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dxin
2025-11-15 18:18:21 +08:00
parent 2e0734afc8
commit 8cadbf8ba9
9 changed files with 939 additions and 5 deletions
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2
Dockerfile/java/admin_Dockerfile
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@@ -13,7 +13,7 @@ WORKDIR /app
COPY target/flymoon-admin.jar /app/flymoon-admin.jar
# 暴露应用端口根据实际端口修改如8070、9090等
EXPOSE 8070
EXPOSE 8080
# 默认启动环境sit可被覆盖外部使用-e or env SPRING_PROFILES_ACTIVE=xxx覆盖
ARG RUN_PROFILE=sit

70
Dockerfile/java/email_Dockerfile Normal file
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@@ -0,0 +1,70 @@
# # 使用官方 Java 8 精简镜像含JDK适合运行Spring Boot等Java应用
# FROM mirror.ccs.tencentyun.com/library/openjdk:8-jdk-slim AS runtime
# # 配置环境变量(解决中文乱码、时区问题)
# ENV LANG=C.UTF-8 \
# TZ=Asia/Shanghai \
# JAVA_OPTS=""
# # 创建应用工作目录
# WORKDIR /app
# # 复制主应用JAR 和 API JAR
# COPY /start/target/start-0.0.1-SNAPSHOT.jar /app/flymoon-email.jar
# RUN chmod 755 /app/flymoon-email.jar
# # 暴露应用端口(根据实际端口修改)
# EXPOSE 4997 4998
# # 默认启动环境sit可被覆盖外部使用-e or env SPRING_PROFILES_ACTIVE=xxx覆盖
# ARG RUN_PROFILE=sit-us
# ENV SPRING_PROFILES_ACTIVE=${RUN_PROFILE}
# # 启动命令支持外部传入JVM参数如 -Xms512m -Xmx1024m
# ENTRYPOINT ["sh", "-c", "java $JAVA_OPTS -jar /app/flymoon-email.jar --spring.profiles.active=${SPRING_PROFILES_ACTIVE}"]
# ---- Stage 1: Build with Maven ----
FROM maven:3.9.6-eclipse-temurin-8 AS builder
WORKDIR /build
# 先仅复制 pom.xml 用于依赖缓存
COPY pom.xml .
# 预下载所有依赖pom 不变就不会重新下载
RUN mvn -B dependency:go-offline
# 再复制源码
COPY src ./src
# Maven 构建配置变量可变us 或 cn, 默认为 us
ARG MAVEN_BUILD_PROFILE=us
RUN mvn clean package -Dmaven.test.skip=true -P${MAVEN_BUILD_PROFILE}
# ---- Stage 2: Runtime ----
FROM mirror.ccs.tencentyun.com/library/openjdk:8-jdk-slim AS runtime
WORKDIR /app
ENV LANG=C.UTF-8 \
TZ=Asia/Shanghai \
JAVA_OPTS=""
# 从构建阶段复制 JAR
COPY --from=builder /start/target/start-0.0.1-SNAPSHOT.jar /app/flymoon-email.jar
EXPOSE 4997 4998
# 运行时配置可变
ARG RUN_PROFILE=sit-us
ENV SPRING_PROFILES_ACTIVE=${RUN_PROFILE}
ENTRYPOINT ["sh", "-c", "java $JAVA_OPTS -jar /app/app.jar --spring.profiles.active=${SPRING_PROFILES_ACTIVE}"]

231
SCM/构建镜像/build_image_flymoon_email.groovy Normal file
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pipeline {
agent any
tools{
maven 'mvn3.8.8'
jdk 'jdk21'
}
parameters {
gitParameter(
branchFilter: 'origin/(.*)',
defaultValue: 'dxin',
name: 'Code_branch',
type: 'PT_BRANCH_TAG',
selectedValue: 'DEFAULT',
sortMode: 'NONE',
description: '选择代码分支: ',
quickFilterEnabled: true,
tagFilter: '*',
listSize: "1"
)
choice(
name: 'NAME_SPACES',
choices: ['sit', 'test', 'prod'],
description: '选择存放镜像的仓库命名空间:'
)
string(
name: 'CUSTOM_TAG',
defaultValue: '',
description: '可选:自定义镜像 Tag (字母、数字、点、下划线、短横线), 留空则自动生成 “ v+构建次数_分支名_短哈希_构建时间 ”'
)
}
environment {
REGISTRY = "uswccr.ccs.tencentyun.com" // 镜像仓库地址
