using MediaBrowser.Model.MediaInfo; using System.Collections.Generic; namespace MediaBrowser.Model.Dlna { public class ContentFeatureBuilder { private readonly DeviceProfile _profile; public ContentFeatureBuilder(DeviceProfile profile) { _profile = profile; } public string BuildImageHeader(string container, int? width, int? height, bool isDirectStream, string orgPn = null) { string orgOp = ";DLNA.ORG_OP=" + DlnaMaps.GetImageOrgOpValue(); // 0 = native, 1 = transcoded var orgCi = isDirectStream ? ";DLNA.ORG_CI=0" : ";DLNA.ORG_CI=1"; DlnaFlags flagValue = DlnaFlags.BackgroundTransferMode | DlnaFlags.InteractiveTransferMode | DlnaFlags.DlnaV15; string dlnaflags = string.Format(";DLNA.ORG_FLAGS={0}", DlnaMaps.FlagsToString(flagValue)); ResponseProfile mediaProfile = _profile.GetImageMediaProfile(container, width, height); if (string.IsNullOrEmpty(orgPn)) { orgPn = mediaProfile == null ? null : mediaProfile.OrgPn; } if (string.IsNullOrEmpty(orgPn)) { orgPn = GetImageOrgPnValue(container, width, height); } string contentFeatures = string.IsNullOrEmpty(orgPn) ? string.Empty : "DLNA.ORG_PN=" + orgPn; return (contentFeatures + orgOp + orgCi + dlnaflags).Trim(';'); } public string BuildAudioHeader(string container, string audioCodec, int? audioBitrate, int? audioSampleRate, int? audioChannels, bool isDirectStream, long? runtimeTicks, TranscodeSeekInfo transcodeSeekInfo) { // first bit means Time based seek supported, second byte range seek supported (not sure about the order now), so 01 = only byte seek, 10 = time based, 11 = both, 00 = none string orgOp = ";DLNA.ORG_OP=" + DlnaMaps.GetOrgOpValue(runtimeTicks.HasValue, isDirectStream, transcodeSeekInfo); // 0 = native, 1 = transcoded string orgCi = isDirectStream ? ";DLNA.ORG_CI=0" : ";DLNA.ORG_CI=1"; DlnaFlags flagValue = DlnaFlags.StreamingTransferMode | DlnaFlags.BackgroundTransferMode | DlnaFlags.InteractiveTransferMode | DlnaFlags.DlnaV15; //if (isDirectStream) //{ // flagValue = flagValue | DlnaFlags.ByteBasedSeek; //} //else if (runtimeTicks.HasValue) //{ // flagValue = flagValue | DlnaFlags.TimeBasedSeek; //} string dlnaflags = string.Format(";DLNA.ORG_FLAGS={0}", DlnaMaps.FlagsToString(flagValue)); ResponseProfile mediaProfile = _profile.GetAudioMediaProfile(container, audioCodec, audioChannels, audioBitrate); string orgPn = mediaProfile == null ? null : mediaProfile.OrgPn; if (string.IsNullOrEmpty(orgPn)) { orgPn = GetAudioOrgPnValue(container, audioBitrate, audioSampleRate, audioChannels); } string contentFeatures = string.IsNullOrEmpty(orgPn) ? string.Empty : "DLNA.ORG_PN=" + orgPn; return (contentFeatures + orgOp + orgCi + dlnaflags).Trim(';'); } public List BuildVideoHeader(string container, string videoCodec, string audioCodec, int? width, int? height, int? bitDepth, int? videoBitrate, int? audioChannels, int? audioBitrate, TransportStreamTimestamp timestamp, bool isDirectStream, long? runtimeTicks, string videoProfile, double? videoLevel, float? videoFramerate, int? packetLength, TranscodeSeekInfo transcodeSeekInfo, bool? isAnamorphic, bool? isCabac, int? refFrames, int? numVideoStreams, int? numAudioStreams) { // first bit means Time based seek supported, second byte range seek supported (not sure about the order now), so 01 = only byte seek, 10 = time based, 11 = both, 00 = none string orgOp = ";DLNA.ORG_OP=" + DlnaMaps.GetOrgOpValue(runtimeTicks.HasValue, isDirectStream, transcodeSeekInfo); // 0 = native, 1 = transcoded string orgCi = isDirectStream ? ";DLNA.ORG_CI=0" : ";DLNA.ORG_CI=1"; DlnaFlags flagValue = DlnaFlags.StreamingTransferMode | DlnaFlags.BackgroundTransferMode | DlnaFlags.InteractiveTransferMode | DlnaFlags.DlnaV15; //if (isDirectStream) //{ // flagValue = flagValue | DlnaFlags.ByteBasedSeek; //} //else if (runtimeTicks.HasValue) //{ // flagValue = flagValue | DlnaFlags.TimeBasedSeek; //} string dlnaflags = string.Format(";DLNA.ORG_FLAGS={0}", DlnaMaps.FlagsToString(flagValue)); ResponseProfile mediaProfile = _profile.GetVideoMediaProfile(container, audioCodec, videoCodec, audioBitrate, audioChannels, width, height, bitDepth, videoBitrate, videoProfile, videoLevel, videoFramerate, packetLength, timestamp, isAnamorphic, isCabac, refFrames, numVideoStreams, numAudioStreams); List orgPnValues = new List(); if (mediaProfile != null && !string.IsNullOrEmpty(mediaProfile.OrgPn)) { orgPnValues.Add(mediaProfile.OrgPn); } else { foreach (string s in GetVideoOrgPnValue(container, videoCodec, audioCodec, width, height, timestamp)) { orgPnValues.Add(s); break; } } List contentFeatureList = new List(); foreach (string orgPn in orgPnValues) { string contentFeatures = string.IsNullOrEmpty(orgPn) ? string.Empty : "DLNA.ORG_PN=" + orgPn; var value = (contentFeatures + orgOp + orgCi + dlnaflags).Trim(';'); contentFeatureList.Add(value); } if (orgPnValues.Count == 0) { string contentFeatures = string.Empty; var value = (contentFeatures + orgOp + orgCi + dlnaflags).Trim(';'); contentFeatureList.Add(value); } return contentFeatureList; } private string GetImageOrgPnValue(string container, int? width, int? height) { MediaFormatProfile? format = new MediaFormatProfileResolver() .ResolveImageFormat(container, width, height); return format.HasValue ? format.Value.ToString() : null; } private string GetAudioOrgPnValue(string container, int? audioBitrate, int? audioSampleRate, int? audioChannels) { MediaFormatProfile? format = new MediaFormatProfileResolver() .ResolveAudioFormat(container, audioBitrate, audioSampleRate, audioChannels); return format.HasValue ? format.Value.ToString() : null; } private List GetVideoOrgPnValue(string container, string videoCodec, string audioCodec, int? width, int? height, TransportStreamTimestamp timestamp) { List list = new List(); foreach (MediaFormatProfile i in new MediaFormatProfileResolver().ResolveVideoFormat(container, videoCodec, audioCodec, width, height, timestamp)) list.Add(i.ToString()); return list; } } }