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https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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3a380558bd
This reduces the chance of the main thread getting starved while trying to shut down the test, potentially causing a timeout. Even on an idle 96-processor system this reduces the duration of the systemclock tests from ~8s to ~3s. Part-of: <https://gitlab.freedesktop.org/gstreamer/gstreamer/-/merge_requests/734>
407 lines
11 KiB
C
407 lines
11 KiB
C
/* GStreamer
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* Copyright (C) 2005 Wim Taymans <wim@fluendo.com>
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*
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* gstsystemclock.c: Unit test for GstSystemClock
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the
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* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include <gst/check/gstcheck.h>
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static GMutex af_lock;
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static GCond af_cond;
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/* see if the defines make sense */
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GST_START_TEST (test_range)
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{
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GstClockTime time, time2;
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time = GST_SECOND;
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fail_unless (time == G_GUINT64_CONSTANT (1000000000));
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time2 = time / 1000;
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fail_unless (time2 == 1000000);
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fail_unless (time2 == GST_MSECOND);
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fail_unless (time2 == GST_TIME_AS_USECONDS (time));
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time2 = time / 1000000;
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fail_unless (time2 == 1000);
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fail_unless (time2 == GST_USECOND);
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fail_unless (time2 == GST_TIME_AS_MSECONDS (time));
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}
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GST_END_TEST;
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GST_START_TEST (test_signedness)
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{
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GstClockTime time[] = { 0, 1, G_MAXUINT64 / GST_SECOND };
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GstClockTimeDiff diff[] =
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{ 0, 1, -1, G_MAXINT64 / GST_SECOND, G_MININT64 / GST_SECOND };
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guint i;
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for (i = 0; i < G_N_ELEMENTS (time); i++) {
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fail_if (time[i] != (time[i] * GST_SECOND / GST_SECOND));
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}
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for (i = 0; i < G_N_ELEMENTS (diff); i++) {
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fail_if (diff[i] != (diff[i] * GST_SECOND / GST_SECOND));
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}
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}
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GST_END_TEST;
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GST_START_TEST (test_set_default)
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{
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GstClock *clock, *static_clock;
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/* obtain the default system clock, which keeps a static ref and bumps the
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* refcount before returning */
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static_clock = gst_system_clock_obtain ();
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fail_unless (static_clock != NULL, "Could not create default system clock");
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g_assert_cmpint (GST_OBJECT_REFCOUNT (static_clock), ==, 2);
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/* set a new default clock to a different instance which should replace the
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* static clock with this one, and unref the static clock */
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clock = g_object_new (GST_TYPE_SYSTEM_CLOCK, "name", "TestClock", NULL);
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gst_object_ref_sink (clock);
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gst_system_clock_set_default (clock);
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g_assert_cmpint (GST_OBJECT_REFCOUNT (static_clock), ==, 1);
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gst_object_unref (static_clock);
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static_clock = gst_system_clock_obtain ();
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fail_unless (static_clock == clock);
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g_assert_cmpint (GST_OBJECT_REFCOUNT (clock), ==, 3);
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gst_object_unref (static_clock);
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/* Reset the default clock to the static one */
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gst_system_clock_set_default (NULL);
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static_clock = gst_system_clock_obtain ();
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fail_unless (static_clock != clock);
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g_assert_cmpint (GST_OBJECT_REFCOUNT (clock), ==, 1);
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g_assert_cmpint (GST_OBJECT_REFCOUNT (static_clock), ==, 2);
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gst_object_unref (clock);
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gst_object_unref (static_clock);
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}
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GST_END_TEST;
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GST_START_TEST (test_diff)
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{
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GstClockTime time1[] = { 0, (GstClockTime) - 1, 0, 1, 2 * GST_SECOND,
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(GstClockTime) - GST_SECOND, (GstClockTime) - GST_SECOND
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};
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GstClockTime time2[] =
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{ 0, 1, 1, 0, 1 * GST_SECOND, (GstClockTime) - GST_SECOND, GST_SECOND };
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GstClockTimeDiff d[] = { 0, 2, 1, -1, -GST_SECOND, 0, 2 * GST_SECOND };
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guint i;
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for (i = 0; i < G_N_ELEMENTS (d); i++) {
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fail_if (d[i] != GST_CLOCK_DIFF (time1[i], time2[i]));
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}
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}
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GST_END_TEST;
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static gboolean
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test_async_full_slave_callback (GstClock * master, GstClockTime time,
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GstClockID id, GstClock * clock)
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{
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GstClockTime stime, mtime;
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gdouble r_squared;
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/* notify the test case that we started */
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GST_INFO ("callback started");
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g_mutex_lock (&af_lock);
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g_cond_signal (&af_cond);
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/* wait for the test case to unref "clock" and signal */
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GST_INFO ("waiting for test case to signal");
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g_cond_wait (&af_cond, &af_lock);
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stime = gst_clock_get_internal_time (clock);
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mtime = gst_clock_get_time (master);
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gst_clock_add_observation (clock, stime, mtime, &r_squared);