NAMESPACE = "lessie${params.NAME_SPACES}" // 命名空间根据choices的选择拼接
IMAGE_NAME = "flymoon-admin" // 镜像名(固定前缀)
CREDENTIALS_ID = "dxin_img_hub_auth" // 容器仓库凭证ID
}
stages {
stage('拉取代码') {
steps {
git branch: "${params.Code_branch}",
credentialsId: 'fly_gitlab_auth',
url: 'http://106.53.194.199/root/fly_moon_admin.git'
}
}
stage('获取信息') {
steps {
script {
// 获取最近一次提交的哈希值短格式前8位
env.GIT_COMMIT_SHORT = sh(script: 'git rev-parse --short HEAD',returnStdout: true).trim()
// 获取最近一次提交的作者
env.GIT_AUTHOR = sh(script: 'git log -1 --pretty=format:%an',returnStdout: true).trim()
// 获取最近一次提交的时间(格式化)
env.GIT_COMMIT_TIME = sh(
script: 'git log -1 --pretty=format:%ct | xargs -I {} date -d @{} +%Y%m%d-%H%M%S',
returnStdout: true
).trim()
// 获取最近一次提交的备注信息(转义特殊字符,避免构建失败)
env.GIT_COMMIT_MSG = sh(script: 'git log -1 --pretty=format:%s | sed -e \'s/"/\\"/g\'', returnStdout: true).trim()
// Jenkins构建次数
def buildNumber = env.BUILD_NUMBER // Jenkins内置变量直接获取当前Job的构建序号
// 当前分支名(处理/为-如feature/docker_1015 → feature-docker_1015
def branchName = sh(script: 'git rev-parse --abbrev-ref HEAD', returnStdout: true).trim()
def formattedBranch = branchName.replace('/', '-').replace('_', '-') // 替换分支名中的/和_为-
// 构建时间格式202510181215年-月-日-时-分,无分隔符)
def buildTime = sh(script: 'date +%Y%m%d%H%M', returnStdout: true).trim()
def defaultTag = "v${buildNumber}_${formattedBranch}_${GIT_COMMIT_SHORT}_${buildTime}"
def customTag = params.CUSTOM_TAG?.trim()
def tagPattern = ~/^[a-zA-Z0-9._-]+$/
// 判断最终Tag
if (customTag && customTag ==~ tagPattern) {
echo "✅ 使用自定义镜像 Tag: ${customTag}"
env.IMAGE_TAG = customTag
} else if (customTag) {
echo "⚠️ 自定义 Tag '${customTag}' 不符合规范,将使用默认生成的 Tag: ${defaultTag}"
def confirmed = true
timeout(time: 1, unit: 'MINUTES') {
try {
input(
message: """⚠️ Tag 命名不规范:
${customTag}
将使用自动生成的 Tag
${defaultTag}
是否继续构建?""",
ok: '确认'
)
} catch (err) {
// 用户点击“取消”或中断
echo "🚫 用户取消构建"
confirmed = false
}
}
if (confirmed) {
echo "✅ 用户确认使用自动生成的 Tag${defaultTag}"
env.IMAGE_TAG = defaultTag
} else {
error("流水线已终止。")
}
} else {
env.IMAGE_TAG = defaultTag
echo "未输入自定义 Tag, 使用自动生成规则: ${env.IMAGE_TAG}"
}
}
}
}
stage('Maven 编译') {
steps {
sh "cd ${WORKSPACE}/ && mvn clean install -Dmaven.test.skip=true"
}
}
stage('登录容器仓库') {
steps {
withCredentials([usernamePassword(
credentialsId: env.CREDENTIALS_ID,
usernameVariable: 'REGISTRY_USER',
passwordVariable: 'REGISTRY_PWD'
)]) {
sh '''
echo "$REGISTRY_PWD" | docker login ${REGISTRY} -u ${REGISTRY_USER} --password-stdin
'''
}
}
}
stage('构建容器镜像') {
steps {
script {
// 构建镜像,添加标签信息
sh """
docker build -t ${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG} \
--label "git-branch='${params.Code_branch}'" \
--label "git-commit='${GIT_COMMIT_SHORT}'" \
--label "git-author='${GIT_AUTHOR}'" \
--label "git-message='${GIT_COMMIT_MSG}'" \
--label "build-time='${GIT_COMMIT_TIME}'" \
.
