using MediaBrowser.Common.Extensions; using MediaBrowser.Controller; using MediaBrowser.Controller.Drawing; using MediaBrowser.Controller.Entities; using MediaBrowser.Controller.Providers; using MediaBrowser.Model.Drawing; using MediaBrowser.Model.Entities; using MediaBrowser.Model.Logging; using MediaBrowser.Model.Serialization; 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; using MediaBrowser.Model.IO; using Emby.Drawing.Common; using MediaBrowser.Controller.Library; using MediaBrowser.Controller.MediaEncoding; using MediaBrowser.Model.Net; using MediaBrowser.Model.Threading; using MediaBrowser.Model.Extensions; namespace Emby.Drawing { /// /// Class ImageProcessor /// public class ImageProcessor : IImageProcessor, IDisposable { /// /// The us culture /// protected readonly CultureInfo UsCulture = new CultureInfo("en-US"); /// /// The _cached imaged sizes /// private readonly ConcurrentDictionary _cachedImagedSizes; /// /// Gets the list of currently registered image processors /// Image processors are specialized metadata providers that run after the normal ones /// /// The image enhancers. public IImageEnhancer[] ImageEnhancers { get; private set; } /// /// The _logger /// private readonly ILogger _logger; private readonly IFileSystem _fileSystem; private readonly IJsonSerializer _jsonSerializer; private readonly IServerApplicationPaths _appPaths; private IImageEncoder _imageEncoder; private readonly Func _libraryManager; private readonly Func _mediaEncoder; public ImageProcessor(ILogger logger, IServerApplicationPaths appPaths, IFileSystem fileSystem, IJsonSerializer jsonSerializer, IImageEncoder imageEncoder, Func libraryManager, ITimerFactory timerFactory, Func mediaEncoder) { _logger = logger; _fileSystem = fileSystem; _jsonSerializer = jsonSerializer; _imageEncoder = imageEncoder; _libraryManager = libraryManager; _mediaEncoder = mediaEncoder; _appPaths = appPaths; ImageEnhancers = new IImageEnhancer[] { }; _saveImageSizeTimer = timerFactory.Create(SaveImageSizeCallback, null, Timeout.Infinite, Timeout.Infinite); ImageHelper.ImageProcessor = this; Dictionary sizeDictionary; try { sizeDictionary = jsonSerializer.DeserializeFromFile>(ImageSizeFile) ?? new Dictionary(); } catch (FileNotFoundException) { // No biggie sizeDictionary = new Dictionary(); } catch (IOException) { // No biggie sizeDictionary = new Dictionary(); } catch (Exception ex) { logger.ErrorException("Error parsing image size cache file", ex); sizeDictionary = new Dictionary(); } _cachedImagedSizes = new ConcurrentDictionary(sizeDictionary); } public IImageEncoder ImageEncoder { get { return _imageEncoder; } set { if (value == null) { throw new ArgumentNullException("value"); } _imageEncoder = value; } } public string[] SupportedInputFormats { get { return new string[] { "tiff", "jpeg", "jpg", "png", "aiff", "cr2", "crw", "dng", // Remove until supported //"nef", "orf", "pef", "arw", "webp", "gif", "bmp", "erf", "raf", "rw2", "nrw", "dng", "ico", "astc", "ktx", "pkm", "wbmp" }; } } public bool SupportsImageCollageCreation { get { return _imageEncoder.SupportsImageCollageCreation; } } private string ResizedImageCachePath { get { return Path.Combine(_appPaths.ImageCachePath, "resized-images"); } } private string EnhancedImageCachePath { get { return Path.Combine(_appPaths.ImageCachePath, "enhanced-images"); } } public void AddParts(IEnumerable enhancers) { ImageEnhancers = enhancers.ToArray(); } public async Task ProcessImage(ImageProcessingOptions options, Stream toStream) { var file = await ProcessImage(options).ConfigureAwait(false); using (var fileStream = _fileSystem.GetFileStream(file.Item1, FileOpenMode.Open, FileAccessMode.Read, FileShareMode.Read, true)) { await fileStream.CopyToAsync(toStream).ConfigureAwait(false); } } public ImageFormat[] GetSupportedImageOutputFormats() { return _imageEncoder.SupportedOutputFormats; } private static readonly string[] TransparentImageTypes = new string[] { ".png", ".webp" }; private bool SupportsTransparency(string path) { return TransparentImageTypes.Contains(Path.GetExtension(path) ?? string.Empty); ; } public async Task> ProcessImage(ImageProcessingOptions options) { if (options == null) { throw new ArgumentNullException("options"); } var originalImage = options.Image; IHasMetadata item = options.Item; if (!originalImage.IsLocalFile) { if (item == null) { item = _libraryManager().GetItemById(options.ItemId); } originalImage = await _libraryManager().ConvertImageToLocal(item, originalImage, options.ImageIndex).ConfigureAwait(false); } var originalImagePath = originalImage.Path; var dateModified = originalImage.DateModified; if (!