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在笔者系列文章中微服务配置隔离已经完成服务之间的配置隔离,服务整体来说是已经通了。
为了方便后续测试已经环境统一,笔者本章节会对服务进行容器化部署。由于服务器性能问题,本次部署采用maven
完成镜像构建,结合docker-compose
完成容器的创建。
我们后续的镜像创建需要基于2376端口,所以我们需要执行下面这段命令,对docker.service
进行编辑
vim /lib/systemd/system/docker.service
可以看到笔者在截图位置处增加了一行-H tcp://0.0.0.0:2376 -H unix:///var/run/docker.sock
完成后重启docker
服务并开放2376
端口(因为笔者服务器是阿里云服务器所以这一步相对方便一些,就不多做介绍了)
systemctl daemon-reload
systemctl restart docker.service
为了测试连通性,我们在本地键入
curl http://ip:2376/info
若输出下面这样一段文字,则说明当前设置生效了
{"ID":"IIPN:J265:YCRR:EQVR:FTPY:GBUK:VWES:MWJU:6TBH:NSFP:L7BU:K3RJ","Containers":6,"ContainersRunning":6,"ContainersPaused":0,"ContainersStopped":0,"Images":56,"Driver":"overlay2","DriverStatus":[["Backing Filesystem","extfs"],["Supports d_
type","true"],["Native Overlay Diff","false"],["userxattr","false"]],"Plugins":{"Volume":["local"],"Network":["bridge","host","ipvlan","macvlan","null","overlay"],"Authorization":null,"Log":["awslogs","fluentd","gcplogs","gelf","journald","
json-file","local","logentries","splunk","syslog"]},"MemoryLimit":true,"SwapLimit":true,"KernelMemory":true,"KernelMemoryTCP":true,"CpuCfsPeriod":true,"CpuCfsQuota":true,"CPUShares":true,"CPUSet":true,"PidsLimit":true,"IPv4Forwarding":true,
"BridgeNfIptables":true,"BridgeNfIp6tables":true,"Debug":false,"NFd":74,"OomKillDisable":true,"NGoroutines":72,"SystemTime":"2023-02-05T17:56:16.36473356+08:00","LoggingDriver":"json-file","CgroupDriver":"cgroupfs","CgroupVersion":"1","NEve
ntsListener":0,"KernelVersion":"4.19.91-24.1.al7.x86_64","OperatingSystem":"Alibaba Cloud Linux (Aliyun Linux) 2.1903 LTS (Hunting Beagle)","OSVersion":"2.1903","OSType":"linux","Architecture":"x86_64","IndexServerAddress":"https://index.do
cker.io/v1/","RegistryConfig":{"AllowNondistributableArtifactsCIDRs":[],"AllowNondistributableArtifactsHostnames":[],"InsecureRegistryCIDRs":["127.0.0.0/8"],"IndexConfigs":{"docker.io":{"Name":"docker.io","Mirrors":["https://fy707np5.mirror
.aliyuncs.com/"],"Secure":true,"Official":true}},"Mirrors":["https://fy707np5.mirror.aliyuncs.com/"]},"NCPU":1,"MemTotal":2043502592,"GenericResources":null,"DockerRootDir":"/var/lib/docker","HttpProxy":"","HttpsProxy":"","NoProxy":"","Name
":"iZ8vb7bhe4b8nhhhpavhwpZ","Labels":[],"ExperimentalBuild":false,"ServerVersion":"20.10.23","Runtimes":{"io.containerd.runc.v2":{"path":"runc"},"io.containerd.runtime.v1.linux":{"path":"runc"},"runc":{"path":"runc"}},"DefaultRuntime":"runc
","Swarm":{"NodeID":"","NodeAddr":"","LocalNodeState":"inactive","ControlAvailable":false,"Error":"","RemoteManagers":null},"LiveRestoreEnabled":false,"Isolation":"","InitBinary":"docker-init","ContainerdCommit":{"ID":"5b842e528e99d4d4c1686
467debf2bd4b88ecd86","Expected":"5b842e528e99d4d4c1686467debf2bd4b88ecd86"},"RuncCommit":{"ID":"v1.1.4-0-g5fd4c4d","Expected":"v1.1.4-0-g5fd4c4d"},"InitCommit":{"ID":"de40ad0","Expected":"de40ad0"},"SecurityOptions":["name=seccomp,profile=d
