gstreamer/subprojects/gst-plugins-good/gst/rtpmanager/rtptimerqueue.c

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/* GStreamer RTP Manager
*
* Copyright (C) 2019 Net Insight AB
* Author: Nicolas Dufresne <nicolas.dufresne@collabora.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.
*/
#include <string.h>
#include <gst/rtp/gstrtpbuffer.h>
#include "rtptimerqueue.h"
struct _RtpTimerQueue
{
GObject parent;
GQueue timers;
GHashTable *hashtable;
};
G_DEFINE_TYPE (RtpTimerQueue, rtp_timer_queue, G_TYPE_OBJECT);
/* some timer private helpers */
static RtpTimer *
rtp_timer_new (void)
{
return g_slice_new0 (RtpTimer);
}
static inline void
rtp_timer_set_next (RtpTimer * timer, RtpTimer * next)
{
GList *list = (GList *) timer;
list->next = (GList *) next;
}
static inline void
rtp_timer_set_prev (RtpTimer * timer, RtpTimer * prev)
{
GList *list = (GList *) timer;
list->prev = (GList *) prev;
}
static inline gboolean
rtp_timer_is_later (RtpTimer * timer, RtpTimer * next)
{
if (next == NULL)
return FALSE;
if (GST_CLOCK_TIME_IS_VALID (next->timeout)) {
if (!GST_CLOCK_TIME_IS_VALID (timer->timeout))
return FALSE;
if (timer->timeout > next->timeout)
return TRUE;
}
if (timer->timeout == next->timeout &&
gst_rtp_buffer_compare_seqnum (timer->seqnum, next->seqnum) < 0)
return TRUE;
return FALSE;
}
static inline gboolean
rtp_timer_is_sooner (RtpTimer * timer, RtpTimer * prev)
{
if (prev == NULL)
return FALSE;
if (GST_CLOCK_TIME_IS_VALID (prev->timeout)) {
if (!GST_CLOCK_TIME_IS_VALID (timer->timeout))
return TRUE;
if (timer->timeout < prev->timeout)
return TRUE;
}
if (timer->timeout == prev->timeout &&
gst_rtp_buffer_compare_seqnum (timer->seqnum, prev->seqnum) > 0)
return TRUE;
return FALSE;
}
static inline gboolean
rtp_timer_is_closer_to_head (RtpTimer * timer, RtpTimer * head)
{
RtpTimer *prev = rtp_timer_get_prev (timer);
GstClockTimeDiff prev_delta = 0;
GstClockTimeDiff head_delta = 0;
if (prev == NULL)
return FALSE;
if (rtp_timer_is_sooner (timer, head))
return TRUE;
if (rtp_timer_is_later (timer, prev))
return FALSE;
if (prev->timeout == head->timeout) {
gint prev_gap, head_gap;
prev_gap = gst_rtp_buffer_compare_seqnum (timer->seqnum, prev->seqnum);
head_gap = gst_rtp_buffer_compare_seqnum (head->seqnum, timer->seqnum);
if (head_gap < prev_gap)
return TRUE;
}
if (GST_CLOCK_TIME_IS_VALID (timer->timeout) &&
GST_CLOCK_TIME_IS_VALID (head->timeout)) {
prev_delta = GST_CLOCK_DIFF (timer->timeout, prev->timeout);
head_delta = GST_CLOCK_DIFF (head->timeout, timer->timeout);
if (head_delta < prev_delta)
return TRUE;
}
return FALSE;
}
static inline gboolean
rtp_timer_is_closer_to_tail (RtpTimer * timer, RtpTimer * tail)
{
RtpTimer *next = rtp_timer_get_next (timer);
GstClockTimeDiff tail_delta = 0;
GstClockTimeDiff next_delta = 0;
if (next == NULL)
return FALSE;
if (rtp_timer_is_later (timer, tail))
return TRUE;
if (rtp_timer_is_sooner (timer, next))
return FALSE;
if (tail->timeout == next->timeout) {
gint tail_gap, next_gap;
tail_gap = gst_rtp_buffer_compare_seqnum (timer->seqnum, tail->seqnum);
next_gap = gst_rtp_buffer_compare_seqnum (next->seqnum, timer->seqnum);
if (tail_gap < next_gap)
return TRUE;
}
if (GST_CLOCK_TIME_IS_VALID (timer->timeout) &&
GST_CLOCK_TIME_IS_VALID (next->timeout)) {
tail_delta = GST_CLOCK_DIFF (timer->timeout, tail->timeout);
next_delta = GST_CLOCK_DIFF (next->timeout, timer->timeout);
if (tail_delta < next_delta)
return TRUE;
}
