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Apache Curator入门实战
Curator是Netflix公司开源的一个Zookeeper客户端,与Zookeeper提供的原生客户端相比,Curator的抽象层次更高,简化了Zookeeper客户端的开发量。
1.Zookeeper安装部署
Zookeeper的部署很简单,如果已经有Java运行环境的话,下载tarball解压后即可运行。
[root@vm Temp]$ wget http://mirror.bit.edu.cn/apache/zookeeper/zookeeper-3.4.6/zookeeper-3.4.6.tar.gz
[root@vm Temp]$ tar zxvf zookeeper-3.4.6.tar.gz
[root@vm Temp]$ cd zookeeper-3.4.6
[root@vm zookeeper-3.4.6]$ cp conf/zoo_sample.cfg conf/zoo.cfg
[root@vm zookeeper-3.4.6]$ export ZOOKEEPER_HOME=/usr/local/src/zookeeper-3.4.5
[root@vm zookeeper-3.4.6]$ export PATH=$ZOOKEEPER_HOME/bin:$PATH
[root@vm zookeeper-3.4.6]$ bin/zkServer.sh start
[root@vm zookeeper-3.4.6]$ bin/zkCli.sh -server 127.0.0.1:2181
2.客户端常用操作
用zkCli.sh连接上Zookeeper服务后,用help能列出所有命令:
[root@BC-VM-edce4ac67d304079868c0bb265337bd4 zookeeper-3.4.6]# bin/zkCli.sh -127.0.0.1:2181
Connecting to localhost:2181
2015-06-11 10:55:14,387 [myid:] - INFO [main:Environment@100] - Client environment:zookeeper.version=3.4.6-1569965, built on 02/20/2014 09:09 GMT
...
[zk: localhost:2181(CONNECTED) 5] help
ZooKeeper -server host:port cmd args
connect host:port
get path [watch]
ls path [watch]
set path data [version]
rmr path
delquota [-n|-b] path
quit
printwatches on|off
create [-s] [-e] path data acl
stat path [watch]
close
ls2 path [watch]
history
listquota path
setAcl path acl
getAcl path
sync path
redo cmdno
addauth scheme auth
delete path [version]
setquota -n|-b val path
下面就试验一下常用的命令:
- create:创建路径结点。
- ls:查看路径下的所有结点。
- get:获得结点上的值。
- set:修改结点上的值。
- delete:删除结点。
[zk: localhost:2181(CONNECTED) 6] create /zktest mydata
Created /zktest
[zk: localhost:2181(CONNECTED) 12] ls /
[zktest, zookeeper]
[zk: localhost:2181(CONNECTED) 7] ls /zktest
[]
[zk: localhost:2181(CONNECTED) 13] get /zktest
mydata
cZxid = 0x1c
ctime = Thu Jun 11 10:58:06 CST 2015
mZxid = 0x1c
mtime = Thu Jun 11 10:58:06 CST 2015
pZxid = 0x1c
cversion = 0
dataVersion = 0
aclVersion = 0
ephemeralOwner = 0x0
dataLength = 6
numChildren = 0
[zk: localhost:2181(CONNECTED) 14] set /zktest junk
cZxid = 0x1c
ctime = Thu Jun 11 10:58:06 CST 2015
mZxid = 0x1f
mtime = Thu Jun 11 10:59:08 CST 2015
pZxid = 0x1c
cversion = 0
dataVersion = 1
aclVersion = 0
ephemeralOwner = 0x0
dataLength = 4
numChildren = 0
[zk: localhost:2181(CONNECTED) 15] delete /zktest
[zk: localhost:2181(CONNECTED) 16] ls /
[zookeeper]
3.用Curator管理Zookeeper
Curator的Maven依赖如下,一般直接使用curator-recipes就行了,如果需要自己封装一些底层些的功能的话,例如增加连接管理重试机制等,则可以引入curator-framework包。
<dependency>
<groupId>org.apache.curator</groupId>
<artifactId>curator-recipes</artifactId>
<version>2.7.0</version>
</dependency>
3.1 Client操作
利用Curator提供的客户端API,可以完全实现上面原生客户端的功能。值得注意的是,Curator采用流式风格API。
package com.cdai.codebase.bigdata.hadoop.zookeeper.curator;
import org.apache.curator.framework.CuratorFramework;
import org.apache.curator.framework.CuratorFrameworkFactory;
import org.apache.curator.retry.RetryNTimes;
/**
* Curator framework's client test.
