Dokcer部署Kafka集群
docker网络规划
docker network create kafka-net --subnet 172.20.0.0/16
docker network ls
- zookeeper1(172.20.0.11 2184:2181)
- zookeeper2(172.20.0.12 2185:2181)
- zookeeper3(172.20.0.13 2186:2181)
- kafka(172.20.0.14 内部9093:9093,外部9193:9193)
- kafka(172.20.0.15 内部9094:9094,外部9194:9194)
- kafka(172.20.0.16 内部9095:9095,外部9195:9195)
- kafka manager(172.20.0.10 9000:9000)
部署中的配置和授权认证文件制作
准备一下两个文件,他们的位置可以放到任意地方,只需要镜像部署的配置文件中能引用到即可。
- 新建一个zookeeper和kafka共用的授权认证文件:server_jass.conf。按照本教程建议放到
/root/kafka/kafka-sasl/server_jass.conf
Client {
org.apache.zookeeper.server.auth.DigestLoginModule required
username="test"
password="test@QWER";
};
Server {
org.apache.zookeeper.server.auth.DigestLoginModule required
username="test"
password="test@QWER"
user_admin="test@QWER"
user_test="test@QWER"; # 账号是test,密码是test@QWER
};
KafkaServer {
org.apache.kafka.common.security.plain.PlainLoginModule required
username="test"
password="test@QWER"
user_test="test@QWER";
};
KafkaClient {
org.apache.kafka.common.security.plain.PlainLoginModule required
username="test"
password="test@QWER";
};
- 新建一个kafka-run-class脚本文件,规避JMX冲突:kafka-run-class.sh。按照本教程建议放到
/root/kafka/kafka-run-class.sh
#!/bin/bash
# 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.
if [ $# -lt 1 ];
then
echo "USAGE: $0 [-daemon] [-name servicename] [-loggc] classname [opts]"
exit 1
fi
# CYGWIN == 1 if Cygwin is detected, else 0.
if [[ $(uname -a) =~ "CYGWIN" ]]; then
CYGWIN=1
else
CYGWIN=0
fi
if [ -z "$INCLUDE_TEST_JARS" ]; then
INCLUDE_TEST_JARS=false
fi
# Exclude jars not necessary for running commands.
regex="(-(test|test-sources|src|scaladoc|javadoc)\.jar|jar.asc)$"
should_include_file() {
if [ "$INCLUDE_TEST_JARS" = true ]; then
return 0
fi
file=$1
if [ -z "$(echo "$file" | egrep "$regex")" ] ; then
return 0
else
return 1
fi
}
base_dir=$(dirname $0)/..
if [ -z "$SCALA_VERSION" ]; then
SCALA_VERSION=2.13.5
if [[ -f "$base_dir/gradle.properties" ]]; then
SCALA_VERSION=`grep "^scalaVersion=" "$base_dir/gradle.properties" | cut -d= -f 2`
fi
fi
if [ -z "$SCALA_BINARY_VERSION" ]; then
SCALA_BINARY_VERSION=$(echo $SCALA_VERSION | cut -f 1-2 -d '.')
