#!/bin/sh workDir=`dirname $0` workDir=`cd ${workDir};pwd` #To be compatible with MacOS and Linux txt="" if [[ "$OSTYPE" == "darwin"* ]]; then # Mac OSX txt="''" elif [[ "$OSTYPE" == "linux-gnu" ]]; then # linux txt="" elif [[ "$OSTYPE" == "cygwin" ]]; then # POSIX compatibility layer and Linux environment emulation for Windows echo "Easy Scheduler not support Windows operating system" exit 1 elif [[ "$OSTYPE" == "msys" ]]; then # Lightweight shell and GNU utilities compiled for Windows (part of MinGW) echo "Easy Scheduler not support Windows operating system" exit 1 elif [[ "$OSTYPE" == "win32" ]]; then echo "Easy Scheduler not support Windows operating system" exit 1 elif [[ "$OSTYPE" == "freebsd"* ]]; then # ... txt="" else # Unknown. echo "Operating system unknown, please tell us(submit issue) for better service" exit 1 fi source ${workDir}/conf/config/run_config.conf source ${workDir}/conf/config/install_config.conf # mysql配置 # mysql 地址,端口 mysqlHost="192.168.xx.xx:3306" # mysql 数据库名称 mysqlDb="escheduler" # mysql 用户名 mysqlUserName="xx" # mysql 密码 # 注意:如果有特殊字符,请用 \ 转移符进行转移 mysqlPassword="xx" # conf/config/install_config.conf配置 # 注意:安装路径,不要当前路径(pwd)一样 installPath="/data1_1T/escheduler" # 部署用户 # 注意:部署用户需要有sudo权限及操作hdfs的权限,如果开启hdfs,根目录需要自行创建 deployUser="escheduler" # zk集群 zkQuorum="192.168.xx.xx:2181,192.168.xx.xx:2181,192.168.xx.xx:2181" # 安装hosts # 注意:安装调度的机器hostname列表,如果是伪分布式,则只需写一个伪分布式hostname即可 ips="ark0,ark1,ark2,ark3,ark4" # conf/config/run_config.conf配置 # 运行Master的机器 # 注意:部署master的机器hostname列表 masters="ark0,ark1" # 运行Worker的机器 # 注意:部署worker的机器hostname列表 workers="ark2,ark3,ark4" # 运行Alert的机器 # 注意:部署alert server的机器hostname列表 alertServer="ark3" # 运行Api的机器 # 注意:部署api server的机器hostname列表 apiServers="ark1" # alert配置 # 邮件协议 mailProtocol="SMTP" # 邮件服务host mailServerHost="smtp.exmail.qq.com" # 邮件服务端口 mailServerPort="25" # 发送人 mailSender="xxxxxxxxxx" # 发送人密码 mailPassword="xxxxxxxxxx" # TLS邮件协议支持 starttlsEnable="false" # SSL邮件协议支持 # 注意:默认开启的是SSL协议,TLS和SSL只能有一个处于true状态 sslEnable="true" # 下载Excel路径 xlsFilePath="/tmp/xls" #是否启动监控自启动脚本 monitorServerState="false" # 资源中心上传选择存储方式:HDFS,S3,NONE resUploadStartupType="NONE" # 如果resUploadStartupType为HDFS,defaultFS写namenode地址,支持HA,需要将core-site.xml和hdfs-site.xml放到conf目录下 # 如果是S3,则写S3地址,比如说:s3a://escheduler,注意,一定要创建根目录/escheduler defaultFS="hdfs://mycluster:8020" # 如果配置了S3,则需要有以下配置 s3Endpoint="http://192.168.199.91:9010" s3AccessKey="A3DXS30FO22544RE" s3SecretKey="OloCLq3n+8+sdPHUhJ21XrSxTC+JK" # resourcemanager HA配置,如果是单resourcemanager,这里为空即可 yarnHaIps="192.168.xx.xx,192.168.xx.xx" # 如果是单 resourcemanager,只需要配置一个主机名称,如果是resourcemanager HA,则默认配置就好 singleYarnIp="ark1" # hdfs根路径,根路径的owner必须是部署用户。