return FALSE;
}
static inline RtpTimer *
rtp_timer_queue_get_tail (RtpTimerQueue * queue)
{
return (RtpTimer *) queue->timers.tail;
}
static inline void
rtp_timer_queue_set_tail (RtpTimerQueue * queue, RtpTimer * timer)
{
queue->timers.tail = (GList *) timer;
g_assert (queue->timers.tail->next == NULL);
}
static inline RtpTimer *
rtp_timer_queue_get_head (RtpTimerQueue * queue)
{
return (RtpTimer *) queue->timers.head;
}
static inline void
rtp_timer_queue_set_head (RtpTimerQueue * queue, RtpTimer * timer)
{
queue->timers.head = (GList *) timer;
g_assert (queue->timers.head->prev == NULL);
}
static void
rtp_timer_queue_insert_before (RtpTimerQueue * queue, RtpTimer * sibling,
RtpTimer * timer)
{
if (sibling == rtp_timer_queue_get_head (queue)) {
rtp_timer_queue_set_head (queue, timer);
} else {
rtp_timer_set_prev (timer, rtp_timer_get_prev (sibling));
rtp_timer_set_next (rtp_timer_get_prev (sibling), timer);
}
rtp_timer_set_next (timer, sibling);
rtp_timer_set_prev (sibling, timer);
queue->timers.length++;
}
static void
rtp_timer_queue_insert_after (RtpTimerQueue * queue, RtpTimer * sibling,
RtpTimer * timer)
{
if (sibling == rtp_timer_queue_get_tail (queue)) {
rtp_timer_queue_set_tail (queue, timer);
} else {
rtp_timer_set_next (timer, rtp_timer_get_next (sibling));
rtp_timer_set_prev (rtp_timer_get_next (sibling), timer);
}
rtp_timer_set_prev (timer, sibling);
rtp_timer_set_next (sibling, timer);
queue->timers.length++;
}
static void
rtp_timer_queue_insert_tail (RtpTimerQueue * queue, RtpTimer * timer)
{
RtpTimer *it = rtp_timer_queue_get_tail (queue);
while (it) {
if (!GST_CLOCK_TIME_IS_VALID (it->timeout))
break;
if (timer->timeout > it->timeout)
break;
if (timer->timeout == it->timeout &&
gst_rtp_buffer_compare_seqnum (timer->seqnum, it->seqnum) < 0)
break;
it = rtp_timer_get_prev (it);
}
/* the queue is empty, or this is the earliest timeout */
if (it == NULL)
g_queue_push_head_link (&queue->timers, (GList *) timer);
else
rtp_timer_queue_insert_after (queue, it, timer);
}
static void
rtp_timer_queue_insert_head (RtpTimerQueue * queue, RtpTimer * timer)
{
RtpTimer *it = rtp_timer_queue_get_head (queue);
while (it) {
if (GST_CLOCK_TIME_IS_VALID (it->timeout)) {
if (!GST_CLOCK_TIME_IS_VALID (timer->timeout))
break;
if (timer->timeout < it->timeout)
break;
}
if (timer->timeout == it->timeout &&
gst_rtp_buffer_compare_seqnum (timer->seqnum, it->seqnum) > 0)
break;
it = rtp_timer_get_next (it);
}
/* the queue is empty, or this is the oldest */
if (it == NULL)
g_queue_push_tail_link (&queue->timers, (GList *) timer);
else
rtp_timer_queue_insert_before (queue, it, timer);
}
static void
rtp_timer_queue_init (RtpTimerQueue * queue)
{
queue->hashtable = g_hash_table_new (NULL, NULL);
}
static void
rtp_timer_queue_finalize (GObject * object)
{
RtpTimerQueue *queue = RTP_TIMER_QUEUE (object);
RtpTimer *timer;
while ((timer = rtp_timer_queue_pop_until (queue, GST_CLOCK_TIME_NONE)))
rtp_timer_free (timer);
g_hash_table_unref (queue->hashtable);
g_assert (queue->timers.length == 0);
G_OBJECT_CLASS (rtp_timer_queue_parent_class)->finalize (object);
}
static void
rtp_timer_queue_class_init (RtpTimerQueueClass * klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
gobject_class->finalize = rtp_timer_queue_finalize;
}
/**
* rtp_timer_free:
*
* Free a #RtpTimer structure. This should be used after a timer has been
* poped or unscheduled. The timer must be queued.
