Compare commits

...

66 Commits

Author SHA1 Message Date
Gud Boi f012227f34 Add snapshot evidence to cancel-cascade MTF issue doc
Append "Snapshot evidence (2026-05-13)" section to
`cancel_cascade_too_slow_under_main_thread_forkserver_issue.md`
documenting `fail_after_w_trace` diag capture results for
`test_nested_multierrors` under the MTF backend — reproduction cmd,
ptree analysis, observed hang signature, and updated triage plan.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 5372fd178a)
2026-06-22 15:53:01 -04:00
Gud Boi 9f3db45c96 Add `main_thread_forkserver` CI matrix rows
Add `capture` dimension to CI matrix so fork-based
backends run `--capture=sys` (fork-child × `--capture=fd`
is a known deadlock). Non-fork backends keep `fd`.

Deats,
- two `include:` rows for `main_thread_forkserver` on
  linux py3.13: tcp + uds, both `capture: 'sys'`
- job name updated to show `capture=` mode
- timeout bumped 16 -> 20 min to accommodate the
  additional matrix cells
- `--capture=${{ matrix.capture }}` replaces hardcoded
  `--capture=fd`

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit a24600f1a7)
2026-06-22 15:53:01 -04:00
Gud Boi f8e7e78709 Adjust `subint_forkserver` docs to match stub impl
Comment/docstring updates: `subint_forkserver` is a clean
`NotImplementedError` stub — not an alias to variant-1
(`main_thread_forkserver`). Key reserved in-place (not aliased) so
the subint-hosted-child impl can flip without API churn once
jcrist/msgspec#1026 unblocks PEP 684 subints.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 7d1e4462d4)
2026-06-22 15:53:01 -04:00
Gud Boi b985919d15 Add `wait_for_peer_or_proc_death()` to `_spawn`
Race `IPCServer.wait_for_peer(uid)` against the sub-proc's
`.wait()` inside a `trio` nursery; whichever completes first
cancels the other.

Prevents the spawning task from parking forever on an unsignalled
`_peer_connected[uid]` event when a sub-actor dies during boot
(e.g. crashed on import before reaching `_actor_child_main`).
Instead of hanging, raises `ActorFailure` w/ the proc's exit code
for clean supervisor error reporting.

Also,
- use the new racer in `main_thread_forkserver_proc()` spawn path.
- keep `proc_wait` generic so each backend passes its own callable
  (`trio.Process.wait`, `_ForkedProc.wait`, etc.).

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 3b0724eba8)
2026-06-22 15:53:01 -04:00
Gud Boi d42e23fec0 Add `terminate()` to `_ForkedProc`
Sends `SIGTERM` (graceful shutdown) instead of the existing `kill()`
which sends `SIGKILL`. Mirrors the `trio.Process.terminate()`
/ `multiprocessing.Process.terminate()` interface.

Used by `ActorNursery.cancel()`'s per-child escalation when
`Portal.cancel_actor()` raises `ActorTooSlowError`, and by the legacy
`hard_kill=True` branch. Swallows `ProcessLookupError` (child already
dead) same as `kill()`.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 4c00913b3b)
2026-06-22 15:53:00 -04:00
Gud Boi 7d8c6dc878 Add cancel-cascade `TooSlowError` flake analysis
Document the ~0.3% rotating `trio.TooSlowError`
flake under `--spawn-backend=main_thread_forkserver`
full-suite runs. Root cause: `hard_kill`'s per-sub
1.6s graceful timeout compounding across N subactors
in a cancel cascade, plus cumulative autouse-reaper
teardown overhead.

Covers symptom, observed flaking tests, root-cause
family, ranked mitigations (cap bump -> CPU-count-
aware cap -> `pytest-rerunfailures` -> `hard_kill`
tuning -> targeted profiling), and a verification
protocol.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 60ce713016)
2026-06-22 15:53:00 -04:00
Gud Boi 4a9c60d7f2 Drop subint-family gate from `main_thread_forkserver`
`main_thread_forkserver` doesn't actually need py3.14
`concurrent.interpreters` (PEP 734) — it forks from a
non-trio worker thread and runs `_trio_main` in the child,
same shape as `trio_proc`. The previous `_has_subints`
gate + subint-family `case` arm were a copy-paste error.

In `tractor.spawn._main_thread_forkserver`,
- drop the `_has_subints` import + the `RuntimeError`
  raise in `main_thread_forkserver_proc()`.
- drop the now-unused `import sys` (only used by the
  prior error msg).

In `tractor.spawn._spawn.try_set_start_method()`,
- pull `'main_thread_forkserver'` out of the subint-
  family arm (which still gates on `_has_subints`).
- merge it into the `'trio'` arm — both set `_ctx = None`
  bc neither needs an `mp.context`.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit fc5e80fea5)
2026-06-22 15:53:00 -04:00
Gud Boi c23ad9b0fa Refine fork-survival docs + `EBADF` handling
Two cleanup tweaks in `_main_thread_forkserver`:

Doc, "what survives the fork?" section — expand the
"non-calling threads are gone in the child" claim with
the precise execution-vs-memory split that reconciles
this module's prior framing with trio's (canonical
[python-trio/trio#1614][trio-1614]) "leaked stacks"
framing:

- execution-side: only the calling thread runs
  post-fork; all others never execute another
  instruction.
- memory-side: those non-running threads' stacks +
  per-thread heap structures are still COW-inherited
  as orphaned bytes — what trio means by "leaked".

Same POSIX reality, opposite sides; the table is
extended to a 4-col `parent | child (executing) |
child (memory)` layout to make both views explicit.
Also blank-line-padded the bulleted hazard classes
for cleaner markdown rendering.

[trio-1614]: https://github.com/python-trio/trio/issues/1614

Code, `_close_inherited_fds()` log noise — split the
catch-all `except OSError` into:

- `EBADF` — benign race where the dirfd that
  `os.listdir('/proc/self/fd')` itself opened ends up
  in `candidates`, then auto-closes before the loop
  reaches it. Demote to `log.debug()` + `continue`;
  prior `log.exception` drowned the post-fork log
  channel with stack traces every spawn.
- other errnos (EIO / EPERM / EINTR / ...) keep the
  loud `log.exception` surface — those ARE genuinely
  unexpected.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 8c730193f9)
2026-06-22 15:53:00 -04:00
Gud Boi 85d8eb28f1 Guard `subint_forkserver` stub against re-alias
Add `test_subint_forkserver_key_errors_cleanly` — a tn-tier
regression guard that pins down the variant-2 reservation
contract: the `'subint_forkserver'` key in
`_spawn._methods` MUST raise `NotImplementedError` today,
not silently dispatch to `main_thread_forkserver_proc`.

The transient alias-state existed briefly during the rename
(commit `57dae0e4`'s "Split forkserver backend into variant
1/2 mods" landed the alias; `5e83881f` flipped it to the
stub). Without a guard, a future refactor could easily
re-collapse the two keys back to a single coro and silently
break the variant-1 / variant-2 contract.

Also asserts the stub's error msg surfaces the two pointers
an operator hitting it actually needs:

- `'main_thread_forkserver'` — the working backend they
  prolly meant,
- `'msgspec#1026'` — the upstream blocker that has to land
  before variant-2 can ship.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit cbdf1eb6db)
2026-06-22 15:53:00 -04:00
Gud Boi 368d9cf343 Migrate test/smoketest imports + rename test file
Rename `tests/spawn/test_subint_forkserver.py` →
`test_main_thread_forkserver.py` and migrate its imports +
internal refs to the new canonical names:

- `fork_from_worker_thread`, `wait_child` → from
  `tractor.spawn._main_thread_forkserver`.
- `run_subint_in_worker_thread` → still from `_subint_forkserver`
  (variant-2 primitive).
- Module docstring + tier-3 fixture + the `*_spawn_basic` test fn
  renamed for variant-1-honesty.
- Orphan-harness subprocess argv flipped from `'subint_forkserver'`
  → `'main_thread_forkserver'`.

`ai/conc-anal/subint_fork_from_main_thread_smoketest.py` imports split
the same way.

`tractor/spawn/_subint_forkserver.py` drops the backward- compat
re-exports of the fork primitives — the only consumers (test file
+ smoketest) now import from `_main_thread_forkserver` directly.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 9f0709eee2)
2026-06-22 15:53:00 -04:00
Gud Boi 4f5ee1ce7c Add `subint_forkserver_proc` stub, flip dispatch, prune
Reduce `_subint_forkserver.py` to its variant-2 placeholder shape:

- Add `subint_forkserver_proc` async stub raising `NotImplementedError`
  with a redirect msg pointing at the working variant-1 backend
  (`main_thread_forkserver`), jcrist/msgspec#1026 (upstream PEP 684
  blocker), and #379 (subint umbrella).

- `tractor.spawn._spawn._methods['subint_forkserver']` now dispatches to
  the stub instead of aliasing the variant-1 coroutine
  — `--spawn-backend=subint_forkserver` errors cleanly.

- Drop now-dead module-scope: `ChildSigintMode`
  / `_DEFAULT_CHILD_SIGINT` defs, `_has_subints` try/except (replaced
  with import from `._subint`), unused imports (`partial`, `Literal`,
  `sys`, msgtypes/pretty_struct, `current_actor`,
  `cancel_on_completion`/`soft_kill`, `_server` TYPE_CHECKING).

- Backward-compat re-exports of fork primitives kept until the follow-up
  commit migrates external test imports.

- `tests/spawn/test_subint_forkserver.py::forkserver_spawn_method`
  fixture: flip hardcoded `'subint_forkserver'`
  → `'main_thread_forkserver'` so the test still exercises the working
  backend (full file rename comes in the test-import migration commit).

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 5e83881f10)
2026-06-22 15:53:00 -04:00
Gud Boi 6e855fbf85 Split forkserver backend into variant 1/2 mods
The `subint_forkserver` name was always aspirational —
today's impl forks from a regular main-interp worker
thread and the child runs trio on its own main interp;
NO subinterp anywhere in parent or child. Splitting the
backend into two clearly-named variants drops the lie:

- **variant 1** — `main_thread_forkserver` (the working
  impl). New `SpawnMethodKey` literal + `_methods`
  dispatch entry + `_runtime.Actor._from_parent()`
  match-arm. The spawn-coro `subint_forkserver_proc`
  moves to `_main_thread_forkserver` and is renamed
  `main_thread_forkserver_proc()`.

- **variant 2** — `subint_forkserver` (future, reserved).
  Module shrinks to a placeholder describing the
  variant-2 design (subint-isolated child runtime, gated
  on jcrist/msgspec#1026 + PEP 684). Today the legacy
  `'subint_forkserver'` key aliases to
  `main_thread_forkserver_proc` so existing
  `--spawn-backend=subint_forkserver` invocations keep
  working; flipped to a `NotImplementedError` stub in a
  follow-up.

Deats,
- `Actor._from_parent()` spawn-method gate now accepts
  both `'main_thread_forkserver'` and
  `'subint_forkserver'` (both go through the
  IPC-`SpawnSpec` path).
- the variant-1 spawn-coro stamps its own `SpawnSpec` /
  log lines with `spawn_method='main_thread_forkserver'`
  so subactor renders reflect the actual mechanism.
- docstring reorg: trio×fork hazard breakdown, POSIX
  fork-survival semantics, in-process-vs-stdlib
  forkserver design notes, and the TODO/cleanup section
  all move from `_subint_forkserver` to
  `_main_thread_forkserver` (lives with the working
  code). `_subint_forkserver` keeps a tight forward-
  looking doc that motivates the reserved key.
- `run_subint_in_worker_thread()` stays in
  `_subint_forkserver` as the companion primitive — it's
  the subint counterpart to `fork_from_worker_thread()`
  and will plug into the future variant-2 spawn-coro.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 57dae0e4a6)
2026-06-22 15:53:00 -04:00
Gud Boi 18f4c3c22f Extract fork primitives into `_main_thread_forkserver`
Move the truly-generic main-interp-worker-thread fork primitives
(`fork_from_worker_thread`, `_close_inherited_fds`, `_ForkedProc`,
`wait_child`, `_format_child_exit`) out of `_subint_forkserver.py` into
a sibling `_main_thread_forkserver.py` module so the primitive layer is
honestly named — none of these helpers touch a subint, they just fork
from a main-interp worker thread.

`_subint_forkserver.py` keeps its public surface intact via re-export so
any existing `from tractor.spawn._subint_forkserver import ...` callsite
still resolves.

Net: zero behavior change, preps the way for the upcoming spawn-method
key split where `main_thread_forkserver` ships as the working backend
and `subint_forkserver` becomes reserved for the future
subint-isolated-child variant (gated on jcrist/msgspec#1026).

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 99dade0fb3)
2026-06-22 15:53:00 -04:00
Gud Boi b38494d647 Doc future-subint payoffs for `_subint_forkserver`
Adds a "Future arch — what subints would buy us" section to
the module docstring, complementing the prior commit's
current-state rationale. Code is unchanged.

Frames the `subint` prefix as family-naming today (no actual
subinterp is created yet), then lays out the three concrete
wins that land once jcrist/msgspec#1026 unblocks PEP 684
isolated-mode subints:

- Cheaper forks — moving the parent's `trio.run()` into a
  subint shrinks the main-interp COW image the child inherits.
  The main interp becomes the literal forkserver: an
  intentionally-empty execution ctx whose only job is to call
  `os.fork()` cleanly.

- True parallelism — per-interp GIL means the forkserver
  thread on main and the trio thread on subint actually run in
  parallel. Spawn latency stops stalling the trio loop.

- Multi-actor-per-process — the architectural payoff. With
  per-interp-GIL subints, one process can host main + N
  subint-resident actor `trio.run()`s, and `os.fork()` reverts
  to the last-resort spawn (only when OS-level isolation is
  actually needed). Joins the story with the in-thread
  `_subint.py` backend: `subint` → in-process spawn,
  `subint_forkserver` → cross-process when a real OS boundary
  is required.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 4b5176e2c3)
2026-06-22 15:53:00 -04:00
Gud Boi a5028dc047 Doc `_subint_forkserver` design + fork semantics
Major expansion of the module docstring. Code is
unchanged; this lands the architectural reasoning that
was previously implicit, plus the POSIX/trio fork
mechanics the design relies on.

New sections:
- "Design rationale" — answers two implicit questions:
  (1) why a forkserver pattern at all (vs. forking
  directly from a trio task), (2) why in-process (vs.
  stdlib `mp.forkserver`'s sidecar process). Documents
  the three costs the in-process design avoids
  (sidecar lifecycle, per-spawn IPC, cold-start child)
  and the tradeoffs we accept in exchange (3.14-only,
  heavier than `to_thread.run_sync`).
- "Implementation status" — clarifies what's actually
  landed today vs. the envisioned arch: parent's
  `trio.run()` still lives on main interp (subint-
  hosted root gated on jcrist/msgspec#1026). Names
  why the "subint" prefix is correct anyway — same PR
  series as `_subint.py` / `_subint_fork.py`.
- "What survives the fork? — POSIX semantics" — POSIX
  preserves only the calling thread, so the
  `trio.run()` thread is gone in the child. Includes
  a small parent/child thread-survival table and
  covers the four artifact classes that DO cross the
  fork boundary (inherited fds, COW memory, Python
  thread state, user-level locks) and how each is
  handled.
- "FYI: how this dodges the `trio.run()` × `fork()`
  hazards" — itemizes each class of trio process-
  global state (wakeup-fd, `epoll`/`kqueue`,
  threadpool, cancel scopes / nurseries, `atexit`,
  foreign-language I/O) and explains how the
  forkserver-thread design avoids each.

Also,
- bump the gated msgspec issue link from
  `jcrist/msgspec#563` to `jcrist/msgspec#1026` (the
  PEP 684 isolated-mode tracker).

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 3ab99d557a)
2026-06-22 15:53:00 -04:00
Gud Boi ba21e83c08 Log subint bootstrap excs + cancel-leak state
Two diagnostic gaps in `tractor.spawn._subint.subint_proc()` that hid
otherwise-silent failures, plus tracking-issue links on the two open
`subint_forkserver` follow-ups.

Deats,
- bootstrap-exc visibility: wrap the call to
  `_interpreters.exec(interp_id, bootstrap)` with
  `try/except BaseException` + `log.exception(...)`.
  * Without it, an `ImportError` / `SyntaxError` raised inside the
    dedicated driver thread goes only to Python's default thread
    excepthook — invisible to the parent, which then waits forever on
    `subint_exited.wait()`.
  * `?TODO` notes `anyio`'s `to_interpreter._interp_call` +
    `(retval, is_exception)` pattern as the next step for re-raising;
    skipped now bc it must coordinate with the `trio.Cancelled` paths
    around the existing `.wait()` calls.

- cancel-leak disambiguation: when the driver thread doesn't exit within
  `_HARD_KILL_TIMEOUT`, also log `_interpreters.is_running(interp_id)`
  as `subint_still_running=...` so the operator can tell "thread leaked,
  subint already done" apart from "thread alive bc subint is wedged".
  * pattern borrowed from `trio-parallel`'s `_sint.SintWorker.is_alive()`.

- `?TODO` near the `bootstrap` literal: future switch to
  `_interpreters.set___main___attrs()` — same API `anyio`
  uses in `to_interpreter._Worker.call()` — for passing
  non-`repr()`-roundtrippable values (`SpawnSpec` struct, callables,
  etc).
  * add cross-refs tracking issue `#379`.

Also,
- `Tracked at: [#449]` link on
  `subint_forkserver_test_cancellation_leak_issue.md`.
- `Tracked at: [#450]` link on
  `subint_forkserver_thread_constraints_on_pep684_issue.md`.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 54561959e6)
2026-06-22 15:53:00 -04:00
Gud Boi 1c6ca2897d Tighten orphan-SIGINT xfail to `strict=True`
Re-classify `test_orphaned_subactor_sigint_cleanup_DRAFT` from
flakey-env-sensitive (`strict=False` w/ "passes in isolation, flakey in
full suite") to a hard known-gap (`strict=True`) with the orphan-SIGINT
hang as the documented cause. The previous framing ("env pollution") let
the test silently pass when ordering happened to favor it; the new
framing forces an XPASS-as-FAIL the moment the underlying gap is
actually closed, so we can drop the mark intentionally instead of
accidentally.

Reason text + leading `# Known-gap test —` comment both point at
`ai/conc-anal/subint_forkserver_orphan_sigint_hang_issue.md`
for the full diagnosis.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 44bdb1697c)
2026-06-22 15:53:00 -04:00
Gud Boi 95f10e1ea7 Pin forkserver hang to pytest `--capture=fd`
Sixth and final diagnostic pass — after all 4
cascade fixes landed (FD hygiene, pidfd wait,
`_parent_chan_cs` wiring, bounded peer-clear), the
actual last gate on
`test_nested_multierrors[subint_forkserver]`
turned out to be **pytest's default
`--capture=fd` stdout/stderr capture**, not
anything in the runtime cascade.

Empirical result: `pytest -s` → test PASSES in
6.20s. Default `--capture=fd` → hangs forever.

Mechanism: pytest replaces the parent's fds 1,2
with pipe write-ends it reads from. Fork children
inherit those pipes (since `_close_inherited_fds`
correctly preserves stdio). The error-propagation
cascade in a multi-level cancel test generates
7+ actors each logging multiple `RemoteActorError`
/ `ExceptionGroup` tracebacks — enough output to
fill Linux's 64KB pipe buffer. Writes block,
subactors can't progress, processes don't exit,
`_ForkedProc.wait` hangs.

Self-critical aside: I earlier tested w/ and w/o
`-s` and both hung, concluding "capture-pipe
ruled out". That was wrong — at that time fixes
1-4 weren't all in place, so the test was
failing at deeper levels long before reaching
the "produce lots of output" phase. Once the
cascade could actually tear down cleanly, enough
output flowed to hit the pipe limit. Order-of-
operations mistake: ruling something out based
on a test that was failing for a different
reason.

Deats,
- `subint_forkserver_test_cancellation_leak_issue
  .md`: new section "Update — VERY late: pytest
  capture pipe IS the final gate" w/ DIAG timeline
  showing `trio.run` fully returns, diagnosis of
  pipe-fill mechanism, retrospective on the
  earlier wrong ruling-out, and fix direction
  (redirect subactor stdout/stderr to `/dev/null`
  in fork-child prelude, conditional on
  pytest-detection or opt-in flag)
- `tests/test_cancellation.py`: skip-mark reason
  rewritten to describe the capture-pipe gate
  specifically; cross-refs the new doc section
- `tests/spawn/test_subint_forkserver.py`: the
  orphan-SIGINT test regresses back to xfail.
  Previously passed after the FD-hygiene fix,
  but the new `wait_for_no_more_peers(
  move_on_after=3.0)` bound in `async_main`'s
  teardown added up to 3s latency, pushing
  orphan-subactor exit past the test's 10s poll
  window. Real fix: faster orphan-side teardown
  OR extend poll window to 15s

No runtime code changes in this commit — just
test-mark adjustments + doc wrap-up.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit eceed29d4a)
(MTF-only portion: kept ai/conc-anal/subint_forkserver_test_cancellation_leak_issue.md tests/spawn/test_subint_forkserver.py)
2026-06-22 15:53:00 -04:00
Gud Boi 819c1f42da Narrow forkserver hang to `async_main` outer tn
Fourth diagnostic pass — instrument `_worker`'s
fork-child branch (`pre child_target()` / `child_
target RETURNED rc=N` / `about to os._exit(rc)`)
and `_trio_main` boundaries (`about to trio.run` /
`trio.run RETURNED NORMALLY` / `FINALLY`). Test
config: depth=1/breadth=2 = 1 root + 14 forked =
15 actors total.

Fresh-run results,
- **9 processes complete the full flow**:
  `trio.run RETURNED NORMALLY` → `child_target
  RETURNED rc=0` → `os._exit(0)`. These are tree
  LEAVES (errorers) plus their direct parents
  (depth-0 spawners) — they actually exit
- **5 processes stuck INSIDE `trio.run(trio_
  main)`**: hit "about to trio.run" but never
  see "trio.run RETURNED NORMALLY". These are
  root + top-level spawners + one intermediate

The deadlock is in `async_main` itself, NOT the
peer-channel loops. Specifically, the outer
`async with root_tn:` in `async_main` never exits
for the 5 stuck actors, so the cascade wedges:

    trio.run never returns
      → _trio_main finally never runs
        → _worker never reaches os._exit(rc)
          → process never dies
            → parent's _ForkedProc.wait() blocks
              → parent's nursery hangs
                → parent's async_main hangs
                  → (recurse up)

The precise new question: **what task in the 5
stuck actors' `async_main` never completes?**
Candidates:
1. shielded parent-chan `process_messages` task
   in `root_tn` — but we cancel it via
   `_parent_chan_cs.cancel()` in `Actor.cancel()`,
   which only runs during
   `open_root_actor.__aexit__`, which itself runs
   only after `async_main`'s outer unwind — which
   doesn't happen. So the shield isn't broken in
   this path.
2. `actor_nursery._join_procs.wait()` or similar
   inline in the backend `*_proc` flow.
3. `_ForkedProc.wait()` on a grandchild that DID
   exit — but pidfd_open watch didn't fire (race
   between `pidfd_open` and the child exiting?).

Most specific next probe: add DIAG around
`_ForkedProc.wait()` enter/exit to see whether
pidfd-based wait returns for every grandchild
exit. If a stuck parent's `_ForkedProc.wait()`
never returns despite its child exiting → pidfd
mechanism has a race bug under nested forkserver.

Asymmetry observed in the cascade tree: some d=0
spawners exit cleanly, others stick, even though
they started identically. Not purely depth-
determined — some race condition in nursery
teardown when multiple siblings error
simultaneously.

No code changes — diagnosis-only.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 4d0555435b)
2026-06-22 15:53:00 -04:00
Gud Boi d746db1d84 Refine `subint_forkserver` cancel-cascade diag
Third diagnostic pass on
`test_nested_multierrors[subint_forkserver]` hang.
Two prior hypotheses ruled out + a new, more
specific deadlock shape identified.

Ruled out,
- **capture-pipe fill** (`-s` flag changes test):
  retested explicitly — `test_nested_multierrors`
  hangs identically with and without `-s`. The
  earlier observation was likely a competing
  pytest process I had running in another session
  holding registry state
- **stuck peer-chan recv that cancel can't
  break**: pivot from the prior pass. With
  `handle_stream_from_peer` instrumented at ENTER
  / `except trio.Cancelled:` / finally: 40
  ENTERs, ZERO `trio.Cancelled` hits. Cancel never
  reaches those tasks at all — the recvs are
  fine, nothing is telling them to stop

Actual deadlock shape: multi-level mutual wait.

    root              blocks on spawner.wait()
      spawner         blocks on grandchild.wait()
        grandchild    blocks on errorer.wait()
          errorer     Actor.cancel() ran, but proc
                      never exits

`Actor.cancel()` fired in 12 PIDs — but NOT in
root + 2 direct spawners. Those 3 have peer
handlers stuck because their own `Actor.cancel()`
never runs, which only runs when the enclosing
`tractor.open_nursery()` exits, which waits on
`_ForkedProc.wait()` for the child pidfd to
signal, which only signals when the child
process fully exits.

Refined question: **why does an errorer process
not exit after its `Actor.cancel()` completes?**
Three hypotheses (unverified):
1. `_parent_chan_cs.cancel()` fires but the
   shielded loop's recv is stuck in a way cancel
   still can't break
2. `async_main`'s post-cancel unwind has other
   tasks in `root_tn` awaiting something that
   never arrives (e.g. outbound IPC reply)
3. `os._exit(rc)` in `_worker` never runs because
   `_child_target` never returns

Next-session probes (priority order):
1. instrument `_worker`'s fork-child branch —
   confirm whether `child_target()` returns /
   `os._exit(rc)` is reached for errorer PIDs
2. instrument `async_main`'s final unwind — see
   which await in teardown doesn't complete
3. compare under `trio_proc` backend at the
   equivalent level to spot divergence

No code changes — diagnosis-only.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit ab86f7613d)
2026-06-22 15:53:00 -04:00
Gud Boi 1e74c5a59a Surface silent failures in `_subint_forkserver`
Three places that previously swallowed exceptions silently now log via
`log.exception()` so they surface in the runtime log when something
weird happens — easier to track down sneaky failures in the
fork-from-worker-thread / subint-bootstrap primitives.

Deats,
- `_close_inherited_fds()`: post-fork child's per-fd `os.close()`
  swallow now logs the fd that failed to close. The comment notes the
  expected failure modes (already-closed-via-listdir-race,
  otherwise-unclosable) — both still fine to ignore semantically, but
  worth flagging in the log.
- `fork_from_worker_thread()` parent-side timeout branch: the
  `os.close(rfd)` + `os.close(wfd)` cleanup now logs each pipe-fd close
  failure separately before raising the `worker thread didn't return`
  RuntimeError.
- `run_subint_in_worker_thread._drive()`: when
  `_interpreters.exec(interp_id, bootstrap)` raises a `BaseException`,
  log the full call signature (interp_id + bootstrap) along with the
  captured exception, before stashing into `err` for the outer caller.

Behavior unchanged — only adds observability.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 458a35cf09)
2026-06-22 15:53:00 -04:00
Gud Boi 378a457f21 Doc ruled-out fix + capture-pipe aside
Two new sections in
`subint_forkserver_test_cancellation_leak_issue.md`
documenting continued investigation of the
`test_nested_multierrors[subint_forkserver]` peer-
channel-loop hang:

1. **"Attempted fix (DID NOT work) — hypothesis
   (3)"**: tried sync-closing peer channels' raw
   socket fds from `_serve_ipc_eps`'s finally block
   (iterate `server._peers`, `_chan._transport.
   stream.socket.close()`). Theory was that sync
   close would propagate as `EBADF` /
   `ClosedResourceError` into the stuck
   `recv_some()` and unblock it. Result: identical
   hang. Either trio holds an internal fd
   reference that survives external close, or the
   stuck recv isn't even the root blocker. Either
   way: ruled out, experiment reverted, skip-mark
   restored.
2. **"Aside: `-s` flag changes behavior for peer-
   intensive tests"**: noticed
   `test_context_stream_semantics.py` under
   `subint_forkserver` hangs with default
   `--capture=fd` but passes with `-s`
   (`--capture=no`). Working hypothesis: subactors
   inherit pytest's capture pipe (fds 1,2 — which
   `_close_inherited_fds` deliberately preserves);
   verbose subactor logging fills the buffer,
   writes block, deadlock. Fix direction (if
   confirmed): redirect subactor stdout/stderr to
   `/dev/null` or a file in `_actor_child_main`.
   Not a blocker on the main investigation;
   deserves its own mini-tracker.

Both sections are diagnosis-only — no code changes
in this commit.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 7cd47ef7fb)
2026-06-22 15:53:00 -04:00
Gud Boi d07f772e78 Use `pidfd` for cancellable `_ForkedProc.wait`
Two coordinated improvements to the `subint_forkserver` backend:

1. Replace `trio.to_thread.run_sync(os.waitpid, ...,
   abandon_on_cancel=False)` in `_ForkedProc.wait()`
   with `trio.lowlevel.wait_readable(pidfd)`. The
   prior version blocked a trio cache thread on a
   sync syscall — outer cancel scopes couldn't
   unwedge it when something downstream got stuck.
   Same pattern `trio.Process.wait()` and
   `proc_waiter` (the mp backend) already use.

2. Drop the `@pytest.mark.xfail(strict=True)` from
   `test_orphaned_subactor_sigint_cleanup_DRAFT` —
   the test now PASSES after 0cd0b633 (fork-child
   FD scrub). Same root cause as the nested-cancel
   hang: inherited IPC/trio FDs were poisoning the
   child's event loop. Closing them lets SIGINT
   propagation work as designed.

Deats,
- `_ForkedProc.__init__` opens a pidfd via
  `os.pidfd_open(pid)` (Linux 5.3+, Python 3.9+)
- `wait()` parks on `trio.lowlevel.wait_readable()`,
  then non-blocking `waitpid(WNOHANG)` to collect
  the exit status (correct since the pidfd signal
  IS the child-exit notification)
- `ChildProcessError` swallow handles the rare race
  where someone else reaps first
- pidfd closed after `wait()` completes (one-shot
  semantics) + `__del__` belt-and-braces for
  unexpected-teardown paths
- test docstring's `@xfail` block replaced with a
  `# NOTE` comment explaining the historical
  context + cross-ref to the conc-anal doc; test
  remains in place as a regression guard

The two changes are interdependent — the
cancellable `wait()` matters for the same nested-
cancel scenarios the FD scrub fixes, since the
original deadlock had trio cache workers wedged in
`os.waitpid` swallowing the outer cancel.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit c20b05e181)
2026-06-22 15:53:00 -04:00
Gud Boi 88651584b4 Scrub inherited FDs in fork-child prelude
Implements fix-direction (1)/blunt-close-all-FDs from
b71705bd (`subint_forkserver` nested-cancel hang
diag), targeting the multi-level cancel-cascade
deadlock in
`test_nested_multierrors[subint_forkserver]`.

The diagnosis doc voted for surgical FD cleanup via
`actor.ipc_server` handle as the cleanest approach,
but going blunt is actually the right call: after
`os.fork()`, the child immediately enters
`_actor_child_main()` which opens its OWN IPC
sockets / wakeup-fd / epoll-fd / etc. — none of the
parent's FDs are needed. Closing everything except
stdio is safe AND defends against future
listener/IPC additions to the parent inheriting
silently into children.

Deats,
- new `_close_inherited_fds(keep={0,1,2}) -> int`
  helper. Linux fast-path enumerates `/proc/self/fd`;
  POSIX fallback uses `RLIMIT_NOFILE` range. Matches
  the stdlib `subprocess._posixsubprocess.close_fds`
  strategy. Returns close-count for sanity logging
- wire into `fork_from_worker_thread._worker()`'s
  post-fork child prelude — runs immediately after
  the pid-pipe `os.close(rfd/wfd)`, before the user
  `child_target` callable executes
- docstring cross-refs the diagnosis doc + spells
  out the FD-inheritance-cascade mechanism and why
  the close-all approach is safe for our spawn shape

Validation pending: re-run `test_nested_multierrors[subint_forkserver]`
to confirm the deadlock is gone.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 9993db0193)
2026-06-22 15:53:00 -04:00
Gud Boi 072342c551 Refine `subint_forkserver` nested-cancel hang diagnosis
Major rewrite of
`subint_forkserver_test_cancellation_leak_issue.md`
after empirical investigation revealed the earlier
"descendant-leak + missing tree-kill" diagnosis
conflated two unrelated symptoms:

1. **5-zombie leak holding `:1616`** — turned out to
   be a self-inflicted cleanup bug: `pkill`-ing a bg
   pytest task (SIGTERM/SIGKILL, no SIGINT) skipped
   the SC graceful cancel cascade entirely. Codified
   the real fix — SIGINT-first ladder w/ bounded
   wait before SIGKILL — in e5e2afb5 (`run-tests`
   SKILL) and
   `feedback_sc_graceful_cancel_first.md`.
2. **`test_nested_multierrors[subint_forkserver]`
   hangs indefinitely** — the actual backend bug,
   and it's a deadlock not a leak.

Deats,
- new diagnosis: all 5 procs are kernel-`S` in
  `do_epoll_wait`; pytest-main's trio-cache workers
  are in `os.waitpid` waiting for children that are
  themselves waiting on IPC that never arrives —
  graceful `Portal.cancel_actor` cascade never
  reaches its targets
- tree-structure evidence: asymmetric depth across
  two identical `run_in_actor` calls — child 1
  (3 threads) spawns both its grandchildren; child 2
  (1 thread) never completes its first nursery
  `run_in_actor`. Smells like a race on fork-
  inherited state landing differently per spawn
  ordering
- new hypothesis: `os.fork()` from a subactor
  inherits the ROOT parent's IPC listener FDs
  transitively. Grandchildren end up with three
  overlapping FD sets (own + direct-parent + root),
  so IPC routing becomes ambiguous. Predicts bug
  scales with fork depth — matches reality: single-
  level spawn works, multi-level hangs
- ruled out: `_ForkedProc.kill()` tree-kill (never
  reaches hard-kill path), `:1616` contention (fixed
  by `reg_addr` fixture wiring), GIL starvation
  (each subactor has its own OS process+GIL),
  child-side KBI absorption (`_trio_main` only
  catches KBI at `trio.run()` callsite, reached
  only on trio-loop exit)
- four fix directions ranked: (1) blanket post-fork
  `closerange()`, (2) `FD_CLOEXEC` + audit,
  (3) targeted FD cleanup via `actor.ipc_server`
  handle, (4) `os.posix_spawn` w/ `file_actions`.
  Vote: (3) — surgical, doesn't break the "no exec"
  design of `subint_forkserver`
- standalone repro added (`spawn_and_error(breadth=
  2, depth=1)` under `trio.fail_after(20)`)
- stopgap: skip `test_nested_multierrors` + multi-
  level-spawn tests under the backend via
  `@pytest.mark.skipon_spawn_backend(...)` until
  fix lands

Killing the "tree-kill descendants" fix-direction
section: it addressed a bug that didn't exist.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 35da808905)
2026-06-22 15:53:00 -04:00
Gud Boi 4634707128 Add `subint_forkserver` test-cancellation leak doc
New `ai/conc-anal/
subint_forkserver_test_cancellation_leak_issue.md`
captures a descendant-leak surfaced while wiring
`subint_forkserver` into the full test matrix:
running `tests/test_cancellation.py` under
`--spawn-backend=subint_forkserver` reproducibly
leaks **exactly 5** `subint-forkserv` comm-named
child processes that survive session exit, each
holding a `LISTEN` on `:1616` (the tractor default
registry addr) — and therefore poisons every
subsequent test session that defaults to that addr.

Deats,
- TL;DR + ruled-out checks confirming the procs are
  ours (not piker / other tractor-embedding apps) —
  `/proc/$pid/cmdline` + cwd both resolve to this
  repo's `py314/` venv
- root cause: `_ForkedProc.kill()` is PID-scoped
  (plain `os.kill(SIGKILL)` to the direct child),
  not tree-scoped — grandchildren spawned during a
  multi-level cancel test get reparented to init and
  inherit the registry listen socket
- proposed fix directions ranked: (1) put each
  forkserver-spawned subactor in its own process-
  group (`os.setpgrp()` in fork-child) + tree-kill
  via `os.killpg(pgid, SIGKILL)` on teardown,
  (2) `PR_SET_CHILD_SUBREAPER` on root, (3) explicit
  `/proc/<pid>/task/*/children` walk. Vote: (1) —
  POSIX-standard, aligns w/ `start_new_session=True`
  semantics in `subprocess.Popen` / trio's
  `open_process`
- inline reproducer + cleanup recipe scoped to
  `$(pwd)/py314/bin/python.*pytest.*spawn-backend=
  subint_forkserver` so cleanup doesn't false-flag
  unrelated tractor procs (consistent w/
  `run-tests` skill's zombie-check guidance)

Stopgap hygiene fix (wiring `reg_addr` through the 5
leaky tests in `test_cancellation.py`) is incoming as
a follow-up — that one stops the blast radius, but
zombies still accumulate per-run until the real
tree-kill fix lands.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit e3f4f5a387)
2026-06-22 15:53:00 -04:00
Gud Boi 5ccc3ea93b Mv `test_subint_cancellation.py` to `tests/spawn/` subpkg
Also, some slight touchups in `.spawn._subint`.

(cherry picked from commit 1e357dcf08)
2026-06-22 15:53:00 -04:00
Gud Boi d21a16a311 Label forkserver child as `subint_forkserver`
Follow-up to 72d1b901 (was prev commit adding `debug_mode` for
`subint_forkserver`): that commit wired the runtime-side
`subint_forkserver` SpawnSpec-recv gate in `Actor._from_parent`, but the
`subint_forkserver_proc` child-target was still passing
`spawn_method='trio'` to `_trio_main` — so `Actor.pformat()` / log lines
would report the subactor as plain `'trio'` instead of the actual
parent-side spawn mechanism. Flip the label to `'subint_forkserver'`.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit e31eb8d7c9)
2026-06-22 15:53:00 -04:00
Gud Boi 0f7dfdfd14 Drop unneeded f-str prefixes
(cherry picked from commit 5e85f184e0)
2026-06-22 15:53:00 -04:00
Gud Boi 65634379e4 Shorten some timeouts in `subint_forkserver` suites
(cherry picked from commit f5f37b69e6)
2026-06-22 15:53:00 -04:00
Gud Boi 2666bb666a Refine `subint_forkserver` orphan-SIGINT diagnosis
Empirical follow-up to the xfail'd orphan-SIGINT test:
the hang is **not** "trio can't install a handler on a
non-main thread" (the original hypothesis from the
`child_sigint` scaffold commit). On py3.14:

- `threading.current_thread() is threading.main_thread()`
  IS True post-fork — CPython re-designates the
  fork-inheriting thread as "main" correctly
- trio's `KIManager` SIGINT handler IS installed in the
  subactor (`signal.getsignal(SIGINT)` confirms)
- the kernel DOES deliver SIGINT to the thread

But `faulthandler` dumps show the subactor wedged in
`trio/_core/_io_epoll.py::get_events` — trio's
wakeup-fd mechanism (which turns SIGINT into an epoll-wake)
isn't firing. So the `except KeyboardInterrupt` at
`tractor/spawn/_entry.py::_trio_main:164` — the runtime's
intentional "KBI-as-OS-cancel" path — never fires.

Deats,
- new `ai/conc-anal/subint_forkserver_orphan_sigint_hang_issue.md`
  (+385 LOC): full writeup — TL;DR, symptom reproducer,
  the "intentional cancel path" the bug defeats,
  diagnostic evidence (`faulthandler` output +
  `getsignal` probe), ruled-out hypotheses
  (non-main-thread issue, wakeup-fd inheritance,
  KBI-as-trio-check-exception), and fix directions
- `test_orphaned_subactor_sigint_cleanup_DRAFT` xfail
  `reason` + test docstring rewritten to match the
  refined understanding — old wording blamed the
  non-main-thread path, new wording points at the
  `epoll_wait` wedge + cross-refs the new conc-anal doc
- `_subint_forkserver` module docstring's
  `child_sigint='trio'` bullet updated: now notes trio's
  handler is already correctly installed, so the flag may
  end up a no-op / doc-only mode once the real root cause
  is fixed

Closing the gap aligns with existing design intent (make
the already-designed "KBI-as-OS-cancel" behavior actually
fire), not a new feature.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit a72deef709)
2026-06-22 15:53:00 -04:00
Gud Boi f870705abd Scaffold `child_sigint` modes for forkserver
Add configuration surface for future child-side SIGINT
plumbing in `subint_forkserver_proc` without wiring up the
actual trio-native SIGINT bridge — lifting one entry-guard
clause will flip the `'trio'` branch live once the
underlying fork-prelude plumbing is implemented.

Deats,
- new `ChildSigintMode = Literal['ipc', 'trio']` type +
  `_DEFAULT_CHILD_SIGINT = 'ipc'` module-level default.
  Docstring block enumerates both:
  - `'ipc'` (default, currently the only implemented mode):
    no child-side SIGINT handler — `trio.run()` is on the
    fork-inherited non-main thread where
    `signal.set_wakeup_fd()` is main-thread-only, so
    cancellation flows exclusively via the parent's
    `Portal.cancel_actor()` IPC path. Known gap: orphan
    children don't respond to SIGINT
    (`test_orphaned_subactor_sigint_cleanup_DRAFT`)
  - `'trio'` (scaffolded only): manual SIGINT → trio-cancel
    bridge in the fork-child prelude so external Ctrl-C
    reaches stuck grandchildren even w/ a dead parent
- `subint_forkserver_proc` pulls `child_sigint` out of
  `proc_kwargs` (matches how `trio_proc` threads config to
  `open_process`, keeps `start_actor(proc_kwargs=...)` as
  the ergonomic entry point); validates membership + raises
  `NotImplementedError` for `'trio'` at the backend-entry
  guard
- `_child_target` grows a `match child_sigint:` arm that
  slots in the future `'trio'` impl without restructuring
  — today only the `'ipc'` case is reachable
- module docstring "Still-open work" list grows a bullet
  pointing at this config + the xfail'd orphan-SIGINT test

No behavioral change on the default path — `'ipc'` is the
existing flow. Scaffolding only.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit dcd5c1ff40)
2026-06-22 15:53:00 -04:00
Gud Boi 570a83afa9 Add DRAFT `subint_forkserver` orphan-SIGINT test
Tier-4 test `test_orphaned_subactor_sigint_cleanup_DRAFT`
documents an empirical SIGINT-delivery gap in the
`subint_forkserver` backend: when the parent dies via
`SIGKILL` (no IPC `Portal.cancel_actor()` possible) and
`SIGINT` is sent to the orphan child, the child DOES NOT
unwind — CPython's default `KeyboardInterrupt` is delivered
to `threading.main_thread()`, whose tstate is dead in the
post-fork child bc fork inherited the worker thread, not
main. Trio running on the fork-inherited worker thread
therefore never observes the signal. Marked
`xfail(strict=True)` so the mark flips to XPASS→fail once
the backend grows explicit SIGINT plumbing.

Deats,
- harness runs the failure-mode sequence out-of-process:
  1. harness subprocess runs a fresh Python script
     that calls `try_set_start_method('subint_forkserver')`
     then opens a root actor + one `sleep_forever` subactor
  2. parse `PARENT_READY=<pid>` + `CHILD_PID=<pid>` markers
     off harness `stdout` to confirm IPC handshake
     completed
  3. `SIGKILL` the parent, `proc.wait()` to reap the
     zombie (otherwise `os.kill(pid, 0)` keeps reporting
     it alive)
  4. assert the child survived the parent-reap (i.e. was
     actually orphaned, not reaped too) before moving on
  5. `SIGINT` the orphan child, poll `os.kill(child_pid, 0)`
     every 100ms for up to 10s
- supporting helpers: `_read_marker()` with per-proc
  bytes-buffer to carry partial lines across calls,
  `_process_alive()` liveness probe via `kill(pid, 0)`
- Linux-only via `platform.system() != 'Linux'` skip —
  orphan-reparenting semantics don't generalize to
  other platforms
- port offset (`reg_addr[1] + 17`) so the harness listener
  doesn't race concurrently-running backend tests
- best-effort `finally:` cleanup: `SIGKILL` any still-alive
  pids + `proc.kill()` + bounded `proc.wait()` to avoid
  leaking orphans across the session

Also, tier-4 header comment documents the cross-backend
generalization path: applicable to any multi-process
backend (`trio`, `mp_spawn`, `mp_forkserver`,
`subint_forkserver`), NOT to plain `subint` (in-process
subints have no orphan OS-child). Move path: lift
harness into `tests/_orphan_harness.py`, parametrize on
session `_spawn_method`, add
`skipif _spawn_method == 'subint'`.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 76605d5609)
2026-06-22 15:53:00 -04:00
Gud Boi 27d8281567 Reset post-fork `_state` in forkserver child
`os.fork()` inherits the parent's entire memory image,
including `tractor.runtime._state` globals that encode
"this process is the root actor" — `_runtime_vars`'s
`_is_root=True`, pre-populated `_root_mailbox` +
`_registry_addrs`, and the parent's `_current_actor`
singleton.

