zookeeper 应用开发

由于zookeeper的client只有zookeeper一个对象，使用也比较简单，所以就不许要文字说明了，在代码中注释下就ok 了。

1、测试用的main方法

package ClientExample;public class TestMain { public static void main(String[] args) {          /*          * 测试流程          * 1、创建sever1的连接client1，并且创建一个永久性的/test节点          * 2、创建一个针对server1的临时节点          * 3、创建server2的连接client21，并创建一个针对server2的临时节点          * 4、创建server3的连接client3，并创建一个针对server3的临时节点          * 5、分别查看client1、client2、client3的三个节点的字节点数量，确定是否同步成功          * 6、修改client1的临时节点内容，然后在在client2和client3中查看          * 7、kill掉client3的线程，然后检查是watcher是否有通知给client1和client2          */                     Thread t1= new ClientThread("127.0.0.1:2181","server1",false);           Thread t2= new ClientThread("127.0.0.1:2182","server2",false);           Thread t3= new ClientThread("127.0.0.1:2183","server3",false);           Thread t4= new ClientThread("127.0.0.1:2181","server4",false);                      t1.start();           t2.start();           t3.start();           t4.start();           ControlThread c = new ControlThread(t1, t2, t3, t4);           c.start();           int i=0;           while(true)           {              i++;              i--;                          }                      /*           * 测试控制台输出：           * connectIP:server4,path:null,state:SyncConnected,type:None           * connectIP:server3,path:/test,state:SyncConnected,type:NodeChildrenChanged           * connectIP:server4,path:/test/server4,state:SyncConnected,type:NodeCreated           * 。。。。。。。。。。。           *            * connectIP:server2,path:null,state:Disconnected,type:None             server2exception,KeeperErrorCode = ConnectionLoss for /test             connectIP:newServer1,path:null,state:SyncConnected,type:None             connectIP:server1,path:/test,state:SyncConnected,type:NodeChildrenChanged             connectIP:server4,path:/test/server2,state:SyncConnected,type:NodeDeleted             connectIP:server4,path:/test,state:SyncConnected,type:NodeChildrenChanged             connectIP:newServer1,path:/test,state:SyncConnected,type:NodeChildrenChanged             connectIP:server3,path:/test/server2,state:SyncConnected,type:NodeDeleted             connectIP:server3,path:/test,state:SyncConnected,type:NodeChildrenChanged           */      }  }

2、zookeeper封装的接口：

package ClientExample;import java.io.IOException;  import java.util.List;  import org.apache.zookeeper.KeeperException;  /**  * zookeeper的操作封装接口，实现了常用的操作  * 创建、销毁、写入、修改、查询等。  * @author ransom  *  */  public interface ServerOperation {      void init(String address,String serverName) throws IOException;      void destroy() throws InterruptedException;      List<String> getChilds(String path) throws KeeperException,              InterruptedException;      String getData(String path) throws KeeperException, InterruptedException;      void changeData(String path, String data) throws KeeperException,              InterruptedException;      void delData(String path) throws KeeperException, InterruptedException;      void apendTempNode(String path, String data) throws KeeperException,              InterruptedException;      void apendPresistentNode(String path, String data) throws KeeperException,      InterruptedException;            void delNode(String path) throws KeeperException, InterruptedException;      boolean exist(String path) throws KeeperException, InterruptedException;  } 

