// Copyright (C) 2019 François Laignel // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Library General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Library General Public License for more details. // // You should have received a copy of the GNU Library General Public // License along with this library; if not, write to the // Free Software Foundation, Inc., 51 Franklin Street, Suite 500, // Boston, MA 02110-1335, USA. // // SPDX-License-Identifier: LGPL-2.1-or-later use gst::glib; use gst::prelude::*; use once_cell::sync::Lazy; use std::sync::mpsc; static CAT: Lazy = Lazy::new(|| { gst::DebugCategory::new( "ts-test", gst::DebugColorFlags::empty(), Some("Thread-sharing test"), ) }); fn init() { use std::sync::Once; static INIT: Once = Once::new(); INIT.call_once(|| { gst::init().unwrap(); gstthreadshare::plugin_register_static().expect("gstthreadshare pipeline test"); }); } #[test] #[cfg(not(windows))] fn multiple_contexts_queue() { use std::net; use std::net::{IpAddr, Ipv4Addr, SocketAddr}; use std::sync::mpsc; init(); const CONTEXT_NB: u32 = 2; const SRC_NB: u16 = 4; const CONTEXT_WAIT: u32 = 1; const BUFFER_NB: u32 = 3; const FIRST_PORT: u16 = 40000; let l = glib::MainLoop::new(None, false); let pipeline = gst::Pipeline::default(); let (sender, receiver) = mpsc::channel(); for i in 0..SRC_NB { let src = gst::ElementFactory::make("ts-udpsrc") .name(format!("src-{i}").as_str()) .property("context", format!("context-{}", (i as u32) % CONTEXT_NB)) .property("context-wait", CONTEXT_WAIT) .property("port", (FIRST_PORT + i) as i32) .build() .unwrap(); let queue = gst::ElementFactory::make("ts-queue") .name(format!("queue-{i}").as_str()) .property("context", format!("context-{}", (i as u32) % CONTEXT_NB)) .property("context-wait", CONTEXT_WAIT) .build() .unwrap(); let sink = gst_app::AppSink::builder() .name(format!("sink-{i}").as_str()) .sync(false) .async_(false) .build(); pipeline .add_many(&[&src, &queue, sink.upcast_ref()]) .unwrap(); gst::Element::link_many(&[&src, &queue, sink.upcast_ref()]).unwrap(); let sender_clone = sender.clone(); sink.set_callbacks( gst_app::AppSinkCallbacks::builder() .new_sample(move |appsink| { let _sample = appsink.pull_sample().unwrap(); sender_clone.send(()).unwrap(); Ok(gst::FlowSuccess::Ok) }) .build(), ); } let pipeline_clone = pipeline.clone(); let l_clone = l.clone(); let mut test_scenario = Some(move || { let buffer = [0; 160]; let socket = net::UdpSocket::bind("0.0.0.0:0").unwrap(); let ipaddr = IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)); let destinations = (FIRST_PORT..(FIRST_PORT + SRC_NB)) .map(|port| SocketAddr::new(ipaddr, port)) .collect::>(); for _ in 0..BUFFER_NB { for dest in &destinations { gst::debug!(CAT, "multiple_contexts_queue: sending buffer to {:?}", dest); socket.send_to(&buffer, dest).unwrap(); std::thread::sleep(std::time::Duration::from_millis(CONTEXT_WAIT as u64)); } } gst::debug!( CAT, "multiple_contexts_queue: waiting for all buffers notifications" ); for _ in 0..(BUFFER_NB * (SRC_NB as u32)) { receiver.recv().unwrap(); } pipeline_clone.set_state(gst::State::Null).unwrap(); l_clone.quit(); }); let bus = pipeline.bus().unwrap(); let l_clone = l.clone(); bus.add_watch(move |_, msg| { use gst::MessageView; match msg.view() { MessageView::StateChanged(state_changed) => { if let Some(source) = state_changed.src() { if source.type_() == gst::Pipeline::static_type() && state_changed.old() == gst::State::Paused && state_changed.current() == gst::State::Playing { if let Some(test_scenario) = test_scenario.take() { std::thread::spawn(test_scenario); } } } } MessageView::Error(err) => { gst::error!( CAT, "multiple_contexts_queue: Error from {:?}: {} ({:?})", err.src().map(|s| s.path_string()), err.error(), err.debug() ); l_clone.quit(); } _ => (), }; glib::Continue(true) }) .unwrap(); pipeline.set_state(gst::State::Playing).unwrap(); gst::debug!(CAT, "Starting main loop for multiple_contexts_queue..."); l.run(); gst::debug!