"""
}
}
}
stage('推送镜像到仓库') {
steps {
script {
sh "docker push ${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG}"
echo "推送镜像成功:${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG}"
}
}
}
}
post {
always {
script {
def keepCount = 2
echo "开始清理本地旧镜像,仅保留最近 ${keepCount} 个构建版本"
def imagePrefix = "${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}"
// 获取所有镜像(按创建时间排序,越新的越前)
// 格式Repository:Tag ImageID CreatedAt
def allImagesRaw = sh(script: "docker images ${imagePrefix} --format '{{.Repository}}:{{.Tag}} {{.ID}} {{.CreatedAt}}' | sort -rk3", returnStdout: true).trim()
if (!allImagesRaw) {
echo "未找到任何镜像,无需清理"
return
}
def allImages = allImagesRaw.split('\n')
if (allImages.size() <= keepCount) {
echo "当前镜像数未超过 ${keepCount} 个,无需清理"
return
}
def oldImages = allImages.drop(keepCount)
echo "发现 ${oldImages.size()} 个旧镜像需要清理"
oldImages.each { line ->
echo " ${line}"
}
oldImages.each { line ->
def parts = line.split(' ')
def imageTag = parts[0]
def imageId = parts.size() > 1 ? parts[1] : ""
// 对于标签为<none>的无效镜像使用镜像ID删除
if (imageTag.contains("<none>") && imageId) {
echo "删除无效镜像: ${imageId}"
sh(returnStatus: true, script: "docker rmi -f ${imageId} || true")
} else if (imageId) {
// 对于有标签的有效镜像优先使用镜像ID删除
echo "删除旧镜像: ${imageTag} (${imageId})"
sh(returnStatus: true, script: "docker rmi -f ${imageId} || true")
} else {
// 兜底方案,使用标签删除
echo "删除旧镜像: ${imageTag}"
sh(returnStatus: true, script: "docker rmi -f ${imageTag} || true")
}
}
echo "清理完成,当前镜像状态:"
sh """
docker images ${imagePrefix} --format 'table {{.Repository}}\\t{{.Tag}}\\t{{.CreatedAt}}\\t{{.Size}}'
"""
sh "docker logout ${REGISTRY}"
echo "容器仓库已登出,本地凭证已清理"
}
}
success {
// 输出构建结果
echo "成功!"
echo "镜像地址:${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG}"
echo "对应代码提交:${GIT_COMMIT_SHORT}${GIT_COMMIT_MSG}"
}
failure {
// 输出构建结果
echo "有步骤失败,请检查!"
}
}
}

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SCM/部署镜像/DM_s1_flymoon_admin.groovy Normal file
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@@ -0,0 +1,287 @@
pipeline {
agent any
parameters {
imageTag(
name: 'IMAGE_NAME',
description: '此处是 sit 镜像仓库命名空间内的镜像',
registry: 'https://uswccr.ccs.tencentyun.com',
image: 'lessiesit/lessie-sourcing-agents',
credentialId: 'dxin_img_hub_auth',
filter: '.*',
defaultTag: '',
verifySsl: true
)
booleanParam(
name: 'DEPLOY_AFTER_BUILD',
defaultValue: false,
description: '是否快速回滚上一个版本?'
