• Zookeeper + Kafka 集群搭建


    第一步:准备

    1. 操作系统

    CentOS-7-x86_64-Everything-1511

    2. 安装包

    kafka_2.12-0.10.2.0.tgz

    zookeeper-3.4.9.tar.gz

    3. Java 环境

    Zookeeper 和 Kafka 的运行都需要 Java 环境,Kafka 默认使用 G1 垃圾回收器。如果不更改垃圾回收期,官方推荐使用 7u51 以上版本的 JRE 。如果使用老版本的 JRE,需要更改 Kafka 的启动脚本,指定 G1 以外的垃圾回收器。

    本文使用系统自带的 Java 环境。

    第二步:Zookeeper 集群搭建

    1. 简介

    Kafka 依赖 Zookeeper 管理自身集群(Broker、Offset、Producer、Consumer等),所以先要安装 Zookeeper。

    为了达到高可用的目的,Zookeeper 自身也不能是单点,接下来就介绍如何搭建一个最小的 Zookeeper 集群(3个 zk 节点)。

    2. 安装

    # tar zxvf zookeeper-3.4.9.tar.gz
    # mv zookeeper-3.4.9 zookeeper

    3. 配置

    1)配置文件位置

    路径:zookeeper/conf

    2)生成配置文件

    将 zoo_sample.cfg 复制一份,命名为 zoo.cfg,此即为Zookeeper的配置文件。

    # cd zookeeper
    # cd conf
    # cp zoo_sample.cfg zoo.cfg

    3)编辑配置文件

    默认配置:

    配置完成:

    # The number of milliseconds of each tick
    tickTime=2000
    # The number of ticks that the initial 
    # synchronization phase can take
    initLimit=10
    # The number of ticks that can pass between 
    # sending a request and getting an acknowledgement
    syncLimit=5
    # the directory where the snapshot is stored.
    # do not use /tmp for storage, /tmp here is just 
    # example sakes.
    dataDir=/root/zookeeper/data
    dataLogDir=/root/zookeeper/logs # the port at which the clients will connect clientPort
    =2181 # 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 server.0=192.168.6.128:4001:4002 server.1=192.168.6.129:4001:4002 server.2=192.168.6.130:4001:4002

    说明:

    • dataDir 和 dataLogDir 需要在启动前创建完成
    • clientPort 为 zookeeper的服务端口
    • server.0、server.1、server.2 为 zk 集群中三个 node 的信息,定义格式为 hostname:port1:port2,其中 port1 是 node 间通信使用的端口,port2 是node 选举使用的端口,需确保三台主机的这两个端口都是互通的。

    4. 更改日志配置

    Zookeeper 默认会将控制台信息输出到启动路径下的 zookeeper.out 中,通过如下方法,可以让 Zookeeper 输出按尺寸切分的日志文件:

    1)修改conf/log4j.properties文件,将

        zookeeper.root.logger=INFO, CONSOLE

        改为

        zookeeper.root.logger=INFO, ROLLINGFILE

    2)修改bin/zkEnv.sh文件,将

        ZOO_LOG4J_PROP="INFO,CONSOLE"

        改为

        ZOO_LOG4J_PROP="INFO,ROLLINGFILE"

    5. 按照上述操作,在另外两台主机上安装并配置 zookeeper

    6. 创建 myid 文件

    分别在三台主机的 dataDir 路径下创建一个文件名为 myid 的文件,文件内容为该 zk 节点的编号。

    例如,在第一台主机上建立的 myid 文件内容是 0,第二台是 1。

    7. 启动

    启动三台主机上的 zookeeper 服务

    # cd bin
    # ./zkServer.sh start

    返回信息:

    8. 查看集群状态

    3个节点启动完成后,可依次执行如下命令查看集群状态:

    ./zkServer.sh status

    192.168.6.128 返回:

    192.168.6.129 返回:

    192.168.6.130 返回:

    如上所示,3个节点中,有1个 leader 和两个 follower。

    9. 测试集群高可用性

    1)停掉集群中的为 leader 的 zookeeper 服务,本文中的leader为 server2。

    # ./zkServer.sh stop

    返回信息:

    2)查看集群中 server0 和 server1 的的状态

    server0:

    server1:

    此时,server1 成为了集群中的 leader,server0依然为 follower。

    3)启动 server2 的 zookeeper 服务,并查看状态

    此时,server2 成为了集群中的 follower。

    此时,Zookeeper 集群的安装及高可用性验证已完成!

