//https://github.com/kayone/NzbDrone/blob/master/NzbDrone.Core/Providers/Jobs/JobProvider.cs
using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Diagnostics;
using System.Linq;
using System.Threading;
using Ninject;
using NLog;
using NzbDrone.Core.Model;
using NzbDrone.Core.Model.Notification;
using NzbDrone.Core.Repository;
using PetaPoco;
namespace NzbDrone.Core.Providers.Jobs
{
///
/// Provides a background task runner, tasks could be queue either by the scheduler using QueueScheduled()
/// or by explicitly calling QueueJob(type,int)
///
public class JobProvider
{
private static readonly Logger Logger = LogManager.GetCurrentClassLogger();
private readonly IDatabase _database;
private readonly NotificationProvider _notificationProvider;
private readonly IList _jobs;
private static readonly object ExecutionLock = new object();
private Thread _jobThread;
private static bool _isRunning;
private static readonly List _queue = new List();
private ProgressNotification _notification;
[Inject]
public JobProvider(IDatabase database, NotificationProvider notificationProvider, IList jobs)
{
_database = database;
_notificationProvider = notificationProvider;
_jobs = jobs;
}
///
/// Initializes a new instance of the class. by AutoMoq
///
/// Should only be used by AutoMoq
[EditorBrowsable(EditorBrowsableState.Never)]
public JobProvider() { }
///
/// Gets the active queue.
///
public static List Queue
{
get
{
return _queue;
}
}
///
/// Returns a list of all registered jobs
///
public virtual List All()
{
return _database.Fetch().ToList();
}
///
/// Adds/Updates definitions for a job
///
/// Settings to be added/updated
public virtual void SaveDefinition(JobDefinition definitions)
{
if (definitions.Id == 0)
{
Logger.Trace("Adding job definitions for {0}", definitions.Name);
_database.Insert(definitions);
}
else
{
Logger.Trace("Updating job definitions for {0}", definitions.Name);
_database.Update(definitions);
}
}
///
/// Iterates through all registered jobs and queues any that are due for an execution.
///
/// Will ignore request if queue is already running.
public virtual void QueueScheduled()
{
lock (ExecutionLock)
{
if (_isRunning)
{
Logger.Trace("Queue is already running. Ignoring scheduler's request.");
return;
}
}
var counter = 0;
var pendingJobs = All().Where(
t => t.Enable &&
(DateTime.Now - t.LastExecution) > TimeSpan.FromMinutes(t.Interval)
).Select(c => _jobs.Where(t => t.GetType().ToString() == c.TypeName).Single());
foreach (var job in pendingJobs)
{
QueueJob(job.GetType());
counter++;
}
Logger.Trace("{0} Scheduled tasks have been added to the queue", counter);
}
///
/// Queues the execution of a job asynchronously
///
/// Type of the job that should be queued.
/// The targetId could be any Id parameter eg. SeriesId. it will be passed to the job implementation
/// to allow it to filter it's target of execution.
/// /// The secondaryTargetId could be any Id parameter eg. SeasonNumber. it will be passed to
/// the timer implementation to further allow it to filter it's target of execution
/// Job is only added to the queue if same job with the same targetId doesn't already exist in the queue.
public virtual void QueueJob(Type jobType, int targetId = 0, int secondaryTargetId = 0)
{
Logger.Debug("Adding [{0}:{1}] to the queue", jobType.Name, targetId);
lock (ExecutionLock)
{
lock (Queue)
{
var queueItem = new JobQueueItem
{
JobType = jobType,
TargetId = targetId,
SecondaryTargetId = secondaryTargetId
};
if (!Queue.Contains(queueItem))
{
Queue.Add(queueItem);
Logger.Trace("Job [{0}:{1}] added to the queue", jobType.Name, targetId);
}
else
{
Logger.Info("[{0}:{1}] already exists in the queue. Skipping.", jobType.Name, targetId);
}
}
if (_isRunning)
{
Logger.Trace("Queue is already running. No need to start it up.");
return;
}
_isRunning = true;
}
if (_jobThread == null || !_jobThread.IsAlive)
{
Logger.Trace("Initializing queue processor thread");
ThreadStart starter = () =>
{
try
{
ProcessQueue();
}
catch (Exception e)
{
Logger.ErrorException("Error has occurred in queue processor thread", e);
}
finally
{
_isRunning = false;
}
};
_jobThread = new Thread(starter) { Name = "JobQueueThread" };
_jobThread.Start();
}
else
{
var messge = "Job Thread is null";
if (_jobThread != null)
{
messge = "Job Thread State: " + _jobThread.ThreadState;
}
Logger.Error("Execution lock has fucked up. {0}. Ignoring request.", messge);
}
}
///
/// Starts processing of queue synchronously.
