centos7hadoop-2.7.3完全分布式安装配置-创新互联-成都创新互联网站建设

关于创新互联

多方位宣传企业产品与服务 突出企业形象

公司简介 公司的服务 荣誉资质 新闻动态 联系我们

centos7hadoop-2.7.3完全分布式安装配置-创新互联

操作系统版本:

新民ssl适用于网站、小程序/APP、API接口等需要进行数据传输应用场景,ssl证书未来市场广阔!成为创新互联公司的ssl证书销售渠道,可以享受市场价格4-6折优惠!如果有意向欢迎电话联系或者加微信:13518219792(备注:SSL证书合作)期待与您的合作!

centos7 64位

hadoop版本:

hadoop-2.7.3

hbase版本:

hbase-1.2.4

机器:

192.168.11.131 master1       Namenode    ResourceManager  QuorumPeerMain Jobhistory  HMaster  DFSZKFailoverController

192.168.11.132 master2       Namenode        HMaster       DFSZKFailoverController

192.168.11.133 slave1        Datanode    HRegionServer   NodeManager           JournalNode

192.168.11.134 slave2        Datanode    HRegionServer   NodeManager           JournalNode

192.168.11.135 slave3        Datanode    HRegionServer   NodeManager           JournalNode

所有节点关闭防火墙及selinux

# firewall-cmd --state

running

# systemctl stop firewalld.service

# systemctl disable firewalld.service

# setenforce 0

# vi /etc/sysconfig/selinux

SELINUX=enforcing --> disabled

所有节点配置yum源

# cd

# mkdir apps

http://mirrors.163.com/centos/7/os/x86_64/Packages/wget-1.14-15.el7.x86_64.rpm

# rpm -i wget-1.14-15.el7.x86_64.rpm

# cd /etc/yum.repos.d

# wget http://mirrors.aliyun.com/repo/Centos-7.repo

# mv Centos-7.repo CentOS-Base.repo

# scp CentOS-Base.repo root@192.168.11.131:/etc/yum.repos.d/

# scp CentOS-Base.repo root@192.168.11.132:/etc/yum.repos.d/

# scp CentOS-Base.repo root@192.168.11.133:/etc/yum.repos.d/

# scp CentOS-Base.repo root@192.168.11.134:/etc/yum.repos.d/

# yum clean all

# yum makecache

# yum update

配置ntp时间同步

所有节点安装ntp

# yum install -y ntp

ntp server端:

# date -s "2018-05-27 23:03:30"

# vi /etc/ntp.conf

在注释下添加两行

#restrict 192.168.1.0 mask 255.255.255.0 nomodify notrap

server 127.127.1.0

fudge 127.127.1.0 stratum 11

注释下面

#server 0.centos.pool.ntp.org iburst

#server 1.centos.pool.ntp.org iburst

#server 2.centos.pool.ntp.org iburst

#server 3.centos.pool.ntp.org iburst

# systemctl start ntpd.service

# systemctl enable ntpd.service

ntp客户端(其余四台都为ntp客户端):

# vi /etc/ntp.conf

同样注释下添加两行

#restrict 192.168.1.0 mask 255.255.255.0 nomodify notrap

server 192.168.11.131

fudge 127.127.1.0 stratum 11

四行添加注释

#server 0.centos.pool.ntp.org iburst

#server 1.centos.pool.ntp.org iburst

#server 2.centos.pool.ntp.org iburst

#server 3.centos.pool.ntp.org iburst

# systemctl start ntpd.service

# systemctl enable ntpd.service

# ntpdate 192.168.11.131

28 May 07:04:50 ntpdate[1714]: the NTP socket is in use, exiting

# lsof -i:123

-bash: lsof: command not found

# yum install -y lsof

# lsof -i:123

COMMAND PID USER  FD  TYPE DEVICE SIZE/OFF NODE NAME

ntpd  1693 ntp  16u IPv4 25565   0t0 UDP *:ntp

ntpd  1693 ntp  17u IPv6 25566   0t0 UDP *:ntp

ntpd  1693 ntp  18u IPv4 25572   0t0 UDP localhost:ntp

ntpd  1693 ntp  19u IPv4 25573   0t0 UDP localhost.localdomain:ntp

ntpd  1693 ntp  20u IPv6 25574   0t0 UDP localhost:ntp

ntpd  1693 ntp  21u IPv6 25575   0t0 UDP localhost.localdomain:ntp

# kill -9 1693

# ntpdate 192.168.11.131

27 May 23:06:14 ntpdate[1728]: step time server 192.168.11.131 offset -28808.035509 sec

# date

Sun May 27 23:06:17 CST 2018

所有节点修改主机名(永久)