    第三步:Kafka 集群搭建

    1. 简介

    本文会安装配置一个具有两个 Broker 组成的 Kafka 集群,并在其上创建一个具有两个分区的Topic。

    2. 安装

    # tar zxvf kafka_2.12-0.10.2.0.tgz
    # mv kafka_2.12-0.10.2.0 kafka

    3. 配置

    1)配置文件位置

    路径:kafka/config/server.properties

    2)默认配置

    # Licensed to the Apache Software Foundation (ASF) under one or more
    # contributor license agreements.  See the NOTICE file distributed with
    # this work for additional information regarding copyright ownership.
    # The ASF licenses this file to You under the Apache License, Version 2.0
    # (the "License"); you may not use this file except in compliance with
    # the License.  You may obtain a copy of the License at
    #
    #    http://www.apache.org/licenses/LICENSE-2.0
    #
    # Unless required by applicable law or agreed to in writing, software
    # distributed under the License is distributed on an "AS IS" BASIS,
    # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
    # See the License for the specific language governing permissions and
    # limitations under the License.
    
    # see kafka.server.KafkaConfig for additional details and defaults
    
    ############################# Server Basics #############################
    
    # The id of the broker. This must be set to a unique integer for each broker.
    broker.id=0
    
    # Switch to enable topic deletion or not, default value is false
    #delete.topic.enable=true
    
    ############################# Socket Server Settings #############################
    
    # The address the socket server listens on. It will get the value returned from 
    # java.net.InetAddress.getCanonicalHostName() if not configured.
    #   FORMAT:
    #     listeners = listener_name://host_name:port
    #   EXAMPLE:
    #     listeners = PLAINTEXT://your.host.name:9092
    #listeners=PLAINTEXT://:9092
    
    # Hostname and port the broker will advertise to producers and consumers. If not set, 
    # it uses the value for "listeners" if configured.  Otherwise, it will use the value
    # returned from java.net.InetAddress.getCanonicalHostName().
    #advertised.listeners=PLAINTEXT://your.host.name:9092
    
    # Maps listener names to security protocols, the default is for them to be the same. See the config documentation for more details
    #listener.security.protocol.map=PLAINTEXT:PLAINTEXT,SSL:SSL,SASL_PLAINTEXT:SASL_PLAINTEXT,SASL_SSL:SASL_SSL
    
    # The number of threads handling network requests
    num.network.threads=3
    
    # The number of threads doing disk I/O
    num.io.threads=8
    
    # The send buffer (SO_SNDBUF) used by the socket server
    socket.send.buffer.bytes=102400
    
    # The receive buffer (SO_RCVBUF) used by the socket server
    socket.receive.buffer.bytes=102400
    
    # The maximum size of a request that the socket server will accept (protection against OOM)
    socket.request.max.bytes=104857600
    
    
    ############################# Log Basics #############################
    
    # A comma seperated list of directories under which to store log files
    log.dirs=/tmp/kafka-logs
    
    # The default number of log partitions per topic. More partitions allow greater
    # parallelism for consumption, but this will also result in more files across
    # the brokers.
    num.partitions=1
    
    # The number of threads per data directory to be used for log recovery at startup and flushing at shutdown.
    # This value is recommended to be increased for installations with data dirs located in RAID array.
    num.recovery.threads.per.data.dir=1
    
    ############################# Log Flush Policy #############################
    
    # Messages are immediately written to the filesystem but by default we only fsync() to sync
    # the OS cache lazily. The following configurations control the flush of data to disk.
    # There are a few important trade-offs here:
    #    1. Durability: Unflushed data may be lost if you are not using replication.
    #    2. Latency: Very large flush intervals may lead to latency spikes when the flush does occur as there will be a lot of data to flush.
    #    3. Throughput: The flush is generally the most expensive operation, and a small flush interval may lead to exceessive seeks.
    # The settings below allow one to configure the flush policy to flush data after a period of time or
    # every N messages (or both). This can be done globally and overridden on a per-topic basis.
    
