gst-plugins-rs/net/quinn/examples/quic_roq.rs

599 lines
20 KiB
Rust
Raw Normal View History

use clap::Parser;
use gst::glib;
use gst::prelude::*;
use std::str::FromStr;
use std::sync::LazyLock;
static CAT: LazyLock<gst::DebugCategory> = LazyLock::new(|| {
gst::DebugCategory::new(
"gst-quinn-roq",
gst::DebugColorFlags::empty(),
Some("gst-quinn-roq"),
)
});
#[derive(Parser, Debug)]
#[command(name = "gst-quinn-roq")]
#[command(version = "0.1")]
#[command(about = "Code for testing RTP with QUIC", long_about = None)]
struct Cli {
#[clap(long, short, action)]
receiver: bool,
#[clap(long, short, action)]
vp8: bool,
}
fn connect_overrun(pipeline: &gst::Pipeline, queue: &gst::Element, is_receiver: bool) {
let pipeline_weak = pipeline.downgrade();
queue.connect("overrun", false, move |args| {
let pipeline = match pipeline_weak.upgrade() {
Some(element) => element,
None => return None,
};
let queue = args[0]
.get::<gst::Element>()
.expect("First argument to overrun must be a queue");
let cur_level_bytes = queue.property::<u32>("current-level-bytes");
let cur_level_buffers = queue.property::<u32>("current-level-buffers");
let cur_level_time = queue.property::<u64>("current-level-time");
gst::info!(
CAT,
"Queue {} overrun, bytes: {}, buffers: {}, time: {}",
queue.name(),
cur_level_bytes,
cur_level_buffers,
cur_level_time
);
let dot_name = if is_receiver {
format!("{}-overrun-receive", queue.name()).to_string()
} else {
format!("{}-overrun-send", queue.name()).to_string()
};
pipeline.debug_to_dot_file_with_ts(gst::DebugGraphDetails::all(), dot_name);
None
});
}
fn video_bin(pipeline: &gst::Pipeline, text: String, use_vp8: bool) -> gst::Bin {
let videosrc = gst::ElementFactory::make("videotestsrc").build().unwrap();
let capsf = gst::ElementFactory::make("capsfilter").build().unwrap();
let overlay = gst::ElementFactory::make("clockoverlay").build().unwrap();
let convert = gst::ElementFactory::make("videoconvert").build().unwrap();
let queue_src = gst::ElementFactory::make("queue").build().unwrap();
let enc = if use_vp8 {
gst::ElementFactory::make("vp8enc").build().unwrap()
} else {
gst::ElementFactory::make("x264enc").build().unwrap()
};
let enc_caps = gst::ElementFactory::make("capsfilter").build().unwrap();
let rtppay = if use_vp8 {
gst::ElementFactory::make("rtpvp8pay").build().unwrap()
} else {
gst::ElementFactory::make("rtph264pay").build().unwrap()
};
let queue = gst::ElementFactory::make("queue").build().unwrap();
connect_overrun(pipeline, &queue_src, false);
connect_overrun(pipeline, &queue, false);
let bin = gst::Bin::builder().name(text.clone()).build();
if use_vp8 {
enc.set_property("deadline", 2i64);
enc.set_property("threads", 4i32);
enc.set_property_from_str("end-usage", "cbr");
} else {
enc.set_property_from_str("speed-preset", "ultrafast");
enc.set_property_from_str("tune", "zerolatency");
enc.set_property("threads", 4u32);
}
videosrc.set_property_from_str("animation-mode", "wall-time");
// videosrc.set_property("flip", true);
videosrc.set_property_from_str("pattern", "ball");
videosrc.set_property("is-live", true);
queue.set_property("max-size-buffers", 0u32);
queue.set_property("max-size-bytes", 0u32);
queue.set_property("max-size-time", 10 * gst::ClockTime::SECOND);
let caps =
