gst-plugins-rs/gst-plugin-threadshare/tests/pad.rs
2020-03-19 11:18:17 +02:00

945 lines
28 KiB
Rust

// Copyright (C) 2019-2020 François Laignel <fengalin@free.fr>
// Copyright (C) 2020 Sebastian Dröge <sebastian@centricular.com>
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Library General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Library General Public License for more details.
//
// You should have received a copy of the GNU Library General Public
// License along with this library; if not, write to the
// Free Software Foundation, Inc., 51 Franklin Street, Suite 500,
// Boston, MA 02110-1335, USA.
use futures::channel::mpsc;
use futures::future::BoxFuture;
use futures::lock::Mutex as FutMutex;
use futures::prelude::*;
use glib;
use glib::GBoxed;
use glib::{glib_object_impl, glib_object_subclass};
use gst;
use gst::prelude::*;
use gst::subclass::prelude::*;
use gst::EventView;
use gst::{gst_debug, gst_error_msg, gst_log};
use lazy_static::lazy_static;
use std::boxed::Box;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::{Arc, Mutex};
use gstthreadshare::runtime::prelude::*;
use gstthreadshare::runtime::{Context, PadSink, PadSinkRef, PadSrc, PadSrcRef};
const DEFAULT_CONTEXT: &str = "";
const THROTTLING_DURATION: u32 = 2;
fn init() {
use std::sync::Once;
static INIT: Once = Once::new();
INIT.call_once(|| {
gst::init().unwrap();
gstthreadshare::plugin_register_static().expect("gstthreadshare pad test");
});
}
// Src
static SRC_PROPERTIES: [glib::subclass::Property; 1] =
[glib::subclass::Property("context", |name| {
glib::ParamSpec::string(
name,
"Context",
"Context name to share threads with",
Some(DEFAULT_CONTEXT),
glib::ParamFlags::READWRITE,
)
})];
#[derive(Clone, Debug)]
struct Settings {
context: String,
}
lazy_static! {
static ref SRC_CAT: gst::DebugCategory = gst::DebugCategory::new(
"ts-element-src-test",
gst::DebugColorFlags::empty(),
Some("Thread-sharing Test Src Element"),
);
}
#[derive(Clone, Debug, Default)]
struct PadSrcHandlerTest;
impl PadSrcHandlerTest {
fn start_task(&self, pad: PadSrcRef<'_>, receiver: mpsc::Receiver<Item>) {
gst_debug!(SRC_CAT, obj: pad.gst_pad(), "SrcPad task starting");
let pad_weak = pad.downgrade();
let receiver = Arc::new(FutMutex::new(receiver));
pad.start_task(move || {
let pad_weak = pad_weak.clone();
let receiver = Arc::clone(&receiver);
async move {
let pad = pad_weak.upgrade().expect("PadSrc no longer exists");
let item = {
let mut receiver = receiver.lock().await;
match receiver.next().await {
Some(item) => item,
None => {
gst_debug!(SRC_CAT, obj: pad.gst_pad(), "SrcPad channel aborted");
return glib::Continue(false);
}
}
};
// We could also check here first if we're flushing but as we're not doing anything
// complicated below we can just defer that to the pushing function
match Self::push_item(pad, item).await {
Ok(_) => glib::Continue(true),
Err(gst::FlowError::Flushing) => glib::Continue(false),
Err(err) => panic!("Got error {:?}", err),
}
}
});
}
async fn push_item(pad: PadSrcRef<'_>, item: Item) -> Result<gst::FlowSuccess, gst::FlowError> {
match item {
Item::Event(event) => {
pad.push_event(event).await;
Ok(gst::FlowSuccess::Ok)
}
Item::Buffer(buffer) => pad.push(buffer).await,
Item::BufferList(list) => pad.push_list(list).await,
}
}
}
impl PadSrcHandler for PadSrcHandlerTest {
type ElementImpl = ElementSrcTest;
fn src_event(
&self,
pad: &PadSrcRef,
elem_src_test: &ElementSrcTest,
element: &gst::Element,
event: gst::Event,
) -> bool {
gst_log!(SRC_CAT, obj: pad.gst_pad(), "Handling {:?}", event);
let ret = match event.view() {
EventView::FlushStart(..) => {
// Cancel the task so that it finishes ASAP
// and clear the sender
elem_src_test.pause(element).unwrap();