    # The number of messages to accept before forcing a flush of data to disk
    #log.flush.interval.messages=10000
    
    # The maximum amount of time a message can sit in a log before we force a flush
    #log.flush.interval.ms=1000
    
    ############################# Log Retention Policy #############################
    
    # The following configurations control the disposal of log segments. The policy can
    # be set to delete segments after a period of time, or after a given size has accumulated.
    # A segment will be deleted whenever *either* of these criteria are met. Deletion always happens
    # from the end of the log.
    
    # The minimum age of a log file to be eligible for deletion due to age
    log.retention.hours=168
    
    # A size-based retention policy for logs. Segments are pruned from the log as long as the remaining
    # segments don't drop below log.retention.bytes. Functions independently of log.retention.hours.
    #log.retention.bytes=1073741824
    
    # The maximum size of a log segment file. When this size is reached a new log segment will be created.
    log.segment.bytes=1073741824
    
    # The interval at which log segments are checked to see if they can be deleted according
    # to the retention policies
    log.retention.check.interval.ms=300000
    
    ############################# Zookeeper #############################
    
    # Zookeeper connection string (see zookeeper docs for details).
    # This is a comma separated host:port pairs, each corresponding to a zk
    # server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002".
    # You can also append an optional chroot string to the urls to specify the
    # root directory for all kafka znodes.
    zookeeper.connect=localhost:2181
    
    # Timeout in ms for connecting to zookeeper
    zookeeper.connection.timeout.ms=6000

    3)更改配置

    ############################# Server Basics #############################
    
    # The id of the broker. This must be set to a unique integer for each broker.
    broker.id=0
    
    # Switch to enable topic deletion or not, default value is false
    #delete.topic.enable=true
    
    ############################# Socket Server Settings #############################
    
    # The address the socket server listens on. It will get the value returned from 
    # java.net.InetAddress.getCanonicalHostName() if not configured.
    #   FORMAT:
    #     listeners = listener_name://host_name:port
    #   EXAMPLE:
    #     listeners = PLAINTEXT://your.host.name:9092
    listeners=PLAINTEXT://:9092
    port=9092
    host.name=192.168.6.128
    advertised.host.name=192.168.6.128
    advertised.port=9092
    
    # Hostname and port the broker will advertise to producers and consumers. If not set, 
    # it uses the value for "listeners" if configured.  Otherwise, it will use the value
    # returned from java.net.InetAddress.getCanonicalHostName().
    #advertised.listeners=PLAINTEXT://your.host.name:9092
    
    # Maps listener names to security protocols, the default is for them to be the same. See the config docume
    ntation for more details
    #listener.security.protocol.map=PLAINTEXT:PLAINTEXT,SSL:SSL,SASL_PLAINTEXT:SASL_PLAINTEXT,SASL_SSL:SASL_SS
    L
    
    # The number of threads handling network requests
    num.network.threads=3
    
    # The number of threads doing disk I/O
    num.io.threads=8
    
    # The send buffer (SO_SNDBUF) used by the socket server
    socket.send.buffer.bytes=102400
    
    # The receive buffer (SO_RCVBUF) used by the socket server
    socket.receive.buffer.bytes=102400
    
    # The maximum size of a request that the socket server will accept (protection against OOM)
    socket.request.max.bytes=104857600
    
    
    ############################# Log Basics #############################
    
    # A comma seperated list of directories under which to store log files
    log.dirs=/root/kafka/logs
    
    # The default number of log partitions per topic. More partitions allow greater
    # parallelism for consumption, but this will also result in more files across
    # the brokers.
    num.partitions=1
    
    # The number of threads per data directory to be used for log recovery at startup and flushing at shutdown
    .
    # This value is recommended to be increased for installations with data dirs located in RAID array.
    num.recovery.threads.per.data.dir=1
    
    ############################# Log Flush Policy #############################
    
    # Messages are immediately written to the filesystem but by default we only fsync() to sync
    # the OS cache lazily. The following configurations control the flush of data to disk.
    # There are a few important trade-offs here:
    #    1. Durability: Unflushed data may be lost if you are not using replication.
    #    2. Latency: Very large flush intervals may lead to latency spikes when the flush does occur as there 
    will be a lot of data to flush.
    #    3. Throughput: The flush is generally the most expensive operation, and a small flush interval may le
    ad to exceessive seeks.
    # The settings below allow one to configure the flush policy to flush data after a period of time or
    # every N messages (or both). This can be done globally and overridden on a per-topic basis.
    