(CAT, "Stopping main loop for multiple_contexts_queue..."); } #[test] #[cfg(not(windows))] fn multiple_contexts_proxy() { use std::net; use std::net::{IpAddr, Ipv4Addr, SocketAddr}; init(); const CONTEXT_NB: u32 = 2; const SRC_NB: u16 = 4; const CONTEXT_WAIT: u32 = 1; const BUFFER_NB: u32 = 3; // Don't overlap with `multiple_contexts_queue` const OFFSET: u16 = 10; const FIRST_PORT: u16 = 40000 + OFFSET; let l = glib::MainLoop::new(None, false); let pipeline = gst::Pipeline::default(); let (sender, receiver) = mpsc::channel(); for i in 0..SRC_NB { let pipeline_index = i + OFFSET; let src = gst::ElementFactory::make("ts-udpsrc") .name(format!("src-{pipeline_index}").as_str()) .property("context", format!("context-{}", (i as u32) % CONTEXT_NB)) .property("context-wait", CONTEXT_WAIT) .property("port", (FIRST_PORT + i) as i32) .build() .unwrap(); let proxysink = gst::ElementFactory::make("ts-proxysink") .name(format!("proxysink-{pipeline_index}").as_str()) .property("proxy-context", format!("proxy-{pipeline_index}")) .build() .unwrap(); let proxysrc = gst::ElementFactory::make("ts-proxysrc") .name(format!("proxysrc-{pipeline_index}").as_str()) .property( "context", &format!("context-{}", (pipeline_index as u32) % CONTEXT_NB), ) .property("proxy-context", format!("proxy-{pipeline_index}")) .build() .unwrap(); let sink = gst_app::AppSink::builder() .name(format!("sink-{pipeline_index}").as_str()) .sync(false) .async_(false) .build(); pipeline .add_many(&[&src, &proxysink, &proxysrc, sink.upcast_ref()]) .unwrap(); src.link(&proxysink).unwrap(); proxysrc.link(&sink).unwrap(); let sender_clone = sender.clone(); sink.set_callbacks( gst_app::AppSinkCallbacks::builder() .new_sample(move |appsink| { let _sample = appsink.pull_sample().unwrap(); sender_clone.send(()).unwrap(); Ok(gst::FlowSuccess::Ok) }) .build(), ); } let pipeline_clone = pipeline.clone(); let l_clone = l.clone(); let mut test_scenario = Some(move || { let buffer = [0; 160]; let socket = net::UdpSocket::bind("0.0.0.0:0").unwrap(); let ipaddr = IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)); let destinations = (FIRST_PORT..(FIRST_PORT + SRC_NB)) .map(|port| SocketAddr::new(ipaddr, port)) .collect::>(); for _ in 0..BUFFER_NB { for dest in &destinations { gst::debug!(CAT, "multiple_contexts_proxy: sending buffer to {:?}", dest); socket.send_to(&buffer, dest).unwrap(); std::thread::sleep(std::time::Duration::from_millis(CONTEXT_WAIT as u64)); } } gst::debug!( CAT, "multiple_contexts_proxy: waiting for all buffers notifications" ); for _ in 0..(BUFFER_NB * (SRC_NB as u32)) { receiver.recv().unwrap(); } pipeline_clone.set_state(gst::State::Null).unwrap(); l_clone.quit(); }); let bus = pipeline.bus().unwrap(); let l_clone = l.clone(); bus.add_watch(move |_, msg| { use gst::MessageView; match msg.view() { MessageView::StateChanged(state_changed) => { if let Some(source) = state_changed.src() { if source.type_() == gst::Pipeline::static_type() && state_changed.old() == gst::State::Paused && state_changed.current() == gst::State::Playing { if let Some(test_scenario) = test_scenario.take() { std::thread::spawn(test_scenario); } } } } MessageView::Error(err) => { gst::error!( CAT, "multiple_contexts_proxy: Error from {:?}: {} ({:?})", err.src().map(|s| s.path_string()), err.error(), err.debug() ); l_clone.quit(); } _ => (), }; glib::Continue(true) }) .unwrap(); pipeline.set_state(gst::State::Playing).unwrap(); gst::debug!(CAT, "Starting main loop for multiple_contexts_proxy..."); l.run(); gst::debug!(CAT, "Stopping main loop for multiple_contexts_proxy..."); } #[test] fn eos() { const CONTEXT: &str = "test_eos"; init(); let l = glib::MainLoop::new(None, false); let pipeline = gst::Pipeline::default(); let caps = gst::Caps::builder("foo/bar").build(); let src = gst::ElementFactory::make("ts-appsrc") .name("src-eos") .property("caps", &caps) .property("do-timestamp", true) .property("context", CONTEXT) .build() .unwrap(); let queue = gst::ElementFactory::make("ts-queue") .name("queue-eos") .property("context", CONTEXT) .build() .unwrap(); let sink = gst_app::AppSink::builder() .name("sink-eos") .sync(false) .async_(false) .build(); pipeline .add_many(&[&src, &queue, sink.upcast_ref()]) .unwrap(); gst::Element::link_many(&[&src, &queue, sink.upcast_ref()]).unwrap(); let (sample_notifier, sample_notif_rcv) = mpsc::channel(); let (eos_notifier, eos_notif_rcv) = mpsc::channel(); sink.set_callbacks( gst_app::AppSinkCallbacks::builder() .new_sample(move |appsink| { gst::debug!