true
}
EventView::Qos(..) | EventView::Reconfigure(..) | EventView::Latency(..) => true,
EventView::FlushStop(..) => {
elem_src_test.flush_stop(&element);
true
}
_ => false,
};
if ret {
gst_log!(SRC_CAT, obj: pad.gst_pad(), "Handled {:?}", event);
} else {
gst_log!(SRC_CAT, obj: pad.gst_pad(), "Didn't handle {:?}", event);
}
ret
}
}
#[derive(Debug)]
struct ElementSrcTest {
src_pad: PadSrc,
src_pad_handler: PadSrcHandlerTest,
sender: Mutex<Option<mpsc::Sender<Item>>>,
settings: Mutex<Settings>,
}
impl ElementSrcTest {
fn try_push(&self, item: Item) -> Result<(), Item> {
match self.sender.lock().unwrap().as_mut() {
Some(sender) => sender
.try_send(item)
.map_err(mpsc::TrySendError::into_inner),
None => Err(item),
}
}
fn prepare(&self, element: &gst::Element) -> Result<(), gst::ErrorMessage> {
gst_debug!(SRC_CAT, obj: element, "Preparing");
let settings = self.settings.lock().unwrap().clone();
let context = Context::acquire(&settings.context, THROTTLING_DURATION).map_err(|err| {
gst_error_msg!(
gst::ResourceError::OpenRead,
["Failed to acquire Context: {}", err]
)
})?;
self.src_pad
.prepare(context, &self.src_pad_handler)
.map_err(|err| {
gst_error_msg!(
gst::ResourceError::OpenRead,
["Error joining Context: {:?}", err]
)
})?;
gst_debug!(SRC_CAT, obj: element, "Prepared");
Ok(())
}
fn unprepare(&self, element: &gst::Element) -> Result<(), ()> {
gst_debug!(SRC_CAT, obj: element, "Unpreparing");
self.src_pad.unprepare().unwrap();
gst_debug!(SRC_CAT, obj: element, "Unprepared");
Ok(())
}
fn start(&self, element: &gst::Element) -> Result<(), ()> {
let mut sender = self.sender.lock().unwrap();
if sender.is_some() {
gst_debug!(SRC_CAT, obj: element, "Already started");
return Err(());
}
gst_debug!(SRC_CAT, obj: element, "Starting");
self.start_unchecked(&mut sender);
gst_debug!(SRC_CAT, obj: element, "Started");
Ok(())
}
fn flush_stop(&self, element: &gst::Element) {
// Keep the lock on the `sender` until `flush_stop` is complete
// so as to prevent race conditions due to concurrent state transitions.
// Note that this won't deadlock as `sender` is not used
// within the `src_pad`'s `Task`.
let mut sender = self.sender.lock().unwrap();
if sender.is_some() {
gst_debug!(SRC_CAT, obj: element, "Already started");
return;
}
gst_debug!(SRC_CAT, obj: element, "Stopping Flush");
// Stop it so we wait for it to actually finish
self.src_pad.stop_task();
// And then start it again
self.start_unchecked(&mut sender);
gst_debug!(SRC_CAT, obj: element, "Stopped Flush");
}
fn start_unchecked(&self, sender: &mut Option<mpsc::Sender<Item>>) {
// Start the task and set up the sender. We only accept
// data in Playing
let (sender_new, receiver) = mpsc::channel(1);
*sender = Some(sender_new);
self.src_pad_handler
.start_task(self.src_pad.as_ref(), receiver);
}
fn pause(&self, element: &gst::Element) -> Result<(), ()> {
let mut sender = self.sender.lock().unwrap();
gst_debug!(SRC_CAT, obj: element, "Pausing");
// Cancel task, we only accept data in Playing
self.src_pad.cancel_task();
// Prevent subsequent items from being enqueued
*sender = None;
gst_debug!(SRC_CAT, obj: element, "Paused");
Ok(())
}
fn stop(&self, element: &gst::Element) -> Result<(), ()> {
gst_debug!(SRC_CAT, obj: element, "Stopping");
// Now stop the task if it was still running, blocking
// until this has actually happened
self.src_pad.stop_task();
gst_debug!(SRC_CAT, obj: element, "Stopped");
Ok(())
}
}
impl ObjectSubclass for ElementSrcTest {
const NAME: &'static str = "TsElementSrcTest";
type ParentType = gst::Element;
type Instance = gst::subclass::ElementInstanceStruct<Self>;
type Class = glib::subclass::simple::ClassStruct<Self>;
glib_object_subclass!();
fn class_init(klass: &mut glib::subclass::simple::ClassStruct<Self>) {