fi
# run ./gradlew copyDependantLibs to get all dependant jars in a local dir
shopt -s nullglob
if [ -z "$UPGRADE_KAFKA_STREAMS_TEST_VERSION" ]; then
for dir in "$base_dir"/core/build/dependant-libs-${SCALA_VERSION}*;
do
CLASSPATH="$CLASSPATH:$dir/*"
done
fi
for file in "$base_dir"/examples/build/libs/kafka-examples*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
if [ -z "$UPGRADE_KAFKA_STREAMS_TEST_VERSION" ]; then
clients_lib_dir=$(dirname $0)/../clients/build/libs
streams_lib_dir=$(dirname $0)/../streams/build/libs
streams_dependant_clients_lib_dir=$(dirname $0)/../streams/build/dependant-libs-${SCALA_VERSION}
else
clients_lib_dir=/opt/kafka-$UPGRADE_KAFKA_STREAMS_TEST_VERSION/libs
streams_lib_dir=$clients_lib_dir
streams_dependant_clients_lib_dir=$streams_lib_dir
fi
for file in "$clients_lib_dir"/kafka-clients*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
for file in "$streams_lib_dir"/kafka-streams*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
if [ -z "$UPGRADE_KAFKA_STREAMS_TEST_VERSION" ]; then
for file in "$base_dir"/streams/examples/build/libs/kafka-streams-examples*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
else
VERSION_NO_DOTS=`echo $UPGRADE_KAFKA_STREAMS_TEST_VERSION | sed 's/\.//g'`
SHORT_VERSION_NO_DOTS=${VERSION_NO_DOTS:0:((${#VERSION_NO_DOTS} - 1))} # remove last char, ie, bug-fix number
for file in "$base_dir"/streams/upgrade-system-tests-$SHORT_VERSION_NO_DOTS/build/libs/kafka-streams-upgrade-system-tests*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$file":"$CLASSPATH"
fi
done
if [ "$SHORT_VERSION_NO_DOTS" = "0100" ]; then
CLASSPATH="/opt/kafka-$UPGRADE_KAFKA_STREAMS_TEST_VERSION/libs/zkclient-0.8.jar":"$CLASSPATH"
CLASSPATH="/opt/kafka-$UPGRADE_KAFKA_STREAMS_TEST_VERSION/libs/zookeeper-3.4.6.jar":"$CLASSPATH"
fi
if [ "$SHORT_VERSION_NO_DOTS" = "0101" ]; then
CLASSPATH="/opt/kafka-$UPGRADE_KAFKA_STREAMS_TEST_VERSION/libs/zkclient-0.9.jar":"$CLASSPATH"
CLASSPATH="/opt/kafka-$UPGRADE_KAFKA_STREAMS_TEST_VERSION/libs/zookeeper-3.4.8.jar":"$CLASSPATH"
fi
fi
for file in "$streams_dependant_clients_lib_dir"/rocksdb*.jar;
do
CLASSPATH="$CLASSPATH":"$file"
done
for file in "$streams_dependant_clients_lib_dir"/*hamcrest*.jar;
do
CLASSPATH="$CLASSPATH":"$file"
done
for file in "$base_dir"/shell/build/libs/kafka-shell*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
for dir in "$base_dir"/shell/build/dependant-libs-${SCALA_VERSION}*;
do
CLASSPATH="$CLASSPATH:$dir/*"
done
for file in "$base_dir"/tools/build/libs/kafka-tools*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
for dir in "$base_dir"/tools/build/dependant-libs-${SCALA_VERSION}*;
do
CLASSPATH="$CLASSPATH:$dir/*"
done
for cc_pkg in "api" "transforms" "runtime" "file" "mirror" "mirror-client" "json" "tools" "basic-auth-extension"
do
for file in "$base_dir"/connect/${cc_pkg}/build/libs/connect-${cc_pkg}*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
if [ -d "$base_dir/connect/${cc_pkg}/build/dependant-libs" ] ; then
CLASSPATH="$CLASSPATH:$base_dir/connect/${cc_pkg}/build/dependant-libs/*"
fi
done
# classpath addition for release
for file in "$base_dir"/libs/*;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
for file in "$base_dir"/core/build/libs/kafka_${SCALA_BINARY_VERSION}*.jar;
do
if should_include_file "$file"; then
CLASSPATH="$CLASSPATH":"$file"
fi
done
shopt -u nullglob
if [ -z "$CLASSPATH" ] ; then
echo "Classpath is empty. Please build the project first e.g. by running './gradlew jar -PscalaVersion=$SCALA_VERSION'"
exit 1
fi
# JMX settings
if [ -z "$KAFKA_JMX_OPTS" ]; then
KAFKA_JMX_OPTS="-Dcom.sun.management.jmxremote -Dcom.sun.management.jmxremote.authenticate=false -Dcom.sun.management.jmxremote.ssl=false "
fi
# JMX port to use
ISKAFKASERVER="false"
if [[ "$*" =~ "kafka.Kafka" ]]; then
ISKAFKASERVER="true"
fi
if [ $JMX_PORT ] && [ -z "$ISKAFKASERVER" ]; then
KAFKA_JMX_OPTS="$KAFKA_JMX_OPTS -Dcom.sun.management.jmxremote.port=$JMX_PORT "
fi
# Log directory to use
if [ "x$LOG_DIR" = "x" ]; then
LOG_DIR="$base_dir/logs"