*/
void
rtp_timer_free (RtpTimer * timer)
{
g_return_if_fail (timer);
g_return_if_fail (timer->queued == FALSE);
g_return_if_fail (timer->list.next == NULL);
g_return_if_fail (timer->list.prev == NULL);
g_slice_free (RtpTimer, timer);
}
/**
* rtp_timer_dup:
* @timer: a #RtpTimer
*
* This allow cloning a #RtpTimer structure.
*
* Returns: a copy of @timer
*/
RtpTimer *
rtp_timer_dup (const RtpTimer * timer)
{
RtpTimer *copy = g_slice_new (RtpTimer);
memcpy (copy, timer, sizeof (RtpTimer));
memset (&copy->list, 0, sizeof (GList));
copy->queued = FALSE;
return copy;
}
/**
* rtp_timer_queue_find:
* @queue: the #RtpTimerQueue object
* @seqnum: the sequence number of the #RtpTimer
*
* Lookup for a timer with @seqnum. Only one timer per seqnum exist withing
* the #RtpTimerQueue. This operation is o(1).
*
* Rerturn: the matching #RtpTimer or %NULL
*/
RtpTimer *
rtp_timer_queue_find (RtpTimerQueue * queue, guint seqnum)
{
return g_hash_table_lookup (queue->hashtable, GINT_TO_POINTER (seqnum));
}
/**
* rtp_timer_queue_peek_earliest:
* @queue: the #RtpTimerQueue object
*
* Rerturns: the #RtpTimer with earliest timeout value
*/
RtpTimer *
rtp_timer_queue_peek_earliest (RtpTimerQueue * queue)
{
return rtp_timer_queue_get_head (queue);
}
/**
* rtp_timer_queue_new:
*
* Returns: a freshly allocated #RtpTimerQueue
*/
RtpTimerQueue *
rtp_timer_queue_new (void)
{
return g_object_new (RTP_TYPE_TIMER_QUEUE, NULL);
}
/**
* rtp_timer_queue_insert:
* @queue: the #RtpTimerQueue object
* @timer: (transfer full): the #RtpTimer to insert
*
* Insert a timer into the queue. Earliest timer are at the head and then
* timer are sorted by seqnum (smaller seqnum first). This function is o(n)
* but it is expected that most timers added are schedule later, in which case
* the insertion will be faster.
*
* Returns: %FALSE if a timer with the same seqnum already existed
*/
gboolean
rtp_timer_queue_insert (RtpTimerQueue * queue, RtpTimer * timer)
{
g_return_val_if_fail (timer->queued == FALSE, FALSE);
if (rtp_timer_queue_find (queue, timer->seqnum)) {
rtp_timer_free (timer);
GST_WARNING ("Timer queue collision, freeing duplicate.");
return FALSE;
}
if (timer->timeout == -1)
rtp_timer_queue_insert_head (queue, timer);
else
rtp_timer_queue_insert_tail (queue, timer);
g_hash_table_insert (queue->hashtable,
GINT_TO_POINTER (timer->seqnum), timer);
timer->queued = TRUE;
return TRUE;
}
/**
* rtp_timer_queue_reschedule:
* @queue: the #RtpTimerQueue object
* @timer: the #RtpTimer to reschedule
*
* This function moves @timer inside the queue to put it back to it's new
* location. This function is o(n) but it is assumed that nearby modification
* of the timeout will occure.