klass.set_metadata(
"Thread-sharing Test Src Element",
"Generic",
"Src Element for Pad Src Test",
"François Laignel <fengalin@free.fr>",
);
let caps = gst::Caps::new_any();
let src_pad_template = gst::PadTemplate::new(
"src",
gst::PadDirection::Src,
gst::PadPresence::Always,
&caps,
)
.unwrap();
klass.add_pad_template(src_pad_template);
klass.install_properties(&SRC_PROPERTIES);
}
fn new_with_class(klass: &glib::subclass::simple::ClassStruct<Self>) -> Self {
let templ = klass.get_pad_template("src").unwrap();
let src_pad = PadSrc::new_from_template(&templ, Some("src"));
let settings = Settings {
context: String::new(),
};
ElementSrcTest {
src_pad,
src_pad_handler: PadSrcHandlerTest::default(),
sender: Mutex::new(None),
settings: Mutex::new(settings),
}
}
}
impl ObjectImpl for ElementSrcTest {
glib_object_impl!();
fn set_property(&self, _obj: &glib::Object, id: usize, value: &glib::Value) {
let prop = &SRC_PROPERTIES[id];
match *prop {
glib::subclass::Property("context", ..) => {
let context = value
.get()
.expect("type checked upstream")
.unwrap_or_else(|| "".into());
self.settings.lock().unwrap().context = context;
}
_ => unimplemented!(),
}
}
fn constructed(&self, obj: &glib::Object) {
self.parent_constructed(obj);
let element = obj.downcast_ref::<gst::Element>().unwrap();
element.add_pad(self.src_pad.gst_pad()).unwrap();
}
}
impl ElementImpl for ElementSrcTest {
fn change_state(
&self,
element: &gst::Element,
transition: gst::StateChange,
) -> Result<gst::StateChangeSuccess, gst::StateChangeError> {
gst_log!(SRC_CAT, obj: element, "Changing state {:?}", transition);
match transition {
gst::StateChange::NullToReady => {
self.prepare(element).map_err(|err| {
element.post_error_message(&err);
gst::StateChangeError
})?;
}
gst::StateChange::PlayingToPaused => {
self.pause(element).map_err(|_| gst::StateChangeError)?;
}
gst::StateChange::ReadyToNull => {
self.unprepare(element).map_err(|_| gst::StateChangeError)?;
}
_ => (),
}
let mut success = self.parent_change_state(element, transition)?;
match transition {
gst::StateChange::PausedToReady => {
self.stop(element).map_err(|_| gst::StateChangeError)?;
}
gst::StateChange::PausedToPlaying => {
self.start(element).map_err(|_| gst::StateChangeError)?;
}
gst::StateChange::ReadyToPaused | gst::StateChange::PlayingToPaused => {
success = gst::StateChangeSuccess::NoPreroll;
}
_ => (),
}
Ok(success)
}
fn send_event(&self, element: &gst::Element, event: gst::Event) -> bool {
match event.view() {
EventView::FlushStart(..) => {
// Cancel the task so that it finishes ASAP
// and clear the sender
self.pause(element).unwrap();
}
EventView::FlushStop(..) => {
self.flush_stop(element);
}
_ => (),
}
if !event.is_serialized() {
self.src_pad.gst_pad().push_event(event)
} else {
self.try_push(Item::Event(event)).is_ok()
}
}
}
// Sink
#[derive(Debug)]
enum Item {
Buffer(gst::Buffer),
BufferList(gst::BufferList),
Event(gst::Event),
}
#[derive(Clone, Debug, GBoxed)]
#[gboxed(type_name = "TsTestItemSender")]
struct ItemSender {
sender: mpsc::Sender<Item>,
}
static SINK_PROPERTIES: [glib::subclass::Property; 1] =
[glib::subclass::Property("sender", |name| {
glib::ParamSpec::boxed(
name,
"Sender",
"Channel sender to forward the incoming items to",
ItemSender::get_type(),
glib::ParamFlags::WRITABLE,
)
})];
#[derive(Clone, Debug)]
struct PadSinkHandlerTest;
impl Default for PadSinkHandlerTest {
fn default() -> Self {
PadSinkHandlerTest
}
}
impl PadSinkHandler for PadSinkHandlerTest {
type ElementImpl = ElementSinkTest;
fn sink_chain(
&self,
_pad: &PadSinkRef,
_elem_sink_test: &ElementSinkTest,
element: &gst::Element,
buffer: gst::Buffer,
) -> BoxFuture<'static, Result<gst::FlowSuccess, gst::FlowError>> {
