dubbo AbstractDirectory 源码
dubbo AbstractDirectory 代码
文件路径:/dubbo-cluster/src/main/java/org/apache/dubbo/rpc/cluster/directory/AbstractDirectory.java
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.dubbo.rpc.cluster.directory;
import org.apache.dubbo.common.URL;
import org.apache.dubbo.common.Version;
import org.apache.dubbo.common.config.Configuration;
import org.apache.dubbo.common.config.ConfigurationUtils;
import org.apache.dubbo.common.logger.ErrorTypeAwareLogger;
import org.apache.dubbo.common.logger.LoggerFactory;
import org.apache.dubbo.common.threadpool.manager.FrameworkExecutorRepository;
import org.apache.dubbo.common.utils.ConcurrentHashSet;
import org.apache.dubbo.common.utils.NetUtils;
import org.apache.dubbo.common.utils.StringUtils;
import org.apache.dubbo.rpc.Invocation;
import org.apache.dubbo.rpc.Invoker;
import org.apache.dubbo.rpc.RpcContext;
import org.apache.dubbo.rpc.RpcException;
import org.apache.dubbo.rpc.cluster.Directory;
import org.apache.dubbo.rpc.cluster.Router;
import org.apache.dubbo.rpc.cluster.RouterChain;
import org.apache.dubbo.rpc.cluster.router.state.BitList;
import org.apache.dubbo.rpc.cluster.support.ClusterUtils;
import org.apache.dubbo.rpc.model.ApplicationModel;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.Semaphore;
import java.util.concurrent.ThreadLocalRandom;
import java.util.concurrent.TimeUnit;
import static org.apache.dubbo.common.constants.CommonConstants.CONSUMER;
import static org.apache.dubbo.common.constants.CommonConstants.DEFAULT_RECONNECT_TASK_PERIOD;
import static org.apache.dubbo.common.constants.CommonConstants.DEFAULT_RECONNECT_TASK_TRY_COUNT;
import static org.apache.dubbo.common.constants.CommonConstants.INTERFACE_KEY;
import static org.apache.dubbo.common.constants.CommonConstants.MONITOR_KEY;
import static org.apache.dubbo.common.constants.CommonConstants.PATH_KEY;
import static org.apache.dubbo.common.constants.CommonConstants.PROTOCOL_KEY;
import static org.apache.dubbo.common.constants.CommonConstants.RECONNECT_TASK_PERIOD;
import static org.apache.dubbo.common.constants.CommonConstants.RECONNECT_TASK_TRY_COUNT;
import static org.apache.dubbo.common.constants.CommonConstants.REGISTER_IP_KEY;
import static org.apache.dubbo.common.constants.LoggerCodeConstants.CLUSTER_NO_VALID_PROVIDER;
import static org.apache.dubbo.common.utils.StringUtils.isNotEmpty;
import static org.apache.dubbo.rpc.cluster.Constants.CONSUMER_URL_KEY;
import static org.apache.dubbo.rpc.cluster.Constants.REFER_KEY;
/**
* Abstract implementation of Directory: Invoker list returned from this Directory's list method have been filtered by Routers
*/
public abstract class AbstractDirectory<T> implements Directory<T> {
// logger
private static final ErrorTypeAwareLogger logger = LoggerFactory.getErrorTypeAwareLogger(AbstractDirectory.class);
private final URL url;
private volatile boolean destroyed = false;
protected volatile URL consumerUrl;
protected RouterChain<T> routerChain;
protected final Map<String, String> queryMap;
/**
* Invokers initialized flag.
*/
private volatile boolean invokersInitialized = false;
/**
* All invokers from registry
*/
private volatile BitList<Invoker<T>> invokers = BitList.emptyList();
/**
* Valid Invoker. All invokers from registry exclude unavailable and disabled invokers.
*/
private volatile BitList<Invoker<T>> validInvokers = BitList.emptyList();
/**
* Waiting to reconnect invokers.
*/
protected volatile List<Invoker<T>> invokersToReconnect = new CopyOnWriteArrayList<>();
/**
* Disabled Invokers. Will not be recovered in reconnect task, but be recovered if registry remove it.
*/
protected final Set<Invoker<T>> disabledInvokers = new ConcurrentHashSet<>();
private final Semaphore checkConnectivityPermit = new Semaphore(1);
private final ScheduledExecutorService connectivityExecutor;
private volatile ScheduledFuture<?> connectivityCheckFuture;
/**
* The max count of invokers for each reconnect task select to try to reconnect.
