/// <summary> /// Start scheduled service instances if in time /// </summary> private void ExecuteScheduledRequests() { try { lock (_scheduledRequests) { //WriteLog("Start ExecuteScheduledRequests()"); foreach (var request in _scheduledRequests.OrderBy(s => s.SchedulingInfo.ExpectedStartTime)) { // check if it is time to execute request if (request.SchedulingInfo.ExpectedStartTime <= DateTime.Now && (request.SchedulingInfo.RequestedTime.Add(request.SchedulingInfo.MaxDeviationAfter) >= DateTime.Now) && request.SchedulingInfo.SchedulingStatus == SchedulingStatus.Scheduled) { // additional check for concurent services per template and profile wchich are scheduled for now or past int countedServicesWithSameConfiguration = _scheduledRequests.GetWithSameTemplate(request).Count(s => s.SchedulingInfo.ExpectedStartTime <= DateTime.Now); if (countedServicesWithSameConfiguration >= request.Configuration.Limits.MaxConcurrentPerTemplate) { continue; } int countedServicesWithSameProfile = _scheduledRequests.GetWithSameProfile(request).Count(s => s.SchedulingInfo.ExpectedStartTime <= DateTime.Now); if (countedServicesWithSameProfile >= request.Configuration.Limits.MaxConcurrentPerProfile) { continue; } // start service instance try { request.Start(); WriteLog(String.Format("Started service '{0}'", request.DebugInfo())); } catch (Exception ex) { WriteLog(String.Format("Failed to start service '{0}', ex: {1}", request.DebugInfo(), ex.Message), ex); } } } } } catch (Exception ex) { WriteLog(String.Format("Failed in ExecuteScheduledRequests(), ex: {0}", ex.Message), ex); } }
private void NotifyServicesToRun() { lock (_scheduledRequests) { foreach (var request in _scheduledRequests.OrderBy(s => s.SchedulingInfo.ExpectedStartTime)) { if ( request.SchedulingInfo.ExpectedStartTime <= DateTime.Now && (request.SchedulingInfo.MaxDeviationAfter == TimeSpan.Zero || request.SchedulingInfo.RequestedTime.Add(request.SchedulingInfo.MaxDeviationAfter) >= DateTime.Now) && request.SchedulingInfo.SchedulingStatus == SchedulingStatus.Scheduled ) { int countedServicesWithSameConfiguration = _scheduledRequests.GetWithSameConfiguration(request).Count(); if (countedServicesWithSameConfiguration >= request.Configuration.Limits.MaxConcurrentGlobal) { continue; } int countedServicesWithSameProfile = _scheduledRequests.GetWithSameProfile(request).Count(); if (countedServicesWithSameProfile >= request.Configuration.Limits.MaxConcurrentPerProfile) { continue; } //Log.Write(this.ToString(), string.Format("Service {0} required to run", request.Configuration.ServiceName), LogMessageType.Information); if (ScheduledRequestTimeArrived != null) { ScheduledRequestTimeArrived(this, new SchedulingRequestTimeArrivedArgs() { Request = request }); } } } } }
//================================== #endregion #region Scheduling algorithms //================================== /// <summary> /// The main method of creating scheduler /// </summary> private void Schedule(bool reschedule = false) { lock (_unscheduledRequests) { lock (_scheduledRequests) { // Set need reschedule to false in order to avoid more schedule from other threads _needReschedule = false; #region Manage history and find services to schedule // ------------------------------------ // Move pending uninitialized services to the unscheduled list so they can be rescheduled foreach (ServiceInstance request in _scheduledRequests.RemoveNotActivated()) { if (request.SchedulingInfo.RequestedTime + request.SchedulingInfo.MaxDeviationAfter > DateTime.Now) { _unscheduledRequests.Add(request); } else { AsLockable(request).Unlock(_instanceLock); request.SchedulingInfo.SchedulingStatus = SchedulingStatus.CouldNotBeScheduled; AsLockable(request).Lock(_instanceLock); } } // Get Services for next time line foreach (ServiceInstance request in GetServicesForTimeLine(reschedule)) { _unscheduledRequests.Add(request); } // Copy unscheduled requests to an ordered list var servicesForNextTimeLine = new List <ServiceInstance>(_unscheduledRequests .OrderBy(schedulingdata => schedulingdata.SchedulingInfo.RequestedTime)); // ------------------------------------ #endregion #region Find Match services // ------------------------------------ //Same services or same services with same profile foreach (ServiceInstance serviceInstance in servicesForNextTimeLine) { //Get all services with same configurationID var requestsWithSameConfiguration = _scheduledRequests.GetWithSameConfiguration(serviceInstance); //Get all services with same profileID var requestsWithSameProfile = _scheduledRequests.GetWithSameProfile(serviceInstance); //Find the first available time this service with specific service and profile TimeSpan avgExecutionTime = GetAverageExecutionTime(serviceInstance.Configuration.ServiceName, Convert.ToInt32(serviceInstance.Configuration.Profile.Parameters["AccountID"]), _percentile); DateTime baseStartTime = (serviceInstance.SchedulingInfo.RequestedTime < DateTime.Now) ? DateTime.Now : serviceInstance.SchedulingInfo.RequestedTime; DateTime baseEndTime = baseStartTime.Add(avgExecutionTime); DateTime calculatedStartTime = baseStartTime; DateTime calculatedEndTime = baseEndTime; bool found = false; while (!found) { IOrderedEnumerable <ServiceInstance> whereToLookNext = null; int countedPerConfiguration = requestsWithSameConfiguration.Count(s => (calculatedStartTime >= s.SchedulingInfo.ExpectedStartTime && calculatedStartTime <= s.SchedulingInfo.ExpectedEndTime) || (calculatedEndTime >= s.SchedulingInfo.ExpectedStartTime && calculatedEndTime <= s.SchedulingInfo.ExpectedEndTime)); if (countedPerConfiguration < serviceInstance.Configuration.Limits.MaxConcurrentGlobal) { int countedPerProfile = requestsWithSameProfile.Count(s => (calculatedStartTime >= s.SchedulingInfo.ExpectedStartTime && calculatedStartTime <= s.SchedulingInfo.ExpectedEndTime) || (calculatedEndTime >= s.SchedulingInfo.ExpectedStartTime && calculatedEndTime <= s.SchedulingInfo.ExpectedEndTime)); if (countedPerProfile < serviceInstance.Configuration.Limits.MaxConcurrentPerProfile) { AsLockable(serviceInstance).Unlock(_instanceLock); serviceInstance.SchedulingInfo.ExpectedStartTime = calculatedStartTime; serviceInstance.SchedulingInfo.ExpectedEndTime = calculatedEndTime; serviceInstance.SchedulingInfo.SchedulingStatus = Services.SchedulingStatus.Scheduled; AsLockable(serviceInstance).Lock(_instanceLock); found = true; } else { whereToLookNext = requestsWithSameProfile; } } else { whereToLookNext = requestsWithSameConfiguration; } if (!found) { if (whereToLookNext == null) { throw new Exception("This should not have happened."); } calculatedStartTime = whereToLookNext.Where(s => s.SchedulingInfo.ExpectedEndTime >= calculatedStartTime).Min(s => s.SchedulingInfo.ExpectedEndTime); if (calculatedStartTime < DateTime.Now) { calculatedStartTime = DateTime.Now; } //Get end time calculatedEndTime = calculatedStartTime.Add(avgExecutionTime); ////remove unfree time from servicePerConfiguration and servicePerProfile if (calculatedStartTime <= _timeLineTo) { requestsWithSameConfiguration = from s in requestsWithSameConfiguration where s.SchedulingInfo.ExpectedEndTime > calculatedStartTime orderby s.SchedulingInfo.ExpectedStartTime select