let element = element.clone();
async move {
let elem_sink_test = ElementSinkTest::from_instance(&element);
elem_sink_test
.forward_item(&element, Item::Buffer(buffer))
.await
}
.boxed()
}
fn sink_chain_list(
&self,
_pad: &PadSinkRef,
_elem_sink_test: &ElementSinkTest,
element: &gst::Element,
list: gst::BufferList,
) -> BoxFuture<'static, Result<gst::FlowSuccess, gst::FlowError>> {
let element = element.clone();
async move {
let elem_sink_test = ElementSinkTest::from_instance(&element);
elem_sink_test
.forward_item(&element, Item::BufferList(list))
.await
}
.boxed()
}
fn sink_event(
&self,
pad: &PadSinkRef,
elem_sink_test: &ElementSinkTest,
element: &gst::Element,
event: gst::Event,
) -> bool {
gst_debug!(SINK_CAT, obj: pad.gst_pad(), "Handling non-serialized {:?}", event);
match event.view() {
EventView::FlushStart(..) => {
elem_sink_test.stop(&element);
true
}
_ => false,
}
}
fn sink_event_serialized(
&self,
pad: &PadSinkRef,
_elem_sink_test: &ElementSinkTest,
element: &gst::Element,
event: gst::Event,
) -> BoxFuture<'static, bool> {
gst_log!(SINK_CAT, obj: pad.gst_pad(), "Handling serialized {:?}", event);
let element = element.clone();
async move {
let elem_sink_test = ElementSinkTest::from_instance(&element);
if let EventView::FlushStop(..) = event.view() {
elem_sink_test.start(&element);
}
elem_sink_test
.forward_item(&element, Item::Event(event))
.await
.is_ok()
}
.boxed()
}
}
#[derive(Debug)]
struct ElementSinkTest {
sink_pad: PadSink,
flushing: AtomicBool,
sender: FutMutex<Option<mpsc::Sender<Item>>>,
}
impl ElementSinkTest {
async fn forward_item(
&self,
element: &gst::Element,
item: Item,
) -> Result<gst::FlowSuccess, gst::FlowError> {
if !self.flushing.load(Ordering::SeqCst) {
gst_debug!(SINK_CAT, obj: element, "Fowarding {:?}", item);
self.sender
.lock()
.await
.as_mut()
.expect("Item Sender not set")
.send(item)
.await
.map(|_| gst::FlowSuccess::Ok)
.map_err(|_| gst::FlowError::Error)
} else {
gst_debug!(
SINK_CAT,
obj: element,
"Not fowarding {:?} due to flushing",
item
);
Err(gst::FlowError::Flushing)
}
}
fn start(&self, element: &gst::Element) {
gst_debug!(SINK_CAT, obj: element, "Starting");
self.flushing.store(false, Ordering::SeqCst);
gst_debug!(SINK_CAT, obj: element, "Started");
}
fn stop(&self, element: &gst::Element) {
gst_debug!(SINK_CAT, obj: element, "Stopping");
self.flushing.store(true, Ordering::SeqCst);
gst_debug!(SINK_CAT, obj: element, "Stopped");
}
}
lazy_static! {
static ref SINK_CAT: gst::DebugCategory = gst::DebugCategory::new(
"ts-element-sink-test",
gst::DebugColorFlags::empty(),
Some("Thread-sharing Test Sink Element"),
);
}
impl ObjectSubclass for ElementSinkTest {
const NAME: &'static str = "TsElementSinkTest";
type ParentType = gst::Element;
type Instance = gst::subclass::ElementInstanceStruct<Self>;
type Class = glib::subclass::simple::ClassStruct<Self>;
glib_object_subclass!();
fn class_init(klass: &mut glib::subclass::simple::ClassStruct<Self>) {
klass.set_metadata(
"Thread-sharing Test Sink Element",
"Generic",
"Sink Element for Pad Test",
"François Laignel <fengalin@free.fr>",
);
let caps = gst::Caps::new_any();
let sink_pad_template = gst::PadTemplate::new(
"sink",
gst::PadDirection::Sink,
gst::PadPresence::Always,
&caps,
)
.unwrap();
klass.add_pad_template(sink_pad_template);
klass.install_properties(&SINK_PROPERTIES);
}
fn new_with_class(klass: &glib::subclass::simple::ClassStruct<Self>) -> Self {
let templ = klass.get_pad_template("sink").unwrap();
let sink_pad = PadSink::new_from_template(&templ, Some("sink"));
ElementSinkTest {
sink_pad,
flushing: AtomicBool::new(true),
sender: FutMutex::new(None),
}
}
}
impl ObjectImpl for ElementSinkTest {
glib_object_impl!();