_imageEncoder.SupportsImageEncoding) { return new Tuple(originalImagePath, MimeTypes.GetMimeType(originalImagePath), dateModified); } var supportedImageInfo = await GetSupportedImage(originalImagePath, dateModified).ConfigureAwait(false); originalImagePath = supportedImageInfo.Item1; dateModified = supportedImageInfo.Item2; if (options.Enhancers.Count > 0) { if (item == null) { item = _libraryManager().GetItemById(options.ItemId); } var tuple = await GetEnhancedImage(new ItemImageInfo { DateModified = dateModified, Type = originalImage.Type, Path = originalImagePath }, item, options.ImageIndex, options.Enhancers).ConfigureAwait(false); originalImagePath = tuple.Item1; dateModified = tuple.Item2; } var photo = item as Photo; var autoOrient = false; ImageOrientation? orientation = null; if (photo != null && photo.Orientation.HasValue && photo.Orientation.Value != ImageOrientation.TopLeft) { autoOrient = true; orientation = photo.Orientation; } if (options.HasDefaultOptions(originalImagePath) && !autoOrient) { // Just spit out the original file if all the options are default return new Tuple(originalImagePath, MimeTypes.GetMimeType(originalImagePath), dateModified); } ImageSize? originalImageSize = GetSavedImageSize(originalImagePath, dateModified); if (originalImageSize.HasValue && options.HasDefaultOptions(originalImagePath, originalImageSize.Value) && !autoOrient) { // Just spit out the original file if all the options are default _logger.Info("Returning original image {0}", originalImagePath); return new Tuple(originalImagePath, MimeTypes.GetMimeType(originalImagePath), dateModified); } var newSize = ImageHelper.GetNewImageSize(options, originalImageSize); var quality = options.Quality; var outputFormat = GetOutputFormat(options.SupportedOutputFormats[0]); var cacheFilePath = GetCacheFilePath(originalImagePath, newSize, quality, dateModified, outputFormat, options.AddPlayedIndicator, options.PercentPlayed, options.UnplayedCount, options.Blur, options.BackgroundColor, options.ForegroundLayer); try { CheckDisposed(); if (!_fileSystem.FileExists(cacheFilePath)) { var tmpPath = Path.ChangeExtension(Path.Combine(_appPaths.TempDirectory, Guid.NewGuid().ToString("N")), Path.GetExtension(cacheFilePath)); _fileSystem.CreateDirectory(_fileSystem.GetDirectoryName(tmpPath)); if (options.CropWhiteSpace && !SupportsTransparency(originalImagePath)) { options.CropWhiteSpace = false; } var resultPath = _imageEncoder.EncodeImage(originalImagePath, dateModified, tmpPath, autoOrient, orientation, quality, options, outputFormat); if (string.Equals(resultPath, originalImagePath, StringComparison.OrdinalIgnoreCase)) { return new Tuple(originalImagePath, MimeTypes.GetMimeType(originalImagePath), dateModified); } _fileSystem.CreateDirectory(_fileSystem.GetDirectoryName(cacheFilePath)); CopyFile(tmpPath, cacheFilePath); return new Tuple(tmpPath, GetMimeType(outputFormat, cacheFilePath), _fileSystem.GetLastWriteTimeUtc(tmpPath)); } return new Tuple(cacheFilePath, GetMimeType(outputFormat, cacheFilePath), _fileSystem.GetLastWriteTimeUtc(cacheFilePath)); } catch (ArgumentOutOfRangeException ex) { // Decoder failed to decode it #if DEBUG _logger.ErrorException("Error encoding image", ex); #endif // Just spit out the original file if all the options are default return new Tuple(originalImagePath, MimeTypes.GetMimeType(originalImagePath), dateModified); } catch (Exception ex) { // If it fails for whatever reason, return the original image _logger.ErrorException("Error encoding image", ex); // Just spit out the original file if all the options are default return new Tuple(originalImagePath, MimeTypes.GetMimeType(originalImagePath), dateModified); } } private void CopyFile(string src, string destination) { try { _fileSystem.CopyFile(src, destination, true); } catch { } } //private static int[][] OPERATIONS = new int[][] { // TopLeft //new int[] { 0, NONE}, // TopRight //new int[] { 0, HORIZONTAL}, //new