gstreamer/subprojects/gst-plugins-good/ext/adaptivedemux2/gstadaptivedemuxutils.c

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/* GStreamer
*
* Copyright (C) 2014 Samsung Electronics. All rights reserved.
* Author: Thiago Santos <thiagoss@osg.samsung.com>
* Copyright (C) 2021-2022 Jan Schmidt <jan@centricular.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdio.h>
#include <gst/gst.h>
#include <gst/pbutils/pbutils.h>
#include "gstadaptivedemuxutils.h"
GST_DEBUG_CATEGORY_EXTERN (adaptivedemux2_debug);
#define GST_CAT_DEFAULT adaptivedemux2_debug
struct _GstAdaptiveDemuxClock
{
gint ref_count;
GstClock *gst_clock;
GstClockTimeDiff clock_offset; /* offset between realtime_clock and UTC */
};
struct _GstAdaptiveDemuxLoop
{
gint ref_count;
GCond cond;
GMutex lock;
GRecMutex context_lock;
GThread *thread;
GMainLoop *loop;
GMainContext *context;
gboolean stopped;
gboolean paused;
};
GstAdaptiveDemuxClock *
gst_adaptive_demux_clock_new (void)
{
GstAdaptiveDemuxClock *clock = g_new0 (GstAdaptiveDemuxClock, 1);
GstClockType clock_type = GST_CLOCK_TYPE_OTHER;
GObjectClass *gobject_class;
g_atomic_int_set (&clock->ref_count, 1);
clock->gst_clock = gst_system_clock_obtain ();
g_assert (clock->gst_clock != NULL);
gobject_class = G_OBJECT_GET_CLASS (clock->gst_clock);
if (g_object_class_find_property (gobject_class, "clock-type")) {
g_object_get (clock->gst_clock, "clock-type", &clock_type, NULL);
} else {
GST_WARNING ("System clock does not have clock-type property");
}
if (clock_type == GST_CLOCK_TYPE_REALTIME) {
clock->clock_offset = 0;
} else {
GDateTime *utc_now;
utc_now = g_date_time_new_now_utc ();
gst_adaptive_demux_clock_set_utc_time (clock, utc_now);
g_date_time_unref (utc_now);
}
return clock;
}
GstAdaptiveDemuxClock *
gst_adaptive_demux_clock_ref (GstAdaptiveDemuxClock * clock)
{
g_return_val_if_fail (clock != NULL, NULL);
g_atomic_int_inc (&clock->ref_count);
return clock;
}
void
gst_adaptive_demux_clock_unref (GstAdaptiveDemuxClock * clock)
{
g_return_if_fail (clock != NULL);
if (g_atomic_int_dec_and_test (&clock->ref_count)) {
gst_object_unref (clock->gst_clock);
g_free (clock);
}
}
GstClockTime
gst_adaptive_demux_clock_get_time (GstAdaptiveDemuxClock * clock)
{
g_return_val_if_fail (clock != NULL, GST_CLOCK_TIME_NONE);
return gst_clock_get_time (clock->gst_clock);
}
GDateTime *
gst_adaptive_demux_clock_get_now_utc (GstAdaptiveDemuxClock * clock)
{
GstClockTime rtc_now;
GDateTime *unix_datetime;
GDateTime *result_datetime;
gint64 utc_now_in_us;
rtc_now = gst_clock_get_time (clock->gst_clock);
utc_now_in_us = clock->clock_offset + GST_TIME_AS_USECONDS (rtc_now);
unix_datetime =
g_date_time_new_from_unix_utc (utc_now_in_us / G_TIME_SPAN_SECOND);
result_datetime =
g_date_time_add (unix_datetime, utc_now_in_us % G_TIME_SPAN_SECOND);
g_date_time_unref (unix_datetime);
return result_datetime;
}
void
gst_adaptive_demux_clock_set_utc_time (GstAdaptiveDemuxClock * clock,
GDateTime * utc_now)
{
GstClockTime rtc_now = gst_clock_get_time (clock->gst_clock);
GstClockTimeDiff clock_offset;
clock_offset =
g_date_time_to_unix (utc_now) * G_TIME_SPAN_SECOND +
g_date_time_get_microsecond (utc_now) - GST_TIME_AS_USECONDS (rtc_now);
GST_INFO ("Changing UTC clock offset to %" GST_STIME_FORMAT
" was %" GST_STIME_FORMAT, GST_STIME_ARGS (clock_offset),
GST_STIME_ARGS (clock->clock_offset));
clock->clock_offset = clock_offset;
}
GstAdaptiveDemuxLoop *
gst_adaptive_demux_loop_new (void)
{
GstAdaptiveDemuxLoop *loop = g_new0 (GstAdaptiveDemuxLoop, 1);
g_atomic_int_set (&loop->ref_count, 1);
g_mutex_init (&loop->lock);
g_rec_mutex_init (&loop->context_lock);
g_cond_init (&loop->cond);
loop->stopped = TRUE;
loop->paused = FALSE;
return loop;
