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gst-plugins-rs/generic/threadshare/examples/standalone/sink/imp.rs
Vivia Nikolaidou 5606111345 plugins: Simplify code using ParamSpecBuilder
2022-08-22 17:58:43 +03:00

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// Copyright (C) 2022 François Laignel <fengalin@free.fr>
//
// This Source Code Form is subject to the terms of the Mozilla Public License, v2.0.
// If a copy of the MPL was not distributed with this file, You can obtain one at
// <https://mozilla.org/MPL/2.0/>.
//
// SPDX-License-Identifier: MPL-2.0
use futures::future::BoxFuture;
use futures::prelude::*;
use futures::stream::Peekable;
use gst::glib;
use gst::prelude::*;
use gst::subclass::prelude::*;
use gst::EventView;
use gst::{element_error, error_msg};
use once_cell::sync::Lazy;
use gstthreadshare::runtime::prelude::*;
use gstthreadshare::runtime::{self, Context, PadSink, PadSinkRef, Task};
use std::pin::Pin;
use std::sync::Mutex;
use std::task::Poll;
use std::time::{Duration, Instant};
static CAT: Lazy<gst::DebugCategory> = Lazy::new(|| {
gst::DebugCategory::new(
"ts-standalone-test-sink",
gst::DebugColorFlags::empty(),
Some("Thread-sharing standalone test sink"),
)
});
const DEFAULT_CONTEXT: &str = "";
const DEFAULT_CONTEXT_WAIT: Duration = Duration::from_millis(20);
const DEFAULT_SYNC: bool = true;
const DEFAULT_MUST_LOG_STATS: bool = false;
const LOG_PERIOD: Duration = Duration::from_secs(20);
#[derive(Debug, Clone)]
struct Settings {
sync: bool,
context: String,
context_wait: Duration,
must_log_stats: bool,
}
impl Default for Settings {
fn default() -> Self {
Settings {
sync: DEFAULT_SYNC,
context: DEFAULT_CONTEXT.into(),
context_wait: DEFAULT_CONTEXT_WAIT,
must_log_stats: DEFAULT_MUST_LOG_STATS,
}
}
}
#[derive(Debug)]
enum TaskItem {
Buffer(gst::Buffer),
Event(gst::Event),
}
#[derive(Clone, Debug)]
struct TestSinkPadHandler;
impl PadSinkHandler for TestSinkPadHandler {
type ElementImpl = TestSink;
fn sink_chain(
&self,
_pad: &PadSinkRef,
test_sink: &TestSink,
element: &gst::Element,
buffer: gst::Buffer,
) -> BoxFuture<'static, Result<gst::FlowSuccess, gst::FlowError>> {
let sender = test_sink.clone_item_sender();
let element = element.clone().downcast::<super::TestSink>().unwrap();
async move {
if sender.send_async(TaskItem::Buffer(buffer)).await.is_err() {
gst::debug!(CAT, obj: &element, "Flushing");
return Err(gst::FlowError::Flushing);
}
Ok(gst::FlowSuccess::Ok)
}
.boxed()
}
fn sink_chain_list(
&self,
_pad: &PadSinkRef,
test_sink: &TestSink,
element: &gst::Element,
list: gst::BufferList,
) -> BoxFuture<'static, Result<gst::FlowSuccess, gst::FlowError>> {
let sender = test_sink.clone_item_sender();
let element = element.clone().downcast::<super::TestSink>().unwrap();
async move {
for buffer in list.iter_owned() {
if sender.send_async(TaskItem::Buffer(buffer)).await.is_err() {
gst::debug!(CAT, obj: &element, "Flushing");
return Err(gst::FlowError::Flushing);
}
}
Ok(gst::FlowSuccess::Ok)
}
.boxed()
}
fn sink_event_serialized(
&self,
_pad: &PadSinkRef,
test_sink: &TestSink,
element: &gst::Element,
event: gst::Event,
) -> BoxFuture<'static, bool> {
let sender = test_sink.clone_item_sender();
let element = element.clone().downcast::<super::TestSink>().unwrap();
async move {
if let EventView::FlushStop(_) = event.view() {
let test_sink = element.imp();
return test_sink.task.flush_stop().await_maybe_on_context().is_ok();