*
* Returns: %TRUE if the timer was moved
*/
gboolean
rtp_timer_queue_reschedule (RtpTimerQueue * queue, RtpTimer * timer)
{
RtpTimer *it = timer;
g_return_val_if_fail (timer->queued == TRUE, FALSE);
if (rtp_timer_is_closer_to_head (timer, rtp_timer_queue_get_head (queue))) {
g_queue_unlink (&queue->timers, (GList *) timer);
rtp_timer_queue_insert_head (queue, timer);
return TRUE;
}
while (rtp_timer_is_sooner (timer, rtp_timer_get_prev (it)))
it = rtp_timer_get_prev (it);
if (it != timer) {
g_queue_unlink (&queue->timers, (GList *) timer);
rtp_timer_queue_insert_before (queue, it, timer);
return TRUE;
}
if (rtp_timer_is_closer_to_tail (timer, rtp_timer_queue_get_tail (queue))) {
g_queue_unlink (&queue->timers, (GList *) timer);
rtp_timer_queue_insert_tail (queue, timer);
return TRUE;
}
while (rtp_timer_is_later (timer, rtp_timer_get_next (it)))
it = rtp_timer_get_next (it);
if (it != timer) {
g_queue_unlink (&queue->timers, (GList *) timer);
rtp_timer_queue_insert_after (queue, it, timer);
return TRUE;
}
return FALSE;
}
/**
* rtp_timer_queue_unschedule:
* @queue: the #RtpTimerQueue
* @timer: the #RtpTimer to unschedule
*
* This removes a timer from the queue. The timer structure can be reused,
* or freed using rtp_timer_free(). This function is o(1).
*/
void
rtp_timer_queue_unschedule (RtpTimerQueue * queue, RtpTimer * timer)
{
g_return_if_fail (timer->queued == TRUE);
g_queue_unlink (&queue->timers, (GList *) timer);
g_hash_table_remove (queue->hashtable, GINT_TO_POINTER (timer->seqnum));
timer->queued = FALSE;
}
/**
* rtp_timer_queue_pop_until:
* @queue: the #RtpTimerQueue
* @timeout: Time at witch timers expired
*
* Unschdedule and return the earliest packet that has a timeout smaller or
* equal to @timeout. The returns #RtpTimer must be freed with
* rtp_timer_free(). This function is o(1).
*
* Returns: an expired timer according to @timeout, or %NULL.
*/
RtpTimer *
rtp_timer_queue_pop_until (RtpTimerQueue * queue, GstClockTime timeout)
{
RtpTimer *timer;
timer = (RtpTimer *) g_queue_peek_head_link (&queue->timers);
if (!timer)
return NULL;
if (!GST_CLOCK_TIME_IS_VALID (timer->timeout) || timer->timeout <= timeout) {
rtp_timer_queue_unschedule (queue, timer);
return timer;
}
return NULL;
}
/**
* rtp_timer_queue_remove_until:
* @queue: the #RtpTimerQueue
* @timeout: Time at witch timers expired
*
* Unschedule and free all timers that has a timeout smaller or equal to
* @timeout.
*/
void
rtp_timer_queue_remove_until (RtpTimerQueue * queue, GstClockTime timeout)
{
RtpTimer *timer;
while ((timer = rtp_timer_queue_pop_until (queue, timeout))) {
GST_LOG ("Removing expired timer #%d, %" GST_TIME_FORMAT " < %"
GST_TIME_FORMAT, timer->seqnum, GST_TIME_ARGS (timer->timeout),
GST_TIME_ARGS (timeout));
rtp_timer_free (timer);
}
}
/**
* rtp_timer_queue_remove_all:
* @queue: the #RtpTimerQueue
*
* Unschedule and free all timers from the queue.