gst::Caps::from_str("video/x-raw,width=640,height=480,format=I420,framerate=25/1").unwrap();
capsf.set_property("caps", caps);
let caps = if use_vp8 {
gst::Caps::from_str("video/x-vp8").unwrap()
} else {
gst::Caps::from_str("video/x-h264,stream-format=byte-stream").unwrap()
};
enc_caps.set_property("caps", caps);
if text == "Stream 1" {
rtppay.set_property("pt", 101u32);
} else if text == "Stream 2" {
rtppay.set_property("pt", 102u32);
} else if text == "Datagram 1" {
rtppay.set_property("pt", 103u32);
} else if text == "Datagram 2" {
rtppay.set_property("pt", 104u32);
}
rtppay.set_property("mtu", u32::MAX);
if use_vp8 {
rtppay.set_property_from_str("picture-id-mode", "15-bit");
} else {
rtppay.set_property_from_str("aggregate-mode", "zero-latency");
}
overlay.set_property("text", text);
overlay.set_property_from_str("valignment", "top");
overlay.set_property_from_str("halignment", "left");
overlay.set_property_from_str("font-desc", "Sans, 60");
bin.add_many([
&videosrc, &capsf, &overlay, &convert, &queue_src, &enc, &enc_caps, &rtppay, &queue,
])
.expect("Failed to add elements");
videosrc.link(&capsf).unwrap();
capsf.link(&overlay).unwrap();
overlay.link(&convert).unwrap();
convert.link(&queue_src).unwrap();
queue_src.link(&enc).unwrap();
enc.link(&enc_caps).unwrap();
enc_caps.link(&rtppay).unwrap();
rtppay.link(&queue).unwrap();
let queue_srcpad = queue.static_pad("src").unwrap();
let srcpad = gst::GhostPad::builder(gst::PadDirection::Src)
.name("src")
.build();
srcpad.set_target(Some(&queue_srcpad)).unwrap();
bin.add_pad(&srcpad).unwrap();
bin
}
fn depay_bin(pipeline: &gst::Pipeline, bin_name: String) -> gst::Bin {
let bin = gst::Bin::builder().name(bin_name).build();
let queue = gst::ElementFactory::make("queue").build().unwrap();
let jitter = gst::ElementFactory::make("rtpjitterbuffer")
.build()
.unwrap();
let decode = gst::ElementFactory::make("decodebin").build().unwrap();
bin.add(&queue).unwrap();
bin.add(&jitter).unwrap();
bin.add(&decode).unwrap();
decode.set_property("force-sw-decoders", true);
queue.set_property_from_str("leaky", "downstream");
queue.set_property("max-size-buffers", 0u32);
queue.set_property("max-size-bytes", 0u32);
queue.set_property("max-size-time", 10 * gst::ClockTime::SECOND);
jitter.set_property("rtx-next-seqnum", false);
queue.link(&jitter).unwrap();
jitter.link(&decode).unwrap();
queue.sync_state_with_parent().unwrap();
jitter.sync_state_with_parent().unwrap();
decode.sync_state_with_parent().unwrap();
connect_overrun(pipeline, &queue, true);
let queue_sinkpad = queue.static_pad("sink").unwrap();
let sinkpad = gst::GhostPad::builder(gst::PadDirection::Sink)
.name("sink")
.build();
sinkpad.set_target(Some(&queue_sinkpad)).unwrap();
let srcpad = gst::GhostPad::builder(gst::PadDirection::Src)
.name("src")
.build();
bin.add_pad(&sinkpad).unwrap();
bin.add_pad(&srcpad).unwrap();
let bin_weak = bin.downgrade();
let pipeline_weak = pipeline.downgrade();
decode.connect("pad-added", false, move |args| {
let pipeline = match pipeline_weak.upgrade() {
Some(self_) => self_,
None => return None,
};
let bin = match bin_weak.upgrade() {
Some(self_) => self_,
None => return None,
};
let pad = args[1]
.get::<gst::Pad>()
.expect("Second argument to demux pad-added must be pad");
gst::info!(CAT, "decodebin pad {} added", pad.name());