}
GstAdaptiveDemuxLoop *
gst_adaptive_demux_loop_ref (GstAdaptiveDemuxLoop * loop)
{
g_return_val_if_fail (loop != NULL, NULL);
g_atomic_int_inc (&loop->ref_count);
return loop;
}
void
gst_adaptive_demux_loop_unref (GstAdaptiveDemuxLoop * loop)
{
g_return_if_fail (loop != NULL);
if (g_atomic_int_dec_and_test (&loop->ref_count)) {
gst_adaptive_demux_loop_stop (loop, TRUE);
g_mutex_clear (&loop->lock);
g_rec_mutex_clear (&loop->context_lock);
g_cond_clear (&loop->cond);
g_free (loop);
}
}
static gpointer
_gst_adaptive_demux_loop_thread (GstAdaptiveDemuxLoop * loop)
{
g_mutex_lock (&loop->lock);
loop->loop = g_main_loop_new (loop->context, FALSE);
while (!loop->stopped) {
g_mutex_unlock (&loop->lock);
g_rec_mutex_lock (&loop->context_lock);
g_main_context_push_thread_default (loop->context);
g_main_loop_run (loop->loop);
g_main_context_pop_thread_default (loop->context);
g_rec_mutex_unlock (&loop->context_lock);
g_mutex_lock (&loop->lock);
while (loop->paused)
g_cond_wait (&loop->cond, &loop->lock);
}
g_main_loop_unref (loop->loop);
loop->loop = NULL;
g_cond_broadcast (&loop->cond);
g_main_context_unref (loop->context);
loop->context = NULL;
g_mutex_unlock (&loop->lock);
gst_adaptive_demux_loop_unref (loop);
return NULL;
}
void
gst_adaptive_demux_loop_start (GstAdaptiveDemuxLoop * loop)
{
g_mutex_lock (&loop->lock);
if (loop->thread != NULL)
goto done; /* Already running */
loop->stopped = FALSE;
loop->context = g_main_context_new ();
loop->thread =
g_thread_new ("AdaptiveDemux",
(GThreadFunc) _gst_adaptive_demux_loop_thread,
gst_adaptive_demux_loop_ref (loop));
done:
g_mutex_unlock (&loop->lock);
}
static gboolean
do_quit_cb (GstAdaptiveDemuxLoop * loop)
{
g_main_loop_quit (loop->loop);
return G_SOURCE_REMOVE;
}
void
gst_adaptive_demux_loop_stop (GstAdaptiveDemuxLoop * loop, gboolean wait)
{
g_mutex_lock (&loop->lock);
if (!loop->stopped) {
loop->stopped = TRUE;
GSource *s = g_idle_source_new ();
g_source_set_callback (s, (GSourceFunc) do_quit_cb,
gst_adaptive_demux_loop_ref (loop),
(GDestroyNotify) gst_adaptive_demux_loop_unref);
g_source_attach (s, loop->context);
g_source_unref (s);
if (wait) {
while (loop->loop != NULL)
g_cond_wait (&loop->cond, &loop->lock);
}
if (loop->thread != NULL) {
g_thread_unref (loop->thread);
loop->thread = NULL;
}
}
g_mutex_unlock (&loop->lock);
}
gboolean
gst_adaptive_demux_loop_pause_and_lock (GstAdaptiveDemuxLoop * loop)
{
/* Try and acquire the context lock directly. This will succeed
* if called when the loop is not running, and we can avoid
* adding an unnecessary extra idle source to quit the loop. */
if (!g_rec_mutex_trylock (&loop->context_lock)) {
g_mutex_lock (&loop->lock);
if (loop->stopped) {
g_mutex_unlock (&loop->lock);
return FALSE;
}
loop->paused = TRUE;
{
GSource *s = g_idle_source_new ();
g_source_set_callback (s, (GSourceFunc) do_quit_cb,
gst_adaptive_demux_loop_ref (loop),
(GDestroyNotify) gst_adaptive_demux_loop_unref);
g_source_attach (s, loop->context);
g_source_unref (s);
}
g_mutex_unlock (&loop->lock);
g_rec_mutex_lock (&loop->context_lock);
}
g_main_context_push_thread_default (loop->context);
return TRUE;
}
gboolean
gst_adaptive_demux_loop_unlock_and_unpause (GstAdaptiveDemuxLoop * loop)
{
gboolean stopped;
g_main_context_pop_thread_default (loop->context);
g_rec_mutex_unlock (&loop->context_lock);
g_mutex_lock (&loop->lock);
loop->paused = FALSE;
stopped = loop->stopped;
/* Wake up the loop to run again, regardless of stopped state */
g_cond_broadcast (&loop->cond);
g_mutex_unlock (&loop->lock);
if (stopped)
return FALSE;
return TRUE;
}
guint
gst_adaptive_demux_loop_call (GstAdaptiveDemuxLoop * loop, GSourceFunc func,
gpointer data, GDestroyNotify notify)
{
