public bool Stop(bool force)
{
if (IsStopped)
{
return(true);
}
if (!IsStarted && !force)
{
Start();
}
foreach (int i in dataUnits.Keys.OrderBy(k => k))
{
StreamLog.Info(identifier, "Stopping data unit {0}", i);
dataUnits[i].Stop();
}
foreach (int i in logUnits.Keys.OrderBy(k => k))
{
logUnits[i].Stop();
}
StreamLog.Debug(identifier, "Pipeline stopped");
IsStopped = true;
return(true);
}
public bool Start()
{
if (!IsAssembled)
{
Assemble();
}
IsStarted = true;
foreach (int i in dataUnits.Keys.OrderBy(k => k))
{
StreamLog.Info(identifier, "Starting data unit {0}", i);
if (!dataUnits[i].Start())
{
StreamLog.Error(identifier, "Starting data unit {0} failed", i);
Stop(true);
return(false);
}
}
StreamLog.Info(identifier, "All data units started!");
foreach (int i in logUnits.Keys.OrderBy(k => k))
{
logUnits[i].Start();
}
return(true);
}
private void TimeoutStreamsTick(object source, ElapsedEventArgs args)
{
try
{
var toDelete = Streams
.Where(x =>
(x.Value.UseActivityForTimeout ||
(x.Value.OutputStream != null && x.Value.OutputStream.TimeSinceLastRead > (x.Value.Timeout * 1000))) &&
(x.Value.LastActivity.Add(TimeSpan.FromSeconds(x.Value.Timeout)) < DateTime.Now)
)
.Select(x => x.Value.Identifier)
.ToList();
if (toDelete.Count > 0)
{
foreach (string key in toDelete)
{
// The stream could've been terminated between the moment we decide it should be terminated and we get here.
if (!Streams.ContainsKey(key))
{
continue;
}
if (Streams[key].UseActivityForTimeout)
{
StreamLog.Info(key, "Stream had last service activity at {0}, so cancel it", Streams[key].LastActivity);
}
else
{
StreamLog.Info(key, "Stream had last read {0} milliseconds ago (read {1} bytes in total) and last service activity at {2}, so cancel it",
Streams[key].OutputStream.TimeSinceLastRead, Streams[key].OutputStream.ReadBytes, Streams[key].LastActivity);
}
service.FinishStream(key);
}
}
}
catch (Exception ex)
{
Log.Warn("Error in TimeoutStreamsTick", ex);
}
}
public string StartStream(string identifier, TranscoderProfile profile, long position = 0, int audioId = STREAM_DEFAULT, int subtitleId = STREAM_DEFAULT)
{
// there's a theoretical race condition here between the insert in InitStream() and this, but the client should really, really
// always have a positive result from InitStream() before continuing, so their bad that the stream failed.
if (!Streams.ContainsKey(identifier) || Streams[identifier] == null)
{
Log.Warn("Stream requested for invalid identifier {0}", identifier);
return(null);
}
if (profile == null)
{
StreamLog.Warn(identifier, "Stream requested for non-existent profile");
return(null);
}
try
{
lock (Streams[identifier])
{
StreamLog.Debug(identifier, "StartStream for file {0}", Streams[identifier].Context.Source.GetDebugName());
// initialize stream and context
ActiveStream stream = Streams[identifier];
stream.Context.StartPosition = position;
stream.Context.Profile = profile;
stream.UseActivityForTimeout = profile.Transport == "httplive";
stream.Context.MediaInfo = MediaInfoHelper.LoadMediaInfoOrSurrogate(stream.Context.Source);
stream.Context.OutputSize = CalculateSize(stream.Context);
StreamLog.Debug(identifier, "Using {0} as output size for stream {1}", stream.Context.OutputSize, identifier);
Reference <WebTranscodingInfo> infoRef = new Reference <WebTranscodingInfo>(() => stream.Context.TranscodingInfo, x => { stream.Context.TranscodingInfo = x; });
sharing.StartStream(stream.Context, infoRef);
// get transcoder
stream.Transcoder = (ITranscoder)Activator.CreateInstance(Type.GetType(profile.Transcoder));
stream.Transcoder.Identifier = identifier;
stream.Transcoder.Context = stream.Context;
// get audio and subtitle id
if (stream.Context.MediaInfo.AudioStreams.Any(x => x.ID == audioId))
{
stream.Context.AudioTrackId = stream.Context.MediaInfo.AudioStreams.First(x => x.ID == audioId).ID;
}
else if (audioId == STREAM_DEFAULT)
{
string preferredLanguage = Configuration.Streaming.DefaultAudioStream;
if (stream.Context.MediaInfo.AudioStreams.Any(x => x.Language == preferredLanguage))
{
stream.Context.AudioTrackId = stream.Context.MediaInfo.AudioStreams.First(x => x.Language == preferredLanguage).ID;
}
else if (preferredLanguage != "none" && stream.Context.MediaInfo.AudioStreams.Any())
{
stream.Context.AudioTrackId = stream.Context.MediaInfo.AudioStreams.First().ID;