(CAT, obj: appsink, "eos: pulling sample"); let _ = appsink.pull_sample().unwrap(); sample_notifier.send(()).unwrap(); Ok(gst::FlowSuccess::Ok) }) .eos(move |_appsink| eos_notifier.send(()).unwrap()) .build(), ); fn push_buffer(src: &gst::Element) -> bool { gst::debug!(CAT, obj: src, "eos: pushing buffer"); src.emit_by_name::("push-buffer", &[&gst::Buffer::from_slice(vec![0; 1024])]) } let pipeline_clone = pipeline.clone(); let l_clone = l.clone(); let mut scenario = Some(move || { // Initialize the dataflow assert!(push_buffer(&src)); sample_notif_rcv.recv().unwrap(); assert!(src.emit_by_name::("end-of-stream", &[])); eos_notif_rcv.recv().unwrap(); // FIXME not ideal, but better than previous approach. // I think the "end-of-stream" signal should block // until the **src** element has actually reached EOS loop { std::thread::sleep(std::time::Duration::from_millis(10)); if !push_buffer(&src) { break; } } pipeline_clone.set_state(gst::State::Null).unwrap(); l_clone.quit(); }); let l_clone = l.clone(); pipeline .bus() .unwrap() .add_watch(move |_, msg| { use gst::MessageView; match msg.view() { MessageView::StateChanged(state_changed) => { if let Some(source) = state_changed.src() { if source.type_() != gst::Pipeline::static_type() { return glib::Continue(true); } if state_changed.old() == gst::State::Paused && state_changed.current() == gst::State::Playing { if let Some(scenario) = scenario.take() { std::thread::spawn(scenario); } } } } MessageView::Error(err) => { gst::error!( CAT, "eos: Error from {:?}: {} ({:?})", err.src().map(|s| s.path_string()), err.error(), err.debug() ); l_clone.quit(); } _ => (), }; glib::Continue(true) }) .unwrap(); pipeline.set_state(gst::State::Playing).unwrap(); gst::debug!(CAT, "Starting main loop for eos..."); l.run(); gst::debug!(CAT, "Stopping main loop for eos..."); } #[test] fn premature_shutdown() { init(); const APPSRC_CONTEXT_WAIT: u32 = 0; const QUEUE_CONTEXT_WAIT: u32 = 1; const QUEUE_ITEMS_CAPACITY: u32 = 1; let l = glib::MainLoop::new(None, false); let pipeline = gst::Pipeline::default(); let caps = gst::Caps::builder("foo/bar").build(); let src = gst::ElementFactory::make("ts-appsrc") .name("src-ps") .property("caps", &caps) .property("do-timestamp", true) .property("context", "appsrc-context") .property("context-wait", APPSRC_CONTEXT_WAIT) .build() .unwrap(); let queue = gst::ElementFactory::make("ts-queue") .name("queue-ps") .property("context", "queue-context") .property("context-wait", QUEUE_CONTEXT_WAIT) .property("max-size-buffers", QUEUE_ITEMS_CAPACITY) .build() .unwrap(); let sink = gst_app::AppSink::builder() .name("sink-ps") .sync(false) .async_(false) .build(); pipeline .add_many(&[&src, &queue, sink.upcast_ref()]) .unwrap(); gst::Element::link_many(&[&src, &queue, sink.upcast_ref()]).unwrap(); let (appsink_sender, appsink_receiver) = mpsc::channel(); sink.set_callbacks( gst_app::AppSinkCallbacks::builder() .new_sample(move |appsink| { gst::debug!(CAT, obj: appsink, "premature_shutdown: pulling sample"); let _sample = appsink.pull_sample().unwrap(); appsink_sender.send(()).unwrap(); Ok(gst::FlowSuccess::Ok) }) .build(), ); fn push_buffer(src: &gst::Element, intent: &str) -> bool { gst::debug!( CAT, obj: src, "premature_shutdown: pushing buffer {}", intent ); src.emit_by_name::("push-buffer", &[&gst::Buffer::from_slice(vec![0; 1024])]) } let pipeline_clone = pipeline.clone(); let l_clone = l.clone(); let mut scenario = Some(move || { gst::debug!(CAT, "premature_shutdown: STEP 1: Playing"); // Initialize the dataflow assert!(push_buffer(&src, "(initial)")); // Wait for the buffer to reach AppSink appsink_receiver.recv().unwrap(); assert_eq!