/* * DASH demux plugin for GStreamer * * gstdashdemux.c * * Copyright (C) 2012 Orange * * Authors: * David Corvoysier * Hamid Zakari * * Copyright (C) 2013 Smart TV Alliance * Author: Thiago Sousa Santos , Collabora Ltd. * * Copyright (C) 2021-2022 Centricular Ltd * Author: Edward Hervey * Author: Jan Schmidt * * * 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 2.1 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 (COPYING); if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /** * SECTION:element-dashdemux2 * @title: dashdemux2 * * DASH demuxer element. * ## Example launch line * |[ * gst-launch-1.0 playbin3 uri="http://www-itec.uni-klu.ac.at/ftp/datasets/mmsys12/RedBullPlayStreets/redbull_4s/RedBullPlayStreets_4s_isoffmain_DIS_23009_1_v_2_1c2_2011_08_30.mpd" * ]| */ /* Implementation notes: * * The following section describes how dashdemux works internally. * * Introduction: * * dashdemux is a "fake" demux, as unlike traditional demux elements, it * doesn't split data streams contained in an envelope to expose them to * downstream decoding elements. * * Instead, it parses an XML file called a manifest to identify a set of * individual stream fragments it needs to fetch and expose to the actual demux * elements (handled by the base `adaptivedemux2` class) that will handle them. * * For a given section of content, several representations corresponding * to different bitrates may be available: dashdemux will select the most * appropriate representation based on local conditions (typically the * available bandwidth and the amount of buffering available, capped by * a maximum allowed bitrate). * * The representation selection algorithm can be configured using * specific properties: max bitrate, min/max buffering, bandwidth ratio. * * * General Design: * * dashdemux will be provided with the data corresponding to the manifest, * typically fetched from an HTTP or file source. * * dashdemux exposes the streams it recreates based on the fragments it fetches * through dedicated GstAdaptiveDemux2Stream (corresponding to download streams). * It also specifies the characteristics of the "elementary streams" provided by * those "download streams" via "tracks" (GstAdaptiveDemuxTrack). * * During playback, new representations will typically be exposed as a * new set of pads (see 'Switching between representations' below). * * Fragments downloading is performed using a dedicated task that fills * an internal queue. Another task is in charge of popping fragments * from the queue and pushing them downstream. * * Switching between representations: * * Decodebin supports scenarios allowing to seamlessly switch from one * stream to another inside the same "decoding chain". * * To achieve that, it combines the elements it autoplugged in chains * and groups, allowing only one decoding group to be active at a given * time for a given chain. * * A chain can signal decodebin that it is complete by sending a * no-more-pads event, but even after that new pads can be added to * create new subgroups, providing that a new no-more-pads event is sent. * * We take advantage of that to dynamically create a new decoding group * in order to select a different representation during playback. * * Typically, assuming that each fragment contains both audio and video, * the following tree would be created: * * chain "DASH Demux" * |_ group "Representation set 1" * | |_ chain "Qt Demux 0" * | |_ group "Stream 0" * | |_ chain "H264" * | |_ chain "AAC" * |_ group "Representation set 2" * |_ chain "Qt Demux 1" * |_ group "Stream 1" * |_ chain "H264" * |_ chain "AAC" * * Or, if audio and video are contained in separate fragments: * * chain "DASH Demux" * |_ group "Representation set 1" * | |_ chain "Qt Demux 0" * | | |_ group "Stream 0" * | | |_ chain "H264" * | |_ chain "Qt Demux 1" * | |_ group "Stream 1" * | |_ chain "AAC" * |_ group "Representation set 2" * |_ chain "Qt Demux 3" * | |_ group "Stream 2" * | |_ chain "H264" * |_ chain "Qt Demux 4" * |_ group "Stream 3" * |_ chain "AAC" * * In both cases, when switching from Set 1 to Set 2 an EOS is sent on * each end pad corresponding to Rep 0, triggering the "drain" state to * propagate upstream. * Once both EOS have been processed, the "Set 1" group is completely * drained, and decodebin2 will switch to the "Set 2" group. * * Note: nothing can be pushed to the new decoding group before the * old one has been drained, which means that in order to be able to * adapt quickly to bandwidth changes, we will not be able to rely * on downstream buffering, and will instead manage an internal queue. * * * Keyframe trick-mode implementation: * * When requested (with GST_SEEK_FLAG_TRICKMODE_KEY_UNIT) and if the format * is supported (ISOBMFF profiles), dashdemux can download only keyframes * in order to provide fast forward/reverse playback without exceeding the * available bandwidth/cpu/memory usage. * * This is done in two parts: * 1) Parsing ISOBMFF atoms to detect the location of keyframes and only * download/push those. * 2) Deciding what the ideal next keyframe to download is in order to * provide as many keyframes as possible without rebuffering. * * * Keyframe-only downloads: * * For each beginning of fragment, the fragment header will be parsed in * gst_dash_demux_parse_isobmff() and then the information (offset, pts...) * of each keyframe will be stored in moof_sync_samples. * * gst_dash_demux_stream_update_fragment_info() will specify the range * start and end of the current keyframe, which will cause GstAdaptiveDemux * to do a new upstream range request. * * When advancing, if there are still some keyframes in the current * fragment, gst_dash_demux_stream_advance_fragment() will call * gst_dash_demux_stream_advance_sync_sample() which decides what the next * keyframe to get will be (it can be in reverse order for example, or * might not be the *next* keyframe but one further as explained below). * * If no more keyframes are available in the current fragment, dash will * advance to the next fragment (just like in the normal case) or to a * fragment much further away (as explained below). * * * * Deciding the optimal "next" keyframe/fragment to download: * * The main reason for doing keyframe-only downloads is for trick-modes * (i.e. being able to do fast reverse/forward playback with limited * bandwidth/cpu/memory). * * Downloading all keyframes might not be the optimal solution, especially * at high playback rates, since the time taken to download the keyframe * might exceed the available running time between two displayed frames * (i.e. all frames would end up arriving late). This would cause severe * rebuffering. * * Note: The values specified below can be in either the segment running * time or in absolute values. Where position values need to be converted * to segment running time the "running_time(val)" notation is used, and * where running time need ot be converted to segment poisition the * "position(val)" notation is used. * * The goal instead is to be able to download/display as many frames as * possible for a given playback rate. For that the implementation will * take into account: * * The requested playback rate and segment * * The average time to request and download a keyframe (in running time) * * The current position of dashdemux in the stream * * The current downstream (i.e. sink) position (in running time) * * To reach this goal we consider that there is some amount of buffering * (in time) between dashdemux and the display sink. While we do not know * the exact amount of buffering available, a safe and reasonable assertion * is that there is at least a second (in running time). * * The average time to request and fully download a keyframe (with or * without fragment header) is obtained by averaging the * GstAdaptiveDemux2Stream->last_download_time and is stored in * GstDashDemux2Stream->average_download_time. Those values include the * network latency and full download time, which are more interesting and * correct than just bitrates (with small download sizes, the impact of the * network latency is much higher). * * The current position is calculated based on the fragment timestamp and * the current keyframe index within that fragment. It is stored in * GstDashDemux2Stream->actual_position. * * The downstream position of the pipeline is obtained via QoS events and * is stored in GstAdaptiveDemux (note: it's a running time value). * * The estimated buffering level between dashdemux and downstream is * therefore: * buffering_level = running_time(actual_position) - qos_earliest_time * * In order to avoid rebuffering, we want to ensure that the next keyframe * (including potential fragment header) we request will be download, demuxed * and decoded in time so that it is not late. That next keyframe time is * called the "target_time" and is calculated whenever we have finished * pushing a keyframe downstream. * * One simple observation at this point is that we *need* to make sure that * the target time is chosen such that: * running_time(target_time) > qos_earliest_time + average_download_time * * i.e. we chose a target time which will be greater than the time at which * downstream will be once we request and download the keyframe (otherwise * we're guaranteed to be late). * * This would provide the highest number of displayed frames per * second, but it is just a *minimal* value and is not enough as-is, * since it doesn't take into account the following items which could * cause frames to arrive late (and therefore rebuffering): * * Network jitter (i.e. by how much the download time can fluctuate) * * Network stalling * * Different keyframe sizes (and therefore download time) * * Decoding speed * * Instead, we adjust the target time calculation based on the * buffering_level. * * The smaller the buffering level is (i.e. the closer we are between * current and downstream), the more aggressively we skip forward (and * guarantee the keyframe will be downloaded, decoded and displayed in * time). And the higher the buffering level, the least aggresivelly * we need to skip forward (and therefore display more frames per * second). * * Right now the threshold for aggressive switching is set to 3 * average_download_time. Below that buffering level we set the target time * to at least 3 average_download_time distance beyond the * qos_earliest_time. * * If we are above that buffering level we set the target time to: * position(running_time(position) + average_download_time) * * The logic is therefore: * WHILE(!EOS) * Calculate target_time * Advance to keyframe/fragment for that target_time * Adaptivedemux downloads that keyframe/fragment * */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #include #include #include #include #include "gstadaptivedemuxelements.h" #include "gstdashdemux.h" #include "gstdash_debug.h" static GstStaticPadTemplate sinktemplate = GST_STATIC_PAD_TEMPLATE ("sink", GST_PAD_SINK, GST_PAD_ALWAYS, GST_STATIC_CAPS ("application/dash+xml")); GST_DEBUG_CATEGORY (gst_dash_demux2_debug); #define GST_CAT_DEFAULT gst_dash_demux2_debug enum { PROP_0, PROP_MAX_VIDEO_WIDTH, PROP_MAX_VIDEO_HEIGHT, PROP_MAX_VIDEO_FRAMERATE, PROP_PRESENTATION_DELAY, PROP_LAST }; /* Default values for properties */ #define DEFAULT_MAX_VIDEO_WIDTH 0 #define DEFAULT_MAX_VIDEO_HEIGHT 0 #define DEFAULT_MAX_VIDEO_FRAMERATE_N 0 #define DEFAULT_MAX_VIDEO_FRAMERATE_D 1 #define DEFAULT_PRESENTATION_DELAY "10s" /* 10s */ /* Clock drift compensation for live streams */ #define SLOW_CLOCK_UPDATE_INTERVAL (1000000 * 30 * 60) /* 30 minutes */ #define FAST_CLOCK_UPDATE_INTERVAL (1000000 * 30) /* 30 seconds */ #define SUPPORTED_CLOCK_FORMATS (GST_MPD_UTCTIMING_TYPE_NTP | GST_MPD_UTCTIMING_TYPE_HTTP_HEAD | GST_MPD_UTCTIMING_TYPE_HTTP_XSDATE | GST_MPD_UTCTIMING_TYPE_HTTP_ISO | GST_MPD_UTCTIMING_TYPE_HTTP_NTP) #define NTP_TO_UNIX_EPOCH G_GUINT64_CONSTANT(2208988800) /* difference (in seconds) between NTP epoch and Unix epoch */ struct _GstDashDemux2ClockDrift { GMutex clock_lock; /* used to protect access to struct */ GstMPDUTCTimingType method; guint selected_url; gint64 next_update; /* @clock_compensation: amount (in usecs) to add to client's idea of now to map it to the server's idea of now */ GTimeSpan clock_compensation; GstClock *ntp_clock; }; typedef struct { guint64 start_offset, end_offset; /* TODO: Timestamp and duration */ } GstDashStreamSyncSample; /* GObject */ static void gst_dash_demux_set_property (GObject * object, guint prop_id, const GValue * value, GParamSpec * pspec); static void gst_dash_demux_get_property (GObject * object, guint prop_id, GValue * value, GParamSpec * pspec); static void gst_dash_demux_dispose (GObject * obj); /* GstAdaptiveDemuxStream */ static GstFlowReturn gst_dash_demux_stream_update_fragment_info (GstAdaptiveDemux2Stream * stream); static GstClockTime gst_dash_demux_stream_get_presentation_offset (GstAdaptiveDemux2Stream * stream); static gboolean gst_dash_demux_stream_has_next_fragment (GstAdaptiveDemux2Stream * stream); static GstFlowReturn gst_dash_demux_stream_advance_fragment (GstAdaptiveDemux2Stream * stream); static gboolean gst_dash_demux_stream_advance_subfragment (GstAdaptiveDemux2Stream * stream); static gboolean gst_dash_demux_stream_select_bitrate (GstAdaptiveDemux2Stream * stream, guint64 bitrate); static GstClockTime gst_dash_demux_stream_get_fragment_waiting_time (GstAdaptiveDemux2Stream * stream); static GstFlowReturn gst_dash_demux_stream_data_received (GstAdaptiveDemux2Stream * stream, GstBuffer * buffer); static gboolean gst_dash_demux_stream_fragment_start (GstAdaptiveDemux2Stream * stream); static GstFlowReturn gst_dash_demux_stream_fragment_finished (GstAdaptiveDemux2Stream * stream); static gboolean gst_dash_demux_stream_need_another_chunk (GstAdaptiveDemux2Stream * stream); /* GstAdaptiveDemux */ static GstClockTime gst_dash_demux_get_duration (GstAdaptiveDemux * ademux); static gboolean gst_dash_demux_is_live (GstAdaptiveDemux * ademux); static void gst_dash_demux_reset (GstAdaptiveDemux * ademux); static gboolean gst_dash_demux_process_manifest (GstAdaptiveDemux * ademux, GstBuffer * buf); static gboolean gst_dash_demux_seek (GstAdaptiveDemux * demux, GstEvent * seek); static GstFlowReturn gst_dash_demux_stream_seek (GstAdaptiveDemux2Stream * stream, gboolean forward, GstSeekFlags flags, GstClockTimeDiff ts, GstClockTimeDiff * final_ts); static gint64 gst_dash_demux_get_manifest_update_interval (GstAdaptiveDemux * demux); static GstFlowReturn gst_dash_demux_update_manifest_data (GstAdaptiveDemux * demux, GstBuffer * buf); static void gst_dash_demux_advance_period (GstAdaptiveDemux * demux); static gboolean gst_dash_demux_has_next_period (GstAdaptiveDemux * demux); /* GstDashDemux2 */ static gboolean gst_dash_demux_setup_all_streams (GstDashDemux2 * demux); static GstCaps *gst_dash_demux_get_input_caps (GstDashDemux2 * demux, GstActiveStream * stream); static GstDashDemux2ClockDrift *gst_dash_demux_clock_drift_new (GstDashDemux2 * demux); static void gst_dash_demux_clock_drift_free (GstDashDemux2ClockDrift *); static void gst_dash_demux_poll_clock_drift (GstDashDemux2 * demux); static GTimeSpan gst_dash_demux_get_clock_compensation (GstDashDemux2 * demux); static GDateTime *gst_dash_demux_get_server_now_utc (GstDashDemux2 * demux); #define SIDX(s) (&(s)->sidx_parser.sidx) static inline GstSidxBoxEntry * SIDX_ENTRY (GstDashDemux2Stream * s, gint i) { g_assert (i < SIDX (s)->entries_count); return &(SIDX (s)->entries[(i)]); } #define SIDX_CURRENT_ENTRY(s) SIDX_ENTRY(s, SIDX(s)->entry_index) static void gst_dash_demux_send_content_protection_event (gpointer cp_data, gpointer stream); #define gst_dash_demux_stream_parent_class stream_parent_class G_DEFINE_TYPE (GstDashDemux2Stream, gst_dash_demux_stream, GST_TYPE_ADAPTIVE_DEMUX2_STREAM); static void gst_dash_demux_stream_init (GstDashDemux2Stream * stream) { stream->adapter = gst_adapter_new (); stream->pending_seek_ts = GST_CLOCK_TIME_NONE; stream->sidx_position = GST_CLOCK_TIME_NONE; stream->actual_position = GST_CLOCK_TIME_NONE; stream->target_time = GST_CLOCK_TIME_NONE; stream->first_sync_sample_always_after_moof = TRUE; /* Set a default average keyframe download time of a quarter of a second */ stream->average_download_time = 250 * GST_MSECOND; gst_isoff_sidx_parser_init (&stream->sidx_parser); } static void gst_dash_demux_stream_finalize (GObject * object) { GstDashDemux2Stream *dash_stream = (GstDashDemux2Stream *) object; if (dash_stream->track) { gst_adaptive_demux_track_unref (dash_stream->track); dash_stream->track = NULL; } gst_isoff_sidx_parser_clear (&dash_stream->sidx_parser); if (dash_stream->adapter) g_object_unref (dash_stream->adapter); if (dash_stream->moof) gst_isoff_moof_box_free (dash_stream->moof); if (dash_stream->moof_sync_samples) g_array_free (dash_stream->moof_sync_samples, TRUE); g_free (dash_stream->last_representation_id); G_OBJECT_CLASS (stream_parent_class)->finalize (object); } static void gst_dash_demux_stream_class_init (GstDashDemux2StreamClass * klass) { GObjectClass *gobject_class = (GObjectClass *) klass; GstAdaptiveDemux2StreamClass *adaptivedemux2stream_class = GST_ADAPTIVE_DEMUX2_STREAM_CLASS (klass); gobject_class->finalize = gst_dash_demux_stream_finalize; adaptivedemux2stream_class->update_fragment_info = gst_dash_demux_stream_update_fragment_info; adaptivedemux2stream_class->has_next_fragment = gst_dash_demux_stream_has_next_fragment; adaptivedemux2stream_class->stream_seek = gst_dash_demux_stream_seek; adaptivedemux2stream_class->advance_fragment = gst_dash_demux_stream_advance_fragment; adaptivedemux2stream_class->get_fragment_waiting_time = gst_dash_demux_stream_get_fragment_waiting_time; adaptivedemux2stream_class->select_bitrate = gst_dash_demux_stream_select_bitrate; adaptivedemux2stream_class->get_presentation_offset = gst_dash_demux_stream_get_presentation_offset; adaptivedemux2stream_class->start_fragment = gst_dash_demux_stream_fragment_start; adaptivedemux2stream_class->finish_fragment = gst_dash_demux_stream_fragment_finished; adaptivedemux2stream_class->data_received = gst_dash_demux_stream_data_received; adaptivedemux2stream_class->need_another_chunk = gst_dash_demux_stream_need_another_chunk; } #define gst_dash_demux2_parent_class parent_class G_DEFINE_TYPE (GstDashDemux2, gst_dash_demux2, GST_TYPE_ADAPTIVE_DEMUX); static gboolean dashdemux2_element_init (GstPlugin * plugin); GST_ELEMENT_REGISTER_DEFINE_CUSTOM (dashdemux2, dashdemux2_element_init); static void gst_dash_demux_dispose (GObject * obj) { GstDashDemux2 *demux = GST_DASH_DEMUX (obj); gst_dash_demux_reset (GST_ADAPTIVE_DEMUX_CAST (demux)); if (demux->client) { gst_mpd_client2_free (demux->client); demux->client = NULL; } g_mutex_clear (&demux->client_lock); gst_dash_demux_clock_drift_free (demux->clock_drift); demux->clock_drift = NULL; g_free (demux->default_presentation_delay); G_OBJECT_CLASS (parent_class)->dispose (obj); } static gboolean gst_dash_demux_get_live_seek_range (GstAdaptiveDemux * demux, gint64 * start, gint64 * stop) { GstDashDemux2 *self = GST_DASH_DEMUX (demux); GDateTime *now; GDateTime *mstart; GTimeSpan stream_now; GstClockTime seg_duration; if (self->client->mpd_root_node->availabilityStartTime == NULL) return FALSE; seg_duration = gst_mpd_client2_get_maximum_segment_duration (self->client); now = gst_dash_demux_get_server_now_utc (self); mstart = gst_date_time_to_g_date_time (self->client->mpd_root_node-> availabilityStartTime); stream_now = g_date_time_difference (now, mstart); g_date_time_unref (now); g_date_time_unref (mstart); if (stream_now <= 0) return FALSE; *stop = stream_now * GST_USECOND; if (self->client->mpd_root_node->timeShiftBufferDepth == GST_MPD_DURATION_NONE) { *start = 0; } else { *start = *stop - (self->client->mpd_root_node->timeShiftBufferDepth * GST_MSECOND); if (*start < 0) *start = 0; } /* As defined in 5.3.9.5.3 of the DASH specification, a segment does not become available until the sum of: * the value of the MPD@availabilityStartTime, * the PeriodStart time of the containing Period * the MPD start time of the Media Segment, and * the MPD duration of the Media Segment. Therefore we need to subtract the media segment duration from the stop time. */ *stop -= seg_duration; return TRUE; } static GstClockTime gst_dash_demux_stream_get_presentation_offset (GstAdaptiveDemux2Stream * stream) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); return gst_mpd_client2_get_stream_presentation_offset (dashdemux->client, dashstream->index); } static GstClockTime gst_dash_demux_get_period_start_time (GstAdaptiveDemux * demux) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); return gst_mpd_client2_get_period_start_time (dashdemux->client); } static void gst_dash_demux2_class_init (GstDashDemux2Class * klass) { GObjectClass *gobject_class; GstElementClass *gstelement_class; GstAdaptiveDemuxClass *gstadaptivedemux_class; gobject_class = (GObjectClass *) klass; gstelement_class = (GstElementClass *) klass; gstadaptivedemux_class = (GstAdaptiveDemuxClass *) klass; gobject_class->set_property = gst_dash_demux_set_property; gobject_class->get_property = gst_dash_demux_get_property; gobject_class->dispose = gst_dash_demux_dispose; g_object_class_install_property (gobject_class, PROP_MAX_VIDEO_WIDTH, g_param_spec_uint ("max-video-width", "Max video width", "Max video width to select (0 = no maximum)", 0, G_MAXUINT, DEFAULT_MAX_VIDEO_WIDTH, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); g_object_class_install_property (gobject_class, PROP_MAX_VIDEO_HEIGHT, g_param_spec_uint ("max-video-height", "Max video height", "Max video height to select (0 = no maximum)", 0, G_MAXUINT, DEFAULT_MAX_VIDEO_HEIGHT, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); g_object_class_install_property (gobject_class, PROP_MAX_VIDEO_FRAMERATE, gst_param_spec_fraction ("max-video-framerate", "Max video framerate", "Max video framerate to select (0/1 = no maximum)", 0, 1, G_MAXINT, 1, DEFAULT_MAX_VIDEO_FRAMERATE_N, DEFAULT_MAX_VIDEO_FRAMERATE_D, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); g_object_class_install_property (gobject_class, PROP_PRESENTATION_DELAY, g_param_spec_string ("presentation-delay", "Presentation delay", "Default presentation delay (in seconds, milliseconds or fragments) (e.g. 12s, 2500ms, 3f)", DEFAULT_PRESENTATION_DELAY, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); gst_element_class_add_static_pad_template (gstelement_class, &sinktemplate); gst_element_class_set_static_metadata (gstelement_class, "DASH Demuxer", "Codec/Demuxer/Adaptive", "Dynamic Adaptive Streaming over HTTP demuxer", "Edward Hervey \n" "Jan Schmidt "); gstadaptivedemux_class->get_duration = gst_dash_demux_get_duration; gstadaptivedemux_class->is_live = gst_dash_demux_is_live; gstadaptivedemux_class->reset = gst_dash_demux_reset; gstadaptivedemux_class->seek = gst_dash_demux_seek; gstadaptivedemux_class->process_manifest = gst_dash_demux_process_manifest; gstadaptivedemux_class->update_manifest_data = gst_dash_demux_update_manifest_data; gstadaptivedemux_class->get_manifest_update_interval = gst_dash_demux_get_manifest_update_interval; gstadaptivedemux_class->has_next_period = gst_dash_demux_has_next_period; gstadaptivedemux_class->advance_period = gst_dash_demux_advance_period; gstadaptivedemux_class->get_live_seek_range = gst_dash_demux_get_live_seek_range; gstadaptivedemux_class->get_period_start_time = gst_dash_demux_get_period_start_time; } static void gst_dash_demux2_init (GstDashDemux2 * demux) { /* Properties */ demux->max_video_width = DEFAULT_MAX_VIDEO_WIDTH; demux->max_video_height = DEFAULT_MAX_VIDEO_HEIGHT; demux->max_video_framerate_n = DEFAULT_MAX_VIDEO_FRAMERATE_N; demux->max_video_framerate_d = DEFAULT_MAX_VIDEO_FRAMERATE_D; demux->default_presentation_delay = g_strdup (DEFAULT_PRESENTATION_DELAY); g_mutex_init (&demux->client_lock); } static void gst_dash_demux_set_property (GObject * object, guint prop_id, const GValue * value, GParamSpec * pspec) { GstDashDemux2 *demux = GST_DASH_DEMUX (object); switch (prop_id) { case PROP_MAX_VIDEO_WIDTH: demux->max_video_width = g_value_get_uint (value); break; case PROP_MAX_VIDEO_HEIGHT: demux->max_video_height = g_value_get_uint (value); break; case PROP_MAX_VIDEO_FRAMERATE: demux->max_video_framerate_n = gst_value_get_fraction_numerator (value); demux->max_video_framerate_d = gst_value_get_fraction_denominator (value); break; case PROP_PRESENTATION_DELAY: g_free (demux->default_presentation_delay); demux->default_presentation_delay = g_value_dup_string (value); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } static void gst_dash_demux_get_property (GObject * object, guint prop_id, GValue * value, GParamSpec * pspec) { GstDashDemux2 *demux = GST_DASH_DEMUX (object); switch (prop_id) { case PROP_MAX_VIDEO_WIDTH: g_value_set_uint (value, demux->max_video_width); break; case PROP_MAX_VIDEO_HEIGHT: g_value_set_uint (value, demux->max_video_height); break; case PROP_MAX_VIDEO_FRAMERATE: gst_value_set_fraction (value, demux->max_video_framerate_n, demux->max_video_framerate_d); break; case PROP_PRESENTATION_DELAY: if (demux->default_presentation_delay == NULL) g_value_set_static_string (value, ""); else g_value_set_string (value, demux->default_presentation_delay); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } static gboolean gst_dash_demux_setup_mpdparser_streams (GstDashDemux2 * demux, GstMPDClient2 * client) { gboolean has_streams = FALSE; GList *adapt_sets, *iter; adapt_sets = gst_mpd_client2_get_adaptation_sets (client); for (iter = adapt_sets; iter; iter = g_list_next (iter)) { GstMPDAdaptationSetNode *adapt_set_node = iter->data; if (gst_mpd_client2_setup_streaming (client, adapt_set_node)) has_streams = TRUE; } if (!has_streams) { GST_ELEMENT_ERROR (demux, STREAM, DEMUX, ("Manifest has no playable " "streams"), ("No streams could be activated from the manifest")); } return has_streams; } static GstStreamType gst_dash_demux_get_stream_type (GstDashDemux2 * demux, GstActiveStream * stream) { switch (stream->mimeType) { case GST_STREAM_AUDIO: return GST_STREAM_TYPE_AUDIO; case GST_STREAM_VIDEO: return GST_STREAM_TYPE_VIDEO; case GST_STREAM_APPLICATION: if (gst_mpd_client2_active_stream_contains_subtitles (stream)) return GST_STREAM_TYPE_TEXT; /* fallthrough */ default: g_assert_not_reached (); return GST_STREAM_TYPE_UNKNOWN; } } static GstDashDemux2Stream * gst_dash_demux_stream_new (guint period_num, gchar * stream_id) { GstDashDemux2Stream *stream; gchar *name = g_strdup_printf ("dashstream-period%d-%s", period_num, stream_id); stream = g_object_new (GST_TYPE_DASH_DEMUX_STREAM, "name", name, NULL); g_free (name); return stream; } static gboolean gst_dash_demux_setup_all_streams (GstDashDemux2 * demux) { GstAdaptiveDemux *parent = (GstAdaptiveDemux *) demux; guint i; GST_DEBUG_OBJECT (demux, "Setting up streams for period %d", gst_mpd_client2_get_period_index (demux->client)); /* clean old active stream list, if any */ gst_mpd_client2_active_streams_free (demux->client); if (!gst_dash_demux_setup_mpdparser_streams (demux, demux->client)) { return FALSE; } if (!gst_adaptive_demux_start_new_period (parent)) return FALSE; GST_DEBUG_OBJECT (demux, "Creating stream objects"); for (i = 0; i < gst_mpd_client2_get_nb_active_stream (demux->client); i++) { GstDashDemux2Stream *stream; GstAdaptiveDemuxTrack *track; GstStreamType streamtype; GstActiveStream *active_stream; GstCaps *caps, *codec_caps; gchar *stream_id; GstStructure *s; gchar *lang = NULL; GstTagList *tags = NULL; active_stream = gst_mpd_client2_get_active_stream_by_index (demux->client, i); if (active_stream == NULL) continue; #if 0 /* Porting note : No longer handled by subclasses */ if (demux->trickmode_no_audio && active_stream->mimeType == GST_STREAM_AUDIO) { GST_DEBUG_OBJECT (demux, "Skipping audio stream %d because of TRICKMODE_NO_AUDIO flag", i); continue; } #endif streamtype = gst_dash_demux_get_stream_type (demux, active_stream); if (streamtype == GST_STREAM_TYPE_UNKNOWN) continue; stream_id = g_strdup_printf ("%s-%d", gst_stream_type_get_name (streamtype), i); caps = gst_dash_demux_get_input_caps (demux, active_stream); codec_caps = gst_mpd_client2_get_codec_caps (active_stream); GST_LOG_OBJECT (demux, "Creating stream %d %" GST_PTR_FORMAT " / codec %" GST_PTR_FORMAT, i, caps, codec_caps); if (active_stream->cur_adapt_set) { GstMPDAdaptationSetNode *adp_set = active_stream->cur_adapt_set; lang = adp_set->lang; /* Fallback to the language in ContentComponent node */ if (lang == NULL) { GList *it; for (it = adp_set->ContentComponents; it; it = it->next) { GstMPDContentComponentNode *cc_node = it->data; if (cc_node->lang) { lang = cc_node->lang; break; } } } } if (lang) { if (gst_tag_check_language_code (lang)) tags = gst_tag_list_new (GST_TAG_LANGUAGE_CODE, lang, NULL); else tags = gst_tag_list_new (GST_TAG_LANGUAGE_NAME, lang, NULL); } /* Create the track this stream provides */ track = gst_adaptive_demux_track_new (GST_ADAPTIVE_DEMUX_CAST (demux), streamtype, GST_STREAM_FLAG_NONE, stream_id, codec_caps, tags); stream = gst_dash_demux_stream_new (demux->client->period_idx, stream_id); GST_ADAPTIVE_DEMUX2_STREAM_CAST (stream)->stream_type = streamtype; g_free (stream_id); gst_adaptive_demux2_add_stream (GST_ADAPTIVE_DEMUX_CAST (demux), GST_ADAPTIVE_DEMUX2_STREAM_CAST (stream)); gst_adaptive_demux2_stream_add_track (GST_ADAPTIVE_DEMUX2_STREAM_CAST (stream), track); stream->track = track; stream->active_stream = active_stream; if (active_stream->cur_representation) { stream->last_representation_id = g_strdup (stream->active_stream->cur_representation->id); } else { stream->last_representation_id = NULL; } s = gst_caps_get_structure (caps, 0); stream->allow_sidx = gst_mpd_client2_has_isoff_ondemand_profile (demux->client); stream->is_isobmff = gst_structure_has_name (s, "video/quicktime") || gst_structure_has_name (s, "audio/x-m4a"); gst_adaptive_demux2_stream_set_caps (GST_ADAPTIVE_DEMUX2_STREAM_CAST (stream), caps); if (tags) gst_adaptive_demux2_stream_set_tags (GST_ADAPTIVE_DEMUX2_STREAM_CAST (stream), tags); stream->index = i; if (active_stream->cur_adapt_set && GST_MPD_REPRESENTATION_BASE_NODE (active_stream-> cur_adapt_set)->ContentProtection) { GST_DEBUG_OBJECT (demux, "Adding ContentProtection events to source pad"); g_list_foreach (GST_MPD_REPRESENTATION_BASE_NODE (active_stream->cur_adapt_set)->ContentProtection, gst_dash_demux_send_content_protection_event, stream); } } return TRUE; } static void gst_dash_demux_send_content_protection_event (gpointer data, gpointer userdata) { GstMPDDescriptorTypeNode *cp = (GstMPDDescriptorTypeNode *) data; GstDashDemux2Stream *stream = (GstDashDemux2Stream *) userdata; GstAdaptiveDemux2Stream *bstream = (GstAdaptiveDemux2Stream *) userdata; GstEvent *event; GstBuffer *pssi; glong pssi_len; gchar *schemeIdUri; if (cp->schemeIdUri == NULL) return; GST_TRACE_OBJECT (bstream, "check schemeIdUri %s", cp->schemeIdUri); /* RFC 2141 states: The leading "urn:" sequence is case-insensitive */ schemeIdUri = g_ascii_strdown (cp->schemeIdUri, -1); if (g_str_has_prefix (schemeIdUri, "urn:uuid:")) { pssi_len = strlen (cp->value); pssi = gst_buffer_new_wrapped (g_memdup2 (cp->value, pssi_len), pssi_len); GST_LOG_OBJECT (bstream, "Queuing Protection event on source pad"); /* RFC 4122 states that the hex part of a UUID is in lower case, * but some streams seem to ignore this and use upper case for the * protection system ID */ event = gst_event_new_protection (cp->schemeIdUri + 9, pssi, "dash/mpd"); gst_adaptive_demux2_stream_queue_event ((GstAdaptiveDemux2Stream *) stream, event); gst_buffer_unref (pssi); } g_free (schemeIdUri); } static GstClockTime gst_dash_demux_get_duration (GstAdaptiveDemux * ademux) { GstDashDemux2 *demux = GST_DASH_DEMUX_CAST (ademux); g_return_val_if_fail (demux->client != NULL, GST_CLOCK_TIME_NONE); return gst_mpd_client2_get_media_presentation_duration (demux->client); } static gboolean gst_dash_demux_is_live (GstAdaptiveDemux * ademux) { GstDashDemux2 *demux = GST_DASH_DEMUX_CAST (ademux); g_return_val_if_fail (demux->client != NULL, FALSE); return gst_mpd_client2_is_live (demux->client); } static gboolean gst_dash_demux_setup_streams (GstAdaptiveDemux * demux) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); gboolean ret = TRUE; GstDateTime *now = NULL; guint period_idx; /* setup video, audio and subtitle streams, starting from first Period if * non-live */ period_idx = 0; if (gst_mpd_client2_is_live (dashdemux->client)) { GDateTime *g_now; if (dashdemux->client->mpd_root_node->availabilityStartTime == NULL) { ret = FALSE; GST_ERROR_OBJECT (demux, "MPD does not have availabilityStartTime"); goto done; } if (dashdemux->clock_drift == NULL) { gchar **urls; urls = gst_mpd_client2_get_utc_timing_sources (dashdemux->client, SUPPORTED_CLOCK_FORMATS, NULL); if (urls) { GST_DEBUG_OBJECT (dashdemux, "Found a supported UTCTiming element"); dashdemux->clock_drift = gst_dash_demux_clock_drift_new (dashdemux); gst_dash_demux_poll_clock_drift (dashdemux); } } /* get period index for period encompassing the current time */ g_now = gst_dash_demux_get_server_now_utc (dashdemux); now = gst_date_time_new_from_g_date_time (g_now); if (dashdemux->client->mpd_root_node->suggestedPresentationDelay != -1) { GstClockTimeDiff presentation_diff = -dashdemux->client->mpd_root_node->suggestedPresentationDelay * GST_MSECOND; GstDateTime *target = gst_mpd_client2_add_time_difference (now, presentation_diff); gst_date_time_unref (now); now = target; } else if (dashdemux->default_presentation_delay) { GstClockTimeDiff dfp = gst_mpd_client2_parse_default_presentation_delay (dashdemux->client, dashdemux->default_presentation_delay) * GST_MSECOND; GstDateTime *target = gst_mpd_client2_add_time_difference (now, -dfp); gst_date_time_unref (now); now = target; } period_idx = gst_mpd_client2_get_period_index_at_time (dashdemux->client, now); if (period_idx == G_MAXUINT) { #ifndef GST_DISABLE_GST_DEBUG gchar *date_str = gst_date_time_to_iso8601_string (now); GST_DEBUG_OBJECT (demux, "Unable to find live period active at %s", date_str); g_free (date_str); #endif ret = FALSE; goto done; } } if (!gst_mpd_client2_set_period_index (dashdemux->client, period_idx) || !gst_dash_demux_setup_all_streams (dashdemux)) { ret = FALSE; goto done; } /* If stream is live, try to find the segment that * is closest to current time */ if (gst_mpd_client2_is_live (dashdemux->client)) { GDateTime *gnow; GST_DEBUG_OBJECT (demux, "Seeking to current time of day for live stream "); gnow = gst_date_time_to_g_date_time (now); gst_mpd_client2_seek_to_time (dashdemux->client, gnow); g_date_time_unref (gnow); } else { GST_DEBUG_OBJECT (demux, "Seeking to first segment for on-demand stream "); /* start playing from the first segment */ gst_mpd_client2_seek_to_first_segment (dashdemux->client); } done: if (now != NULL) gst_date_time_unref (now); return ret; } static gboolean gst_dash_demux_process_manifest (GstAdaptiveDemux * demux, GstBuffer * buf) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); gboolean ret = FALSE; gchar *manifest; GstMapInfo mapinfo; if (dashdemux->client) gst_mpd_client2_free (dashdemux->client); dashdemux->client = gst_mpd_client2_new (); gst_mpd_client2_set_download_helper (dashdemux->client, demux->download_helper); dashdemux->client->mpd_uri = g_strdup (demux->manifest_uri); dashdemux->client->mpd_base_uri = g_strdup (demux->manifest_base_uri); GST_DEBUG_OBJECT (demux, "Fetched MPD file at URI: %s (base: %s)", dashdemux->client->mpd_uri, GST_STR_NULL (dashdemux->client->mpd_base_uri)); if (gst_buffer_map (buf, &mapinfo, GST_MAP_READ)) { manifest = (gchar *) mapinfo.data; if (gst_mpd_client2_parse (dashdemux->client, manifest, mapinfo.size)) { if (gst_mpd_client2_setup_media_presentation (dashdemux->client, 0, 0, NULL)) { ret = TRUE; } else { GST_ELEMENT_ERROR (demux, STREAM, DECODE, ("Incompatible manifest file."), (NULL)); } } gst_buffer_unmap (buf, &mapinfo); } else { GST_WARNING_OBJECT (demux, "Failed to map manifest buffer"); } if (ret) ret = gst_dash_demux_setup_streams (demux); return ret; } static void gst_dash_demux_reset (GstAdaptiveDemux * ademux) { GstDashDemux2 *demux = GST_DASH_DEMUX_CAST (ademux); GST_DEBUG_OBJECT (demux, "Resetting demux"); demux->end_of_period = FALSE; demux->end_of_manifest = FALSE; if (demux->client) { gst_mpd_client2_free (demux->client); demux->client = NULL; } gst_dash_demux_clock_drift_free (demux->clock_drift); demux->clock_drift = NULL; demux->client = gst_mpd_client2_new (); gst_mpd_client2_set_download_helper (demux->client, ademux->download_helper); demux->allow_trickmode_key_units = TRUE; } static GstCaps * gst_dash_demux_get_video_input_caps (GstDashDemux2 * demux, GstActiveStream * stream) { guint width = 0, height = 0; gint fps_num = 0, fps_den = 1; gboolean have_fps = FALSE; GstCaps *caps = NULL; if (stream == NULL) return NULL; /* if bitstreamSwitching is true we don't need to switch pads on resolution change */ if (!gst_mpd_client2_get_bitstream_switching_flag (stream)) { width = gst_mpd_client2_get_video_stream_width (stream); height = gst_mpd_client2_get_video_stream_height (stream); have_fps = gst_mpd_client2_get_video_stream_framerate (stream, &fps_num, &fps_den); } caps = gst_mpd_client2_get_stream_caps (stream); if (caps == NULL) return NULL; if (width > 0 && height > 0) { gst_caps_set_simple (caps, "width", G_TYPE_INT, width, "height", G_TYPE_INT, height, NULL); } if (have_fps) { gst_caps_set_simple (caps, "framerate", GST_TYPE_FRACTION, fps_num, fps_den, NULL); } return caps; } static GstCaps * gst_dash_demux_get_audio_input_caps (GstDashDemux2 * demux, GstActiveStream * stream) { guint rate = 0, channels = 0; GstCaps *caps = NULL; if (stream == NULL) return NULL; /* if bitstreamSwitching is true we don't need to switch pads on rate/channels change */ if (!gst_mpd_client2_get_bitstream_switching_flag (stream)) { channels = gst_mpd_client2_get_audio_stream_num_channels (stream); rate = gst_mpd_client2_get_audio_stream_rate (stream); } caps = gst_mpd_client2_get_stream_caps (stream); if (caps == NULL) return NULL; if (rate > 0) { gst_caps_set_simple (caps, "rate", G_TYPE_INT, rate, NULL); } if (channels > 0) { gst_caps_set_simple (caps, "channels", G_TYPE_INT, channels, NULL); } return caps; } static GstCaps * gst_dash_demux_get_application_input_caps (GstDashDemux2 * demux, GstActiveStream * stream) { GstCaps *caps = NULL; if (stream == NULL) return NULL; caps = gst_mpd_client2_get_stream_caps (stream); if (caps == NULL) return NULL; return caps; } static GstCaps * gst_dash_demux_get_input_caps (GstDashDemux2 * demux, GstActiveStream * stream) { switch (stream->mimeType) { case GST_STREAM_VIDEO: return gst_dash_demux_get_video_input_caps (demux, stream); case GST_STREAM_AUDIO: return gst_dash_demux_get_audio_input_caps (demux, stream); case GST_STREAM_APPLICATION: return gst_dash_demux_get_application_input_caps (demux, stream); default: return gst_caps_copy (GST_CAPS_NONE); } } static void gst_dash_demux_stream_update_headers_info (GstAdaptiveDemux2Stream * stream) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); gchar *path = NULL; gst_mpd_client2_get_next_header (dashdemux->client, &path, dashstream->index, &stream->fragment.header_range_start, &stream->fragment.header_range_end); if (path != NULL) { stream->fragment.header_uri = gst_uri_join_strings (gst_mpd_client2_get_baseURL (dashdemux->client, dashstream->index), path); g_free (path); path = NULL; } gst_mpd_client2_get_next_header_index (dashdemux->client, &path, dashstream->index, &stream->fragment.index_range_start, &stream->fragment.index_range_end); if (path != NULL) { stream->fragment.index_uri = gst_uri_join_strings (gst_mpd_client2_get_baseURL (dashdemux->client, dashstream->index), path); g_free (path); } } static GstFlowReturn gst_dash_demux_stream_update_fragment_info (GstAdaptiveDemux2Stream * stream) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); GstClockTime ts; GstMediaFragmentInfo fragment; gboolean isombff; gboolean playing_forward = (GST_ADAPTIVE_DEMUX_CAST (dashdemux)->segment.rate > 0.0); gst_adaptive_demux2_stream_fragment_clear (&stream->fragment); isombff = gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client); /* Reset chunk size if any */ stream->fragment.chunk_size = 0; dashstream->current_fragment_keyframe_distance = GST_CLOCK_TIME_NONE; if (GST_ADAPTIVE_DEMUX2_STREAM_NEED_HEADER (stream) && isombff) { gst_dash_demux_stream_update_headers_info (stream); /* sidx entries may not be available in here */ if (stream->fragment.index_uri && dashstream->sidx_position != GST_CLOCK_TIME_NONE) { /* request only the index to be downloaded as we need to reposition the * stream to a subsegment */ return GST_FLOW_OK; } } if (dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (dashdemux)) { GstDashStreamSyncSample *sync_sample = &g_array_index (dashstream->moof_sync_samples, GstDashStreamSyncSample, dashstream->current_sync_sample); gst_mpd_client2_get_next_fragment (dashdemux->client, dashstream->index, &fragment); if (isombff && dashstream->sidx_position != GST_CLOCK_TIME_NONE && SIDX (dashstream)->entries) { GstSidxBoxEntry *entry = SIDX_CURRENT_ENTRY (dashstream); dashstream->current_fragment_timestamp = fragment.timestamp = entry->pts; dashstream->current_fragment_duration = fragment.duration = entry->duration; } else { dashstream->current_fragment_timestamp = fragment.timestamp; dashstream->current_fragment_duration = fragment.duration; } dashstream->current_fragment_keyframe_distance = fragment.duration / dashstream->moof_sync_samples->len; dashstream->actual_position = fragment.timestamp + dashstream->current_sync_sample * dashstream->current_fragment_keyframe_distance; if (!playing_forward) { dashstream->actual_position += dashstream->current_fragment_keyframe_distance; } dashstream->actual_position = MIN (dashstream->actual_position, fragment.timestamp + fragment.duration); stream->fragment.uri = fragment.uri; stream->fragment.stream_time = GST_CLOCK_STIME_NONE; stream->fragment.duration = GST_CLOCK_TIME_NONE; stream->fragment.range_start = sync_sample->start_offset; stream->fragment.range_end = sync_sample->end_offset; GST_DEBUG_OBJECT (stream, "Actual position %" GST_TIME_FORMAT, GST_TIME_ARGS (dashstream->actual_position)); return GST_FLOW_OK; } if (gst_mpd_client2_get_next_fragment_timestamp (dashdemux->client, dashstream->index, &ts)) { /* For live streams, check whether the underlying representation changed * (due to a manifest update with no matching representation) */ if (gst_mpd_client2_is_live (dashdemux->client) && !GST_ADAPTIVE_DEMUX2_STREAM_NEED_HEADER (stream)) { if (dashstream->active_stream && dashstream->active_stream->cur_representation) { /* id specifies an identifier for this Representation. The * identifier shall be unique within a Period unless the * Representation is functionally identically to another * Representation in the same Period. */ if (g_strcmp0 (dashstream->active_stream->cur_representation->id, dashstream->last_representation_id)) { GstCaps *caps; stream->need_header = TRUE; GST_INFO_OBJECT (dashdemux, "Representation changed from %s to %s - updating to bitrate %d", GST_STR_NULL (dashstream->last_representation_id), GST_STR_NULL (dashstream->active_stream->cur_representation->id), dashstream->active_stream->cur_representation->bandwidth); caps = gst_dash_demux_get_input_caps (dashdemux, dashstream->active_stream); gst_adaptive_demux2_stream_set_caps (stream, caps); /* Update the stored last representation id */ g_free (dashstream->last_representation_id); dashstream->last_representation_id = g_strdup (dashstream->active_stream->cur_representation->id); } } else { g_free (dashstream->last_representation_id); dashstream->last_representation_id = NULL; } } if (GST_ADAPTIVE_DEMUX2_STREAM_NEED_HEADER (stream)) { gst_adaptive_demux2_stream_fragment_clear (&stream->fragment); gst_dash_demux_stream_update_headers_info (stream); } gst_mpd_client2_get_next_fragment (dashdemux->client, dashstream->index, &fragment); stream->fragment.uri = fragment.uri; /* If mpd does not specify indexRange (i.e., null index_uri), * sidx entries may not be available until download it */ if (isombff && dashstream->sidx_position != GST_CLOCK_TIME_NONE && SIDX (dashstream)->entries) { GstSidxBoxEntry *entry = SIDX_CURRENT_ENTRY (dashstream); stream->fragment.range_start = dashstream->sidx_base_offset + entry->offset; dashstream->actual_position = stream->fragment.stream_time = entry->pts; dashstream->current_fragment_timestamp = stream->fragment.stream_time = entry->pts; dashstream->current_fragment_duration = stream->fragment.duration = entry->duration; stream->fragment.range_end = stream->fragment.range_start + entry->size - 1; if (!playing_forward) dashstream->actual_position += entry->duration; } else { dashstream->actual_position = stream->fragment.stream_time = fragment.timestamp; dashstream->current_fragment_timestamp = fragment.timestamp; dashstream->current_fragment_duration = stream->fragment.duration = fragment.duration; if (!playing_forward) dashstream->actual_position += fragment.duration; if (GST_ADAPTIVE_DEMUX2_STREAM_NEED_HEADER (stream) && dashstream->sidx_base_offset != 0 && stream->fragment.header_uri == NULL) { /* This will happen with restarting everything-in-one-mp4 streams. * If we previously parsed it (non-zero sidx_base_offset), we just set * the header URI to the same fragment uri, and specify the range (from 0 * to the sidx base offset) */ GST_DEBUG_OBJECT (stream, "Handling restart"); stream->fragment.header_uri = g_strdup (stream->fragment.uri); stream->fragment.header_range_start = 0; stream->fragment.header_range_end = dashstream->sidx_base_offset; } stream->fragment.range_start = MAX (fragment.range_start, dashstream->sidx_base_offset); stream->fragment.range_end = fragment.range_end; } GST_DEBUG_OBJECT (stream, "Actual position %" GST_TIME_FORMAT, GST_TIME_ARGS (dashstream->actual_position)); return GST_FLOW_OK; } return GST_FLOW_EOS; } static gint gst_dash_demux_index_entry_search (GstSidxBoxEntry * entry, GstClockTime * ts, gpointer user_data) { GstClockTime entry_ts = entry->pts + entry->duration; if (entry_ts <= *ts) return -1; else if (entry->pts > *ts) return 1; else return 0; } static GstFlowReturn gst_dash_demux_stream_sidx_seek (GstDashDemux2Stream * dashstream, gboolean forward, GstSeekFlags flags, GstClockTime ts, GstClockTime * final_ts) { GstSidxBox *sidx = SIDX (dashstream); GstSidxBoxEntry *entry; gint idx; GstFlowReturn ret = GST_FLOW_OK; if (sidx->entries_count == 0) return GST_FLOW_EOS; entry = gst_util_array_binary_search (sidx->entries, sidx->entries_count, sizeof (GstSidxBoxEntry), (GCompareDataFunc) gst_dash_demux_index_entry_search, GST_SEARCH_MODE_EXACT, &ts, NULL); /* No exact match found, nothing in our index * This is usually a bug or broken stream, as the seeking code already * makes sure that we're in the correct period and segment, and only need * to find the correct place inside the segment. Allow for some rounding * errors and inaccuracies here though */ if (!entry) { GstSidxBoxEntry *last_entry = &sidx->entries[sidx->entries_count - 1]; GST_WARNING_OBJECT (dashstream->parent.demux, "Couldn't find SIDX entry"); if (ts < sidx->entries[0].pts && ts + 250 * GST_MSECOND >= sidx->entries[0].pts) entry = &sidx->entries[0]; else if (ts >= last_entry->pts + last_entry->duration && ts < last_entry->pts + last_entry->duration + 250 * GST_MSECOND) entry = last_entry; } if (!entry) return GST_FLOW_EOS; idx = entry - sidx->entries; /* FIXME in reverse mode, if we are exactly at a fragment start it makes more * sense to start from the end of the previous fragment */ if (!forward && idx > 0 && entry->pts == ts) { idx--; entry = &sidx->entries[idx]; } /* Now entry->pts <= ts < entry->pts + entry->duration, need to adjust for * snapping */ if ((flags & GST_SEEK_FLAG_SNAP_NEAREST) == GST_SEEK_FLAG_SNAP_NEAREST) { if (idx + 1 < sidx->entries_count && sidx->entries[idx + 1].pts - ts < ts - sidx->entries[idx].pts) idx += 1; } else if ((forward && (flags & GST_SEEK_FLAG_SNAP_AFTER)) || (!forward && (flags & GST_SEEK_FLAG_SNAP_BEFORE))) { if (idx + 1 < sidx->entries_count && entry->pts < ts) idx += 1; } g_assert (sidx->entry_index < sidx->entries_count); sidx->entry_index = idx; dashstream->sidx_position = sidx->entries[idx].pts; if (final_ts) *final_ts = dashstream->sidx_position; return ret; } static GstFlowReturn gst_dash_demux_stream_seek (GstAdaptiveDemux2Stream * stream, gboolean forward, GstSeekFlags flags, GstClockTimeDiff target_rt, GstClockTimeDiff * final_rt) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); gint last_index, last_repeat; gboolean is_isobmff; GstClockTime ts, final_ts; if (target_rt < 0) return GST_FLOW_ERROR; ts = (GstClockTime) target_rt; last_index = dashstream->active_stream->segment_index; last_repeat = dashstream->active_stream->segment_repeat_index; if (dashstream->adapter) gst_adapter_clear (dashstream->adapter); dashstream->current_offset = -1; dashstream->current_index_header_or_data = 0; dashstream->isobmff_parser.current_fourcc = 0; dashstream->isobmff_parser.current_start_offset = 0; dashstream->isobmff_parser.current_size = 0; if (dashstream->moof) gst_isoff_moof_box_free (dashstream->moof); dashstream->moof = NULL; if (dashstream->moof_sync_samples) g_array_free (dashstream->moof_sync_samples, TRUE); dashstream->moof_sync_samples = NULL; dashstream->current_sync_sample = -1; dashstream->target_time = GST_CLOCK_TIME_NONE; is_isobmff = gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client); if (!gst_mpd_client2_stream_seek (dashdemux->client, dashstream->active_stream, forward, is_isobmff ? (flags & (~(GST_SEEK_FLAG_SNAP_BEFORE | GST_SEEK_FLAG_SNAP_AFTER))) : flags, ts, &final_ts)) { return GST_FLOW_EOS; } if (final_rt) *final_rt = final_ts; if (is_isobmff) { GstClockTime period_start, offset; period_start = gst_mpd_client2_get_period_start_time (dashdemux->client); offset = gst_mpd_client2_get_stream_presentation_offset (dashdemux->client, dashstream->index); if (G_UNLIKELY (ts < period_start)) ts = offset; else ts += offset - period_start; if (last_index != dashstream->active_stream->segment_index || last_repeat != dashstream->active_stream->segment_repeat_index) { GST_LOG_OBJECT (stream, "Segment index was changed, reset sidx parser"); gst_isoff_sidx_parser_clear (&dashstream->sidx_parser); dashstream->sidx_base_offset = 0; dashstream->allow_sidx = TRUE; } if (dashstream->sidx_parser.status == GST_ISOFF_SIDX_PARSER_FINISHED) { if (gst_dash_demux_stream_sidx_seek (dashstream, forward, flags, ts, &final_ts) != GST_FLOW_OK) { GST_ERROR_OBJECT (stream, "Couldn't find position in sidx"); dashstream->sidx_position = GST_CLOCK_TIME_NONE; gst_isoff_sidx_parser_clear (&dashstream->sidx_parser); } if (final_rt) *final_rt = final_ts; dashstream->pending_seek_ts = GST_CLOCK_TIME_NONE; } else { /* no index yet, seek when we have it */ /* FIXME - the final_ts won't be correct here */ dashstream->pending_seek_ts = ts; } } stream->discont = TRUE; return GST_FLOW_OK; } static gboolean gst_dash_demux_stream_has_next_sync_sample (GstAdaptiveDemux2Stream * stream) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstAdaptiveDemux *demux = GST_ADAPTIVE_DEMUX_CAST (stream->demux); if (dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (demux)) { gboolean playing_forward = (demux->segment.rate > 0.0); if (playing_forward) { if (dashstream->current_sync_sample + 1 < dashstream->moof_sync_samples->len) return TRUE; } else { if (dashstream->current_sync_sample >= 1) return TRUE; } } return FALSE; } static gboolean gst_dash_demux_stream_has_next_subfragment (GstAdaptiveDemux2Stream * stream) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstSidxBox *sidx = SIDX (dashstream); if (dashstream->sidx_parser.status == GST_ISOFF_SIDX_PARSER_FINISHED) { gboolean playing_forward = (stream->demux->segment.rate > 0.0); if (playing_forward) { if (sidx->entry_index + 1 < sidx->entries_count) return TRUE; } else { if (sidx->entry_index >= 1) return TRUE; } } return FALSE; } static gboolean gst_dash_demux_stream_advance_sync_sample (GstAdaptiveDemux2Stream * stream, GstClockTime target_time) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstAdaptiveDemux *demux = stream->demux; gboolean playing_forward = (demux->segment.rate > 0.0); gboolean fragment_finished = FALSE; guint idx = -1; if (GST_CLOCK_TIME_IS_VALID (target_time)) { GST_LOG_OBJECT (stream, "target_time:%" GST_TIME_FORMAT " fragment ts %" GST_TIME_FORMAT " average keyframe dist: %" GST_TIME_FORMAT " current keyframe dist: %" GST_TIME_FORMAT " fragment duration:%" GST_TIME_FORMAT, GST_TIME_ARGS (target_time), GST_TIME_ARGS (dashstream->current_fragment_timestamp), GST_TIME_ARGS (dashstream->keyframe_average_distance), GST_TIME_ARGS (dashstream->current_fragment_keyframe_distance), GST_TIME_ARGS (stream->fragment.duration)); if (playing_forward) { idx = (target_time - dashstream->current_fragment_timestamp) / dashstream->current_fragment_keyframe_distance; /* Prevent getting stuck in a loop due to rounding errors */ if (idx == dashstream->current_sync_sample) idx++; } else { GstClockTime end_time = dashstream->current_fragment_timestamp + dashstream->current_fragment_duration; if (end_time < target_time) { idx = dashstream->moof_sync_samples->len; } else { idx = (end_time - target_time) / dashstream->current_fragment_keyframe_distance; if (idx == dashstream->moof_sync_samples->len) { dashstream->current_sync_sample = -1; fragment_finished = TRUE; goto beach; } idx = dashstream->moof_sync_samples->len - 1 - idx; } /* Prevent getting stuck in a loop due to rounding errors */ if (idx == dashstream->current_sync_sample) { if (idx == 0) { dashstream->current_sync_sample = -1; fragment_finished = TRUE; goto beach; } idx--; } } } GST_DEBUG_OBJECT (stream, "Advancing sync sample #%d target #%d", dashstream->current_sync_sample, idx); if (idx != -1 && idx >= dashstream->moof_sync_samples->len) { dashstream->current_sync_sample = -1; fragment_finished = TRUE; goto beach; } if (playing_forward) { /* Try to get the sync sample for the target time */ if (idx != -1) { dashstream->current_sync_sample = idx; } else { dashstream->current_sync_sample++; if (dashstream->current_sync_sample >= dashstream->moof_sync_samples->len) { fragment_finished = TRUE; } } } else { if (idx != -1) { dashstream->current_sync_sample = idx; } else if (dashstream->current_sync_sample == -1) { dashstream->current_sync_sample = dashstream->moof_sync_samples->len - 1; } else if (dashstream->current_sync_sample == 0) { dashstream->current_sync_sample = -1; fragment_finished = TRUE; } else { dashstream->current_sync_sample--; } } beach: GST_DEBUG_OBJECT (stream, "Advancing sync sample #%d fragment_finished:%d", dashstream->current_sync_sample, fragment_finished); if (!fragment_finished) stream->discont = TRUE; return !fragment_finished; } static gboolean gst_dash_demux_stream_advance_subfragment (GstAdaptiveDemux2Stream * stream) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstSidxBox *sidx = SIDX (dashstream); gboolean fragment_finished = TRUE; if (dashstream->sidx_parser.status == GST_ISOFF_SIDX_PARSER_FINISHED) { gboolean playing_forward = (stream->demux->segment.rate > 0.0); if (playing_forward) { gint idx = ++sidx->entry_index; if (idx < sidx->entries_count) { fragment_finished = FALSE; } if (idx == sidx->entries_count) dashstream->sidx_position = sidx->entries[idx - 1].pts + sidx->entries[idx - 1].duration; else dashstream->sidx_position = sidx->entries[idx].pts; } else { gint idx = --sidx->entry_index; if (idx >= 0) { fragment_finished = FALSE; dashstream->sidx_position = sidx->entries[idx].pts; } else { dashstream->sidx_position = GST_CLOCK_TIME_NONE; } } } GST_DEBUG_OBJECT (stream, "New sidx index: %d / %d. " "Finished fragment: %d", sidx->entry_index, sidx->entries_count, fragment_finished); return !fragment_finished; } static gboolean gst_dash_demux_stream_has_next_fragment (GstAdaptiveDemux2Stream * stream) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); GstAdaptiveDemux *demux = GST_ADAPTIVE_DEMUX_CAST (dashdemux); GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; gboolean playing_forward = (demux->segment.rate > 0.0); if (dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (dashdemux)) { if (gst_dash_demux_stream_has_next_sync_sample (stream)) return TRUE; } if (gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client)) { if (gst_dash_demux_stream_has_next_subfragment (stream)) return TRUE; } return gst_mpd_client2_has_next_segment (dashdemux->client, dashstream->active_stream, playing_forward); } /* The goal here is to figure out, once we have pushed a keyframe downstream, * what the next ideal keyframe to download is. * * This is done based on: * * the current internal position (i.e. actual_position) * * the reported downstream position (QoS feedback) * * the average keyframe download time (average_download_time) */ static GstClockTime gst_dash_demux_stream_get_target_time (GstDashDemux2 * dashdemux, GstAdaptiveDemux2Stream * stream, GstClockTime cur_position, GstClockTime min_skip) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstAdaptiveDemux *demux = GST_ADAPTIVE_DEMUX_CAST (dashdemux); GstClockTime cur_running, min_running, min_position; GstClockTimeDiff diff; GstClockTime ret = cur_position; GstClockTime deadline; GstClockTime upstream_earliest_time; GstClockTime earliest_time = GST_CLOCK_TIME_NONE; gdouble play_rate = gst_adaptive_demux_play_rate (demux); GstClockTime period_start = gst_dash_demux_get_period_start_time (demux); GstClockTime pts_offset = gst_dash_demux_stream_get_presentation_offset (stream); g_assert (min_skip > 0); /* minimum stream position we have to skip to */ if (play_rate > 0.0) min_position = cur_position + min_skip; else if (cur_position < min_skip) min_position = 0; else min_position = cur_position - min_skip; /* Move from the internal time to the demux segment, so we can * convert to running time and back */ cur_position += (period_start - pts_offset); /* Use current clock time or the QoS earliest time, whichever is further in * the future. The QoS time is only updated on every QoS event and * especially not if e.g. a videodecoder or converter drops a frame further * downstream. * * We only use the times if we ever received a QoS event since the last * flush, as otherwise base_time and clock might not be correct because of a * still pre-rolling sink */ upstream_earliest_time = gst_adaptive_demux2_get_qos_earliest_time ((GstAdaptiveDemux *) dashdemux); if (upstream_earliest_time != GST_CLOCK_TIME_NONE) { GstClock *clock; clock = gst_element_get_clock (GST_ELEMENT_CAST (dashdemux)); if (clock) { GstClockTime base_time; GstClockTime now_time; base_time = gst_element_get_base_time (GST_ELEMENT_CAST (dashdemux)); now_time = gst_clock_get_time (clock); if (now_time > base_time) now_time -= base_time; else now_time = 0; gst_object_unref (clock); earliest_time = MAX (now_time, upstream_earliest_time); } else { earliest_time = upstream_earliest_time; } } /* our current position in running time */ cur_running = gst_segment_to_running_time (&demux->segment, GST_FORMAT_TIME, cur_position); /* the minimum position we have to skip to in running time */ min_running = gst_segment_to_running_time (&demux->segment, GST_FORMAT_TIME, min_position); GST_DEBUG_OBJECT (stream, "position: current %" GST_TIME_FORMAT " min next %" GST_TIME_FORMAT, GST_TIME_ARGS (cur_position), GST_TIME_ARGS (min_position)); GST_DEBUG_OBJECT (stream, "running time: current %" GST_TIME_FORMAT " min next %" GST_TIME_FORMAT " earliest %" GST_TIME_FORMAT, GST_TIME_ARGS (cur_running), GST_TIME_ARGS (min_running), GST_TIME_ARGS (earliest_time)); /* Take configured maximum video bandwidth and framerate into account */ { GstClockTime min_run_dist, min_frame_dist, diff = 0; guint max_fps_n, max_fps_d; min_run_dist = min_skip / ABS (play_rate); if (dashdemux->max_video_framerate_n != 0) { max_fps_n = dashdemux->max_video_framerate_n; max_fps_d = dashdemux->max_video_framerate_d; } else { /* more than 10 fps is not very useful if we're skipping anyway */ max_fps_n = 10; max_fps_d = 1; } min_frame_dist = gst_util_uint64_scale_ceil (GST_SECOND, max_fps_d, max_fps_n); GST_DEBUG_OBJECT (stream, "Have max framerate %d/%d - Min dist %" GST_TIME_FORMAT ", min requested dist %" GST_TIME_FORMAT, max_fps_n, max_fps_d, GST_TIME_ARGS (min_run_dist), GST_TIME_ARGS (min_frame_dist)); if (min_frame_dist > min_run_dist) diff = MAX (diff, min_frame_dist - min_run_dist); if (demux->max_bitrate != 0) { guint64 max_bitrate = gst_util_uint64_scale_ceil (GST_SECOND, 8 * dashstream->keyframe_average_size, dashstream->keyframe_average_distance) * ABS (play_rate); if (max_bitrate > demux->max_bitrate) { min_frame_dist = gst_util_uint64_scale_ceil (GST_SECOND, 8 * dashstream->keyframe_average_size, demux->max_bitrate) * ABS (play_rate); GST_DEBUG_OBJECT (stream, "Have max bitrate %u - Min dist %" GST_TIME_FORMAT ", min requested dist %" GST_TIME_FORMAT, demux->max_bitrate, GST_TIME_ARGS (min_run_dist), GST_TIME_ARGS (min_frame_dist)); if (min_frame_dist > min_run_dist) diff = MAX (diff, min_frame_dist - min_run_dist); } } if (diff > 0) { GST_DEBUG_OBJECT (stream, "Skipping further ahead by %" GST_TIME_FORMAT, GST_TIME_ARGS (diff)); min_running += diff; } } if (earliest_time == GST_CLOCK_TIME_NONE) { GstClockTime run_key_dist; run_key_dist = dashstream->keyframe_average_distance / ABS (play_rate); /* If we don't have downstream information (such as at startup or * without live sinks), just get the next time by taking the minimum * amount we have to skip ahead * Except if it takes us longer to download */ if (run_key_dist > dashstream->average_download_time) ret = gst_segment_position_from_running_time (&demux->segment, GST_FORMAT_TIME, min_running); else ret = gst_segment_position_from_running_time (&demux->segment, GST_FORMAT_TIME, min_running - run_key_dist + dashstream->average_download_time); GST_DEBUG_OBJECT (stream, "Advancing to %" GST_TIME_FORMAT " (was %" GST_TIME_FORMAT ")", GST_TIME_ARGS (ret), GST_TIME_ARGS (min_position)); goto out; } /* Figure out the difference, in running time, between where we are and * where downstream is */ diff = min_running - earliest_time; GST_LOG_OBJECT (stream, "min_running %" GST_TIME_FORMAT " diff %" GST_STIME_FORMAT " average_download %" GST_TIME_FORMAT, GST_TIME_ARGS (min_running), GST_STIME_ARGS (diff), GST_TIME_ARGS (dashstream->average_download_time)); /* Have at least 500ms or 3 keyframes safety between current position and downstream */ deadline = MAX (500 * GST_MSECOND, 3 * dashstream->average_download_time); /* The furthest away we are from the current position, the least we need to advance */ if (diff < 0 || diff < deadline) { /* Force skipping (but not more than 1s ahead) */ ret = gst_segment_position_from_running_time (&demux->segment, GST_FORMAT_TIME, earliest_time + MIN (deadline, GST_SECOND)); GST_DEBUG_OBJECT (stream, "MUST SKIP to at least %" GST_TIME_FORMAT " (was %" GST_TIME_FORMAT ")", GST_TIME_ARGS (ret), GST_TIME_ARGS (min_position)); } else if (diff < 4 * dashstream->average_download_time) { /* Go forward a bit less aggressively (and at most 1s forward) */ ret = gst_segment_position_from_running_time (&demux->segment, GST_FORMAT_TIME, min_running + MIN (GST_SECOND, 2 * dashstream->average_download_time)); GST_DEBUG_OBJECT (stream, "MUST SKIP to at least %" GST_TIME_FORMAT " (was %" GST_TIME_FORMAT ")", GST_TIME_ARGS (ret), GST_TIME_ARGS (min_position)); } else { /* Get the next position satisfying the download time */ ret = gst_segment_position_from_running_time (&demux->segment, GST_FORMAT_TIME, min_running); GST_DEBUG_OBJECT (stream, "Advance to %" GST_TIME_FORMAT " (was %" GST_TIME_FORMAT ")", GST_TIME_ARGS (ret), GST_TIME_ARGS (min_position)); } out: /* Move back the return time to internal timestamp */ if (ret != GST_CLOCK_TIME_NONE) { ret -= (period_start - pts_offset); } { GstClockTime cur_skip = (cur_position < ret) ? ret - cur_position : cur_position - ret; if (dashstream->average_skip_size == 0) { dashstream->average_skip_size = cur_skip; } else { dashstream->average_skip_size = (cur_skip + 3 * dashstream->average_skip_size) / 4; } if (dashstream->average_skip_size > cur_skip + dashstream->keyframe_average_distance && dashstream->average_skip_size > min_skip) { if (play_rate > 0) ret = cur_position + dashstream->average_skip_size; else if (cur_position > dashstream->average_skip_size) ret = cur_position - dashstream->average_skip_size; else ret = 0; } } return ret; } static GstFlowReturn gst_dash_demux_stream_advance_fragment (GstAdaptiveDemux2Stream * stream) { GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); GstClockTime target_time = GST_CLOCK_TIME_NONE; GstClockTime previous_position; gboolean playing_forward = (GST_ADAPTIVE_DEMUX_CAST (dashdemux)->segment.rate > 0.0); GstFlowReturn ret; GST_DEBUG_OBJECT (stream, "Advance fragment"); /* Update download statistics */ if (dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (dashdemux) && GST_CLOCK_TIME_IS_VALID (stream->last_download_time)) { if (GST_CLOCK_TIME_IS_VALID (dashstream->average_download_time)) { dashstream->average_download_time = (3 * dashstream->average_download_time + stream->last_download_time) / 4; } else { dashstream->average_download_time = stream->last_download_time; } GST_DEBUG_OBJECT (stream, "Download time last: %" GST_TIME_FORMAT " average: %" GST_TIME_FORMAT, GST_TIME_ARGS (stream->last_download_time), GST_TIME_ARGS (dashstream->average_download_time)); } previous_position = dashstream->actual_position; /* Update internal position */ if (GST_CLOCK_TIME_IS_VALID (dashstream->actual_position)) { GstClockTime dur; if (dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (dashdemux)) { GST_LOG_OBJECT (stream, "current sync sample #%d", dashstream->current_sync_sample); if (dashstream->current_sync_sample == -1) { dur = 0; } else if (dashstream->current_sync_sample < dashstream->moof_sync_samples->len) { dur = dashstream->current_fragment_keyframe_distance; } else { if (gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client) && dashstream->sidx_position != GST_CLOCK_TIME_NONE && SIDX (dashstream)->entries) { GstSidxBoxEntry *entry = SIDX_CURRENT_ENTRY (dashstream); dur = entry->duration; } else { dur = dashstream->current_fragment_timestamp + dashstream->current_fragment_duration - dashstream->actual_position; } } } else if (gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client) && dashstream->sidx_position != GST_CLOCK_TIME_NONE && SIDX (dashstream)->entries) { GstSidxBoxEntry *entry = SIDX_CURRENT_ENTRY (dashstream); dur = entry->duration; } else { dur = stream->fragment.duration; } if (dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (dashdemux)) { /* We just downloaded the header, we actually use the previous * target_time now as it was not used up yet */ if (dashstream->current_sync_sample == -1) target_time = dashstream->target_time; else target_time = gst_dash_demux_stream_get_target_time (dashdemux, stream, dashstream->actual_position, dur); dashstream->actual_position = target_time; } else { /* Adjust based on direction */ if (playing_forward) dashstream->actual_position += dur; else if (dashstream->actual_position >= dur) dashstream->actual_position -= dur; else dashstream->actual_position = 0; } GST_DEBUG_OBJECT (stream, "Actual position %" GST_TIME_FORMAT, GST_TIME_ARGS (dashstream->actual_position)); } dashstream->target_time = target_time; GST_DEBUG_OBJECT (stream, "target_time: %" GST_TIME_FORMAT, GST_TIME_ARGS (target_time)); /* If downloading only keyframes, switch to the next one or fall through */ if (dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (dashdemux)) { if (gst_dash_demux_stream_advance_sync_sample (stream, target_time)) return GST_FLOW_OK; } dashstream->isobmff_parser.current_fourcc = 0; dashstream->isobmff_parser.current_start_offset = 0; dashstream->isobmff_parser.current_size = 0; if (dashstream->moof) gst_isoff_moof_box_free (dashstream->moof); dashstream->moof = NULL; if (dashstream->moof_sync_samples) g_array_free (dashstream->moof_sync_samples, TRUE); dashstream->moof_sync_samples = NULL; dashstream->current_sync_sample = -1; /* Check if we just need to 'advance' to the next fragment, or if we * need to skip by more. */ if (GST_CLOCK_TIME_IS_VALID (target_time) && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (stream->demux) && dashstream->active_stream->mimeType == GST_STREAM_VIDEO) { GstClockTime actual_ts; GstClockTimeDiff actual_rt; GstSeekFlags flags = 0; /* Key-unit trick mode, seek to fragment containing target time * * We first try seeking without snapping. As above code to skip keyframes * in the current fragment was not successful, we should go at least one * fragment ahead. Due to rounding errors we could end up at the same * fragment again here, in which case we retry seeking with the SNAP_AFTER * flag. * * We don't always set that flag as we would then end up one further * fragment in the future in all good cases. */ while (TRUE) { ret = gst_dash_demux_stream_seek (stream, playing_forward, flags, target_time, &actual_rt); if (ret != GST_FLOW_OK) { GST_WARNING_OBJECT (stream, "Failed to seek to %" GST_TIME_FORMAT, GST_TIME_ARGS (target_time)); /* Give up */ if (flags != 0) break; /* Retry with skipping ahead */ flags |= GST_SEEK_FLAG_SNAP_AFTER; continue; } actual_ts = actual_rt; GST_DEBUG_OBJECT (stream, "Skipped to %" GST_TIME_FORMAT " (wanted %" GST_TIME_FORMAT ", was %" GST_TIME_FORMAT ")", GST_TIME_ARGS (actual_ts), GST_TIME_ARGS (target_time), GST_TIME_ARGS (previous_position)); if ((playing_forward && actual_ts <= previous_position) || (!playing_forward && actual_ts >= previous_position)) { /* Give up */ if (flags != 0) break; /* Retry with forcing skipping ahead */ flags |= GST_SEEK_FLAG_SNAP_AFTER; continue; } /* All good */ break; } } else { /* Normal mode, advance to the next fragment */ if (gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client)) { if (gst_dash_demux_stream_advance_subfragment (stream)) return GST_FLOW_OK; } if (dashstream->adapter) gst_adapter_clear (dashstream->adapter); gst_isoff_sidx_parser_clear (&dashstream->sidx_parser); dashstream->sidx_base_offset = 0; dashstream->sidx_position = GST_CLOCK_TIME_NONE; dashstream->allow_sidx = TRUE; ret = gst_mpd_client2_advance_segment (dashdemux->client, dashstream->active_stream, playing_forward); } return ret; } static gboolean gst_dash_demux_stream_select_bitrate (GstAdaptiveDemux2Stream * stream, guint64 bitrate) { GstActiveStream *active_stream = NULL; GList *rep_list = NULL; gint new_index; GstAdaptiveDemux *base_demux = stream->demux; GstDashDemux2 *demux = GST_DASH_DEMUX_CAST (stream->demux); GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; gboolean ret = FALSE; gdouble play_rate = gst_adaptive_demux_play_rate (base_demux); active_stream = dashstream->active_stream; if (active_stream == NULL) { goto end; } /* In key-frame trick mode don't change bitrates */ if (GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (demux)) { GST_DEBUG_OBJECT (demux, "In key-frame trick mode, not changing bitrates"); goto end; } /* retrieve representation list */ if (active_stream->cur_adapt_set) rep_list = active_stream->cur_adapt_set->Representations; if (!rep_list) { goto end; } GST_DEBUG_OBJECT (stream, "Trying to change to bitrate: %" G_GUINT64_FORMAT, bitrate); /* get representation index with current max_bandwidth */ if (GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (base_demux) || ABS (play_rate) <= 1.0) { new_index = gst_mpd_client2_get_rep_idx_with_max_bandwidth (rep_list, bitrate, demux->max_video_width, demux->max_video_height, demux->max_video_framerate_n, demux->max_video_framerate_d); } else { new_index = gst_mpd_client2_get_rep_idx_with_max_bandwidth (rep_list, bitrate / ABS (play_rate), demux->max_video_width, demux->max_video_height, demux->max_video_framerate_n, demux->max_video_framerate_d); } /* if no representation has the required bandwidth, take the lowest one */ if (new_index == -1) new_index = gst_mpd_client2_get_rep_idx_with_min_bandwidth (rep_list); if (new_index != active_stream->representation_idx) { GstMPDRepresentationNode *rep = g_list_nth_data (rep_list, new_index); GST_INFO_OBJECT (demux, "Changing representation idx: %d %d %u", dashstream->index, new_index, rep->bandwidth); if (gst_mpd_client2_setup_representation (demux->client, active_stream, rep)) { GstCaps *caps; GST_INFO_OBJECT (demux, "Switching bitrate to %d", active_stream->cur_representation->bandwidth); caps = gst_dash_demux_get_input_caps (demux, active_stream); gst_adaptive_demux2_stream_set_caps (stream, caps); ret = TRUE; /* Update the stored last representation id */ g_free (dashstream->last_representation_id); dashstream->last_representation_id = g_strdup (active_stream->cur_representation->id); } else { GST_WARNING_OBJECT (demux, "Can not switch representation, aborting..."); } } if (ret) { if (gst_mpd_client2_has_isoff_ondemand_profile (demux->client) && SIDX (dashstream)->entries) { /* store our current position to change to the same one in a different * representation if needed */ if (SIDX (dashstream)->entry_index < SIDX (dashstream)->entries_count) dashstream->sidx_position = SIDX_CURRENT_ENTRY (dashstream)->pts; else if (SIDX (dashstream)->entry_index >= SIDX (dashstream)->entries_count) dashstream->sidx_position = SIDX_ENTRY (dashstream, SIDX (dashstream)->entries_count - 1)->pts + SIDX_ENTRY (dashstream, SIDX (dashstream)->entries_count - 1)->duration; else dashstream->sidx_position = GST_CLOCK_TIME_NONE; } else { dashstream->sidx_position = GST_CLOCK_TIME_NONE; } gst_isoff_sidx_parser_clear (&dashstream->sidx_parser); dashstream->sidx_base_offset = 0; dashstream->allow_sidx = TRUE; /* Reset ISOBMFF box parsing state */ dashstream->isobmff_parser.current_fourcc = 0; dashstream->isobmff_parser.current_start_offset = 0; dashstream->isobmff_parser.current_size = 0; dashstream->current_offset = -1; dashstream->current_index_header_or_data = 0; if (dashstream->adapter) gst_adapter_clear (dashstream->adapter); if (dashstream->moof) gst_isoff_moof_box_free (dashstream->moof); dashstream->moof = NULL; if (dashstream->moof_sync_samples) g_array_free (dashstream->moof_sync_samples, TRUE); dashstream->moof_sync_samples = NULL; dashstream->current_sync_sample = -1; dashstream->target_time = GST_CLOCK_TIME_NONE; } end: return ret; } #define SEEK_UPDATES_PLAY_POSITION(r, start_type, stop_type) \ ((r >= 0 && start_type != GST_SEEK_TYPE_NONE) || \ (r < 0 && stop_type != GST_SEEK_TYPE_NONE)) static gboolean gst_dash_demux_seek (GstAdaptiveDemux * demux, GstEvent * seek) { gdouble rate; GstFormat format; GstSeekFlags flags; GstSeekType start_type, stop_type; gint64 start, stop; GList *list; GstClockTime current_pos, target_pos; guint current_period; GstStreamPeriod *period; GList *iter; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); gst_event_parse_seek (seek, &rate, &format, &flags, &start_type, &start, &stop_type, &stop); if (!SEEK_UPDATES_PLAY_POSITION (rate, start_type, stop_type)) { /* nothing to do if we don't have to update the current position */ return TRUE; } if (rate > 0.0) { target_pos = (GstClockTime) start; } else { target_pos = (GstClockTime) stop; } /* select the requested Period in the Media Presentation */ if (!gst_mpd_client2_setup_media_presentation (dashdemux->client, target_pos, -1, NULL)) return FALSE; current_period = 0; for (list = g_list_first (dashdemux->client->periods); list; list = g_list_next (list)) { period = list->data; current_pos = period->start; current_period = period->number; GST_DEBUG_OBJECT (demux, "Looking at period %u) start:%" GST_TIME_FORMAT " - duration:%" GST_TIME_FORMAT ") for position %" GST_TIME_FORMAT, current_period, GST_TIME_ARGS (current_pos), GST_TIME_ARGS (period->duration), GST_TIME_ARGS (target_pos)); if (current_pos <= target_pos && target_pos <= current_pos + period->duration) { break; } } if (list == NULL) { GST_WARNING_OBJECT (demux, "Could not find seeked Period"); return FALSE; } if (current_period != gst_mpd_client2_get_period_index (dashdemux->client)) { GST_DEBUG_OBJECT (demux, "Seeking to Period %d", current_period); /* clean old active stream list, if any */ gst_mpd_client2_active_streams_free (dashdemux->client); /* setup video, audio and subtitle streams, starting from the new Period */ if (!gst_mpd_client2_set_period_index (dashdemux->client, current_period) || !gst_dash_demux_setup_all_streams (dashdemux)) return FALSE; } /* Update the current sequence on all streams */ for (iter = demux->input_period->streams; iter; iter = g_list_next (iter)) { GstAdaptiveDemux2Stream *stream = iter->data; GstDashDemux2Stream *dashstream = iter->data; dashstream->average_skip_size = 0; if (gst_dash_demux_stream_seek (stream, rate >= 0, 0, target_pos, NULL) != GST_FLOW_OK) return FALSE; } return TRUE; } static gint64 gst_dash_demux_get_manifest_update_interval (GstAdaptiveDemux * demux) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); return MIN (dashdemux->client->mpd_root_node->minimumUpdatePeriod * 1000, SLOW_CLOCK_UPDATE_INTERVAL); } static GstFlowReturn gst_dash_demux_update_manifest_data (GstAdaptiveDemux * demux, GstBuffer * buffer) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); GstMPDClient2 *new_client = NULL; GstMapInfo mapinfo; GST_DEBUG_OBJECT (demux, "Updating manifest file from URL"); /* parse the manifest file */ new_client = gst_mpd_client2_new (); gst_mpd_client2_set_download_helper (new_client, demux->download_helper); new_client->mpd_uri = g_strdup (demux->manifest_uri); new_client->mpd_base_uri = g_strdup (demux->manifest_base_uri); gst_buffer_map (buffer, &mapinfo, GST_MAP_READ); if (gst_mpd_client2_parse (new_client, (gchar *) mapinfo.data, mapinfo.size)) { const gchar *period_id; guint period_idx; GList *iter; GList *streams_iter; /* prepare the new manifest and try to transfer the stream position * status from the old manifest client */ GST_DEBUG_OBJECT (demux, "Updating manifest"); period_id = gst_mpd_client2_get_period_id (dashdemux->client); period_idx = gst_mpd_client2_get_period_index (dashdemux->client); /* setup video, audio and subtitle streams, starting from current Period */ if (!gst_mpd_client2_setup_media_presentation (new_client, -1, (period_id ? -1 : period_idx), period_id)) { /* TODO */ } if (period_id) { if (!gst_mpd_client2_set_period_id (new_client, period_id)) { GST_DEBUG_OBJECT (demux, "Error setting up the updated manifest file"); gst_mpd_client2_free (new_client); gst_buffer_unmap (buffer, &mapinfo); return GST_FLOW_EOS; } } else { if (!gst_mpd_client2_set_period_index (new_client, period_idx)) { GST_DEBUG_OBJECT (demux, "Error setting up the updated manifest file"); gst_mpd_client2_free (new_client); gst_buffer_unmap (buffer, &mapinfo); return GST_FLOW_EOS; } } if (!gst_dash_demux_setup_mpdparser_streams (dashdemux, new_client)) { GST_ERROR_OBJECT (demux, "Failed to setup streams on manifest " "update"); gst_mpd_client2_free (new_client); gst_buffer_unmap (buffer, &mapinfo); return GST_FLOW_ERROR; } /* update the streams to preserve the current representation if there is one, * and to play from the next segment */ for (iter = demux->input_period->streams, streams_iter = new_client->active_streams; iter && streams_iter; iter = g_list_next (iter), streams_iter = g_list_next (streams_iter)) { GstDashDemux2Stream *demux_stream = iter->data; GstActiveStream *new_stream = streams_iter->data; GstClockTime ts; if (!new_stream) { GST_DEBUG_OBJECT (demux, "Stream of index %d is missing from manifest update", demux_stream->index); gst_mpd_client2_free (new_client); gst_buffer_unmap (buffer, &mapinfo); return GST_FLOW_EOS; } if (new_stream->cur_adapt_set && demux_stream->last_representation_id != NULL) { GList *rep_list = new_stream->cur_adapt_set->Representations; GstMPDRepresentationNode *rep_node = gst_mpd_client2_get_representation_with_id (rep_list, demux_stream->last_representation_id); if (rep_node != NULL) { if (gst_mpd_client2_setup_representation (new_client, new_stream, rep_node)) { GST_DEBUG_OBJECT (demux_stream, "Found and