fi
# Log4j settings
if [ -z "$KAFKA_LOG4J_OPTS" ]; then
# Log to console. This is a tool.
LOG4J_DIR="$base_dir/config/tools-log4j.properties"
# If Cygwin is detected, LOG4J_DIR is converted to Windows format.
(( CYGWIN )) && LOG4J_DIR=$(cygpath --path --mixed "${LOG4J_DIR}")
KAFKA_LOG4J_OPTS="-Dlog4j.configuration=file:${LOG4J_DIR}"
else
# create logs directory
if [ ! -d "$LOG_DIR" ]; then
mkdir -p "$LOG_DIR"
fi
fi
# If Cygwin is detected, LOG_DIR is converted to Windows format.
(( CYGWIN )) && LOG_DIR=$(cygpath --path --mixed "${LOG_DIR}")
KAFKA_LOG4J_OPTS="-Dkafka.logs.dir=$LOG_DIR $KAFKA_LOG4J_OPTS"
# Generic jvm settings you want to add
if [ -z "$KAFKA_OPTS" ]; then
KAFKA_OPTS=""
fi
# Set Debug options if enabled
if [ "x$KAFKA_DEBUG" != "x" ]; then
# Use default ports
DEFAULT_JAVA_DEBUG_PORT="5005"
if [ -z "$JAVA_DEBUG_PORT" ]; then
JAVA_DEBUG_PORT="$DEFAULT_JAVA_DEBUG_PORT"
fi
# Use the defaults if JAVA_DEBUG_OPTS was not set
DEFAULT_JAVA_DEBUG_OPTS="-agentlib:jdwp=transport=dt_socket,server=y,suspend=${DEBUG_SUSPEND_FLAG:-n},address=$JAVA_DEBUG_PORT"
if [ -z "$JAVA_DEBUG_OPTS" ]; then
JAVA_DEBUG_OPTS="$DEFAULT_JAVA_DEBUG_OPTS"
fi
echo "Enabling Java debug options: $JAVA_DEBUG_OPTS"
KAFKA_OPTS="$JAVA_DEBUG_OPTS $KAFKA_OPTS"
fi
# Which java to use
if [ -z "$JAVA_HOME" ]; then
JAVA="java"
else
JAVA="$JAVA_HOME/bin/java"
fi
# Memory options
if [ -z "$KAFKA_HEAP_OPTS" ]; then
KAFKA_HEAP_OPTS="-Xmx256M"
fi
# JVM performance options
# MaxInlineLevel=15 is the default since JDK 14 and can be removed once older JDKs are no longer supported
if [ -z "$KAFKA_JVM_PERFORMANCE_OPTS" ]; then
KAFKA_JVM_PERFORMANCE_OPTS="-server -XX:+UseG1GC -XX:MaxGCPauseMillis=20 -XX:InitiatingHeapOccupancyPercent=35 -XX:+ExplicitGCInvokesConcurrent -XX:MaxInlineLevel=15 -Djava.awt.headless=true"
fi
while [ $# -gt 0 ]; do
COMMAND=$1
case $COMMAND in
-name)
DAEMON_NAME=$2
CONSOLE_OUTPUT_FILE=$LOG_DIR/$DAEMON_NAME.out
shift 2
;;
-loggc)
if [ -z "$KAFKA_GC_LOG_OPTS" ]; then
GC_LOG_ENABLED="true"
fi
shift
;;
-daemon)
DAEMON_MODE="true"
shift
;;
*)
break
;;
esac
done
# GC options
GC_FILE_SUFFIX='-gc.log'
GC_LOG_FILE_NAME=''
