mirror of
https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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855 lines
28 KiB
C
855 lines
28 KiB
C
/* GStreamer
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*
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* Copyright (C) 2009 Nokia Corporation and its subsidary(-ies)
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* contact: <stefan.kost@nokia.com>
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* Copyright (C) 2012 Cisco Systems, Inc
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* Authors: Kelley Rogers <kelro@cisco.com>
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* Havard Graff <hgraff@cisco.com>
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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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#include <gst/check/gstcheck.h>
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#include <gst/check/gsttestclock.h>
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/* For ease of programming we use globals to keep refs for our floating
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* src and sink pads we create; otherwise we always have to do get_pad,
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* get_peer, and then remove references in every test function */
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static GstPad *mysrcpad, *mysinkpad;
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/* we also have a list of src buffers */
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static GList *inbuffers = NULL;
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static gint num_dropped = 0;
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#define RTP_CAPS_STRING \
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"application/x-rtp, " \
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"media = (string)audio, " \
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"payload = (int) 0, " \
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"clock-rate = (int) 8000, " \
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"encoding-name = (string)PCMU"
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#define RTP_FRAME_SIZE 20
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static GstStaticPadTemplate sinktemplate = GST_STATIC_PAD_TEMPLATE ("sink",
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GST_PAD_SINK,
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GST_PAD_ALWAYS,
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GST_STATIC_CAPS ("application/x-rtp")
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);
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static GstStaticPadTemplate srctemplate = GST_STATIC_PAD_TEMPLATE ("src",
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GST_PAD_SRC,
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GST_PAD_ALWAYS,
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GST_STATIC_CAPS ("application/x-rtp, "
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"clock-rate = (int) [ 1, 2147483647 ]")
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);
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static void
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buffer_dropped (gpointer data, GstMiniObject * obj)
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{
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GST_DEBUG ("dropping buffer %p", obj);
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num_dropped++;
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}
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static GstElement *
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setup_jitterbuffer (gint num_buffers)
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{
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GstElement *jitterbuffer;
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GstClock *clock;
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GstBuffer *buffer;
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GstCaps *caps;
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/* a 20 sample audio block (2,5 ms) generated with
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* gst-launch audiotestsrc wave=silence blocksize=40 num-buffers=3 !
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* "audio/x-raw,channels=1,rate=8000" ! mulawenc ! rtppcmupay !
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* fakesink dump=1
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*/
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guint8 in[] = { /* first 4 bytes are rtp-header, next 4 bytes are timestamp */
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0x80, 0x80, 0x1c, 0x24, 0x46, 0xcd, 0xb7, 0x11, 0x3c, 0x3a, 0x7c, 0x5b,
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0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
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0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff
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};
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GstClockTime ts = G_GUINT64_CONSTANT (0);
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GstClockTime tso = gst_util_uint64_scale (RTP_FRAME_SIZE, GST_SECOND, 8000);
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/*guint latency = GST_TIME_AS_MSECONDS (num_buffers * tso); */
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gint i;
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GST_DEBUG ("setup_jitterbuffer");
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jitterbuffer = gst_check_setup_element ("rtpjitterbuffer");
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/* we need a clock here */
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clock = gst_system_clock_obtain ();
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gst_element_set_clock (jitterbuffer, clock);
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gst_object_unref (clock);
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/* setup latency */
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/* latency would be 7 for 3 buffers here, default is 200
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g_object_set (G_OBJECT (jitterbuffer), "latency", latency, NULL);
