using MediaBrowser.Common.Events; using MediaBrowser.Common.Extensions; using MediaBrowser.Common.ScheduledTasks; using MediaBrowser.Controller.Entities; using MediaBrowser.Controller.IO; using MediaBrowser.Controller.Resolvers; using MediaBrowser.Controller.ScheduledTasks; using MediaBrowser.Model.Entities; using MediaBrowser.Model.Logging; using MoreLinq; using System; using System.Collections.Concurrent; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Linq; using System.Threading; using System.Threading.Tasks; namespace MediaBrowser.Controller.Library { /// /// Class LibraryManager /// public class LibraryManager { #region LibraryChanged Event /// /// Fires whenever any validation routine adds or removes items. The added and removed items are properties of the args. /// *** Will fire asynchronously. *** /// public event EventHandler LibraryChanged; /// /// Raises the event. /// /// The instance containing the event data. internal void OnLibraryChanged(ChildrenChangedEventArgs args) { EventHelper.QueueEventIfNotNull(LibraryChanged, this, args, _logger); // Had to put this in a separate method to avoid an implicitly captured closure SendLibraryChangedWebSocketMessage(args); } /// /// Sends the library changed web socket message. /// /// The instance containing the event data. private void SendLibraryChangedWebSocketMessage(ChildrenChangedEventArgs args) { // Notify connected ui's Kernel.ServerManager.SendWebSocketMessage("LibraryChanged", () => DtoBuilder.GetLibraryUpdateInfo(args)); } #endregion /// /// The _logger /// private readonly ILogger _logger; /// /// The _task manager /// private readonly ITaskManager _taskManager; private readonly IUserManager _userManager; /// /// Gets or sets the kernel. /// /// The kernel. private Kernel Kernel { get; set; } /// /// Initializes a new instance of the class. /// /// The kernel. /// The logger. /// The task manager. public LibraryManager(Kernel kernel, ILogger logger, ITaskManager taskManager, IUserManager userManager) { Kernel = kernel; _logger = logger; _taskManager = taskManager; _userManager = userManager; kernel.ConfigurationUpdated += kernel_ConfigurationUpdated; } /// /// Handles the ConfigurationUpdated event of the kernel control. /// /// The source of the event. /// The instance containing the event data. void kernel_ConfigurationUpdated(object sender, EventArgs e) { //// Figure out whether or not we should refresh people after the update is finished //var refreshPeopleAfterUpdate = !oldConfiguration.EnableInternetProviders && config.EnableInternetProviders; //// This is true if internet providers has just been turned on, or if People have just been removed from InternetProviderExcludeTypes //if (!refreshPeopleAfterUpdate) //{ // var oldConfigurationFetchesPeopleImages = oldConfiguration.InternetProviderExcludeTypes == null || !oldConfiguration.InternetProviderExcludeTypes.Contains(typeof(Person).Name, StringComparer.OrdinalIgnoreCase); // var newConfigurationFetchesPeopleImages = config.InternetProviderExcludeTypes == null || !config.InternetProviderExcludeTypes.Contains(typeof(Person).Name, StringComparer.OrdinalIgnoreCase); // refreshPeopleAfterUpdate = newConfigurationFetchesPeopleImages && !oldConfigurationFetchesPeopleImages; //} Task.Run(() => { // Any number of configuration settings could change the way the library is refreshed, so do that now _taskManager.CancelIfRunningAndQueue(); _taskManager.CancelIfRunningAndQueue(); }); } /// /// Resolves the item. /// /// The args. /// BaseItem. public BaseItem ResolveItem(ItemResolveArgs args) { return Kernel.EntityResolvers.Select(r => r.ResolvePath(args)).FirstOrDefault(i => i != null); } /// /// Resolves a path into a BaseItem /// /// The path. /// The parent. /// The file info. /// BaseItem. /// public BaseItem GetItem(string path, Folder parent = null, WIN32_FIND_DATA? fileInfo = null) { if (string.IsNullOrEmpty(path)) { throw new ArgumentNullException(); } fileInfo = fileInfo ?? FileSystem.GetFileData(path); if (!fileInfo.HasValue) { return null; } var args = new ItemResolveArgs { Parent = parent, Path = path, FileInfo = fileInfo.Value }; // Return null if ignore rules deem that we should do so if (Kernel.EntityResolutionIgnoreRules.Any(r => r.ShouldIgnore(args))) { return null; } // Gather child folder and files if (args.IsDirectory) { // When resolving the root, we need it's grandchildren (children of user views) var flattenFolderDepth = args.IsPhysicalRoot ? 