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微服务

环境搭建

Docker镜像源设置

# 创建目录
sudo mkdir -p /etc/docker
# 写入配置文件
sudo tee /etc/docker/daemon.json <<-'EOF'
{
    "registry-mirrors": [
    	"https://docker-0.unsee.tech",
        "https://docker-cf.registry.cyou",
        "https://docker.1panel.live"
    ]
}
EOF

# 重启docker服务
sudo systemctl daemon-reload && sudo systemctl restart docker

使用docker-compose有的时候会因为版本不同，但是配置文件主要内容就是这些。需要注意版本问题

配置相关

MySQL配置问题

特性	`my.cnf`	`conf.d` 目录
文件类型	单个文件	目录，包含多个 `.cnf` 文件
配置方式	集中式配置	分布式配置
优先级	高（覆盖 `conf.d` 中的配置）	低（被 `my.cnf` 覆盖）
适用场景	全局配置，核心配置	模块化配置，便于扩展和维护

MongoDB配置

sudo mkdir -p ~/docker/docker_data/mongo/conf
sudo mkdir -p ~/docker/docker_data/mongo/logs
sudo chmod 777 ~/docker/docker_data/mongo/logs
sudo chmod 777 ~/docker/docker_data/mongo/conf

cd ~/docker/docker_data/mongo/logs
sudo touch mongod.log
sudo chmod 777 mongod.log

cd ~/docker/docker_data/mongo/conf
sudo vim mongod.conf

cd ~

配置文件

# 数据库文件存储位置
dbpath = /data/db
# log文件存储位置
logpath = /data/log/mongod.log
# 使用追加的方式写日志
logappend = true
# 是否以守护进程方式运行
# fork = true
# 全部ip可以访问
bind_ip = 0.0.0.0
# 端口号
port = 27017
# 是否启用认证
auth = true
# 设置oplog的大小(MB)
oplogSize=2048

设置账户密码

#进入容器
docker exec -it mongodb /bin/bash

#进入mongodb shell
mongosh --port 27017

#切换到admin库
use admin

#创建账号/密码
db.createUser({ user: 'admin', pwd: '02120212', roles: [ { role: "root", db: "admin" } ] });
# db.createUser({ user: 'admin', pwd: '123456', roles: [ { role: "userAdminAnyDatabase", db: "admin" } ] });

docker-compose.yml

如果休要所有的微服务环境，可以直接复制下面的内容，看清楚目录是否和自己需要的一样。

功能	旧版 (docker-compose)	新版 (docker compose)
启动服务	docker-compose up -d	docker compose up -d
停止服务	docker-compose down	docker compose down
查看日志	docker-compose logs -f	docker compose logs -f
列出容器	docker-compose ps	docker compose ps
停止不删除容器	docker-compose stop	docker compose stop
启动已停止的容器	docker-compose start	docker compose start
重启服务	docker-compose restart	docker compose restart
构建镜像	docker-compose build	docker compose build

name: cloud-services
services:
  mysql:
    container_name: mysql_master
    image: mysql:8.0.33
    ports:
      - "3306:3306"
    environment:
      - MYSQL_ROOT_PASSWORD=123456
      - TZ=Asia/Shanghai
    volumes:
      # - ~/docker/docker_data/mysql/mysql_master/etc/my.cnf:/etc/my.cnf # 如果需要创建配置文件
      - ~/docker/docker_data/mysql/mysql_master/etc/mysql:/etc/mysql/conf.d
      - ~/docker/docker_data/mysql/mysql_master/data:/var/lib/mysql
      - ~/docker/docker_data/mysql/mysql_master/backup:/backup
    command:
      - "--log-bin=mysql-bin"
      - "--server-id=1"
      - "--collation-server=utf8mb4_unicode_ci"
      - "--character-set-server=utf8mb4"
      - "--lower-case-table-names=1"
    restart: always
    privileged: true
    networks:
      - cloud

  redis:
    container_name: redis_master
    image: redis:7.0.10
    ports:
      - "6379:6379"
    volumes:
      # - ~/docker/docker_data/redis_master/redis.conf:/etc/redis/redis.conf # 需要创建配置文件
      - ~/docker/docker_data/redis_master:/etc/redis # 之后要配置文件可以直接在这里创建 redis.conf
      - ~/docker/docker_data/redis_master/data:/data
    command:
      - "--appendonly yes"
      - "--daemonize no"
      - "--requirepass 123456"
      - "--tcp-keepalive 300"
    restart: always
    networks:
      - cloud