)
}
environment {
KUBECONFIG = credentials('k8s-test-config-admin') // k8s 凭证 ID, Jenkins 中配置的凭证名称
Deployment_name = "s1-flymoon-admin-deployment" // 工作负载名
Pod_container_name = "s1-flymoon-admin" // pod内运行的容器名
K8s_namespace = "sit" // 这是k8s集群的命名空间
}
stages {
stage('拉取yaml') {
steps {
git branch: "opt",
credentialsId: 'fly_gitlab_auth',
url: 'http://106.53.194.199/opt/opt-config.git'
}
}
stage('获取信息') {
steps {
script {
// 获取最近一次提交的哈希值短格式前8位
env.GIT_COMMIT_SHORT = sh(script: 'git rev-parse --short HEAD',returnStdout: true).trim()
// 获取最近一次提交的作者
env.GIT_AUTHOR = sh(script: 'git log -1 --pretty=format:%an',returnStdout: true).trim()
// 获取最近一次提交的时间(格式化)
env.GIT_COMMIT_TIME = sh(
script: 'git log -1 --pretty=format:%ct | xargs -I {} date -d @{} +%Y%m%d-%H%M%S',
returnStdout: true
).trim()
// 获取最近一次提交的备注信息(转义特殊字符,避免构建失败)
env.GIT_COMMIT_MSG = sh(script: 'git log -1 --pretty=format:%s | sed -e \'s/"/\\"/g\'', returnStdout: true).trim()
// Jenkins构建次数
def buildNumber = env.BUILD_NUMBER // Jenkins内置变量直接获取当前Job的构建序号
// 当前分支名(处理/为-如feature/docker_1015 → feature-docker_1015
def branchName = sh(script: 'git rev-parse --abbrev-ref HEAD', returnStdout: true).trim()
def formattedBranch = branchName.replace('/', '-').replace('_', '-') // 替换分支名中的/和_为-
// 构建时间格式202510181215年-月-日-时-分,无分隔符)
def buildTime = sh(script: 'date +%Y%m%d%H%M', returnStdout: true).trim()
def defaultTag = "v${buildNumber}_${formattedBranch}_${GIT_COMMIT_SHORT}_${buildTime}"
def customTag = params.CUSTOM_TAG?.trim()
def tagPattern = ~/^[a-zA-Z0-9._-]+$/
// 判断最终Tag
if (customTag && customTag ==~ tagPattern) {
echo "✅ 使用自定义镜像 Tag: ${customTag}"
env.IMAGE_TAG = customTag
} else if (customTag) {
echo "⚠️ 自定义 Tag '${customTag}' 不符合规范,将使用默认生成的 Tag: ${defaultTag}"
def confirmed = true
timeout(time: 1, unit: 'MINUTES') {
try {
input(
message: """⚠️ Tag 命名不规范:
${customTag}
将使用自动生成的 Tag
${defaultTag}
是否继续构建?""",
ok: '确认'
)
} catch (err) {
// 用户点击“取消”或中断
echo "🚫 用户取消构建"
confirmed = false
}
}
if (confirmed) {
echo "✅ 用户确认使用自动生成的 Tag${defaultTag}"
env.IMAGE_TAG = defaultTag
} else {
error("流水线已终止。")
}
} else {
env.IMAGE_TAG = defaultTag
echo "未输入自定义 Tag, 使用自动生成规则: ${env.IMAGE_TAG}"
}
}
}
}
stage('Maven 编译') {
steps {
sh "cd ${WORKSPACE}/ && mvn clean install -Dmaven.test.skip=true"
}
}
stage('登录容器仓库') {
steps {
withCredentials([usernamePassword(
credentialsId: env.CREDENTIALS_ID,
usernameVariable: 'REGISTRY_USER',
passwordVariable: 'REGISTRY_PWD'
)]) {
sh '''
echo "$REGISTRY_PWD" | docker login ${REGISTRY} -u ${REGISTRY_USER} --password-stdin
'''
}
}
}
stage('构建容器镜像') {
steps {
script {
// 构建镜像,添加标签信息
sh """
docker build -t ${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG} \
--label "git-branch='${params.Code_branch}'" \
--label "git-commit='${GIT_COMMIT_SHORT}'" \
--label "git-author='${GIT_AUTHOR}'" \
--label "git-message='${GIT_COMMIT_MSG}'" \
--label "build-time='${GIT_COMMIT_TIME}'" \
.