    # The number of messages to accept before forcing a flush of data to disk
    #log.flush.interval.messages=10000
    
    # The maximum amount of time a message can sit in a log before we force a flush
    #log.flush.interval.ms=1000
    
    ############################# Log Retention Policy #############################
    
    # The following configurations control the disposal of log segments. The policy can
    # be set to delete segments after a period of time, or after a given size has accumulated.
    # A segment will be deleted whenever *either* of these criteria are met. Deletion always happens
    # from the end of the log.
    
    # The minimum age of a log file to be eligible for deletion due to age
    log.retention.hours=168
    
    # A size-based retention policy for logs. Segments are pruned from the log as long as the remaining
    # segments don't drop below log.retention.bytes. Functions independently of log.retention.hours.
    #log.retention.bytes=1073741824
    
    # The maximum size of a log segment file. When this size is reached a new log segment will be created.
    log.segment.bytes=1073741824
    
    # The interval at which log segments are checked to see if they can be deleted according
    # to the retention policies
    log.retention.check.interval.ms=300000
    
    ############################# Zookeeper #############################
    
    # Zookeeper connection string (see zookeeper docs for details).
    # This is a comma separated host:port pairs, each corresponding to a zk
    # server. e.g. "127.0.0.1:3000,127.0.0.1:3001,127.0.0.1:3002".
    # You can also append an optional chroot string to the urls to specify the
    # root directory for all kafka znodes.
    zookeeper.connect=192.168.6.128:2181,192.168.6.129:2181,192.168.6.130:2181
    
    # Timeout in ms for connecting to zookeeper
    zookeeper.connection.timeout.ms=6000

    配置的详细说明请参考官方文档:http://kafka.apache.org/documentation.html#brokerconfigs

    注意:按照官方文档的说法,advertised.host.name 和 advertised.port 这两个参数用于定义集群向 Producer 和 Consumer 广播的节点 host 和 port,如果不定义,会默认使用 host.name 和 port 的定义。但在实际应用中,发现如果不定义 advertised.host.name 参数,使用 Java 客户端从远端连接集群时,会发生连接超时,抛出异常:org.apache.kafka.common.errors.TimeoutException: Batch Expired

    经过过 debug 发现,连接到集群是成功的,但连接到集群后更新回来的集群 meta 信息却是错误的。metadata 中的 Cluster 信息中节点的 hostname 是一串字符,而不是实际的ip地址。这串其实是远端主机的 hostname,这说明在没有配置 advertised.host.name 的情况下,Kafka 并没有像官方文档宣称的那样改为广播我们配置的 host.name,而是广播了主机配置的 hostname 。远端的客户端并没有配置 hosts,所以自然是连接不上这个 hostname 的。要解决这一问题,把 host.name 和 advertised.host.name 都配置成绝对的 ip 地址就可以了。

    4. 在另一台主机上安装 kafka,并做配置

    5. 在两台主机上分别启动 Kafka 服务

    # bin/kafka-server-start.sh -daemon config/server.properties

    官方给出的启动方法是:bin/kafka-server-start.sh config/server.properties &   

    6. 创建分区和 topic

    1)创建一个名为 ruready,拥有两个分区,两个副本的Topic

    # bin/kafka-topics.sh --create --zookeeper 192.168.6.128:2181,192.168.6.129:2181,192.168.6.130:2181 --replication-factor 2 --partitions 2 --topic ruready

    返回信息:

    2)查看 Topic 状态

    # bin/kafka-topics.sh --describe --zookeeper 192.168.6.128:2181,192.168.6.129:2181,192.168.6.130:2181 --topic ruready

    返回信息:

    此时,Kafka 集群的搭建已成功完成!

  • 相关阅读:
    iOS -一些常用的方法
    handoff了解
    UIlabel
    扩展运行机制
    github -- fork提交项目
    iOS
    AppDelegate解析
    KVC
    KVO
    xcode升级后, 插件失效修复
  • 原文地址:https://www.cnblogs.com/RUReady/p/6479464.html
Copyright © 2020-2023  润新知