* Output:
* $ create /zktest hello
* $ ls /
* [zktest, zookeeper]
* $ get /zktest
* hello
* $ set /zktest world
* $ get /zktest
* world
* $ delete /zktest
* $ ls /
* [zookeeper]
*/
public class CuratorClientTest {
/** Zookeeper info */
private static final String ZK_ADDRESS = "192.168.1.100:2181";
private static final String ZK_PATH = "/zktest";
public static void main(String[] args) throws Exception {
// 1.Connect to zk
CuratorFramework client = CuratorFrameworkFactory.newClient(
ZK_ADDRESS,
new RetryNTimes(10, 5000)
);
client.start();
System.out.println("zk client start successfully!");
// 2.Client API test
// 2.1 Create node
String data1 = "hello";
print("create", ZK_PATH, data1);
client.create().
creatingParentsIfNeeded().
forPath(ZK_PATH, data1.getBytes());
// 2.2 Get node and data
print("ls", "/");
print(client.getChildren().forPath("/"));
print("get", ZK_PATH);
print(client.getData().forPath(ZK_PATH));
// 2.3 Modify data
String data2 = "world";
print("set", ZK_PATH, data2);
client.setData().forPath(ZK_PATH, data2.getBytes());
print("get", ZK_PATH);
print(client.getData().forPath(ZK_PATH));
// 2.4 Remove node
print("delete", ZK_PATH);
client.delete().forPath(ZK_PATH);
print("ls", "/");
print(client.getChildren().forPath("/"));
}
private static void print(String... cmds) {
StringBuilder text = new StringBuilder("$ ");
for (String cmd : cmds) {
text.append(cmd).append(" ");
}
System.out.println(text.toString());
}
private static void print(Object result) {
System.out.println(
result instanceof byte[]
? new String((byte[]) result)
: result);
}
}
3.2 监听器
Curator提供了三种Watcher(Cache)来监听结点的变化:
- Path Cache:监视一个路径下1)孩子结点的创建、2)删除,3)以及结点数据的更新。产生的事件会传递给注册的PathChildrenCacheListener。
- Node Cache:监视一个结点的创建、更新、删除,并将结点的数据缓存在本地。
- Tree Cache:Path Cache和Node Cache的“合体”,监视路径下的创建、更新、删除事件,并缓存路径下所有孩子结点的数据。
下面就测试一下最简单的Path Watcher:
package com.cdai.codebase.bigdata.hadoop.zookeeper.curator;
import org.apache.curator.framework.CuratorFramework;
import org.apache.curator.framework.CuratorFrameworkFactory;
import org.apache.curator.framework.recipes.cache.ChildData;
import org.apache.curator.framework.recipes.cache.PathChildrenCache;
import org.apache.curator.framework.recipes.cache.PathChildrenCache.StartMode;
import org.apache.curator.retry.RetryNTimes;
/**
* Curator framework watch test.
