpSys()? (grpc/grpc-dotnet #853).
gRPC-Web and CORS
Browser security prevents a web page from making requests to a different domain than the one that served the web page. This restriction applies to making gRPC-Web calls with browser apps. For example, a browser app served by https://www.contoso.com
is blocked from calling gRPC-Web services hosted on https://services.contoso.com
. Cross-Origin Resource Sharing (CORS) can be used to relax this restriction.
To allow a browser app to make cross-origin gRPC-Web calls, set up CORS in ASP.NET Core. Use the built-in CORS support, and expose gRPC-specific headers with WithExposedHeaders.
using GrpcGreeter.Services;
var builder = WebApplication.CreateBuilder(args);
builder.Services.AddGrpc();
builder.Services.AddCors(o => o.AddPolicy("AllowAll", builder =>
{
builder.AllowAnyOrigin()
.AllowAnyMethod()
.AllowAnyHeader()
.WithExposedHeaders("Grpc-Status", "Grpc-Message", "Grpc-Encoding", "Grpc-Accept-Encoding");
}));
var app = builder.Build();
app.UseGrpcWeb();
app.UseCors();
app.MapGrpcService<GreeterService>().EnableGrpcWeb()
.RequireCors("AllowAll");
app.MapGet("/", () => "This gRPC service is gRPC-Web enabled, CORS enabled, and is callable from browser apps using the gRPC-Web protocol");
app.Run();
The preceding code:
- Calls
AddCors
to add CORS services and configure a CORS policy that exposes gRPC-specific headers. - Calls
UseCors
to add the CORS middleware after routing configuration and before endpoints configuration. - Specifies that the
endpoints.MapGrpcService<GreeterService>()
method supports CORS withRequireCors
.
gRPC-Web and streaming
Traditional gRPC over HTTP/2 supports client, server and bidirectional streaming. gRPC-Web offers limited support for streaming:
- gRPC-Web browser clients don't support calling client streaming and bidirectional streaming methods.
- gRPC-Web .NET clients don't support calling client streaming and bidirectional streaming methods over HTTP/1.1.
- ASP.NET Core gRPC services hosted on Azure App Service and IIS don't support bidirectional streaming.
When using gRPC-Web, we only recommend the use of unary methods and server streaming methods.
HTTP protocol
The ASP.NET Core gRPC service template, included in the .NET SDK, creates an app that's only configured for HTTP/2. This is a good default when an app only supports traditional gRPC over HTTP/2. gRPC-Web, 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, see ASP.NET Core gRPC protocol negotiation.
Call gRPC-Web from the browser
Browser apps can use gRPC-Web to call gRPC services. There are some requirements and limitations when calling gRPC services with gRPC-Web from the browser:
- The server must contain configuration to support gRPC-Web.
- Client streaming and bidirectional streaming calls aren't supported. Server streaming is supported.
- Calling gRPC services on a different domain requires CORS configuration on the server.
JavaScript gRPC-Web client
A JavaScript gRPC-Web client exists. For instructions on how to use gRPC-Web from JavaScript, see write JavaScript client code with gRPC-Web.
Configure gRPC-Web with the .NET gRPC client
The .NET gRPC client can be configured to make gRPC-Web calls. This is useful for Blazor WebAssembly apps, which are hosted in the browser and have the same HTTP limitations of JavaScript code. Calling gRPC-Web with a .NET client is the same as HTTP/2 gRPC. The only modification is how the channel is created.
To use gRPC-Web:
- Add a reference to the
Grpc.Net.Client.Web
package. - Ensure the reference to
Grpc.Net.Client
package is version 2.29.0 or later. - Configure the channel to use the
GrpcWebHandler
:
var channel = GrpcChannel.ForAddress("https://localhost:53305", new GrpcChannelOptions
{
HttpHandler = new GrpcWebHandler(new HttpClientHandler())
});
var client = new Greeter.GreeterClient(channel);
var response = await client.SayHelloAsync(
new HelloRequest { Name = "GreeterClient" });
The preceding code:
- Configures a channel to use gRPC-Web.
- Creates a client and makes a call using the channel.
GrpcWebHandler
has the following configuration options:
InnerHandler
: The underlying HttpMessageHandler that makes the gRPC HTTP request, for example,HttpClientHandler
.GrpcWebMode
: An enumeration type that specifies whether the gRPC HTTP requestContent-Type
isapplication/grpc-web
orapplication/grpc-web-text
.GrpcWebMode.GrpcWeb
configures sending content without encoding. Default value.GrpcWebMode.GrpcWebText
configures base64-encoded content. Required for server streaming calls in browsers.
HttpVersion
: HTTP protocolVersion
used to set HttpRequestMessage.Version on the underlying gRPC HTTP request. gRPC-Web doesn't require a specific version and doesn't override the default unless specified.
Important
Generated gRPC clients have synchronous and asynchronous methods for calling unary methods. For example, SayHello
is synchronous, and SayHelloAsync
is asynchronous. Asynchronous methods are always required in Blazor WebAssembly. Calling a synchronous method in a Blazor WebAssembly app causes the app to become unresponsive.
