linux上部署hadoop集群 HA+Federation篇
介绍本文继续介绍hadoop部署,来说如何搭建HA+Federation,HA的意思是高可用,Federation是联合的意思,也可以理解为负载均衡的意思。
正文
1 环境
10台机器:
四台namenode(一个集群,每两台做一个namespace,每个ns中的两个namenode作HA),三台datanode,三台zookeeper(也可以省去这三台,把zookeeper
daemon部署在其他机器上)。实际上还需要3台journalnode,但因为它比较轻量级,所以这里就把它部署在datanode上了。
为了方便,本文后面就用ns代替namespace。
2 配置文件修改
2.1 core-site.xml
修改ns1中的两台namenode的core-site.xml
hadoop.tmp.dir
/opt/hadoop-2.6.0/tmp
fs.defaultFS
hdfs://cluster1
ha.zookeeper.quorum
10.9.214.167:2181,10.9.214.18:2181,10.9.214.211:2181
修改ns2中的两台namenode的core-site.xml
hadoop.tmp.dir
/opt/hadoop-2.6.0/tmp
fs.defaultFS
hdfs://cluster2
ha.zookeeper.quorum
10.9.214.167:2181,10.9.214.18:2181,10.9.214.211:2181
2.2 hdfs-site.xml
修改ns1中的两台namenode的hdfs-site.xml
dfs.namenode.name.dir
file:/opt/hadoop-2.6.0/hdfs/name
dfs.datanode.data.dir
file:/opt/hadoop-2.6.0/hdfs/data
dfs.replication
3
dfs.nameservices
cluster1,cluster2
dfs.ha.namenodes.cluster1
nn1,nn2
dfs.namenode.rpc-address.cluster1.nn1
10.9.214.151:8020
dfs.namenode.rpc-address.cluster1.nn2
10.9.214.15:8020
dfs.namenode.http-address.cluster1.nn1
10.9.214.151:50070
dfs.namenode.http-address.cluster1.nn2
10.9.214.15:50070
dfs.ha.namenodes.cluster2
nn3,nn4
dfs.namenode.rpc-address.cluster2.nn3
10.9.214.105:8020
dfs.namenode.rpc-address.cluster2.nn4
10.9.214.113:8020
dfs.namenode.http-address.cluster2.nn3
10.9.214.105:50070
dfs.namenode.http-address.cluster2.nn4
10.9.214.113:50070
dfs.namenode.shared.edits.dir
qjournal://10.9.214.158:8485;10.9.214.160:8485;10.9.214.149:8485/cluster1
dfs.client.failover.proxy.provider.cluster1
org.apache.hadoop.hdfs.server.namenode.ha.ConfiguredFailoverProxyProvider
dfs.ha.fencing.methods
sshfence
dfs.ha.fencing.methods
sshfence
dfs.ha.fencing.ssh.private-key-files
/home/hadoop/.ssh/id_rsa
dfs.journalnode.edits.dir
/opt/hadoop-2.6.0/journalnode
dfs.ha.automatic-failover.enabled
true
修改ns2中的两台namenode的hdfs-site.xml
dfs.namenode.name.dir
file:/opt/hadoop-2.6.0/hdfs/name
dfs.datanode.data.dir
file:/opt/hadoop-2.6.0/hdfs/data
dfs.replication
3
dfs.nameservices
cluster1,cluster2
dfs.ha.namenodes.cluster1
nn1,nn2
dfs.namenode.rpc-address.cluster1.nn1
10.9.214.151:8020
dfs.namenode.rpc-address.cluster1.nn2
10.9.214.15:8020
dfs.namenode.http-address.cluster1.nn1
10.9.214.151:50070
dfs.namenode.http-address.cluster1.nn2
10.9.214.15:50070
dfs.ha.namenodes.cluster2
nn3,nn4
dfs.namenode.rpc-address.cluster2.nn3
10.9.214.105:8020
dfs.namenode.rpc-address.cluster2.nn4
10.9.214.113:8020
dfs.namenode.http-address.cluster2.nn3
10.9.214.105:50070
dfs.namenode.http-address.cluster2.nn4
10.9.214.113:50070
dfs.namenode.shared.edits.dir
