gRPC client factory integration in .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 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.
gRPC integration with HttpClientFactory
offers a centralized way to create gRPC clients. It can be used as an alternative to configuring stand-alone gRPC client instances. Factory integration is available in the Grpc.Net.ClientFactory NuGet package.
The factory offers the following benefits:
- Provides a central location for configuring logical gRPC client instances.
- Manages the lifetime of the underlying
HttpClientMessageHandler
. - Automatic propagation of deadline and cancellation in an ASP.NET Core gRPC service.
Register gRPC clients
To register a gRPC client, the generic AddGrpcClient
extension method can be used within an instance of WebApplicationBuilder at the app's entry point in Program.cs
, specifying the gRPC typed client class and service address:
builder.Services.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
});
The gRPC client type is registered as transient with dependency injection (DI). The client can now be injected and consumed directly in types created by DI. ASP.NET Core MVC controllers, SignalR hubs and gRPC services are places where gRPC clients can automatically be injected:
public class AggregatorService : Aggregator.AggregatorBase
{
private readonly Greeter.GreeterClient _client;
public AggregatorService(Greeter.GreeterClient client)
{
_client = client;
}
public override async Task SayHellos(HelloRequest request,
IServerStreamWriter<HelloReply> responseStream, ServerCallContext context)
{
// Forward the call on to the greeter service
using (var call = _client.SayHellos(request))
{
await foreach (var response in call.ResponseStream.ReadAllAsync())
{
await responseStream.WriteAsync(response);
}
}
}
}
Configure HttpHandler
HttpClientFactory
creates the HttpMessageHandler
used by the gRPC client. Standard HttpClientFactory
methods can be used to add outgoing request middleware or to configure the underlying HttpClientHandler
of the HttpClient
:
builder.Services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.ConfigurePrimaryHttpMessageHandler(() =>
{
var handler = new HttpClientHandler();
handler.ClientCertificates.Add(LoadCertificate());
return handler;
});
For more information, see Make HTTP requests using IHttpClientFactory.
Configure Interceptors
gRPC interceptors can be added to clients using the AddInterceptor
method.
builder.Services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.AddInterceptor<LoggingInterceptor>();
The preceding code:
- Registers the
GreeterClient
type. - Configures a
LoggingInterceptor
for this client.LoggingInterceptor
is created once and shared betweenGreeterClient
instances.
By default, an interceptor is created once and shared between clients. This behavior can be overridden by specifying a scope when registering an interceptor. The client factory can be configured to create a new interceptor for each client by specifying InterceptorScope.Client
.
builder.Services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.AddInterceptor<LoggingInterceptor>(InterceptorScope.Client);
Creating client scoped interceptors is useful when an interceptor requires scoped or transient scoped services from DI.
A gRPC interceptor or channel credentials can be used to send Authorization
metadata with each request. For more information about configuring authentication, see Send a bearer token with gRPC client factory.
Configure Channel
Additional configuration can be applied to a channel using the ConfigureChannel
method:
builder.Services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.ConfigureChannel(o =>
{
o.Credentials = new CustomCredentials();
});
ConfigureChannel
is passed a GrpcChannelOptions
instance. For more information, see configure client options.
Note
Some properties are set on GrpcChannelOptions
before the ConfigureChannel
callback is run:
HttpHandler
is set to the result from ConfigurePrimaryHttpMessageHandler.LoggerFactory
is set to the ILoggerFactory resolved from DI.
These values can be overridden by ConfigureChannel
.
Call credentials
An authentication header can be added to gRPC calls using the AddCallCredentials
method:
builder.Services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.AddCallCredentials((context, metadata) =>
{
if (!string.IsNullOrEmpty(_token))
{
metadata.Add("Authorization", $"Bearer {_token}");
}
return Task.CompletedTask;
});
For more information about configuring call credentials, see Bearer token with gRPC client factory.
Deadline and cancellation propagation
gRPC clients created by the factory in a gRPC service can be configured with EnableCallContextPropagation()
to automatically propagate the deadline and cancellation token to child calls. The EnableCallContextPropagation()
extension method is available in the Grpc.AspNetCore.Server.ClientFactory NuGet package.