efault"],"Warnings":["WARNING: API is accessible on http://0.0.0.0:2376 without encryption.\n Access to the remote API is equivalent to root access on the host. Refer\n to the 'Docker daemon attack surface' section in the do
cumentation for\n more information: https://docs.docker.com/go/attack-surface/"]}
接下来我们就可以对自己的服务进行配置,就以笔者的cloud-gateway
为例,模块截图如下所示:
从而完成基于maven
打包生成镜像并上传到服务器了,首先在maven
插件中引入下面这段依赖,读者只需按需修改下面的dockerHost
即可,别的配置若无非必须则可以不动。
<plugin>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-maven-plugin</artifactId>
<executions>
<execution>
<goals>
<goal>repackage</goal>
</goals>
</execution>
</executions>
</plugin>
<plugin>
<groupId>com.spotify</groupId>
<artifactId>docker-maven-plugin</artifactId>
<version>1.2.2</version>
<configuration>
<imageName>${project.artifactId}</imageName>
<imageTags>
<imageTag>latest</imageTag>
</imageTags>
<!--指定Dockerfile路径-->
<dockerDirectory>${project.basedir}/src/main/docker</dockerDirectory>
<dockerHost>http://ip:2376</dockerHost>
<resources>
<resource>
<targetPath>/</targetPath>
<!--${project.basedir}/target-->
<directory>${project.build.directory}</directory>
<!--${project.artifactId}-${project.version}-->
<include>${project.build.finalName}.jar</include>
</resource>
</resources>
</configuration>
</plugin>
我们上面的配置指明Dockerfile
的路径为${project.basedir}/src/main/docker
,所以我们要在main目录下创建一个docker
文件夹。
在该文件夹下创建Dockerfile
文件,以笔者为例笔者的cloud-gateway
打包命令,就如下图所示(注意ENTRYPOINT 指定jvm参数笔者采用exec格式的,原本采用数组格式的会报错,笔者也没有去纠结原因)
:
FROM openjdk:8-jdk-alpine
VOLUME /tmp
ADD cloud-gateway-0.0.1-SNAPSHOT.jar app.jar
RUN sh -c 'touch /app.jar'
# 调整JVM参数堆区空间大小,节省服务内存空间。
ENTRYPOINT exec java -Xmx32m -Xms32m -Djava.security.egd=file:/dev/./urandom -jar /app.jar
完成后我们就可以到当前模块的pom
文件的目录使用cmd
键入下面这条命令,完成镜像构建
mvn clean package docker:build -DskipTests
如下图所示,一旦出现BUILD SUCCESS
就说明镜像构建成功了
注意笔者在打包过程中遇到了一个报错:Execution repackage of goal org.springframework.boot:spring-boot-maven-plugin
。查阅网上资料得知,不是spring boot
引用不可添加下面这个插件,去掉后即可解决。
<plugin>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-maven-plugin</artifactId>
</plugin>
我们到服务器键入
docker images
可以看到若出现我们打包的镜像名称说明打包成功了。同理我们完成其他服务器的插件引入和dockerfile
编写。
笔者为了启动方便这里也编写了一个docker-compose
文件,文件名为cloud-service.yml
内容如下:
version: "3"
services:
cloud-gateway:
container_name: cloud-gateway
image: cloud-gateway:latest
ports:
- "8090:8090"
restart: always
account-service:
container_name: account-service
image: account-service:latest
ports:
- "9000:9000"
restart: always
到文件cloud-service.yml
下键入命令
docker-compose -f cloud-service.yml up -d
本地键入curl
命令,可以看到请求成功,说明本次服务器部署成功了。
curl ip:8090/account/getByCode/zsy
{"status":100,"message":"操作成功","data":{"id":1,"accountCode":"zsy","accountName":"zsy","amount":10000.00},"success":true,"timestamp":1675592778302}
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