} else if sender.send_async(TaskItem::Event(event)).await.is_err() {
gst::debug!(CAT, obj: &element, "Flushing");
}
true
}
.boxed()
}
fn sink_event(
&self,
_pad: &PadSinkRef,
test_sink: &TestSink,
_element: &gst::Element,
event: gst::Event,
) -> bool {
if let EventView::FlushStart(..) = event.view() {
return test_sink
.task
.flush_start()
.await_maybe_on_context()
.is_ok();
}
true
}
}
#[derive(Default)]
struct Stats {
must_log: bool,
sync: bool,
ramp_up_instant: Option<Instant>,
log_start_instant: Option<Instant>,
last_delta_instant: Option<Instant>,
buffer_count: u32,
buffer_count_delta: u32,
buffer_headroom: Duration,
buffer_headroom_delta: Duration,
late_buffer_count: u32,
lateness: Duration,
max_lateness: Duration,
late_buffer_count_delta: u32,
lateness_delta: Duration,
max_lateness_delta: Duration,
}
impl Stats {
fn start(&mut self) {
if !self.must_log {
return;
}
self.buffer_count = 0;
self.buffer_count_delta = 0;
self.buffer_headroom = Duration::ZERO;
self.buffer_headroom_delta = Duration::ZERO;
self.late_buffer_count = 0;
self.lateness = Duration::ZERO;
self.max_lateness = Duration::ZERO;
self.late_buffer_count_delta = 0;
self.lateness_delta = Duration::ZERO;
self.max_lateness_delta = Duration::ZERO;
self.last_delta_instant = None;
self.log_start_instant = None;
self.ramp_up_instant = Some(Instant::now());
gst::info!(CAT, "First stats logs in {:.2?}", 2 * LOG_PERIOD);
}
fn can_count(&mut self) -> bool {
if !self.must_log {
return false;
}
if let Some(ramp_up_instant) = self.ramp_up_instant {
if ramp_up_instant.elapsed() < LOG_PERIOD {
return false;
}
self.ramp_up_instant = None;
gst::info!(CAT, "Ramp up complete. Stats logs in {:.2?}", LOG_PERIOD);
self.log_start_instant = Some(Instant::now());
self.last_delta_instant = self.log_start_instant;
}
true
}
fn notify_buffer(&mut self) {
if !self.can_count() {
return;
}
self.buffer_count += 1;
self.buffer_count_delta += 1;
}
fn notify_buffer_headroom(&mut self, headroom: Duration) {
if !self.can_count() {
return;
}
self.buffer_headroom += headroom;
self.buffer_headroom_delta += headroom;
}
fn notify_late_buffer(&mut self, now: Option<gst::ClockTime>, pts: gst::ClockTime) {
if !self.can_count() {
return;
}
let lateness = now
.opt_checked_sub(pts)
.ok()
.flatten()
.map_or(Duration::ZERO, Duration::from);
self.late_buffer_count += 1;
self.lateness += lateness;
self.max_lateness = self.max_lateness.max(lateness);
self.late_buffer_count_delta += 1;
self.lateness_delta += lateness;
self.max_lateness_delta = self.max_lateness_delta.max(lateness);
}
fn log_delta(&mut self) {
let delta_duration = match self.last_delta_instant {
Some(last_delta) => last_delta.elapsed(),
None => return,
};
if delta_duration < LOG_PERIOD {
return;
}
self.last_delta_instant = Some(Instant::now());
gst::info!(CAT, "Delta stats:");
gst::info!(
CAT,
"o {:>5.2} buffers / s",
self.buffer_count_delta as f32 / delta_duration.as_millis() as f32 * 1_000f32,
);
if self.sync && self.buffer_count_delta > 0 {
let early_buffers_count = self
.buffer_count_delta
.saturating_sub(self.late_buffer_count_delta);
if early_buffers_count > 0 {
gst::info!(
CAT,
"o {:>5.2?} headroom / early buffers",
self.buffer_headroom_delta / early_buffers_count,
);
gst::info!(
CAT,
"o {:>5.2}% late buffers - mean {:>5.2?}, max {:>5.2?}",
self.late_buffer_count_delta as f32 / self.buffer_count_delta as f32 * 100f32,
self.lateness_delta
