using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Threading.Tasks;
using API.Data;
using API.Entities.Enums;
using Hangfire;
using Microsoft.Extensions.Hosting;
using Microsoft.Extensions.Logging;
namespace API.Services.Tasks.Scanner;
#nullable enable
public interface ILibraryWatcher
{
///
/// Start watching all library folders
///
///
Task StartWatching();
///
/// Stop watching all folders
///
void StopWatching();
///
/// Essentially stops then starts watching. Useful if there is a change in folders or libraries
///
///
Task RestartWatching();
}
///
/// Responsible for watching the file system and processing change events. This is mainly responsible for invoking
/// Scanner to quickly pickup on changes.
///
public class LibraryWatcher : ILibraryWatcher
{
private readonly IDirectoryService _directoryService;
private readonly IUnitOfWork _unitOfWork;
private readonly ILogger _logger;
private readonly ITaskScheduler _taskScheduler;
private static readonly Dictionary> WatcherDictionary = new ();
///
/// This is just here to prevent GC from Disposing our watchers
///
private static readonly IList FileWatchers = new List();
///
/// The amount of time until the Schedule ScanFolder task should be executed
///
/// The Job will be enqueued instantly
private readonly TimeSpan _queueWaitTime;
///
/// Counts within a time frame how many times the buffer became full. Is used to reschedule LibraryWatcher to start monitoring much later rather than instantly
///
private int _bufferFullCounter;
private int _restartCounter;
private DateTime _lastErrorTime = DateTime.MinValue;
///
/// Used to lock buffer Full Counter
///
private static readonly object Lock = new ();
public LibraryWatcher(IDirectoryService directoryService, IUnitOfWork unitOfWork,
ILogger logger, IHostEnvironment environment, ITaskScheduler taskScheduler)
{
_directoryService = directoryService;
_unitOfWork = unitOfWork;
_logger = logger;
_taskScheduler = taskScheduler;
_queueWaitTime = environment.IsDevelopment() ? TimeSpan.FromSeconds(30) : TimeSpan.FromMinutes(5);
}
public async Task StartWatching()
{
FileWatchers.Clear();
WatcherDictionary.Clear();
if (!(await _unitOfWork.SettingsRepository.GetSettingsDtoAsync()).EnableFolderWatching)
{
_logger.LogInformation("Folder watching is disabled at the server level, thus ignoring any requests to create folder watching");
return;
}
var libraryFolders = (await _unitOfWork.LibraryRepository.GetLibraryDtosAsync())
.Where(l => l.FolderWatching)
.SelectMany(l => l.Folders)
.Distinct()
.Select(Parser.Parser.NormalizePath)
.Where(_directoryService.Exists)
.ToList();
_logger.LogInformation("[LibraryWatcher] Starting file watchers for {Count} library folders", libraryFolders.Count);
foreach (var libraryFolder in libraryFolders)
{
_logger.LogDebug("[LibraryWatcher] Watching {FolderPath}", libraryFolder);
var watcher = new FileSystemWatcher(libraryFolder);
watcher.Changed += OnChanged;
watcher.Created += OnCreated;
watcher.Deleted += OnDeleted;
watcher.Error += OnError;
watcher.Disposed += (_, _) =>
_logger.LogError("[LibraryWatcher] watcher was disposed when it shouldn't have been. Please report this to Kavita dev");
watcher.Filter = "*.*";
watcher.IncludeSubdirectories = true;
watcher.EnableRaisingEvents = true;
FileWatchers.Add(watcher);
if (!WatcherDictionary.ContainsKey(libraryFolder))
{
WatcherDictionary.Add(libraryFolder, new List());
}
WatcherDictionary[libraryFolder].Add(watcher);
}
_logger.LogInformation("[LibraryWatcher] Watching {Count} folders", libraryFolders.Count);
}
public void StopWatching()
{
_logger.LogInformation("[LibraryWatcher] 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.Error -= OnError;
}
FileWatchers.Clear();
WatcherDictionary.Clear();
}
public async Task RestartWatching()
{
_logger.LogDebug("[LibraryWatcher] Restarting watcher");
StopWatching();
await StartWatching();
}
private void OnChanged(object sender, FileSystemEventArgs e)
{
_logger.LogDebug("[LibraryWatcher] Changed: {FullPath}, {Name}, {ChangeType}", e.FullPath, e.Name, e.ChangeType);
if (e.ChangeType != WatcherChangeTypes.Changed) return;
BackgroundJob.Enqueue(() => ProcessChange(e.FullPath, string.IsNullOrEmpty(_directoryService.FileSystem.Path.GetExtension(e.Name))));
}
private void OnCreated(object sender, FileSystemEventArgs e)
{
_logger.LogDebug("[LibraryWatcher] Created: {FullPath}, {Name}", e.FullPath, e.Name);
BackgroundJob.Enqueue(() => ProcessChange(e.FullPath, !_directoryService.FileSystem.File.Exists(e.Name)));
}
///
/// From testing, on Deleted only needs to pass through the event when a folder is deleted. If a file is deleted, Changed will handle automatically.