Use gRPC client factory with gRPC-Web
Create a .NET client compatible with gRPC-Web using the gRPC client factory:
- Add package references to the project file for the following packages:
- Register a gRPC client with dependency injection (DI) using the generic
AddGrpcClient
extension method. In a Blazor WebAssembly app, services are registered with DI inProgram.cs
. - Configure
GrpcWebHandler
using the ConfigurePrimaryHttpMessageHandler extension method.
builder.Services
.AddGrpcClient<Greet.GreeterClient>(options =>
{
options.Address = new Uri("https://localhost:5001");
})
.ConfigurePrimaryHttpMessageHandler(
() => new GrpcWebHandler(new HttpClientHandler()));
For more information, see gRPC client factory integration in .NET.
Additional resources
Learn how to configure an existing ASP.NET Core gRPC service to be callable from browser apps, using the gRPC-Web protocol. gRPC-Web allows browser JavaScript and Blazor apps to call gRPC services. It's not possible to call an HTTP/2 gRPC service from a browser-based app. gRPC services hosted in ASP.NET Core can be configured to support gRPC-Web alongside HTTP/2 gRPC.
For instructions on adding a gRPC service to an existing ASP.NET Core app, see Add gRPC services to an ASP.NET Core app.
For instructions on creating a gRPC project, see Create a .NET Core gRPC client and server in ASP.NET Core.
ASP.NET Core gRPC-Web versus Envoy
There are two choices for how to add gRPC-Web to an ASP.NET Core app:
- Support gRPC-Web alongside gRPC HTTP/2 in ASP.NET Core. This option uses middleware provided by the
Grpc.AspNetCore.Web
package. - Use the Envoy proxy's gRPC-Web support to translate gRPC-Web to gRPC HTTP/2. The translated call is then forwarded onto the ASP.NET Core app.
There are pros and cons to each approach. If an app's environment is already using Envoy as a proxy, it might make sense to also use Envoy to provide gRPC-Web support. For a basic solution for gRPC-Web that only requires ASP.NET Core, Grpc.AspNetCore.Web
is a good choice.
Configure gRPC-Web in ASP.NET Core
gRPC services hosted in ASP.NET Core can be configured to support gRPC-Web alongside HTTP/2 gRPC. gRPC-Web doesn't require any changes to services. The only modification is startup configuration.
To enable gRPC-Web with an ASP.NET Core gRPC service:
- Add a reference to the
Grpc.AspNetCore.Web
package. - Configure the app to use gRPC-Web by adding
UseGrpcWeb
andEnableGrpcWeb
toStartup.cs
:
public void ConfigureServices(IServiceCollection services)
{
services.AddGrpc();
}
public void Configure(IApplicationBuilder app)
{
app.UseRouting();
app.UseGrpcWeb(); // Must be added between UseRouting and UseEndpoints
app.UseEndpoints(endpoints =>
{
endpoints.MapGrpcService<GreeterService>().EnableGrpcWeb();
});
}
The preceding code:
- Adds the gRPC-Web middleware,
UseGrpcWeb
, after routing and before endpoints. - Specifies that the
endpoints.MapGrpcService<GreeterService>()
method supports gRPC-Web withEnableGrpcWeb
.
Alternatively, the gRPC-Web middleware can be configured so that all services support gRPC-Web by default and EnableGrpcWeb
isn't required. Specify new GrpcWebOptions { DefaultEnabled = true }
when the middleware is added.
public class Startup
{
public void ConfigureServices(IServiceCollection services)
{
services.AddGrpc();
}
public void Configure(IApplicationBuilder app)
{
app.UseRouting();
app.UseGrpcWeb(new GrpcWebOptions { DefaultEnabled = true });
app.UseEndpoints(endpoints =>
{
endpoints.MapGrpcService<GreeterService>();
});
}
}
Note
There is a known issue that causes gRPC-Web to fail when hosted by HTTP.sys in .NET Core 3.x.
A workaround to get gRPC-Web working on HTTP.sys is available in Grpc-web experimental and UseHttpSys()? (grpc/grpc-dotnet #853).
gRPC-Web and CORS
Browser security prevents a web page from making requests to a different domain than the one that served the web page. This restriction applies to making gRPC-Web calls with browser apps. For example, a browser app served by https://www.contoso.com
is blocked from calling gRPC-Web services hosted on https://services.contoso.com
. Cross-Origin Resource Sharing (CORS) can be used to relax this restriction.
