A restart now interrupts in-flight agents immediately rather than holding
the gateway open for a grace window. The previous 180s default coupled two
independently-set timers: the gateway's own drain timer and systemd's
TimeoutStopSec. On a stale unit where TimeoutStopSec < drain, systemd
SIGKILLed the gateway mid-cleanup, leaving a stale lock that made the next
startup exit immediately ('already running') — an infinite crash loop under
Restart=on-failure (#31981).
Setting drain to 0 makes the mismatch structurally impossible: with drain 0
the generated unit gets TimeoutStopSec=90 against a near-instant drain, so
systemd never kills mid-cleanup. Contract: restart the gateway, in-flight
work stops. A grace window large enough to 'save' a long agent turn would
have to outlast an unbounded task, which is impossible.
Also fixes the stale-unit warning's suggested command
(hermes gateway service install --replace -> hermes gateway install --force);
the former subcommand does not exist.
Closes#31981
* fix(gateway): auto-start after container restart via planned-stop marker
On Docker (s6-overlay), the gateway runs as a dynamically-registered s6
service. When the container stops/restarts/upgrades, s6 sends the gateway
a plain SIGTERM. The shutdown path (_stop_impl) ended with an
unconditional _update_runtime_status("stopped"), persisting
gateway_state=stopped to the volume. container_boot.py reads that on the
next boot and only auto-starts gateways whose last state was "running"
(_AUTOSTART_STATES) — so after a routine `docker compose up
--force-recreate` the gateway stays down and messaging channels silently
go dark, with no error surfaced (issue #42675).
The codebase already distinguishes intentional stops from unexpected
signals via the planned-stop marker (write_planned_stop_marker /
consume_planned_stop_marker_for_self): `hermes gateway stop`,
systemd/launchd ExecStop, and Ctrl+C write a marker before signalling,
so the handler classifies them as planned. An unmarked SIGTERM
(container/s6 restart, OOM, bare kill) is signal-initiated.
This wires that existing classification through to the state persist,
rather than adding unreliable signal-source inference:
- run.py: GatewayRunner._signal_initiated_shutdown, set in
shutdown_signal_handler's unmarked-signal branch. In _stop_impl, a
signal-initiated (non-restart) teardown now persists "running" instead
of "stopped" — preserving the operator's run-intent and overwriting the
mid-shutdown "draining" marker so _AUTOSTART_STATES matches on reboot.
Operator stops and restarts persist "stopped" as before.
- service_manager.py: S6ServiceManager.stop() now writes the planned-stop
marker for the supervised PID (read from s6-svstat) before `s6-svc -d`,
so an in-container `hermes gateway stop` is correctly classified as
intentional (parity with the systemd/launchd/host stop paths, which
already mark). Best-effort: a marker-write failure falls back to the
safe signal-initiated path.
Tests: shutdown persist-decision table (signal→running, operator→stopped,
restart→stopped), s6 stop marker write + svstat PID parse + failure
tolerance. The signal→running and s6-marker tests fail without the
respective source change. Verified end-to-end against a container built
from this branch: an unmarked SIGTERM to the live gateway leaves
gateway_state=running (shutdown-context log confirms signal path);
existing real container-restart suite still green.
* docs(docker): clarify gateway autostart distinguishes operator-stop from container-kill
The per-profile-supervision section described the autostart-across-restart
contract as "running gateways come back, stopped stay stopped" without
spelling out what records 'stopped'. That contract was the source of
#42675 confusion: users expected a restart to bring the gateway back and
it didn't. With the write-side fix, only an explicit `hermes gateway stop`
records 'stopped'; container/s6 restart SIGTERMs (incl. image upgrades and
unexpected exits) leave the state 'running' so the gateway auto-starts.
Make that distinction explicit in both the multi-profile and
per-profile-supervision sections.