*/
public class CuratorWatcherTest {
/** Zookeeper info */
private static final String ZK_ADDRESS = "192.168.1.100:2181";
private static final String ZK_PATH = "/zktest";
public static void main(String[] args) throws Exception {
// 1.Connect to zk
CuratorFramework client = CuratorFrameworkFactory.newClient(
ZK_ADDRESS,
new RetryNTimes(10, 5000)
);
client.start();
System.out.println("zk client start successfully!");
// 2.Register watcher
PathChildrenCache watcher = new PathChildrenCache(
client,
ZK_PATH,
true // if cache data
);
watcher.getListenable().addListener((client1, event) -> {
ChildData data = event.getData();
if (data == null) {
System.out.println("No data in event[" + event + "]");
} else {
System.out.println("Receive event: "
+ "type=[" + event.getType() + "]"
+ ", path=[" + data.getPath() + "]"
+ ", data=[" + new String(data.getData()) + "]"
+ ", stat=[" + data.getStat() + "]");
}
});
watcher.start(StartMode.BUILD_INITIAL_CACHE);
System.out.println("Register zk watcher successfully!");
Thread.sleep(Integer.MAX_VALUE);
}
}
下面是在zkCli.sh中操作时Java程序的输出:
Java: zk client start successfully!
Java: Register zk watcher successfully!
zkCli: [zk: localhost:2181(CONNECTED) 11] create /zktest/hello mydata
Java: Receive event: type=[CHILD_ADDED], path=[/zktest/hello], data=[mydata], stat=[121,121,1434001221097,1434001221097,0,0,0,0,6,0,121]
zkCli: [zk: localhost:2181(CONNECTED) 12] set /zktest/hello otherdata
Java: Receive event: type=[CHILD_UPDATED], path=[/zktest/hello], data=[otherdata], stat=[121,122,1434001221097,1434001228467,1,0,0,0,9,0,121]
zkCli: [zk: localhost:2181(CONNECTED) 13] delete /zktest/hello
Java: Receive event: type=[CHILD_REMOVED], path=[/zktest/hello], data=[otherdata], stat=[121,122,1434001221097,1434001228467,1,0,0,0,9,0,121]
4.Curator“菜谱”
既然Maven包叫做curator-recipes,那说明Curator有它独特的“菜谱”:
- 锁:包括共享锁、共享可重入锁、读写锁等。
- 选举:Leader选举算法。
- Barrier:阻止分布式计算直至某个条件被满足的“栅栏”,可以看做JDK Concurrent包中Barrier的分布式实现。
- 缓存:前面提到过的三种Cache及监听机制。
- 持久化结点:连接或Session终止后仍然在Zookeeper中存在的结点。
- 队列:分布式队列、分布式优先级队列等。
4.1 分布式锁
分布式编程时,比如最容易碰到的情况就是应用程序在线上多机部署,于是当多个应用同时访问某一资源时,就需要某种机制去协调它们。例如,现在一台应用正在rebuild缓存内容,要临时锁住某个区域暂时不让访问;又比如调度程序每次只想一个任务被一台应用执行等等。
下面的程序会启动两个线程t1和t2去争夺锁,拿到锁的线程会占用5秒。运行多次可以观察到,有时是t1先拿到锁而t2等待,有时又会反过来。Curator会用我们提供的lock路径的结点作为全局锁,这个结点的数据类似这种格式:[_c_64e0811f-9475-44ca-aa36-c1db65ae5350-lock-0000000005],每次获得锁时会生成这种串,释放锁时清空数据。
package com.cdai.codebase.bigdata.hadoop.zookeeper.curator;
import org.apache.curator.framework.CuratorFramework;
import org.apache.curator.framework.CuratorFrameworkFactory;
import org.apache.curator.framework.recipes.locks.InterProcessMutex;
import org.apache.curator.retry.RetryNTimes;
import java.util.concurrent.TimeUnit;
/**
* Curator framework's distributed lock test.