*/
void
rtp_timer_queue_remove_all (RtpTimerQueue * queue)
{
rtp_timer_queue_remove_until (queue, GST_CLOCK_TIME_NONE);
}
/**
* rtp_timer_queue_set_timer:
* @queue: the #RtpTimerQueue
* @type: the #RtpTimerType
* @senum: the timer seqnum
* @timeout: the timer timeout
* @delay: the additional delay (will be added to @timeout)
* @duration: the duration of the event related to the timer
* @offset: offset that can be used to convert the timeout to timestamp
*
* If there exist a timer with this seqnum it will be updated other a new
* timer is created and inserted into the queue. This function is o(n) except
* that it's optimized for later timer insertion.
*/
void
rtp_timer_queue_set_timer (RtpTimerQueue * queue, RtpTimerType type,
guint16 seqnum, GstClockTime timeout, GstClockTime delay,
GstClockTime duration, GstClockTimeDiff offset)
{
RtpTimer *timer;
timer = rtp_timer_queue_find (queue, seqnum);
if (!timer)
timer = rtp_timer_new ();
/* for new timers or on seqnum change reset the RTX data */
if (!timer->queued || timer->seqnum != seqnum) {
if (type == RTP_TIMER_EXPECTED) {
timer->rtx_base = timeout;
}
timer->rtx_last = GST_CLOCK_TIME_NONE;
timer->num_rtx_retry = 0;
timer->num_rtx_received = 0;
}
timer->type = type;
timer->seqnum = seqnum;
if (timeout == -1)
timer->timeout = -1;
else
timer->timeout = timeout + delay + offset;
timer->offset = offset;
timer->duration = duration;
if (timer->queued)
rtp_timer_queue_reschedule (queue, timer);
else
rtp_timer_queue_insert (queue, timer);
}
/**
* rtp_timer_queue_set_expected:
* @queue: the #RtpTimerQueue
* @senum: the timer seqnum
* @timeout: the timer timeout
* @delay: the additional delay (will be added to @timeout)
* @duration: the duration of the event related to the timer
*
* Specialized version of rtp_timer_queue_set_timer() that creates or updates a
* timer with type %RTP_TIMER_EXPECTED. Expected timers do not carry
* a timestamp, hence have no offset.
*/
void
rtp_timer_queue_set_expected (RtpTimerQueue * queue, guint16 seqnum,
GstClockTime timeout, GstClockTime delay, GstClockTime duration)
{
rtp_timer_queue_set_timer (queue, RTP_TIMER_EXPECTED, seqnum, timeout,
delay, duration, 0);
}
/**
* rtp_timer_queue_set_lost:
* @queue: the #RtpTimerQueue
* @senum: the timer seqnum
* @timeout: the timer timeout
* @duration: the duration of the event related to the timer
* @offset: offset that can be used to convert the timeout to timestamp
*
* Specialized version of rtp_timer_queue_set_timer() that creates or updates a
* timer with type %RTP_TIMER_LOST.
*/
void
rtp_timer_queue_set_lost (RtpTimerQueue * queue, guint16 seqnum,
GstClockTime timeout, GstClockTime duration, GstClockTimeDiff offset)
{
rtp_timer_queue_set_timer (queue, RTP_TIMER_LOST, seqnum, timeout, 0,
duration, offset);
}
/**
* rtp_timer_queue_set_eos:
* @queue: the #RtpTimerQueue
* @timeout: the timer timeout
* @offset: offset that can be used to convert the timeout to timestamp
*
* Specialized version of rtp_timer_queue_set_timer() that creates or updates a
* timer with type %RTP_TIMER_EOS. There is only one such a timer and it has
* the special seqnum value -1 (FIXME this is not an invalid seqnum,).