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GST_INFO_OBJECT (jitterbuffer, "set latency to %u ms", latency);
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*/
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mysrcpad = gst_check_setup_src_pad (jitterbuffer, &srctemplate);
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mysinkpad = gst_check_setup_sink_pad (jitterbuffer, &sinktemplate);
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gst_pad_set_active (mysrcpad, TRUE);
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gst_pad_set_active (mysinkpad, TRUE);
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/* create n buffers */
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caps = gst_caps_from_string (RTP_CAPS_STRING);
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gst_check_setup_events (mysrcpad, jitterbuffer, caps, GST_FORMAT_TIME);
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gst_caps_unref (caps);
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for (i = 0; i < num_buffers; i++) {
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buffer = gst_buffer_new_and_alloc (sizeof (in));
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gst_buffer_fill (buffer, 0, in, sizeof (in));
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GST_BUFFER_TIMESTAMP (buffer) = ts;
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GST_BUFFER_DURATION (buffer) = tso;
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gst_mini_object_weak_ref (GST_MINI_OBJECT (buffer), buffer_dropped, NULL);
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GST_DEBUG ("created buffer: %p", buffer);
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if (!i)
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GST_BUFFER_FLAG_SET (buffer, GST_BUFFER_FLAG_DISCONT);
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inbuffers = g_list_append (inbuffers, buffer);
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/* hackish way to update the rtp header */
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in[1] = 0x00;
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in[3]++; /* seqnumber */
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in[7] += RTP_FRAME_SIZE; /* inc. timestamp with framesize */
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ts += tso;
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}
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num_dropped = 0;
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return jitterbuffer;
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}
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static GstStateChangeReturn
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start_jitterbuffer (GstElement * jitterbuffer)
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{
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GstStateChangeReturn ret;
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GstClockTime now;
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GstClock *clock;
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clock = gst_element_get_clock (jitterbuffer);
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now = gst_clock_get_time (clock);
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gst_object_unref (clock);
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gst_element_set_base_time (jitterbuffer, now);
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ret = gst_element_set_state (jitterbuffer, GST_STATE_PLAYING);
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return ret;
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}
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static void
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cleanup_jitterbuffer (GstElement * jitterbuffer)
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{
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GST_DEBUG ("cleanup_jitterbuffer");
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g_list_foreach (buffers, (GFunc) gst_mini_object_unref, NULL);
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g_list_free (buffers);
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buffers = NULL;
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g_list_free (inbuffers);
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inbuffers = NULL;
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gst_pad_set_active (mysrcpad, FALSE);
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gst_pad_set_active (mysinkpad, FALSE);
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gst_check_teardown_src_pad (jitterbuffer);
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gst_check_teardown_sink_pad (jitterbuffer);
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gst_check_teardown_element (jitterbuffer);
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}
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static void
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check_jitterbuffer_results (GstElement * jitterbuffer, gint num_buffers)
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{
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GstBuffer *buffer;
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GList *node;
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GstClockTime ts = G_GUINT64_CONSTANT (0);
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GstClockTime tso = gst_util_uint64_scale (RTP_FRAME_SIZE, GST_SECOND, 8000);
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GstMapInfo map;
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guint16 prev_sn = 0, cur_sn;
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guint32 prev_ts = 0, cur_ts;
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/* sleep for twice the latency */
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g_usleep (400 * 1000);
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GST_INFO ("of %d buffer %d/%d received/dropped", num_buffers,
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g_list_length (buffers), num_dropped);
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/* if this fails, not all buffers have been processed */
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fail_unless_equals_int ((g_list_length (buffers) + num_dropped), num_buffers);
