mirror of
https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs.git
synced 2024-11-26 05:21:00 +00:00
562 lines
17 KiB
Rust
562 lines
17 KiB
Rust
// Copyright (C) 2019 Sebastian Dröge <sebastian@centricular.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 Street, Suite 500,
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// Boston, MA 02110-1335, USA.
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use glib::prelude::*;
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use gst::gst_debug;
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use gst::prelude::*;
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use once_cell::sync::Lazy;
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static TEST_CAT: Lazy<gst::DebugCategory> = Lazy::new(|| {
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gst::DebugCategory::new(
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"fallbackswitch-test",
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gst::DebugColorFlags::empty(),
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Some("fallbackswitch test"),
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)
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});
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fn init() {
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use std::sync::Once;
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static INIT: Once = Once::new();
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INIT.call_once(|| {
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gst::init().unwrap();
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gstfallbackswitch::plugin_register_static().expect("gstfallbackswitch test");
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});
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}
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macro_rules! assert_fallback_buffer {
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($buffer:expr, $ts:expr) => {
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assert_eq!($buffer.get_pts(), $ts);
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assert_eq!($buffer.get_size(), 160 * 120 * 4);
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};
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}
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macro_rules! assert_buffer {
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($buffer:expr, $ts:expr) => {
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assert_eq!($buffer.get_pts(), $ts);
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assert_eq!($buffer.get_size(), 320 * 240 * 4);
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};
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}
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#[test]
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fn test_no_fallback_no_drops() {
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let pipeline = setup_pipeline(None);
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push_buffer(&pipeline, 0.into());
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set_time(&pipeline, 0.into());
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 0.into());
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push_buffer(&pipeline, gst::SECOND);
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set_time(&pipeline, gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, gst::SECOND);
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push_buffer(&pipeline, 2 * gst::SECOND);
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set_time(&pipeline, 2 * gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 2 * gst::SECOND);
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push_eos(&pipeline);
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wait_eos(&pipeline);
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stop_pipeline(pipeline);
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}
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#[test]
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fn test_no_drops_live() {
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test_no_drops(true);
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}
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#[test]
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fn test_no_drops_not_live() {
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test_no_drops(false);
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}
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fn test_no_drops(live: bool) {
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let pipeline = setup_pipeline(Some(live));
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push_buffer(&pipeline, 0.into());
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push_fallback_buffer(&pipeline, 0.into());
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set_time(&pipeline, 0.into());
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 0.into());
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push_fallback_buffer(&pipeline, gst::SECOND);
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push_buffer(&pipeline, gst::SECOND);
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set_time(&pipeline, gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, gst::SECOND);
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push_buffer(&pipeline, 2 * gst::SECOND);
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push_fallback_buffer(&pipeline, 2 * gst::SECOND);
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set_time(&pipeline, 2 * gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 2 * gst::SECOND);
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// EOS on the fallback should not be required
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push_eos(&pipeline);
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wait_eos(&pipeline);
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stop_pipeline(pipeline);
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}
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#[test]
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fn test_no_drops_but_no_fallback_frames_live() {
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test_no_drops_but_no_fallback_frames(true);
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}
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#[test]
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fn test_no_drops_but_no_fallback_frames_not_live() {
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test_no_drops_but_no_fallback_frames(false);
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}
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fn test_no_drops_but_no_fallback_frames(live: bool) {
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let pipeline = setup_pipeline(Some(live));
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push_buffer(&pipeline, 0.into());
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// +10ms needed here because the immediate timeout will be always at running time 0, but
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// aggregator also adds the latency to it so we end up at 10ms instead.