1.1.0之前版本不会自动创建hdfs根目录,需要自行创建 hdfsPath="/escheduler" # 拥有在hdfs根路径/下创建目录权限的用户 hdfsRootUser="hdfs" # common 配置 # 程序路径 programPath="/tmp/escheduler" #下载路径 downloadPath="/tmp/escheduler/download" # 任务执行路径 execPath="/tmp/escheduler/exec" # SHELL环境变量路径 shellEnvPath="$installPath/conf/env/.escheduler_env.sh" # 资源文件的后缀 resSuffixs="txt,log,sh,conf,cfg,py,java,sql,hql,xml" # 开发状态,如果是true,对于SHELL脚本可以在execPath目录下查看封装后的SHELL脚本,如果是false则执行完成直接删除 devState="true" # kerberos 配置 # kerberos 是否启动 kerberosStartUp="false" # kdc krb5 配置文件路径 krb5ConfPath="$installPath/conf/krb5.conf" # keytab 用户名 keytabUserName="hdfs-mycluster@ESZ.COM" # 用户 keytab路径 keytabPath="$installPath/conf/hdfs.headless.keytab" # zk 配置 # zk根目录 zkRoot="/escheduler" # 用来记录挂掉机器的zk目录 zkDeadServers="/escheduler/dead-servers" # masters目录 zkMasters="/escheduler/masters" # workers目录 zkWorkers="/escheduler/workers" # zk master分布式锁 mastersLock="/escheduler/lock/masters" # zk worker分布式锁 workersLock="/escheduler/lock/workers" # zk master容错分布式锁 mastersFailover="/escheduler/lock/failover/masters" # zk worker容错分布式锁 workersFailover="/escheduler/lock/failover/masters" # zk master启动容错分布式锁 mastersStartupFailover="/escheduler/lock/failover/startup-masters" # zk session 超时 zkSessionTimeout="300" # zk 连接超时 zkConnectionTimeout="300" # zk 重试间隔 zkRetrySleep="100" # zk重试最大次数 zkRetryMaxtime="5" # master 配置 # master执行线程最大数,流程实例的最大并行度 masterExecThreads="100" # master任务执行线程最大数,每一个流程实例的最大并行度 masterExecTaskNum="20" # master心跳间隔 masterHeartbeatInterval="10" # master任务提交重试次数 masterTaskCommitRetryTimes="5" # master任务提交重试时间间隔 masterTaskCommitInterval="100" # master最大cpu平均负载,用来判断master是否还有执行能力 masterMaxCpuLoadAvg="10" # master预留内存,用来判断master是否还有执行能力 masterReservedMemory="1" # worker 配置 # worker执行线程 workerExecThreads="100" # worker心跳间隔 workerHeartbeatInterval="10" # worker一次抓取任务数 workerFetchTaskNum="3" # worker最大cpu平均负载,用来判断worker是否还有执行能力,保持系统默认,默认为cpu核数的2倍,当负载达到2倍时, #workerMaxCupLoadAvg="10" # worker预留内存,用来判断master是否还有执行能力 workerReservedMemory="1" # api 配置 # api 服务端口 apiServerPort="12345" # api session 超时 apiServerSessionTimeout="7200" # api 上下文路径 apiServerContextPath="/escheduler/" # spring 最大文件大小 springMaxFileSize="1024MB" # spring 最大请求文件大小 springMaxRequestSize="1024MB" # api 最大post请求大小 apiMaxHttpPostSize="5000000" # 1,替换文件 echo "1,替换文件" sed -i ${txt} "s#spring.datasource.url.*#spring.datasource.url=jdbc:mysql://${mysqlHost}/${mysqlDb}?characterEncoding=UTF-8#g" conf/dao/data_source.properties sed -i ${txt} "s#spring.datasource.username.*#spring.datasource.username=${mysqlUserName}#g" conf/dao/data_source.properties sed -i ${txt} "s#spring.datasource.password.*#spring.datasource.password=${mysqlPassword}#g" conf/dao/data_source.properties sed -i ${txt} "s#org.quartz.dataSource.myDs.URL.*#org.quartz.dataSource.myDs.URL=jdbc:mysql://${mysqlHost}/${mysqlDb}?characterEncoding=UTF-8#g" conf/quartz.properties sed -i ${txt} "s#org.quartz.dataSource.myDs.user.*#org.quartz.dataSource.myDs.user=${mysqlUserName}#g" conf/quartz.properties sed -i ${txt} "s#org.quartz.dataSource.myDs.password.*#org.quartz.dataSource.myDs.password=${mysqlPassword}#g" conf/quartz.properties sed -i ${txt} "s#fs.defaultFS.*#fs.defaultFS=${defaultFS}#g" conf/common/hadoop/hadoop.properties sed -i ${txt} "s#fs.s3a.endpoint.*#fs.s3a.endpoint=${s3Endpoint}#g" conf/common/hadoop/hadoop.properties sed -i ${txt} "s#fs.s3a.access.key.