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Kavita/API/Services/Tasks/Scanner/LibraryWatcher.cs
Joseph Milazzo 0cd14b3efc
Tachiyomi + Fixes (#1481) 
* Fixed a bootstrap bug

* Fixed repeating images on collection detail

* Fixed up some logic in library watcher which wasn't processing all of the queue.

* When parsing non-epubs in Book library, use Manga parsing for Volume support to better support Light Novels

* Fixed some bugs with the tachiyomi plugin api's for progress tracking
2022-08-25 16:38:36 -07:00

239 lines
8.6 KiB
C#
Raw Blame History

using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text.RegularExpressions;
using System.Threading.Tasks;
using API.Data;
using Hangfire;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
namespace API.Services.Tasks.Scanner;
public interface ILibraryWatcher
{
/// <summary>
/// Start watching all library folders
/// </summary>
/// <returns></returns>
Task StartWatching();
/// <summary>
/// Stop watching all folders
/// </summary>
void StopWatching();
/// <summary>
/// Essentially stops then starts watching. Useful if there is a change in folders or libraries
/// </summary>
/// <returns></returns>
Task RestartWatching();
}
internal class FolderScanQueueable
{
public DateTime QueueTime { get; set; }
public string FolderPath { get; set; }
}
internal class FolderScanQueueableComparer : IEqualityComparer<FolderScanQueueable>
{
public bool Equals(FolderScanQueueable x, FolderScanQueueable y)
{
if (ReferenceEquals(x, y)) return true;
if (ReferenceEquals(x, null)) return false;
if (ReferenceEquals(y, null)) return false;
if (x.GetType() != y.GetType()) return false;
return x.FolderPath == y.FolderPath;
}
public int GetHashCode(FolderScanQueueable obj)
{
return HashCode.Combine(obj.FolderPath);
}
}
/// <summary>
/// Responsible for watching the file system and processing change events. This is mainly responsible for invoking
/// Scanner to quickly pickup on changes.
/// </summary>
public class LibraryWatcher : ILibraryWatcher
{
private readonly IDirectoryService _directoryService;
private readonly IUnitOfWork _unitOfWork;
private readonly ILogger<LibraryWatcher> _logger;
private readonly IScannerService _scannerService;
private readonly Dictionary<string, IList<FileSystemWatcher>> _watcherDictionary = new ();
private IList<string> _libraryFolders = new List<string>();
private readonly Queue<FolderScanQueueable> _scanQueue = new Queue<FolderScanQueueable>();
private readonly TimeSpan _queueWaitTime;
private readonly FolderScanQueueableComparer _folderScanQueueableComparer = new FolderScanQueueableComparer();
public LibraryWatcher(IDirectoryService directoryService, IUnitOfWork unitOfWork, ILogger<LibraryWatcher> logger, IScannerService scannerService, IHostEnvironment environment)
{
_directoryService = directoryService;
_unitOfWork = unitOfWork;
_logger = logger;
_scannerService = scannerService;
_queueWaitTime = environment.IsDevelopment() ? TimeSpan.FromSeconds(10) : TimeSpan.FromMinutes(1);
}
public async Task StartWatching()
{
_logger.LogInformation("Starting file watchers");
_libraryFolders = (await _unitOfWork.LibraryRepository.GetLibraryDtosAsync())
.SelectMany(l => l.Folders)
.Distinct()
.Select(Parser.Parser.NormalizePath)
.ToList();
foreach (var libraryFolder in _libraryFolders)
{
_logger.LogDebug("Watching {FolderPath}", libraryFolder);
var watcher = new FileSystemWatcher(libraryFolder);
watcher.NotifyFilter = NotifyFilters.CreationTime
| NotifyFilters.DirectoryName
| NotifyFilters.FileName
| NotifyFilters.LastWrite
| NotifyFilters.Size;
watcher.Changed += OnChanged;
watcher.Created += OnCreated;
watcher.Deleted += OnDeleted;
watcher.Renamed += OnRenamed;
watcher.Filter = "*.*";
watcher.IncludeSubdirectories = true;
watcher.EnableRaisingEvents = true;
if (!_watcherDictionary.ContainsKey(libraryFolder))
{
_watcherDictionary.Add(libraryFolder, new List<FileSystemWatcher>());
}
_watcherDictionary[libraryFolder].Add(watcher);