3、接口的实现：

package ClientExample;import java.io.IOException;  import java.util.List;  import org.apache.zookeeper.CreateMode;  import org.apache.zookeeper.KeeperException;  import org.apache.zookeeper.ZooKeeper;  import org.apache.zookeeper.ZooDefs.Ids;  public class ServerConnector implements ServerOperation {      // 创建一个Zookeeper实例，第一个参数为目标服务器地址和端口，第二个参数为Session超时时间，第三个为节点变化时的回调方法      private ZooKeeper zk = null;      public void init(String address,String serverName) throws IOException {          zk = new ZooKeeper(address, 500000,                  new MultiWatcher(serverName));     }      @Override      public void destroy() throws InterruptedException {          // TODO Auto-generated method stub          if (zk != null) {              zk.close();          }      }      @Override      public List<String> getChilds(String path) throws KeeperException, InterruptedException {          // TODO Auto-generated method stub          if (zk != null) {              return zk.getChildren(path, true);          }          return null;      }      @Override      public String getData(String path) throws KeeperException, InterruptedException {          // TODO Auto-generated method stub          if (zk != null) {              // 取得/root/childone节点下的数据,返回byte[]              byte[] b = zk.getData(path, true, null);              return new String(b);          }          return null;      }      @Override      public void changeData(String path,String data) throws KeeperException, InterruptedException {          // TODO Auto-generated method stub          if (zk != null) {              // 修改节点/root/childone下的数据，第三个参数为版本，如果是-1，那会无视被修改的数据版本，直接改掉              zk.setData(path, data.getBytes(),-1);          }      }      @Override      public void delData(String path) throws InterruptedException, KeeperException {          // TODO Auto-generated method stub          if (zk != null) {              // 删除/root/childone这个节点，第二个参数为版本，－1的话直接删除，无视版本              zk.delete(path, -1);          }      }      @Override      public void delNode(String path) throws InterruptedException, KeeperException {          // TODO Auto-generated method stub          if (zk != null) {              zk.delete(path, -1);          }      }      @Override      public boolean exist(String path) throws KeeperException,              InterruptedException {          // TODO Auto-generated method stub          if (zk != null) {              return zk.exists(path, true)!=null;          }          return false;      }      @Override      public void apendTempNode(String path, String data) throws KeeperException,              InterruptedException {          // TODO Auto-generated method stub          // TODO Auto-generated method stub          if (zk != null)           {              // 创建一个节点root，数据是mydata,不进行ACL权限控制，节点为永久性的(即客户端shutdown了也不会消失)              /*              * 创建一个给定的目录节点 path, 并给它设置数据，              * CreateMode 标识有四种形式的目录节点,分别是               * PERSISTENT：持久化目录节点，这个目录节点存储的数据不会丢失；              * PERSISTENT_SEQUENTIAL：顺序自动编号的目录节点，这种目录节点会根据当前已近存在的节点数自动加 1，然后返回给客户端已经成功创建的目录节点名；              * EPHEMERAL：临时目录节点，一旦创建这个节点的客户端与服务器端口也就是 session 超时，这种节点会被自动删除；              * EPHEMERAL_SEQUENTIAL：临时自动编号节点               */              zk.create(path, data.getBytes(), Ids.OPEN_ACL_UNSAFE, CreateMode.EPHEMERAL);          }      }      @Override      public void apendPresistentNode(String path, String data)              throws KeeperException, InterruptedException {          // TODO Auto-generated method stub          if (zk != null)           {              // 创建一个节点root，数据是mydata,不进行ACL权限控制，节点为永久性的(即客户端shutdown了也不会消失)              /*              * 创建一个给定的目录节点 path, 并给它设置数据，              * CreateMode 标识有四种形式的目录节点,分别是               * PERSISTENT：持久化目录节点，这个目录节点存储的数据不会丢失；              * PERSISTENT_SEQUENTIAL：顺序自动编号的目录节点，这种目录节点会根据当前已近存在的节点数自动加 1，然后返回给客户端已经成功创建的目录节点名；              * EPHEMERAL：临时目录节点，一旦创建这个节点的客户端与服务器端口也就是 session 超时，这种节点会被自动删除；              * EPHEMERAL_SEQUENTIAL：临时自动编号节点               */              zk.create(path, data.getBytes(), Ids.OPEN_ACL_UNSAFE, CreateMode.PERSISTENT);          }      }  }  

4、一个控制的线程，主要用来强制kill掉连接的线程

package ClientExample;public class ControlThread extends Thread{      public ControlThread(Thread t1,Thread t2,Thread t3,Thread t4)      {          list[0]=t1;          list[1]=t2;          list[2]=t4;          list[3]=t4;      }            private Thread[] list = new Thread[4];      private int num=0;      public void run()      {          while(true)          {              if(num==7)              {                  list[2].stop();                  System.out.println("kill server3");              }              if(num==15)              {                  list[3].stop();                  System.out.println("kill server4");              }              try {                  sleep(1000);              } catch (InterruptedException e) {                  // TODO Auto-generated catch block                  e.printStackTrace();              }          }      }  }  