* test(docker): real-restart autostart E2E for #42675
Adds test_live_gateway_autostarts_after_real_restart_without_manual_state_stamp:
a live s6-supervised gateway is killed by an actual `docker restart`
SIGTERM (no manual gateway_state stamp, no planned-stop marker) and must
auto-start on the next boot. Exercises the WRITE side of the fix that the
existing stamp-based tests bypass.
Verified to FAIL against an origin/main image (reconciler logs
prior_state=stopped action=registered — the #42675 bug) and PASS against
the fixed image (prior_state=running action=started).
* fix: clean gateway auxiliary client caches on teardown
* fix(gateway): recover from stale pid files and close cron agents
Two issues were keeping the gateway from surviving long runs:
1. `_cleanup_invalid_pid_path` delegated to `remove_pid_file`, which
refuses to unlink when the file's pid differs from our own. That
safety check exists for the --replace atexit handoff, but it also
applied to stale-record cleanup, so after a crashy exit the pid
file was orphaned: `write_pid_file()`'s O_EXCL create then failed
with `FileExistsError`, and systemd looped on "PID file race lost
to another gateway instance". Unlink unconditionally from this
helper since the caller has already verified the record is dead.
2. The cron scheduler never closed the ephemeral `AIAgent` it creates
per tick, and never swept the process-global auxiliary-client
cache. Over days of 10-minute ticks this leaked subprocesses and
async httpx transports until the gateway hit EMFILE. Release the
agent and call `cleanup_stale_async_clients()` in `run_job`'s
outer `finally`, matching the gateway's own per-turn cleanup.
* chore(release): map bloodcarter@gmail.com -> bloodcarter
---------
Co-authored-by: bloodcarter <bloodcarter@gmail.com>
Closes#8202.
Root cause: stop() reclaimed tool-call bash/sleep children only at the
very end of the shutdown sequence — after a 60s drain, 5s interrupt
grace, and per-adapter disconnect. Under systemd (TimeoutStopSec bounded
by drain_timeout), that meant the cgroup SIGKILL escalation fired first,
and systemd reaped the bash/sleep children instead of us.
Fix:
- Extract tool-subprocess cleanup into a local helper
_kill_tool_subprocesses() in _stop_impl().
- Invoke it eagerly right after _interrupt_running_agents() on the
drain-timeout path, before adapter disconnect.
- Keep the existing catch-all call at the end for the graceful path
and defense in depth against mid-teardown respawns.
- Bump generated systemd unit TimeoutStopSec to drain_timeout + 30s
so cleanup + disconnect + DB close has headroom above the drain
budget, matching the 'subprocess timeout > TimeoutStopSec + margin'
rule from the skill.
Tests:
- New: test_gateway_stop_kills_tool_subprocesses_before_adapter_disconnect_on_timeout
asserts kill_all() runs before disconnect() when drain times out.
- New: test_gateway_stop_kills_tool_subprocesses_on_graceful_path
guards that the final catch-all still fires when drain succeeds
(regression guard against accidental removal during refactor).
- Updated: existing systemd unit generator tests expect TimeoutStopSec=90
(= 60s drain + 30s headroom) with explanatory comment.
Asyncio tasks created with create_task() but never stored can be
garbage collected mid-execution. Add self._background_tasks set to
hold references, with add_done_callback cleanup. Tracks:
- /background command task
- session-reset memory flush task
- session-resume memory flush task
Cancel all pending tasks in stop().
Update test fixtures that construct GatewayRunner via object.__new__()
to include the new _background_tasks attribute.
Cherry-picked from PR #3167 by memosr. The original PR also deleted
the DM topic auto-skill loading code — that deletion was excluded
from this salvage as it removes a shipped feature (#2598).
Co-authored-by: memosr.eth <96793918+memosr@users.noreply.github.com>
Track adapter background message-processing tasks, cancel them during gateway shutdown, and interrupt running agents before disconnecting adapters. This prevents old gateway instances from continuing in-flight work after stop/replace, which was contributing to the restart-time task continuation/flicker behavior reported in #1414. Adds regression coverage for adapter task cancellation and shutdown interrupts.