Remove unused imports (F401) and duplicate/shadowed import
redefinitions (F811) across the codebase using ruff's safe
autofixes. No behavioral changes -- imports only.
- ~1400 safe autofixes applied across 644 files (net -1072 lines)
- __init__.py re-exports preserved (excluded from F401 removal so
public re-export surfaces stay intact)
- Re-exports that are imported or monkeypatched by tests but look
unused in their defining module are kept with explicit # noqa:
F401 (gateway/run.py load_dotenv; run_agent re-exports from
agent.message_sanitization, agent.context_compressor,
agent.retry_utils, agent.prompt_builder, agent.process_bootstrap,
agent.codex_responses_adapter)
- Unsafe F841 (unused-variable) fixes deliberately skipped -- those
can change behavior when the RHS has side effects
- ruff lints remain disabled in pyproject.toml (only PLW1514 is
selected); this is a one-time cleanup, not a config change
Verification:
- python -m compileall: clean
- pytest --collect-only: all 27161 tests collect (zero import errors)
- core entry points import clean (run_agent, model_tools, cli,
toolsets, hermes_state, batch_runner, gateway)
- static scan: every name any test imports directly from an edited
module still resolves
Before this, _process_message_background's finally did an unconditional
'del self._active_sessions[session_key]' — even if a /stop/ /new
command had already swapped in its own command_guard via
_dispatch_active_session_command and cancelled us. The old task's
unwind would clobber the newer guard, opening a race for follow-ups.
Replace with _release_session_guard(session_key, guard=interrupt_event)
so the delete only fires when the guard we captured is still the one
installed. The sibling _session_tasks pop already had equivalent
ownership matching via asyncio.current_task() identity; this closes the
asymmetry.
Adds two direct regressions in test_session_split_brain_11016:
- stale guard reference must not clobber a newer guard by identity
- guard=None default still releases unconditionally (for callers that
don't have a captured guard to match against)
Refs #11016
Covers all three layers of the salvaged fix:
1. Adapter-side cancellation: /stop, /new, /reset cancel the in-flight
adapter task, release the guard, and let follow-up messages through;
/new keeps the guard installed until the runner response lands, then
drains the queued follow-up in order.
2. Adapter-side self-heal: a split-brain guard (done owner task, lock
still live) is healed on the next inbound message and the user gets
a reply instead of being trapped in infinite busy acks. A guard
with no recorded owner task is NOT auto-healed (protects fixtures
that install guards directly).
3. Runner-side generation guard: stale async runs whose generation was
bumped by /stop or /new cannot clear a newer run's _running_agents
slot on the way out.
11 tests, all green.
Refs #11016