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set_time(&pipeline, 10 * gst::MSECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 0.into());
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push_buffer(&pipeline, gst::SECOND);
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set_time(&pipeline, gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, gst::SECOND);
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push_buffer(&pipeline, 2 * gst::SECOND);
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set_time(&pipeline, 2 * gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 2 * gst::SECOND);
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// EOS on the fallback should not be required
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push_eos(&pipeline);
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wait_eos(&pipeline);
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stop_pipeline(pipeline);
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}
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#[test]
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fn test_short_drop_live() {
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test_short_drop(true);
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}
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#[test]
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fn test_short_drop_not_live() {
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test_short_drop(false);
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}
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fn test_short_drop(live: bool) {
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let pipeline = setup_pipeline(Some(live));
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push_buffer(&pipeline, 0.into());
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push_fallback_buffer(&pipeline, 0.into());
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set_time(&pipeline, 0.into());
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 0.into());
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// A timeout at 1s will get rid of the fallback buffer
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// but not output anything
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push_fallback_buffer(&pipeline, gst::SECOND);
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// Time out the fallback buffer at +10ms
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set_time(&pipeline, gst::SECOND + 10 * gst::MSECOND);
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push_fallback_buffer(&pipeline, 2 * gst::SECOND);
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push_buffer(&pipeline, 2 * gst::SECOND);
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set_time(&pipeline, 2 * gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 2 * gst::SECOND);
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push_eos(&pipeline);
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push_fallback_eos(&pipeline);
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wait_eos(&pipeline);
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stop_pipeline(pipeline);
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}
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#[test]
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fn test_long_drop_and_eos_live() {
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test_long_drop_and_eos(true);
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}
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#[test]
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fn test_long_drop_and_eos_not_live() {
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test_long_drop_and_eos(false);
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}
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fn test_long_drop_and_eos(live: bool) {
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let pipeline = setup_pipeline(Some(live));
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// Produce the first frame
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push_buffer(&pipeline, 0.into());
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push_fallback_buffer(&pipeline, 0.into());
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set_time(&pipeline, 0.into());
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 0.into());
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// Produce a second frame but only from the fallback source
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push_fallback_buffer(&pipeline, gst::SECOND);
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set_time(&pipeline, gst::SECOND + 10 * gst::MSECOND);
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// Produce a third frame but only from the fallback source
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push_fallback_buffer(&pipeline, 2 * gst::SECOND);
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set_time(&pipeline, 2 * gst::SECOND + 10 * gst::MSECOND);
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// Produce a fourth frame but only from the fallback source
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// This should be output now
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push_fallback_buffer(&pipeline, 3 * gst::SECOND);
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set_time(&pipeline, 3 * gst::SECOND + 10 * gst::MSECOND);
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let buffer = pull_buffer(&pipeline);
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assert_fallback_buffer!(buffer, 3 * gst::SECOND);
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// Produce a fifth frame but only from the fallback source
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// This should be output now
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push_fallback_buffer(&pipeline, 4 * gst::SECOND);
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set_time(&pipeline, 4 * gst::SECOND + 10 * gst::MSECOND);
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let buffer = pull_buffer(&pipeline);
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assert_fallback_buffer!(buffer, 4 * gst::SECOND);
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// Wait for EOS to arrive at appsink
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push_eos(&pipeline);
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push_fallback_eos(&pipeline);
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wait_eos(&pipeline);
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stop_pipeline(pipeline);
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}
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#[test]
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fn test_long_drop_and_recover_live() {
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test_long_drop_and_recover(true);
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}
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#[test]
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fn test_long_drop_and_recover_not_live() {
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test_long_drop_and_recover(false);
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}
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fn test_long_drop_and_recover(live: bool) {
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let pipeline = setup_pipeline(Some(live));
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// Produce the first frame
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push_buffer(&pipeline, 0.into());
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push_fallback_buffer(&pipeline, 0.into());
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set_time(&pipeline, 0.into());
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 0.into());
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// Produce a second frame but only from the fallback source
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push_fallback_buffer(&pipeline, gst::SECOND);
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set_time(&pipeline, gst::SECOND + 10 * gst::MSECOND);
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// Produce a third frame but only from the fallback source
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push_fallback_buffer(&pipeline, 2 * gst::SECOND);
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set_time(&pipeline, 2 * gst::SECOND + 10 * gst::MSECOND);
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// Produce a fourth frame but only from the fallback source
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// This should be output now
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push_fallback_buffer(&pipeline, 3 * gst::SECOND);
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set_time(&pipeline, 3 * gst::SECOND + 10 * gst::MSECOND);
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let buffer = pull_buffer(&pipeline);
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assert_fallback_buffer!(buffer, 3 * gst::SECOND);
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// Produce a fifth frame but only from the fallback source
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// This should be output now
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push_fallback_buffer(&pipeline, 4 * gst::SECOND);
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set_time(&pipeline, 4 * gst::SECOND + 10 * gst::MSECOND);
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let buffer = pull_buffer(&pipeline);
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assert_fallback_buffer!(buffer, 4 * gst::SECOND);
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// Produce a sixth frame from the normal source
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push_buffer(&pipeline, 5 * gst::SECOND);
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push_fallback_buffer(&pipeline, 5 * gst::SECOND);
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set_time(&pipeline, 5 * gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 5 * gst::SECOND);
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// Produce a seventh frame from the normal source but no fallback.
