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use std::{
collections::HashMap,
mem,
sync::{atomic, Arc, Mutex, MutexGuard},
};
use gst::{glib, prelude::*};
use once_cell::sync::Lazy;
use thiserror::Error;
static CAT: Lazy<gst::DebugCategory> = Lazy::new(|| {
gst::DebugCategory::new(
"utilsrs-stream-producer",
gst::DebugColorFlags::empty(),
Some("gst_app Stream Producer interface"),
)
});
/// The interface for transporting media data from one node
/// to another.
///
/// A producer is essentially a GStreamer `appsink` whose output
/// is sent to a set of consumers, who are essentially `appsrc` wrappers
#[derive(Debug, Clone)]
pub struct StreamProducer {
/// The appsink to dispatch data for
appsink: gst_app::AppSink,
/// The consumers to dispatch data to
consumers: Arc<Mutex<StreamConsumers>>,
}
impl PartialEq for StreamProducer {
fn eq(&self, other: &Self) -> bool {
self.appsink.eq(&other.appsink)
}
}
impl Eq for StreamProducer {}
/// Link between a `StreamProducer` and a consumer, disconnecting the link on `Drop`.
/// The producer and consumer will stay alive while the link is.
#[derive(Debug)]
#[must_use]
pub struct ConsumptionLink {
consumer: gst_app::AppSrc,
producer: Option<StreamProducer>,
/// number of buffers dropped because `consumer` internal queue was full
dropped: Arc<atomic::AtomicU64>,
/// number of buffers pushed through `consumer`
pushed: Arc<atomic::AtomicU64>,
/// if buffers should not be pushed to the `consumer` right now
discard: Arc<atomic::AtomicBool>,
}
impl ConsumptionLink {
/// Create a new disconnected `ConsumptionLink`.
pub fn disconnected(consumer: gst_app::AppSrc) -> ConsumptionLink {
ConsumptionLink {
consumer,
producer: None,
dropped: Arc::new(atomic::AtomicU64::new(0)),
pushed: Arc::new(atomic::AtomicU64::new(0)),
discard: Arc::new(atomic::AtomicBool::new(false)),
}
}
/// Replace the producer by a new one, keeping the existing consumer.
pub fn change_producer(
&mut self,
new_producer: &StreamProducer,
reset_stats: bool,
) -> Result<(), AddConsumerError> {
self.disconnect();
if reset_stats {
self.dropped.store(0, atomic::Ordering::SeqCst);
self.pushed.store(0, atomic::Ordering::SeqCst);
}
new_producer.add_consumer_internal(
&self.consumer,
self.dropped.clone(),
self.pushed.clone(),
self.discard.clone(),
)?;
self.producer = Some(new_producer.clone());
Ok(())
}
/// Disconnect the consumer from the producer
pub fn disconnect(&mut self) {
if let Some(producer) = self.producer.take() {
producer.remove_consumer(&self.consumer);
}
}
/// number of dropped buffers because the consumer internal queue was full
pub fn dropped(&self) -> u64 {
self.dropped.load(atomic::Ordering::SeqCst)
}
/// number of buffers pushed through this link
pub fn pushed(&self) -> u64 {
self.pushed.load(atomic::Ordering::SeqCst)
}
/// if buffers are currently pushed through this link
pub fn discard(&self) -> bool {
self.discard.load(atomic::Ordering::SeqCst)
}
/// If set to `true` then no buffers will be pushed through this link
pub fn set_discard(&self, discard: bool) {
self.discard.store(discard, atomic::Ordering::SeqCst)
}
/// Get the GStreamer `appsrc` wrapped by this link
pub fn appsrc(&self) -> &gst_app::AppSrc {
&self.consumer
}
}
impl Drop for ConsumptionLink {
fn drop(&mut self) {
self.disconnect();
}
}
#[derive(Debug, Error)]
/// Error type returned when adding consumers to producers.
pub enum AddConsumerError {
#[error("Consumer already added")]
/// Consumer has already been added to this producer.
