简介

     过去,如果在业务中需要处理任务调度的时候,大家都会使用第三方的任务调度组件,而第三方组件有一套自己的规则,在微服务的中显得那么格格不入,这样就会造成代码臃肿,耦合性高,如果有分布式还需要搭建新的分布式环境,如果把任务调度做成组件服务,这个就完全满足了微服务的模块化,组件化,而下面谈的是在surging 中如何支持规则引擎自定义脚本。

调度频率设置

       首先在开始之前,先看看如何通过脚本分配多种调度计划,先看下表:

方法

描述

EveryMinute()

每分钟执行一次任务

EveryFiveMinutes();

每五分钟执行一次任务

EveryTenMinutes(); 

每十分钟执行一次任务

EveryThirtyMinutes()

每半小时执行一次任务

Hourly();

每小时执行一次任务

HourlyAt(10)

每一个小时的第 10 分钟运行一次

Daily()

每到午夜执行一次任务

DailyAt("3:00")

在 3:00 执行一次任务

TwiceDaily(1, 3)

在 1:00 和 3:00 分别执行一次任务

Weekly()

每周执行一次任务

Monthly()

每月执行一次任务

MonthlyOn(4, "3:00")

在每个月的第四天的 3:00 执行一次任务

Quarterly()

每季度执行一次任务

Yearly()

每年执行一次任务

Timezone("utc")

设置utc时区

 

 

举个例子,在工作日每三秒在时间8:00-23:30内执行任务。脚本如下:

parser.TimeZone(""utc"")
      .Weekdays()
      .SecondAt(3)
       .Between(""8:00"", ""23:30"")


 额外的限制条件列表如下:

方法

描述

Weekdays()

限制任务在工作日

Sundays()

限制任务在星期日

Mondays()

限制任务在星期一

Tuesdays()

限制任务在星期二

Wednesdays()

限制任务在星期三

Thursdays()

限制任务在星期四

Fridays()

限制任务在星期五

Saturdays()

限制任务在星期六

When( function(lastExecTime))

限制任务基于一个script脚本返回为真的验证

Skip( function(lastExecTime))

限制任务基于一个script脚本返回为假的验证

 

 

举个例子,在工作日每三秒在时间8:00-23:30内执行任务。如果设置When返回为true,skip返回false 就会执行,脚本如下:

parser.TimeZone(""utc"")
       .When(function(lastExecTime){
                return true;
            })
       .Skip(
             function(lastExecTime){
                return false;
            })
      .Weekdays()
      .SecondAt(3)
       .Between(""8:00"", ""23:30"")

然后在function 脚本中支持DateUtils对象,可以针对lastExecTime进行逻辑判断,比如是否是周末:DateUtils.IsWeekend(lastExecTime), 是否是今天DateUtils.IsToday(lastExecTime),代码如下:

 

parser.TimeZone(""utc"")
       .When(function(lastExecTime){
               return DateUtils.IsToday(lastExecTime);
            })
       .Skip(
             function(lastExecTime){
                return DateUtils.IsWeekend(lastExecTime);
            })
      .Weekdays()
      .SecondAt(3)
       .Between(""8:00"", ""23:30"")

 

编写调度服务

surging微服务引擎是支持后台管理托管服务的,如果要基于BackgroundService编写任务调度,那服务就要继承BackgroundServiceBehavior,还要继承ISingleInstance以设置注入单例模式,

首先,创建接口服务,这样就可以远程添加任务,开启关闭服务了,代码如下:

[ServiceBundle("Background/{Service}")]
    public interface IWorkService : IServiceKey
    {
        Task<bool> AddWork(Message message);

         Task StartAsync();

        Task StopAsync();
    }

然后创建业务领域服务,以下代码是通过规则引擎自定义脚本设置执行频率,并且可以设置execsize 以标识同时执行任务的大小,通过以下业务逻辑代码大家可以扩展支持持久化。

public class WorkService : BackgroundServiceBehavior, IWorkService, ISingleInstance
    {
        private readonly ILogger<WorkService> _logger;
        private readonly Queue<Tuple<Message, RulesEngine.RulesEngine, SchedulerRuleWorkflow>> _queue = new Queue<Tuple<Message, RulesEngine.RulesEngine, SchedulerRuleWorkflow>>();
        private readonly ConcurrentDictionary<string, DateTime> _keyValuePairs = new ConcurrentDictionary<string, DateTime>();
        private readonly IServiceProxyProvider _serviceProxyProvider;
        private AtomicLong _atomic=new AtomicLong(1);
        private const int EXECSIZE = 1;
        private CancellationToken _token;

        public WorkService(ILogger<WorkService> logger, IServiceProxyProvider serviceProxyProvider)
        {
            _logger = logger;
            _serviceProxyProvider = serviceProxyProvider;
            /*   var script = @"parser
                               .Weekdays().SecondAt(3).Between(""8:00"", ""22:00"")";*/
            var script = @"parser
                              .TimeZone(""utc"")
                               .When(
                              function(lastExecTime){
                return DateUtils.IsToday(lastExecTime);
            }).Skip(
             function(lastExecTime){
                return DateUtils.IsWeekend(lastExecTime);
            }).Weekdays().SecondAt(3).Between(""8:00"", ""23:30"")";
            var ruleWorkflow = GetSchedulerRuleWorkflow(script);
            var messageId = Guid.NewGuid().ToString();
            _keyValuePairs.AddOrUpdate(messageId, DateTime.Now, (key, value) => DateTime.Now);
            _queue.Enqueue(new Tuple<Message, RulesEngine.RulesEngine, SchedulerRuleWorkflow>(new Message() { MessageId= messageId,Config=new SchedulerConfig() {  IsPersistence=true} }, GetRuleEngine(ruleWorkflow), ruleWorkflow));