"""
}
}
}
stage('推送镜像到仓库') {
steps {
script {
// 推送主镜像(带唯一 Tag
sh "docker push ${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG}"
echo "推送镜像成功:${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG}"
}
}
}
stage('部署到K8S') {
when {
expression { return params.DEPLOY_AFTER_BUILD }
}
steps {
sh """
echo "=== 更新 Deployment 镜像 ==="
kubectl set image deployment/${Deployment_name} ${Pod_container_name}=${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG} -n ${K8s_namespace}
echo "=== 添加注解 ==="
kubectl annotate deployment/${Deployment_name} kubernetes.io/change-cause="${GIT_COMMIT_MSG}" --overwrite -n ${K8s_namespace}
echo "=== 查看历史版本 ==="
kubectl rollout history deployment/${Deployment_name} -n ${K8s_namespace}
echo "=== 查看所使用的镜像 ==="
kubectl get deployment ${Deployment_name} -n ${K8s_namespace} -o=jsonpath='{.spec.template.spec.containers[*].image}'
"""
}
}
stage('检查部署情况') {
when {
expression { return params.DEPLOY_AFTER_BUILD }
}
steps {
echo "检测部署状态并验证新版本运行情况"
sh """
echo "=== 检查 Deployment 滚动更新状态 ==="
kubectl rollout status deployment/${Deployment_name} -n ${K8s_namespace} --timeout=180s
if [ \$? -ne 0 ]; then
echo "❌ 部署超时或失败,开始收集诊断信息..."
echo "=== 查看当前 Pods 状态 ==="
kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} -o wide
echo "=== 查看最近的事件 ==="
kubectl get events -n ${K8s_namespace} --sort-by=.metadata.creationTimestamp | tail -n 20
echo "=== 查看最近一个失败 Pod 的详细描述 ==="
FAILED_POD=\$(kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} --field-selector=status.phase!=Running -o jsonpath='{.items[0].metadata.name}')
if [ ! -z "\$FAILED_POD" ]; then
kubectl describe pod \$FAILED_POD -n ${K8s_namespace} || true
kubectl logs \$FAILED_POD -n ${K8s_namespace} --tail=50 || true
fi
echo "=== 回滚到上一个版本 ==="
kubectl rollout undo deployment/${Deployment_name} -n ${K8s_namespace}
exit 1
fi
echo "=== 检查 Pods 是否全部 Ready ==="
kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} -o wide
echo "=== 获取最新 Pod 名称 ==="
NEW_POD=\$(kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} --sort-by=.metadata.creationTimestamp -o jsonpath='{.items[-1].metadata.name}')
echo "=== 新 Pod 启动日志(最近20行) ==="
kubectl logs \$NEW_POD -n ${K8s_namespace} --tail=20 || true
echo "✅ 部署成功:\$NEW_POD 已正常运行"
"""
}
}
}
post {
always {
script {
def keepCount = 2
echo "开始清理本地旧镜像,仅保留最近 ${keepCount} 个构建版本"
def imagePrefix = "${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}"
// 获取所有镜像(按创建时间排序,越新的越前)
// 格式Repository:Tag ImageID CreatedAt
def allImagesRaw = sh(script: "docker images ${imagePrefix} --format '{{.Repository}}:{{.Tag}} {{.ID}} {{.CreatedAt}}' | sort -rk3", returnStdout: true).trim()
if (!allImagesRaw) {
echo "未找到任何镜像,无需清理"
return
}
def allImages = allImagesRaw.split('\n')
if (allImages.size() <= keepCount) {
echo "当前镜像数未超过 ${keepCount} 个,无需清理"
return
}
def oldImages = allImages.drop(keepCount)
echo "发现 ${oldImages.size()} 个旧镜像需要清理"
oldImages.each { line ->
echo " ${line}"
}
oldImages.each { line ->
def parts = line.split(' ')
def imageTag = parts[0]
def imageId = parts.size() > 1 ? parts[1] : ""
// 对于标签为<none>的无效镜像使用镜像ID删除
if (imageTag.contains("<none>") && imageId) {
echo "删除无效镜像: ${imageId}"
sh(returnStatus: true, script: "docker rmi -f ${imageId} || true")
} else if (imageId) {
// 对于有标签的有效镜像优先使用镜像ID删除
echo "删除旧镜像: ${imageTag} (${imageId})"
sh(returnStatus: true, script: "docker rmi -f ${imageId} || true")
} else {
// 兜底方案,使用标签删除
echo "删除旧镜像: ${imageTag}"
sh(returnStatus: true, script: "docker rmi -f ${imageTag} || true")
}
}
echo "清理完成,当前镜像状态:"
sh """
docker images ${imagePrefix} --format 'table {{.Repository}}\\t{{.Tag}}\\t{{.CreatedAt}}\\t{{.Size}}'
"""
sh "docker logout ${REGISTRY}"
echo "容器仓库已登出,本地凭证已清理"
}
}
success {
// 输出构建结果
echo "成功!"
echo "镜像地址:${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG}"
echo "对应代码提交:${GIT_COMMIT_SHORT}${GIT_COMMIT_MSG}"
}
failure {
// 输出构建结果
echo "有步骤失败,请检查!"
