using MediaBrowser.Common.Configuration; using MediaBrowser.Common.Extensions; using MediaBrowser.Common.ScheduledTasks; using MediaBrowser.Model.Logging; using MediaBrowser.Model.Serialization; using MediaBrowser.Model.Tasks; using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Threading; using System.Threading.Tasks; namespace MediaBrowser.Common.Implementations.ScheduledTasks { /// /// Class ScheduledTaskWorker /// public class ScheduledTaskWorker : IScheduledTaskWorker { /// /// Gets or sets the scheduled task. /// /// The scheduled task. public IScheduledTask ScheduledTask { get; private set; } /// /// Gets or sets the json serializer. /// /// The json serializer. private IJsonSerializer JsonSerializer { get; set; } /// /// Gets or sets the application paths. /// /// The application paths. private IApplicationPaths ApplicationPaths { get; set; } /// /// Gets the logger. /// /// The logger. private ILogger Logger { get; set; } /// /// Gets the task manager. /// /// The task manager. private ITaskManager TaskManager { get; set; } /// /// Initializes a new instance of the class. /// /// The scheduled task. /// The application paths. /// The task manager. /// The json serializer. /// The logger. /// /// scheduledTask /// or /// applicationPaths /// or /// taskManager /// or /// jsonSerializer /// or /// logger /// public ScheduledTaskWorker(IScheduledTask scheduledTask, IApplicationPaths applicationPaths, ITaskManager taskManager, IJsonSerializer jsonSerializer, ILogger logger) { if (scheduledTask == null) { throw new ArgumentNullException("scheduledTask"); } if (applicationPaths == null) { throw new ArgumentNullException("applicationPaths"); } if (taskManager == null) { throw new ArgumentNullException("taskManager"); } if (jsonSerializer == null) { throw new ArgumentNullException("jsonSerializer"); } if (logger == null) { throw new ArgumentNullException("logger"); } ScheduledTask = scheduledTask; ApplicationPaths = applicationPaths; TaskManager = taskManager; JsonSerializer = jsonSerializer; Logger = logger; ReloadTriggerEvents(true); } /// /// The _last execution result /// private TaskResult _lastExecutionResult; /// /// The _last execution resultinitialized /// private bool _lastExecutionResultinitialized; /// /// The _last execution result sync lock /// private object _lastExecutionResultSyncLock = new object(); /// /// Gets the last execution result. /// /// The last execution result. public TaskResult LastExecutionResult { get { LazyInitializer.EnsureInitialized(ref _lastExecutionResult, ref _lastExecutionResultinitialized, ref _lastExecutionResultSyncLock, () => { var path = GetHistoryFilePath(); try { return JsonSerializer.DeserializeFromFile(path); } catch (DirectoryNotFoundException) { // File doesn't exist. No biggie return null; } catch (FileNotFoundException) { // File doesn't exist. No biggie return null; } catch (Exception ex) { Logger.ErrorException("Error deserializing {0}", ex, path); return null; } }); return _lastExecutionResult; } private set { _lastExecutionResult = value; _lastExecutionResultinitialized = value != null; } } /// /// Gets the name. /// /// The name. public string Name { get { return ScheduledTask.Name; } } /// /// Gets the description. /// /// The description. public string Description { get { return ScheduledTask.Description; } } /// /// Gets the category. /// /// The category. public string Category { get { return ScheduledTask.Category; } } /// /// Gets the current cancellation token /// /// The current cancellation token source. private CancellationTokenSource CurrentCancellationTokenSource { get; set; } /// /// Gets or sets the current execution start time. /// /// The current execution start time. private DateTime CurrentExecutionStartTime { get; set; } /// /// Gets the state. /// /// The state. public TaskState State { get { if (CurrentCancellationTokenSource != null) { return CurrentCancellationTokenSource.IsCancellationRequested ? TaskState.Cancelling : TaskState.Running; } return TaskState.Idle; } } /// /// Gets the current progress. /// /// The current progress. public double? CurrentProgress { get; private set; } /// /// The _triggers /// private IEnumerable _triggers; /// /// The _triggers initialized /// private bool _triggersInitialized; /// /// The _triggers sync lock /// private object _triggersSyncLock = new object(); /// /// Gets the triggers that define when the task will run /// /// The triggers. /// value public IEnumerable Triggers { get { LazyInitializer.EnsureInitialized(ref _triggers, ref _triggersInitialized, ref _triggersSyncLock, LoadTriggers); return _triggers; } set { if (value == null) { throw new ArgumentNullException("value"); } // Cleanup current triggers if (_triggers != null) { DisposeTriggers(); } _triggers = value.ToList(); _triggersInitialized = true; ReloadTriggerEvents(false); SaveTriggers(_triggers); } } /// /// The _id /// private string _id; /// /// Gets the unique id. /// /// The unique id. public string Id { get { if (_id == null) { _id = ScheduledTask.GetType().FullName.GetMD5().ToString("N"); } return _id; } } /// /// Reloads the trigger events. /// /// if set to true [is application startup]. private void ReloadTriggerEvents(bool isApplicationStartup) { foreach (var trigger in Triggers) { trigger.Stop(); trigger.Triggered -= trigger_Triggered; trigger.Triggered += trigger_Triggered; trigger.Start(isApplicationStartup); } } /// /// Handles the Triggered event of the trigger control. /// /// The source of the event. /// The instance containing the event data. async void trigger_Triggered(object sender, EventArgs e) { var trigger = (ITaskTrigger)sender; var configurableTask = ScheduledTask as IConfigurableScheduledTask; if (configurableTask != null && !configurableTask.IsEnabled) { return; } Logger.Info("{0} fired for task: {1}", trigger.GetType().Name, Name); trigger.Stop(); TaskManager.QueueScheduledTask(ScheduledTask); await Task.Delay(1000).ConfigureAwait(false); trigger.Start(false); } /// /// Executes the task /// /// Task. /// Cannot execute a Task that is already running public async Task Execute() { // Cancel the current execution, if any if (CurrentCancellationTokenSource != null) { throw new InvalidOperationException("Cannot execute a Task that is already running"); } CurrentCancellationTokenSource = new CancellationTokenSource(); Logger.Info("Executing {0}", Name); ((TaskManager)TaskManager).OnTaskExecuting(ScheduledTask); var progress = new Progress(); progress.ProgressChanged += progress_ProgressChanged; TaskCompletionStatus status; CurrentExecutionStartTime = DateTime.UtcNow; Exception failureException = null; try { await ExecuteTask(CurrentCancellationTokenSource.Token, progress).ConfigureAwait(false); status = TaskCompletionStatus.Completed; } catch (OperationCanceledException) { status = TaskCompletionStatus.Cancelled; } catch (Exception ex) { Logger.ErrorException("Error", ex); failureException = ex; status = TaskCompletionStatus.Failed; } var startTime = CurrentExecutionStartTime; var endTime = DateTime.UtcNow; progress.ProgressChanged -= progress_ProgressChanged; CurrentCancellationTokenSource.Dispose(); CurrentCancellationTokenSource = null; CurrentProgress = null; OnTaskCompleted(startTime, endTime, status, failureException); // Bad practice, i know. But we keep a lot in memory, unfortunately. GC.Collect(2, GCCollectionMode.Forced, true); GC.Collect(2, GCCollectionMode.Forced, true); } /// /// Executes the task. /// /// The cancellation token. /// The progress. /// Task. private Task ExecuteTask(CancellationToken cancellationToken, IProgress progress) { return Task.Run(async () => await