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IdeA/crates/infrastructure/tests/pty_adapter.rs
Blomios 0660f52e2b fix(terminals): decouple PTY lifecycle from view lifecycle (no kill on navigation) 
Navigating (layout/tab switch) tore the xterm view down and called
handle.close(), killing the backend PTY and cutting off running AIs. Now
the view's cleanup only detaches; only an explicit user action kills a PTY.

Backend:
- PortablePtyAdapter: per-session scrollback ring buffer (~100KB, most
  recent) + re-subscribable fan-out broadcast replacing the single-take
  output_rx. Reader thread feeds both the ring buffer and current
  subscribers; on EOF it closes subscribers (streams end) while keeping
  scrollback for late re-attach.
- PtyPort: new scrollback() method; subscribe_output is now re-subscribable
  (all impls + test fakes updated).
- reattach_terminal IPC command: returns scrollback and re-wires a fresh
  output channel on the live session without re-spawning.
- CloseRequested hook kills all live PTYs cleanly on app shutdown.
- TerminalSessions::handles() to enumerate live sessions at shutdown.

Frontend:
- TerminalHandle.detach(); TerminalGateway/AgentGateway.reattach() + mocks.
- TerminalView cleanup detaches (never close); on mount it re-attaches to a
  persisted session (repainting scrollback) instead of opening a new PTY.
- LayoutGrid persists the cell's session id via setSession; AgentsPanel
  tracks per-agent session ids — both drive reattach-vs-open.

Tests: ring buffer bounds to 100KB keeping newest bytes; scrollback retained;
re-subscription delivers post-reattach output; TerminalView detaches (not
closes) on unmount and reattaches with a known session; mock detach/reattach.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-06 12:24:48 +02:00

