/* GStreamer * Copyright (C) 2012 Smart TV Alliance * Author: Thiago Sousa Santos , Collabora Ltd. * * gstmssmanifest.c: * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include /* for parsing h264 codec data */ #include #include "gstmssmanifest.h" #define DEFAULT_TIMESCALE 10000000 #define MSS_NODE_STREAM_FRAGMENT "c" #define MSS_NODE_STREAM_QUALITY "QualityLevel" #define MSS_PROP_BITRATE "Bitrate" #define MSS_PROP_DURATION "d" #define MSS_PROP_NUMBER "n" #define MSS_PROP_STREAM_DURATION "Duration" #define MSS_PROP_TIME "t" #define MSS_PROP_TIMESCALE "TimeScale" #define MSS_PROP_URL "Url" /* TODO check if atoi is successful? */ typedef struct _GstMssStreamFragment { guint number; guint64 time; guint64 duration; } GstMssStreamFragment; typedef struct _GstMssStreamQuality { xmlNodePtr xmlnode; gchar *bitrate_str; guint64 bitrate; } GstMssStreamQuality; struct _GstMssStream { xmlNodePtr xmlnode; gboolean active; /* if the stream is currently being used */ gint selectedQualityIndex; GList *fragments; GList *qualities; gchar *url; GList *current_fragment; GList *current_quality; /* TODO move this to somewhere static */ GRegex *regex_bitrate; GRegex *regex_position; }; struct _GstMssManifest { xmlDocPtr xml; xmlNodePtr xmlrootnode; gboolean is_live; GSList *streams; }; static gboolean node_has_type (xmlNodePtr node, const gchar * name) { return strcmp ((gchar *) node->name, name) == 0; } static GstMssStreamQuality * gst_mss_stream_quality_new (xmlNodePtr node) { GstMssStreamQuality *q = g_slice_new (GstMssStreamQuality); q->xmlnode = node; q->bitrate_str = (gchar *) xmlGetProp (node, (xmlChar *) MSS_PROP_BITRATE); if (q->bitrate_str != NULL) q->bitrate = g_ascii_strtoull (q->bitrate_str, NULL, 10); else q->bitrate = 0; return q; } static void gst_mss_stream_quality_free (GstMssStreamQuality * quality) { g_return_if_fail (quality != NULL); xmlFree (quality->bitrate_str); g_slice_free (GstMssStreamQuality, quality); } static gint compare_bitrate (GstMssStreamQuality * a, GstMssStreamQuality * b) { if (a->bitrate > b->bitrate) return 1; if (a->bitrate < b->bitrate) return -1; return 0; } static void _gst_mss_stream_init (GstMssStream * stream, xmlNodePtr node) { xmlNodePtr iter; GstMssStreamFragment *previous_fragment = NULL; guint fragment_number = 0; guint64 fragment_time_accum = 0; stream->xmlnode = node; /* get the base url path generator */ stream->url = (gchar *) xmlGetProp (node, (xmlChar *) MSS_PROP_URL); for (iter = node->children; iter; iter = iter->next) { if (node_has_type (iter, MSS_NODE_STREAM_FRAGMENT)) { gchar *duration_str; gchar *time_str; gchar *seqnum_str; GstMssStreamFragment *fragment = g_new (GstMssStreamFragment, 1); duration_str = (gchar *) xmlGetProp (iter, (xmlChar *) MSS_PROP_DURATION); time_str = (gchar *) xmlGetProp (iter, (xmlChar *) MSS_PROP_TIME); seqnum_str = (gchar *) xmlGetProp (iter, (xmlChar *) MSS_PROP_NUMBER); /* use the node's seq number or use the previous + 1 */ if (seqnum_str) { fragment->number = g_ascii_strtoull (seqnum_str, NULL, 10); xmlFree (seqnum_str); fragment_number = fragment->number; } else { fragment->number = fragment_number; } fragment_number = fragment->number + 1; if (time_str) { fragment->time = g_ascii_strtoull (time_str, NULL, 10); xmlFree (time_str); fragment_time_accum = fragment->time; } else { fragment->time = fragment_time_accum; } /* if we have a previous fragment, means we need to set its duration */ if (previous_fragment) previous_fragment->duration = fragment->time - previous_fragment->time; if (duration_str) { fragment->duration = g_ascii_strtoull (duration_str, NULL, 