using MediaBrowser.Common.Extensions; using MediaBrowser.Common.IO; using MediaBrowser.Controller.Entities; using MediaBrowser.Controller.Entities.TV; using MediaBrowser.Controller.Providers; using MediaBrowser.Model.Drawing; using MediaBrowser.Model.Entities; using MediaBrowser.Model.Logging; using System; using System.Collections.Concurrent; using System.Collections.Generic; using System.Drawing; using System.Drawing.Drawing2D; using System.Drawing.Imaging; using System.Globalization; using System.IO; using System.Linq; using System.Threading; using System.Threading.Tasks; namespace MediaBrowser.Controller.Drawing { ///

/// Class ImageManager ///

public class ImageManager { ///

/// Gets the image size cache. ///

/// The image size cache. private FileSystemRepository ImageSizeCache { get; set; } ///

/// Gets or sets the resized image cache. ///

/// The resized image cache. private FileSystemRepository ResizedImageCache { get; set; } ///

/// Gets the cropped image cache. ///

/// The cropped image cache. private FileSystemRepository CroppedImageCache { get; set; } ///

/// Gets the cropped image cache. ///

/// The cropped image cache. private FileSystemRepository EnhancedImageCache { get; set; } ///

/// The cached imaged sizes ///

private readonly ConcurrentDictionary _cachedImagedSizes = new ConcurrentDictionary(); ///

/// The _logger ///

private readonly ILogger _logger; ///

/// The _kernel ///

private readonly Kernel _kernel; ///

/// The _locks ///

private readonly ConcurrentDictionary _locks = new ConcurrentDictionary(); ///

/// Initializes a new instance of the class. ///

/// The kernel. /// The logger. /// The app paths. public ImageManager(Kernel kernel, ILogger logger, IServerApplicationPaths appPaths) { _logger = logger; _kernel = kernel; ImageSizeCache = new FileSystemRepository(Path.Combine(appPaths.ImageCachePath, "image-sizes")); ResizedImageCache = new FileSystemRepository(Path.Combine(appPaths.ImageCachePath, "resized-images")); CroppedImageCache = new FileSystemRepository(Path.Combine(appPaths.ImageCachePath, "cropped-images")); EnhancedImageCache = new FileSystemRepository(Path.Combine(appPaths.ImageCachePath, "enhanced-images")); } ///