AlreadyAdded,
}
impl StreamProducer {
/// Configure a consumer `appsrc` for later use in a `StreamProducer`
///
/// This is automatically called when calling `add_consumer()`.
pub fn configure_consumer(consumer: &gst_app::AppSrc) {
// Latency on the appsrc is set by the publisher before the first buffer
// and whenever it changes
consumer.set_latency(gst::ClockTime::ZERO, gst::ClockTime::NONE);
consumer.set_format(gst::Format::Time);
consumer.set_is_live(true);
consumer.set_handle_segment_change(true);
consumer.set_max_buffers(0);
consumer.set_max_bytes(0);
consumer.set_max_time(500 * gst::ClockTime::MSECOND);
consumer.set_leaky_type(gst_app::AppLeakyType::Downstream);
consumer.set_automatic_eos(false);
}
/// Add an appsrc to dispatch data to.
///
/// Dropping the returned `ConsumptionLink` will automatically disconnect the consumer from the producer.
pub fn add_consumer(
&self,
consumer: &gst_app::AppSrc,
) -> Result<ConsumptionLink, AddConsumerError> {
let dropped = Arc::new(atomic::AtomicU64::new(0));
let pushed = Arc::new(atomic::AtomicU64::new(0));
let discard = Arc::new(atomic::AtomicBool::new(false));
self.add_consumer_internal(consumer, dropped.clone(), pushed.clone(), discard.clone())?;
Ok(ConsumptionLink {
consumer: consumer.clone(),
producer: Some(self.clone()),
dropped,
pushed,
discard,
})
}
fn add_consumer_internal(
&self,
consumer: &gst_app::AppSrc,
dropped: Arc<atomic::AtomicU64>,
pushed: Arc<atomic::AtomicU64>,
discard: Arc<atomic::AtomicBool>,
) -> Result<(), AddConsumerError> {
let mut consumers = self.consumers.lock().unwrap();
if consumers.consumers.contains_key(consumer) {
gst::error!(
CAT,
obj = &self.appsink,
"Consumer {} ({:?}) already added",
consumer.name(),
consumer
);
return Err(AddConsumerError::AlreadyAdded);
}
gst::debug!(
CAT,
obj = &self.appsink,
"Adding consumer {} ({:?})",
consumer.name(),
consumer
);
Self::configure_consumer(consumer);
// Forward force-keyunit events upstream to the appsink
let srcpad = consumer.static_pad("src").unwrap();
let appsink = &self.appsink;
let fku_probe_id = srcpad
.add_probe(
gst::PadProbeType::EVENT_UPSTREAM,
glib::clone!(
#[weak]
appsink,
#[upgrade_or_panic]
move |_pad, info| {
let Some(event) = info.event() else {
return gst::PadProbeReturn::Ok;
};
if gst_video::UpstreamForceKeyUnitEvent::parse(event).is_ok() {
gst::debug!(CAT, obj = &appsink, "Requesting keyframe");
// Do not use `gst_element_send_event()` as it takes the state lock which may lead to dead locks.
let pad = appsink.static_pad("sink").unwrap();
let _ = pad.push_event(event.clone());
}
gst::PadProbeReturn::Ok
}
),
)
.unwrap();
let stream_consumer = StreamConsumer::new(consumer, fku_probe_id, dropped, pushed, discard);
consumers
.consumers
.insert(consumer.clone(), stream_consumer);
// forward selected sticky events. We can send those now as appsrc will delay the events
// until stream-start, caps and segment are sent.