if [ "x$GC_LOG_ENABLED" = "xtrue" ]; then
GC_LOG_FILE_NAME=$DAEMON_NAME$GC_FILE_SUFFIX
# The first segment of the version number, which is '1' for releases before Java 9
# it then becomes '9', '10', ...
# Some examples of the first line of `java --version`:
# 8 -> java version "1.8.0_152"
# 9.0.4 -> java version "9.0.4"
# 10 -> java version "10" 2018-03-20
# 10.0.1 -> java version "10.0.1" 2018-04-17
# We need to match to the end of the line to prevent sed from printing the characters that do not match
JAVA_MAJOR_VERSION=$("$JAVA" -version 2>&1 | sed -E -n 's/.* version "([0-9]*).*$/\1/p')
if [[ "$JAVA_MAJOR_VERSION" -ge "9" ]] ; then
KAFKA_GC_LOG_OPTS="-Xlog:gc*:file=$LOG_DIR/$GC_LOG_FILE_NAME:time,tags:filecount=10,filesize=100M"
else
KAFKA_GC_LOG_OPTS="-Xloggc:$LOG_DIR/$GC_LOG_FILE_NAME -verbose:gc -XX:+PrintGCDetails -XX:+PrintGCDateStamps -XX:+PrintGCTimeStamps -XX:+UseGCLogFileRotation -XX:NumberOfGCLogFiles=10 -XX:GCLogFileSize=100M"
fi
fi
# Remove a possible colon prefix from the classpath (happens at lines like `CLASSPATH="$CLASSPATH:$file"` when CLASSPATH is blank)
# Syntax used on the right side is native Bash string manipulation; for more details see
# http://tldp.org/LDP/abs/html/string-manipulation.html, specifically the section titled "Substring Removal"
CLASSPATH=${CLASSPATH#:}
# If Cygwin is detected, classpath is converted to Windows format.
(( CYGWIN )) && CLASSPATH=$(cygpath --path --mixed "${CLASSPATH}")
# Launch mode
if [ "x$DAEMON_MODE" = "xtrue" ]; then
nohup "$JAVA" $KAFKA_HEAP_OPTS $KAFKA_JVM_PERFORMANCE_OPTS $KAFKA_GC_LOG_OPTS $KAFKA_JMX_OPTS $KAFKA_LOG4J_OPTS -cp "$CLASSPATH" $KAFKA_OPTS "$@" > "$CONSOLE_OUTPUT_FILE" 2>&1 < /dev/null &
else
exec "$JAVA" $KAFKA_HEAP_OPTS $KAFKA_JVM_PERFORMANCE_OPTS $KAFKA_GC_LOG_OPTS $KAFKA_JMX_OPTS $KAFKA_LOG4J_OPTS -cp "$CLASSPATH" $KAFKA_OPTS "$@"
fi
镜像部署
- 新建zookeeper镜像文件:zk-docker-compose.yml
services:
zook1:
image: zookeeper:latest
#restart: always #自动重新启动
hostname: zook1
container_name: zook1 #容器名称,方便在rancher中显示有意义的名称
ports:
- 2183:2181 #将本容器的zookeeper默认端口号映射出去
volumes: # 挂载数据卷 前面是宿主机即本机的目录位置,后面是docker的目录
- "/Users/konsy/Development/volume/zkcluster/zook1/data:/data"
- "/Users/konsy/Development/volume/zkcluster/zook1/datalog:/datalog"
- "/Users/konsy/Development/volume/zkcluster/zook1/logs:/logs"
- "/root/kafka/kafka-sasl/:/opt/zookeeper/secrets/" #映射账号密码配置文件
environment:
ZOO_MY_ID: 1 #即是zookeeper的节点值,也是kafka的brokerid值
ZOO_SERVERS: server.1=zook1:2888:3888;2181 server.2=zook2:2888:3888;2181 server.3=zook3:2888:3888;2181
ZOO_TLS_QUORUM_CLIENT_AUTH: need
SERVER_JVMFLAGS: -Djava.security.auth.login.config=/opt/zookeeper/secrets/server_jass.conf #指定账号密码配置文件地址
networks:
kafka-net:
ipv4_address: 172.20.0.11
zook2:
image: zookeeper:latest
#restart: always #自动重新启动
hostname: zook2
container_name: zook2 #容器名称,方便在rancher中显示有意义的名称
