use std::net::Ipv4Addr; use std::time::Duration; use atm0s_custom_str0m::format::Codec; use atm0s_custom_str0m::media::{Direction, MediaKind}; use atm0s_custom_str0m::{Candidate, Event, RtcError}; use tracing::info_span; mod common; use common::{init_log, progress, TestRtc}; #[test] pub fn bidirectional_same_m_line() -> Result<(), RtcError> { init_log(); let mut l = TestRtc::new(info_span!("L")); let mut r = TestRtc::new(info_span!("R")); let host1 = Candidate::host((Ipv4Addr::new(1, 1, 1, 1), 1000).into(), "udp")?; let host2 = Candidate::host((Ipv4Addr::new(2, 2, 2, 2), 2000).into(), "udp")?; l.add_local_candidate(host1); r.add_local_candidate(host2); let mut change = l.sdp_api(); let mid = change.add_media(MediaKind::Audio, Direction::SendRecv, None, None); let (offer, pending) = change.apply().unwrap(); let answer = r.rtc.sdp_api().accept_offer(offer)?; l.rtc.sdp_api().accept_answer(pending, answer)?; loop { if l.is_connected() || r.is_connected() { break; } progress(&mut l, &mut r)?; } let max = l.last.max(r.last); l.last = max; r.last = max; let params = l.params_opus(); assert_eq!(params.spec().codec, Codec::Opus); let pt = params.pt(); let data_a = vec![1_u8; 80]; let data_b = vec![2_u8; 80]; loop { { let wallclock = l.start + l.duration(); let time = l.duration().into(); l.writer(mid) .unwrap() .write(pt, wallclock, time, data_a.clone())?; } { let wallclock = r.start + r.duration(); let time = l.duration().into(); r.writer(mid) .unwrap() .write(pt, wallclock, time, data_b.clone())?; } progress(&mut l, &mut r)?; if l.duration() > Duration::from_secs(10) { break; } } let media_count_r = r .events .iter() .filter(|(_, e)| matches!(e, Event::MediaData(_))) .count(); assert!( media_count_r > 170, "Not enough MediaData at R: {}", media_count_r ); let media_count_l = l .events .iter() .filter(|(_, e)| matches!(e, Event::MediaData(_))) .count(); assert!( media_count_l > 1700, "Not enough MediaData at L: {}", media_count_l ); Ok(()) }