Generating code

A Protobuf schema is a simple file that describes a service, its methods (APIs), and their request/response types:

syntax = "proto3";

package connectrpc.eliza.v1;

message SayRequest {
    string sentence = 1;
}

message SayResponse {
    string sentence = 1;
}

service ElizaService {
    rpc Say(SayRequest) returns (SayResponse) {}
}

A fully documented version of the above definition can be seen in the Buf Schema Registry (BSR).

The rpc keyword stands for Remote Procedure Call — an API method that can be invoked remotely. The schema is a contract between the server and client, and it precisely defines how data is exchanged.

The schema comes to life by generating code. For the server, an interface is generated, and the engineer can focus on filling the methods with business logic. For the client, there really isn't anything more to do — the engineer can simply call the client methods, rely on the generated types for compile-time type-safety and serialization, and focus on the application logic.

Remote plugins

Note: The example in the tutorial covers much of this section's content.

Protobuf plugins are executables that accept .proto file inputs and generate various outputs (.swift files in this case). Performing generation on a remote machine makes local setup easier and allows the generation to take place in an isolated environment. We'll use Buf, a modern replacement for Google's protobuf compiler, along with remote plugins.

This requires installing Buf's CLI:

brew install bufbuild/buf/buf

When developing a new project, 2 new files need to be created:

• buf.yaml
• buf.gen.yaml

The first file, buf.yaml, can be created by running:

buf config init

The second file, buf.gen.yaml, needs to be created manually and specifies which plugins should be used to generate code. An example of this file is shown below:

version: v2
plugins:
  - remote: buf.build/connectrpc/swift
    out: Generated
    opt:
      - GenerateAsyncMethods=true
      - GenerateCallbackMethods=true
      - Visibility=Public
  - remote: buf.build/apple/swift
    out: Generated
    opt: Visibility=Public

This file specifies that the connect-swift plugin should be invoked with the options in opt, and that its outputs should be placed in the Generated directory. This plugin is responsible for generating .connect.swift files which contain Swift protocol interfaces and their corresponding implementations from the defined service and rpc types in Protobuf files.

The config also includes the apple/swift plugin with another set of options that place its .pb.swift outputs in the same Generated directory. This plugin generates models from Protobuf types such as message and enum.

Together, the two plugins generate all the code that you'll need.

Details on configuring plugins in buf.gen.yaml may be found in the documentation, and you can browse the full list of available remote plugins here.

With these configuration files in place, you can now generate code:

buf generate

Given the above config and example eliza.proto file, you should now see some generated Swift files in the Generated directory:

Generated
    ├── eliza.connect.swift
    └── eliza.pb.swift

Local generation

Both the connect-swift and connect-swift-mocks plugins are regular Protobuf plugins which can be used with protoc and buf to generate code locally.

The easiest way to install these plugins is to download their executables from the latest GitHub release and install them in your PATH.

The same setup used for remote plugins above applies to local generation, except the buf.gen.yaml file should be modified to use local plugins instead of remote plugins:

version: v2
plugins:
  - local: protoc-gen-connect-swift # protoc-gen-connect-swift in your PATH
    out: Generated
    opt:
      - GenerateAsyncMethods=true
      - GenerateCallbackMethods=true
      - Visibility=Public
  - local: protoc-gen-swift # protoc-gen-swift in your PATH
    out: Generated
    opt: Visibility=Public

Using generated code

You'll need to add the generated .swift files from the previous steps to your project by dragging the Generated directory (the directory specified in the out option) into Xcode.

You may want to create one or more separate Swift modules for the generated outputs so that you can import them from the code that will use these APIs.

The generated code depends on both the Connect and SwiftProtobuf libraries. You can add these dependencies by following these steps in the tutorial.

For guidance on how to call the generated code, see the documentation for using clients.

Generation options

Both the connect-swift and connect-swift-mocks plugins support a variety of options that can be used to customize outputs. These options can be combined in the opt field of the buf.gen.yaml file as shown in the example above.

Option	Type	Default	Repeatable	Details
ExtraModuleImports	String	None	Yes	Allows for specifying additional modules that generated Connect sources should import
FileNaming	String	FullPath	No	Documentation
GenerateAsyncMethods	Bool	true	No	Generates RPC functions that provide Swift async/await interfaces
GenerateCallbackMethods	Bool	false	No	Generates RPC functions that provide closure-based callback interfaces
GenerateServiceMetadata	Bool	true	No	Generates metadata on client implementations, providing information on RPC paths, stream types, etc.
KeepMethodCasing	Bool	false	No	Generated RPC function names will match the rpc specified in the .proto file instead of being lower-camel-cased
ProtoPathModuleMappings	Custom	None	No	Documentation
SwiftProtobufModuleName	String	SwiftProtobuf	No	Allows for overriding the SwiftProtobuf module name in import statements. Useful if the SwiftProtobuf dependency is being renamed by custom build configurations
Visibility	String	Internal	No	Documentation