*#fs.s3a.access.key=${s3AccessKey}#g" conf/common/hadoop/hadoop.properties sed -i ${txt} "s#fs.s3a.secret.key.*#fs.s3a.secret.key=${s3SecretKey}#g" conf/common/hadoop/hadoop.properties sed -i ${txt} "s#yarn.resourcemanager.ha.rm.ids.*#yarn.resourcemanager.ha.rm.ids=${yarnHaIps}#g" conf/common/hadoop/hadoop.properties sed -i ${txt} "s#yarn.application.status.address.*#yarn.application.status.address=http://${singleYarnIp}:8088/ws/v1/cluster/apps/%s#g" conf/common/hadoop/hadoop.properties sed -i ${txt} "s#data.basedir.path.*#data.basedir.path=${programPath}#g" conf/common/common.properties sed -i ${txt} "s#data.download.basedir.path.*#data.download.basedir.path=${downloadPath}#g" conf/common/common.properties sed -i ${txt} "s#process.exec.basepath.*#process.exec.basepath=${execPath}#g" conf/common/common.properties sed -i ${txt} "s#hdfs.root.user.*#hdfs.root.user=${hdfsRootUser}#g" conf/common/common.properties sed -i ${txt} "s#data.store2hdfs.basepath.*#data.store2hdfs.basepath=${hdfsPath}#g" conf/common/common.properties sed -i ${txt} "s#res.upload.startup.type.*#res.upload.startup.type=${resUploadStartupType}#g" conf/common/common.properties sed -i ${txt} "s#escheduler.env.path.*#escheduler.env.path=${shellEnvPath}#g" conf/common/common.properties sed -i ${txt} "s#resource.view.suffixs.*#resource.view.suffixs=${resSuffixs}#g" conf/common/common.properties sed -i ${txt} "s#development.state.*#development.state=${devState}#g" conf/common/common.properties sed -i ${txt} "s#hadoop.security.authentication.startup.state.*#hadoop.security.authentication.startup.state=${kerberosStartUp}#g" conf/common/common.properties sed -i ${txt} "s#java.security.krb5.conf.path.*#java.security.krb5.conf.path=${krb5ConfPath}#g" conf/common/common.properties sed -i ${txt} "s#login.user.keytab.username.*#login.user.keytab.username=${keytabUserName}#g" conf/common/common.properties sed -i ${txt} "s#login.user.keytab.path.*#login.user.keytab.path=${keytabPath}#g" conf/common/common.properties sed -i ${txt} "s#zookeeper.quorum.*#zookeeper.quorum=${zkQuorum}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.root.*#zookeeper.escheduler.root=${zkRoot}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.dead.servers.*#zookeeper.escheduler.dead.servers=${zkDeadServers}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.masters.*#zookeeper.escheduler.masters=${zkMasters}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.workers.*#zookeeper.escheduler.workers=${zkWorkers}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.lock.masters.*#zookeeper.escheduler.lock.masters=${mastersLock}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.lock.workers.*#zookeeper.escheduler.lock.workers=${workersLock}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.lock.failover.masters.*#zookeeper.escheduler.lock.failover.masters=${mastersFailover}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.lock.failover.workers.*#zookeeper.escheduler.lock.failover.workers=${workersFailover}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.escheduler.lock.failover.startup.masters.