.checked_div(self.late_buffer_count_delta)
.unwrap_or(Duration::ZERO),
self.max_lateness_delta,
);
}
self.buffer_headroom_delta = Duration::ZERO;
self.late_buffer_count_delta = 0;
self.lateness_delta = Duration::ZERO;
self.max_lateness_delta = Duration::ZERO;
}
self.buffer_count_delta = 0;
}
fn log_global(&mut self) {
let log_duration = match self.log_start_instant {
Some(start) => start.elapsed(),
None => return,
};
gst::info!(CAT, "Global stats:");
gst::info!(
CAT,
"o {:>5.2} buffers / s",
self.buffer_count as f32 / log_duration.as_millis() as f32 * 1_000f32,
);
if self.sync && self.buffer_count > 0 {
let early_buffers_count = self.buffer_count.saturating_sub(self.late_buffer_count);
if early_buffers_count > 0 {
gst::info!(
CAT,
"o {:>5.2?} headroom / early buffers",
self.buffer_headroom / early_buffers_count,
);
gst::info!(
CAT,
"o {:>5.2}% late buffers - mean {:>5.2?}, max {:>5.2?}",
self.late_buffer_count as f32 / self.buffer_count as f32 * 100f32,
self.lateness
.checked_div(self.late_buffer_count)
.unwrap_or(Duration::ZERO),
self.max_lateness,
);
}
}
}
}
struct TestSinkTask {
element: super::TestSink,
item_receiver: Peekable<flume::r#async::RecvStream<'static, TaskItem>>,
sync: bool,
stats: Stats,
segment: Option<gst::Segment>,
}
impl TestSinkTask {
fn new(element: &super::TestSink, item_receiver: flume::Receiver<TaskItem>) -> Self {
TestSinkTask {
element: element.clone(),
item_receiver: item_receiver.into_stream().peekable(),
sync: DEFAULT_SYNC,
stats: Stats::default(),
segment: None,
}
}
async fn flush(&mut self) {
// Purge the channel
while let Poll::Ready(Some(_item)) = futures::poll!(self.item_receiver.next()) {}
}
}
impl TaskImpl for TestSinkTask {
type Item = TaskItem;
fn prepare(&mut self) -> BoxFuture<'_, Result<(), gst::ErrorMessage>> {
async move {
gst::log!(CAT, obj: &self.element, "Preparing Task");
let sink = self.element.imp();
let settings = sink.settings.lock().unwrap();
self.sync = settings.sync;
self.stats.sync = self.sync;
self.stats.must_log = settings.must_log_stats;
Ok(())
}
.boxed()
}
fn start(&mut self) -> BoxFuture<'_, Result<(), gst::ErrorMessage>> {
async {
gst::log!(CAT, obj: &self.element, "Starting Task");
self.stats.start();
Ok(())
}
.boxed()
}
fn stop(&mut self) -> BoxFuture<'_, Result<(), gst::ErrorMessage>> {
async {
gst::log!(CAT, obj: &self.element, "Stopping Task");
self.flush().await;
Ok(())
}
.boxed()
}
fn flush_start(&mut self) -> BoxFuture<'_, Result<(), gst::ErrorMessage>> {
async {
gst::log!(CAT, obj: &self.element, "Starting Task Flush");
self.flush().await;
Ok(())
}
.boxed()
}
fn try_next(&mut self) -> BoxFuture<'_, Result<TaskItem, gst::FlowError>> {
async move {
let item_opt = Pin::new(&mut self.item_receiver).peek().await;
// Check the peeked item in case we need to sync.
// The item will still be available in the channel
// in case this is cancelled by a state transition.
match item_opt {
Some(TaskItem::Buffer(buffer)) => {
self.stats.notify_buffer();
if self.sync {
let rtime = self.segment.as_ref().and_then(|segment| {
segment
.downcast_ref::<gst::format::Time>()
.and_then(|segment| segment.to_running_time(buffer.pts()))
});
if let Some(pts) = rtime {
// This can be cancelled by a state transition.
self.sync(pts).await;
}
}
}
Some(_) => (),
None => {
panic!("Internal channel sender dropped while Task is Started");
}
}
// An item was peeked above, we can now pop it without losing it.