To allow a browser app to make cross-origin gRPC-Web calls, set up CORS in ASP.NET Core. Use the built-in CORS support, and expose gRPC-specific headers with WithExposedHeaders.
public void ConfigureServices(IServiceCollection services)
{
services.AddGrpc();
services.AddCors(o => o.AddPolicy("AllowAll", builder =>
{
builder.AllowAnyOrigin()
.AllowAnyMethod()
.AllowAnyHeader()
.WithExposedHeaders("Grpc-Status", "Grpc-Message", "Grpc-Encoding", "Grpc-Accept-Encoding");
}));
}
public void Configure(IApplicationBuilder app)
{
app.UseRouting();
app.UseGrpcWeb();
app.UseCors();
app.UseEndpoints(endpoints =>
{
endpoints.MapGrpcService<GreeterService>().EnableGrpcWeb()
.RequireCors("AllowAll");
});
}
The preceding code:
- Calls
AddCors
to add CORS services and configure a CORS policy that exposes gRPC-specific headers. - Calls
UseCors
to add the CORS middleware after routing configuration and before endpoints configuration. - Specifies that the
endpoints.MapGrpcService<GreeterService>()
method supports CORS withRequireCors
.
gRPC-Web and streaming
Traditional gRPC over HTTP/2 supports client, server and bidirectional streaming. gRPC-Web offers limited support for streaming:
- gRPC-Web browser clients don't support calling client streaming and bidirectional streaming methods.
- gRPC-Web .NET clients don't support calling client streaming and bidirectional streaming methods over HTTP/1.1.
- ASP.NET Core gRPC services hosted on Azure App Service and IIS don't support bidirectional streaming.
When using gRPC-Web, we only recommend the use of unary methods and server streaming methods.
HTTP protocol
The ASP.NET Core gRPC service template, included in the .NET SDK, creates an app that's only configured for HTTP/2. This is a good default when an app only supports traditional gRPC over HTTP/2. gRPC-Web, 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, see ASP.NET Core gRPC protocol negotiation.
Call gRPC-Web from the browser
Browser apps can use gRPC-Web to call gRPC services. There are some requirements and limitations when calling gRPC services with gRPC-Web from the browser:
- The server must contain configuration to support gRPC-Web.
- Client streaming and bidirectional streaming calls aren't supported. Server streaming is supported.
- Calling gRPC services on a different domain requires CORS configuration on the server.
JavaScript gRPC-Web client
A JavaScript gRPC-Web client exists. For instructions on how to use gRPC-Web from JavaScript, see write JavaScript client code with gRPC-Web.
Configure gRPC-Web with the .NET gRPC client
The .NET gRPC client can be configured to make gRPC-Web calls. This is useful for Blazor WebAssembly apps, which are hosted in the browser and have the same HTTP limitations of JavaScript code. Calling gRPC-Web with a .NET client is the same as HTTP/2 gRPC. The only modification is how the channel is created.
To use gRPC-Web:
- Add a reference to the
Grpc.Net.Client.Web
package. - Ensure the reference to
Grpc.Net.Client
package is version 2.29.0 or later. - Configure the channel to use the
GrpcWebHandler
:
var channel = GrpcChannel.ForAddress("https://localhost:5001", new GrpcChannelOptions
{
HttpHandler = new GrpcWebHandler(new HttpClientHandler())
});
var client = new Greeter.GreeterClient(channel);
var response = await client.SayHelloAsync(new HelloRequest { Name = ".NET" });
The preceding code:
- Configures a channel to use gRPC-Web.
- Creates a client and makes a call using the channel.
GrpcWebHandler
has the following configuration options:
InnerHandler
: The underlying HttpMessageHandler that makes the gRPC HTTP request, for example,HttpClientHandler
.GrpcWebMode
: An enumeration type that specifies whether the gRPC HTTP requestContent-Type
isapplication/grpc-web
orapplication/grpc-web-text
.GrpcWebMode.GrpcWeb
configures sending content without encoding. Default value.GrpcWebMode.GrpcWebText
configures base64-encoded content. Required for server streaming calls in browsers.
HttpVersion
: HTTP protocolVersion
used to set HttpRequestMessage.Version on the underlying gRPC HTTP request. gRPC-Web doesn't require a specific version and doesn't override the default unless specified.
Important
Generated gRPC clients have synchronous and asynchronous methods for calling unary methods. For example, SayHello
is synchronous, and SayHelloAsync
is asynchronous. Asynchronous methods are always required in Blazor WebAssembly. Calling a synchronous method in a Blazor WebAssembly app causes the app to become unresponsive.
Use gRPC client factory with gRPC-Web
Create a .NET client compatible with gRPC-Web using the gRPC client factory:
- Add package references to the project file for the following packages:
- Register a gRPC client with dependency injection (DI) using the generic
AddGrpcClient
extension method. In a Blazor WebAssembly app, services are registered with DI inProgram.cs
. - Configure
GrpcWebHandler
using the ConfigurePrimaryHttpMessageHandler extension method.
builder.Services
.AddGrpcClient<Greet.GreeterClient>(options =>
{
options.Address = new Uri("https://localhost:5001");
})
.ConfigurePrimaryHttpMessageHandler(
() => new GrpcWebHandler(new HttpClientHandler()));
For more information, see gRPC client factory integration in .NET.
Additional resources
ASP.NET Core