s; requestsWithSameProfile = from s in requestsWithSameProfile where s.SchedulingInfo.ExpectedEndTime > calculatedStartTime orderby s.SchedulingInfo.ExpectedStartTime select s; } } } if (serviceInstance.SchedulingInfo.ExpectedDeviation <= serviceInstance.SchedulingInfo.MaxDeviationAfter || serviceInstance.SchedulingInfo.MaxDeviationAfter == TimeSpan.Zero) { AsLockable(serviceInstance).Unlock(_instanceLock); serviceInstance.SchedulingInfo.SchedulingStatus = SchedulingStatus.Scheduled; serviceInstance.StateChanged += new EventHandler(Instance_StateChanged); AsLockable(serviceInstance).Lock(_instanceLock); // Legacy stuff //TODO: MAXEXECUTIONTIME TimeSpan maxExecutionTime = TimeSpan.FromMilliseconds(avgExecutionTime.TotalMilliseconds * double.Parse(AppSettings.Get(this, "MaxExecutionTimeProduct"))); serviceInstance.Configuration.Limits.MaxExecutionTime = maxExecutionTime; _scheduledRequests.Add(serviceInstance); _unscheduledRequests.Remove(serviceInstance); } } #endregion } SchedulingInformationEventArgs args = new SchedulingInformationEventArgs(); args.ScheduleInformation = new List <ServiceInstance>(); foreach (var scheduleService in _scheduledRequests) { args.ScheduleInformation.Add(scheduleService); } OnNewScheduleCreated(args); NotifyServicesToRun(); } }
/// <summary> /// The main method of scheduler calculation /// </summary> public void Schedule(bool reschedule = false) { WriteLog(String.Format("Start scheduling: scheduled={0} (uninitialized={1}, ended={2}), unscheduled={3}", _scheduledRequests.Count, _scheduledRequests.Count(s => s.State == ServiceState.Uninitialized), _scheduledRequests.Count(s => s.State == ServiceState.Ended), _unscheduledRequests.Count)); try { lock (_unscheduledRequests) { lock (_scheduledRequests) { // Set need reschedule to false in order to avoid more schedule from other threads _needReschedule = false; #region Manage history and find services to schedule // ------------------------------------ RemoveNotRelevantRequests(); // Move pending uninitialized services to the unscheduled list so they can be rescheduled foreach (ServiceInstance request in _scheduledRequests.RemoveNotActivated()) { if (request.SchedulingInfo.RequestedTime + request.SchedulingInfo.MaxDeviationAfter > DateTime.Now) { WriteLog(String.Format("Move scheduled request to unscheduled list '{0}'", request.DebugInfo())); _unscheduledRequests.Add(request); } else { // mark service as could not be scheduled because of deviation ServiceCannotBeScheduled(request); } } // Get Services for next timeframe foreach (ServiceInstance request in GetServicesInTimeframe(reschedule)) { WriteLog(String.Format("Add request to unscheduled list '{0}'", request.DebugInfo())); _unscheduledRequests.Add(request); } // Copy unscheduled requests to an ordered list by request time + max deviation after var servicesForNextTimeframe = new List <ServiceInstance>(_unscheduledRequests.OrderBy( schedulingData => schedulingData.SchedulingInfo.RequestedTime + schedulingData.SchedulingInfo.MaxDeviationAfter)); // ------------------------------------ #endregion #region Find Match services // ------------------------------------ //Same services or same services with same profile foreach (ServiceInstance serviceInstance in servicesForNextTimeframe) { //Get all services with same configurationID (concurrent per Template) var requestsWithSameTemplate = _scheduledRequests.GetWithSameTemplate(serviceInstance); //Get all services with same profileID (concurrent per Profile) var requestsWithSameProfile = _scheduledRequests.GetWithSameProfile(serviceInstance); //take execution time