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// This should still be output immediately
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push_buffer(&pipeline, 6 * gst::SECOND);
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set_time(&pipeline, 6 * gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 6 * gst::SECOND);
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// Produce a eight frame from the normal source
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push_buffer(&pipeline, 7 * gst::SECOND);
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push_fallback_buffer(&pipeline, 7 * gst::SECOND);
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set_time(&pipeline, 7 * gst::SECOND);
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let buffer = pull_buffer(&pipeline);
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assert_buffer!(buffer, 7 * gst::SECOND);
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// Wait for EOS to arrive at appsink
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push_eos(&pipeline);
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push_fallback_eos(&pipeline);
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wait_eos(&pipeline);
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stop_pipeline(pipeline);
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}
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struct Pipeline {
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pipeline: gst::Pipeline,
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clock_join_handle: Option<std::thread::JoinHandle<()>>,
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}
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impl std::ops::Deref for Pipeline {
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type Target = gst::Pipeline;
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fn deref(&self) -> &gst::Pipeline {
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&self.pipeline
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}
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}
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fn setup_pipeline(with_live_fallback: Option<bool>) -> Pipeline {
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init();
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gst_debug!(TEST_CAT, "Setting up pipeline");
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let clock = gst_check::TestClock::new();
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clock.set_time(0.into());
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let pipeline = gst::Pipeline::new(None);
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// Running time 0 in our pipeline is going to be clock time 1s. All
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// clock ids before 1s are used for signalling to our clock advancing
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// thread.
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pipeline.use_clock(Some(&clock));
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pipeline.set_base_time(gst::SECOND);
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pipeline.set_start_time(gst::CLOCK_TIME_NONE);
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let src = gst::ElementFactory::make("appsrc", Some("src"))
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.unwrap()
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.downcast::<gst_app::AppSrc>()
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.unwrap();
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src.set_property("is-live", &true).unwrap();
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src.set_property("format", &gst::Format::Time).unwrap();
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src.set_property("min-latency", &(10i64)).unwrap();
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src.set_property(
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"caps",
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&gst::Caps::builder("video/x-raw")
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.field("format", &"ARGB")
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.field("width", &320)
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.field("height", &240)
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.field("framerate", &gst::Fraction::new(1, 1))
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.build(),
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)
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.unwrap();
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let switch = gst::ElementFactory::make("fallbackswitch", Some("switch")).unwrap();
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switch.set_property("timeout", &(3 * gst::SECOND)).unwrap();
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let sink = gst::ElementFactory::make("appsink", Some("sink"))
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.unwrap()
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.downcast::<gst_app::AppSink>()
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.unwrap();
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sink.set_property("sync", &false).unwrap();
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let queue = gst::ElementFactory::make("queue", None).unwrap();
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pipeline
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.add_many(&[src.upcast_ref(), &switch, &queue, &sink.upcast_ref()])
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.unwrap();
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src.link_pads(Some("src"), &switch, Some("sink")).unwrap();
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switch.link_pads(Some("src"), &queue, Some("sink")).unwrap();
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queue.link_pads(Some("src"), &sink, Some("sink")).unwrap();
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if let Some(live) = with_live_fallback {
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let fallback_src = gst::ElementFactory::make("appsrc", Some("fallback-src"))
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.unwrap()
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.downcast::<gst_app::AppSrc>()
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.unwrap();
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fallback_src.set_property("is-live", &live).unwrap();
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fallback_src
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.set_property("format", &gst::Format::Time)
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.unwrap();
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fallback_src.set_property("min-latency", &(10i64)).unwrap();
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fallback_src
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.set_property(
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"caps",
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&gst::Caps::builder("video/x-raw")
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.field("format", &"ARGB")
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.field("width", &160)
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.field("height", &120)
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.field("framerate", &gst::Fraction::new(1, 1))
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.build(),
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)
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.unwrap();
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pipeline.add(&fallback_src).unwrap();
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fallback_src
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.link_pads(Some("src"), &switch, Some("fallback_sink"))
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.unwrap();
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}
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pipeline.set_state(gst::State::Playing).unwrap();
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let clock_join_handle = std::thread::spawn(move || {
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loop {
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while let Some(clock_id) = clock.peek_next_pending_id().and_then(|clock_id| {
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// Process if the clock ID is in the past or now
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if clock.get_time() >= clock_id.get_time() {
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Some(clock_id)
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} else {
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None
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}
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}) {
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gst_debug!(TEST_CAT, "Processing clock ID at {}", clock_id.get_time());
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if let Some(clock_id) = clock.process_next_clock_id() {
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gst_debug!(TEST_CAT, "Processed clock ID at {}", clock_id.get_time());
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if clock_id.get_time() == 0.into() {
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gst_debug!(TEST_CAT, "Stopping clock thread");
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return;
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}
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}
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}
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// Sleep for 5ms as long as we have pending clock IDs that are in the future
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// at the top of the queue. We don't want to do a busy loop here.