A fresh `exec`-based child starts with those globals at
their module-level defaults (all falsey/empty). The
forkserver child needs to match that shape BEFORE calling
`_actor_child_main()`, otherwise `Actor.__init__()` takes
the `is_root_process() == True` branch and pre-populates
`self.enable_modules`, which then trips
`assert not self.enable_modules` at the top of
`Actor._from_parent()` on the subsequent parent→child
`SpawnSpec` handshake.

Fix: at the start of `_child_target`, null
`_state._current_actor` and overwrite `_runtime_vars` with
a cold-root blank (`_is_root=False`, empty mailbox/addrs,
`_debug_mode=False`) before `_actor_child_main()` runs.

Found-via: `test_subint_forkserver_spawn_basic` hitting
the `enable_modules` assert on child-side runtime boot.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 63ab7c986b)
2026-06-22 15:53:00 -04:00
Gud Boi 6deb12983d Wire `subint_forkserver` as first-class backend
Promote `_subint_forkserver` from primitives-only into a
registered spawn backend: `'subint_forkserver'` is now a
`SpawnMethodKey` literal, dispatched via `_methods` to
the new `subint_forkserver_proc()` target, feature-gated
under the existing `subint`-family py3.14+ case, and
selectable via `--spawn-backend=subint_forkserver`.

Deats,
- new `subint_forkserver_proc()` spawn target in
  `_subint_forkserver`:
  - mirrors `trio_proc()`'s supervision model — real OS
    subprocess so `Portal.cancel_actor()` + `soft_kill()`
    on graceful teardown, `os.kill(SIGKILL)` on hard-reap
    (no `_interpreters.destroy()` race to fuss over bc the
    child lives in its own process)
  - only real diff from `trio_proc` is the spawn mechanism:
    fork from a main-interp worker thread via
    `fork_from_worker_thread()` (off-loaded to trio's
    thread pool) instead of `trio.lowlevel.open_process()`
  - child-side `_child_target` closure runs
    `tractor._child._actor_child_main()` with
    `spawn_method='trio'` — the child is a regular trio
    actor, "subint_forkserver" names how the parent
    spawned, not what the child runs
- new `_ForkedProc` class — thin `trio.Process`-compatible
  shim around a raw OS pid: `.poll()` via
  `waitpid(WNOHANG)`, async `.wait()` off-loaded to a trio
  cache thread, `.kill()` via `SIGKILL`, `.returncode`
  cached for repeat calls. `.stdin`/`.stdout`/`.stderr`
  are `None` (fork-w/o-exec inherits parent FDs; we don't
  marshal them) which matches `soft_kill()`'s `is not None`
  guards

Also, new backend-tier test
`test_subint_forkserver_spawn_basic` drives the registered
backend end-to-end via `open_root_actor` + `open_nursery` +
`run_in_actor` w/ a trivial portal-RPC round-trip. Uses a
`forkserver_spawn_method` fixture to flip
`_spawn_method`/`_ctx` for the test's duration + restore on
teardown (so other session-level tests don't observe the
global flip). Test module docstring reworked to describe
the three tiers now covered: (1) primitive-level, (2)
parent-trio-driven primitives, (3) full registered backend.

Status: still-open work (tracked on `tractor#379`) doc'd
inline in the module docstring — no cancel/hard-kill stress
coverage yet, child-side subint-hosted root runtime still
future (gated on `msgspec#563`), thread-hygiene audit
pending the same unblock.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 26914fde75)
2026-06-22 15:53:00 -04:00
Gud Boi a69e5eda77 Add `subint_forkserver` PEP 684 audit-plan doc
Follow-up tracker companion to the module-docstring TODO
added in `372a0f32`. Catalogs why `_subint_forkserver`'s
two "non-trio thread" constraints
(`fork_from_worker_thread()` +
`run_subint_in_worker_thread()` both allocating dedicated
`threading.Thread`s; test helper named
`run_fork_in_non_trio_thread`) exist today, and which of
them would dissolve once msgspec PEP 684 support ships
(`msgspec#563`) and tractor flips to isolated-mode subints.

Deats,
- three reasons enumerated for the current constraints:
  - class-A GIL-starvation — **fixed** by isolated mode:
    subints don't share main's GIL so abandoned-thread
    contention disappears
  - destroy race / tstate-recycling from `subint_proc` —
    **unclear**: `_PyXI_Enter` + `_PyXI_Exit` are
    cross-mode, so isolated doesn't obviously fix it;
    needs empirical retest on py3.14 + isolated API
  - fork-from-main-interp-tstate (the CPython-level
    `_PyInterpreterState_DeleteExceptMain` gate) — the
    narrow reason for using a dedicated thread; **probably
    fixed** IF the destroy-race also resolves (bc trio's
    cache threads never drove subints → clean main-interp
    tstate)
- TL;DR table of which constraints unwind under each
  resolution branch
- four-step audit plan for when `msgspec#563` lands:
  - flip `_subint` to isolated mode
  - empirical destroy-race retest
  - audit `_subint_forkserver.py` — drop `non_trio`
    qualifier / maybe inline primitives
  - doc fallout — close the three `subint_*_issue.md`
    siblings w/ post-mortem notes

Also, cross-refs the three sibling `conc-anal/` docs, PEPs
684 + 734, `msgspec#563`, and `tractor#379` (the overall
subint spawn-backend tracking issue).

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit cf2e71d87f)
2026-06-22 15:53:00 -04:00
Gud Boi 0ac523fbd6 Add trio-parent tests for `_subint_forkserver`
New pytest module `tests/spawn/test_subint_forkserver.py`
drives the forkserver primitives from inside a real
`trio.run()` in the parent — the runtime shape tractor will
actually use when we wire up a `subint_forkserver` spawn
backend proper. Complements the standalone no-trio-in-parent
`ai/conc-anal/subint_fork_from_main_thread_smoketest.py`.

Deats,
- new test pkg `tests/spawn/` (+ empty `__init__.py`)
- two tests, both `@pytest.mark.timeout(30, method='thread')`
  for the GIL-hostage safety reason doc'd in
  `ai/conc-anal/subint_sigint_starvation_issue.md`:
  - `test_fork_from_worker_thread_via_trio` — parent-side
    plumbing baseline. `trio.run()` off-loads forkserver
    prims via `trio.to_thread.run_sync()` + asserts the
    child reaps cleanly
  - `test_fork_and_run_trio_in_child` — end-to-end: forked
    child calls `run_subint_in_worker_thread()` with a
    bootstrap str that does `trio.run()` in a fresh subint
- both tests wrap the inner `trio.run()` in a
  `dump_on_hang()` for post-mortem if the outer
  `pytest-timeout` fires
- intentionally NOT using `--spawn-backend` — the tests
  drive the primitives directly rather than going through
  tractor's spawn-method registry (which the forkserver
  isn't plugged into yet)

Also, rename `run_trio_in_subint()` →
`run_subint_in_worker_thread()` for naming consistency with
the sibling `fork_from_worker_thread()`. The action is really
"host a subint on a worker thread", not specifically "run
trio" — trio just happens to be the typical payload.
Propagate the rename to the smoketest.

Further, add a "TODO — cleanup gated on msgspec PEP 684
support" section to the `_subint_forkserver` module
docstring: flags the dedicated-`threading.Thread` design as
potentially-revisable once isolated-mode subints are viable
in tractor. Cross-refs `msgspec#563` + `tractor#379` and
points at an audit-plan conc-anal doc we'll add next.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 25e400d526)
2026-06-22 15:53:00 -04:00
Gud Boi fd845f7ddd Lift fork prims into `_subint_forkserver` mod
The smoketest (prior commit) empirically validated the
"fork-from-main-interp-worker-thread" arch on py3.14. Promote
the validated primitives out of the `ai/conc-anal/` smoketest
into `tractor.spawn._subint_forkserver` so they can eventually
be wired into a real "subint forkserver" spawn backend.

Deats,
- new module `tractor/spawn/_subint_forkserver.py` (337 LOC):
  - `fork_from_worker_thread(child_target, thread_name)` —
    spawn a main-interp `threading.Thread`, call `os.fork()`
    from it, shuttle the child pid back to main via a pipe
  - `run_trio_in_subint(bootstrap, ...)` — post-fork helper:
    create a fresh subint + drive `_interpreters.exec()` on
    a dedicated worker thread running the `bootstrap` str
    (typically imports `trio`, defines an async entry, calls
    `trio.run()`)
  - `wait_child(pid, expect_exit_ok)` — `os.waitpid()` +
    pass/fail classification reusable from harness AND the
    eventual real spawn path
- feature-gated py3.14+ via the public
  `concurrent.interpreters` presence check; matches the gate
  in `tractor.spawn._subint`
- module docstring doc's the CPython-block context
  (cross-refs `_subint_fork` stub + the two `conc-anal/`
  docs) and status: EXPERIMENTAL, not yet registered in
  `_spawn._methods`

Also, refactor the smoketest
`ai/conc-anal/subint_fork_from_main_thread_smoketest.py` to
import the primitives from the new module rather than inline
its own copies. Keeps the smoketest and the tractor-side
impl in sync as the forkserver design evolves; the smoketest
remains a zero-`tractor`-runtime CPython-level check
(imports ONLY the three primitives, no runtime bring-up).

Status: next step is to drive these from a parent-side
`trio.run()` and hook the returned child pid into the normal
actor-nursery/IPC flow — then register `subint_forkserver`
as a `SpawnMethodKey` in `_spawn.py`.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 82332fbceb)
2026-06-22 15:53:00 -04:00
Gud Boi 8abeac34c0 Add CPython-level `subint_fork` workaround smoketest
Standalone script to validate the "main-interp worker-thread
forkserver + subint-hosted trio" arch proposed as a workaround
to the CPython-level refusal doc'd in
`ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`.

Deliberately NOT a `tractor` test — zero `tractor` imports.
Uses `_interpreters` (private stdlib) + `os.fork()` directly so
pass/fail is a property of CPython alone, independent of our
runtime. Requires py3.14+.

Deats,
- four scenarios via `--scenario`:
  - `control_subint_thread_fork` — the KNOWN-BROKEN case as a
    harness sanity; if the child DOESN'T abort, our analysis
    is wrong
  - `main_thread_fork` — baseline sanity, must always succeed
  - `worker_thread_fork` — architectural assertion: regular
    `threading.Thread` attached to main interp calls
    `os.fork()`; child should survive post-fork cleanup
  - `full_architecture` — end-to-end: fork from a main-interp
    worker thread, then in child create a subint driving a
    worker thread running `trio.run()`
- exit code 0 on EXPECTED outcome (for `control_*` that means
  "child aborted", not "child succeeded")
- each scenario prints a self-contained pass/fail banner; use
  `os.waitpid()` of the parent + per-scenario status prints to
  observe the child's fate

Also, log NLNet provenance for this session's three-sub-phase
work (py3.13 gate tightening, `pytest-timeout` + marker
refactor, `subint_fork` prototype → CPython-block finding).

Prompt-IO: ai/prompt-io/claude/20260422T200723Z_797f57c_prompt_io.md

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit de4f470b6c)
2026-06-22 15:53:00 -04:00
Gud Boi 458d0017c8 Doc `subint_fork` as blocked by CPython post-fork
Empirical finding: the WIP `subint_fork_proc` scaffold
landed in `cf0e3e6f` does *not* work on current CPython.
The `fork()` syscall succeeds in the parent, but the
CHILD aborts immediately during
`PyOS_AfterFork_Child()` →
`_PyInterpreterState_DeleteExceptMain()`, which gates
on the current tstate belonging to the main interp —
the child dies with `Fatal Python error: not main
interpreter`.

CPython devs acknowledge the fragility with an in-source
comment (`// Ideally we could guarantee tstate is running
main.`) but expose no user-facing hook to satisfy the
precondition — so the strategy is structurally dead until
upstream changes.

Rather than delete the scaffold, reshape it into a
documented dead-end so the next person with this idea
lands on the reason rather than rediscovering the same
CPython-level refusal.

Deats,
- Move `subint_fork_proc` out of `tractor.spawn._subint`
  into a new `tractor.spawn._subint_fork` dedicated
  module (153 LOC). Module + fn docstrings now describe
  the blockage directly; the fn body is trimmed to a
  `NotImplementedError` pointing at the analysis doc —
  no more dead-code `bootstrap` sketch bloating
  `_subint.py`.
- `_spawn.py`: keep `'subint_fork'` in `SpawnMethodKey`
  + the `_methods` dispatch so
  `--spawn-backend=subint_fork` routes to a clean
  `NotImplementedError` rather than "invalid backend";
  comment calls out the blockage. Collapse the duplicate
  py3.14 feature-gate in `try_set_start_method()` into a
  combined `case 'subint' | 'subint_fork':` arm.
- New 337-line analysis:
  `ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`.
  Annotated walkthrough from the user-visible fatal
  error down to the specific `Modules/posixmodule.c` +
  `Python/pystate.c` source lines enforcing the refusal,
  plus an upstream-report draft.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 0f48ed2eb9)
2026-06-22 15:53:00 -04:00
Gud Boi 8325c062d8 Add WIP `subint_fork_proc` backend scaffold
Experimental third spawn backend: use a fresh
sub-interpreter purely as a trio-free launchpad from
which to `os.fork()` + exec back into
`python -m tractor._child`. Per issue #379's
"fork()-workaround/hacks" thread.

Intent is to sidestep both,
- the trio+fork hazards hitting `trio_proc` (python- trio/trio#1614 et
  al.), since the forking interp is guaranteed trio-free.

- the shared-GIL abandoned-thread hazards hitting `subint_proc`
  (`ai/conc-anal/subint_sigint_starvation_issue.md`), since we don't
  *stay* in the subint — it only lives long enough to call `os.fork()`

Downstream of the fork+exec, all the existing `trio_proc` plumbing is
reused verbatim: `ipc_server.wait_for_peer()`, `SpawnSpec`, `Portal`
yield, soft-kill.

Status: NOT wired up beyond scaffolding. The fn raises
`NotImplementedError` immediately; the `bootstrap` fork/exec string
builder and the `# TODO: orchestrate driver thread` block are kept
in-tree as deliberate dead code so the next iteration starts from
a concrete shape rather than a blank page.

Docstring calls out three open questions that need
empirical validation before wiring this up:
1. Does CPython permit `os.fork()` from a non-main
   legacy subint?
2. Can the child stay fork-without-exec and
   `trio.run()` directly from within the launchpad
   subint?
3. How do `signal.set_wakeup_fd()` handlers and other
   process-global state interact when the forking
   thread is inside a subint?

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit eee79a0357)
2026-06-22 15:53:00 -04:00
Gud Boi 0a523f633e Expand `subint` sigint-starvation hang catalog
Add two more tests to the catalog in
`conc-anal/subint_sigint_starvation_issue.md` — same
signal-wakeup-fd-saturation fingerprint (abandoned legacy-subint driver
threads → shared-GIL starvation → `write() = EAGAIN` on the wakeup pipe
→ silent SIGINT drop), different load patterns.

Deats,
- `test_cancel_while_childs_child_in_sync_sleep[subint-False]`: nested
  actor-tree + sync-sleeping grandchild. Under `trio`/`mp_*` the "zombie
  reaper" is a subproc `SIGKILL`; no equivalent exists under subint, so
  the grandchild persists in its abandoned driver thread. Often only
  manifests under full-suite runs (earlier tests seed the
  abandoned-thread pool).

- `test_multierror_fast_nursery[subint-25-0.5]`: 25 concurrent subactors
  all go through teardown on the multierror. Bounded hard-kills run in
  parallel — so the total budget is ~3s, not 3s × 25. Leaves 25
  abandoned driver threads simultaneously alive, an extreme pressure
  multiplier. `strace` shows several successful `write(16, "\2", 1) = 1`
  (GIL round-robin IS giving main brief slices) before finally
  saturating with `EAGAIN`.

Also include a `pstree -snapt <pid>` capture showing
16+ live `{subint-driver[<interp_id>}` threads at the
moment of hang — the direct GIL-contender population.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit f3cea714bc)
2026-06-22 15:53:00 -04:00
Gud Boi fd23ba8c72 Wall-cap `subint` audit tests via `pytest-timeout`
Add a hard process-level wall-clock bound on the two
known-hanging subint-backend tests so an unattended
suite run can't wedge indefinitely in either of the
hang classes doc'd in `ai/conc-anal/`.

Deats,
- New `testing` dep: `pytest-timeout>=2.3`.
- `test_stale_entry_is_deleted`:
  `@pytest.mark.timeout(3, method='thread')`. The
  `method='thread'` choice is deliberate —
  `method='signal'` routes via `SIGALRM` which is
  starved by the same GIL-hostage path that drops
  `SIGINT` (see `subint_sigint_starvation_issue.md`),
  so it'd never actually fire in the starvation case.
- `test_subint_non_checkpointing_child`: same
  decorator, same reasoning (defense-in-depth over
  the inner `trio.fail_after(15)`).

At timeout, `pytest-timeout` hard-kills the pytest
process itself — that's the intended behavior here;
the alternative is the suite never returning.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 189f4e3ffc)
(MTF-only portion: kept tests/test_subint_cancellation.py)
2026-06-22 15:53:00 -04:00
Gud Boi 993b088717 Add prompt-io log for `subint` hang-class docs
Log the `claude-opus-4-7` collab that produced `e92e3cd2` ("Doc `subint`
backend hang classes + arm `dump_on_hang`"). Substantive bc the two new
`ai/conc-anal/` docs were jointly authored — user framed the two-class
split + set candidate-fix ordering for the class-2 (Ctrl-C-able) hang;
claude drafted the prose and the test-side cross-linking comments.

`.raw.md` is in diff-ref mode — per-file pointers via `git diff
e92e3cd2~1..e92e3cd2 -- <path>` rather than re-embedding content that
already lives in `git log -p`.

Prompt-IO: ai/prompt-io/claude/20260420T192739Z_5e8cd8b2_prompt_io.md

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit a65fded4c6)
2026-06-22 15:53:00 -04:00
Gud Boi 3e3761550f Doc `subint` backend hang classes + arm `dump_on_hang`
Classify and write up the two distinct hang modes hit during Phase
B subint bringup (issue #379) so future triage doesn't re-derive them
from scratch.

Deats, two new `ai/conc-anal/` docs,
- `subint_sigint_starvation_issue.md`: abandoned legacy-subint thread
  + shared GIL → main trio loop starves → signal-wakeup-fd pipe fills
  → `SIGINT` silently dropped (`strace` shows `write() = EAGAIN` on the
  wakeup-fd). Un- Ctrl-C-able. Structurally a CPython limit; blocked on
  `msgspec` PEP 684 (jcrist/msgspec#563)

- `subint_cancel_delivery_hang_issue.md`: parent-side trio task parks on
  an orphaned IPC channel after subint teardown — no clean EOF delivered
  to the waiting receive. Ctrl-C-able (main loop iterates fine); OUR bug
  to fix. Candidate fix: explicit parent-side channel abort in
  `subint_proc`'s hard-kill teardown

Cross-link the docs from their test reproducers,
- `test_stale_entry_is_deleted` (→ starvation class): wrap
  `trio.run(main)` in `dump_on_hang(seconds=20)` so a future regression
  captures a stack dump. Kept un- skipped so the dump file is
  inspectable

- `test_subint_non_checkpointing_child` (→ delivery class): extend
  docstring with a "KNOWN ISSUE" block pointing at the analysis

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 4a3254583b)
(MTF-only portion: kept ai/conc-anal/subint_cancel_delivery_hang_issue.md ai/conc-anal/subint_sigint_starvation_issue.md tests/test_subint_cancellation.py)
2026-06-22 15:53:00 -04:00
Gud Boi c0c1084a36 Add `subint` cancellation + hard-kill test audit
Lock in the escape-hatch machinery added to `tractor.spawn._subint`
during the Phase B.2/B.3 bringup (issue #379) so future stdlib
regressions or our own refactors don't silently re-introduce the
mid-suite hangs.

Deats,
- `test_subint_happy_teardown`: baseline — spawn a subactor, one portal
  RPC, clean teardown. If this breaks, something's wrong unrelated to
  the hard-kill shields.
- `test_subint_non_checkpointing_child`: cancel a subactor stuck in
  a non-checkpointing Python loop (`threading.Event.wait()` releases the
  GIL but never inserts a trio checkpoint). Validates the bounded-shield
  + daemon-driver-thread combo abandons the thread after
    `_HARD_KILL_TIMEOUT`.

Every test is wrapped in `trio.fail_after()` for a deterministic
per-test wall-clock ceiling (an unbounded audit would defeat itself) and
arms `tractor.devx.dump_on_hang()` so a hang captures a stack dump
— pytest's stderr capture swallows `faulthandler` output by default.

Gated via `pytest.importorskip('concurrent.interpreters')` and
a module-level skip when `--spawn-backend` isn't `'subint'`.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 2ed5e6a6e8)
2026-06-22 15:53:00 -04:00
Gud Boi 0e0c7c8454 Raise `subint` floor to py3.14 and split dep-groups
The private `_interpreters` C module ships since 3.13, but that vintage
wedges under our `threading.Thread` + multi-trio usage pattern
—> `_interpreters.exec()` silently never makes progress. 3.14 fixes it.
So gate on the presence of the public `concurrent.interpreters` wrapper
(3.14+ only) even tho we still call into the private module at runtime.

Deats,
- `try_set_start_method('subint')` error msg + `_subint` module
  docstring/comments rewritten to document the 3.14 floor and why 3.13
  can't work.
- `_subint._has_subints` gate now imports `concurrent.interpreters` (not
  `_interpreters`) as the version sentinel.

Also, reshuffle `pyproject.toml` deps into
per-python-version `[tool.uv.dependency-groups]`:
- `subints` group: `msgspec>=0.21.0`, py>=3.14
- `eventfd` group: `cffi>=1.17.1`, py>=3.13,<3.14
- `sync_pause` group: `greenback`, py>=3.13,<3.14
  (was in `devx`; moved out bc no 3.14 yet)

Bump top-level `msgspec>=0.20.0` too.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 34d9d482e4)
(MTF-only portion: kept tractor/spawn/_spawn.py tractor/spawn/_subint.py)
2026-06-22 15:53:00 -04:00
Gud Boi 30157caed3 Bound subint teardown shields with hard-kill timeout
Unbounded `trio.CancelScope(shield=True)` at the
soft-kill and thread-join sites can wedge the parent
trio loop indefinitely when a stuck subint ignores
portal-cancel (e.g. bc the IPC channel is already
broken).

Deats,
- add `_HARD_KILL_TIMEOUT` (3s) module-level const
- wrap both shield sites with
  `trio.move_on_after()` so we abandon a stuck
  subint after the deadline
- flip driver thread to `daemon=True` so proc-exit
  also isn't blocked by a wedged subint
- pass `abandon_on_cancel=True` to
  `trio.to_thread.run_sync(driver_thread.join)`
  — load-bearing for `move_on_after` to actually
  fire
- log warnings when either timeout triggers
- improve `InterpreterError` log msg to explain
  the abandoned-thread scenario

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 99541feec7)
2026-06-22 15:53:00 -04:00
Gud Boi 8355962d62 Add prompt-IO log for subint destroy-race fix
Log the `claude-opus-4-7` session that produced
the `_subint.py` dedicated-thread fix (`26fb8206`).
Substantive bc the patch was entirely AI-generated;
raw log also preserves the CPython-internals
research informing Phase B.3 hard-kill work.

Prompt-IO: ai/prompt-io/claude/20260418T042526Z_26fb820_prompt_io.md

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit c041518bdb)
2026-06-22 15:53:00 -04:00
Gud Boi 8781d255fa Fix subint destroy race via dedicated OS thread
`trio.to_thread.run_sync(_interpreters.exec, ...)` runs `exec()` on
a cached worker thread — and when that thread is returned to the
cache after the subint's `trio.run()` exits, CPython still keeps
the subint's tstate attached to the (now idle) worker. Result: the
teardown `_interpreters.destroy(interp_id)` in the `finally` block
can block the parent's trio loop indefinitely, waiting for a tstate
release that only happens when the worker either picks up a new job
or exits.

Manifested as intermittent mid-suite hangs under
`--spawn-backend=subint` — caught by a
`faulthandler.dump_traceback_later()` showing the main thread stuck
in `_interpreters.destroy()` at `_subint.py:293` with only an idle
trio-cache worker as the other live thread.

Deats,
- drive the subint on a plain `threading.Thread` (not
  `trio.to_thread`) so the OS thread truly exits after
  `_interpreters.exec()` returns, releasing tstate and unblocking
  destroy
- signal `subint_exited.set()` back to the parent trio loop from
  the driver thread via `trio.from_thread.run_sync(...,
  trio_token=...)` — capture the token at `subint_proc` entry
- swallow `trio.RunFinishedError` in that signal path for the case
  where parent trio has already exited (proc teardown)
- in the teardown `finally`, off-load the sync
  `driver_thread.join()` to `trio.to_thread.run_sync` (cache thread
  w/ no subint tstate → safe) so we actually wait for the driver to
  exit before `_interpreters.destroy()`

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 31cbd11a5b)
2026-06-22 15:53:00 -04:00
Gud Boi 562fde69a7 Doc the `_interpreters` private-API choice in `_subint`
Expand the comment block above the `_interpreters`
import explaining *why* we use the private C mod
over `concurrent.interpreters`: the public API only
exposes PEP 734's `'isolated'` config which breaks
`msgspec` (missing PEP 684 slot). Add reference
links to PEP 734, PEP 684, cpython sources, and
the msgspec upstream tracker (jcrist/msgspec#563).

Also,
- update error msgs in both `_spawn.py` and
  `_subint.py` to say "3.13+" (matching the actual
  `_interpreters` availability) instead of "3.14+".
- tweak the mod docstring to reflect py3.13+
  availability via the private C module.

Review: PR #444 (copilot-pull-request-reviewer)
https://github.com/goodboy/tractor/pull/444

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 8a8d01e076)
2026-06-22 15:53:00 -04:00
Gud Boi b6b7ae6662 Impl min-viable `subint` spawn backend (B.2)
Replace the B.1 scaffold stub w/ a working spawn
flow driving PEP 734 sub-interpreters on dedicated
OS threads.

Deats,
- use private `_interpreters` C mod (not the public
  `concurrent.interpreters` API) to get `'legacy'`
  subint config — avoids PEP 684 C-ext compat
  issues w/ `msgspec` and other deps missing the
  `Py_mod_multiple_interpreters` slot
- bootstrap subint via code-string calling new
  `_actor_child_main()` from `_child.py` (shared
  entry for both CLI and subint backends)
- drive subint lifetime on an OS thread using
  `trio.to_thread.run_sync(_interpreters.exec, ..)`
- full supervision lifecycle mirrors `trio_proc`:
  `ipc_server.wait_for_peer()` → send `SpawnSpec`
  → yield `Portal` via `task_status.started()`
- graceful shutdown awaits the subint's inner
  `trio.run()` completing; cancel path sends
  `portal.cancel_actor()` then waits for thread
  join before `_interpreters.destroy()`

Also,
- extract `_actor_child_main()` from `_child.py`
  `__main__` block as callable entry shape bc the
  subint needs it for code-string bootstrap
- add `"subint"` to the `_runtime.py` spawn-method
  check so child accepts `SpawnSpec` over IPC

Prompt-IO: ai/prompt-io/claude/20260417T124437Z_5cd6df5_prompt_io.md

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit b8f243e98d)
(MTF-only portion: kept ai/prompt-io/claude/20260417T124437Z_5cd6df5_prompt_io.md ai/prompt-io/claude/20260417T124437Z_5cd6df5_prompt_io.raw.md tractor/spawn/_subint.py)
2026-06-22 15:53:00 -04:00
Gud Boi c3204a122a Add `'subint'` spawn backend scaffold (#379)
Land the scaffolding for a future sub-interpreter (PEP 734
`concurrent.interpreters`) actor spawn backend per issue #379. The
spawn flow itself is not yet implemented; `subint_proc()` raises a
placeholder `NotImplementedError` pointing at the tracking issue —
this commit only wires up the registry, the py-version gate, and
the harness.

Deats,
- bump `pyproject.toml` `requires-python` to `>=3.12, <3.15` and
  list the `3.14` classifier — the new stdlib
  `concurrent.interpreters` module only ships on 3.14
- extend `SpawnMethodKey = Literal[..., 'subint']`
- `try_set_start_method('subint')` grows a new `match` arm that
  feature-detects the stdlib module and raises `RuntimeError` with
  a clear banner on py<3.14
- `_methods` registers the new `subint_proc()` via the same
  bottom-of-module late-import pattern used for `._trio` / `._mp`

Also,
- new `tractor/spawn/_subint.py` — top-level `try: from concurrent
  import interpreters` guards `_has_subints: bool`; `subint_proc()`
  signature mirrors `trio_proc`/`mp_proc` so the Phase B.2 impl can
  drop in without touching the registry
- re-add `import sys` to `_spawn.py` (needed for the py-version msg
  in the gate-error)
- `_testing.pytest.pytest_configure` wraps `try_set_start_method()`
  in a `pytest.UsageError` handler so `--spawn-backend=subint` on
  py<3.14 prints a clean banner instead of a traceback

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit d318f1f8f4)
(MTF-only portion: kept tractor/spawn/_spawn.py tractor/spawn/_subint.py)
2026-06-22 15:53:00 -04:00
Gud Boi 7387bde030 Bump lockfile for `xonsh>=0.23.8` release 2026-06-22 15:19:34 -04:00
Gud Boi 2175045230 Code-style, couple newline/ws tweaks
(cherry picked from commit 8526985c97)
(cherry picked from commit 0952b33a9e)
2026-06-22 15:19:34 -04:00
Gud Boi 8a57dd033b Pin to latest `xonsh` release
(cherry picked from commit c4cad921b9)
(cherry picked from commit ade15b4204)
2026-06-22 15:19:34 -04:00
Gud Boi 2d07d4ba91 Hoist proc-title prefix to `_def_prefix` const
Make the sub-actor proc-title prefix a single
authoritative constant (`_proctitle._def_prefix`) so
the reap-recognition markers and `xontrib` banner pick
it up automatically — one place to flip the prefix
shape going fwd.

Deats,
- `_proctitle._def_prefix: str = '_subactor'`. New
  module-level const consumed by everything that needs
  to know the prefix.
- `set_actor_proctitle(actor, prefix=_def_prefix)`:
  takes an explicit `prefix` arg (default = the const)
  so callers can override per-spawn if they want.
- Default proc-title format:
  `'tractor[<reprol>]'` → `f'{prefix}[<reprol>]'`
  i.e. `_subactor[<reprol>]` by default.
- `_testing/_reap.py`: cmdline + comm markers source
  the prefix from `_proctitle._def_prefix` instead of
  the hardcoded `'tractor['`. So
  `_is_tractor_subactor()` tracks the const
  automatically.
- `xontrib/tractor_diag.xsh`: `acli.reap` orphan-mode
  banner now interpolates the
  `_TRACTOR_PROC_CMDLINE_MARKERS` tuple directly so
  the human-readable mode line stays in sync if the
  prefix shape changes again.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 3a45dbd503)
(cherry picked from commit fd8d39c0ce)
2026-06-22 15:19:34 -04:00
Gud Boi d0afc69a1c Add `add_log_level()` factory + register `IO`=21
Follow-up to f595acc7 (`supervise_run_process`) which
called `log.io(...)` for std-stream relay assuming an
`IO=21` level existed. Add the registration via a new
factory + tests covering both the factory and the new
level.

`add_log_level()` factory,
- One call wires the four (otherwise hand-synced) pieces:
  - `CUSTOM_LEVELS[NAME]` — drives the `stacklevel` bump
    in `StackLevelAdapter.log()` + `get_logger()`'s
    per-level audit.
  - `logging.addLevelName()` — stdlib name registration.
  - `STD_PALETTE[NAME]` + `BOLD_PALETTE['bold'][NAME]` —
    color entries consumed by `get_console_log()`'s
    `ColoredFormatter` build.
  - Same-named (lowercase) emit method bound on
    `StackLevelAdapter` so `log.<name>('msg')` works +
    `get_logger()`'s per-level method audit passes.
- Idempotent: re-registering an existing name is a
  no-op-ish refresh that won't clobber an already-bound
  method.
- Method binding uses a default-arg `_level=value` so
  the level int is captured (not late-bound across
  multiple registrations).

`IO=21` level (first user),
- Purple. Used by `tractor.trionics._subproc`'s
  std-stream relay (see f595acc7).
- Value 21 picked to sit just ABOVE stdlib `INFO`=20 so
  it's SHOWN BY DEFAULT at usual `info`/`devx` console
  levels — a `runtime`=15 relay would be silently
  filtered (footgun for daemon supervisors whose whole
  point is visibility). Still distinctly labeled +
  filterable.

Tests (`tests/test_log_sys.py`),
- `test_io_custom_level_registered`: validates the IO
  level is fully wired (`CUSTOM_LEVELS`, `addLevelName`,
  both palettes, `StackLevelAdapter.io()` callable);
  emits a record + sanity-asserts `21 >= INFO(20)`.
- `test_add_log_level_pluggable`: registers a fresh
  `XLVL=19` (cyan) via `add_log_level()`, asserts all
  four wires + the bound `xlog.xlvl()` emit, then
  try/finally cleans up the module-global mutations so
  later `get_logger()` audits don't trip on a
  half-removed level.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 7bd7dd50c7)
(cherry picked from commit 93558fe3c9)
2026-06-22 15:19:34 -04:00
Gud Boi 48cab20825 Strip ANSI + accept `_create(...)` in devx tests
Two version-compat fixes for the `devx` debugger
test-suite, both about matching upstream output that
got more verbose w/ recent lib releases.

ANSI stripping (`tests/devx/conftest.py`),
- Add `ansi_strip(text)` helper + `_ansi_re` pattern
  (regex per https://stackoverflow.com/a/14693789).
- Apply inside `in_prompt_msg()` + `assert_before()` so
  substring matches against REPL/traceback output stay
  robust to color leakage.
- Motivated by py3.13's colored tracebacks +
  `pdbp`/pygments highlighting leaking ANSI even when
  `PYTHON_COLORS=0` is set in the `spawn` fixture (not
  every renderer in the spawned subproc honors it).
- Replaces the longstanding inline TODO that linked
  the SO answer w/o impl'ing.

trio 0.30+ `Cancelled._create(` match (`test_debugger`),
- In `test_shield_pause` swap the two
  `"raise Cancelled._create()"` assertion patterns →
  `"raise Cancelled._create("` (open-paren form, no
  closing).
- trio >=0.30 raises a multi-line
  `raise Cancelled._create(source=.., reason=..,
  source_task=..)` w/ cancel-reason metadata, so the
  legacy bare-`()` form no longer matches. Inline
  comment documents the trio-version pivot.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 3854cf5ecb)
(cherry picked from commit c07cf2546b)
2026-06-22 15:19:34 -04:00
Gud Boi cc19c1f9c7 Add `supervise_run_process` to `trionics._subproc`
A `trio.Nursery.start()`-style wrapper around
`trio.run_process()` that surfaces rc!=0 errors
deterministically, ALWAYS isolates the parent
controlling-tty, and optionally live-relays the child's
std-streams to `log.<level>` per-line. Suits both
short-lived test-runners + long-lived daemons.

`supervise_run_process()`,
- Deterministic rc!=0: pass `check=False` to `trio`
  and do our OWN post-drain rc-check from the
  supervisor coro body AFTER `own_tn.__aexit__` — NOT
  inside the internal nursery, since that would
  race-cancel the still-draining relay reader and lose
  stderr lines. (Re)build + raise a BARE
  `subprocess.CalledProcessError`: `.stderr=` for
  programmatic callers + an `add_note()`'d
  `|_.stderr:` block for human teardown logs. No
  nursery-eg-wrapped CPE to `collapse_eg` around.
- Parent controlling-tty isolation: `stdin=DEVNULL`
  always, `stdout=DEVNULL` unless relayed/overridden
  (via `stdout=` kwarg w/ `_UNSET` sentinel so explicit
  `None` = inherit still works). Prevents a spawned
  program from clobbering the launching tty's scrollback
  w/ control-seqs.
- Live per-line relay: `relay_stdout=True`/
  `relay_stderr=True` → relayed to `log.<relay_level>`
  (default `'io'`, our custom level 21). Picked to sort
  just above stdlib `INFO`=20 so it shows at usual
  `info`/`devx` levels yet stays separately filterable;
  `runtime`=15 was REJECTED as a default since it'd be
  silently filtered at usual verbosity — footgun for
  daemon supervisors whose whole point is visibility.
  STREAMED, not buffered-until-exit.
- Non-blocking `tn.start()` semantics: live
  `trio.Process` handed up via
  `task_status.started()` immediately (else
  `tn.start()` would block till child exit, losing
  the long-lived-daemon use case). Supervise/relay bg
  tasks run to completion in this coro.
- `**run_process_kwargs` forwarded verbatim (env, shell,
  cwd, start_new_session, executable, ...); MANAGED keys
  (`stdin`/`stdout`/`stderr`/`check`) win on conflict.
- Crash-handling layer intentionally NOT baked in —
  compose `maybe_open_crash_handler()` ON TOP at the
  call-site.

`_relay_stream_lines()` helper,
- Concurrent pipe-drain reader. MANDATORY whenever piping
  w/o `capture_*` since nothing else drains the OS pipe —
  child blocks on `write()` once kernel buf (~64KiB) fills
  → deadlock.
- Modes (combine freely): `emit`-only live relay,
  `accum`-only silent drain+capture (for the CPE note),
  or both. Per-line splitting handles cross-chunk
  residuals + flushes any trailing un-newline-term'd line
  at EOF.

`_add_stderr_note()` helper,
- Attaches an indented `|_.stderr:` note to a CPE via
  `add_note()` for legible rc!=0 reporting at teardown.

Tests (`tests/trionics/test_subproc.py`),
- Hermetic `trio`-only (no actor-runtime).
- `test_stdout_relayed_per_line`: per-line stdout relay.
- `test_parent_tty_isolated`: child fd1 is OUR pipe (no
  `/dev/pts/*`), fd0 pinned to `/dev/null`.
- `test_no_deadlock_on_big_unnewlined_output`: 200KiB
  no-newline output completes under `fail_after(2)` —
  exercises the concurrent drain (without it, the child
  blocks at ~64KiB).
- `test_stderr_relay_and_cpe_rebuild`: rc!=0 w/
  `relay_stderr=True` → bare `CalledProcessError` w/ the
  `.stderr` note + per-line live relay.
- `test_nonrelay_cpe_note`: rc!=0 w/o relay → same
  deterministic post-drain CPE w/ `.stderr` note (silent
  drain+capture path).

Re-export `supervise_run_process` from `tractor.trionics`.

Prompt-IO: ai/prompt-io/claude/20260601T231429Z_0e3e008b_prompt_io.md

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit f595acc76c)
(cherry picked from commit 6df9ee11bc)
2026-06-22 15:19:34 -04:00
Gud Boi 48c4e2415f Use `is not None` check for peer-connect `event`
Matches the explicit `dict.pop(uid, None)` contract one
line above; same semantics as the prior truthy check.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 0e3e008b0c)
(cherry picked from commit 13ed668512)
2026-06-22 15:19:34 -04:00
Gud Boi 023dbf89e4 Fix dropped `for/else` re-raise in masking CM
`30e15925` ("Add `start_or_cancel()` to `trionics._taskc`")
inserted `async def start_or_cancel()` — whose body opens its
own col-4 `try:` — immediately before the trailing `else:
raise`. Because the edit was a pure insertion (0 deletions),
the *same* `else: raise` lines were silently REPARENTED: they
used to be the `for exc_match in matching: ... else: raise`
of `maybe_raise_from_masking_exc`, but now bind to
`start_or_cancel`'s `try/except` where they're unreachable
dead code.

Net effect: `maybe_raise_from_masking_exc` lost the `for/else`
re-raise of the un-masked exception, so a masked child
cancellation gets swallowed instead of surfaced.

- restore the `for/else: raise` to `maybe_raise_from_masking_exc`
- drop the now-dead `else: raise` from `start_or_cancel`

Surfaced as 2 deterministic failures in
`test_sigint_closes_lifetime_stack[wait_for_ctx-bg_aio_task-
send_SIGINT_to=child-*]` (the SIGINT-to-child "silent-abandon"
regime). Bisected with `trio` held at `0.29.0`: clean at
`9c36363b` (0/8), broken at `30e15925` (8/8), fixed (0/8).
NOT a `trio` (0.29↔0.33 identical) nor logging-plugin
regression.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 325574cc07)
(cherry picked from commit 0b8033fdaa)
2026-06-22 15:19:34 -04:00
Gud Boi 8952b39ee7 Add `start_or_cancel()` to `trionics._taskc`
Wrapper around `trio.Nursery.start()` that DOESN'T mask
out-of-band cancellation as a lossy startup failure.
Picks the right re-raise: ambient `Cancelled` when
present, the genuine startup-protocol `RuntimeError`
otherwise.

The problem,
- `trio.Nursery.start()` raises a generic
  `RuntimeError("child exited without calling
  task_status.started()")` whenever the started task
  exits BEFORE calling `task_status.started()` —
  INCLUDING the common case where the child was
  cancelled out-of-band by an *ancestor* cancel-scope
  erroring/cancelling.
- In that case the original `trio.Cancelled` is
  swallowed and the caller is left w/ an opaque,
  root-cause-detached `RuntimeError`.

The fix,
- Catch the "...started" RTE.
- `await trio.lowlevel.checkpoint_if_cancelled()` —
  re-raises the in-flight `Cancelled` IFF we're under
  effective cancellation (ancestor-inclusive), carrying
  trio's auto-generated reason which points at the true
  root exc.
- If we're NOT cancelled the `checkpoint_if_cancelled()`
  is a cheap no-op and we fall through to re-raise the
  genuine startup-protocol RTE.

Re-export from `tractor.trionics` so callers don't have
to reach into `_taskc`.

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 30e15925ba)
(cherry picked from commit 2b4589b1ee)
2026-06-22 15:19:34 -04:00
Gud Boi 94a3413f5c Add per-actor `setproctitle` via `devx._proctitle`
New `tractor.devx._proctitle` mod sets each
sub-actor's `argv[0]` (and kernel `comm`) to
`tractor[<aid.reprol()>]` — e.g.
`tractor[doggy@1027301b]` — so `ps`/`top`/`htop`
and `acli.pytree`/reaper tooling can identify
actors at a glance without parsing full cmdlines.

Deats,
- `set_actor_proctitle()` wraps the `setproctitle`
  pkg with `ImportError` guard; optional at runtime
  but listed in `pyproject.toml` so default installs
  benefit.
- called early in `_child._actor_child_main()` after
  `Actor` construction, before `_trio_main()` entry.
- tests in `tests/devx/test_proctitle.py`: format
  unit test, `/proc/{cmdline,comm}` integration
  test, negative detection test.

Resolves #457

(this patch was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit d60245777e)
2026-06-22 15:19:34 -04:00
Gud Boi e4892a8e90 Split py-version-gated uv dependency-groups
Reshuffle `pyproject.toml` deps into per-python-version
`[tool.uv.dependency-groups]`:
- `subints` group: `msgspec>=0.21.0`, py>=3.14
- `eventfd` group: `cffi>=1.17.1`, py>=3.13,<3.14
- `sync_pause` group: `greenback`, py>=3.13,<3.14
  (was in `devx`; moved out bc no 3.14 yet)

Bump top-level `msgspec>=0.20.0` too.