Call context propagation works by reading the deadline and cancellation token from the current gRPC request context and automatically propagating them to outgoing calls made by the gRPC client. Call context propagation is an excellent way of ensuring that complex, nested gRPC scenarios always propagate the deadline and cancellation.
builder.Services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.EnableCallContextPropagation();
By default, EnableCallContextPropagation
raises an error if the client is used outside the context of a gRPC call. The error is designed to alert you that there isn't a call context to propagate. If you want to use the client outside of a call context, suppress the error when the client is configured with SuppressContextNotFoundErrors
:
builder.Services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.EnableCallContextPropagation(o => o.SuppressContextNotFoundErrors = true);
For more information about deadlines and RPC cancellation, see Reliable gRPC services with deadlines and cancellation.
Named clients
Typically, a gRPC client type is registered once and then injected directly into a type's constructor by DI. However, there are scenarios where it's useful to have multiple configurations for one client. For example, a client that makes gRPC calls with and without authentication.
Multiple clients with the same type can be registered by giving each client a name. Each named client can have its own configuration. The generic AddGrpcClient
extension method has an overload that includes a name parameter:
builder.Services
.AddGrpcClient<Greeter.GreeterClient>("Greeter", o =>
{
o.Address = new Uri("https://localhost:5001");
});
builder.Services
.AddGrpcClient<Greeter.GreeterClient>("GreeterAuthenticated", o =>
{
o.Address = new Uri("https://localhost:5001");
})
.ConfigureChannel(o =>
{
o.Credentials = new CustomCredentials();
});
The preceding code:
- Registers the
GreeterClient
type twice, specifying a unique name for each. - Configures different settings for each named client. The
GreeterAuthenticated
registration adds credentials to the channel so that gRPC calls made with it are authenticated.
A named gRPC client is created in app code using GrpcClientFactory
. The type and name of the desired client is specified using the generic GrpcClientFactory.CreateClient
method:
public class AggregatorService : Aggregator.AggregatorBase
{
private readonly Greeter.GreeterClient _client;
public AggregatorService(GrpcClientFactory grpcClientFactory)
{
_client = grpcClientFactory.CreateClient<Greeter.GreeterClient>("GreeterAuthenticated");
}
}
Additional resources
gRPC integration with HttpClientFactory
offers a centralized way to create gRPC clients. It can be used as an alternative to configuring stand-alone gRPC client instances. Factory integration is available in the Grpc.Net.ClientFactory NuGet package.
The factory offers the following benefits:
- Provides a central location for configuring logical gRPC client instances
- Manages the lifetime of the underlying
HttpClientMessageHandler
- Automatic propagation of deadline and cancellation in an ASP.NET Core gRPC service
Register gRPC clients
To register a gRPC client, the generic AddGrpcClient
extension method can be used within Startup.ConfigureServices
, specifying the gRPC typed client class and service address:
services.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
});
The gRPC client type is registered as transient with dependency injection (DI). The client can now be injected and consumed directly in types created by DI. ASP.NET Core MVC controllers, SignalR hubs and gRPC services are places where gRPC clients can automatically be injected:
public class AggregatorService : Aggregator.AggregatorBase
{
private readonly Greeter.GreeterClient _client;
public AggregatorService(Greeter.GreeterClient client)
{
_client = client;
}
public override async Task SayHellos(HelloRequest request,
IServerStreamWriter<HelloReply> responseStream, ServerCallContext context)
{
// Forward the call on to the greeter service
using (var call = _client.SayHellos(request))
{
await foreach (var response in call.ResponseStream.ReadAllAsync())
{
await responseStream.WriteAsync(response);
}
}
}
}
Configure HttpHandler
HttpClientFactory
creates the HttpMessageHandler
used by the gRPC client. Standard HttpClientFactory
methods can be used to add outgoing request middleware or to configure the underlying HttpClientHandler
of the HttpClient
:
services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.ConfigurePrimaryHttpMessageHandler(() =>
{
var handler = new HttpClientHandler();
handler.ClientCertificates.Add(LoadCertificate());
return handler;
});
For more information, see Make HTTP requests using IHttpClientFactory.