int[] {180, NONE}, // LeftTop //new int[] { 0, VERTICAL}, //new int[] { 90, HORIZONTAL}, // RightTop //new int[] { 90, NONE}, //new int[] {-90, HORIZONTAL}, //new int[] {-90, NONE}, //}; private string GetMimeType(ImageFormat format, string path) { if (format == ImageFormat.Bmp) { return MimeTypes.GetMimeType("i.bmp"); } if (format == ImageFormat.Gif) { return MimeTypes.GetMimeType("i.gif"); } if (format == ImageFormat.Jpg) { return MimeTypes.GetMimeType("i.jpg"); } if (format == ImageFormat.Png) { return MimeTypes.GetMimeType("i.png"); } if (format == ImageFormat.Webp) { return MimeTypes.GetMimeType("i.webp"); } return MimeTypes.GetMimeType(path); } private ImageFormat GetOutputFormat(ImageFormat requestedFormat) { if (requestedFormat == ImageFormat.Webp && !_imageEncoder.SupportedOutputFormats.Contains(ImageFormat.Webp)) { return ImageFormat.Png; } return requestedFormat; } private Tuple GetResult(string path) { return new Tuple(path, _fileSystem.GetLastWriteTimeUtc(path)); } /// /// Increment this when there's a change requiring caches to be invalidated /// private const string Version = "3"; /// /// Gets the cache file path based on a set of parameters /// private string GetCacheFilePath(string originalPath, ImageSize outputSize, int quality, DateTime dateModified, ImageFormat format, bool addPlayedIndicator, double percentPlayed, int? unwatchedCount, int? blur, string backgroundColor, string foregroundLayer) { var filename = originalPath; filename += "width=" + outputSize.Width; filename += "height=" + outputSize.Height; filename += "quality=" + quality; filename += "datemodified=" + dateModified.Ticks; filename += "f=" + format; if (addPlayedIndicator) { filename += "pl=true"; } if (percentPlayed > 0) { filename += "p=" + percentPlayed; } if (unwatchedCount.HasValue) { filename += "p=" + unwatchedCount.Value; } if (blur.HasValue) { filename += "blur=" + blur.Value; } if (!string.IsNullOrEmpty(backgroundColor)) { filename += "b=" + backgroundColor; } if (!string.IsNullOrEmpty(foregroundLayer)) { filename += "fl=" + foregroundLayer; } filename += "v=" + Version; return GetCachePath(ResizedImageCachePath, filename, "." + format.ToString().ToLower()); } public ImageSize GetImageSize(ItemImageInfo info, bool allowSlowMethods) { return GetImageSize(info.Path, info.DateModified, allowSlowMethods); } public ImageSize GetImageSize(ItemImageInfo info) { return GetImageSize(info.Path, info.DateModified, false); } public ImageSize GetImageSize(string path) { return GetImageSize(path, _fileSystem.GetLastWriteTimeUtc(path), false); } /// /// Gets the size of the image. /// /// The path. /// The image date modified. /// if set to true [allow slow method]. /// ImageSize. /// path private ImageSize GetImageSize(string path, DateTime imageDateModified, bool allowSlowMethod) { if (string.IsNullOrEmpty(path)) { throw new ArgumentNullException("path"); } ImageSize size; var cacheHash = GetImageSizeKey(path, imageDateModified); if (!_cachedImagedSizes.TryGetValue(cacheHash, out size)) { size = GetImageSizeInternal(path, allowSlowMethod); SaveImageSize(size, cacheHash, false); } return size; } public void SaveImageSize(string path, DateTime imageDateModified, ImageSize size) { var cacheHash = GetImageSizeKey(path, imageDateModified); SaveImageSize(size, cacheHash, true); } private void SaveImageSize(ImageSize size, Guid cacheHash, bool checkExists) { if (size.Width <= 0 || size.Height <= 0) { return; } if (checkExists && _cachedImagedSizes.ContainsKey(cacheHash)) { return; } if (checkExists) { if (_cachedImagedSizes.TryAdd(cacheHash, size)) { StartSaveImageSizeTimer(); } } else { StartSaveImageSizeTimer(); _cachedImagedSizes.AddOrUpdate(cacheHash, size, (keyName, oldValue) => size); } } private Guid GetImageSizeKey(string path, DateTime imageDateModified) { var name = path + "datemodified=" + imageDateModified.Ticks; return name.GetMD5(); } public ImageSize? GetSavedImageSize(string path, DateTime imageDateModified) { ImageSize size; var cacheHash = GetImageSizeKey(path, imageDateModified); if (_cachedImagedSizes.TryGetValue(cacheHash, out size)) { return size; } return null; } /// /// Gets the image size internal. /// /// The path. /// if set to true [allow slow method]. /// ImageSize. private ImageSize