}
}
if (stream.Context.MediaInfo.SubtitleStreams.Any(x => x.ID == subtitleId))
{
stream.Context.SubtitleTrackId = stream.Context.MediaInfo.SubtitleStreams.First(x => x.ID == subtitleId).ID;
}
else if (subtitleId == STREAM_DEFAULT)
{
string preferredLanguage = Configuration.Streaming.DefaultSubtitleStream;
if (stream.Context.MediaInfo.SubtitleStreams.Any(x => x.Language == preferredLanguage))
{
stream.Context.SubtitleTrackId = stream.Context.MediaInfo.SubtitleStreams.First(x => x.Language == preferredLanguage).ID;
}
else if (preferredLanguage == "external" && stream.Context.MediaInfo.SubtitleStreams.Any(x => x.Filename != null))
{
stream.Context.SubtitleTrackId = stream.Context.MediaInfo.SubtitleStreams.First(x => x.Filename != null).ID;
}
else if (preferredLanguage == "first" && stream.Context.MediaInfo.SubtitleStreams.Any())
{
stream.Context.SubtitleTrackId = stream.Context.MediaInfo.SubtitleStreams.First().ID;
}
}
StreamLog.Debug(identifier, "Final stream selection: audioId={0}, subtitleId={1}", stream.Context.AudioTrackId, stream.Context.SubtitleTrackId);
// build the pipeline
stream.Context.Pipeline = new Pipeline(identifier);
stream.Context.TranscodingInfo = new WebTranscodingInfo();
stream.Transcoder.BuildPipeline();
// start the pipeline, but imm
bool assembleResult = stream.Context.Pipeline.Assemble();
bool startResult = assembleResult ? stream.Context.Pipeline.Start() : true;
if (!assembleResult || !startResult)
{
StreamLog.Warn(identifier, "Starting pipeline failed");
return(null);
}
// get the final stream and return it
Stream finalStream = Streams[identifier].Context.Pipeline.GetFinalStream();
if (finalStream != null)
{
Streams[identifier].OutputStream = new ReadTrackingStreamWrapper(finalStream);
}
StreamLog.Info(identifier, "Started stream");
Streams[identifier].LastActivity = DateTime.Now;
return(stream.Transcoder.GetStreamURL());
}
}
catch (Exception ex)
{
StreamLog.Error(identifier, "Failed to start stream", ex);
return(null);
}
}
public bool Assemble()
{
IsAssembled = true;
Dictionary <int, int> dataConnections = new Dictionary <int, int>();
Dictionary <int, int> logConnections = new Dictionary <int, int>();
int lastKey = -1;
foreach (int i in dataUnits.Keys.OrderBy(k => k))
{
if (dataUnits.ContainsKey(lastKey))
{
dataConnections[lastKey] = i;
dataUnits[i].IsInputStreamConnected = true;
dataUnits[lastKey].IsDataStreamConnected = true;
}
lastKey = i;
}
foreach (int i in logUnits.Keys.OrderBy(k => k))
{
int nr = dataUnits.Keys.Where(k => k < i).DefaultIfEmpty(-1).Max();
if (dataUnits.ContainsKey(nr))
{
logConnections[i] = nr;
dataUnits[nr].IsLogStreamConnected = true;
}
}
// connect the output of the last one as that's usually captured by the calling app (because else the whole pipeline is just useless)
dataUnits[dataUnits.Keys.Max()].IsDataStreamConnected = true;
// dump out the pipeline for debugging
StreamLog.Info(identifier, "Assembling following pipeline:");
foreach (int i in dataUnits.Keys.OrderBy(k => k))
{
StreamLog.Info(identifier, " data {0}: {1} (input {2}, data {3}, log {4})", i, dataUnits[i].ToString(), dataUnits[i].IsInputStreamConnected, dataUnits[i].IsDataStreamConnected, dataUnits[i].IsLogStreamConnected);
}
foreach (KeyValuePair <int, int> conn in dataConnections)
{
StreamLog.Info(identifier, " dataconn {0} -> {1}", conn.Key, conn.Value);
}
foreach (int i in logUnits.Keys.OrderBy(k => k))
{
StreamLog.Info(identifier, " log {0}: {1}", i, logUnits[i].ToString());
}
foreach (KeyValuePair <int, int> conn in logConnections)
{
StreamLog.Info(identifier, " logconn {0} -> {1}", conn.Value, conn.Key);
}
foreach (int i in dataUnits.Keys.OrderBy(k => k))
{
if (!dataUnits[i].Setup())
{
// it failed, stop and break out
StreamLog.Error(identifier, "Setting up data unit {0} failed", i);
Stop(true);
return(false);
}
else
{
StreamLog.Debug(identifier, "Setup data unit {0}", i);
}
if (dataConnections.ContainsKey(i))
{
dataUnits[dataConnections[i]].InputStream = dataUnits[i].DataOutputStream;
}
}
foreach (int i in logUnits.Keys.OrderBy(k => k))
{
if (logConnections.ContainsKey(i))
{
logUnits[i].InputStream = dataUnits[logConnections[i]].LogOutputStream;
}
logUnits[i].Setup();
StreamLog.Debug(identifier, "Setup log unit {0}", i);
}
StreamLog.Info(identifier, "Pipeline assembled");
return(true);
}