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/* check the buffer list */
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fail_unless_equals_int (g_list_length (buffers), num_buffers);
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for (node = buffers; node; node = g_list_next (node)) {
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fail_if ((buffer = (GstBuffer *) node->data) == NULL);
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fail_if (GST_BUFFER_TIMESTAMP (buffer) != ts);
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gst_buffer_map (buffer, &map, GST_MAP_READ);
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cur_sn = ((guint16) map.data[2] << 8) | map.data[3];
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cur_ts = ((guint32) map.data[4] << 24) | ((guint32) map.data[5] << 16) |
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((guint32) map.data[6] << 8) | map.data[7];
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gst_buffer_unmap (buffer, &map);
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if (node != buffers) {
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fail_unless (cur_sn > prev_sn);
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fail_unless (cur_ts > prev_ts);
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prev_sn = cur_sn;
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prev_ts = cur_ts;
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}
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ts += tso;
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}
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}
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GST_START_TEST (test_push_forward_seq)
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{
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GstElement *jitterbuffer;
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const guint num_buffers = 3;
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GstBuffer *buffer;
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GList *node;
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jitterbuffer = setup_jitterbuffer (num_buffers);
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fail_unless (start_jitterbuffer (jitterbuffer)
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== GST_STATE_CHANGE_SUCCESS, "could not set to playing");
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/* push buffers: 0,1,2, */
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for (node = inbuffers; node; node = g_list_next (node)) {
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buffer = (GstBuffer *) node->data;
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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}
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/* check the buffer list */
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check_jitterbuffer_results (jitterbuffer, num_buffers);
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/* cleanup */
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cleanup_jitterbuffer (jitterbuffer);
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}
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GST_END_TEST;
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GST_START_TEST (test_push_backward_seq)
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{
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GstElement *jitterbuffer;
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const guint num_buffers = 4;
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GstBuffer *buffer;
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GList *node;
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jitterbuffer = setup_jitterbuffer (num_buffers);
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fail_unless (start_jitterbuffer (jitterbuffer)
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== GST_STATE_CHANGE_SUCCESS, "could not set to playing");
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/* push buffers: 0,3,2,1 */
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buffer = (GstBuffer *) inbuffers->data;
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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for (node = g_list_last (inbuffers); node != inbuffers;
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node = g_list_previous (node)) {
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buffer = (GstBuffer *) node->data;
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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}
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/* check the buffer list */
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check_jitterbuffer_results (jitterbuffer, num_buffers);
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/* cleanup */
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cleanup_jitterbuffer (jitterbuffer);
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}
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GST_END_TEST;
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GST_START_TEST (test_push_unordered)
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{
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GstElement *jitterbuffer;
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const guint num_buffers = 4;
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GstBuffer *buffer;
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jitterbuffer = setup_jitterbuffer (num_buffers);
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fail_unless (start_jitterbuffer (jitterbuffer)
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== GST_STATE_CHANGE_SUCCESS, "could not set to playing");
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/* push buffers; 0,2,1,3 */
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buffer = (GstBuffer *) inbuffers->data;
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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buffer = g_list_nth_data (inbuffers, 2);
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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buffer = g_list_nth_data (inbuffers, 1);