*#zookeeper.escheduler.lock.failover.startup.masters=${mastersStartupFailover}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.session.timeout.*#zookeeper.session.timeout=${zkSessionTimeout}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.connection.timeout.*#zookeeper.connection.timeout=${zkConnectionTimeout}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.retry.sleep.*#zookeeper.retry.sleep=${zkRetrySleep}#g" conf/zookeeper.properties sed -i ${txt} "s#zookeeper.retry.maxtime.*#zookeeper.retry.maxtime=${zkRetryMaxtime}#g" conf/zookeeper.properties sed -i ${txt} "s#master.exec.threads.*#master.exec.threads=${masterExecThreads}#g" conf/master.properties sed -i ${txt} "s#master.exec.task.number.*#master.exec.task.number=${masterExecTaskNum}#g" conf/master.properties sed -i ${txt} "s#master.heartbeat.interval.*#master.heartbeat.interval=${masterHeartbeatInterval}#g" conf/master.properties sed -i ${txt} "s#master.task.commit.retryTimes.*#master.task.commit.retryTimes=${masterTaskCommitRetryTimes}#g" conf/master.properties sed -i ${txt} "s#master.task.commit.interval.*#master.task.commit.interval=${masterTaskCommitInterval}#g" conf/master.properties sed -i ${txt} "s#master.max.cpuload.avg.*#master.max.cpuload.avg=${masterMaxCpuLoadAvg}#g" conf/master.properties sed -i ${txt} "s#master.reserved.memory.*#master.reserved.memory=${masterReservedMemory}#g" conf/master.properties sed -i ${txt} "s#worker.exec.threads.*#worker.exec.threads=${workerExecThreads}#g" conf/worker.properties sed -i ${txt} "s#worker.heartbeat.interval.*#worker.heartbeat.interval=${workerHeartbeatInterval}#g" conf/worker.properties sed -i ${txt} "s#worker.fetch.task.num.*#worker.fetch.task.num=${workerFetchTaskNum}#g" conf/worker.properties #sed -i ${txt} "s#worker.max.cpuload.avg.*#worker.max.cpuload.avg=${workerMaxCupLoadAvg}#g" conf/worker.properties sed -i ${txt} "s#worker.reserved.memory.*#worker.reserved.memory=${workerReservedMemory}#g" conf/worker.properties sed -i ${txt} "s#server.port.*#server.port=${apiServerPort}#g" conf/application.properties sed -i ${txt} "s#server.session.timeout.*#server.session.timeout=${apiServerSessionTimeout}#g" conf/application.properties sed -i ${txt} "s#server.context-path.*#server.context-path=${apiServerContextPath}#g" conf/application.properties sed -i ${txt} "s#spring.http.multipart.max-file-size.*#spring.http.multipart.max-file-size=${springMaxFileSize}#g" conf/application.properties sed -i ${txt} "s#spring.http.multipart.max-request-size.*#spring.http.multipart.max-request-size=${springMaxRequestSize}#g" conf/application.properties sed -i ${txt} "s#server.max-http-post-size.*#server.max-http-post-size=${apiMaxHttpPostSize}#g" conf/application.properties sed -i ${txt} "s#mail.protocol.*#mail.protocol=${mailProtocol}#g" conf/alert.properties sed -i ${txt} "s#mail.server.host.*#mail.server.host=${mailServerHost}#g" conf/alert.properties sed -i ${txt} "s#mail.server.port.