  minio:
    image: minio/minio
    container_name: minio_master
    ports:
      - "9000:9000"
      - "9090:9090"
    volumes:
      - ~/docker/docker_data/minio/data:/data
    environment:
      - MINIO_ROOT_USER=bunny
      - MINIO_ROOT_PASSWORD=02120212
    command: "server /data --console-address :9090"
    restart: always
    networks:
      - cloud

  mongodb:
    image: mongo:latest
    container_name: mongodb
    restart: always
    privileged: true
    ports:
      - "27017:27017"
    volumes:
      - ~/docker/docker_data/mongo/data:/data/db
      - ~/docker/docker_data/mongo/conf:/data/configdb
      - ~/docker/docker_data/mongo/logs:/data/log
    command: "mongod --config /data/configdb/mongod.conf"
    networks:
      - cloud

  rabbitmq:
    image: rabbitmq:management
    container_name: rabbitmq
    restart: unless-stopped
    ports:
      - "5672:5672"
      - "15672:15672"
    volumes:
      - ~/docker/docker_data/rabbitmq/data:/var/lib/rabbitmq
      - ~/docker/docker_data/rabbitmq/conf:/etc/rabbitmq
      - ~/docker/docker_data/rabbitmq/log:/var/log/rabbitmq
    environment:
      - RABBITMQ_DEFAULT_USER=admin
      - RABBITMQ_DEFAULT_PASS=admin
      - RABBITMQ_DEFAULT_VHOST=/
    networks:
      - cloud

  nacos:
    image: nacos/nacos-server:v2.4.3
    container_name: nacos
    ports:
      - "8848:8848"
      - "9848:9848"
    environment:
      - MODE=standalone
    restart: always
    networks:
      - cloud

  sentinel:
    image: bladex/sentinel-dashboard:1.8.8
    container_name: sentinel
    ports:
      - "8858:8858"
    privileged: true
    restart: always
    networks:
      - cloud

  seata-server:
    image: apache/seata-server:2.3.0.jdk21
    container_name: seata-server
    ports:
      - "8091:8091"
    restart: always
    networks:
      - cloud

networks: # 定义网络
  cloud: # 定义名为 auth 的网络
    name: cloud  # 网络名称为 auth
    driver: bridge  # 使用 bridge 驱动（默认）

注册中心

服务发现

发现服务信息。

@SpringBootTest()
public class DiscoveryTest {

    @Autowired
    private DiscoveryClient discoveryClient;

    @Autowired
    private NacosDiscoveryClient nacosDiscoveryClient;

    @Test
    void discoveryClientTest() {
        for (String service : discoveryClient.getServices()) {
            System.out.println(service);

            for (ServiceInstance instance : discoveryClient.getInstances(service)) {
                System.out.println("IP地址：" + instance.getHost());
                System.out.println("端口号" + instance.getPort());
            }
        }

        System.out.println("----------------------------------------------");

        // 两个方式一样，DiscoveryClient 是 Spring自带的 NacosDiscoveryClient是 Nacos
        for (String service : nacosDiscoveryClient.getServices()) {
            System.out.println(service);

            for (ServiceInstance instance : nacosDiscoveryClient.getInstances(service)) {
                System.out.println("IP地址：" + instance.getHost());
                System.out.println("端口号" + instance.getPort());
            }
        }
    }
}

远程调用

订单模块调用远程商品模块，使用了nacos，可以使用RestTemplate，其中RestTemplate是线程安全的，只要注册一次全局都是可以使用。

RestTemplate源码

继承了InterceptingHttpAccessor，在InterceptingHttpAccessor中，使用了单例模式。

public ClientHttpRequestFactory getRequestFactory() {
    List<ClientHttpRequestInterceptor> interceptors = this.getInterceptors();
    if (!CollectionUtils.isEmpty(interceptors)) {
        ClientHttpRequestFactory factory = this.interceptingRequestFactory;
        if (factory == null) {
            factory = new InterceptingClientHttpRequestFactory(super.getRequestFactory(), interceptors);
            this.interceptingRequestFactory = factory;
        }

        return factory;
    } else {
        return super.getRequestFactory();
    }
}

实现远程调用

如果我们的服务启动了多个，在下面代码中即使一个服务宕机也可以做到远程调用。

private Product getProductFromRemote(Long productId) {
    // 获取商品服务所有及其的 IP+port
    List<ServiceInstance> instances = discoveryClient.getInstances("service-product");
    ServiceInstance instance = instances.get(0);

    // 远程URL
    String url = "http://" + instance.getHost() + ":" + instance.getPort() + "/api/product/" + productId;

    // 2. 远程发送请求
    log.info("远程调用：{}", url);
    return restTemplate.getForObject(url, Product.class);
}

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