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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buffer = g_list_nth_data (inbuffers, 3);
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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/* check the buffer list */
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check_jitterbuffer_results (jitterbuffer, num_buffers);
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/* cleanup */
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cleanup_jitterbuffer (jitterbuffer);
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}
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GST_END_TEST;
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GST_START_TEST (test_basetime)
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{
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GstElement *jitterbuffer;
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const guint num_buffers = 3;
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GstBuffer *buffer;
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GList *node;
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GstClockTime tso = gst_util_uint64_scale (RTP_FRAME_SIZE, GST_SECOND, 8000);
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jitterbuffer = setup_jitterbuffer (num_buffers);
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fail_unless (start_jitterbuffer (jitterbuffer)
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== GST_STATE_CHANGE_SUCCESS, "could not set to playing");
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/* push buffers: 2,1,0 */
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for (node = g_list_last (inbuffers); node; node = g_list_previous (node)) {
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buffer = (GstBuffer *) node->data;
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fail_unless (gst_pad_push (mysrcpad, buffer) == GST_FLOW_OK);
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}
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/* sleep for twice the latency */
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g_usleep (400 * 1000);
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/* if this fails, not all buffers have been processed */
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fail_unless_equals_int ((g_list_length (buffers) + num_dropped), num_buffers);
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buffer = (GstBuffer *) buffers->data;
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fail_unless (GST_BUFFER_TIMESTAMP (buffer) != (num_buffers * tso));
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/* cleanup */
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cleanup_jitterbuffer (jitterbuffer);
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}
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GST_END_TEST;
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#if 0
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static const guint payload_size = 160;
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static const guint clock_rate = 8000;
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static const guint pcmu_payload_type = 0;
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static const guint test_ssrc = 0x01BADBAD;
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typedef struct
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{
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GstElement *jitter_buffer;
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GstPad *test_sink_pad, *test_src_pad;
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GstClock *clock;
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GAsyncQueue *buf_queue;
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GAsyncQueue *event_queue;
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gint lost_event_count;
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} TestData;
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static GstCaps *
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generate_caps (void)
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{
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return gst_caps_new_simple ("application/x-rtp",
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"media", G_TYPE_STRING, "audio",
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"clock-rate", G_TYPE_INT, clock_rate,
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"encoding-name", G_TYPE_STRING, "PCMU",
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"payload", G_TYPE_INT, pcmu_payload_type,
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"ssrc", G_TYPE_UINT, test_ssrc, NULL);
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}
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static GstBuffer *
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generate_test_buffer (GstClockTime gst_ts,
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gboolean marker_bit, guint seq_num, guint32 rtp_ts)
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{
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GstBuffer *buf;
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guint8 *payload;
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guint i;
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buf = gst_rtp_buffer_new_allocate (payload_size, 0, 0);
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GST_BUFFER_TIMESTAMP (buf) = gst_ts;
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GST_BUFFER_CAPS (buf) = generate_caps ();
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gst_rtp_buffer_set_payload_type (buf, pcmu_payload_type);
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gst_rtp_buffer_set_marker (buf, marker_bit);
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gst_rtp_buffer_set_seq (buf, seq_num);
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gst_rtp_buffer_set_timestamp (buf, rtp_ts);
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gst_rtp_buffer_set_ssrc (buf, test_ssrc);
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payload = gst_rtp_buffer_get_payload (buf);
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for (i = 0; i < payload_size; i++)
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payload[i] = 0xff;
