using System; using System.Collections.Generic; using System.Diagnostics; using System.IO; using System.Linq; using System.Net; using MediaBrowser.Common.Logging; using MediaBrowser.Common.Net; using MediaBrowser.Common.Net.Handlers; using MediaBrowser.Controller; using MediaBrowser.Model.Entities; namespace MediaBrowser.Api.HttpHandlers { public class AudioHandler : BaseHandler { private Audio _LibraryItem; /// /// Gets the library item that will be played, if any /// private Audio LibraryItem { get { if (_LibraryItem == null) { string id = QueryString["id"]; if (!string.IsNullOrEmpty(id)) { _LibraryItem = Kernel.Instance.GetItemById(Guid.Parse(id)) as Audio; } } return _LibraryItem; } } public override bool CompressResponse { get { return false; } } protected override bool IsAsyncHandler { get { return true; } } public override string ContentType { get { return MimeTypes.GetMimeType("." + GetOutputFormat()); } } public IEnumerable AudioFormats { get { string val = QueryString["audioformat"]; if (string.IsNullOrEmpty(val)) { return new string[] { "mp3" }; } return val.Split(','); } } public int? AudioBitRate { get { string val = QueryString["audiobitrate"]; if (string.IsNullOrEmpty(val)) { return null; } return int.Parse(val); } } public int? AudioChannels { get { string val = QueryString["audiochannels"]; if (string.IsNullOrEmpty(val)) { return null; } return int.Parse(val); } } public int? AudioSampleRate { get { string val = QueryString["audiosamplerate"]; if (string.IsNullOrEmpty(val)) { return 44100; } return int.Parse(val); } } public override void ProcessRequest(HttpListenerContext ctx) { HttpListenerContext = ctx; if (!RequiresTranscoding()) { new StaticFileHandler() { Path = LibraryItem.Path }.ProcessRequest(ctx); return; } base.ProcessRequest(ctx); } /// /// Determines whether or not the original file requires transcoding /// private bool RequiresTranscoding() { // If it's not in a format the consumer accepts, return true if (!AudioFormats.Any(f => LibraryItem.Path.EndsWith(f, StringComparison.OrdinalIgnoreCase))) { return true; } // If the bitrate is greater than our desired bitrate, we need to transcode if (AudioBitRate.HasValue) { if (AudioBitRate.Value < LibraryItem.BitRate) { return true; } } // If the number of channels is greater than our desired channels, we need to transcode if (AudioChannels.HasValue) { if (AudioChannels.Value < LibraryItem.Channels) { return true; } } // If the sample rate is greater than our desired sample rate, we need to transcode if (AudioSampleRate.HasValue) { if (AudioSampleRate.Value < LibraryItem.SampleRate) { return true; } } // Yay return false; } private string GetOutputFormat() { string format = AudioFormats.FirstOrDefault(f => LibraryItem.Path.EndsWith(f, StringComparison.OrdinalIgnoreCase)); if (!string.IsNullOrWhiteSpace(format)) { return format; } return AudioFormats.First(); } /// /// Creates arguments to pass to ffmpeg /// private string GetAudioArguments() { List audioTranscodeParams = new List(); if (AudioBitRate.HasValue) { audioTranscodeParams.Add("-ab " + AudioBitRate.Value); } if (AudioChannels.HasValue) { audioTranscodeParams.Add("-ac " + AudioChannels.Value); } if (AudioSampleRate.HasValue) { audioTranscodeParams.Add("-ar " + AudioSampleRate.Value); } audioTranscodeParams.Add("-f " + GetOutputFormat()); return "-i \"" + LibraryItem.Path + "\" -vn " + string.Join(" ", audioTranscodeParams.ToArray()) + " -"; } protected async override void WriteResponseToOutputStream(Stream stream) { ProcessStartInfo startInfo = new ProcessStartInfo(); startInfo.CreateNoWindow = true; startInfo.UseShellExecute = false; startInfo.RedirectStandardOutput = true; startInfo.FileName = ApiService.FFMpegPath; startInfo.WorkingDirectory = ApiService.FFMpegDirectory; startInfo.Arguments = GetAudioArguments(); Logger.LogInfo("Audio Handler Transcode: " + ApiService.FFMpegPath + " " + startInfo.Arguments); Process process = new Process(); process.StartInfo = startInfo; try { process.Start(); await process.StandardOutput.BaseStream.CopyToAsync(stream); } catch (Exception ex) { Logger.LogException(ex); } finally { DisposeResponseStream(); process.Dispose(); } } } }