enode-tidb

enodeframework eventstore TiDB driver

License	License MIT License
GroupId	GroupId org.enodeframework
ArtifactId	ArtifactId enode-tidb
Last Version	Last Version 1.0.13
Release Date	Release Date Dec 4, 2020
Type	Type jar
Description	Description enode-tidb enodeframework eventstore TiDB driver

Download enode-tidb

Filename	Size
enode-tidb-1.0.13.pom
enode-tidb-1.0.13.jar	3 KB
enode-tidb-1.0.13-sources.jar	2 KB
enode-tidb-1.0.13-javadoc.jar	29 KB
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How to add to project

Apache Maven

<!-- https://jarcasting.com/artifacts/org.enodeframework/enode-tidb/ -->
<dependency>
    <groupId>org.enodeframework</groupId>
    <artifactId>enode-tidb</artifactId>
    <version>1.0.13</version>
</dependency>

Gradle Groovy

// https://jarcasting.com/artifacts/org.enodeframework/enode-tidb/
implementation 'org.enodeframework:enode-tidb:1.0.13'

Gradle Kotlin

// https://jarcasting.com/artifacts/org.enodeframework/enode-tidb/
implementation ("org.enodeframework:enode-tidb:1.0.13")

Apache Buildr

'org.enodeframework:enode-tidb:jar:1.0.13'

Apache Ivy

<dependency org="org.enodeframework" name="enode-tidb" rev="1.0.13">
  <artifact name="enode-tidb" type="jar" />
</dependency>

Groovy Grape

@Grapes(
@Grab(group='org.enodeframework', module='enode-tidb', version='1.0.13')
)

Scala SBT

libraryDependencies += "org.enodeframework" % "enode-tidb" % "1.0.13"

Leiningen

[org.enodeframework/enode-tidb "1.0.13"]

Dependencies

compile (3)

Group / Artifact	Type	Version
org.enodeframework : enode	jar
org.enodeframework : enode-jdbc	jar
org.jetbrains.kotlin : kotlin-stdlib	jar	1.4.20

Project Modules

There are no modules declared in this project.

enode

enode是一个基于【DDD】【CQRS】【ES】【EDA】【In-Memory】架构风格的应用框架

框架特色

一个DDD开发框架，完美支持基于六边形架构思想开发
实现CQRS架构思想，解决CQRS架构的C端的高并发写的问题，以及CQ两端数据同步的顺序性保证和幂等性问题；
聚合根常驻内存（In-Memory Domain Model），可以完全以OO的方式来设计实现聚合根，不必为ORM的阻抗失衡而烦恼；
聚合根的处理基于Command Mailbox, Event Mailbox的思想，类似Actor Model, Actor Mailbox
Group Commit Domain event
基于聚合根ID+事件版本号的唯一索引，实现聚合根的乐观并发控制
通过聚合根ID对命令或事件进行路由，做到最小的并发冲突、最大的并行处理
架构层面严格规范了开发人员该如何写代码，和DDD开发紧密结合，严格遵守聚合内强一致性、聚合之间最终一致性的原则
实现CQRS架构，支持Command结果的返回；支持C端完成后立即返回Command的结果，也支持CQ两端都完成后才返回Command的结果，同时框架保证了Command的幂等处理
先进的Saga机制，以事件驱动的流程管理器（Process Manager）的方式支持一个用户操作跨多个聚合根的业务场景，如订单处理，从而避免分布式事务的使用
基于ES（Event Sourcing）的思想持久化C端的聚合根的状态，让C端的数据持久化变得通用化，具有一切ES的优点
将并发写降低到最低，从而做到最大程度的并行、最大的吞吐量；
通过基于分布式消息队列横向扩展的方式实现系统的可伸缩性（基于队列的动态扩容/缩容）
enode实现了CQRS架构面临的大部分技术问题，让开发者可以专注于业务逻辑和业务流程的开发，而无需关心纯技术问题

详细文档

使用文档

系统设计

enode执行过程

更新历史（注意点）

为什么采用异步单一长连接?