10); previous_fragment = NULL; fragment_time_accum += fragment->duration; xmlFree (duration_str); } else { /* store to set the duration at the next iteration */ previous_fragment = fragment; } /* we reverse it later */ stream->fragments = g_list_prepend (stream->fragments, fragment); } else if (node_has_type (iter, MSS_NODE_STREAM_QUALITY)) { GstMssStreamQuality *quality = gst_mss_stream_quality_new (iter); stream->qualities = g_list_prepend (stream->qualities, quality); } else { /* TODO gst log this */ } } stream->fragments = g_list_reverse (stream->fragments); /* order them from smaller to bigger based on bitrates */ stream->qualities = g_list_sort (stream->qualities, (GCompareFunc) compare_bitrate); stream->current_fragment = stream->fragments; stream->current_quality = stream->qualities; stream->regex_bitrate = g_regex_new ("\\{[Bb]itrate\\}", 0, 0, NULL); stream->regex_position = g_regex_new ("\\{start[ _]time\\}", 0, 0, NULL); } GstMssManifest * gst_mss_manifest_new (const GstBuffer * data) { GstMssManifest *manifest; xmlNodePtr root; xmlNodePtr nodeiter; gchar *live_str; manifest = g_malloc0 (sizeof (GstMssManifest)); manifest->xml = xmlReadMemory ((const gchar *) GST_BUFFER_DATA (data), GST_BUFFER_SIZE (data), "manifest", NULL, 0); root = manifest->xmlrootnode = xmlDocGetRootElement (manifest->xml); live_str = (gchar *) xmlGetProp (root, (xmlChar *) "IsLive"); if (live_str) { manifest->is_live = g_ascii_strcasecmp (live_str, "true") == 0; xmlFree (live_str); } for (nodeiter = root->children; nodeiter; nodeiter = nodeiter->next) { if (nodeiter->type == XML_ELEMENT_NODE && (strcmp ((const char *) nodeiter->name, "StreamIndex") == 0)) { GstMssStream *stream = g_new0 (GstMssStream, 1); manifest->streams = g_slist_append (manifest->streams, stream); _gst_mss_stream_init (stream, nodeiter); } } return manifest; } static void gst_mss_stream_free (GstMssStream * stream) { g_list_free_full (stream->fragments, g_free); g_list_free_full (stream->qualities, (GDestroyNotify) gst_mss_stream_quality_free); xmlFree (stream->url); g_regex_unref (stream->regex_position); g_regex_unref (stream->regex_bitrate); g_free (stream); } void gst_mss_manifest_free (GstMssManifest * manifest) { g_return_if_fail (manifest != NULL); g_slist_free_full (manifest->streams, (GDestroyNotify) gst_mss_stream_free); xmlFreeDoc (manifest->xml); g_free (manifest); } GSList * gst_mss_manifest_get_streams (GstMssManifest * manifest) { return manifest->streams; } GstMssStreamType gst_mss_stream_get_type (GstMssStream * stream) { gchar *prop = (gchar *) xmlGetProp (stream->xmlnode, (xmlChar *) "Type"); GstMssStreamType ret = MSS_STREAM_TYPE_UNKNOWN; if (prop == NULL) return MSS_STREAM_TYPE_UNKNOWN; if (strcmp (prop, "video") == 0) { ret = MSS_STREAM_TYPE_VIDEO; } else if (strcmp (prop, "audio") == 0) { ret = MSS_STREAM_TYPE_AUDIO; } xmlFree (prop); return ret; } static GstCaps * _gst_mss_stream_video_caps_from_fourcc (gchar * fourcc) { if (!fourcc) return NULL; if (strcmp (fourcc, "H264") == 0 || strcmp (fourcc, "AVC1") == 0) { return gst_caps_new_simple ("video/x-h264", "stream-format", G_TYPE_STRING, "avc", NULL); } else if (strcmp (fourcc, "WVC1") == 0) { return gst_caps_new_simple ("video/x-wmv", "wmvversion", G_TYPE_INT, 3, NULL); } return NULL; } static GstCaps * _gst_mss_stream_audio_caps_from_fourcc (gchar * fourcc) { if (!fourcc) return NULL; if (strcmp (fourcc, "AACL") == 0) { return gst_caps_new_simple ("audio/mpeg", "mpegversion", G_TYPE_INT, 4, NULL); } else if (strcmp (fourcc, "WmaPro") == 0) { return gst_caps_new_simple ("audio/x-wma", "wmaversion", G_TYPE_INT, 