using System; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Threading; using System.Threading.Tasks; using MediaBrowser.Common.Net; using MediaBrowser.Controller.Configuration; using MediaBrowser.Controller.Devices; using MediaBrowser.Controller.Dlna; using MediaBrowser.Controller.Library; using MediaBrowser.Controller.MediaEncoding; using MediaBrowser.Controller.Net; using MediaBrowser.Model.IO; using MediaBrowser.Model.MediaInfo; using MediaBrowser.Model.Serialization; using MediaBrowser.Model.Services; using Microsoft.Net.Http.Headers; namespace MediaBrowser.Api.Playback.Progressive { /// /// Class BaseProgressiveStreamingService /// public abstract class BaseProgressiveStreamingService : BaseStreamingService { protected IHttpClient HttpClient { get; private set; } public BaseProgressiveStreamingService( IHttpClient httpClient, IServerConfigurationManager serverConfig, IUserManager userManager, ILibraryManager libraryManager, IIsoManager isoManager, IMediaEncoder mediaEncoder, IFileSystem fileSystem, IDlnaManager dlnaManager, ISubtitleEncoder subtitleEncoder, IDeviceManager deviceManager, IMediaSourceManager mediaSourceManager, IJsonSerializer jsonSerializer, IAuthorizationContext authorizationContext) : base(serverConfig, userManager, libraryManager, isoManager, mediaEncoder, fileSystem, dlnaManager, subtitleEncoder, deviceManager, mediaSourceManager, jsonSerializer, authorizationContext) { HttpClient = httpClient; } /// /// Gets the output file extension. /// /// The state. /// System.String. protected override string GetOutputFileExtension(StreamState state) { var ext = base.GetOutputFileExtension(state); if (!string.IsNullOrEmpty(ext)) { return ext; } var isVideoRequest = state.VideoRequest != null; // Try to infer based on the desired video codec if (isVideoRequest) { var videoCodec = state.VideoRequest.VideoCodec; if (string.Equals(videoCodec, "h264", StringComparison.OrdinalIgnoreCase) || string.Equals(videoCodec, "h265", StringComparison.OrdinalIgnoreCase)) { return ".ts"; } if (string.Equals(videoCodec, "theora", StringComparison.OrdinalIgnoreCase)) { return ".ogv"; } if (string.Equals(videoCodec, "vpx", StringComparison.OrdinalIgnoreCase)) { return ".webm"; } if (string.Equals(videoCodec, "wmv", StringComparison.OrdinalIgnoreCase)) { return ".asf"; } } // Try to infer based on the desired audio codec if (!isVideoRequest) { var audioCodec = state.Request.AudioCodec; if (string.Equals("aac", audioCodec, StringComparison.OrdinalIgnoreCase)) { return ".aac"; } if (string.Equals("mp3", audioCodec, StringComparison.OrdinalIgnoreCase)) { return ".mp3"; } if (string.Equals("vorbis", audioCodec, StringComparison.OrdinalIgnoreCase)) { return ".ogg"; } if (string.Equals("wma", audioCodec, StringComparison.OrdinalIgnoreCase)) { return ".wma"; } } return null; } /// /// Gets the type of the transcoding job. /// /// The type of the transcoding job. protected override TranscodingJobType TranscodingJobType => TranscodingJobType.Progressive; /// /// Processes the request. /// /// The request. /// if set to true [is head request]. /// Task. protected async Task ProcessRequest(StreamRequest request, bool isHeadRequest) { var cancellationTokenSource = new CancellationTokenSource(); var state = await GetState(request, cancellationTokenSource.Token).ConfigureAwait(false); var responseHeaders = new Dictionary(); if (request.Static && state.DirectStreamProvider != null) { AddDlnaHeaders(state, responseHeaders, true); using (state) { var outputHeaders = new Dictionary(StringComparer.OrdinalIgnoreCase); // TODO: Don't hardcode this outputHeaders[HeaderNames.ContentType] = Model.Net.MimeTypes.GetMimeType("file.ts"); return new ProgressiveFileCopier(state.DirectStreamProvider, outputHeaders, null, Logger, CancellationToken.None) { AllowEndOfFile = false }; } } // Static remote stream if (request.Static && state.InputProtocol == MediaProtocol.Http) { AddDlnaHeaders(state, responseHeaders, true); using (state) { return await GetStaticRemoteStreamResult(state, responseHeaders, isHeadRequest, cancellationTokenSource).ConfigureAwait(false); } } if (request.Static && state.InputProtocol != MediaProtocol.File) { throw new ArgumentException(string.Format("Input protocol {0} cannot be streamed statically.", state.InputProtocol)); } var outputPath = state.OutputFilePath; var outputPathExists = File.Exists(outputPath); var transcodingJob = ApiEntryPoint.Instance.GetTranscodingJob(outputPath, TranscodingJobType.Progressive); var isTranscodeCached = outputPathExists && transcodingJob != null; AddDlnaHeaders(state, responseHeaders, request.Static || isTranscodeCached); // Static stream if (request.Static) { var contentType = state.GetMimeType("." + state.OutputContainer, false) ?? state.GetMimeType(state.MediaPath); using (state) { if (state.MediaSource.IsInfiniteStream) { var outputHeaders = new Dictionary(StringComparer.OrdinalIgnoreCase) { [HeaderNames.ContentType] = contentType }; return new ProgressiveFileCopier(FileSystem, state.MediaPath, outputHeaders, null, Logger, CancellationToken.None) { AllowEndOfFile = false }; } TimeSpan? cacheDuration = null; if (!string.IsNullOrEmpty(request.Tag)) { cacheDuration = TimeSpan.FromDays(365); } return await ResultFactory.GetStaticFileResult(Request, new StaticFileResultOptions { ResponseHeaders = responseHeaders, ContentType = contentType, IsHeadRequest = isHeadRequest, Path = state.MediaPath, CacheDuration = cacheDuration }).ConfigureAwait(false); } } //// Not static but transcode cache file exists //if (isTranscodeCached && state.VideoRequest == null) //{ // var contentType = state.GetMimeType(outputPath); // try // { // if (transcodingJob != null) // { // ApiEntryPoint.Instance.OnTranscodeBeginRequest(transcodingJob); // } // return await ResultFactory.GetStaticFileResult(Request, new StaticFileResultOptions // { // ResponseHeaders = responseHeaders, // ContentType = contentType, // IsHeadRequest = isHeadRequest, // Path = outputPath, // FileShare = FileShareMode.ReadWrite, // OnComplete = () => // { // if (transcodingJob != null) // { // ApiEntryPoint.Instance.OnTranscodeEndRequest(transcodingJob); // } // } // }).ConfigureAwait(false); // } // finally // { // state.Dispose(); // } //} // Need to start ffmpeg try { return await GetStreamResult(request, state, responseHeaders, isHeadRequest, cancellationTokenSource).ConfigureAwait(false); } catch { state.Dispose(); throw; } } /// /// Gets the static remote stream result. /// /// The state. /// The response headers. /// if set to true [is head request]. /// The cancellation token source. /// Task{System.Object}. private async Task GetStaticRemoteStreamResult(StreamState state, Dictionary responseHeaders, bool isHeadRequest, CancellationTokenSource cancellationTokenSource) { state.RemoteHttpHeaders.TryGetValue(HeaderNames.UserAgent, out var useragent); var options = new HttpRequestOptions { Url = state.MediaPath, UserAgent = useragent, BufferContent = false, CancellationToken = cancellationTokenSource.Token }; var response = await HttpClient.GetResponse(options).ConfigureAwait(false); responseHeaders[HeaderNames.AcceptRanges] = "none"; // Seeing cases of -1 here if (response.ContentLength.HasValue && response.ContentLength.Value >= 0) { responseHeaders[HeaderNames.ContentLength] = response.ContentLength.Value.ToString(CultureInfo.InvariantCulture); } if (isHeadRequest) { using (response) { return ResultFactory.GetResult(null, new byte[] { }, response.ContentType, responseHeaders); } } var result = new StaticRemoteStreamWriter(response); result.Headers[HeaderNames.ContentType] = response.ContentType; // Add the response headers to the result object foreach (var header in responseHeaders) { result.Headers[header.Key] = header.Value; } return result; } /// /// Gets the stream result. /// /// The state. /// The response headers. /// if set to true [is head request]. /// The cancellation token source. /// Task{System.Object}. private async Task GetStreamResult(StreamRequest request, StreamState state, IDictionary responseHeaders, bool isHeadRequest, CancellationTokenSource cancellationTokenSource) { // Use the command line args with a dummy playlist path var outputPath = state.OutputFilePath; responseHeaders[HeaderNames.AcceptRanges] = "none"; var contentType = state.GetMimeType(outputPath); // TODO: The isHeadRequest is only here because ServiceStack will add Content-Length=0 to the response var contentLength = state.EstimateContentLength || isHeadRequest ? GetEstimatedContentLength(state) : null; if (contentLength.HasValue) { responseHeaders[HeaderNames.ContentLength] = contentLength.Value.ToString(CultureInfo.InvariantCulture); } // Headers only if (isHeadRequest) { var streamResult = ResultFactory.GetResult(null, Array.Empty(), contentType, responseHeaders); if (streamResult is IHasHeaders hasHeaders) { if (contentLength.HasValue) { hasHeaders.Headers[HeaderNames.ContentLength] = contentLength.Value.ToString(CultureInfo.InvariantCulture); } else { hasHeaders.Headers.Remove(HeaderNames.ContentLength); } } return streamResult; } var transcodingLock = ApiEntryPoint.Instance.GetTranscodingLock(outputPath); await transcodingLock.WaitAsync(cancellationTokenSource.Token).ConfigureAwait(false); try { TranscodingJob job; if (!File.Exists(outputPath)) { job = await StartFfMpeg(state, outputPath, cancellationTokenSource).ConfigureAwait(false); } else { job = ApiEntryPoint.Instance.OnTranscodeBeginRequest(outputPath, TranscodingJobType.Progressive); state.Dispose(); } var outputHeaders = new Dictionary(StringComparer.OrdinalIgnoreCase) { [HeaderNames.ContentType] = contentType }; // Add the response headers to the result object foreach (var item in responseHeaders) { outputHeaders[item.Key] = item.Value; } return new ProgressiveFileCopier(FileSystem, outputPath, outputHeaders, job, Logger, CancellationToken.None); } finally { transcodingLock.Release(); } } /// /// Gets the length of the estimated content. /// /// The state. /// System.Nullable{System.Int64}. private long? GetEstimatedContentLength(StreamState state) { var totalBitrate = state.TotalOutputBitrate ?? 0; if (totalBitrate > 0 && state.RunTimeTicks.HasValue) { return Convert.ToInt64(totalBitrate * TimeSpan.FromTicks(state.RunTimeTicks.Value).TotalSeconds / 8); } return null; } } }