因为服务的现状大都是服务提供者少，通常只有几台机器，而服务的消费者多，可能整个网站都在访问该服务。在我们的这个场景里面，command-web只需要很少的机器就能满足前端大量的请求，command-consumer和event-consumer的机器相对较多些。如果采用常规的 "单请求单连接" 的方式，服务提供者很容易就被压跨，通过单一连接，保证单一消费者不会压死提供者，长连接，减少连接握手验证等，并使用异步 IO，复用线程池，防止 C10K 问题。

ICommandHandler和ICommandAsyncHandler区别 (现在合并成一个了，但处理思路没变)

ICommandHandler是为了操作内存中的聚合根的，所以不会有异步操作，但后来ICommandHandler的Handle方法也设计为了handleAsync了，目的是为了异步到底，否则异步链路中断的话，异步就没效果了而ICommandAsyncHandler是为了让开发者调用外部系统的接口的，也就是访问外部IO，所以用了Async ICommandHandler，ICommandAsyncHandler这两个接口是用于不同的业务场景，ICommandHandler.handleAsync方法执行完成后，框架要从context中获取当前修改的聚合根的领域事件，然后去提交。而ICommandAsyncHandler.handleAsync方法执行完成后，不会有这个逻辑，而是看一下handleAsync方法执行的异步消息结果是什么，也就是IApplicationMessage。目前已经删除了 ICommandAsyncHandler，统一使用ICommandHandler来处理，异步结果会放在context中

ICommandService sendAsync 和 executeAsync的区别

sendAsync只关注发送消息的结果 executeAsync发送消息的同时，关注命令的返回结果，返回的时机如下：

CommandReturnType.CommandExecuted：Command执行完成，Event发布成功后返回结果
CommandReturnType.EventHandled：Event处理完成后才返回结果

event使用哪个订阅者发送处理结果

event的订阅者可能有很多个，所以enode只要求有一个订阅者处理完事件后发送结果给发送命令的人即可，通过DefaultDomainEventListener中sendEventHandledMessage参数来设置是否发送，最终来决定由哪个订阅者来发送命令处理结果

使用说明

聚合根

聚合根需要定义一个无参构造函数，因为聚合根初始化时使用了

aggregateRootType.getDeclaredConstructor().newInstance();

启动配置

新增@EnableEnode 注解，可自动配置Bean，简化了接入方式

enode启动配置

@SpringBootApplication
@EnableEnode(value = "org.enodeframework.tests")
@ComponentScan(value = "org.enodeframework.tests")
public class App {
    public static void main(String[] args) {
        SpringApplication.run(App.class, args);
    }
}

Spring Boot 启动配置文件

如果需要使用RokcetMQ和ONS的tag功能，相应的配置 spring.enode.mq.tag.* 属性即可

# enode eventstore (memory, mysql, tidb, pg, mongo)
spring.enode.eventstore=mongo
# enode messagequeue (kafka, rocketmq, ons)
spring.enode.mq=kafka
spring.enode.mq.topic.command=EnodeBankCommandTopic
spring.enode.mq.topic.event=EnodeBankEventTopic
spring.enode.mq.topic.application=EnodeBankApplicationMessageTopic
spring.enode.mq.topic.exception=EnodeBankExceptionTopic

kafka listener bean 配置

    @Value("${spring.enode.mq.topic.command}")
    private String commandTopic;

    @Value("${spring.enode.mq.topic.event}")
    private String eventTopic;

    @Value("${spring.enode.mq.topic.application}")
    private String applicationTopic;

    @Value("${spring.enode.mq.topic.exception}")
    private String exceptionTopic;

    @Bean
    public ConsumerFactory<String, String> consumerFactory() {
        Map<String, Object> props = new HashMap<>();
        props.put(ConsumerConfig.BOOTSTRAP_SERVERS_CONFIG, Constants.KAFKA_SERVER);
        props.put(ConsumerConfig.GROUP_ID_CONFIG, Constants.DEFAULT_PRODUCER_GROUP);
        props.put(ConsumerConfig.ENABLE_AUTO_COMMIT_CONFIG, false);
        props.put(ConsumerConfig.AUTO_COMMIT_INTERVAL_MS_CONFIG, "100");
        props.put(ConsumerConfig.SESSION_TIMEOUT_MS_CONFIG, "15000");
        props.put(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
        props.put(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);
        return new DefaultKafkaConsumerFactory<>(props);
    }

    @Bean
    public ProducerFactory<String, String> producerFactory() {
        Map<String, Object> props = new HashMap<>();
        props.put(ProducerConfig.BOOTSTRAP_SERVERS_CONFIG, Constants.KAFKA_SERVER);
        props.put(ProducerConfig.RETRIES_CONFIG, 1);
        props.put(ProducerConfig.BATCH_SIZE_CONFIG, 16384);
        props.put(ProducerConfig.LINGER_MS_CONFIG, 1);
        props.put(ProducerConfig.BUFFER_MEMORY_CONFIG, 1024000);
        props.put(ProducerConfig.KEY_SERIALIZER_CLASS_CONFIG, StringSerializer.class);
        props.put(ProducerConfig.VALUE_SERIALIZER_CLASS_CONFIG, StringSerializer.class);
        return new DefaultKafkaProducerFactory<>(props);
    }