5、watcher 的实现：

package ClientExample;import org.apache.zookeeper.WatchedEvent;  import org.apache.zookeeper.Watcher;  import org.apache.zookeeper.Watcher.Event.EventType;  import org.apache.zookeeper.Watcher.Event.KeeperState;  /**  * 提供给多个client使用的watcher  * @author ransom  *  */  public class MultiWatcher implements Watcher{      public MultiWatcher(String address)      {          connectAddress=address;      }            private String connectAddress=null;            @Override      public void process(WatchedEvent event) {          // TODO Auto-generated method stub          String outputStr="";          if(connectAddress!=null){              outputStr+="connectIP:"+connectAddress;          }          outputStr+=",path:"+event.getPath();          outputStr+=",state:"+event.getState();          outputStr+=",type:"+event.getType();                    System.out.println(outputStr);      }  }  

6、client 运行 的Thread

package ClientExample;import java.io.IOException;  import java.text.DateFormat;  import java.text.SimpleDateFormat;  import java.util.Date;  import java.util.List;  import org.apache.zookeeper.KeeperException;  public class ClientThread extends Thread{      public ClientThread(String address,String serverName,boolean islog)      {          this.address=address;          this.serverName=serverName;          try {              otherOperation();          } catch (KeeperException e) {              // TODO Auto-generated catch block              e.printStackTrace();          } catch (InterruptedException e) {              // TODO Auto-generated catch block              e.printStackTrace();          }          this.islog=islog;      }      private boolean islog=true;      private final String rootPath = "/test";      private String address;      private String serverName;      private ServerOperation operationCient = null;            public void run()      {          if(operationCient==null)          {              System.out.println("operationCient=null");              return;          }                    while(true){              try {                  if(islog){                      System.out.println(serverName+",loopTime:"+getNowTime());                  }                  observerChildData(rootPath);              } catch (KeeperException e) {                  // TODO Auto-generated catch block                  System.out.println(serverName+"exception,"+e.getLocalizedMessage());                  try {                      operationCient= new ServerConnector();                      operationCient.init("127.0.0.1:2181","newServer1");                  } catch (IOException e1) {                      // TODO Auto-generated catch block                      System.out.println(serverName+" reconnect  exception,"+e.getLocalizedMessage());                  }              } catch (InterruptedException e) {                  // TODO Auto-generated catch block                  e.printStackTrace();              }              try {                  sleep(2000);              } catch (InterruptedException e) {                  // TODO Auto-generated catch block                  e.printStackTrace();              }          }                }            /*      * 测试流程      * 1、创建sever1的连接client1，并且创建一个永久性的/test节点      * 2、创建一个针对server1的临时节点      * 3、创建server2的连接client21，并创建一个针对server2的临时节点      * 4、创建server3的连接client3，并创建一个针对server3的临时节点      * 5、分别查看client1、client2、client3的三个节点的字节点数量，确定是否同步成功      * 6、修改client1的临时节点内容，然后在在client2和client3中查看      * 7、kill掉client3的线程，然后检查是watcher是否有通知给client1和client2      */                  private void otherOperation() throws KeeperException, InterruptedException      {          operationCient= new ServerConnector();          try {              operationCient.init(address,serverName);          } catch (IOException e) {              // TODO Auto-generated catch block              e.printStackTrace();          }                    if(operationCient==null)          {              System.out.println("operationCient=null");              return;          }          if(!operationCient.exist(rootPath))          {              operationCient.apendPresistentNode(rootPath, "this node is creat by " + serverName);          }                    //添加临时节点          if(!operationCient.exist(rootPath+"/"+serverName))          {              operationCient.apendTempNode(rootPath+"/"+serverName,  "this node is creat by " + serverName);          }          observerChildData("/test");                                        //修改临时节点内容          operationCient.changeData(rootPath+"/"+serverName, "this node is changed by " + serverName);          //临时节点内容          List<String> childs=operationCient.getChilds(rootPath);          for(String str : childs)          {              System.out.println("observered by "+ serverName +": child node is :"+ str);          }                }            //查看临时节点的同步状态      public void observerChildData(String path) throws KeeperException, InterruptedException      {          if(operationCient==null)          {              System.out.println("operationCient=null");              return;          }                    List<String> childs=operationCient.getChilds(rootPath);          if(islog){              System.out.println("observered by "+ serverName +": childs len is :"+ childs.size());          }          for(String str : childs)          {              if(islog){                  System.out.println("observered by "+ serverName +": child node is :"+ str+",data is :"+operationCient.getData(rootPath+"/"+str));              }          }                }      public String getNowTime()      {          DateFormat format1 = new SimpleDateFormat("yyyy-MM-dd hh:mm:ss");          return format1.format(new Date());      }              }