///
///
///
private void OnDeleted(object sender, FileSystemEventArgs e) {
var isDirectory = string.IsNullOrEmpty(_directoryService.FileSystem.Path.GetExtension(e.Name));
if (!isDirectory) return;
_logger.LogDebug("[LibraryWatcher] Deleted: {FullPath}, {Name}", e.FullPath, e.Name);
BackgroundJob.Enqueue(() => ProcessChange(e.FullPath, true));
}
///
/// On error, we count the number of errors that have occured. If the number of errors has been more than 2 in last 10 minutes, then we suspend listening for an hour
///
/// This will schedule jobs to decrement the buffer full counter
///
///
private void OnError(object sender, ErrorEventArgs e)
{
_logger.LogError(e.GetException(), "[LibraryWatcher] An error occured, likely too many changes occured at once or the folder being watched was deleted. Restarting Watchers");
bool condition;
lock (Lock)
{
_bufferFullCounter += 1;
_lastErrorTime = DateTime.Now;
condition = _bufferFullCounter >= 3 && (DateTime.Now - _lastErrorTime).TotalMinutes <= 10;
}
if (_restartCounter >= 3)
{
_logger.LogInformation("[LibraryWatcher] Too many restarts occured, you either have limited inotify or an OS constraint. Kavita will turn off folder watching to prevent high utilization of resources");
Task.Run(TurnOffWatching);
return;
}
if (condition)
{
_logger.LogInformation("[LibraryWatcher] Internal buffer has been overflown multiple times in past 10 minutes. Suspending file watching for an hour. Restart count: {RestartCount}", _restartCounter);
_restartCounter++;
StopWatching();
BackgroundJob.Schedule(() => RestartWatching(), TimeSpan.FromHours(1));
return;
}
Task.Run(RestartWatching);
BackgroundJob.Schedule(() => UpdateLastBufferOverflow(), TimeSpan.FromMinutes(10));
}
private async Task TurnOffWatching()
{
var setting = await _unitOfWork.SettingsRepository.GetSettingAsync(ServerSettingKey.EnableFolderWatching);
setting.Value = "false";
_unitOfWork.SettingsRepository.Update(setting);
await _unitOfWork.CommitAsync();
StopWatching();
_logger.LogInformation("[LibraryWatcher] Folder watching has been disabled");
}
///
/// Processes the file or folder change. If the change is a file change and not from a supported extension, it will be ignored.
///
/// This will ignore image files that are added to the system. However, they may still trigger scans due to folder changes.
/// This is public only because Hangfire will invoke it. Do not call external to this class.
/// File or folder that changed
/// If the change is on a directory and not a file
[DisableConcurrentExecution(60)]
// ReSharper disable once MemberCanBePrivate.Global
public async Task ProcessChange(string filePath, bool isDirectoryChange = false)
{
var sw = Stopwatch.StartNew();
_logger.LogTrace("[LibraryWatcher] Processing change of {FilePath}", filePath);
try
{
// If the change occurs in a blacklisted folder path, then abort processing
if (Parser.Parser.HasBlacklistedFolderInPath(filePath))
{
return;
}
// If not a directory change AND file is not an archive or book, ignore
if (!isDirectoryChange &&
!(Parser.Parser.IsArchive(filePath) || Parser.Parser.IsBook(filePath)))
{
_logger.LogTrace("[LibraryWatcher] Change from {FilePath} is not an archive or book, ignoring change", filePath);
return;
}
var libraryFolders = (await _unitOfWork.LibraryRepository.GetLibraryDtosAsync())
.SelectMany(l => l.Folders)
.Distinct()
.Select(Parser.Parser.NormalizePath)
.Where(_directoryService.Exists)
.ToList();
var fullPath = GetFolder(filePath, libraryFolders);
_logger.LogTrace("Folder path: {FolderPath}", fullPath);
if (string.IsNullOrEmpty(fullPath))
{
_logger.LogTrace("[LibraryWatcher] Change from {FilePath} could not find root level folder, ignoring change", filePath);
return;
}
_taskScheduler.ScanFolder(fullPath, _queueWaitTime);
}
catch (Exception ex)
{
_logger.LogError(ex, "[LibraryWatcher] An error occured when processing a watch event");
}
_logger.LogDebug("[LibraryWatcher] ProcessChange completed in {ElapsedMilliseconds}ms", sw.ElapsedMilliseconds);
}
private string GetFolder(string filePath, IEnumerable libraryFolders)
{
var parentDirectory = _directoryService.GetParentDirectoryName(filePath);
_logger.LogTrace("[LibraryWatcher] Parent Directory: {ParentDirectory}", parentDirectory);
if (string.IsNullOrEmpty(parentDirectory)) return string.Empty;
// 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));
_logger.LogTrace("[LibraryWatcher] Library Folder: {LibraryFolder}", libraryFolder);
if (string.IsNullOrEmpty(libraryFolder)) return string.Empty;
var rootFolder = _directoryService.GetFoldersTillRoot(libraryFolder, filePath).ToList();
_logger.LogTrace("[LibraryWatcher] Root Folders: {RootFolders}", rootFolder);
if (!rootFolder.Any()) return string.Empty;
// Select the first folder and join with library folder, this should give us the folder to scan.
return Parser.Parser.NormalizePath(_directoryService.FileSystem.Path.Join(libraryFolder, rootFolder[rootFolder.Count - 1]));
}
///
/// This is called via Hangfire to decrement the counter. Must work around a lock
///
// ReSharper disable once MemberCanBePrivate.Global
public void UpdateLastBufferOverflow()
{
lock (Lock)
{
if (_bufferFullCounter == 0) return;
_bufferFullCounter -= 1;
}
}
}