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gst-plugins-rs/generic/threadshare/examples/standalone/sink/stats.rs
François Laignel 9b96cfc452 ts/standalone: add new Sinks 
Contrary to the existing Task Sink, the Async and Sync Mutex Sinks
handle buffers in the `PadSinkHandler` directly. The Async Mutex
Sink uses an async Mutex for the `PadSinkHandlerInner` while the
Sync Mutex Sink uses... a sync Mutex.

All Sinks share the same settings and stats manager.

Use the `--sink` command line option to select the sink (default is
`sync-mutex` since it allows evaluating the framework with as little
overhead as possible.

Also apply various fixes:

- Only keep the segment start instead of the full `Segment`. This
  helps with cache locality (`Segment` is a plain struct with many
  fields) and avoids downcasting the generic `Segment` upon each
  buffer handling.
- Box the `Stat`s. This should improve cache locality a bit.
- Fix EOS handling which took ages for no benefits in this
  particular use case.
- Use a macro to raise log level in the main element.
- Move error handling during item processing in `handle_loop_error`.
  This function was precisely designed for this and it should reduce
  the `handle_item`'s Future size.
2022-11-09 07:55:04 +00:00

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use gst::prelude::*;
use std::time::{Duration, Instant};
#[cfg(feature = "tuning")]
use gstthreadshare::runtime::Context;
use super::CAT;
const LOG_PERIOD: Duration = Duration::from_secs(20);
#[derive(Debug, Default)]
pub struct Stats {
ramp_up_instant: Option<Instant>,
log_start_instant: Option<Instant>,
last_delta_instant: Option<Instant>,
max_buffers: Option<f32>,
buffer_count: f32,
buffer_count_delta: f32,
latency_sum: f32,
latency_square_sum: f32,
latency_sum_delta: f32,
latency_square_sum_delta: f32,
latency_min: Duration,
latency_min_delta: Duration,
latency_max: Duration,
latency_max_delta: Duration,
interval_sum: f32,
interval_square_sum: f32,
interval_sum_delta: f32,
interval_square_sum_delta: f32,
interval_min: Duration,
interval_min_delta: Duration,
interval_max: Duration,
interval_max_delta: Duration,
interval_late_warn: Duration,
interval_late_count: f32,
interval_late_count_delta: f32,
#[cfg(feature = "tuning")]
parked_duration_init: Duration,
}
impl Stats {
pub fn new(max_buffers: Option<u32>, interval_late_warn: Duration) -> Self {
Stats {
max_buffers: max_buffers.map(|max_buffers| max_buffers as f32),
interval_late_warn,
..Default::default()
}
}
pub fn start(&mut self) {
self.buffer_count = 0.0;
self.buffer_count_delta = 0.0;
self.latency_sum = 0.0;
self.latency_square_sum = 0.0;
self.latency_sum_delta = 0.0;
self.latency_square_sum_delta = 0.0;
self.latency_min = Duration::MAX;
self.latency_min_delta = Duration::MAX;
self.latency_max = Duration::ZERO;
self.latency_max_delta = Duration::ZERO;
self.interval_sum = 0.0;
self.interval_square_sum = 0.0;
self.interval_sum_delta = 0.0;
self.interval_square_sum_delta = 0.0;
self.interval_min = Duration::MAX;
self.interval_min_delta = Duration::MAX;
self.interval_max = Duration::ZERO;
self.interval_max_delta = Duration::ZERO;
self.interval_late_count = 0.0;
self.interval_late_count_delta = 0.0;
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);
}
pub fn is_active(&mut self) -> bool {
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;
#[cfg(feature = "tuning")]
{
self.parked_duration_init = Context::current().unwrap().parked_duration();
}
}
use std::cmp::Ordering::*;
match self.max_buffers.opt_cmp(self.buffer_count) {
Some(Equal) => {
self.log_global();
self.buffer_count += 1.0;
false
}
Some(Less) => false,
_ => true,
}
}
pub fn add_buffer(&mut self, latency: Duration, interval: Duration) {
if !self.is_active() {
return;
}
self.buffer_count += 1.0;
self.buffer_count_delta += 1.0;
// Latency
let latency_f32 = latency.as_nanos() as f32;