Configure Interceptors
gRPC interceptors can be added to clients using the AddInterceptor
method.
services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.AddInterceptor<LoggingInterceptor>();
The preceding code:
- Registers the
GreeterClient
type. - Configures a
LoggingInterceptor
for this client.LoggingInterceptor
is created once and shared betweenGreeterClient
instances.
By default, an interceptor is created once and shared between clients. This behavior can be overridden by specifying a scope when registering an interceptor. The client factory can be configured to create a new interceptor for each client by specifying InterceptorScope.Client
.
services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.AddInterceptor<LoggingInterceptor>(InterceptorScope.Client);
Creating client scoped interceptors is useful when an interceptor requires scoped or transient scoped services from DI.
A gRPC interceptor or channel credentials can be used to send Authorization
metadata with each request. For more information about configuring authentication, see Send a bearer token with gRPC client factory.
Configure Channel
Additional configuration can be applied to a channel using the ConfigureChannel
method:
services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.ConfigureChannel(o =>
{
o.Credentials = new CustomCredentials();
});
ConfigureChannel
is passed a GrpcChannelOptions
instance. For more information, see configure client options.
Note
Some properties are set on GrpcChannelOptions
before the ConfigureChannel
callback is run:
HttpHandler
is set to the result from ConfigurePrimaryHttpMessageHandler.LoggerFactory
is set to the ILoggerFactory resolved from DI.
These values can be overridden by ConfigureChannel
.
Deadline and cancellation propagation
gRPC clients created by the factory in a gRPC service can be configured with EnableCallContextPropagation()
to automatically propagate the deadline and cancellation token to child calls. The EnableCallContextPropagation()
extension method is available in the Grpc.AspNetCore.Server.ClientFactory NuGet package.
Call context propagation works by reading the deadline and cancellation token from the current gRPC request context and automatically propagating them to outgoing calls made by the gRPC client. Call context propagation is an excellent way of ensuring that complex, nested gRPC scenarios always propagate the deadline and cancellation.
services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.EnableCallContextPropagation();
By default, EnableCallContextPropagation
raises an error if the client is used outside the context of a gRPC call. The error is designed to alert you that there isn't a call context to propagate. If you want to use the client outside of a call context, suppress the error when the client is configured with SuppressContextNotFoundErrors
:
services
.AddGrpcClient<Greeter.GreeterClient>(o =>
{
o.Address = new Uri("https://localhost:5001");
})
.EnableCallContextPropagation(o => o.SuppressContextNotFoundErrors = true);
For more information about deadlines and RPC cancellation, see Reliable gRPC services with deadlines and cancellation.
Named clients
Typically, a gRPC client type is registered once and then injected directly into a type's constructor by DI. However, there are scenarios where it is useful to have multiple configurations for one client. For example, a client that makes gRPC calls with and without authentication.
Multiple clients with the same type can be registered by giving each client a name. Each named client can have its own configuration. The generic AddGrpcClient
extension method has an overload that includes a name parameter:
services
.AddGrpcClient<Greeter.GreeterClient>("Greeter", o =>
{
o.Address = new Uri("https://localhost:5001");
});
services
.AddGrpcClient<Greeter.GreeterClient>("GreeterAuthenticated", o =>
{
o.Address = new Uri("https://localhost:5001");
})
.ConfigureChannel(o =>
{
o.Credentials = new CustomCredentials();
});
The preceding code:
- Registers the
GreeterClient
type twice, specifying a unique name for each. - Configures different settings for each named client. The
GreeterAuthenticated
registration adds credentials to the channel so that gRPC calls made with it are authenticated.
A named gRPC client is created in app code using GrpcClientFactory
. The type and name of the desired client is specified using the generic GrpcClientFactory.CreateClient
method:
public class AggregatorService : Aggregator.AggregatorBase
{
private readonly Greeter.GreeterClient _client;
public AggregatorService(GrpcClientFactory grpcClientFactory)
{
_client = grpcClientFactory.CreateClient<Greeter.GreeterClient>("GreeterAuthenticated");
}
}