qjournal://10.9.214.158:8485;10.9.214.160:8485;10.9.214.149:8485/cluster2
dfs.client.failover.proxy.provider.cluster2
org.apache.hadoop.hdfs.server.namenode.ha.ConfiguredFailoverProxyProvider
dfs.ha.fencing.methods
sshfence
dfs.ha.fencing.methods
sshfence
dfs.ha.fencing.ssh.private-key-files
/home/hadoop/.ssh/id_rsa
dfs.journalnode.edits.dir
/opt/hadoop-2.6.0/journalnode
dfs.ha.automatic-failover.enabled
true
2.3 mapred-site.xml
修改4台namenode上的mapred-site.xml
mapreduce.framework.name
yarn
2.4 yarn-site.xml
修改ns1的yarn-site.xml
yarn.resourcemanager.address
10.9.214.151:18040
yarn.resourcemanager.scheduler.address
10.9.214.151:18030
yarn.resourcemanager.webapp.address
10.9.214.151:18088
yarn.resourcemanager.resource-tracker.address
10.9.214.151:18025
yarn.resourcemanager.admin.address
10.9.214.151:18141
yarn.nodemanager.aux-services
mapreduce_shuffle
修改ns2的yarn-site.xml
yarn.resourcemanager.address
10.9.214.105:18040
yarn.resourcemanager.scheduler.address
10.9.214.105:18030
yarn.resourcemanager.webapp.address
10.9.214.105:18088
yarn.resourcemanager.resource-tracker.address
10.9.214.105:18025
yarn.resourcemanager.admin.address
10.9.214.105:18141
yarn.nodemanager.aux-services
mapreduce_shuffle
3 操作细节
3.1 启动zookeeper daemons
在三台zookeeper机器上执行
zkServer.sh start 3.2 格式化zookeeper
在ns1,集群2的各一个namenode上执行
hdfs zkfc -formatZK 3.3 启动journalnode
在三台journalnode机器上执行
hadoop-daemon.sh start journalnode 3.4 格式化namenode
在ns1和ns2中各一台namenode上执行
hdfs namenode -format -clusterId cluster 注意:clusterid 只有一个,因为四个namenode共用三个datanode,所以只有一个集群。
3.5 启动namenode
在ns1和ns2中各一台namenode上执行
hadoop-daemon.sh start namenode 验证
在浏览器中输入10.9.214.151:50070 可以看到hdfs状态
3.6 做namenode 数据同步到namenode standby
在ns1和ns2中另一台namenode上执行
hdfs namenode -bootstrapStandby 3.7 启动namenode standby上的namenode
hadoop-daemon.sh start namenode 3.8 启动datanode
在任意一台namenode上执行
hadoop-daemons.sh start datanode 3.9 启动zkfc
在每台namenode上执行
hadoop-daemon.sh --script hdfs start zkfc 验证
在任意一台namenode上执行以下命令分别查看各个节点状态
hdfs haadmin -ns cluster1 -getServiceState nn1
hdfs haadmin -ns cluster1 -getServiceState nn2
hdfs haadmin -ns cluster2 -getServiceState nn3
hdfs haadmin -ns cluster2 -getServiceState nn4
切换active和standby节点,看是否成功
hdfs haadmin -ns cluster1 -failover nn1 nn2 尝试关掉一个主namenode,看主备能否正常切换
尝试关掉一个datanode,看会发生什么(datanode和namenode之间是通过heartbeat每隔几分钟检测一次,若某个datanode没有反应了,namenode就会把这个datanode变为四节点,namenode每隔10分钟检测一次)
3.10 启动yarn
在ns1,ns2的各一个namenode上启动
start-yarn.sh 验证
在浏览器中输入http://10.9.214.151:18088 可看到application界面
查看hdfs文件系统内容:
hadoop dfs -ls / 拷贝一个文件到hadoop集群:
hadoop dfs -put core-site.xml /
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