*/
private final int reconnectTaskTryCount;
/**
* The period of reconnect task if needed. (in ms)
*/
private final int reconnectTaskPeriod;
public AbstractDirectory(URL url) {
this(url, null, false);
}
public AbstractDirectory(URL url, boolean isUrlFromRegistry) {
this(url, null, isUrlFromRegistry);
}
public AbstractDirectory(URL url, RouterChain<T> routerChain, boolean isUrlFromRegistry) {
if (url == null) {
throw new IllegalArgumentException("url == null");
}
this.url = url.removeAttribute(REFER_KEY).removeAttribute(MONITOR_KEY);
Map<String, String> queryMap;
Object referParams = url.getAttribute(REFER_KEY);
if (referParams instanceof Map) {
queryMap = (Map<String, String>) referParams;
this.consumerUrl = (URL) url.getAttribute(CONSUMER_URL_KEY);
} else {
queryMap = StringUtils.parseQueryString(url.getParameterAndDecoded(REFER_KEY));
}
// remove some local only parameters
ApplicationModel applicationModel = url.getOrDefaultApplicationModel();
this.queryMap = applicationModel.getBeanFactory().getBean(ClusterUtils.class).mergeLocalParams(queryMap);
if (consumerUrl == null) {
String host = isNotEmpty(queryMap.get(REGISTER_IP_KEY)) ? queryMap.get(REGISTER_IP_KEY) : this.url.getHost();
String path = isNotEmpty(queryMap.get(PATH_KEY)) ? queryMap.get(PATH_KEY) : queryMap.get(INTERFACE_KEY);
String consumedProtocol = isNotEmpty(queryMap.get(PROTOCOL_KEY)) ? queryMap.get(PROTOCOL_KEY) : CONSUMER;
URL consumerUrlFrom = this.url
.setHost(host)
.setPort(0)
.setProtocol(consumedProtocol)
.setPath(path);
if (isUrlFromRegistry) {
// reserve parameters if url is already a consumer url
consumerUrlFrom = consumerUrlFrom.clearParameters();
}
this.consumerUrl = consumerUrlFrom.addParameters(queryMap);
}
this.connectivityExecutor = applicationModel.getFrameworkModel().getBeanFactory()
.getBean(FrameworkExecutorRepository.class).getConnectivityScheduledExecutor();
Configuration configuration = ConfigurationUtils.getGlobalConfiguration(url.getOrDefaultModuleModel());
this.reconnectTaskTryCount = configuration.getInt(RECONNECT_TASK_TRY_COUNT, DEFAULT_RECONNECT_TASK_TRY_COUNT);
this.reconnectTaskPeriod = configuration.getInt(RECONNECT_TASK_PERIOD, DEFAULT_RECONNECT_TASK_PERIOD);
setRouterChain(routerChain);
}
@Override
public List<Invoker<T>> list(Invocation invocation) throws RpcException {
if (destroyed) {
throw new RpcException("Directory of type " + this.getClass().getSimpleName() + " already destroyed for service " + getConsumerUrl().getServiceKey() + " from registry " + getUrl());
}
BitList<Invoker<T>> availableInvokers;
// use clone to avoid being modified at doList().
if (invokersInitialized) {
availableInvokers = validInvokers.clone();
} else {
availableInvokers = invokers.clone();
}
List<Invoker<T>> routedResult = doList(availableInvokers, invocation);
if (routedResult.isEmpty()) {
// 2-2 - No provider available.
logger.warn(CLUSTER_NO_VALID_PROVIDER, "provider server or registry center crashed", "",
"No provider available after connectivity filter for the service " + getConsumerUrl().getServiceKey()
+ " All validInvokers' size: " + validInvokers.size()
+ " All routed invokers' size: " + routedResult.size()
+ " All invokers' size: " + invokers.size()
+ " from registry " + getUrl().getAddress()
+ " on the consumer " + NetUtils.getLocalHost()
+ " using the dubbo version " + Version.getVersion() + ".");
}
return Collections.unmodifiableList(routedResult);
}
@Override
public URL getUrl() {
return url;
}
public RouterChain<T> getRouterChain() {
return routerChain;
}
public void setRouterChain(RouterChain<T> routerChain) {
this.routerChain = routerChain;
}
protected void addRouters(List<Router> routers) {
routers = routers == null ? Collections.emptyList() : routers;
routerChain.addRouters(routers);
}
public URL getConsumerUrl() {
return consumerUrl;
}
public void setConsumerUrl(URL consumerUrl) {
this.consumerUrl = consumerUrl;
}
@Override
public boolean isDestroyed() {
return destroyed;
}
@Override
public void destroy() {
destroyed = true;
destroyInvokers();
invokersToReconnect.clear();
disabledInvokers.clear();
}
@Override
public void discordAddresses() {
// do nothing by default
}
@Override
public void addInvalidateInvoker(Invoker<T> invoker) {
// 1. remove this invoker from validInvokers list, this invoker will not be listed in the next time
if (removeValidInvoker(invoker)) {
// 2. add this invoker to reconnect list
invokersToReconnect.add(invoker);
// 3. try start check connectivity task
checkConnectivity();
}
}
public void checkConnectivity() {
// try to submit task, to ensure there is only one task at most for each directory
if (checkConnectivityPermit.tryAcquire()) {