Ok(self.item_receiver.next().await.unwrap())
}
.boxed()
}
fn handle_item(&mut self, item: TaskItem) -> BoxFuture<'_, Result<(), gst::FlowError>> {
async move {
gst::debug!(CAT, obj: &self.element, "Handling {:?}", item);
match item {
TaskItem::Buffer(buffer) => {
self.render(buffer).await.map_err(|err| {
element_error!(
&self.element,
gst::StreamError::Failed,
["Failed to render item, stopping task: {}", err]
);
gst::FlowError::Error
})?;
self.stats.log_delta();
}
TaskItem::Event(event) => match event.view() {
EventView::Eos(_) => {
self.stats.log_global();
let _ = self
.element
.post_message(gst::message::Eos::builder().src(&self.element).build());
}
EventView::Segment(e) => {
self.segment = Some(e.segment().clone());
}
EventView::SinkMessage(e) => {
let _ = self.element.post_message(e.message());
}
_ => (),
},
}
Ok(())
}
.boxed()
}
}
impl TestSinkTask {
async fn render(&mut self, buffer: gst::Buffer) -> Result<(), gst::FlowError> {
let _data = buffer.map_readable().map_err(|_| {
element_error!(
self.element,
gst::StreamError::Format,
["Failed to map buffer readable"]
);
gst::FlowError::Error
})?;
gst::log!(CAT, obj: &self.element, "buffer {:?} rendered", buffer);
Ok(())
}
/// Waits until specified time.
async fn sync(&mut self, pts: gst::ClockTime) {
let now = self.element.current_running_time();
if let Ok(Some(delay)) = pts.opt_checked_sub(now) {
let delay = delay.into();
gst::trace!(CAT, obj: &self.element, "sync: waiting {:?}", delay);
runtime::time::delay_for(delay).await;
self.stats.notify_buffer_headroom(delay);
} else {
self.stats.notify_late_buffer(now, pts);
}
}
}
#[derive(Debug)]
pub struct TestSink {
sink_pad: PadSink,
task: Task,
item_sender: Mutex<Option<flume::Sender<TaskItem>>>,
settings: Mutex<Settings>,
}
impl TestSink {
#[track_caller]
fn clone_item_sender(&self) -> flume::Sender<TaskItem> {
self.item_sender.lock().unwrap().as_ref().unwrap().clone()
}
fn prepare(&self, element: &super::TestSink) -> Result<(), gst::ErrorMessage> {
gst::debug!(CAT, obj: element, "Preparing");
let context = {
let settings = self.settings.lock().unwrap();
Context::acquire(&settings.context, settings.context_wait).map_err(|err| {
error_msg!(
gst::ResourceError::OpenWrite,
["Failed to acquire Context: {}", err]
)
})?
};
// Enable backpressure for items
let (item_sender, item_receiver) = flume::bounded(0);
let task_impl = TestSinkTask::new(element, item_receiver);
self.task.prepare(task_impl, context).block_on()?;
*self.item_sender.lock().unwrap() = Some(item_sender);
gst::debug!(CAT, obj: element, "Started preparation");
Ok(())
}
fn unprepare(&self, element: &super::TestSink) {
gst::debug!(CAT, obj: element, "Unpreparing");
self.task.unprepare().block_on().unwrap();
gst::debug!(CAT, obj: element, "Unprepared");
}
fn stop(&self, element: &super::TestSink) -> Result<(), gst::ErrorMessage> {
gst::debug!(CAT, obj: element, "Stopping");
self.task.stop().block_on()?;
gst::debug!(CAT, obj: element, "Stopped");
Ok(())
}
fn start(&self, element: &super::TestSink) -> Result<(), gst::ErrorMessage> {
gst::debug!(CAT, obj: element, "Starting");
self.task.start().block_on()?;
gst::debug!(CAT, obj: element, "Started");
Ok(())
}
}
#[glib::object_subclass]
impl ObjectSubclass for TestSink {
const NAME: &'static str = "StandaloneTestSink";
type Type = super::TestSink;
type ParentType = gst::Element;
fn with_class(klass: &Self::Class) -> Self {
Self {
sink_pad: PadSink::new(
gst::Pad::from_template(&klass.pad_template("sink").unwrap(), Some("sink")),
