Zookeeper 安装
Zookeeper安装
zookeeper的安装分为三种模式:单机模式、集群模式和伪集群模式。
- 单机模式
首先,从Apache官网下载一个Zookeeper稳定版本,本次教程采用的是zookeeper-3.4.9版本。
http: //apache.fayea.com/zookeeper/zookeeper-3.4.9/ |
然后解压zookeeper-3.4.9.tar.gz文件到安装目录下:
tar -zxvf zookeepre-3.4.9.tar.gz
zookeeper要求Java运行环境,并且需要jdk版本1.6以上。为了以后的操作方便,可以对zookeeper的环境变量进行配置(该步骤可忽略)。方法如下,在/etc/profile文件中加入以下内容:
#Set Zookeeper Environment export ZOOKEEPER_HOME=/root/zookeeper-3.4.9
export PATH=$ZOOKEEPER_HOME/bin;$ZOOKEEPER_HOME/conf
Zookeeper服务器包含在单个jar文件中(本环境下为 zookeeper-3.4.9.jar),安装此服务需要用户自己创建一个配置文件。默认配置文件路径为 Zookeeper-3.4.9/conf/目录下,文件名为zoo.cfg。进入conf/目录下可以看到一个zoo_sample.cfg文件,可供参考。通过以下代码在conf目录下创建zoo.cfg文件:
gedit zoo.cfg
在文件中输入以下内容并保存
tickTime=2000dataDir=/home/jxwch/hadoop/data/zookeeper
dataLogDir=/home/jxwch/hadoop/dataLog/zookeeper
clientPort=2181
在这个文件中,各个语句的含义:
tickTime : 服务器与客户端之间交互的基本时间单元(ms)
dataDir : 保存zookeeper数据路径
dataLogDir : 保存zookeeper日志路径,当此配置不存在时默认路径与dataDir一致
clientPort : 客户端访问zookeeper时经过服务器端时的端口号
使用单机模式时需要注意,在这种配置方式下,如果zookeeper服务器出现故障,zookeeper服务将会停止。
- 集群模式
zookeeper最主要的应用场景是集群,下面介绍如何在一个集群上部署一个zookeeper。只要集群上的大多数zookeeper服务启动了,那么总的zookeeper服务便是可用的。另外,最好使用奇数台服务器。如果zookeeper拥有5台服务器,那么在最多2台服务器出现故障后,整个服务还可以正常使用。
之后的操作和单机模式的安装类似,我们同样需要Java环境,下载最新版的zookeeper并配置相应的环境变量。不同之处在于每台机器上的conf/zoo.cfg配置文件的参数设置不同,用户可以参考下面的配置:
tickTime=2000 initLimit=10 syncLimit=5 dataDir=/home/jxwch/server1/data dataLogDir=/home/jxwch/server1/dataLog clientPort=2181 server.1=zoo1:2888:3888 server.2=zoo2:2888:3888 server.3=zoo3:2888:3888
maxClientCnxns=60
在这个配置文件中,新出现的语句的含义:
initLimit : 此配置表示允许follower连接并同步到leader的初始化时间,它以tickTime的倍数来表示。当超过设置倍数的tickTime时间,则连接失败。
syncLimit : Leader服务器与follower服务器之间信息同步允许的最大时间间隔,如果超过次间隔,默认follower服务器与leader服务器之间断开链接。
maxClientCnxns : 限制连接到zookeeper服务器客户端的数量
server.id=host:port:port : 表示了不同的zookeeper服务器的自身标识,作为集群的一部分,每一台服务器应该知道其他服务器的信息。用户可以从“server.id=host:port:port” 中读取到相关信息。在服务器的data(dataDir参数所指定的目录)下创建一个文件名为myid的文件,这个文件的内容只有一行,指定的是自身的id值。比如,服务器“1”应该在myid文件中写入“1”。这个id必须在集群环境中服务器标识中是唯一的,且大小在1~255之间。这一样配置中,zoo1代表第一台服务器的IP地址。第一个端口号(port)是从follower连接到leader机器的端口,第二个端口是用来进行leader选举时所用的端口。所以,在集群配置过程中有三个非常重要的端口:clientPort:2181、port:2888、port:3888。
- 伪集群模式
伪集群模式就是在单机环境下模拟集群的Zookeeper服务。
在zookeeper集群配置文件中,clientPort参数用来设置客户端连接zookeeper服务器的端口。server.1=IP1:2888:3888中,IP1指的是组成Zookeeper服务器的IP地址,2888为组成zookeeper服务器之间的通信端口,3888为用来选举leader的端口。由于伪集群模式中,我们使用的是同一台服务器,也就是说,需要在单台机器上运行多个zookeeper实例,所以我们必须要保证多个zookeeper实例的配置文件的client端口不能冲突。
下面简单介绍一下如何在单台机器上建立伪集群模式。首先将zookeeper-3.4.9.tar.gz分别解压到server1,server2,server3目录下:
tar -zxvf zookeeper- 3.4 . 9 .tar.gz /home/jxwch/server1 tar -zxvf zookeeper- 3.4 . 9 .tar.gz /home/jxwch/server2 tar -zxvf zookeeper- 3.4 . 9 .tar.gz /home/jxwch/server3 |
然后在server1/data/目录下创建文件myid文件并写入“1”,同样在server2/data/,目录下创建文件myid并写入“2”,server3进行同样的操作。
下面分别展示在server1/conf/、server2/conf/、server3/conf/目录下的zoo.cfg文件:
server1/conf/zoo.cfg文件