let queue = gst::ElementFactory::make("queue").build().unwrap();
queue.set_property_from_str("leaky", "downstream");
queue.set_property("max-size-buffers", 0u32);
queue.set_property("max-size-bytes", 0u32);
queue.set_property("max-size-time", 10 * gst::ClockTime::SECOND);
connect_overrun(&pipeline, &queue, true);
bin.add(&queue).unwrap();
queue.sync_state_with_parent().unwrap();
let queue_srcpad = queue.static_pad("src").unwrap();
let queue_sinkpad = queue.static_pad("sink").unwrap();
pad.link(&queue_sinkpad).unwrap();
srcpad.set_target(Some(&queue_srcpad)).unwrap();
let compositor = pipeline.by_name("compositor").unwrap();
let compositor_sink_pad = compositor.request_pad_simple("sink_%u").unwrap();
srcpad.link(&compositor_sink_pad).unwrap();
match compositor_sink_pad.name().as_str() {
"sink_0" => {
compositor_sink_pad.set_property("xpos", 0);
compositor_sink_pad.set_property("ypos", 0);
}
"sink_1" => {
compositor_sink_pad.set_property("xpos", 640);
compositor_sink_pad.set_property("ypos", 0);
}
"sink_2" => {
compositor_sink_pad.set_property("xpos", 0);
compositor_sink_pad.set_property("ypos", 480);
}
"sink_3" => {
compositor_sink_pad.set_property("xpos", 640);
compositor_sink_pad.set_property("ypos", 480);
}
_ => (),
}
pipeline.debug_to_dot_file_with_ts(gst::DebugGraphDetails::all(), "decodebin-pad-added");
None
});
bin
}
fn receive_pipeline(pipeline: &gst::Pipeline, use_vp8: bool) {
let quicsrc = gst::ElementFactory::make("quinnquicsrc").build().unwrap();
let queue1 = gst::ElementFactory::make("queue").build().unwrap();
let roq = gst::ElementFactory::make("quinnroqdemux")
.name("roq-demux")
.build()
.unwrap();
let compositor = gst::ElementFactory::make("compositor")
.name("compositor")
.build()
.unwrap();
let queue2 = gst::ElementFactory::make("queue").build().unwrap();
let sink = gst::ElementFactory::make("autovideosink")
.name("video-sink")
.build()
.unwrap();
connect_overrun(pipeline, &queue1, true);
connect_overrun(pipeline, &queue2, true);
quicsrc.set_property("timeout", 0u32);
quicsrc.set_property("initial-mtu", 1200u32);
quicsrc.set_property("min-mtu", 1200u32);
quicsrc.set_property("upper-bound-mtu", 65527u32);
quicsrc.set_property("max-udp-payload-size", 65527u32);
quicsrc.set_property("use-datagram", false);
quicsrc.set_property("secure-connection", false);
quicsrc.set_property("server-name", "sanchayanmaity.net");
queue1.set_property_from_str("leaky", "downstream");
queue1.set_property("max-size-buffers", 0u32);
queue1.set_property("max-size-bytes", 0u32);
queue1.set_property("max-size-time", 10 * gst::ClockTime::SECOND);
queue2.set_property_from_str("leaky", "downstream");
queue2.set_property("max-size-buffers", 0u32);
queue2.set_property("max-size-bytes", 0u32);
queue2.set_property("max-size-time", 10 * gst::ClockTime::SECOND);
pipeline
.add_many([&quicsrc, &queue1, &roq, &compositor, &queue2, &sink])
.unwrap();
quicsrc.link(&queue1).unwrap();
queue1.link(&roq).unwrap();
compositor.link(&queue2).unwrap();
queue2.link(&sink).unwrap();
let pipeline_weak = pipeline.downgrade();
roq.connect("request-flow-id-map", false, move |args| {
let _pipeline = match pipeline_weak.upgrade() {
Some(self_) => self_,
None => return None,
};
let flow_id = args[1]
.get::<u64>()
.expect("Second argument to rtpdemux request-flow-id-map must be u64 flow_id");