this.connectivityCheckFuture = connectivityExecutor.schedule(() -> {
try {
if (isDestroyed()) {
return;
}
RpcContext.getServiceContext().setConsumerUrl(getConsumerUrl());
List<Invoker<T>> needDeleteList = new ArrayList<>();
List<Invoker<T>> invokersToTry = new ArrayList<>();
// 1. pick invokers from invokersToReconnect
// limit max reconnectTaskTryCount, prevent this task hang up all the connectivityExecutor for long time
if (invokersToReconnect.size() < reconnectTaskTryCount) {
invokersToTry.addAll(invokersToReconnect);
} else {
for (int i = 0; i < reconnectTaskTryCount; i++) {
Invoker<T> tInvoker = invokersToReconnect.get(ThreadLocalRandom.current().nextInt(invokersToReconnect.size()));
if (!invokersToTry.contains(tInvoker)) {
// ignore if is selected, invokersToTry's size is always smaller than reconnectTaskTryCount + 1
invokersToTry.add(tInvoker);
}
}
}
// 2. try to check the invoker's status
for (Invoker<T> invoker : invokersToTry) {
if (invokers.contains(invoker)) {
if (invoker.isAvailable()) {
needDeleteList.add(invoker);
}
} else {
needDeleteList.add(invoker);
}
}
// 3. recover valid invoker
for (Invoker<T> tInvoker : needDeleteList) {
if (invokers.contains(tInvoker)) {
addValidInvoker(tInvoker);
logger.info("Recover service address: " + tInvoker.getUrl() + " from invalid list.");
}
invokersToReconnect.remove(tInvoker);
}
} finally {
checkConnectivityPermit.release();
}
// 4. submit new task if it has more to recover
if (!invokersToReconnect.isEmpty()) {
checkConnectivity();
}
}, reconnectTaskPeriod, TimeUnit.MILLISECONDS);
}
}
/**
* Refresh invokers from total invokers
* 1. all the invokers in need to reconnect list should be removed in the valid invokers list
* 2. all the invokers in disabled invokers list should be removed in the valid invokers list
* 3. all the invokers disappeared from total invokers should be removed in the need to reconnect list
* 4. all the invokers disappeared from total invokers should be removed in the disabled invokers list
*/
public void refreshInvoker() {
if (invokersInitialized) {
refreshInvokerInternal();
}
}
private synchronized void refreshInvokerInternal() {
BitList<Invoker<T>> copiedInvokers = invokers.clone();
refreshInvokers(copiedInvokers, invokersToReconnect);
refreshInvokers(copiedInvokers, disabledInvokers);
validInvokers = copiedInvokers;
}
private void refreshInvokers(BitList<Invoker<T>> targetInvokers, Collection<Invoker<T>> invokersToRemove) {
List<Invoker<T>> needToRemove = new LinkedList<>();
for (Invoker<T> tInvoker : invokersToRemove) {
if (targetInvokers.contains(tInvoker)) {
targetInvokers.remove(tInvoker);
} else {
needToRemove.add(tInvoker);
}
}
invokersToRemove.removeAll(needToRemove);
}
@Override
public void addDisabledInvoker(Invoker<T> invoker) {
if (invokers.contains(invoker)) {
disabledInvokers.add(invoker);
removeValidInvoker(invoker);
logger.info("Disable service address: " + invoker.getUrl() + ".");
}
}
@Override
public void recoverDisabledInvoker(Invoker<T> invoker) {
if (disabledInvokers.remove(invoker)) {
try {
addValidInvoker(invoker);
logger.info("Recover service address: " + invoker.getUrl() + " from disabled list.");
} catch (Throwable ignore) {
}
}
}
/**
* for ut only
*/
@Deprecated
public Semaphore getCheckConnectivityPermit() {
return checkConnectivityPermit;
}
/**
* for ut only
*/
@Deprecated
public ScheduledFuture<?> getConnectivityCheckFuture() {
return connectivityCheckFuture;
}
public BitList<Invoker<T>> getInvokers() {
// return clone to avoid being modified.
return invokers.clone();
}
public BitList<Invoker<T>> getValidInvokers() {
// return clone to avoid being modified.
return validInvokers.clone();
}
public List<Invoker<T>> getInvokersToReconnect() {
return invokersToReconnect;
}
public Set<Invoker<T>> getDisabledInvokers() {
return disabledInvokers;
}
protected void setInvokers(BitList<Invoker<T>> invokers) {
this.invokers = invokers;
refreshInvokerInternal();
this.invokersInitialized = true;
}
protected void destroyInvokers() {
// set empty instead of clearing to support concurrent access.
this.invokers = BitList.emptyList();
this.validInvokers = BitList.emptyList();
this.invokersInitialized = false;
}
private boolean addValidInvoker(Invoker<T> invoker) {
synchronized (this.validInvokers) {
return this.validInvokers.add(invoker);
}
}
private boolean removeValidInvoker(Invoker<T> invoker) {
synchronized (this.validInvokers) {
return this.validInvokers.remove(invoker);
}
}
protected abstract List<Invoker<T>> doList(BitList<Invoker<T>> invokers, Invocation invocation) throws RpcException;
}
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