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return buf;
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}
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static GstFlowReturn
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test_sink_pad_chain_cb (GstPad * pad, GstBuffer * buffer)
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{
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TestData *data = gst_pad_get_element_private (pad);
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g_async_queue_push (data->buf_queue, buffer);
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return GST_FLOW_OK;
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}
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static gboolean
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test_sink_pad_event_cb (GstPad * pad, GstEvent * event)
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{
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TestData *data = gst_pad_get_element_private (pad);
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const GstStructure *structure = gst_event_get_structure (event);
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if (strcmp (gst_structure_get_name (structure), "GstRTPPacketLost") == 0)
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data->lost_event_count++;
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g_async_queue_push (data->event_queue, event);
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return TRUE;
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}
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static void
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setup_testharness (TestData * data)
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{
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GstPad *jb_sink_pad, *jb_src_pad;
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// create the testclock
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data->clock = gst_test_clock_new ();
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g_assert (data->clock);
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gst_test_clock_set_time (GST_TEST_CLOCK (data->clock), 0);
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// rig up the jitter buffer
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data->jitter_buffer = gst_element_factory_make ("gstrtpjitterbuffer", NULL);
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g_assert (data->jitter_buffer);
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gst_element_set_clock (data->jitter_buffer, data->clock);
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g_object_set (data->jitter_buffer, "do-lost", TRUE, NULL);
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g_assert_cmpint (gst_element_set_state (data->jitter_buffer,
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GST_STATE_PLAYING), !=, GST_STATE_CHANGE_FAILURE);
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// link in the test source-pad
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data->test_src_pad = gst_pad_new ("src", GST_PAD_SRC);
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gst_pad_set_caps (data->test_src_pad, generate_caps ());
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jb_sink_pad = gst_element_get_pad (data->jitter_buffer, "sink");
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g_assert_cmpint (gst_pad_link (data->test_src_pad, jb_sink_pad), ==,
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GST_PAD_LINK_OK);
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g_assert (gst_pad_set_active (data->test_src_pad, TRUE));
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gst_object_unref (jb_sink_pad);
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// link in the test sink-pad
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data->test_sink_pad = gst_pad_new ("sink", GST_PAD_SINK);
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gst_pad_set_caps (data->test_sink_pad, generate_caps ());
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gst_pad_set_chain_function (data->test_sink_pad, test_sink_pad_chain_cb);
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gst_pad_set_event_function (data->test_sink_pad, test_sink_pad_event_cb);
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jb_src_pad = gst_element_get_pad (data->jitter_buffer, "src");
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g_assert_cmpint (gst_pad_link (jb_src_pad, data->test_sink_pad), ==,
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GST_PAD_LINK_OK);
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g_assert (gst_pad_set_active (data->test_sink_pad, TRUE));
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gst_object_unref (jb_src_pad);
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// set up the buf and event queues
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data->buf_queue =
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g_async_queue_new_full ((GDestroyNotify) gst_mini_object_unref);
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data->event_queue =
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g_async_queue_new_full ((GDestroyNotify) gst_mini_object_unref);
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data->lost_event_count = 0;
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gst_pad_set_element_private (data->test_sink_pad, data);
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}
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static void
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destroy_testharness (TestData * data)
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{
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// clean up
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g_assert_cmpint (gst_element_set_state (data->jitter_buffer, GST_STATE_NULL),
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==, GST_STATE_CHANGE_SUCCESS);
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gst_object_unref (data->jitter_buffer);
|
|
data->jitter_buffer = NULL;
|
|
|
|
gst_object_unref (data->test_src_pad);
|
|
data->test_src_pad = NULL;
|
|
|
|
gst_object_unref (data->test_sink_pad);
|
|