/// Processes an image by resizing to target dimensions ///

/// The entity that owns the image /// The image type /// The image index (currently only used with backdrops) /// if set to true [crop whitespace]. /// The last date modified of the original image file /// The stream to save the new image to /// Use if a fixed width is required. Aspect ratio will be preserved. /// Use if a fixed height is required. Aspect ratio will be preserved. /// Use if a max width is required. Aspect ratio will be preserved. /// Use if a max height is required. Aspect ratio will be preserved. /// Quality level, from 0-100. Currently only applies to JPG. The default value should suffice. /// Task. /// entity public async Task ProcessImage(BaseItem entity, ImageType imageType, int imageIndex, bool cropWhitespace, DateTime dateModified, Stream toStream, int? width, int? height, int? maxWidth, int? maxHeight, int? quality) { if (entity == null) { throw new ArgumentNullException("entity"); } if (toStream == null) { throw new ArgumentNullException("toStream"); } var originalImagePath = GetImagePath(entity, imageType, imageIndex); if (cropWhitespace) { originalImagePath = await GetCroppedImage(originalImagePath, dateModified).ConfigureAwait(false); } try { // Enhance if we have enhancers var ehnancedImagePath = await GetEnhancedImage(originalImagePath, dateModified, entity, imageType, imageIndex).ConfigureAwait(false); // If the path changed update dateModified if (!ehnancedImagePath.Equals(originalImagePath, StringComparison.OrdinalIgnoreCase)) { dateModified = File.GetLastWriteTimeUtc(ehnancedImagePath); originalImagePath = ehnancedImagePath; } } catch (Exception ex) { _logger.Error("Error enhancing image", ex); } var originalImageSize = await GetImageSize(originalImagePath, dateModified).ConfigureAwait(false); // Determine the output size based on incoming parameters var newSize = DrawingUtils.Resize(originalImageSize, width, height, maxWidth, maxHeight); if (!quality.HasValue) { quality = 90; } var cacheFilePath = GetCacheFilePath(originalImagePath, newSize, quality.Value, dateModified); var semaphore = GetLock(cacheFilePath); await semaphore.WaitAsync().ConfigureAwait(false); // Check again in case of lock contention if (File.Exists(cacheFilePath)) { try { using (var fileStream = new FileStream(cacheFilePath, FileMode.Open, FileAccess.Read, FileShare.Read, StreamDefaults.DefaultFileStreamBufferSize, FileOptions.Asynchronous)) { await fileStream.CopyToAsync(toStream).ConfigureAwait(false); return; } } finally { semaphore.Release(); } } try { using (var fileStream = new FileStream(originalImagePath, FileMode.Open, FileAccess.Read, FileShare.Read, StreamDefaults.DefaultFileStreamBufferSize, true)) { // Copy to memory stream to avoid Image locking file using (var memoryStream = new MemoryStream()) { await fileStream.CopyToAsync(memoryStream).ConfigureAwait(false); using (var originalImage = Image.FromStream(fileStream, true, false)) { var newWidth = Convert.ToInt32(newSize.Width); var newHeight = Convert.ToInt32(newSize.Height); // Graphics.FromImage will throw an exception if the PixelFormat is Indexed, so we need to handle that here using (var thumbnail = !ImageExtensions.IsPixelFormatSupportedByGraphicsObject(originalImage.PixelFormat) ? new Bitmap(originalImage, newWidth, newHeight) : new Bitmap(newWidth, newHeight, originalImage.PixelFormat)) { // Preserve the original resolution thumbnail.SetResolution(originalImage.HorizontalResolution, originalImage.VerticalResolution); using (var thumbnailGraph = Graphics.FromImage(thumbnail)) { thumbnailGraph.CompositingQuality = CompositingQuality.HighQuality; thumbnailGraph.SmoothingMode = SmoothingMode.HighQuality; thumbnailGraph.InterpolationMode = InterpolationMode.HighQualityBicubic; thumbnailGraph.PixelOffsetMode = PixelOffsetMode.HighQuality; thumbnailGraph.CompositingMode = CompositingMode.SourceOver; thumbnailGraph.DrawImage(originalImage, 0, 0, newWidth, newHeight); var outputFormat = originalImage.RawFormat; using (var outputMemoryStream = new MemoryStream()) { // Save to the memory stream thumbnail.Save(outputFormat, outputMemoryStream, quality.Value); var bytes = outputMemoryStream.ToArray(); var outputTask = toStream.WriteAsync(bytes, 0, bytes.Length); // kick off a task to cache the result await CacheResizedImage(cacheFilePath, bytes).ConfigureAwait(false); await outputTask.ConfigureAwait(false); } } } } } } } finally { semaphore.Release(); } } ///

/// Caches the resized image. ///

/// The cache file path. /// The bytes. private async Task CacheResizedImage(string cacheFilePath, byte[] bytes) { // Save to the cache location using (var cacheFileStream = new FileStream(cacheFilePath, FileMode.Create, FileAccess.Write, FileShare.Read, StreamDefaults.DefaultFileStreamBufferSize, FileOptions.Asynchronous)) { // Save to the filestream await cacheFileStream.WriteAsync(bytes, 0, bytes.Length).ConfigureAwait(false); } } ///

/// Gets the cache file path based on a set of parameters ///

/// The path to the original image file /// The size to output the image in /// Quality level, from 0-100. Currently only applies to JPG. The default value should suffice. /// The last modified date of the image /// System.String. private string GetCacheFilePath(string originalPath, ImageSize outputSize, int quality, DateTime dateModified) { var filename = originalPath; filename += "width=" + outputSize.Width; filename += "height=" + outputSize.Height; filename += "quality=" + quality; filename += "datemodified=" + dateModified.Ticks; return ResizedImageCache.GetResourcePath(filename, Path.GetExtension(originalPath)); } ///

/// Gets image dimensions ///

/// The image path. /// The date modified. /// Task{ImageSize}. /// imagePath public async Task GetImageSize(string imagePath, DateTime dateModified) { if (string.IsNullOrEmpty(imagePath)) { throw new ArgumentNullException("imagePath"); } var name = imagePath + "datemodified=" + dateModified.Ticks; ImageSize size; if (!_cachedImagedSizes.TryGetValue(name, out size)) { size = await GetImageSize(name, imagePath).ConfigureAwait(false); _cachedImagedSizes.AddOrUpdate(name, size, (keyName, oldValue) => size); } return size; } protected readonly CultureInfo UsCulture = new CultureInfo("en-US"); ///