( appsink_receiver.try_recv().unwrap_err(), mpsc::TryRecvError::Empty ); assert!(push_buffer(&src, "before Playing -> Paused")); gst::debug!(CAT, "premature_shutdown: STEP 2: Playing -> Paused"); pipeline_clone.set_state(gst::State::Paused).unwrap(); gst::debug!(CAT, "premature_shutdown: STEP 3: Paused -> Playing"); pipeline_clone.set_state(gst::State::Playing).unwrap(); gst::debug!(CAT, "premature_shutdown: Playing again"); gst::debug!(CAT, "Waiting for buffer sent before Playing -> Paused"); appsink_receiver.recv().unwrap(); assert!(push_buffer(&src, "after Paused -> Playing")); gst::debug!(CAT, "Waiting for buffer sent after Paused -> Playing"); appsink_receiver.recv().unwrap(); // Fill up the (dataqueue) and abruptly shutdown assert!(push_buffer(&src, "filling 1")); assert!(push_buffer(&src, "filling 2")); gst::debug!(CAT, "premature_shutdown: STEP 4: Playing -> Null"); pipeline_clone.set_state(gst::State::Null).unwrap(); assert!(!push_buffer(&src, "after Null")); l_clone.quit(); }); let l_clone = l.clone(); pipeline .bus() .unwrap() .add_watch(move |_, msg| { use gst::MessageView; match msg.view() { MessageView::StateChanged(state_changed) => { if let Some(source) = state_changed.src() { if source.type_() != gst::Pipeline::static_type() { return glib::Continue(true); } if state_changed.old() == gst::State::Paused && state_changed.current() == gst::State::Playing { if let Some(scenario) = scenario.take() { std::thread::spawn(scenario); } } } } MessageView::Error(err) => { gst::error!( CAT, "premature_shutdown: Error from {:?}: {} ({:?})", err.src().map(|s| s.path_string()), err.error(), err.debug() ); l_clone.quit(); } _ => (), }; glib::Continue(true) }) .unwrap(); pipeline.set_state(gst::State::Playing).unwrap(); gst::debug!(CAT, "Starting main loop for premature_shutdown..."); l.run(); gst::debug!(CAT, "Stopped main loop for premature_shutdown..."); } #[test] fn socket_play_null_play() { use gio::{ prelude::SocketExt, InetAddress, InetSocketAddress, SocketFamily, SocketProtocol, SocketType, }; const TEST: &str = "socket_play_null_play"; init(); let l = glib::MainLoop::new(None, false); let pipeline = gst::Pipeline::default(); let socket = gio::Socket::new( SocketFamily::Ipv4, SocketType::Datagram, SocketProtocol::Udp, ) .unwrap(); socket .bind( &InetSocketAddress::new(&InetAddress::from_string("127.0.0.1").unwrap(), 4500), true, ) .unwrap(); let sink = gst::ElementFactory::make("ts-udpsink") .name(format!("sink-{TEST}").as_str()) .property("socket", &socket) .property("context", TEST) .property("context-wait", 20u32) .build() .unwrap(); pipeline.add(&sink).unwrap(); let pipeline_clone = pipeline.clone(); let l_clone = l.clone(); let (sender, receiver) = std::sync::mpsc::channel(); let mut scenario = Some(move || { gst::debug!(CAT, "{}: to Null", TEST); pipeline_clone.set_state(gst::State::Null).unwrap(); gst::debug!(CAT, "{}: Play again", TEST); let res = pipeline_clone.set_state(gst::State::Playing); l_clone.quit(); sender.send(res).unwrap(); }); let l_clone = l.clone(); pipeline .bus() .unwrap() .add_watch(move |_, msg| { use gst::MessageView; match msg.view() { MessageView::StateChanged(state_changed) => { if let Some(source) = state_changed.src() { if source.type_() != gst::Pipeline::static_type() { return glib::Continue(true); } if state_changed.old() == gst::State::Paused && state_changed.current() == gst::State::Playing { if let Some(scenario) = scenario.take() { std::thread::spawn(scenario); } } } } MessageView::Error(err) => { gst::error!( CAT, "{}: Error from {:?}: {} ({:?})", TEST, err.src().map(|s| s.path_string()), err.error(), err.debug() ); l_clone.quit(); } _ => (), }; glib::Continue(true) }) .unwrap(); gst::debug!(CAT, "{}: Playing", TEST); pipeline.set_state(gst::State::Playing).unwrap(); gst::debug!(CAT, "Starting main loop for {}...", TEST); l.run(); gst::debug!(CAT, "Stopping main loop for {}...", TEST); let _ = pipeline.set_state(gst::State::Null); if let Err(err) = receiver.recv().unwrap() { panic!("{TEST}: {err}"); } }