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while clock.peek_next_pending_id().iter().any(|clock_id| {
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// Sleep if the clock ID is in the future
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clock.get_time() < clock_id.get_time()
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}) {
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use std::{thread, time};
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thread::sleep(time::Duration::from_millis(10));
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}
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// Otherwise if there are none (or they are ready now) wait until there are
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// clock ids again
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let _ = clock.wait_for_next_pending_id();
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}
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});
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Pipeline {
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pipeline,
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clock_join_handle: Some(clock_join_handle),
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}
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}
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fn push_buffer(pipeline: &Pipeline, time: gst::ClockTime) {
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let src = pipeline
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.get_by_name("src")
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.unwrap()
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.downcast::<gst_app::AppSrc>()
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.unwrap();
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let mut buffer = gst::Buffer::with_size(320 * 240 * 4).unwrap();
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{
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let buffer = buffer.get_mut().unwrap();
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buffer.set_pts(time);
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}
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src.push_buffer(buffer).unwrap();
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}
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fn push_fallback_buffer(pipeline: &Pipeline, time: gst::ClockTime) {
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let src = pipeline
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.get_by_name("fallback-src")
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.unwrap()
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.downcast::<gst_app::AppSrc>()
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.unwrap();
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let mut buffer = gst::Buffer::with_size(160 * 120 * 4).unwrap();
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{
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let buffer = buffer.get_mut().unwrap();
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buffer.set_pts(time);
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}
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src.push_buffer(buffer).unwrap();
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}
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fn push_eos(pipeline: &Pipeline) {
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let src = pipeline
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.get_by_name("src")
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.unwrap()
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.downcast::<gst_app::AppSrc>()
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.unwrap();
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src.end_of_stream().unwrap();
|
|
}
|
|
|
|
fn push_fallback_eos(pipeline: &Pipeline) {
|
|
let src = pipeline
|
|
.get_by_name("fallback-src")
|
|
.unwrap()
|
|
.downcast::<gst_app::AppSrc>()
|
|
.unwrap();
|
|
src.end_of_stream().unwrap();
|
|
}
|
|
|
|
fn pull_buffer(pipeline: &Pipeline) -> gst::Buffer {
|
|
let sink = pipeline
|
|
.get_by_name("sink")
|
|
.unwrap()
|
|
.downcast::<gst_app::AppSink>()
|
|
.unwrap();
|
|
let sample = sink.pull_sample().unwrap();
|
|
sample.get_buffer_owned().unwrap()
|
|
}
|
|
|
|
fn set_time(pipeline: &Pipeline, time: gst::ClockTime) {
|
|
let clock = pipeline
|
|
.get_clock()
|
|
.unwrap()
|
|
.downcast::<gst_check::TestClock>()
|
|
.unwrap();
|
|
|
|
gst_debug!(TEST_CAT, "Setting time to {}", time);
|
|
clock.set_time(gst::SECOND + time);
|
|
}
|
|
|
|
fn wait_eos(pipeline: &Pipeline) {
|
|
let sink = pipeline
|
|
.get_by_name("sink")
|
|
.unwrap()
|
|
.downcast::<gst_app::AppSink>()
|
|
.unwrap();
|
|
// FIXME: Ideally without a sleep
|
|
loop {
|
|
use std::{thread, time};
|
|
|
|
if sink.is_eos() {
|
|
gst_debug!(TEST_CAT, "Waited for EOS");
|
|
break;
|
|
}
|
|
thread::sleep(time::Duration::from_millis(10));
|
|
}
|
|
}
|
|
|
|
fn stop_pipeline(mut pipeline: Pipeline) {
|
|
pipeline.set_state(gst::State::Null).unwrap();
|
|
|
|
let clock = pipeline
|
|
.get_clock()
|
|
.unwrap()
|
|
.downcast::<gst_check::TestClock>()
|
|
.unwrap();
|
|
|
|
// Signal shutdown to the clock thread
|
|
let clock_id = clock.new_single_shot_id(0.into());
|
|
let _ = clock_id.wait();
|
|
|
|
let switch = pipeline.get_by_name("switch").unwrap();
|
|
let switch_weak = switch.downgrade();
|
|
drop(switch);
|
|
let pipeline_weak = pipeline.downgrade();
|
|
|
|
pipeline.clock_join_handle.take().unwrap().join().unwrap();
|
|
drop(pipeline);
|
|
|
|
assert!(switch_weak.upgrade().is_none());
|
|
assert!(pipeline_weak.upgrade().is_none());
|
|
}
|