*#mail.server.port=${mailServerPort}#g" conf/alert.properties sed -i ${txt} "s#mail.sender.*#mail.sender=${mailSender}#g" conf/alert.properties sed -i ${txt} "s#mail.passwd.*#mail.passwd=${mailPassword}#g" conf/alert.properties sed -i ${txt} "s#mail.smtp.starttls.enable.*#mail.smtp.starttls.enable=${starttlsEnable}#g" conf/alert.properties sed -i ${txt} "s#mail.smtp.ssl.enable.*#mail.smtp.ssl.enable=${sslEnable}#g" conf/alert.properties sed -i ${txt} "s#xls.file.path.*#xls.file.path=${xlsFilePath}#g" conf/alert.properties sed -i ${txt} "s#installPath.*#installPath=${installPath}#g" conf/config/install_config.conf sed -i ${txt} "s#deployUser.*#deployUser=${deployUser}#g" conf/config/install_config.conf sed -i ${txt} "s#ips.*#ips=${ips}#g" conf/config/install_config.conf sed -i ${txt} "s#masters.*#masters=${masters}#g" conf/config/run_config.conf sed -i ${txt} "s#workers.*#workers=${workers}#g" conf/config/run_config.conf sed -i ${txt} "s#alertServer.*#alertServer=${alertServer}#g" conf/config/run_config.conf sed -i ${txt} "s#apiServers.*#apiServers=${apiServers}#g" conf/config/run_config.conf # 2,创建目录 echo "2,创建目录" if [ ! -d $installPath ];then sudo mkdir -p $installPath sudo chown -R $deployUser:$deployUser $installPath fi hostsArr=(${ips//,/ }) for host in ${hostsArr[@]} do # 如果programPath不存在,则创建 if ! ssh $host test -e $programPath; then ssh $host "sudo mkdir -p $programPath;sudo chown -R $deployUser:$deployUser $programPath" fi # 如果downloadPath不存在,则创建 if ! ssh $host test -e $downloadPath; then ssh $host "sudo mkdir -p $downloadPath;sudo chown -R $deployUser:$deployUser $downloadPath" fi # 如果$execPath不存在,则创建 if ! ssh $host test -e $execPath; then ssh $host "sudo mkdir -p $execPath; sudo chown -R $deployUser:$deployUser $execPath" fi # 如果$xlsFilePath不存在,则创建 if ! ssh $host test -e $xlsFilePath; then ssh $host "sudo mkdir -p $xlsFilePath; sudo chown -R $deployUser:$deployUser $xlsFilePath" fi done # 3,停止服务 echo "3,停止服务" sh ${workDir}/script/stop_all.sh # 4,删除zk节点 echo "4,删除zk节点" sleep 1 python ${workDir}/script/del_zk_node.py $zkQuorum $zkRoot # 5,scp资源 echo "5,scp资源" sh ${workDir}/script/scp_hosts.sh if [ $? -eq 0 ] then echo 'scp拷贝完成' else echo 'sc 拷贝失败退出' exit -1 fi # 6,启动 echo "6,启动" sh ${workDir}/script/start_all.sh # 7,启动监控自启动脚本 monitor_pid=${workDir}/monitor_server.pid if [ "true" = $monitorServerState ];then if [ -f $monitor_pid ]; then TARGET_PID=`cat $monitor_pid` if kill -0 $TARGET_PID > /dev/null 2>&1; then echo "monitor server running as process ${TARGET_PID}.Stopping" kill $TARGET_PID sleep 5 if kill -0 $TARGET_PID > /dev/null 2>&1; then echo "monitor server did not stop gracefully after 5 seconds: killing with kill -9" kill -9 $TARGET_PID fi else echo "no monitor server to stop" fi echo "monitor server running as process ${TARGET_PID}.Stopped success" rm -f $monitor_pid fi nohup python -u ${workDir}/script/monitor_server.py $installPath $zkQuorum $zkMasters $zkWorkers > ${workDir}/monitor_server.log 2>&1 & echo $! > $monitor_pid echo "start monitor server success as process `cat $monitor_pid`" fi