let latency_square = latency_f32.powi(2);
self.latency_sum += latency_f32;
self.latency_square_sum += latency_square;
self.latency_min = self.latency_min.min(latency);
self.latency_max = self.latency_max.max(latency);
self.latency_sum_delta += latency_f32;
self.latency_square_sum_delta += latency_square;
self.latency_min_delta = self.latency_min_delta.min(latency);
self.latency_max_delta = self.latency_max_delta.max(latency);
// Interval
let interval_f32 = interval.as_nanos() as f32;
let interval_square = interval_f32.powi(2);
self.interval_sum += interval_f32;
self.interval_square_sum += interval_square;
self.interval_min = self.interval_min.min(interval);
self.interval_max = self.interval_max.max(interval);
self.interval_sum_delta += interval_f32;
self.interval_square_sum_delta += interval_square;
self.interval_min_delta = self.interval_min_delta.min(interval);
self.interval_max_delta = self.interval_max_delta.max(interval);
if interval > self.interval_late_warn {
self.interval_late_count += 1.0;
self.interval_late_count_delta += 1.0;
}
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:");
let interval_mean = self.interval_sum_delta / self.buffer_count_delta;
let interval_std_dev = f32::sqrt(
self.interval_square_sum_delta / self.buffer_count_delta - interval_mean.powi(2),
);
gst::info!(
CAT,
"o interval: mean {:4.2?} σ {:4.1?} [{:4.1?}, {:4.1?}]",
Duration::from_nanos(interval_mean as u64),
Duration::from_nanos(interval_std_dev as u64),
self.interval_min_delta,
self.interval_max_delta,
);
if self.interval_late_count_delta > f32::EPSILON {
gst::warning!(
CAT,
"o {:5.2}% late buffers",
100f32 * self.interval_late_count_delta / self.buffer_count_delta
);
}
self.interval_sum_delta = 0.0;
self.interval_square_sum_delta = 0.0;
self.interval_min_delta = Duration::MAX;
self.interval_max_delta = Duration::ZERO;
self.interval_late_count_delta = 0.0;
let latency_mean = self.latency_sum_delta / self.buffer_count_delta;
let latency_std_dev = f32::sqrt(
self.latency_square_sum_delta / self.buffer_count_delta - latency_mean.powi(2),
);
gst::info!(
CAT,
"o latency: mean {:4.2?} σ {:4.1?} [{:4.1?}, {:4.1?}]",
Duration::from_nanos(latency_mean as u64),
Duration::from_nanos(latency_std_dev as u64),
self.latency_min_delta,
self.latency_max_delta,
);
self.latency_sum_delta = 0.0;
self.latency_square_sum_delta = 0.0;
self.latency_min_delta = Duration::MAX;
self.latency_max_delta = Duration::ZERO;
self.buffer_count_delta = 0.0;
}
pub fn log_global(&mut self) {
if self.buffer_count < 1.0 {
return;
}
let _log_start = if let Some(log_start) = self.log_start_instant {
log_start
} else {
return;
};
gst::info!(CAT, "Global stats:");
#[cfg(feature = "tuning")]
{
let duration = _log_start.elapsed();
let parked_duration =
Context::current().unwrap().parked_duration() - self.parked_duration_init;
gst::info!(
CAT,
"o parked: {parked_duration:4.2?} ({:5.2?}%)",
(parked_duration.as_nanos() as f32 * 100.0 / duration.as_nanos() as f32)
);
}
let interval_mean = self.interval_sum / self.buffer_count;
let interval_std_dev =
f32::sqrt(self.interval_square_sum / self.buffer_count - interval_mean.powi(2));
gst::info!(
CAT,
"o interval: mean {:4.2?} σ {:4.1?} [{:4.1?}, {:4.1?}]",
Duration::from_nanos(interval_mean as u64),
Duration::from_nanos(interval_std_dev as u64),
self.interval_min,
self.interval_max,
);
if self.interval_late_count > f32::EPSILON {
gst::warning!(
CAT,
"o {:5.2}% late buffers",
100f32 * self.interval_late_count / self.buffer_count
);
}
let latency_mean = self.latency_sum / self.buffer_count;
let latency_std_dev =
f32::sqrt(self.latency_square_sum / self.buffer_count - latency_mean.powi(2));
gst::info!(
CAT,
"o latency: mean {:4.2?} σ {:4.1?} [{:4.1?}, {:4.1?}]",
Duration::from_nanos(latency_mean as u64),
Duration::from_nanos(latency_std_dev as u64),
self.latency_min,
self.latency_max,
);
}
}
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