    @Bean
    public KafkaTemplate<String, String> kafkaTemplate(ProducerFactory<String, String> producerFactory) {
        return new KafkaTemplate<>(producerFactory);
    }

    @Bean
    public KafkaMessageListenerContainer<String, String> commandListenerContainer(KafkaCommandListener commandListener, ConsumerFactory<String, String> consumerFactory) {
        ContainerProperties properties = new ContainerProperties(commandTopic);
        properties.setGroupId(Constants.DEFAULT_CONSUMER_GROUP);
        properties.setMessageListener(commandListener);
        properties.setMissingTopicsFatal(false);
        return new KafkaMessageListenerContainer<>(consumerFactory, properties);
    }

    @Bean
    public KafkaMessageListenerContainer<String, String> domainEventListenerContainer(KafkaDomainEventListener domainEventListener, ConsumerFactory<String, String> consumerFactory) {
        ContainerProperties properties = new ContainerProperties(eventTopic);
        properties.setGroupId(Constants.DEFAULT_PRODUCER_GROUP);
        properties.setMessageListener(domainEventListener);
        properties.setMissingTopicsFatal(false);
        properties.setAckMode(ContainerProperties.AckMode.MANUAL);
        return new KafkaMessageListenerContainer<>(consumerFactory, properties);
    }

    @Bean
    public KafkaMessageListenerContainer<String, String> applicationMessageListenerContainer(KafkaApplicationMessageListener applicationMessageListener, ConsumerFactory<String, String> consumerFactory) {
        ContainerProperties properties = new ContainerProperties(applicationTopic);
        properties.setGroupId(Constants.DEFAULT_PRODUCER_GROUP);
        properties.setMessageListener(applicationMessageListener);
        properties.setMissingTopicsFatal(false);
        properties.setAckMode(ContainerProperties.AckMode.MANUAL);
        return new KafkaMessageListenerContainer<>(consumerFactory, properties);
    }

    @Bean
    public KafkaMessageListenerContainer<String, String> publishableExceptionListenerContainer(KafkaPublishableExceptionListener publishableExceptionListener, ConsumerFactory<String, String> consumerFactory) {
        ContainerProperties properties = new ContainerProperties(exceptionTopic);
        properties.setGroupId(Constants.DEFAULT_PRODUCER_GROUP);
        properties.setMessageListener(publishableExceptionListener);
        properties.setMissingTopicsFatal(false);
        properties.setAckMode(ContainerProperties.AckMode.MANUAL);
        return new KafkaMessageListenerContainer<>(consumerFactory, properties);
    }

eventstore 数据源配置，目前支持四种（MySQL, TiDB, MongoDB, PostgreSQL ...）

    @Bean("enodeMongoClient")
    @ConditionalOnProperty(prefix = "spring.enode", name = "eventstore", havingValue = "mongo")
    public MongoClient mongoClient() {
        return MongoClients.create();
    }

    @Bean("enodeTiDBDataSource")
    @ConditionalOnProperty(prefix = "spring.enode", name = "eventstore", havingValue = "tidb")
    public HikariDataSource tidbDataSource() {
        HikariDataSource dataSource = new HikariDataSource();
        dataSource.setJdbcUrl("jdbc:mysql://127.0.0.1:4000/enode?");
        dataSource.setUsername("root");
        dataSource.setPassword("");
        dataSource.setDriverClassName(com.mysql.cj.jdbc.Driver.class.getName());
        return dataSource;
    }

    @Bean("enodeMySQLDataSource")
    @ConditionalOnProperty(prefix = "spring.enode", name = "eventstore", havingValue = "mysql")
    public HikariDataSource mysqlDataSource() {
        HikariDataSource dataSource = new HikariDataSource();
        dataSource.setJdbcUrl("jdbc:mysql://localhost:3306/enode?");
        dataSource.setUsername("root");
        dataSource.setPassword("mysecretpassword");
        dataSource.setDriverClassName(com.mysql.cj.jdbc.Driver.class.getName());
        return dataSource;
    }

    @Bean("enodePgDataSource")
    @ConditionalOnProperty(prefix = "spring.enode", name = "eventstore", havingValue = "pg")
    public HikariDataSource pgDataSource() {
        HikariDataSource dataSource = new HikariDataSource();
        dataSource.setJdbcUrl("jdbc:postgresql://localhost:5432/enode");
        dataSource.setUsername("postgres");
        dataSource.setPassword("mysecretpassword");
        dataSource.setDriverClassName(org.postgresql.Driver.class.getName());
        return dataSource;
    }