/// Gets the size of the image. ///

/// Name of the key. /// The image path. /// ImageSize. private async Task GetImageSize(string keyName, string imagePath) { // Now check the file system cache var fullCachePath = ImageSizeCache.GetResourcePath(keyName, ".txt"); var semaphore = GetLock(fullCachePath); await semaphore.WaitAsync().ConfigureAwait(false); try { try { var result = File.ReadAllText(fullCachePath).Split('|').Select(i => double.Parse(i, UsCulture)).ToArray(); return new ImageSize { Width = result[0], Height = result[1] }; } catch (FileNotFoundException) { // Cache file doesn't exist no biggie } var size = await ImageHeader.GetDimensions(imagePath, _logger).ConfigureAwait(false); // Update the file system cache File.WriteAllText(fullCachePath, size.Width.ToString(UsCulture) + @"|" + size.Height.ToString(UsCulture)); return new ImageSize { Width = size.Width, Height = size.Height }; } finally { semaphore.Release(); } } ///

/// Gets the image path. ///

/// The item. /// Type of the image. /// Index of the image. /// System.String. /// item /// public string GetImagePath(BaseItem item, ImageType imageType, int imageIndex) { if (item == null) { throw new ArgumentNullException("item"); } if (imageType == ImageType.Backdrop) { if (item.BackdropImagePaths == null) { throw new InvalidOperationException(string.Format("Item {0} does not have any Backdrops.", item.Name)); } return item.BackdropImagePaths[imageIndex]; } if (imageType == ImageType.Screenshot) { if (item.ScreenshotImagePaths == null) { throw new InvalidOperationException(string.Format("Item {0} does not have any Screenshots.", item.Name)); } return item.ScreenshotImagePaths[imageIndex]; } if (imageType == ImageType.Chapter) { var video = (Video)item; if (video.Chapters == null) { throw new InvalidOperationException(string.Format("Item {0} does not have any Chapters.", item.Name)); } return video.Chapters[imageIndex].ImagePath; } return item.GetImage(imageType); } ///

/// Gets the image date modified. ///

/// The item. /// Type of the image. /// Index of the image. /// DateTime. /// item public DateTime GetImageDateModified(BaseItem item, ImageType imageType, int imageIndex) { if (item == null) { throw new ArgumentNullException("item"); } var imagePath = GetImagePath(item, imageType, imageIndex); return GetImageDateModified(item, imagePath); } ///

/// Gets the image date modified. ///

/// The item. /// The image path. /// DateTime. /// item public DateTime GetImageDateModified(BaseItem item, string imagePath) { if (item == null) { throw new ArgumentNullException("item"); } if (string.IsNullOrEmpty(imagePath)) { throw new ArgumentNullException("imagePath"); } var metaFileEntry = item.ResolveArgs.GetMetaFileByPath(imagePath); // If we didn't the metafile entry, check the Season if (metaFileEntry == null) { var episode = item as Episode; if (episode != null && episode.Season != null) { episode.Season.ResolveArgs.GetMetaFileByPath(imagePath); } } // See if we can avoid a file system lookup by looking for the file in ResolveArgs return metaFileEntry == null ? File.GetLastWriteTimeUtc(imagePath) : metaFileEntry.LastWriteTimeUtc; } ///

/// Crops whitespace from an image, caches the result, and returns the cached path ///

/// The original image path. /// The date modified. /// System.String. private async Task GetCroppedImage(string originalImagePath, DateTime dateModified) { var name = originalImagePath; name += "datemodified=" + dateModified.Ticks; var croppedImagePath = CroppedImageCache.GetResourcePath(name, Path.GetExtension(originalImagePath)); var semaphore = GetLock(croppedImagePath); await semaphore.WaitAsync().ConfigureAwait(false); // Check again in case of contention if (CroppedImageCache.ContainsFilePath(croppedImagePath)) { semaphore.Release(); return croppedImagePath; } try { using (var fileStream = new FileStream(originalImagePath, FileMode.Open, FileAccess.Read, FileShare.Read, StreamDefaults.DefaultFileStreamBufferSize, true)) { // Copy to memory stream to avoid Image locking file using (var memoryStream = new MemoryStream()) { await fileStream.CopyToAsync(memoryStream).ConfigureAwait(false); using (var originalImage = (Bitmap)Image.FromStream(memoryStream, true, false)) { var outputFormat = originalImage.RawFormat; using (var croppedImage = originalImage.CropWhitespace()) { using (var outputStream = new FileStream(croppedImagePath, FileMode.Create, FileAccess.Write, FileShare.Read)) { croppedImage.Save(outputFormat, outputStream, 100); } } } } } } catch (Exception ex) { // We have to have a catch-all here because some of the .net image methods throw a plain old Exception _logger.ErrorException("Error cropping image {0}", ex, originalImagePath); return originalImagePath; } finally { semaphore.Release(); } return croppedImagePath; } ///

/// Runs an image through the image enhancers, caches the result, and returns the cached path ///