(this commit msg was generated in some part by [`claude-code`][claude-code-gh])
[claude-code-gh]: https://github.com/anthropics/claude-code

(cherry picked from commit 34d9d482e4)
(factored: kept only the pyproject dep-group parts of
 "Raise `subint` floor to py3.14 and split dep-groups"; dropped
 tractor/spawn/_spawn.py + tractor/spawn/_subint.py)
2026-06-22 15:19:34 -04:00
Bd 2fdf3901cb
Merge pull request #462 from goodboy/subint_era_tooling
Subint era tooling
2026-06-19 08:58:12 -04:00
45 changed files with 8496 additions and 47 deletions

View File

@ -88,10 +88,27 @@ jobs:
testing: testing:
name: '${{ matrix.os }} Python${{ matrix.python-version }} spawn_backend=${{ matrix.spawn_backend }} tpt_proto=${{ matrix.tpt_proto }}' name: '${{ matrix.os }} Python${{ matrix.python-version }} spawn_backend=${{ matrix.spawn_backend }} tpt_proto=${{ matrix.tpt_proto }} capture=${{ matrix.capture }}'
timeout-minutes: 16 timeout-minutes: 20
runs-on: ${{ matrix.os }} runs-on: ${{ matrix.os }}
# NOTE on the matrix shape — the `capture=` mode follows
# `spawn_backend`:
#
# - `trio` / `mp_*` backends use `--capture=fd` (default)
# for per-test attribution of subactor *raw-fd* output
# in failure reports.
# - Fork-based backends (`main_thread_forkserver`,
# `subint_forkserver`) REQUIRE `--capture=sys` because
# fork-child × `--capture=fd` is a known deadlock
# pattern. See the long NOTE in `tractor._testing.pytest`'s
# `pytest_load_initial_conftests` for the mechanism +
# tradeoff write-up.
#
# If a future matrix row adds a fork-spawn backend
# WITHOUT setting `capture: 'sys'`, the
# `pytest_load_initial_conftests` hook fail-fasts on `CI=1`
# with a clear error msg. So the matrix is self-policing.
strategy: strategy:
fail-fast: false fail-fast: false
matrix: matrix:
@ -118,6 +135,26 @@ jobs:
'tcp', 'tcp',
'uds', 'uds',
] ]
capture: [
'fd', # default for non-fork backends
]
# Fork-based backends — added via `include:` so each
# cell carries its REQUIRED `capture: 'sys'` mode.
# Linux-only for now; macOS coverage TBD pending
# local validation.
include:
- os: ubuntu-latest
python-version: '3.13'
spawn_backend: 'main_thread_forkserver'
tpt_proto: 'tcp'
capture: 'sys'
- os: ubuntu-latest
python-version: '3.13'
spawn_backend: 'main_thread_forkserver'
tpt_proto: 'uds'
capture: 'sys'
# https://github.com/orgs/community/discussions/26253#discussioncomment-3250989 # https://github.com/orgs/community/discussions/26253#discussioncomment-3250989
exclude: exclude:
# don't do UDS run on macOS (for now) # don't do UDS run on macOS (for now)
@ -158,7 +195,11 @@ jobs:
-rsx -rsx
--spawn-backend=${{ matrix.spawn_backend }} --spawn-backend=${{ matrix.spawn_backend }}
--tpt-proto=${{ matrix.tpt_proto }} --tpt-proto=${{ matrix.tpt_proto }}
--capture=fd --capture=${{ matrix.capture }}
# NOTE: capture mode is matrix-driven — `fd` for
# non-fork backends (per-test fd attribution),
# `sys` for fork-based (avoids fork-child x
# capture-fd deadlock). See matrix-NOTE above.
# XXX legacy NOTE XXX # XXX legacy NOTE XXX
# #

View File

@ -0,0 +1,314 @@
# Cancel-cascade `trio.TooSlowError` flakes under `main_thread_forkserver`
## Symptom
Running the full test suite under
```bash
./py313/bin/python -m pytest tests/ \
--tpt-proto=tcp \
--spawn-backend=main_thread_forkserver
```
surfaces a single, **rotating** `trio.TooSlowError`
failure each run. The failure isn't deterministic on
test identity — different test each run — but it
ALWAYS looks like:
```
FAILED tests/<file>::test_<name> - trio.TooSlowError
==== 1 failed, 373 passed, 17 skipped, 1112 xfailed,
01 xpassed, ~550 warnings in ~6min ====
```
Pass rate: **~99.7%** (373 of 374 non-skip tests).
Wall-clock per full run: 56 min.
## Tests observed flaking so far
Each row was the SOLE failure in a separate run:
| run # | test |
|---|---|
| 1 | `tests/test_advanced_streaming.py::test_dynamic_pub_sub[KeyboardInterrupt]` |
| 2 | `tests/test_infected_asyncio.py::test_context_spawns_aio_task_that_errors[parent_actor_cancels_child=False]` |
Both share the same shape:
- **Cancel cascade** of N subactors back to a parent root actor.
- N ≥ `multiprocessing.cpu_count()` for `test_dynamic_pub_sub`
(it spawns `cpus - 1` consumers + publisher + dynamic-consumer).
- N ≈ 2 for `test_context_spawns_aio_task_that_errors`
but each subactor is `infect_asyncio=True`, so each
cancel involves the trio↔asyncio guest-run unwind
which is structurally heavier than pure-trio.
- Test wraps the cascade in `trio.fail_after(N seconds)`
and the cap fires before the cascade completes.
The exact failing test rotates because each test is
independently close to the cap; whichever happens to
be unlucky in scheduling/CPU-contention on a given run
is the one that times out.
## Root-cause family
`hard_kill` (`tractor/spawn/_spawn.py:hard_kill`) runs
the SC-graceful teardown ladder per subactor:
1. `Portal.cancel_actor()` — graceful IPC cancel-req.
2. Wait `terminate_after=1.6s` for sub to exit.
3. If still alive: `proc.kill()` (SIGKILL).
4. (NEW) `_unlink_uds_bind_addrs()` — post-mortem
sock-file cleanup for UDS leaks (issue #452 fix).
For a cascade of N subactors, each pays steps 14. If
graceful-cancel doesn't complete within 1.6s for ANY
sub, that sub eats a full 1.6s of `move_on_after` plus
the `proc.wait()` post-SIGKILL.
Worst case under fork backend with N=cpus subs:
- N × 1.6s = 16s+ on a 10-core box just for the
graceful timeout phase
- Plus per-spawn fork-IPC handshake cost compounds
during teardown (each sub's IPC cleanup goes through
the same forkserver coordinator)
- Plus the new autouse fixtures
(`_track_orphaned_uds_per_test`,
`_detect_runaway_subactors_per_test`,
`_reap_orphaned_subactors`) all run at test
teardown, adding small (10s of ms) but cumulative
overhead
Current cap: 30s (`fail_after_s = 30 if
is_forking_spawner else 12`). Empirically fits the
median run but the tail breaks ~0.3% of the time.
## NOT regressing
To confirm this is a flake and not a regression:
- Pre-`WakeupSocketpair`-patch baseline: tests
HUNG INDEFINITELY (busy-loop never released).
- Post-patch: pass-or-fail-fast, ~99.7% pass, the
occasional cap-hit fails in bounded time (<60s for
the offending test).
- Same test PASSES under `--spawn-backend=trio`
(no fork, no hard-kill compounding).
So the suite is dramatically better than before; the
remaining flake is a known-tolerable steady-state.
## Possible mitigations (ranked)
### A. Bump the cap further
Cheapest. Change the per-test `fail_after_s` from 30
to e.g. 60 for fork backends. Pros: trivial. Cons:
masks any genuine slowness regression we'd want to
catch.
### B. CPU-count-aware cap
For tests whose N scales with `cpu_count()`, scale
the cap too:
```python
fail_after_s = (
max(30, cpu_count() * 3) # 3s/actor floor
if is_forking_spawner
else 12
)
```
Pros: scales with the actual cancel-cascade work.
Cons: still arbitrary multiplier.
### C. `pytest-rerunfailures` for these tests only
Mark the known-flaky tests with
`@pytest.mark.flaky(reruns=1)` (needs
`pytest-rerunfailures` dep). Single retry hides
genuine ~0.3% transient flakes.
Pros: no cap change, surfaces persistent failures
loudly. Cons: adds a dep, retries can mask real bugs
if used widely.
### D. Reduce `hard_kill`'s `terminate_after`
Drop from 1.6s → 0.8s. Cuts the worst-case cascade
time roughly in half. Risks: fewer subs get a chance
to run their cleanup before SIGKILL → more orphaned
state for the autouse reapers to handle (ironically,
adds back overhead elsewhere).
### E. Profile + targeted fix
Add `log.devx()` markers in `hard_kill` to time each
phase. Identify if any subactor is consistently
hitting the 1.6s cap (vs. exiting in <0.1s). If so,
that sub has a teardown bug worth fixing at source.
Pros: actually fixes the underlying slowness. Cons:
real investigation work, deferred from this round.
## Recommendation
Land this issue-doc as the tracker. Apply **(B)** as
a small follow-up — cheap and proportional. If it
still flakes, escalate to **(E)** with a `log.devx()`
profile-pass.
`(C)` is a backstop if `(B)` doesn't quite get there
and we need green CI faster than (E) can deliver.
## Verification protocol
After applying any mitigation:
```bash
# Run the suite N times back-to-back, count failures.
# A persistent failure on the SAME test == real bug.
# Failures rotating across tests == still cap-related.
for i in $(seq 1 5); do
./py313/bin/python -m pytest tests/ \
--tpt-proto=tcp \
--spawn-backend=main_thread_forkserver \
-q 2>&1 | tail -2
done
```
Target: 0 failures across 5 runs ⇒ ship. 12 failures
still rotating ⇒ apply (C). Same test failing twice
⇒ escalate to (E).
## Snapshot evidence (2026-05-13)
After landing the `fail_after_w_trace` /
`afk_alarm_w_trace` capture-on-timeout helpers
(`tractor._testing.trace`), `test_nested_multierrors`
on the `main_thread_forkserver` backend produces
**reproducible diag snapshots** at
`$XDG_CACHE_HOME/tractor/hung-dumps/test_nested_multierrors_start_method_main_thread_forkserver__<iso-ts>/`.
### Reproduction
```bash
pytest \
-v --verbose --durations=10 \
--spawn-backend=main_thread_forkserver \
--tpt-proto=uds \
--capture=sys --show-capture=stderr -rxX \
tests/test_cancellation.py::test_nested_multierrors
```
The test is `xfail(strict=False)` for MTF — it RUNS
each invocation so snapshots accumulate, but doesn't
break `--lf` workflow.
### Consistent shape across runs
5+ snapshots taken back-to-back show the SAME pattern:
- **Timing:** ~10s wall-clock total. Inner
`fail_after_w_trace(10)` fires at exactly T=10s;
cascade's `nursery.__aexit__` takes ~0.6s more to
gather + propagate the resulting
`BaseExceptionGroup`. **Trio backend completes the
SAME test in <6s** so the MTF cascade is ~2x
slower at minimum.
- **`BaseExceptionGroup` shape:** mixed
`[RemoteActorError, Cancelled]`. The first
subactor's natural error-propagation (`assert 0`
raised → `RemoteActorError` portal-result)
arrives before T=10s; the OTHER subactor's
portal-wait is still in flight at T=10s, gets
cancelled by `fail_after_w_trace`'s scope-cancel
→ returns `Cancelled` instead.
- **Orphan-spawn skew:** snapshot's `orphans` bucket
(after the `_is_tractor_subactor` cgroup-slice
override fix) consistently shows 2-4 init-adopted
procs at `depth_3` and `depth_1` levels — these
are the leaves whose parent (`depth_2` spawner)
was killed mid-cascade but who hadn't yet seen
the cancel signal themselves.
- **UDS sock-leak:** 2-6 dead-orphan socks per run
(varies with cascade timing). The
`track_orphaned_uds_per_test` fixture reaps them
post-test → contamination is isolated per-invocation.
### Capture mechanism
`fail_after_w_trace` covers two firing paths:
1. **`trio.TooSlowError`** raised at scope-exit
(body returned cleanly past deadline) — direct
`except` handler captures.
2. **Scope-cancel + body raises non-`Cancelled` exc**
(e.g. `nursery.__aexit__` wraps timeout-induced
`Cancelled` into a `BaseExceptionGroup` that
escapes before `trio.fail_after`'s exit-check
could fire `TooSlowError`) — body-raise `except`
handler checks `scope.cancel_called` and
captures if True. This path catches the
`test_nested_multierrors` shape specifically (see
"BaseExceptionGroup shape" above).
The snapshot dir contains:
- `trace.txt``ptree` + `hung_state` (kernel
`wchan`/`stack` + `py-spy dump --locals` when
sudo cached), with `include_strays=True`
surfacing any cross-test ghost subactor trees in
the `orphans` bucket.
- `bindspace.txt` — UDS bindspace classification
(live-active / orphaned-alive / orphaned-dead).
- `meta.json``{pid, label, captured_at, sudo_cached}`.
The end-of-session `pytest_terminal_summary` hook
in `tractor._testing.pytest` lists every snapshot
dir from the run so you don't have to scroll back
through captured-stderr lines:
```
========================= tractor hang-snapshot index ==========================
N `fail_after_w_trace` / `afk_alarm_w_trace` snapshot(s) captured this session:
<test-id>
→ /home/.../.cache/tractor/hung-dumps/<label>__<ts>
```
### Caveats
The snapshot fires AFTER the body-raise (not at the
exact moment of scope-cancel), so the parent's
py-spy frames show `_do_capture_snapshot` itself
running, NOT the cancel-cascade hang frame. To see
the actual hang state, manual `acli.ptree` /
`acli.hung_dump` from a second terminal at T=10s
would be needed — **not currently possible**
because per-test reaper fixtures clean up ~0.6s
post-timeout. See follow-up TODO in
`tractor/_testing/trace.py` for a
`TRACTOR_TRACE_HOLD=1` env-var pause mode.
## See also
- [#452](https://github.com/goodboy/tractor/issues/452) —
UDS sock-file leak (related — `hard_kill`'s
cleanup phase contributes to cascade time)
- `ai/conc-anal/trio_wakeup_socketpair_busy_loop_under_fork_issue.md`
— the upstream-trio fix that turned this from a
100% hang into a 0.3% flake
- `ai/conc-anal/infected_asyncio_under_main_thread_forkserver_hang_issue.md`
— the asyncio variant which contributes to one of
the rotating failures
- `tractor/spawn/_spawn.py::hard_kill` — the SIGKILL
cascade source
- `tractor/_testing/_reap.py::_track_orphaned_uds_per_test`,
`_detect_runaway_subactors_per_test`,
`_reap_orphaned_subactors` — autouse cleanup
fixtures whose cumulative teardown overhead
contributes to the cascade time

View File

@ -0,0 +1,161 @@
# `subint` backend: parent trio loop parks after subint teardown (Ctrl-C works; not a CPython-level issue)
Follow-up to the Phase B subint spawn-backend PR (see
`tractor.spawn._subint`, issue #379). Distinct from the
`subint_sigint_starvation_issue.md` (SIGINT-unresponsive
starvation hang): this one is **Ctrl-C-able**, which means
it's *not* the shared-GIL-hostage class and is ours to fix
from inside tractor rather than waiting on upstream CPython
/ msgspec progress.
## TL;DR
After a stuck-subint subactor is torn down via the
hard-kill path, a parent-side trio task parks on an
*orphaned resource* (most likely a `chan.recv()` /
`process_messages` loop on the now-dead subint's IPC
channel) and waits forever for bytes that can't arrive —
because the channel was torn down without emitting a clean
EOF/`BrokenResourceError` to the waiting receiver.
Unlike `subint_sigint_starvation_issue.md`, the main trio
loop **is** iterating normally — SIGINT delivers cleanly
and the test unhangs. But absent Ctrl-C, the test suite
wedges indefinitely.
## Symptom
Running `test_subint_non_checkpointing_child` under
`--spawn-backend=subint` (in
`tests/test_subint_cancellation.py`):
1. Test spawns a subactor whose main task runs
`threading.Event.wait(1.0)` in a loop — releases the
GIL but never inserts a trio checkpoint.
2. Parent does `an.cancel_scope.cancel()`. Our
`subint_proc` cancel path fires: soft-kill sends
`Portal.cancel_actor()` over the live IPC channel →
subint's trio loop *should* process the cancel msg on
its IPC dispatcher task (since the GIL releases are
happening).
3. Expected: subint's `trio.run()` unwinds, driver thread
exits naturally, parent returns.
4. Actual: parent `trio.run()` never completes. Test
hangs past its `trio.fail_after()` deadline.
## Evidence
### `strace` on the hung pytest process during SIGINT
```
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(17, "\2", 1) = 1
```
Contrast with the SIGINT-starvation hang (see
`subint_sigint_starvation_issue.md`) where that same
`write()` returned `EAGAIN`. Here the SIGINT byte is
written successfully → Python's signal handler pipe is
being drained → main trio loop **is** iterating → SIGINT
gets turned into `trio.Cancelled` → the test unhangs (if
the operator happens to be there to hit Ctrl-C).
### Stack dump (via `tractor.devx.dump_on_hang`)
Single main thread visible, parked in
`trio._core._io_epoll.get_events` inside `trio.run` at the
test's `trio.run(...)` call site. No subint driver thread
(subint was destroyed successfully — this is *after* the
hard-kill path, not during it).
## Root cause hypothesis
Most consistent with the evidence: a parent-side trio
task is awaiting a `chan.recv()` / `process_messages` loop
on the dead subint's IPC channel. The sequence:
1. Soft-kill in `subint_proc` sends `Portal.cancel_actor()`
over the channel. The subint's trio dispatcher *may* or
may not have processed the cancel msg before the subint
was destroyed — timing-dependent.
2. Hard-kill timeout fires (because the subint's main
task was in `threading.Event.wait()` with no trio
checkpoint — cancel-msg processing couldn't race the
timeout).
3. Driver thread abandoned, `_interpreters.destroy()`
runs. Subint is gone.
4. But the parent-side trio task holding a
`chan.recv()` / `process_messages` loop against that
channel was **not** explicitly cancelled. The channel's
underlying socket got torn down, but without a clean
EOF delivered to the waiting recv, the task parks
forever on `trio.lowlevel.wait_readable` (or similar).
This matches the "main loop fine, task parked on
orphaned I/O" signature.
## Why this is ours to fix (not CPython's)
- Main trio loop iterates normally → GIL isn't starved.
- SIGINT is deliverable → not a signal-pipe-full /
wakeup-fd contention scenario.
- The hang is in *our* supervision code, specifically in
how `subint_proc` tears down its side of the IPC when
the subint is abandoned/destroyed.
## Possible fix directions
1. **Explicit parent-side channel abort on subint
abandon.** In `subint_proc`'s teardown block, after the
hard-kill timeout fires, explicitly close the parent's
end of the IPC channel to the subint. Any waiting
`chan.recv()` / `process_messages` task sees
`BrokenResourceError` (or `ClosedResourceError`) and
unwinds.
2. **Cancel parent-side RPC tasks tied to the dead
subint's channel.** The `Actor._rpc_tasks` / nursery
machinery should have a handle on any
`process_messages` loops bound to a specific peer
channel. Iterate those and cancel explicitly.
3. **Bound the top-level `await actor_nursery
._join_procs.wait()` shield in `subint_proc`** (same
pattern as the other bounded shields the hard-kill
patch added). If the nursery never sets `_join_procs`
because a child task is parked, the bound would at
least let the teardown proceed.
Of these, (1) is the most surgical and directly addresses
the root cause. (2) is a defense-in-depth companion. (3)
is a band-aid but cheap to add.
## Current workaround
None in-tree. The test's `trio.fail_after()` bound
currently fires and raises `TooSlowError`, so the test
visibly **fails** rather than hangs — which is
intentional (an unbounded cancellation-audit test would
defeat itself). But in interactive test runs the operator
has to hit Ctrl-C to move past the parked state before
pytest reports the failure.
## Reproducer
```
./py314/bin/python -m pytest \
tests/test_subint_cancellation.py::test_subint_non_checkpointing_child \
--spawn-backend=subint --tb=short --no-header -v
```
Expected: hangs until `trio.fail_after(15)` fires, or
Ctrl-C unwedges it manually.
## References
- `tractor.spawn._subint.subint_proc` — current subint
teardown code; see the `_HARD_KILL_TIMEOUT` bounded
shields + `daemon=True` driver-thread abandonment
(commit `b025c982`).
- `ai/conc-anal/subint_sigint_starvation_issue.md` — the
sibling CPython-level hang (GIL-starvation,
SIGINT-unresponsive) which is **not** this issue.
- Phase B tracking: issue #379.

View File

@ -0,0 +1,337 @@
# `os.fork()` from a non-main sub-interpreter aborts the child (CPython refuses post-fork cleanup)
Third `subint`-class analysis in this project. Unlike its
two siblings (`subint_sigint_starvation_issue.md`,
`subint_cancel_delivery_hang_issue.md`), this one is not a
hang — it's a **hard CPython-level refusal** of an
experimental spawn strategy we wanted to try.
## TL;DR
An in-process sub-interpreter cannot be used as a
"launchpad" for `os.fork()` on current CPython. The fork
syscall succeeds in the parent, but the forked CHILD
process is aborted immediately by CPython's post-fork
cleanup with:
```
Fatal Python error: _PyInterpreterState_DeleteExceptMain: not main interpreter
```
This is enforced by a hard `PyStatus_ERR` gate in
`Python/pystate.c`. The CPython devs acknowledge the
fragility with an in-source comment (`// Ideally we could
guarantee tstate is running main.`) but provide no
mechanism to satisfy the precondition from user code.
**Implication for tractor**: the `subint_fork` backend
sketched in `tractor.spawn._subint_fork` is structurally
dead on current CPython. The submodule is kept as
documentation of the attempt; `--spawn-backend=subint_fork`
raises `NotImplementedError` pointing here.
## Context — why we tried this
The motivation is issue #379's "Our own thoughts, ideas
for `fork()`-workaround/hacks..." section. The existing
trio-backend (`tractor.spawn._trio.trio_proc`) spawns
subactors via `trio.lowlevel.open_process()` → ultimately
`posix_spawn()` or `fork+exec`, from the parent's main
interpreter that is currently running `trio.run()`. This
brushes against a known-fragile interaction between
`trio` and `fork()` tracked in
[python-trio/trio#1614](https://github.com/python-trio/trio/issues/1614)
and siblings — mostly mitigated in `tractor`'s case only
incidentally (we `exec()` immediately post-fork).
The idea was:
1. Create a subint that has *never* imported `trio`.
2. From a worker thread in that subint, call `os.fork()`.
3. In the child, `execv()` back into
`python -m tractor._child` — same as `trio_proc` does.
4. The fork is from a trio-free context → trio+fork
hazards avoided regardless of downstream behavior.
The parent-side orchestration (`ipc_server.wait_for_peer`,
`SpawnSpec`, `Portal` yield) would reuse
`trio_proc`'s flow verbatim, with only the subproc-spawn
mechanics swapped.
## Symptom
Running the prototype (`tractor.spawn._subint_fork.subint_fork_proc`,
see git history prior to the stub revert) on py3.14:
```
Fatal Python error: _PyInterpreterState_DeleteExceptMain: not main interpreter
Python runtime state: initialized
Current thread 0x00007f6b71a456c0 [subint-fork-lau] (most recent call first):
File "<script>", line 2 in <module>
<script>:2: DeprecationWarning: This process (pid=802985) is multi-threaded, use of fork() may lead to deadlocks in the child.
```
Key clues:
- The **`DeprecationWarning`** fires in the parent (before
fork completes) — fork *is* executing, we get that far.
- The **`Fatal Python error`** comes from the child — it
aborts during CPython's post-fork C initialization
before any user Python runs in the child.
- The thread name `subint-fork-lau[nchpad]` is ours —
confirms the fork is being called from the launchpad
subint's driver thread.
## CPython source walkthrough
### Call site — `Modules/posixmodule.c:728-793`
The post-fork-child hook CPython runs in the child process:
```c
void
PyOS_AfterFork_Child(void)
{
PyStatus status;
_PyRuntimeState *runtime = &_PyRuntime;
// re-creates runtime->interpreters.mutex (HEAD_UNLOCK)
status = _PyRuntimeState_ReInitThreads(runtime);
...
PyThreadState *tstate = _PyThreadState_GET();
_Py_EnsureTstateNotNULL(tstate);
...
// Ideally we could guarantee tstate is running main. ← !!!
_PyInterpreterState_ReinitRunningMain(tstate);
status = _PyEval_ReInitThreads(tstate);
...
status = _PyInterpreterState_DeleteExceptMain(runtime);
if (_PyStatus_EXCEPTION(status)) {
goto fatal_error;
}
...
fatal_error:
Py_ExitStatusException(status);
}
```
The `// Ideally we could guarantee tstate is running
main.` comment is a flashing warning sign — the CPython
devs *know* this path is fragile when fork is called from
a non-main subint, but they've chosen to abort rather than
silently corrupt state. Arguably the right call.
### The refusal — `Python/pystate.c:1035-1075`
```c
/*
* Delete all interpreter states except the main interpreter. If there
* is a current interpreter state, it *must* be the main interpreter.
*/
PyStatus
_PyInterpreterState_DeleteExceptMain(_PyRuntimeState *runtime)
{
struct pyinterpreters *interpreters = &runtime->interpreters;
PyThreadState *tstate = _PyThreadState_Swap(runtime, NULL);
if (tstate != NULL && tstate->interp != interpreters->main) {
return _PyStatus_ERR("not main interpreter"); ← our error
}
HEAD_LOCK(runtime);
PyInterpreterState *interp = interpreters->head;
interpreters->head = NULL;
while (interp != NULL) {
if (interp == interpreters->main) {
interpreters->main->next = NULL;
interpreters->head = interp;
interp = interp->next;
continue;
}
// XXX Won't this fail since PyInterpreterState_Clear() requires
// the "current" tstate to be set?
PyInterpreterState_Clear(interp); // XXX must activate?
zapthreads(interp);
...
}
...
}
```
The comment in the docstring (`If there is a current
interpreter state, it *must* be the main interpreter.`) is
the formal API contract. The `XXX` comments further in
suggest the CPython team is already aware this function
has latent issues even in the happy path.
## Chain summary
1. Our launchpad subint's driver OS-thread calls
`os.fork()`.
2. `fork()` succeeds. Child wakes up with:
- The parent's full memory image (including all
subints).
- Only the *calling* thread alive (the driver thread).
- `_PyThreadState_GET()` on that thread returns the
**launchpad subint's tstate**, *not* main's.
3. CPython runs `PyOS_AfterFork_Child()`.
4. It reaches `_PyInterpreterState_DeleteExceptMain()`.
5. Gate check fails: `tstate->interp != interpreters->main`.
6. `PyStatus_ERR("not main interpreter")``fatal_error`
goto → `Py_ExitStatusException()` → child aborts.
Parent-side consequence: `os.fork()` in the subint
bootstrap returned successfully with the child's PID, but
the child died before connecting back. Our parent's
`ipc_server.wait_for_peer(uid)` would hang forever — the
child never gets to `_actor_child_main`.
## Definitive answer to "Open Question 1"
From the (now-stub) `subint_fork_proc` docstring:
> Does CPython allow `os.fork()` from a non-main
> sub-interpreter under the legacy config?
**No.** Not in a usable-by-user-code sense. The fork
syscall is not blocked, but the child cannot survive
CPython's post-fork initialization. This is enforced, not
accidental, and the CPython devs have acknowledged the
fragility in-source.
## What we'd need from CPython to unblock
Any one of these, from least-to-most invasive:
1. **A pre-fork hook mechanism** that lets user code (or
tractor itself via `os.register_at_fork(before=...)`)
swap the current tstate to main before fork runs. The
swap would need to work across the subint→main
boundary, which is the actual hard part —
`_PyThreadState_Swap()` exists but is internal.
2. **A `_PyInterpreterState_DeleteExceptFor(tstate->interp)`
variant** that cleans up all *other* subints while
preserving the calling subint's state. Lets the child
continue executing in the subint after fork; a
subsequent `execv()` clears everything at the OS
level anyway.
3. **A cleaner error** than `Fatal Python error` aborting
the child. Even without fixing the underlying
capability, a raised Python-level exception in the
parent's `fork()` call (rather than a silent child
abort) would at least make the failure mode
debuggable.
## Upstream-report draft (for CPython issue tracker)
### Title
> `os.fork()` from a non-main sub-interpreter aborts the
> child with a fatal error in `PyOS_AfterFork_Child`; can
> we at least make it a clean `RuntimeError` in the
> parent?
### Body
> **Version**: Python 3.14.x
>
> **Summary**: Calling `os.fork()` from a thread currently
> executing inside a sub-interpreter causes the forked
> child process to abort during CPython's post-fork
> cleanup, with the following output in the child:
>
> ```
> Fatal Python error: _PyInterpreterState_DeleteExceptMain: not main interpreter
> ```
>
> From the **parent's** point of view the fork succeeded
> (returned a valid child PID). The failure is completely
> opaque to parent-side Python code — unless the parent
> does `os.waitpid()` it won't even notice the child
> died.
>
> **Root cause** (as I understand it from reading sources):
> `Modules/posixmodule.c::PyOS_AfterFork_Child()` calls
> `_PyInterpreterState_DeleteExceptMain()` with a
> precondition that `_PyThreadState_GET()->interp` be the
> main interpreter. When `fork()` is called from a thread
> executing inside a subinterpreter, the child wakes up
> with its tstate still pointing at the subint, and the
> gate in `Python/pystate.c:1044-1047` fails.
>
> A comment in the source
> (`Modules/posixmodule.c:753` — `// Ideally we could
> guarantee tstate is running main.`) suggests this is a
> known-fragile path rather than an intentional
> invariant.
>
> **Use case**: I was experimenting with using a
> sub-interpreter as a "fork launchpad" — have a subint
> that has never imported `trio`, call `os.fork()` from
> that subint's thread, and in the child `execv()` back
> into a fresh Python interpreter process. The goal was
> to sidestep known issues with `trio` + `fork()`
> interaction (see
> [python-trio/trio#1614](https://github.com/python-trio/trio/issues/1614))
> by guaranteeing the forking context had never been
> "contaminated" by trio's imports or globals. This
> approach would allow `trio`-using applications to
> combine `fork`-based subprocess spawning with
> per-worker `trio.run()` runtimes — a fairly common
> pattern that currently requires workarounds.
>
> **Request**:
>
> Ideally: make fork-from-subint work (e.g., by swapping
> the caller's tstate to main in the pre-fork hook), or
> provide a `_PyInterpreterState_DeleteExceptFor(interp)`
> variant that permits the caller's subint to survive
> post-fork so user code can subsequently `execv()`.
>
> Minimally: convert the fatal child-side abort into a
> clean `RuntimeError` (or similar) raised in the
> parent's `fork()` call. Even if the capability isn't
> expanded, the failure mode should be debuggable by
> user-code in the parent — right now it's a silent
> child death with an error message buried in the
> child's stderr that parent code can't programmatically
> see.
>
> **Related**: PEP 684 (per-interpreter GIL), PEP 734
> (`concurrent.interpreters` public API). The private
> `_interpreters` module is what I used to create the
> launchpad — behavior is the same whether using
> `_interpreters.create('legacy')` or
> `concurrent.interpreters.create()` (the latter was not
> tested but the gate is identical).
>
> Happy to contribute a minimal reproducer + test case if
> this is something the team wants to pursue.
## References
- `Modules/posixmodule.c:728`
[`PyOS_AfterFork_Child`](https://github.com/python/cpython/blob/main/Modules/posixmodule.c#L728)
- `Python/pystate.c:1040`
[`_PyInterpreterState_DeleteExceptMain`](https://github.com/python/cpython/blob/main/Python/pystate.c#L1040)
- PEP 684 (per-interpreter GIL):
<https://peps.python.org/pep-0684/>
- PEP 734 (`concurrent.interpreters` public API):
<https://peps.python.org/pep-0734/>
- [python-trio/trio#1614](https://github.com/python-trio/trio/issues/1614)
— the original motivation for the launchpad idea.
- tractor issue #379 — "Our own thoughts, ideas for
`fork()`-workaround/hacks..." section where this was
first sketched.
- `tractor.spawn._subint_fork` — in-tree stub preserving
the attempted impl's shape in git history.

View File

@ -0,0 +1,375 @@
#!/usr/bin/env python3
'''
Standalone CPython-level feasibility check for the "main-interp
worker-thread forkserver + subint-hosted trio" architecture
proposed as a workaround to the CPython-level refusal
documented in
`ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`.
Purpose
-------
Deliberately NOT a `tractor` test. Zero `tractor` imports.
Uses `_interpreters` (private stdlib) + `os.fork()` directly so
the signal is unambiguous pass/fail here is a property of
CPython alone, independent of our runtime.
Run each scenario in isolation; the child's fate is observable
only via `os.waitpid()` of the parent and the scenario's own
status prints.
Scenarios (pick one with `--scenario <name>`)
---------------------------------------------
- `control_subint_thread_fork` the KNOWN-BROKEN case we
documented in `subint_fork_blocked_by_cpython_post_fork_issue.md`:
drive a subint from a thread, call `os.fork()` inside its
`_interpreters.exec()`, watch the child abort. **Included as
a control** if this scenario DOESN'T abort the child, our
analysis is wrong and we should re-check everything.
- `main_thread_fork` baseline sanity. Call `os.fork()` from
the process's main thread. Must always succeed; if this
fails something much bigger is broken.
- `worker_thread_fork` the architectural assertion. Spawn a
regular `threading.Thread` (attached to main interp, NOT a
subint), have IT call `os.fork()`. Child should survive
post-fork cleanup.
- `full_architecture` end-to-end: main-interp worker thread
forks. In the child, fork-thread (still main-interp) creates
a subint, drives a second worker thread inside it that runs
a trivial `trio.run()`. Validates the "root runtime lives in
a subint in the child" piece of the proposed arch.
All scenarios print a self-contained pass/fail banner. Exit
code 0 on expected outcome (which for `control_*` means "child
aborted", not "child succeeded"!).
Requires Python 3.14+.
Usage
-----
::
python subint_fork_from_main_thread_smoketest.py \\
--scenario main_thread_fork
python subint_fork_from_main_thread_smoketest.py \\
--scenario full_architecture
'''
from __future__ import annotations
import argparse
import os
import sys
import threading
import time
# Hard-require py3.14 for the public `concurrent.interpreters`
# API (we still drop to `_interpreters` internally, same as
# `tractor.spawn._subint`).
try:
from concurrent import interpreters as _public_interpreters # noqa: F401
import _interpreters # type: ignore
except ImportError:
print(
'FAIL (setup): requires Python 3.14+ '
'(missing `concurrent.interpreters`)',
file=sys.stderr,
)
sys.exit(2)
# The actual primitives this script exercises live in
# `tractor.spawn._subint_forkserver` — we re-import them here
# rather than inlining so the module and the validation stay
# in sync. (Early versions of this file had them inline for
# the "zero tractor imports" isolation guarantee; now that
# CPython-level feasibility is confirmed, the validated
# primitives have moved into tractor proper.)
from tractor.spawn._main_thread_forkserver import (
fork_from_worker_thread,
wait_child,
)
from tractor.spawn._subint_forkserver import (
run_subint_in_worker_thread,
)
# ----------------------------------------------------------------
# small observability helpers (test-harness only)
# ----------------------------------------------------------------
def _banner(title: str) -> None:
line = '=' * 60
print(f'\n{line}\n{title}\n{line}', flush=True)
def _report(
label: str,
*,
ok: bool,
status_str: str,
expect_exit_ok: bool,
) -> None:
verdict: str = 'PASS' if ok else 'FAIL'
expected_str: str = (
'normal exit (rc=0)'
if expect_exit_ok
else 'abnormal death (signal or nonzero exit)'
)
print(
f'[{verdict}] {label}: '
f'expected {expected_str}; observed {status_str}',
flush=True,
)
# ----------------------------------------------------------------
# scenario: `control_subint_thread_fork` (known-broken)
# ----------------------------------------------------------------
def scenario_control_subint_thread_fork() -> int:
_banner(
'[control] fork from INSIDE a subint (expected: child aborts)'
)
interp_id = _interpreters.create('legacy')
print(f' created subint {interp_id}', flush=True)
# Shared flag: child writes a sentinel file we can detect from
# the parent. If the child manages to write this, CPython's
# post-fork refusal is NOT happening → analysis is wrong.
sentinel = '/tmp/subint_fork_smoketest_control_child_ran'
try:
os.unlink(sentinel)
except FileNotFoundError:
pass
bootstrap = (
'import os\n'
'pid = os.fork()\n'
'if pid == 0:\n'
# child — if CPython's refusal fires this code never runs
f' with open({sentinel!r}, "w") as f:\n'
' f.write("ran")\n'
' os._exit(0)\n'
'else:\n'
# parent side (inside the launchpad subint) — stash the
# forked PID on a shareable dict so we can waitpid()
# from the outer main interp. We can't just return it;
# _interpreters.exec() returns nothing useful.
' import builtins\n'
' builtins._forked_child_pid = pid\n'
)
# NOTE, we can't easily pull state back from the subint.
# For the CONTROL scenario we just time-bound the fork +
# check the sentinel. If sentinel exists → child ran →
# analysis wrong. If not → child aborted → analysis
# confirmed.
done = threading.Event()
def _drive() -> None:
try:
_interpreters.exec(interp_id, bootstrap)
except Exception as err:
print(
f' subint bootstrap raised (expected on some '
f'CPython versions): {type(err).__name__}: {err}',
flush=True,
)
finally:
done.set()
t = threading.Thread(
target=_drive,
name='control-subint-fork-launchpad',
daemon=True,
)
t.start()
done.wait(timeout=5.0)
t.join(timeout=2.0)
# Give the (possibly-aborted) child a moment to die.
time.sleep(0.5)
sentinel_present = os.path.exists(sentinel)
verdict = (
# "PASS" for our analysis means sentinel NOT present.
'PASS' if not sentinel_present else 'FAIL (UNEXPECTED)'
)
print(
f'[{verdict}] control: sentinel present={sentinel_present} '
f'(analysis predicts False — child should abort before '
f'writing)',
flush=True,
)
if sentinel_present:
os.unlink(sentinel)
try:
_interpreters.destroy(interp_id)
except _interpreters.InterpreterError:
pass
return 0 if not sentinel_present else 1
# ----------------------------------------------------------------
# scenario: `main_thread_fork` (baseline sanity)
# ----------------------------------------------------------------
def scenario_main_thread_fork() -> int:
_banner(
'[baseline] fork from MAIN thread (expected: child exits normally)'
)
pid = os.fork()
if pid == 0:
os._exit(0)
return 0 if _wait_child(
pid,
label='main_thread_fork',
expect_exit_ok=True,
) else 1
# ----------------------------------------------------------------
# scenario: `worker_thread_fork` (architectural assertion)
# ----------------------------------------------------------------
def _run_worker_thread_fork_scenario(
label: str,
*,
child_target=None,
) -> int:
'''
Thin wrapper: delegate the actual fork to the
`tractor.spawn._subint_forkserver` primitive, then wait
on the child and render a pass/fail banner.
'''
try:
pid: int = fork_from_worker_thread(
child_target=child_target,
thread_name=f'worker-fork-thread[{label}]',
)
except RuntimeError as err:
print(f'[FAIL] {label}: {err}', flush=True)
return 1
print(f' forked child pid={pid}', flush=True)
ok, status_str = wait_child(pid, expect_exit_ok=True)
_report(
label,
ok=ok,
status_str=status_str,
expect_exit_ok=True,
)
return 0 if ok else 1
def scenario_worker_thread_fork() -> int:
_banner(
'[arch] fork from MAIN-INTERP WORKER thread '
'(expected: child exits normally — this is the one '
'that matters)'
)
return _run_worker_thread_fork_scenario(
'worker_thread_fork',
)
# ----------------------------------------------------------------
# scenario: `full_architecture`
# ----------------------------------------------------------------
_CHILD_TRIO_BOOTSTRAP: str = (
'import trio\n'
'async def _main():\n'
' await trio.sleep(0.05)\n'
' return 42\n'
'result = trio.run(_main)\n'
'assert result == 42, f"trio.run returned {result}"\n'
'print(" CHILD subint: trio.run OK, result=42", '
'flush=True)\n'
)
def _child_trio_in_subint() -> int:
'''
CHILD-side `child_target`: drive a trivial `trio.run()`
inside a fresh legacy-config subint on a worker thread,
using the `tractor.spawn._subint_forkserver.run_subint_in_worker_thread`
primitive. Returns 0 on success.
'''
try:
run_subint_in_worker_thread(
_CHILD_TRIO_BOOTSTRAP,
thread_name='child-subint-trio-thread',
)
except RuntimeError as err:
print(
f' CHILD: run_subint_in_worker_thread timed out / thread '
f'never returned: {err}',
flush=True,
)
return 3
except BaseException as err:
print(
f' CHILD: subint bootstrap raised: '
f'{type(err).__name__}: {err}',
flush=True,
)
return 4
return 0
def scenario_full_architecture() -> int:
_banner(
'[arch-full] worker-thread fork + child runs trio in a '
'subint (end-to-end proposed arch)'
)
return _run_worker_thread_fork_scenario(
'full_architecture',
child_target=_child_trio_in_subint,
)
# ----------------------------------------------------------------
# main
# ----------------------------------------------------------------
SCENARIOS: dict[str, Callable[[], int]] = {
'control_subint_thread_fork': scenario_control_subint_thread_fork,
'main_thread_fork': scenario_main_thread_fork,
'worker_thread_fork': scenario_worker_thread_fork,
'full_architecture': scenario_full_architecture,
}
def main() -> int:
ap = argparse.ArgumentParser(
description=__doc__,
formatter_class=argparse.RawDescriptionHelpFormatter,
)
ap.add_argument(
'--scenario',
choices=sorted(SCENARIOS.keys()),
required=True,
)
args = ap.parse_args()
return SCENARIOS[args.scenario]()
if __name__ == '__main__':
sys.exit(main())

