标签:stand 特性 重复 figure val exec 技术 应用 and
近期工作上有一个工作流的开发需求,自己基于面向对象和职责链模式捣鼓了一套小框架,后来在github上发现一个轻量级的工作流引擎轮子:Workflow-Core,看完其wiki之后决定放弃之前自己造的轮子,使用这个开源项目来改造,也就有了这一篇博文。
Workflow-Core是一个基于.NET Standard的轻量级工作流引擎,其GitHub地址为:https://github.com/danielgerlag/workflow-core,目前有超过1200+个star。它提供了FluentAPI、多任务、持久化以及并行处理的功能,适合于小型工作流、责任链的需求开发。
由于Workflow-Core支持工作流长期运行,因此Workflow-Core支持以下多种数据源格式的持久化,可以通过安装不同的Provider包来实现对应的持久化:
立刻上手把,Nuget上安装一把,目前最新版本2.0.0:
PM> Install-Package WorkflowCore
这里创建了一个.NET Core控制台应用程序,快速演示第一个Workflow-Core的Hello World,展示如何开始一个Workflow:
(1)定义一个实现IWorkflow接口的Workflow:
public class HelloWorldWorkflow : IWorkflow { public string Id => "HelloWorld"; public int Version => 1; public void Build(IWorkflowBuilder<object> builder) { builder .StartWith<HelloWorld>() .Then<ActiveWorld>() .Then<GoodbyeWorld>(); } }
这里定义了一个HelloWorldWorkflow,其版本号为1,它有3个步骤:HelloWorld、ActiveWorld和GoodbyeWorld,会依次执行。
(2)定义三个继承自StepBody类的步骤类:
public class HelloWorld : StepBody { public override ExecutionResult Run(IStepExecutionContext context) { Console.WriteLine("Hello World!"); return ExecutionResult.Next(); } } public class ActiveWorld : StepBody { public override ExecutionResult Run(IStepExecutionContext context) { Console.WriteLine("I am activing in the World!"); return ExecutionResult.Next(); } } public class GoodbyeWorld : StepBody { public override ExecutionResult Run(IStepExecutionContext context) { Console.WriteLine("Goodbye World!"); return ExecutionResult.Next(); } }
(3)ServiceCollection中注入Workflow-Core相关组件
private static IServiceProvider ConfigureServices() { IServiceCollection services = new ServiceCollection(); services.AddLogging(); // WorkflowCore需要用到logging service services.AddWorkflow(); var serviceProvider = services.BuildServiceProvider(); return serviceProvider; }
(4)在Program.cs的Main方法中获取到注入的host并执行工作流
public static void Main(string[] args) { var serviceProvider = ConfigureServices(); var host = serviceProvider.GetService<IWorkflowHost>(); host.RegisterWorkflow<HelloWorldWorkflow>(); host.Start(); // Demo1:Hello World host.StartWorkflow("HelloWorld"); Console.ReadKey(); host.Stop(); }
这里传入的是Workflow的Id,Workflow-Core会根据Id去自动匹配最新版本的对应Workflow,运行结果如下:
在工作流处理中,往往会有很多的条件判断,那么在Workflow-Core中也提供了直接的If功能,如下面这个IfStatementWorkflow所示:
public class IfStatementWorkflow : IWorkflow<MyData> { public string Id => "if-sample"; public int Version => 1; public void Build(IWorkflowBuilder<MyData> builder) { builder .StartWith<SayHello>() .If(data => data.Counter < 3).Do(then => then .StartWith<PrintMessage>() .Input(step => step.Message, data => "Outcome is less than 3") ) .If(data => data.Counter < 5).Do(then => then .StartWith<PrintMessage>() .Input(step => step.Message, data => "Outcome is less than 5") ) .Then<SayGoodbye>(); } }
这个传递进来的MyData的定义如下:
public class MyData { public int Counter { get; set; } }
当传递进来的MyData的Counter属性<3 或 <5时会有不同的分支进行逻辑的处理。
想要将工作流配置持久化到MySQL,只需以下两步:
(1)通过Nuget安装MySQL Provider包:
PM> Install-Package WorkflowCore.Persistence.MySQL
(2)注入到ServiceCollection
services.AddWorkflow(x => x.UseMySQL(@"Server=127.0.0.1;Database=workflow;User=root;Password=password;", true, true));
一旦启动,你就会发现Workflow-Core自动帮你创建了很多表用于持久化工作流配置和实例。
Workflow-Core还集成了计划任务和循环任务的功能:
(1)计划任务:比如在工作流步骤中设置一个延迟5分钟执行的计划任务
builder .StartWith(context => Console.WriteLine("Hello")) .Schedule(data => TimeSpan.FromSeconds(5)).Do(schedule => schedule .StartWith(context => Console.WriteLine("Doing scheduled tasks")) ) .Then(context => Console.WriteLine("Doing normal tasks"));
(2)循环任务:比如在工作流步骤中设置一个延迟5分钟进行的循环任务,知道Counter > 5才结束
