// Copyright (C) 2018 Sebastian Dröge // // 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::env; use std::sync::atomic::{AtomicU64, Ordering}; use std::sync::Arc; use std::thread; use std::time::{Duration, Instant}; const THROUGHPUT_PERIOD: Duration = Duration::from_secs(20); pub static CAT: Lazy = Lazy::new(|| { gst::DebugCategory::new( "ts-benchmark", gst::DebugColorFlags::empty(), Some("Thread-sharing benchmarking receiver"), ) }); fn main() { gst::init().unwrap(); // Register the plugins statically: // - The executable can be run from anywhere. // - No risk of running against a previous version. // - `main` can use features that rely on `static`s or `thread_local` // such as `Context::acquire` which otherwise don't point to // the same `static` or `thread_local`, probably because // the shared object uses its owns and the executable, others. gstthreadshare::plugin_register_static().unwrap(); let args = env::args().collect::>(); assert!(args.len() > 4); let n_streams: u16 = args[1].parse().unwrap(); let source = &args[2]; let n_groups: u32 = args[3].parse().unwrap(); let wait: u32 = args[4].parse().unwrap(); // Nb buffers to await before stopping. let max_buffers: Option = if args.len() > 5 { args[5].parse().ok() } else { None }; let is_rtp = args.len() > 6 && (args[6] == "rtp"); let rtp_caps = gst::Caps::builder("application/x-rtp") .field("media", "audio") .field("payload", 8i32) .field("clock-rate", 8000) .field("encoding-name", "PCMA") .build(); let l = glib::MainLoop::new(None, false); let pipeline = gst::Pipeline::default(); let counter = Arc::new(AtomicU64::new(0)); for i in 0..n_streams { let build_context = || format!("context-{}", (i as u32) % n_groups); let sink = gst::ElementFactory::make("fakesink") .name(format!("sink-{i}").as_str()) .property("sync", false) .property("async", false) .property("signal-handoffs", true) .build() .unwrap(); sink.connect( "handoff", true, glib::clone!(@strong counter => move |_| { let _ = counter.fetch_add(1, Ordering::SeqCst); None }), ); let (source, context) = match source.as_str() { "udpsrc" => { let source = gst::ElementFactory::make("udpsrc") .name(format!("source-{i}").as_str()) .property("port", 5004i32 + i as i32) .property("retrieve-sender-address", false) .build() .unwrap(); (source, None) } "ts-udpsrc" => { let context = build_context(); let source = gst::ElementFactory::make("ts-udpsrc") .name(format!("source-{i}").as_str()) .property("port", 5004i32 + i as i32) .property("context", &context) .property("context-wait", wait) .build() .unwrap(); if is_rtp { source.set_property("caps", &rtp_caps); } (source, Some(context)) } "tcpclientsrc" => { let source = gst::ElementFactory::make("tcpclientsrc") .name(format!("source-{i}").as_str()) .property("host", "127.0.0.1") .property("port", 40000i32) .build() .unwrap(); (source, None) } "ts-tcpclientsrc" => { let context = build_context(); let source = gst::ElementFactory::make("ts-tcpclientsrc") .name(format!("source-{i}").as_str()) .property("host", "127.0.0.1") .property("port", 40000i32) .property("context", &context) .property("context-wait", wait) .build() .unwrap(); (source, Some(context)) } "tonegeneratesrc" => { let source = gst::ElementFactory::make("tonegeneratesrc") .name(format!("source-{i}").as_str()) .property("samplesperbuffer", (wait as i32) * 8000 / 1000) .build() .unwrap(); sink.set_property("sync", true); (source, None) } "ts-tonesrc" => { let context = build_context(); let source = gst::ElementFactory::make("ts-tonesrc") .name(format!("source-{i}").as_str()) .property("samples-per-buffer", wait * 8000 / 1000) .property("context", &context) .property("context-wait", wait) .build() .unwrap(); (source, Some(context)) } _ => unimplemented!(), }; if is_rtp { let jb = gst::ElementFactory::make("ts-jitterbuffer") .name(format!("jb-{i}").as_str()) .property("context-wait", wait) .property("latency", wait) .build() .unwrap(); if let Some(context) = context { jb.set_property("context", &context); } let elements = &[&source, &jb, &sink]; pipeline.add_many(elements).unwrap(); gst::Element::link_many(elements).unwrap(); } else { let elements = &[&source, &sink]; pipeline.add_many(elements).unwrap(); gst::Element::link_many(elements).unwrap(); } } let bus = pipeline.bus().unwrap(); let l_clone = l.clone(); let _bus_watch = bus .add_watch(move |_, msg| { use gst::MessageView; match msg.view() { MessageView::Eos(..) => l_clone.quit(), MessageView::Error(err) => { gst::error!( CAT, "Error from {:?}: {} ({:?})", err.src().map(|s| s.path_string()), err.error(), err.debug() ); l_clone.quit(); } _ => (), }; glib::ControlFlow::Continue }) .expect("Failed to add bus watch"); pipeline.set_state(gst::State::Playing).unwrap(); gst::info!(CAT, "started"); let l_clone = l.clone(); thread::spawn(move || { let n_streams_f32 = n_streams as f32; let mut total_count = 0.0; let mut ramp_up_complete_instant: Option = None; #[cfg(feature = "tuning")] let ctx_0 = gstthreadshare::runtime::Context::acquire( "context-0", Duration::from_millis(wait as u64), ) .unwrap(); #[cfg(feature = "tuning")] let mut parked_init = Duration::ZERO; loop { total_count += counter.fetch_and(0, Ordering::SeqCst) as f32 / n_streams_f32; if let Some(max_buffers) = max_buffers { if total_count > max_buffers { gst::info!(CAT, "Stopping"); let stopping_instant = Instant::now(); pipeline.set_state(gst::State::Ready).unwrap(); gst::info!(CAT, "Stopped. Took {:?}", stopping_instant.elapsed()); pipeline.set_state(gst::State::Null).unwrap(); gst::info!(CAT, "Unprepared"); l_clone.quit(); break; } } if let Some(init) = ramp_up_complete_instant { let elapsed = init.elapsed(); gst::info!( CAT, "Thrpt: {:>6.2}", total_count * 1_000.0 / elapsed.as_millis() as f32 ); #[cfg(feature = "tuning")] gst::info!( CAT, "Parked: {:>6.2}%", (ctx_0.parked_duration() - parked_init).as_nanos() as f32 * 100.0 / elapsed.as_nanos() as f32 ); } else { // Ramp up 30s worth of buffers before following parked if total_count > 50.0 * 30.0 { total_count = 0.0; ramp_up_complete_instant = Some(Instant::now()); #[cfg(feature = "tuning")] { parked_init = ctx_0.parked_duration(); } } } thread::sleep(THROUGHPUT_PERIOD); } }); l.run(); }