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g_cond_signal (&af_cond);
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g_mutex_unlock (&af_lock);
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GST_INFO ("callback finished");
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return TRUE;
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}
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GST_START_TEST (test_async_full)
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{
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GstClock *master, *slave;
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GstClockID *clockid;
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/* create master and slave */
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master =
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g_object_new (GST_TYPE_SYSTEM_CLOCK, "name", "TestClockMaster", NULL);
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gst_object_ref_sink (master);
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slave = g_object_new (GST_TYPE_SYSTEM_CLOCK, "name", "TestClockMaster", NULL);
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gst_object_ref_sink (slave);
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GST_OBJECT_FLAG_SET (slave, GST_CLOCK_FLAG_CAN_SET_MASTER);
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g_object_set (slave, "timeout", 50 * GST_MSECOND, NULL);
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fail_unless (GST_OBJECT_REFCOUNT (master) == 1);
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fail_unless (GST_OBJECT_REFCOUNT (slave) == 1);
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/* register a periodic shot on the master to calibrate the slave */
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g_mutex_lock (&af_lock);
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clockid = gst_clock_new_periodic_id (master,
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gst_clock_get_time (master), gst_clock_get_timeout (slave));
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gst_clock_id_wait_async (clockid,
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(GstClockCallback) test_async_full_slave_callback,
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gst_object_ref (slave), (GDestroyNotify) gst_object_unref);
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/* wait for the shot to be fired and test_async_full_slave_callback to be
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* called */
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GST_INFO ("waiting for the slave callback to start");
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g_cond_wait (&af_cond, &af_lock);
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GST_INFO ("slave callback running, unreffing slave");
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/* unref the slave clock while the slave_callback is running. This should be
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* safe since the master clock now stores a ref to the slave */
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gst_object_unref (slave);
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/* unref the clock entry. This should be safe as well since the clock thread
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* refs the entry before executing it */
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gst_clock_id_unschedule (clockid);
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gst_clock_id_unref (clockid);
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/* signal and wait for the callback to complete */
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g_cond_signal (&af_cond);
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GST_INFO ("waiting for callback to finish");
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g_cond_wait (&af_cond, &af_lock);
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GST_INFO ("callback finished");
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g_mutex_unlock (&af_lock);
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gst_object_unref (master);
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}
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GST_END_TEST;
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GST_START_TEST (test_resolution)
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{
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GstClock *clock;
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GstClockTime now_t, prev_t, resolution;
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int i;
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now_t = prev_t = GST_CLOCK_TIME_NONE;
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clock = gst_system_clock_obtain ();
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fail_unless (clock != NULL, "Could not create default system clock");
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resolution = gst_clock_get_resolution (clock);
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fail_unless (resolution != GST_CLOCK_TIME_NONE);
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for (i = 0; i < 100000; ++i) {
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now_t = gst_clock_get_internal_time (clock);
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fail_unless (now_t != GST_CLOCK_TIME_NONE);
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if (prev_t != GST_CLOCK_TIME_NONE) {
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GstClockTime diff;
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fail_unless (now_t >= prev_t);
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diff = now_t - prev_t;
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fail_unless (diff == 0 || diff >= resolution);
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}
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prev_t = now_t;
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g_thread_yield ();
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}
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gst_object_unref (clock);
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clock = NULL;
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}
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GST_END_TEST;
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typedef struct
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{
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GThread *thread_wait;
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GThread *thread_unschedule;
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GMutex lock;
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gboolean running;
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GstClockID id;
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gboolean unschedule;
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gint32 time_offset_min;
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gint32 time_offset_max;
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gboolean dont_unschedule_positive_offset;
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} WaitUnscheduleData;
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static gpointer
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single_shot_wait_thread_func (gpointer data)
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{
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WaitUnscheduleData *d = data;
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GstClock *clock = gst_system_clock_obtain ();
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while (d->running) {
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GstClockTime now;
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gint offset;
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GstClockID id;
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now = gst_clock_get_time (clock);
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offset = g_random_int_range (d->time_offset_min, d->time_offset_max);
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g_mutex_lock (&d->lock);
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d->unschedule = d->dont_unschedule_positive_offset ? offset < 0 : TRUE;
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id = d->id =
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gst_clock_new_single_shot_id (clock, now + (GstClockTime) offset);
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g_mutex_unlock (&d->lock);
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fail_unless (id != NULL, "Could not create single shot id");
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gst_clock_id_wait (id, NULL);
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g_mutex_lock (&d->lock);
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gst_clock_id_unref (id);