258 lines
9.0 KiB
Rust
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//! L3 integration tests for [`PortablePtyAdapter`] — exercising a **real** OS
//! PTY on Linux. We spawn tiny `/bin/sh` programs whose output is deterministic,
//! drain the blocking output stream on a dedicated thread, and assert on the
//! bytes / exit code.
//!
//! Robustness: every blocking drain runs on its own thread joined with a bounded
//! timeout so a misbehaving PTY can never hang the test suite/CI.
#![cfg(unix)]
use std::sync::mpsc;
use std::thread;
use std::time::Duration;
use domain::ports::{PtyPort, SpawnSpec};
use domain::{ProjectPath, PtySize};
use infrastructure::PortablePtyAdapter;
/// Hard ceiling for any single PTY interaction in these tests.
const TIMEOUT: Duration = Duration::from_secs(10);
fn sh_spec(script: &str) -> SpawnSpec {
SpawnSpec {
command: "/bin/sh".to_owned(),
args: vec!["-c".to_owned(), script.to_owned()],
cwd: ProjectPath::new("/").unwrap(),
env: Vec::new(),
context_plan: None,
}
}
fn size() -> PtySize {
PtySize::new(24, 80).unwrap()
}
/// Drains an output stream to a single `Vec<u8>` on a worker thread, returning
/// the collected bytes or panicking if it does not finish within `TIMEOUT`.
fn drain_with_timeout(
stream: domain::ports::OutputStream,
timeout: Duration,
) -> Vec<u8> {
let (tx, rx) = mpsc::channel();
let worker = thread::spawn(move || {
let mut all = Vec::new();
for chunk in stream {
all.extend_from_slice(&chunk);
}
let _ = tx.send(all);
});
let bytes = rx
.recv_timeout(timeout)
.expect("output stream drained within timeout");
worker.join().expect("drain thread joined");
bytes
}
#[tokio::test]
async fn spawn_printf_streams_expected_bytes_and_exits_zero() {
let pty = PortablePtyAdapter::new();
let handle = pty
.spawn(sh_spec("printf hello-pty"), size())
.await
.expect("spawn succeeds");
let stream = pty.subscribe_output(&handle).expect("subscribe once");
let bytes = drain_with_timeout(stream, TIMEOUT);
let text = String::from_utf8_lossy(&bytes);
assert!(
text.contains("hello-pty"),
"expected output to contain 'hello-pty', got {text:?}"
);
// Process already exited; kill collects the status. `sh` exiting cleanly → 0.
let status = pty.kill(&handle).await.expect("kill succeeds");
assert_eq!(status.code, Some(0), "clean exit reports code 0");
}
#[tokio::test]
async fn write_is_echoed_back_through_output_stream() {
// `cat` echoes its stdin back to stdout; we feed it a line then close stdin
// by killing it, and assert we saw the echoed bytes.
let pty = PortablePtyAdapter::new();
let handle = pty
.spawn(sh_spec("cat"), size())
.await
.expect("spawn cat");
let stream = pty.subscribe_output(&handle).expect("subscribe once");
// Look for the marker on a worker thread, with a timeout, so we don't block
// forever if `cat` never echoes.
let (found_tx, found_rx) = mpsc::channel();
let worker = thread::spawn(move || {
let mut all = Vec::new();
for chunk in stream {
all.extend_from_slice(&chunk);
if String::from_utf8_lossy(&all).contains("marker-123") {
let _ = found_tx.send(true);
// Keep draining until EOF so the thread can exit on kill.
}
}
});
pty.write(&handle, b"marker-123\n").expect("write to cat");
let found = found_rx
.recv_timeout(TIMEOUT)
.expect("echoed marker observed within timeout");
assert!(found, "cat echoed the written bytes back");
pty.kill(&handle).await.expect("kill cat");
worker.join().expect("drain thread joined after kill");
}
#[tokio::test]
async fn subscribe_output_is_re_subscribable_for_reattach() {
// A live PTY can be subscribed to more than once over its lifetime: the
// first view detaches (drops its stream), a second view re-attaches and
// still receives subsequent output — the core of the no-kill navigation fix.
let pty = PortablePtyAdapter::new();
let handle = pty
.spawn(sh_spec("cat"), size())
.await
.expect("spawn cat");
// First attachment: subscribe, observe an echo, then drop the stream
// (simulating a view tearing down on navigation — NOT a kill).
{
let first = pty.subscribe_output(&handle).expect("first subscribe");
let (tx, rx) = mpsc::channel();
let worker = thread::spawn(move || {
let mut all = Vec::new();
for chunk in first {
all.extend_from_slice(&chunk);
if String::from_utf8_lossy(&all).contains("first-marker") {
let _ = tx.send(());
return; // drop the stream → detach
}
}
});
pty.write(&handle, b"first-marker\n").expect("write 1");
rx.recv_timeout(TIMEOUT).expect("first view saw its marker");
worker.join().expect("first worker joined");
}
// Second attachment to the SAME live PTY (no re-spawn): must still receive
// new output produced after re-subscription.
let second = pty.subscribe_output(&handle).expect("re-subscribe");
let (tx, rx) = mpsc::channel();
let worker = thread::spawn(move || {
let mut all = Vec::new();
for chunk in second {
all.extend_from_slice(&chunk);
if String::from_utf8_lossy(&all).contains("second-marker") {
let _ = tx.send(());
}
}
});
pty.write(&handle, b"second-marker\n").expect("write 2");
rx.recv_timeout(TIMEOUT)
.expect("re-attached view saw new output");
pty.kill(&handle).await.expect("kill cat");
worker.join().expect("second worker joined after kill");
}
#[tokio::test]
async fn scrollback_retains_recent_output_for_repaint() {
// After output is produced and the process exits, the scrollback still holds
// the recent bytes so a re-attaching view can repaint them.
let pty = PortablePtyAdapter::new();
let handle = pty
.spawn(sh_spec("printf scrollback-content"), size())
.await
.expect("spawn");
// Drain to EOF so all output has been pushed into the ring buffer.
let stream = pty.subscribe_output(&handle).expect("subscribe");
drain_with_timeout(stream, TIMEOUT);
let sb = pty.scrollback(&handle).expect("scrollback readable");
let text = String::from_utf8_lossy(&sb);
assert!(
text.contains("scrollback-content"),
"scrollback should retain recent output, got {text:?}"
);
let _ = pty.kill(&handle).await;
}
#[tokio::test]
async fn scrollback_is_bounded_to_cap_and_keeps_most_recent_bytes() {
// Emit clearly more than 100 KB of deterministic output, then assert the
// retained scrollback is bounded and ends with the most recent bytes.
let pty = PortablePtyAdapter::new();
// 5000 lines of "....END<n>" → well over 100 KB; the tail is the freshest.
let script = "i=0; while [ $i -lt 5000 ]; do \
printf 'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA-%d\\n' $i; \
i=$((i+1)); done; printf 'FINAL-LINE-MARKER'";
let handle = pty.spawn(sh_spec(script), size()).await.expect("spawn");
let stream = pty.subscribe_output(&handle).expect("subscribe");
drain_with_timeout(stream, TIMEOUT);
let sb = pty.scrollback(&handle).expect("scrollback readable");
assert!(
sb.len() <= 100 * 1024,
"scrollback must be bounded to ~100 KB, was {} bytes",
sb.len()
);
// The newest output is retained even though the oldest was dropped.
let text = String::from_utf8_lossy(&sb);
assert!(
text.contains("FINAL-LINE-MARKER"),
"the most recent bytes must be kept in the ring buffer"
);
// And the very first lines must have been evicted.
assert!(
!text.contains("-0\n") || sb.len() < 100 * 1024,
"oldest bytes should be dropped once the cap is exceeded"
);
let _ = pty.kill(&handle).await;
}
#[tokio::test]
async fn write_resize_kill_on_unknown_handle_are_not_found() {
use domain::ports::{PtyError, PtyHandle};
use domain::SessionId;
let pty = PortablePtyAdapter::new();
let ghost = PtyHandle {
session_id: SessionId::new_random(),
};
assert_eq!(pty.write(&ghost, b"x"), Err(PtyError::NotFound));
assert_eq!(pty.resize(&ghost, size()), Err(PtyError::NotFound));
assert!(pty.subscribe_output(&ghost).is_err());
assert_eq!(pty.kill(&ghost).await, Err(PtyError::NotFound));
}
#[tokio::test]
async fn resize_on_live_pty_succeeds() {
let pty = PortablePtyAdapter::new();
let handle = pty
.spawn(sh_spec("sleep 0.2"), size())
.await
.expect("spawn");
pty.resize(&handle, PtySize::new(40, 120).unwrap())
.expect("resize a live pty succeeds");
// Drain + reap so the test leaves no live process/thread behind.
let stream = pty.subscribe_output(&handle).expect("subscribe");
let _ = thread::spawn(move || stream.count());
let _ = pty.kill(&handle).await;
}
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