let events_to_forward = consumers.events_to_forward.clone();
// drop the lock before sending events
drop(consumers);
let appsink_pad = self.appsink.static_pad("sink").unwrap();
appsink_pad.sticky_events_foreach(|event| {
if events_to_forward.contains(&event.type_()) {
gst::debug!(CAT, obj = &self.appsink, "forward sticky event {:?}", event);
consumer.send_event(event.clone());
}
std::ops::ControlFlow::Continue(gst::EventForeachAction::Keep)
});
Ok(())
}
fn process_sample(
sample: gst::Sample,
appsink: &gst_app::AppSink,
mut consumers: MutexGuard<StreamConsumers>,
) -> Result<gst::FlowSuccess, gst::FlowError> {
let (is_discont, is_keyframe) = if let Some(buf) = sample.buffer() {
let flags = buf.flags();
(
flags.contains(gst::BufferFlags::DISCONT),
!flags.contains(gst::BufferFlags::DELTA_UNIT),
)
} else {
(false, true)
};
gst::trace!(
CAT,
obj = appsink,
"processing sample {:?}",
sample.buffer()
);
let latency = consumers.current_latency;
let latency_updated = mem::replace(&mut consumers.latency_updated, false);
let mut needs_keyframe_request = false;
let current_consumers = consumers
.consumers
.values()
.filter_map(|consumer| {
if let Some(latency) = latency {
if consumer
.forwarded_latency
.compare_exchange(
false,
true,
atomic::Ordering::SeqCst,
atomic::Ordering::SeqCst,
)
.is_ok()
|| latency_updated
{
consumer.appsrc.set_latency(latency, gst::ClockTime::NONE);
}
}
if consumer.discard.load(atomic::Ordering::SeqCst) {
consumer
.needs_keyframe
.store(false, atomic::Ordering::SeqCst);
return None;
}
if is_discont && !is_keyframe {
// Whenever we have a discontinuity, we need a new keyframe
consumer
.needs_keyframe
.store(true, atomic::Ordering::SeqCst);
}
if !is_keyframe && consumer.needs_keyframe.load(atomic::Ordering::SeqCst) {
// If we need a keyframe (and this one isn't) request a keyframe upstream
if !needs_keyframe_request {
gst::debug!(CAT, obj = appsink, "Requesting keyframe for first buffer");
needs_keyframe_request = true;
}
consumer.dropped.fetch_add(1, atomic::Ordering::SeqCst);
gst::debug!(
CAT,
obj = appsink,
"Ignoring frame for {} while waiting for a keyframe",
consumer.appsrc.name()
);
None
} else {
consumer
.needs_keyframe
.store(false, atomic::Ordering::SeqCst);
consumer.pushed.fetch_add(1, atomic::Ordering::SeqCst);
Some(consumer.appsrc.clone())
}
})
.collect::<Vec<_>>();
drop(consumers);
if needs_keyframe_request {
// Do not use `gst_element_send_event()` as it takes the state lock which may lead to dead locks.
let pad = appsink.static_pad("sink").unwrap();
pad.push_event(
gst_video::UpstreamForceKeyUnitEvent::builder()
.all_headers(true)
.build(),
);
}
for consumer in current_consumers {
if let Err(err) = consumer.push_sample(&sample) {
gst::warning!(CAT, obj = appsink, "Failed to push sample: {}", err);
}
}
Ok(gst::FlowSuccess::Ok)
}
/// Remove a consumer appsrc by id
pub fn remove_consumer(&self, consumer: &gst_app::AppSrc) {
let name = consumer.name();
if self
.consumers
.lock()
.unwrap()
.consumers
.remove(consumer)
.is_some()
{
gst::debug!(
CAT,
obj = &self.appsink,
"Removed consumer {} ({:?})",
name,
consumer
);
consumer.set_callbacks(gst_app::AppSrcCallbacks::builder().build());
} else {
gst::debug!(
CAT,
obj = &self.appsink,
"Consumer {} ({:?}) not found",
name,
consumer
);
}
}
/// configure event types the appsrc should forward to all consumers (default: `Eos`).
pub fn set_forward_events(&self, events_to_forward: impl IntoIterator<Item = gst::EventType>) {
self.consumers.lock().unwrap().events_to_forward = events_to_forward.into_iter().collect();
}
/// configure whether the preroll sample should be forwarded (default: `true`)
pub fn set_forward_preroll(&self, forward_preroll: bool) {
self.consumers.lock().unwrap().forward_preroll = forward_preroll;
}
/// Get the GStreamer `appsink` wrapped by this producer
pub fn appsink(&self) -> &gst_app::AppSink {
&self.appsink
}
/// Signals an error on all consumers
pub fn error(&self, error: &gst::glib::Error, debug: Option<&str>) {
let consumers = self.consumers.lock().unwrap();
for consumer in consumers.consumers.keys() {
let mut msg_builder =
gst::message::Error::builder_from_error(error.clone()).src(consumer);
if let Some(debug) = debug {
msg_builder = msg_builder.debug(debug);
}
let _ = consumer.post_message(msg_builder.build());
}
}
/// The last sample produced by this producer.