}
}
}

232
SCM/部署镜像/DM_s2_lessie_go_api.groovy Normal file
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pipeline {
agent any
parameters {
booleanParam(
name: 'DEPLOY_AFTER_BUILD',
defaultValue: false,
description: '是否快速回滚上一个版本?'
)
imageTag(
name: 'IMAGE_NAME',
description: '此处是 sit 镜像仓库内的 go 服务镜像',
registry: 'https://uswccr.ccs.tencentyun.com',
image: 'lessiesit/go_lessie-sourcing-api',
credentialId: 'dxin_img_hub_auth',
filter: '.*',
defaultTag: '',
verifySsl: true
)
}
environment {
KUBECONFIG = credentials('k8s-test-config-admin') // k8s 凭证 ID, Jenkins 中配置的凭证名称
Deployment_yaml = "/opt-config/lessie-ai/s2/s2-lessie-go-api.yaml"
Deployment_name = "s2-lessie-go-api-deployment"
K8s_namespace = "sit"
Pod_container_name = "s2-lessie-go-api"
}
stages {
stage('快速回滚上一版本') {
when {
expression { return params.DEPLOY_AFTER_BUILD == true }
}
steps {
script {
sh """
echo "=== 开始回滚到上一个版本 ==="
kubectl rollout undo deployment/${Deployment_name} -n ${K8s_namespace}
echo "=== 回滚中... ==="
kubectl rollout status deployment/${Deployment_name} -n ${K8s_namespace} --timeout=180s
echo "=== 查看所使用的镜像 ==="
kubectl get deployment ${Deployment_name} -n ${K8s_namespace} -o=jsonpath='{.spec.template.spec.containers[*].image}'
echo "=== 回滚完成 ==="
"""
}
}
}
stage('拉取yaml') {
when {
expression { return params.DEPLOY_AFTER_BUILD == false }
}
steps {
git branch: "opt",
credentialsId: 'fly_gitlab_auth',
url: 'http://106.53.194.199/opt/opt-config.git'
}
}
stage('修改YAML镜像') {
when {
expression { return params.DEPLOY_AFTER_BUILD == false }
}
steps {
script {
echo "=== 所选择镜像 tag: ${params.IMAGE_NAME} ==="
sh """
echo "=== 修改 Deployment YAML 中的镜像版本 ==="
sed -i 's#image:.*#image: ${params.IMAGE_NAME}#' ${Deployment_yaml}
"""
}
}
}
stage('部署到k8s') {
when {
expression { return params.DEPLOY_AFTER_BUILD == false }
}
steps {
script {
sh """
kubectl apply -f ${Deployment_yaml} -n ${K8s_namespace}
kubectl rollout status deployment/${Deployment_name} -n ${K8s_namespace} --timeout=180s
"""
}
}
}
stage('获取信息') {
steps {
script {
}
}
}
stage('部署到K8S') {
when {
expression { return params.DEPLOY_AFTER_BUILD }
}
steps {
sh """
echo "=== 更新 Deployment 镜像 ==="
kubectl set image deployment/${Deployment_name} ${Pod_container_name}=${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG} -n ${K8s_namespace}
echo "=== 添加注解 ==="
kubectl annotate deployment/${Deployment_name} kubernetes.io/change-cause="${GIT_COMMIT_MSG}" --overwrite -n ${K8s_namespace}
echo "=== 查看历史版本 ==="
kubectl rollout history deployment/${Deployment_name} -n ${K8s_namespace}
echo "=== 查看所使用的镜像 ==="
kubectl get deployment ${Deployment_name} -n ${K8s_namespace} -o=jsonpath='{.spec.template.spec.containers[*].image}'
"""
}
}
stage('检查部署情况') {
when {
expression { return params.DEPLOY_AFTER_BUILD }
}
steps {
echo "检测部署状态并验证新版本运行情况"
sh """
echo "=== 检查 Deployment 滚动更新状态 ==="
kubectl rollout status deployment/${Deployment_name} -n ${K8s_namespace} --timeout=180s
if [ \$? -ne 0 ]; then
echo "❌ 部署超时或失败,开始收集诊断信息..."