by service configuration TimeSpan avgExecutionTime = GetExecutionStatisticsForService(serviceInstance.Configuration); DateTime baseStartTime = serviceInstance.SchedulingInfo.RequestedTime < DateTime.Now ? DateTime.Now : serviceInstance.SchedulingInfo.RequestedTime; DateTime baseEndTime = baseStartTime.Add(avgExecutionTime); DateTime calculatedStartTime = baseStartTime; DateTime calculatedEndTime = baseEndTime; while (true) { IOrderedEnumerable <ServiceInstance> whereToLookNext; // check concurren per Template var countPerTemplate = CountConcurrent(requestsWithSameTemplate, calculatedStartTime, calculatedEndTime); if (countPerTemplate < serviceInstance.Configuration.Limits.MaxConcurrentPerTemplate) { // check concurrent per Profile var countPerProfile = CountConcurrent(requestsWithSameProfile, calculatedStartTime, calculatedEndTime); if (countPerProfile < serviceInstance.Configuration.Limits.MaxConcurrentPerProfile) { // if no concurrents set scheduling time (found time for scheduling) AsLockable(serviceInstance).Unlock(_instanceLock); serviceInstance.SchedulingInfo.ExpectedStartTime = calculatedStartTime; serviceInstance.SchedulingInfo.ExpectedEndTime = calculatedEndTime; AsLockable(serviceInstance).Lock(_instanceLock); break; } whereToLookNext = requestsWithSameProfile; } else { whereToLookNext = requestsWithSameTemplate; } if (whereToLookNext == null) { throw new Exception("This should not have happened."); } // try to take the next available time to schedule the service (end time of concurrent service) calculatedStartTime = !whereToLookNext.Any() ? calculatedStartTime : whereToLookNext.Where(s => s.SchedulingInfo.ExpectedEndTime >= calculatedStartTime).Min(s => s.SchedulingInfo.ExpectedEndTime); if (calculatedStartTime < DateTime.Now) { calculatedStartTime = DateTime.Now; } calculatedEndTime = calculatedStartTime.Add(avgExecutionTime); // check if a new calculated time is still valid according to max deviation after if (calculatedStartTime <= serviceInstance.SchedulingInfo.RequestedTime + serviceInstance.SchedulingInfo.MaxDeviationAfter) { requestsWithSameTemplate = GetNextConcurrentList(requestsWithSameTemplate, calculatedStartTime); requestsWithSameProfile = GetNextConcurrentList(requestsWithSameProfile, calculatedStartTime); } else { // found that request cannot be scheduled - set expected start and end, after the while loop it will be signed as CouldNotBeScheduled AsLockable(serviceInstance).Unlock(_instanceLock); serviceInstance.SchedulingInfo.ExpectedStartTime = calculatedStartTime; serviceInstance.SchedulingInfo.ExpectedEndTime = calculatedEndTime; serviceInstance.SchedulingInfo.SchedulingStatus = SchedulingStatus.CouldNotBeScheduled; AsLockable(serviceInstance).Lock(_instanceLock); break; } } // check if scheduled inside max deviation frame if (serviceInstance.SchedulingInfo.ExpectedDeviation <= serviceInstance.SchedulingInfo.MaxDeviationAfter) { ScheduleServiceInstance(serviceInstance, avgExecutionTime); } } //------------------------------ #endregion WriteLog(String.Format("Finish scheduling: scheduled={0} (uninitialized={1}, ended={2}), unscheduled={3}", _scheduledRequests.Count, _scheduledRequests.Count(s => s.State == ServiceState.Uninitialized), _scheduledRequests.Count(s => s.State == ServiceState.Ended), _unscheduledRequests.Count)); // send the current list of scheduled services SendScheduledServicesUpdate(); } } // no need to run shcheduled services - another thread is doing this //ExecuteScheduledRequests(); } catch (Exception ex) { WriteLog(String.Format("Failed in Schedule(), ex: {0}", ex.Message), ex); } }