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253 lines
9.6 KiB
Markdown
253 lines
9.6 KiB
Markdown
# Usage recommendations
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## CPU
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The SSE 4.2 instruction set must be supported. Modern processors (since 2008) support it.
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When choosing a processor, prefer a large number of cores and slightly slower clock rate over fewer cores and a higher clock rate.
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For example, 16 cores with 2600 MHz is better than 8 cores with 3600 MHz.
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## Hyper-threading
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Don't disable hyper-threading. It helps for some queries, but not for others.
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## Turbo Boost
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Turbo Boost is highly recommended. It significantly improves performance with a typical load.
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You can use `turbostat` to view the CPU's actual clock rate under a load.
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## CPU scaling governor
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Always use the `performance` scaling governor. The `on-demand` scaling governor works much worse with constantly high demand.
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```bash
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sudo echo 'performance' | tee /sys/devices/system/cpu/cpu\*/cpufreq/scaling_governor
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```
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## CPU limitations
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Processors can overheat. Use `dmesg` to see if the CPU's clock rate was limited due to overheating.
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The restriction can also be set externally at the datacenter level. You can use `turbostat` to monitor it under a load.
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## RAM
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For small amounts of data (up to \~200 GB compressed), it is best to use as much memory as the volume of data.
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For large amounts of data and when processing interactive (online) queries, you should use a reasonable amount of RAM (128 GB or more) so the hot data subset will fit in the cache of pages.
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Even for data volumes of \~50 TB per server, using 128 GB of RAM significantly improves query performance compared to 64 GB.
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## Swap file
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Always disable the swap file. The only reason for not doing this is if you are using ClickHouse on your personal laptop.
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## Huge pages
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Always disable transparent huge pages. It interferes with memory allocators, which leads to significant performance degradation.
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```bash
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echo 'never' | sudo tee /sys/kernel/mm/transparent_hugepage/enabled
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```
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Use `perf top` to watch the time spent in the kernel for memory management.
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Permanent huge pages also do not need to be allocated.
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## Storage subsystem
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If your budget allows you to use SSD, use SSD.
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If not, use HDD. SATA HDDs 7200 RPM will do.
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Give preference to a lot of servers with local hard drives over a smaller number of servers with attached disk shelves.
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But for storing archives with rare queries, shelves will work.
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## RAID
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When using HDD, you can combine their RAID-10, RAID-5, RAID-6 or RAID-50.
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For Linux, software RAID is better (with `mdadm`). We don't recommend using LVM.
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When creating RAID-10, select the `far` layout.
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If your budget allows, choose RAID-10.
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If you have more than 4 disks, use RAID-6 (preferred) or RAID-50, instead of RAID-5.
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When using RAID-5, RAID-6 or RAID-50, always increase stripe_cache_size, since the default value is usually not the best choice.
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```bash
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echo 4096 | sudo tee /sys/block/md2/md/stripe_cache_size
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```
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Calculate the exact number from the number of devices and the block size, using the formula: `2 * num_devices * chunk_size_in_bytes / 4096`.
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A block size of 1025 KB is sufficient for all RAID configurations.
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Never set the block size too small or too large.
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You can use RAID-0 on SSD.
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Regardless of RAID use, always use replication for data security.
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Enable NCQ with a long queue. For HDD, choose the CFQ scheduler, and for SSD, choose noop. Don't reduce the 'readahead' setting.
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For HDD, enable the write cache.
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## File system
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Ext4 is the most reliable option. Set the mount options `noatime, nobarrier`.
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XFS is also suitable, but it hasn't been as thoroughly tested with ClickHouse.
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Most other file systems should also work fine. File systems with delayed allocation work better.
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## Linux kernel
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Don't use an outdated Linux kernel. In 2015, 3.18.19 was new enough.
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Consider using the kernel build from Yandex:<https://github.com/yandex/smart> – it provides at least a 5% performance increase.
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## Network
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If you are using IPv6, increase the size of the route cache.
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The Linux kernel prior to 3.2 had a multitude of problems with IPv6 implementation.
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Use at least a 10 GB network, if possible. 1 Gb will also work, but it will be much worse for patching replicas with tens of terabytes of data, or for processing distributed queries with a large amount of intermediate data.
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## ZooKeeper
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You are probably already using ZooKeeper for other purposes. You can use the same installation of ZooKeeper, if it isn't already overloaded.
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It's best to use a fresh version of ZooKeeper – 3.4.9 or later. The version in stable Linux distributions may be outdated.
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With the default settings, ZooKeeper is a time bomb:
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> The ZooKeeper server won't delete files from old snapshots and logs when using the default configuration (see autopurge), and this is the responsibility of the operator.
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This bomb must be defused.
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The ZooKeeper (3.5.1) configuration below is used in the Yandex.Metrica production environment as of May 20, 2017:
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zoo.cfg:
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```bash
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# http://hadoop.apache.org/zookeeper/docs/current/zookeeperAdmin.html
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# The number of milliseconds of each tick
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tickTime=2000
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# The number of ticks that the initial
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# synchronization phase can take
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initLimit=30000
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# The number of ticks that can pass between
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# sending a request and getting an acknowledgement
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syncLimit=10
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maxClientCnxns=2000
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maxSessionTimeout=60000000
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# the directory where the snapshot is stored.
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dataDir=/opt/zookeeper/{{ cluster['name'] }}/data
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# Place the dataLogDir to a separate physical disc for better performance
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dataLogDir=/opt/zookeeper/{{ cluster['name'] }}/logs
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autopurge.snapRetainCount=10
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autopurge.purgeInterval=1
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# To avoid seeks ZooKeeper allocates space in the transaction log file in
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# blocks of preAllocSize kilobytes. The default block size is 64M. One reason
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# for changing the size of the blocks is to reduce the block size if snapshots
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# are taken more often. (Also, see snapCount).