2, NULL); } return NULL; } /* copied and adapted from h264parse */ static GstBuffer * _make_h264_codec_data (GstBuffer * sps, GstBuffer * pps) { GstBuffer *buf; gint sps_size = 0, pps_size = 0, num_sps = 0, num_pps = 0; guint8 profile_idc = 0, profile_comp = 0, level_idc = 0; guint8 *data; gint nl; if (GST_BUFFER_SIZE (sps) < 4) return NULL; sps_size += GST_BUFFER_SIZE (sps) + 2; profile_idc = GST_BUFFER_DATA (sps)[1]; profile_comp = GST_BUFFER_DATA (sps)[2]; level_idc = GST_BUFFER_DATA (sps)[3]; num_sps = 1; pps_size += GST_BUFFER_SIZE (pps) + 2; num_pps = 1; buf = gst_buffer_new_and_alloc (5 + 1 + sps_size + 1 + pps_size); data = GST_BUFFER_DATA (buf); nl = 4; data[0] = 1; /* AVC Decoder Configuration Record ver. 1 */ data[1] = profile_idc; /* profile_idc */ data[2] = profile_comp; /* profile_compability */ data[3] = level_idc; /* level_idc */ data[4] = 0xfc | (nl - 1); /* nal_length_size_minus1 */ data[5] = 0xe0 | num_sps; /* number of SPSs */ data += 6; GST_WRITE_UINT16_BE (data, GST_BUFFER_SIZE (sps)); memcpy (data + 2, GST_BUFFER_DATA (sps), GST_BUFFER_SIZE (sps)); data += 2 + GST_BUFFER_SIZE (sps); data[0] = num_pps; data++; GST_WRITE_UINT16_BE (data, GST_BUFFER_SIZE (pps)); memcpy (data + 2, GST_BUFFER_DATA (pps), GST_BUFFER_SIZE (pps)); data += 2 + GST_BUFFER_SIZE (pps); return buf; } static void _gst_mss_stream_add_h264_codec_data (GstCaps * caps, const gchar * codecdatastr) { GValue sps_value = { 0, }; GValue pps_value = { 0, }; GstBuffer *sps; GstBuffer *pps; GstBuffer *buffer; gchar *sps_str; gchar *pps_str; GstH264NalUnit nalu; GstH264SPS sps_struct; GstH264ParserResult parseres; /* search for the sps start */ if (g_str_has_prefix (codecdatastr, "00000001")) { sps_str = (gchar *) codecdatastr + 8; } else { return; /* invalid mss codec data */ } /* search for the pps start */ pps_str = g_strstr_len (sps_str, -1, "00000001"); if (!pps_str) { return; /* invalid mss codec data */ } g_value_init (&sps_value, GST_TYPE_BUFFER); pps_str[0] = '\0'; gst_value_deserialize (&sps_value, sps_str); pps_str[0] = '0'; g_value_init (&pps_value, GST_TYPE_BUFFER); pps_str = pps_str + 8; gst_value_deserialize (&pps_value, pps_str); sps = gst_value_get_buffer (&sps_value); pps = gst_value_get_buffer (&pps_value); nalu.ref_idc = (GST_BUFFER_DATA (sps)[0] & 0x60) >> 5; nalu.type = GST_H264_NAL_SPS; nalu.size = GST_BUFFER_SIZE (sps); nalu.data = GST_BUFFER_DATA (sps); nalu.offset = 0; nalu.sc_offset = 0; nalu.valid = TRUE; parseres = gst_h264_parse_sps (&nalu, &sps_struct, TRUE); if (parseres == GST_H264_PARSER_OK) { gst_caps_set_simple (caps, "framerate", GST_TYPE_FRACTION, sps_struct.fps_num, sps_struct.fps_den, NULL); } buffer = _make_h264_codec_data (sps, pps); g_value_reset (&sps_value); g_value_reset (&pps_value); if (buffer != NULL) { gst_caps_set_simple (caps, "codec_data", GST_TYPE_BUFFER, buffer, NULL); gst_buffer_unref (buffer); } } static GstCaps * _gst_mss_stream_video_caps_from_qualitylevel_xml (xmlNodePtr node) { GstCaps *caps; GstStructure *structure; gchar *fourcc = (gchar *) xmlGetProp (node, (xmlChar *) "FourCC"); gchar *max_width = (gchar *) xmlGetProp (node, (xmlChar *) "MaxWidth"); gchar *max_height = (gchar *) xmlGetProp (node, (xmlChar *) "MaxHeight"); gchar *codec_data = (gchar *) xmlGetProp (node, (xmlChar *) "CodecPrivateData"); if (!max_width) max_width = (gchar *) xmlGetProp (node, (xmlChar *) "Width"); if (!max_height) max_height = (gchar *) xmlGetProp (node, (xmlChar *) "Height"); caps = _gst_mss_stream_video_caps_from_fourcc (fourcc); if (!caps) goto end; structure = gst_caps_get_structure (caps, 0); if (max_width) gst_structure_set (structure, "width", G_TYPE_INT, g_ascii_strtoull (max_width, NULL, 10), NULL); if (max_height) gst_structure_set (structure, "height", G_TYPE_INT, g_ascii_strtoull (max_height, NULL, 10), NULL); if (codec_data && strlen (codec_data)) { if (strcmp (fourcc, "H264") == 0 || strcmp (fourcc, "AVC1") == 0) { _gst_mss_stream_add_h264_codec_data (caps, codec_data); } else { GValue *value = g_new0 (GValue, 1); g_value_init (value, GST_TYPE_BUFFER); gst_value_deserialize (value, (gchar *) codec_data); gst_structure_take_value (structure, "codec_data", value); } } end: xmlFree (fourcc); xmlFree (max_width); xmlFree (max_height); xmlFree (codec_data); return caps; } static guint8 _frequency_index_from_sampling_rate (guint sampling_rate) { static const guint aac_sample_rates[] = { 96000, 88200, 64000, 48000, 44100, 32000, 24000, 22050, 16000, 12000, 11025, 8000, 7350 }; guint8 i; for (i = 0; i < G_N_ELEMENTS (aac_sample_rates); i++) { if (aac_sample_rates[i] == sampling_rate) return i; } return 15; } static GstBuffer * _make_aacl_codec_data (guint64 sampling_rate, guint64 channels) { GstBuffer *buf; guint8 *data; guint8 frequency_index; guint8 buf_size; buf_size = 2; frequency_index = _frequency_index_from_sampling_rate (sampling_rate); if (frequency_index == 15) buf_size += 3; buf = gst_buffer_new_and_alloc (buf_size); data = GST_BUFFER_DATA (buf); data[0] = 2 << 3; /* AAC-LC object type is 2 */ data[0] += frequency_index >> 1; data[1] = (frequency_index & 0x01) << 7; /* Sampling rate is not in frequencies table, write manually */ if (frequency_index == 15) { data[1] += sampling_rate >> 17; data[2] = (sampling_rate >> 9) & 0xFF; data[3] = (sampling_rate >> 1) & 0xFF; data[4] = sampling_rate & 0x01; data += 3; } data[1] += (channels & 0x0F) << 3; return buf; } static GstCaps * _gst_mss_stream_audio_caps_from_qualitylevel_xml (xmlNodePtr node) { GstCaps *caps; GstStructure *structure; gchar *fourcc = (gchar *) xmlGetProp (node, (xmlChar *) "FourCC"); gchar *channels = (gchar *) xmlGetProp (node, (xmlChar *) "Channels"); gchar *rate = (gchar *) xmlGetProp (node, (xmlChar *) "SamplingRate"); gchar *codec_data = (gchar *) xmlGetProp (node, (xmlChar *) "CodecPrivateData"); if (!fourcc) /* sometimes the fourcc is omitted, we fallback to the Subtype in the StreamIndex node */ fourcc = (gchar *) xmlGetProp (node->parent, (xmlChar *) "Subtype"); if (!codec_data) codec_data = (gchar *) xmlGetProp (node, (xmlChar *) "WaveFormatEx"); caps = _gst_mss_stream_audio_caps_from_fourcc (fourcc); if (!caps) goto end; structure = gst_caps_get_structure (caps, 0); if (channels) gst_structure_set (structure, "channels", G_TYPE_INT, g_ascii_strtoull (channels, NULL, 10), NULL); if (rate) gst_structure_set (structure, "rate", G_TYPE_INT, g_ascii_strtoull (rate, NULL, 10), NULL); if (codec_data && strlen (codec_data)) { GValue *value = g_new0 (GValue, 1); g_value_init (value, GST_TYPE_BUFFER); gst_value_deserialize (value, (gchar *) codec_data); gst_structure_take_value (structure, "codec_data", value); } else if (strcmp (fourcc, "AACL") == 0 && rate && channels) { GstBuffer *buffer = _make_aacl_codec_data (g_ascii_strtoull (rate, NULL, 10), g_ascii_strtoull (channels, NULL, 10)); gst_caps_set_simple (caps, "codec_data", GST_TYPE_BUFFER, buffer, NULL); gst_buffer_unref (buffer); } end: xmlFree (fourcc); xmlFree (channels); xmlFree (rate); xmlFree (codec_data); return caps; } void gst_mss_stream_set_active (GstMssStream * stream, gboolean active) { stream->active = active; } guint64 gst_mss_stream_get_timescale (GstMssStream * stream) { gchar *timescale; guint64 ts = DEFAULT_TIMESCALE; timescale = (gchar *) xmlGetProp (stream->xmlnode, (xmlChar *) MSS_PROP_TIMESCALE); if (!timescale) { timescale = (gchar *) xmlGetProp (stream->xmlnode->parent, (xmlChar *) MSS_PROP_TIMESCALE); } if (timescale) { ts = g_ascii_strtoull (timescale, NULL, 10); xmlFree (timescale); } return ts; } guint64 gst_mss_manifest_get_timescale (GstMssManifest * manifest) { gchar *timescale; guint64 ts = DEFAULT_TIMESCALE; timescale = (gchar *) xmlGetProp (manifest->xmlrootnode, (xmlChar *) MSS_PROP_TIMESCALE); if (timescale) { ts = g_ascii_strtoull (timescale, NULL, 10); xmlFree (timescale); } return ts; } guint64 gst_mss_manifest_get_duration (GstMssManifest * manifest) { gchar *duration; guint64 dur = -1; duration = (gchar *) xmlGetProp (manifest->xmlrootnode, (xmlChar *) MSS_PROP_STREAM_DURATION); if (duration) { dur = g_ascii_strtoull (duration, NULL, 10); xmlFree (duration); } return dur; } /** * Gets the duration in nanoseconds */ GstClockTime gst_mss_manifest_get_gst_duration (GstMssManifest * manifest) { guint64 duration = -1; guint64 timescale; GstClockTime gstdur = GST_CLOCK_TIME_NONE; duration = gst_mss_manifest_get_duration (manifest); timescale = gst_mss_manifest_get_timescale (manifest); if (duration != -1 && timescale != -1) gstdur = (GstClockTime) gst_util_uint64_scale_round (duration, GST_SECOND, timescale); return gstdur; } GstCaps * gst_mss_stream_get_caps (GstMssStream * stream) { GstMssStreamType streamtype = gst_mss_stream_get_type (stream); GstMssStreamQuality *qualitylevel = stream->current_quality->data; GstCaps *caps = NULL; if (streamtype == MSS_STREAM_TYPE_VIDEO) caps = _gst_mss_stream_video_caps_from_qualitylevel_xml (qualitylevel->xmlnode); else if (streamtype == MSS_STREAM_TYPE_AUDIO) caps = _gst_mss_stream_audio_caps_from_qualitylevel_xml (qualitylevel->xmlnode); return caps; } GstFlowReturn gst_mss_stream_get_fragment_url (GstMssStream * stream, gchar ** url) { gchar *tmp; gchar *start_time_str; GstMssStreamFragment *fragment; GstMssStreamQuality *quality = stream->current_quality->data; g_return_val_if_fail (stream->active, GST_FLOW_ERROR); if (stream->current_fragment == NULL) /* stream is over */ return GST_FLOW_UNEXPECTED; fragment = stream->current_fragment->data; start_time_str = g_strdup_printf ("%" G_GUINT64_FORMAT, fragment->time); tmp = g_regex_replace_literal (stream->regex_bitrate, stream->url, strlen (stream->url), 0, quality->bitrate_str, 0, NULL); *url = g_regex_replace_literal (stream->regex_position, tmp, strlen (tmp), 0, start_time_str, 0, NULL); g_free (tmp); g_free (start_time_str); if (*url == NULL) return GST_FLOW_ERROR; return GST_FLOW_OK; } GstClockTime gst_mss_stream_get_fragment_gst_timestamp (GstMssStream * stream) { guint64 time; guint64 timescale; GstMssStreamFragment *fragment; g_return_val_if_fail (stream->active, GST_FLOW_ERROR); if (!stream->current_fragment) return GST_CLOCK_TIME_NONE; fragment = stream->current_fragment->data; time = fragment->time; timescale = gst_mss_stream_get_timescale (stream); return (GstClockTime) gst_util_uint64_scale_round (time, GST_SECOND, timescale); } GstClockTime gst_mss_stream_get_fragment_gst_duration (GstMssStream * stream) { guint64 dur; guint64 timescale; GstMssStreamFragment *fragment; g_return_val_if_fail (stream->active, GST_FLOW_ERROR); if (!stream->current_fragment) return GST_CLOCK_TIME_NONE; fragment = stream->current_fragment->data; dur = fragment->duration; timescale = gst_mss_stream_get_timescale (stream); return (GstClockTime) gst_util_uint64_scale_round (dur, GST_SECOND, timescale); } GstFlowReturn