echo "=== 查看当前 Pods 状态 ==="
kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} -o wide
echo "=== 查看最近的事件 ==="
kubectl get events -n ${K8s_namespace} --sort-by=.metadata.creationTimestamp | tail -n 20
echo "=== 查看最近一个失败 Pod 的详细描述 ==="
FAILED_POD=\$(kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} --field-selector=status.phase!=Running -o jsonpath='{.items[0].metadata.name}')
if [ ! -z "\$FAILED_POD" ]; then
kubectl describe pod \$FAILED_POD -n ${K8s_namespace} || true
kubectl logs \$FAILED_POD -n ${K8s_namespace} --tail=50 || true
fi
echo "=== 回滚到上一个版本 ==="
kubectl rollout undo deployment/${Deployment_name} -n ${K8s_namespace}
exit 1
fi
echo "=== 检查 Pods 是否全部 Ready ==="
kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} -o wide
echo "=== 获取最新 Pod 名称 ==="
NEW_POD=\$(kubectl get pods -l app=${Pod_container_name} -n ${K8s_namespace} --sort-by=.metadata.creationTimestamp -o jsonpath='{.items[-1].metadata.name}')
echo "=== 新 Pod 启动日志(最近20行) ==="
kubectl logs \$NEW_POD -n ${K8s_namespace} --tail=20 || true
echo "✅ 部署成功:\$NEW_POD 已正常运行"
"""
}
}
}
post {
always {
script {
def keepCount = 2
echo "开始清理本地旧镜像,仅保留最近 ${keepCount} 个构建版本"
def imagePrefix = "${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}"
// 获取所有镜像(按创建时间排序,越新的越前)
// 格式Repository:Tag ImageID CreatedAt
def allImagesRaw = sh(script: "docker images ${imagePrefix} --format '{{.Repository}}:{{.Tag}} {{.ID}} {{.CreatedAt}}' | sort -rk3", returnStdout: true).trim()
if (!allImagesRaw) {
echo "未找到任何镜像,无需清理"
return
}
def allImages = allImagesRaw.split('\n')
if (allImages.size() <= keepCount) {
echo "当前镜像数未超过 ${keepCount} 个,无需清理"
return
}
def oldImages = allImages.drop(keepCount)
echo "发现 ${oldImages.size()} 个旧镜像需要清理"
oldImages.each { line ->
echo " ${line}"
}
oldImages.each { line ->
def parts = line.split(' ')
def imageTag = parts[0]
def imageId = parts.size() > 1 ? parts[1] : ""
// 对于标签为<none>的无效镜像使用镜像ID删除
if (imageTag.contains("<none>") && imageId) {
echo "删除无效镜像: ${imageId}"
sh(returnStatus: true, script: "docker rmi -f ${imageId} || true")
} else if (imageId) {
// 对于有标签的有效镜像优先使用镜像ID删除
echo "删除旧镜像: ${imageTag} (${imageId})"
sh(returnStatus: true, script: "docker rmi -f ${imageId} || true")
} else {
// 兜底方案,使用标签删除
echo "删除旧镜像: ${imageTag}"
sh(returnStatus: true, script: "docker rmi -f ${imageTag} || true")
}
}
echo "清理完成,当前镜像状态:"
sh """
docker images ${imagePrefix} --format 'table {{.Repository}}\\t{{.Tag}}\\t{{.CreatedAt}}\\t{{.Size}}'
"""
sh "docker logout ${REGISTRY}"
echo "容器仓库已登出,本地凭证已清理"
}
}
success {
// 输出构建结果
echo "成功!"
echo "镜像地址:${REGISTRY}/${NAMESPACE}/${IMAGE_NAME}:${IMAGE_TAG}"
echo "对应代码提交:${GIT_COMMIT_SHORT}${GIT_COMMIT_MSG}"
}
failure {
// 输出构建结果
echo "有步骤失败,请检查!"