data->test_sink_pad = NULL;
|
|
|
|
gst_object_unref (data->clock);
|
|
data->clock = NULL;
|
|
|
|
g_async_queue_unref (data->buf_queue);
|
|
data->buf_queue = NULL;
|
|
|
|
g_async_queue_unref (data->event_queue);
|
|
data->event_queue = NULL;
|
|
|
|
data->lost_event_count = 0;
|
|
}
|
|
|
|
static void
|
|
verify_lost_event (GstEvent * event, guint32 expected_seqnum,
|
|
GstClockTime expected_timestamp, GstClockTime expected_duration,
|
|
gboolean expected_late)
|
|
{
|
|
const GstStructure *s = gst_event_get_structure (event);
|
|
const GValue *value;
|
|
guint32 seqnum;
|
|
GstClockTime timestamp;
|
|
GstClockTime duration;
|
|
gboolean late;
|
|
g_assert (gst_structure_get_uint (s, "seqnum", &seqnum));
|
|
|
|
value = gst_structure_get_value (s, "timestamp");
|
|
g_assert (value && G_VALUE_HOLDS_UINT64 (value));
|
|
timestamp = g_value_get_uint64 (value);
|
|
|
|
value = gst_structure_get_value (s, "duration");
|
|
g_assert (value && G_VALUE_HOLDS_UINT64 (value));
|
|
duration = g_value_get_uint64 (value);
|
|
|
|
g_assert (gst_structure_get_boolean (s, "late", &late));
|
|
|
|
g_assert_cmpint (seqnum, ==, expected_seqnum);
|
|
g_assert_cmpint (timestamp, ==, expected_timestamp);
|
|
g_assert_cmpint (duration, ==, expected_duration);
|
|
g_assert (late == expected_late);
|
|
}
|
|
|
|
GST_START_TEST (test_only_one_lost_event_on_large_gaps)
|
|
{
|
|
TestData data;
|
|
GstTestClockPendingID id;
|
|
guint64 timeout;
|
|
GstBuffer *in_buf, *out_buf;
|
|
GstEvent *out_event;
|
|
gint jb_latency_ms = 200;
|
|
guint buffer_size_ms = (payload_size * 1000) / clock_rate;
|
|
|
|
setup_testharness (&data);
|
|
timeout = 20 * G_USEC_PER_SEC;
|
|
|
|
g_object_set (data.jitter_buffer, "latency", jb_latency_ms, NULL);
|
|
|
|
// push the first buffer in
|
|
in_buf = generate_test_buffer (0 * GST_MSECOND, TRUE, 0, 0);
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), 0);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// wait for the first buffer to be synced to timestamp + latency
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
|
|
// increase the time to timestamp + latency and release the wait
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock),
|
|
jb_latency_ms * GST_MSECOND);
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
|
|
// check for the buffer coming out that was pushed in
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert_cmpint (GST_BUFFER_TIMESTAMP (out_buf), ==, 0);
|
|
|
|
// move time ahead 10 seconds
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), 10 * GST_SECOND);
|
|
|
|
// wait a bit
|
|
g_usleep (G_USEC_PER_SEC / 10);
|
|
|
|
// check that no buffers have been pushed out and no pending waits
|
|
g_assert_cmpint (g_async_queue_length (data.buf_queue), ==, 0);
|
|
g_assert (gst_test_clock_peek_next_pending_id (GST_TEST_CLOCK (data.clock),
|
|
&id) == FALSE);
|
|
|
|
// a buffer now arrives perfectly on time
|
|
in_buf = generate_test_buffer (10 * GST_SECOND, FALSE, 500, 500 * 160);
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), 10 * GST_SECOND);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// release the wait
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
|
|
// we should now receive a packet-lost-event for buffers 1 through 489
|
|
out_event = g_async_queue_timeout_pop (data.event_queue, timeout);
|
|
g_assert (out_event != NULL);
|
|
g_assert_cmpint (data.lost_event_count, ==, 1);
|
|
verify_lost_event (out_event, 1, 1 * GST_MSECOND * 20, GST_MSECOND * 20 * 489,
|
|
TRUE);
|
|
|
|
// churn through sync_times until the new buffer gets pushed out
|
|
while (g_async_queue_length (data.buf_queue) < 1) {
|
|
if (gst_test_clock_peek_next_pending_id (GST_TEST_CLOCK (data.clock), &id)) {
|
|
if (id.time > gst_clock_get_time (data.clock)) {
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), id.time);
|
|
g_print ("setting time to %" GST_TIME_FORMAT "\n",
|
|
GST_TIME_ARGS (id.time));
|
|
}
|
|
gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock));
|
|
}
|
|
}
|
|
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert (GST_BUFFER_FLAG_IS_SET (out_buf, GST_BUFFER_FLAG_DISCONT));
|
|
g_assert_cmpint (gst_rtp_buffer_get_seq (out_buf), ==, 500);
|
|
g_assert_cmpint (GST_BUFFER_TIMESTAMP (out_buf), ==, (10 * GST_SECOND));
|
|
|
|
// we get as many lost events as the the number of buffers the jitterbuffer
|
|
// is able to wait for (+ the one we already got)
|
|
g_assert_cmpint (data.lost_event_count, ==,
|
|
jb_latency_ms / buffer_size_ms + 1);
|
|
|
|
destroy_testharness (&data);
|
|
}
|
|
|
|
GST_END_TEST;
|
|
|
|
GST_START_TEST (test_two_lost_one_arrives_in_time)
|
|
{
|
|
TestData data;
|
|
GstTestClockPendingID id;
|
|
guint64 timeout;
|
|
GstBuffer *in_buf, *out_buf;
|
|
GstEvent *out_event;
|
|
gint jb_latency_ms = 10;
|
|
GstClockTime buffer_time;
|
|
gint b;
|
|
|
|
setup_testharness (&data);
|
|
timeout = 20 * G_USEC_PER_SEC;
|
|
|
|
g_object_set (data.jitter_buffer, "latency", jb_latency_ms, NULL);
|
|
|
|
// push the first buffer in
|
|
in_buf = generate_test_buffer (0 * GST_MSECOND, TRUE, 0, 0);
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), 0);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock),
|
|
jb_latency_ms * GST_MSECOND);
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
|
|
// push some buffers arriving in perfect time!
|
|
for (b = 1; b < 3; b++) {
|
|
buffer_time = b * GST_MSECOND * 20;
|
|
in_buf = generate_test_buffer (buffer_time, TRUE, b, b * 160);
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), buffer_time);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// check for the buffer coming out that was pushed in
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert_cmpint (GST_BUFFER_TIMESTAMP (out_buf), ==, buffer_time);
|
|
}
|
|
|
|
// hop over 2 packets and make another one (gap of 2)
|
|
b = 5;
|
|
buffer_time = b * GST_MSECOND * 20;
|
|
in_buf = generate_test_buffer (buffer_time, TRUE, b, b * 160);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// verify that the jitterbuffer now wait for the latest moment it can push
|
|
// the first lost buffer (buffer 3) out on (buffer-timestamp (60) + latency (10) = 70)
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
g_assert_cmpint (id.time, ==,
|
|
(3 * GST_MSECOND * 20) + (jb_latency_ms * GST_MSECOND));
|
|
|
|
// let the time expire...