builder .StartWith(context => Console.WriteLine("Hello")) .Recur(data => TimeSpan.FromSeconds(5), data => data.Counter > 5).Do(recur => recur .StartWith(context => Console.WriteLine("Doing recurring task")) ) .Then(context => Console.WriteLine("Carry on"));
了解分布式事务方案的童鞋应该都知道Saga,在Workflow-Core中也有支持,这是一个十分有用的功能:
(1)比如:在创建一个客户信息之后,将其推送到Salesforce和ERP,如果推送过程中发生了错误,那么就通过重试进行补偿,并且重试有时间间隔。
builder .StartWith<CreateCustomer>() .Then<PushToSalesforce>() .OnError(WorkflowErrorHandling.Retry, TimeSpan.FromMinutes(10)) .Then<PushToERP>() .OnError(WorkflowErrorHandling.Retry, TimeSpan.FromMinutes(10));
(2)又比如:当Task2发生异常时,Workflow-Core会帮助执行UndoTask2 和 UndoTask1 帮你回滚数据以恢复状态。
builder .StartWith<LogStart>() .Saga(saga => saga .StartWith<Task1>() .CompensateWith<UndoTask1>() .Then<Task2>() .CompensateWith<UndoTask2>() .Then<Task3>() .CompensateWith<UndoTask3>() ) .OnError(Models.WorkflowErrorHandling.Retry, TimeSpan.FromMinutes(10)) .Then<LogEnd>();
更多Saga示例,请参考:https://github.com/danielgerlag/workflow-core/tree/master/src/samples/WorkflowCore.Sample17
(1)注入:使用AddWorkflow()扩展方法
public void ConfigureServices(IServiceCollection services) { services.AddWorkflow(); services.AddMvc().SetCompatibilityVersion(CompatibilityVersion.Version_2_2); }
(2)初始化:
public void Configure(IApplicationBuilder app, IHostingEnvironment env) { ....... app.UseWorkflow(); }
扩展方法如下:
public static class ConfigureExtensions { public static IApplicationBuilder UseWorkflow(this IApplicationBuilder app) { var host = app.ApplicationServices.GetService<IWorkflowHost>(); host.RegisterWorkflow<EdcWorkflow>(); host.RegisterWorkflow<EdcDataWorkflow, EdcData>(); host.Start(); var appLifetime = app.ApplicationServices.GetService<IApplicationLifetime>(); appLifetime.ApplicationStopping.Register(() => { host.Stop(); }); return app; } }
这里需要注意的就是:将你要用到的所有Workflow都事先进行Register注册。
在你想要用到的地方,无论是Controller还是Service,通过依赖注入获取到Host,并使用它:
[Route("api/[controller]")] [ApiController] public class ValuesController : ControllerBase { private IWorkflowController _workflowService; public ValuesController(IWorkflowController workflowService) { _workflowService = workflowService; } // GET api/values [HttpGet] public async Task<IEnumerable<string>> Get() { await _workflowService.StartWorkflow("EdcWorkflow"); return new string[] { "EdcWorkflow v1" }; } // GET api/values/5 [HttpGet("{id}")] public async Task<string> Get(int id) { await _workflowService.StartWorkflow("EdcDataWorkflow", new EdcData() { Id = id }); return "EdcDataWorkflow v1"; } }
这两个Workflow的定义如下:
public class EdcWorkflow : IWorkflow { public string Id => "EdcWorkflow"; public int Version => 1; public void Build(IWorkflowBuilder<object> builder) { builder .StartWith<HelloWorld>() .Then<GoodbyeWorld>(); } } public class EdcDataWorkflow : IWorkflow<EdcData> { public string Id => "EdcDataWorkflow"; public int Version => 1; public void Build(IWorkflowBuilder<EdcData> builder) { builder .StartWith<HelloWorld>() .If(data => data.Id < 3).Do(then => then .StartWith<PrintMessage>() .Input(step => step.Message, data => "Passed Id is less than 3") ) .If(data => data.Id < 5).Do(then => then .StartWith<PrintMessage>() .Input(step => step.Message, data => "Passed Id is less than 5") ) .Then<GoodbyeWorld>(); } }
示例结果很简单:
(1)api/values
(2)api/values/1
Workflow-Core是一个适合.NET Core的优秀的轻量级工作流引擎,对于小型工作流和责任链类型的需求开发很适合,可以节约大量时间避免重复造轮子,将时间主要花在业务逻辑上面。当然,这里演示的示例只是众多功能特性中的一小部分,我只是选取了我用到的部分而已,大家有兴趣的话可以去GitHub上先给个star再仔细研究其wiki文档,应用到自己的项目中去。
示例代码:https://github.com/EdisonChou/EDC.WorkflowCore.Sample
一个适合于.NET Core的超轻量级工作流引擎:Workflow-Core
标签:stand 特性 重复 figure val exec 技术 应用 and
原文地址:https://www.cnblogs.com/xbzhu/p/11610797.html