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preAllocSize=131072
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# Clients can submit requests faster than ZooKeeper can process them,
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# especially if there are a lot of clients. To prevent ZooKeeper from running
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# out of memory due to queued requests, ZooKeeper will throttle clients so that
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# there is no more than globalOutstandingLimit outstanding requests in the
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# system. The default limit is 1,000.ZooKeeper logs transactions to a
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# transaction log. After snapCount transactions are written to a log file a
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# snapshot is started and a new transaction log file is started. The default
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# snapCount is 10,000.
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snapCount=3000000
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# If this option is defined, requests will be will logged to a trace file named
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# traceFile.year.month.day.
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#traceFile=
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# Leader accepts client connections. Default value is "yes". The leader machine
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# coordinates updates. For higher update throughput at thes slight expense of
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# read throughput the leader can be configured to not accept clients and focus
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# on coordination.
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leaderServes=yes
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standaloneEnabled=false
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dynamicConfigFile=/etc/zookeeper-{{ cluster['name'] }}/conf/zoo.cfg.dynamic
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```
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Java version:
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```text
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Java(TM) SE Runtime Environment (build 1.8.0_25-b17)
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Java HotSpot(TM) 64-Bit Server VM (build 25.25-b02, mixed mode)
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```
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JVM parameters:
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```bash
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NAME=zookeeper-{{ cluster['name'] }}
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ZOOCFGDIR=/etc/$NAME/conf
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# TODO this is really ugly
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# How to find out, which jars are needed?
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# seems, that log4j requires the log4j.properties file to be in the classpath
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CLASSPATH="$ZOOCFGDIR:/usr/build/classes:/usr/build/lib/*.jar:/usr/share/zookeeper/zookeeper-3.5.1-metrika.jar:/usr/share/zookeeper/slf4j-log4j12-1.7.5.jar:/usr/share/zookeeper/slf4j-api-1.7.5.jar:/usr/share/zookeeper/servlet-api-2.5-20081211.jar:/usr/share/zookeeper/netty-3.7.0.Final.jar:/usr/share/zookeeper/log4j-1.2.16.jar:/usr/share/zookeeper/jline-2.11.jar:/usr/share/zookeeper/jetty-util-6.1.26.jar:/usr/share/zookeeper/jetty-6.1.26.jar:/usr/share/zookeeper/javacc.jar:/usr/share/zookeeper/jackson-mapper-asl-1.9.11.jar:/usr/share/zookeeper/jackson-core-asl-1.9.11.jar:/usr/share/zookeeper/commons-cli-1.2.jar:/usr/src/java/lib/*.jar:/usr/etc/zookeeper"
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ZOOCFG="$ZOOCFGDIR/zoo.cfg"
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ZOO_LOG_DIR=/var/log/$NAME
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USER=zookeeper
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GROUP=zookeeper
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PIDDIR=/var/run/$NAME
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PIDFILE=$PIDDIR/$NAME.pid
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SCRIPTNAME=/etc/init.d/$NAME
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JAVA=/usr/bin/java
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ZOOMAIN="org.apache.zookeeper.server.quorum.QuorumPeerMain"
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ZOO_LOG4J_PROP="INFO,ROLLINGFILE"
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JMXLOCALONLY=false
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JAVA_OPTS="-Xms{{ cluster.get('xms','128M') }} \
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-Xmx{{ cluster.get('xmx','1G') }} \
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-Xloggc:/var/log/$NAME/zookeeper-gc.log \
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-XX:+UseGCLogFileRotation \
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-XX:NumberOfGCLogFiles=16 \
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-XX:GCLogFileSize=16M \
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-verbose:gc \
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-XX:+PrintGCTimeStamps \
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-XX:+PrintGCDateStamps \
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-XX:+PrintGCDetails
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-XX:+PrintTenuringDistribution \
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-XX:+PrintGCApplicationStoppedTime \
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-XX:+PrintGCApplicationConcurrentTime \
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-XX:+PrintSafepointStatistics \
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-XX:+UseParNewGC \
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-XX:+UseConcMarkSweepGC \
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-XX:+CMSParallelRemarkEnabled"
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```
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Salt init:
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```text
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description "zookeeper-{{ cluster['name'] }} centralized coordination service"
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start on runlevel [2345]
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stop on runlevel [!2345]
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respawn
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limit nofile 8192 8192
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pre-start script
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[ -r "/etc/zookeeper-{{ cluster['name'] }}/conf/environment" ] || exit 0
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. /etc/zookeeper-{{ cluster['name'] }}/conf/environment
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[ -d $ZOO_LOG_DIR ] || mkdir -p $ZOO_LOG_DIR
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chown $USER:$GROUP $ZOO_LOG_DIR
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end script
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script
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. /etc/zookeeper-{{ cluster['name'] }}/conf/environment
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[ -r /etc/default/zookeeper ] && . /etc/default/zookeeper
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if [ -z "$JMXDISABLE" ]; then
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JAVA_OPTS="$JAVA_OPTS -Dcom.sun.management.jmxremote -Dcom.sun.management.jmxremote.local.only=$JMXLOCALONLY"
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fi
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exec start-stop-daemon --start -c $USER --exec $JAVA --name zookeeper-{{ cluster['name'] }} \
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-- -cp $CLASSPATH $JAVA_OPTS -Dzookeeper.log.dir=${ZOO_LOG_DIR} \
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-Dzookeeper.root.logger=${ZOO_LOG4J_PROP} $ZOOMAIN $ZOOCFG
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end script
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```
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