*/
void
rtp_timer_queue_set_eos (RtpTimerQueue * queue, GstClockTime timeout,
GstClockTimeDiff offset)
{
rtp_timer_queue_set_timer (queue, RTP_TIMER_EOS, -1, timeout, 0, 0, offset);
}
/**
* rtp_timer_queue_set_deadline:
* @queue: the #RtpTimerQueue
* @senum: the timer seqnum
* @timeout: the timer timeout
* @offset: offset that can be used to convert the timeout to timestamp
*
* Specialized version of rtp_timer_queue_set_timer() that creates or updates a
* timer with type %RTP_TIMER_DEADLINE. There should be only one such a timer,
* its seqnum matches the first packet to be output.
*/
void
rtp_timer_queue_set_deadline (RtpTimerQueue * queue, guint16 seqnum,
GstClockTime timeout, GstClockTimeDiff offset)
{
rtp_timer_queue_set_timer (queue, RTP_TIMER_DEADLINE, seqnum, timeout, 0,
0, offset);
}
/**
* rtp_timer_queue_update_timer:
* @queue: the #RtpTimerQueue
* @senum: the timer seqnum
* @timeout: the timer timeout
* @delay: the additional delay (will be added to @timeout)
* @offset: offset that can be used to convert the timeout to timestamp
* @reset: if the RTX statistics should be reset
*
* A utility to update an already queued timer.
*/
void
rtp_timer_queue_update_timer (RtpTimerQueue * queue, RtpTimer * timer,
guint16 seqnum, GstClockTime timeout, GstClockTime delay,
GstClockTimeDiff offset, gboolean reset)
{
g_return_if_fail (timer != NULL);
if (reset) {
rtpjitterbuffer: don't send multiple instant RTX for the same packet Due to us not properly acknowleding the time when the last RTX was sent when scheduling a new one, it can easily happen that due to the packet you are requesting have a PTS that is slightly old (but not too old when adding the latency of the jitterbuffer), both its calculated second and third (etc.) timeout could already have passed. This would lead to a burst of RTX requests, which acts completely against its purpose, potentially spending a lot more bandwidth than needed. This has been properly reproduced in the test: test_rtx_not_bursting_requests The good news is that slightly re-thinking the logic concerning re-requesting RTX, made it a lot simpler to understand, and allows us to remove two members of the RtpTimer which no longer serves any purpose due to the refactoring. If desirable the whole "delay" concept can actually be removed completely from the timers, and simply just added to the timeout by the caller of the API. But that can be a change for a another time. The only external change (other than the improved behavior around bursting RTX) is that the "delay" field now stricly represents the delay between the PTS of the RTX-requested packet and the time it is requested on, whereas before this calculation was more about the theoretical calculated delay. This is visible in three other RTX-tests where the delay had to be adjusted slightly. I am confident however that this change is correct. Part-of: <https://gitlab.freedesktop.org/gstreamer/gst-plugins-good/-/merge_requests/789>
2020-10-27 23:29:05 +00:00
GST_DEBUG ("reset rtx base %" GST_TIME_FORMAT "->%" GST_TIME_FORMAT,
GST_TIME_ARGS (timer->rtx_base), GST_TIME_ARGS (timeout));
timer->rtx_base = timeout;
}
if (timer->seqnum != seqnum) {
timer->num_rtx_retry = 0;
timer->num_rtx_received = 0;
if (timer->queued) {
g_hash_table_remove (queue->hashtable, GINT_TO_POINTER (timer->seqnum));
g_hash_table_insert (queue->hashtable, GINT_TO_POINTER (seqnum), timer);
}
}
if (timeout == -1)
timer->timeout = -1;
else
timer->timeout = timeout + delay + offset;
timer->seqnum = seqnum;
timer->offset = offset;
if (timer->queued)
rtp_timer_queue_reschedule (queue, timer);
else
rtp_timer_queue_insert (queue, timer);
}
/**
* rtp_timer_queue_length:
* @queue: the #RtpTimerQueue
*
* Returns: the number of timers in the #RtpTimerQueue
*/
guint
rtp_timer_queue_length (RtpTimerQueue * queue)
{
return queue->timers.length;
}