fn set_property(&self, _obj: &glib::Object, id: usize, value: &glib::Value) {
let prop = &SINK_PROPERTIES[id];
match *prop {
glib::subclass::Property("sender", ..) => {
let ItemSender { sender } = value
.get::<&ItemSender>()
.expect("type checked upstream")
.expect("ItemSender not found")
.clone();
*futures::executor::block_on(self.sender.lock()) = Some(sender);
}
_ => unimplemented!(),
}
}
fn constructed(&self, obj: &glib::Object) {
self.parent_constructed(obj);
let element = obj.downcast_ref::<gst::Element>().unwrap();
element.add_pad(self.sink_pad.gst_pad()).unwrap();
}
}
impl ElementImpl for ElementSinkTest {
fn change_state(
&self,
element: &gst::Element,
transition: gst::StateChange,
) -> Result<gst::StateChangeSuccess, gst::StateChangeError> {
gst_log!(SINK_CAT, obj: element, "Changing state {:?}", transition);
match transition {
gst::StateChange::NullToReady => {
self.sink_pad.prepare(&PadSinkHandlerTest::default());
}
gst::StateChange::PausedToReady => {
self.stop(element);
}
gst::StateChange::ReadyToNull => {
self.sink_pad.unprepare();
}
_ => (),
}
let success = self.parent_change_state(element, transition)?;
if transition == gst::StateChange::ReadyToPaused {
self.start(element);
}
Ok(success)
}
}
fn setup(
context_name: &str,
mut middle_element_1: Option<gst::Element>,
mut middle_element_2: Option<gst::Element>,
) -> (
gst::Pipeline,
gst::Element,
gst::Element,
mpsc::Receiver<Item>,
) {
init();
let pipeline = gst::Pipeline::new(None);
// Src
let src_element = glib::Object::new(ElementSrcTest::get_type(), &[])
.unwrap()
.downcast::<gst::Element>()
.unwrap();
src_element.set_property("context", &context_name).unwrap();
pipeline.add(&src_element).unwrap();
let mut last_element = src_element.clone();
if let Some(middle_element) = middle_element_1.take() {
pipeline.add(&middle_element).unwrap();
last_element.link(&middle_element).unwrap();
last_element = middle_element;
}
if let Some(middle_element) = middle_element_2.take() {
// Don't link the 2 middle elements: this is used for ts-proxy
pipeline.add(&middle_element).unwrap();
last_element = middle_element;
}
// Sink
let sink_element = glib::Object::new(ElementSinkTest::get_type(), &[])
.unwrap()
.downcast::<gst::Element>()
.unwrap();
pipeline.add(&sink_element).unwrap();
last_element.link(&sink_element).unwrap();
let (sender, receiver) = mpsc::channel::<Item>(10);
sink_element
.set_property("sender", &ItemSender { sender })
.unwrap();
(pipeline, src_element, sink_element, receiver)
}
fn nominal_scenario(
scenario_name: &str,
pipeline: gst::Pipeline,
src_element: gst::Element,
mut receiver: mpsc::Receiver<Item>,
) {
let elem_src_test = ElementSrcTest::from_instance(&src_element);
pipeline.set_state(gst::State::Playing).unwrap();
// Initial events
elem_src_test
.try_push(Item::Event(
gst::Event::new_stream_start(scenario_name)
.group_id(gst::GroupId::next())
.build(),
))
.unwrap();
match futures::executor::block_on(receiver.next()).unwrap() {
Item::Event(event) => match event.view() {
EventView::StreamStart(_) => (),
other => panic!("Unexpected event {:?}", other),
},
other => panic!("Unexpected item {:?}", other),
}
elem_src_test
.try_push(Item::Event(
gst::Event::new_segment(&gst::FormattedSegment::<gst::format::Time>::new()).build(),
))
.unwrap();
match futures::executor::block_on(receiver.next()).unwrap() {
Item::Event(event) => match event.view() {
EventView::Segment(_) => (),
other => panic!("Unexpected event {:?}", other),
},
other => panic!("Unexpected item {:?}", other),
}
// Buffer
elem_src_test
.try_push(Item::Buffer(gst::Buffer::from_slice(vec![1, 2, 3, 4])))
.unwrap();
match futures::executor::block_on(receiver.next()).unwrap() {
Item::Buffer(buffer) => {
let data = buffer.map_readable().unwrap();