事件表新建

这里做了一次更新，删除了published_version表的依赖，只存储事件信息，对事件表只有插入、查询操作

MySQL & TiDB

CREATE TABLE event_stream (
  id BIGINT AUTO_INCREMENT NOT NULL,
  aggregate_root_type_name VARCHAR(256) NOT NULL,
  aggregate_root_id VARCHAR(36) NOT NULL,
  version INT NOT NULL,
  command_id VARCHAR(36) NOT NULL,
  gmt_create DATETIME NOT NULL,
  events MEDIUMTEXT NOT NULL,
  PRIMARY KEY (id),
  UNIQUE KEY uk_aggregate_root_id_version (aggregate_root_id, version),
  UNIQUE KEY uk_aggregate_root_id_command_id (aggregate_root_id, command_id)
) ENGINE = InnoDB DEFAULT CHARSET = utf8mb4;

CREATE TABLE published_version (
  id BIGINT AUTO_INCREMENT NOT NULL,
  processor_name VARCHAR(128) NOT NULL,
  aggregate_root_type_name VARCHAR(256) NOT NULL,
  aggregate_root_id VARCHAR(36) NOT NULL,
  version INT NOT NULL,
  gmt_create DATETIME NOT NULL,
  PRIMARY KEY (id),
  UNIQUE KEY uk_processor_name_aggregate_root_id (processor_name, aggregate_root_id)
) ENGINE = InnoDB DEFAULT CHARSET = utf8mb4;

postgresql

CREATE TABLE event_stream (
  id bigserial,
  aggregate_root_type_name varchar(256),
  aggregate_root_id varchar(36),
  version integer,
  command_id varchar(36),
  gmt_create date,
  events text,
  PRIMARY KEY (id),
  CONSTRAINT uk_aggregate_root_id_version UNIQUE (aggregate_root_id, version),
  CONSTRAINT uk_aggregate_root_id_command_id UNIQUE (aggregate_root_id, command_id)
);

CREATE TABLE published_version (
  id bigserial,
  processor_name varchar(128),
  aggregate_root_type_name varchar(256),
  aggregate_root_id varchar(36),
  version integer,
  gmt_create date,
  PRIMARY KEY (id),
  CONSTRAINT uk_processor_name_aggregate_root_id UNIQUE (processor_name, aggregate_root_id)
);

MongoDB

db.event_stream.createIndex({aggregateRootId:1,commandId:1},{unique:true})
db.event_stream.createIndex({aggregateRootId:1,version:1},{unique:true})
db.published_version.createIndex({processorName:1,aggregateRootId:1},{unique:true})

编程方式

新增了三个注解，系统限定了只扫描@Command和@Event标识的类，执行的方法上需要添加@Subscribe注解

@Command
@Event
@Subscribe

启动时会扫描包路径下的注解，注册成Spring bean，类似@Component的作用

消息

更新了kotlin支持，@Subscribe 方法体支持suspend标记

发送命令消息代码

CompletableFuture<CommandResult> future = commandService.executeAsync(createNoteCommand, CommandReturnType.EventHandled);

消费命令消息

/**
 * 银行账户相关命令处理
 * ICommandHandler<CreateAccountCommand>,                       //开户
 * ICommandAsyncHandler<ValidateAccountCommand>,                //验证账户是否合法
 * ICommandHandler<AddTransactionPreparationCommand>,           //添加预操作
 * ICommandHandler<CommitTransactionPreparationCommand>         //提交预操作
 */
@Command
public class BankAccountCommandHandler {
    /**
     * 开户
     */
    @Subscribe
    public void handleAsync(ICommandContext context, CreateAccountCommand command) {
        context.addAsync(new BankAccount(command.getAggregateRootId(), command.owner));
    }

    /**
     * 添加预操作
     */
    @Subscribe
    public void handleAsync(ICommandContext context, AddTransactionPreparationCommand command) {
        CompletableFuture<BankAccount> future = context.getAsync(command.getAggregateRootId(), BankAccount.class);
        BankAccount account = Task.await(future);
        account.addTransactionPreparation(command.transactionId, command.transactionType, command.preparationType, command.amount);
    }