guint ret = 0;
g_mutex_lock (&loop->lock);
if (loop->context) {
GSource *s = g_idle_source_new ();
g_source_set_callback (s, func, data, notify);
ret = g_source_attach (s, loop->context);
g_source_unref (s);
} else if (notify != NULL) {
notify (data);
}
g_mutex_unlock (&loop->lock);
return ret;
}
guint
gst_adaptive_demux_loop_call_delayed (GstAdaptiveDemuxLoop * loop,
GstClockTime delay, GSourceFunc func, gpointer data, GDestroyNotify notify)
{
guint ret = 0;
g_mutex_lock (&loop->lock);
if (loop->context) {
GSource *s = g_timeout_source_new (GST_TIME_AS_MSECONDS (delay));
g_source_set_callback (s, func, data, notify);
ret = g_source_attach (s, loop->context);
g_source_unref (s);
} else if (notify != NULL) {
notify (data);
}
g_mutex_unlock (&loop->lock);
return ret;
}
void
gst_adaptive_demux_loop_cancel_call (GstAdaptiveDemuxLoop * loop, guint cb_id)
{
g_mutex_lock (&loop->lock);
if (loop->context) {
GSource *s = g_main_context_find_source_by_id (loop->context, cb_id);
if (s)
g_source_destroy (s);
}
g_mutex_unlock (&loop->lock);
}
struct Rfc5322TimeZone
{
const gchar *name;
gfloat tzoffset;
};
/*
Parse an RFC5322 (section 3.3) date-time from the Date: field in the
HTTP response.
See https://tools.ietf.org/html/rfc5322#section-3.3
*/
GstDateTime *
gst_adaptive_demux_util_parse_http_head_date (const gchar * http_date)
{
static const gchar *months[] = { NULL, "Jan", "Feb", "Mar", "Apr",
"May", "Jun", "Jul", "Aug",
"Sep", "Oct", "Nov", "Dec", NULL
};
static const struct Rfc5322TimeZone timezones[] = {
{"Z", 0},
{"UT", 0},
{"GMT", 0},
{"BST", 1},
{"EST", -5},
{"EDT", -4},
{"CST", -6},
{"CDT", -5},
{"MST", -7},
{"MDT", -6},
{"PST", -8},
{"PDT", -7},
{NULL, 0}
};
gint ret;
const gchar *pos;
gint year = -1, month = -1, day = -1, hour = -1, minute = -1, second = -1;
gchar zone[6];
gchar monthstr[4];
gfloat tzoffset = 0;
gboolean parsed_tz = FALSE;
g_return_val_if_fail (http_date != NULL, NULL);
/* skip optional text version of day of the week */
pos = strchr (http_date, ',');
if (pos)
pos++;
else
pos = http_date;
ret =
sscanf (pos, "%02d %3s %04d %02d:%02d:%02d %5s", &day, monthstr, &year,
&hour, &minute, &second, zone);
if (ret == 7) {
gchar *z = zone;
gint i;
for (i = 1; months[i]; ++i) {
if (g_ascii_strncasecmp (months[i], monthstr, strlen (months[i])) == 0) {
month = i;
break;
}
}
for (i = 0; timezones[i].name && !parsed_tz; ++i) {
if (g_ascii_strncasecmp (timezones[i].name, z,
strlen (timezones[i].name)) == 0) {
tzoffset = timezones[i].tzoffset;
parsed_tz = TRUE;
}
}
if (!parsed_tz) {
gint hh, mm;
gboolean neg = FALSE;
/* check if it is in the form +-HHMM */
if (*z == '+' || *z == '-') {
if (*z == '+')
++z;
else if (*z == '-') {
++z;
neg = TRUE;
}
ret = sscanf (z, "%02d%02d", &hh, &mm);
if (ret == 2) {
tzoffset = hh;
tzoffset += mm / 60.0;
if (neg)
tzoffset = -tzoffset;
parsed_tz = TRUE;
}
}
}
/* Accept year in both 2 digit or 4 digit format */
if (year < 100)
year += 2000;
}
if (month < 1 || !parsed_tz)
return NULL;
return gst_date_time_new (tzoffset, year, month, day, hour, minute, second);
}
typedef struct
{
gboolean delivered;
GstEvent *event;
guint sticky_order;
} PadEvent;
void
gst_event_store_init (GstEventStore * store)
{
store->events = g_array_sized_new (FALSE, TRUE, sizeof (PadEvent), 16);
store->events_pending = FALSE;
}
void
gst_event_store_flush (GstEventStore * store)
{
guint i, len;
GArray *events = store->events;
len = events->len;
for (i = 0; i < len; i++) {
PadEvent *ev = &g_array_index (events, PadEvent, i);
GstEvent *event = ev->event;
ev->event = NULL;
gst_event_unref (event);
}
g_array_set_size (events, 0);
store->events_pending = FALSE;
}
void
gst_event_store_deinit (GstEventStore * store)
{
gst_event_store_flush (store);