# hostnamectl set-hostname master1~slave3

临时修改主机名

# hostname master1~slave3

主节点修改hosts文件

# vi /etc/hosts

192.168.11.131 master1

192.168.11.132 master2

192.168.11.133 slave1

192.168.11.134 slave2

192.168.11.135 slave3

把hosts文件覆盖到其他机器

# scp /etc/hosts root@192.168.11.132~135:/etc/

所有节点创建管理用户和组

创建组和用户

# groupadd hduser

# useradd -g hduser hduser

# passwd hduser

创建目录并赋权

每台机器上创建如下文件夹

# mkdir /data1

# mkdir /data2

修改权限

# chown hudser:hduser /data1

# chown hudser:hduser /data2

# su hduser

$ mkdir -p /data1/hadoop_data/hdfs/namenode

$ mkdir -p /data2/hadoop_data/hdfs/namenode

$ mkdir -p /data1/hadoop_data/hdfs/datanode(NameNode不要)

$ mkdir -p /data2/hadoop_data/hdfs/datanode(NameNode不要)

$ mkdir -p /data1/hadoop_data/pids

$ mkdir -p /data2/hadoop_data/pids

$ mkdir -p /data1/hadoop_data/hadoop_tmp

$ mkdir -p /data2/hadoop_data/hadoop_tmp

无密验证

master1和master2节点操作

# su - hduser

$ ssh-keygen -t rsa

$ cd ~/.ssh

$ cat id_rsa.pub >> authorized_keys

master1节点操作

$ ssh-copy-id -i ~/.ssh/id_rsa.pub hadoop@master2

master2节点操作

$ scp ~/.ssh/authorized_keys hduser@master1:~/.ssh/

slave1、slave2和slave3节点创建.ssh目录

# mkdir /home/hduser/.ssh

# chown hduser:hduser /home/hduser/.ssh

master1节点操作

$ scp ~/.ssh/authorized_keys hduser@slave1:~/.ssh

$ scp ~/.ssh/authorized_keys hduser@slave2:~/.ssh

$ scp ~/.ssh/authorized_keys hduser@slave3:~/.ssh

master1和master2节点验证

验证方法,分别在两个节点,ssh登陆本机(hdusser用户)及其他四个节点,看看是不是无密登陆。

如果未通过验证,所有机器执行下面命令

$ chmod 600 ~/.ssh/authorized_keys

$ chmod 700 ~/.ssh

所有节点配置java环境

$ mkdir -p /data1/usr/src

上传包到/data1/usr/src目录下

$ cd /data1/usr/src

$ tar xf jdk1.7.0_79.tar -C /data1/usr/

$ vi ~/.bashrc

export JAVA_HOME=/data1/usr/jdk1.7.0_79

export JRE_HOME=$JAVA_HOME/jre

export CLASSPATH=.:$JAVA_HOME/lib/dt.jar:$JAVA_HOME/lib/tools.jar:$JRE_HOME/lib/rt.jar

export PATH=$PATH:$JAVA_HOME/bin

$ source ~/.bashrc

mastar1节点配置hadoop(hdsuer用户)

下载hadoop-2.7.3.tar.gz,上传到/data1/usr/src

http://mirrors.cnnic.cn/apache/hadoop/common/hadoop-2.7.3/hadoop-2.7.3.tar.gz

$ cd /data1/usr/src

$ tar -zxf hadoop-2.7.3.tar.gz -C /data1/usr/

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/hadoop-env.sh

export JAVA_HOME=/data1/usr/jdk1.7.0_79

export HADOOP_PID_DIR=/data1/hadoop_data/pids

export HADOOP_PID_DIR=/data2/hadoop_data/pids

export HADOOP_MAPRED_PID_DIR=/data1/hadoop_data/pids

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/mapred-env.sh

export HADOOP_MAPRED_PID_DIR=/data2/hadoop_data/pids

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/yarn-env.sh

export YARN_PID_DIR=/data2/hadoop_data/pids

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/core-site.xml

 

  fs.defaultFS

  hdfs://masters

 

 

 

  hadoop.tmp.dir

  /data2/hadoop_data/hadoop_tmp

 

 

 

  ha.zookeeper.quorum

  master1:2181,master2:2181,slave1:2181,slave2:2181,slave3:2181

 

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/hdfs-site.xml

    

    

        dfs.nameservices

        masters

    

    

    

        dfs.ha.namenodes.masters

        master1,master2

    

    

    

        dfs.namenode.rpc-address.masters.master1

        master1:9000

    

    

    

        dfs.namenode.http-address.masters.master1

        master1:50070

    

    

    

        dfs.namenode.rpc-address.masters.master2

        master2:9000

    

    