set up matching representation %s in new manifest", demux_stream->last_representation_id); } else { GST_ERROR_OBJECT (demux_stream, "Failed to set up representation %s in new manifest", demux_stream->last_representation_id); gst_mpd_client2_free (new_client); gst_buffer_unmap (buffer, &mapinfo); return GST_FLOW_EOS; } } else { /* If we failed to find the current representation, * then update_fragment_info() will reconfigure to the * new settings after the current download finishes */ GST_WARNING_OBJECT (demux_stream, "Failed to find representation %s in new manifest", demux_stream->last_representation_id); } } if (gst_mpd_client2_get_next_fragment_timestamp (dashdemux->client, demux_stream->index, &ts) || gst_mpd_client2_get_last_fragment_timestamp_end (dashdemux->client, demux_stream->index, &ts)) { /* Due to rounding when doing the timescale conversions it might happen * that the ts falls back to a previous segment, leading the same data * to be downloaded twice. We try to work around this by always adding * 10 microseconds to get back to the correct segment. The errors are * usually on the order of nanoseconds so it should be enough. */ /* _get_next_fragment_timestamp() returned relative timestamp to * corresponding period start, but _client_stream_seek expects absolute * MPD time. */ ts += gst_mpd_client2_get_period_start_time (dashdemux->client); GST_DEBUG_OBJECT (demux, "Current position: %" GST_TIME_FORMAT ", updating to %" GST_TIME_FORMAT, GST_TIME_ARGS (ts), GST_TIME_ARGS (ts + (10 * GST_USECOND))); ts += 10 * GST_USECOND; gst_mpd_client2_stream_seek (new_client, new_stream, demux->segment.rate >= 0, 0, ts, NULL); } demux_stream->active_stream = new_stream; } gst_mpd_client2_free (dashdemux->client); dashdemux->client = new_client; GST_DEBUG_OBJECT (demux, "Manifest file successfully updated"); if (dashdemux->clock_drift) { gst_dash_demux_poll_clock_drift (dashdemux); } } else { /* In most cases, this will happen if we set a wrong url in the * source element and we have received the 404 HTML response instead of * the manifest */ GST_WARNING_OBJECT (demux, "Error parsing the manifest."); gst_mpd_client2_free (new_client); gst_buffer_unmap (buffer, &mapinfo); return GST_FLOW_ERROR; } gst_buffer_unmap (buffer, &mapinfo); return GST_FLOW_OK; } static GstClockTime gst_dash_demux_stream_get_fragment_waiting_time (GstAdaptiveDemux2Stream * stream) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GstDateTime *segmentAvailability; GstActiveStream *active_stream = dashstream->active_stream; segmentAvailability = gst_mpd_client2_get_next_segment_availability_start_time (dashdemux->client, active_stream); if (segmentAvailability) { GstClockTimeDiff diff; GstClockTimeDiff clock_compensation; GstDateTime *cur_time; cur_time = gst_date_time_new_from_g_date_time (gst_adaptive_demux2_get_client_now_utc (GST_ADAPTIVE_DEMUX_CAST (dashdemux))); diff = gst_mpd_client2_calculate_time_difference (cur_time, segmentAvailability); gst_date_time_unref (segmentAvailability); gst_date_time_unref (cur_time); /* subtract the server's clock drift, so that if the server's time is behind our idea of UTC, we need to sleep for longer before requesting a fragment */ clock_compensation = gst_dash_demux_get_clock_compensation (dashdemux) * GST_USECOND; if (diff > clock_compensation) return (diff - clock_compensation); } return 0; } static gboolean gst_dash_demux_has_next_period (GstAdaptiveDemux * demux) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); if (demux->segment.rate >= 0) return gst_mpd_client2_has_next_period (dashdemux->client); else return gst_mpd_client2_has_previous_period (dashdemux->client); } static void gst_dash_demux_advance_period (GstAdaptiveDemux * demux) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); if (demux->segment.rate >= 0) { if (!gst_mpd_client2_set_period_index (dashdemux->client, gst_mpd_client2_get_period_index (dashdemux->client) + 1)) { /* TODO error */ return; } } else { if (!gst_mpd_client2_set_period_index (dashdemux->client, gst_mpd_client2_get_period_index (dashdemux->client) - 1)) { /* TODO error */ return; } } gst_dash_demux_setup_all_streams (dashdemux); gst_mpd_client2_seek_to_first_segment (dashdemux->client); } static GstBuffer * _gst_buffer_split (GstBuffer * buffer, gint offset, gsize size) { GstBuffer *newbuf = gst_buffer_copy_region (buffer, GST_BUFFER_COPY_FLAGS | GST_BUFFER_COPY_TIMESTAMPS | GST_BUFFER_COPY_META | GST_BUFFER_COPY_MEMORY, offset, size == -1 ? size : size - offset); gst_buffer_resize (buffer, 0, offset); return newbuf; } static gboolean gst_dash_demux_stream_fragment_start (GstAdaptiveDemux2Stream * stream) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; GST_LOG_OBJECT (stream, "Actual position %" GST_TIME_FORMAT, GST_TIME_ARGS (dashstream->actual_position)); dashstream->current_index_header_or_data = 0; dashstream->current_offset = -1; /* We need to mark every first buffer of a key unit as discont, * and also every first buffer of a moov and moof. This ensures * that qtdemux takes note of our buffer offsets for each of those * buffers instead of keeping track of them itself from the first * buffer. We need offsets to be consistent between moof and mdat */ if (dashstream->is_isobmff && dashdemux->allow_trickmode_key_units && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (stream->demux) && dashstream->active_stream->mimeType == GST_STREAM_VIDEO) stream->discont = TRUE; return TRUE; } static GstFlowReturn gst_dash_demux_stream_fragment_finished (GstAdaptiveDemux2Stream * stream) { GstClockTime consumed_duration; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; /* We need to mark every first buffer of a key unit as discont, * and also every first buffer of a moov and moof. This ensures * that qtdemux takes note of our buffer offsets for each of those * buffers instead of keeping track of them itself from the first * buffer. We need offsets to be consistent between moof and mdat */ if (dashstream->is_isobmff && dashdemux->allow_trickmode_key_units && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (stream->demux) && dashstream->active_stream->mimeType == GST_STREAM_VIDEO) stream->discont = TRUE; /* Only handle fragment advancing specifically for SIDX if we're not * in key unit mode */ if (!(dashstream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (dashdemux)) && gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client) && dashstream->sidx_parser.status == GST_ISOFF_SIDX_PARSER_FINISHED) { /* fragment is advanced on data_received when byte limits are reached */ if (dashstream->pending_seek_ts != GST_CLOCK_TIME_NONE) { if (SIDX (dashstream)->entry_index < SIDX (dashstream)->entries_count) return GST_FLOW_OK; } else if (gst_dash_demux_stream_has_next_subfragment (stream)) { return GST_FLOW_OK; } } if (G_UNLIKELY (stream->downloading_header || stream->downloading_index)) return GST_FLOW_OK; if (GST_CLOCK_TIME_IS_VALID (stream->start_position) && stream->start_position == stream->current_position) { consumed_duration = (stream->fragment.stream_time + stream->fragment.duration) - stream->current_position; GST_LOG_OBJECT (stream, "Consumed duration after seeking: %" GST_TIMEP_FORMAT, &consumed_duration); } else { consumed_duration = stream->fragment.duration; } return gst_adaptive_demux2_stream_advance_fragment (stream, consumed_duration); } static gboolean gst_dash_demux_stream_need_another_chunk (GstAdaptiveDemux2Stream * stream) { GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (stream->demux); GstAdaptiveDemux *demux = stream->demux; GstDashDemux2Stream *dashstream = (GstDashDemux2Stream *) stream; gboolean playing_forward = (demux->segment.rate > 0.0); /* We're chunked downloading for ISOBMFF in KEY_UNITS mode for the actual * fragment until we parsed the moof and arrived at the mdat. 8192 is a * random guess for the moof size */ if (dashstream->is_isobmff && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (stream->demux) && dashstream->active_stream->mimeType == GST_STREAM_VIDEO && !stream->downloading_header && !stream->downloading_index && dashdemux->allow_trickmode_key_units) { if (dashstream->isobmff_parser.current_fourcc != GST_ISOFF_FOURCC_MDAT) { /* Need to download the moof first to know anything */ stream->fragment.chunk_size = 8192; /* Do we have the first fourcc already or are we in the middle */ if (dashstream->isobmff_parser.current_fourcc == 0) { stream->fragment.chunk_size += dashstream->moof_average_size; if (dashstream->first_sync_sample_always_after_moof) { gboolean first = FALSE; /* Check if we'll really need that first sample */ if (GST_CLOCK_TIME_IS_VALID (dashstream->target_time)) { first = ((dashstream->target_time - dashstream->current_fragment_timestamp) / dashstream->keyframe_average_distance) == 0 ? TRUE : FALSE; } else if (playing_forward) { first = TRUE; } if (first) stream->fragment.chunk_size += dashstream->keyframe_average_size; } } if (gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client) && dashstream->sidx_parser.sidx.entries) { guint64 sidx_start_offset = dashstream->sidx_base_offset + SIDX_CURRENT_ENTRY (dashstream)->offset; guint64 sidx_end_offset = sidx_start_offset + SIDX_CURRENT_ENTRY (dashstream)->size; guint64 downloaded_end_offset; if (dashstream->current_offset == GST_CLOCK_TIME_NONE) { downloaded_end_offset = sidx_start_offset; } else { downloaded_end_offset = dashstream->current_offset + gst_adapter_available (dashstream->adapter); } downloaded_end_offset = MAX (downloaded_end_offset, sidx_start_offset); if (stream->fragment.chunk_size + downloaded_end_offset > sidx_end_offset) { stream->fragment.chunk_size = sidx_end_offset - downloaded_end_offset; } } } else if (dashstream->moof && dashstream->moof_sync_samples) { /* Have the moof, either we're done now or we want to download the * directly following sync sample */ if (dashstream->first_sync_sample_after_moof && dashstream->current_sync_sample == 0) { GstDashStreamSyncSample *sync_sample = &g_array_index (dashstream->moof_sync_samples, GstDashStreamSyncSample, 0); guint64 end_offset = sync_sample->end_offset + 1; guint64 downloaded_end_offset; downloaded_end_offset = dashstream->current_offset + gst_adapter_available (dashstream->adapter); if (gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client) && dashstream->sidx_parser.sidx.entries) { guint64 sidx_end_offset = dashstream->sidx_base_offset + SIDX_CURRENT_ENTRY (dashstream)->offset + SIDX_CURRENT_ENTRY (dashstream)->size; if (end_offset > sidx_end_offset) { end_offset = sidx_end_offset; } } if (downloaded_end_offset < end_offset) { stream->fragment.chunk_size = end_offset - downloaded_end_offset; } else { stream->fragment.chunk_size = 0; } } else { stream->fragment.chunk_size = 0; } } else { /* Have moof but can't do key-units mode, just download until the end */ stream->fragment.chunk_size = -1; } } else { /* We might've decided that we can't allow key-unit only * trickmodes while doing chunked downloading. In that case * just download from here to the end now */ if (dashstream->moof && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (stream->demux)) { stream->fragment.chunk_size = -1; } else { stream->fragment.chunk_size = 0; } } return stream->fragment.chunk_size != 0; } static GstFlowReturn gst_dash_demux_parse_isobmff (GstAdaptiveDemux * demux, GstDashDemux2Stream * dash_stream, gboolean * sidx_seek_needed) { GstAdaptiveDemux2Stream *stream = (GstAdaptiveDemux2Stream *) dash_stream; GstDashDemux2 *dashdemux = GST_DASH_DEMUX_CAST (demux); gsize available; GstBuffer *buffer; GstMapInfo map; GstByteReader reader; guint32 fourcc; guint header_size; guint64 size, buffer_offset; *sidx_seek_needed = FALSE; /* This must not be called when we're in the mdat. We only look at the mdat * header and then stop parsing the boxes as we're only interested in the * metadata! Handling mdat is the job of the surrounding code, as well as * stopping or starting the next fragment when mdat is over (=> sidx) */ g_assert (dash_stream->isobmff_parser.current_fourcc != GST_ISOFF_FOURCC_MDAT); available = gst_adapter_available (dash_stream->adapter); buffer = gst_adapter_take_buffer (dash_stream->adapter, available); buffer_offset = dash_stream->current_offset; /* Always at the start of a box here */ g_assert (dash_stream->isobmff_parser.current_size == 0); /* At the start of a box => Parse it */ gst_buffer_map (buffer, &map, GST_MAP_READ); gst_byte_reader_init (&reader, map.data, map.size); /* While there are more boxes left to parse ... */ dash_stream->isobmff_parser.current_start_offset = buffer_offset; do { dash_stream->isobmff_parser.current_fourcc = 0; dash_stream->isobmff_parser.current_size = 0; if (!gst_isoff_parse_box_header (&reader, &fourcc, NULL, &header_size, &size)) { break; } dash_stream->isobmff_parser.current_fourcc = fourcc; if (size == 0) { /* We assume this is mdat, anything else with "size until end" * does not seem to make sense */ g_assert (dash_stream->isobmff_parser.current_fourcc == GST_ISOFF_FOURCC_MDAT); dash_stream->isobmff_parser.current_size = -1; break; } dash_stream->isobmff_parser.current_size = size; /* Do we have the complete box or are at MDAT */ if (gst_byte_reader_get_remaining (&reader) < size - header_size || dash_stream->isobmff_parser.current_fourcc == GST_ISOFF_FOURCC_MDAT) { /* Reset byte reader to the beginning of the box */ gst_byte_reader_set_pos (&reader, gst_byte_reader_get_pos (&reader) - header_size); break; } GST_LOG_OBJECT (stream, "box %" GST_FOURCC_FORMAT " at offset %" G_GUINT64_FORMAT " size %" G_GUINT64_FORMAT, GST_FOURCC_ARGS (fourcc), dash_stream->isobmff_parser.current_start_offset, size); if (dash_stream->isobmff_parser.current_fourcc == GST_ISOFF_FOURCC_MOOF) { GstByteReader sub_reader; /* Only allow SIDX before the very first moof */ dash_stream->allow_sidx = FALSE; g_assert (dash_stream->moof == NULL); g_assert (dash_stream->moof_sync_samples == NULL); gst_byte_reader_get_sub_reader (&reader, &sub_reader, size - header_size); dash_stream->moof = gst_isoff_moof_box_parse (&sub_reader); dash_stream->moof_offset = dash_stream->isobmff_parser.current_start_offset; dash_stream->moof_size = size; dash_stream->current_sync_sample = -1; if (dash_stream->moof_average_size) { if (dash_stream->moof_average_size < size) dash_stream->moof_average_size = (size * 3 + dash_stream->moof_average_size) / 4; else dash_stream->moof_average_size = (size + dash_stream->moof_average_size + 3) / 4; } else { dash_stream->moof_average_size = size; } } else if (dash_stream->isobmff_parser.current_fourcc == GST_ISOFF_FOURCC_SIDX && gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client) && dash_stream->allow_sidx) { GstByteReader sub_reader; GstIsoffParserResult res; guint dummy; dash_stream->sidx_base_offset = dash_stream->isobmff_parser.current_start_offset + size; dash_stream->allow_sidx = FALSE; gst_byte_reader_get_sub_reader (&reader, &sub_reader, size - header_size); res = gst_isoff_sidx_parser_parse (&dash_stream->sidx_parser, &sub_reader, &dummy); if (res == GST_ISOFF_PARSER_DONE) { guint64 first_offset = dash_stream->sidx_parser.sidx.first_offset; GstSidxBox *sidx = SIDX (dash_stream); guint i; if (first_offset) { GST_LOG_OBJECT (stream, "non-zero sidx first offset %" G_GUINT64_FORMAT, first_offset); dash_stream->sidx_base_offset += first_offset; } for (i = 0; i < sidx->entries_count; i++) { GstSidxBoxEntry *entry = &sidx->entries[i]; if (entry->ref_type != 0) { GST_FIXME_OBJECT (stream, "SIDX ref_type 1 not supported yet"); dash_stream->sidx_position = GST_CLOCK_TIME_NONE; gst_isoff_sidx_parser_clear (&dash_stream->sidx_parser); break; } } /* We might've cleared the index above */ if (sidx->entries_count > 0) { if (GST_CLOCK_TIME_IS_VALID (dash_stream->pending_seek_ts)) { /* FIXME, preserve seek flags */ if (gst_dash_demux_stream_sidx_seek (dash_stream, demux->segment.rate >= 0, 0, dash_stream->pending_seek_ts, NULL) != GST_FLOW_OK) { GST_ERROR_OBJECT (stream, "Couldn't find position in sidx"); dash_stream->sidx_position = GST_CLOCK_TIME_NONE; gst_isoff_sidx_parser_clear (&dash_stream->sidx_parser); } dash_stream->pending_seek_ts = GST_CLOCK_TIME_NONE; } else { if (dash_stream->sidx_position == GST_CLOCK_TIME_NONE) { SIDX (dash_stream)->entry_index = 0; } else { if (gst_dash_demux_stream_sidx_seek (dash_stream, demux->segment.rate >= 0, GST_SEEK_FLAG_SNAP_BEFORE, dash_stream->sidx_position, NULL) != GST_FLOW_OK) { GST_ERROR_OBJECT (stream, "Couldn't find position in sidx"); dash_stream->sidx_position = GST_CLOCK_TIME_NONE; gst_isoff_sidx_parser_clear (&dash_stream->sidx_parser); } } dash_stream->sidx_position = SIDX (dash_stream)->entries[SIDX (dash_stream)->entry_index]. pts; } } if (dash_stream->sidx_parser.status == GST_ISOFF_SIDX_PARSER_FINISHED && SIDX (dash_stream)->entry_index != 0) { /* Need to jump to the requested SIDX entry. Push everything up to * the SIDX box below and let the caller handle everything else */ *sidx_seek_needed = TRUE; break; } } } else { gst_byte_reader_skip (&reader, size - header_size); } dash_stream->isobmff_parser.current_fourcc = 0; dash_stream->isobmff_parser.current_start_offset += size; dash_stream->isobmff_parser.current_size = 0; } while (gst_byte_reader_get_remaining (&reader) > 0); gst_buffer_unmap (buffer, &map); /* mdat? Push all we have and wait for it to be over */ if (dash_stream->isobmff_parser.current_fourcc == GST_ISOFF_FOURCC_MDAT) { GstBuffer *pending; GST_LOG_OBJECT (stream, "box %" GST_FOURCC_FORMAT " at offset %" G_GUINT64_FORMAT " size %" G_GUINT64_FORMAT, GST_FOURCC_ARGS (fourcc), dash_stream->isobmff_parser.current_start_offset, dash_stream->isobmff_parser.current_size); /* At mdat. Move the start of the mdat to the adapter and have everything * else be pushed. We parsed all header boxes at this point and are not * supposed to be called again until the next moof */ pending = _gst_buffer_split (buffer, gst_byte_reader_get_pos (&reader), -1); gst_adapter_push (dash_stream->adapter, pending); dash_stream->current_offset += gst_byte_reader_get_pos (&reader); dash_stream->isobmff_parser.current_size = 0; GST_BUFFER_OFFSET (buffer) = buffer_offset; GST_BUFFER_OFFSET_END (buffer) = buffer_offset + gst_buffer_get_size (buffer); return gst_adaptive_demux2_stream_push_buffer (stream, buffer); } else if (gst_byte_reader_get_pos (&reader) != 0) { GstBuffer *pending; /* Multiple complete boxes and no mdat? Push them and keep the remainder, * which is the start of the next box if any remainder */ pending = _gst_buffer_split (buffer, gst_byte_reader_get_pos (&reader), -1); gst_adapter_push (dash_stream->adapter, pending); dash_stream->current_offset += gst_byte_reader_get_pos (&reader); dash_stream->isobmff_parser.current_size = 0; GST_BUFFER_OFFSET (buffer) = buffer_offset; GST_BUFFER_OFFSET_END (buffer) = buffer_offset + gst_buffer_get_size (buffer); return gst_adaptive_demux2_stream_push_buffer (stream, buffer); } /* Not even a single complete, non-mdat box, wait */ dash_stream->isobmff_parser.current_size = 0; gst_adapter_push (dash_stream->adapter, buffer); return GST_FLOW_OK; } static gboolean gst_dash_demux_find_sync_samples (GstAdaptiveDemux * demux, GstAdaptiveDemux2Stream * stream) { GstDashDemux2 *dashdemux = (GstDashDemux2 *) stream->demux; GstDashDemux2Stream *dash_stream = (GstDashDemux2Stream *) stream; guint i; guint32 track_id = 0; guint64 prev_traf_end; gboolean trex_sample_flags = FALSE; if (!dash_stream->moof) { dashdemux->allow_trickmode_key_units = FALSE; return FALSE; } dash_stream->current_sync_sample = -1; dash_stream->moof_sync_samples = g_array_new (FALSE, FALSE, sizeof (GstDashStreamSyncSample)); prev_traf_end = dash_stream->moof_offset; /* generate table of keyframes and offsets */ for (i = 0; i < dash_stream->moof->traf->len; i++) { GstTrafBox *traf = &g_array_index (dash_stream->moof->traf, GstTrafBox, i); guint64 traf_offset = 0, prev_trun_end; guint j; if (i == 0) { track_id = traf->tfhd.track_id; } else if (track_id != traf->tfhd.track_id) { GST_ERROR_OBJECT (stream, "moof with trafs of different track ids (%u != %u)", track_id, traf->tfhd.track_id); g_array_free (dash_stream->moof_sync_samples, TRUE); dash_stream->moof_sync_samples = NULL; dashdemux->allow_trickmode_key_units = FALSE; return FALSE; } if (traf->tfhd.flags & GST_TFHD_FLAGS_BASE_DATA_OFFSET_PRESENT) { traf_offset = traf->tfhd.base_data_offset; } else if (traf->tfhd.flags & GST_TFHD_FLAGS_DEFAULT_BASE_IS_MOOF) { traf_offset = dash_stream->moof_offset; } else { traf_offset = prev_traf_end; } prev_trun_end = traf_offset; for (j = 0; j < traf->trun->len; j++) { GstTrunBox *trun = &g_array_index (traf->trun, GstTrunBox, j); guint64 trun_offset, prev_sample_end; guint k; if (trun->flags & GST_TRUN_FLAGS_DATA_OFFSET_PRESENT) { trun_offset = traf_offset + trun->data_offset; } else { trun_offset = prev_trun_end; } prev_sample_end = trun_offset; for (k = 0; k < trun->samples->len; k++) { GstTrunSample *sample = &g_array_index (trun->samples, GstTrunSample, k); guint64 sample_offset; guint32 sample_flags; #if 0 guint32 sample_duration; #endif sample_offset = prev_sample_end; if (trun->flags & GST_TRUN_FLAGS_SAMPLE_FLAGS_PRESENT) { sample_flags = sample->sample_flags; } else if ((trun->flags & GST_TRUN_FLAGS_FIRST_SAMPLE_FLAGS_PRESENT) && k == 0) { sample_flags = trun->first_sample_flags; } else if (traf->tfhd. flags & GST_TFHD_FLAGS_DEFAULT_SAMPLE_FLAGS_PRESENT) { sample_flags = traf->tfhd.default_sample_flags; } else { trex_sample_flags = TRUE; continue; } #if 0 if (trun->flags & GST_TRUN_FLAGS_SAMPLE_DURATION_PRESENT) { sample_duration = sample->sample_duration; } else if (traf->tfhd. flags & GST_TFHD_FLAGS_DEFAULT_SAMPLE_DURATION_PRESENT) { sample_duration = traf->tfhd.default_sample_duration; } else { GST_FIXME_OBJECT (stream, "Sample duration given by trex - can't download only keyframes"); g_array_free (dash_stream->moof_sync_samples, TRUE); dash_stream->moof_sync_samples = NULL; return FALSE; } #endif if (trun->flags & GST_TRUN_FLAGS_SAMPLE_SIZE_PRESENT) { prev_sample_end += sample->sample_size; } else if (traf->tfhd. flags & GST_TFHD_FLAGS_DEFAULT_SAMPLE_SIZE_PRESENT) { prev_sample_end += traf->tfhd.default_sample_size; } else { GST_FIXME_OBJECT (stream, "Sample size given by trex - can't download only keyframes"); g_array_free (dash_stream->moof_sync_samples, TRUE); dash_stream->moof_sync_samples = NULL; dashdemux->allow_trickmode_key_units = FALSE; return FALSE; } /* Non-non-sync sample aka sync sample */ if (!GST_ISOFF_SAMPLE_FLAGS_SAMPLE_IS_NON_SYNC_SAMPLE (sample_flags) || GST_ISOFF_SAMPLE_FLAGS_SAMPLE_DEPENDS_ON (sample_flags) == 2) { GstDashStreamSyncSample sync_sample = { sample_offset, prev_sample_end - 1 }; /* TODO: need timestamps so we can decide to download or not */ g_array_append_val (dash_stream->moof_sync_samples, sync_sample); } } prev_trun_end = prev_sample_end; } prev_traf_end = prev_trun_end; } if (trex_sample_flags) { if (dash_stream->moof_sync_samples->len > 0) { GST_LOG_OBJECT (stream, "Some sample flags given by trex but still found sync samples"); } else { GST_FIXME_OBJECT (stream, "Sample flags given by trex - can't download only keyframes"); g_array_free (dash_stream->moof_sync_samples, TRUE); dash_stream->moof_sync_samples = NULL; dashdemux->allow_trickmode_key_units = FALSE; return FALSE; } } if (dash_stream->moof_sync_samples->len == 0) { GST_LOG_OBJECT (stream, "No sync samples found in fragment"); g_array_free (dash_stream->moof_sync_samples, TRUE); dash_stream->moof_sync_samples = NULL; dashdemux->allow_trickmode_key_units = FALSE; return FALSE; } { GstDashStreamSyncSample *sync_sample; guint i; guint size; GstClockTime current_keyframe_distance; for (i = 0; i < dash_stream->moof_sync_samples->len; i++) { sync_sample = &g_array_index (dash_stream->moof_sync_samples, GstDashStreamSyncSample, i); size = sync_sample->end_offset + 1 - sync_sample->start_offset; if (dash_stream->keyframe_average_size) { /* Over-estimate the keyframe size */ if (dash_stream->keyframe_average_size < size) dash_stream->keyframe_average_size = (size * 3 + dash_stream->keyframe_average_size) / 4; else dash_stream->keyframe_average_size = (size + dash_stream->keyframe_average_size * 3) / 4; } else { dash_stream->keyframe_average_size = size; } if (i == 0) { if (dash_stream->moof_offset + dash_stream->moof_size + 8 < sync_sample->start_offset) { dash_stream->first_sync_sample_after_moof = FALSE; dash_stream->first_sync_sample_always_after_moof = FALSE; } else { dash_stream->first_sync_sample_after_moof = (dash_stream->moof_sync_samples->len == 1 || demux->segment.rate > 0.0); } } } g_assert (stream->fragment.duration != 0); g_assert (stream->fragment.duration != GST_CLOCK_TIME_NONE); if (gst_mpd_client2_has_isoff_ondemand_profile (dashdemux->client) && dash_stream->sidx_position != GST_CLOCK_TIME_NONE && SIDX (dash_stream)->entries) { GstSidxBoxEntry *entry = SIDX_CURRENT_ENTRY (dash_stream); current_keyframe_distance = entry->duration / dash_stream->moof_sync_samples->len; } else { current_keyframe_distance = stream->fragment.duration / dash_stream->moof_sync_samples->len; } dash_stream->current_fragment_keyframe_distance = current_keyframe_distance; if (dash_stream->keyframe_average_distance) { /* Under-estimate the keyframe distance */ if (dash_stream->keyframe_average_distance > current_keyframe_distance) dash_stream->keyframe_average_distance = (dash_stream->keyframe_average_distance * 3 + current_keyframe_distance) / 4; else dash_stream->keyframe_average_distance = (dash_stream->keyframe_average_distance + current_keyframe_distance * 3) / 4; } else { dash_stream->keyframe_average_distance = current_keyframe_distance; } GST_DEBUG_OBJECT (stream, "average keyframe sample size: %" G_GUINT64_FORMAT, dash_stream->keyframe_average_size); GST_DEBUG_OBJECT (stream, "average keyframe distance: %" GST_TIME_FORMAT " (%" GST_TIME_FORMAT ")", GST_TIME_ARGS (dash_stream->keyframe_average_distance), GST_TIME_ARGS (current_keyframe_distance)); GST_DEBUG_OBJECT (stream, "first sync sample after moof: %d", dash_stream->first_sync_sample_after_moof); } return TRUE; } static GstFlowReturn gst_dash_demux_stream_handle_isobmff (GstAdaptiveDemux2Stream * stream) { GstAdaptiveDemux *demux = stream->demux; GstDashDemux2Stream *dash_stream = (GstDashDemux2Stream *) stream; GstFlowReturn ret = GST_FLOW_OK; GstBuffer *buffer; gboolean sidx_advance = FALSE; /* We parse all ISOBMFF boxes of a (sub)fragment until the mdat. This covers * at least moov, moof and sidx boxes. Once mdat is received we just output * everything until the next (sub)fragment */ if (dash_stream->isobmff_parser.current_fourcc != GST_ISOFF_FOURCC_MDAT) { gboolean sidx_seek_needed = FALSE; ret = gst_dash_demux_parse_isobmff (demux, dash_stream, &sidx_seek_needed); if (ret != GST_FLOW_OK) return ret; /* Go to selected segment if needed here */ if (sidx_seek_needed && !stream->downloading_index) return GST_ADAPTIVE_DEMUX_FLOW_END_OF_FRAGMENT; /* No mdat yet, let's get called again with the next boxes */ if (dash_stream->isobmff_parser.current_fourcc != GST_ISOFF_FOURCC_MDAT) return ret; /* Here we end up only if we're right at the mdat start */ /* Jump to the next sync sample. As we're doing chunked downloading * here, just drop data until our chunk is over so we can reuse the * HTTP connection instead of having to create a new one or * reuse the data if the sync sample follows the moof */ if (dash_stream->active_stream->mimeType == GST_STREAM_VIDEO && gst_dash_demux_find_sync_samples (demux, stream) && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (stream->demux)) { guint idx = -1; gboolean playing_forward = (demux->segment.rate > 0.0); if (GST_CLOCK_TIME_IS_VALID (dash_stream->target_time)) { idx = (dash_stream->target_time - dash_stream->current_fragment_timestamp) / dash_stream->current_fragment_keyframe_distance; } else if (playing_forward) { idx = 0; } GST_DEBUG_OBJECT (stream, "target %" GST_TIME_FORMAT " idx %d", GST_TIME_ARGS (dash_stream->target_time), idx); /* Figure out target time */ if (dash_stream->first_sync_sample_after_moof && idx == 0) { /* If we're here, don't throw away data but collect sync * sample while we're at it below. We're doing chunked * downloading so might need to adjust the next chunk size for * the remainder */ dash_stream->current_sync_sample = 0; GST_DEBUG_OBJECT (stream, "Using first keyframe after header"); } } if (gst_adapter_available (dash_stream->adapter) == 0) return ret; /* We have some data from the mdat available in the adapter, handle it * below in the push code */ } else { /* Somewhere in the middle of the mdat */ } /* At mdat */ if (dash_stream->sidx_parser.status == GST_ISOFF_SIDX_PARSER_FINISHED) { guint64 sidx_end_offset = dash_stream->sidx_base_offset + SIDX_CURRENT_ENTRY (dash_stream)->offset + SIDX_CURRENT_ENTRY (dash_stream)->size; gboolean has_next = gst_dash_demux_stream_has_next_subfragment (stream); gsize available; /* Need to handle everything in the adapter according to the parsed SIDX * and advance subsegments accordingly */ available = gst_adapter_available (dash_stream->adapter); if (dash_stream->current_offset + available < sidx_end_offset) { buffer = gst_adapter_take_buffer (dash_stream->adapter, available); } else if (!has_next && sidx_end_offset <= dash_stream->current_offset) { /* Drain all bytes, since there might be trailing bytes at the end of subfragment */ buffer = gst_adapter_take_buffer (dash_stream->adapter, available); } else if (sidx_end_offset <= dash_stream->current_offset) { /* This means a corrupted stream or a bug: ignoring bugs, it * should only happen if the SIDX index is corrupt */ GST_ERROR_OBJECT (stream, "Invalid SIDX state. " " sidx_end_offset %" G_GUINT64_FORMAT " current offset %" G_GUINT64_FORMAT, sidx_end_offset, dash_stream->current_offset); gst_adapter_clear (dash_stream->adapter); return GST_FLOW_ERROR; } else { buffer = gst_adapter_take_buffer (dash_stream->adapter, sidx_end_offset - dash_stream->current_offset); sidx_advance = TRUE; } } else { /* Take it all and handle it further below */ buffer = gst_adapter_take_buffer (dash_stream->adapter, gst_adapter_available (dash_stream->adapter)); /* Attention: All code paths below need to update dash_stream->current_offset */ } /* We're actually running in key-units trick mode */ if (dash_stream->active_stream->mimeType == GST_STREAM_VIDEO && dash_stream->moof_sync_samples && GST_ADAPTIVE_DEMUX_IN_TRICKMODE_KEY_UNITS (stream->demux)) { if (dash_stream->current_sync_sample == -1) { /* We're doing chunked downloading and wait for finishing the current * chunk so we can jump to the first keyframe */ dash_stream->current_offset += gst_buffer_get_size (buffer); gst_buffer_unref (buffer); return GST_FLOW_OK; } else { GstDashStreamSyncSample *sync_sample = &g_array_index (dash_stream->moof_sync_samples, GstDashStreamSyncSample, dash_stream->current_sync_sample); guint64 end_offset = dash_stream->current_offset + gst_buffer_get_size (buffer); /* Make sure to not download too much, this should only happen for * the very first keyframe if it follows the moof */ if (dash_stream->current_offset >= sync_sample->end_offset + 1) { dash_stream->current_offset += gst_buffer_get_size (buffer); gst_buffer_unref (buffer); return GST_FLOW_OK; } else if (end_offset > sync_sample->end_offset + 1) { guint64 remaining = sync_sample->end_offset + 1 - dash_stream->current_offset; GstBuffer *sub = gst_buffer_copy_region (buffer, GST_BUFFER_COPY_ALL, 0, remaining); gst_buffer_unref (buffer); buffer = sub; } } } GST_BUFFER_OFFSET (buffer) = dash_stream->current_offset; dash_stream->current_offset += gst_buffer_get_size (buffer); GST_BUFFER_OFFSET_END (buffer) = dash_stream->current_offset; ret = gst_adaptive_demux2_stream_push_buffer (stream, buffer); if (ret != GST_FLOW_OK) return ret; if (sidx_advance) { ret = gst_adaptive_demux2_stream_advance_fragment (stream, SIDX_CURRENT_ENTRY (dash_stream)->duration); if (ret != GST_FLOW_OK) return ret; /* If we still have data available, recurse and use it up if possible */ if (gst_adapter_available (dash_stream->adapter) > 0) return gst_dash_demux_stream_handle_isobmff (stream); } return ret; } static GstFlowReturn gst_dash_demux_stream_data_received (GstAdaptiveDemux2Stream * stream, GstBuffer * buffer) { GstDashDemux2Stream *dash_stream = (GstDashDemux2Stream *) stream; GstFlowReturn ret = GST_FLOW_OK; guint index_header_or_data; if (stream->downloading_index) index_header_or_data = 1; else if (stream->downloading_header) index_header_or_data = 2; else index_header_or_data = 3; if (dash_stream->current_index_header_or_data != index_header_or_data) { /* Clear pending data */ if (gst_adapter_available (dash_stream->adapter) != 0) GST_ERROR_OBJECT (stream, "Had pending SIDX data after switch between index/header/data"); gst_adapter_clear (dash_stream->adapter); dash_stream->current_index_header_or_data = index_header_or_data; dash_stream->current_offset = -1; } if (dash_stream->current_offset == -1) dash_stream->current_offset = GST_BUFFER_OFFSET_IS_VALID (buffer) ? GST_BUFFER_OFFSET (buffer) : 0; gst_adapter_push (dash_stream->adapter, buffer); buffer = NULL; if (dash_stream->is_isobmff || stream->downloading_index) { /* SIDX index is also ISOBMMF */ ret = gst_dash_demux_stream_handle_isobmff (stream); } else if (dash_stream->sidx_parser.status == GST_ISOFF_SIDX_PARSER_FINISHED) { gsize available; /* Not ISOBMFF but had a SIDX index. Does this even exist or work? */ while (ret == GST_FLOW_OK && ((available = gst_adapter_available (dash_stream->adapter)) > 0)) { gboolean advance = FALSE; guint64 sidx_end_offset = dash_stream->sidx_base_offset + SIDX_CURRENT_ENTRY (dash_stream)->offset + SIDX_CURRENT_ENTRY (dash_stream)->size; gboolean has_next = gst_dash_demux_stream_has_next_subfragment (stream); if (dash_stream->current_offset + available < sidx_end_offset) { buffer = gst_adapter_take_buffer (dash_stream->adapter, available); } else { if (!has_next && sidx_end_offset <= dash_stream->current_offset) { /* Drain all bytes, since there might be trailing bytes at the end of subfragment */ buffer = gst_adapter_take_buffer (dash_stream->adapter, available); } else { if (sidx_end_offset <= dash_stream->current_offset) { /* This means a corrupted stream or a bug: ignoring bugs, it * should only happen if the SIDX index is corrupt */ GST_ERROR_OBJECT (stream, "Invalid SIDX state"); gst_adapter_clear (dash_stream->adapter); ret = GST_FLOW_ERROR; break; } else { buffer = gst_adapter_take_buffer (dash_stream->adapter, sidx_end_offset - dash_stream->current_offset); advance = TRUE; } } } GST_BUFFER_OFFSET (buffer) = dash_stream->current_offset; GST_BUFFER_OFFSET_END (buffer) = GST_BUFFER_OFFSET (buffer) + gst_buffer_get_size (buffer); dash_stream->current_offset = GST_BUFFER_OFFSET_END (buffer); ret = gst_adaptive_demux2_stream_push_buffer (stream, buffer); if (advance) { if (has_next) { GstFlowReturn new_ret; new_ret = gst_adaptive_demux2_stream_advance_fragment (stream, SIDX_CURRENT_ENTRY (dash_stream)->duration); /* only overwrite if it was OK before */ if (ret == GST_FLOW_OK) ret = new_ret; } else { break; } } } } else { /* this should be the main header, just push it all */ buffer = gst_adapter_take_buffer (dash_stream->adapter, gst_adapter_available (dash_stream->adapter)); GST_BUFFER_OFFSET (buffer) = dash_stream->current_offset; GST_BUFFER_OFFSET_END (buffer) = GST_BUFFER_OFFSET (buffer) + gst_buffer_get_size (buffer); dash_stream->current_offset = GST_BUFFER_OFFSET_END (buffer); ret = gst_adaptive_demux2_stream_push_buffer (stream, buffer); } return ret; } static GstDashDemux2ClockDrift * gst_dash_demux_clock_drift_new (GstDashDemux2 * demux) { GstDashDemux2ClockDrift *clock_drift; clock_drift = g_slice_new0 (GstDashDemux2ClockDrift); g_mutex_init (&clock_drift->clock_lock); clock_drift->next_update = GST_TIME_AS_USECONDS (gst_adaptive_demux2_get_monotonic_time (GST_ADAPTIVE_DEMUX_CAST (demux))); return clock_drift; } static void gst_dash_demux_clock_drift_free (GstDashDemux2ClockDrift * clock_drift) { if (clock_drift) { g_mutex_lock (&clock_drift->clock_lock); if (clock_drift->ntp_clock) g_object_unref (clock_drift->ntp_clock); g_mutex_unlock (&clock_drift->clock_lock); g_mutex_clear (&clock_drift->clock_lock); g_slice_free (GstDashDemux2ClockDrift, clock_drift); } } /* * The value attribute of the UTCTiming element contains a white-space * separated list of servers that are recommended to be used in * combination with the NTP protocol as defined in IETF RFC 5905 for * getting the appropriate time. * * The DASH standard does not specify which version of NTP. This * function only works with NTPv4 servers. */ static GstDateTime * gst_dash_demux_poll_ntp_server (GstDashDemux2ClockDrift * clock_drift, gchar ** urls) { GstClockTime ntp_clock_time; GDateTime *dt, *dt2; if (!clock_drift->ntp_clock) { GResolver *resolver; GList *inet_addrs; GError *err = NULL; gchar *ip_addr; resolver = g_resolver_get_default (); /* We don't round-robin NTP servers. If the manifest specifies multiple NTP time servers, select one at random */ clock_drift->selected_url = g_random_int_range (0, g_strv_length (urls)); GST_DEBUG ("Connecting to NTP time server %s", urls[clock_drift->selected_url]); inet_addrs = g_resolver_lookup_by_name (resolver, urls[clock_drift->selected_url], NULL, &err); g_object_unref (resolver); if (!inet_addrs || g_list_length (inet_addrs) == 0) { GST_ERROR ("Failed to resolve hostname of NTP server: %s", err ? (err->message) : "unknown error"); if (inet_addrs) g_resolver_free_addresses (inet_addrs); if (err) g_error_free (err); return NULL; } ip_addr = g_inet_address_to_string ((GInetAddress *) (g_list_first (inet_addrs)->data)); clock_drift->ntp_clock = gst_ntp_clock_new ("dashntp", ip_addr, 123, 0); g_free (ip_addr); g_resolver_free_addresses (inet_addrs); if (!clock_drift->ntp_clock) { GST_ERROR ("Failed to create NTP clock"); return NULL; } /* FIXME: Don't block and wait, trigger an update when the clock syncs up, * or just wait and check later */ if (!gst_clock_wait_for_sync (clock_drift->ntp_clock, 5 * GST_SECOND)) { g_object_unref (clock_drift->ntp_clock); clock_drift->ntp_clock = NULL; GST_ERROR ("Failed to lock to NTP clock"); return NULL; } } ntp_clock_time = gst_clock_get_time (clock_drift->ntp_clock); if (ntp_clock_time == GST_CLOCK_TIME_NONE) { GST_ERROR ("Failed to get time from NTP clock"); return NULL; } ntp_clock_time -= NTP_TO_UNIX_EPOCH * GST_SECOND; dt = g_date_time_new_from_unix_utc (ntp_clock_time / GST_SECOND); if (!dt) { GST_ERROR ("Failed to create GstDateTime"); return NULL; } ntp_clock_time = gst_util_uint64_scale (ntp_clock_time % GST_SECOND, 1000000, GST_SECOND); dt2 = g_date_time_add (dt, ntp_clock_time); g_date_time_unref (dt); return gst_date_time_new_from_g_date_time (dt2); } static GstDateTime * gst_dash_demux_parse_http_head (GstDashDemux2ClockDrift * clock_drift, DownloadRequest * download) { const GstStructure *response_headers; const gchar *http_date; const GValue *val; g_return_val_if_fail (download != NULL, NULL); g_return_val_if_fail (download->headers != NULL, NULL); val = gst_structure_get_value (download->headers, "response-headers"); if (!val) { return NULL; } response_headers = gst_value_get_structure (val); http_date = gst_structure_get_string (response_headers, "Date"); if (!http_date) { return NULL; } return gst_adaptive_demux_util_parse_http_head_date (http_date); } /* The timing information is contained in the message body of the HTTP response and contains a time value formatted according to NTP timestamp format in IETF RFC 5905. 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Seconds | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Fraction | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ NTP Timestamp Format */ static GstDateTime * gst_dash_demux_parse_http_ntp (GstDashDemux2ClockDrift * clock_drift, GstBuffer * buffer) { gint64 seconds; guint64 fraction; GDateTime *dt, *dt2; GstMapInfo mapinfo; /* See https://tools.ietf.org/html/rfc5905#page-12 for details of the NTP Timestamp Format */ gst_buffer_map (buffer, &mapinfo, GST_MAP_READ); if (mapinfo.size != 8) { gst_buffer_unmap (buffer, &mapinfo); return NULL; } seconds = GST_READ_UINT32_BE (mapinfo.data); fraction = GST_READ_UINT32_BE (mapinfo.data + 4); gst_buffer_unmap (buffer, &mapinfo); fraction = gst_util_uint64_scale (fraction, 1000000, G_GUINT64_CONSTANT (1) << 32); /* subtract constant to convert from 1900 based time to 1970 based time */ seconds -= NTP_TO_UNIX_EPOCH; dt = g_date_time_new_from_unix_utc (seconds); dt2 = g_date_time_add (dt, fraction); g_date_time_unref (dt); return gst_date_time_new_from_g_date_time (dt2); } /* The timing information is contained in the message body of the HTTP response and contains a time value formatted according to xs:dateTime as defined in W3C XML Schema Part 2: Datatypes specification. */ static GstDateTime * gst_dash_demux_parse_http_xsdate (GstDashDemux2ClockDrift * clock_drift, GstBuffer * buffer) { GstDateTime *value = NULL; GstMapInfo mapinfo; /* the string from the server might not be zero terminated */ if (gst_buffer_map (buffer, &mapinfo, GST_MAP_READ)) { gchar *str; str = g_strndup ((const gchar *) mapinfo.data, mapinfo.size); gst_buffer_unmap (buffer, &mapinfo); value = gst_date_time_new_from_iso8601_string (str); g_free (str); } return value; } static void handle_poll_clock_download_failure (DownloadRequest * request, DownloadRequestState state, GstDashDemux2 * demux) { GstAdaptiveDemux *ademux = GST_ADAPTIVE_DEMUX_CAST (demux); GstDashDemux2ClockDrift *clock_drift = demux->clock_drift; gint64 now = GST_TIME_AS_USECONDS (gst_adaptive_demux2_get_monotonic_time (ademux)); GST_ERROR_OBJECT (demux, "Failed to receive DateTime from server"); clock_drift->next_update = now + FAST_CLOCK_UPDATE_INTERVAL; } static void handle_poll_clock_download_complete (DownloadRequest * request, DownloadRequestState state, GstDashDemux2 * demux) { GstAdaptiveDemux *ademux = GST_ADAPTIVE_DEMUX_CAST (demux); GstDashDemux2ClockDrift *clock_drift = demux->clock_drift; GDateTime *now_utc = gst_adaptive_demux2_get_client_now_utc (ademux); gint64 now_us = GST_TIME_AS_USECONDS (gst_adaptive_demux2_get_monotonic_time (ademux)); GstClockTimeDiff download_duration; GTimeSpan download_offset; GDateTime *client_now, *server_now; GstDateTime *value = NULL; GstBuffer *buffer = NULL; if (request->headers) value = gst_dash_demux_parse_http_head (clock_drift, request); if (value == NULL) { buffer = download_request_take_buffer (request); if (clock_drift->method == GST_MPD_UTCTIMING_TYPE_HTTP_NTP) { value = gst_dash_demux_parse_http_ntp (clock_drift, buffer); } else { /* GST_MPD_UTCTIMING_TYPE_HTTP_XSDATE or GST_MPD_UTCTIMING_TYPE_HTTP_ISO */ value = gst_dash_demux_parse_http_xsdate (clock_drift, buffer); } } if (buffer) gst_buffer_unref (buffer); if (!value) goto fail; server_now = gst_date_time_to_g_date_time (value); gst_date_time_unref (value); /* If gst_date_time_new_from_iso8601_string is given an unsupported ISO 8601 format, it can return a GstDateTime that is not valid, which causes gst_date_time_to_g_date_time to return NULL */ if (!server_now) goto fail; /* We don't know when the server sampled its clock, but a reasonable * estimate is midway between the download request and the result */ download_duration = GST_CLOCK_DIFF (request->download_start_time, request->download_end_time); download_offset = G_TIME_SPAN_MILLISECOND * GST_TIME_AS_MSECONDS (-download_duration / 2); client_now = g_date_time_add (now_utc, download_offset); g_mutex_lock (&clock_drift->clock_lock); clock_drift->clock_compensation = g_date_time_difference (server_now, client_now); g_mutex_unlock (&clock_drift->clock_lock); GST_DEBUG_OBJECT (demux, "Difference between client and server clocks is %lfs", ((double) clock_drift->clock_compensation) / 1000000.0); g_date_time_unref (server_now); g_date_time_unref (client_now); g_date_time_unref (now_utc); clock_drift->next_update = now_us + SLOW_CLOCK_UPDATE_INTERVAL; return; fail: GST_ERROR_OBJECT (demux, "Failed to parse DateTime from server"); clock_drift->next_update = now_us + FAST_CLOCK_UPDATE_INTERVAL; g_date_time_unref (now_utc); } static void gst_dash_demux_poll_clock_drift (GstDashDemux2 * demux) { GstAdaptiveDemux *ademux = GST_ADAPTIVE_DEMUX_CAST (demux); GstDashDemux2ClockDrift *clock_drift; GstDateTime *value = NULL; gint64 now; GstMPDUTCTimingType method; gchar **urls; g_return_if_fail (demux != NULL); g_return_if_fail (demux->clock_drift != NULL); clock_drift = demux->clock_drift; now = GST_TIME_AS_USECONDS (gst_adaptive_demux2_get_monotonic_time (ademux)); if (now < clock_drift->next_update) { /*TODO: If a fragment fails to download in adaptivedemux, it waits for a manifest reload before another attempt to fetch a fragment. Section 10.8.6 of the DVB-DASH standard states that the DASH client shall refresh the manifest and resynchronise to one of the time sources. Currently the fact that the manifest refresh follows a download failure does not make it into dashdemux. */ return; } urls = gst_mpd_client2_get_utc_timing_sources (demux->client, SUPPORTED_CLOCK_FORMATS, &method); if (!urls) return; g_mutex_lock (&clock_drift->clock_lock); /* Update selected_url just in case the number of URLs in the UTCTiming element has shrunk since the last poll */ clock_drift->selected_url = clock_drift->selected_url % g_strv_length (urls); clock_drift->method = method; if (method == GST_MPD_UTCTIMING_TYPE_NTP) { GDateTime *client_now = NULL, *server_now = NULL; value = gst_dash_demux_poll_ntp_server (clock_drift, urls); if (value) { server_now = gst_date_time_to_g_date_time (value); gst_date_time_unref (value); } clock_drift->next_update = now + FAST_CLOCK_UPDATE_INTERVAL; if (server_now == NULL) { GST_ERROR_OBJECT (demux, "Failed to fetch time from NTP server %s", urls[clock_drift->selected_url]); g_mutex_unlock (&clock_drift->clock_lock); return; } client_now = gst_adaptive_demux2_get_client_now_utc (ademux); clock_drift->clock_compensation = g_date_time_difference (server_now, client_now); g_date_time_unref (server_now); g_date_time_unref (client_now); } if (!value) { DownloadRequest *request; DownloadFlags dl_flags = DOWNLOAD_FLAG_COMPRESS | DOWNLOAD_FLAG_FORCE_REFRESH; GST_DEBUG_OBJECT (demux, "Fetching current time from %s", urls[clock_drift->selected_url]); if (method == GST_MPD_UTCTIMING_TYPE_HTTP_HEAD) dl_flags |= DOWNLOAD_FLAG_HEADERS_ONLY; request = download_request_new_uri (urls[clock_drift->selected_url]); download_request_set_callbacks (request, (DownloadRequestEventCallback) handle_poll_clock_download_complete, (DownloadRequestEventCallback) handle_poll_clock_download_failure, NULL, NULL, demux); if (!downloadhelper_submit_request (ademux->download_helper, NULL, dl_flags, request, NULL)) clock_drift->next_update = now + FAST_CLOCK_UPDATE_INTERVAL; download_request_unref (request); } /* if multiple URLs were specified, use a simple round-robin to poll each server */ clock_drift->selected_url = (1 + clock_drift->selected_url) % g_strv_length (urls); g_mutex_unlock (&clock_drift->clock_lock); } static GTimeSpan gst_dash_demux_get_clock_compensation (GstDashDemux2 * demux) { GTimeSpan rv = 0; if (demux->clock_drift) { g_mutex_lock (&demux->clock_drift->clock_lock); rv = demux->clock_drift->clock_compensation; g_mutex_unlock (&demux->clock_drift->clock_lock); } GST_LOG_OBJECT (demux, "Clock drift %" GST_STIME_FORMAT, GST_STIME_ARGS (rv * GST_USECOND)); return rv; } static GDateTime * gst_dash_demux_get_server_now_utc (GstDashDemux2 * demux) { GDateTime *client_now; GDateTime *server_now; client_now = gst_adaptive_demux2_get_client_now_utc (GST_ADAPTIVE_DEMUX_CAST (demux)); server_now = g_date_time_add (client_now, gst_dash_demux_get_clock_compensation (demux)); g_date_time_unref (client_now); return server_now; } static gboolean dashdemux2_element_init (GstPlugin * plugin) { gboolean ret = TRUE; GST_DEBUG_CATEGORY_INIT (gst_dash_demux2_debug, "dashdemux2", 0, "dashdemux2 element"); if (!adaptivedemux2_base_element_init (plugin)) return TRUE; ret = gst_element_register (plugin, "dashdemux2", GST_RANK_PRIMARY + 1, GST_TYPE_DASH_DEMUX2); return ret; }