    /**
     * 验证账户是否合法
     */
    @Subscribe
    public void handleAsync(ICommandContext context, ValidateAccountCommand command) {
        IApplicationMessage applicationMessage = new AccountValidatePassedMessage(command.getAggregateRootId(), command.transactionId);
        //此处应该会调用外部接口验证账号是否合法，这里仅仅简单通过账号是否以INVALID字符串开头来判断是否合法；根据账号的合法性，返回不同的应用层消息
        if (command.getAggregateRootId().startsWith("INVALID")) {
            applicationMessage = new AccountValidateFailedMessage(command.getAggregateRootId(), command.transactionId, "账户不合法.");
        }
        context.setApplicationMessage(applicationMessage);
    }

    /**
     * 提交预操作
     */
    @Subscribe
    public void handleAsync(ICommandContext context, CommitTransactionPreparationCommand command) {
        CompletableFuture<BankAccount> future = context.getAsync(command.getAggregateRootId(), BankAccount.class);
        BankAccount account = Task.await(future);
        account.commitTransactionPreparation(command.transactionId);
    }
}

领域事件消费

/**
 * 银行存款交易流程管理器，用于协调银行存款交易流程中各个参与者聚合根之间的消息交互
 * IMessageHandler<DepositTransactionStartedEvent>,                    //存款交易已开始
 * IMessageHandler<DepositTransactionPreparationCompletedEvent>,       //存款交易已提交
 * IMessageHandler<TransactionPreparationAddedEvent>,                  //账户预操作已添加
 * IMessageHandler<TransactionPreparationCommittedEvent>               //账户预操作已提交
 */
@Event
public class DepositTransactionProcessManager {

    @Autowired
    private ICommandService commandService;

    @Subscribe
    public void handleAsync(DepositTransactionStartedEvent evnt) {
        AddTransactionPreparationCommand command = new AddTransactionPreparationCommand(
                evnt.accountId,
                evnt.getAggregateRootId(),
                TransactionType.DEPOSIT_TRANSACTION,
                PreparationType.CREDIT_PREPARATION,
                evnt.amount);
        command.setId(evnt.getId());
        Task.await(commandService.sendAsync(command));
    }

    @Subscribe
    public void handleAsync(TransactionPreparationAddedEvent evnt) {
        if (evnt.transactionPreparation.transactionType == TransactionType.DEPOSIT_TRANSACTION
                && evnt.transactionPreparation.preparationType == PreparationType.CREDIT_PREPARATION) {
            ConfirmDepositPreparationCommand command = new ConfirmDepositPreparationCommand(evnt.transactionPreparation.TransactionId);
            command.setId(evnt.getId());
            Task.await(commandService.sendAsync(command));
        }
    }

    @Subscribe
    public void handleAsync(DepositTransactionPreparationCompletedEvent evnt) {
        CommitTransactionPreparationCommand command = new CommitTransactionPreparationCommand(evnt.accountId, evnt.getAggregateRootId());
        command.setId(evnt.getId());
        Task.await(commandService.sendAsync(command));
    }

    @Subscribe
    public void handleAsync(TransactionPreparationCommittedEvent evnt) {
        if (evnt.transactionPreparation.transactionType == TransactionType.DEPOSIT_TRANSACTION &&
                evnt.transactionPreparation.preparationType == PreparationType.CREDIT_PREPARATION) {
            ConfirmDepositCommand command = new ConfirmDepositCommand(evnt.transactionPreparation.TransactionId);
            command.setId(evnt.getId());
            Task.await(commandService.sendAsync(command));
        }
    }
}

MQ配置启动

多选

Kafka

https://kafka.apache.org/quickstart

bin/zookeeper-server-start.sh config/zookeeper.properties
bin/kafka-server-start.sh config/server.properties

RocketMQ

https://rocketmq.apache.org/docs/quick-start/ 启动RocketMQ服务

nohup sh bin/mqnamesrv &
nohup sh bin/mqbroker -n 127.0.0.1:9876 &

command-web启动

CQRS架构中的Command端应用

主要用来接收Command，将Command发送到消息队列

command-consumer启动

消费Command队列中的消息的服务

将领域事件消息持久化才算是Command执行成功，Command执行的结果可以通过发送命令时注册的监听器获取

event-consumer启动

领域事件处理服务

事件可能会多次投递，所以需要消费端逻辑保证幂等处理，这里框架无法完成支持，需要开发者自己实现

测试

接入了Swagger3.0，打开swagger-ui即可 http://localhost:8080/swagger-ui/

参考项目

Versions

Version
1.0.13 Dec 4, 2020
1.0.12 Nov 17, 2020
1.0.11 Nov 14, 2020
1.0.10 Nov 7, 2020
1.0.9 Oct 26, 2020
1.0.8 Sep 28, 2020
1.0.7 Aug 18, 2020
1.0.6 Jul 16, 2020
1.0.5 Jun 21, 2020