    

        dfs.namenode.http-address.masters.master2

        master2:50070

    

    

    

        dfs.namenode.name.dir

        file:///data2/hadoop_data/hdfs/namenode

    

    

    

        dfs.datanode.data.dir

        file:///data1/hadoop_data/hdfs/datanode,data2/hadoop_data/hdfs/datanode

    

    

    

        dfs.namenode.shared.edits.dir

        qjournal://slave1:8485;slave2:8485;slave3:8485/masters

    

    

    

        dfs.journalnode.edits.dir

        /data2/hadoop_data/journal

    

    

    

        dfs.ha.automatic-failover.enabled

        true

    

    

    

        dfs.client.failover.proxy.provider.masters

        org.apache.hadoop.hdfs.server.namenode.ha.ConfiguredFailoverProxyProvider

    

    

    

        dfs.ha.fencing.methods

        

         sshfence

         shell(/bin/true)

        

    

    

    

        dfs.ha.fencing.ssh.private-key-files

        /home/hduser/.ssh/id_rsa

    

    

    

        dfs.ha.fencing.ssh.connect-timeout

        30000

    

    

    

        dfs.datanode.max.xcievers

        8192

    

    

        dfs.qjournal.write-txns.timeout.ms

        60000

    

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/yarn-site.xml

    

        yarn.resourcemanager.ha.enabled

        true

    

    

    

        yarn.resourcemanager.cluster-id

        RM_HA_ID

    

    

    

        yarn.resourcemanager.ha.rm-ids

        rm1,rm2

    

    

    

        yarn.resourcemanager.hostname.rm1

        master1

    

    

        yarn.resourcemanager.hostname.rm2

        master2

    

    

        yarn.resourcemanager.recovery.enabled

        true

    

    

        yarn.resourcemanager.store.class

        org.apache.hadoop.yarn.server.resourcemanager.recovery.ZKRMStateStore

    

    

    

        yarn.resourcemanager.zk-address

        master1:2181,master2:2181,slave1:2181,slave2:2181,slave3:2181

    

    

        yarn.nodemanager.aux-services

        mapreduce_shuffle

    

    

        yarn.nodemanager.aux-services.mapreduce.shuffle.class

        org.apache.hadoop.mapred.ShuffleHandler

    

$ cp /data1/usr/hadoop-2.7.3/etc/hadoop/mapred-site.xml.template /data1/usr/hadoop-2.7.3/etc/hadoop/mapred-site.xml

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/mapred-site.xml

 

 

  mapreduce.framework.name

  yarn

 

$ vi /data1/usr/hadoop-2.7.3/etc/hadoop/slaves

slave3

slave4

slave5

$ for ip in `seq 2 5`;do scp -rpq /data1/usr/hadoop-2.7.3 192.168.11.13$ip:/data1/usr;done

各节点zookeeper配置

http://archive.apache.org/dist/zookeeper/zookeeper-3.4.6/zookeeper-3.4.6.tar.gz

上传包到/data1/usr/src目录下

创建目录

$ mkdir -p /home/hduser/storage/zookeeper

$ cd /data1/usr/src

$ tar -zxf zookeeper-3.4.6.tar.gz -C /data1/usr

$ cp /data1/usr/zookeeper-3.4.6/conf/zoo_sample.cfg /data1/usr/zookeeper-3.4.6/conf/zoo.cfg

$ vi /data1/usr/zookeeper-3.4.6/conf/zoo.cfg

dataDir=/home/hduser/storage/zookeeper

server.1=master1:2888:3888

server.2=master2:2888:3888

server.3=slave1:2888:3888

server.4=slave2:2888:3888

server.5=slave3:2888:3888

master1-slave3各节点依次做操作

$ echo "1" > /home/hduser/storage/zookeeper/myid

$ echo "2" > /home/hduser/storage/zookeeper/myid

$ echo "3" > /home/hduser/storage/zookeeper/myid

$ echo "4" > /home/hduser/storage/zookeeper/myid

$ echo "5" > /home/hduser/storage/zookeeper/myid

$ cd /data1/usr/zookeeper-3.4.6/bin

$ ./zkServer.sh start

slave1、slave2和slave3启动journalnode

$ cd /data1/usr/hadoop-2.7.3/sbin

$ ./sbin/hadoop-daemon.sh start journalnode

用jps确认启动结果

在master1上格式化zookeeper节点格式化(第一次)

$ cd /data1/usr/hadoop-2.7.3

$ ./bin/hdfs zkfc -formatZK

在master1上执行命令:

./bin/hadoop namenode -format

在master1上启动namenode

./sbin/hadoop-daemon.sh start namenode

需要在master2(备节点)上执行数据同步

./bin/hdfs namenode –bootstrapStandby

scp -r /data2/hadoop_data/hdfs/namenode hduser@mster2:/data2/hadoop_data/hdfs/

在master2上启动namenode

./sbin/hadoop-daemon.sh start namenode

设置master1为active

./bin/hdfs haadmin -transitionToActive master1

./bin/hdfs haadmin -getServiceState master1

在master1上启动datanode

./sbin/hadoop-daemons.sh start datanode

启动HDFS(第二次以后)

在master1上执行命令:

./sbin/start-dfs.sh

启动YARN

在master1上执行命令:

./sbin/start-yarn.sh

验证

验证namenode

http://master1:50070

Overview 'master1:9000' (active)

http://master2:50070

Overview 'master2:9000' (standby)

上传文件

./bin/hadoop fs -put /data1/usr/hadoop-2.7.3/etc/hadoop /test

./bin/hadoop fs -ls /test

namenode的备份验证

杀死master1,master2变为active

验证yarn

./bin/hadoop jar /data1/usr/hadoop-2.7.3/share/hadoop/mapreduce/hadoop-mapreduce-examples-2.7.3.jar wordcount /test/hadoop /test/out

安装HBASE

master1节点操作:

下载hbase-1.2.4-bin.tar.gz,解压

$ cd /data1/usr/src

$ tar -zxvf hbase-1.2.4-bin.tar.gz -C /data1/usr/

$ mkdir -p /data1/hadoop_data/hbase_tmp

$ mkdir -p /data2/hadoop_data/hbase_tmp

配置master1的hbase环境

配置hbase-env.sh

$ vi /data1/usr/hbase-1.2.4/conf/hbase-env.sh

export JAVA_HOME=/data1/usr/jdk1.7.0_79

export HBASE_PID_DIR=/data2/hadoop_data/pids

export HBASE_MANAGES_ZK=false

export HADOOP_HOME=/data1/usr/hadoop-2.7.3

配置hbase-site.xml

$ vi /data1/usr/hbase-1.2.4/conf/hbase-site.xml

  

    hbase.rootdir

    hdfs://masters/hbase

  

  

  

    hbase.cluster.distributed

    true

  

  

    hbase.master.port

    60000

  

  

    hbase.tmp.dir

    /data2/hadoop_data/hbase_tmp

  

  

    hbase.zookeeper.quorum

    master1,master2,slave1,slave2,slave3

  

配置regionservers

$ vi /data1/usr/hbase-1.2.4/conf/regionservers

slave1

slave2

slave3

配置backup-masters

$ vi /data1/usr/hbase-1.2.4/conf/backup-masters

移除 HBase 里面的不必要 log4j 的 jar 包

cd ${HBASE_HOME}/lib

mv slf4j-log4j12-1.7.5.jar slf4j-log4j12-1.7.5.jar.bak

将master1的hbase环境传输到其他节点

$ for ip in `seq 2 5`;do scp -rpq /data1/usr/hbase-1.2.4 192.168.11.13$ip:/data1/usr;done

启动顺序

按hadoop集群的启动步骤,启动hadoop集群

master1上启动Hbase

$ cd /data1/usr/hbase-1.2.4/bin

$ ./start-hbase.sh

验证

$ /data1/usr/hadoop-2.7.3/bin/hadoop fs -ls / 查看hbase是否在HDFS文件系统创建成功

执行: bin/hbase shell 可以进入Hbase管理界面、

输入 status 查看状态

创建表

create 'test', 'cf'

显示表信息

list 'test'

表中插入数据

put 'test', 'row1', 'cf:a', 'value1'

put 'test', 'row2', 'cf:b', 'value2'

put 'test', 'row3', 'cf:c', 'value3'

查询表

scan 'test'

取一行数据

get 'test', 'row1'

失效表

disable 'test'

删除表

drop 'test'

浏览器输入http://master1:16010可以打开Hbase管理界面

http://192.168.11.131/master-status

启动thrift2

hbase-daemons.sh start thrift2

去datanode节点用jps确认

另外有需要云服务器可以了解下创新互联scvps.cn,海内外云服务器15元起步,三天无理由+7*72小时售后在线,公司持有idc许可证,提供“云服务器、裸金属服务器、高防服务器、香港服务器、美国服务器、虚拟主机、免备案服务器”等云主机租用服务以及企业上云的综合解决方案,具有“安全稳定、简单易用、服务可用性高、性价比高”等特点与优势,专为企业上云打造定制,能够满足用户丰富、多元化的应用场景需求。


网站题目:centos7hadoop-2.7.3完全分布式安装配置-创新互联
地址分享:http://kswsj.cn/article/dohged.html

其他资讯