pub fn last_sample(&self) -> Option<gst::Sample> {
self.appsink.property("last-sample")
}
}
impl<'a> From<&'a gst_app::AppSink> for StreamProducer {
fn from(appsink: &'a gst_app::AppSink) -> Self {
let consumers = Arc::new(Mutex::new(StreamConsumers {
current_latency: None,
latency_updated: false,
consumers: HashMap::new(),
// it would make sense to automatically forward more events such as Tag but that would break
// with older GStreamer, see https://gitlab.freedesktop.org/gstreamer/gstreamer/-/merge_requests/4297
events_to_forward: vec![gst::EventType::Eos],
forward_preroll: true,
just_forwarded_preroll: false,
}));
appsink.set_callbacks(
gst_app::AppSinkCallbacks::builder()
.new_sample(glib::clone!(
#[strong]
consumers,
move |appsink| {
let mut consumers = consumers.lock().unwrap();
let sample = match appsink.pull_sample() {
Ok(sample) => sample,
Err(_err) => {
gst::debug!(CAT, obj = appsink, "Failed to pull sample");
return Err(gst::FlowError::Flushing);
}
};
let just_forwarded_preroll =
mem::replace(&mut consumers.just_forwarded_preroll, false);
if just_forwarded_preroll {
return Ok(gst::FlowSuccess::Ok);
}
StreamProducer::process_sample(sample, appsink, consumers)
}
))
.new_preroll(glib::clone!(
#[strong]
consumers,
move |appsink| {
let mut consumers = consumers.lock().unwrap();
let sample = match appsink.pull_preroll() {
Ok(sample) => sample,
Err(_err) => {
gst::debug!(CAT, obj = appsink, "Failed to pull preroll");
return Err(gst::FlowError::Flushing);
}
};
if consumers.forward_preroll {
consumers.just_forwarded_preroll = true;
StreamProducer::process_sample(sample, appsink, consumers)
} else {
Ok(gst::FlowSuccess::Ok)
}
}
))
.new_event(glib::clone!(
#[strong]
consumers,
move |appsink| {
match appsink
.pull_object()
.map(|obj| obj.downcast::<gst::Event>())
{
Ok(Ok(event)) => {
let (events_to_forward, appsrcs) = {
// clone so we don't keep the lock while pushing events
let consumers = consumers.lock().unwrap();
let events = consumers.events_to_forward.clone();
let appsrcs =
consumers.consumers.keys().cloned().collect::<Vec<_>>();
(events, appsrcs)
};
if events_to_forward.contains(&event.type_()) {
for appsrc in appsrcs {
appsrc.send_event(event.clone());
}
}
}
Ok(Err(_)) => {} // pulled another unsupported object type, ignore
Err(_err) => gst::warning!(CAT, obj = appsink, "Failed to pull event"),
}
false
}
))
.eos(glib::clone!(
#[strong]
consumers,
move |appsink| {
let stream_consumers = consumers.lock().unwrap();
if stream_consumers
.events_to_forward
.contains(&gst::EventType::Eos)
{
let current_consumers = stream_consumers
.consumers
.values()
.map(|c| c.appsrc.clone())
.collect::<Vec<_>>();
drop(stream_consumers);
for consumer in current_consumers {
gst::debug!(
CAT,
obj = appsink,
"set EOS on consumer {}",
consumer.name()
);
let _ = consumer.end_of_stream();
}
} else {
gst::debug!(CAT, obj = appsink, "don't forward EOS to consumers");
}
}
))
.build(),
);
let sinkpad = appsink.static_pad("sink").unwrap();
sinkpad.add_probe(
gst::PadProbeType::EVENT_UPSTREAM,
glib::clone!(
#[strong]
consumers,
move |_pad, info| {
let Some(event) = info.event() else {
return gst::PadProbeReturn::Ok;
};
let gst::EventView::Latency(event) = event.view() else {
return gst::PadProbeReturn::Ok;
};
let latency = event.latency();
let mut consumers = consumers.lock().unwrap();
consumers.current_latency = Some(latency);
gst::PadProbeReturn::Ok
}
),
);
StreamProducer {
appsink: appsink.clone(),
consumers,
}
}
}
/// Wrapper around a HashMap of consumers, exists for thread safety
/// and also protects some of the producer state
#[derive(Debug)]
struct StreamConsumers {
/// The currently-observed latency
current_latency: Option<gst::ClockTime>,
/// Whether the consumers' appsrc latency needs updating
latency_updated: bool,
/// The consumers, AppSrc pointer value -> consumer
consumers: HashMap<gst_app::AppSrc, StreamConsumer>,
/// What events should be forwarded to consumers
events_to_forward: Vec<gst::EventType>,
/// Whether the preroll sample should be forwarded at all
forward_preroll: bool,
/// Whether we just forwarded the preroll sample. When we did we want to
/// discard the next sample from on_new_sample as it would cause us to
/// otherwise push out the same sample twice to consumers.