ports:
- 2184:2181 #将本容器的zookeeper默认端口号映射出去
volumes:
- "/Users/konsy/Development/volume/zkcluster/zook2/data:/data"
- "/Users/konsy/Development/volume/zkcluster/zook2/datalog:/datalog"
- "/Users/konsy/Development/volume/zkcluster/zook2/logs:/logs"
- "/root/kafka/kafka-sasl/:/opt/zookeeper/secrets/"
environment:
ZOO_MY_ID: 2 #即是zookeeper的节点值,也是kafka的brokerid值
ZOO_SERVERS: server.1=zook1:2888:3888;2181 server.2=zook2:2888:3888;2181 server.3=zook3:2888:3888;2181
ZOO_TLS_QUORUM_CLIENT_AUTH: need
SERVER_JVMFLAGS: -Djava.security.auth.login.config=/opt/zookeeper/secrets/server_jass.conf
networks:
kafka-net:
ipv4_address: 172.20.0.12
zook3:
image: zookeeper:latest
#restart: always #自动重新启动
hostname: zook3
container_name: zook3 #容器名称,方便在rancher中显示有意义的名称
ports:
- 2185:2181 #将本容器的zookeeper默认端口号映射出去
volumes:
- "/Users/konsy/Development/volume/zkcluster/zook3/data:/data"
- "/Users/konsy/Development/volume/zkcluster/zook3/datalog:/datalog"
- "/Users/konsy/Development/volume/zkcluster/zook3/logs:/logs"
- "/root/kafka/kafka-sasl/:/opt/zookeeper/secrets/"
environment:
ZOO_MY_ID: 3 #即是zookeeper的节点值,也是kafka的brokerid值
ZOO_SERVERS: server.1=zook1:2888:3888;2181 server.2=zook2:2888:3888;2181 server.3=zook3:2888:3888;2181
ZOO_TLS_QUORUM_CLIENT_AUTH: need
SERVER_JVMFLAGS: -Djava.security.auth.login.config=/opt/zookeeper/secrets/server_jass.conf
networks:
kafka-net:
ipv4_address: 172.20.0.13
networks:
kafka-net:
external: true
- 执行脚本部署zookeeper至Docker
docker compose -p zookeeper -f ./zk-docker-compose.yml up -d
- 新建Kafka集群配置文件:kafka-docker-compose.yml
services:
kafka1:
image: docker.io/wurstmeister/kafka
#restart: always #自动重新启动
hostname: 172.20.0.14
container_name: kafka1
ports:
- 9093:9093
volumes:
- /Users/konsy/Development/volume/kafka/kafka1/wurstmeister/kafka:/wurstmeister/kafka
- /Users/konsy/Development/volume/kafka/kafka1/kafka:/kafka
- /root/kafka/kafka-sasl/:/opt/kafka/secrets/
- /root/kafka/kafka-run-class.sh:/opt/kafka_2.13-2.8.1/bin/kafka-run-class.sh
environment:
KAFKA_BROKER_ID: 1
KAFKA_LISTENERS: PLAINTEXT://:9093
KAFKA_ADVERTISED_LISTENERS: PLAINTEXT://192.168.198.131:9093
KAFKA_INTER_BROKER_LISTENER_NAME: PLAINTEXT
KAFKA_SASL_MECHANISM_INTER_BROKER_PROTOCOL: PLAIN
KAFKA_SASL_ENABLED_MECHANISMS: PLAIN
KAFKA_AUTHORIZER_CLASS_NAME: kafka.security.auth.SimpleAclAuthorizer
KAFKA_ALLOW_EVERYONE_IF_NO_ACL_FOUND: "true"
KAFKA_ZOOKEEPER_CONNECT: zook1:2181,zook2:2181,zook3:2181
ALLOW_PLAINTEXT_LISTENER : 'yes'
JMX_PORT: 9999 #开放JMX监控端口,来监测集群数据
KAFKA_OPTS: -Djava.security.auth.login.config=/opt/kafka/secrets/server_jass.conf
external_links:
- zook1
- zook2
- zook3
networks:
kafka-net:
ipv4_address: 172.20.0.14
kafka2:
image: docker.io/wurstmeister/kafka
#restart: always #自动重新启动
hostname: 172.20.0.15
container_name: kafka2
ports:
- 9094:9094
volumes:
- /Users/konsy/Development/volume/kafka/kafka1/wurstmeister/kafka:/wurstmeister/kafka
- /Users/konsy/Development/volume/kafka/kafka1/kafka:/kafka
- /root/kafka/kafka-sasl/:/opt/kafka/secrets/
- /root/kafka/kafka-run-class.sh:/opt/kafka_2.13-2.8.1/bin/kafka-run-class.sh
environment:
KAFKA_BROKER_ID: 2
KAFKA_LISTENERS: PLAINTEXT://:9094
KAFKA_ADVERTISED_LISTENERS: PLAINTEXT://192.168.198.131:9094
KAFKA_INTER_BROKER_LISTENER_NAME: PLAINTEXT
KAFKA_SASL_MECHANISM_INTER_BROKER_PROTOCOL: PLAIN
KAFKA_SASL_ENABLED_MECHANISMS: PLAIN
KAFKA_AUTHORIZER_CLASS_NAME: kafka.security.auth.SimpleAclAuthorizer
KAFKA_ALLOW_EVERYONE_IF_NO_ACL_FOUND: "true"
KAFKA_ZOOKEEPER_CONNECT: zook1:2181,zook2:2181,zook3:2181
ALLOW_PLAINTEXT_LISTENER : 'yes'
JMX_PORT: 9999 #开放JMX监控端口,来监测集群数据
KAFKA_OPTS: -Djava.security.auth.login.config=/opt/kafka/secrets/server_jass.conf
external_links:
- zook1
- zook2
- zook3
networks:
kafka-net:
ipv4_address: 172.20.0.15
kafka3:
image: docker.io/wurstmeister/kafka
#restart: always #自动重新启动
hostname: 172.20.0.16
container_name: kafka3
ports:
- 9095:9095
volumes:
- /Users/konsy/Development/volume/kafka/kafka1/wurstmeister/kafka:/wurstmeister/kafka
- /Users/konsy/Development/volume/kafka/kafka1/kafka:/kafka
- /root/kafka/kafka-sasl/:/opt/kafka/secrets/
- /root/kafka/kafka-run-class.sh:/opt/kafka_2.13-2.8.1/bin/kafka-run-class.sh
environment:
KAFKA_BROKER_ID: 3
KAFKA_LISTENERS: PLAINTEXT://:9095
KAFKA_ADVERTISED_LISTENERS: PLAINTEXT://192.168.198.131:9095
KAFKA_INTER_BROKER_LISTENER_NAME: PLAINTEXT
KAFKA_SASL_MECHANISM_INTER_BROKER_PROTOCOL: PLAIN
KAFKA_SASL_ENABLED_MECHANISMS: PLAIN
KAFKA_AUTHORIZER_CLASS_NAME: kafka.security.auth.SimpleAclAuthorizer
KAFKA_ALLOW_EVERYONE_IF_NO_ACL_FOUND: "true"
KAFKA_ZOOKEEPER_CONNECT: zook1:2181,zook2:2181,zook3:2181
ALLOW_PLAINTEXT_LISTENER : 'yes'
JMX_PORT: 9999 #开放JMX监控端口,来监测集群数据
KAFKA_OPTS: -Djava.security.auth.login.config=/opt/kafka/secrets/server_jass.conf
external_links:
- zook1
- zook2
- zook3
networks:
kafka-net:
ipv4_address: 172.20.0.16
networks:
kafka-net:
external: true
- 执行脚本部署kafka至Docker
docker compose -f ./kafka-docker-compose.yml up -d
- 新建kafka-manager配置文件:kafka-manager-docker-compose.yml
services:
kafka-manager:
image: scjtqs/kafka-manager:latest
restart: always
hostname: kafka-manager
container_name: kafka-manager
ports:
- 9000:9000
external_links: # 连接本compose文件以外的container
- zook1
- zook2
- zook3
- 172.20.0.14
- 172.20.0.15
- 172.20.0.16
environment:
ZK_HOSTS: zook1:2181,zook2:2181,zook3:2181
KAFKA_BROKERS: 172.20.0.14:9093,172.20.0.15:9094,172.20.0.16:9095
APPLICATION_SECRET: letmein
KM_ARGS: -Djava.net.preferIPv4Stack=true
networks:
kafka-net:
ipv4_address: 172.20.10.10
networks:
kafka-net:
external: true
- 执行脚本部署kafka-manager至Docker
docker compose -f ./kafka-manager-docker-compose.yml up -d
- 配置Cluster
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