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), id.time);
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
|
|
// we should now receive a packet-lost-event for buffer 3
|
|
out_event = g_async_queue_timeout_pop (data.event_queue, timeout);
|
|
g_assert (out_event != NULL);
|
|
g_assert_cmpint (data.lost_event_count, ==, 1);
|
|
verify_lost_event (out_event, 3, 3 * GST_MSECOND * 20, GST_MSECOND * 20,
|
|
FALSE);
|
|
|
|
// buffer 4 now arrives just in time (time is 70, buffer 4 expires at 90)
|
|
b = 4;
|
|
buffer_time = b * GST_MSECOND * 20;
|
|
in_buf = generate_test_buffer (buffer_time, TRUE, b, b * 160);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// verify that buffer 4 made it through!
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert (GST_BUFFER_FLAG_IS_SET (out_buf, GST_BUFFER_FLAG_DISCONT));
|
|
g_assert_cmpint (gst_rtp_buffer_get_seq (out_buf), ==, 4);
|
|
|
|
// and see that buffer 5 now arrives in a normal fashion
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert (!GST_BUFFER_FLAG_IS_SET (out_buf, GST_BUFFER_FLAG_DISCONT));
|
|
g_assert_cmpint (gst_rtp_buffer_get_seq (out_buf), ==, 5);
|
|
|
|
// should still have only seen 1 packet lost event
|
|
g_assert_cmpint (data.lost_event_count, ==, 1);
|
|
|
|
destroy_testharness (&data);
|
|
}
|
|
|
|
GST_END_TEST;
|
|
|
|
GST_START_TEST (test_late_packets_still_makes_lost_events)
|
|
{
|
|
TestData data;
|
|
GstTestClockPendingID id;
|
|
guint64 timeout;
|
|
GstBuffer *in_buf, *out_buf;
|
|
GstEvent *out_event;
|
|
gint jb_latency_ms = 10;
|
|
GstClockTime buffer_time;
|
|
gint b;
|
|
|
|
setup_testharness (&data);
|
|
timeout = 20 * G_USEC_PER_SEC;
|
|
|
|
g_object_set (data.jitter_buffer, "latency", jb_latency_ms, NULL);
|
|
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), 10 * GST_SECOND);
|
|
|
|
// push the first buffer in
|
|
in_buf = generate_test_buffer (0 * GST_MSECOND, TRUE, 0, 0);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
|
|
// push some buffers in!
|
|
for (b = 1; b < 3; b++) {
|
|
buffer_time = b * GST_MSECOND * 20;
|
|
in_buf = generate_test_buffer (buffer_time, TRUE, b, b * 160);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// check for the buffer coming out that was pushed in
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert_cmpint (GST_BUFFER_TIMESTAMP (out_buf), ==, buffer_time);
|
|
}
|
|
|
|
// hop over 2 packets and make another one (gap of 2)
|
|
b = 5;
|
|
buffer_time = b * GST_MSECOND * 20;
|
|
in_buf = generate_test_buffer (buffer_time, TRUE, b, b * 160);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// release the wait
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
|
|
// we should now receive a packet-lost-event for buffer 3 and 4
|
|
out_event = g_async_queue_timeout_pop (data.event_queue, timeout);
|
|
g_assert (out_event != NULL);
|
|
g_assert_cmpint (data.lost_event_count, ==, 1);
|
|
verify_lost_event (out_event, 3, 3 * GST_MSECOND * 20, GST_MSECOND * 20 * 2,
|
|
TRUE);
|
|
|
|
// verify that buffer 5 made it through!
