The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#) https://grpc.io/
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#gRPC Authentication support

gRPC is designed to plug-in a number of authentication mechanisms. We provide an overview of the various auth mechanisms supported, discuss the API and demonstrate usage through code examples, and conclude with a discussion of extensibility.

###SSL/TLS gRPC has SSL/TLS integration and promotes the use of SSL/TLS to authenticate the server, and encrypt all the data exchanged between the client and the server. Optional mechanisms are available for clients to provide certificates to accomplish mutual authentication.

###OAuth 2.0 gRPC provides a generic mechanism (described below) to attach metadata to requests and responses. This mechanism can be used to attach OAuth 2.0 Access Tokens to RPCs being made at a client. Additional support for acquiring Access Tokens while accessing Google APIs through gRPC is provided for certain auth flows, demonstrated through code examples below.

###API To reduce complexity and minimize API clutter, gRPC works with a unified concept of a Credentials object. Users construct gRPC credentials using corresponding bootstrap credentials (e.g., SSL client certs or Service Account Keys), and use the credentials while creating a gRPC channel to any server. Depending on the type of credential supplied, the channel uses the credentials during the initial SSL/TLS handshake with the server, or uses the credential to generate and attach Access Tokens to each request being made on the channel.

###Code Examples

####SSL/TLS for server authentication and encryption This is the simplest authentication scenario, where a client just wants to authenticate the server and encrypt all data.

SslCredentialsOptions ssl_opts;  // Options to override SSL params, empty by default 
// Create the credentials object by providing service account key in constructor
std::unique_ptr<Credentials> creds = CredentialsFactory::SslCredentials(ssl_opts);
// Create a channel using the credentials created in the previous step
std::shared_ptr<ChannelInterface> channel = CreateChannel(server_name, creds, channel_args);
// Create a stub on the channel
std::unique_ptr<Greeter::Stub> stub(Greeter::NewStub(channel));
// Make actual RPC calls on the stub. 
grpc::Status s = stub->sayHello(&context, *request, response);

For advanced use cases such as modifying the root CA or using client certs, the corresponding options can be set in the SslCredentialsOptions parameter passed to the factory method.

###Authenticating with Google

gRPC applications can use a simple API to create a credential that works in various deployment scenarios.

std::unique_ptr<Credentials> creds = CredentialsFactory::GoogleDefaultCredentials();
// Create a channel, stub and make RPC calls (same as in the previous example)
std::shared_ptr<ChannelInterface> channel = CreateChannel(server_name, creds, channel_args);
std::unique_ptr<Greeter::Stub> stub(Greeter::NewStub(channel));
grpc::Status s = stub->sayHello(&context, *request, response);

This credential works for applications using Service Accounts as well as for applications running in Google Compute Engine (GCE). In the former case, the service account’s private keys are loaded from the file named in the environment variable GOOGLE_APPLICATION_CREDENTIALS. The keys are used to generate bearer tokens that are attached to each outgoing RPC on the corresponding channel.

For applications running in GCE, a default service account and corresponding OAuth scopes can be configured during VM setup. At run-time, this credential handles communication with the authentication systems to obtain OAuth2 access tokens and attaches them to each outgoing RPC on the corresponding channel. Extending gRPC to support other authentication mechanisms The gRPC protocol is designed with a general mechanism for sending metadata associated with RPC. Clients can send metadata at the beginning of an RPC and servers can send back metadata at the beginning and end of the RPC. This provides a natural mechanism to support OAuth2 and other authentication mechanisms that need attach bearer tokens to individual request.

In the simplest case, there is a single line of code required on the client to add a specific token as metadata to an RPC and a corresponding access on the server to retrieve this piece of metadata. The generation of the token on the client side and its verification at the server can be done separately.

A deeper integration can be achieved by plugging in a gRPC credentials implementation for any custom authentication mechanism that needs to attach per-request tokens. gRPC internals also allow switching out SSL/TLS with other encryption mechanisms.

These authentication mechanisms will be available in all gRPC's supported languages. The following sections demonstrate how authentication and authorization features described above appear in each language

####SSL/TLS for server authentication and encryption (Ruby)

# Base case - No encryption
stub = Helloworld::Greeter::Stub.new('localhost:50051')
...

# With server authentication SSL/TLS
creds = GRPC::Core::Credentials.new(load_certs)  # load_certs typically loads a CA roots file
stub = Helloworld::Greeter::Stub.new('localhost:50051', creds: creds)

###Authenticating with Google (Ruby)

# Base case - No encryption/authorization
stub = Helloworld::Greeter::Stub.new('localhost:50051')
...

# Authenticating with Google
require 'googleauth'  # from [googleauth](http://www.rubydoc.info/gems/googleauth/0.1.0)
...
creds = GRPC::Core::Credentials.new(load_certs)  # load_certs typically loads a CA roots file
scope = 'https://www.googleapis.com/auth/grpc-testing'
authorization = Google::Auth.get_application_default(scope)
stub = Helloworld::Greeter::Stub.new('localhost:50051',
                                     creds: creds,
                                     update_metadata: authorization.updater_proc)