2 : 0; args.FileSystemDictionary = FileData.GetFilteredFileSystemEntries(args.Path, _logger, flattenFolderDepth: flattenFolderDepth, args: args); } // Check to see if we should resolve based on our contents if (args.IsDirectory && !EntityResolutionHelper.ShouldResolvePathContents(args)) { return null; } return ResolveItem(args); } /// /// Resolves a set of files into a list of BaseItem /// /// /// The files. /// The parent. /// List{``0}. public List GetItems(IEnumerable files, Folder parent) where T : BaseItem { var list = new List(); Parallel.ForEach(files, f => { try { var item = GetItem(f.Path, parent, f) as T; if (item != null) { lock (list) { list.Add(item); } } } catch (Exception ex) { _logger.ErrorException("Error resolving path {0}", ex, f.Path); } }); return list; } /// /// Creates the root media folder /// /// AggregateFolder. /// Cannot create the root folder until plugins have loaded internal AggregateFolder CreateRootFolder() { if (Kernel.Plugins == null) { throw new InvalidOperationException("Cannot create the root folder until plugins have loaded"); } var rootFolderPath = Kernel.ApplicationPaths.RootFolderPath; var rootFolder = Kernel.ItemRepository.RetrieveItem(rootFolderPath.GetMBId(typeof(AggregateFolder))) as AggregateFolder ?? (AggregateFolder)GetItem(rootFolderPath); // Add in the plug-in folders foreach (var child in Kernel.PluginFolderCreators) { rootFolder.AddVirtualChild(child.GetFolder()); } return rootFolder; } /// /// Gets a Person /// /// The name. /// if set to true [allow slow providers]. /// Task{Person}. public Task GetPerson(string name, bool allowSlowProviders = false) { return GetPerson(name, CancellationToken.None, allowSlowProviders); } /// /// Gets a Person /// /// The name. /// The cancellation token. /// if set to true [allow slow providers]. /// Task{Person}. private Task GetPerson(string name, CancellationToken cancellationToken, bool allowSlowProviders = false) { return GetImagesByNameItem(Kernel.ApplicationPaths.PeoplePath, name, cancellationToken, allowSlowProviders); } /// /// Gets a Studio /// /// The name. /// if set to true [allow slow providers]. /// Task{Studio}. public Task GetStudio(string name, bool allowSlowProviders = false) { return GetImagesByNameItem(Kernel.ApplicationPaths.StudioPath, name, CancellationToken.None, allowSlowProviders); } /// /// Gets a Genre /// /// The name. /// if set to true [allow slow providers]. /// Task{Genre}. public Task GetGenre(string name, bool allowSlowProviders = false) { return GetImagesByNameItem(Kernel.ApplicationPaths.GenrePath, name, CancellationToken.None, allowSlowProviders); } /// /// The us culture /// private static readonly CultureInfo UsCulture = new CultureInfo("en-US"); /// /// Gets a Year /// /// The value. /// if set to true [allow slow providers]. /// Task{Year}. /// public Task GetYear(int value, bool allowSlowProviders = false) { if (value <= 0) { throw new ArgumentOutOfRangeException(); } return GetImagesByNameItem(Kernel.ApplicationPaths.YearPath, value.ToString(UsCulture), CancellationToken.None, allowSlowProviders); } /// /// The images by name item cache /// private readonly ConcurrentDictionary ImagesByNameItemCache = new ConcurrentDictionary(StringComparer.OrdinalIgnoreCase); /// /// Generically retrieves an IBN item /// /// /// The path. /// The name. /// The cancellation token. /// if set to true [allow slow providers]. /// Task{``0}. /// private Task GetImagesByNameItem(string path, string name, CancellationToken cancellationToken, bool allowSlowProviders = true) where T : BaseItem, new() { if (string.IsNullOrEmpty(path)) { throw new ArgumentNullException(); } if (string.IsNullOrEmpty(name)) { throw new ArgumentNullException(); } var key = Path.Combine(path, FileSystem.GetValidFilename(name)); var obj = ImagesByNameItemCache.GetOrAdd(key, keyname => CreateImagesByNameItem(path, name, cancellationToken, allowSlowProviders)); return obj as Task; } /// /// Creates an IBN item based on a given path /// /// /// The path. /// The name. /// The cancellation token. /// if set to true [allow slow providers]. /// Task{``0}. /// Path not created: + path private async Task CreateImagesByNameItem(string path, string name, CancellationToken cancellationToken, bool allowSlowProviders = true) where T : BaseItem, new() { cancellationToken.ThrowIfCancellationRequested(); _logger.Debug("Creating {0}: {1}", typeof(T).Name, name); path = Path.Combine(path, FileSystem.GetValidFilename(name)); var fileInfo = FileSystem.GetFileData(path); var isNew = false; if (!fileInfo.HasValue) { Directory.CreateDirectory(path); fileInfo = FileSystem.GetFileData(path); if (!fileInfo.HasValue) { throw new IOException("Path not created: " + path); } isNew = true; } cancellationToken.ThrowIfCancellationRequested(); var id = path.GetMBId(typeof(T)); var