}
}
public void StopWatching()
{
_logger.LogInformation("Stopping watching folders");
foreach (var fileSystemWatcher in _watcherDictionary.Values.SelectMany(watcher => watcher))
{
fileSystemWatcher.EnableRaisingEvents = false;
fileSystemWatcher.Changed -= OnChanged;
fileSystemWatcher.Created -= OnCreated;
fileSystemWatcher.Deleted -= OnDeleted;
fileSystemWatcher.Renamed -= OnRenamed;
fileSystemWatcher.Dispose();
}
_watcherDictionary.Clear();
}
public async Task RestartWatching()
{
StopWatching();
await StartWatching();
}
private void OnChanged(object sender, FileSystemEventArgs e)
{
if (e.ChangeType != WatcherChangeTypes.Changed) return;
_logger.LogDebug("[LibraryWatcher] Changed: {FullPath}, {Name}", e.FullPath, e.Name);
ProcessChange(e.FullPath);
}
private void OnCreated(object sender, FileSystemEventArgs e)
{
_logger.LogDebug("[LibraryWatcher] Created: {FullPath}, {Name}", e.FullPath, e.Name);
ProcessChange(e.FullPath, !_directoryService.FileSystem.File.Exists(e.Name));
}
private void OnDeleted(object sender, FileSystemEventArgs e) {
_logger.LogDebug("[LibraryWatcher] Deleted: {FullPath}, {Name}", e.FullPath, e.Name);
// On deletion, we need another type of check. We need to check if e.Name has an extension or not
// NOTE: File deletion will trigger a folder change event, so this might not be needed
ProcessChange(e.FullPath, string.IsNullOrEmpty(_directoryService.FileSystem.Path.GetExtension(e.Name)));
}
private void OnRenamed(object sender, RenamedEventArgs e)
{
_logger.LogDebug($"[LibraryWatcher] Renamed:");
_logger.LogDebug(" Old: {OldFullPath}", e.OldFullPath);
_logger.LogDebug(" New: {FullPath}", e.FullPath);
ProcessChange(e.FullPath, _directoryService.FileSystem.Directory.Exists(e.FullPath));
}
/// <summary>
/// Processes the file or folder change.
/// </summary>
/// <param name="filePath">File or folder that changed</param>
/// <param name="isDirectoryChange">If the change is on a directory and not a file</param>
private void ProcessChange(string filePath, bool isDirectoryChange = false)
{
// We need to check if directory or not
if (!isDirectoryChange && !new Regex(Parser.Parser.SupportedExtensions).IsMatch(new FileInfo(filePath).Extension)) return;
var parentDirectory = _directoryService.GetParentDirectoryName(filePath);
if (string.IsNullOrEmpty(parentDirectory)) return;
// We need to find the library this creation belongs to
// Multiple libraries can point to the same base folder. In this case, we need use FirstOrDefault
var libraryFolder = _libraryFolders.FirstOrDefault(f => parentDirectory.Contains(f));
if (string.IsNullOrEmpty(libraryFolder)) return;
var rootFolder = _directoryService.GetFoldersTillRoot(libraryFolder, filePath).ToList();
if (!rootFolder.Any()) return;
// Select the first folder and join with library folder, this should give us the folder to scan.
var fullPath = Parser.Parser.NormalizePath(_directoryService.FileSystem.Path.Join(libraryFolder, rootFolder.First()));
var queueItem = new FolderScanQueueable()
{
FolderPath = fullPath,
QueueTime = DateTime.Now
};
if (!_scanQueue.Contains(queueItem, _folderScanQueueableComparer))
{
_logger.LogDebug("[LibraryWatcher] Queuing job for {Folder} at {TimeStamp}", fullPath, DateTime.Now);
_scanQueue.Enqueue(queueItem);
}
ProcessQueue();
}
/// <summary>
/// Instead of making things complicated with a separate thread, this service will process the queue whenever a change occurs
/// </summary>
private void ProcessQueue()
{
var i = 0;
while (i < _scanQueue.Count)
{
var item = _scanQueue.Peek();
if (item.QueueTime < DateTime.Now.Subtract(_queueWaitTime))
{
_logger.LogDebug("[LibraryWatcher] Scheduling ScanSeriesFolder for {Folder}", item.FolderPath);
BackgroundJob.Enqueue(() => _scannerService.ScanFolder(item.FolderPath));
_scanQueue.Dequeue();
}
else
{
i++;
}
}
if (_scanQueue.Count > 0)
{
Task.Delay(TimeSpan.FromSeconds(30)).ContinueWith(t=> ProcessQueue());
}
}
}
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