just_forwarded_preroll: bool,
}
/// Wrapper around a consumer's `appsrc`
#[derive(Debug)]
struct StreamConsumer {
/// The GStreamer `appsrc` of the consumer
appsrc: gst_app::AppSrc,
/// The id of a pad probe that intercepts force-key-unit events
fku_probe_id: Option<gst::PadProbeId>,
/// Whether an initial latency was forwarded to the `appsrc`
forwarded_latency: atomic::AtomicBool,
/// Whether a first buffer has made it through, used to determine
/// whether a new key unit should be requested. Only useful for encoded
/// streams.
needs_keyframe: Arc<atomic::AtomicBool>,
/// number of buffers dropped because `appsrc` internal queue was full
dropped: Arc<atomic::AtomicU64>,
/// number of buffers pushed through `appsrc`
pushed: Arc<atomic::AtomicU64>,
/// if buffers should not be pushed to the `appsrc` right now
discard: Arc<atomic::AtomicBool>,
}
impl StreamConsumer {
/// Create a new consumer
fn new(
appsrc: &gst_app::AppSrc,
fku_probe_id: gst::PadProbeId,
dropped: Arc<atomic::AtomicU64>,
pushed: Arc<atomic::AtomicU64>,
discard: Arc<atomic::AtomicBool>,
) -> Self {
let needs_keyframe = Arc::new(atomic::AtomicBool::new(true));
let needs_keyframe_clone = needs_keyframe.clone();
let dropped_clone = dropped.clone();
appsrc.set_callbacks(
gst_app::AppSrcCallbacks::builder()
.enough_data(move |appsrc| {
gst::debug!(
CAT,
obj = appsrc,
"consumer {} ({:?}) is not consuming fast enough, old samples are getting dropped",
appsrc.name(),
appsrc,
);
needs_keyframe_clone.store(true, atomic::Ordering::SeqCst);
dropped_clone.fetch_add(1, atomic::Ordering::SeqCst);
})
.build(),
);
StreamConsumer {
appsrc: appsrc.clone(),
fku_probe_id: Some(fku_probe_id),
forwarded_latency: atomic::AtomicBool::new(false),
needs_keyframe,
dropped,
pushed,
discard,
}
}
}
impl Drop for StreamConsumer {
fn drop(&mut self) {
if let Some(fku_probe_id) = self.fku_probe_id.take() {
let srcpad = self.appsrc.static_pad("src").unwrap();
srcpad.remove_probe(fku_probe_id);
}
}
}
impl PartialEq for StreamConsumer {
fn eq(&self, other: &Self) -> bool {
self.appsrc.eq(&other.appsrc)
}
}
impl Eq for StreamConsumer {}
impl std::hash::Hash for StreamConsumer {
fn hash<H: std::hash::Hasher>(&self, state: &mut H) {
std::hash::Hash::hash(&self.appsrc, state);
}
}
impl std::borrow::Borrow<gst_app::AppSrc> for StreamConsumer {
#[inline]
fn borrow(&self) -> &gst_app::AppSrc {
&self.appsrc
}
}
#[cfg(test)]
mod tests {
use std::{
str::FromStr,
sync::{Arc, Mutex},
};
use futures::{
channel::{mpsc, mpsc::Receiver},
SinkExt, StreamExt,
};
use gst::prelude::*;
use crate::{ConsumptionLink, StreamProducer};
fn create_producer() -> (
gst::Pipeline,
gst_app::AppSrc,
gst_app::AppSink,
StreamProducer,
) {
let producer_pipe =
gst::parse::launch("appsrc name=producer_src ! appsink name=producer_sink")
.unwrap()
.downcast::<gst::Pipeline>()
.unwrap();
let producer_sink = producer_pipe
.by_name("producer_sink")
.unwrap()
.downcast::<gst_app::AppSink>()
.unwrap();
(
producer_pipe.clone(),
producer_pipe
.by_name("producer_src")
.unwrap()
.downcast::<gst_app::AppSrc>()
.unwrap(),
producer_sink.clone(),