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d->id = NULL;
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g_mutex_unlock (&d->lock);
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}
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gst_object_unref (clock);
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return NULL;
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}
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static gpointer
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unschedule_thread_func (gpointer data)
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{
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WaitUnscheduleData *d = data;
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while (d->running) {
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g_mutex_lock (&d->lock);
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if (d->id && d->unschedule) {
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g_thread_yield ();
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gst_clock_id_unschedule (d->id);
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}
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g_mutex_unlock (&d->lock);
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g_thread_yield ();
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}
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return NULL;
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}
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GST_START_TEST (test_stress_cleanup_unschedule)
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{
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WaitUnscheduleData *data;
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gint i, num;
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num = g_get_num_processors () * 6;
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data = g_newa (WaitUnscheduleData, num);
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for (i = 0; i < num; i++) {
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WaitUnscheduleData *d = &data[i];
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/* Don't unschedule waits with positive offsets in order to trigger
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* gst_system_clock_wait_wakeup() */
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d->dont_unschedule_positive_offset = TRUE;
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/* Overweight of negative offsets in order to trigger GST_CLOCK_EARLY more
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* frequently */
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d->time_offset_min = -GST_MSECOND;
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d->time_offset_max = GST_MSECOND / 10;
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/* Initialize test */
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d->id = NULL;
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d->running = TRUE;
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g_mutex_init (&d->lock);
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d->thread_wait = g_thread_new ("wait", single_shot_wait_thread_func, d);
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d->thread_unschedule = g_thread_new ("unschedule", unschedule_thread_func,
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d);
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}
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/* Test duration */
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g_usleep (G_USEC_PER_SEC);
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/* Stop and free test data */
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for (i = 0; i < num; i++) {
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WaitUnscheduleData *d = &data[i];
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d->running = FALSE;
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}
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for (i = 0; i < num; i++) {
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WaitUnscheduleData *d = &data[i];
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g_thread_join (d->thread_wait);
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g_thread_join (d->thread_unschedule);
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g_mutex_clear (&d->lock);
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}
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}
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GST_END_TEST;
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GST_START_TEST (test_stress_reschedule)
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{
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WaitUnscheduleData *data;
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gint i, num;
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num = g_get_num_processors () * 6;
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data = g_newa (WaitUnscheduleData, num);
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for (i = 0; i < num; i++) {
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WaitUnscheduleData *d = &data[i];
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/* Try to unschedule all waits */
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d->dont_unschedule_positive_offset = FALSE;
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/* Small positive offsets in order to have both negative and positive
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* diffs when a reschedule is needed. */
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d->time_offset_min = 0;
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d->time_offset_max = GST_MSECOND;
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d->id = NULL;
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d->running = TRUE;
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g_mutex_init (&d->lock);
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d->thread_wait = g_thread_new ("wait", single_shot_wait_thread_func, d);
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d->thread_unschedule = g_thread_new ("unschedule", unschedule_thread_func,
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d);
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}
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/* Test duration */
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g_usleep (G_USEC_PER_SEC);
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/* Stop and free test data */
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for (i = 0; i < num; i++) {
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WaitUnscheduleData *d = &data[i];
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d->running = FALSE;
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}
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for (i = 0; i < num; i++) {
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WaitUnscheduleData *d = &data[i];
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g_thread_join (d->thread_wait);
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g_thread_join (d->thread_unschedule);
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g_mutex_clear (&d->lock);
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}
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}
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GST_END_TEST;
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static Suite *
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gst_systemclock_suite (void)
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{
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Suite *s = suite_create ("GstSystemClock");
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TCase *tc_chain = tcase_create ("waiting");
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suite_add_tcase (s, tc_chain);
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tcase_add_test (tc_chain, test_range);
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tcase_add_test (tc_chain, test_signedness);
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tcase_add_test (tc_chain, test_diff);
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tcase_add_test (tc_chain, test_async_full);
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tcase_add_test (tc_chain, test_set_default);
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tcase_add_test (tc_chain, test_resolution);
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tcase_add_test (tc_chain, test_stress_cleanup_unschedule);
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tcase_add_test (tc_chain, test_stress_reschedule);
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return s;
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}
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GST_CHECK_MAIN (gst_systemclock);
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