g_array_free (store->events, TRUE);
}
void
gst_event_store_insert_event (GstEventStore * store, GstEvent * event,
gboolean delivered)
{
guint i, len;
GArray *events;
GQuark name_id = 0;
gboolean insert = TRUE;
GstEventType type = GST_EVENT_TYPE (event);
guint event_sticky_order = gst_event_type_to_sticky_ordering (type);
if (type & GST_EVENT_TYPE_STICKY_MULTI)
name_id = gst_structure_get_name_id (gst_event_get_structure (event));
events = store->events;
len = events->len;
for (i = 0; i < len; i++) {
PadEvent *ev = &g_array_index (events, PadEvent, i);
if (ev->event == NULL)
continue;
if (type == GST_EVENT_TYPE (ev->event)) {
/* matching types, check matching name if needed */
if (name_id && !gst_event_has_name_id (ev->event, name_id))
continue;
/* overwrite if different */
if (gst_event_replace (&ev->event, event)) {
ev->delivered = delivered;
/* If the event was not delivered, mark that we have a pending
* undelivered event */
if (!delivered)
store->events_pending = TRUE;
}
insert = FALSE;
break;
}
if (event_sticky_order < ev->sticky_order
|| (type != GST_EVENT_TYPE (ev->event)
&& GST_EVENT_TYPE (ev->event) == GST_EVENT_EOS)) {
/* STREAM_START, CAPS and SEGMENT must be delivered in this order. By
* storing the sticky ordered we can check that this is respected. */
if (G_UNLIKELY (ev->sticky_order <=
gst_event_type_to_sticky_ordering (GST_EVENT_SEGMENT)
|| GST_EVENT_TYPE (ev->event) == GST_EVENT_EOS)) {
g_warning (G_STRLOC
":%s:<store %p> Sticky event misordering, got '%s' before '%s'",
G_STRFUNC, store,
gst_event_type_get_name (GST_EVENT_TYPE (ev->event)),
gst_event_type_get_name (type));
}
break;
}
}
if (insert) {
PadEvent ev;
ev.event = gst_event_ref (event);
ev.sticky_order = event_sticky_order;
ev.delivered = delivered;
g_array_insert_val (events, i, ev);
/* If the event was not delivered, mark that we have a pending
* undelivered event */
if (!delivered)
store->events_pending = TRUE;
GST_LOG ("store %p stored sticky event %s", store,
GST_EVENT_TYPE_NAME (event));
}
}
/* Find the first non-pending event and return a ref to it, owned by the caller */
GstEvent *
gst_event_store_get_next_pending (GstEventStore * store)
{
GArray *events;
guint i, len;
if (!store->events_pending)
return NULL;
events = store->events;
len = events->len;
for (i = 0; i < len; i++) {
PadEvent *ev = &g_array_index (events, PadEvent, i);
if (ev->event == NULL || ev->delivered)
continue;
/* Found an undelivered event, return it. The caller will mark it
* as delivered once it has done so successfully by calling
* gst_event_store_mark_delivered() */
return gst_event_ref (ev->event);
}
store->events_pending = FALSE;
return NULL;
}
void
gst_event_store_mark_delivered (GstEventStore * store, GstEvent * event)
{
gboolean events_pending = FALSE;
GArray *events;
guint i, len;
events = store->events;
len = events->len;
for (i = 0; i < len; i++) {
PadEvent *ev = &g_array_index (events, PadEvent, i);
if (ev->event == NULL)
continue;
/* Check if there are any pending events other than
* the passed one, so we can update the events_pending
* flag at the end */
if (ev->event != event && !ev->delivered) {
events_pending = TRUE;
continue;
}
ev->delivered = TRUE;
}
store->events_pending = events_pending;
}
void
gst_event_store_mark_all_undelivered (GstEventStore * store)
{
gboolean events_pending = FALSE;
GArray *events;
guint i, len;
events = store->events;
len = events->len;
for (i = 0; i < len; i++) {
PadEvent *ev = &g_array_index (events, PadEvent, i);
if (ev->event == NULL)
continue;
ev->delivered = FALSE;
events_pending = TRUE;
}
/* Only set the flag if there was at least
* one sticky event in the store */
store->events_pending = events_pending;
}