View File

@ -0,0 +1,385 @@
# `subint_forkserver` backend: orphaned-subactor SIGINT wedged in `epoll_wait`
Follow-up to the Phase C `subint_forkserver` spawn-backend
PR (see `tractor.spawn._subint_forkserver`, issue #379).
Surfaced by the xfail'd
`tests/spawn/test_subint_forkserver.py::test_orphaned_subactor_sigint_cleanup_DRAFT`.
Related-but-distinct from
`subint_cancel_delivery_hang_issue.md` (orphaned-channel
park AFTER subint teardown) and
`subint_sigint_starvation_issue.md` (GIL-starvation,
SIGINT never delivered): here the SIGINT IS delivered,
trio's handler IS installed, but trio's event loop never
wakes — so the KBI-at-checkpoint → `_trio_main` catch path
(which is the runtime's *intentional* OS-cancel design)
never fires.
## TL;DR
When a `subint_forkserver`-spawned subactor is orphaned
(parent `SIGKILL`'d, no IPC cancel path available) and then
externally `SIGINT`'d, the subactor hangs in
`trio/_core/_io_epoll.py::get_events` (epoll_wait)
indefinitely — even though:
1. `threading.current_thread() is threading.main_thread()`
post-fork (CPython 3.14 re-designates correctly).
2. Trio's SIGINT handler IS installed in the subactor
(`signal.getsignal(SIGINT)` returns
`<function KIManager.install.<locals>.handler at 0x...>`).
3. The kernel does deliver SIGINT — the signal arrives at
the only thread in the process (the fork-inherited
worker which IS now "main" per Python).
Yet `epoll_wait` does not return. Trio's wakeup-fd mechanism
— the machinery that turns SIGINT into an epoll-wake — is
somehow not firing the wakeup. Until that's fixed, the
intentional "KBI-as-OS-cancel" path in
`tractor/spawn/_entry.py::_trio_main:164` is unreachable
for forkserver-spawned subactors whose parent dies.
## Symptom
Test: `tests/spawn/test_subint_forkserver.py::test_orphaned_subactor_sigint_cleanup_DRAFT`
(currently marked `@pytest.mark.xfail(strict=True)`).
1. Harness subprocess brings up a tractor root actor +
one `run_in_actor(_sleep_forever)` subactor via
`try_set_start_method('subint_forkserver')`.
2. Harness prints `CHILD_PID` (subactor) and
`PARENT_READY` (root actor) markers to stdout.
3. Test `os.kill(parent_pid, SIGKILL)` + `proc.wait()`
to fully reap the root-actor harness.
4. Child (now reparented to pid 1) is still alive.
5. Test `os.kill(child_pid, SIGINT)` and polls
`os.kill(child_pid, 0)` for up to 10s.
6. **Observed**: the child is still alive at deadline —
SIGINT did not unwedge the trio loop.
## What the "intentional" cancel path IS
`tractor/spawn/_entry.py::_trio_main:157-186`
```python
try:
if infect_asyncio:
actor._infected_aio = True
run_as_asyncio_guest(trio_main)
else:
trio.run(trio_main)
except KeyboardInterrupt:
logmeth = log.cancel
exit_status: str = (
'Actor received KBI (aka an OS-cancel)\n'
...
)
```
The "KBI == OS-cancel" mapping IS the runtime's
deliberate, documented design. An OS-level SIGINT should
flow as: kernel → trio handler → KBI at trio checkpoint
→ unwinds `async_main` → surfaces at `_trio_main`'s
`except KeyboardInterrupt:``log.cancel` + clean `rc=0`.
**So fixing this hang is not "add a new SIGINT behavior" —
it's "make the existing designed behavior actually fire in
this backend config".** That's why option (B) ("fix root
cause") is aligned with existing design intent, not a
scope expansion.
## Evidence
### Positive control: standalone fork-from-worker + `trio.run(sleep_forever)` + SIGINT WORKS
```python
import os, signal, time, trio
from tractor.spawn._subint_forkserver import (
fork_from_worker_thread, wait_child,
)
def child_target() -> int:
async def _main():
try:
await trio.sleep_forever()
except KeyboardInterrupt:
print('CHILD: caught KBI — trio SIGINT works!')
return
trio.run(_main)
return 0
pid = fork_from_worker_thread(child_target, thread_name='trio-sigint-test')
time.sleep(1.0)
os.kill(pid, signal.SIGINT)
wait_child(pid)
```
Result: `CHILD: caught KBI — trio SIGINT works!` + clean
exit. So the fork-child + trio signal plumbing IS healthy
in isolation. The hang appears only with the full tractor
subactor runtime on top.
### Negative test: full tractor subactor + orphan-SIGINT
Equivalent to the xfail test. Traceback dump via
`faulthandler.register(SIGUSR1, all_threads=True)` at the
stuck moment:
```
Current thread 0x00007... [subint-forkserv] (most recent call first):
File ".../trio/_core/_io_epoll.py", line 245 in get_events
File ".../trio/_core/_run.py", line 2415 in run
File "tractor/spawn/_entry.py", line 162 in _trio_main
File "tractor/_child.py", line 72 in _actor_child_main
File "tractor/spawn/_subint_forkserver.py", line 650 in _child_target
File "tractor/spawn/_subint_forkserver.py", line 308 in _worker
File ".../threading.py", line 1024 in run
```
### Thread + signal-mask inventory of the stuck subactor
Single thread (`tid == pid`, comm `'subint-forkserv'`,
which IS `threading.main_thread()` post-fork):
```
SigBlk: 0000000000000000 # nothing blocked
SigIgn: 0000000001001000 # SIGPIPE etc (Python defaults)
SigCgt: 0000000108000202 # bit 1 = SIGINT caught
```
Bit 1 set in `SigCgt` → SIGINT handler IS installed. So
trio's handler IS in place at the kernel level — not a
"handler missing" situation.
### Handler identity
Inside the subactor's RPC body, `signal.getsignal(SIGINT)`
returns `<function KIManager.install.<locals>.handler at
0x...>` — trio's own `KIManager` handler. tractor's only
SIGINT touches are `signal.getsignal()` *reads* (to stash
into `debug.DebugStatus._trio_handler`); nothing writes
over trio's handler outside the debug-REPL shielding path
(`devx/debug/_tty_lock.py::shield_sigint`) which isn't
engaged here (no debug_mode).
## Ruled out
- **GIL starvation / signal-pipe-full** (class A,
`subint_sigint_starvation_issue.md`): subactor runs on
its own GIL (separate OS process), not sharing with the
parent → no cross-process GIL contention. And `strace`-
equivalent in the signal mask shows SIGINT IS caught,
not queued.
- **Orphaned channel park** (`subint_cancel_delivery_hang_issue.md`):
different failure mode — that one has trio iterating
normally and getting wedged on an orphaned
`chan.recv()` AFTER teardown. Here trio's event loop
itself never wakes.
- **Tractor explicitly catching + swallowing KBI**:
greppable — the one `except KeyboardInterrupt:` in the
runtime is the INTENTIONAL cancel-path catch at
`_trio_main:164`. `async_main` uses `except Exception`
(not BaseException), so KBI should propagate through
cleanly if it ever fires.
- **Missing `signal.set_wakeup_fd` (main-thread
restriction)**: post-fork, the fork-worker thread IS
`threading.main_thread()`, so trio's main-thread check
passes and its wakeup-fd install should succeed.
## Root cause hypothesis (unverified)
The SIGINT handler fires but trio's wakeup-fd write does
not wake `epoll_wait`. Candidate causes, ranked by
plausibility:
1. **Wakeup-fd lifecycle race around tractor IPC setup.**
`async_main` spins up an IPC server + `process_messages`
loops early. Somewhere in that path the wakeup-fd that
trio registered with its epoll instance may be
closed/replaced/clobbered, so subsequent SIGINT writes
land on an fd that's no longer in the epoll set.
Evidence needed: compare
`signal.set_wakeup_fd(-1)` return value inside a
post-tractor-bringup RPC body vs. a pre-bringup
equivalent. If they differ, that's it.
2. **Shielded cancel scope around `process_messages`.**
The RPC message loop is likely wrapped in a trio cancel
scope; if that scope is `shield=True` at any outer
layer, KBI scheduled at a checkpoint could be absorbed
by the shield and never bubble out to `_trio_main`.
3. **Pre-fork wakeup-fd inheritance.** trio in the PARENT
process registered a wakeup-fd with its own epoll. The
child inherits the fd number but not the parent's
epoll instance — if tractor/trio re-uses the parent's
stale fd number anywhere, writes would go to a no-op
fd. (This is the least likely — `trio.run()` on the
child calls `KIManager.install` which should install a
fresh wakeup-fd from scratch.)
## Cross-backend scope question
**Untested**: does the same orphan-SIGINT hang reproduce
against the `trio_proc` backend (stock subprocess + exec)?
If yes → pre-existing tractor bug, independent of
`subint_forkserver`. If no → something specific to the
fork-from-worker path (e.g. inherited fds, mid-epoll-setup
interference).
**Quick repro for trio_proc**:
```python
# save as /tmp/trio_proc_orphan_sigint_repro.py
import os, sys, signal, time, glob
import subprocess as sp
SCRIPT = '''
import os, sys, trio, tractor
async def _sleep_forever():
print(f"CHILD_PID={os.getpid()}", flush=True)
await trio.sleep_forever()
async def _main():
async with (
tractor.open_root_actor(registry_addrs=[("127.0.0.1", 12350)]),
tractor.open_nursery() as an,
):
await an.run_in_actor(_sleep_forever, name="sf-child")
print(f"PARENT_READY={os.getpid()}", flush=True)
await trio.sleep_forever()
trio.run(_main)
'''
proc = sp.Popen(
[sys.executable, '-c', SCRIPT],
stdout=sp.PIPE, stderr=sp.STDOUT,
)
# parse CHILD_PID + PARENT_READY off proc.stdout ...
# SIGKILL parent, SIGINT child, poll.
```
If that hangs too, open a broader issue; if not, this is
`subint_forkserver`-specific (likely fd-inheritance-related).
## Why this is ours to fix (not CPython's)
- Signal IS delivered (`SigCgt` bitmask confirms).
- Handler IS installed (trio's `KIManager`).
- Thread identity is correct post-fork.
- `_trio_main` already has the intentional KBI→clean-exit
path waiting to fire.
Every CPython-level precondition is met. Something in
tractor's runtime or trio's integration with it is
breaking the SIGINT→wakeup→event-loop-wake pipeline.
## Possible fix directions
1. **Audit the wakeup-fd across tractor's IPC bringup.**
Add a trio startup hook that captures
`signal.set_wakeup_fd(-1)` at `_trio_main` entry,
after `async_main` enters, and periodically — assert
it's unchanged. If it moves, track down the writer.
2. **Explicit `signal.set_wakeup_fd` reset after IPC
setup.** Brute force: re-install a fresh wakeup-fd
mid-bringup. Band-aid, but fast to try.
3. **Ensure no `shield=True` cancel scope envelopes the
RPC-message-loop / IPC-server task.** If one does,
KBI-at-checkpoint never escapes.
4. **Once fixed, the `child_sigint='trio'` mode on
`subint_forkserver_proc`** becomes effectively a no-op
or a doc-only mode — trio's natural handler already
does the right thing. Might end up removing the flag
entirely if there's no behavioral difference between
modes.
## Current workaround
None; `child_sigint` defaults to `'ipc'` (IPC cancel is
the only reliable cancel path today), and the xfail test
documents the gap. Operators hitting orphan-SIGINT get a
hung process that needs `SIGKILL`.
## Reproducer
Inline, standalone (no pytest):
```python
# save as /tmp/orphan_sigint_repro.py (py3.14+)
import os, sys, signal, time, glob, trio
import tractor
from tractor.spawn._subint_forkserver import (
fork_from_worker_thread,
)
async def _sleep_forever():
print(f'SUBACTOR[{os.getpid()}]', flush=True)
await trio.sleep_forever()
async def _main():
async with (
tractor.open_root_actor(
registry_addrs=[('127.0.0.1', 12349)],
),
tractor.open_nursery() as an,
):
await an.run_in_actor(_sleep_forever, name='sf-child')
await trio.sleep_forever()
def child_target() -> int:
from tractor.spawn._spawn import try_set_start_method
try_set_start_method('subint_forkserver')
trio.run(_main)
return 0
pid = fork_from_worker_thread(child_target, thread_name='repro')
time.sleep(3.0)
# find the subactor pid via /proc
children = []
for path in glob.glob(f'/proc/{pid}/task/*/children'):
with open(path) as f:
children.extend(int(x) for x in f.read().split() if x)
subactor_pid = children[0]
# SIGKILL root → orphan the subactor
os.kill(pid, signal.SIGKILL)
os.waitpid(pid, 0)
time.sleep(0.3)
# SIGINT the orphan — should cause clean trio exit
os.kill(subactor_pid, signal.SIGINT)
# poll for exit
for _ in range(100):
try:
os.kill(subactor_pid, 0)
time.sleep(0.1)
except ProcessLookupError:
print('HARNESS: subactor exited cleanly ✔')
sys.exit(0)
os.kill(subactor_pid, signal.SIGKILL)
print('HARNESS: subactor hung — reproduced')
sys.exit(1)
```
Expected (current): `HARNESS: subactor hung — reproduced`.
After fix: `HARNESS: subactor exited cleanly ✔`.
## References
- `tractor/spawn/_entry.py::_trio_main:157-186` — the
intentional KBI→clean-exit path this bug makes
unreachable.
- `tractor/spawn/_subint_forkserver` — the backend whose
orphan cancel-robustness this blocks.
- `tests/spawn/test_subint_forkserver.py::test_orphaned_subactor_sigint_cleanup_DRAFT`
— the xfail'd reproducer in the test suite.
- `ai/conc-anal/subint_cancel_delivery_hang_issue.md`
sibling "orphaned channel park" hang (different class).
- `ai/conc-anal/subint_sigint_starvation_issue.md`
sibling "GIL starvation SIGINT drop" hang (different
class).
- tractor issue #379 — subint backend tracking.

View File

@ -0,0 +1,851 @@
# `subint_forkserver` backend: `test_cancellation.py` multi-level cancel cascade hang
> **Tracked at:** [#449](https://github.com/goodboy/tractor/issues/449)
Follow-up tracker: surfaced while wiring the new
`subint_forkserver` spawn backend into the full tractor
test matrix (step 2 of the post-backend-lands plan).
See also
`ai/conc-anal/subint_forkserver_orphan_sigint_hang_issue.md`
— sibling tracker for a different forkserver-teardown
class which probably shares the same fundamental root
cause (fork-FD-inheritance across nested spawns).
## TL;DR
`tests/test_cancellation.py::test_nested_multierrors[subint_forkserver]`
hangs indefinitely under our new backend. The hang is
**inside the graceful IPC cancel cascade** — every actor
in the multi-level tree parks in `epoll_wait` waiting
for IPC messages that never arrive. Not a hard-kill /
tree-reap issue (we don't reach the hard-kill fallback
path at all).
Working hypothesis (unverified): **`os.fork()` from a
subactor inherits the root parent's IPC listener socket
FDs**. When a first-level subactor forkserver-spawns a
grandchild, that grandchild inherits both its direct
spawner's FDs AND the root's FDs — IPC message routing
becomes ambiguous (or silently sends to the wrong
channel), so the cancel cascade can't reach its target.
## Corrected diagnosis vs. earlier draft
An earlier version of this doc claimed the root cause
was **"forkserver teardown doesn't tree-kill
descendants"** (SIGKILL only reaches the direct child,
grandchildren survive and hold TCP `:1616`). That
diagnosis was **wrong**, caused by conflating two
observations:
1. *5-zombie leak holding :1616* — happened in my own
workflow when I aborted a bg pytest task with
`pkill` (SIGTERM/SIGKILL, not SIGINT). The abrupt
kill skipped the graceful `ActorNursery.__aexit__`
cancel cascade entirely, orphaning descendants to
init. **This was my cleanup bug, not a forkserver
teardown bug.** Codified the fix (SIGINT-first +
bounded wait before SIGKILL) in
`feedback_sc_graceful_cancel_first.md` +
`.claude/skills/run-tests/SKILL.md`.
2. *`test_nested_multierrors` hangs indefinitely*
the real, separate, forkserver-specific bug
captured by this doc.
The two symptoms are unrelated. The tree-kill / setpgrp
fix direction proposed earlier would not help (1) (SC-
graceful-cleanup is the right answer there) and would
not help (2) (the hang is in the cancel cascade, not
in the hard-kill fallback).
## Symptom
Reproducer (py3.14, clean env):
```sh
# preflight: ensure clean env
ss -tlnp 2>/dev/null | grep ':1616' && echo 'FOUL — cleanup first!' || echo 'clean'
./py314/bin/python -m pytest --spawn-backend=subint_forkserver \
'tests/test_cancellation.py::test_nested_multierrors[subint_forkserver]' \
--timeout=30 --timeout-method=thread --tb=short -v
```
Expected: `pytest-timeout` fires at 30s with a thread-
dump banner, but the process itself **remains alive
after timeout** and doesn't unwedge on subsequent
SIGINT. Requires SIGKILL to reap.
## Evidence (tree structure at hang point)
All 5 processes are kernel-level `S` (sleeping) in
`do_epoll_wait` (trio's event loop waiting on I/O):
```
PID PPID THREADS NAME ROLE
333986 1 2 subint-forkserv pytest main (the test body)
333993 333986 3 subint-forkserv "child 1" spawner subactor
334003 333993 1 subint-forkserv grandchild errorer under child-1
334014 333993 1 subint-forkserv grandchild errorer under child-1
333999 333986 1 subint-forkserv "child 2" spawner subactor (NO grandchildren!)
```
### Asymmetric tree depth
The test's `spawn_and_error(breadth=2, depth=3)` should
have BOTH direct children spawning 2 grandchildren
each, going 3 levels deep. Reality:
- Child 1 (333993, 3 threads) DID spawn its two
grandchildren as expected — fully booted trio
runtime.
- Child 2 (333999, 1 thread) did NOT spawn any
grandchildren — clearly never completed its
nursery's first `run_in_actor`. Its 1-thread state
suggests the runtime never fully booted (no trio
worker threads for `waitpid`/IPC).
This asymmetry is the key clue: the two direct
children started identically but diverged. Probably a
race around fork-inherited state (listener FDs,
subactor-nursery channel state) that happens to land
differently depending on spawn ordering.
### Parent-side state
Thread-dump of pytest main (333986) at the hang:
- Main trio thread — parked in
`trio._core._io_epoll.get_events` (epoll_wait on
its event loop). Waiting for IPC from children.
- Two trio-cache worker threads — each parked in
`outcome.capture(sync_fn)` calling
`os.waitpid(child_pid, 0)`. These are our
`_ForkedProc.wait()` off-loads. They're waiting for
the direct children to exit — but children are
stuck in their own epoll_wait waiting for IPC from
the parent.
**It's a deadlock, not a leak:** the parent is
correctly running `soft_kill(proc, _ForkedProc.wait,
portal)` (graceful IPC cancel via
`Portal.cancel_actor()`), but the children never
acknowledge the cancel message (or the message never
reaches them through the tangled post-fork IPC).
## What's NOT the cause (ruled out)
- **`_ForkedProc.kill()` only SIGKILLs direct pid /
missing tree-kill**: doesn't apply — we never reach
the hard-kill path. The deadlock is in the graceful
cancel cascade.
- **Port `:1616` contention**: ruled out after the
`reg_addr` fixture-wiring fix; each test session
gets a unique port now.
- **GIL starvation / SIGINT pipe filling** (class-A,
`subint_sigint_starvation_issue.md`): doesn't apply
— each subactor is its own OS process with its own
GIL (not legacy-config subint).
- **Child-side `_trio_main` absorbing KBI**: grep
confirmed; `_trio_main` only catches KBI at the
`trio.run()` callsite, which is reached only if the
trio loop exits normally. The children here never
exit trio.run() — they're wedged inside.
## Hypothesis: FD inheritance across nested forks
`subint_forkserver_proc` calls
`fork_from_worker_thread()` which ultimately does
`os.fork()` from a dedicated worker thread. Standard
Linux/POSIX fork semantics: **the child inherits ALL
open FDs from the parent**, including listener
sockets, epoll fds, trio wakeup pipes, and the
parent's IPC channel sockets.
At root-actor fork-spawn time, the root's IPC server
listener FDs are open in the parent. Those get
inherited by child 1. Child 1 then forkserver-spawns
its OWN subactor (grandchild). The grandchild
inherits FDs from child 1 — but child 1's address
space still contains **the root's IPC listener FDs
too** (inherited at first fork). So the grandchild
has THREE sets of FDs:
1. Its own (created after becoming a subactor).
2. Its direct parent child-1's.
3. The ROOT's (grandparent's) — inherited transitively.
IPC message routing may be ambiguous in this tangled
state. Or a listener socket that the root thinks it
owns is actually open in multiple processes, and
messages sent to it go to an arbitrary one. That
would exactly match the observed "graceful cancel
never propagates".
This hypothesis predicts the bug **scales with fork
depth**: single-level forkserver spawn
(`test_subint_forkserver_spawn_basic`) works
perfectly, but any test that spawns a second level
deadlocks. Matches observations so far.
## Fix directions (to validate)
### 1. `close_fds=True` equivalent in `fork_from_worker_thread()`
`subprocess.Popen` / `trio.lowlevel.open_process` have
`close_fds=True` by default on POSIX — they
enumerate open FDs in the child post-fork and close
everything except stdio + any explicitly-passed FDs.
Our raw `os.fork()` doesn't. Adding the equivalent to
our `_worker` prelude would isolate each fork
generation's FD set.
Implementation sketch in
`tractor.spawn._subint_forkserver.fork_from_worker_thread._worker`:
```python
def _worker() -> None:
pid: int = os.fork()
if pid == 0:
# CHILD: close inherited FDs except stdio + the
# pid-pipe we just opened.
keep: set[int] = {0, 1, 2, rfd, wfd}
import resource
soft, _ = resource.getrlimit(resource.RLIMIT_NOFILE)
os.closerange(3, soft) # blunt; or enumerate /proc/self/fd
# ... then child_target() as before
```
Problem: overly aggressive — closes FDs the
grandchild might legitimately need (e.g. its parent's
IPC channel for the spawn-spec handshake, if we rely
on that). Needs thought about which FDs are
"inheritable and safe" vs. "inherited by accident".
### 2. Cloexec on tractor's own FDs
Set `FD_CLOEXEC` on tractor-created sockets (listener
sockets, IPC channel sockets, pipes). This flag
causes automatic close on `execve`, but since we
`fork()` without `exec()`, this alone doesn't help.
BUT — combined with a child-side explicit close-
non-cloexec loop, it gives us a way to mark "my
private FDs" vs. "safe to inherit". Most robust, but
requires tractor-wide audit.
### 3. Explicit FD cleanup in `_ForkedProc`/`_child_target`
Have `subint_forkserver_proc`'s `_child_target`
closure explicitly close the parent-side IPC listener
FDs before calling `_actor_child_main`. Requires
being able to enumerate "the parent's listener FDs
that the child shouldn't keep" — plausible via
`Actor.ipc_server`'s socket objects.
### 4. Use `os.posix_spawn` with explicit `file_actions`
Instead of raw `os.fork()`, use `os.posix_spawn()`
which supports explicit file-action specifications
(close this FD, dup2 that FD). Cleaner semantics, but
probably incompatible with our "no exec" requirement
(subint_forkserver is a fork-without-exec design).
**Likely correct answer: (3) — targeted FD cleanup
via `actor.ipc_server` handle.** (1) is too blunt,
(2) is too wide-ranging, (4) changes the spawn
mechanism.
## Reproducer (standalone, no pytest)
```python
# save as /tmp/forkserver_nested_hang_repro.py (py3.14+)
import trio, tractor
async def assert_err():
assert 0
async def spawn_and_error(breadth: int = 2, depth: int = 1):
async with tractor.open_nursery() as n:
for i in range(breadth):
if depth > 0:
await n.run_in_actor(
spawn_and_error,
breadth=breadth,
depth=depth - 1,
name=f'spawner_{i}_{depth}',
)
else:
await n.run_in_actor(
assert_err,
name=f'errorer_{i}',
)
async def _main():
async with tractor.open_nursery() as n:
for i in range(2):
await n.run_in_actor(
spawn_and_error,
name=f'top_{i}',
breadth=2,
depth=1,
)
if __name__ == '__main__':
from tractor.spawn._spawn import try_set_start_method
try_set_start_method('subint_forkserver')
with trio.fail_after(20):
trio.run(_main)
```
Expected (current): hangs on `trio.fail_after(20)`
— children never ack the error-propagation cancel
cascade. Pattern: top 2 direct children, 4
grandchildren, 1 errorer deadlocks while trying to
unwind through its parent chain.
After fix: `trio.TooSlowError`-free completion; the
root's `open_nursery` receives the
`BaseExceptionGroup` containing the `AssertionError`
from the errorer and unwinds cleanly.
## Update — 2026-04-23: partial fix landed, deeper layer surfaced
Three improvements landed as separate commits in the
`subint_forkserver_backend` branch (see `git log`):
1. **`_close_inherited_fds()` in fork-child prelude**
(`tractor/spawn/_subint_forkserver.py`). POSIX
close-fds-equivalent enumeration via
`/proc/self/fd` (or `RLIMIT_NOFILE` fallback), keep
only stdio. This is fix-direction (1) from the list
above — went with the blunt form rather than the
targeted enum-via-`actor.ipc_server` form, turns
out the aggressive close is safe because every
inheritable resource the fresh child needs
(IPC-channel socket, etc.) is opened AFTER the
fork anyway.
2. **`_ForkedProc.wait()` via `os.pidfd_open()` +
`trio.lowlevel.wait_readable()`** — matches the
`trio.Process.wait` / `mp.Process.sentinel` pattern
used by `trio_proc` and `proc_waiter`. Gives us
fully trio-cancellable child-wait (prior impl
blocked a cache thread on a sync `os.waitpid` that
was NOT trio-cancellable due to
`abandon_on_cancel=False`).
3. **`_parent_chan_cs` wiring** in
`tractor/runtime/_runtime.py`: capture the shielded
`loop_cs` for the parent-channel `process_messages`
task in `async_main`; explicitly cancel it in
`Actor.cancel()` teardown. This breaks the shield
during teardown so the parent-chan loop exits when
cancel is issued, instead of parking on a parent-
socket EOF that might never arrive under fork
semantics.
**Concrete wins from (1):** the sibling
`subint_forkserver_orphan_sigint_hang_issue.md` class
is **now fixed**`test_orphaned_subactor_sigint_cleanup_DRAFT`
went from strict-xfail to pass. The xfail mark was
removed; the test remains as a regression guard.
**test_nested_multierrors STILL hangs** though.
### Updated diagnosis (narrowed)
DIAGDEBUG instrumentation of `process_messages` ENTER/
EXIT pairs + `_parent_chan_cs.cancel()` call sites
showed (captured during a 20s-timeout repro):
- 80 `process_messages` ENTERs, 75 EXITs → 5 stuck.
- **All 40 `shield=True` ENTERs matched EXIT** — every
shielded parent-chan loop exits cleanly. The
`_parent_chan_cs` wiring works as intended.
- **The 5 stuck loops are all `shield=False`** — peer-
channel handlers (inbound connections handled by
`handle_stream_from_peer` in stream_handler_tn).
- After our `_parent_chan_cs.cancel()` fires, NEW
shielded process_messages loops start (on the
session reg_addr port — probably discovery-layer
reconnection attempts). These don't block teardown
(they all exit) but indicate the cancel cascade has
more moving parts than expected.
### Remaining unknown
Why don't the 5 peer-channel loops exit when
`service_tn.cancel_scope.cancel()` fires? They're in
`stream_handler_tn` which IS `service_tn` in the
current configuration (`open_ipc_server(parent_tn=
service_tn, stream_handler_tn=service_tn)`). A
standard nursery-scope-cancel should propagate through
them — no shield, no special handler. Something
specific to the fork-spawned configuration keeps them
alive.
Candidate follow-up experiments:
- Dump the trio task tree at the hang point (via
`stackscope` or direct trio introspection) to see
what each stuck loop is awaiting. `chan.__anext__`
on a socket recv? An inner lock? A shielded sub-task?
- Compare peer-channel handler lifecycle under
`trio_proc` vs `subint_forkserver` with equivalent
logging to spot the divergence.
- Investigate whether the peer handler is caught in
the `except trio.Cancelled:` path at
`tractor/ipc/_server.py:448` that re-raises — but
re-raise means it should still exit. Unless
something higher up swallows it.
### Attempted fix (DID NOT work) — hypothesis (3)
Tried: in `_serve_ipc_eps` finally, after closing
listeners, also iterate `server._peers` and
sync-close each peer channel's underlying stream
socket fd:
```python
for _uid, _chans in list(server._peers.items()):
for _chan in _chans:
try:
_stream = _chan._transport.stream if _chan._transport else None
if _stream is not None:
_stream.socket.close() # sync fd close
except (AttributeError, OSError):
pass
```
Theory: closing the socket fd from outside the stuck
recv task would make the recv see EBADF /
ClosedResourceError and unblock.
Result: `test_nested_multierrors[subint_forkserver]`
still hangs identically. Either:
- The sync `socket.close()` doesn't propagate into
trio's in-flight `recv_some()` the way I expected
(trio may hold an internal reference that keeps the
fd open even after an external close), or
- The stuck recv isn't even the root blocker and the
peer handlers never reach the finally for some
reason I haven't understood yet.
Either way, the sync-close hypothesis is **ruled
out**. Reverted the experiment, restored the skip-
mark on the test.
### Aside: `-s` flag does NOT change `test_nested_multierrors` behavior
Tested explicitly: both with and without `-s`, the
test hangs identically. So the capture-pipe-fill
hypothesis is **ruled out** for this test.
The earlier `test_context_stream_semantics.py` `-s`
observation was most likely caused by a competing
pytest run in my session (confirmed via process list
— my leftover pytest was alive at that time and
could have been holding state on the default
registry port).
## Update — 2026-04-23 (late): cancel delivery ruled in, nursery-wait ruled BLOCKER
**New diagnostic run** instrumented
`handle_stream_from_peer` at ENTER / `except
trio.Cancelled:` / finally, plus `Actor.cancel()`
just before `self._parent_chan_cs.cancel()`. Result:
- **40 `handle_stream_from_peer` ENTERs**.
- **0 `except trio.Cancelled:` hits** — cancel
never fires on any peer-handler.
- **35 finally hits** — those handlers exit via
peer-initiated EOF (normal return), NOT cancel.
- **5 handlers never reach finally** — stuck forever.
- **`Actor.cancel()` fired in 12 PIDs** — but the
PIDs with peer handlers that DIDN'T fire
Actor.cancel are exactly **root + 2 direct
spawners**. These 3 actors have peer handlers
(for their own subactors) that stay stuck because
**`Actor.cancel()` at these levels never runs**.
### The actual deadlock shape
`Actor.cancel()` lives in
`open_root_actor.__aexit__` / `async_main` teardown.
That only runs when the enclosing `async with
tractor.open_nursery()` exits. The nursery's
`__aexit__` calls the backend `*_proc` spawn target's
teardown, which does `soft_kill() →
_ForkedProc.wait()` on its child PID. That wait is
trio-cancellable via pidfd now (good) — but nothing
CANCELS it because the outer scope only cancels when
`Actor.cancel()` runs, which only runs when the
nursery completes, which waits on the child.
It's a **multi-level mutual wait**:
```
root blocks on spawner.wait()
spawner blocks on grandchild.wait()
grandchild blocks on errorer.wait()
errorer Actor.cancel() ran, but process
may not have fully exited yet
(something in root_tn holding on?)
```
Each level waits for the level below. The bottom
level (errorer) reaches Actor.cancel(), but its
process may not fully exit — meaning its pidfd
doesn't go readable, meaning the grandchild's
waitpid doesn't return, meaning the grandchild's
nursery doesn't unwind, etc. all the way up.
### Refined question
**Why does an errorer process not exit after its
`Actor.cancel()` completes?**
Possibilities:
1. `_parent_chan_cs.cancel()` fires (shielded
parent-chan loop unshielded), but the task is
stuck INSIDE the shielded loop's recv in a way
that cancel still can't break.
2. After `Actor.cancel()` returns, `async_main`
still has other tasks in `root_tn` waiting for
something that never arrives (e.g. outbound
IPC reply delivery).
3. The `os._exit(rc)` in `_worker` (at
`_subint_forkserver.py`) doesn't run because
`_child_target` never returns.
Next-session candidate probes (in priority order):
1. **Instrument `_worker`'s fork-child branch** to
confirm whether `child_target()` returns (and
thus `os._exit(rc)` is reached) for errorer
PIDs. If yes → process should die; if no →
trace back into `_actor_child_main` /
`_trio_main` / `async_main` to find the stuck
spot.
2. **Instrument `async_main`'s final unwind** to
see which await in the teardown doesn't
complete.
3. **Compare under `trio_proc` backend** at the
same `_worker`-equivalent level to see where
the flows diverge.
### Rule-out: NOT a stuck peer-chan recv
Earlier hypothesis was that the 5 stuck peer-chan
loops were blocked on a socket recv that cancel
couldn't interrupt. This pass revealed the real
cause: cancel **never reaches those tasks** because
their owning actor's `Actor.cancel()` never runs.
The recvs are fine — they're just parked because
nothing is telling them to stop.
## Update — 2026-04-23 (very late): leaves exit, middle actors stuck in `trio.run`
Yet another instrumentation pass — this time
printing at:
- `_worker` child branch: `pre child_target()` /
`child_target RETURNED rc=N` / `about to
os._exit(rc)`
- `_trio_main`: `about to trio.run` /
`trio.run RETURNED NORMALLY` / `FINALLY`
**Fresh-run results** (`test_nested_multierrors[
subint_forkserver]`, depth=1/breadth=2, 1 root + 14
forked = 15 actors total):
- **9 processes completed the full flow**
`trio.run RETURNED NORMALLY` → `child_target
RETURNED rc=0` → `about to os._exit(0)`. These
are the LEAVES of the tree (errorer actors) plus
their direct parents (depth-0 spawners). They
actually exit their processes.
- **5 processes are stuck INSIDE `trio.run(trio_main)`**
— they hit "about to trio.run" but NEVER see
"trio.run RETURNED NORMALLY". These are root +
top-level spawners + one intermediate.
**What this means:** `async_main` itself is the
deadlock holder, not the peer-channel loops.
Specifically, the outer `async with root_tn:` in
`async_main` never exits for the 5 stuck actors.
Their `trio.run` never returns → `_trio_main`
catch/finally never runs → `_worker` never reaches
`os._exit(rc)` → the PROCESS never dies → its
parent's `_ForkedProc.wait()` blocks → parent's
nursery hangs → parent's `async_main` hangs → ...
### The new precise question
**What task in the 5 stuck actors' `async_main`
never completes?** Candidates:
1. The shielded parent-chan `process_messages`
task in `root_tn` — but we explicitly cancel it
via `_parent_chan_cs.cancel()` in `Actor.cancel()`.
However, `Actor.cancel()` only runs during
`open_root_actor.__aexit__`, which itself runs
only after `async_main`'s outer unwind — which
doesn't happen. So the shield isn't broken.
2. `await actor_nursery._join_procs.wait()` or
similar in the inline backend `*_proc` flow.
3. `_ForkedProc.wait()` on a grandchild that
actually DID exit — but the pidfd_open watch
didn't fire for some reason (race between
pidfd_open and the child exiting?).
The most specific next probe: **add DIAG around
`_ForkedProc.wait()` enter/exit** to see whether
the pidfd-based wait returns for every grandchild
exit. If a stuck parent's `_ForkedProc.wait()`
NEVER returns despite its child exiting, the
pidfd mechanism has a race bug under nested
forkserver.
Alternative probe: instrument `async_main`'s outer
nursery exits to find which nursery's `__aexit__`
is stuck, drilling down from `trio.run` to the
specific `async with` that never completes.
### Cascade summary (updated tree view)
```
ROOT (pytest) STUCK in trio.run
├── top_0 (spawner, d=1) STUCK in trio.run
│ ├── spawner_0_d1_0 (d=0) exited (os._exit 0)
│ │ ├── errorer_0_0 exited (os._exit 0)
│ │ └── errorer_0_1 exited (os._exit 0)
│ └── spawner_0_d1_1 (d=0) exited (os._exit 0)
│ ├── errorer_0_2 exited (os._exit 0)
│ └── errorer_0_3 exited (os._exit 0)
└── top_1 (spawner, d=1) STUCK in trio.run
├── spawner_1_d1_0 (d=0) STUCK in trio.run (sibling race?)
│ ├── errorer_1_0 exited
│ └── errorer_1_1 exited
└── spawner_1_d1_1 (d=0) STUCK in trio.run
├── errorer_1_2 exited
└── errorer_1_3 exited
```
Grandchildren (d=0 spawners) exit OR stick —
asymmetric. Not purely depth-determined. Some race
condition in nursery teardown when multiple
siblings error simultaneously.
## Update — 2026-04-23 (late, probe iteration 3): hang pinpointed to `wait_for_no_more_peers()`
Further DIAGDEBUG at every milestone in `async_main`
(runtime UP / EXITED service_tn / EXITED root_tn /
FINALLY ENTER / RETURNING) plus `_ForkedProc.wait`
ENTER/RETURNED per-pidfd. Result:
**Every stuck actor reaches `async_main: FINALLY
ENTER` but NOT `async_main: RETURNING`.**
That isolates the hang to a specific await in
`async_main`'s finally block at
`tractor/runtime/_runtime.py:1837+`. The suspect:
```python
# Ensure all peers (actors connected to us as clients) are finished
if ipc_server := actor.ipc_server and ipc_server.has_peers(check_chans=True):
...
await ipc_server.wait_for_no_more_peers() # ← UNBOUNDED, blocks forever
```
`_no_more_peers` is an `Event` set only when
`server._peers` empties (see
`ipc/_server.py:526-530`). If ANY peer-handler is
stuck (the 5 unclosed loops from the earlier pass),
it keeps its channel in `server._peers`, so the
event never fires, so the wait hangs.
### Applied fix (partial, landed as defensive-in-depth)
`tractor/runtime/_runtime.py:1981`
`wait_for_no_more_peers()` call now wrapped in
`trio.move_on_after(3.0)` + a warning log when the
timeout fires. Commented with the full rationale.
**Verified:** with this fix, ALL 15 actors reach
`async_main: RETURNING` cleanly (up from 10/15
reaching end before).
**Unfortunately:** the test still hangs past 45s
total — meaning there's YET ANOTHER unbounded wait
downstream of `async_main`. The bounded
`wait_for_no_more_peers` unblocks one level, but
the cascade has another level above it.
### Candidates for the remaining hang
1. `open_root_actor`'s own finally / post-
`async_main` flow in `_root.py` — specifically
`await actor.cancel(None)` which has its own
internal waits.
2. The `trio.run()` itself doesn't return even
after the root task completes because trio's
nursery still has background tasks running.
3. Maybe `_serve_ipc_eps`'s finally has an await
that blocks when peers aren't clearing.
### Current stance
- Defensive `wait_for_no_more_peers` bound landed
(good hygiene regardless). Revealing a real
deadlock-avoidance gap in tractor's cleanup.
- Test still hangs → skip-mark restored on
`test_nested_multierrors[subint_forkserver]`.
- The full chain of unbounded waits needs another
session of drilling, probably at
`open_root_actor` / `actor.cancel` level.
### Summary of this investigation's wins
1. **FD hygiene fix** (`_close_inherited_fds`) —
correct, closed orphan-SIGINT sibling issue.
2. **pidfd-based `_ForkedProc.wait`** — cancellable,
matches trio_proc pattern.
3. **`_parent_chan_cs` wiring** —
`Actor.cancel()` now breaks the shielded parent-
chan `process_messages` loop.
4. **`wait_for_no_more_peers` bounded** —
prevents the actor-level finally hang.
5. **Ruled-out hypotheses:** tree-kill missing
(wrong), stuck socket recv (wrong).
6. **Pinpointed remaining unknown:** at least one
more unbounded wait in the teardown cascade
above `async_main`. Concrete candidates
enumerated above.
## Update — 2026-04-23 (VERY late): pytest capture pipe IS the final gate
After landing fixes 1-4 and instrumenting every
layer down to `tractor_test`'s `trio.run(_main)`:
**Empirical result: with `pytest -s` the test PASSES
in 6.20s.** Without `-s` (default `--capture=fd`) it
hangs forever.
DIAG timeline for the root pytest PID (with `-s`
implied from later verification):
```
tractor_test: about to trio.run(_main)
open_root_actor: async_main task started, yielding to test body
_main: about to await wrapped test fn
_main: wrapped RETURNED cleanly ← test body completed!
open_root_actor: about to actor.cancel(None)
Actor.cancel ENTER req_chan=False
Actor.cancel RETURN
open_root_actor: actor.cancel RETURNED
open_root_actor: outer FINALLY
open_root_actor: finally END (returning from ctxmgr)
tractor_test: trio.run FINALLY (returned or raised) ← trio.run fully returned!
```
`trio.run()` fully returns. The test body itself
completes successfully (pytest.raises absorbed the
expected `BaseExceptionGroup`). What blocks is
**pytest's own stdout/stderr capture** — under
`--capture=fd` default, pytest replaces the parent
process's fd 1,2 with pipe write-ends it's reading
from. Fork children inherit those pipe fds
(because `_close_inherited_fds` correctly preserves
stdio). High-volume subactor error-log tracebacks
(7+ actors each logging multiple
`RemoteActorError`/`ExceptionGroup` tracebacks on
the error-propagation cascade) fill the 64KB Linux
pipe buffer. Subactor writes block. Subactor can't
progress. Process doesn't exit. Parent's
`_ForkedProc.wait` (now pidfd-based and
cancellable, but nothing's cancelling here since
the test body already completed) keeps the pipe
reader alive... but pytest isn't draining its end
fast enough because test-teardown/fixture-cleanup
is in progress.
**Actually** the exact mechanism is slightly
different: pytest's capture fixture MIGHT be
actively reading, but faster-than-writer subactors
overflow its internal buffer. Or pytest might be
blocked itself on the finalization step.
Either way, `-s` conclusively fixes it.
### Why I ruled this out earlier (and shouldn't have)
Earlier in this investigation I tested
`test_nested_multierrors` with/without `-s` and
both hung. That's because AT THAT TIME, fixes 1-4
weren't all in place yet. The test was hanging at
multiple deeper levels long before reaching the
"generate lots of error-log output" phase. Once
the cascade actually tore down cleanly, enough
output was produced to hit the capture-pipe limit.
**Classic order-of-operations mistake in
debugging:** ruling something out too early based
on a test that was actually failing for a
different reason.
### Fix direction (next session)
Redirect subactor stdout/stderr to `/dev/null` (or
a session-scoped log file) in the fork-child
prelude, right after `_close_inherited_fds()`. This
severs the inherited pytest-capture pipes and lets
subactor output flow elsewhere. Under normal
production use (non-pytest), stdout/stderr would
be the TTY — we'd want to keep that. So the
redirect should be conditional or opt-in via the
`child_sigint`/proc_kwargs flag family.
Alternative: document as a gotcha and recommend
`pytest -s` for any tests using the
`subint_forkserver` backend with multi-level actor
trees. Simpler, user-visible, no code change.
### Current state
- Skip-mark on `test_nested_multierrors[subint_forkserver]`
restored with reason pointing here.
- Test confirmed passing with `-s` after all 4
cascade fixes applied.
- The 4 cascade fixes are NOT wasted — they're
correct hardening regardless of the capture-pipe
issue, AND without them we'd never reach the
"actually produces enough output to fill the
pipe" state.
## Stopgap (landed)
`test_nested_multierrors` skip-marked under
`subint_forkserver` via
`@pytest.mark.skipon_spawn_backend('subint_forkserver',
reason='...')`, cross-referenced to this doc. Mark
should be dropped once the peer-channel-loop exit
issue is fixed.
## References
- `tractor/spawn/_subint_forkserver.py::fork_from_worker_thread`
— the primitive whose post-fork FD hygiene is
probably the culprit.
- `tractor/spawn/_subint_forkserver.py::subint_forkserver_proc`
— the backend function that orchestrates the
graceful cancel path hitting this bug.
- `tractor/spawn/_subint_forkserver.py::_ForkedProc`
— the `trio.Process`-compatible shim; NOT the
failing component (confirmed via thread-dump).
- `tests/test_cancellation.py::test_nested_multierrors`
— the test that surfaced the hang.
- `ai/conc-anal/subint_forkserver_orphan_sigint_hang_issue.md`
— sibling hang class; probably same underlying
fork-FD-inheritance root cause.
- tractor issue #379 — subint backend tracking.

View File

@ -0,0 +1,186 @@
# Revisit `subint_forkserver` thread-cache constraints once msgspec PEP 684 support lands
> **Tracked at:** [#450](https://github.com/goodboy/tractor/issues/450)
Follow-up tracker for cleanup work gated on the msgspec
PEP 684 adoption upstream ([jcrist/msgspec#563](https://github.com/jcrist/msgspec/issues/563)).
Context — why this exists
-------------------------
The `tractor.spawn._subint_forkserver` submodule currently
carries two "non-trio" thread-hygiene constraints whose
necessity is tangled with issues that *should* dissolve
under PEP 684 isolated-mode subinterpreters:
1. `fork_from_worker_thread()` / `run_subint_in_worker_thread()`
internally allocate a **dedicated `threading.Thread`**
rather than using `trio.to_thread.run_sync()`.
2. The test helper is named
`run_fork_in_non_trio_thread()` — the
`non_trio` qualifier is load-bearing today.
This doc catalogs *why* those constraints exist, which of
them isolated-mode would fix, and what the
audit-and-cleanup path looks like once msgspec #563 is
resolved.
The three reasons the constraints exist
---------------------------------------
### 1. GIL-starvation class → fixed by PEP 684 isolated mode
The class-A hang documented in
`subint_sigint_starvation_issue.md` is entirely about
legacy-config subints **sharing the main GIL**. Once
msgspec #563 lands and tractor flips
`tractor.spawn._subint` to
`concurrent.interpreters.create()` (isolated config), each
subint gets its own GIL. Abandoned subint threads can't
contend for main's GIL → can't starve the main trio loop
→ signal-wakeup-pipe drains normally → no SIGINT-drop.
This class of hazard **dissolves entirely**. The
non-trio-thread requirement for *this reason* disappears.
### 2. Destroy race / tstate-recycling → orthogonal; unclear
The `subint_proc` dedicated-thread fix (commit `26fb8206`)
addressed a different issue: `_interpreters.destroy(interp_id)`
was blocking on a trio-cache worker that had run an
earlier `interp.exec()` for that subint. Working
hypothesis at the time was "the cached thread retains the
subint's tstate".
But tstate-handling is **not specific to GIL mode**
`_PyXI_Enter` / `_PyXI_Exit` (the C-level machinery both
configs use to enter/leave a subint from a thread) should
restore the caller's tstate regardless of GIL config. So
isolated mode **doesn't obviously fix this**. It might be:
- A py3.13 bug fixed in later versions — we saw the race
first on 3.13 and never re-tested on 3.14 after moving
to dedicated threads.
- A genuine CPython quirk around cached threads that
exec'd into a subint, persisting across GIL modes.
- Something else we misdiagnosed — the empirical fix
(dedicated thread) worked but the analysis may have
been incomplete.
Only way to know: once we're on isolated mode, empirically
retry `trio.to_thread.run_sync(interp.exec, ...)` and see
if `destroy()` still blocks. If it does, keep the
dedicated thread; if not, one constraint relaxed.
### 3. Fork-from-main-interp-tstate (the constraint in this module's helper names)
The fork-from-main-interp-tstate invariant — CPython's
`PyOS_AfterFork_Child`
`_PyInterpreterState_DeleteExceptMain` gate documented in
`subint_fork_blocked_by_cpython_post_fork_issue.md` — is
about the calling thread's **current** tstate at the
moment `os.fork()` runs. If trio's cache threads never
enter subints at all, their tstate is plain main-interp,
and fork from them would be fine.
The reason the smoke test +
`run_fork_in_non_trio_thread` test helper
currently use a dedicated `threading.Thread` is narrow:
**we don't want to risk a trio cache thread that has
previously been used as a subint driver being the one that
picks up the fork job**. If cached tstate doesn't get
cleared (back to reason #2), the fork's child-side
post-init would see the wrong interp and abort.
In an isolated-mode world where msgspec works:
- `subint_proc` would use the public
`concurrent.interpreters.create()` + `Interpreter.exec()`
/ `Interpreter.close()` — which *should* handle tstate
cleanly (they're the "blessed" API).
- If so, trio's cache threads are safe to fork from
regardless of whether they've previously driven subints.
- → the `non_trio` qualifier in
`run_fork_in_non_trio_thread` becomes
*overcautious* rather than load-bearing, and the
dedicated-thread primitives in `_subint_forkserver.py`
can likely be replaced with straight
`trio.to_thread.run_sync()` wrappers.
TL;DR
-----
| constraint | fixed by isolated mode? |
|---|---|
| GIL-starvation (class A) | **yes** |
| destroy race on cached worker | unclear — empirical test on py3.14 + isolated API required |
| fork-from-main-tstate requirement on worker | **probably yes, conditional on the destroy-race question above** |
If #2 also resolves on py3.14+ with isolated mode,
tractor could drop the `non_trio` qualifier from the fork
helper's name and just use `trio.to_thread.run_sync(...)`
for everything. But **we shouldn't do that preemptively**
— the current cautious design is cheap (one dedicated
thread per fork / per subint-exec) and correct.
Audit plan when msgspec #563 lands
----------------------------------
Assuming msgspec grows `Py_mod_multiple_interpreters`
support:
1. **Flip `tractor.spawn._subint` to isolated mode.** Drop
the `_interpreters.create('legacy')` call in favor of
the public API (`concurrent.interpreters.create()` +
`Interpreter.exec()` / `Interpreter.close()`). Run the
three `ai/conc-anal/subint_*_issue.md` reproducers —
class-A (`test_stale_entry_is_deleted` etc.) should
pass without the `skipon_spawn_backend('subint')` marks
(revisit the marker inventory).
2. **Empirical destroy-race retest.** In `subint_proc`,
swap the dedicated `threading.Thread` back to
`trio.to_thread.run_sync(Interpreter.exec, ...,
abandon_on_cancel=False)` and run the full subint test
suite. If `Interpreter.close()` (or the backing
destroy) blocks the same way as the legacy version
did, revert and keep the dedicated thread.
3. **If #2 clean**, audit `_subint_forkserver.py`:
- Rename `run_fork_in_non_trio_thread` → drop the
`_non_trio_` qualifier (e.g. `run_fork_in_thread`) or
inline the two-line `trio.to_thread.run_sync` call at
the call sites and drop the helper entirely.
- Consider whether `fork_from_worker_thread` +
`run_subint_in_worker_thread` still warrant being
separate module-level primitives or whether they
collapse into a compound
`trio.to_thread.run_sync`-driven pattern inside the
(future) `subint_forkserver_proc` backend.
4. **Doc fallout.** `subint_sigint_starvation_issue.md`
and `subint_cancel_delivery_hang_issue.md` both cite
the legacy-GIL-sharing architecture as the root cause.
Close them with commit-refs to the isolated-mode
migration. This doc itself should get a closing
post-mortem section noting which of #1/#2/#3 actually
resolved vs persisted.
References
----------
- `tractor.spawn._subint_forkserver` — the in-tree module
whose constraints this doc catalogs.
- `ai/conc-anal/subint_sigint_starvation_issue.md` — the
GIL-starvation class.
- `ai/conc-anal/subint_cancel_delivery_hang_issue.md`
sibling Ctrl-C-able hang class.
- `ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
— why fork-from-subint is blocked (this drives the
forkserver-via-non-subint-thread workaround).
- `ai/conc-anal/subint_fork_from_main_thread_smoketest.py`
— empirical validation for the workaround.
- [PEP 684 — per-interpreter GIL](https://peps.python.org/pep-0684/)
- [PEP 734 — `concurrent.interpreters` public API](https://peps.python.org/pep-0734/)
- [jcrist/msgspec#563 — PEP 684 support tracker](https://github.com/jcrist/msgspec/issues/563)
- tractor issue #379 — subint backend tracking.

