Testing & mocking
Generating mocks
Testing generated Connect-Swift APIs is easily achieved
by using the connect-swift-mocks
plugin
to generate mock client implementations from your Protobuf
definitions. This plugin supports all of the same
options that the
production connect-swift
plugin supports.
This buf.gen.yaml
file demonstrates generating production
interfaces and implementations into the Generated
folder, and a corresponding
set of mocks into the GeneratedMocks
folder:
version: v1
plugins:
# Generated models
- plugin: buf.build/apple/swift
opt:
- Visibility=Public
out: Generated
# Production generated services/methods
- plugin: buf.build/bufbuild/connect-swift
opt:
- GenerateAsyncMethods=true
- GenerateCallbackMethods=true
- Visibility=Public
out: Generated
# Mock generated services/methods
- plugin: buf.build/bufbuild/connect-swift-mocks
opt:
- GenerateAsyncMethods=true
- GenerateCallbackMethods=true
- Visibility=Public
out: GeneratedMocks
The GenerateAsyncMethods
and
GenerateCallbackMethods
options
that you specify must match the option(s) you're using for production
clients.
As an example, consider this Protobuf file:
syntax = "proto3";
package connectrpc.eliza.v1;
service ElizaService {
rpc Say(SayRequest) returns (SayResponse) {}
rpc Converse(stream ConverseRequest) returns (stream ConverseResponse) {}
}
message SayRequest {
string sentence = 1;
}
message SayResponse {
string sentence = 1;
}
message ConverseRequest {
string sentence = 1;
}
message ConverseResponse {
string sentence = 1;
}
When the production connect-swift
plugin is invoked, it outputs
2 things for each service:
- A protocol interface ending with
*ClientInterface
- A production implementation that conforms to the protocol and ends with
*Client
Click to expand eliza.connect.swift
import Connect
import Foundation
import SwiftProtobuf
public protocol Connectrpc_Eliza_V1_ElizaServiceClientInterface {
@discardableResult
func `say`(request: Connectrpc_Eliza_V1_SayRequest, headers: Headers, completion: @escaping (ResponseMessage<Connectrpc_Eliza_V1_SayResponse>) -> Void) -> Cancelable
func `say`(request: Connectrpc_Eliza_V1_SayRequest, headers: Headers) async -> ResponseMessage<Connectrpc_Eliza_V1_SayResponse>
func `converse`(headers: Headers, onResult: @escaping (StreamResult<Connectrpc_Eliza_V1_ConverseResponse>) -> Void) -> any BidirectionalStreamInterface<Connectrpc_Eliza_V1_ConverseRequest>
func `converse`(headers: Headers) -> any BidirectionalAsyncStreamInterface<Connectrpc_Eliza_V1_ConverseRequest, Connectrpc_Eliza_V1_ConverseResponse>
}
/// Concrete implementation of `Connectrpc_Eliza_V1_ElizaServiceClientInterface`.
public final class Connectrpc_Eliza_V1_ElizaServiceClient: Connectrpc_Eliza_V1_ElizaServiceClientInterface {
private let client: ProtocolClientInterface
public init(client: ProtocolClientInterface) {
self.client = client
}
@discardableResult
public func `say`(request: Connectrpc_Eliza_V1_SayRequest, headers: Headers = [:], completion: @escaping (ResponseMessage<Connectrpc_Eliza_V1_SayResponse>) -> Void) -> Cancelable {
return self.client.unary(path: "connectrpc.eliza.v1.ElizaService/Say", request: request, headers: headers, completion: completion)
}
public func `say`(request: Connectrpc_Eliza_V1_SayRequest, headers: Headers = [:]) async -> ResponseMessage<Connectrpc_Eliza_V1_SayResponse> {
return await self.client.unary(path: "connectrpc.eliza.v1.ElizaService/Say", request: request, headers: headers)
}
public func `converse`(headers: Headers = [:], onResult: @escaping (StreamResult<Connectrpc_Eliza_V1_ConverseResponse>) -> Void) -> any BidirectionalStreamInterface<Connectrpc_Eliza_V1_ConverseRequest> {
return self.client.bidirectionalStream(path: "connectrpc.eliza.v1.ElizaService/Converse", headers: headers, onResult: onResult)
}
public func `converse`(headers: Headers = [:]) -> any BidirectionalAsyncStreamInterface<Connectrpc_Eliza_V1_ConverseRequest, Connectrpc_Eliza_V1_ConverseResponse> {
return self.client.bidirectionalStream(path: "connectrpc.eliza.v1.ElizaService/Converse", headers: headers)
}
}
When the mock connect-swift-mocks
plugin is invoked, it outputs a
.mock.swift
file which includes an implementation ending with *ClientMock
that conforms to the same interface as the production client:
Click to expand eliza.mock.swift
import Combine
import Connect
import ConnectMocks
import Foundation
import SwiftProtobuf
/// Mock implementation of `Connectrpc_Eliza_V1_ElizaServiceClientInterface`.
