本系列代码地址:https://github.com/HashZhang/spring-cloud-scaffold/tree/master/spring-cloud-iiford
通过单元测试,我们也可以了解下一般我们实现 spring cloud 自定义的基础组件,怎么去单元测试。
这里的单元测试主要测试三个场景:
- 只返回同一个 zone 下的实例,其他 zone 的不会返回
- 对于多个请求,每个请求返回的与上次的实例不同。
- 对于多线程的每个请求,如果重试,返回的都是不同的实例
同时,我们也需要针对同步和异步两个配置,分别进行测试,同步和异步两种配置测试逻辑是一样的,只是测试的 Bean 不一样:
- 同步环境是 DiscoveryClient,异步环境是 ReactiveDiscoveryClient
- 同步环境负载均衡器是 LoadBalancer,异步环境负载均衡器是 ReactiveLoadBalancer
同步测试代码请参考:LoadBalancerTest.java,异步测试代码请参考:LoadBalancerTest.java
我们这里使用同步测试代码作为例子展示:
代码语言:javascript复制//SpringExtension也包含了MockitoJUnitRunner,所以 @Mock 等注解也生效了
@ExtendWith(SpringExtension.class)
@SpringBootTest(properties = {LoadBalancerEurekaAutoConfiguration.LOADBALANCER_ZONE "=zone1"})
public class LoadBalancerTest {
@EnableAutoConfiguration
@Configuration
public static class App {
@Bean
public DiscoveryClient myDiscoveryClient() {
ServiceInstance zone1Instance1 = Mockito.spy(ServiceInstance.class);
ServiceInstance zone1Instance2 = Mockito.spy(ServiceInstance.class);
ServiceInstance zone2Instance3 = Mockito.spy(ServiceInstance.class);
Map<String, String> zone1 = Map.ofEntries(
Map.entry("zone", "zone1")
);
Map<String, String> zone2 = Map.ofEntries(
Map.entry("zone", "zone2")
);
when(zone1Instance1.getMetadata()).thenReturn(zone1);
when(zone1Instance1.getInstanceId()).thenReturn("instance1");
when(zone1Instance2.getMetadata()).thenReturn(zone1);
when(zone1Instance2.getInstanceId()).thenReturn("instance2");
when(zone2Instance3.getMetadata()).thenReturn(zone2);
when(zone2Instance3.getInstanceId()).thenReturn("instance3");
DiscoveryClient spy = Mockito.spy(DiscoveryClient.class);
Mockito.when(spy.getInstances("testService"))
.thenReturn(List.of(zone1Instance1, zone1Instance2, zone2Instance3));
return spy;
}
}
@SpyBean
private LoadBalancerClientFactory loadBalancerClientFactory;
@SpyBean
private Tracer tracer;
/**
* 只返回同一个 zone 下的实例
*/
@Test
public void testFilteredByZone() {
ReactiveLoadBalancer<ServiceInstance> testService =
loadBalancerClientFactory.getInstance("testService");
for (int i = 0; i < 100; i ) {
ServiceInstance server = Mono.from(testService.choose()).block().getServer();
//必须处于和当前实例同一个zone下
Assertions.assertEquals(server.getMetadata().get("zone"), "zone1");
}
}
/**
* 返回不同的实例
*/
@Test
public void testReturnNext() {
ReactiveLoadBalancer<ServiceInstance> testService =
loadBalancerClientFactory.getInstance("testService");
Span span = tracer.nextSpan();
for (int i = 0; i < 100; i ) {
try (Tracer.SpanInScope cleared = tracer.withSpanInScope(span)) {
ServiceInstance server1 = Mono.from(testService.choose()).block().getServer();
ServiceInstance server2 = Mono.from(testService.choose()).block().getServer();
//每次选择的是不同实例
Assertions.assertNotEquals(server1.getInstanceId(), server2.getInstanceId());
}
}
}
/**
* 跨线程,默认情况下是可能返回同一实例的,在我们的实现下,保持
* span 则会返回下一个实例,这样保证多线程环境同一个 request 重试会返回下一实例
*
* @throws Exception
*/
@Test
public void testSameSpanReturnNext() throws Exception {
Span span = tracer.nextSpan();
for (int i = 0; i < 100; i ) {
try (Tracer.SpanInScope cleared = tracer.withSpanInScope(span)) {
ReactiveLoadBalancer<ServiceInstance> testService =
loadBalancerClientFactory.getInstance("testService");
ServiceInstance server1 = Mono.from(testService.choose()).block().getServer();
AtomicReference<ServiceInstance> server2 = new AtomicReference<>();
Thread thread = new Thread(() -> {
try (Tracer.SpanInScope cleared2 = tracer.withSpanInScope(span)) {
server2.set(Mono.from(testService.choose()).block().getServer());
}
});
thread.start();
thread.join();
System.out.println(i);
Assertions.assertNotEquals(server1.getInstanceId(), server2.get().getInstanceId());
}
}
}
}
运行测试,测试通过。
我们这一节使用单元测试验证我们要实现的这些功能是否有效。下一节,我们将开始分析同步环境下的 Http 客户端,Open-Feign Client。