item = Kernel.ItemRepository.RetrieveItem(id) as T; if (item == null) { item = new T { Name = name, Id = id, DateCreated = fileInfo.Value.CreationTimeUtc, DateModified = fileInfo.Value.LastWriteTimeUtc, Path = path }; isNew = true; } cancellationToken.ThrowIfCancellationRequested(); // Set this now so we don't cause additional file system access during provider executions item.ResetResolveArgs(fileInfo); await item.RefreshMetadata(cancellationToken, isNew, allowSlowProviders: allowSlowProviders).ConfigureAwait(false); cancellationToken.ThrowIfCancellationRequested(); return item; } /// /// Validate and refresh the People sub-set of the IBN. /// The items are stored in the db but not loaded into memory until actually requested by an operation. /// /// The cancellation token. /// The progress. /// Task. internal async Task ValidatePeople(CancellationToken cancellationToken, IProgress progress) { // Clear the IBN cache ImagesByNameItemCache.Clear(); const int maxTasks = 250; var tasks = new List(); var includedPersonTypes = new[] { PersonType.Actor, PersonType.Director }; var people = Kernel.RootFolder.RecursiveChildren .Where(c => c.People != null) .SelectMany(c => c.People.Where(p => includedPersonTypes.Contains(p.Type))) .DistinctBy(p => p.Name, StringComparer.OrdinalIgnoreCase) .ToList(); var numComplete = 0; foreach (var person in people) { if (tasks.Count > maxTasks) { await Task.WhenAll(tasks).ConfigureAwait(false); tasks.Clear(); // Safe cancellation point, when there are no pending tasks cancellationToken.ThrowIfCancellationRequested(); } // Avoid accessing the foreach variable within the closure var currentPerson = person; tasks.Add(Task.Run(async () => { cancellationToken.ThrowIfCancellationRequested(); try { await GetPerson(currentPerson.Name, cancellationToken, allowSlowProviders: true).ConfigureAwait(false); } catch (IOException ex) { _logger.ErrorException("Error validating IBN entry {0}", ex, currentPerson.Name); } // Update progress lock (progress) { numComplete++; double percent = numComplete; percent /= people.Count; progress.Report(100 * percent); } })); } await Task.WhenAll(tasks).ConfigureAwait(false); progress.Report(100); _logger.Info("People validation complete"); } /// /// Reloads the root media folder /// /// The progress. /// The cancellation token. /// Task. internal async Task ValidateMediaLibrary(IProgress progress, CancellationToken cancellationToken) { _logger.Info("Validating media library"); await Kernel.RootFolder.RefreshMetadata(cancellationToken).ConfigureAwait(false); // Start by just validating the children of the root, but go no further await Kernel.RootFolder.ValidateChildren(new Progress { }, cancellationToken, recursive: false); // Validate only the collection folders for each user, just to make them available as quickly as possible var userCollectionFolderTasks = _userManager.Users.AsParallel().Select(user => user.ValidateCollectionFolders(new Progress { }, cancellationToken)); await Task.WhenAll(userCollectionFolderTasks).ConfigureAwait(false); // Now validate the entire media library await Kernel.RootFolder.ValidateChildren(progress, cancellationToken, recursive: true).ConfigureAwait(false); foreach (var user in _userManager.Users) { await user.ValidateMediaLibrary(new Progress { }, cancellationToken).ConfigureAwait(false); } } /// /// Saves display preferences for a Folder /// /// The user. /// The folder. /// The data. /// Task. public Task SaveDisplayPreferencesForFolder(User user, Folder folder, DisplayPreferences data) { // Need to update all items with the same DisplayPrefsId foreach (var child in Kernel.RootFolder.GetRecursiveChildren(user) .OfType() .Where(i => i.DisplayPrefsId == folder.DisplayPrefsId)) { child.AddOrUpdateDisplayPrefs(user, data); } return Kernel.DisplayPreferencesRepository.SaveDisplayPrefs(folder, CancellationToken.None); } /// /// Gets the default view. /// /// IEnumerable{VirtualFolderInfo}. public IEnumerable GetDefaultVirtualFolders() { return GetView(Kernel.ApplicationPaths.DefaultUserViewsPath); } /// /// Gets the view. /// /// The user. /// IEnumerable{VirtualFolderInfo}. public IEnumerable GetVirtualFolders(User user) { return GetView(user.RootFolderPath); } /// /// Gets the view. /// /// The path. /// IEnumerable{VirtualFolderInfo}. private IEnumerable GetView(string path) { return Directory.EnumerateDirectories(path, "*", SearchOption.TopDirectoryOnly) .Select(dir => new VirtualFolderInfo { Name = Path.GetFileName(dir), Locations = Directory.EnumerateFiles(dir, "*.lnk", SearchOption.TopDirectoryOnly).Select(FileSystem.ResolveShortcut).ToList() }); } } }