序
本文主要研究一下dubbo的CacheFilter
CacheFilter
dubbo-2.7.2/dubbo-filter/dubbo-filter-cache/src/main/java/org/apache/dubbo/cache/filter/CacheFilter.java
@Activate(group = {CONSUMER, PROVIDER}, value = CACHE_KEY)
public class CacheFilter implements Filter {
private CacheFactory cacheFactory;
/**
* Dubbo will populate and set the cache factory instance based on service/method/consumer/provider configured
* cache attribute value. Dubbo will search for the class name implementing configured <b>cache</b> in file org.apache.dubbo.cache.CacheFactory
* under META-INF sub folders.
*
* @param cacheFactory instance of CacheFactory based on <b>cache</b> type
*/
public void setCacheFactory(CacheFactory cacheFactory) {
this.cacheFactory = cacheFactory;
}
/**
* If cache is configured, dubbo will invoke method on each method call. If cache value is returned by cache store
* then it will return otherwise call the remote method and return value. If remote method's return valeu has error
* then it will not cache the value.
* @param invoker service
* @param invocation invocation.
* @return Cache returned value if found by the underlying cache store. If cache miss it will call target method.
* @throws RpcException
*/
@Override
public Result invoke(Invoker<?> invoker, Invocation invocation) throws RpcException {
if (cacheFactory != null && ConfigUtils.isNotEmpty(invoker.getUrl().getMethodParameter(invocation.getMethodName(), CACHE_KEY))) {
Cache cache = cacheFactory.getCache(invoker.getUrl(), invocation);
if (cache != null) {
String key = StringUtils.toArgumentString(invocation.getArguments());
Object value = cache.get(key);
if (value != null) {
if (value instanceof ValueWrapper) {
return AsyncRpcResult.newDefaultAsyncResult(((ValueWrapper) value).get(), invocation);
} else {
return AsyncRpcResult.newDefaultAsyncResult(value, invocation);
}
}
Result result = invoker.invoke(invocation);
if (!result.hasException()) {
cache.put(key, new ValueWrapper(result.getValue()));
}
return result;
}
}
return invoker.invoke(invocation);
}
/**
* Cache value wrapper.
*/
static class ValueWrapper implements Serializable {
private static final long serialVersionUID = -1777337318019193256L;
private final Object value;
public ValueWrapper (Object value) {
this.value = value;
}
public Object get() {
return this.value;
}
}
}
- CacheFilter实现了Filter接口,它的invoke方法会先判断cacheFactory是否不为null且invoker的URL中包含cache参数,如果该条件成立则从cacheFactory获取cache,然后在从cache中获取value,如果value不为null则返回AsyncRpcResult.newDefaultAsyncResult,如果value为null则执行invoke成功之后将该value缓存到cache中
实例
dubbo-2.7.2/dubbo-filter/dubbo-filter-cache/src/test/java/org/apache/dubbo/cache/filter/CacheFilterTest.java
public class CacheFilterTest {
private RpcInvocation invocation;
private CacheFilter cacheFilter = new CacheFilter();
private Invoker<?> invoker = mock(Invoker.class);
private Invoker<?> invoker1 = mock(Invoker.class);
private Invoker<?> invoker2 = mock(Invoker.class);
private Invoker<?> invoker3 = mock(Invoker.class);
private Invoker<?> invoker4 = mock(Invoker.class);
static Stream<Arguments> cacheFactories() {
return Stream.of(
Arguments.of("lru", new LruCacheFactory()),
Arguments.of("jcache", new JCacheFactory()),
Arguments.of("threadlocal", new ThreadLocalCacheFactory()),
Arguments.of("expiring", new ExpiringCacheFactory())
);
}
public void setUp(String cacheType, CacheFactory cacheFactory) {
invocation = new RpcInvocation();