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert (GST_BUFFER_FLAG_IS_SET (out_buf, GST_BUFFER_FLAG_DISCONT));
|
|
g_assert_cmpint (gst_rtp_buffer_get_seq (out_buf), ==, 5);
|
|
|
|
// should still have only seen 1 packet lost event
|
|
g_assert_cmpint (data.lost_event_count, ==, 1);
|
|
|
|
destroy_testharness (&data);
|
|
}
|
|
|
|
GST_END_TEST;
|
|
|
|
GST_START_TEST (test_all_packets_are_timestamped_zero)
|
|
{
|
|
TestData data;
|
|
GstTestClockPendingID id;
|
|
guint64 timeout;
|
|
GstBuffer *in_buf, *out_buf;
|
|
GstEvent *out_event;
|
|
gint jb_latency_ms = 10;
|
|
GstClockTime buffer_time;
|
|
gint b;
|
|
|
|
setup_testharness (&data);
|
|
timeout = 20 * G_USEC_PER_SEC;
|
|
|
|
g_object_set (data.jitter_buffer, "latency", jb_latency_ms, NULL);
|
|
|
|
gst_test_clock_set_time (GST_TEST_CLOCK (data.clock), 10 * GST_SECOND);
|
|
|
|
// push the first buffer in
|
|
in_buf = generate_test_buffer (0 * GST_MSECOND, TRUE, 0, 0);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
|
|
// push some buffers in!
|
|
for (b = 1; b < 3; b++) {
|
|
in_buf = generate_test_buffer (0, TRUE, b, 0);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// check for the buffer coming out that was pushed in
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert_cmpint (GST_BUFFER_TIMESTAMP (out_buf), ==, 0);
|
|
}
|
|
|
|
// hop over 2 packets and make another one (gap of 2)
|
|
b = 5;
|
|
in_buf = generate_test_buffer (0, TRUE, b, 0);
|
|
g_assert_cmpint (gst_pad_push (data.test_src_pad, in_buf), ==, GST_FLOW_OK);
|
|
|
|
// release the wait
|
|
g_assert (gst_test_clock_wait_for_next_pending_id (GST_TEST_CLOCK
|
|
(data.clock), &id));
|
|
g_assert (gst_test_clock_process_next_clock_id (GST_TEST_CLOCK (data.clock))
|
|
== id.clock_id);
|
|
|
|
// we should now receive a packet-lost-event for buffer 3 and 4
|
|
out_event = g_async_queue_timeout_pop (data.event_queue, timeout);
|
|
g_assert (out_event != NULL);
|
|
g_assert_cmpint (data.lost_event_count, ==, 1);
|
|
verify_lost_event (out_event, 3, 0, 0, TRUE);
|
|
|
|
// verify that buffer 5 made it through!
|
|
out_buf = g_async_queue_timeout_pop (data.buf_queue, timeout);
|
|
g_assert (out_buf != NULL);
|
|
g_assert (GST_BUFFER_FLAG_IS_SET (out_buf, GST_BUFFER_FLAG_DISCONT));
|
|
g_assert_cmpint (gst_rtp_buffer_get_seq (out_buf), ==, 5);
|
|
|
|
// should still have only seen 1 packet lost event
|
|
g_assert_cmpint (data.lost_event_count, ==, 1);
|
|
|
|
destroy_testharness (&data);
|
|
}
|
|
|
|
GST_END_TEST;
|
|
#endif
|
|
|
|
static Suite *
|
|
rtpjitterbuffer_suite (void)
|
|
{
|
|
Suite *s = suite_create ("rtpjitterbuffer");
|
|
TCase *tc_chain = tcase_create ("general");
|
|
|
|
suite_add_tcase (s, tc_chain);
|
|
tcase_add_test (tc_chain, test_push_forward_seq);
|
|
tcase_add_test (tc_chain, test_push_backward_seq);
|
|
tcase_add_test (tc_chain, test_push_unordered);
|
|
tcase_add_test (tc_chain, test_basetime);
|
|
#if 0
|
|
tcase_add_test (tc_chain, test_only_one_lost_event_on_large_gaps);
|
|
tcase_add_test (tc_chain, test_two_lost_one_arrives_in_time);
|
|
tcase_add_test (tc_chain, test_late_packets_still_makes_lost_events);
|
|
tcase_add_test (tc_chain, test_all_packets_are_timestamped_zero);
|
|
#endif
|
|
|
|
/* FIXME: test buffer lists */
|
|
|
|
return s;
|
|
}
|
|
|
|
GST_CHECK_MAIN (rtpjitterbuffer);
|