View File

@ -0,0 +1,350 @@
# `subint` backend: abandoned-subint thread can wedge main trio event loop (Ctrl-C unresponsive)
Follow-up to the Phase B subint spawn-backend PR (see
`tractor.spawn._subint`, issue #379). The hard-kill escape
hatch we landed (`_HARD_KILL_TIMEOUT`, bounded shields,
`daemon=True` driver-thread abandonment) handles *most*
stuck-subint scenarios cleanly, but there's one class of
hang that can't be fully escaped from within tractor: a
still-running abandoned sub-interpreter can starve the
**parent's** trio event loop to the point where **SIGINT is
effectively dropped by the kernel ↔ Python boundary** —
making the pytest process un-Ctrl-C-able.
## Symptom
Running `test_stale_entry_is_deleted[subint]` under
`--spawn-backend=subint`:
1. Test spawns a subactor (`transport_fails_actor`) which
kills its own IPC server and then
`trio.sleep_forever()`.
2. Parent tries `Portal.cancel_actor()` → channel
disconnected → fast return.
3. Nursery teardown triggers our `subint_proc` cancel path.
Portal-cancel fails (dead channel),
`_HARD_KILL_TIMEOUT` fires, driver thread is abandoned
(`daemon=True`), `_interpreters.destroy(interp_id)`
raises `InterpreterError` (because the subint is still
running).
4. Test appears to hang indefinitely at the *outer*
`async with tractor.open_nursery() as an:` exit.
5. `Ctrl-C` at the terminal does nothing. The pytest
process is un-interruptable.
## Evidence
### `strace` on the hung pytest process
```
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(37, "\2", 1) = -1 EAGAIN (Resource temporarily unavailable)
rt_sigreturn({mask=[WINCH]}) = 140585542325792
```
Translated:
- Kernel delivers `SIGINT` to pytest.
- CPython's C-level signal handler fires and tries to
write the signal number byte (`0x02` = SIGINT) to fd 37
— the **Python signal-wakeup fd** (set via
`signal.set_wakeup_fd()`, which trio uses to wake its
event loop on signals).
- Write returns `EAGAIN`**the pipe is full**. Nothing
is draining it.
- `rt_sigreturn` with the signal masked off — signal is
"handled" from the kernel's perspective but the actual
Python-level handler (and therefore trio's
`KeyboardInterrupt` delivery) never runs.
### Stack dump (via `tractor.devx.dump_on_hang`)
At 20s into the hang, only the **main thread** is visible:
```
Thread 0x...7fdca0191780 [python] (most recent call first):
File ".../trio/_core/_io_epoll.py", line 245 in get_events
File ".../trio/_core/_run.py", line 2415 in run
File ".../tests/discovery/test_registrar.py", line 575 in test_stale_entry_is_deleted
...
```
No driver thread shows up. The abandoned-legacy-subint
thread still exists from the OS's POV (it's still running
inside `_interpreters.exec()` driving the subint's
`trio.run()` on `trio.sleep_forever()`) but the **main
interp's faulthandler can't see threads currently executing
inside a sub-interpreter's tstate**. Concretely: the thread
is alive, holding state we can't introspect from here.
## Root cause analysis
The most consistent explanation for both observations:
1. **Legacy-config subinterpreters share the main GIL.**
PEP 734's public `concurrent.interpreters.create()`
defaults to `'isolated'` (per-interp GIL), but tractor
uses `_interpreters.create('legacy')` as a workaround
for C extensions that don't yet support PEP 684
(notably `msgspec`, see
[jcrist/msgspec#563](https://github.com/jcrist/msgspec/issues/563)).
Legacy-mode subints share process-global state
including the GIL.
2. **Our abandoned subint thread never exits.** After our
hard-kill timeout, `driver_thread.join()` is abandoned
via `abandon_on_cancel=True` and the thread is
`daemon=True` so proc-exit won't block on it — but the
thread *itself* is still alive inside
`_interpreters.exec()`, driving a `trio.run()` that
will never return (the subint actor is in
`trio.sleep_forever()`).
3. **`_interpreters.destroy()` cannot force-stop a running
subint.** It raises `InterpreterError` on any
still-running subinterpreter; there is no public
CPython API to force-destroy one.
4. **Shared-GIL + non-terminating subint thread → main
trio loop starvation.** Under enough load (the subint's
trio event loop iterating in the background, IPC-layer
tasks still in the subint, etc.) the main trio event
loop can fail to iterate frequently enough to drain its
wakeup pipe. Once that pipe fills, `SIGINT` writes from
the C signal handler return `EAGAIN` and signals are
silently dropped — exactly what `strace` shows.
The shielded
`await actor_nursery._join_procs.wait()` at the top of
`subint_proc` (inherited unchanged from the `trio_proc`
pattern) is structurally involved too: if main trio *does*
get a schedule slice, it'd find the `subint_proc` task
parked on `_join_procs` under shield — which traps whatever
`Cancelled` arrives. But that's a second-order effect; the
signal-pipe-full condition is the primary "Ctrl-C doesn't
work" cause.
## Why we can't fix this from inside tractor
- **No force-destroy API.** CPython provides neither a
`_interpreters.force_destroy()` nor a thread-
cancellation primitive (`pthread_cancel` is actively
discouraged and unavailable on Windows). A subint stuck
in pure-Python loops (or worse, C code that doesn't poll
for signals) is structurally unreachable from outside.
- **Shared GIL is the root scheduling issue.** As long as
we're forced into legacy-mode subints for `msgspec`
compatibility, the abandoned-thread scenario is
fundamentally a process-global GIL-starvation window.
- **`signal.set_wakeup_fd()` is process-global.** Even if
we wanted to put our own drainer on the wakeup pipe,
only one party owns it at a time.
## Current workaround
- **Fixture-side SIGINT loop on the `daemon` subproc** (in
this test's `daemon: subprocess.Popen` fixture in
`tests/conftest.py`). The daemon dying closes its end of
the registry IPC, which unblocks a pending recv in main
trio's IPC-server task, which lets the event loop
iterate, which drains the wakeup pipe, which finally
delivers the test-harness SIGINT.
- **Module-level skip on py3.13**
(`pytest.importorskip('concurrent.interpreters')`) — the
private `_interpreters` C module exists on 3.13 but the
multi-trio-task interaction hangs silently there
independently of this issue.
## Path forward
1. **Primary**: upstream `msgspec` PEP 684 adoption
([jcrist/msgspec#563](https://github.com/jcrist/msgspec/issues/563)).
Unlocks `concurrent.interpreters.create()` isolated
mode → per-interp GIL → abandoned subint threads no
longer starve the parent's main trio loop. At that
point we can flip `_subint.py` back to the public API
(`create()` / `Interpreter.exec()` / `Interpreter.close()`)
and drop the private `_interpreters` path.
2. **Secondary**: watch CPython for a public
force-destroy primitive. If something like
`Interpreter.close(force=True)` lands, we can use it as
a hard-kill final stage and actually tear down
abandoned subints.
3. **Harness-level**: document the fixture-side SIGINT
loop pattern as the "known workaround" for subint-
backend tests that can leave background state holding
the main event loop hostage.
## References
- PEP 734 (`concurrent.interpreters`):
<https://peps.python.org/pep-0734/>
- PEP 684 (per-interpreter GIL):
<https://peps.python.org/pep-0684/>
- `msgspec` PEP 684 tracker:
<https://github.com/jcrist/msgspec/issues/563>
- CPython `_interpretersmodule.c` source:
<https://github.com/python/cpython/blob/main/Modules/_interpretersmodule.c>
- `tractor.spawn._subint` module docstring (in-tree
explanation of the legacy-mode choice and its
tradeoffs).
## Reproducer
```
./py314/bin/python -m pytest \
tests/discovery/test_registrar.py::test_stale_entry_is_deleted \
--spawn-backend=subint \
--tb=short --no-header -v
```
Hangs indefinitely without the fixture-side SIGINT loop;
with the loop, the test completes (albeit with the
abandoned-thread warning in logs).
## Additional known-hanging tests (same class)
All three tests below exhibit the same
signal-wakeup-fd-starvation fingerprint (`write() → EAGAIN`
on the wakeup pipe after enough SIGINT attempts) and
share the same structural cause — abandoned legacy-subint
driver threads contending with the main interpreter for
the shared GIL until the main trio loop can no longer
drain its wakeup pipe fast enough to deliver signals.
They're listed separately because each exposes the class
under a different load pattern worth documenting.
### `tests/discovery/test_registrar.py::test_stale_entry_is_deleted[subint]`
Original exemplar — see the **Symptom** and **Evidence**
sections above. One abandoned subint
(`transport_fails_actor`, stuck in `trio.sleep_forever()`
after self-cancelling its IPC server) is sufficient to
tip main into starvation once the harness's `daemon`
fixture subproc keeps its half of the registry IPC alive.
### `tests/test_cancellation.py::test_cancel_while_childs_child_in_sync_sleep[subint-False]`
Cancel a grandchild that's in sync Python sleep from 2
nurseries up. The test's own docstring declares the
dependency: "its parent should issue a 'zombie reaper' to
hard kill it after sufficient timeout" — which for
`trio`/`mp_*` is an OS-level `SIGKILL` of the grandchild
subproc. **Under `subint` there's no equivalent** (no
public CPython API to force-destroy a running
sub-interpreter), so the grandchild's sync-sleeping
`trio.run()` persists inside its abandoned driver thread
indefinitely. The nested actor-tree (parent → child →
grandchild, all subints) means a single cancel triggers
multiple concurrent hard-kill abandonments, each leaving
a live driver thread.
This test often only manifests the starvation under
**full-suite runs** rather than solo execution —
earlier-in-session subint tests also leave abandoned
driver threads behind, and the combined population is
what actually tips main trio into starvation. Solo runs
may stay Ctrl-C-able with fewer abandoned threads in the
mix.
### `tests/test_cancellation.py::test_multierror_fast_nursery[subint-25-0.5]`
Nursery-error-path throughput stress-test parametrized
for **25 concurrent subactors**. When the multierror
fires and the nursery cancels, every subactor goes
through our `subint_proc` teardown. The bounded
hard-kills run in parallel (all `subint_proc` tasks are
sibling trio tasks), so the timeout budget is ~3s total
rather than 3s × 25. After that, **25 abandoned
`daemon=True` driver threads are simultaneously alive** —
an extreme pressure multiplier on the same mechanism.
The `strace` fingerprint is striking under this load: six
or more **successful** `write(16, "\2", 1) = 1` calls
(main trio getting brief GIL slices, each long enough to
drain exactly one wakeup-pipe byte) before finally
saturating with `EAGAIN`:
```
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = 1
rt_sigreturn({mask=[WINCH]}) = 140141623162400
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = 1
rt_sigreturn({mask=[WINCH]}) = 140141623162400
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = 1
rt_sigreturn({mask=[WINCH]}) = 140141623162400
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = 1
rt_sigreturn({mask=[WINCH]}) = 140141623162400
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = 1
rt_sigreturn({mask=[WINCH]}) = 140141623162400
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = 1
rt_sigreturn({mask=[WINCH]}) = 140141623162400
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = -1 EAGAIN (Resource temporarily unavailable)
rt_sigreturn({mask=[WINCH]}) = 140141623162400
```
Those successful writes indicate CPython's
`sys.getswitchinterval()`-based GIL round-robin *is*
giving main brief slices — just never long enough to run
the Python-level signal handler through to the point
where trio converts the delivered SIGINT into a
`Cancelled` on the appropriate scope. Once the
accumulated write rate outpaces main's drain rate, the
pipe saturates and subsequent signals are silently
dropped.
The `pstree` below (pid `530060` = hung `pytest`) shows
the subint-driver thread population at the moment of
capture. Even with fewer than the full 25 shown (pstree
truncates thread names to `subint-driver[<interp_id>`
interpreters `3` and `4` visible across 16 thread
entries), the GIL-contender count is more than enough to
explain the starvation:
```
>>> pstree -snapt 530060
systemd,1 --switched-root --system --deserialize=40
└─login,1545 --
└─bash,1872
└─sway,2012
└─alacritty,70471 -e xonsh
└─xonsh,70487 .../bin/xonsh
└─uv,70955 run xonsh
└─xonsh,70959 .../py314/bin/xonsh
└─python,530060 .../py314/bin/pytest -v tests/test_cancellation.py --spawn-backend=subint
├─{subint-driver[3},531857
├─{subint-driver[3},531860
├─{subint-driver[3},531862
├─{subint-driver[3},531866
├─{subint-driver[3},531877
├─{subint-driver[3},531882
├─{subint-driver[3},531884
├─{subint-driver[3},531945
├─{subint-driver[3},531950
├─{subint-driver[3},531952
├─{subint-driver[4},531956
├─{subint-driver[4},531959
├─{subint-driver[4},531961
├─{subint-driver[4},531965
├─{subint-driver[4},531968
└─{subint-driver[4},531979
```
(`pstree` uses `{...}` to denote threads rather than
processes — these are all the **driver OS-threads** our
`subint_proc` creates with name
`f'subint-driver[{interp_id}]'`. Every one of them is
still alive, executing `_interpreters.exec()` inside a
sub-interpreter our hard-kill has abandoned. At 16+
abandoned driver threads competing for the main GIL, the
main-interpreter trio loop gets starved and signal
delivery stalls.)

View File

@ -0,0 +1,97 @@
---
model: claude-opus-4-7[1m]
service: claude
session: subints-spawner-phase-b1-impl
timestamp: 2026-04-17T12:44:37Z
git_ref: 5cd6df5
scope: code
substantive: true
raw_file: 20260417T124437Z_5cd6df5_prompt_io.raw.md
---
## Prompt
Continuing the Phase B work from the design sessions
logged in `20260417T034918Z_9703210_prompt_io.md` and
the Phase A impl in `20260417T035800Z_61a73ba_...`.
User direction at this step:
- "ok now let's continue with the subints part of the
plan ya?" → kick off Phase B.
- After I proposed a 4-sub-phase breakdown (B.1
scaffolding, B.2 min-viable spawn, B.3 lifecycle,
B.4 test enablement), user: "ok can we continue
with B" → approving the phasing and design
defaults (thread-per-subint, UDS default,
code-string bootstrap via `interp.exec()`).
- User switched the worktree to
`subint_spawner_backend` (instead of opening a
fresh worktree as I'd proposed): "i already
switched branches in the wkt, you should work off
`subint_spawner_backend` now".
Scope of this turn: **B.1 scaffolding only**
wire the `'subint'` name through the spawn-method
registry + harness, add a feature-detected stub
module, bump pyproject. No actual spawn flow.
## Response summary
Produced the Phase B.1 scaffolding patch, landed as
commit `5cd6df58` (subject: `Add `'subint'` spawn
backend scaffold (#379)`). Four files changed,
+124 / -2 lines.
Key pieces (all generated by claude, reviewed by
human before commit):
- `tractor/spawn/_subint.py`**new**; feature-
detects `concurrent.interpreters`; `subint_proc()`
stub raises `RuntimeError` on py<3.14 or
`NotImplementedError` with issue-#379 URL on
py≥3.14. Signature mirrors `trio_proc`/`mp_proc`
so B.2 can drop the impl in without touching
`_methods`.
- `tractor/spawn/_spawn.py` — adds `'subint'` to
`SpawnMethodKey`, grows a `case 'subint'` arm in
`try_set_start_method()` with feature-gate, re-
imports `sys` for the gate-error msg, adds late
`from ._subint import subint_proc` import and
`_methods` entry.
- `tractor/_testing/pytest.py` — converts the
gate-error into `pytest.UsageError` via a
`try/except` around `try_set_start_method()` so
`--spawn-backend=subint` on py<3.14 prints a
clean banner instead of a traceback.
- `pyproject.toml` — pin `requires-python` `<3.14`
`<3.15`, add `3.14` trove classifier.
## Files changed
See `git diff 5cd6df5~1..5cd6df5 --stat`:
```
pyproject.toml | 3 +-
tractor/_testing/pytest.py | 8 +++-
tractor/spawn/_spawn.py | 15 ++++++
tractor/spawn/_subint.py | 100 +++++++++++++++++++++++++
4 files changed, 124 insertions(+), 2 deletions(-)
```
Validation on py3.13:
- registry/gate probe — OK; `_has_subints = False`,
`subint_proc()` raises `RuntimeError` as expected.
- `try_set_start_method('subint')` — raises cleanly.
- `pytest --spawn-backend=subint` — exits with
`pytest.UsageError` banner.
- Spawn-relevant test subset — 69 passed, 1 skipped.
- Full suite on py3.13 deferred (scaffolding is
no-op on <3.14).
- Full-suite on py3.14 pending user setting up the
venv.
## Human edits
None — committed as generated by claude. `uv.lock`
was intentionally left unstaged by the user (pin-
bump regenerated cp314 wheel entries but they were
deferred to a follow-up).

View File

@ -0,0 +1,168 @@
---
model: claude-opus-4-7[1m]
service: claude
timestamp: 2026-04-17T12:44:37Z
git_ref: 5cd6df5
diff_cmd: git diff 5cd6df5~1..5cd6df5
---
Code generated in this turn was committed verbatim as
`5cd6df58` ("Add `'subint'` spawn backend scaffold
(#379)"). Per diff-ref mode, per-file code is captured
via the pointers below, each followed by a prose
summary. Non-code output (sanity-check results,
design rationale) is included verbatim.
## Per-file generated content
### `tractor/spawn/_subint.py` (new, 100 lines)
> `git diff 5cd6df5~1..5cd6df5 -- tractor/spawn/_subint.py`
New scaffolding module for the PEP 734 subinterpreter
backend. Contents:
- AGPL header + module docstring (describes backend
intent, 3.14+ availability gate, and explicit
"SCAFFOLDING STUB" status pointing at issue #379).
- Top-level `try/except ImportError` wrapping
`from concurrent import interpreters as
_interpreters` → sets module-global
`_has_subints: bool`. This lets the registry stay
introspectable on py<3.14 while spawn-time still
fails cleanly.
- `subint_proc()` coroutine with signature matching
`trio_proc`/`mp_proc` exactly (same param names,
defaults, and `TaskStatus[Portal]` typing) —
intentional so Phase B.2 can drop the impl in
without touching `_methods` or changing call-site
binding.
- Body raises `RuntimeError` on py<3.14 (with
`sys.version` printed) or `NotImplementedError`
with issue-#379 URL on py≥3.14.
### `tractor/spawn/_spawn.py` (modified, +15 LOC)
> `git diff 5cd6df5~1..5cd6df5 -- tractor/spawn/_spawn.py`
- `import sys` re-added (pruned during Phase A, now
needed again for the py-version string in the
`'subint'` gate-error).
- `SpawnMethodKey = Literal[...]` grows `'subint'` as
the 4th member, with inline comment `# py3.14+ via
`concurrent.interpreters` (PEP 734)`.
- `try_set_start_method()` match-block grows a new
`case 'subint':` arm that imports
`from ._subint import _has_subints` lazily and
raises `RuntimeError` with a multi-line gate msg
if unavailable.
- Bottom-of-module late-import section grows
`from ._subint import subint_proc` alongside the
existing `_trio` / `_mp` imports.
- `_methods` dict grows `'subint': subint_proc`.
### `tractor/_testing/pytest.py` (modified, +8 LOC)
> `git diff 5cd6df5~1..5cd6df5 -- tractor/_testing/pytest.py`
`pytest_configure()` wraps the
`try_set_start_method(backend)` call in a
`try/except RuntimeError` that re-raises as
`pytest.UsageError(str(err))`. Rationale: the gate
error on py<3.14 is legitimately a configuration
problem, not a test failure, so pytest's UsageError
path (exit code 4) gives a clean single-line banner
instead of a traceback.
### `pyproject.toml` (modified, +2 / -1)
> `git diff 5cd6df5~1..5cd6df5 -- pyproject.toml`
- `requires-python` pin relaxed `>=3.12, <3.14`
`>=3.12, <3.15` to admit 3.14 as a valid target.
- Added `"Programming Language :: Python :: 3.14"`
to the trove classifiers.
## Non-code output (verbatim)
### Design choices captured in the prior turn
(Previously confirmed by the user on April 17 in this
session — relevant excerpts captured here for
provenance since they drove the shape of the impl):
1. **Python pin**: `<3.15` + feature-gate the subint
backend at spawn time — user answered option (a)
from the design triage.
2. **Deferred `fork()`-via-subint hack** from issue
#379's "Our own thoughts" section.
3. **Phase B phasing**: user approved the B.1 / B.2 /
B.3 / B.4 breakdown — this commit is strictly B.1
(scaffolding only, no spawn-flow impl).
4. **Option (B) worktree strategy**: new worktree
branched from `wkt/spawn_modularize`. *(Amended by
user at runtime: user switched the existing
`spawn_modularize` worktree to the
`subint_spawner_backend` branch instead.)*
### Sanity-check output (verbatim terminal excerpts)
Registry / feature-gate verification on py3.13:
```
SpawnMethodKey values: ('trio', 'mp_spawn',
'mp_forkserver', 'subint')
_methods keys: ['trio', 'mp_spawn',
'mp_forkserver', 'subint']
_has_subints: False (py version: (3, 13) )
[expected] RuntimeError: The 'subint' spawn backend
requires Python 3.14+ (stdlib
`concurrent.interpreters`, PEP 734).
```
`try_set_start_method('subint')` gate on py3.13:
```
[expected] RuntimeError: Spawn method 'subint'
requires Python 3.14+ (stdlib
`concurrent.interpreters`, PEP 734).
```
Pytest `--spawn-backend=subint` on py3.13 (the new
UsageError wrapper kicking in):
```
ERROR: Spawn method 'subint' requires Python 3.14+
(stdlib `concurrent.interpreters`, PEP 734).
Current runtime: 3.13.11 (main, Dec 5 2025,
16:06:33) [GCC 15.2.0]
```
Collection probe: `404 tests collected in 0.18s`
(no import errors from the new module).
Spawn-relevant test subset (`tests/test_local.py
test_rpc.py test_spawning.py test_multi_program.py
tests/discovery/`):
```
69 passed, 1 skipped, 10 warnings in 61.38s
```
Full suite was **not** run on py3.13 for this commit
— the scaffolding is no-op on <3.14 and full-suite
validation under py3.14 is pending that venv being
set up by the user.
### Commit message
Also AI-drafted (via `/commit-msg`, with the prose
rewrapped through `/home/goodboy/.claude/skills/pr-msg/
scripts/rewrap.py --width 67`) — the 33-line message
on commit `5cd6df58` itself. Not reproduced here; see
`git log -1 5cd6df58`.
### Known follow-ups flagged to user
- **`uv.lock` deferred**: pin-bump regenerated cp314
wheel entries in `uv.lock`, but the user chose to
not stage `uv.lock` for this commit. Warned
explicitly.
- **Phase B.2 needs py3.14 venv** — running the
actual subint impl requires it; user said they'd
set it up separately.

View File

@ -0,0 +1,117 @@
---
model: claude-opus-4-7[1m]
service: claude
session: subints-phase-b2-destroy-race-fix
timestamp: 2026-04-18T04:25:26Z
git_ref: 26fb820
scope: code
substantive: true
raw_file: 20260418T042526Z_26fb820_prompt_io.raw.md
---
## Prompt
Follow-up to Phase B.2 (`5cd6df58`) after the user
observed intermittent mid-suite hangs when running
the tractor test suite under `--spawn-backend=subint`
on py3.14. The specific sequence of prompts over
several turns:
1. User pointed at the `test_context_stream_semantics.py`
suite as the first thing to make run clean under
`--spawn-backend=subint`.
2. After a series of `timeout`-terminated runs that
gave no diagnostic info, user nudged me to stop
relying on `timeout` and get actual runtime
diagnostics ("the suite hangs indefinitely, so i
don't think this `timeout 30` is helping you at
all.."). Switched to
`faulthandler.dump_traceback_later(...)` and a
resource-tracker fixture to rule out leaks.
3. Captured a stack pinning the hang on
`_interpreters.destroy(interp_id)` in the subint
teardown finally block.
4. Proposed dedicated-OS-thread fix. User greenlit.
5. Implemented + verified on-worktree; user needed
to be pointed at the *worktree*'s `./py313` venv
because bare `pytest` was picking up the main
repo's venv (running un-patched `_subint.py`) and
still hanging.
Running theme over the whole exchange: this patch
only closes the *destroy race*. The user and I also
traced through the deeper cancellation story — SIGINT
can't reach subints, legacy-mode shares the GIL,
portal-cancel dies when the IPC channel is already
broken — and agreed the next step is a bounded
hard-kill in `subint_proc`'s teardown plus a
dedicated cancellation test suite. Those land as
separate commits.
## Response summary
Produced the `tractor/spawn/_subint.py` patch landed
as commit `26fb8206` ("Fix subint destroy race via
dedicated OS thread"). One file, +110/-84 LOC.
Mechanism: swap `trio.to_thread.run_sync(_interpreters
.exec, ...)` for a plain `threading.Thread(target=...
, daemon=False)`. The trio thread cache recycles
workers — so the OS thread that ran `_interpreters
.exec()` remained alive in the cache holding a
stale subint tstate, blocking
`_interpreters.destroy()` in the finally indefinitely.
A dedicated one-shot thread exits naturally after
the sync target returns, releasing tstate and
unblocking destroy.
Coordination across the trio↔thread boundary:
- `trio.lowlevel.current_trio_token()` captured at
`subint_proc` entry
- driver thread signals `subint_exited.set()` back
to parent trio via `trio.from_thread.run_sync(...,
trio_token=token)` (synchronous from the thread's
POV; the call returns after trio has run `.set()`)
- `trio.RunFinishedError` swallowed in that path for
the process-teardown case where parent trio already
exited
- teardown `finally` off-loads the sync
`driver_thread.join()` via `to_thread.run_sync` (a
cache thread carries no subint tstate — safe)
## Files changed
See `git diff 26fb820~1..26fb820 --stat`:
```
tractor/spawn/_subint.py | 194 +++++++++++++++++++------------
1 file changed, 110 insertions(+), 84 deletions(-)
```
Validation:
- `test_parent_cancels[chk_ctx_result_before_exit=True-
cancel_method=ctx-child_returns_early=False]`
(the specific test that was hanging for the user)
— passed in 1.06s.
- Full `tests/test_context_stream_semantics.py` under
subint — 61 passed in 100.35s (clean-cache re-run:
100.82s).
- Trio backend regression subset — 69 passed / 1
skipped / 89.19s — no regressions from this change.
## Files changed
Beyond the `_subint.py` patch, the raw log also
records the cancellation-semantics research that
spanned this conversation but did not ship as code
in *this* commit. Preserving it inline under "Non-
code output" because it directly informs the
Phase B.3 hard-kill impl that will follow (and any
upstream CPython bug reports we end up filing).
## Human edits
None — committed as generated. The commit message
itself was also AI-drafted via `/commit-msg` and
rewrapped via the project's `rewrap.py --width 67`
tooling; user landed it without edits.

View File

@ -0,0 +1,220 @@
---
model: claude-opus-4-7[1m]
service: claude
timestamp: 2026-04-18T04:25:26Z
git_ref: 26fb820
diff_cmd: git diff 26fb820~1..26fb820
---
Code generated in this turn was committed as `26fb8206`
("Fix subint destroy race via dedicated OS thread").
Per diff-ref mode, per-file code is captured via the
pointer below; the rest is verbatim non-code output
— test-session diagnostics, CPython-internals
reasoning, and the design synthesis that's worth
keeping alongside the code since it informs the
still-pending Phase B.3 hard-kill work.
## Per-file generated content
### `tractor/spawn/_subint.py` (modified, +110/-84 LOC)
> `git diff 26fb820~1..26fb820 -- tractor/spawn/_subint.py`
Rewrites the subint driver-thread strategy:
- replaces `trio.to_thread.run_sync(_interpreters.exec, ...)`
with a plain `threading.Thread(target=_subint_target,
daemon=False)` so the OS thread truly exits after
`_interpreters.exec()` returns
- captures a `trio.lowlevel.current_trio_token()` at
`subint_proc` entry; the driver thread signals
completion back via `trio.from_thread.run_sync(
subint_exited.set, trio_token=...)`
- swallows `trio.RunFinishedError` in the signal path
for the case where the parent trio loop has already
exited (process teardown)
- in the teardown `finally` off-loads the sync
`driver_thread.join()` call to `trio.to_thread.run_sync`
(a cache thread w/ no subint tstate — so no cache
conflict) to wait for the driver thread to fully
exit before calling `_interpreters.destroy()`
## Non-code output (verbatim) — the CPython-internals research
### What went wrong before this commit
Under `--spawn-backend=subint` on py3.14, most single
tests passed but longer runs hung intermittently. The
position of the hang moved between runs (test #22 on
one run, test #53 on another) suggesting a timing-
dependent race rather than a deterministic bug.
`faulthandler.dump_traceback_later()` eventually
caught a stack with the main thread blocked in
`_interpreters.destroy(interp_id)` at `_subint.py:293`.
Only 2 threads were alive:
- main thread waiting in `_interpreters.destroy()`
- one idle trio thread-cache worker in
`trio._core._thread_cache._work`
No subint was still running (`_interpreters.list_all()`
showed only the main interp). A resource-tracker
pytest fixture confirmed threads/subints did NOT
accumulate across tests — this was not a leak but a
specific "destroy blocks on cached thread w/ stale
tstate" race.
### Why the race exists
`trio.to_thread.run_sync` uses a thread *cache* to
avoid OS-thread creation overhead. When the sync
callable returns, the OS thread is NOT terminated —
it's parked in `_thread_cache._work` waiting for the
next job. CPython's subinterpreter implementation
attaches a **tstate** (thread-state object) to each
OS thread that ever entered a subint via
`_interpreters.exec()`. That tstate is released
lazily — either when the thread picks up a new job
(which re-attaches a new tstate, evicting the old
one) or when the thread truly exits.
`_interpreters.destroy(interp_id)` waits for *all*
tstates associated w/ that subint to be released
before it can proceed. If the cached worker is idle
holding the stale tstate, destroy blocks indefinitely.
Whether the race manifests depends on timing — if
the cached thread happens to pick up another job
quickly, destroy unblocks; if it sits idle, we hang.
### Why a dedicated `threading.Thread` fixes it
A plain `threading.Thread(target=_subint_target,
daemon=False)` runs its target once and exits. When
the target returns, OS-thread teardown (`_bootstrap_inner`
`_bootstrap`) fires and CPython releases the
tstate for that thread. `_interpreters.destroy()`
then has no blocker.
### Diagnostic tactics that actually helped
1. `faulthandler.dump_traceback_later(n, repeat=False,
file=open(path, 'w'))` for captured stack dumps on
hang. Critically, pipe to a `file=` not stderr —
pytest captures stderr weirdly and the dump is
easy to miss.
2. A resource-tracker autouse fixture printing
per-test `threading.active_count()` +
`len(_interpreters.list_all())` deltas → ruled out
leak-accumulation theories quickly.
3. Running the hanging test *solo* vs in-suite —
when solo passes but in-suite hangs, you know
it's a cross-test state-transfer bug rather than
a test-internal bug.
### Design synthesis — SIGINT + subints + SC
The user and I walked through the cancellation
semantics of PEP 684/734 subinterpreters in detail.
Key findings we want to preserve:
**Signal delivery in subints (stdlib limitation).**
CPython's signal machinery only delivers signals
(SIGINT included) to the *main thread of the main
interpreter*. Subints cannot install signal handlers
that will ever fire. This is an intentional design
choice in PEP 684 and not expected to change. For
tractor's subint actors, this means:
- Ctrl-C never reaches a subint directly.
- `trio.run()` running on a worker thread (as we do
for subints) already skips SIGINT handler install
because `signal.signal()` raises on non-main
threads.
- The only cancellation surface into a subint is
our IPC `Portal.cancel_actor()`.
**Legacy-mode subints share the main GIL** (which
our impl uses since `msgspec` lacks PEP 684 support
per `jcrist/msgspec#563`). This means a stuck subint
thread can starve the parent's trio loop during
cancellation — the parent can't even *start* its
teardown handling until the subint yields the GIL.
**Failure modes identified for Phase B.3 audit:**
1. Portal cancel lands cleanly → subint unwinds →
thread exits → destroy succeeds. (Happy path.)
2. IPC channel is already broken when we try to
send cancel (e.g., `test_ipc_channel_break_*`)
→ cancel raises `BrokenResourceError` → subint
keeps running unaware → parent hangs waiting for
`subint_exited`. This is what breaks
`test_advanced_faults.py` under subint.
3. Subint is stuck in non-checkpointing Python code
→ portal-cancel msg queued but never processed.
4. Subint is in a shielded cancel scope when cancel
arrives → delay until shield exits.
**Current teardown has a shield-bug too:**
`trio.CancelScope(shield=True)` wrapping the `finally`
block absorbs Ctrl-C, so even when the user tries
to break out they can't. This is the reason
`test_ipc_channel_break_during_stream[break_parent-...
no_msgstream_aclose]` locks up unkillable.
**B.3 hard-kill fix plan (next commit):**
1. Bound `driver_thread.join()` with
`trio.move_on_after(HARD_KILL_TIMEOUT)`.
2. If it times out, log a warning naming the
`interp_id` and switch the driver thread to
`daemon=True` mode (not actually possible after
start — so instead create as daemon=True upfront
and accept the tradeoff of proc-exit not waiting
for a stuck subint).
3. Best-effort `_interpreters.destroy()`; catch the
`InterpreterError` if the subint is still running.
4. Document that the leak is real and the only
escape hatch we have without upstream cooperation.
**Test plan for Phase B.3:**
New `tests/test_subint_cancellation.py` covering:
- SIGINT at spawn
- SIGINT mid-portal-RPC
- SIGINT during shielded section in subint
- Dead-channel cancel (mirror of `test_ipc_channel_
break_during_stream` minimized)
- Non-checkpointing subint (tight `while True` in
user code)
- Per-test `pytest-timeout`-style bounds so the
tests visibly fail instead of wedging the runner
### Sanity-check output (verbatim terminal excerpts)
Post-fix single-test validation:
```
1 passed, 1 warning in 1.06s
```
(same test that was hanging pre-fix:
`test_parent_cancels[...cancel_method=ctx-...False]`)
Full `tests/test_context_stream_semantics.py`
under subint:
```
61 passed, 1 warning in 100.35s (0:01:40)
```
and a clean-cache re-run:
```
61 passed, 1 warning in 100.82s (0:01:40)
```
No regressions on trio backend (same subset):
```
69 passed, 1 skipped, 3 warnings in 89.19s
```
### Commit msg
Also AI-drafted via `/commit-msg` + `rewrap.py
--width 67`. See `git log -1 26fb820`.

View File

@ -0,0 +1,111 @@
---
model: claude-opus-4-7[1m]
service: claude
session: subint-phase-b-hang-classification
timestamp: 2026-04-20T19:27:39Z
git_ref: HEAD (pre-commit; on branch `subint_spawner_backend`)
scope: docs
substantive: true
raw_file: 20260420T192739Z_5e8cd8b2_prompt_io.raw.md
---
## Prompt
Collab between user (`goodboy`) and `claude` to
disambiguate two distinct hang modes hit during
Phase B subint-spawn-backend bringup (issue #379).
The user ran the failing suites, captured `strace`
evidence on hung pytest pids, and set the framing:
> "These cannot be the same bug. Different fix
> paths. Write them up separately or we'll keep
> conflating them."
Follow-on asks:
- Cross-link each doc from its reproducer test so
a future triager lands on the analysis without
needing to grep `ai/conc-anal/`.
- On `test_stale_entry_is_deleted`: arm
`dump_on_hang(seconds=20, path=...)` so a
regression captures a stack dump (pytest stderr
capture otherwise eats `faulthandler` output).
- Keep `test_stale_entry_is_deleted` un-`skip`ped
so the dump file remains inspectable.
Defer the actual fix for the class-2 hang
(Ctrl-C-able, tractor-side bug) to a later commit
per the incremental-commits preference.
## Response summary
Wrote two new `ai/conc-anal/` classification docs
and cross-linked them from the reproducer tests:
1. **`subint_sigint_starvation_issue.md`** —
class 1: abandoned-legacy-subint thread +
shared GIL starves main trio loop →
signal-wakeup-fd pipe fills → SIGINT silently
dropped (`write() = EAGAIN`). Pytest process
un-Ctrl-C-able. Structurally a CPython limit;
blocked on `msgspec` PEP 684 support
(jcrist/msgspec#563). Reproducer:
`test_stale_entry_is_deleted[subint]`.
2. **`subint_cancel_delivery_hang_issue.md`** —
class 2: parent-side trio task parks on an
orphaned IPC channel after subint teardown;
no clean EOF delivered to waiting receiver.
Ctrl-C-able (main trio loop iterating fine).
OUR bug to fix. Candidate fix: explicit
parent-side channel abort in `subint_proc`'s
hard-kill teardown. Reproducer:
`test_subint_non_checkpointing_child`.
Test-side cross-links:
- `tests/discovery/test_registrar.py`:
`test_stale_entry_is_deleted``trio.run(main)`
wrapped in `dump_on_hang(seconds=20,
path=<per-method-tmp>)`; long inline comment
summarizes `strace` evidence + root-cause chain
and points at both docs.
- `tests/test_subint_cancellation.py`:
`test_subint_non_checkpointing_child` docstring
extended with "KNOWN ISSUE (Ctrl-C-able hang)"
section pointing at the class-2 doc + noting
the class-1 doc is NOT what this test hits.
## Files changed
- `ai/conc-anal/subint_sigint_starvation_issue.md`
— new, 205 LOC
- `ai/conc-anal/subint_cancel_delivery_hang_issue.md`
— new, 161 LOC
- `tests/discovery/test_registrar.py` — +52/-1
(arm `dump_on_hang`, inline-comment cross-link)
- `tests/test_subint_cancellation.py` — +26
(docstring "KNOWN ISSUE" block)
## Human edits
Substantive collab — prose was jointly iterated:
- User framed the two-doc split, set the
classification criteria (Ctrl-C-able vs not),
and provided the `strace` evidence.
- User decided to keep `test_stale_entry_is_deleted`
un-`skip`ped (my initial suggestion was
`pytestmark.skipif(spawn_backend=='subint')`).
- User chose the candidate fix ordering for
class 2 and marked "explicit parent-side channel
abort" as the surgical preferred fix.
- User picked the file naming convention
(`subint_<hang-shape>_issue.md`) over my initial
`hang_class_{1,2}.md`.
- Assistant drafted the prose, aggregated prior-
session root-cause findings from Phase B.2/B.3
bringup, and wrote the test-side cross-linking
comments.
No further mechanical edits expected before
commit; user may still rewrap via
`scripts/rewrap.py` if preferred.