gst_mss_stream_advance_fragment (GstMssStream * stream) { g_return_val_if_fail (stream->active, GST_FLOW_ERROR); if (stream->current_fragment == NULL) return GST_FLOW_UNEXPECTED; stream->current_fragment = g_list_next (stream->current_fragment); if (stream->current_fragment == NULL) return GST_FLOW_UNEXPECTED; return GST_FLOW_OK; } const gchar * gst_mss_stream_type_name (GstMssStreamType streamtype) { switch (streamtype) { case MSS_STREAM_TYPE_VIDEO: return "video"; case MSS_STREAM_TYPE_AUDIO: return "audio"; case MSS_STREAM_TYPE_UNKNOWN: default: return "unknown"; } } /** * Seeks all streams to the fragment that contains the set time * * @time: time in nanoseconds */ gboolean gst_mss_manifest_seek (GstMssManifest * manifest, guint64 time) { gboolean ret = TRUE; GSList *iter; for (iter = manifest->streams; iter; iter = g_slist_next (iter)) { ret = gst_mss_stream_seek (iter->data, time) & ret; } return ret; } /** * Seeks this stream to the fragment that contains the sample at time * * @time: time in nanoseconds */ gboolean gst_mss_stream_seek (GstMssStream * stream, guint64 time) { GList *iter; guint64 timescale; timescale = gst_mss_stream_get_timescale (stream); time = gst_util_uint64_scale_round (time, timescale, GST_SECOND); for (iter = stream->fragments; iter; iter = g_list_next (iter)) { GList *next = g_list_next (iter); if (next) { GstMssStreamFragment *fragment = next->data; if (fragment->time > time) { stream->current_fragment = iter; break; } } else { GstMssStreamFragment *fragment = iter->data; if (fragment->time + fragment->duration > time) { stream->current_fragment = iter; } else { stream->current_fragment = NULL; /* EOS */ } break; } } return TRUE; } guint64 gst_mss_manifest_get_current_bitrate (GstMssManifest * manifest) { guint64 bitrate = 0; GSList *iter; for (iter = gst_mss_manifest_get_streams (manifest); iter; iter = g_slist_next (iter)) { GstMssStream *stream = iter->data; if (stream->active && stream->current_quality) { GstMssStreamQuality *q = stream->current_quality->data; bitrate += q->bitrate; } } return bitrate; } gboolean gst_mss_manifest_is_live (GstMssManifest * manifest) { return manifest->is_live; } static void gst_mss_stream_reload_fragments (GstMssStream * stream, xmlNodePtr streamIndex) { xmlNodePtr iter; GList *new_fragments = NULL; GstMssStreamFragment *previous_fragment = NULL; GstMssStreamFragment *current_fragment = stream->current_fragment ? stream->current_fragment->data : NULL; guint64 current_time = gst_mss_stream_get_fragment_gst_timestamp (stream); guint fragment_number = 0; guint64 fragment_time_accum = 0; if (!current_fragment && stream->fragments) { current_fragment = g_list_last (stream->fragments)->data; } else if (g_list_previous (stream->current_fragment)) { /* rewind one as this is the next to be pushed */ current_fragment = g_list_previous (stream->current_fragment)->data; } else { current_fragment = NULL; } if (current_fragment) { current_time = current_fragment->time; fragment_number = current_fragment->number; fragment_time_accum = current_fragment->time; } for (iter = streamIndex->children; iter; iter = iter->next) { if (node_has_type (iter, MSS_NODE_STREAM_FRAGMENT)) { gchar *duration_str; gchar *time_str; gchar *seqnum_str; GstMssStreamFragment *fragment = g_new (GstMssStreamFragment, 1); duration_str = (gchar *) xmlGetProp (iter, (xmlChar *) MSS_PROP_DURATION); time_str = (gchar *) xmlGetProp (iter, (xmlChar *) MSS_PROP_TIME); seqnum_str = (gchar *) xmlGetProp (iter, (xmlChar *) MSS_PROP_NUMBER); /* use the node's seq number or use the previous + 1 */ if (seqnum_str) { fragment->number = g_ascii_strtoull (seqnum_str, NULL, 10); xmlFree (seqnum_str); } else { fragment->number = fragment_number; } fragment_number = fragment->number + 1; if (time_str) { fragment->time = g_ascii_strtoull (time_str, NULL, 10); xmlFree (time_str); fragment_time_accum = fragment->time; } else { fragment->time = fragment_time_accum; } /* if we have a previous fragment, means we need to set its duration */ if (previous_fragment) previous_fragment->duration = fragment->time - previous_fragment->time; if (duration_str) { fragment->duration = g_ascii_strtoull (duration_str, NULL, 10); previous_fragment = NULL; fragment_time_accum += fragment->duration; xmlFree (duration_str); } else { /* store to set the duration at the next iteration */ previous_fragment = fragment; } if (fragment->time > current_time) { new_fragments = g_list_append (new_fragments, fragment); } else { previous_fragment = NULL; g_free (fragment); } } else { /* TODO gst log this */ } } /* store the new fragments list */ if (new_fragments) { g_list_free_full (stream->fragments, g_free); stream->fragments = new_fragments; stream->current_fragment = new_fragments; } } static void gst_mss_manifest_reload_fragments_from_xml (GstMssManifest * manifest, xmlNodePtr root) { xmlNodePtr nodeiter; GSList *streams = manifest->streams; /* we assume the server is providing the streams in the same order in * every manifest */ for (nodeiter = root->children; nodeiter && streams; nodeiter = nodeiter->next) { if (nodeiter->type == XML_ELEMENT_NODE && (strcmp ((const char *) nodeiter->name, "StreamIndex") == 0)) { gst_mss_stream_reload_fragments (streams->data, nodeiter); streams = g_slist_next (streams); } } } void gst_mss_manifest_reload_fragments (GstMssManifest * manifest, GstBuffer * data) { xmlDocPtr xml; xmlNodePtr root; g_return_if_fail (manifest->is_live); xml = xmlReadMemory ((const gchar *) GST_BUFFER_DATA (data), GST_BUFFER_SIZE (data), "manifest", NULL, 0); root = xmlDocGetRootElement (xml); gst_mss_manifest_reload_fragments_from_xml (manifest, root); xmlFreeDoc (xml); } static gboolean gst_mss_stream_select_bitrate (GstMssStream * stream, guint64 bitrate) { GList *iter = stream->current_quality; GList *next; GstMssStreamQuality *q = iter->data; while (q->bitrate > bitrate) { next = g_list_previous (iter); if (next) { iter = next; q = iter->data; } else { break; } } while (q->bitrate < bitrate) { GstMssStreamQuality *next_q; next = g_list_next (iter); if (next) { next_q = next->data; if (next_q->bitrate < bitrate) { iter = next; q = iter->data; } else { break; } } else { break; } } if (iter == stream->current_quality) return FALSE; stream->current_quality = iter; return TRUE; } /** * gst_mss_manifest_change_bitrate: * @manifest: the manifest * @bitrate: the maximum bitrate to use (bps) * * Iterates over the active streams and changes their bitrates to the maximum * value so that the bitrates of all streams are not larger than * @bitrate. * * Return: %TRUE if any stream changed its bitrate */ gboolean gst_mss_manifest_change_bitrate (GstMssManifest * manifest, guint64 bitrate) { gboolean ret = FALSE; GSList *iter; /* TODO This algorithm currently sets the same bitrate for all streams, * it should actually use the sum of all streams bitrates to compare to * the target value */ if (bitrate == 0) { /* use maximum */ bitrate = G_MAXUINT64; } for (iter = gst_mss_manifest_get_streams (manifest); iter; iter = g_slist_next (iter)) { GstMssStream *stream = iter->data; if (stream->active) { ret = ret | gst_mss_stream_select_bitrate (stream, bitrate); } } return ret; }