ScheduledTask.Execute(cancellationToken, progress).ConfigureAwait(false), cancellationToken); } /// /// Progress_s the progress changed. /// /// The sender. /// The e. void progress_ProgressChanged(object sender, double e) { CurrentProgress = e; } /// /// Stops the task if it is currently executing /// /// Cannot cancel a Task unless it is in the Running state. public void Cancel() { if (State != TaskState.Running) { throw new InvalidOperationException("Cannot cancel a Task unless it is in the Running state."); } CancelIfRunning(); } /// /// Cancels if running. /// public void CancelIfRunning() { if (State == TaskState.Running) { Logger.Info("Attempting to cancel Scheduled Task {0}", Name); CurrentCancellationTokenSource.Cancel(); } } /// /// Gets the scheduled tasks configuration directory. /// /// System.String. private string GetScheduledTasksConfigurationDirectory() { return Path.Combine(ApplicationPaths.ConfigurationDirectoryPath, "ScheduledTasks"); } /// /// Gets the scheduled tasks data directory. /// /// System.String. private string GetScheduledTasksDataDirectory() { return Path.Combine(ApplicationPaths.DataPath, "ScheduledTasks"); } /// /// Gets the history file path. /// /// The history file path. private string GetHistoryFilePath() { return Path.Combine(GetScheduledTasksDataDirectory(), new Guid(Id) + ".js"); } /// /// Gets the configuration file path. /// /// System.String. private string GetConfigurationFilePath() { return Path.Combine(GetScheduledTasksConfigurationDirectory(), new Guid(Id) + ".js"); } /// /// Loads the triggers. /// /// IEnumerable{BaseTaskTrigger}. private IEnumerable LoadTriggers() { try { return JsonSerializer.DeserializeFromFile>(GetConfigurationFilePath()) .Select(ScheduledTaskHelpers.GetTrigger) .ToList(); } catch (FileNotFoundException) { // File doesn't exist. No biggie. Return defaults. return ScheduledTask.GetDefaultTriggers(); } catch (DirectoryNotFoundException) { // File doesn't exist. No biggie. Return defaults. return ScheduledTask.GetDefaultTriggers(); } } /// /// Saves the triggers. /// /// The triggers. private void SaveTriggers(IEnumerable triggers) { var path = GetConfigurationFilePath(); Directory.CreateDirectory(Path.GetDirectoryName(path)); JsonSerializer.SerializeToFile(triggers.Select(ScheduledTaskHelpers.GetTriggerInfo), path); } /// /// Called when [task completed]. /// /// The start time. /// The end time. /// The status. private void OnTaskCompleted(DateTime startTime, DateTime endTime, TaskCompletionStatus status, Exception ex) { var elapsedTime = endTime - startTime; Logger.Info("{0} {1} after {2} minute(s) and {3} seconds", Name, status, Math.Truncate(elapsedTime.TotalMinutes), elapsedTime.Seconds); var result = new TaskResult { StartTimeUtc = startTime, EndTimeUtc = endTime, Status = status, Name = Name, Id = Id }; if (ex != null) { result.ErrorMessage = ex.Message; } var path = GetHistoryFilePath(); Directory.CreateDirectory(Path.GetDirectoryName(path)); JsonSerializer.SerializeToFile(result, path); LastExecutionResult = result; ((TaskManager) TaskManager).OnTaskCompleted(ScheduledTask, result); } /// /// Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources. /// public void Dispose() { Dispose(true); GC.SuppressFinalize(this); } /// /// Releases unmanaged and - optionally - managed resources. /// /// true to release both managed and unmanaged resources; false to release only unmanaged resources. protected virtual void Dispose(bool dispose) { if (dispose) { DisposeTriggers(); if (State == TaskState.Running) { OnTaskCompleted(CurrentExecutionStartTime, DateTime.UtcNow, TaskCompletionStatus.Aborted, null); } if (CurrentCancellationTokenSource != null) { CurrentCancellationTokenSource.Dispose(); } } } /// /// Disposes each trigger /// private void DisposeTriggers() { foreach (var trigger in Triggers) { trigger.Triggered -= trigger_Triggered; trigger.Stop(); } } } }