///
/// Production implementations can be substituted with instances of this
/// class, allowing for mocking RPC calls. Behavior can be customized
/// either through the properties on this class or by
/// subclassing the class and overriding its methods.
open class Connectrpc_Eliza_V1_ElizaServiceClientMock: Connectrpc_Eliza_V1_ElizaServiceClientInterface {
private var cancellables = [Combine.AnyCancellable]()
/// Mocked for calls to `say()`.
public var mockSay = { (_: Connectrpc_Eliza_V1_SayRequest) -> ResponseMessage<Connectrpc_Eliza_V1_SayResponse> in .init(result: .success(.init())) }
/// Mocked for async calls to `say()`.
public var mockAsyncSay = { (_: Connectrpc_Eliza_V1_SayRequest) -> ResponseMessage<Connectrpc_Eliza_V1_SayResponse> in .init(result: .success(.init())) }
/// Mocked for calls to `converse()`.
public var mockConverse = MockBidirectionalStream<Connectrpc_Eliza_V1_ConverseRequest, Connectrpc_Eliza_V1_ConverseResponse>()
/// Mocked for async calls to `converse()`.
public var mockAsyncConverse = MockBidirectionalAsyncStream<Connectrpc_Eliza_V1_ConverseRequest, Connectrpc_Eliza_V1_ConverseResponse>()
public init() {}
@discardableResult
open func `say`(request: Connectrpc_Eliza_V1_SayRequest, headers: Headers = [:], completion: @escaping (ResponseMessage<Connectrpc_Eliza_V1_SayResponse>) -> Void) -> Cancelable {
completion(self.mockSay(request))
return Cancelable {}
}
open func `say`(request: Connectrpc_Eliza_V1_SayRequest, headers: Headers = [:]) async -> ResponseMessage<Connectrpc_Eliza_V1_SayResponse> {
return self.mockAsyncSay(request)
}
open func `converse`(headers: Headers = [:], onResult: @escaping (StreamResult<Connectrpc_Eliza_V1_ConverseResponse>) -> Void) -> any BidirectionalStreamInterface<Connectrpc_Eliza_V1_ConverseRequest> {
self.mockConverse.$inputs.first { !$0.isEmpty }.sink { _ in self.mockConverse.outputs.forEach(onResult) }.store(in: &self.cancellables)
return self.mockConverse
}
open func `converse`(headers: Headers = [:]) -> any BidirectionalAsyncStreamInterface<Connectrpc_Eliza_V1_ConverseRequest, Connectrpc_Eliza_V1_ConverseResponse> {
return self.mockAsyncConverse
}
}
Using generated mocks
As mentioned in the tutorial, we recommend
having your application consume the *ClientInterface
protocols rather than
the concrete types directly. Doing so allows for replacing the concrete
implementations with the generated mock implementations:
final class MessagingViewModel: ObservableObject {
private let elizaClient: Connectrpc_Eliza_V1_ElizaServiceClientInterface
init(elizaClient: Connectrpc_Eliza_V1_ElizaServiceClientInterface) {
self.elizaClient = elizaClient
}
@Published private(set) var messages: [Message] {...}
func send(_ sentence: String) async {
let request = Connectrpc_Eliza_V1_SayRequest.with { $0.sentence = sentence }
let response = await self.elizaClient.say(request: request, headers: [:])
...
}
}
To use the generated mocks, you will need to include the
ConnectMocks
library which is available in the
Connect-Swift repo alongside the Connect
library.
It can be integrated via either:
- Swift Package Manager, using the same GitHub URL
and instructions as the
main
Connect
library. - CocoaPods, using the
Connect-Swift-Mocks
CocoaPod.
You can then write unit tests that inject the mock implementations instead of the production implementations, making validating requests and providing mocked response data easy:
import Connect
import ConnectMocks
@testable import ElizaApp // The target containing your application logic
import SwiftProtobuf
import XCTest
final class ElizaAppTests: XCTestCase {
/// Example test that injects a mock generated client into a unary view model.
@MainActor
func testUnaryMessagingViewModel() async {
let client = Connectrpc_Eliza_V1_ElizaServiceClientMock()
client.mockAsyncSay = { request in
XCTAssertEqual(request.sentence, "hello!")
return ResponseMessage(message: .with { $0.sentence = "hi, i'm eliza!" })
}
let viewModel = MessagingViewModel(elizaClient: client)
await viewModel.send("hello!")
XCTAssertEqual(viewModel.messages.count, 2)
XCTAssertEqual(viewModel.messages[0].message, "hello!")
XCTAssertEqual(viewModel.messages[0].author, .user)
XCTAssertEqual(viewModel.messages[1].message, "hi, i'm eliza!")
XCTAssertEqual(viewModel.messages[1].author, .eliza)
}
}
Similar tests can be written for streaming, assuming a
BidirectionalStreamingMessagingViewModel
that uses the generated async
version of the converse()
streaming method:
/// Example test that injects a mock generated client into a bidirectional stream view model.
@MainActor
func testBidirectionalStreamMessagingViewModel() async {
let client = Connectrpc_Eliza_V1_ElizaServiceClientMock()
client.mockAsyncConverse.outputs = [.message(.with { $0.sentence = "hi, i'm eliza!" })]
let viewModel = BidirectionalStreamingMessagingViewModel(elizaClient: client)
await viewModel.send("hello!")
await viewModel.send("hello again!")
XCTAssertEqual(viewModel.messages[0].message, "hello!")
XCTAssertEqual(viewModel.messages[0].author, .user)
XCTAssertEqual(viewModel.messages[1].message, "hi, i'm eliza!")
XCTAssertEqual(viewModel.messages[1].author, .eliza)
XCTAssertEqual(viewModel.messages[2].message, "hello again!")
XCTAssertEqual(viewModel.messages[2].author, .user)
}