GetImageSizeInternal(string path, bool allowSlowMethod) { //try //{ // using (var fileStream = _fileSystem.OpenRead(path)) // { // using (var file = TagLib.File.Create(new StreamFileAbstraction(Path.GetFileName(path), fileStream, null))) // { // var image = file as TagLib.Image.File; // if (image != null) // { // var properties = image.Properties; // return new ImageSize // { // Height = properties.PhotoHeight, // Width = properties.PhotoWidth // }; // } // } // } //} //catch //{ //} try { return ImageHeader.GetDimensions(path, _logger, _fileSystem); } catch { if (allowSlowMethod) { return _imageEncoder.GetImageSize(path); } throw; } } private readonly ITimer _saveImageSizeTimer; private const int SaveImageSizeTimeout = 5000; private readonly object _saveImageSizeLock = new object(); private void StartSaveImageSizeTimer() { _saveImageSizeTimer.Change(SaveImageSizeTimeout, Timeout.Infinite); } private void SaveImageSizeCallback(object state) { lock (_saveImageSizeLock) { try { var path = ImageSizeFile; _fileSystem.CreateDirectory(_fileSystem.GetDirectoryName(path)); _jsonSerializer.SerializeToFile(_cachedImagedSizes, path); } catch (Exception ex) { _logger.ErrorException("Error saving image size file", ex); } } } private string ImageSizeFile { get { return Path.Combine(_appPaths.DataPath, "imagesizes.json"); } } /// /// Gets the image cache tag. /// /// The item. /// The image. /// Guid. /// item public string GetImageCacheTag(IHasMetadata item, ItemImageInfo image) { if (item == null) { throw new ArgumentNullException("item"); } if (image == null) { throw new ArgumentNullException("image"); } var supportedEnhancers = GetSupportedEnhancers(item, image.Type); return GetImageCacheTag(item, image, supportedEnhancers); } /// /// Gets the image cache tag. /// /// The item. /// The image. /// The image enhancers. /// Guid. /// item public string GetImageCacheTag(IHasMetadata item, ItemImageInfo image, List imageEnhancers) { if (item == null) { throw new ArgumentNullException("item"); } if (imageEnhancers == null) { throw new ArgumentNullException("imageEnhancers"); } if (image == null) { throw new ArgumentNullException("image"); } var originalImagePath = image.Path; var dateModified = image.DateModified; var imageType = image.Type; // Optimization if (imageEnhancers.Count == 0) { return (originalImagePath + dateModified.Ticks).GetMD5().ToString("N"); } // 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(cacheKeys.Count)).GetMD5().ToString("N"); } private async Task> GetSupportedImage(string originalImagePath, DateTime dateModified) { var inputFormat = (Path.GetExtension(originalImagePath) ?? string.Empty) .TrimStart('.') .Replace("jpeg", "jpg", StringComparison.OrdinalIgnoreCase); if (!_imageEncoder.SupportedInputFormats.Contains(inputFormat, StringComparer.OrdinalIgnoreCase)) { try { var filename = (originalImagePath + dateModified.Ticks.ToString(UsCulture)).GetMD5().ToString("N"); var outputPath = Path.Combine(_appPaths.ImageCachePath, "converted-images", filename + ".webp"); var file = _fileSystem.GetFileInfo(outputPath); if (!file.Exists) { await _mediaEncoder().ConvertImage(originalImagePath, outputPath).ConfigureAwait(false); dateModified = _fileSystem.GetLastWriteTimeUtc(outputPath); } else { dateModified = file.LastWriteTimeUtc; } originalImagePath = outputPath; } catch (Exception ex) { _logger.ErrorException("Image conversion failed for {0}", ex, originalImagePath); } } return new Tuple(originalImagePath, dateModified); } /// /// Gets the enhanced image. /// /// The item. /// Type of the image. /// Index of the image. /// Task{System.String}. public async Task GetEnhancedImage(IHasMetadata item, ImageType imageType, int imageIndex) { var enhancers = GetSupportedEnhancers(item, imageType); var imageInfo = item.GetImageInfo(imageType, imageIndex); var result = await GetEnhancedImage(imageInfo, item, imageIndex, enhancers); return result.Item1; } private async Task> GetEnhancedImage(ItemImageInfo image, IHasMetadata item, int imageIndex, List enhancers) { var originalImagePath = image.Path; var dateModified = image.DateModified; var imageType = image.Type; try { var cacheGuid = GetImageCacheTag(item, image, enhancers); // Enhance if we have enhancers var ehnancedImagePath = await