TestSinkPadHandler,
),
task: Task::default(),
item_sender: Default::default(),
settings: Default::default(),
}
}
}
impl ObjectImpl for TestSink {
fn properties() -> &'static [glib::ParamSpec] {
static PROPERTIES: Lazy<Vec<glib::ParamSpec>> = Lazy::new(|| {
vec![
glib::ParamSpecString::builder("context")
.nick("Context")
.blurb("Context name to share threads with")
.default_value(Some(DEFAULT_CONTEXT))
.build(),
glib::ParamSpecUInt::builder("context-wait")
.nick("Context Wait")
.blurb("Throttle poll loop to run at most once every this many ms")
.maximum(1000)
.default_value(DEFAULT_CONTEXT_WAIT.as_millis() as u32)
.build(),
glib::ParamSpecBoolean::builder("sync")
.nick("Sync")
.blurb("Sync on the clock")
.default_value(DEFAULT_SYNC)
.build(),
glib::ParamSpecBoolean::builder("must-log-stats")
.nick("Must Log Stats")
.blurb("Whether statistics should be logged")
.default_value(DEFAULT_MUST_LOG_STATS)
.write_only()
.build(),
]
});
PROPERTIES.as_ref()
}
fn set_property(
&self,
_obj: &Self::Type,
_id: usize,
value: &glib::Value,
pspec: &glib::ParamSpec,
) {
let mut settings = self.settings.lock().unwrap();
match pspec.name() {
"sync" => {
let sync = value.get().expect("type checked upstream");
settings.sync = sync;
}
"context" => {
settings.context = value
.get::<Option<String>>()
.expect("type checked upstream")
.unwrap_or_else(|| DEFAULT_CONTEXT.into());
}
"context-wait" => {
settings.context_wait = Duration::from_millis(
value.get::<u32>().expect("type checked upstream").into(),
);
}
"must-log-stats" => {
let must_log_stats = value.get().expect("type checked upstream");
settings.must_log_stats = must_log_stats;
}
_ => unimplemented!(),
}
}
fn property(&self, _obj: &Self::Type, _id: usize, pspec: &glib::ParamSpec) -> glib::Value {
let settings = self.settings.lock().unwrap();
match pspec.name() {
"sync" => settings.sync.to_value(),
"context" => settings.context.to_value(),
"context-wait" => (settings.context_wait.as_millis() as u32).to_value(),
_ => unimplemented!(),
}
}
fn constructed(&self, obj: &Self::Type) {
self.parent_constructed(obj);
obj.add_pad(self.sink_pad.gst_pad()).unwrap();
gstthreadshare::set_element_flags(obj, gst::ElementFlags::SINK);
}
}
impl GstObjectImpl for TestSink {}
impl ElementImpl for TestSink {
fn metadata() -> Option<&'static gst::subclass::ElementMetadata> {
static ELEMENT_METADATA: Lazy<gst::subclass::ElementMetadata> = Lazy::new(|| {
gst::subclass::ElementMetadata::new(
"Thread-sharing standalone test sink",
"Sink/Test",
"Thread-sharing standalone test sink",
"François Laignel <fengalin@free.fr>",
)
});
Some(&*ELEMENT_METADATA)
}
fn pad_templates() -> &'static [gst::PadTemplate] {
static PAD_TEMPLATES: Lazy<Vec<gst::PadTemplate>> = Lazy::new(|| {
let caps = gst::Caps::new_any();
let sink_pad_template = gst::PadTemplate::new(
"sink",
gst::PadDirection::Sink,
gst::PadPresence::Always,
&caps,
)
.unwrap();
vec![sink_pad_template]
});
PAD_TEMPLATES.as_ref()
}
fn change_state(
&self,
element: &Self::Type,
transition: gst::StateChange,
) -> Result<gst::StateChangeSuccess, gst::StateChangeError> {
gst::trace!(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::ReadyToPaused => {
self.start(element).map_err(|_| gst::StateChangeError)?;
}
gst::StateChange::PausedToReady => {
self.stop(element).map_err(|_| gst::StateChangeError)?;
}
gst::StateChange::ReadyToNull => {
self.unprepare(element);
}
_ => (),
}
self.parent_change_state(element, transition)
}
}
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