///
private void ProcessQueue()
{
do
{
using (NestedDiagnosticsContext.Push(Guid.NewGuid().ToString()))
{
try
{
JobQueueItem job = null;
lock (Queue)
{
if (Queue.Count != 0)
{
job = Queue.First();
Queue.Remove(job);
}
}
if (job != null)
{
Execute(job.JobType, job.TargetId, job.SecondaryTargetId);
}
}
catch (Exception e)
{
Logger.FatalException("An error has occurred while processing queued job.", e);
}
}
} while (Queue.Count != 0);
Logger.Trace("Finished processing jobs in the queue.");
return;
}
///
/// Executes the job synchronously
///
/// Type of the job that should be executed
/// The targetId could be any Id parameter eg. SeriesId. it will be passed to the timer implementation
/// to allow it to filter it's target of execution
/// /// The secondaryTargetId could be any Id parameter eg. SeasonNumber. it will be passed to
/// the timer implementation to further allow it to filter it's target of execution
private void Execute(Type jobType, int targetId = 0, int secondaryTargetId = 0)
{
var jobImplementation = _jobs.Where(t => t.GetType() == jobType).Single();
if (jobImplementation == null)
{
Logger.Error("Unable to locate implementation for '{0}'. Make sure it is properly registered.", jobType);
return;
}
var settings = All().Where(j => j.TypeName == jobType.ToString()).Single();
using (_notification = new ProgressNotification(jobImplementation.Name))
{
try
{
Logger.Debug("Starting '{0}' job. Last execution {1}", settings.Name, settings.LastExecution);
var sw = Stopwatch.StartNew();
_notificationProvider.Register(_notification);
jobImplementation.Start(_notification, targetId, secondaryTargetId);
_notification.Status = ProgressNotificationStatus.Completed;
settings.LastExecution = DateTime.Now;
settings.Success = true;
sw.Stop();
Logger.Debug("Job '{0}' successfully completed in {1}.{2} seconds.", jobImplementation.Name, sw.Elapsed.Seconds, sw.Elapsed.Milliseconds / 100,
sw.Elapsed.Seconds);
}
catch (Exception e)
{
Logger.ErrorException("An error has occurred while executing job " + jobImplementation.Name, e);
_notification.Status = ProgressNotificationStatus.Failed;
_notification.CurrentMessage = jobImplementation.Name + " Failed.";
settings.LastExecution = DateTime.Now;
settings.Success = false;
}
}
//Only update last execution status if was triggered by the scheduler
if (targetId == 0)
{
SaveDefinition(settings);
}
}
///
/// Initializes jobs in the database using the IJob instances that are
/// registered using ninject
///
public virtual void Initialize()
{
Logger.Debug("Initializing jobs. Count {0}", _jobs.Count());
var currentTimer = All();
foreach (var timer in _jobs)
{
var timerProviderLocal = timer;
if (!currentTimer.Exists(c => c.TypeName == timerProviderLocal.GetType().ToString()))
{
var settings = new JobDefinition
{
Enable = timerProviderLocal.DefaultInterval > 0,
TypeName = timer.GetType().ToString(),
Name = timerProviderLocal.Name,
Interval = timerProviderLocal.DefaultInterval,
LastExecution = new DateTime(2000, 1, 1)
};
SaveDefinition(settings);
}
}
}
///
/// Gets the next scheduled run time for a specific job
/// (Estimated due to schedule timer)
///
/// DateTime of next scheduled job execution
public virtual DateTime NextScheduledRun(Type jobType)
{
var job = All().Where(t => t.TypeName == jobType.ToString()).Single();
return job.LastExecution.AddMinutes(job.Interval);
}
}
}