        }

        public  Task<bool> AddWork(Message message)
        {
            var ruleWorkflow = GetSchedulerRuleWorkflow(message.Config.Script);
            _keyValuePairs.AddOrUpdate(message.MessageId, DateTime.Now, (key, value) => DateTime.Now);
            _queue.Enqueue(new Tuple<Message, RulesEngine.RulesEngine, SchedulerRuleWorkflow>(message, GetRuleEngine(ruleWorkflow), ruleWorkflow));
            return Task.FromResult(true);
        }

        protected override async  Task ExecuteAsync(CancellationToken stoppingToken)
        {
            try
            {
                _token = stoppingToken;
                _logger.LogInformation("Worker running at: {time}", DateTimeOffset.Now); 
                _queue.TryDequeue(out Tuple<Message, RulesEngine.RulesEngine, SchedulerRuleWorkflow>? message);
                if (message != null)
                {
                    var parser = await GetParser(message.Item3, message.Item2);
                    await PayloadSubscribe(parser, message.Item1, message.Item2, message.Item3);
                    _keyValuePairs.TryGetValue(message.Item1.MessageId, out DateTime dateTime);
                    parser.Build(dateTime == DateTime.MinValue ? DateTime.Now : dateTime);
                }
                if (!_token.IsCancellationRequested && (message == null || _atomic.GetAndAdd(1) == EXECSIZE))
                {
                    _atomic = new AtomicLong(1);
                    await Task.Delay(1000, stoppingToken);

                }
            }
            catch (Exception ex){
                _logger.LogError("WorkService execute error, message:{message} ,trace info:{trace} ", ex.Message, ex.StackTrace);
            }
        }

        public async Task StartAsync()
        {
            if (_token.IsCancellationRequested)
            { 
                await base.StartAsync(_token);
            }
        }

        public async Task StopAsync()
        {
            if (!_token.IsCancellationRequested)
            {
               await  base.StopAsync(_token);
            }
        }

        private async Task PayloadSubscribe(RulePipePayloadParser parser, Message message, RulesEngine.RulesEngine rulesEngine, SchedulerRuleWorkflow ruleWorkflow)
        {
            parser.HandlePayload().Subscribe(async (temperature) =>
            {
                try
                {
                    if (temperature)
                    {
                       await  ExecuteByPlanAsyn(message);
                        _logger.LogInformation("Worker exec at: {time}", DateTimeOffset.Now);

                    }
                }
                catch (Exception ex) { }
                finally
                {
                    if (message.Config.IsPersistence || (!temperature && !message.Config.IsPersistence))
                        _queue.Enqueue(new Tuple<Message, RulesEngine.RulesEngine, SchedulerRuleWorkflow>(message, rulesEngine, ruleWorkflow));

                }
            });
        }

        private async Task<bool> ExecuteByPlanAsyn(Message message)
        {
            var result = false;
            var isExec = true;
            try
            {
                if (!string.IsNullOrEmpty(message.RoutePath))
                {
                    var serviceResult = await _serviceProxyProvider.Invoke<object>(message.Parameters, message.RoutePath, message.ServiceKey);
                    bool.TryParse(serviceResult?.ToString(), out result);
                    isExec = true;
                }
            }
            catch { }
            finally
            {
                if (isExec && message.Config.IsPersistence)
                    _keyValuePairs.AddOrUpdate(message.MessageId, DateTime.Now, (key, value) => DateTime.Now);
                else if (!message.Config.IsPersistence)
                    _keyValuePairs.TryRemove(message.MessageId, out DateTime dateTime);
            }
            return result;
        }

        private async Task<RulePipePayloadParser> GetParser(SchedulerRuleWorkflow ruleWorkflow, RulesEngine.RulesEngine engine)
        {
            var payloadParser = new RulePipePayloadParser();
            var ruleResult = await engine.ExecuteActionWorkflowAsync(ruleWorkflow.WorkflowName, ruleWorkflow.RuleName, new RuleParameter[] { new RuleParameter("parser", payloadParser) });
            if (ruleResult.Exception != null && _logger.IsEnabled(LogLevel.Error))
                _logger.LogError(ruleResult.Exception, ruleResult.Exception.Message);
            return payloadParser;
        }

        private RulesEngine.RulesEngine GetRuleEngine(SchedulerRuleWorkflow ruleWorkFlow)
        {
            var reSettingsWithCustomTypes = new ReSettings { CustomTypes = new Type[] { typeof(RulePipePayloadParser) } };
            var result = new RulesEngine.RulesEngine(new Workflow[] { ruleWorkFlow.GetWorkflow() }, null, reSettingsWithCustomTypes);
            return result;
        }

        private SchedulerRuleWorkflow GetSchedulerRuleWorkflow(string script)
        {
            var result = new SchedulerRuleWorkflow("1==1");
            if (!string.IsNullOrEmpty(script))
            {
                result = new SchedulerRuleWorkflow(script);
            }
            return result;
        }
    }

总结

因为工作繁忙,微服务平台暂时搁置,等公司基于surging 的物联网项目上线后,再投入时间研发,surging 一直开发中未曾放弃,也许你没看到的版本才是最强大的。

开源地址:https://github.com/fanliang11/surging