}
}
}

4
k8s_yaml/s1/s1-lessie-agents.yaml
View File

@@ -123,3 +123,7 @@ spec:
port: 8000 # ClusterIP 内部端口
targetPort: 8000 # 容器端口

110
k8s_yaml/s2/s2-lessie-go-api.yaml Normal file
View File

@@ -0,0 +1,110 @@
# ----------------------------
# Deployment
# ----------------------------
apiVersion: apps/v1
kind: Deployment
metadata:
name: s2-lessie-go-api-deployment
namespace: sit
labels:
app: s2-lessie-go-api
environment: s2
project: lessie
spec:
replicas: 1
selector:
matchLabels:
app: s2-lessie-go-apis
environment: s2
project: lessie
strategy:
type: RollingUpdate # 滚动更新策略
rollingUpdate:
maxSurge: 1 # 最大新增副本数
maxUnavailable: 0 # 最大不可用副本数
template:
metadata:
labels:
app: s2-lessie-go-api
environment: s2
project: lessie
spec:
imagePullSecrets:
- name: dxin-image-repository # 镜像仓库凭证Secret
volumes:
- name: go-logs-volume
hostPath:
path: /data/logs/s2-lessie-go-api/
type: DirectoryOrCreate
containers:
- name: s2-lessie-go-api # 容器名称
image: uswccr.ccs.tencentyun.com/lessiesit/go_lessie-sourcing-api:v13_dxin_d96a403_202511071407 # 容器镜像
imagePullPolicy: Always # 镜像拉取策略 ,总是拉
env:
- name: POD_NAME
valueFrom:
fieldRef:
fieldPath: metadata.name
- name: APP_ENV
value: "s2"
- name: APP_PORT
value: "8100"
ports:
- containerPort: 8100 # 容器暴露的端口
resources:
requests:
cpu: "100m" # 容器请求分配0.1个CPU核心这不是实际占用但调度会以这里进行参考
memory: "1Gi" # 容器请求分配1.5Gi内存(这会实际预留)
limits:
cpu: "1" # 最多可以使用1个CPU核心
memory: "3Gi" # 容器最多可以使用3Gi内存
volumeMounts:
- name: go-logs-volume
mountPath: /app/logs/
subPathExpr: go-log-$(POD_NAME)
readinessProbe: # 就绪探针,用于判断容器是否已准备好接收流量
httpGet:
path: /health
port: 8100
initialDelaySeconds: 5 # 就绪探测在容器启动后等待多少秒才开始第一次探测(避免应用启动未完成即被判为不就绪)
periodSeconds: 10 # 就绪探测的间隔秒数,每隔多少秒执行一次探测
timeoutSeconds: 5 # 单次就绪探测的超时时间(秒),超过则该次探测视为失败
failureThreshold: 3 # 连续失败多少次后认为就绪探测失败Pod 不再被视为就绪)
livenessProbe: # 存活探针,用于判断容器是否仍然健康,失败会触发重启
httpGet:
path: /health
port: 8100
initialDelaySeconds: 10 # 存活探测在容器启动后等待多少秒才开始第一次探测
periodSeconds: 30 # 存活探测的间隔秒数
timeoutSeconds: 5 # 单次存活探测的超时时间(秒)
failureThreshold: 3 # 连续失败多少次后认为容器不健康并触发重启
---
# ----------------------------
# Service
# 集群内部http://s2-lessie-go-api-svc.sit.svc.cluster.local:8100
# 集群外部http://<nodeip>:30811
# ----------------------------
apiVersion: v1
kind: Service
metadata:
name: s2-lessie-go-api-svc
namespace: sit
labels:
app: s2-lessie-go-api
environment: s2
project: lessie
spec:
type: NodePort # ClusterIP
selector: # 必须匹配 Deployment 的 labels 才能关联 Pod
app: s2-lessie-go-api
environment: s2
project: lessie
ports:
- name: http
port: 8100 # ClusterIP 内部端口
targetPort: 8100 # 容器端口
nodePort: 30812 # 节点对外端口(30000-32767)