GetEnhancedImageInternal(originalImagePath, item, imageType, imageIndex, enhancers, cacheGuid).ConfigureAwait(false); // If the path changed update dateModified if (!string.Equals(ehnancedImagePath, originalImagePath, StringComparison.OrdinalIgnoreCase)) { return GetResult(ehnancedImagePath); } } catch (Exception ex) { _logger.Error("Error enhancing image", ex); } return new Tuple(originalImagePath, dateModified); } /// /// Gets the enhanced image internal. /// /// The original image path. /// The item. /// Type of the image. /// Index of the image. /// The supported enhancers. /// The cache unique identifier. /// Task<System.String>. /// /// originalImagePath /// or /// item /// private async Task GetEnhancedImageInternal(string originalImagePath, IHasMetadata item, ImageType imageType, int imageIndex, IEnumerable supportedEnhancers, string cacheGuid) { if (string.IsNullOrEmpty(originalImagePath)) { throw new ArgumentNullException("originalImagePath"); } if (item == null) { throw new ArgumentNullException("item"); } // All enhanced images are saved as png to allow transparency var enhancedImagePath = GetCachePath(EnhancedImageCachePath, cacheGuid + ".png"); // Check again in case of contention if (_fileSystem.FileExists(enhancedImagePath)) { return enhancedImagePath; } _fileSystem.CreateDirectory(_fileSystem.GetDirectoryName(enhancedImagePath)); var tmpPath = Path.Combine(_appPaths.TempDirectory, Path.ChangeExtension(Guid.NewGuid().ToString(), Path.GetExtension(enhancedImagePath))); _fileSystem.CreateDirectory(_fileSystem.GetDirectoryName(tmpPath)); await ExecuteImageEnhancers(supportedEnhancers, originalImagePath, tmpPath, item, imageType, imageIndex).ConfigureAwait(false); try { _fileSystem.CopyFile(tmpPath, enhancedImagePath, true); } catch { } return tmpPath; } /// /// Executes the image enhancers. /// /// The image enhancers. /// The input path. /// The output path. /// The item. /// Type of the image. /// Index of the image. /// Task{EnhancedImage}. private async Task ExecuteImageEnhancers(IEnumerable imageEnhancers, string inputPath, string outputPath, IHasMetadata item, ImageType imageType, int imageIndex) { // Run the enhancers sequentially in order of priority foreach (var enhancer in imageEnhancers) { await enhancer.EnhanceImageAsync(item, inputPath, outputPath, imageType, imageIndex).ConfigureAwait(false); // Feed the output into the next enhancer as input inputPath = outputPath; } } /// /// Gets the cache path. /// /// The path. /// Name of the unique. /// The file extension. /// System.String. /// /// path /// or /// uniqueName /// or /// fileExtension /// public string GetCachePath(string path, string uniqueName, string fileExtension) { if (string.IsNullOrEmpty(path)) { throw new ArgumentNullException("path"); } if (string.IsNullOrEmpty(uniqueName)) { throw new ArgumentNullException("uniqueName"); } if (string.IsNullOrEmpty(fileExtension)) { throw new ArgumentNullException("fileExtension"); } var filename = uniqueName.GetMD5() + fileExtension; return GetCachePath(path, filename); } /// /// Gets the cache path. /// /// The path. /// The filename. /// System.String. /// /// path /// or /// filename /// public string GetCachePath(string path, string filename) { if (string.IsNullOrEmpty(path)) { throw new ArgumentNullException("path"); } if (string.IsNullOrEmpty(filename)) { throw new ArgumentNullException("filename"); } var prefix = filename.Substring(0, 1); path = Path.Combine(path, prefix); return Path.Combine(path, filename); } public void CreateImageCollage(ImageCollageOptions options) { _logger.Info("Creating image collage and saving to {0}", options.OutputPath); _imageEncoder.CreateImageCollage(options); _logger.Info("Completed creation of image collage and saved to {0}", options.OutputPath); } public List GetSupportedEnhancers(IHasMetadata item, ImageType imageType) { var list = new List(); foreach (var i in ImageEnhancers) { try { if (i.Supports(item, imageType)) { list.Add(i); } } catch (Exception ex) { _logger.ErrorException("Error in image enhancer: {0}", ex, i.GetType().Name); } } return list; } private bool _disposed; public void Dispose() { _disposed = true; _imageEncoder.Dispose(); _saveImageSizeTimer.Dispose(); } private void CheckDisposed() { if (_disposed) { throw new ObjectDisposedException(GetType().Name); } } } }