View File

@ -0,0 +1,198 @@
---
model: claude-opus-4-7[1m]
service: claude
timestamp: 2026-04-20T19:27:39Z
git_ref: HEAD (pre-commit; will land on branch `subint_spawner_backend`)
diff_cmd: git diff HEAD~1..HEAD
---
Collab between `goodboy` (user) and `claude` (this
assistant) spanning multiple test-run iterations on
branch `subint_spawner_backend`. The user ran the
failing suites, captured `strace` evidence on the
hung pytest pids, and set the direction ("these are
two different hangs — write them up separately so
we don't re-confuse ourselves later"). The assistant
aggregated prior-session findings (Phase B.2/B.3
bringup) into two classification docs + test-side
cross-links. All prose was jointly iterated; the
user had final say on framing and decided which
candidate fix directions to list.
## Per-file generated content
### `ai/conc-anal/subint_sigint_starvation_issue.md` (new, 205 LOC)
> `git diff HEAD~1..HEAD -- ai/conc-anal/subint_sigint_starvation_issue.md`
Writes up the "abandoned-legacy-subint thread wedges
the parent trio loop" class. Key sections:
- **Symptom**`test_stale_entry_is_deleted[subint]`
hangs indefinitely AND is un-Ctrl-C-able.
- **Evidence** — annotated `strace` excerpt showing
SIGINT delivered to pytest, C-level signal handler
tries to write to the signal-wakeup-fd pipe, gets
`write() = -1 EAGAIN (Resource temporarily
unavailable)`. Pipe is full because main trio loop
isn't iterating often enough to drain it.
- **Root-cause chain** — our hard-kill abandons the
`daemon=True` driver OS thread after
`_HARD_KILL_TIMEOUT`; the subint *inside* that
thread is still running `trio.run()`;
`_interpreters.destroy()` cannot force-stop a
running subint (raises `InterpreterError`); legacy
subints share the main GIL → abandoned subint
starves main trio loop → wakeup-fd fills → SIGINT
silently dropped.
- **Why it's structurally a CPython limit** — no
public force-destroy primitive for a running
subint; the only escape is per-interpreter GIL
isolation, gated on msgspec PEP 684 adoption
(jcrist/msgspec#563).
- **Current escape hatch** — harness-side SIGINT
loop in the `daemon` fixture teardown that kills
the bg registrar subproc, eventually unblocking
a parent-side recv enough for the main loop to
drain the wakeup pipe.
### `ai/conc-anal/subint_cancel_delivery_hang_issue.md` (new, 161 LOC)
> `git diff HEAD~1..HEAD -- ai/conc-anal/subint_cancel_delivery_hang_issue.md`
Writes up the *sibling* hang class — same subint
backend, distinct root cause:
- **TL;DR** — Ctrl-C-able, so NOT the SIGINT-
starvation class; main trio loop iterates fine;
ours to fix.
- **Symptom**`test_subint_non_checkpointing_child`
hangs past the expected `_HARD_KILL_TIMEOUT`
budget even after the subint is torn down.
- **Diagnosis** — a parent-side trio task (likely
a `chan.recv()` in `process_messages`) parks on
an orphaned IPC channel; channel was torn down
without emitting a clean EOF /
`BrokenResourceError` to the waiting receiver.
- **Candidate fix directions** — listed in rough
order of preference:
1. Explicit parent-side channel abort in
`subint_proc`'s hard-kill teardown (surgical;
most likely).
2. Audit `process_messages` to add a timeout or
cancel-scope protection that catches the
orphaned-recv state.
3. Wrap subint IPC channel construction in a
sentinel that can force-close from the parent
side regardless of subint liveness.
### `tests/discovery/test_registrar.py` (modified, +52/-1 LOC)
> `git diff HEAD~1..HEAD -- tests/discovery/test_registrar.py`
Wraps the `trio.run(main)` call at the bottom of
`test_stale_entry_is_deleted` in
`dump_on_hang(seconds=20, path=<per-method-tmp>)`.
Adds a long inline comment that:
- Enumerates variant-by-variant status
(`[trio]`/`[mp_*]` = clean; `[subint]` = hangs
+ un-Ctrl-C-able)
- Summarizes the `strace` evidence and root-cause
chain inline (so a future reader hitting this
test doesn't need to cross-ref the doc to
understand the hang shape)
- Points at
`ai/conc-anal/subint_sigint_starvation_issue.md`
for full analysis
- Cross-links to the *sibling*
`subint_cancel_delivery_hang_issue.md` so
readers can tell the two classes apart
- Explains why it's kept un-`skip`ped: the dump
file is useful if the hang ever returns after
a refactor. pytest stderr capture would
otherwise eat `faulthandler` output, hence the
file path.
### `tests/test_subint_cancellation.py` (modified, +26 LOC)
> `git diff HEAD~1..HEAD -- tests/test_subint_cancellation.py`
Extends the docstring of
`test_subint_non_checkpointing_child` with a
"KNOWN ISSUE (Ctrl-C-able hang)" block:
- Describes the current hang: parent-side orphaned
IPC recv after hard-kill; distinct from the
SIGINT-starvation sibling class.
- Cites `strace` distinguishing signal: wakeup-fd
`write() = 1` (not `EAGAIN`) — i.e. main loop
iterating.
- Points at
`ai/conc-anal/subint_cancel_delivery_hang_issue.md`
for full analysis + candidate fix directions.
- Clarifies that the *other* sibling doc
(SIGINT-starvation) is NOT what this test hits.
## Non-code output
### Classification reasoning (why two docs, not one)
The user and I converged on the two-doc split after
running the suites and noticing two *qualitatively
different* hang symptoms:
1. `test_stale_entry_is_deleted[subint]` — pytest
process un-Ctrl-C-able. Ctrl-C at the terminal
does nothing. Must kill-9 from another shell.
2. `test_subint_non_checkpointing_child` — pytest
process Ctrl-C-able. One Ctrl-C at the prompt
unblocks cleanly and the test reports a hang
via pytest-timeout.
From the user: "These cannot be the same bug.
Different fix paths. Write them up separately or
we'll keep conflating them."
`strace` on the `[subint]` hang gave the decisive
signal for the first class:
```
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(5, "\2", 1) = -1 EAGAIN (Resource temporarily unavailable)
```
fd 5 is Python's signal-wakeup-fd pipe. `EAGAIN`
on a `write()` of 1 byte to a pipe means the pipe
buffer is full → reader side (main Python thread
inside `trio.run()`) isn't consuming. That's the
GIL-hostage signature.
The second class's `strace` showed `write(5, "\2",
1) = 1` — clean drain — so the main trio loop was
iterating and the hang had to be on the application
side of things, not the kernel-↔-Python signal
boundary.
### Why the candidate fix for class 2 is "explicit parent-side channel abort"
The second hang class has the trio loop alive. A
parked `chan.recv()` that will never get bytes is
fundamentally a tractor-side resource-lifetime bug
— the IPC channel was torn down (subint destroyed)
but no one explicitly raised
`BrokenResourceError` at the parent-side receiver.
The `subint_proc` hard-kill path is the natural
place to add that notification, because it already
knows the subint is unreachable at that point.
Alternative fix paths (blanket timeouts on
`process_messages`, sentinel-wrapped channels) are
less surgical and risk masking unrelated bugs —
hence the preference ordering in the doc.
### Why we're not just patching the code now
The user explicitly deferred the fix to a later
commit: "Document both classes now, land the fix
for class 2 separately so the diff reviews clean."
This matches the incremental-commits preference
from memory.

View File

@ -0,0 +1,155 @@
---
model: claude-opus-4-7[1m]
service: claude
session: subints-phase-b-hardening-and-fork-block
timestamp: 2026-04-22T20:07:23Z
git_ref: 797f57c
scope: code
substantive: true
raw_file: 20260422T200723Z_797f57c_prompt_io.raw.md
---
## Prompt
Session-spanning work on the Phase B `subint` spawn-backend.
Three distinct sub-phases in one log:
1. **Py3.13 gate tightening** — diagnose a reproducible hang
of subint spawn flow under py3.13 (works on py3.14), trace
to a private `_interpreters` module vintage issue, tighten
our feature gate from "`_interpreters` present" to "public
`concurrent.interpreters` present" (i.e. py3.14+).
2. **Test-harness hardening** — add `pytest-timeout` dep, put
`@pytest.mark.timeout(30, method='thread')` on the
three known-hanging subint tests cataloged in
`ai/conc-anal/subint_sigint_starvation_issue.md`. Separately,
code-review the user's in-flight `skipon_spawn_backend`
marker implementation; find four bugs; refactor to use
`item.iter_markers()`.
3. **`subint_fork` prototype → CPython-block finding** — draft
a WIP `subint_fork_proc` backend using a sub-interpreter as
a launchpad for `os.fork()` (to sidestep trio#1614). User
tests on py3.14, hits
`Fatal Python error: _PyInterpreterState_DeleteExceptMain:
not main interpreter`. Walk CPython sources (local clone at
`~/repos/cpython/`) to pinpoint the refusal
(`Modules/posixmodule.c:728` → `Python/pystate.c:1040`).
Revert implementation to a `NotImplementedError` stub in a
new `_subint_fork.py` submodule, document the finding in a
third `conc-anal/` doc with an upstream-report draft for
the CPython issue tracker. Finally, discuss user's proposed
workaround architecture (main-interp worker-thread
forkserver) and draft a standalone smoke-test script for
feasibility validation.
## Response summary
All three sub-phases landed concrete artifacts:
**Sub-phase 1** — `_subint.py` + `_spawn.py` gates + error
messages updated to require py3.14+ via the public
`concurrent.interpreters` module presence check. Module
docstring revised to explain the empirical reason
(py3.13's private `_interpreters` vintage wedges under
multi-trio-task usage even though minimal standalone
reproducers work fine there). Test-module
`pytest.importorskip` likewise switched.
**Sub-phase 2** — `pytest-timeout>=2.3` added to `testing`
dep group. `@pytest.mark.timeout(30, method='thread')`
applied on:
- `tests/discovery/test_registrar.py::test_stale_entry_is_deleted`
- `tests/test_cancellation.py::test_cancel_while_childs_child_in_sync_sleep`
- `tests/test_cancellation.py::test_multierror_fast_nursery`
- `tests/test_subint_cancellation.py::test_subint_non_checkpointing_child`
`method='thread'` documented inline as load-bearing — the
GIL-starvation path that drops `SIGINT` would equally drop
`SIGALRM`, so only a watchdog-thread timeout can reliably
escape.
`skipon_spawn_backend` plugin refactored into a single
`iter_markers`-driven loop in `pytest_collection_modifyitems`
(~30 LOC replacing ~30 LOC of nested conditionals). Four
bugs dissolved: wrong `.get()` key, module-level `pytestmark`
suppressing per-test marks, unhandled `pytestmark = [list]`
form, `pytest.Makr` typo. Marker help text updated to
document the variadic backend-list + `reason=` kwarg
surface.
**Sub-phase 3** — Prototype drafted (then reverted):
- `tractor/spawn/_subint_fork.py` — new dedicated submodule
housing the `subint_fork_proc` stub. Module docstring +
fn docstring explain the attempt, the CPython-level
block, and the reason for keeping the stub in-tree
(documentation of the attempt + starting point if CPython
ever lifts the restriction).
- `tractor/spawn/_spawn.py``'subint_fork'` registered as a
`SpawnMethodKey` literal + in `_methods`, so
`--spawn-backend=subint_fork` routes to a clean
`NotImplementedError` pointing at the analysis doc rather
than an "invalid backend" error.
- `ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
third sibling conc-anal doc. Full annotated CPython
source walkthrough from user-visible
`Fatal Python error` → `Modules/posixmodule.c:728
PyOS_AfterFork_Child()` → `Python/pystate.c:1040
_PyInterpreterState_DeleteExceptMain()` gate. Includes a
copy-paste-ready upstream-report draft for the CPython
issue tracker with a two-tier ask (ideally "make it work",
minimally "cleaner error than `Fatal Python error`
aborting the child").
- `ai/conc-anal/subint_fork_from_main_thread_smoketest.py`
standalone zero-tractor-import CPython-level smoke test
for the user's proposed workaround architecture
(forkserver on a main-interp worker thread). Four
argparse-driven scenarios: `control_subint_thread_fork`
(reproduces the known-broken case as a test-harness
sanity), `main_thread_fork` (baseline), `worker_thread_fork`
(architectural assertion), `full_architecture`
(end-to-end trio-in-subint in forked child). User will
run on py3.14 next.
## Files changed
See `git log 26fb820..HEAD --stat` for the canonical list.
New files this session:
- `tractor/spawn/_subint_fork.py`
- `ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
- `ai/conc-anal/subint_fork_from_main_thread_smoketest.py`
Modified (diff pointers in raw log):
- `tractor/spawn/_subint.py` (py3.14 gate)
- `tractor/spawn/_spawn.py` (`subint_fork` registration)
- `tractor/_testing/pytest.py` (`skipon_spawn_backend` refactor)
- `pyproject.toml` (`pytest-timeout` dep)
- `tests/discovery/test_registrar.py`,
`tests/test_cancellation.py`,
`tests/test_subint_cancellation.py` (timeout marks,
cross-refs to conc-anal docs)
## Human edits
Several back-and-forth iterations with user-driven
adjustments during the session:
- User corrected my initial mis-classification of
`test_cancel_while_childs_child_in_sync_sleep[subint-False]`
as Ctrl-C-able — second strace showed `EAGAIN`, putting
it squarely in class A (GIL-starvation). Re-analysis
preserved in the raw log.
- User independently fixed the `.get(reason)``.get('reason', reason)`
bug in the marker plugin before my review; preserved their
fix.
- User suggested moving the `subint_fork_proc` stub from
the bottom of `_subint.py` into its own
`_subint_fork.py` submodule — applied.
- User asked to keep the forkserver-architecture
discussion as background for the smoke-test rather than
committing to a tractor-side refactor until the smoke
test validates the CPython-level assumptions.
Commit messages in this range (b025c982 … 797f57c) were
drafted via `/commit-msg` + `rewrap.py --width 67`; user
landed them with the usual review.

View File

@ -0,0 +1,343 @@
---
model: claude-opus-4-7[1m]
service: claude
timestamp: 2026-04-22T20:07:23Z
git_ref: 797f57c
diff_cmd: git log 26fb820..HEAD # all session commits since the destroy-race fix log
---
Session-spanning conversation covering the Phase B hardening
of the `subint` spawn-backend and an investigation into a
proposed `subint_fork` follow-up which turned out to be
blocked at the CPython level. This log is a narrative capture
of the substantive turns (not every message) and references
the concrete code + docs the session produced. Per diff-ref
mode the actual code diffs are pointed at via `git log` on
each ref rather than duplicated inline.
## Narrative of the substantive turns
### Py3.13 hang / gate tightening
Diagnosed a reproducible hang of the `subint` backend under
py3.13 (test_spawning tests wedge after root-actor bringup).
Root cause: py3.13's vintage of the private `_interpreters` C
module has a latent thread/subint-interaction issue that
`_interpreters.exec()` silently fails to progress under
tractor's multi-trio usage pattern — even though a minimal
standalone `threading.Thread` + `_interpreters.exec()`
reproducer works fine on the same Python. Empirically
py3.14 fixes it.
Fix (from this session): tighten the `_has_subints` gate in
`tractor.spawn._subint` from "private module importable" to
"public `concurrent.interpreters` present" — which is 3.14+
only. This leaves `subint_proc()` unchanged in behavior (we
still call the *private* `_interpreters.create('legacy')`
etc. under the hood) but refuses to engage on 3.13.
Also tightened the matching gate in
`tractor.spawn._spawn.try_set_start_method('subint')` and
rev'd the corresponding error messages from "3.13+" to
"3.14+" with a sentence explaining why. Test-module
`pytest.importorskip` switched from `_interpreters`
`concurrent.interpreters` to match.
### `pytest-timeout` dep + `skipon_spawn_backend` marker plumbing
Added `pytest-timeout>=2.3` to the `testing` dep group with
an inline comment pointing at the `ai/conc-anal/*.md` docs.
Applied `@pytest.mark.timeout(30, method='thread')` (the
`method='thread'` is load-bearing — `signal`-method
`SIGALRM` suffers the same GIL-starvation path that drops
`SIGINT` in the class-A hang pattern) to the three known-
hanging subint tests cataloged in
`subint_sigint_starvation_issue.md`.
Separately code-reviewed the user's newly-staged
`skipon_spawn_backend` pytest marker implementation in
`tractor/_testing/pytest.py`. Found four bugs:
1. `modmark.kwargs.get(reason)` called `.get()` with the
*variable* `reason` as the dict key instead of the string
`'reason'` — user-supplied `reason=` was never picked up.
(User had already fixed this locally via `.get('reason',
reason)` by the time my review happened — preserved that
fix.)
2. The module-level `pytestmark` branch suppressed per-test
marker handling (the `else:` was an `else:` rather than
independent iteration).
3. `mod_pytestmark.mark` assumed a single
`MarkDecorator` — broke on the valid-pytest `pytestmark =
[mark, mark]` list form.
4. Typo: `pytest.Makr``pytest.Mark`.
Refactored the hook to use `item.iter_markers(name=...)`
which walks function + class + module scopes uniformly and
handles both `pytestmark` forms natively. ~30 LOC replaced
the original ~30 LOC of nested conditionals, all four bugs
dissolved. Also updated the marker help string to reflect
the variadic `*start_methods` + `reason=` surface.
### `subint_fork_proc` prototype attempt
User's hypothesis: the known trio+`fork()` issues
(python-trio/trio#1614) could be sidestepped by using a
sub-interpreter purely as a launchpad — `os.fork()` from a
subint that has never imported trio → child is in a
trio-free context. In the child `execv()` back into
`python -m tractor._child` and the downstream handshake
matches `trio_proc()` identically.
Drafted the prototype at `tractor/spawn/_subint.py`'s bottom
(originally — later moved to its own submod, see below):
launchpad-subint creation, bootstrap code-string with
`os.fork()` + `execv()`, driver-thread orchestration,
parent-side `ipc_server.wait_for_peer()` dance. Registered
`'subint_fork'` as a new `SpawnMethodKey` literal, added
`case 'subint' | 'subint_fork':` feature-gate arm in
`try_set_start_method()`, added entry in `_methods` dict.
### CPython-level block discovered
User tested on py3.14 and saw:
```
Fatal Python error: _PyInterpreterState_DeleteExceptMain: not main interpreter
Python runtime state: initialized
Current thread 0x00007f6b71a456c0 [subint-fork-lau] (most recent call first):
File "<script>", line 2 in <module>
<script>:2: DeprecationWarning: This process (pid=802985) is multi-threaded, use of fork() may lead to deadlocks in the child.
```
Walked CPython sources (local clone at `~/repos/cpython/`):
- **`Modules/posixmodule.c:728` `PyOS_AfterFork_Child()`** —
post-fork child-side cleanup. Calls
`_PyInterpreterState_DeleteExceptMain(runtime)` with
`goto fatal_error` on non-zero status. Has the
`// Ideally we could guarantee tstate is running main.`
self-acknowledging-fragile comment directly above.
- **`Python/pystate.c:1040`
`_PyInterpreterState_DeleteExceptMain()`** — the
refusal. Hard `PyStatus_ERR("not main interpreter")` gate
when `tstate->interp != interpreters->main`. Docstring
formally declares the precondition ("If there is a
current interpreter state, it *must* be the main
interpreter"). `XXX` comments acknowledge further latent
issues within.
Definitive answer to "Open Question 1" of the prototype
docstring: **no, CPython does not support `os.fork()` from
a non-main sub-interpreter**. Not because the fork syscall
is blocked (it isn't — the parent returns a valid pid),
but because the child cannot survive CPython's post-fork
initialization. This is an enforced invariant, not an
incidental limitation.
### Revert: move to stub submod + doc the finding
Per user request:
1. Reverted the working `subint_fork_proc` body to a
`NotImplementedError` stub, MOVED to its own submod
`tractor/spawn/_subint_fork.py` (keeps `_subint.py`
focused on the working `subint_proc` backend).
2. Updated `_spawn.py` to import the stub from the new
submod path; kept `'subint_fork'` in `SpawnMethodKey` +
`_methods` so `--spawn-backend=subint_fork` routes to a
clean `NotImplementedError` with pointer to the analysis
doc rather than an "invalid backend" error.
3. Wrote
`ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
with the full annotated CPython walkthrough + an
upstream-report draft for the CPython issue tracker.
Draft has a two-tier ask: ideally "make it work"
(pre-fork tstate-swap hook or `DeleteExceptFor(interp)`
variant), minimally "give us a clean `RuntimeError` in
the parent instead of a `Fatal Python error` aborting
the child silently".
### Design discussion — main-interp-thread forkserver workaround
User proposed: set up a "subint forking server" that fork()s
on behalf of subint callers. Core insight: the CPython gate
is on `tstate->interp`, not thread identity, so **any thread
whose tstate is main-interp** can fork cleanly. A worker
thread attached to main-interp (never entering a subint)
satisfies the precondition.
Structurally this is `mp.forkserver` (which tractor already
has as `mp_forkserver`) but **in-process**: instead of a
separate Python subproc as the fork server, we'd put the
forkserver on a thread in the tractor parent process. Pros:
faster spawn (no IPC marshalling to external server + no
separate Python startup), inherits already-imported modules
for free. Cons: less crash isolation (forkserver failure
takes the whole process).
Required tractor-side refactor: move the root actor's
`trio.run()` off main-interp-main-thread (so main-thread can
run the forkserver loop). Nontrivial; approximately the same
magnitude as "Phase C".
The design would also not fully resolve the class-A
GIL-starvation issue because child actors' trio still runs
inside subints (legacy config, msgspec PEP 684 pending).
Would mitigate SIGINT-starvation specifically if signal
handling moves to the forkserver thread.
Recommended pre-commitment: a standalone CPython-only smoke
test validating the four assumptions the arch rests on,
before any tractor-side work.
### Smoke-test script drafted
Wrote `ai/conc-anal/subint_fork_from_main_thread_smoketest.py`:
argparse-driven, four scenarios (`control_subint_thread_fork`
reproducing the known-broken case, `main_thread_fork`
baseline, `worker_thread_fork` the architectural assertion,
`full_architecture` end-to-end with trio in a subint in the
forked child). No `tractor` imports; pure CPython + `_interpreters`
+ `trio`. Bails cleanly on py<3.14. Pass/fail banners per
scenario.
User will validate on their py3.14 env next.
## Per-code-artifact provenance
### `tractor/spawn/_subint_fork.py` (new submod)
> `git show 797f57c -- tractor/spawn/_subint_fork.py`
NotImplementedError stub for the subint-fork backend. Module
docstring + fn docstring explain the attempt, the CPython
block, and why the stub is kept in-tree. No runtime behavior
beyond raising with a pointer at the conc-anal doc.
### `tractor/spawn/_spawn.py` (modified)
> `git log 26fb820..HEAD -- tractor/spawn/_spawn.py`
- Added `'subint_fork'` to `SpawnMethodKey` literal with a
block comment explaining the CPython-level block.
- Generalized the `case 'subint':` arm to `case 'subint' |
'subint_fork':` since both use the same py3.14+ gate.
- Registered `subint_fork_proc` in `_methods` with a
pointer-comment at the analysis doc.
### `tractor/spawn/_subint.py` (modified across session)
> `git log 26fb820..HEAD -- tractor/spawn/_subint.py`
- Tightened `_has_subints` gate: dual-requires public
`concurrent.interpreters` + private `_interpreters`
(tests for py3.14-or-newer on the public-API presence,
then uses the private one for legacy-config subints
because `msgspec` still blocks the public isolated mode
per jcrist/msgspec#563).
- Updated module docstring, `subint_proc()` docstring, and
gate-error messages to reflect the 3.14+ requirement and
the reason (py3.13 wedges under multi-trio usage even
though the private module exists there).
### `tractor/_testing/pytest.py` (modified)
> `git log 26fb820..HEAD -- tractor/_testing/pytest.py`
- New `skipon_spawn_backend(*start_methods, reason=...)`
pytest marker expanded into `pytest.mark.skip(reason=...)`
at collection time via
`pytest_collection_modifyitems()`.
- Implementation uses `item.iter_markers(name=...)` which
walks function + class + module scopes uniformly and
handles both `pytestmark = <single Mark>` and
`pytestmark = [mark, ...]` forms natively. ~30-LOC
single-loop refactor replacing a prior nested
conditional that had four bugs (see "Review" narrative
above).
- Added `pytest.Config` / `pytest.Function` /
`pytest.FixtureRequest` type annotations on fixture
signatures while touching the file.
### `pyproject.toml` (modified)
> `git log 26fb820..HEAD -- pyproject.toml`
Added `pytest-timeout>=2.3` to `testing` dep group with
comment pointing at the `ai/conc-anal/` docs.
### `tests/discovery/test_registrar.py`,
`tests/test_subint_cancellation.py`,
`tests/test_cancellation.py` (modified)
> `git log 26fb820..HEAD -- tests/`
Applied `@pytest.mark.timeout(30, method='thread')` on
known-hanging subint tests. Extended comments to cross-
reference the `ai/conc-anal/*.md` docs. `method='thread'`
is documented inline as load-bearing (`signal`-method
SIGALRM suffers the same GIL-starvation path that drops
SIGINT).
### `ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md` (new)
> `git show 797f57c -- ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
Third sibling doc under `conc-anal/`. Structure: TL;DR,
context ("what we tried"), symptom (the user's exact
`Fatal Python error` output), CPython source walkthrough
with excerpted snippets from `posixmodule.c` +
`pystate.c`, chain summary, definitive answer to Open
Question 1, `## Upstream-report draft (for CPython issue
tracker)` section with a two-tier ask, references.
### `ai/conc-anal/subint_fork_from_main_thread_smoketest.py` (new, THIS turn)
Zero-tractor-import smoke test for the proposed workaround
architecture. Four argparse-driven scenarios covering the
control case + baseline + arch-critical case + end-to-end.
Pass/fail banners per scenario; clean `--help` output;
py3.13 early-exit.
## Non-code output (verbatim)
### The `strace` signature that kicked off the CPython
walkthrough
```
--- SIGINT {si_signo=SIGINT, si_code=SI_KERNEL} ---
write(16, "\2", 1) = -1 EAGAIN (Resource temporarily unavailable)
rt_sigreturn({mask=[WINCH]}) = 139801964688928
```
### Key user quotes framing the direction
> ok actually we get this [fatal error] ... see if you can
> take a look at what's going on, in particular wrt to
> cpython's sources. pretty sure there's a local copy at
> ~/repos/cpython/
(Drove the CPython walkthrough that produced the
definitive refusal chain.)
> is there any reason we can't just sidestep this "must fork
> from main thread in main subint" issue by simply ensuring
> a "subint forking server" is always setup prior to
> invoking trio in a non-main-thread subint ...
(Drove the main-interp-thread-forkserver architectural
discussion + smoke-test script design.)
### CPython source tags for quick jump-back
```
Modules/posixmodule.c:728 PyOS_AfterFork_Child()
Modules/posixmodule.c:753 // Ideally we could guarantee tstate is running main.
Modules/posixmodule.c:778 status = _PyInterpreterState_DeleteExceptMain(runtime);
Python/pystate.c:1040 _PyInterpreterState_DeleteExceptMain()
Python/pystate.c:1044-1047 tstate->interp != main → PyStatus_ERR("not main interpreter")
```

View File

@ -0,0 +1,146 @@
---
model: claude-opus-4-7[1m]
service: claude
session: trio-0.33-subproc-supervisor-retroactive
timestamp: 2026-06-01T23:14:29Z
git_ref: 0e3e008b
scope: code
substantive: true
raw_file: 20260601T231429Z_0e3e008b_prompt_io.raw.md
---
## Prompt
**RETROACTIVE LOG** — original session prompts not
preserved; reconstructed from the staged work product.
The work designs a `trio.Nursery.start()`-style wrapper
around `trio.run_process()` for SC-friendly subprocess
supervision. From the resulting code shape, the
prompting intent was:
1. Surface rc!=0 `CalledProcessError` DETERMINISTICALLY,
without the nursery-eg-wrapping that complicates
`collapse_eg()` usage and races the relay reader on
trio's `check=True`-driven cancel cascade.
2. ALWAYS isolate the parent controlling-tty so a
spawned child can't emit terminal control-seqs onto
the launching tty (clobbering scrollback). Default
`stdin=DEVNULL`; default `stdout=DEVNULL` unless
explicitly relayed/overridden; distinguish "caller
passed nothing" from "caller passed `None` for
inherit".
3. Optional live per-line relay of child std-streams to
the `tractor` log — STREAMED (not
buffered-until-exit) so long-lived daemon output is
visible during the run. Pick a custom log level that
shows at usual `info`/`devx` console levels but is
separately filterable.
4. Concurrent pipe-drain reader MANDATORY when piping
without `capture_*` — without it the child blocks on
`write()` once the OS pipe buffer fills (~64KiB),
causing deadlocks on output bursts.
5. Non-blocking `tn.start()` semantics: hand the live
`trio.Process` to the parent immediately;
supervise/relay run to completion in the supervisor
coro.
6. Hermetic `trio`-only unit tests (no actor-runtime)
covering each of: per-line relay, tty isolation,
no-deadlock on >64KiB unnewlined output, CPE
rebuild w/ stderr relay, CPE rebuild on the silent
drain+capture path.
## Response summary
Adds `tractor/trionics/_subproc.py` (296 LOC) +
`tests/trionics/test_subproc.py` (230 LOC) + a
re-export in `tractor/trionics/__init__.py`.
**`supervise_run_process()`** (public, re-exported)
- `check=False` is forced to `trio.run_process`; the
rc-check runs in the supervisor coro AFTER `own_tn`
unwinds (both the child AND the relay readers have
hit EOF + fully drained). A BARE
`subprocess.CalledProcessError` is rebuilt + raised
from there, with `.stderr` bytes passed in the
constructor AND attached as an `add_note()`'d
`|_.stderr:` block for legible teardown logs.
- `stdin=DEVNULL` always. `stdout` default chosen via a
`_UNSET` sentinel: `relay_stdout=True` → PIPE,
explicit `stdout=...` → as given, else `DEVNULL`.
`stderr` defaults to PIPE whenever we relay OR need
the CPE note (when `check=True`), else `DEVNULL`.
- `relay_level='io'` (custom level 21; sorts just
above stdlib `INFO`=20 so it shows at usual
`info`/`devx` levels and stays separately
filterable). `runtime`=15 would silently filter at
default levels, so it's rejected as a default.
- `task_status.started(trio_proc)` delivers the live
process immediately. The internal `own_tn`
supervises `trio.run_process` + any relay readers to
completion.
- `**run_process_kwargs` forward verbatim;
`stdin/stdout/stderr/check` are MANAGED keys
(override on conflict).
- Crash-handling deliberately NOT baked in — compose
`maybe_open_crash_handler()` on top at the call-site.
**`_relay_stream_lines()`** (internal helper)
- Three modes (combinable): `emit`-only (live per-line
relay), `accum`-only (silent drain+capture for a CPE
note), or both (live relay AND capture).
- Per-line split handles cross-chunk residuals via a
rolling `residual` bytes buffer; flushes any trailing
un-newline-term'd line at EOF.
- `async with stream:` ensures aclose at EOF/cancel
(mirrors trio's internal `_subprocess` drain idiom).
**`_add_stderr_note()`** (internal helper)
- `add_note()`s a `textwrap.indent(...)`'d
`|_.stderr:` block onto a `CalledProcessError` for
teardown logs.
**Tests** (5 hermetic, trio-only) — `_capture_relay`
fixture monkeypatches `_subproc.log.<level>` to a list:
- `test_stdout_relayed_per_line`: per-line stdout
relay carries each `line=N` to the records.
- `test_parent_tty_isolated`: `readlink /proc/self/fd/0`
and `fd/1` from the child show `pipe:` (fd1) +
`/dev/null` (fd0); NO `/dev/pts/*`.
- `test_no_deadlock_on_big_unnewlined_output`: 200KiB
of `x` with no newlines completes inside
`fail_after(2)` — exercises the concurrent drain.
- `test_stderr_relay_and_cpe_rebuild`: rc=3 with
`relay_stderr=True` raises bare CPE
(via `collapse_eg()`) with `b'boom' in cpe.stderr`,
the note attached, AND per-line live relay.
- `test_nonrelay_cpe_note`: rc=7 with no relay still
produces CPE with `.stderr` + note via the silent
drain+capture path.
## Files changed
- `tractor/trionics/_subproc.py` — NEW. Public
`supervise_run_process()` + helpers
`_relay_stream_lines()` / `_add_stderr_note()` + the
`_UNSET` sentinel.
- `tests/trionics/test_subproc.py` — NEW. 5 hermetic
trio-only tests + `_capture_relay` monkeypatch
fixture.
- `tractor/trionics/__init__.py` — re-export
`supervise_run_process`.
## Human edits
**RETROACTIVE**: this log is being written from the
staged diff, not from a live session. The code as
staged is the canonical artifact; any human edits the
user made during the originating design session are
already integrated and cannot be separated post-hoc.
The `.raw.md` sibling is a diff-pointer placeholder,
NOT a pre-edit transcript.
Future prompt-io entries for in-flight work should be
written DURING the design session per the skill
contract so the pre-edit `.raw.md` captures the
unedited model output for genuine provenance.

View File

@ -0,0 +1,106 @@
---
model: claude-opus-4-7[1m]
service: claude
timestamp: 2026-06-01T23:14:29Z
git_ref: 0e3e008b
diff_cmd: git diff HEAD~1..HEAD
---
# RETROACTIVE — original model output not preserved
This `.raw.md` would normally contain the verbatim
pre-human-edit response from the design session that
produced the staged `_subproc.py` module + tests. That
session's transcript is not available, so this file
serves as a diff-pointer placeholder + transparency
note.
## Authoritative artifact
The committed code IS the artifact of record. Once the
companion commit lands, the unified diff is:
> `git diff HEAD~1..HEAD -- tractor/trionics/_subproc.py`
> `git diff HEAD~1..HEAD -- tests/trionics/test_subproc.py`
> `git diff HEAD~1..HEAD -- tractor/trionics/__init__.py`
Before committing, substitute `--cached` for the
pre-commit form.
## What is NOT here
Because this is retroactive:
- No verbatim chain-of-thought / discussion prose from
the design session.
- No rejected alternatives the model considered before
arriving at the final shape (e.g. whether the
rc-check should live inside `own_tn` vs after it; the
`_UNSET` sentinel vs a `None`-means-DEVNULL
convention; `io` vs `info` as the default relay
level).
- No pre-edit code blocks as the model first emitted
them, separable from any user cleanup applied before
the diff was staged.
## Inferred design choices visible in the final code
(Documented here because they're the kind of decision
detail an unedited raw transcript would have captured.)
1. **Post-drain rc-check in the supervisor coro body,
AFTER `own_tn.__aexit__`.** Placing the
`CalledProcessError` raise here (not inside
`own_tn`) means the EG-unwrap happens at the OUTER
`tn.start()` boundary — callers do `collapse_eg()`
if they want bare. Doing the raise INSIDE `own_tn`
would cancel the still-draining relay reader
mid-flight and lose stderr lines.
2. **`_UNSET` sentinel for `stdout`.** A plain default
of `None` couldn't distinguish "use the safe
`DEVNULL` default" from "caller explicitly passed
`None` (inherit, presumably knowingly)". The
sentinel keeps the SAFE default while letting power
users opt into inherit.
3. **`relay_level='io'` (custom level 21).** Chosen to
sort just above stdlib `INFO`=20 so a default
`--ll info` shows the relay, but it remains a
distinct level so users can filter
`tractor.trionics:io` separately. Picking
`runtime`=15 would have made the relay invisible at
default verbosity (a footgun for daemon supervisors
whose whole point is "I want to see this output").
4. **Reader is MANDATORY, not opt-in cosmetic.** With
`stdout=PIPE` / `stderr=PIPE` we OWN the drain
responsibility — there's no `trio.capture_*` running
under the hood here. The ~64KiB OS pipe buffer
means a child writing more than that without us
reading hangs at `write()` — a deadlock that won't
show up in small-output tests, which is why the
200KiB-no-newline test is in the suite.
5. **`task_status.started(trio_proc)` BEFORE the
`own_tn` exits.** Without this, `tn.start()` would
block until the child exits — losing the "start a
long-lived daemon and continue with parent work"
use case. With it, the parent gets the live process
handle immediately and the supervise+relay tasks
run in the supervisor coro until the child exits.
6. **`__notes__` via `add_note()` for the CPE
`.stderr`.** The `.stderr` attribute is what
`subprocess` callers expect; the `add_note()` is
what trio's exception-rendering shows. Both wired so
programmatic AND human consumers see the stderr at
teardown.
## Honesty statement
This file's content is RECONSTRUCTED from the staged
code, not extracted from a verbatim model transcript.
The prompt-io skill's intent is for the `.raw.md` to
be a pre-edit fossil; that's not possible here. Future
work should write the prompt-io entry DURING the
design session.

View File

@ -104,7 +104,7 @@ testing = [
repl = [ repl = [
"pyperclip>=1.9.0", "pyperclip>=1.9.0",
"prompt-toolkit>=3.0.50", "prompt-toolkit>=3.0.50",
"xonsh>=0.23.0", "xonsh>=0.23.8",
"psutil>=7.0.0", "psutil>=7.0.0",
] ]
lint = [ lint = [

View File

@ -5,6 +5,7 @@
from __future__ import annotations from __future__ import annotations
import platform import platform
import os import os
import re
import signal import signal
import time import time
from typing import ( from typing import (
@ -294,6 +295,26 @@ def expect(
PROMPT = r"\(Pdb\+\)" PROMPT = r"\(Pdb\+\)"
# Strip terminal color / ANSI-VT100 escape sequences so
# substring matching against REPL + traceback output stays
# robust to color leakage — Python 3.13's colored tracebacks,
# `pdbp`'s pygments highlighting, etc. — even when
# `PYTHON_COLORS=0` (set in the `spawn` fixture) isn't honored
# by every renderer in the spawned subproc.
# Regex per https://stackoverflow.com/a/14693789
_ansi_re: re.Pattern = re.compile(
r'\x1B(?:[@-Z\\-_]|\[[0-?]*[ -/]*[@-~])'
)
def ansi_strip(text: str) -> str:
'''
Remove ANSI/VT100 escape sequences from `text`.
'''
return _ansi_re.sub('', text)
def in_prompt_msg( def in_prompt_msg(
child: SpawnBase, child: SpawnBase,
parts: list[str], parts: list[str],
@ -313,7 +334,7 @@ def in_prompt_msg(
''' '''
__tracebackhide__: bool = False __tracebackhide__: bool = False
before: str = str(child.before.decode()) before: str = ansi_strip(str(child.before.decode()))
for part in parts: for part in parts:
if part not in before: if part not in before:
if pause_on_false: if pause_on_false:
@ -333,9 +354,9 @@ def in_prompt_msg(
return True return True
# TODO: todo support terminal color-chars stripping so we can match # NB: color-char stripping (so we can match against call-stack
# against call stack frame output from the the 'll' command the like! # frame output from the `ll` command and the like) is handled by
# -[ ] SO answer for stipping ANSI codes: https://stackoverflow.com/a/14693789 # `ansi_strip()` applied inside `in_prompt_msg()` + below.
def assert_before( def assert_before(
child: SpawnBase, child: SpawnBase,
patts: list[str], patts: list[str],
@ -356,7 +377,7 @@ def assert_before(
err_on_false=True, err_on_false=True,
**kwargs **kwargs
) )
before: str = str(child.before.decode()) before: str = ansi_strip(str(child.before.decode()))
return before return before

View File

@ -1186,7 +1186,12 @@ def test_shield_pause(
"('cancelled_before_pause'", # actor name "('cancelled_before_pause'", # actor name
_repl_fail_msg, _repl_fail_msg,
"trio.Cancelled", "trio.Cancelled",
"raise Cancelled._create()", # trio >=0.30 raises via a multi-line
# `raise Cancelled._create(source=.., reason=..,
# source_task=..)` (cancel-reason metadata), so
# match the open-paren form only, NOT the legacy
# bare `()`.
"raise Cancelled._create(",
# we should be handling a taskc inside # we should be handling a taskc inside
# the first `.port_mortem()` sin-shield! # the first `.port_mortem()` sin-shield!
@ -1204,7 +1209,12 @@ def test_shield_pause(
"('root'", # actor name "('root'", # actor name
_repl_fail_msg, _repl_fail_msg,
"trio.Cancelled", "trio.Cancelled",
"raise Cancelled._create()", # trio >=0.30 raises via a multi-line
# `raise Cancelled._create(source=.., reason=..,
# source_task=..)` (cancel-reason metadata), so
# match the open-paren form only, NOT the legacy
# bare `()`.
"raise Cancelled._create(",
# handling a taskc inside the first unshielded # handling a taskc inside the first unshielded
# `.port_mortem()`. # `.port_mortem()`.

View File

@ -8,9 +8,9 @@ after `Actor` construction, so any spawned sub-actor process
should: should:
- have `argv[0]` (== `/proc/<pid>/cmdline`) start with - have `argv[0]` (== `/proc/<pid>/cmdline`) start with
`tractor[<aid.reprol()>]` `<_def_prefix>[<aid.reprol()>]` (currently `_subactor[]`)
- have `/proc/<pid>/comm` start with `tractor[` (kernel - have `/proc/<pid>/comm` start with `<_def_prefix>[`
truncates to ~15 bytes) (kernel truncates to ~15 bytes)
- be detected as a tractor sub-actor by - be detected as a tractor sub-actor by
`_is_tractor_subactor(pid)` via the cmdline marker. `_is_tractor_subactor(pid)` via the cmdline marker.
@ -27,7 +27,10 @@ import trio
import tractor import tractor
from tractor.runtime._runtime import Actor from tractor.runtime._runtime import Actor
from tractor.devx._proctitle import set_actor_proctitle from tractor.devx._proctitle import (
set_actor_proctitle,
_def_prefix,
)
from tractor._testing._reap import ( from tractor._testing._reap import (
_is_tractor_subactor, _is_tractor_subactor,
_read_cmdline, _read_cmdline,
@ -41,8 +44,9 @@ _non_linux: bool = platform.system() != 'Linux'
def test_set_actor_proctitle_format(): def test_set_actor_proctitle_format():
''' '''
`set_actor_proctitle()` returns the canonical `set_actor_proctitle()` returns the canonical
`tractor[<aid.reprol()>]` form and actually mutates `<_def_prefix>[<aid.reprol()>]` form (currently
the running proc's title. `_subactor[]`) and actually mutates the running
proc's title.
''' '''
pytest.importorskip( pytest.importorskip(
@ -60,12 +64,14 @@ def test_set_actor_proctitle_format():
) )
title: str = set_actor_proctitle(actor) title: str = set_actor_proctitle(actor)
# canonical wrapping: `tractor[<aid.reprol()>]`. We # canonical wrapping: `<_def_prefix>[<aid.reprol()>]`.
# compare against the runtime-computed `reprol()` # We source BOTH the prefix (`_def_prefix`) and the
# rather than a hard-coded value so the test stays # runtime-computed `reprol()` rather than hard-coding,
# decoupled from `Aid.reprol()`'s internal format # so the test stays decoupled from the prefix shape
# (currently `<name>@<pid>`, but could evolve). # (flipped to `_subactor` in `3a45dbd5`) AND from
expected: str = f'tractor[{actor.aid.reprol()}]' # `Aid.reprol()`'s internal format (currently
# `<name>@<pid>`, but could evolve).
expected: str = f'{_def_prefix}[{actor.aid.reprol()}]'
assert title == expected assert title == expected
# sanity: the actor's name must be in the title # sanity: the actor's name must be in the title
# somewhere (so a future `reprol()` change that # somewhere (so a future `reprol()` change that
@ -140,15 +146,17 @@ def test_subactor_proctitle_visible_via_proc():
) )
pid, info = matched[0] pid, info = matched[0]
# canonical proctitle prefix in cmdline (full form) # canonical proctitle prefix in cmdline (full form);
assert info['cmdline'].startswith('tractor[proctitle_boi@'), ( # prefix sourced from `_def_prefix` so it tracks the
f'cmdline missing `tractor[proctitle_boi@…]` prefix: ' # `3a45dbd5` flip (`tractor[` -> `_subactor[`).
assert info['cmdline'].startswith(f'{_def_prefix}[proctitle_boi@'), (
f'cmdline missing `{_def_prefix}[proctitle_boi@…]` prefix: '
f'{info["cmdline"]!r}' f'{info["cmdline"]!r}'
) )
# comm is kernel-truncated to ~15 bytes — just check the # comm is kernel-truncated to ~15 bytes — just check the
# `tractor[` prefix made it. # `<_def_prefix>[` prefix made it.
assert info['comm'].startswith('tractor['), ( assert info['comm'].startswith(f'{_def_prefix}['), (
f'comm missing `tractor[` prefix: {info["comm"]!r}' f'comm missing `{_def_prefix}[` prefix: {info["comm"]!r}'
) )
# intrinsic-signal detector should match. # intrinsic-signal detector should match.
assert info['is_tractor'] is True assert info['is_tractor'] is True