gst::info!(CAT, "Requesting caps for flow-id {flow_id}");
let encoding = if use_vp8 { "VP8" } else { "H264" };
match flow_id {
5 => Some(
gst::Caps::builder("application/x-rtp")
.field("media", "video")
.field("encoding-name", encoding)
.field("payload", 101)
.field("clock-rate", 90000)
.build()
.to_value(),
),
6 => Some(
gst::Caps::builder("application/x-rtp")
.field("media", "video")
.field("encoding-name", encoding)
.field("payload", 102)
.field("clock-rate", 90000)
.build()
.to_value(),
),
2345 => Some(
gst::Caps::builder("application/x-rtp")
.field("media", "video")
.field("encoding-name", encoding)
.field("payload", 103)
.field("clock-rate", 90000)
.build()
.to_value(),
),
2346 => Some(
gst::Caps::builder("application/x-rtp")
.field("media", "video")
.field("encoding-name", encoding)
.field("payload", 104)
.field("clock-rate", 90000)
.build()
.to_value(),
),
_ => unimplemented!(),
}
});
let pipeline_weak = pipeline.downgrade();
roq.connect("pad-added", false, move |args| {
let pipeline = match pipeline_weak.upgrade() {
Some(self_) => self_,
None => return None,
};
let pad = args[1]
.get::<gst::Pad>()
.expect("Second argument to rtpdemux pad-added must be pad");
gst::info!(CAT, "QUIC RTP demuxer pad {} added", pad.name());
if !pad.name().starts_with("src_") {
return None;
}
let bin = depay_bin(&pipeline, pad.name().to_string());
pipeline.add(&bin).unwrap();
bin.sync_state_with_parent().unwrap();
let sinkpad = bin.static_pad("sink").unwrap();
pad.link(&sinkpad).unwrap();
pipeline.debug_to_dot_file_with_ts(gst::DebugGraphDetails::all(), "roq-demux-pad-added");
None
});
let pipeline_weak = pipeline.downgrade();
roq.connect("pad-removed", false, move |args| {
let pipeline = match pipeline_weak.upgrade() {
Some(self_) => self_,
None => return None,
};
let pad = args[1]
.get::<gst::Pad>()
.expect("Second argument to demux pad-removed must be pad");
let pad_name = pad.name();
gst::info!(CAT, "QUIC RTP demuxer pad {} removed", pad_name);
if let Some(bin) = pipeline.by_name(&pad_name) {
let bin_srcpad = bin.static_pad("src").unwrap();
if let Some(peer) = bin_srcpad.peer() {
bin_srcpad.unlink(&peer).unwrap();
gst::info!(CAT, "Unlinked {}", peer.name());
let compositor = pipeline.by_name("compositor").unwrap();
compositor.release_request_pad(&peer);
gst::info!(CAT, "Released pad {} from compositor", peer.name());
}
pipeline.remove(&bin).unwrap();
let pipeline_weak = pipeline.downgrade();
glib::idle_add_once(move || {
let _ = match pipeline_weak.upgrade() {
Some(self_) => self_,
None => return,
};
let _ = bin.set_state(gst::State::Null);
});
pipeline.debug_to_dot_file_with_ts(
gst::DebugGraphDetails::all(),
format!("removed-bin-downstream-to-{pad_name}"),
);
}
None
});
}
fn send_pipeline(pipeline: &gst::Pipeline, use_vp8: bool) {
let video1 = video_bin(pipeline, "Stream 1".to_string(), use_vp8);
let video2 = video_bin(pipeline, "Stream 2".to_string(), use_vp8);
let video3 = video_bin(pipeline, "Datagram 1".to_string(), use_vp8);
let video4 = video_bin(pipeline, "Datagram 2".to_string(), use_vp8);
let roq = gst::ElementFactory::make("quinnroqmux")
.name("roq-mux")
.build()
.unwrap();
let queue = gst::ElementFactory::make("queue").build().unwrap();
let sink = gst::ElementFactory::make("quinnquicsink")