# Server 1 # The number of milliseconds of each tick # 服务器与客户端之间交互的基本时间单元(ms) tickTime=2000 # The number of ticks that the initial # synchronization phase can take # 此配置表示允许follower连接并同步到leader的初始化时间,它以tickTime的倍数来表示。当超过设置倍数的tickTime时间,则连接失败。 initLimit=10 # The number of ticks that can pass between # sending a request and getting an acknowledgement # Leader服务器与follower服务器之间信息同步允许的最大时间间隔,如果超过次间隔,默认follower服务器与leader服务器之间断开链接 syncLimit=5 # the directory where the snapshot is stored. # do not use /tmp for storage, /tmp here is just # example sakes. # 保存zookeeper数据,日志路径 dataDir=/home/jxwch/server1/data dataLogDir=/home/jxwch/server1/dataLog # the port at which the clients will connect # 客户端与zookeeper相互交互的端口 clientPort=2181 server.1= 127.0.0.1:2888:3888 server.2= 127.0.0.1:2889:3889 server.3= 127.0.0.1:2890:3890 #server.A=B:C:D 其中A是一个数字,代表这是第几号服务器;B是服务器的IP地址;C表示服务器与群集中的“领导者”交换信息的端口;当领导者失效后,D表示用来执行选举时服务器相互通信的端口。 # the maximum number of client connections. # increase this if you need to handle more clients # 限制连接到zookeeper服务器客户端的数量 maxClientCnxns=60 # # Be sure to read the maintenance section of the # administrator guide before turning on autopurge. # # http://zookeeper.apache.org/doc/current/zookeeperAdmin.html#sc_maintenance # # The number of snapshots to retain in dataDir #autopurge.snapRetainCount=3 # Purge task interval in hours # Set to "0" to disable auto purge feature #autopurge.purgeInterval=1
server2/conf/zoo.cfg文件
# Server 2 # The number of milliseconds of each tick # 服务器与客户端之间交互的基本时间单元(ms) tickTime=2000 # The number of ticks that the initial # synchronization phase can take # zookeeper所能接受的客户端数量 initLimit=10 # The number of ticks that can pass between # sending a request and getting an acknowledgement # 服务器与客户端之间请求和应答的时间间隔 syncLimit=5 # the directory where the snapshot is stored. # do not use /tmp for storage, /tmp here is just # example sakes. # 保存zookeeper数据,日志路径 dataDir=/home/jxwch/server2/data dataLogDir=/home/jxwch/server2/dataLog # the port at which the clients will connect # 客户端与zookeeper相互交互的端口 clientPort=2182 server.1= 127.0.0.1:2888:3888 server.2= 127.0.0.1:2889:3889 server.3= 127.0.0.1:2890:3890 #server.A=B:C:D 其中A是一个数字,代表这是第几号服务器;B是服务器的IP地址;C表示服务器与群集中的“领导者”交换信息的端口;当领导者失效后,D表示用来执行选举时服务器相互通信的端口。 # the maximum number of client connections. # increase this if you need to handle more clients #maxClientCnxns=60 # # Be sure to read the maintenance section of the # administrator guide before turning on autopurge. # # http://zookeeper.apache.org/doc/current/zookeeperAdmin.html#sc_maintenance # # The number of snapshots to retain in dataDir #autopurge.snapRetainCount=3 # Purge task interval in hours # Set to "0" to disable auto purge feature #autopurge.purgeInterval=1
server3/conf/zoo.cfg文件
# Server 3 # The number of milliseconds of each tick # 服务器与客户端之间交互的基本时间单元(ms) tickTime=2000 # The number of ticks that the initial # synchronization phase can take # zookeeper所能接受的客户端数量 initLimit=10 # The number of ticks that can pass between # sending a request and getting an acknowledgement # 服务器与客户端之间请求和应答的时间间隔 syncLimit=5 # the directory where the snapshot is stored. # do not use /tmp for storage, /tmp here is just # example sakes. # 保存zookeeper数据,日志路径 dataDir=/home/jxwch/server3/data dataLogDir=/home/jxwch/server3/dataLog # the port at which the clients will connect # 客户端与zookeeper相互交互的端口 clientPort=2183 server.1= 127.0.0.1:2888:3888 server.2= 127.0.0.1:2889:3889 server.3= 127.0.0.1:2890:3890 #server.A=B:C:D 其中A是一个数字,代表这是第几号服务器;B是服务器的IP地址;C表示服务器与群集中的“领导者”交换信息的端口;当领导者失效后,D表示用来执行选举时服务器相互通信的端口。 # the maximum number of client connections. # increase this if you need to handle more clients #maxClientCnxns=60 # # Be sure to read the maintenance section of the # administrator guide before turning on autopurge. # # http://zookeeper.apache.org/doc/current/zookeeperAdmin.html#sc_maintenance # # The number of snapshots to retain in dataDir #autopurge.snapRetainCount=3 # Purge task interval in hours # Set to "0" to disable auto purge feature #autopurge.purgeInterval=1
从上述三个代码清单可以发现,除了clientPort不同之外,dataDir和dataLogDir也不同。另外,不要忘记dataDir所对应的目录中创建的myid文件来指定对应的zookeeper服务器实例。
Zookeeper伪集群模式运行
当上述伪集群环境安装成功后就可以测试是否安装成功啦,我们可以尝尝鲜:
首先启动server1服务器:
cd server1/bin bash zkServer.sh start
此时出现以下提示信息,表示启动成功:
打开zookeeper.out文件:
2017-02-23 16:17:46,419 [myid:] - INFO [main:QuorumPeerConfig@124] - Reading configuration from: /home/jxwch/server1/bin/../conf/zoo.cfg 2017-02-23 16:17:46,496 [myid:] - INFO [main:QuorumPeer$QuorumServer@149] - Resolved hostname: 127.0.0.1 to address: /127.0.0.1 2017-02-23 16:17:46,496 [myid:] - INFO [main:QuorumPeer$QuorumServer@149] - Resolved hostname: 127.0.0.1 to address: /127.0.0.1 2017-02-23 16:17:46,497 [myid:] - INFO [main:QuorumPeer$QuorumServer@149] - Resolved hostname: 127.0.0.1 to address: /127.0.0.1 2017-02-23 16:17:46,497 [myid:] - INFO [main:QuorumPeerConfig@352] - Defaulting to majority quorums 2017-02-23 16:17:46,511 [myid:1] - INFO [main:DatadirCleanupManager@78] - autopurge.snapRetainCount set to 3 2017-02-23 16:17:46,511 [myid:1] - INFO [main:DatadirCleanupManager@79] - autopurge.purgeInterval set to 0 2017-02-23 16:17:46,511 [myid:1] - INFO [main:DatadirCleanupManager@101] - Purge task is not scheduled. 2017-02-23 16:17:46,525 [myid:1] - INFO [main:QuorumPeerMain@127] - Starting quorum peer 2017-02-23 16:17:46,631 [myid:1] - INFO [main:NIOServerCnxnFactory@89] - binding to port 0.0.0.0/0.0.0.0:2181 2017-02-23 16:17:46,664 [myid:1] - INFO [main:QuorumPeer@1019] - tickTime set to 2000 2017-02-23 16:17:46,664 [myid:1] - INFO [main:QuorumPeer@1039] - minSessionTimeout set to -1 2017-02-23 16:17:46,664 [myid:1] - INFO [main:QuorumPeer@1050] - maxSessionTimeout set to -1 2017-02-23 16:17:46,665 [myid:1] - INFO [main:QuorumPeer@1065] - initLimit set to 10 2017-02-23 16:17:46,771 [myid:1] - INFO [main:FileSnap@83] - Reading snapshot /home/jxwch/server1/data/version-2/snapshot.400000015 2017-02-23 16:17:46,897 [myid:1] - INFO [ListenerThread:QuorumCnxManager$Listener@534] - My election bind port: /127.0.0.1:3888 2017-02-23 16:17:46,913 [myid:1] - INFO [QuorumPeer[myid=1]/0:0:0:0:0:0:0:0:2181:QuorumPeer@774] - LOOKING 2017-02-23 16:17:46,915 [myid:1] - INFO [QuorumPeer[myid=1]/0:0:0:0:0:0:0:0:2181:FastLeaderElection@818] - New election. My id = 1, proposed zxid=0x500000026 2017-02-23 16:17:46,922 [myid:1] - INFO [WorkerReceiver[myid=1]:FastLeaderElection@600] - Notification: 1 (message format version), 1 (n.leader), 0x500000026 (n.zxid), 0x1 (n.round), LOOKING (n.state), 1 (n.sid), 0x5 (n.peerEpoch) LOOKING (my state)
bash zkServer.sh status
终端出现以下提示信息:
说明server1服务器此时处于follower模式,同样切换至server2/bin目录下执行相同的命令,返回如下结果:
说明server2被选举为leader。
转自---------------------------------------------http://www.cnblogs.com/jxwch/p/6433310.html