/// The original image path. /// The date modified of the original image file. /// The item. /// Type of the image. /// Index of the image. /// System.String. /// originalImagePath public async Task GetEnhancedImage(string originalImagePath, DateTime dateModified, BaseItem item, ImageType imageType, int imageIndex) { if (string.IsNullOrEmpty(originalImagePath)) { throw new ArgumentNullException("originalImagePath"); } if (item == null) { throw new ArgumentNullException("item"); } var supportedEnhancers = _kernel.ImageEnhancers.Where(i => { try { return i.Supports(item, imageType); } catch (Exception ex) { _logger.ErrorException("Error in image enhancer: {0}", ex, i.GetType().Name); return false; } }).ToList(); // No enhancement - don't cache if (supportedEnhancers.Count == 0) { return originalImagePath; } var cacheGuid = GetImageCacheTag(originalImagePath, dateModified, supportedEnhancers, item, imageType); // All enhanced images are saved as png to allow transparency var enhancedImagePath = EnhancedImageCache.GetResourcePath(cacheGuid + ".png"); var semaphore = GetLock(enhancedImagePath); await semaphore.WaitAsync().ConfigureAwait(false); // Check again in case of contention if (EnhancedImageCache.ContainsFilePath(enhancedImagePath)) { semaphore.Release(); return enhancedImagePath; } try { using (var fileStream = new FileStream(originalImagePath, FileMode.Open, FileAccess.Read, FileShare.Read, StreamDefaults.DefaultFileStreamBufferSize, true)) { // Copy to memory stream to avoid Image locking file using (var memoryStream = new MemoryStream()) { await fileStream.CopyToAsync(memoryStream).ConfigureAwait(false); using (var originalImage = Image.FromStream(memoryStream, true, false)) { //Pass the image through registered enhancers using (var newImage = await ExecuteImageEnhancers(supportedEnhancers, originalImage, item, imageType, imageIndex).ConfigureAwait(false)) { //And then save it in the cache using (var outputStream = new FileStream(enhancedImagePath, FileMode.Create, FileAccess.Write, FileShare.Read)) { newImage.Save(ImageFormat.Png, outputStream, 100); } } } } } } finally { semaphore.Release(); } return enhancedImagePath; } ///

/// Gets the image cache tag. ///

/// The item. /// Type of the image. /// The image path. /// Guid. /// item public Guid GetImageCacheTag(BaseItem item, ImageType imageType, string imagePath) { if (item == null) { throw new ArgumentNullException("item"); } if (string.IsNullOrEmpty(imagePath)) { throw new ArgumentNullException("imagePath"); } var dateModified = GetImageDateModified(item, imagePath); var supportedEnhancers = _kernel.ImageEnhancers.Where(i => { try { return i.Supports(item, imageType); } catch (Exception ex) { _logger.ErrorException("Error in image enhancer: {0}", ex, i.GetType().Name); return false; } }).ToList(); return GetImageCacheTag(imagePath, dateModified, supportedEnhancers, item, imageType); } ///

/// Gets the image cache tag. ///

/// The original image path. /// The date modified of the original image file. /// The image enhancers. /// The item. /// Type of the image. /// Guid. /// item public Guid GetImageCacheTag(string originalImagePath, DateTime dateModified, IEnumerable imageEnhancers, BaseItem item, ImageType imageType) { if (item == null) { throw new ArgumentNullException("item"); } if (imageEnhancers == null) { throw new ArgumentNullException("imageEnhancers"); } if (string.IsNullOrEmpty(originalImagePath)) { throw new ArgumentNullException("originalImagePath"); } // Cache name is created with supported enhancers combined with the last config change so we pick up new config changes var cacheKeys = imageEnhancers.Select(i => i.GetConfigurationCacheKey(item, imageType)).ToList(); cacheKeys.Add(originalImagePath + dateModified.Ticks); return string.Join("|", cacheKeys.ToArray()).GetMD5(); } ///

/// Executes the image enhancers. ///

/// The image enhancers. /// The original image. /// The item. /// Type of the image. /// Index of the image. /// Task{EnhancedImage}. private async Task ExecuteImageEnhancers(IEnumerable imageEnhancers, Image originalImage, BaseItem item, ImageType imageType, int imageIndex) { var result = originalImage; // Run the enhancers sequentially in order of priority foreach (var enhancer in imageEnhancers) { var typeName = enhancer.GetType().Name; try { result = await enhancer.EnhanceImageAsync(item, result, imageType, imageIndex).ConfigureAwait(false); } catch (Exception ex) { _logger.ErrorException("{0} failed enhancing {1}", ex, typeName, item.Name); throw; } } return result; } ///

/// Gets the lock. ///

/// The filename. /// System.Object. private SemaphoreSlim GetLock(string filename) { return _locks.GetOrAdd(filename, key => new SemaphoreSlim(1, 1)); } } }