assert_eq!(data.as_slice(), vec![1, 2, 3, 4].as_slice());
}
other => panic!("Unexpected item {:?}", other),
}
// BufferList
let mut list = gst::BufferList::new();
list.get_mut()
.unwrap()
.add(gst::Buffer::from_slice(vec![1, 2, 3, 4]));
elem_src_test.try_push(Item::BufferList(list)).unwrap();
match futures::executor::block_on(receiver.next()).unwrap() {
Item::BufferList(_) => (),
other => panic!("Unexpected item {:?}", other),
}
// Pause the Pad task
pipeline.set_state(gst::State::Paused).unwrap();
// Items not longer accepted
elem_src_test
.try_push(Item::Buffer(gst::Buffer::from_slice(vec![1, 2, 3, 4])))
.unwrap_err();
// Nothing forwarded
receiver.try_next().unwrap_err();
// Switch back the Pad task to Started
pipeline.set_state(gst::State::Playing).unwrap();
// Still nothing forwarded
receiver.try_next().unwrap_err();
// Flush
src_element.send_event(gst::Event::new_flush_start().build());
src_element.send_event(gst::Event::new_flush_stop(true).build());
match futures::executor::block_on(receiver.next()).unwrap() {
Item::Event(event) => match event.view() {
EventView::FlushStop(_) => (),
other => panic!("Unexpected event {:?}", other),
},
other => panic!("Unexpected item {:?}", other),
}
// EOS
elem_src_test
.try_push(Item::Event(gst::Event::new_eos().build()))
.unwrap();
match futures::executor::block_on(receiver.next()).unwrap() {
Item::Event(event) => match event.view() {
EventView::Eos(_) => (),
other => panic!("Unexpected event {:?}", other),
},
other => panic!("Unexpected item {:?}", other),
}
pipeline.set_state(gst::State::Ready).unwrap();
// Receiver was dropped when stopping => can't send anymore
elem_src_test
.try_push(Item::Event(
gst::Event::new_stream_start(&format!("{}_past_stop", scenario_name))
.group_id(gst::GroupId::next())
.build(),
))
.unwrap_err();
pipeline.set_state(gst::State::Null).unwrap();
}
#[test]
fn src_sink_nominal() {
let name = "src_sink_nominal";
let (pipeline, src_element, _sink_element, receiver) = setup(&name, None, None);
nominal_scenario(&name, pipeline, src_element, receiver);
}
// #[test]
// fn src_tsqueue_sink_nominal() {
// init();
//
// let name = "src_tsqueue_sink";
//
// let ts_queue = gst::ElementFactory::make("ts-queue", Some("ts-queue")).unwrap();
// ts_queue
// .set_property("context", &format!("{}_queue", name))
// .unwrap();
// ts_queue
// .set_property("context-wait", &THROTTLING_DURATION)
// .unwrap();
//
// let (pipeline, src_element, _sink_element, receiver) = setup(name, Some(ts_queue), None);
//
// nominal_scenario(&name, pipeline, src_element, receiver);
// }
#[test]
fn src_queue_sink_nominal() {
init();
let name = "src_queue_sink";
let queue = gst::ElementFactory::make("queue", Some("queue")).unwrap();
let (pipeline, src_element, _sink_element, receiver) = setup(name, Some(queue), None);
nominal_scenario(&name, pipeline, src_element, receiver);
}
// #[test]
// fn src_tsproxy_sink_nominal() {
// init();
//
// let name = "src_tsproxy_sink";
//
// let ts_proxy_sink = gst::ElementFactory::make("ts-proxysink", Some("ts-proxysink")).unwrap();
// ts_proxy_sink
// .set_property("proxy-context", &format!("{}_proxy_context", name))
// .unwrap();
//
// let ts_proxy_src = gst::ElementFactory::make("ts-proxysrc", Some("ts-proxysrc")).unwrap();
// ts_proxy_src
// .set_property("proxy-context", &format!("{}_proxy_context", name))
// .unwrap();
// ts_proxy_src
// .set_property("context", &format!("{}_context", name))
// .unwrap();
// ts_proxy_src
// .set_property("context-wait", &THROTTLING_DURATION)
// .unwrap();
//
// let (pipeline, src_element, _sink_element, receiver) =
// setup(name, Some(ts_proxy_sink), Some(ts_proxy_src));
//
// nominal_scenario(&name, pipeline, src_element, receiver);
// }