.name("quic-sink")
.build()
.unwrap();
connect_overrun(pipeline, &queue, false);
queue.set_property("max-size-buffers", 0u32);
queue.set_property("max-size-bytes", 0u32);
queue.set_property("max-size-time", 10 * gst::ClockTime::SECOND);
sink.set_property("drop-buffer-for-datagram", true);
sink.set_property("initial-mtu", 1200u32);
sink.set_property("min-mtu", 1200u32);
sink.set_property("upper-bound-mtu", 65527u32);
sink.set_property("max-udp-payload-size", 65527u32);
sink.set_property("use-datagram", false);
sink.set_property("secure-connection", false);
sink.set_property("server-name", "sanchayanmaity.net");
pipeline
.add_many([&video1, &video2, &video3, &video4])
.unwrap();
pipeline.add_many([&roq, &queue, &sink]).unwrap();
let video1_roq_pad = roq.request_pad_simple("stream_%u").unwrap();
let video2_roq_pad = roq.request_pad_simple("stream_%u").unwrap();
let video3_roq_pad = roq.request_pad_simple("datagram_%u").unwrap();
let video4_roq_pad = roq.request_pad_simple("datagram_%u").unwrap();
video1_roq_pad.set_property("flow-id", 5u64);
video2_roq_pad.set_property("flow-id", 6u64);
video3_roq_pad.set_property("flow-id", 2345u64);
video4_roq_pad.set_property("flow-id", 2346u64);
let video1_pad = video1.static_pad("src").unwrap();
let video2_pad = video2.static_pad("src").unwrap();
let video3_pad = video3.static_pad("src").unwrap();
let video4_pad = video4.static_pad("src").unwrap();
video1_pad.link(&video1_roq_pad).unwrap();
video2_pad.link(&video2_roq_pad).unwrap();
video3_pad.link(&video3_roq_pad).unwrap();
video4_pad.link(&video4_roq_pad).unwrap();
roq.link(&queue).unwrap();
queue.link(&sink).unwrap();
}
fn main() {
let cli = Cli::parse();
gst::init().unwrap();
let pipeline = gst::Pipeline::new();
let context = glib::MainContext::default();
let main_loop = glib::MainLoop::new(Some(&context), false);
let _ = pipeline.set_state(gst::State::Ready);
if !cli.receiver {
send_pipeline(&pipeline, cli.vp8);
pipeline.debug_to_dot_file_with_ts(gst::DebugGraphDetails::all(), "roq-send-pipeline");
} else {
receive_pipeline(&pipeline, cli.vp8);
pipeline.debug_to_dot_file_with_ts(gst::DebugGraphDetails::all(), "quic-roq-recv-pipeline");
}
let _ = pipeline.set_state(gst::State::Playing);
let bus = pipeline.bus().unwrap();
let l_clone = main_loop.clone();
let _bus_watch = bus
.add_watch(move |_, msg| {
use gst::MessageView;
match msg.view() {
MessageView::Eos(..) => {
println!("\nReceived End of Stream, quitting...");
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");
ctrlc::set_handler({
let pipeline_weak = pipeline.downgrade();
move || {
let pipeline = pipeline_weak.upgrade().unwrap();
println!("\nReceived Ctrl-c, sending EOS...");
pipeline.send_event(gst::event::Eos::new());
}
})
.unwrap();
let weak_pipeline = pipeline.downgrade();
// Capture pipeline graph 5 secs later to capture all STATE changes.
glib::timeout_add_seconds_once(5, move || {
let pipeline = match weak_pipeline.upgrade() {
Some(pipeline) => pipeline,
None => return,
};
let name = if !cli.receiver {
"gst-roq-recv-pipeline"
} else {
"gst-roq-send-pipeline"
};
pipeline.debug_to_dot_file_with_ts(gst::DebugGraphDetails::all(), name);
});
let _ = pipeline.set_state(gst::State::Playing);
main_loop.run();
pipeline.set_state(gst::State::Null).unwrap();
}