*/
public class CuratorDistrLockTest {
/** Zookeeper info */
private static final String ZK_ADDRESS = "192.168.1.100:2181";
private static final String ZK_LOCK_PATH = "/zktest";
public static void main(String[] args) throws InterruptedException {
// 1.Connect to zk
CuratorFramework client = CuratorFrameworkFactory.newClient(
ZK_ADDRESS,
new RetryNTimes(10, 5000)
);
client.start();
System.out.println("zk client start successfully!");
Thread t1 = new Thread(() -> {
doWithLock(client);
}, "t1");
Thread t2 = new Thread(() -> {
doWithLock(client);
}, "t2");
t1.start();
t2.start();
}
private static void doWithLock(CuratorFramework client) {
InterProcessMutex lock = new InterProcessMutex(client, ZK_LOCK_PATH);
try {
if (lock.acquire(10 * 1000, TimeUnit.SECONDS)) {
System.out.println(Thread.currentThread().getName() + " hold lock");
Thread.sleep(5000L);
System.out.println(Thread.currentThread().getName() + " release lock");
}
} catch (Exception e) {
e.printStackTrace();
} finally {
try {
lock.release();
} catch (Exception e) {
e.printStackTrace();
}
}
}
}
4.2 Leader选举
当集群里的某个服务down机时,我们可能要从slave结点里选出一个作为新的master,这时就需要一套能在分布式环境中自动协调的Leader选举方法。Curator提供了LeaderSelector监听器实现Leader选举功能。同一时刻,只有一个Listener会进入takeLeadership()方法,说明它是当前的Leader。注意:当Listener从takeLeadership()退出时就说明它放弃了“Leader身份”,这时Curator会利用Zookeeper再从剩余的Listener中选出一个新的Leader。autoRequeue()方法使放弃Leadership的Listener有机会重新获得Leadership,如果不设置的话放弃了的Listener是不会再变成Leader的。
package com.cdai.codebase.bigdata.hadoop.zookeeper.curator;
import org.apache.curator.framework.CuratorFramework;
import org.apache.curator.framework.CuratorFrameworkFactory;
import org.apache.curator.framework.recipes.leader.LeaderSelector;
import org.apache.curator.framework.recipes.leader.LeaderSelectorListener;
import org.apache.curator.framework.state.ConnectionState;
import org.apache.curator.retry.RetryNTimes;
import org.apache.curator.utils.EnsurePath;
/**
* Curator framework's leader election test.
* Output:
* LeaderSelector-2 take leadership!
* LeaderSelector-2 relinquish leadership!
* LeaderSelector-1 take leadership!
* LeaderSelector-1 relinquish leadership!
* LeaderSelector-0 take leadership!
* LeaderSelector-0 relinquish leadership!
* ...
*/
public class CuratorLeaderTest {
/** Zookeeper info */
private static final String ZK_ADDRESS = "192.168.1.100:2181";
private static final String ZK_PATH = "/zktest";
public static void main(String[] args) throws InterruptedException {
LeaderSelectorListener listener = new LeaderSelectorListener() {
@Override
public void takeLeadership(CuratorFramework client) throws Exception {
System.out.println(Thread.currentThread().getName() + " take leadership!");
// takeLeadership() method should only return when leadership is being relinquished.
Thread.sleep(5000L);
System.out.println(Thread.currentThread().getName() + " relinquish leadership!");
}
@Override
public void stateChanged(CuratorFramework client, ConnectionState state) {
}
};
new Thread(() -> {
registerListener(listener);
}).start();
new Thread(() -> {
registerListener(listener);
}).start();
new Thread(() -> {
registerListener(listener);
}).start();
Thread.sleep(Integer.MAX_VALUE);
}
private static void registerListener(LeaderSelectorListener listener) {
// 1.Connect to zk
CuratorFramework client = CuratorFrameworkFactory.newClient(
ZK_ADDRESS,
new RetryNTimes(10, 5000)
);
client.start();
// 2.Ensure path
try {
new EnsurePath(ZK_PATH).ensure(client.getZookeeperClient());
} catch (Exception e) {
e.printStackTrace();
}
// 3.Register listener
LeaderSelector selector = new LeaderSelector(client, ZK_PATH, listener);
selector.autoRequeue();
selector.start();
}
}