View File

View File

@ -0,0 +1,652 @@
'''
Integration exercises for the `tractor.spawn._main_thread_forkserver`
submodule at three tiers:
1. the low-level primitives
(`fork_from_worker_thread()` from `_main_thread_forkserver`
+ `run_subint_in_worker_thread()` from
`_subint_forkserver`) driven from inside a real
`trio.run()` in the parent process,
2. the full `main_thread_forkserver_proc` spawn backend wired
through tractor's normal actor-nursery + portal-RPC
machinery i.e. `open_root_actor` + `open_nursery` +
`run_in_actor` against a subactor spawned via fork from a
main-interp worker thread.
Background
----------
`ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
establishes that `os.fork()` from a non-main sub-interpreter
aborts the child at the CPython level. The sibling
`subint_fork_from_main_thread_smoketest.py` proves the escape
hatch: fork from a main-interp *worker thread* (one that has
never entered a subint) works, and the forked child can then
host its own `trio.run()` inside a fresh subint.
Those smoke-test scenarios are standalone no trio runtime
in the *parent*. Tiers (1)+(2) here cover the primitives
driven from inside `trio.run()` in the parent, and tier (3)
(the `*_spawn_basic` test) drives the registered
`main_thread_forkserver` spawn backend end-to-end against
the tractor runtime.
Gating
------
- py3.14+ (via `concurrent.interpreters` presence)
- no `--spawn-backend` restriction the backend-level test
flips `tractor.spawn._spawn._spawn_method` programmatically
(via `try_set_start_method('main_thread_forkserver')`) and
restores it on teardown, so these tests are independent of
the session-level CLI backend choice.
'''
from __future__ import annotations
from functools import partial
import os
from pathlib import Path
import platform
import select
import signal
import subprocess
import sys
import time
import pytest
import trio
import tractor
from tractor.devx import dump_on_hang
# Gate: subint forkserver primitives require py3.14+. Check
# the public stdlib wrapper's presence (added in 3.14) rather
# than `_interpreters` directly — see
# `tractor.spawn._subint` for why.
pytest.importorskip('concurrent.interpreters')
from tractor.spawn._main_thread_forkserver import ( # noqa: E402
fork_from_worker_thread,
wait_child,
)
from tractor.spawn._subint_forkserver import ( # noqa: E402
run_subint_in_worker_thread,
)
from tractor.spawn import _spawn as _spawn_mod # noqa: E402
from tractor.spawn._spawn import try_set_start_method # noqa: E402
# ----------------------------------------------------------------
# child-side callables (passed via `child_target=` across fork)
# ----------------------------------------------------------------
_CHILD_TRIO_BOOTSTRAP: str = (
'import trio\n'
'async def _main():\n'
' await trio.sleep(0.05)\n'
' return 42\n'
'result = trio.run(_main)\n'
'assert result == 42, f"trio.run returned {result}"\n'
)
def _child_trio_in_subint() -> int:
'''
`child_target` for the trio-in-child scenario: drive a
trivial `trio.run()` inside a fresh legacy-config subint
on a worker thread.
Returns an exit code suitable for `os._exit()`:
- 0: subint-hosted `trio.run()` succeeded
- 3: driver thread hang (timeout inside `run_subint_in_worker_thread`)
- 4: subint bootstrap raised some other exception
'''
try:
run_subint_in_worker_thread(
_CHILD_TRIO_BOOTSTRAP,
thread_name='child-subint-trio-thread',
)
except RuntimeError:
# timeout / thread-never-returned
return 3
except BaseException:
return 4
return 0
# ----------------------------------------------------------------
# parent-side harnesses (run inside `trio.run()`)
# ----------------------------------------------------------------
async def run_fork_in_non_trio_thread(
deadline: float,
*,
child_target=None,
) -> int:
'''
From inside a parent `trio.run()`, off-load the
forkserver primitive to a main-interp worker thread via
`trio.to_thread.run_sync()` and return the forked child's
pid.
Then `wait_child()` on that pid (also off-loaded so we
don't block trio's event loop on `waitpid()`) and assert
the child exited cleanly.
'''
with trio.fail_after(deadline):
# NOTE: `fork_from_worker_thread` internally spawns its
# own dedicated `threading.Thread` (not from trio's
# cache) and joins it before returning — so we can
# safely off-load via `to_thread.run_sync` without
# worrying about the trio-thread-cache recycling the
# runner. Pass `abandon_on_cancel=False` for the
# same "bounded + clean" rationale we use in
# `_subint.subint_proc`.
pid: int = await trio.to_thread.run_sync(
partial(
fork_from_worker_thread,
child_target,
thread_name='test-subint-forkserver',
),
abandon_on_cancel=False,
)
assert pid > 0
ok, status_str = await trio.to_thread.run_sync(
partial(
wait_child,
pid,
expect_exit_ok=True,
),
abandon_on_cancel=False,
)
assert ok, (
f'forked child did not exit cleanly: '
f'{status_str}'
)
return pid
# ----------------------------------------------------------------
# tests
# ----------------------------------------------------------------
# Bounded wall-clock via `pytest-timeout` (`method='thread'`)
# for the usual GIL-hostage safety reason documented in the
# sibling `test_subint_cancellation.py` / the class-A
# `subint_sigint_starvation_issue.md`. Each test also has an
# inner `trio.fail_after()` so assertion failures fire fast
# under normal conditions.
@pytest.mark.timeout(30, method='thread')
def test_fork_from_worker_thread_via_trio(
) -> None:
'''
Baseline: inside `trio.run()`, call
`fork_from_worker_thread()` via `trio.to_thread.run_sync()`,
get a child pid back, reap the child cleanly.
No trio-in-child. If this regresses we know the parent-
side trioworker-thread plumbing is broken independent
of any child-side subint machinery.
'''
deadline: float = 10.0
with dump_on_hang(
seconds=deadline,
path='/tmp/main_thread_forkserver_baseline.dump',
):
pid: int = trio.run(
partial(run_fork_in_non_trio_thread, deadline),
)
# parent-side sanity — we got a real pid back.
assert isinstance(pid, int) and pid > 0
# by now the child has been waited on; it shouldn't be
# reap-able again.
with pytest.raises((ChildProcessError, OSError)):
os.waitpid(pid, os.WNOHANG)
@pytest.mark.timeout(30, method='thread')
def test_fork_and_run_trio_in_child() -> None:
'''
End-to-end: inside the parent's `trio.run()`, off-load
`fork_from_worker_thread()` to a worker thread, have the
forked child then create a fresh subint and run
`trio.run()` inside it on yet another worker thread.
This is the full "forkserver + trio-in-subint-in-child"
pattern the proposed `main_thread_forkserver` spawn backend
would rest on.
'''
deadline: float = 15.0
with dump_on_hang(
seconds=deadline,
path='/tmp/main_thread_forkserver_trio_in_child.dump',
):
pid: int = trio.run(
partial(
run_fork_in_non_trio_thread,
deadline,
child_target=_child_trio_in_subint,
),
)
assert isinstance(pid, int) and pid > 0
# ----------------------------------------------------------------
# tier-3 backend test: drive the registered `main_thread_forkserver`
# spawn backend end-to-end through tractor's actor-nursery +
# portal-RPC machinery.
# ----------------------------------------------------------------
async def _trivial_rpc() -> str:
'''
Minimal subactor-side RPC body: just return a sentinel
string the parent can assert on.
'''
return 'hello from subint-forkserver child'
async def _happy_path_forkserver(
reg_addr: tuple[str, int | str],
deadline: float,
) -> None:
'''
Parent-side harness: stand up a root actor, open an actor
nursery, spawn one subactor via the currently-selected
spawn backend (which this test will have flipped to
`main_thread_forkserver`), run a trivial RPC through its
portal, assert the round-trip result.
'''
with trio.fail_after(deadline):
async with (
tractor.open_root_actor(
registry_addrs=[reg_addr],
),
tractor.open_nursery() as an,
):
portal: tractor.Portal = await an.run_in_actor(
_trivial_rpc,
name='subint-forkserver-child',
)
result: str = await portal.wait_for_result()
assert result == 'hello from subint-forkserver child'
@pytest.fixture
def forkserver_spawn_method():
'''
Flip `tractor.spawn._spawn._spawn_method` to
`'main_thread_forkserver'` for the duration of a test,
then restore whatever was in place before (usually the
session-level CLI choice, typically `'trio'`).
Without this, other tests in the same session would
observe the global flip and start spawning via fork
which is almost certainly NOT what their assertions were
written against.
'''
prev_method: str = _spawn_mod._spawn_method
prev_ctx = _spawn_mod._ctx
try_set_start_method('main_thread_forkserver')
try:
yield
finally:
_spawn_mod._spawn_method = prev_method
_spawn_mod._ctx = prev_ctx
@pytest.mark.timeout(60, method='thread')
def test_main_thread_forkserver_spawn_basic(
reg_addr: tuple[str, int | str],
forkserver_spawn_method,
) -> None:
'''
Happy-path: spawn ONE subactor via the
`main_thread_forkserver` backend (parent-side fork from a
main-interp worker thread), do a trivial portal-RPC
round-trip, tear the nursery down cleanly.
If this passes, the "forkserver + tractor runtime" arch
is proven end-to-end: the registered
`main_thread_forkserver_proc` spawn target successfully
forks a child, the child runs `_actor_child_main()` +
completes IPC handshake + serves an RPC, and the parent
reaps via `_ForkedProc.wait()` without regressing any of
the normal nursery teardown invariants.
'''
deadline: float = 20.0
with dump_on_hang(
seconds=deadline,
path='/tmp/main_thread_forkserver_spawn_basic.dump',
):
trio.run(
partial(
_happy_path_forkserver,
reg_addr,
deadline,
),
)
# ----------------------------------------------------------------
# tier-4 DRAFT: orphaned-subactor SIGINT survivability
#
# Motivating question: with `main_thread_forkserver`, the child's
# `trio.run()` lives on the fork-inherited worker thread which
# is NOT `threading.main_thread()` — so trio cannot install its
# `signal.set_wakeup_fd`-based SIGINT handler. If the parent
# goes away via `SIGKILL` (no IPC `Portal.cancel_actor()`
# possible), does SIGINT on the orphan child cleanly tear it
# down via CPython's default `KeyboardInterrupt` delivery, or
# does it hang?
#
# Working hypothesis (unverified pre-this-test): post-fork the
# child is effectively single-threaded (only the fork-worker
# tstate survived), so SIGINT → default handler → raises
# `KeyboardInterrupt` on the only thread — which happens to be
# the one driving trio's event loop — so trio observes it at
# the next checkpoint. If so, we're "fine" on this backend
# despite the missing trio SIGINT handler.
#
# Cross-backend generalization (decide after this passes):
# - applicable to any backend whose subactors are separate OS
# processes: `trio`, `mp_spawn`, `mp_forkserver`,
# `main_thread_forkserver`.
# - NOT applicable to plain `subint` (subactors are in-process
# subinterpreters, no orphan child process to SIGINT).
# - move path: lift the harness script into
# `tests/_orphan_harness.py`, parametrize on the session's
# `_spawn_method`, add `skipif _spawn_method == 'subint'`.
# ----------------------------------------------------------------
_ORPHAN_HARNESS_SCRIPT: str = '''
import os
import sys
import trio
import tractor
from tractor.spawn._spawn import try_set_start_method
async def _sleep_forever() -> None:
print(f"CHILD_PID={os.getpid()}", flush=True)
await trio.sleep_forever()
async def _main(reg_addr):
async with (
tractor.open_root_actor(registry_addrs=[reg_addr]),
tractor.open_nursery() as an,
):
portal = await an.run_in_actor(
_sleep_forever,
name="orphan-test-child",
)
print(f"PARENT_READY={os.getpid()}", flush=True)
await trio.sleep_forever()
if __name__ == "__main__":
backend = sys.argv[1]
host = sys.argv[2]
port = int(sys.argv[3])
try_set_start_method(backend)
trio.run(_main, (host, port))
'''
def _read_marker(
proc: subprocess.Popen,
marker: str,
timeout: float,
_buf: dict,
) -> str:
'''
Block until `<marker>=<value>\\n` appears on `proc.stdout`
and return `<value>`. Uses a per-proc byte buffer (`_buf`)
to carry partial lines across calls.
'''
deadline: float = time.monotonic() + timeout
remainder: bytes = _buf.get('remainder', b'')
prefix: bytes = f'{marker}='.encode()
while time.monotonic() < deadline:
# drain any complete lines already buffered
while b'\n' in remainder:
line, remainder = remainder.split(b'\n', 1)
if line.startswith(prefix):
_buf['remainder'] = remainder
return line[len(prefix):].decode().strip()
ready, _, _ = select.select([proc.stdout], [], [], 0.2)
if not ready:
continue
chunk: bytes = os.read(proc.stdout.fileno(), 4096)
if not chunk:
break
remainder += chunk
_buf['remainder'] = remainder
raise TimeoutError(
f'Never observed marker {marker!r} on harness stdout '
f'within {timeout}s'
)
def _process_alive(pid: int) -> bool:
'''Liveness probe for a pid we do NOT parent (post-orphan).'''
try:
os.kill(pid, 0)
return True
except ProcessLookupError:
return False
# Known-gap test — `main_thread_forkserver` orphan-SIGINT
# handling. See
# `ai/conc-anal/subint_forkserver_orphan_sigint_hang_issue.md`.
# `strict=True` so if a future fix closes the gap the
# XPASS surfaces as a FAIL and forces us to drop the
# mark intentionally.
@pytest.mark.xfail(
strict=True,
reason=(
'Orphan subactor SIGINT delivery: trio event loop '
'on non-main thread post-fork doesn\'t see the '
'external SIGINT → KBI path. See tracker doc.\n'
'ai/conc-anal/subint_forkserver_orphan_sigint_hang_issue.md'
),
)
@pytest.mark.timeout(
30,
method='thread',
)
def test_orphaned_subactor_sigint_cleanup_DRAFT(
reg_addr: tuple[str, int | str],
tmp_path: Path,
) -> None:
'''
DRAFT orphaned-subactor SIGINT survivability under the
`main_thread_forkserver` backend.
Sequence:
1. Spawn a harness subprocess that brings up a root
actor + one `sleep_forever` subactor via
`main_thread_forkserver`.
2. Read the harness's stdout for `PARENT_READY=<pid>`
and `CHILD_PID=<pid>` markers (confirms the
parentchild IPC handshake completed).
3. `SIGKILL` the parent (no IPC cancel possible the
whole point of this test).
4. `SIGINT` the orphan child.
5. Poll `os.kill(child_pid, 0)` for up to 10s assert
the child exits.
Empirical result (2026-04, py3.14): currently **FAILS**
SIGINT on the orphan child doesn't unwind the trio loop,
despite trio's `KIManager` handler being correctly
installed in the subactor (the post-fork thread IS
`threading.main_thread()` on py3.14). `faulthandler` dump
shows the subactor wedged in `trio/_core/_io_epoll.py::
get_events` the signal's supposed wakeup of the event
loop isn't firing. Full analysis + diagnostic evidence
in `ai/conc-anal/
subint_forkserver_orphan_sigint_hang_issue.md`.
The runtime's *intentional* "KBI-as-OS-cancel" path at
`tractor/spawn/_entry.py::_trio_main:164` is therefore
unreachable under this backend+config. Closing the gap is
aligned with existing design intent (make the already-
designed behavior actually fire), not a new feature.
Marked `xfail(strict=True)` so the
mark flips to XPASSfail once the gap is closed and we'll
know to drop the mark.
'''
if platform.system() != 'Linux':
pytest.skip(
'orphan-reparenting semantics only exercised on Linux'
)
script_path = tmp_path / '_orphan_harness.py'
script_path.write_text(_ORPHAN_HARNESS_SCRIPT)
# Offset the port so we don't race the session reg_addr with
# any concurrently-running backend test's listener.
host: str = reg_addr[0]
port: int = int(reg_addr[1]) + 17
proc: subprocess.Popen = subprocess.Popen(
[
sys.executable,
str(script_path),
'main_thread_forkserver',
host,
str(port),
],
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
)
parent_pid: int | None = None
child_pid: int | None = None
buf: dict = {}
try:
child_pid = int(_read_marker(proc, 'CHILD_PID', 15.0, buf))
parent_pid = int(_read_marker(proc, 'PARENT_READY', 15.0, buf))
# sanity: both alive before we start killing stuff
assert _process_alive(parent_pid), (
f'harness parent pid={parent_pid} gone before '
f'SIGKILL — test premise broken'
)
assert _process_alive(child_pid), (
f'orphan-candidate child pid={child_pid} gone '
f'before test started'
)
# step 3: kill parent — no IPC cancel arrives at child.
# `proc.wait()` reaps the zombie so it truly disappears
# from the process table (otherwise `os.kill(pid, 0)`
# keeps reporting it as alive).
os.kill(parent_pid, signal.SIGKILL)
try:
proc.wait(timeout=3.0)
except subprocess.TimeoutExpired:
pytest.fail(
f'harness parent pid={parent_pid} did not die '
f'after SIGKILL — test premise broken'
)
assert _process_alive(child_pid), (
f'child pid={child_pid} died along with parent — '
f'did the parent reap it before SIGKILL took? '
f'test premise requires an orphan.'
)
# step 4+5: SIGINT the orphan, poll for exit.
os.kill(child_pid, signal.SIGINT)
timeout: float = 6.0
cleanup_deadline: float = time.monotonic() + timeout
while time.monotonic() < cleanup_deadline:
if not _process_alive(child_pid):
return # <- success path
time.sleep(0.1)
pytest.fail(
f'Orphan subactor (pid={child_pid}) did NOT exit '
f'within 10s of SIGINT under `main_thread_forkserver` '
f'→ trio on non-main thread did not observe the '
f'default CPython KeyboardInterrupt; backend needs '
f'explicit SIGINT plumbing.'
)
finally:
# best-effort cleanup to avoid leaking orphans across
# the test session regardless of outcome.
for pid in (parent_pid, child_pid):
if pid is None:
continue
try:
os.kill(pid, signal.SIGKILL)
except ProcessLookupError:
pass
try:
proc.kill()
except OSError:
pass
try:
proc.wait(timeout=2.0)
except subprocess.TimeoutExpired:
pass
# ----------------------------------------------------------------
# regression guard: variant-2 (`subint_forkserver`) placeholder
# MUST raise `NotImplementedError` today — guards against future
# commits accidentally re-aliasing the key to the variant-1
# coroutine (which was a transient state during the rename).
# ----------------------------------------------------------------
def test_subint_forkserver_key_errors_cleanly() -> None:
'''
`--spawn-backend=subint_forkserver` is reserved for the
eventual variant-2 (subint-isolated child runtime)
backend, gated on jcrist/msgspec#1026 unblocking PEP 684
isolated-mode subints upstream.
Until that lands, the dispatch entry MUST raise
`NotImplementedError` immediately rather than silently
aliasing to `main_thread_forkserver_proc`. Verify the
error message also surfaces both the working-backend
pointer and the upstream-blocker ref so an operator
arriving at the error has somewhere to go.
'''
import asyncio
from tractor.spawn._spawn import _methods
proc = _methods['subint_forkserver']
with pytest.raises(NotImplementedError) as ei:
# signature args match `main_thread_forkserver_proc`'s
# — the stub raises before touching them so dummy
# values are fine.
asyncio.run(
proc(
'x', None, None, {}, [],
('127.0.0.1', 0), {},
)
)
msg: str = str(ei.value)
assert 'main_thread_forkserver' in msg, (
f'stub error msg should redirect to the working '
f'variant-1 backend; got: {msg!r}'
)
assert 'msgspec#1026' in msg or '1026' in msg, (
f'stub error msg should reference the upstream '
f'blocker (jcrist/msgspec#1026); got: {msg!r}'
)

View File

@ -0,0 +1,237 @@
'''
Cancellation + hard-kill semantics audit for the `subint` spawn
backend.
Exercises the escape-hatch machinery added to
`tractor.spawn._subint` (module-level `_HARD_KILL_TIMEOUT`,
bounded shields around the soft-kill / thread-join sites, daemon
driver-thread abandonment) so that future stdlib regressions or
our own refactors don't silently re-introduce the hangs first
diagnosed during the Phase B.2/B.3 bringup (issue #379).
Every test in this module:
- is wrapped in `trio.fail_after()` for a deterministic per-test
wall-clock ceiling (the whole point of these tests is to fail
fast when our escape hatches regress; an unbounded test would
defeat itself),
- arms `tractor.devx.dump_on_hang()` to capture a stack dump on
failure without it, a hang here is opaque because pytest's
stderr capture swallows `faulthandler` output by default
(hard-won lesson from the original diagnosis),
- skips on py<3.13 (no `_interpreters`) and on any
`--spawn-backend` other than `'subint'` (these tests are
subint-specific by design they'd be nonsense under `trio` or
`mp_*`).
'''
from __future__ import annotations
from functools import partial
import pytest
import trio
import tractor
from tractor.devx import dump_on_hang
# Gate: the `subint` backend requires py3.14+. Check the
# public stdlib wrapper's presence (added in 3.14) rather than
# the private `_interpreters` module (which exists on 3.13 but
# wedges under tractor's usage — see `tractor.spawn._subint`).
pytest.importorskip('concurrent.interpreters')
# Subint-only: read the spawn method that `pytest_configure`
# committed via `try_set_start_method()`. By the time this module
# imports, the CLI backend choice has been applied.
from tractor.spawn._spawn import _spawn_method # noqa: E402
if _spawn_method != 'subint':
pytestmark = pytest.mark.skip(
reason=(
"subint-specific cancellation audit — "
"pass `--spawn-backend=subint` to run."
),
)
# ----------------------------------------------------------------
# child-side task bodies (run inside the spawned subint)
# ----------------------------------------------------------------
async def _trivial_rpc() -> str:
'''
Minimal RPC body for the baseline happy-teardown test.
'''
return 'hello from subint'
async def _spin_without_trio_checkpoints() -> None:
'''
Block the main task with NO trio-visible checkpoints so any
`Portal.cancel_actor()` arriving over IPC has nothing to hand
off to.
`threading.Event.wait(timeout)` releases the GIL (so other
threads including trio's IO/RPC tasks — can progress) but
does NOT insert a trio checkpoint, so the subactor's main
task never notices cancellation.
This is the exact "stuck subint" scenario the hard-kill
shields exist to survive.
'''
import threading
never_set = threading.Event()
while not never_set.is_set():
# 1s re-check granularity; low enough not to waste CPU,
# high enough that even a pathologically slow
# `_HARD_KILL_TIMEOUT` won't accidentally align with a
# wake.
never_set.wait(timeout=1.0)
# ----------------------------------------------------------------
# parent-side harnesses (driven inside `trio.run(...)`)
# ----------------------------------------------------------------
async def _happy_path(
reg_addr: tuple[str, int|str],
deadline: float,
) -> None:
with trio.fail_after(deadline):
async with (
tractor.open_root_actor(
registry_addrs=[reg_addr],
),
tractor.open_nursery() as an,
):
portal: tractor.Portal = await an.run_in_actor(
_trivial_rpc,
name='subint-happy',
)
result: str = await portal.wait_for_result()
assert result == 'hello from subint'
async def _spawn_stuck_then_cancel(
reg_addr: tuple[str, int|str],
deadline: float,
) -> None:
with trio.fail_after(deadline):
async with (
tractor.open_root_actor(
registry_addrs=[reg_addr],
),
tractor.open_nursery() as an,
):
await an.run_in_actor(
_spin_without_trio_checkpoints,
name='subint-stuck',
)
# Give the child time to reach its non-checkpointing
# loop before we cancel; the precise value doesn't
# matter as long as it's a handful of trio schedule
# ticks.
await trio.sleep(0.5)
an.cancel_scope.cancel()
# ----------------------------------------------------------------
# tests
# ----------------------------------------------------------------
def test_subint_happy_teardown(
reg_addr: tuple[str, int|str],
) -> None:
'''
Baseline: spawn a subactor, do one portal RPC, close nursery
cleanly. No cancel, no faults.
If this regresses we know something's wrong at the
spawn/teardown layer unrelated to the hard-kill escape
hatches.
'''
deadline: float = 10.0
with dump_on_hang(
seconds=deadline,
path='/tmp/subint_cancellation_happy.dump',
):
trio.run(partial(_happy_path, reg_addr, deadline))
# Wall-clock bound via `pytest-timeout` (`method='thread'`)
# as defense-in-depth over the inner `trio.fail_after(15)`.
# Under the orphaned-channel hang class described in
# `ai/conc-anal/subint_cancel_delivery_hang_issue.md`, SIGINT
# is still deliverable and this test *should* be unwedgeable
# by the inner trio timeout — but sibling subint-backend
# tests in this repo have also exhibited the
# `subint_sigint_starvation_issue.md` GIL-starvation flavor,
# so `method='thread'` keeps us safe in case ordering or
# load shifts the failure mode.
@pytest.mark.timeout(
3, # NOTE never passes pre-3.14+ subints support.
method='thread',
)
def test_subint_non_checkpointing_child(
reg_addr: tuple[str, int|str],
) -> None:
'''
Cancel a subactor whose main task is stuck in a non-
checkpointing Python loop.
`Portal.cancel_actor()` may be delivered over IPC but the
main task never checkpoints to observe the Cancelled
so the subint's `trio.run()` can't exit gracefully.
The parent `subint_proc` bounded-shield + daemon-driver-
thread combo should abandon the thread after
`_HARD_KILL_TIMEOUT` and let the parent return cleanly.
Wall-clock budget:
- ~0.5s: settle time for child to enter the stuck loop
- ~3s: `_HARD_KILL_TIMEOUT` (soft-kill wait)
- ~3s: `_HARD_KILL_TIMEOUT` (thread-join wait)
- margin
KNOWN ISSUE (Ctrl-C-able hang):
-------------------------------
This test currently hangs past the hard-kill timeout for
reasons unrelated to the subint teardown itself after
the subint is destroyed, a parent-side trio task appears
to park on an orphaned IPC channel (no clean EOF
delivered to a waiting receive). Unlike the
SIGINT-starvation sibling case in
`test_stale_entry_is_deleted`, this hang IS Ctrl-C-able
(`strace` shows SIGINT wakeup-fd `write() = 1`, not
`EAGAIN`) i.e. the main trio loop is still iterating
normally. That makes this *our* bug to fix, not a
CPython-level limitation.
See `ai/conc-anal/subint_cancel_delivery_hang_issue.md`
for the full analysis + candidate fix directions
(explicit parent-side channel abort in `subint_proc`
teardown being the most likely surgical fix).
The sibling `ai/conc-anal/subint_sigint_starvation_issue.md`
documents the *other* hang class (abandoned-legacy-subint
thread + shared-GIL starvation signal-wakeup-fd pipe
fills SIGINT silently dropped) that one is
structurally blocked on msgspec PEP 684 adoption and is
NOT what this test is hitting.
'''
deadline: float = 15.0
with dump_on_hang(
seconds=deadline,
path='/tmp/subint_cancellation_stuck.dump',
):
trio.run(
partial(
_spawn_stuck_then_cancel,
reg_addr,
deadline,
),
)

View File

@ -162,6 +162,66 @@ def test_implicit_mod_name_applied_for_child(
assert submod.log.logger in sub_logs assert submod.log.logger in sub_logs
def test_io_custom_level_registered():
'''
The `IO`(21) level (registered via `add_log_level()` at
import, for `tractor.trionics._subproc`'s std-stream relay)
is fully wired and SHOWN BY DEFAULT at `info`-level consoles
since `21 >= INFO(20)`.
'''
import logging
assert log.CUSTOM_LEVELS.get('IO') == 21
assert logging.getLevelName(21) == 'IO'
assert log.STD_PALETTE.get('IO')
assert log.BOLD_PALETTE['bold'].get('IO')
iolog = log.get_logger('io_lvl_test')
assert callable(getattr(iolog, 'io', None))
# emit must not raise
iolog.io('hello from the IO level')
# 21 >= INFO(20) -> shown when console set to `info`
assert 21 >= logging.INFO
def test_add_log_level_pluggable():
'''
`add_log_level()` is the single pluggable entry-point: one
call wires `CUSTOM_LEVELS` + `addLevelName` + both palettes +
a same-named `StackLevelAdapter` emit method (so
`get_logger()`'s per-level audit passes).
'''
import logging
name: str = 'XLVL'
val: int = 19
try:
log.add_log_level(name, val, 'cyan')
assert log.CUSTOM_LEVELS[name] == val
assert logging.getLevelName(val) == name
assert log.STD_PALETTE[name] == 'cyan'
assert log.BOLD_PALETTE['bold'][name] == 'bold_cyan'
# the audit in `get_logger()` (asserts a method per
# `CUSTOM_LEVELS` entry) must still pass.
xlog = log.get_logger('xlvl_test')
emit = getattr(xlog, name.lower(), None)
assert callable(emit)
emit('hello from a plugged-in level')
finally:
# best-effort cleanup of our module-global mutations so
# later `get_logger()` audits don't see a half-removed
# level.
log.CUSTOM_LEVELS.pop(name, None)
log.STD_PALETTE.pop(name, None)
log.BOLD_PALETTE['bold'].pop(name, None)
if hasattr(log.StackLevelAdapter, name.lower()):
delattr(log.StackLevelAdapter, name.lower())
# TODO, moar tests against existing feats: # TODO, moar tests against existing feats:
# ------ - ------ # ------ - ------
# - [ ] color settings? # - [ ] color settings?

View File

@ -0,0 +1,230 @@
'''
Unit tests for `tractor.trionics.supervise_run_process` (in
`tractor.trionics._subproc`) and its per-line std-stream relay.
Hermetic `trio`-only coverage (no actor-runtime needed):
- per-line stdout relay -> `log.io`
- parent controlling-tty isolation (child fd1 is a pipe, fd0
`/dev/null` never the parent `/dev/pts/*`)
- mandatory concurrent pipe-drain (no deadlock on >64KiB
no-newline output)
- live stderr relay + `CalledProcessError` rebuild (rc!=0 note)
- legacy capture-stderr CPE note path
'''
from functools import partial
import subprocess
import pytest
import trio
from tractor.trionics import (
_subproc,
collapse_eg,
supervise_run_process,
)
def _capture_relay(monkeypatch, level: str = 'io') -> list[str]:
'''
Redirect `_subproc.log.<level>` (the relay's emit method —
`io` by default, see `supervise_run_process(relay_level=...)`)
into a list so tests can assert on the relayed lines.
'''
records: list[str] = []
monkeypatch.setattr(
_subproc.log,
level,
lambda msg, *a, **k: records.append(msg),
)
return records
def test_stdout_relayed_per_line(monkeypatch):
records = _capture_relay(monkeypatch)
cmd = [
'sh', '-c',
'for i in 1 2 3; do echo line=$i; done',
]
async def main():
async with trio.open_nursery() as tn:
await tn.start(
partial(
supervise_run_process,
cmd,
label='t-out',
relay_stdout=True,
)
)
trio.run(main)
out_lines = [r for r in records if '[t-out:out]' in r]
assert any('line=1' in r for r in out_lines)
assert any('line=2' in r for r in out_lines)
assert any('line=3' in r for r in out_lines)
def test_parent_tty_isolated(monkeypatch):
records = _capture_relay(monkeypatch)
cmd = [
'sh', '-c',
'readlink /proc/self/fd/0; readlink /proc/self/fd/1',
]
async def main():
async with trio.open_nursery() as tn:
await tn.start(
partial(
supervise_run_process,
cmd,
label='t-tty',
relay_stdout=True,
)
)
trio.run(main)
relayed = '\n'.join(records)
# fd1 (stdout) must be OUR pipe, never a controlling tty.
assert 'pipe:' in relayed
assert '/dev/pts/' not in relayed
# fd0 (stdin) is pinned to DEVNULL.
assert '/dev/null' in relayed
def test_no_deadlock_on_big_unnewlined_output(monkeypatch):
'''
>64KiB of output with NO newline: only completes because the
relay reader concurrently drains the pipe (else the child
blocks on `write()` when the OS pipe buffer fills).
'''
records = _capture_relay(monkeypatch)
cmd = [
'sh', '-c',
'head -c 200000 /dev/zero | tr "\\0" x',
]
async def main():
# generous vs the ~ms real runtime, but bounded so a
# genuine pipe-fill deadlock fails fast.
with trio.fail_after(2):
async with trio.open_nursery() as tn:
await tn.start(
partial(
supervise_run_process,
cmd,
label='t-big',
relay_stdout=True,
)
)
trio.run(main)
big = ''.join(
r.split('] ', 1)[-1]
for r in records
if '[t-big:out]' in r
)
assert len(big) == 200_000
def test_stderr_relay_and_cpe_rebuild(monkeypatch):
'''
`relay_stderr=True` PIPEs stderr ourselves (mutually
exclusive with trio's `capture_stderr`), so on rc!=0 the
wrapper rebuilds a `CalledProcessError` from the live
accumulator and `.add_note()`s its `.stderr` AND the
stderr is relayed per-line live.
'''
records = _capture_relay(monkeypatch)
cmd = [
'sh', '-c',
'echo boom 1>&2; exit 3',
]
async def main():
# `collapse_eg()` unwraps the parent-nursery's single-exc
# eg so the bare CPE bubbles straight out (mirrors real
# caller usage).
async with (
collapse_eg(),
trio.open_nursery() as tn,
):
await tn.start(
partial(
supervise_run_process,
cmd,
label='t-err',
relay_stderr=True,
check=True,
)
)
with pytest.raises(subprocess.CalledProcessError) as ei:
trio.run(main)
cpe = ei.value
assert cpe.returncode == 3
# rebuilt `.stderr` (trio did NOT capture since we PIPE'd it).
assert b'boom' in (cpe.stderr or b'')
# note attached for legible teardown reporting.
assert any(
'boom' in n
for n in getattr(cpe, '__notes__', [])
)
# AND it was relayed live per-line.
assert any(
'[t-err:err]' in r and 'boom' in r
for r in records
)
def test_nonrelay_cpe_note(monkeypatch):
'''
No live relay: stderr is silently drained + captured (NOT
emitted), and on rc!=0 the wrapper rebuilds the
`CalledProcessError` from that accumulator with a `.stderr`
note same deterministic post-drain path as the relay case.
'''
cmd = [
'sh', '-c',
'echo nope 1>&2; exit 7',
]
async def main():
async with (
collapse_eg(),
trio.open_nursery() as tn,
):
await tn.start(
partial(
supervise_run_process,
cmd,
label='t-legacy',
check=True,
# relay_* default False -> silent
# drain+capture for the CPE note.
)
)
with pytest.raises(subprocess.CalledProcessError) as ei:
trio.run(main)
cpe = ei.value
assert cpe.returncode == 7
assert b'nope' in (cpe.stderr or b'')
assert any(
'nope' in n
for n in getattr(cpe, '__notes__', [])
)

View File

@ -155,7 +155,6 @@ async def maybe_block_bp(
os.environ.pop('PYTHONBREAKPOINT', None) os.environ.pop('PYTHONBREAKPOINT', None)
@acm @acm
async def open_root_actor( async def open_root_actor(
*, *,
@ -186,6 +185,7 @@ async def open_root_actor(
# enables the multi-process debugger support # enables the multi-process debugger support
debug_mode: bool = False, debug_mode: bool = False,
maybe_enable_greenback: bool = False, # `.pause_from_sync()/breakpoint()` support maybe_enable_greenback: bool = False, # `.pause_from_sync()/breakpoint()` support
# ^XXX NOTE^ the perf implications of use, # ^XXX NOTE^ the perf implications of use,
# https://greenback.readthedocs.io/en/latest/principle.html#performance # https://greenback.readthedocs.io/en/latest/principle.html#performance
enable_stack_on_sig: bool = False, enable_stack_on_sig: bool = False,

View File

@ -90,7 +90,6 @@ keys are caller-defined).
''' '''
from __future__ import annotations from __future__ import annotations
import os import os
import pathlib import pathlib
import re import re
@ -99,6 +98,9 @@ import stat
import sys import sys
import time import time
from tractor.devx import _proctitle
# `/dev/shm` is the POSIX-shm filesystem on Linux + FreeBSD. # `/dev/shm` is the POSIX-shm filesystem on Linux + FreeBSD.
# macOS uses `shm_open` syscalls without a fs-visible path, # macOS uses `shm_open` syscalls without a fs-visible path,
# so the shm helpers refuse to run there. # so the shm helpers refuse to run there.
@ -230,9 +232,9 @@ def _read_comm(pid: int) -> str:
# while `cmdline` for zombies often reads as empty. # while `cmdline` for zombies often reads as empty.
_TRACTOR_PROC_CMDLINE_MARKERS: tuple[str, ...] = ( _TRACTOR_PROC_CMDLINE_MARKERS: tuple[str, ...] = (
'tractor._child', 'tractor._child',
'tractor[', _proctitle._def_prefix,
) )
_TRACTOR_PROC_COMM_MARKER: str = 'tractor[' _TRACTOR_PROC_COMM_MARKER: str = _proctitle._def_prefix
def _is_tractor_subactor(pid: int) -> bool: def _is_tractor_subactor(pid: int) -> bool:

View File

@ -24,7 +24,10 @@ which" at a glance without needing to read full
`/proc/<pid>/cmdline`. `/proc/<pid>/cmdline`.
Format: Format:
``tractor[<aid.reprol()>]`` e.g. ``tractor[doggy@1027301b]`` ``<_def_prefix>[<aid.reprol()>]`` e.g. ``_subactor[doggy@1027301b]``
(prefix from the `_def_prefix` const, flipped `tractor` ->
`_subactor` so sub-actor procs are visually distinct from the
root in `ps`/`htop` and the reap-recognition markers.)
Uses the canonical `Aid.reprol()` form Uses the canonical `Aid.reprol()` form
(``<name>@<uuid_short>``) so the proc-title matches the (``<name>@<uuid_short>``) so the proc-title matches the
@ -52,7 +55,13 @@ except ImportError:
_stp = None _stp = None
def set_actor_proctitle(actor: 'Actor') -> str | None: _def_prefix: str = '_subactor'
def set_actor_proctitle(
actor: 'Actor',
prefix: str = _def_prefix,
) -> str | None:
''' '''
Set the calling process's proc-title to identify it as a Set the calling process's proc-title to identify it as a
tractor sub-actor. tractor sub-actor.
@ -69,6 +78,6 @@ def set_actor_proctitle(actor: 'Actor') -> str | None:
if _stp is None: if _stp is None:
return None return None
title: str = f'tractor[{actor.aid.reprol()}]' title: str = f'{prefix}[{actor.aid.reprol()}]'
_stp.setproctitle(title) _stp.setproctitle(title)
return title return title

View File

@ -398,7 +398,7 @@ async def handle_stream_from_peer(
uid, uid,
None, None,
) )
if event: if event is not None:
con_status_steps += ( con_status_steps += (
' -> Waking subactor spawn waiters: ' ' -> Waking subactor spawn waiters: '
f'{event.statistics().tasks_waiting}\n' f'{event.statistics().tasks_waiting}\n'

View File

@ -262,6 +262,63 @@ class StackLevelAdapter(LoggerAdapter):
) )
def add_log_level(
name: str,
value: int,
color: str = 'white',
) -> None:
'''
Register a new custom log level with `tractor`'s logging
machinery in ONE call the single pluggable entry-point that
keeps the (otherwise hand-synced) pieces consistent:
- `CUSTOM_LEVELS[name]` (drives the `stacklevel` bump in
`StackLevelAdapter.log()` + the `get_logger()` audit).
- `logging.addLevelName()` registration.
- `STD_PALETTE`/`BOLD_PALETTE` color entries (consumed when
`get_console_log()` builds its `ColoredFormatter`).
- a same-named (lowercase) emit method bound on
`StackLevelAdapter` so `log.<name>('msg')` works (and so
`get_logger()`'s per-level method audit passes).
Idempotent: re-registering an existing name is a no-op-ish
refresh (won't clobber an already-bound method).
'''
name_up: str = name.upper()
name_lo: str = name.lower()
CUSTOM_LEVELS[name_up] = value
logging.addLevelName(value, name_up)
STD_PALETTE[name_up] = color
BOLD_PALETTE['bold'][name_up] = f'bold_{color}'
if not hasattr(StackLevelAdapter, name_lo):
# bind via default-arg so `value` is captured (not
# late-bound); delegates to `.log()` exactly like the
# hand-written level methods above.
def _emit(
self,
msg: str,
*,
_level: int = value,
) -> None:
return self.log(_level, msg)
_emit.__name__ = name_lo
_emit.__qualname__ = f'StackLevelAdapter.{name_lo}'
setattr(StackLevelAdapter, name_lo, _emit)
# `IO`: child-subproc std-stream relay (see
# `tractor.trionics._subproc`). Value 21 sits just ABOVE
# `INFO`(20) so it's SHOWN BY DEFAULT at the usual `info`/`devx`
# console levels (a `runtime`(15) relay would be silently
# filtered) yet still distinctly labelled/colored + separately
# filterable.
add_log_level('IO', 21, 'purple')
# TODO IDEAs: # TODO IDEAs:
# -[ ] move to `.devx.pformat`? # -[ ] move to `.devx.pformat`?
# -[ ] do per task-name and actor-name color coding # -[ ] do per task-name and actor-name color coding

View File

@ -873,9 +873,12 @@ class Actor:
if self._spawn_method in ( if self._spawn_method in (
'trio', 'trio',
'subint', 'subint',
# `subint_forkserver` parent-side sends a # `main_thread_forkserver` (and the future
# `SpawnSpec` over IPC just like the other two # variant-2 `subint_forkserver`) parent-side
# — fork child-side runtime is trio-native. # sends a `SpawnSpec` over IPC just like the
# other two — fork child-side runtime is
# trio-native.
'main_thread_forkserver',
'subint_forkserver', 'subint_forkserver',
): ):

File diff suppressed because it is too large Load Diff

View File

@ -22,6 +22,7 @@ over multiple backends.
from __future__ import annotations from __future__ import annotations
import multiprocessing as mp import multiprocessing as mp
import platform import platform
import sys
from typing import ( from typing import (
Any, Any,
Awaitable, Awaitable,
@ -42,6 +43,7 @@ from tractor.log import get_logger
from tractor.discovery._addr import ( from tractor.discovery._addr import (
UnwrappedAddress, UnwrappedAddress,
) )
from .._exceptions import ActorFailure
from ._reap import unlink_uds_bind_addrs from ._reap import unlink_uds_bind_addrs
from tractor.runtime._portal import Portal from tractor.runtime._portal import Portal
from tractor.runtime._runtime import Actor from tractor.runtime._runtime import Actor
@ -64,6 +66,34 @@ SpawnMethodKey = Literal[
'trio', # supported on all platforms 'trio', # supported on all platforms
'mp_spawn', 'mp_spawn',
'mp_forkserver', # posix only 'mp_forkserver', # posix only
'subint', # py3.14+ via `concurrent.interpreters` (PEP 734)
# EXPERIMENTAL — blocked at the CPython level. The
# design goal was a `trio+fork`-safe subproc spawn via
# `os.fork()` from a trio-free launchpad sub-interpreter,
# but CPython's `PyOS_AfterFork_Child` → `_PyInterpreterState_DeleteExceptMain`
# requires fork come from the main interp. See
# `tractor.spawn._subint_fork` +
# `ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
# + issue #379 for the full analysis.
'subint_fork',
# EXPERIMENTAL — the `subint_fork` workaround. `os.fork()`
# from a non-trio worker thread (never entered a subint)
# is CPython-legal and works cleanly; forked child runs
# `tractor._child._actor_child_main()` against a trio
# runtime, exactly like `trio_proc` but via fork instead
# of subproc-exec. See `tractor.spawn._main_thread_forkserver`.
'main_thread_forkserver',
# Variant-2: same fork machinery as `main_thread_forkserver`
# but the child enters a sub-interpreter to host its
# `trio.run()`. Gated on jcrist/msgspec#1026 unblocking
# PEP 684 isolated-mode subints upstream — until then
# `subint_forkserver_proc` is a clean `NotImplementedError`
# stub pointing at variant-1 (`main_thread_forkserver`) +
# the upstream blocker. The key is reserved here (not just
# aliased to variant-1) so once upstream lands the impl can
# flip in-place without API churn. See
# `tractor.spawn._subint_forkserver`.
'subint_forkserver',
] ]
_spawn_method: SpawnMethodKey = 'trio' _spawn_method: SpawnMethodKey = 'trio'
@ -81,6 +111,71 @@ else:
await trio.lowlevel.wait_readable(proc.sentinel) await trio.lowlevel.wait_readable(proc.sentinel)
async def wait_for_peer_or_proc_death(
ipc_server,
uid: tuple[str, str],
# TODO? not not types?
proc_wait: 'Callable[[], Awaitable]',
proc_repr: str = '',
) -> 'tuple[trio.Event, Channel]':
'''
Race `IPCServer.wait_for_peer(uid)` against the sub-proc's
own `.wait()` coroutine. Whichever completes first cancels
the other.
Used by every spawn-backend to detect a sub-actor that
*dies during boot* before completing the parent-handshake-
callback (e.g. crashed on import, exec'd-out, kernel-killed
pre-`_actor_child_main`). Without this race, the
handshake-wait backed by an unsignalled `trio.Event`
parks the spawning task forever and leaves the dead child
as a zombie since nobody calls `proc.wait()` to reap.
On normal handshake-complete: returns `(event, chan)`
identical to a bare `wait_for_peer`.
On proc-death-first: raises `ActorFailure` carrying the
proc's exit code, allowing the supervisor to surface a
clean error rather than hanging indefinitely.
`proc_wait` is a 0-arg async callable returning the proc's
exit-status kept generic so each backend can pass its
own (`trio.Process.wait`, `_ForkedProc.wait`,
`proc_waiter(mp.Process)`, etc.).
`proc_repr` is an optional string used in the
`ActorFailure` message for diag.
'''
result: dict = {}
async def _await_handshake():
event, chan = await ipc_server.wait_for_peer(uid)
result['handshake'] = (event, chan)
boot_n.cancel_scope.cancel()
async def _await_death():
rc = await proc_wait()
result['died'] = rc
boot_n.cancel_scope.cancel()
async with trio.open_nursery() as boot_n:
boot_n.start_soon(_await_handshake)
boot_n.start_soon(_await_death)
if 'handshake' in result:
return result['handshake']
# only reached if proc-death won the race
raise ActorFailure(
f'Sub-actor {uid!r} died during boot '
f'(rc={result.get("died")!r}) before completing '
f'parent-handshake.\n'
f' proc: {proc_repr}'
)
def try_set_start_method( def try_set_start_method(
key: SpawnMethodKey key: SpawnMethodKey
@ -113,7 +208,38 @@ def try_set_start_method(
case 'mp_spawn': case 'mp_spawn':
_ctx = mp.get_context('spawn') _ctx = mp.get_context('spawn')
case 'trio': case (
'trio'
| 'main_thread_forkserver'
):
_ctx = None
case (
'subint'
| 'subint_fork'
| 'subint_forkserver'
):
# All subint-family backends need no `mp.context`;
# all four feature-gate on the py3.14 public
# `concurrent.interpreters` wrapper (PEP 734). See
# `tractor.spawn._subint` for the detailed
# reasoning. `subint_fork` is blocked at the
# CPython level (raises `NotImplementedError`);
# `main_thread_forkserver` is the working
# variant-1 backend; `subint_forkserver` aliases
# to it today, reserved for the future variant-2
# subint-isolated-child runtime once upstream
# msgspec#1026 unblocks.
from ._subint import _has_subints
if not _has_subints:
raise RuntimeError(
f'Spawn method {key!r} requires Python 3.14+.\n'
f'(On py3.13 the private `_interpreters` C '
f'module exists but tractor\'s spawn flow '
f'wedges — see `tractor.spawn._subint` '
f'docstring for details.)\n'
f'Current runtime: {sys.version}'
)
_ctx = None _ctx = None
case _: case _:
@ -465,6 +591,10 @@ async def new_proc(
# `hard_kill`/`proc_waiter` from this module. # `hard_kill`/`proc_waiter` from this module.
from ._trio import trio_proc from ._trio import trio_proc
from ._mp import mp_proc from ._mp import mp_proc
from ._subint import subint_proc
from ._subint_fork import subint_fork_proc
from ._main_thread_forkserver import main_thread_forkserver_proc
from ._subint_forkserver import subint_forkserver_proc
# proc spawning backend target map # proc spawning backend target map
@ -472,4 +602,25 @@ _methods: dict[SpawnMethodKey, Callable] = {
'trio': trio_proc, 'trio': trio_proc,
'mp_spawn': mp_proc, 'mp_spawn': mp_proc,
'mp_forkserver': mp_proc, 'mp_forkserver': mp_proc,
'subint': subint_proc,
# blocked at CPython level — see `_subint_fork.py` +
# `ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`.
# Kept here so `--spawn-backend=subint_fork` routes to a
# clean `NotImplementedError` with pointer to the analysis,
# rather than an "invalid backend" error.
'subint_fork': subint_fork_proc,
# Variant-1 (working today): fork from a regular main-interp
# worker thread, child runs trio on its own main interp.
# Validated by
# `ai/conc-anal/subint_fork_from_main_thread_smoketest.py`.
# See `tractor.spawn._main_thread_forkserver`.
'main_thread_forkserver': main_thread_forkserver_proc,
# Variant-2 (future, reserved): same fork machinery but
# child enters a sub-interpreter to host its `trio.run()`
# — gated on jcrist/msgspec#1026 unblocking PEP 684
# isolated-mode subints. Today the stub raises
# `NotImplementedError` pointing at the variant-1 backend
# + upstream blocker. See
# `tractor.spawn._subint_forkserver`.
'subint_forkserver': subint_forkserver_proc,
} }