StreamProducer::from(&producer_sink),
)
}
struct Consumer {
pipeline: gst::Pipeline,
src: gst_app::AppSrc,
sink: gst_app::AppSink,
receiver: Mutex<Receiver<gst::Sample>>,
connected: Mutex<bool>,
}
impl Consumer {
fn new(id: &str) -> Self {
let pipeline = gst::parse::launch(&format!("appsrc name={id} ! appsink name=sink"))
.unwrap()
.downcast::<gst::Pipeline>()
.unwrap();
let (sender, receiver) = mpsc::channel::<gst::Sample>(1000);
let sender = Arc::new(Mutex::new(sender));
let sink = pipeline
.by_name("sink")
.unwrap()
.downcast::<gst_app::AppSink>()
.unwrap();
sink.set_callbacks(
gst_app::AppSinkCallbacks::builder()
// Add a handler to the "new-sample" signal.
.new_sample(move |appsink| {
// Pull the sample in question out of the appsink's buffer.
let sender_clone = sender.clone();
futures::executor::block_on(
sender_clone
.lock()
.unwrap()
.send(appsink.pull_sample().unwrap()),
)
.unwrap();
Ok(gst::FlowSuccess::Ok)
})
.build(),
);
Self {
pipeline: pipeline.clone(),
src: pipeline
.by_name(id)
.unwrap()
.downcast::<gst_app::AppSrc>()
.unwrap(),
sink,
receiver: Mutex::new(receiver),
connected: Mutex::new(false),
}
}
fn connect(&self, producer: &StreamProducer) -> ConsumptionLink {
{
let mut connected = self.connected.lock().unwrap();
*connected = true;
}
producer.add_consumer(&self.src).unwrap()
}
fn disconnect(&self, producer: &StreamProducer) {
{
let mut connected = self.connected.lock().unwrap();
*connected = false;
}
producer.remove_consumer(&self.src);
}
}
#[test]
fn simple() {
gst::init().unwrap();
let (producer_pipe, producer_src, _producer_sink, producer) = create_producer();
producer_pipe
.set_state(gst::State::Playing)
.expect("Couldn't set producer pipeline state");
let mut consumers: Vec<Consumer> = Vec::new();
let consumer = Consumer::new("consumer1");
let link1 = consumer.connect(&producer);
consumer
.pipeline
.set_state(gst::State::Playing)
.expect("Couldn't set producer pipeline state");
consumers.push(consumer);
let consumer = Consumer::new("consumer2");
let link2 = consumer.connect(&producer);
consumer
.pipeline
.set_state(gst::State::Playing)
.expect("Couldn't set producer pipeline state");
consumers.push(consumer);
assert!(producer.last_sample().is_none());
for i in 0..10 {
let caps = gst::Caps::from_str(&format!("test,n={i}")).unwrap();
producer_src.set_caps(Some(&caps));
producer_src.push_buffer(gst::Buffer::new()).unwrap();
for consumer in &consumers {
if *consumer.connected.lock().unwrap() {
let sample =
futures::executor::block_on(consumer.receiver.lock().unwrap().next())
.expect("Received an empty buffer?");
sample.buffer().expect("No buffer on the sample?");
assert_eq!(sample.caps(), Some(caps.as_ref()));
} else {
debug_assert!(
consumer
.sink
.try_pull_sample(gst::ClockTime::from_nseconds(0))
.is_none(),
"Disconnected consumer got a new sample?!"
);
}
}
if i == 5 {
consumers.first().unwrap().disconnect(&producer);
}
}
assert!(producer.last_sample().is_some());
assert_eq!(link1.pushed(), 6);
assert_eq!(link1.dropped(), 0);
assert_eq!(link2.pushed(), 10);
assert_eq!(link2.dropped(), 0);
}
}