cacheFilter.setCacheFactory(cacheFactory);
URL url = URL.valueOf("test://test:11/test?cache=" + cacheType);
given(invoker.invoke(invocation)).willReturn(AsyncRpcResult.newDefaultAsyncResult("value", invocation));
given(invoker.getUrl()).willReturn(url);
given(invoker1.invoke(invocation)).willReturn(AsyncRpcResult.newDefaultAsyncResult("value1", invocation));
given(invoker1.getUrl()).willReturn(url);
given(invoker2.invoke(invocation)).willReturn(AsyncRpcResult.newDefaultAsyncResult("value2", invocation));
given(invoker2.getUrl()).willReturn(url);
given(invoker3.invoke(invocation)).willReturn(AsyncRpcResult.newDefaultAsyncResult(new RuntimeException(), invocation));
given(invoker3.getUrl()).willReturn(url);
given(invoker4.invoke(invocation)).willReturn(AsyncRpcResult.newDefaultAsyncResult(invocation));
given(invoker4.getUrl()).willReturn(url);
}
@ParameterizedTest
@MethodSource("cacheFactories")
public void testNonArgsMethod(String cacheType, CacheFactory cacheFactory) {
setUp(cacheType, cacheFactory);
invocation.setMethodName("echo");
invocation.setParameterTypes(new Class<?>[]{});
invocation.setArguments(new Object[]{});
cacheFilter.invoke(invoker, invocation);
Result rpcResult1 = cacheFilter.invoke(invoker1, invocation);
Result rpcResult2 = cacheFilter.invoke(invoker2, invocation);
Assertions.assertEquals(rpcResult1.getValue(), rpcResult2.getValue());
Assertions.assertEquals(rpcResult1.getValue(), "value");
}
@ParameterizedTest
@MethodSource("cacheFactories")
public void testMethodWithArgs(String cacheType, CacheFactory cacheFactory) {
setUp(cacheType, cacheFactory);
invocation.setMethodName("echo1");
invocation.setParameterTypes(new Class<?>[]{String.class});
invocation.setArguments(new Object[]{"arg1"});
cacheFilter.invoke(invoker, invocation);
Result rpcResult1 = cacheFilter.invoke(invoker1, invocation);
Result rpcResult2 = cacheFilter.invoke(invoker2, invocation);
Assertions.assertEquals(rpcResult1.getValue(), rpcResult2.getValue());
Assertions.assertEquals(rpcResult1.getValue(), "value");
}
@ParameterizedTest
@MethodSource("cacheFactories")
public void testException(String cacheType, CacheFactory cacheFactory) {
setUp(cacheType, cacheFactory);
invocation.setMethodName("echo1");
invocation.setParameterTypes(new Class<?>[]{String.class});
invocation.setArguments(new Object[]{"arg2"});
cacheFilter.invoke(invoker3, invocation);
Result rpcResult = cacheFilter.invoke(invoker2, invocation);
Assertions.assertEquals(rpcResult.getValue(), "value2");
}
@ParameterizedTest
@MethodSource("cacheFactories")
public void testNull(String cacheType, CacheFactory cacheFactory) {
setUp(cacheType, cacheFactory);
invocation.setMethodName("echo1");
invocation.setParameterTypes(new Class<?>[]{String.class});
invocation.setArguments(new Object[]{"arg3"});
cacheFilter.invoke(invoker4, invocation);
Result result1 = cacheFilter.invoke(invoker1, invocation);
Result result2 = cacheFilter.invoke(invoker2, invocation);
Assertions.assertEquals(result1.getValue(), null);
Assertions.assertEquals(result2.getValue(), null);
}
}
- 这里分别验证了无参方法、带参数方法、抛异常的方法、value为null的场景
小结
CacheFilter实现了Filter接口,它的invoke方法会先判断cacheFactory是否不为null且invoker的URL中包含cache参数,如果该条件成立则从cacheFactory获取cache,然后在从cache中获取value,如果value不为null则返回AsyncRpcResult.newDefaultAsyncResult,如果value为null则执行invoke成功之后将该value缓存到cache中
**粗体** _斜体_ [链接](http://example.com) `代码` - 列表 > 引用
。你还可以使用@
来通知其他用户。