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montana/Монтана-Протокол/Код/crates/mt-net-transport/tests/e2e_proposal_exchange.rs

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// Manual Validation Gate scenario 7: proposal exchange e2e test.
//
// Spec ROADMAP «Критерий закрытия M6: 2 узла на разных machines обмениваются
// proposals через network».
//
// Этот test использует synthetic Proposal envelope (msg_type=0x22) для
// проверки full transport chain. Реальный Proposal construction от
// mt-consensus apply_proposal — separate integration с M8 montana-node
// binary (cross-process / cross-machine pairing).
use std::time::Duration;
use futures::StreamExt;
use libp2p::{
request_response::{Event as RrEvent, Message as RrMessage},
swarm::SwarmEvent,
Multiaddr,
};
use mt_net::{MsgType, ProtocolMessage};
use mt_net_transport::{build_swarm, MontanaBehaviour, MontanaBehaviourEvent, NetworkConfig};
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn proposal_envelope_round_trip() {
let listen: Multiaddr = "/ip4/127.0.0.1/tcp/0".parse().unwrap();
let cfg = NetworkConfig {
listen_addrs: vec![listen.clone()],
max_inbound: 13,
max_outbound: 24,
};
let mut server = build_swarm(MontanaBehaviour::new(), &cfg).expect("server swarm");
let mut client = build_swarm(
MontanaBehaviour::new(),
&NetworkConfig {
listen_addrs: vec![],
max_inbound: 13,
max_outbound: 24,
},
)
.expect("client swarm");
let server_addr = loop {
if let SwarmEvent::NewListenAddr { address, .. } = server.select_next_some().await {
break address;
}
};
let server_peer_id = *server.local_peer_id();
let server_dial: Multiaddr = format!("{server_addr}/p2p/{server_peer_id}")
.parse()
.unwrap();
client.dial(server_dial).expect("client dial");
// Synthetic Proposal payload — структура согласно spec section "Proposal":
// header bytes (упрощённо для transport-level e2e). Реальный proposal
// construction — mt-consensus integration.
let synthetic_proposal_payload: Vec<u8> = (0..512).map(|i| (i & 0xFF) as u8).collect();
let proposal_request = ProtocolMessage::new(
MsgType::Proposal,
0x1234_5678_9ABC_DEF0,
synthetic_proposal_payload.clone(),
);
let ack_response = ProtocolMessage::new(MsgType::Pong, 0x1234_5678_9ABC_DEF0, vec![]);
let mut req_id = None;
let timeout = tokio::time::sleep(Duration::from_secs(15));
tokio::pin!(timeout);
loop {
tokio::select! {
_ = &mut timeout => panic!("e2e timeout"),
ev = server.select_next_some() => {
if let SwarmEvent::Behaviour(MontanaBehaviourEvent::RequestResponse(
RrEvent::Message {
message: RrMessage::Request { request: req, channel, .. },
..
},
)) = ev
{
assert_eq!(req.msg_type, MsgType::Proposal);
assert_eq!(req.payload.len(), 512);
assert_eq!(req.payload, synthetic_proposal_payload);
server.behaviour_mut().request_response.send_response(channel, ack_response.clone()).expect("send response");
}
}
ev = client.select_next_some() => {
match ev {
SwarmEvent::ConnectionEstablished { peer_id, .. } => {
let id = client.behaviour_mut().request_response.send_request(&peer_id, proposal_request.clone());
req_id = Some(id);
}
SwarmEvent::Behaviour(MontanaBehaviourEvent::RequestResponse(
RrEvent::Message {
message: RrMessage::Response { request_id: rid, response },
..
},
)) => {
assert_eq!(Some(rid), req_id);
assert_eq!(response, ack_response);
return;
}
_ => {}
}
}
}
}
}
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn large_payload_near_max_limit() {
// Boundary test: 512 KB payload (half of MAX_PROTOCOL_PAYLOAD_BYTES = 1 MiB)
// exercises wire-format roundtrip без срабатывания backpressure reject.
let listen: Multiaddr = "/ip4/127.0.0.1/tcp/0".parse().unwrap();
let mut server = build_swarm(
MontanaBehaviour::new(),
&NetworkConfig {
listen_addrs: vec![listen],
max_inbound: 13,
max_outbound: 24,
},
)
.expect("server swarm");
let mut client = build_swarm(
MontanaBehaviour::new(),
&NetworkConfig {
listen_addrs: vec![],
max_inbound: 13,
max_outbound: 24,
},
)
.expect("client swarm");
let server_addr = loop {
if let SwarmEvent::NewListenAddr { address, .. } = server.select_next_some().await {
break address;
}
};
let server_peer_id = *server.local_peer_id();
let dial: Multiaddr = format!("{server_addr}/p2p/{server_peer_id}")
.parse()
.unwrap();
client.dial(dial).unwrap();
let big = vec![0xCD; 512 * 1024];
let req = ProtocolMessage::new(MsgType::FastSyncResponse, 1, big.clone());
let resp = ProtocolMessage::new(MsgType::Pong, 1, vec![]);
let mut id = None;
let timeout = tokio::time::sleep(Duration::from_secs(20));
tokio::pin!(timeout);
loop {
tokio::select! {
_ = &mut timeout => panic!("timeout"),
ev = server.select_next_some() => {
if let SwarmEvent::Behaviour(MontanaBehaviourEvent::RequestResponse(
RrEvent::Message { message: RrMessage::Request { request, channel, .. }, .. }
)) = ev {
assert_eq!(request.payload.len(), 512 * 1024);
server.behaviour_mut().request_response.send_response(channel, resp.clone()).unwrap();
}
}
ev = client.select_next_some() => {
match ev {
SwarmEvent::ConnectionEstablished { peer_id, .. } => {
id = Some(client.behaviour_mut().request_response.send_request(&peer_id, req.clone()));
}
SwarmEvent::Behaviour(MontanaBehaviourEvent::RequestResponse(
RrEvent::Message { message: RrMessage::Response { request_id: r, response }, .. }
)) => {
assert_eq!(Some(r), id);
assert_eq!(response, resp);
return;
}
_ => {}
}
}
}
}
}
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