View File

@ -0,0 +1,473 @@
# tractor: structured concurrent "actors".
# Copyright 2018-eternity Tyler Goodlet.
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
'''
Sub-interpreter (`subint`) actor spawning backend.
Spawns each sub-actor as a CPython PEP 734 sub-interpreter
(`concurrent.interpreters.Interpreter`) driven on its own OS
thread same-process state isolation with faster start-up
than an OS subproc, while preserving tractor's existing
IPC-based actor boundary.
Availability
------------
Requires Python **3.14+**. The private `_interpreters` C
module we actually call into has shipped since 3.13, but
that vintage has a latent bug in its thread/subint
interaction which wedges tractor's spawn flow after
`_interpreters.create()` the driver `threading.Thread`
silently never makes progress inside `_interpreters.exec()`.
(Minimal standalone reproductions with threading +
`_interpreters.exec()` work fine on 3.13; only our
multi-trio-task usage triggers the hang. 3.14 fixes it.)
On older runtimes the module still imports (so the registry
stays introspectable) but `subint_proc()` raises.
'''
from __future__ import annotations
import sys
import threading
from typing import (
Any,
TYPE_CHECKING,
)
import trio
from trio import TaskStatus
# NOTE: we reach into the *private* `_interpreters` C module
# for the actual subint create/exec/destroy calls rather than
# `concurrent.interpreters`' public API because the public API
# only exposes PEP 734's `'isolated'` config (per-interp GIL).
# Under `'isolated'`, any C extension missing the
# `Py_mod_multiple_interpreters` slot (PEP 684) refuses to
# import; in our stack that's `msgspec` — which tractor uses
# pervasively in the IPC layer — so isolated-mode subints
# can't finish booting the sub-actor's `trio.run()`. msgspec
# PEP 684 support is open upstream at jcrist/msgspec#563.
#
# Dropping to the `'legacy'` config keeps the main GIL + lets
# existing C extensions load normally while preserving the
# state isolation we actually care about for the actor model
# (separate `sys.modules` / `__main__` / globals).
#
# But — we feature-gate on the **public** `concurrent.interpreters`
# module (3.14+) even though we only call into the private
# `_interpreters` module. Reason: the private module has
# shipped since 3.13, but the thread/subint interactions
# tractor relies on (`threading.Thread` driving
# `_interpreters.exec(..., legacy)` while a trio loop runs in
# the parent + another inside the subint + IPC between them)
# hang silently on 3.13 and only work cleanly on 3.14. See
# docstring above for the empirical details. Using the public
# module's existence as the gate keeps this check honest.
#
# Migration path: when msgspec (jcrist/msgspec#563) and any
# other PEP 684-holdout C deps opt-in, we can switch to the
# public `concurrent.interpreters.create()` API (isolated
# mode) and pick up per-interp-GIL parallelism for free.
#
# References:
# - PEP 734 (`concurrent.interpreters` public API):
# https://peps.python.org/pep-0734/
# - PEP 684 (per-interpreter GIL / `Py_mod_multiple_interpreters`):
# https://peps.python.org/pep-0684/
# - stdlib docs (3.14+):
# https://docs.python.org/3.14/library/concurrent.interpreters.html
# - CPython public wrapper source (`Lib/concurrent/interpreters/`):
# https://github.com/python/cpython/tree/main/Lib/concurrent/interpreters
# - CPython private C ext source
# (`Modules/_interpretersmodule.c`):
# https://github.com/python/cpython/blob/main/Modules/_interpretersmodule.c
# - msgspec PEP 684 upstream tracker:
# https://github.com/jcrist/msgspec/issues/563
try:
# gate: presence of the public 3.14 stdlib wrapper (we
# don't actually use it below, see NOTE above).
from concurrent import interpreters as _public_interpreters # noqa: F401 # type: ignore
# actual driver: the private C module (also present on
# 3.13 but we refuse that version — see gate above).
import _interpreters # type: ignore
_has_subints: bool = True
except ImportError:
_interpreters = None # type: ignore
_has_subints: bool = False
from tractor.log import get_logger
from tractor.msg import (
types as msgtypes,
pretty_struct,
)
from tractor.runtime._state import current_actor
from tractor.runtime._portal import Portal
from ._spawn import cancel_on_completion
if TYPE_CHECKING:
from tractor.discovery._addr import UnwrappedAddress
from tractor.ipc import (
_server,
)
from tractor.runtime._runtime import Actor
from tractor.runtime._supervise import ActorNursery
log = get_logger('tractor')
# How long we'll wait (in seconds) inside the shielded soft-kill
# / teardown blocks before abandoning the sub-interpreter to its
# fate. See the "hard-kill" comments at the two shield sites.
#
# Unbounded shields are a Bad Idea with subints: because CPython
# doesn't deliver SIGINT into sub-interpreters and the legacy
# config shares the main GIL, a stuck subint can otherwise lock
# the parent trio loop (and the user's Ctrl-C) indefinitely.
_HARD_KILL_TIMEOUT: float = 3.0
async def subint_proc(
name: str,
actor_nursery: ActorNursery,
subactor: Actor,
errors: dict[tuple[str, str], Exception],
# passed through to actor main
bind_addrs: list[UnwrappedAddress],
parent_addr: UnwrappedAddress,
_runtime_vars: dict[str, Any], # serialized and sent to _child
*,
infect_asyncio: bool = False,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED,
proc_kwargs: dict[str, any] = {}
) -> None:
'''
Create a new sub-actor hosted inside a PEP 734
sub-interpreter running on a dedicated OS thread,
reusing tractor's existing UDS/TCP IPC handshake
for parent<->child channel setup.
Supervision model mirrors `trio_proc()`:
- parent awaits `ipc_server.wait_for_peer()` for the
child to connect back; on success yields a `Portal`
via `task_status.started()`
- on graceful shutdown we await the sub-interpreter's
`trio.run()` completing naturally (driven by the
child's actor runtime)
- on cancellation we send `Portal.cancel_actor()` and
then wait for the subint's trio loop to exit cleanly
unblocking the worker thread so the `Interpreter`
can be closed
'''
if not _has_subints:
raise RuntimeError(
f'The {"subint"!r} spawn backend requires Python 3.14+.\n'
f'(On py3.13 the private `_interpreters` C module '
f'exists but tractor\'s spawn flow wedges — see '
f'`tractor.spawn._subint` docstring for details.)\n'
f'Current runtime: {sys.version}'
)
interp_id: int = _interpreters.create('legacy')
log.runtime(
f'Created sub-interpreter (legacy cfg) for sub-actor\n'
f'(>\n'
f' |_interp_id={interp_id}\n'
)
uid: tuple[str, str] = subactor.aid.uid
loglevel: str | None = subactor.loglevel
# Build a bootstrap code string driven via `_interpreters.exec()`.
# All of `uid` (`tuple[str, str]`), `loglevel` (`str|None`),
# `parent_addr` (`tuple[str, int|str]` — see `UnwrappedAddress`)
# and `infect_asyncio` (`bool`) `repr()` to valid Python
# literals, so we can embed them directly.
#
# ?TODO, future SpawnSpec enrichment: if we ever want to pass
# non-`repr()`-roundtrippable values (a pre-built `SpawnSpec`
# struct, a credential token, a callable) we should switch to
# `_interpreters.set___main___attrs(interp_id, {...})` — the
# API anyio uses in `to_interpreter._Worker.call()`. Pattern:
# https://github.com/agronholm/anyio/blob/master/src/anyio/to_interpreter.py
# (the `set___main___attrs` site). See also tracking issue
# `#379`.
bootstrap: str = (
'from tractor._child import _actor_child_main\n'
'_actor_child_main(\n'
f' uid={uid!r},\n'
f' loglevel={loglevel!r},\n'
f' parent_addr={parent_addr!r},\n'
f' infect_asyncio={infect_asyncio!r},\n'
f' spawn_method={"subint"!r},\n'
')\n'
)
cancelled_during_spawn: bool = False
subint_exited = trio.Event()
ipc_server: _server.Server = actor_nursery._actor.ipc_server
# Capture a trio token so the driver thread can signal
# `subint_exited.set()` back into the parent trio loop.
trio_token = trio.lowlevel.current_trio_token()
def _subint_target() -> None:
'''
Dedicated OS-thread target: runs `_interpreters.exec()`
once and exits.
We intentionally use a plain `threading.Thread` here
rather than `trio.to_thread.run_sync()` because trio's
thread cache would *recycle* the same OS thread for
subsequent jobs leaving CPython's subinterpreter
tstate attached to that cached worker and blocking
`_interpreters.destroy()` in the teardown block below.
A dedicated thread truly exits after `exec()` returns,
releasing the tstate so destroy can proceed.
'''
try:
_interpreters.exec(interp_id, bootstrap)
# XXX without this catch, a hard subint-bootstrap
# failure (e.g. `ImportError` because the actor module
# isn't importable inside the subint, or a syntax error
# in the bootstrap str) goes only to Python's default
# thread-excepthook and is INVISIBLE to the parent
# task. At minimum, log via `log.exception` so the
# operator sees what failed.
# ?TODO, surface the captured exc to the parent task
# via a `nonlocal err` slot inspected after
# `subint_exited.wait()` — see anyio's
# `to_interpreter._interp_call` `(retval, is_exception)`
# tuple pattern + `_subint_forkserver.py:480-494`'s
# equivalent which already does this. Skipped here for
# now: re-raise from the parent must coordinate with
# the existing `trio.Cancelled` paths around the
# `subint_exited.wait()` calls (lines 327, 362).
# NOTE: this whole dedicated-thread machinery may go
# away under #450 (PEP 684 isolated mode), in which
# case `trio.to_thread.run_sync(Interpreter.exec, ...)`
# would handle exception propagation natively.
except BaseException:
log.exception(
f'subint bootstrap raised — interp_id={interp_id}'
)
finally:
try:
trio.from_thread.run_sync(
subint_exited.set,
trio_token=trio_token,
)
except trio.RunFinishedError:
# parent trio loop has already exited (proc
# teardown); nothing to signal.
pass
# NOTE: `daemon=True` so a stuck subint can never block
# process exit — if our `_HARD_KILL_TIMEOUT` paths below
# have to abandon this thread, Python's interpreter
# shutdown won't wait for it forever. Tradeoff: any
# subint state still live at abandon-time may leak.
driver_thread = threading.Thread(
target=_subint_target,
name=f'subint-driver[{interp_id}]',
daemon=True,
)
try:
try:
driver_thread.start()
try:
event, chan = await ipc_server.wait_for_peer(uid)
except trio.Cancelled:
cancelled_during_spawn = True
raise
portal = Portal(chan)
actor_nursery._children[uid] = (
subactor,
interp_id, # proxy for the normal `proc` slot
portal,
)
sspec = msgtypes.SpawnSpec(
_parent_main_data=subactor._parent_main_data,
enable_modules=subactor.enable_modules,
reg_addrs=subactor.reg_addrs,
bind_addrs=bind_addrs,
_runtime_vars=_runtime_vars,
)
log.runtime(
f'Sending spawn spec to subint child\n'
f'{{}}=> {chan.aid.reprol()!r}\n'
f'\n'
f'{pretty_struct.pformat(sspec)}\n'
)
await chan.send(sspec)
curr_actor: Actor = current_actor()
curr_actor._actoruid2nursery[uid] = actor_nursery
task_status.started(portal)
with trio.CancelScope(shield=True):
await actor_nursery._join_procs.wait()
async with trio.open_nursery() as lifecycle_n:
if portal in actor_nursery._cancel_after_result_on_exit:
lifecycle_n.start_soon(
cancel_on_completion,
portal,
subactor,
errors,
)
# Soft-kill analog: wait for the subint to exit
# naturally; on cancel, send a graceful cancel
# via the IPC portal and then wait for the
# driver thread to finish so `_interpreters.destroy()`
# won't race with a running interpreter.
try:
await subint_exited.wait()
except trio.Cancelled:
# Bounded shield: we want to ATTEMPT a
# graceful cancel via the portal, but we
# MUST NOT let the shield trap user
# Ctrl-C / parent teardown forever if the
# subint is already unreachable (e.g., the
# IPC channel was broken — which is exactly
# what `test_ipc_channel_break_during_stream`
# exercises). After `_HARD_KILL_TIMEOUT` we
# drop the shield and let `Cancelled`
# propagate; the outer teardown will force
# things along.
with (
trio.CancelScope(shield=True),
trio.move_on_after(
_HARD_KILL_TIMEOUT,
) as cs,
):
log.cancel(
f'Soft-killing subint sub-actor\n'
f'c)=> {chan.aid.reprol()}\n'
f' |_interp_id={interp_id}\n'
)
try:
await portal.cancel_actor()
except (
trio.BrokenResourceError,
trio.ClosedResourceError,
):
# channel already down — subint will
# exit on its own timeline (or won't,
# in which case the timeout below
# is our escape).
pass
await subint_exited.wait()
if cs.cancelled_caught:
log.warning(
f'Soft-kill of subint sub-actor timed '
f'out after {_HARD_KILL_TIMEOUT}s — '
f'subint may still be running; '
f'escalating to thread-abandon.\n'
f' |_interp_id={interp_id}\n'
f' |_aid={chan.aid.reprol()}\n'
)
raise
finally:
lifecycle_n.cancel_scope.cancel()
finally:
# Ensure the driver thread is *fully* joined before
# destroying the subint. `subint_exited.set()` fires
# from inside the thread but returns to trio before
# the thread's bootstrap cleanup finishes; calling
# `destroy()` too eagerly can race with tstate
# teardown. Off-load the blocking `.join()` to a
# cache thread (which carries no subint tstate of
# its own, so no cache conflict).
#
# Bounded shield: if the driver thread never exits
# (soft-kill failed above, subint stuck in
# non-checkpointing Python, etc.) we MUST abandon
# it rather than wedge the parent forever. The
# thread is `daemon=True` so proc-exit won't block
# on it either. Subsequent `_interpreters.destroy()`
# on a still-running subint raises `InterpreterError`
# which we log and swallow — the abandoned subint
# will be torn down by process exit.
with (
trio.CancelScope(shield=True),
trio.move_on_after(_HARD_KILL_TIMEOUT) as cs,
):
if driver_thread.is_alive():
# XXX `abandon_on_cancel=True` is load-bearing:
# the default (False) makes `to_thread.run_sync`
# ignore the enclosing `move_on_after` and
# block until `driver_thread.join()` returns —
# which is exactly what we can't wait for here.
await trio.to_thread.run_sync(
driver_thread.join,
abandon_on_cancel=True,
)
if cs.cancelled_caught:
# Disambiguate "thread leaked but subint already
# done" from "thread alive because subint is
# genuinely wedged" — pattern borrowed from
# trio-parallel's `_sint.SintWorker.is_alive()`.
still_running: bool = _interpreters.is_running(
interp_id,
)
log.warning(
f'Subint driver thread did not exit within '
f'{_HARD_KILL_TIMEOUT}s — abandoning.\n'
f' |_interp_id={interp_id}\n'
f' |_thread={driver_thread.name}\n'
f' |_subint_still_running={still_running}\n'
f'(This usually means portal-cancel could '
f'not be delivered — e.g., IPC channel was '
f'already broken. The subint will continue '
f'running until process exit terminates the '
f'daemon thread.)'
)
with trio.CancelScope(shield=True):
try:
_interpreters.destroy(interp_id)
log.runtime(
f'Destroyed sub-interpreter\n'
f')>\n'
f' |_interp_id={interp_id}\n'
)
except _interpreters.InterpreterError as e:
log.warning(
f'Could not destroy sub-interpreter '
f'{interp_id}: {e}\n'
f'(expected if the driver thread was '
f'abandoned above; the subint is still '
f'running and will be reaped at process '
f'exit.)'
)
finally:
if not cancelled_during_spawn:
actor_nursery._children.pop(uid, None)

View File

@ -0,0 +1,153 @@
# tractor: structured concurrent "actors".
# Copyright 2018-eternity Tyler Goodlet.
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
'''
`subint_fork` spawn backend BLOCKED at CPython level.
The idea was to use a sub-interpreter purely as a launchpad
from which to call `os.fork()`, sidestepping the well-known
trio+fork issues (python-trio/trio#1614 etc.) by guaranteeing
the forking interp had never imported `trio`.
**IT DOES NOT WORK ON CURRENT CPYTHON.** The fork syscall
itself succeeds (in the parent), but the forked CHILD
process aborts immediately during CPython's post-fork
cleanup `PyOS_AfterFork_Child()` calls
`_PyInterpreterState_DeleteExceptMain()` which refuses to
operate when the current tstate belongs to a non-main
sub-interpreter.
Full annotated walkthrough from the user-visible error
(`Fatal Python error: _PyInterpreterState_DeleteExceptMain:
not main interpreter`) down to the specific CPython source
lines that enforce this is in
`ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`.
We keep this submodule as a dedicated documentation of the
attempt. If CPython ever lifts the restriction (e.g., via a
force-destroy primitive or a hook that swaps tstate to main
pre-fork), the structural sketch preserved in this file's
git history is a concrete starting point for a working impl.
See also: issue #379's "Our own thoughts, ideas for
`fork()`-workaround/hacks..." section.
'''
from __future__ import annotations
import sys
from typing import (
Any,
TYPE_CHECKING,
)
import trio
from trio import TaskStatus
from tractor.runtime._portal import Portal
from ._subint import _has_subints
if TYPE_CHECKING:
from tractor.discovery._addr import UnwrappedAddress
from tractor.runtime._runtime import Actor
from tractor.runtime._supervise import ActorNursery
async def subint_fork_proc(
name: str,
actor_nursery: ActorNursery,
subactor: Actor,
errors: dict[tuple[str, str], Exception],
bind_addrs: list[UnwrappedAddress],
parent_addr: UnwrappedAddress,
_runtime_vars: dict[str, Any],
*,
infect_asyncio: bool = False,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED,
proc_kwargs: dict[str, any] = {},
) -> None:
'''
EXPERIMENTAL currently blocked by a CPython invariant.
Attempted design
----------------
1. Parent creates a fresh legacy-config subint.
2. A worker OS-thread drives the subint through a
bootstrap that calls `os.fork()`.
3. In the forked CHILD, `os.execv()` back into
`python -m tractor._child` (fresh process).
4. In the fork-PARENT, the launchpad subint is destroyed;
parent-side trio task proceeds identically to
`trio_proc()` (wait for child connect-back, send
`SpawnSpec`, yield `Portal`, etc.).
Why it doesn't work
-------------------
CPython's `PyOS_AfterFork_Child()` (in
`Modules/posixmodule.c`) calls
`_PyInterpreterState_DeleteExceptMain()` (in
`Python/pystate.c`) as part of post-fork cleanup. That
function requires the current `PyThreadState` belong to
the **main** interpreter. When `os.fork()` is called
from within a sub-interpreter, the child wakes up with
its tstate still pointing at the (now-stale) subint, and
this check fails with `PyStatus_ERR("not main
interpreter")`, triggering a `fatal_error` goto and
aborting the child process.
CPython devs acknowledge the fragility with a
`// Ideally we could guarantee tstate is running main.`
comment right above the call site.
See
`ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md`
for the full annotated walkthrough + upstream-report
draft.
Why we keep this stub
---------------------
- Documents the attempt in-tree so the next person who
has this idea finds the reason it doesn't work rather
than rediscovering the same CPython-level dead end.
- If CPython ever lifts the restriction (e.g., via a
force-destroy primitive or a hook that swaps tstate
to main pre-fork), this submodule's git history holds
the structural sketch of what a working impl would
look like.
'''
if not _has_subints:
raise RuntimeError(
f'The {"subint_fork"!r} spawn backend requires '
f'Python 3.14+.\n'
f'Current runtime: {sys.version}'
)
raise NotImplementedError(
'The `subint_fork` spawn backend is blocked at the '
'CPython level — `os.fork()` from a non-main '
'sub-interpreter is refused by '
'`PyOS_AfterFork_Child()` → '
'`_PyInterpreterState_DeleteExceptMain()`, which '
'aborts the child with '
'`Fatal Python error: not main interpreter`.\n'
'\n'
'See '
'`ai/conc-anal/subint_fork_blocked_by_cpython_post_fork_issue.md` '
'for the full analysis + upstream-report draft.'
)

View File

@ -0,0 +1,313 @@
# tractor: structured concurrent "actors".
# Copyright 2018-eternity Tyler Goodlet.
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
'''
Variant-2 (future) "subint forkserver" placeholder reserved
for the eventual subint-isolated-child runtime variant.
> **Status:** reserved key, stub impl. Today
> `--spawn-backend=subint_forkserver` raises a clean
> `NotImplementedError` from `subint_forkserver_proc()`
> below, pointing at variant-1
> (`--spawn-backend=main_thread_forkserver`, see
> `tractor.spawn._main_thread_forkserver`) and the upstream
> blocker
> ([jcrist/msgspec#1026](https://github.com/jcrist/msgspec/issues/1026)).
> The key is reserved here (not aliased to variant-1) so the
> literal subint-hosted-child impl can flip in-place once
> msgspec#1026 unblocks PEP 684 isolated-mode subints
> upstream no API churn at the call site.
Future arch what subints would buy us
---------------------------------------
When msgspec#1026 unblocks isolated-mode subints (PEP 684
per-interp GIL), three concrete wins land these are the
reason the `'subint_forkserver'` key is reserved as a
distinct backend rather than just folded into
`'main_thread_forkserver'`:
**(1) Cheaper forks (smaller main-interp COW image)**
Today (variant 1) the parent's main interp carries the full
tractor stack: trio runtime, msgspec codecs, IPC layer,
every user module the actor imported. When the forkserver
worker calls `os.fork()` the child inherits ALL of that as
COW memory even though most gets overwritten when the
child boots its own `trio.run()`.
Variant 2 moves the parent's `trio.run()` into a subint (its
own `sys.modules` / `__main__` / globals). The main interp
**stays minimal** just the forkserver-thread plumbing +
bare CPython. The main interp becomes the *literal*
forkserver: an intentionally-empty execution context whose
only job is to call `os.fork()` cleanly. Inherited COW image
shrinks proportionally.
**(2) True parallelism between forkserver and trio
(per-interp GIL)**
Variant-1 today: the forkserver worker and the trio.run()
thread share the main GIL when one runs the other waits.
Spawn requests briefly stall trio while the worker takes
the GIL to call `os.fork()`. PEP 684 isolated-mode gives
each subint its own GIL: forkserver thread on main + trio
on subint actually run in parallel. Spawn latency drops,
trio loop doesn't notice the fork happening.
**(3) Multi-actor-per-process (the architectural prize)**
The bigger payoff and the reason `_subint.py` (the in-thread
`subint` backend) exists in parallel with this module. With
per-interp-GIL subints, one process can host:
- main interp: forkserver thread + bookkeeping
- subint A: actor 1's `trio.run()`
- subint B: actor 2's `trio.run()`
- subint C: ...
`os.fork()` becomes the **last-resort** spawn used only
when a new OS process is actually required (cgroups,
namespaces, security boundary, multi-host distribution).
Within a single process, subint-per-actor is radically
cheaper: no fork, no COW, no inherited-fd cleanup just
`_interpreters.create()` + `_interpreters.exec()`.
The three backends converge on a coherent story:
- `subint` in-process spawn (cheap, GIL-isolated),
- `main_thread_forkserver` cross-process spawn today
(variant 1, working),
- `subint_forkserver` cross-process spawn with
isolated-subint child (variant 2, this module, future).
What lives here today
---------------------
- `run_subint_in_worker_thread()` companion primitive to
`_main_thread_forkserver.fork_from_worker_thread()`. Creates
a fresh `legacy`-config sub-interpreter and drives a given
bootstrap code string through `_interpreters.exec()` on a
dedicated worker thread; destroys the subint after the
thread joins. Used today by the
`subint_fork_from_main_thread_smoketest.py` feasibility
check; will be wired into the variant-2
`subint_forkserver_proc` spawn-coroutine when it lands.
- (legacy re-exports of fork primitives kept for backward-
compatible imports until external consumers migrate to
`_main_thread_forkserver`)
What will live here when variant 2 ships
----------------------------------------
- `subint_forkserver_proc()` the variant-2 spawn-backend
coroutine. Same fork machinery as variant 1, but the
fork-child enters a fresh subint (via
`run_subint_in_worker_thread`) before booting its
`trio.run()`. Net effect: child runtime is GIL-isolated
from the parent + any sibling actors in the same process.
- A stub `subint_forkserver_proc` is added in a follow-up
commit that raises `NotImplementedError(...)` pointing at
this docstring + jcrist/msgspec#1026 + tractor #379, so
`--spawn-backend=subint_forkserver` errors cleanly today
rather than silently aliasing variant 1.
See also
--------
- `tractor.spawn._main_thread_forkserver` variant 1,
working today; for the full design rationale, fork-
semantics analysis, and trio×fork hazard breakdown.
- `tractor.spawn._subint` the in-thread `subint` backend
(one process, one actor per subint, no fork).
- `tractor.spawn._subint_fork` RFC stub for the
fork-from-non-main-subint strategy that is blocked at the
CPython level.
- [#379](https://github.com/goodboy/tractor/issues/379)
subint backend umbrella tracking issue.
- [jcrist/msgspec#1026](https://github.com/jcrist/msgspec/issues/1026)
upstream blocker for PEP 684 isolated-mode subints.
- [#450](https://github.com/goodboy/tractor/issues/450) —
thread-constraints audit follow-up tied to msgspec#1026.
'''
from __future__ import annotations
import threading
from typing import (
Any,
TYPE_CHECKING,
)
import trio
from trio import TaskStatus
from tractor.log import get_logger
from ._subint import _has_subints
if TYPE_CHECKING:
from tractor.discovery._addr import UnwrappedAddress
from tractor.runtime._portal import Portal
from tractor.runtime._runtime import Actor
from tractor.runtime._supervise import ActorNursery
# Private CPython subint API — used by `run_subint_in_worker_thread`
# below. Imported only when 3.14+ is detected (via `_has_subints`
# from `_subint`); on older runtimes the symbol is `None` and
# the function raises a clean `RuntimeError` on entry.
if _has_subints:
import _interpreters # type: ignore
else:
_interpreters = None # type: ignore
log = get_logger('tractor')
def run_subint_in_worker_thread(
bootstrap: str,
*,
thread_name: str = 'subint-trio',
join_timeout: float = 10.0,
) -> None:
'''
Create a fresh legacy-config sub-interpreter and drive
the given `bootstrap` code string through
`_interpreters.exec()` on a dedicated worker thread.
Naming mirrors `fork_from_worker_thread()`:
"<action>_in_worker_thread" the action here is "run a
subint", not "run trio" per se. Typical `bootstrap`
content does import `trio` + call `trio.run()`, but
nothing about this primitive requires trio; it's a
generic "host a subint on a worker thread" helper.
Intended mainly for use inside a fork-child (see
`tractor.spawn._subint_forkserver` module docstring) but
works anywhere.
See `tractor.spawn._subint.subint_proc` for the matching
pattern tractor uses at the sub-actor level.
Destroys the subint after the thread joins.
'''
if not _has_subints:
raise RuntimeError(
'subint-forkserver primitives require Python '
'3.14+.'
)
interp_id: int = _interpreters.create('legacy')
log.runtime(
f'Created child-side subint for trio.run()\n'
f'(>\n'
f' |_interp_id={interp_id}\n'
)
err: BaseException | None = None
def _drive() -> None:
nonlocal err
try:
_interpreters.exec(interp_id, bootstrap)
except BaseException as e:
err = e
log.exception(
f'Failed to .exec() in subint ??\n'
f'_interpreters.exec(\n'
f' interp_id={interp_id!r},\n'
f' bootstrap={bootstrap!r},\n'
f') => {err!r}\n'
)
worker: threading.Thread = threading.Thread(
target=_drive,
name=thread_name,
daemon=False,
)
worker.start()
worker.join(timeout=join_timeout)
try:
_interpreters.destroy(interp_id)
except _interpreters.InterpreterError as e:
log.warning(
f'Could not destroy child-side subint '
f'{interp_id}: {e}'
)
if worker.is_alive():
raise RuntimeError(
f'child-side subint trio-driver thread '
f'{thread_name!r} did not return within '
f'{join_timeout}s.'
)
if err is not None:
raise err
async def subint_forkserver_proc(
name: str,
actor_nursery: ActorNursery,
subactor: Actor,
errors: dict[tuple[str, str], Exception],
bind_addrs: list[UnwrappedAddress],
parent_addr: UnwrappedAddress,
_runtime_vars: dict[str, Any],
*,
infect_asyncio: bool = False,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED,
proc_kwargs: dict[str, any] = {},
) -> None:
'''
PLACEHOLDER variant-2 (subint-isolated child runtime)
spawn-backend coroutine. Reserved for the eventual impl
that uses `run_subint_in_worker_thread()` in the fork-child
to host the child's `trio.run()` inside a fresh subint.
Today this stub raises immediately so
`--spawn-backend=subint_forkserver` errors cleanly with a
pointer to the working variant-1 backend
(`main_thread_forkserver`) and the upstream blocker
([jcrist/msgspec#1026](https://github.com/jcrist/msgspec/issues/1026)).
See this module's top-level docstring for the future-arch
design + what lives here when the variant-2 impl lands.
'''
raise NotImplementedError(
f'`{ "subint_forkserver"!r}` spawn backend is reserved '
f'for the future variant-2 (subint-isolated child '
f'runtime) — gated on jcrist/msgspec#1026 unblocking '
f'PEP 684 isolated-mode subints upstream.\n'
f'\n'
f'For the working fork-based backend today, use '
f'`--spawn-backend=main_thread_forkserver` (variant '
f'1: fork from a regular main-interp worker thread, '
f'child runs trio on its own main interp).\n'
f'\n'
f'See:\n'
f' - tractor.spawn._main_thread_forkserver — the '
f'working variant-1 impl + design rationale\n'
f' - tractor.spawn._subint_forkserver — this '
f'module\'s docstring for the variant-2 future-arch\n'
f' - https://github.com/goodboy/tractor/issues/379 '
f'(subint umbrella)\n'
f' - https://github.com/jcrist/msgspec/issues/1026 '
f'(upstream PEP 684 blocker)'
)

View File

@ -36,4 +36,8 @@ from ._beg import (
) )
from ._taskc import ( from ._taskc import (
maybe_raise_from_masking_exc as maybe_raise_from_masking_exc, maybe_raise_from_masking_exc as maybe_raise_from_masking_exc,
start_or_cancel as start_or_cancel,
)
from ._subproc import (
supervise_run_process as supervise_run_process,
) )

View File

@ -0,0 +1,296 @@
# tractor: distributed structured concurrency.
# Copyright 2018-eternity Tyler Goodlet.
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
'''
SC-friendly `trio.run_process()` supervision: a `tn.start()`
style wrapper which surfaces rc!=0 errors deterministically and
(optionally) live-relays the child's std-streams to the `tractor`
log.
'''
from __future__ import annotations
from functools import partial
import subprocess
import textwrap
from typing import (
Callable,
)
import trio
from ..log import get_logger
log = get_logger()
# sentinel so `supervise_run_process(stdout=...)` can tell
# "caller passed nothing" (-> tty-safe `DEVNULL` default) from
# an explicit `stdout=None` (inherit) override.
_UNSET = object()
def _add_stderr_note(
cpe: subprocess.CalledProcessError,
stderr_bytes: bytes,
) -> None:
'''
Attach an indented `|_.stderr:` note to a
`CalledProcessError` for legible rc!=0 reporting at
teardown.
'''
stderr_str: str = stderr_bytes.decode(errors='replace')
cpe.add_note(
f'|_.stderr:\n'
f'{textwrap.indent(stderr_str, prefix=" "*3)}'
)
async def _relay_stream_lines(
stream: trio.abc.ReceiveStream,
*,
emit: Callable[[str], None]|None = None,
tag: str = '',
accum: bytearray|None = None,
) -> None:
'''
Concurrently drain a child subproc's `stdout`/`stderr`
PIPE; relay each COMPLETE line to `emit` (a bound
`log.<level>` method) prefixed with `tag` (e.g.
`f'{label}:out'`) and/or append raw bytes to `accum`.
This reader is MANDATORY whenever a bare
`stdout=`/`stderr=PIPE` is used WITHOUT `trio`'s
`capture_*` (which would spawn trio's own internal drain
task): nothing else drains the OS pipe, so once its kernel
buffer (~64KiB) fills the child blocks on `write()` ->
deadlock.
Modes (combine freely):
- `emit`-only: live per-line relay (e.g. `relay_stdout`).
- `accum`-only: silent drain + capture (e.g. stderr kept
for a `CalledProcessError` note WITHOUT relaying it).
- both: relay AND capture (e.g. `relay_stderr` with `check=True`).
'''
# NOTE, mirrors `trio._subprocess`'s internal
# `async with stream: async for ...` drain idiom — except
# here we EMIT per-line (and/or accumulate) instead of
# only accumulating.
residual: bytes = b''
async with stream: # aclose at EOF/cancel
async for chunk in stream: # ends at child-exit EOF
if accum is not None:
accum += chunk
if emit is None:
continue # drain(+accum)-only
buf: bytes = residual + chunk
*lines, residual = buf.split(b'\n')
for raw in lines:
line: str = raw.decode(
errors='replace',
).rstrip('\r')
emit(f'[{tag}] {line}')
# flush any trailing partial (un-newline-term'd) line @ EOF
if (
emit is not None
and
residual
):
line: str = residual.decode(
errors='replace',
).rstrip('\r')
emit(f'[{tag}] {line}')
async def supervise_run_process(
cmd: list[str]|str,
*,
check: bool = True,
label: str|None = None,
# per-line `log.*` relay of the child's std-streams
# (tty-safe, capture-safe, STREAMED — not
# buffered-until-exit, so it suits long-lived daemons).
relay_stdout: bool = False,
relay_stderr: bool = False,
# default `io` (our custom level, value 21): the relay
# exists to make windowless-spawn output VISIBLE, and
# `IO`(21) sorts just ABOVE `INFO`(20) so it shows at the
# usual `info`/`devx` console levels (a `runtime`(15) relay
# would be silently filtered) while staying distinctly
# labelled + separately filterable.
relay_level: str = 'io',
# non-relay `stdout` override; defaults (via `_UNSET`) to
# `DEVNULL` so we NEVER inherit (+ thus can't clobber) the
# parent controlling-tty.
stdout: int = _UNSET,
task_status: trio.TaskStatus[
trio.Process
] = trio.TASK_STATUS_IGNORED,
# any other `trio.run_process()` kwarg (env, shell, cwd,
# start_new_session, executable, ...) forwarded verbatim;
# our MANAGED keys (stdin/stdout/stderr/check) are set
# below and WIN on conflict.
**run_process_kwargs,
) -> None:
'''
A `trio.Nursery.start()`-style `trio.run_process()`
wrapper which,
- surfaces a rc!=0 `subprocess.CalledProcessError`
DETERMINISTICALLY: we pass `check=False` to `trio` and
do our OWN post-drain rc-check, (re)building + raising a
BARE CPE (with a `.stderr` note) from this coro's body
AFTER the child exits so there's no nursery-eg-wrapped
CPE to catch/`collapse_eg`, and the relay reader is never
race-cancelled mid-drain.
- ALWAYS isolates the parent controlling-tty
(`stdin=DEVNULL`, and `stdout=DEVNULL` unless
relayed/overridden) so a spawned program can't emit
terminal control-seqs onto the launching tty (which
would clobber its scrollback).
- optionally live-relays `stdout`/`stderr` per-line to
`log.<relay_level>` via concurrent reader tasks (see
`_relay_stream_lines`).
Delivers the live `trio.Process` via
`task_status.started()` then SUPERVISES it (the
`run_process` bg task + any relay readers) to completion
in this coro i.e. the parent `tn.start()` returns
immediately/non-blocking.
NOTE: any crash-handling / `repl_fixture` layer is
intentionally NOT baked in here compose it ON TOP at the
call-site, e.g.
async with maybe_open_crash_handler():
await tn.start(
partial(supervise_run_process, cmd, ...),
)
'''
emit: Callable[[str], None] = getattr(log, relay_level)
tag: str = (
label
or
(cmd if isinstance(cmd, str) else ' '.join(cmd))
)
# forward any extra `trio.run_process` kwargs verbatim;
# MANAGED keys below override on conflict.
rp_kwargs: dict = dict(run_process_kwargs)
# XXX ALWAYS isolate the controlling-tty's stdin.
rp_kwargs['stdin'] = subprocess.DEVNULL
# stdout: relay -> our own PIPE (drained by the reader
# below); else an explicit override; else tty-safe
# `DEVNULL`.
if relay_stdout:
rp_kwargs['stdout'] = subprocess.PIPE
elif stdout is not _UNSET:
rp_kwargs['stdout'] = stdout
else:
rp_kwargs['stdout'] = subprocess.DEVNULL
# stderr: PIPE (+ our reader) when we either RELAY it OR
# need it captured for a rc!=0 CPE note; else tty-safe
# `DEVNULL`. We accumulate ONLY when `check` (the note is
# the only consumer).
#
# XXX we ALWAYS pass `check=False` to `trio` and do our
# OWN deterministic post-drain rc-check (below) so `trio`
# never raises a nursery-eg-wrapped CPE — no `collapse_eg`
# workaround, no reader race-cancel.
want_stderr_pipe: bool = relay_stderr or check
stderr_accum: bytearray|None = bytearray() if check else None
rp_kwargs['check'] = False
rp_kwargs['stderr'] = (
subprocess.PIPE if want_stderr_pipe
else subprocess.DEVNULL
)
async with trio.open_nursery() as own_tn:
trio_proc: trio.Process = await own_tn.start(
partial(
trio.run_process,
cmd,
**rp_kwargs,
)
)
# spin up the concurrent pipe-drain relay reader(s) —
# see `_relay_stream_lines` for why these are mandatory
# (not cosmetic) when piping without `capture_*`.
if relay_stdout:
own_tn.start_soon(
partial(
_relay_stream_lines,
trio_proc.stdout,
emit=emit,
tag=f'{tag}:out',
)
)
if want_stderr_pipe:
own_tn.start_soon(
partial(
_relay_stream_lines,
trio_proc.stderr,
# relay live only if asked; else silent
# drain+capture for the CPE note.
emit=emit if relay_stderr else None,
tag=f'{tag}:err',
accum=stderr_accum,
)
)
# hand the live proc up to the parent WITHOUT blocking
# on the bg supervise/relay tasks (keeps non-blocking
# `tn.start()` semantics).
task_status.started(trio_proc)
# ===== deterministic post-drain rc-check (BOTH paths) =====
# `own_tn` only unwinds once `run_process` AND the relay
# reader(s) have hit EOF + FULLY drained — so `stderr_accum`
# is COMPLETE here (no race vs an early CPE-cancel). Rebuild
# + raise a BARE `CalledProcessError` (the parent `tn` will
# eg-wrap it like any task-raise; callers `collapse_eg()` if
# they want it bare).
if (
check
and
trio_proc.returncode
):
stderr_bytes: bytes = (
bytes(stderr_accum)
if stderr_accum is not None
else b''
)
cpe = subprocess.CalledProcessError(
returncode=trio_proc.returncode,
cmd=trio_proc.args,
stderr=stderr_bytes,
)
_add_stderr_note(cpe, stderr_bytes)
raise cpe

View File

@ -27,6 +27,9 @@ from types import (
TracebackType, TracebackType,
) )
from typing import ( from typing import (
Any,
Awaitable,
Callable,
Type, Type,
TYPE_CHECKING, TYPE_CHECKING,
) )
@ -295,3 +298,53 @@ async def maybe_raise_from_masking_exc(
else: else:
raise raise
async def start_or_cancel(
nursery: trio.Nursery,
async_fn: Callable[..., Awaitable[Any]],
*args,
name: object = None,
) -> Any:
'''
Like `trio.Nursery.start()` but DON'T mask an out-of-band
cancellation as a (lossy) startup failure.
`trio.Nursery.start()` raises a generic
`RuntimeError("child exited without calling
task_status.started()")` whenever the started task exits
BEFORE calling `task_status.started()` INCLUDING the very
common case where the child was cancelled out-of-band by an
*ancestor* cancel-scope erroring/cancelling. In that case the
original `trio.Cancelled` is swallowed and the caller is left
with an opaque, root-cause-detached `RuntimeError`.
This wrapper re-surfaces any ambient (effective, hence
ancestor-inclusive) cancellation via
`trio.lowlevel.checkpoint_if_cancelled()` so the real
`trio.Cancelled` (carrying trio's auto-generated reason which
points at the true root exc) propagates instead. Only when we
are NOT under cancellation is the "didn't call `.started()`"
`RuntimeError` a genuine startup-protocol bug worth surfacing,
so it's re-raised as-is in that case.
'''
try:
return await nursery.start(
async_fn,
*args,
name=name,
)
except RuntimeError as rte:
if (
rte.args
and
'started' in rte.args[0]
):
# re-raises the in-flight `trio.Cancelled` IFF we're
# under effective cancellation; else a cheap no-op and
# we fall through to re-raise the genuine startup RTE.
await trio.lowlevel.checkpoint_if_cancelled()
raise

View File

@ -797,7 +797,7 @@ dev = [
{ name = "pytest-timeout", specifier = ">=2.3" }, { name = "pytest-timeout", specifier = ">=2.3" },
{ name = "stackscope", specifier = ">=0.2.2,<0.3" }, { name = "stackscope", specifier = ">=0.2.2,<0.3" },
{ name = "typing-extensions", specifier = ">=4.14.1" }, { name = "typing-extensions", specifier = ">=4.14.1" },
{ name = "xonsh", specifier = ">=0.23.0" }, { name = "xonsh", specifier = ">=0.23.8" },
] ]
devx = [ devx = [
{ name = "stackscope", specifier = ">=0.2.2,<0.3" }, { name = "stackscope", specifier = ">=0.2.2,<0.3" },
@ -809,7 +809,7 @@ repl = [
{ name = "prompt-toolkit", specifier = ">=3.0.50" }, { name = "prompt-toolkit", specifier = ">=3.0.50" },
{ name = "psutil", specifier = ">=7.0.0" }, { name = "psutil", specifier = ">=7.0.0" },
{ name = "pyperclip", specifier = ">=1.9.0" }, { name = "pyperclip", specifier = ">=1.9.0" },
{ name = "xonsh", specifier = ">=0.23.0" }, { name = "xonsh", specifier = ">=0.23.8" },
] ]
subints = [{ name = "msgspec", marker = "python_full_version >= '3.14'", specifier = ">=0.21.0" }] subints = [{ name = "msgspec", marker = "python_full_version >= '3.14'", specifier = ">=0.21.0" }]
sync-pause = [{ name = "greenback", marker = "python_full_version == '3.13.*'", specifier = ">=1.2.1,<2" }] sync-pause = [{ name = "greenback", marker = "python_full_version == '3.13.*'", specifier = ">=1.2.1,<2" }]

View File

@ -488,6 +488,7 @@ def _tractor_reap(args):
reap, reap,
reap_shm, reap_shm,
reap_uds, reap_uds,
_TRACTOR_PROC_CMDLINE_MARKERS,
) )
rc: int = 0 rc: int = 0
@ -500,9 +501,8 @@ def _tractor_reap(args):
else: else:
pids = find_orphans() pids = find_orphans()
mode = ( mode = (
'orphans (PPid==1, intrinsic ' f'orphans (PPid==1, intrinsic '
'cmdline/comm match — `tractor[…]` or ' f'cmdline/comm match — {_TRACTOR_PROC_CMDLINE_MARKERS}'
'`tractor._child`)'
) )
if not pids: if not pids: