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@ -1,14 +1,8 @@
name: CI name: CI
on: on: push
# any time someone pushes a new branch to origin
push:
# Allows you to run this workflow manually from the Actions tab
workflow_dispatch:
jobs: jobs:
mypy: mypy:
name: 'MyPy' name: 'MyPy'
runs-on: ubuntu-latest runs-on: ubuntu-latest
@ -20,112 +14,32 @@ jobs:
- name: Setup python - name: Setup python
uses: actions/setup-python@v2 uses: actions/setup-python@v2
with: with:
python-version: '3.10' python-version: '3.9'
- name: Install dependencies - name: Install dependencies
run: pip install -U . --upgrade-strategy eager -r requirements-test.txt run: pip install -U . --upgrade-strategy eager -r requirements-test.txt
- name: Run MyPy check - name: Run MyPy check
run: mypy tractor/ --ignore-missing-imports --show-traceback run: mypy tractor/ --ignore-missing-imports
# test that we can generate a software distribution and install it testing:
# thus avoid missing file issues after packaging.
sdist-linux:
name: 'sdist'
runs-on: ubuntu-latest
steps:
- name: Checkout
uses: actions/checkout@v2
- name: Setup python
uses: actions/setup-python@v2
with:
python-version: '3.10'
- name: Build sdist
run: python setup.py sdist --formats=zip
- name: Install sdist from .zips
run: python -m pip install dist/*.zip
testing-linux:
name: '${{ matrix.os }} Python ${{ matrix.python }} - ${{ matrix.spawn_backend }}' name: '${{ matrix.os }} Python ${{ matrix.python }} - ${{ matrix.spawn_backend }}'
timeout-minutes: 10 timeout-minutes: 9
runs-on: ${{ matrix.os }} runs-on: ${{ matrix.os }}
strategy: strategy:
fail-fast: false fail-fast: false
matrix: matrix:
os: [ubuntu-latest] os: [ubuntu-latest, windows-latest]
python: ['3.10'] python: ['3.8', '3.9']
spawn_backend: [ spawn_backend: ['trio', 'mp']
'trio',
'mp_spawn',
'mp_forkserver',
]
steps: steps:
- name: Checkout - name: Checkout
uses: actions/checkout@v2 uses: actions/checkout@v2
- name: Setup python - name: Setup python
uses: actions/setup-python@v2 uses: actions/setup-python@v2
with: with:
python-version: '${{ matrix.python }}' python-version: '${{ matrix.python }}'
- name: Install dependencies - name: Install dependencies
run: pip install -U . -r requirements-test.txt -r requirements-docs.txt --upgrade-strategy eager run: pip install -U . -r requirements-test.txt -r requirements-docs.txt --upgrade-strategy eager
- name: List dependencies
run: pip list
- name: Run tests - name: Run tests
run: pytest tests/ --spawn-backend=${{ matrix.spawn_backend }} -rsx run: pytest tests/ --spawn-backend=${{ matrix.spawn_backend }} -rs
# We skip 3.10 on windows for now due to not having any collabs to
# debug the CI failures. Anyone wanting to hack and solve them is very
# welcome, but our primary user base is not using that OS.
# TODO: use job filtering to accomplish instead of repeated
# boilerplate as is above XD:
# - https://docs.github.com/en/actions/learn-github-actions/managing-complex-workflows
# - https://docs.github.com/en/actions/learn-github-actions/managing-complex-workflows#using-a-build-matrix
# - https://docs.github.com/en/actions/learn-github-actions/workflow-syntax-for-github-actions#jobsjob_idif
# testing-windows:
# name: '${{ matrix.os }} Python ${{ matrix.python }} - ${{ matrix.spawn_backend }}'
# timeout-minutes: 12
# runs-on: ${{ matrix.os }}
# strategy:
# fail-fast: false
# matrix:
# os: [windows-latest]
# python: ['3.10']
# spawn_backend: ['trio', 'mp']
# steps:
# - name: Checkout
# uses: actions/checkout@v2
# - name: Setup python
# uses: actions/setup-python@v2
# with:
# python-version: '${{ matrix.python }}'
# - name: Install dependencies
# run: pip install -U . -r requirements-test.txt -r requirements-docs.txt --upgrade-strategy eager
# # TODO: pretty sure this solves debugger deps-issues on windows, but it needs to
# # be verified by someone with a native setup.
# # - name: Force pyreadline3
# # run: pip uninstall pyreadline; pip install -U pyreadline3
# - name: List dependencies
# run: pip list
# - name: Run tests
# run: pytest tests/ --spawn-backend=${{ matrix.spawn_backend }} -rsx

147
LICENSE
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@ -1,21 +1,23 @@
GNU AFFERO GENERAL PUBLIC LICENSE GNU GENERAL PUBLIC LICENSE
Version 3, 19 November 2007 Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/> Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed. of this license document, but changing it is not allowed.
Preamble Preamble
The GNU Affero General Public License is a free, copyleft license for The GNU General Public License is a free, copyleft license for
software and other kinds of works, specifically designed to ensure software and other kinds of works.
cooperation with the community in the case of network server software.
The licenses for most software and other practical works are designed The licenses for most software and other practical works are designed
to take away your freedom to share and change the works. By contrast, to take away your freedom to share and change the works. By contrast,
our General Public Licenses are intended to guarantee your freedom to the GNU General Public License is intended to guarantee your freedom to
share and change all versions of a program--to make sure it remains free share and change all versions of a program--to make sure it remains free
software for all its users. software for all its users. We, the Free Software Foundation, use the
GNU General Public License for most of our software; it applies also to
any other work released this way by its authors. You can apply it to
your programs, too.
When we speak of free software, we are referring to freedom, not When we speak of free software, we are referring to freedom, not
price. Our General Public Licenses are designed to make sure that you price. Our General Public Licenses are designed to make sure that you
@ -24,34 +26,44 @@ them if you wish), that you receive source code or can get it if you
want it, that you can change the software or use pieces of it in new want it, that you can change the software or use pieces of it in new
free programs, and that you know you can do these things. free programs, and that you know you can do these things.
Developers that use our General Public Licenses protect your rights To protect your rights, we need to prevent others from denying you
with two steps: (1) assert copyright on the software, and (2) offer these rights or asking you to surrender the rights. Therefore, you have
you this License which gives you legal permission to copy, distribute certain responsibilities if you distribute copies of the software, or if
and/or modify the software. you modify it: responsibilities to respect the freedom of others.
A secondary benefit of defending all users' freedom is that For example, if you distribute copies of such a program, whether
improvements made in alternate versions of the program, if they gratis or for a fee, you must pass on to the recipients the same
receive widespread use, become available for other developers to freedoms that you received. You must make sure that they, too, receive
incorporate. Many developers of free software are heartened and or can get the source code. And you must show them these terms so they
encouraged by the resulting cooperation. However, in the case of know their rights.
software used on network servers, this result may fail to come about.
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letting the public access it on a server without ever releasing its
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The GNU Affero General Public License is designed specifically to Developers that use the GNU GPL protect your rights with two steps:
ensure that, in such cases, the modified source code becomes available (1) assert copyright on the software, and (2) offer you this License
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provide the source code of the modified version running there to the
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An older license, called the Affero General Public License and For the developers' and authors' protection, the GPL clearly explains
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Some devices are designed to deny users access to install or run
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The precise terms and conditions for copying, distribution and The precise terms and conditions for copying, distribution and
modification follow. modification follow.
@ -60,7 +72,7 @@ modification follow.
0. Definitions. 0. Definitions.
"This License" refers to version 3 of the GNU Affero General Public License. "This License" refers to version 3 of the GNU General Public License.
"Copyright" also means copyright-like laws that apply to other kinds of "Copyright" also means copyright-like laws that apply to other kinds of
works, such as semiconductor masks. works, such as semiconductor masks.
@ -537,45 +549,35 @@ to collect a royalty for further conveying from those to whom you convey
the Program, the only way you could satisfy both those terms and this the Program, the only way you could satisfy both those terms and this
License would be to refrain entirely from conveying the Program. License would be to refrain entirely from conveying the Program.
13. Remote Network Interaction; Use with the GNU General Public License. 13. Use with the GNU Affero General Public License.
Notwithstanding any other provision of this License, if you modify the
Program, your modified version must prominently offer all users
interacting with it remotely through a computer network (if your version
supports such interaction) an opportunity to receive the Corresponding
Source of your version by providing access to the Corresponding Source
from a network server at no charge, through some standard or customary
means of facilitating copying of software. This Corresponding Source
shall include the Corresponding Source for any work covered by version 3
of the GNU General Public License that is incorporated pursuant to the
following paragraph.
Notwithstanding any other provision of this License, you have Notwithstanding any other provision of this License, you have
permission to link or combine any covered work with a work licensed permission to link or combine any covered work with a work licensed
under version 3 of the GNU General Public License into a single under version 3 of the GNU Affero General Public License into a single
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If the Program specifies that a proxy can decide which future If the Program specifies that a proxy can decide which future
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@ -633,29 +635,40 @@ the "copyright" line and a pointer to where the full notice is found.
Copyright (C) <year> <name of author> Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify This program is free software: you can redistribute it and/or modify
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the Free Software Foundation, either version 3 of the License, or the Free Software Foundation, either version 3 of the License, or
(at your option) any later version. (at your option) any later version.
This program is distributed in the hope that it will be useful, This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of but WITHOUT ANY WARRANTY; without even the implied warranty of
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You should have received a copy of the GNU Affero General Public License You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>. along with this program. If not, see <http://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail. Also add information on how to contact you by electronic and paper mail.
If your software can interact with users remotely through a computer If the program does terminal interaction, make it output a short
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get its source. For example, if your program is a web application, its
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of the code. There are many ways you could offer source, and different This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
solutions will be better for different programs; see section 13 for the This is free software, and you are welcome to redistribute it
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The hypothetical commands `show w' and `show c' should show the appropriate
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For more information on this, and how to apply and follow the GNU AGPL, see For more information on this, and how to apply and follow the GNU GPL, see
<https://www.gnu.org/licenses/>. <http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
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@ -1,2 +0,0 @@
# https://packaging.python.org/en/latest/guides/using-manifest-in/#using-manifest-in
include docs/README.rst

375
NEWS.rst
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@ -4,381 +4,6 @@ Changelog
.. towncrier release notes start .. towncrier release notes start
tractor 0.1.0a5 (2022-08-03)
============================
This is our final release supporting Python 3.9 since we will be moving
internals to the new `match:` syntax from 3.10 going forward and
further, we have officially dropped usage of the `msgpack` library and
happily adopted `msgspec`.
Features
--------
- `#165 <https://github.com/goodboy/tractor/issues/165>`_: Add SIGINT
protection to our `pdbpp` based debugger subystem such that for
(single-depth) actor trees in debug mode we ignore interrupts in any
actor currently holding the TTY lock thus avoiding clobbering IPC
connections and/or task and process state when working in the REPL.
As a big note currently so called "nested" actor trees (trees with
actors having more then one parent/ancestor) are not fully supported
since we don't yet have a mechanism to relay the debug mode knowledge
"up" the actor tree (for eg. when handling a crash in a leaf actor).
As such currently there is a set of tests and known scenarios which will
result in process cloberring by the zombie repaing machinery and these
have been documented in https://github.com/goodboy/tractor/issues/320.
The implementation details include:
- utilizing a custom SIGINT handler which we apply whenever an actor's
runtime enters the debug machinery, which we also make sure the
stdlib's `pdb` configuration doesn't override (which it does by
default without special instance config).
- litter the runtime with `maybe_wait_for_debugger()` mostly in spots
where the root actor should block before doing embedded nursery
teardown ops which both cancel potential-children-in-deubg as well
as eventually trigger zombie reaping machinery.
- hardening of the TTY locking semantics/API both in terms of IPC
terminations and cancellation and lock release determinism from
sync debugger instance methods.
- factoring of locking infrastructure into a new `._debug.Lock` global
which encapsulates all details of the ``trio`` sync primitives and
task/actor uid management and tracking.
We also add `ctrl-c` cases throughout the test suite though these are
disabled for py3.9 (`pdbpp` UX differences that don't seem worth
compensating for, especially since this will be our last 3.9 supported
release) and there are a slew of marked cases that aren't expected to
work in CI more generally (as mentioned in the "nested" tree note
above) despite seemingly working when run manually on linux.
- `#304 <https://github.com/goodboy/tractor/issues/304>`_: Add a new
``to_asyncio.LinkedTaskChannel.subscribe()`` which gives task-oriented
broadcast functionality semantically equivalent to
``tractor.MsgStream.subscribe()`` this makes it possible for multiple
``trio``-side tasks to consume ``asyncio``-side task msgs in tandem.
Further Improvements to the test suite were added in this patch set
including a new scenario test for a sub-actor managed "service nursery"
(implementing the basics of a "service manager") including use of
*infected asyncio* mode. Further we added a lower level
``test_trioisms.py`` to start to track issues we need to work around in
``trio`` itself which in this case included a bug we were trying to
solve related to https://github.com/python-trio/trio/issues/2258.
Bug Fixes
---------
- `#318 <https://github.com/goodboy/tractor/issues/318>`_: Fix
a previously undetected ``trio``-``asyncio`` task lifetime linking
issue with the ``to_asyncio.open_channel_from()`` api where both sides
where not properly waiting/signalling termination and it was possible
for ``asyncio``-side errors to not propagate due to a race condition.
The implementation fix summary is:
- add state to signal the end of the ``trio`` side task to be
read by the ``asyncio`` side and always cancel any ongoing
task in such cases.
- always wait on the ``asyncio`` task termination from the ``trio``
side on error before maybe raising said error.
- always close the ``trio`` mem chan on exit to ensure the other
side can detect it and follow.
Trivial/Internal Changes
------------------------
- `#248 <https://github.com/goodboy/tractor/issues/248>`_: Adjust the
`tractor._spawn.soft_wait()` strategy to avoid sending an actor cancel
request (via `Portal.cancel_actor()`) if either the child process is
detected as having terminated or the IPC channel is detected to be
closed.
This ensures (even) more deterministic inter-actor cancellation by
avoiding the timeout condition where possible when a whild never
sucessfully spawned, crashed, or became un-contactable over IPC.
- `#295 <https://github.com/goodboy/tractor/issues/295>`_: Add an
experimental ``tractor.msg.NamespacePath`` type for passing Python
objects by "reference" through a ``str``-subtype message and using the
new ``pkgutil.resolve_name()`` for reference loading.
- `#298 <https://github.com/goodboy/tractor/issues/298>`_: Add a new
`tractor.experimental` subpackage for staging new high level APIs and
subystems that we might eventually make built-ins.
- `#300 <https://github.com/goodboy/tractor/issues/300>`_: Update to and
pin latest ``msgpack`` (1.0.3) and ``msgspec`` (0.4.0) both of which
required adjustments for backwards imcompatible API tweaks.
- `#303 <https://github.com/goodboy/tractor/issues/303>`_: Fence off
``multiprocessing`` imports until absolutely necessary in an effort to
avoid "resource tracker" spawning side effects that seem to have
varying degrees of unreliability per Python release. Port to new
``msgspec.DecodeError``.
- `#305 <https://github.com/goodboy/tractor/issues/305>`_: Add
``tractor.query_actor()`` an addr looker-upper which doesn't deliver
a ``Portal`` instance and instead just a socket address ``tuple``.
Sometimes it's handy to just have a simple way to figure out if
a "service" actor is up, so add this discovery helper for that. We'll
prolly just leave it undocumented for now until we figure out
a longer-term/better discovery system.
- `#316 <https://github.com/goodboy/tractor/issues/316>`_: Run windows
CI jobs on python 3.10 after some hacks for ``pdbpp`` dependency
issues.
Issue was to do with the now deprecated `pyreadline` project which
should be changed over to `pyreadline3`.
- `#317 <https://github.com/goodboy/tractor/issues/317>`_: Drop use of
the ``msgpack`` package and instead move fully to the ``msgspec``
codec library.
We've now used ``msgspec`` extensively in production and there's no
reason to not use it as default. Further this change preps us for the up
and coming typed messaging semantics (#196), dialog-unprotocol system
(#297), and caps-based messaging-protocols (#299) planned before our
first beta.
tractor 0.1.0a4 (2021-12-18)
============================
Features
--------
- `#275 <https://github.com/goodboy/tractor/issues/275>`_: Re-license
code base under AGPLv3. Also see `#274
<https://github.com/goodboy/tractor/pull/274>`_ for majority
contributor consensus on this decision.
- `#121 <https://github.com/goodboy/tractor/issues/121>`_: Add
"infected ``asyncio`` mode; a sub-system to spawn and control
``asyncio`` actors using ``trio``'s guest-mode.
This gets us the following very interesting functionality:
- ability to spawn an actor that has a process entry point of
``asyncio.run()`` by passing ``infect_asyncio=True`` to
``Portal.start_actor()`` (and friends).
- the ``asyncio`` actor embeds ``trio`` using guest-mode and starts
a main ``trio`` task which runs the ``tractor.Actor._async_main()``
entry point engages all the normal ``tractor`` runtime IPC/messaging
machinery; for all purposes the actor is now running normally on
a ``trio.run()``.
- the actor can now make one-to-one task spawning requests to the
underlying ``asyncio`` event loop using either of:
* ``to_asyncio.run_task()`` to spawn and run an ``asyncio`` task to
completion and block until a return value is delivered.
* ``async with to_asyncio.open_channel_from():`` which spawns a task
and hands it a pair of "memory channels" to allow for bi-directional
streaming between the now SC-linked ``trio`` and ``asyncio`` tasks.
The output from any call(s) to ``asyncio`` can be handled as normal in
``trio``/``tractor`` task operation with the caveat of the overhead due
to guest-mode use.
For more details see the `original PR
<https://github.com/goodboy/tractor/pull/121>`_ and `issue
<https://github.com/goodboy/tractor/issues/120>`_.
- `#257 <https://github.com/goodboy/tractor/issues/257>`_: Add
``trionics.maybe_open_context()`` an actor-scoped async multi-task
context manager resource caching API.
Adds an SC-safe cacheing async context manager api that only enters on
the *first* task entry and only exits on the *last* task exit while in
between delivering the same cached value per input key. Keys can be
either an explicit ``key`` named arg provided by the user or a
hashable ``kwargs`` dict (will be converted to a ``list[tuple]``) which
is passed to the underlying manager function as input.
- `#261 <https://github.com/goodboy/tractor/issues/261>`_: Add
cross-actor-task ``Context`` oriented error relay, a new stream
overrun error-signal ``StreamOverrun``, and support disabling
``MsgStream`` backpressure as the default before a stream is opened or
by choice of the user.
We added stricter semantics around ``tractor.Context.open_stream():``
particularly to do with streams which are only opened at one end.
Previously, if only one end opened a stream there was no way for that
sender to know if msgs are being received until first, the feeder mem
chan on the receiver side hit a backpressure state and then that
condition delayed its msg loop processing task to eventually create
backpressure on the associated IPC transport. This is non-ideal in the
case where the receiver side never opened a stream by mistake since it
results in silent block of the sender and no adherence to the underlying
mem chan buffer size settings (which is still unsolved btw).
To solve this we add non-backpressure style message pushing inside
``Actor._push_result()`` by default and only use the backpressure
``trio.MemorySendChannel.send()`` call **iff** the local end of the
context has entered ``Context.open_stream():``. This way if the stream
was never opened but the mem chan is overrun, we relay back to the
sender a (new exception) ``SteamOverrun`` error which is raised in the
sender's scope with a special error message about the stream never
having been opened. Further, this behaviour (non-backpressure style
where senders can expect an error on overruns) can now be enabled with
``.open_stream(backpressure=False)`` and the underlying mem chan size
can be specified with a kwarg ``msg_buffer_size: int``.
Further bug fixes and enhancements in this changeset include:
- fix a race we were ignoring where if the callee task opened a context
it could enter ``Context.open_stream()`` before calling
``.started()``.
- Disallow calling ``Context.started()`` more then once.
- Enable ``Context`` linked tasks error relaying via the new
``Context._maybe_raise_from_remote_msg()`` which (for now) uses
a simple ``trio.Nursery.start_soon()`` to raise the error via closure
in the local scope.
- `#267 <https://github.com/goodboy/tractor/issues/267>`_: This
(finally) adds fully acknowledged remote cancellation messaging
support for both explicit ``Portal.cancel_actor()`` calls as well as
when there is a "runtime-wide" cancellations (eg. during KBI or
general actor nursery exception handling which causes a full actor
"crash"/termination).
You can think of this as the most ideal case in 2-generals where the
actor requesting the cancel of its child is able to always receive back
the ACK to that request. This leads to a more deterministic shutdown of
the child where the parent is able to wait for the child to fully
respond to the request. On a localhost setup, where the parent can
monitor the state of the child through process or other OS APIs instead
of solely through IPC messaging, the parent can know whether or not the
child decided to cancel with more certainty. In the case of separate
hosts, we still rely on a simple timeout approach until such a time
where we prefer to get "fancier".
- `#271 <https://github.com/goodboy/tractor/issues/271>`_: Add a per
actor ``debug_mode: bool`` control to our nursery.
This allows spawning actors via ``ActorNursery.start_actor()`` (and
other dependent methods) with a ``debug_mode=True`` flag much like
``tractor.open_nursery():`` such that per process crash handling
can be toggled for cases where a user does not need/want all child actors
to drop into the debugger on error. This is often useful when you have
actor-tasks which are expected to error often (and be re-run) but want
to specifically interact with some (problematic) child.
Bugfixes
--------
- `#239 <https://github.com/goodboy/tractor/issues/239>`_: Fix
keyboard interrupt handling in ``Portal.open_context()`` blocks.
Previously this was not triggering cancellation of the remote task
context and could result in hangs if a stream was also opened. This
fix is to accept `BaseException` since it is likely any other top
level exception other then KBI (even though not expected) should also
get this result.
- `#264 <https://github.com/goodboy/tractor/issues/264>`_: Fix
``Portal.run_in_actor()`` returns ``None`` result.
``None`` was being used as the cached result flag and obviously breaks
on a ``None`` returned from the remote target task. This would cause an
infinite hang if user code ever called ``Portal.result()`` *before* the
nursery exit. The simple fix is to use the *return message* as the
initial "no-result-received-yet" flag value and, once received, the
return value is read from the message to avoid the cache logic error.
- `#266 <https://github.com/goodboy/tractor/issues/266>`_: Fix
graceful cancellation of daemon actors
Previously, his was a bug where if the soft wait on a sub-process (the
``await .proc.wait()``) in the reaper task teardown was cancelled we
would fail over to the hard reaping sequence (meant for culling off any
potential zombies via system kill signals). The hard reap has a timeout
of 3s (currently though in theory we could make it shorter?) before
system signalling kicks in. This means that any daemon actor still
running during nursery exit would get hard reaped (3s later) instead of
cancelled via IPC message. Now we catch the ``trio.Cancelled``, call
``Portal.cancel_actor()`` on the daemon and expect the child to
self-terminate after the runtime cancels and shuts down the process.
- `#278 <https://github.com/goodboy/tractor/issues/278>`_: Repair
inter-actor stream closure semantics to work correctly with
``tractor.trionics.BroadcastReceiver`` task fan out usage.
A set of previously unknown bugs discovered in `#257
<https://github.com/goodboy/tractor/pull/257>`_ let graceful stream
closure result in hanging consumer tasks that use the broadcast APIs.
This adds better internal closure state tracking to the broadcast
receiver and message stream APIs and in particular ensures that when an
underlying stream/receive-channel (a broadcast receiver is receiving
from) is closed, all consumer tasks waiting on that underlying channel
are woken so they can receive the ``trio.EndOfChannel`` signal and
promptly terminate.
tractor 0.1.0a3 (2021-11-02)
============================
Features
--------
- Switch to using the ``trio`` process spawner by default on windows. (#166)
This gets windows users debugger support (manually tested) and in
general a more resilient (nested) actor tree implementation.
- Add optional `msgspec <https://jcristharif.com/msgspec/>`_ support
as an alernative, faster MessagePack codec. (#214)
Provides us with a path toward supporting typed IPC message contracts. Further,
``msgspec`` structs may be a valid tool to start for formalizing our
"SC dialog un-protocol" messages as described in `#36
<https://github.com/goodboy/tractor/issues/36>`_.
- Introduce a new ``tractor.trionics`` `sub-package`_ that exposes
a selection of our relevant high(er) level trio primitives and
goodies. (#241)
At outset we offer a ``gather_contexts()`` context manager for
concurrently entering a sequence of async context managers (much like
a version of ``asyncio.gather()`` but for context managers) and use it
in a new ``tractor.open_actor_cluster()`` manager-helper that can be
entered to concurrently spawn a flat actor pool. We also now publicly
expose our "broadcast channel" APIs (``open_broadcast_receiver()``)
from here.
.. _sub-package: ../tractor/trionics
- Change the core message loop to handle task and actor-runtime cancel
requests immediately instead of scheduling them as is done for rpc-task
requests. (#245)
In order to obtain more reliable teardown mechanics for (complex) actor
trees it's important that we specially treat cancel requests as having
higher priority. Previously, it was possible that task cancel requests
could actually also themselves be cancelled if a "actor-runtime" cancel
request was received (can happen during messy multi actor crashes that
propagate). Instead cancels now block the msg loop until serviced and
a response is relayed back to the requester. This also allows for
improved debugger support since we have determinism guarantees about
which processes must wait before hard killing their children.
- (`#248 <https://github.com/goodboy/tractor/pull/248>`_) Drop Python
3.8 support in favour of rolling with two latest releases for the time
being.
Misc
----
- (`#243 <https://github.com/goodboy/tractor/pull/243>`_) add a distinct
``'CANCEL'`` log level to allow the runtime to emit details about
cancellation machinery statuses.
tractor 0.1.0a2 (2021-09-07) tractor 0.1.0a2 (2021-09-07)
============================ ============================

View File

@ -3,20 +3,13 @@
|gh_actions| |gh_actions|
|docs| |docs|
``tractor`` is a `structured concurrent`_, multi-processing_ runtime ``tractor`` is a `structured concurrent`_, multi-processing_ runtime built on trio_.
built on trio_.
Fundamentally, ``tractor`` gives you parallelism via Fundamentally ``tractor`` gives you parallelism via ``trio``-"*actors*":
``trio``-"*actors*": independent Python processes (aka our nurseries_ let you spawn new Python processes which each run a ``trio``
non-shared-memory threads) which maintain structured
concurrency (SC) *end-to-end* inside a *supervision tree*.
Cross-process (and thus cross-host) SC is accomplished through the
combined use of our "actor nurseries_" and an "SC-transitive IPC
protocol" constructed on top of multiple Pythons each running a ``trio``
scheduled runtime - a call to ``trio.run()``. scheduled runtime - a call to ``trio.run()``.
We believe the system adheres to the `3 axioms`_ of an "`actor model`_" We believe the system adhere's to the `3 axioms`_ of an "`actor model`_"
but likely *does not* look like what *you* probably think an "actor but likely *does not* look like what *you* probably think an "actor
model" looks like, and that's *intentional*. model" looks like, and that's *intentional*.
@ -29,15 +22,11 @@ Features
- **It's just** a ``trio`` API - **It's just** a ``trio`` API
- *Infinitely nesteable* process trees - *Infinitely nesteable* process trees
- Builtin IPC streaming APIs with task fan-out broadcasting - Builtin IPC streaming APIs with task fan-out broadcasting
- A "native" multi-core debugger REPL using `pdbp`_ (a fork & fix of - A (first ever?) "native" multi-core debugger UX for Python using `pdb++`_
`pdb++`_ thanks to @mdmintz!)
- Support for a swappable, OS specific, process spawning layer - Support for a swappable, OS specific, process spawning layer
- A modular transport stack, allowing for custom serialization (eg. with - A modular transport stack, allowing for custom serialization,
`msgspec`_), communications protocols, and environment specific IPC communications protocols, and environment specific IPC primitives
primitives - `structured concurrency`_ from the ground up
- Support for spawning process-level-SC, inter-loop one-to-one-task oriented
``asyncio`` actors via "infected ``asyncio``" mode
- `structured chadcurrency`_ from the ground up
Run a func in a process Run a func in a process
@ -125,7 +114,7 @@ Zombie safe: self-destruct a process tree
f"running in pid {os.getpid()}" f"running in pid {os.getpid()}"
) )
await trio.sleep_forever() await trio.sleep_forever()
async def main(): async def main():
@ -156,7 +145,7 @@ it **is a bug**.
"Native" multi-process debugging "Native" multi-process debugging
-------------------------------- --------------------------------
Using the magic of `pdbp`_ and our internal IPC, we've Using the magic of `pdb++`_ and our internal IPC, we've
been able to create a native feeling debugging experience for been able to create a native feeling debugging experience for
any (sub-)process in your ``tractor`` tree. any (sub-)process in your ``tractor`` tree.
@ -323,173 +312,9 @@ real time::
This uses no extra threads, fancy semaphores or futures; all we need This uses no extra threads, fancy semaphores or futures; all we need
is ``tractor``'s IPC! is ``tractor``'s IPC!
"Infected ``asyncio``" mode
---------------------------
Have a bunch of ``asyncio`` code you want to force to be SC at the process level?
Check out our experimental system for `guest-mode`_ controlled
``asyncio`` actors:
.. code:: python
import asyncio
from statistics import mean
import time
import trio
import tractor
async def aio_echo_server(
to_trio: trio.MemorySendChannel,
from_trio: asyncio.Queue,
) -> None:
# a first message must be sent **from** this ``asyncio``
# task or the ``trio`` side will never unblock from
# ``tractor.to_asyncio.open_channel_from():``
to_trio.send_nowait('start')
# XXX: this uses an ``from_trio: asyncio.Queue`` currently but we
# should probably offer something better.
while True:
# echo the msg back
to_trio.send_nowait(await from_trio.get())
await asyncio.sleep(0)
@tractor.context
async def trio_to_aio_echo_server(
ctx: tractor.Context,
):
# this will block until the ``asyncio`` task sends a "first"
# message.
async with tractor.to_asyncio.open_channel_from(
aio_echo_server,
) as (first, chan):
assert first == 'start'
await ctx.started(first)
async with ctx.open_stream() as stream:
async for msg in stream:
await chan.send(msg)
out = await chan.receive()
# echo back to parent actor-task
await stream.send(out)
async def main():
async with tractor.open_nursery() as n:
p = await n.start_actor(
'aio_server',
enable_modules=[__name__],
infect_asyncio=True,
)
async with p.open_context(
trio_to_aio_echo_server,
) as (ctx, first):
assert first == 'start'
count = 0
async with ctx.open_stream() as stream:
delays = []
send = time.time()
await stream.send(count)
async for msg in stream:
recv = time.time()
delays.append(recv - send)
assert msg == count
count += 1
send = time.time()
await stream.send(count)
if count >= 1e3:
break
print(f'mean round trip rate (Hz): {1/mean(delays)}')
await p.cancel_actor()
if __name__ == '__main__':
trio.run(main)
Yes, we spawn a python process, run ``asyncio``, start ``trio`` on the
``asyncio`` loop, then send commands to the ``trio`` scheduled tasks to
tell ``asyncio`` tasks what to do XD
We need help refining the `asyncio`-side channel API to be more
`trio`-like. Feel free to sling your opinion in `#273`_!
.. _#273: https://github.com/goodboy/tractor/issues/273
Higher level "cluster" APIs
---------------------------
To be extra terse the ``tractor`` devs have started hacking some "higher
level" APIs for managing actor trees/clusters. These interfaces should
generally be condsidered provisional for now but we encourage you to try
them and provide feedback. Here's a new API that let's you quickly
spawn a flat cluster:
.. code:: python
import trio
import tractor
async def sleepy_jane():
uid = tractor.current_actor().uid
print(f'Yo i am actor {uid}')
await trio.sleep_forever()
async def main():
'''
Spawn a flat actor cluster, with one process per
detected core.
'''
portal_map: dict[str, tractor.Portal]
results: dict[str, str]
# look at this hip new syntax!
async with (
tractor.open_actor_cluster(
modules=[__name__]
) as portal_map,
trio.open_nursery() as n,
):
for (name, portal) in portal_map.items():
n.start_soon(portal.run, sleepy_jane)
await trio.sleep(0.5)
# kill the cluster with a cancel
raise KeyboardInterrupt
if __name__ == '__main__':
try:
trio.run(main)
except KeyboardInterrupt:
pass
.. _full worker pool re-implementation: https://github.com/goodboy/tractor/blob/master/examples/parallelism/concurrent_actors_primes.py .. _full worker pool re-implementation: https://github.com/goodboy/tractor/blob/master/examples/parallelism/concurrent_actors_primes.py
Install Install
------- -------
From PyPi:: From PyPi::
@ -565,22 +390,12 @@ properties of the system.
What's on the TODO: What's on the TODO:
------------------- -------------------
Help us push toward the future of distributed `Python`. Help us push toward the future.
- Erlang-style supervisors via composed context managers (see `#22 - (Soon to land) ``asyncio`` support allowing for "infected" actors where
<https://github.com/goodboy/tractor/issues/22>`_) `trio` drives the `asyncio` scheduler via the astounding "`guest mode`_"
- Typed messaging protocols (ex. via ``msgspec.Struct``, see `#36 - Typed messaging protocols (ex. via ``msgspec``)
<https://github.com/goodboy/tractor/issues/36>`_) - Erlang-style supervisors via composed context managers
- Typed capability-based (dialog) protocols ( see `#196
<https://github.com/goodboy/tractor/issues/196>`_ with draft work
started in `#311 <https://github.com/goodboy/tractor/pull/311>`_)
- We **recently disabled CI-testing on windows** and need help getting
it running again! (see `#327
<https://github.com/goodboy/tractor/pull/327>`_). **We do have windows
support** (and have for quite a while) but since no active hacker
exists in the user-base to help test on that OS, for now we're not
actively maintaining testing due to the added hassle and general
latency..
Feel like saying hi? Feel like saying hi?
@ -592,32 +407,26 @@ say hi, please feel free to reach us in our `matrix channel`_. If
matrix seems too hip, we're also mostly all in the the `trio gitter matrix seems too hip, we're also mostly all in the the `trio gitter
channel`_! channel`_!
.. _structured concurrent: https://trio.discourse.group/t/concise-definition-of-structured-concurrency/228
.. _multi-processing: https://en.wikipedia.org/wiki/Multiprocessing
.. _trio: https://github.com/python-trio/trio
.. _nurseries: https://vorpus.org/blog/notes-on-structured-concurrency-or-go-statement-considered-harmful/#nurseries-a-structured-replacement-for-go-statements .. _nurseries: https://vorpus.org/blog/notes-on-structured-concurrency-or-go-statement-considered-harmful/#nurseries-a-structured-replacement-for-go-statements
.. _actor model: https://en.wikipedia.org/wiki/Actor_model .. _actor model: https://en.wikipedia.org/wiki/Actor_model
.. _trio: https://github.com/python-trio/trio
.. _multi-processing: https://en.wikipedia.org/wiki/Multiprocessing
.. _trionic: https://trio.readthedocs.io/en/latest/design.html#high-level-design-principles .. _trionic: https://trio.readthedocs.io/en/latest/design.html#high-level-design-principles
.. _async sandwich: https://trio.readthedocs.io/en/latest/tutorial.html#async-sandwich .. _async sandwich: https://trio.readthedocs.io/en/latest/tutorial.html#async-sandwich
.. _structured concurrent: https://trio.discourse.group/t/concise-definition-of-structured-concurrency/228
.. _3 axioms: https://www.youtube.com/watch?v=7erJ1DV_Tlo&t=162s .. _3 axioms: https://www.youtube.com/watch?v=7erJ1DV_Tlo&t=162s
.. .. _3 axioms: https://en.wikipedia.org/wiki/Actor_model#Fundamental_concepts
.. _adherance to: https://www.youtube.com/watch?v=7erJ1DV_Tlo&t=1821s .. _adherance to: https://www.youtube.com/watch?v=7erJ1DV_Tlo&t=1821s
.. _trio gitter channel: https://gitter.im/python-trio/general .. _trio gitter channel: https://gitter.im/python-trio/general
.. _matrix channel: https://matrix.to/#/!tractor:matrix.org .. _matrix channel: https://matrix.to/#/!tractor:matrix.org
.. _pdbp: https://github.com/mdmintz/pdbp
.. _pdb++: https://github.com/pdbpp/pdbpp .. _pdb++: https://github.com/pdbpp/pdbpp
.. _guest mode: https://trio.readthedocs.io/en/stable/reference-lowlevel.html?highlight=guest%20mode#using-guest-mode-to-run-trio-on-top-of-other-event-loops .. _guest mode: https://trio.readthedocs.io/en/stable/reference-lowlevel.html?highlight=guest%20mode#using-guest-mode-to-run-trio-on-top-of-other-event-loops
.. _messages: https://en.wikipedia.org/wiki/Message_passing .. _messages: https://en.wikipedia.org/wiki/Message_passing
.. _trio docs: https://trio.readthedocs.io/en/latest/ .. _trio docs: https://trio.readthedocs.io/en/latest/
.. _blog post: https://vorpus.org/blog/notes-on-structured-concurrency-or-go-statement-considered-harmful/ .. _blog post: https://vorpus.org/blog/notes-on-structured-concurrency-or-go-statement-considered-harmful/
.. _structured concurrency: https://en.wikipedia.org/wiki/Structured_concurrency .. _structured concurrency: https://vorpus.org/blog/notes-on-structured-concurrency-or-go-statement-considered-harmful/
.. _structured chadcurrency: https://en.wikipedia.org/wiki/Structured_concurrency
.. _structured concurrency: https://en.wikipedia.org/wiki/Structured_concurrency
.. _unrequirements: https://en.wikipedia.org/wiki/Actor_model#Direct_communication_and_asynchrony .. _unrequirements: https://en.wikipedia.org/wiki/Actor_model#Direct_communication_and_asynchrony
.. _async generators: https://www.python.org/dev/peps/pep-0525/ .. _async generators: https://www.python.org/dev/peps/pep-0525/
.. _trio-parallel: https://github.com/richardsheridan/trio-parallel .. _trio-parallel: https://github.com/richardsheridan/trio-parallel
.. _msgspec: https://jcristharif.com/msgspec/
.. _guest-mode: https://trio.readthedocs.io/en/stable/reference-lowlevel.html?highlight=guest%20mode#using-guest-mode-to-run-trio-on-top-of-other-event-loops
.. |gh_actions| image:: https://img.shields.io/endpoint.svg?url=https%3A%2F%2Factions-badge.atrox.dev%2Fgoodboy%2Ftractor%2Fbadge&style=popout-square .. |gh_actions| image:: https://img.shields.io/endpoint.svg?url=https%3A%2F%2Factions-badge.atrox.dev%2Fgoodboy%2Ftractor%2Fbadge&style=popout-square

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@ -1,51 +0,0 @@
Hot tips for ``tractor`` hackers
================================
This is a WIP guide for newcomers to the project mostly to do with
dev, testing, CI and release gotchas, reminders and best practises.
``tractor`` is a fairly novel project compared to most since it is
effectively a new way of doing distributed computing in Python and is
much closer to working with an "application level runtime" (like erlang
OTP or scala's akka project) then it is a traditional Python library.
As such, having an arsenal of tools and recipes for figuring out the
right way to debug problems when they do arise is somewhat of
a necessity.
Making a Release
----------------
We currently do nothing special here except the traditional
PyPa release recipe as in `documented by twine`_. I personally
create sub-dirs within the generated `dist/` with an explicit
release name such as `alpha3/` when there's been a sequence of
releases I've made, but it really is up to you how you like to
organize generated sdists locally.
The resulting build cmds are approximately:
.. code:: bash
python setup.py sdist -d ./dist/XXX.X/
twine upload -r testpypi dist/XXX.X/*
twine upload dist/XXX.X/*
.. _documented by twine: https://twine.readthedocs.io/en/latest/#using-twine
Debugging and monitoring actor trees
------------------------------------
TODO: but there are tips in the readme for some terminal commands
which can be used to see the process trees easily on Linux.
Using the log system to trace `trio` task flow
----------------------------------------------
TODO: the logging system is meant to be oriented around
stack "layers" of the runtime such that you can track
"logical abstraction layers" in the code such as errors, cancellation,
IPC and streaming, and the low level transport and wire protocols.

View File

@ -396,7 +396,7 @@ tasks spawned via multiple RPC calls to an actor can modify
# a per process cache # a per process cache
_actor_cache: dict[str, bool] = {} _actor_cache: Dict[str, bool] = {}
def ping_endpoints(endpoints: List[str]): def ping_endpoints(endpoints: List[str]):

View File

View File

@ -1,151 +0,0 @@
'''
Complex edge case where during real-time streaming the IPC tranport
channels are wiped out (purposely in this example though it could have
been an outage) and we want to ensure that despite being in debug mode
(or not) the user can sent SIGINT once they notice the hang and the
actor tree will eventually be cancelled without leaving any zombies.
'''
import trio
from tractor import (
open_nursery,
context,
Context,
MsgStream,
)
async def break_channel_silently_then_error(
stream: MsgStream,
):
async for msg in stream:
await stream.send(msg)
# XXX: close the channel right after an error is raised
# purposely breaking the IPC transport to make sure the parent
# doesn't get stuck in debug or hang on the connection join.
# this more or less simulates an infinite msg-receive hang on
# the other end.
await stream._ctx.chan.send(None)
assert 0
async def close_stream_and_error(
stream: MsgStream,
):
async for msg in stream:
await stream.send(msg)
# wipe out channel right before raising
await stream._ctx.chan.send(None)
await stream.aclose()
assert 0
@context
async def recv_and_spawn_net_killers(
ctx: Context,
break_ipc_after: bool | int = False,
) -> None:
'''
Receive stream msgs and spawn some IPC killers mid-stream.
'''
await ctx.started()
async with (
ctx.open_stream() as stream,
trio.open_nursery() as n,
):
async for i in stream:
print(f'child echoing {i}')
await stream.send(i)
if (
break_ipc_after
and i > break_ipc_after
):
'#################################\n'
'Simulating child-side IPC BREAK!\n'
'#################################'
n.start_soon(break_channel_silently_then_error, stream)
n.start_soon(close_stream_and_error, stream)
async def main(
debug_mode: bool = False,
start_method: str = 'trio',
# by default we break the parent IPC first (if configured to break
# at all), but this can be changed so the child does first (even if
# both are set to break).
break_parent_ipc_after: int | bool = False,
break_child_ipc_after: int | bool = False,
) -> None:
async with (
open_nursery(
start_method=start_method,
# NOTE: even debugger is used we shouldn't get
# a hang since it never engages due to broken IPC
debug_mode=debug_mode,
loglevel='warning',
) as an,
):
portal = await an.start_actor(
'chitty_hijo',
enable_modules=[__name__],
)
async with portal.open_context(
recv_and_spawn_net_killers,
break_ipc_after=break_child_ipc_after,
) as (ctx, sent):
async with ctx.open_stream() as stream:
for i in range(1000):
if (
break_parent_ipc_after
and i > break_parent_ipc_after
):
print(
'#################################\n'
'Simulating parent-side IPC BREAK!\n'
'#################################'
)
await stream._ctx.chan.send(None)
# it actually breaks right here in the
# mp_spawn/forkserver backends and thus the zombie
# reaper never even kicks in?
print(f'parent sending {i}')
await stream.send(i)
with trio.move_on_after(2) as cs:
# NOTE: in the parent side IPC failure case this
# will raise an ``EndOfChannel`` after the child
# is killed and sends a stop msg back to it's
# caller/this-parent.
rx = await stream.receive()
print(f"I'm a happy user and echoed to me is {rx}")
if cs.cancelled_caught:
# pretend to be a user seeing no streaming action
# thinking it's a hang, and then hitting ctl-c..
print("YOO i'm a user anddd thingz hangin..")
print(
"YOO i'm mad send side dun but thingz hangin..\n"
'MASHING CTlR-C Ctl-c..'
)
raise KeyboardInterrupt
if __name__ == '__main__':
trio.run(main)

View File

@ -20,7 +20,7 @@ async def sleep(
async def open_ctx( async def open_ctx(
n: tractor._supervise.ActorNursery n: tractor._trionics.ActorNursery
): ):
# spawn both actors # spawn both actors

View File

@ -27,18 +27,7 @@ async def main():
# retreive results # retreive results
async with p0.open_stream_from(breakpoint_forever) as stream: async with p0.open_stream_from(breakpoint_forever) as stream:
await p1.run(name_error)
# triggers the first name error
try:
await p1.run(name_error)
except tractor.RemoteActorError as rae:
assert rae.type is NameError
async for i in stream:
# a second time try the failing subactor and this tie
# let error propagate up to the parent/nursery.
await p1.run(name_error)
if __name__ == '__main__': if __name__ == '__main__':

View File

@ -12,31 +12,18 @@ async def breakpoint_forever():
while True: while True:
await tractor.breakpoint() await tractor.breakpoint()
# NOTE: if the test never sent 'q'/'quit' commands
# on the pdb repl, without this checkpoint line the
# repl would spin in this actor forever.
# await trio.sleep(0)
async def spawn_until(depth=0): async def spawn_until(depth=0):
""""A nested nursery that triggers another ``NameError``. """"A nested nursery that triggers another ``NameError``.
""" """
async with tractor.open_nursery() as n: async with tractor.open_nursery() as n:
if depth < 1: if depth < 1:
# await n.run_in_actor('breakpoint_forever', breakpoint_forever)
await n.run_in_actor(breakpoint_forever) await n.run_in_actor(
p = await n.run_in_actor(
name_error, name_error,
name='name_error' name='name_error'
) )
await trio.sleep(0.5)
# rx and propagate error from child
await p.result()
else: else:
# recusrive call to spawn another process branching layer of
# the tree
depth -= 1 depth -= 1
await n.run_in_actor( await n.run_in_actor(
spawn_until, spawn_until,
@ -66,7 +53,6 @@ async def main():
""" """
async with tractor.open_nursery( async with tractor.open_nursery(
debug_mode=True, debug_mode=True,
# loglevel='cancel',
) as n: ) as n:
# spawn both actors # spawn both actors
@ -81,16 +67,8 @@ async def main():
name='spawner1', name='spawner1',
) )
# TODO: test this case as well where the parent don't see
# the sub-actor errors by default and instead expect a user
# ctrl-c to kill the root.
with trio.move_on_after(3):
await trio.sleep_forever()
# gah still an issue here. # gah still an issue here.
await portal.result() await portal.result()
# should never get here
await portal1.result() await portal1.result()

View File

@ -1,8 +1,3 @@
'''
Test that a nested nursery will avoid clobbering
the debugger latched by a broken child.
'''
import trio import trio
import tractor import tractor
@ -40,7 +35,6 @@ async def main():
""" """
async with tractor.open_nursery( async with tractor.open_nursery(
debug_mode=True, debug_mode=True,
# loglevel='cancel',
) as n: ) as n:
# spawn both actors # spawn both actors

View File

@ -1,40 +0,0 @@
import trio
import tractor
@tractor.context
async def just_sleep(
ctx: tractor.Context,
**kwargs,
) -> None:
'''
Start and sleep.
'''
await ctx.started()
await trio.sleep_forever()
async def main() -> None:
async with tractor.open_nursery(
debug_mode=True,
) as n:
portal = await n.start_actor(
'ctx_child',
# XXX: we don't enable the current module in order
# to trigger `ModuleNotFound`.
enable_modules=[],
)
async with portal.open_context(
just_sleep, # taken from pytest parameterization
) as (ctx, sent):
raise KeyboardInterrupt
if __name__ == '__main__':
trio.run(main)

View File

@ -1,27 +0,0 @@
import trio
import tractor
async def die():
raise RuntimeError
async def main():
async with tractor.open_nursery() as tn:
debug_actor = await tn.start_actor(
'debugged_boi',
enable_modules=[__name__],
debug_mode=True,
)
crash_boi = await tn.start_actor(
'crash_boi',
enable_modules=[__name__],
# debug_mode=True,
)
async with trio.open_nursery() as n:
n.start_soon(debug_actor.run, die)
n.start_soon(crash_boi.run, die)
if __name__ == '__main__':
trio.run(main)

View File

@ -1,24 +0,0 @@
import os
import sys
import trio
import tractor
async def main() -> None:
async with tractor.open_nursery(debug_mode=True) as an:
assert os.environ['PYTHONBREAKPOINT'] == 'tractor._debug._set_trace'
# TODO: an assert that verifies the hook has indeed been, hooked
# XD
assert sys.breakpointhook is not tractor._debug._set_trace
breakpoint()
# TODO: an assert that verifies the hook is unhooked..
assert sys.breakpointhook
breakpoint()
if __name__ == '__main__':
trio.run(main)

View File

@ -1,50 +0,0 @@
import tractor
import trio
async def gen():
yield 'yo'
await tractor.breakpoint()
yield 'yo'
await tractor.breakpoint()
@tractor.context
async def just_bp(
ctx: tractor.Context,
) -> None:
await ctx.started()
await tractor.breakpoint()
# TODO: bps and errors in this call..
async for val in gen():
print(val)
# await trio.sleep(0.5)
# prematurely destroy the connection
await ctx.chan.aclose()
# THIS CAUSES AN UNRECOVERABLE HANG
# without latest ``pdbpp``:
assert 0
async def main():
async with tractor.open_nursery(
debug_mode=True,
) as n:
p = await n.start_actor(
'bp_boi',
enable_modules=[__name__],
)
async with p.open_context(
just_bp,
) as (ctx, first):
await trio.sleep_forever()
if __name__ == '__main__':
trio.run(main)

View File

@ -7,7 +7,7 @@ import tractor
async def stream_data(seed): async def stream_data(seed):
for i in range(seed): for i in range(seed):
yield i yield i
await trio.sleep(0.0001) # trigger scheduler await trio.sleep(0) # trigger scheduler
# this is the third actor; the aggregator # this is the third actor; the aggregator

View File

@ -1,92 +0,0 @@
'''
An SC compliant infected ``asyncio`` echo server.
'''
import asyncio
from statistics import mean
import time
import trio
import tractor
async def aio_echo_server(
to_trio: trio.MemorySendChannel,
from_trio: asyncio.Queue,
) -> None:
# a first message must be sent **from** this ``asyncio``
# task or the ``trio`` side will never unblock from
# ``tractor.to_asyncio.open_channel_from():``
to_trio.send_nowait('start')
# XXX: this uses an ``from_trio: asyncio.Queue`` currently but we
# should probably offer something better.
while True:
# echo the msg back
to_trio.send_nowait(await from_trio.get())
await asyncio.sleep(0)
@tractor.context
async def trio_to_aio_echo_server(
ctx: tractor.Context,
):
# this will block until the ``asyncio`` task sends a "first"
# message.
async with tractor.to_asyncio.open_channel_from(
aio_echo_server,
) as (first, chan):
assert first == 'start'
await ctx.started(first)
async with ctx.open_stream() as stream:
async for msg in stream:
await chan.send(msg)
out = await chan.receive()
# echo back to parent actor-task
await stream.send(out)
async def main():
async with tractor.open_nursery() as n:
p = await n.start_actor(
'aio_server',
enable_modules=[__name__],
infect_asyncio=True,
)
async with p.open_context(
trio_to_aio_echo_server,
) as (ctx, first):
assert first == 'start'
count = 0
async with ctx.open_stream() as stream:
delays = []
send = time.time()
await stream.send(count)
async for msg in stream:
recv = time.time()
delays.append(recv - send)
assert msg == count
count += 1
send = time.time()
await stream.send(count)
if count >= 1e3:
break
print(f'mean round trip rate (Hz): {1/mean(delays)}')
await p.cancel_actor()
if __name__ == '__main__':
trio.run(main)

View File

@ -1,49 +0,0 @@
import trio
import click
import tractor
import pydantic
# from multiprocessing import shared_memory
@tractor.context
async def just_sleep(
ctx: tractor.Context,
**kwargs,
) -> None:
'''
Test a small ping-pong 2-way streaming server.
'''
await ctx.started()
await trio.sleep_forever()
async def main() -> None:
proc = await trio.open_process( (
'python',
'-c',
'import trio; trio.run(trio.sleep_forever)',
))
await proc.wait()
# await trio.sleep_forever()
# async with tractor.open_nursery() as n:
# portal = await n.start_actor(
# 'rpc_server',
# enable_modules=[__name__],
# )
# async with portal.open_context(
# just_sleep, # taken from pytest parameterization
# ) as (ctx, sent):
# await trio.sleep_forever()
if __name__ == '__main__':
import time
# time.sleep(999)
trio.run(main)

View File

@ -9,7 +9,7 @@ is ``tractor``'s channels.
""" """
from contextlib import asynccontextmanager from contextlib import asynccontextmanager
from typing import Callable from typing import List, Callable
import itertools import itertools
import math import math
import time import time
@ -71,8 +71,8 @@ async def worker_pool(workers=4):
async def _map( async def _map(
worker_func: Callable[[int], bool], worker_func: Callable[[int], bool],
sequence: list[int] sequence: List[int]
) -> list[bool]: ) -> List[bool]:
# define an async (local) task to collect results from workers # define an async (local) task to collect results from workers
async def send_result(func, value, portal): async def send_result(func, value, portal):

View File

@ -1,44 +0,0 @@
import trio
import tractor
async def sleepy_jane():
uid = tractor.current_actor().uid
print(f'Yo i am actor {uid}')
await trio.sleep_forever()
async def main():
'''
Spawn a flat actor cluster, with one process per
detected core.
'''
portal_map: dict[str, tractor.Portal]
results: dict[str, str]
# look at this hip new syntax!
async with (
tractor.open_actor_cluster(
modules=[__name__]
) as portal_map,
trio.open_nursery() as n,
):
for (name, portal) in portal_map.items():
n.start_soon(portal.run, sleepy_jane)
await trio.sleep(0.5)
# kill the cluster with a cancel
raise KeyboardInterrupt
if __name__ == '__main__':
try:
trio.run(main)
except KeyboardInterrupt:
pass

View File

@ -4,5 +4,5 @@ now and use the default `fragment set`_.
.. _towncrier docs: https://github.com/twisted/towncrier#quick-start .. _towncrier docs: https://github.com/twisted/towncrier#quick-start
.. _pluggy release readme: https://github.com/pytest-dev/pluggy/blob/main/changelog/README.rst .. _pluggy release readme: https://github.com/twisted/towncrier#quick-start
.. _fragment set: https://github.com/twisted/towncrier#news-fragments .. _fragment set: https://github.com/twisted/towncrier#news-fragments

View File

@ -1,16 +0,0 @@
Strictly support Python 3.10+, start runtime machinery reorg
Since we want to push forward using the new `match:` syntax for our
internal RPC-msg loops, we officially drop 3.9 support for the next
release which should coincide well with the first release of 3.11.
This patch set also officially removes the ``tractor.run()`` API (which
has been deprecated for some time) as well as starts an initial re-org
of the internal runtime core by:
- renaming ``tractor._actor`` -> ``._runtime``
- moving the ``._runtime.ActorActor._process_messages()`` and
``._async_main()`` to be module level singleton-task-functions since
they are only started once for each connection and actor spawn
respectively; this internal API thus looks more similar to (at the
time of writing) the ``trio``-internals in ``trio._core._run``.
- officially remove ``tractor.run()``, now deprecated for some time.

View File

@ -1,4 +0,0 @@
Only set `._debug.Lock.local_pdb_complete` if has been created.
This can be triggered by a very rare race condition (and thus we have no
working test yet) but it is known to exist in (a) consumer project(s).

View File

@ -1,25 +0,0 @@
Add support for ``trio >= 0.22`` and support for the new Python 3.11
``[Base]ExceptionGroup`` from `pep 654`_ via the backported
`exceptiongroup`_ package and some final fixes to the debug mode
subsystem.
This port ended up driving some (hopefully) final fixes to our debugger
subsystem including the solution to all lingering stdstreams locking
race-conditions and deadlock scenarios. This includes extending the
debugger tests suite as well as cancellation and ``asyncio`` mode cases.
Some of the notable details:
- always reverting to the ``trio`` SIGINT handler when leaving debug
mode.
- bypassing child attempts to acquire the debug lock when detected
to be amdist actor-runtime-cancellation.
- allowing the root actor to cancel local but IPC-stale subactor
requests-tasks for the debug lock when in a "no IPC peers" state.
Further we refined our ``ActorNursery`` semantics to be more similar to
``trio`` in the sense that parent task errors are always packed into the
actor-nursery emitted exception group and adjusted all tests and
examples accordingly.
.. _pep 654: https://peps.python.org/pep-0654/#handling-exception-groups
.. _exceptiongroup: https://github.com/python-trio/exceptiongroup

View File

@ -1,5 +0,0 @@
Establish an explicit "backend spawning" method table; use it from CI
More clearly lays out the current set of (3) backends: ``['trio',
'mp_spawn', 'mp_forkserver']`` and adjusts the ``._spawn.py`` internals
as well as the test suite to accommodate.

View File

@ -1,4 +0,0 @@
Add ``key: Callable[..., Hashable]`` support to ``.trionics.maybe_open_context()``
Gives users finer grained control over cache hit behaviour using
a callable which receives the input ``kwargs: dict``.

View File

@ -1,41 +0,0 @@
Add support for debug-lock blocking using a ``._debug.Lock._blocked:
set[tuple]`` and add ids when no-more IPC connections with the
root actor are detected.
This is an enhancement which (mostly) solves a lingering debugger
locking race case we needed to handle:
- child crashes acquires TTY lock in root and attaches to ``pdb``
- child IPC goes down such that all channels to the root are broken
/ non-functional.
- root is stuck thinking the child is still in debug even though it
can't be contacted and the child actor machinery hasn't been
cancelled by its parent.
- root get's stuck in deadlock with child since it won't send a cancel
request until the child is finished debugging (to avoid clobbering
a child that is actually using the debugger), but the child can't
unlock the debugger bc IPC is down and it can't contact the root.
To avoid this scenario add debug lock blocking list via
`._debug.Lock._blocked: set[tuple]` which holds actor uids for any actor
that is detected by the root as having no transport channel connections
(of which at least one should exist if this sub-actor at some point
acquired the debug lock). The root consequently checks this list for any
actor that tries to (re)acquire the lock and blocks with
a ``ContextCancelled``. Further, when a debug condition is tested in
``._runtime._invoke``, the context's ``._enter_debugger_on_cancel`` is
set to `False` if the actor was put on the block list then all
post-mortem / crash handling will be bypassed for that task.
In theory this approach to block list management may cause problems
where some nested child actor acquires and releases the lock multiple
times and it gets stuck on the block list after the first use? If this
turns out to be an issue we can try changing the strat so blocks are
only added when the root has zero IPC peers left?
Further, this adds a root-locking-task side cancel scope,
``Lock._root_local_task_cs_in_debug``, which can be ``.cancel()``-ed by the root
runtime when a stale lock is detected during the IPC channel testing.
However, right now we're NOT using this since it seems to cause test
failures likely due to causing pre-mature cancellation and maybe needs
a bit more experimenting?

View File

@ -1,19 +0,0 @@
Rework our ``.trionics.BroadcastReceiver`` internals to avoid method
recursion and approach a design and interface closer to ``trio``'s
``MemoryReceiveChannel``.
The details of the internal changes include:
- implementing a ``BroadcastReceiver.receive_nowait()`` and using it
within the async ``.receive()`` thus avoiding recursion from
``.receive()``.
- failing over to an internal ``._receive_from_underlying()`` when the
``_nowait()`` call raises ``trio.WouldBlock``
- adding ``BroadcastState.statistics()`` for debugging and testing both
internals and by users.
- add an internal ``BroadcastReceiver._raise_on_lag: bool`` which can be
set to avoid ``Lagged`` raising for possible use cases where a user
wants to choose between a [cheap or nasty
pattern](https://zguide.zeromq.org/docs/chapter7/#The-Cheap-or-Nasty-Pattern)
the the particular stream (we use this in ``piker``'s dark clearing
engine to avoid fast feeds breaking during HFT periods).

View File

@ -1,11 +0,0 @@
Always ``list``-cast the ``mngrs`` input to
``.trionics.gather_contexts()`` and ensure its size otherwise raise
a ``ValueError``.
Turns out that trying to pass an inline-style generator comprehension
doesn't seem to work inside the ``async with`` expression? Further, in
such a case we can get a hang waiting on the all-entered event
completion when the internal mngrs iteration is a noop. Instead we
always greedily check a size and error on empty input; the lazy
iteration of a generator input is not beneficial anyway since we're
entering all manager instances in concurrent tasks.

View File

@ -1,15 +0,0 @@
Fixes to ensure IPC (channel) breakage doesn't result in hung actor
trees; the zombie reaping and general supervision machinery will always
clean up and terminate.
This includes not only the (mostly minor) fixes to solve these cases but
also a new extensive test suite in `test_advanced_faults.py` with an
accompanying highly configurable example module-script in
`examples/advanced_faults/ipc_failure_during_stream.py`. Tests ensure we
never get hang or zombies despite operating in debug mode and attempt to
simulate all possible IPC transport failure cases for a local-host actor
tree.
Further we simplify `Context.open_stream.__aexit__()` to just call
`MsgStream.aclose()` directly more or less avoiding a pure duplicate
code path.

View File

@ -1,10 +0,0 @@
Always redraw the `pdbpp` prompt on `SIGINT` during REPL use.
There was recent changes todo with Python 3.10 that required us to pin
to a specific commit in `pdbpp` which have recently been fixed minus
this last issue with `SIGINT` shielding: not clobbering or not
showing the `(Pdb++)` prompt on ctlr-c by the user. This repairs all
that by firstly removing the standard KBI intercepting of the std lib's
`pdb.Pdb._cmdloop()` as well as ensuring that only the actor with REPL
control ever reports `SIGINT` handler log msgs and prompt redraws. With
this we move back to using pypi `pdbpp` release.

View File

@ -1,7 +0,0 @@
Drop `trio.Process.aclose()` usage, copy into our spawning code.
The details are laid out in https://github.com/goodboy/tractor/issues/330.
`trio` changed is process running quite some time ago, this just copies
out the small bit we needed (from the old `.aclose()`) for hard kills
where a soft runtime cancel request fails and our "zombie killer"
implementation kicks in.

View File

@ -1,15 +0,0 @@
Switch to using the fork & fix of `pdb++`, `pdbp`:
https://github.com/mdmintz/pdbp
Allows us to sidestep a variety of issues that aren't being maintained
in the upstream project thanks to the hard work of @mdmintz!
We also include some default settings adjustments as per recent
development on the fork:
- sticky mode is still turned on by default but now activates when
a using the `ll` repl command.
- turn off line truncation by default to avoid inter-line gaps when
resizing the terimnal during use.
- when using the backtrace cmd either by `w` or `bt`, the config
automatically switches to non-sticky mode.

View File

@ -1,37 +0,0 @@
{% for section in sections %}
{% set underline = "-" %}
{% if section %}
{{section}}
{{ underline * section|length }}{% set underline = "~" %}
{% endif %}
{% if sections[section] %}
{% for category, val in definitions.items() if category in sections[section] %}
{{ definitions[category]['name'] }}
{{ underline * definitions[category]['name']|length }}
{% if definitions[category]['showcontent'] %}
{% for text, values in sections[section][category]|dictsort(by='value') %}
{% set issue_joiner = joiner(', ') %}
- {% for value in values|sort %}{{ issue_joiner() }}`{{ value }} <https://github.com/goodboy/tractor/issues/{{ value[1:] }}>`_{% endfor %}: {{ text }}
{% endfor %}
{% else %}
- {{ sections[section][category]['']|sort|join(', ') }}
{% endif %}
{% if sections[section][category]|length == 0 %}
No significant changes.
{% else %}
{% endif %}
{% endfor %}
{% else %}
No significant changes.
{% endif %}
{% endfor %}

View File

@ -1,28 +0,0 @@
[tool.towncrier]
package = "tractor"
filename = "NEWS.rst"
directory = "nooz/"
version = "0.1.0a6"
title_format = "tractor {version} ({project_date})"
template = "nooz/_template.rst"
all_bullets = true
[[tool.towncrier.type]]
directory = "feature"
name = "Features"
showcontent = true
[[tool.towncrier.type]]
directory = "bugfix"
name = "Bug Fixes"
showcontent = true
[[tool.towncrier.type]]
directory = "doc"
name = "Improved Documentation"
showcontent = true
[[tool.towncrier.type]]
directory = "trivial"
name = "Trivial/Internal Changes"
showcontent = true

View File

@ -1,8 +1,6 @@
pytest pytest
pytest-trio pytest-trio
pytest-timeout pdbpp
pdbp
mypy mypy
trio_typing trio_typing
pexpect pexpect
towncrier

View File

@ -1,22 +1,21 @@
#!/usr/bin/env python #!/usr/bin/env python
# #
# tractor: structured concurrent "actors". # tractor: a trionic actor model built on `multiprocessing` and `trio`
# #
# Copyright 2018-eternity Tyler Goodlet. # Copyright (C) 2018-2020 Tyler Goodlet
# This program is free software: you can redistribute it and/or modify # 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 # it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or # the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version. # (at your option) any later version.
# This program is distributed in the hope that it will be useful, # This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of # but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details. # GNU 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/>.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from setuptools import setup from setuptools import setup
with open('docs/README.rst', encoding='utf-8') as f: with open('docs/README.rst', encoding='utf-8') as f:
@ -25,62 +24,43 @@ with open('docs/README.rst', encoding='utf-8') as f:
setup( setup(
name="tractor", name="tractor",
version='0.1.0a6dev0', # alpha zone version='0.1.0a2', # alpha zone
description='structured concurrrent `trio`-"actors"', description='structured concurrrent "actors"',
long_description=readme, long_description=readme,
license='AGPLv3', license='GPLv3',
author='Tyler Goodlet', author='Tyler Goodlet',
maintainer='Tyler Goodlet', maintainer='Tyler Goodlet',
maintainer_email='goodboy_foss@protonmail.com', maintainer_email='jgbt@protonmail.com',
url='https://github.com/goodboy/tractor', url='https://github.com/goodboy/tractor',
platforms=['linux', 'windows'], platforms=['linux', 'windows'],
packages=[ packages=[
'tractor', 'tractor',
'tractor.experimental', 'tractor.testing',
'tractor.trionics',
], ],
install_requires=[ install_requires=[
# trio related # trio related
# proper range spec: 'trio>0.8',
# https://packaging.python.org/en/latest/discussions/install-requires-vs-requirements/#id5
'trio >= 0.22',
'async_generator', 'async_generator',
'trio_typing', 'trio_typing',
'exceptiongroup',
# tooling # tooling
'tricycle',
'trio_typing',
'colorlog', 'colorlog',
'wrapt', 'wrapt',
'pdbpp',
# IPC serialization # serialization
'msgspec', 'msgpack',
# debug mode REPL
'pdbp',
# pip ref docs on these specs:
# https://pip.pypa.io/en/stable/reference/requirement-specifiers/#examples
# and pep:
# https://peps.python.org/pep-0440/#version-specifiers
# windows deps workaround for ``pdbpp``
# https://github.com/pdbpp/pdbpp/issues/498
# https://github.com/pdbpp/fancycompleter/issues/37
'pyreadline3 ; platform_system == "Windows"',
], ],
tests_require=['pytest'], tests_require=['pytest'],
python_requires=">=3.10", python_requires=">=3.8",
keywords=[ keywords=[
'trio', 'trio',
'async', "async",
'concurrency', "concurrency",
'structured concurrency', "actor model",
'actor model', "distributed",
'distributed',
'multiprocessing' 'multiprocessing'
], ],
classifiers=[ classifiers=[
@ -88,10 +68,11 @@ setup(
"Operating System :: POSIX :: Linux", "Operating System :: POSIX :: Linux",
"Operating System :: Microsoft :: Windows", "Operating System :: Microsoft :: Windows",
"Framework :: Trio", "Framework :: Trio",
"License :: OSI Approved :: GNU Affero General Public License v3 or later (AGPLv3+)", "License :: OSI Approved :: GNU General Public License v3 or later (GPLv3+)",
"Programming Language :: Python :: Implementation :: CPython", "Programming Language :: Python :: Implementation :: CPython",
"Programming Language :: Python :: 3 :: Only", "Programming Language :: Python :: 3 :: Only",
"Programming Language :: Python :: 3.10", "Programming Language :: Python :: 3.8",
"Programming Language :: Python :: 3.9",
"Intended Audience :: Science/Research", "Intended Audience :: Science/Research",
"Intended Audience :: Developers", "Intended Audience :: Developers",
"Topic :: System :: Distributed Computing", "Topic :: System :: Distributed Computing",

View File

@ -7,91 +7,16 @@ import os
import random import random
import signal import signal
import platform import platform
import pathlib
import time import time
import inspect
from functools import partial, wraps
import pytest import pytest
import trio
import tractor import tractor
# export for tests
from tractor.testing import tractor_test # noqa
pytest_plugins = ['pytester'] pytest_plugins = ['pytester']
def tractor_test(fn):
"""
Use:
@tractor_test
async def test_whatever():
await ...
If fixtures:
- ``arb_addr`` (a socket addr tuple where arbiter is listening)
- ``loglevel`` (logging level passed to tractor internals)
- ``start_method`` (subprocess spawning backend)
are defined in the `pytest` fixture space they will be automatically
injected to tests declaring these funcargs.
"""
@wraps(fn)
def wrapper(
*args,
loglevel=None,
arb_addr=None,
start_method=None,
**kwargs
):
# __tracebackhide__ = True
if 'arb_addr' in inspect.signature(fn).parameters:
# injects test suite fixture value to test as well
# as `run()`
kwargs['arb_addr'] = arb_addr
if 'loglevel' in inspect.signature(fn).parameters:
# allows test suites to define a 'loglevel' fixture
# that activates the internal logging
kwargs['loglevel'] = loglevel
if start_method is None:
if platform.system() == "Windows":
start_method = 'trio'
if 'start_method' in inspect.signature(fn).parameters:
# set of subprocess spawning backends
kwargs['start_method'] = start_method
if kwargs:
# use explicit root actor start
async def _main():
async with tractor.open_root_actor(
# **kwargs,
arbiter_addr=arb_addr,
loglevel=loglevel,
start_method=start_method,
# TODO: only enable when pytest is passed --pdb
# debug_mode=True,
):
await fn(*args, **kwargs)
main = _main
else:
# use implicit root actor start
main = partial(fn, *args, **kwargs)
return trio.run(main)
return wrapper
_arb_addr = '127.0.0.1', random.randint(1000, 9999) _arb_addr = '127.0.0.1', random.randint(1000, 9999)
@ -114,27 +39,20 @@ no_windows = pytest.mark.skipif(
) )
def repodir() -> pathlib.Path: def repodir():
''' """Return the abspath to the repo directory.
Return the abspath to the repo directory. """
dirname = os.path.dirname
''' dirpath = os.path.abspath(
# 2 parents up to step up through tests/<repo_dir> dirname(dirname(os.path.realpath(__file__)))
return pathlib.Path(__file__).parent.parent.absolute() )
return dirpath
def examples_dir() -> pathlib.Path:
'''
Return the abspath to the examples directory as `pathlib.Path`.
'''
return repodir() / 'examples'
def pytest_addoption(parser): def pytest_addoption(parser):
parser.addoption( parser.addoption(
"--ll", action="store", dest='loglevel', "--ll", action="store", dest='loglevel',
default='ERROR', help="logging level to set when testing" default=None, help="logging level to set when testing"
) )
parser.addoption( parser.addoption(
@ -146,31 +64,31 @@ def pytest_addoption(parser):
def pytest_configure(config): def pytest_configure(config):
backend = config.option.spawn_backend backend = config.option.spawn_backend
tractor._spawn.try_set_start_method(backend)
if backend == 'mp':
tractor._spawn.try_set_start_method('spawn')
elif backend == 'trio':
tractor._spawn.try_set_start_method(backend)
@pytest.fixture(scope='session', autouse=True) @pytest.fixture(scope='session', autouse=True)
def loglevel(request): def loglevel(request):
orig = tractor.log._default_loglevel orig = tractor.log._default_loglevel
level = tractor.log._default_loglevel = request.config.option.loglevel level = tractor.log._default_loglevel = request.config.option.loglevel
tractor.log.get_console_log(level)
yield level yield level
tractor.log._default_loglevel = orig tractor.log._default_loglevel = orig
@pytest.fixture(scope='session') @pytest.fixture(scope='session')
def spawn_backend(request) -> str: def spawn_backend(request):
return request.config.option.spawn_backend return request.config.option.spawn_backend
_ci_env: bool = os.environ.get('CI', False)
@pytest.fixture(scope='session') @pytest.fixture(scope='session')
def ci_env() -> bool: def ci_env() -> bool:
"""Detect CI envoirment. """Detect CI envoirment.
""" """
return _ci_env return os.environ.get('TRAVIS', False) or os.environ.get('CI', False)
@pytest.fixture(scope='session') @pytest.fixture(scope='session')
@ -180,24 +98,24 @@ def arb_addr():
def pytest_generate_tests(metafunc): def pytest_generate_tests(metafunc):
spawn_backend = metafunc.config.option.spawn_backend spawn_backend = metafunc.config.option.spawn_backend
if not spawn_backend: if not spawn_backend:
# XXX some weird windows bug with `pytest`? # XXX some weird windows bug with `pytest`?
spawn_backend = 'trio' spawn_backend = 'mp'
assert spawn_backend in ('mp', 'trio')
# TODO: maybe just use the literal `._spawn.SpawnMethodKey`?
assert spawn_backend in (
'mp_spawn',
'mp_forkserver',
'trio',
)
# NOTE: used to be used to dyanmically parametrize tests for when
# you just passed --spawn-backend=`mp` on the cli, but now we expect
# that cli input to be manually specified, BUT, maybe we'll do
# something like this again in the future?
if 'start_method' in metafunc.fixturenames: if 'start_method' in metafunc.fixturenames:
metafunc.parametrize("start_method", [spawn_backend], scope='module') if spawn_backend == 'mp':
from multiprocessing import get_all_start_methods
methods = get_all_start_methods()
if 'fork' in methods:
# fork not available on windows, so check before
# removing XXX: the fork method is in general
# incompatible with trio's global scheduler state
methods.remove('fork')
elif spawn_backend == 'trio':
methods = ['trio']
metafunc.parametrize("start_method", methods, scope='module')
def sig_prog(proc, sig): def sig_prog(proc, sig):
@ -213,22 +131,16 @@ def sig_prog(proc, sig):
@pytest.fixture @pytest.fixture
def daemon( def daemon(loglevel, testdir, arb_addr):
loglevel: str, """Run a daemon actor as a "remote arbiter".
testdir, """
arb_addr: tuple[str, int],
):
'''
Run a daemon actor as a "remote arbiter".
'''
if loglevel in ('trace', 'debug'): if loglevel in ('trace', 'debug'):
# too much logging will lock up the subproc (smh) # too much logging will lock up the subproc (smh)
loglevel = 'info' loglevel = 'info'
cmdargs = [ cmdargs = [
sys.executable, '-c', sys.executable, '-c',
"import tractor; tractor.run_daemon([], registry_addr={}, loglevel={})" "import tractor; tractor.run_daemon([], arbiter_addr={}, loglevel={})"
.format( .format(
arb_addr, arb_addr,
"'{}'".format(loglevel) if loglevel else None) "'{}'".format(loglevel) if loglevel else None)

View File

@ -1,11 +1,382 @@
""" """
Bidirectional streaming. Bidirectional streaming and context API.
""" """
import pytest import pytest
import trio import trio
import tractor import tractor
from conftest import tractor_test
# the general stream semantics are
# - normal termination: far end relays a stop message which
# terminates an ongoing ``MsgStream`` iteration
# - cancel termination: context is cancelled on either side cancelling
# the "linked" inter-actor task context
_state: bool = False
@tractor.context
async def simple_setup_teardown(
ctx: tractor.Context,
data: int,
block_forever: bool = False,
) -> None:
# startup phase
global _state
_state = True
# signal to parent that we're up
await ctx.started(data + 1)
try:
if block_forever:
# block until cancelled
await trio.sleep_forever()
else:
return 'yo'
finally:
_state = False
async def assert_state(value: bool):
global _state
assert _state == value
@pytest.mark.parametrize(
'error_parent',
[False, True],
)
@pytest.mark.parametrize(
'callee_blocks_forever',
[False, True],
)
def test_simple_context(
error_parent,
callee_blocks_forever,
):
async def main():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'simple_context',
enable_modules=[__name__],
)
async with portal.open_context(
simple_setup_teardown,
data=10,
block_forever=callee_blocks_forever,
) as (ctx, sent):
assert sent == 11
if callee_blocks_forever:
await portal.run(assert_state, value=True)
await ctx.cancel()
else:
assert await ctx.result() == 'yo'
# after cancellation
await portal.run(assert_state, value=False)
if error_parent:
raise ValueError
# shut down daemon
await portal.cancel_actor()
if error_parent:
try:
trio.run(main)
except ValueError:
pass
else:
trio.run(main)
# basic stream terminations:
# - callee context closes without using stream
# - caller context closes without using stream
# - caller context calls `Context.cancel()` while streaming
# is ongoing resulting in callee being cancelled
# - callee calls `Context.cancel()` while streaming and caller
# sees stream terminated in `RemoteActorError`
# TODO: future possible features
# - restart request: far end raises `ContextRestart`
@tractor.context
async def close_ctx_immediately(
ctx: tractor.Context,
) -> None:
await ctx.started()
global _state
async with ctx.open_stream():
pass
@tractor_test
async def test_callee_closes_ctx_after_stream_open():
'callee context closes without using stream'
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'fast_stream_closer',
enable_modules=[__name__],
)
async with portal.open_context(
close_ctx_immediately,
# flag to avoid waiting the final result
# cancel_on_exit=True,
) as (ctx, sent):
assert sent is None
with trio.fail_after(0.5):
async with ctx.open_stream() as stream:
# should fall through since ``StopAsyncIteration``
# should be raised through translation of
# a ``trio.EndOfChannel`` by
# ``trio.abc.ReceiveChannel.__anext__()``
async for _ in stream:
assert 0
else:
# verify stream is now closed
try:
await stream.receive()
except trio.EndOfChannel:
pass
# TODO: should be just raise the closed resource err
# directly here to enforce not allowing a re-open
# of a stream to the context (at least until a time of
# if/when we decide that's a good idea?)
try:
async with ctx.open_stream() as stream:
pass
except trio.ClosedResourceError:
pass
await portal.cancel_actor()
@tractor.context
async def expect_cancelled(
ctx: tractor.Context,
) -> None:
global _state
_state = True
await ctx.started()
try:
async with ctx.open_stream() as stream:
async for msg in stream:
await stream.send(msg) # echo server
except trio.Cancelled:
# expected case
_state = False
raise
else:
assert 0, "Wasn't cancelled!?"
@pytest.mark.parametrize(
'use_ctx_cancel_method',
[False, True],
)
@tractor_test
async def test_caller_closes_ctx_after_callee_opens_stream(
use_ctx_cancel_method: bool,
):
'caller context closes without using stream'
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'ctx_cancelled',
enable_modules=[__name__],
)
async with portal.open_context(
expect_cancelled,
) as (ctx, sent):
await portal.run(assert_state, value=True)
assert sent is None
# call cancel explicitly
if use_ctx_cancel_method:
await ctx.cancel()
try:
async with ctx.open_stream() as stream:
async for msg in stream:
pass
except tractor.ContextCancelled:
raise # XXX: must be propagated to __aexit__
else:
assert 0, "Should have context cancelled?"
# channel should still be up
assert portal.channel.connected()
# ctx is closed here
await portal.run(assert_state, value=False)
else:
try:
with trio.fail_after(0.2):
await ctx.result()
assert 0, "Callee should have blocked!?"
except trio.TooSlowError:
await ctx.cancel()
try:
async with ctx.open_stream() as stream:
async for msg in stream:
pass
except tractor.ContextCancelled:
pass
else:
assert 0, "Should have received closed resource error?"
# ctx is closed here
await portal.run(assert_state, value=False)
# channel should not have been destroyed yet, only the
# inter-actor-task context
assert portal.channel.connected()
# teardown the actor
await portal.cancel_actor()
@tractor_test
async def test_multitask_caller_cancels_from_nonroot_task():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'ctx_cancelled',
enable_modules=[__name__],
)
async with portal.open_context(
expect_cancelled,
) as (ctx, sent):
await portal.run(assert_state, value=True)
assert sent is None
async with ctx.open_stream() as stream:
async def send_msg_then_cancel():
await stream.send('yo')
await portal.run(assert_state, value=True)
await ctx.cancel()
await portal.run(assert_state, value=False)
async with trio.open_nursery() as n:
n.start_soon(send_msg_then_cancel)
try:
async for msg in stream:
assert msg == 'yo'
except tractor.ContextCancelled:
raise # XXX: must be propagated to __aexit__
# channel should still be up
assert portal.channel.connected()
# ctx is closed here
await portal.run(assert_state, value=False)
# channel should not have been destroyed yet, only the
# inter-actor-task context
assert portal.channel.connected()
# teardown the actor
await portal.cancel_actor()
@tractor.context
async def cancel_self(
ctx: tractor.Context,
) -> None:
global _state
_state = True
await ctx.cancel()
try:
with trio.fail_after(0.1):
await trio.sleep_forever()
except trio.Cancelled:
raise
except trio.TooSlowError:
# should never get here
assert 0
@tractor_test
async def test_callee_cancels_before_started():
'''callee calls `Context.cancel()` while streaming and caller
sees stream terminated in `ContextCancelled`.
'''
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'cancels_self',
enable_modules=[__name__],
)
try:
async with portal.open_context(
cancel_self,
) as (ctx, sent):
async with ctx.open_stream():
await trio.sleep_forever()
# raises a special cancel signal
except tractor.ContextCancelled as ce:
ce.type == trio.Cancelled
# teardown the actor
await portal.cancel_actor()
@tractor.context @tractor.context
async def simple_rpc( async def simple_rpc(
@ -14,10 +385,9 @@ async def simple_rpc(
data: int, data: int,
) -> None: ) -> None:
''' """Test a small ping-pong server.
Test a small ping-pong server.
''' """
# signal to parent that we're up # signal to parent that we're up
await ctx.started(data + 1) await ctx.started(data + 1)
@ -75,10 +445,9 @@ async def simple_rpc_with_forloop(
[simple_rpc, simple_rpc_with_forloop], [simple_rpc, simple_rpc_with_forloop],
) )
def test_simple_rpc(server_func, use_async_for): def test_simple_rpc(server_func, use_async_for):
''' """The simplest request response pattern.
The simplest request response pattern.
''' """
async def main(): async def main():
async with tractor.open_nursery() as n: async with tractor.open_nursery() as n:

View File

@ -1,193 +0,0 @@
'''
Sketchy network blackoutz, ugly byzantine gens, puedes eschuchar la
cancelacion?..
'''
from functools import partial
import pytest
from _pytest.pathlib import import_path
import trio
import tractor
from conftest import (
examples_dir,
)
@pytest.mark.parametrize(
'debug_mode',
[False, True],
ids=['no_debug_mode', 'debug_mode'],
)
@pytest.mark.parametrize(
'ipc_break',
[
# no breaks
{
'break_parent_ipc_after': False,
'break_child_ipc_after': False,
},
# only parent breaks
{
'break_parent_ipc_after': 500,
'break_child_ipc_after': False,
},
# only child breaks
{
'break_parent_ipc_after': False,
'break_child_ipc_after': 500,
},
# both: break parent first
{
'break_parent_ipc_after': 500,
'break_child_ipc_after': 800,
},
# both: break child first
{
'break_parent_ipc_after': 800,
'break_child_ipc_after': 500,
},
],
ids=[
'no_break',
'break_parent',
'break_child',
'break_both_parent_first',
'break_both_child_first',
],
)
def test_ipc_channel_break_during_stream(
debug_mode: bool,
spawn_backend: str,
ipc_break: dict | None,
):
'''
Ensure we can have an IPC channel break its connection during
streaming and it's still possible for the (simulated) user to kill
the actor tree using SIGINT.
We also verify the type of connection error expected in the parent
depending on which side if the IPC breaks first.
'''
if spawn_backend != 'trio':
if debug_mode:
pytest.skip('`debug_mode` only supported on `trio` spawner')
# non-`trio` spawners should never hit the hang condition that
# requires the user to do ctl-c to cancel the actor tree.
expect_final_exc = trio.ClosedResourceError
mod = import_path(
examples_dir() / 'advanced_faults' / 'ipc_failure_during_stream.py',
root=examples_dir(),
)
expect_final_exc = KeyboardInterrupt
# when ONLY the child breaks we expect the parent to get a closed
# resource error on the next `MsgStream.receive()` and then fail out
# and cancel the child from there.
if (
# only child breaks
(
ipc_break['break_child_ipc_after']
and ipc_break['break_parent_ipc_after'] is False
)
# both break but, parent breaks first
or (
ipc_break['break_child_ipc_after'] is not False
and (
ipc_break['break_parent_ipc_after']
> ipc_break['break_child_ipc_after']
)
)
):
expect_final_exc = trio.ClosedResourceError
# when the parent IPC side dies (even if the child's does as well
# but the child fails BEFORE the parent) we expect the channel to be
# sent a stop msg from the child at some point which will signal the
# parent that the stream has been terminated.
# NOTE: when the parent breaks "after" the child you get this same
# case as well, the child breaks the IPC channel with a stop msg
# before any closure takes place.
elif (
# only parent breaks
(
ipc_break['break_parent_ipc_after']
and ipc_break['break_child_ipc_after'] is False
)
# both break but, child breaks first
or (
ipc_break['break_parent_ipc_after'] is not False
and (
ipc_break['break_child_ipc_after']
> ipc_break['break_parent_ipc_after']
)
)
):
expect_final_exc = trio.EndOfChannel
with pytest.raises(expect_final_exc):
trio.run(
partial(
mod.main,
debug_mode=debug_mode,
start_method=spawn_backend,
**ipc_break,
)
)
@tractor.context
async def break_ipc_after_started(
ctx: tractor.Context,
) -> None:
await ctx.started()
async with ctx.open_stream() as stream:
await stream.aclose()
await trio.sleep(0.2)
await ctx.chan.send(None)
print('child broke IPC and terminating')
def test_stream_closed_right_after_ipc_break_and_zombie_lord_engages():
'''
Verify that is a subactor's IPC goes down just after bringing up a stream
the parent can trigger a SIGINT and the child will be reaped out-of-IPC by
the localhost process supervision machinery: aka "zombie lord".
'''
async def main():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'ipc_breaker',
enable_modules=[__name__],
)
with trio.move_on_after(1):
async with (
portal.open_context(
break_ipc_after_started
) as (ctx, sent),
):
async with ctx.open_stream():
await trio.sleep(0.5)
print('parent waiting on context')
print('parent exited context')
raise KeyboardInterrupt
with pytest.raises(KeyboardInterrupt):
trio.run(main)

View File

@ -1,20 +1,15 @@
''' """
Advanced streaming patterns using bidirectional streams and contexts. Advanced streaming patterns using bidirectional streams and contexts.
''' """
from collections import Counter
import itertools import itertools
import platform from typing import Set, Dict, List
import trio import trio
import tractor import tractor
def is_win(): _registry: Dict[str, Set[tractor.ReceiveMsgStream]] = {
return platform.system() == 'Windows'
_registry: dict[str, set[tractor.MsgStream]] = {
'even': set(), 'even': set(),
'odd': set(), 'odd': set(),
} }
@ -76,7 +71,7 @@ async def subscribe(
async def consumer( async def consumer(
subs: list[str], subs: List[str],
) -> None: ) -> None:
@ -177,22 +172,14 @@ async def one_task_streams_and_one_handles_reqresp(
def test_reqresp_ontopof_streaming(): def test_reqresp_ontopof_streaming():
''' '''Test a subactor that both streams with one task and
Test a subactor that both streams with one task and
spawns another which handles a small requests-response spawns another which handles a small requests-response
dialogue over the same bidir-stream. dialogue over the same bidir-stream.
''' '''
async def main(): async def main():
# flat to make sure we get at least one pong with trio.move_on_after(2):
got_pong: bool = False
timeout: int = 2
if is_win(): # smh
timeout = 4
with trio.move_on_after(timeout):
async with tractor.open_nursery() as n: async with tractor.open_nursery() as n:
# name of this actor will be same as target func # name of this actor will be same as target func
@ -201,6 +188,9 @@ def test_reqresp_ontopof_streaming():
enable_modules=[__name__] enable_modules=[__name__]
) )
# flat to make sure we get at least one pong
got_pong: bool = False
async with portal.open_context( async with portal.open_context(
one_task_streams_and_one_handles_reqresp, one_task_streams_and_one_handles_reqresp,
@ -228,153 +218,3 @@ def test_reqresp_ontopof_streaming():
trio.run(main) trio.run(main)
except trio.TooSlowError: except trio.TooSlowError:
pass pass
async def async_gen_stream(sequence):
for i in sequence:
yield i
await trio.sleep(0.1)
@tractor.context
async def echo_ctx_stream(
ctx: tractor.Context,
) -> None:
await ctx.started()
async with ctx.open_stream() as stream:
async for msg in stream:
await stream.send(msg)
def test_sigint_both_stream_types():
'''Verify that running a bi-directional and recv only stream
side-by-side will cancel correctly from SIGINT.
'''
timeout: float = 2
if is_win(): # smh
timeout += 1
async def main():
with trio.fail_after(timeout):
async with tractor.open_nursery() as n:
# name of this actor will be same as target func
portal = await n.start_actor(
'2_way',
enable_modules=[__name__]
)
async with portal.open_context(echo_ctx_stream) as (ctx, _):
async with ctx.open_stream() as stream:
async with portal.open_stream_from(
async_gen_stream,
sequence=list(range(1)),
) as gen_stream:
msg = await gen_stream.receive()
await stream.send(msg)
resp = await stream.receive()
assert resp == msg
raise KeyboardInterrupt
try:
trio.run(main)
assert 0, "Didn't receive KBI!?"
except KeyboardInterrupt:
pass
@tractor.context
async def inf_streamer(
ctx: tractor.Context,
) -> None:
'''
Stream increasing ints until terminated with a 'done' msg.
'''
await ctx.started()
async with (
ctx.open_stream() as stream,
trio.open_nursery() as n,
):
async def bail_on_sentinel():
async for msg in stream:
if msg == 'done':
await stream.aclose()
else:
print(f'streamer received {msg}')
# start termination detector
n.start_soon(bail_on_sentinel)
for val in itertools.count():
try:
await stream.send(val)
except trio.ClosedResourceError:
# close out the stream gracefully
break
print('terminating streamer')
def test_local_task_fanout_from_stream():
'''
Single stream with multiple local consumer tasks using the
``MsgStream.subscribe()` api.
Ensure all tasks receive all values after stream completes sending.
'''
consumers = 22
async def main():
counts = Counter()
async with tractor.open_nursery() as tn:
p = await tn.start_actor(
'inf_streamer',
enable_modules=[__name__],
)
async with (
p.open_context(inf_streamer) as (ctx, _),
ctx.open_stream() as stream,
):
async def pull_and_count(name: str):
# name = trio.lowlevel.current_task().name
async with stream.subscribe() as recver:
assert isinstance(
recver,
tractor.trionics.BroadcastReceiver
)
async for val in recver:
# print(f'{name}: {val}')
counts[name] += 1
print(f'{name} bcaster ended')
print(f'{name} completed')
with trio.fail_after(3):
async with trio.open_nursery() as nurse:
for i in range(consumers):
nurse.start_soon(pull_and_count, i)
await trio.sleep(0.5)
print('\nterminating')
await stream.send('done')
print('closed stream connection')
assert len(counts) == consumers
mx = max(counts.values())
# make sure each task received all stream values
assert all(val == mx for val in counts.values())
await p.cancel_actor()
trio.run(main)

View File

@ -1,6 +1,5 @@
""" """
Cancellation and error propagation Cancellation and error propagation
""" """
import os import os
import signal import signal
@ -8,10 +7,6 @@ import platform
import time import time
from itertools import repeat from itertools import repeat
from exceptiongroup import (
BaseExceptionGroup,
ExceptionGroup,
)
import pytest import pytest
import trio import trio
import tractor import tractor
@ -19,10 +14,6 @@ import tractor
from conftest import tractor_test, no_windows from conftest import tractor_test, no_windows
def is_win():
return platform.system() == 'Windows'
async def assert_err(delay=0): async def assert_err(delay=0):
await trio.sleep(delay) await trio.sleep(delay)
assert 0 assert 0
@ -60,49 +51,29 @@ def test_remote_error(arb_addr, args_err):
arbiter_addr=arb_addr, arbiter_addr=arb_addr,
) as nursery: ) as nursery:
# on a remote type error caused by bad input args
# this should raise directly which means we **don't** get
# an exception group outside the nursery since the error
# here and the far end task error are one in the same?
portal = await nursery.run_in_actor( portal = await nursery.run_in_actor(
assert_err, name='errorer', **args assert_err, name='errorer', **args
) )
# get result(s) from main task # get result(s) from main task
try: try:
# this means the root actor will also raise a local
# parent task error and thus an eg will propagate out
# of this actor nursery.
await portal.result() await portal.result()
except tractor.RemoteActorError as err: except tractor.RemoteActorError as err:
assert err.type == errtype assert err.type == errtype
print("Look Maa that actor failed hard, hehh") print("Look Maa that actor failed hard, hehh")
raise raise
# ensure boxed errors with pytest.raises(tractor.RemoteActorError) as excinfo:
if args: trio.run(main)
with pytest.raises(tractor.RemoteActorError) as excinfo:
trio.run(main)
assert excinfo.value.type == errtype # ensure boxed error is correct
assert excinfo.value.type == errtype
else:
# the root task will also error on the `.result()` call
# so we expect an error from there AND the child.
with pytest.raises(BaseExceptionGroup) as excinfo:
trio.run(main)
# ensure boxed errors
for exc in excinfo.value.exceptions:
assert exc.type == errtype
def test_multierror(arb_addr): def test_multierror(arb_addr):
''' """Verify we raise a ``trio.MultiError`` out of a nursery where
Verify we raise a ``BaseExceptionGroup`` out of a nursery where
more then one actor errors. more then one actor errors.
"""
'''
async def main(): async def main():
async with tractor.open_nursery( async with tractor.open_nursery(
arbiter_addr=arb_addr, arbiter_addr=arb_addr,
@ -119,10 +90,10 @@ def test_multierror(arb_addr):
print("Look Maa that first actor failed hard, hehh") print("Look Maa that first actor failed hard, hehh")
raise raise
# here we should get a ``BaseExceptionGroup`` containing exceptions # here we should get a `trio.MultiError` containing exceptions
# from both subactors # from both subactors
with pytest.raises(BaseExceptionGroup): with pytest.raises(trio.MultiError):
trio.run(main) trio.run(main)
@ -131,7 +102,7 @@ def test_multierror(arb_addr):
'num_subactors', range(25, 26), 'num_subactors', range(25, 26),
) )
def test_multierror_fast_nursery(arb_addr, start_method, num_subactors, delay): def test_multierror_fast_nursery(arb_addr, start_method, num_subactors, delay):
"""Verify we raise a ``BaseExceptionGroup`` out of a nursery where """Verify we raise a ``trio.MultiError`` out of a nursery where
more then one actor errors and also with a delay before failure more then one actor errors and also with a delay before failure
to test failure during an ongoing spawning. to test failure during an ongoing spawning.
""" """
@ -147,21 +118,16 @@ def test_multierror_fast_nursery(arb_addr, start_method, num_subactors, delay):
delay=delay delay=delay
) )
# with pytest.raises(trio.MultiError) as exc_info: with pytest.raises(trio.MultiError) as exc_info:
with pytest.raises(BaseExceptionGroup) as exc_info:
trio.run(main) trio.run(main)
assert exc_info.type == ExceptionGroup assert exc_info.type == tractor.MultiError
err = exc_info.value err = exc_info.value
exceptions = err.exceptions exceptions = err.exceptions
if len(exceptions) == 2: if len(exceptions) == 2:
# sometimes oddly now there's an embedded BrokenResourceError ? # sometimes oddly now there's an embedded BrokenResourceError ?
for exc in exceptions: exceptions = exceptions[1].exceptions
excs = getattr(exc, 'exceptions', None)
if excs:
exceptions = excs
break
assert len(exceptions) == num_subactors assert len(exceptions) == num_subactors
@ -239,8 +205,8 @@ async def test_cancel_infinite_streamer(start_method):
[ [
# daemon actors sit idle while single task actors error out # daemon actors sit idle while single task actors error out
(1, tractor.RemoteActorError, AssertionError, (assert_err, {}), None), (1, tractor.RemoteActorError, AssertionError, (assert_err, {}), None),
(2, BaseExceptionGroup, AssertionError, (assert_err, {}), None), (2, tractor.MultiError, AssertionError, (assert_err, {}), None),
(3, BaseExceptionGroup, AssertionError, (assert_err, {}), None), (3, tractor.MultiError, AssertionError, (assert_err, {}), None),
# 1 daemon actor errors out while single task actors sleep forever # 1 daemon actor errors out while single task actors sleep forever
(3, tractor.RemoteActorError, AssertionError, (sleep_forever, {}), (3, tractor.RemoteActorError, AssertionError, (sleep_forever, {}),
@ -251,7 +217,7 @@ async def test_cancel_infinite_streamer(start_method):
(do_nuthin, {}), (assert_err, {'delay': 1}, True)), (do_nuthin, {}), (assert_err, {'delay': 1}, True)),
# daemon complete quickly delay while single task # daemon complete quickly delay while single task
# actors error after brief delay # actors error after brief delay
(3, BaseExceptionGroup, AssertionError, (3, tractor.MultiError, AssertionError,
(assert_err, {'delay': 1}), (do_nuthin, {}, False)), (assert_err, {'delay': 1}), (do_nuthin, {}, False)),
], ],
ids=[ ids=[
@ -318,7 +284,7 @@ async def test_some_cancels_all(num_actors_and_errs, start_method, loglevel):
# should error here with a ``RemoteActorError`` or ``MultiError`` # should error here with a ``RemoteActorError`` or ``MultiError``
except first_err as err: except first_err as err:
if isinstance(err, BaseExceptionGroup): if isinstance(err, tractor.MultiError):
assert len(err.exceptions) == num_actors assert len(err.exceptions) == num_actors
for exc in err.exceptions: for exc in err.exceptions:
if isinstance(exc, tractor.RemoteActorError): if isinstance(exc, tractor.RemoteActorError):
@ -361,12 +327,10 @@ async def spawn_and_error(breadth, depth) -> None:
@tractor_test @tractor_test
async def test_nested_multierrors(loglevel, start_method): async def test_nested_multierrors(loglevel, start_method):
''' """Test that failed actor sets are wrapped in `trio.MultiError`s.
Test that failed actor sets are wrapped in `BaseExceptionGroup`s. This This test goes only 2 nurseries deep but we should eventually have tests
test goes only 2 nurseries deep but we should eventually have tests
for arbitrary n-depth actor trees. for arbitrary n-depth actor trees.
"""
'''
if start_method == 'trio': if start_method == 'trio':
depth = 3 depth = 3
subactor_breadth = 2 subactor_breadth = 2
@ -390,37 +354,25 @@ async def test_nested_multierrors(loglevel, start_method):
breadth=subactor_breadth, breadth=subactor_breadth,
depth=depth, depth=depth,
) )
except BaseExceptionGroup as err: except trio.MultiError as err:
assert len(err.exceptions) == subactor_breadth assert len(err.exceptions) == subactor_breadth
for subexc in err.exceptions: for subexc in err.exceptions:
# verify first level actor errors are wrapped as remote # verify first level actor errors are wrapped as remote
if is_win(): if platform.system() == 'Windows':
# windows is often too slow and cancellation seems # windows is often too slow and cancellation seems
# to happen before an actor is spawned # to happen before an actor is spawned
if isinstance(subexc, trio.Cancelled): if isinstance(subexc, trio.Cancelled):
continue continue
else:
elif isinstance(subexc, tractor.RemoteActorError):
# on windows it seems we can't exactly be sure wtf # on windows it seems we can't exactly be sure wtf
# will happen.. # will happen..
assert subexc.type in ( assert subexc.type in (
tractor.RemoteActorError, tractor.RemoteActorError,
trio.Cancelled, trio.Cancelled,
BaseExceptionGroup, trio.MultiError
) )
elif isinstance(subexc, BaseExceptionGroup):
for subsub in subexc.exceptions:
if subsub in (tractor.RemoteActorError,):
subsub = subsub.type
assert type(subsub) in (
trio.Cancelled,
BaseExceptionGroup,
)
else: else:
assert isinstance(subexc, tractor.RemoteActorError) assert isinstance(subexc, tractor.RemoteActorError)
@ -428,21 +380,14 @@ async def test_nested_multierrors(loglevel, start_method):
# XXX not sure what's up with this.. # XXX not sure what's up with this..
# on windows sometimes spawning is just too slow and # on windows sometimes spawning is just too slow and
# we get back the (sent) cancel signal instead # we get back the (sent) cancel signal instead
if is_win(): if platform.system() == 'Windows':
if isinstance(subexc, tractor.RemoteActorError): assert (subexc.type is trio.MultiError) or (
assert subexc.type in ( subexc.type is tractor.RemoteActorError)
BaseExceptionGroup,
tractor.RemoteActorError
)
else:
assert isinstance(subexc, BaseExceptionGroup)
else: else:
assert subexc.type is ExceptionGroup assert subexc.type is trio.MultiError
else: else:
assert subexc.type in ( assert (subexc.type is tractor.RemoteActorError) or (
tractor.RemoteActorError, subexc.type is trio.Cancelled)
trio.Cancelled
)
@no_windows @no_windows
@ -460,7 +405,7 @@ def test_cancel_via_SIGINT(
with trio.fail_after(2): with trio.fail_after(2):
async with tractor.open_nursery() as tn: async with tractor.open_nursery() as tn:
await tn.start_actor('sucka') await tn.start_actor('sucka')
if 'mp' in spawn_backend: if spawn_backend == 'mp':
time.sleep(0.1) time.sleep(0.1)
os.kill(pid, signal.SIGINT) os.kill(pid, signal.SIGINT)
await trio.sleep_forever() await trio.sleep_forever()
@ -480,9 +425,6 @@ def test_cancel_via_SIGINT_other_task(
from a seperate ``trio`` child task. from a seperate ``trio`` child task.
""" """
pid = os.getpid() pid = os.getpid()
timeout: float = 2
if is_win(): # smh
timeout += 1
async def spawn_and_sleep_forever(task_status=trio.TASK_STATUS_IGNORED): async def spawn_and_sleep_forever(task_status=trio.TASK_STATUS_IGNORED):
async with tractor.open_nursery() as tn: async with tractor.open_nursery() as tn:
@ -496,17 +438,16 @@ def test_cancel_via_SIGINT_other_task(
async def main(): async def main():
# should never timeout since SIGINT should cancel the current program # should never timeout since SIGINT should cancel the current program
with trio.fail_after(timeout): with trio.fail_after(2):
async with trio.open_nursery() as n: async with trio.open_nursery() as n:
await n.start(spawn_and_sleep_forever) await n.start(spawn_and_sleep_forever)
if 'mp' in spawn_backend: if spawn_backend == 'mp':
time.sleep(0.1) time.sleep(0.1)
os.kill(pid, signal.SIGINT) os.kill(pid, signal.SIGINT)
with pytest.raises(KeyboardInterrupt): with pytest.raises(KeyboardInterrupt):
trio.run(main) trio.run(main)
async def spin_for(period=3): async def spin_for(period=3):
"Sync sleep." "Sync sleep."
time.sleep(period) time.sleep(period)
@ -545,57 +486,3 @@ def test_cancel_while_childs_child_in_sync_sleep(
with pytest.raises(AssertionError): with pytest.raises(AssertionError):
trio.run(main) trio.run(main)
def test_fast_graceful_cancel_when_spawn_task_in_soft_proc_wait_for_daemon(
start_method,
):
'''
This is a very subtle test which demonstrates how cancellation
during process collection can result in non-optimal teardown
performance on daemon actors. The fix for this test was to handle
``trio.Cancelled`` specially in the spawn task waiting in
`proc.wait()` such that ``Portal.cancel_actor()`` is called before
executing the "hard reap" sequence (which has an up to 3 second
delay currently).
In other words, if we can cancel the actor using a graceful remote
cancellation, and it's faster, we might as well do it.
'''
kbi_delay = 0.5
timeout: float = 2.9
if is_win(): # smh
timeout += 1
async def main():
start = time.time()
try:
async with trio.open_nursery() as nurse:
async with tractor.open_nursery() as tn:
p = await tn.start_actor(
'fast_boi',
enable_modules=[__name__],
)
async def delayed_kbi():
await trio.sleep(kbi_delay)
print(f'RAISING KBI after {kbi_delay} s')
raise KeyboardInterrupt
# start task which raises a kbi **after**
# the actor nursery ``__aexit__()`` has
# been run.
nurse.start_soon(delayed_kbi)
await p.run(do_nuthin)
finally:
duration = time.time() - start
if duration > timeout:
raise trio.TooSlowError(
'daemon cancel was slower then necessary..'
)
with pytest.raises(KeyboardInterrupt):
trio.run(main)

View File

@ -1,173 +0,0 @@
'''
Test a service style daemon that maintains a nursery for spawning
"remote async tasks" including both spawning other long living
sub-sub-actor daemons.
'''
from typing import Optional
import asyncio
from contextlib import asynccontextmanager as acm
import pytest
import trio
from trio_typing import TaskStatus
import tractor
from tractor import RemoteActorError
from async_generator import aclosing
async def aio_streamer(
from_trio: asyncio.Queue,
to_trio: trio.abc.SendChannel,
) -> trio.abc.ReceiveChannel:
# required first msg to sync caller
to_trio.send_nowait(None)
from itertools import cycle
for i in cycle(range(10)):
to_trio.send_nowait(i)
await asyncio.sleep(0.01)
async def trio_streamer():
from itertools import cycle
for i in cycle(range(10)):
yield i
await trio.sleep(0.01)
async def trio_sleep_and_err(delay: float = 0.5):
await trio.sleep(delay)
# name error
doggy() # noqa
_cached_stream: Optional[
trio.abc.ReceiveChannel
] = None
@acm
async def wrapper_mngr(
):
from tractor.trionics import broadcast_receiver
global _cached_stream
in_aio = tractor.current_actor().is_infected_aio()
if in_aio:
if _cached_stream:
from_aio = _cached_stream
# if we already have a cached feed deliver a rx side clone
# to consumer
async with broadcast_receiver(from_aio, 6) as from_aio:
yield from_aio
return
else:
async with tractor.to_asyncio.open_channel_from(
aio_streamer,
) as (first, from_aio):
assert not first
# cache it so next task uses broadcast receiver
_cached_stream = from_aio
yield from_aio
else:
async with aclosing(trio_streamer()) as stream:
# cache it so next task uses broadcast receiver
_cached_stream = stream
yield stream
_nursery: trio.Nursery = None
@tractor.context
async def trio_main(
ctx: tractor.Context,
):
# sync
await ctx.started()
# stash a "service nursery" as "actor local" (aka a Python global)
global _nursery
n = _nursery
assert n
async def consume_stream():
async with wrapper_mngr() as stream:
async for msg in stream:
print(msg)
# run 2 tasks to ensure broadcaster chan use
n.start_soon(consume_stream)
n.start_soon(consume_stream)
n.start_soon(trio_sleep_and_err)
await trio.sleep_forever()
@tractor.context
async def open_actor_local_nursery(
ctx: tractor.Context,
):
global _nursery
async with trio.open_nursery() as n:
_nursery = n
await ctx.started()
await trio.sleep(10)
# await trio.sleep(1)
# XXX: this causes the hang since
# the caller does not unblock from its own
# ``trio.sleep_forever()``.
# TODO: we need to test a simple ctx task starting remote tasks
# that error and then blocking on a ``Nursery.start()`` which
# never yields back.. aka a scenario where the
# ``tractor.context`` task IS NOT in the service n's cancel
# scope.
n.cancel_scope.cancel()
@pytest.mark.parametrize(
'asyncio_mode',
[True, False],
ids='asyncio_mode={}'.format,
)
def test_actor_managed_trio_nursery_task_error_cancels_aio(
asyncio_mode: bool,
arb_addr
):
'''
Verify that a ``trio`` nursery created managed in a child actor
correctly relays errors to the parent actor when one of its spawned
tasks errors even when running in infected asyncio mode and using
broadcast receivers for multi-task-per-actor subscription.
'''
async def main():
# cancel the nursery shortly after boot
async with tractor.open_nursery() as n:
p = await n.start_actor(
'nursery_mngr',
infect_asyncio=asyncio_mode,
enable_modules=[__name__],
)
async with (
p.open_context(open_actor_local_nursery) as (ctx, first),
p.open_context(trio_main) as (ctx, first),
):
await trio.sleep_forever()
with pytest.raises(RemoteActorError) as excinfo:
trio.run(main)
# verify boxed error
err = excinfo.value
assert isinstance(err.type(), NameError)

View File

@ -1,84 +0,0 @@
import itertools
import pytest
import trio
import tractor
from tractor import open_actor_cluster
from tractor.trionics import gather_contexts
from conftest import tractor_test
MESSAGE = 'tractoring at full speed'
def test_empty_mngrs_input_raises() -> None:
async def main():
with trio.fail_after(1):
async with (
open_actor_cluster(
modules=[__name__],
# NOTE: ensure we can passthrough runtime opts
loglevel='info',
# debug_mode=True,
) as portals,
gather_contexts(
# NOTE: it's the use of inline-generator syntax
# here that causes the empty input.
mngrs=(
p.open_context(worker) for p in portals.values()
),
),
):
assert 0
with pytest.raises(ValueError):
trio.run(main)
@tractor.context
async def worker(
ctx: tractor.Context,
) -> None:
await ctx.started()
async with ctx.open_stream(
backpressure=True,
) as stream:
# TODO: this with the below assert causes a hang bug?
# with trio.move_on_after(1):
async for msg in stream:
# do something with msg
print(msg)
assert msg == MESSAGE
# TODO: does this ever cause a hang
# assert 0
@tractor_test
async def test_streaming_to_actor_cluster() -> None:
async with (
open_actor_cluster(modules=[__name__]) as portals,
gather_contexts(
mngrs=[p.open_context(worker) for p in portals.values()],
) as contexts,
gather_contexts(
mngrs=[ctx[0].open_stream() for ctx in contexts],
) as streams,
):
with trio.move_on_after(1):
for stream in itertools.cycle(streams):
await stream.send(MESSAGE)

View File

@ -1,798 +0,0 @@
'''
``async with ():`` inlined context-stream cancellation testing.
Verify the we raise errors when streams are opened prior to sync-opening
a ``tractor.Context`` beforehand.
'''
from contextlib import asynccontextmanager as acm
from itertools import count
import platform
from typing import Optional
import pytest
import trio
import tractor
from tractor._exceptions import StreamOverrun
from conftest import tractor_test
# ``Context`` semantics are as follows,
# ------------------------------------
# - standard setup/teardown:
# ``Portal.open_context()`` starts a new
# remote task context in another actor. The target actor's task must
# call ``Context.started()`` to unblock this entry on the caller side.
# the callee task executes until complete and returns a final value
# which is delivered to the caller side and retreived via
# ``Context.result()``.
# - cancel termination:
# context can be cancelled on either side where either end's task can
# call ``Context.cancel()`` which raises a local ``trio.Cancelled``
# and sends a task cancel request to the remote task which in turn
# raises a ``trio.Cancelled`` in that scope, catches it, and re-raises
# as ``ContextCancelled``. This is then caught by
# ``Portal.open_context()``'s exit and we get a graceful termination
# of the linked tasks.
# - error termination:
# error is caught after all context-cancel-scope tasks are cancelled
# via regular ``trio`` cancel scope semantics, error is sent to other
# side and unpacked as a `RemoteActorError`.
# ``Context.open_stream() as stream: MsgStream:`` msg semantics are:
# -----------------------------------------------------------------
# - either side can ``.send()`` which emits a 'yield' msgs and delivers
# a value to the a ``MsgStream.receive()`` call.
# - stream closure: one end relays a 'stop' message which terminates an
# ongoing ``MsgStream`` iteration.
# - cancel/error termination: as per the context semantics above but
# with implicit stream closure on the cancelling end.
_state: bool = False
@tractor.context
async def too_many_starteds(
ctx: tractor.Context,
) -> None:
'''
Call ``Context.started()`` more then once (an error).
'''
await ctx.started()
try:
await ctx.started()
except RuntimeError:
raise
@tractor.context
async def not_started_but_stream_opened(
ctx: tractor.Context,
) -> None:
'''
Enter ``Context.open_stream()`` without calling ``.started()``.
'''
try:
async with ctx.open_stream():
assert 0
except RuntimeError:
raise
@pytest.mark.parametrize(
'target',
[too_many_starteds, not_started_but_stream_opened],
ids='misuse_type={}'.format,
)
def test_started_misuse(target):
async def main():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
target.__name__,
enable_modules=[__name__],
)
async with portal.open_context(target) as (ctx, sent):
await trio.sleep(1)
with pytest.raises(tractor.RemoteActorError):
trio.run(main)
@tractor.context
async def simple_setup_teardown(
ctx: tractor.Context,
data: int,
block_forever: bool = False,
) -> None:
# startup phase
global _state
_state = True
# signal to parent that we're up
await ctx.started(data + 1)
try:
if block_forever:
# block until cancelled
await trio.sleep_forever()
else:
return 'yo'
finally:
_state = False
async def assert_state(value: bool):
global _state
assert _state == value
@pytest.mark.parametrize(
'error_parent',
[False, ValueError, KeyboardInterrupt],
)
@pytest.mark.parametrize(
'callee_blocks_forever',
[False, True],
ids=lambda item: f'callee_blocks_forever={item}'
)
@pytest.mark.parametrize(
'pointlessly_open_stream',
[False, True],
ids=lambda item: f'open_stream={item}'
)
def test_simple_context(
error_parent,
callee_blocks_forever,
pointlessly_open_stream,
):
timeout = 1.5 if not platform.system() == 'Windows' else 4
async def main():
with trio.fail_after(timeout):
async with tractor.open_nursery() as nursery:
portal = await nursery.start_actor(
'simple_context',
enable_modules=[__name__],
)
try:
async with portal.open_context(
simple_setup_teardown,
data=10,
block_forever=callee_blocks_forever,
) as (ctx, sent):
assert sent == 11
if callee_blocks_forever:
await portal.run(assert_state, value=True)
else:
assert await ctx.result() == 'yo'
if not error_parent:
await ctx.cancel()
if pointlessly_open_stream:
async with ctx.open_stream():
if error_parent:
raise error_parent
if callee_blocks_forever:
await ctx.cancel()
else:
# in this case the stream will send a
# 'stop' msg to the far end which needs
# to be ignored
pass
else:
if error_parent:
raise error_parent
finally:
# after cancellation
if not error_parent:
await portal.run(assert_state, value=False)
# shut down daemon
await portal.cancel_actor()
if error_parent:
try:
trio.run(main)
except error_parent:
pass
except trio.MultiError as me:
# XXX: on windows it seems we may have to expect the group error
from tractor._exceptions import is_multi_cancelled
assert is_multi_cancelled(me)
else:
trio.run(main)
# basic stream terminations:
# - callee context closes without using stream
# - caller context closes without using stream
# - caller context calls `Context.cancel()` while streaming
# is ongoing resulting in callee being cancelled
# - callee calls `Context.cancel()` while streaming and caller
# sees stream terminated in `RemoteActorError`
# TODO: future possible features
# - restart request: far end raises `ContextRestart`
@tractor.context
async def close_ctx_immediately(
ctx: tractor.Context,
) -> None:
await ctx.started()
global _state
async with ctx.open_stream():
pass
@tractor_test
async def test_callee_closes_ctx_after_stream_open():
'callee context closes without using stream'
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'fast_stream_closer',
enable_modules=[__name__],
)
with trio.fail_after(2):
async with portal.open_context(
close_ctx_immediately,
# flag to avoid waiting the final result
# cancel_on_exit=True,
) as (ctx, sent):
assert sent is None
with trio.fail_after(0.5):
async with ctx.open_stream() as stream:
# should fall through since ``StopAsyncIteration``
# should be raised through translation of
# a ``trio.EndOfChannel`` by
# ``trio.abc.ReceiveChannel.__anext__()``
async for _ in stream:
assert 0
else:
# verify stream is now closed
try:
await stream.receive()
except trio.EndOfChannel:
pass
# TODO: should be just raise the closed resource err
# directly here to enforce not allowing a re-open
# of a stream to the context (at least until a time of
# if/when we decide that's a good idea?)
try:
with trio.fail_after(0.5):
async with ctx.open_stream() as stream:
pass
except trio.ClosedResourceError:
pass
await portal.cancel_actor()
@tractor.context
async def expect_cancelled(
ctx: tractor.Context,
) -> None:
global _state
_state = True
await ctx.started()
try:
async with ctx.open_stream() as stream:
async for msg in stream:
await stream.send(msg) # echo server
except trio.Cancelled:
# expected case
_state = False
raise
else:
assert 0, "Wasn't cancelled!?"
@pytest.mark.parametrize(
'use_ctx_cancel_method',
[False, True],
)
@tractor_test
async def test_caller_closes_ctx_after_callee_opens_stream(
use_ctx_cancel_method: bool,
):
'caller context closes without using stream'
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'ctx_cancelled',
enable_modules=[__name__],
)
async with portal.open_context(
expect_cancelled,
) as (ctx, sent):
await portal.run(assert_state, value=True)
assert sent is None
# call cancel explicitly
if use_ctx_cancel_method:
await ctx.cancel()
try:
async with ctx.open_stream() as stream:
async for msg in stream:
pass
except tractor.ContextCancelled:
raise # XXX: must be propagated to __aexit__
else:
assert 0, "Should have context cancelled?"
# channel should still be up
assert portal.channel.connected()
# ctx is closed here
await portal.run(assert_state, value=False)
else:
try:
with trio.fail_after(0.2):
await ctx.result()
assert 0, "Callee should have blocked!?"
except trio.TooSlowError:
await ctx.cancel()
try:
async with ctx.open_stream() as stream:
async for msg in stream:
pass
except tractor.ContextCancelled:
pass
else:
assert 0, "Should have received closed resource error?"
# ctx is closed here
await portal.run(assert_state, value=False)
# channel should not have been destroyed yet, only the
# inter-actor-task context
assert portal.channel.connected()
# teardown the actor
await portal.cancel_actor()
@tractor_test
async def test_multitask_caller_cancels_from_nonroot_task():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'ctx_cancelled',
enable_modules=[__name__],
)
async with portal.open_context(
expect_cancelled,
) as (ctx, sent):
await portal.run(assert_state, value=True)
assert sent is None
async with ctx.open_stream() as stream:
async def send_msg_then_cancel():
await stream.send('yo')
await portal.run(assert_state, value=True)
await ctx.cancel()
await portal.run(assert_state, value=False)
async with trio.open_nursery() as n:
n.start_soon(send_msg_then_cancel)
try:
async for msg in stream:
assert msg == 'yo'
except tractor.ContextCancelled:
raise # XXX: must be propagated to __aexit__
# channel should still be up
assert portal.channel.connected()
# ctx is closed here
await portal.run(assert_state, value=False)
# channel should not have been destroyed yet, only the
# inter-actor-task context
assert portal.channel.connected()
# teardown the actor
await portal.cancel_actor()
@tractor.context
async def cancel_self(
ctx: tractor.Context,
) -> None:
global _state
_state = True
await ctx.cancel()
# should inline raise immediately
try:
async with ctx.open_stream():
pass
except tractor.ContextCancelled:
# suppress for now so we can do checkpoint tests below
pass
else:
raise RuntimeError('Context didnt cancel itself?!')
# check a real ``trio.Cancelled`` is raised on a checkpoint
try:
with trio.fail_after(0.1):
await trio.sleep_forever()
except trio.Cancelled:
raise
except trio.TooSlowError:
# should never get here
assert 0
@tractor_test
async def test_callee_cancels_before_started():
'''
Callee calls `Context.cancel()` while streaming and caller
sees stream terminated in `ContextCancelled`.
'''
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'cancels_self',
enable_modules=[__name__],
)
try:
async with portal.open_context(
cancel_self,
) as (ctx, sent):
async with ctx.open_stream():
await trio.sleep_forever()
# raises a special cancel signal
except tractor.ContextCancelled as ce:
ce.type == trio.Cancelled
# the traceback should be informative
assert 'cancelled itself' in ce.msgdata['tb_str']
# teardown the actor
await portal.cancel_actor()
@tractor.context
async def never_open_stream(
ctx: tractor.Context,
) -> None:
'''
Context which never opens a stream and blocks.
'''
await ctx.started()
await trio.sleep_forever()
@tractor.context
async def keep_sending_from_callee(
ctx: tractor.Context,
msg_buffer_size: Optional[int] = None,
) -> None:
'''
Send endlessly on the calleee stream.
'''
await ctx.started()
async with ctx.open_stream(
msg_buffer_size=msg_buffer_size,
) as stream:
for msg in count():
print(f'callee sending {msg}')
await stream.send(msg)
await trio.sleep(0.01)
@pytest.mark.parametrize(
'overrun_by',
[
('caller', 1, never_open_stream),
('cancel_caller_during_overrun', 1, never_open_stream),
('callee', 0, keep_sending_from_callee),
],
ids='overrun_condition={}'.format,
)
def test_one_end_stream_not_opened(overrun_by):
'''
This should exemplify the bug from:
https://github.com/goodboy/tractor/issues/265
'''
overrunner, buf_size_increase, entrypoint = overrun_by
from tractor._runtime import Actor
buf_size = buf_size_increase + Actor.msg_buffer_size
async def main():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
entrypoint.__name__,
enable_modules=[__name__],
)
async with portal.open_context(
entrypoint,
) as (ctx, sent):
assert sent is None
if 'caller' in overrunner:
async with ctx.open_stream() as stream:
for i in range(buf_size):
print(f'sending {i}')
await stream.send(i)
if 'cancel' in overrunner:
# without this we block waiting on the child side
await ctx.cancel()
else:
# expect overrun error to be relayed back
# and this sleep interrupted
await trio.sleep_forever()
else:
# callee overruns caller case so we do nothing here
await trio.sleep_forever()
await portal.cancel_actor()
# 2 overrun cases and the no overrun case (which pushes right up to
# the msg limit)
if overrunner == 'caller' or 'cance' in overrunner:
with pytest.raises(tractor.RemoteActorError) as excinfo:
trio.run(main)
assert excinfo.value.type == StreamOverrun
elif overrunner == 'callee':
with pytest.raises(tractor.RemoteActorError) as excinfo:
trio.run(main)
# TODO: embedded remote errors so that we can verify the source
# error? the callee delivers an error which is an overrun
# wrapped in a remote actor error.
assert excinfo.value.type == tractor.RemoteActorError
else:
trio.run(main)
@tractor.context
async def echo_back_sequence(
ctx: tractor.Context,
seq: list[int],
msg_buffer_size: Optional[int] = None,
) -> None:
'''
Send endlessly on the calleee stream.
'''
await ctx.started()
async with ctx.open_stream(
msg_buffer_size=msg_buffer_size,
) as stream:
seq = list(seq) # bleh, `msgpack`...
count = 0
while count < 3:
batch = []
async for msg in stream:
batch.append(msg)
if batch == seq:
break
for msg in batch:
print(f'callee sending {msg}')
await stream.send(msg)
count += 1
return 'yo'
def test_stream_backpressure():
'''
Demonstrate small overruns of each task back and forth
on a stream not raising any errors by default.
'''
async def main():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'callee_sends_forever',
enable_modules=[__name__],
)
seq = list(range(3))
async with portal.open_context(
echo_back_sequence,
seq=seq,
msg_buffer_size=1,
) as (ctx, sent):
assert sent is None
async with ctx.open_stream(msg_buffer_size=1) as stream:
count = 0
while count < 3:
for msg in seq:
print(f'caller sending {msg}')
await stream.send(msg)
await trio.sleep(0.1)
batch = []
async for msg in stream:
batch.append(msg)
if batch == seq:
break
count += 1
# here the context should return
assert await ctx.result() == 'yo'
# cancel the daemon
await portal.cancel_actor()
trio.run(main)
@tractor.context
async def sleep_forever(
ctx: tractor.Context,
) -> None:
await ctx.started()
async with ctx.open_stream():
await trio.sleep_forever()
@acm
async def attach_to_sleep_forever():
'''
Cancel a context **before** any underlying error is raised in order
to trigger a local reception of a ``ContextCancelled`` which **should not**
be re-raised in the local surrounding ``Context`` *iff* the cancel was
requested by **this** side of the context.
'''
async with tractor.wait_for_actor('sleeper') as p2:
async with (
p2.open_context(sleep_forever) as (peer_ctx, first),
peer_ctx.open_stream(),
):
try:
yield
finally:
# XXX: previously this would trigger local
# ``ContextCancelled`` to be received and raised in the
# local context overriding any local error due to
# logic inside ``_invoke()`` which checked for
# an error set on ``Context._error`` and raised it in
# under a cancellation scenario.
# The problem is you can have a remote cancellation
# that is part of a local error and we shouldn't raise
# ``ContextCancelled`` **iff** we weren't the side of
# the context to initiate it, i.e.
# ``Context._cancel_called`` should **NOT** have been
# set. The special logic to handle this case is now
# inside ``Context._may_raise_from_remote_msg()`` XD
await peer_ctx.cancel()
@tractor.context
async def error_before_started(
ctx: tractor.Context,
) -> None:
'''
This simulates exactly an original bug discovered in:
https://github.com/pikers/piker/issues/244
'''
async with attach_to_sleep_forever():
# send an unserializable type which should raise a type error
# here and **NOT BE SWALLOWED** by the surrounding acm!!?!
await ctx.started(object())
def test_do_not_swallow_error_before_started_by_remote_contextcancelled():
'''
Verify that an error raised in a remote context which itself opens another
remote context, which it cancels, does not ovverride the original error that
caused the cancellation of the secondardy context.
'''
async def main():
async with tractor.open_nursery() as n:
portal = await n.start_actor(
'errorer',
enable_modules=[__name__],
)
await n.start_actor(
'sleeper',
enable_modules=[__name__],
)
async with (
portal.open_context(
error_before_started
) as (ctx, sent),
):
await trio.sleep_forever()
with pytest.raises(tractor.RemoteActorError) as excinfo:
trio.run(main)
assert excinfo.value.type == TypeError

View File

@ -1,34 +1,20 @@
""" """
That "native" debug mode better work! That native debug better work!
All these tests can be understood (somewhat) by running the equivalent All these tests can be understood (somewhat) by running the equivalent
`examples/debugging/` scripts manually. `examples/debugging/` scripts manually.
TODO: TODO: None of these tests have been run successfully on windows yet.
- none of these tests have been run successfully on windows yet but
there's been manual testing that verified it works.
- wonder if any of it'll work on OS X?
""" """
import itertools
from os import path
from typing import Optional
import platform
import pathlib
import sys
import time import time
from os import path
import platform
import pytest import pytest
import pexpect import pexpect
from pexpect.exceptions import (
TIMEOUT,
EOF,
)
from conftest import ( from conftest import repodir
examples_dir,
_ci_env,
)
# TODO: The next great debugger audit could be done by you! # TODO: The next great debugger audit could be done by you!
# - recurrent entry to breakpoint() from single actor *after* and an # - recurrent entry to breakpoint() from single actor *after* and an
@ -47,31 +33,19 @@ if platform.system() == 'Windows':
) )
def examples_dir():
"""Return the abspath to the examples directory.
"""
return path.join(repodir(), 'examples', 'debugging/')
def mk_cmd(ex_name: str) -> str: def mk_cmd(ex_name: str) -> str:
''' """Generate a command suitable to pass to ``pexpect.spawn()``.
Generate a command suitable to pass to ``pexpect.spawn()``. """
return ' '.join(
''' ['python',
script_path: pathlib.Path = examples_dir() / 'debugging' / f'{ex_name}.py' path.join(examples_dir(), f'{ex_name}.py')]
return ' '.join(['python', str(script_path)]) )
# TODO: was trying to this xfail style but some weird bug i see in CI
# that's happening at collect time.. pretty soon gonna dump actions i'm
# thinkin...
# in CI we skip tests which >= depth 1 actor trees due to there
# still being an oustanding issue with relaying the debug-mode-state
# through intermediary parents.
has_nested_actors = pytest.mark.has_nested_actors
# .xfail(
# os.environ.get('CI', False),
# reason=(
# 'This test uses nested actors and fails in CI\n'
# 'The test seems to run fine locally but until we solve the '
# 'following issue this CI test will be xfail:\n'
# 'https://github.com/goodboy/tractor/issues/320'
# )
# )
@pytest.fixture @pytest.fixture
@ -95,83 +69,6 @@ def spawn(
return _spawn return _spawn
PROMPT = r"\(Pdb\+\)"
def expect(
child,
# prompt by default
patt: str = PROMPT,
**kwargs,
) -> None:
'''
Expect wrapper that prints last seen console
data before failing.
'''
try:
child.expect(
patt,
**kwargs,
)
except TIMEOUT:
before = str(child.before.decode())
print(before)
raise
def assert_before(
child,
patts: list[str],
) -> None:
before = str(child.before.decode())
for patt in patts:
try:
assert patt in before
except AssertionError:
print(before)
raise
@pytest.fixture(
params=[False, True],
ids='ctl-c={}'.format,
)
def ctlc(
request,
ci_env: bool,
) -> bool:
use_ctlc = request.param
node = request.node
markers = node.own_markers
for mark in markers:
if mark.name == 'has_nested_actors':
pytest.skip(
f'Test {node} has nested actors and fails with Ctrl-C.\n'
f'The test can sometimes run fine locally but until'
' we solve' 'this issue this CI test will be xfail:\n'
'https://github.com/goodboy/tractor/issues/320'
)
if use_ctlc:
# XXX: disable pygments highlighting for auto-tests
# since some envs (like actions CI) will struggle
# the the added color-char encoding..
from tractor._debug import TractorConfig
TractorConfig.use_pygements = False
yield use_ctlc
@pytest.mark.parametrize( @pytest.mark.parametrize(
'user_in_out', 'user_in_out',
[ [
@ -181,16 +78,14 @@ def ctlc(
ids=lambda item: f'{item[0]} -> {item[1]}', ids=lambda item: f'{item[0]} -> {item[1]}',
) )
def test_root_actor_error(spawn, user_in_out): def test_root_actor_error(spawn, user_in_out):
''' """Demonstrate crash handler entering pdbpp from basic error in root actor.
Demonstrate crash handler entering pdb from basic error in root actor. """
'''
user_input, expect_err_str = user_in_out user_input, expect_err_str = user_in_out
child = spawn('root_actor_error') child = spawn('root_actor_error')
# scan for the prompt # scan for the pdbpp prompt
expect(child, PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
@ -202,7 +97,7 @@ def test_root_actor_error(spawn, user_in_out):
child.sendline(user_input) child.sendline(user_input)
# process should exit # process should exit
expect(child, EOF) child.expect(pexpect.EOF)
assert expect_err_str in str(child.before) assert expect_err_str in str(child.before)
@ -220,8 +115,8 @@ def test_root_actor_bp(spawn, user_in_out):
user_input, expect_err_str = user_in_out user_input, expect_err_str = user_in_out
child = spawn('root_actor_breakpoint') child = spawn('root_actor_breakpoint')
# scan for the prompt # scan for the pdbpp prompt
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
assert 'Error' not in str(child.before) assert 'Error' not in str(child.before)
@ -238,129 +133,56 @@ def test_root_actor_bp(spawn, user_in_out):
assert expect_err_str in str(child.before) assert expect_err_str in str(child.before)
def do_ctlc( def test_root_actor_bp_forever(spawn):
child,
count: int = 3,
delay: float = 0.1,
patt: Optional[str] = None,
# expect repl UX to reprint the prompt after every
# ctrl-c send.
# XXX: no idea but, in CI this never seems to work even on 3.10 so
# needs some further investigation potentially...
expect_prompt: bool = not _ci_env,
) -> None:
# make sure ctl-c sends don't do anything but repeat output
for _ in range(count):
time.sleep(delay)
child.sendcontrol('c')
# TODO: figure out why this makes CI fail..
# if you run this test manually it works just fine..
if expect_prompt:
before = str(child.before.decode())
time.sleep(delay)
child.expect(PROMPT)
time.sleep(delay)
if patt:
# should see the last line on console
assert patt in before
def test_root_actor_bp_forever(
spawn,
ctlc: bool,
):
"Re-enter a breakpoint from the root actor-task." "Re-enter a breakpoint from the root actor-task."
child = spawn('root_actor_breakpoint_forever') child = spawn('root_actor_breakpoint_forever')
# do some "next" commands to demonstrate recurrent breakpoint # do some "next" commands to demonstrate recurrent breakpoint
# entries # entries
for _ in range(10): for _ in range(10):
child.expect(PROMPT)
if ctlc:
do_ctlc(child)
child.sendline('next') child.sendline('next')
child.expect(r"\(Pdb\+\+\)")
# do one continue which should trigger a # do one continue which should trigger a new task to lock the tty
# new task to lock the tty
child.sendline('continue') child.sendline('continue')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
# seems that if we hit ctrl-c too fast the
# sigint guard machinery might not kick in..
time.sleep(0.001)
if ctlc:
do_ctlc(child)
# XXX: this previously caused a bug! # XXX: this previously caused a bug!
child.sendline('n') child.sendline('n')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
child.sendline('n') child.sendline('n')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
# quit out of the loop
child.sendline('q')
child.expect(pexpect.EOF)
@pytest.mark.parametrize( def test_subactor_error(spawn):
'do_next', "Single subactor raising an error"
(True, False),
ids='do_next={}'.format,
)
def test_subactor_error(
spawn,
ctlc: bool,
do_next: bool,
):
'''
Single subactor raising an error
'''
child = spawn('subactor_error') child = spawn('subactor_error')
# scan for the prompt # scan for the pdbpp prompt
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "Attaching to pdb in crashed actor: ('name_error'" in before assert "Attaching to pdb in crashed actor: ('name_error'" in before
if do_next: # send user command
child.sendline('n') # (in this case it's the same for 'continue' vs. 'quit')
child.sendline('continue')
else: # the debugger should enter a second time in the nursery
# make sure ctl-c sends don't do anything but repeat output # creating actor
if ctlc:
do_ctlc(
child,
)
# send user command and (in this case it's the same for 'continue' child.expect(r"\(Pdb\+\+\)")
# vs. 'quit') the debugger should enter a second time in the nursery
# creating actor
child.sendline('continue')
child.expect(PROMPT)
before = str(child.before.decode()) before = str(child.before.decode())
# root actor gets debugger engaged # root actor gets debugger engaged
assert "Attaching to pdb in crashed actor: ('root'" in before assert "Attaching to pdb in crashed actor: ('root'" in before
# error is a remote error propagated from the subactor # error is a remote error propagated from the subactor
assert "RemoteActorError: ('name_error'" in before assert "RemoteActorError: ('name_error'" in before
# another round
if ctlc:
do_ctlc(child)
child.sendline('c') child.sendline('c')
child.expect('\r\n') child.expect('\r\n')
@ -368,16 +190,13 @@ def test_subactor_error(
child.expect(pexpect.EOF) child.expect(pexpect.EOF)
def test_subactor_breakpoint( def test_subactor_breakpoint(spawn):
spawn,
ctlc: bool,
):
"Single subactor with an infinite breakpoint loop" "Single subactor with an infinite breakpoint loop"
child = spawn('subactor_breakpoint') child = spawn('subactor_breakpoint')
# scan for the prompt # scan for the pdbpp prompt
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "Attaching pdb to actor: ('breakpoint_forever'" in before assert "Attaching pdb to actor: ('breakpoint_forever'" in before
@ -386,34 +205,25 @@ def test_subactor_breakpoint(
# entries # entries
for _ in range(10): for _ in range(10):
child.sendline('next') child.sendline('next')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
if ctlc:
do_ctlc(child)
# now run some "continues" to show re-entries # now run some "continues" to show re-entries
for _ in range(5): for _ in range(5):
child.sendline('continue') child.sendline('continue')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "Attaching pdb to actor: ('breakpoint_forever'" in before assert "Attaching pdb to actor: ('breakpoint_forever'" in before
if ctlc:
do_ctlc(child)
# finally quit the loop # finally quit the loop
child.sendline('q') child.sendline('q')
# child process should exit but parent will capture pdb.BdbQuit # child process should exit but parent will capture pdb.BdbQuit
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "RemoteActorError: ('breakpoint_forever'" in before assert "RemoteActorError: ('breakpoint_forever'" in before
assert 'bdb.BdbQuit' in before assert 'bdb.BdbQuit' in before
if ctlc:
do_ctlc(child)
# quit the parent # quit the parent
child.sendline('c') child.sendline('c')
@ -425,159 +235,84 @@ def test_subactor_breakpoint(
assert 'bdb.BdbQuit' in before assert 'bdb.BdbQuit' in before
@has_nested_actors def test_multi_subactors(spawn):
def test_multi_subactors( """Multiple subactors, both erroring and breakpointing as well as
spawn, a nested subactor erroring.
ctlc: bool, """
):
'''
Multiple subactors, both erroring and
breakpointing as well as a nested subactor erroring.
'''
child = spawn(r'multi_subactors') child = spawn(r'multi_subactors')
# scan for the prompt # scan for the pdbpp prompt
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "Attaching pdb to actor: ('breakpoint_forever'" in before assert "Attaching pdb to actor: ('breakpoint_forever'" in before
if ctlc:
do_ctlc(child)
# do some "next" commands to demonstrate recurrent breakpoint # do some "next" commands to demonstrate recurrent breakpoint
# entries # entries
for _ in range(10): for _ in range(10):
child.sendline('next') child.sendline('next')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
if ctlc:
do_ctlc(child)
# continue to next error # continue to next error
child.sendline('c') child.sendline('c')
# first name_error failure # first name_error failure
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "Attaching to pdb in crashed actor: ('name_error'" in before
assert "NameError" in before assert "NameError" in before
if ctlc:
do_ctlc(child)
# continue again # continue again
child.sendline('c') child.sendline('c')
# 2nd name_error failure # 2nd name_error failure
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode())
# TODO: will we ever get the race where this crash will show up? assert "NameError" in before
# blocklist strat now prevents this crash
# assert_before(child, [
# "Attaching to pdb in crashed actor: ('name_error_1'",
# "NameError",
# ])
if ctlc:
do_ctlc(child)
# breakpoint loop should re-engage # breakpoint loop should re-engage
child.sendline('c') child.sendline('c')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "Attaching pdb to actor: ('breakpoint_forever'" in before assert "Attaching pdb to actor: ('breakpoint_forever'" in before
if ctlc:
do_ctlc(child)
# wait for spawn error to show up
spawn_err = "Attaching to pdb in crashed actor: ('spawn_error'"
start = time.time()
while (
spawn_err not in before
and (time.time() - start) < 3 # timeout eventually
):
child.sendline('c')
time.sleep(0.1)
child.expect(PROMPT)
before = str(child.before.decode())
if ctlc:
do_ctlc(child)
# 2nd depth nursery should trigger
# (XXX: this below if guard is technically a hack that makes the
# nested case seem to work locally on linux but ideally in the long
# run this can be dropped.)
if not ctlc:
assert_before(child, [
spawn_err,
"RemoteActorError: ('name_error_1'",
])
# now run some "continues" to show re-entries # now run some "continues" to show re-entries
for _ in range(5): for _ in range(5):
child.sendline('c') child.sendline('c')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
# quit the loop and expect parent to attach # quit the loop and expect parent to attach
child.sendline('q') child.sendline('q')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "Attaching to pdb in crashed actor: ('root'" in before
assert_before(child, [ assert "RemoteActorError: ('breakpoint_forever'" in before
# debugger attaches to root assert 'bdb.BdbQuit' in before
"Attaching to pdb in crashed actor: ('root'",
# expect a multierror with exceptions for each sub-actor
"RemoteActorError: ('breakpoint_forever'",
"RemoteActorError: ('name_error'",
"RemoteActorError: ('spawn_error'",
"RemoteActorError: ('name_error_1'",
'bdb.BdbQuit',
])
if ctlc:
do_ctlc(child)
# process should exit # process should exit
child.sendline('c') child.sendline('c')
child.expect(pexpect.EOF) child.expect(pexpect.EOF)
# repeat of previous multierror for final output before = str(child.before.decode())
assert_before(child, [ assert "RemoteActorError: ('breakpoint_forever'" in before
"RemoteActorError: ('breakpoint_forever'", assert 'bdb.BdbQuit' in before
"RemoteActorError: ('name_error'",
"RemoteActorError: ('spawn_error'",
"RemoteActorError: ('name_error_1'",
'bdb.BdbQuit',
])
def test_multi_daemon_subactors( def test_multi_daemon_subactors(spawn, loglevel):
spawn, """Multiple daemon subactors, both erroring and breakpointing within a
loglevel: str,
ctlc: bool
):
'''
Multiple daemon subactors, both erroring and breakpointing within a
stream. stream.
"""
'''
child = spawn('multi_daemon_subactors') child = spawn('multi_daemon_subactors')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
# there can be a race for which subactor will acquire # there is a race for which subactor will acquire
# the root's tty lock first so anticipate either crash # the root's tty lock first
# message on the first entry.
bp_forever_msg = "Attaching pdb to actor: ('bp_forever'"
name_error_msg = "NameError: name 'doggypants' is not defined"
before = str(child.before.decode()) before = str(child.before.decode())
bp_forever_msg = "Attaching pdb to actor: ('bp_forever'"
name_error_msg = "NameError"
if bp_forever_msg in before: if bp_forever_msg in before:
next_msg = name_error_msg next_msg = name_error_msg
@ -587,9 +322,6 @@ def test_multi_daemon_subactors(
else: else:
raise ValueError("Neither log msg was found !?") raise ValueError("Neither log msg was found !?")
if ctlc:
do_ctlc(child)
# NOTE: previously since we did not have clobber prevention # NOTE: previously since we did not have clobber prevention
# in the root actor this final resume could result in the debugger # in the root actor this final resume could result in the debugger
# tearing down since both child actors would be cancelled and it was # tearing down since both child actors would be cancelled and it was
@ -598,8 +330,10 @@ def test_multi_daemon_subactors(
# second entry by `bp_forever`. # second entry by `bp_forever`.
child.sendline('c') child.sendline('c')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
assert_before(child, [next_msg]) before = str(child.before.decode())
assert next_msg in before
# XXX: hooray the root clobbering the child here was fixed! # XXX: hooray the root clobbering the child here was fixed!
# IMO, this demonstrates the true power of SC system design. # IMO, this demonstrates the true power of SC system design.
@ -607,7 +341,7 @@ def test_multi_daemon_subactors(
# now the root actor won't clobber the bp_forever child # now the root actor won't clobber the bp_forever child
# during it's first access to the debug lock, but will instead # during it's first access to the debug lock, but will instead
# wait for the lock to release, by the edge triggered # wait for the lock to release, by the edge triggered
# ``_debug.Lock.no_remote_has_tty`` event before sending cancel messages # ``_debug._no_remote_has_tty`` event before sending cancel messages
# (via portals) to its underlings B) # (via portals) to its underlings B)
# at some point here there should have been some warning msg from # at some point here there should have been some warning msg from
@ -615,149 +349,67 @@ def test_multi_daemon_subactors(
# it seems unreliable in testing here to gnab it: # it seems unreliable in testing here to gnab it:
# assert "in use by child ('bp_forever'," in before # assert "in use by child ('bp_forever'," in before
if ctlc: # wait for final error in root
do_ctlc(child) while True:
# expect another breakpoint actor entry
child.sendline('c')
child.expect(PROMPT)
try:
assert_before(child, [bp_forever_msg])
except AssertionError:
assert_before(child, [name_error_msg])
else:
if ctlc:
do_ctlc(child)
# should crash with the 2nd name error (simulates
# a retry) and then the root eventually (boxed) errors
# after 1 or more further bp actor entries.
child.sendline('c') child.sendline('c')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
assert_before(child, [name_error_msg]) before = str(child.before.decode())
# wait for final error in root
# where it crashs with boxed error
while True:
try: try:
child.sendline('c')
child.expect(PROMPT) # root error should be packed as remote error
assert_before( assert "_exceptions.RemoteActorError: ('name_error'" in before
child,
[bp_forever_msg]
)
except AssertionError:
break break
assert_before( except AssertionError:
child, assert bp_forever_msg in before
[
# boxed error raised in root task
"Attaching to pdb in crashed actor: ('root'",
"_exceptions.RemoteActorError: ('name_error'",
]
)
child.sendline('c') try:
child.expect(pexpect.EOF) child.sendline('c')
child.expect(pexpect.EOF)
except pexpect.exceptions.TIMEOUT:
# Failed to exit using continue..?
child.sendline('q')
child.expect(pexpect.EOF)
@has_nested_actors def test_multi_subactors_root_errors(spawn):
def test_multi_subactors_root_errors( """Multiple subactors, both erroring and breakpointing as well as
spawn,
ctlc: bool
):
'''
Multiple subactors, both erroring and breakpointing as well as
a nested subactor erroring. a nested subactor erroring.
"""
'''
child = spawn('multi_subactor_root_errors') child = spawn('multi_subactor_root_errors')
# scan for the prompt # scan for the pdbpp prompt
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
# at most one subactor should attach before the root is cancelled # at most one subactor should attach before the root is cancelled
before = str(child.before.decode()) before = str(child.before.decode())
assert "NameError: name 'doggypants' is not defined" in before assert "NameError: name 'doggypants' is not defined" in before
if ctlc: # continue again
do_ctlc(child)
# continue again to catch 2nd name error from
# actor 'name_error_1' (which is 2nd depth).
child.sendline('c') child.sendline('c')
child.expect(r"\(Pdb\+\+\)")
# due to block list strat from #337, this will no longer # should now get attached in root with assert error
# propagate before the root errors and cancels the spawner sub-tree.
child.expect(PROMPT)
# only if the blocking condition doesn't kick in fast enough
before = str(child.before.decode()) before = str(child.before.decode())
if "Debug lock blocked for ['name_error_1'" not in before:
assert_before(child, [ # should have come just after priot prompt
"Attaching to pdb in crashed actor: ('name_error_1'", assert "Attaching to pdb in crashed actor: ('root'" in before
"NameError", assert "AssertionError" in before
])
if ctlc: # warnings assert we probably don't need
do_ctlc(child) # assert "Cancelling nursery in ('spawn_error'," in before
child.sendline('c')
child.expect(PROMPT)
# check if the spawner crashed or was blocked from debug
# and if this intermediary attached check the boxed error
before = str(child.before.decode())
if "Attaching to pdb in crashed actor: ('spawn_error'" in before:
assert_before(child, [
# boxed error from spawner's child
"RemoteActorError: ('name_error_1'",
"NameError",
])
if ctlc:
do_ctlc(child)
child.sendline('c')
child.expect(PROMPT)
# expect a root actor crash
assert_before(child, [
"RemoteActorError: ('name_error'",
"NameError",
# error from root actor and root task that created top level nursery
"Attaching to pdb in crashed actor: ('root'",
"AssertionError",
])
# continue again
child.sendline('c') child.sendline('c')
child.expect(pexpect.EOF) child.expect(pexpect.EOF)
assert_before(child, [ before = str(child.before.decode())
# "Attaching to pdb in crashed actor: ('root'", assert "AssertionError" in before
# boxed error from previous step
"RemoteActorError: ('name_error'",
"NameError",
"AssertionError",
'assert 0',
])
@has_nested_actors def test_multi_nested_subactors_error_through_nurseries(spawn):
def test_multi_nested_subactors_error_through_nurseries(
spawn,
# TODO: address debugger issue for nested tree:
# https://github.com/goodboy/tractor/issues/320
# ctlc: bool,
):
"""Verify deeply nested actors that error trigger debugger entries """Verify deeply nested actors that error trigger debugger entries
at each actor nurserly (level) all the way up the tree. at each actor nurserly (level) all the way up the tree.
@ -772,70 +424,55 @@ def test_multi_nested_subactors_error_through_nurseries(
timed_out_early: bool = False timed_out_early: bool = False
for send_char in itertools.cycle(['c', 'q']): for i in range(12):
try: try:
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
child.sendline(send_char) child.sendline('c')
time.sleep(0.01) time.sleep(0.1)
except EOF: except pexpect.exceptions.EOF:
# race conditions on how fast the continue is sent?
print(f"Failed early on {i}?")
timed_out_early = True
break break
else:
child.expect(pexpect.EOF)
assert_before(child, [ if not timed_out_early:
before = str(child.before.decode())
# boxed source errors assert "NameError" in before
"NameError: name 'doggypants' is not defined",
"tractor._exceptions.RemoteActorError: ('name_error'",
"bdb.BdbQuit",
# first level subtrees
"tractor._exceptions.RemoteActorError: ('spawner0'",
# "tractor._exceptions.RemoteActorError: ('spawner1'",
# propagation of errors up through nested subtrees
"tractor._exceptions.RemoteActorError: ('spawn_until_0'",
"tractor._exceptions.RemoteActorError: ('spawn_until_1'",
"tractor._exceptions.RemoteActorError: ('spawn_until_2'",
])
@pytest.mark.timeout(15)
@has_nested_actors
def test_root_nursery_cancels_before_child_releases_tty_lock( def test_root_nursery_cancels_before_child_releases_tty_lock(
spawn, spawn,
start_method, start_method
ctlc: bool,
): ):
''' """Test that when the root sends a cancel message before a nested
Test that when the root sends a cancel message before a nested child child has unblocked (which can happen when it has the tty lock and
has unblocked (which can happen when it has the tty lock and is is engaged in pdb) it is indeed cancelled after exiting the debugger.
engaged in pdb) it is indeed cancelled after exiting the debugger. """
'''
timed_out_early = False timed_out_early = False
child = spawn('root_cancelled_but_child_is_in_tty_lock') child = spawn('root_cancelled_but_child_is_in_tty_lock')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "NameError: name 'doggypants' is not defined" in before assert "NameError: name 'doggypants' is not defined" in before
assert "tractor._exceptions.RemoteActorError: ('name_error'" not in before assert "tractor._exceptions.RemoteActorError: ('name_error'" not in before
time.sleep(0.5) time.sleep(0.5)
if ctlc:
do_ctlc(child)
child.sendline('c') child.sendline('c')
for i in range(4): for i in range(4):
time.sleep(0.5) time.sleep(0.5)
try: try:
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
except ( except (
EOF, pexpect.exceptions.EOF,
TIMEOUT, pexpect.exceptions.TIMEOUT,
): ):
# races all over.. # races all over..
@ -850,37 +487,26 @@ def test_root_nursery_cancels_before_child_releases_tty_lock(
before = str(child.before.decode()) before = str(child.before.decode())
assert "NameError: name 'doggypants' is not defined" in before assert "NameError: name 'doggypants' is not defined" in before
if ctlc:
do_ctlc(child)
child.sendline('c') child.sendline('c')
time.sleep(0.1)
for i in range(3): while True:
try: try:
child.expect(pexpect.EOF, timeout=0.5) child.expect(pexpect.EOF)
break break
except TIMEOUT: except pexpect.exceptions.TIMEOUT:
child.sendline('c') child.sendline('c')
time.sleep(0.1)
print('child was able to grab tty lock again?') print('child was able to grab tty lock again?')
else:
print('giving up on child releasing, sending `quit` cmd')
child.sendline('q')
expect(child, EOF)
if not timed_out_early: if not timed_out_early:
before = str(child.before.decode()) before = str(child.before.decode())
assert_before(child, [ assert "tractor._exceptions.RemoteActorError: ('spawner0'" in before
"tractor._exceptions.RemoteActorError: ('spawner0'", assert "tractor._exceptions.RemoteActorError: ('name_error'" in before
"tractor._exceptions.RemoteActorError: ('name_error'", assert "NameError: name 'doggypants' is not defined" in before
"NameError: name 'doggypants' is not defined",
])
def test_root_cancels_child_context_during_startup( def test_root_cancels_child_context_during_startup(
spawn, spawn,
ctlc: bool,
): ):
'''Verify a fast fail in the root doesn't lock up the child reaping '''Verify a fast fail in the root doesn't lock up the child reaping
and all while using the new context api. and all while using the new context api.
@ -888,46 +514,10 @@ def test_root_cancels_child_context_during_startup(
''' '''
child = spawn('fast_error_in_root_after_spawn') child = spawn('fast_error_in_root_after_spawn')
child.expect(PROMPT) child.expect(r"\(Pdb\+\+\)")
before = str(child.before.decode()) before = str(child.before.decode())
assert "AssertionError" in before assert "AssertionError" in before
if ctlc:
do_ctlc(child)
child.sendline('c') child.sendline('c')
child.expect(pexpect.EOF) child.expect(pexpect.EOF)
def test_different_debug_mode_per_actor(
spawn,
ctlc: bool,
):
child = spawn('per_actor_debug')
child.expect(PROMPT)
# only one actor should enter the debugger
before = str(child.before.decode())
assert "Attaching to pdb in crashed actor: ('debugged_boi'" in before
assert "RuntimeError" in before
if ctlc:
do_ctlc(child)
child.sendline('c')
child.expect(pexpect.EOF)
before = str(child.before.decode())
# NOTE: this debugged actor error currently WON'T show up since the
# root will actually cancel and terminate the nursery before the error
# msg reported back from the debug mode actor is processed.
# assert "tractor._exceptions.RemoteActorError: ('debugged_boi'" in before
assert "tractor._exceptions.RemoteActorError: ('crash_boi'" in before
# the crash boi should not have made a debugger request but
# instead crashed completely
assert "tractor._exceptions.RemoteActorError: ('crash_boi'" in before
assert "RuntimeError" in before

View File

@ -42,7 +42,7 @@ async def test_reg_then_unreg(arb_addr):
await trio.sleep(0.1) await trio.sleep(0.1)
assert uid not in aportal.actor._registry assert uid not in aportal.actor._registry
sockaddrs = actor._registry.get(uid) sockaddrs = actor._registry[uid]
assert not sockaddrs assert not sockaddrs
@ -116,26 +116,11 @@ async def stream_from(portal):
print(value) print(value)
async def unpack_reg(actor_or_portal):
'''
Get and unpack a "registry" RPC request from the "arbiter" registry
system.
'''
if getattr(actor_or_portal, 'get_registry', None):
msg = await actor_or_portal.get_registry()
else:
msg = await actor_or_portal.run_from_ns('self', 'get_registry')
return {tuple(key.split('.')): val for key, val in msg.items()}
async def spawn_and_check_registry( async def spawn_and_check_registry(
arb_addr: tuple, arb_addr: tuple,
use_signal: bool, use_signal: bool,
remote_arbiter: bool = False, remote_arbiter: bool = False,
with_streaming: bool = False, with_streaming: bool = False,
) -> None: ) -> None:
async with tractor.open_root_actor( async with tractor.open_root_actor(
@ -149,11 +134,13 @@ async def spawn_and_check_registry(
assert not actor.is_arbiter assert not actor.is_arbiter
if actor.is_arbiter: if actor.is_arbiter:
extra = 1 # arbiter is local root actor
get_reg = partial(unpack_reg, actor)
async def get_reg():
return actor._registry
extra = 1 # arbiter is local root actor
else: else:
get_reg = partial(unpack_reg, portal) get_reg = partial(portal.run_from_ns, 'self', 'get_registry')
extra = 2 # local root actor + remote arbiter extra = 2 # local root actor + remote arbiter
# ensure current actor is registered # ensure current actor is registered
@ -200,12 +187,13 @@ async def spawn_and_check_registry(
await cancel(use_signal) await cancel(use_signal)
finally: finally:
await trio.sleep(0.5) with trio.CancelScope(shield=True):
await trio.sleep(0.5)
# all subactors should have de-registered # all subactors should have de-registered
registry = await get_reg() registry = await get_reg()
assert len(registry) == extra assert len(registry) == extra
assert actor.uid in registry assert actor.uid in registry
@pytest.mark.parametrize('use_signal', [False, True]) @pytest.mark.parametrize('use_signal', [False, True])
@ -279,7 +267,7 @@ async def close_chans_before_nursery(
): ):
async with tractor.get_arbiter(*arb_addr) as aportal: async with tractor.get_arbiter(*arb_addr) as aportal:
try: try:
get_reg = partial(unpack_reg, aportal) get_reg = partial(aportal.run_from_ns, 'self', 'get_registry')
async with tractor.open_nursery() as tn: async with tractor.open_nursery() as tn:
portal1 = await tn.start_actor( portal1 = await tn.start_actor(
@ -289,9 +277,7 @@ async def close_chans_before_nursery(
# TODO: compact this back as was in last commit once # TODO: compact this back as was in last commit once
# 3.9+, see https://github.com/goodboy/tractor/issues/207 # 3.9+, see https://github.com/goodboy/tractor/issues/207
async with portal1.open_stream_from( async with portal1.open_stream_from(stream_forever) as agen1:
stream_forever
) as agen1:
async with portal2.open_stream_from( async with portal2.open_stream_from(
stream_forever stream_forever
) as agen2: ) as agen2:
@ -307,9 +293,8 @@ async def close_chans_before_nursery(
# reliably triggered by an external SIGINT. # reliably triggered by an external SIGINT.
# tractor.current_actor()._root_nursery.cancel_scope.cancel() # tractor.current_actor()._root_nursery.cancel_scope.cancel()
# XXX: THIS IS THE KEY THING that # XXX: THIS IS THE KEY THING that happens
# happens **before** exiting the # **before** exiting the actor nursery block
# actor nursery block
# also kill off channels cuz why not # also kill off channels cuz why not
await agen1.aclose() await agen1.aclose()

View File

@ -1,7 +1,6 @@
''' """
Let's make sure them docs work yah? Let's make sure them docs work yah?
"""
'''
from contextlib import contextmanager from contextlib import contextmanager
import itertools import itertools
import os import os
@ -12,17 +11,17 @@ import shutil
import pytest import pytest
from conftest import ( from conftest import repodir
examples_dir,
)
def examples_dir():
"""Return the abspath to the examples directory.
"""
return os.path.join(repodir(), 'examples')
@pytest.fixture @pytest.fixture
def run_example_in_subproc( def run_example_in_subproc(loglevel, testdir, arb_addr):
loglevel: str,
testdir,
arb_addr: tuple[str, int],
):
@contextmanager @contextmanager
def run(script_code): def run(script_code):
@ -32,8 +31,8 @@ def run_example_in_subproc(
# on windows we need to create a special __main__.py which will # on windows we need to create a special __main__.py which will
# be executed with ``python -m <modulename>`` on windows.. # be executed with ``python -m <modulename>`` on windows..
shutil.copyfile( shutil.copyfile(
examples_dir() / '__main__.py', os.path.join(examples_dir(), '__main__.py'),
str(testdir / '__main__.py'), os.path.join(str(testdir), '__main__.py')
) )
# drop the ``if __name__ == '__main__'`` guard onwards from # drop the ``if __name__ == '__main__'`` guard onwards from
@ -81,15 +80,11 @@ def run_example_in_subproc(
'example_script', 'example_script',
# walk yields: (dirpath, dirnames, filenames) # walk yields: (dirpath, dirnames, filenames)
[ [(p[0], f) for p in os.walk(examples_dir()) for f in p[2]
(p[0], f) for p in os.walk(examples_dir()) for f in p[2]
if '__' not in f if '__' not in f
and f[0] != '_' and f[0] != '_'
and 'debugging' not in p[0] and 'debugging' not in p[0]],
and 'integration' not in p[0]
and 'advanced_faults' not in p[0]
],
ids=lambda t: t[1], ids=lambda t: t[1],
) )
@ -117,19 +112,9 @@ def test_example(run_example_in_subproc, example_script):
# print(f'STDOUT: {out}') # print(f'STDOUT: {out}')
# if we get some gnarly output let's aggregate and raise # if we get some gnarly output let's aggregate and raise
if err: errmsg = err.decode()
errmsg = err.decode() errlines = errmsg.splitlines()
errlines = errmsg.splitlines() if err and 'Error' in errlines[-1]:
last_error = errlines[-1] raise Exception(errmsg)
if (
'Error' in last_error
# XXX: currently we print this to console, but maybe
# shouldn't eventually once we figure out what's
# a better way to be explicit about aio side
# cancels?
and 'asyncio.exceptions.CancelledError' not in last_error
):
raise Exception(errmsg)
assert proc.returncode == 0 assert proc.returncode == 0

View File

@ -1,564 +0,0 @@
'''
The hipster way to force SC onto the stdlib's "async": 'infection mode'.
'''
from typing import Optional, Iterable, Union
import asyncio
import builtins
import itertools
import importlib
from exceptiongroup import BaseExceptionGroup
import pytest
import trio
import tractor
from tractor import (
to_asyncio,
RemoteActorError,
)
from tractor.trionics import BroadcastReceiver
async def sleep_and_err(
sleep_for: float = 0.1,
# just signature placeholders for compat with
# ``to_asyncio.open_channel_from()``
to_trio: Optional[trio.MemorySendChannel] = None,
from_trio: Optional[asyncio.Queue] = None,
):
if to_trio:
to_trio.send_nowait('start')
await asyncio.sleep(sleep_for)
assert 0
async def sleep_forever():
await asyncio.sleep(float('inf'))
async def trio_cancels_single_aio_task():
# spawn an ``asyncio`` task to run a func and return result
with trio.move_on_after(.2):
await tractor.to_asyncio.run_task(sleep_forever)
def test_trio_cancels_aio_on_actor_side(arb_addr):
'''
Spawn an infected actor that is cancelled by the ``trio`` side
task using std cancel scope apis.
'''
async def main():
async with tractor.open_nursery(
arbiter_addr=arb_addr
) as n:
await n.run_in_actor(
trio_cancels_single_aio_task,
infect_asyncio=True,
)
trio.run(main)
async def asyncio_actor(
target: str,
expect_err: Optional[Exception] = None
) -> None:
assert tractor.current_actor().is_infected_aio()
target = globals()[target]
if '.' in expect_err:
modpath, _, name = expect_err.rpartition('.')
mod = importlib.import_module(modpath)
error_type = getattr(mod, name)
else: # toplevel builtin error type
error_type = builtins.__dict__.get(expect_err)
try:
# spawn an ``asyncio`` task to run a func and return result
await tractor.to_asyncio.run_task(target)
except BaseException as err:
if expect_err:
assert isinstance(err, error_type)
raise
def test_aio_simple_error(arb_addr):
'''
Verify a simple remote asyncio error propagates back through trio
to the parent actor.
'''
async def main():
async with tractor.open_nursery(
arbiter_addr=arb_addr
) as n:
await n.run_in_actor(
asyncio_actor,
target='sleep_and_err',
expect_err='AssertionError',
infect_asyncio=True,
)
with pytest.raises(RemoteActorError) as excinfo:
trio.run(main)
err = excinfo.value
assert isinstance(err, RemoteActorError)
assert err.type == AssertionError
def test_tractor_cancels_aio(arb_addr):
'''
Verify we can cancel a spawned asyncio task gracefully.
'''
async def main():
async with tractor.open_nursery() as n:
portal = await n.run_in_actor(
asyncio_actor,
target='sleep_forever',
expect_err='trio.Cancelled',
infect_asyncio=True,
)
# cancel the entire remote runtime
await portal.cancel_actor()
trio.run(main)
def test_trio_cancels_aio(arb_addr):
'''
Much like the above test with ``tractor.Portal.cancel_actor()``
except we just use a standard ``trio`` cancellation api.
'''
async def main():
with trio.move_on_after(1):
# cancel the nursery shortly after boot
async with tractor.open_nursery() as n:
await n.run_in_actor(
asyncio_actor,
target='sleep_forever',
expect_err='trio.Cancelled',
infect_asyncio=True,
)
trio.run(main)
@tractor.context
async def trio_ctx(
ctx: tractor.Context,
):
await ctx.started('start')
# this will block until the ``asyncio`` task sends a "first"
# message.
with trio.fail_after(2):
async with (
trio.open_nursery() as n,
tractor.to_asyncio.open_channel_from(
sleep_and_err,
) as (first, chan),
):
assert first == 'start'
# spawn another asyncio task for the cuck of it.
n.start_soon(
tractor.to_asyncio.run_task,
sleep_forever,
)
await trio.sleep_forever()
@pytest.mark.parametrize(
'parent_cancels', [False, True],
ids='parent_actor_cancels_child={}'.format
)
def test_context_spawns_aio_task_that_errors(
arb_addr,
parent_cancels: bool,
):
'''
Verify that spawning a task via an intertask channel ctx mngr that
errors correctly propagates the error back from the `asyncio`-side
task.
'''
async def main():
with trio.fail_after(2):
async with tractor.open_nursery() as n:
p = await n.start_actor(
'aio_daemon',
enable_modules=[__name__],
infect_asyncio=True,
# debug_mode=True,
loglevel='cancel',
)
async with p.open_context(
trio_ctx,
) as (ctx, first):
assert first == 'start'
if parent_cancels:
await p.cancel_actor()
await trio.sleep_forever()
with pytest.raises(RemoteActorError) as excinfo:
trio.run(main)
err = excinfo.value
assert isinstance(err, RemoteActorError)
if parent_cancels:
assert err.type == trio.Cancelled
else:
assert err.type == AssertionError
async def aio_cancel():
''''
Cancel urself boi.
'''
await asyncio.sleep(0.5)
task = asyncio.current_task()
# cancel and enter sleep
task.cancel()
await sleep_forever()
def test_aio_cancelled_from_aio_causes_trio_cancelled(arb_addr):
async def main():
async with tractor.open_nursery() as n:
await n.run_in_actor(
asyncio_actor,
target='aio_cancel',
expect_err='tractor.to_asyncio.AsyncioCancelled',
infect_asyncio=True,
)
with pytest.raises(RemoteActorError) as excinfo:
trio.run(main)
# ensure boxed error is correct
assert excinfo.value.type == to_asyncio.AsyncioCancelled
# TODO: verify open_channel_from will fail on this..
async def no_to_trio_in_args():
pass
async def push_from_aio_task(
sequence: Iterable,
to_trio: trio.abc.SendChannel,
expect_cancel: False,
fail_early: bool,
) -> None:
try:
# sync caller ctx manager
to_trio.send_nowait(True)
for i in sequence:
print(f'asyncio sending {i}')
to_trio.send_nowait(i)
await asyncio.sleep(0.001)
if i == 50 and fail_early:
raise Exception
print('asyncio streamer complete!')
except asyncio.CancelledError:
if not expect_cancel:
pytest.fail("aio task was cancelled unexpectedly")
raise
else:
if expect_cancel:
pytest.fail("aio task wasn't cancelled as expected!?")
async def stream_from_aio(
exit_early: bool = False,
raise_err: bool = False,
aio_raise_err: bool = False,
fan_out: bool = False,
) -> None:
seq = range(100)
expect = list(seq)
try:
pulled = []
async with to_asyncio.open_channel_from(
push_from_aio_task,
sequence=seq,
expect_cancel=raise_err or exit_early,
fail_early=aio_raise_err,
) as (first, chan):
assert first is True
async def consume(
chan: Union[
to_asyncio.LinkedTaskChannel,
BroadcastReceiver,
],
):
async for value in chan:
print(f'trio received {value}')
pulled.append(value)
if value == 50:
if raise_err:
raise Exception
elif exit_early:
break
if fan_out:
# start second task that get's the same stream value set.
async with (
# NOTE: this has to come first to avoid
# the channel being closed before the nursery
# tasks are joined..
chan.subscribe() as br,
trio.open_nursery() as n,
):
n.start_soon(consume, br)
await consume(chan)
else:
await consume(chan)
finally:
if (
not raise_err and
not exit_early and
not aio_raise_err
):
if fan_out:
# we get double the pulled values in the
# ``.subscribe()`` fan out case.
doubled = list(itertools.chain(*zip(expect, expect)))
expect = doubled[:len(pulled)]
assert list(sorted(pulled)) == expect
else:
assert pulled == expect
else:
assert not fan_out
assert pulled == expect[:51]
print('trio guest mode task completed!')
@pytest.mark.parametrize(
'fan_out', [False, True],
ids='fan_out_w_chan_subscribe={}'.format
)
def test_basic_interloop_channel_stream(arb_addr, fan_out):
async def main():
async with tractor.open_nursery() as n:
portal = await n.run_in_actor(
stream_from_aio,
infect_asyncio=True,
fan_out=fan_out,
)
await portal.result()
trio.run(main)
# TODO: parametrize the above test and avoid the duplication here?
def test_trio_error_cancels_intertask_chan(arb_addr):
async def main():
async with tractor.open_nursery() as n:
portal = await n.run_in_actor(
stream_from_aio,
raise_err=True,
infect_asyncio=True,
)
# should trigger remote actor error
await portal.result()
with pytest.raises(BaseExceptionGroup) as excinfo:
trio.run(main)
# ensure boxed errors
for exc in excinfo.value.exceptions:
assert exc.type == Exception
def test_trio_closes_early_and_channel_exits(arb_addr):
async def main():
async with tractor.open_nursery() as n:
portal = await n.run_in_actor(
stream_from_aio,
exit_early=True,
infect_asyncio=True,
)
# should trigger remote actor error
await portal.result()
# should be a quiet exit on a simple channel exit
trio.run(main)
def test_aio_errors_and_channel_propagates_and_closes(arb_addr):
async def main():
async with tractor.open_nursery() as n:
portal = await n.run_in_actor(
stream_from_aio,
aio_raise_err=True,
infect_asyncio=True,
)
# should trigger remote actor error
await portal.result()
with pytest.raises(BaseExceptionGroup) as excinfo:
trio.run(main)
# ensure boxed errors
for exc in excinfo.value.exceptions:
assert exc.type == Exception
@tractor.context
async def trio_to_aio_echo_server(
ctx: tractor.Context,
):
async def aio_echo_server(
to_trio: trio.MemorySendChannel,
from_trio: asyncio.Queue,
) -> None:
to_trio.send_nowait('start')
while True:
msg = await from_trio.get()
# echo the msg back
to_trio.send_nowait(msg)
# if we get the terminate sentinel
# break the echo loop
if msg is None:
print('breaking aio echo loop')
break
print('exiting asyncio task')
async with to_asyncio.open_channel_from(
aio_echo_server,
) as (first, chan):
assert first == 'start'
await ctx.started(first)
async with ctx.open_stream() as stream:
async for msg in stream:
print(f'asyncio echoing {msg}')
await chan.send(msg)
out = await chan.receive()
# echo back to parent actor-task
await stream.send(out)
if out is None:
try:
out = await chan.receive()
except trio.EndOfChannel:
break
else:
raise RuntimeError('aio channel never stopped?')
@pytest.mark.parametrize(
'raise_error_mid_stream',
[False, Exception, KeyboardInterrupt],
ids='raise_error={}'.format,
)
def test_echoserver_detailed_mechanics(
arb_addr,
raise_error_mid_stream,
):
async def main():
async with tractor.open_nursery() as n:
p = await n.start_actor(
'aio_server',
enable_modules=[__name__],
infect_asyncio=True,
)
async with p.open_context(
trio_to_aio_echo_server,
) as (ctx, first):
assert first == 'start'
async with ctx.open_stream() as stream:
for i in range(100):
await stream.send(i)
out = await stream.receive()
assert i == out
if raise_error_mid_stream and i == 50:
raise raise_error_mid_stream
# send terminate msg
await stream.send(None)
out = await stream.receive()
assert out is None
if out is None:
# ensure the stream is stopped
# with trio.fail_after(0.1):
try:
await stream.receive()
except trio.EndOfChannel:
pass
else:
pytest.fail(
"stream wasn't stopped after sentinel?!")
# TODO: the case where this blocks and
# is cancelled by kbi or out of task cancellation
await p.cancel_actor()
if raise_error_mid_stream:
with pytest.raises(raise_error_mid_stream):
trio.run(main)
else:
trio.run(main)

View File

@ -11,18 +11,25 @@ from conftest import tractor_test
@pytest.mark.trio @pytest.mark.trio
async def test_no_runtime(): async def test_no_arbitter():
"""An arbitter must be established before any nurseries """An arbitter must be established before any nurseries
can be created. can be created.
(In other words ``tractor.open_root_actor()`` must be engaged at (In other words ``tractor.open_root_actor()`` must be engaged at
some point?) some point?)
""" """
with pytest.raises(RuntimeError) : with pytest.raises(RuntimeError):
async with tractor.find_actor('doggy'): with tractor.open_nursery():
pass pass
def test_no_main():
"""An async function **must** be passed to ``tractor.run()``.
"""
with pytest.raises(TypeError):
tractor.run(None)
@tractor_test @tractor_test
async def test_self_is_registered(arb_addr): async def test_self_is_registered(arb_addr):
"Verify waiting on the arbiter to register itself using the standard api." "Verify waiting on the arbiter to register itself using the standard api."

View File

@ -4,22 +4,20 @@ from itertools import cycle
import pytest import pytest
import trio import trio
import tractor import tractor
from tractor.experimental import msgpub from tractor.testing import tractor_test
from conftest import tractor_test
def test_type_checks(): def test_type_checks():
with pytest.raises(TypeError) as err: with pytest.raises(TypeError) as err:
@msgpub @tractor.msg.pub
async def no_get_topics(yo): async def no_get_topics(yo):
yield yield
assert "must define a `get_topics`" in str(err.value) assert "must define a `get_topics`" in str(err.value)
with pytest.raises(TypeError) as err: with pytest.raises(TypeError) as err:
@msgpub @tractor.msg.pub
def not_async_gen(yo): def not_async_gen(yo):
pass pass
@ -34,7 +32,7 @@ def is_even(i):
_get_topics = None _get_topics = None
@msgpub @tractor.msg.pub
async def pubber(get_topics, seed=10): async def pubber(get_topics, seed=10):
# ensure topic subscriptions are as expected # ensure topic subscriptions are as expected
@ -105,7 +103,7 @@ async def subs(
await stream.aclose() await stream.aclose()
@msgpub(tasks=['one', 'two']) @tractor.msg.pub(tasks=['one', 'two'])
async def multilock_pubber(get_topics): async def multilock_pubber(get_topics):
yield {'doggy': 10} yield {'doggy': 10}
@ -182,7 +180,6 @@ def test_multi_actor_subs_arbiter_pub(
'streamer', 'streamer',
enable_modules=[__name__], enable_modules=[__name__],
) )
name = 'streamer'
even_portal = await n.run_in_actor( even_portal = await n.run_in_actor(
subs, subs,

View File

@ -1,182 +0,0 @@
'''
Async context manager cache api testing: ``trionics.maybe_open_context():``
'''
from contextlib import asynccontextmanager as acm
import platform
from typing import Awaitable
import pytest
import trio
import tractor
_resource: int = 0
@acm
async def maybe_increment_counter(task_name: str):
global _resource
_resource += 1
await trio.lowlevel.checkpoint()
yield _resource
await trio.lowlevel.checkpoint()
_resource -= 1
@pytest.mark.parametrize(
'key_on',
['key_value', 'kwargs'],
ids="key_on={}".format,
)
def test_resource_only_entered_once(key_on):
global _resource
_resource = 0
kwargs = {}
key = None
if key_on == 'key_value':
key = 'some_common_key'
async def main():
cache_active: bool = False
async def enter_cached_mngr(name: str):
nonlocal cache_active
if key_on == 'kwargs':
# make a common kwargs input to key on it
kwargs = {'task_name': 'same_task_name'}
assert key is None
else:
# different task names per task will be used
kwargs = {'task_name': name}
async with tractor.trionics.maybe_open_context(
maybe_increment_counter,
kwargs=kwargs,
key=key,
) as (cache_hit, resource):
if cache_hit:
try:
cache_active = True
assert resource == 1
await trio.sleep_forever()
finally:
cache_active = False
else:
assert resource == 1
await trio.sleep_forever()
with trio.move_on_after(0.5):
async with (
tractor.open_root_actor(),
trio.open_nursery() as n,
):
for i in range(10):
n.start_soon(enter_cached_mngr, f'task_{i}')
await trio.sleep(0.001)
trio.run(main)
@tractor.context
async def streamer(
ctx: tractor.Context,
seq: list[int] = list(range(1000)),
) -> None:
await ctx.started()
async with ctx.open_stream() as stream:
for val in seq:
await stream.send(val)
await trio.sleep(0.001)
print('producer finished')
@acm
async def open_stream() -> Awaitable[tractor.MsgStream]:
async with tractor.open_nursery() as tn:
portal = await tn.start_actor('streamer', enable_modules=[__name__])
async with (
portal.open_context(streamer) as (ctx, first),
ctx.open_stream() as stream,
):
yield stream
await portal.cancel_actor()
print('CANCELLED STREAMER')
@acm
async def maybe_open_stream(taskname: str):
async with tractor.trionics.maybe_open_context(
# NOTE: all secondary tasks should cache hit on the same key
acm_func=open_stream,
) as (cache_hit, stream):
if cache_hit:
print(f'{taskname} loaded from cache')
# add a new broadcast subscription for the quote stream
# if this feed is already allocated by the first
# task that entereed
async with stream.subscribe() as bstream:
yield bstream
else:
# yield the actual stream
yield stream
def test_open_local_sub_to_stream():
'''
Verify a single inter-actor stream can can be fanned-out shared to
N local tasks using ``trionics.maybe_open_context():``.
'''
timeout = 3 if platform.system() != "Windows" else 10
async def main():
full = list(range(1000))
async def get_sub_and_pull(taskname: str):
async with (
maybe_open_stream(taskname) as stream,
):
if '0' in taskname:
assert isinstance(stream, tractor.MsgStream)
else:
assert isinstance(
stream,
tractor.trionics.BroadcastReceiver
)
first = await stream.receive()
print(f'{taskname} started with value {first}')
seq = []
async for msg in stream:
seq.append(msg)
assert set(seq).issubset(set(full))
print(f'{taskname} finished')
with trio.fail_after(timeout):
# TODO: turns out this isn't multi-task entrant XD
# We probably need an indepotent entry semantic?
async with tractor.open_root_actor():
async with (
trio.open_nursery() as nurse,
):
for i in range(10):
nurse.start_soon(get_sub_and_pull, f'task_{i}')
await trio.sleep(0.001)
print('all consumer tasks finished')
trio.run(main)

View File

@ -1,73 +0,0 @@
"""
Verifying internal runtime state and undocumented extras.
"""
import os
import pytest
import trio
import tractor
from conftest import tractor_test
_file_path: str = ''
def unlink_file():
print('Removing tmp file!')
os.remove(_file_path)
async def crash_and_clean_tmpdir(
tmp_file_path: str,
error: bool = True,
):
global _file_path
_file_path = tmp_file_path
actor = tractor.current_actor()
actor.lifetime_stack.callback(unlink_file)
assert os.path.isfile(tmp_file_path)
await trio.sleep(0.1)
if error:
assert 0
else:
actor.cancel_soon()
@pytest.mark.parametrize(
'error_in_child',
[True, False],
)
@tractor_test
async def test_lifetime_stack_wipes_tmpfile(
tmp_path,
error_in_child: bool,
):
child_tmp_file = tmp_path / "child.txt"
child_tmp_file.touch()
assert child_tmp_file.exists()
path = str(child_tmp_file)
try:
with trio.move_on_after(0.5):
async with tractor.open_nursery() as n:
await ( # inlined portal
await n.run_in_actor(
crash_and_clean_tmpdir,
tmp_file_path=path,
error=error_in_child,
)
).result()
except (
tractor.RemoteActorError,
tractor.BaseExceptionGroup,
):
pass
# tmp file should have been wiped by
# teardown stack.
assert not child_tmp_file.exists()

View File

@ -1,8 +1,6 @@
""" """
Spawning basics Spawning basics
""" """
from typing import Optional
import pytest import pytest
import trio import trio
@ -13,11 +11,7 @@ from conftest import tractor_test
data_to_pass_down = {'doggy': 10, 'kitty': 4} data_to_pass_down = {'doggy': 10, 'kitty': 4}
async def spawn( async def spawn(is_arbiter, data, arb_addr):
is_arbiter: bool,
data: dict,
arb_addr: tuple[str, int],
):
namespaces = [__name__] namespaces = [__name__]
await trio.sleep(0.1) await trio.sleep(0.1)
@ -94,38 +88,24 @@ async def test_movie_theatre_convo(start_method):
await portal.cancel_actor() await portal.cancel_actor()
async def cellar_door(return_value: Optional[str]): async def cellar_door():
return return_value return "Dang that's beautiful"
@pytest.mark.parametrize(
'return_value', ["Dang that's beautiful", None],
ids=['return_str', 'return_None'],
)
@tractor_test @tractor_test
async def test_most_beautiful_word( async def test_most_beautiful_word(start_method):
start_method, """The main ``tractor`` routine.
return_value """
): async with tractor.open_nursery() as n:
'''
The main ``tractor`` routine.
''' portal = await n.run_in_actor(
with trio.fail_after(1): cellar_door,
async with tractor.open_nursery() as n: name='some_linguist',
)
portal = await n.run_in_actor(
cellar_door,
return_value=return_value,
name='some_linguist',
)
print(await portal.result())
# The ``async with`` will unblock here since the 'some_linguist' # The ``async with`` will unblock here since the 'some_linguist'
# actor has completed its main task ``cellar_door``. # actor has completed its main task ``cellar_door``.
# this should pull the cached final result already captured during
# the nursery block exit.
print(await portal.result()) print(await portal.result())
@ -142,7 +122,7 @@ def test_loglevel_propagated_to_subactor(
capfd, capfd,
arb_addr, arb_addr,
): ):
if start_method == 'mp_forkserver': if start_method == 'forkserver':
pytest.skip( pytest.skip(
"a bug with `capfd` seems to make forkserver capture not work?") "a bug with `capfd` seems to make forkserver capture not work?")
@ -151,13 +131,13 @@ def test_loglevel_propagated_to_subactor(
async def main(): async def main():
async with tractor.open_nursery( async with tractor.open_nursery(
name='arbiter', name='arbiter',
loglevel=level,
start_method=start_method, start_method=start_method,
arbiter_addr=arb_addr, arbiter_addr=arb_addr,
) as tn: ) as tn:
await tn.run_in_actor( await tn.run_in_actor(
check_loglevel, check_loglevel,
loglevel=level,
level=level, level=level,
) )

View File

@ -7,10 +7,9 @@ import platform
import trio import trio
import tractor import tractor
from tractor.testing import tractor_test
import pytest import pytest
from conftest import tractor_test
def test_must_define_ctx(): def test_must_define_ctx():
@ -80,36 +79,33 @@ async def stream_from_single_subactor(
seq = range(10) seq = range(10)
with trio.fail_after(5): async with portal.open_stream_from(
async with portal.open_stream_from( stream_func,
stream_func, sequence=list(seq), # has to be msgpack serializable
sequence=list(seq), # has to be msgpack serializable ) as stream:
) as stream:
# it'd sure be nice to have an asyncitertools here... # it'd sure be nice to have an asyncitertools here...
iseq = iter(seq) iseq = iter(seq)
ival = next(iseq) ival = next(iseq)
async for val in stream: async for val in stream:
assert val == ival assert val == ival
try:
ival = next(iseq)
except StopIteration:
# should cancel far end task which will be
# caught and no error is raised
await stream.aclose()
await trio.sleep(0.3)
# ensure EOC signalled-state translates
# XXX: not really sure this is correct,
# shouldn't it be a `ClosedResourceError`?
try: try:
await stream.__anext__() ival = next(iseq)
except StopAsyncIteration: except StopIteration:
# stop all spawned subactors # should cancel far end task which will be
await portal.cancel_actor() # caught and no error is raised
await stream.aclose()
await trio.sleep(0.3)
try:
await stream.__anext__()
except StopAsyncIteration:
# stop all spawned subactors
await portal.cancel_actor()
# await nursery.cancel()
@pytest.mark.parametrize( @pytest.mark.parametrize(
@ -136,7 +132,7 @@ async def stream_data(seed):
yield i yield i
# trigger scheduler to simulate practical usage # trigger scheduler to simulate practical usage
await trio.sleep(0.0001) await trio.sleep(0)
# this is the third actor; the aggregator # this is the third actor; the aggregator
@ -251,7 +247,7 @@ def test_a_quadruple_example(time_quad_ex, ci_env, spawn_backend):
results, diff = time_quad_ex results, diff = time_quad_ex
assert results assert results
this_fast = 6 if platform.system() in ('Windows', 'Darwin') else 3 this_fast = 6 if platform.system() in ('Windows', 'Darwin') else 2.5
assert diff < this_fast assert diff < this_fast

View File

@ -1,21 +1,17 @@
""" """
Broadcast channels for fan-out to local tasks. Broadcast channels for fan-out to local tasks.
""" """
from contextlib import asynccontextmanager from contextlib import asynccontextmanager
from functools import partial from functools import partial
from itertools import cycle from itertools import cycle
import time import time
from typing import Optional from typing import Optional, List, Tuple
import pytest import pytest
import trio import trio
from trio.lowlevel import current_task from trio.lowlevel import current_task
import tractor import tractor
from tractor.trionics import ( from tractor._broadcast import broadcast_receiver, Lagged
broadcast_receiver,
Lagged,
)
@tractor.context @tractor.context
@ -40,7 +36,7 @@ async def echo_sequences(
async def ensure_sequence( async def ensure_sequence(
stream: tractor.MsgStream, stream: tractor.ReceiveMsgStream,
sequence: list, sequence: list,
delay: Optional[float] = None, delay: Optional[float] = None,
@ -65,8 +61,8 @@ async def ensure_sequence(
@asynccontextmanager @asynccontextmanager
async def open_sequence_streamer( async def open_sequence_streamer(
sequence: list[int], sequence: List[int],
arb_addr: tuple[str, int], arb_addr: Tuple[str, int],
start_method: str, start_method: str,
) -> tractor.MsgStream: ) -> tractor.MsgStream:
@ -86,7 +82,7 @@ async def open_sequence_streamer(
) as (ctx, first): ) as (ctx, first):
assert first is None assert first is None
async with ctx.open_stream(backpressure=True) as stream: async with ctx.open_stream() as stream:
yield stream yield stream
await portal.cancel_actor() await portal.cancel_actor()
@ -214,8 +210,7 @@ def test_faster_task_to_recv_is_cancelled_by_slower(
arb_addr, arb_addr,
start_method, start_method,
): ):
''' '''Ensure that if a faster task consuming from a stream is cancelled
Ensure that if a faster task consuming from a stream is cancelled
the slower task can continue to receive all expected values. the slower task can continue to receive all expected values.
''' '''
@ -337,9 +332,6 @@ def test_ensure_slow_consumers_lag_out(
await trio.sleep(delay) await trio.sleep(delay)
if task.name == 'sub_1': if task.name == 'sub_1':
# trigger checkpoint to clean out other subs
await trio.sleep(0.01)
# the non-lagger got # the non-lagger got
# a ``trio.EndOfChannel`` # a ``trio.EndOfChannel``
# because the ``tx`` below was closed # because the ``tx`` below was closed
@ -405,7 +397,7 @@ def test_ensure_slow_consumers_lag_out(
assert not tx._state.open_send_channels assert not tx._state.open_send_channels
# check that "first" bcaster that we created # check that "first" bcaster that we created
# above, never was iterated and is thus overrun # above, never wass iterated and is thus overrun
try: try:
await brx.receive() await brx.receive()
except Lagged: except Lagged:
@ -436,6 +428,7 @@ def test_first_recver_is_cancelled():
tx, rx = trio.open_memory_channel(1) tx, rx = trio.open_memory_channel(1)
brx = broadcast_receiver(rx, 1) brx = broadcast_receiver(rx, 1)
cs = trio.CancelScope() cs = trio.CancelScope()
sequence = list(range(3))
async def sub_and_recv(): async def sub_and_recv():
with cs: with cs:
@ -464,51 +457,3 @@ def test_first_recver_is_cancelled():
assert value == 1 assert value == 1
trio.run(main) trio.run(main)
def test_no_raise_on_lag():
'''
Run a simple 2-task broadcast where one task is slow but configured
so that it does not raise `Lagged` on overruns using
`raise_on_lasg=False` and verify that the task does not raise.
'''
size = 100
tx, rx = trio.open_memory_channel(size)
brx = broadcast_receiver(rx, size)
async def slow():
async with brx.subscribe(
raise_on_lag=False,
) as br:
async for msg in br:
print(f'slow task got: {msg}')
await trio.sleep(0.1)
async def fast():
async with brx.subscribe() as br:
async for msg in br:
print(f'fast task got: {msg}')
async def main():
async with (
tractor.open_root_actor(
# NOTE: so we see the warning msg emitted by the bcaster
# internals when the no raise flag is set.
loglevel='warning',
),
trio.open_nursery() as n,
):
n.start_soon(slow)
n.start_soon(fast)
for i in range(1000):
await tx.send(i)
# simulate user nailing ctl-c after realizing
# there's a lag in the slow task.
await trio.sleep(1)
raise KeyboardInterrupt
with pytest.raises(KeyboardInterrupt):
trio.run(main)

View File

@ -1,82 +0,0 @@
'''
Reminders for oddities in `trio` that we need to stay aware of and/or
want to see changed.
'''
import pytest
import trio
from trio_typing import TaskStatus
@pytest.mark.parametrize(
'use_start_soon', [
pytest.param(
True,
marks=pytest.mark.xfail(reason="see python-trio/trio#2258")
),
False,
]
)
def test_stashed_child_nursery(use_start_soon):
_child_nursery = None
async def waits_on_signal(
ev: trio.Event(),
task_status: TaskStatus[trio.Nursery] = trio.TASK_STATUS_IGNORED,
):
'''
Do some stuf, then signal other tasks, then yield back to "starter".
'''
await ev.wait()
task_status.started()
async def mk_child_nursery(
task_status: TaskStatus = trio.TASK_STATUS_IGNORED,
):
'''
Allocate a child sub-nursery and stash it as a global.
'''
nonlocal _child_nursery
async with trio.open_nursery() as cn:
_child_nursery = cn
task_status.started(cn)
# block until cancelled by parent.
await trio.sleep_forever()
async def sleep_and_err(
ev: trio.Event,
task_status: TaskStatus = trio.TASK_STATUS_IGNORED,
):
await trio.sleep(0.5)
doggy() # noqa
ev.set()
task_status.started()
async def main():
async with (
trio.open_nursery() as pn,
):
cn = await pn.start(mk_child_nursery)
assert cn
ev = trio.Event()
if use_start_soon:
# this causes inf hang
cn.start_soon(sleep_and_err, ev)
else:
# this does not.
await cn.start(sleep_and_err, ev)
with trio.fail_after(1):
await cn.start(waits_on_signal, ev)
with pytest.raises(NameError):
trio.run(main)

7
towncrier.toml 100644
View File

@ -0,0 +1,7 @@
[tool.towncrier]
package = "tractor"
filename = "NEWS.rst"
directory = "newsfragments/"
title_format = "tractor {version} ({project_date})"
version = "0.1.0a2"
#template = "changelog/_template.rst"

View File

@ -1,86 +1,54 @@
# 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/>.
""" """
tractor: structured concurrent "actors". tractor: An actor model micro-framework built on
``trio`` and ``multiprocessing``.
""" """
from exceptiongroup import BaseExceptionGroup from trio import MultiError
from ._clustering import open_actor_cluster
from ._ipc import Channel from ._ipc import Channel
from ._streaming import ( from ._streaming import (
Context, Context,
ReceiveMsgStream,
MsgStream, MsgStream,
stream, stream,
context, context,
) )
from ._discovery import ( from ._discovery import get_arbiter, find_actor, wait_for_actor
get_arbiter, from ._trionics import open_nursery
find_actor, from ._state import current_actor, is_root_process
wait_for_actor,
query_actor,
)
from ._supervise import open_nursery
from ._state import (
current_actor,
is_root_process,
)
from ._exceptions import ( from ._exceptions import (
RemoteActorError, RemoteActorError,
ModuleNotExposed, ModuleNotExposed,
ContextCancelled, ContextCancelled,
) )
from ._debug import ( from ._debug import breakpoint, post_mortem
breakpoint,
post_mortem,
)
from . import msg from . import msg
from ._root import ( from ._root import run, run_daemon, open_root_actor
run_daemon,
open_root_actor,
)
from ._portal import Portal from ._portal import Portal
from ._runtime import Actor
__all__ = [ __all__ = [
'Actor',
'Channel', 'Channel',
'Context', 'Context',
'ContextCancelled',
'ModuleNotExposed', 'ModuleNotExposed',
'MsgStream', 'MultiError',
'BaseExceptionGroup',
'Portal',
'RemoteActorError', 'RemoteActorError',
'ContextCancelled',
'breakpoint', 'breakpoint',
'context',
'current_actor', 'current_actor',
'find_actor', 'find_actor',
'get_arbiter', 'get_arbiter',
'is_root_process', 'is_root_process',
'msg', 'msg',
'open_actor_cluster',
'open_nursery', 'open_nursery',
'open_root_actor', 'open_root_actor',
'Portal',
'post_mortem', 'post_mortem',
'query_actor', 'run',
'run_daemon', 'run_daemon',
'stream', 'stream',
'context',
'ReceiveMsgStream',
'MsgStream',
'to_asyncio', 'to_asyncio',
'wait_for_actor', 'wait_for_actor',
] ]

1253
tractor/_actor.py 100644

File diff suppressed because it is too large Load Diff

View File

@ -0,0 +1,315 @@
'''
``tokio`` style broadcast channel.
https://docs.rs/tokio/1.11.0/tokio/sync/broadcast/index.html
'''
from __future__ import annotations
from abc import abstractmethod
from collections import deque
from contextlib import asynccontextmanager
from dataclasses import dataclass
from functools import partial
from operator import ne
from typing import Optional, Callable, Awaitable, Any, AsyncIterator, Protocol
from typing import Generic, TypeVar
import trio
from trio._core._run import Task
from trio.abc import ReceiveChannel
from trio.lowlevel import current_task
# A regular invariant generic type
T = TypeVar("T")
# covariant because AsyncReceiver[Derived] can be passed to someone
# expecting AsyncReceiver[Base])
ReceiveType = TypeVar("ReceiveType", covariant=True)
class AsyncReceiver(
Protocol,
Generic[ReceiveType],
):
'''An async receivable duck-type that quacks much like trio's
``trio.abc.ReceieveChannel``.
'''
@abstractmethod
async def receive(self) -> ReceiveType:
...
@abstractmethod
def __aiter__(self) -> AsyncIterator[ReceiveType]:
...
@abstractmethod
async def __anext__(self) -> ReceiveType:
...
# ``trio.abc.AsyncResource`` methods
@abstractmethod
async def aclose(self):
...
@abstractmethod
async def __aenter__(self) -> AsyncReceiver[ReceiveType]:
...
@abstractmethod
async def __aexit__(self, *args) -> None:
...
class Lagged(trio.TooSlowError):
'''Subscribed consumer task was too slow and was overrun
by the fastest consumer-producer pair.
'''
@dataclass
class BroadcastState:
'''Common state to all receivers of a broadcast.
'''
queue: deque
maxlen: int
# map of underlying instance id keys to receiver instances which
# must be provided as a singleton per broadcaster set.
subs: dict[int, int]
# broadcast event to wake up all sleeping consumer tasks
# on a newly produced value from the sender.
recv_ready: Optional[tuple[int, trio.Event]] = None
class BroadcastReceiver(ReceiveChannel):
'''A memory receive channel broadcaster which is non-lossy for the
fastest consumer.
Additional consumer tasks can receive all produced values by registering
with ``.subscribe()`` and receiving from the new instance it delivers.
'''
def __init__(
self,
rx_chan: AsyncReceiver,
state: BroadcastState,
receive_afunc: Optional[Callable[[], Awaitable[Any]]] = None,
) -> None:
# register the original underlying (clone)
self.key = id(self)
self._state = state
state.subs[self.key] = -1
# underlying for this receiver
self._rx = rx_chan
self._recv = receive_afunc or rx_chan.receive
self._closed: bool = False
async def receive(self) -> ReceiveType:
key = self.key
state = self._state
# TODO: ideally we can make some way to "lock out" the
# underlying receive channel in some way such that if some task
# tries to pull from it directly (i.e. one we're unaware of)
# then it errors out.
# only tasks which have entered ``.subscribe()`` can
# receive on this broadcaster.
try:
seq = state.subs[key]
except KeyError:
if self._closed:
raise trio.ClosedResourceError
raise RuntimeError(
f'{self} is not registerd as subscriber')
# check that task does not already have a value it can receive
# immediately and/or that it has lagged.
if seq > -1:
# get the oldest value we haven't received immediately
try:
value = state.queue[seq]
except IndexError:
# adhere to ``tokio`` style "lagging":
# "Once RecvError::Lagged is returned, the lagging
# receiver's position is updated to the oldest value
# contained by the channel. The next call to recv will
# return this value."
# https://docs.rs/tokio/1.11.0/tokio/sync/broadcast/index.html#lagging
# decrement to the last value and expect
# consumer to either handle the ``Lagged`` and come back
# or bail out on its own (thus un-subscribing)
state.subs[key] = state.maxlen - 1
# this task was overrun by the producer side
task: Task = current_task()
raise Lagged(f'Task {task.name} was overrun')
state.subs[key] -= 1
return value
# current task already has the latest value **and** is the
# first task to begin waiting for a new one
if state.recv_ready is None:
if self._closed:
raise trio.ClosedResourceError
event = trio.Event()
state.recv_ready = key, event
# if we're cancelled here it should be
# fine to bail without affecting any other consumers
# right?
try:
value = await self._recv()
# items with lower indices are "newer"
# NOTE: ``collections.deque`` implicitly takes care of
# trucating values outside our ``state.maxlen``. In the
# alt-backend-array-case we'll need to make sure this is
# implemented in similar ringer-buffer-ish style.
state.queue.appendleft(value)
# broadcast new value to all subscribers by increasing
# all sequence numbers that will point in the queue to
# their latest available value.
# don't decrement the sequence for this task since we
# already retreived the last value
# XXX: which of these impls is fastest?
# subs = state.subs.copy()
# subs.pop(key)
for sub_key in filter(
# lambda k: k != key, state.subs,
partial(ne, key), state.subs,
):
state.subs[sub_key] += 1
# NOTE: this should ONLY be set if the above task was *NOT*
# cancelled on the `._recv()` call.
event.set()
return value
except trio.Cancelled:
# handle cancelled specially otherwise sibling
# consumers will be awoken with a sequence of -1
# state.recv_ready = trio.Cancelled
if event.statistics().tasks_waiting:
event.set()
raise
finally:
# Reset receiver waiter task event for next blocking condition.
# this MUST be reset even if the above ``.recv()`` call
# was cancelled to avoid the next consumer from blocking on
# an event that won't be set!
state.recv_ready = None
# This task is all caught up and ready to receive the latest
# value, so queue sched it on the internal event.
else:
seq = state.subs[key]
assert seq == -1 # sanity
_, ev = state.recv_ready
await ev.wait()
# NOTE: if we ever would like the behaviour where if the
# first task to recv on the underlying is cancelled but it
# still DOES trigger the ``.recv_ready``, event we'll likely need
# this logic:
if seq > -1:
# stuff from above..
seq = state.subs[key]
value = state.queue[seq]
state.subs[key] -= 1
return value
elif seq == -1:
# XXX: In the case where the first task to allocate the
# ``.recv_ready`` event is cancelled we will be woken with
# a non-incremented sequence number and thus will read the
# oldest value if we use that. Instead we need to detect if
# we have not been incremented and then receive again.
return await self.receive()
else:
raise ValueError(f'Invalid sequence {seq}!?')
@asynccontextmanager
async def subscribe(
self,
) -> AsyncIterator[BroadcastReceiver]:
'''Subscribe for values from this broadcast receiver.
Returns a new ``BroadCastReceiver`` which is registered for and
pulls data from a clone of the original ``trio.abc.ReceiveChannel``
provided at creation.
'''
if self._closed:
raise trio.ClosedResourceError
state = self._state
br = BroadcastReceiver(
rx_chan=self._rx,
state=state,
receive_afunc=self._recv,
)
# assert clone in state.subs
assert br.key in state.subs
try:
yield br
finally:
await br.aclose()
async def aclose(
self,
) -> None:
if self._closed:
return
# XXX: leaving it like this consumers can still get values
# up to the last received that still reside in the queue.
self._state.subs.pop(self.key)
self._closed = True
def broadcast_receiver(
recv_chan: AsyncReceiver,
max_buffer_size: int,
**kwargs,
) -> BroadcastReceiver:
return BroadcastReceiver(
recv_chan,
state=BroadcastState(
queue=deque(maxlen=max_buffer_size),
maxlen=max_buffer_size,
subs={},
),
**kwargs,
)

View File

@ -1,22 +1,4 @@
# tractor: structured concurrent "actors". """This is the "bootloader" for actors started using the native trio backend.
# 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/>.
"""
This is the "bootloader" for actors started using the native trio backend.
""" """
import sys import sys
import trio import trio
@ -24,7 +6,7 @@ import argparse
from ast import literal_eval from ast import literal_eval
from ._runtime import Actor from ._actor import Actor
from ._entry import _trio_main from ._entry import _trio_main
@ -37,15 +19,12 @@ def parse_ipaddr(arg):
return (str(host), int(port)) return (str(host), int(port))
from ._entry import _trio_main
if __name__ == "__main__": if __name__ == "__main__":
parser = argparse.ArgumentParser() parser = argparse.ArgumentParser()
parser.add_argument("--uid", type=parse_uid) parser.add_argument("--uid", type=parse_uid)
parser.add_argument("--loglevel", type=str) parser.add_argument("--loglevel", type=str)
parser.add_argument("--parent_addr", type=parse_ipaddr) parser.add_argument("--parent_addr", type=parse_ipaddr)
parser.add_argument("--asyncio", action='store_true')
args = parser.parse_args() args = parser.parse_args()
subactor = Actor( subactor = Actor(
@ -57,6 +36,5 @@ if __name__ == "__main__":
_trio_main( _trio_main(
subactor, subactor,
parent_addr=args.parent_addr, parent_addr=args.parent_addr
infect_asyncio=args.asyncio,
) )

View File

@ -1,74 +0,0 @@
# 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/>.
'''
Actor cluster helpers.
'''
from __future__ import annotations
from contextlib import asynccontextmanager as acm
from multiprocessing import cpu_count
from typing import AsyncGenerator, Optional
import trio
import tractor
@acm
async def open_actor_cluster(
modules: list[str],
count: int = cpu_count(),
names: list[str] | None = None,
hard_kill: bool = False,
# passed through verbatim to ``open_root_actor()``
**runtime_kwargs,
) -> AsyncGenerator[
dict[str, tractor.Portal],
None,
]:
portals: dict[str, tractor.Portal] = {}
if not names:
names = [f'worker_{i}' for i in range(count)]
if not len(names) == count:
raise ValueError(
'Number of names is {len(names)} but count it {count}')
async with tractor.open_nursery(
**runtime_kwargs,
) as an:
async with trio.open_nursery() as n:
uid = tractor.current_actor().uid
async def _start(name: str) -> None:
name = f'{uid[0]}.{name}'
portals[name] = await an.start_actor(
enable_modules=modules,
name=name,
)
for name in names:
n.start_soon(_start, name)
assert len(portals) == count
yield portals
await an.cancel(hard_kill=hard_kill)

File diff suppressed because it is too large Load Diff

View File

@ -1,29 +1,9 @@
# 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/>.
""" """
Actor discovery API. Actor discovery API.
""" """
from typing import ( import typing
Optional, from typing import Tuple, Optional, Union
Union, from async_generator import asynccontextmanager
AsyncGenerator,
)
from contextlib import asynccontextmanager as acm
from ._ipc import _connect_chan, Channel from ._ipc import _connect_chan, Channel
from ._portal import ( from ._portal import (
@ -34,13 +14,13 @@ from ._portal import (
from ._state import current_actor, _runtime_vars from ._state import current_actor, _runtime_vars
@acm @asynccontextmanager
async def get_arbiter( async def get_arbiter(
host: str, host: str,
port: int, port: int,
) -> AsyncGenerator[Union[Portal, LocalPortal], None]: ) -> typing.AsyncGenerator[Union[Portal, LocalPortal], None]:
'''Return a portal instance connected to a local or remote '''Return a portal instance connected to a local or remote
arbiter. arbiter.
''' '''
@ -61,10 +41,10 @@ async def get_arbiter(
yield arb_portal yield arb_portal
@acm @asynccontextmanager
async def get_root( async def get_root(
**kwargs, **kwargs,
) -> AsyncGenerator[Portal, None]: ) -> typing.AsyncGenerator[Union[Portal, LocalPortal], None]:
host, port = _runtime_vars['_root_mailbox'] host, port = _runtime_vars['_root_mailbox']
assert host is not None assert host is not None
@ -74,56 +54,28 @@ async def get_root(
yield portal yield portal
@acm @asynccontextmanager
async def query_actor( async def find_actor(
name: str, name: str,
arbiter_sockaddr: Optional[tuple[str, int]] = None, arbiter_sockaddr: Tuple[str, int] = None
) -> typing.AsyncGenerator[Optional[Portal], None]:
"""Ask the arbiter to find actor(s) by name.
) -> AsyncGenerator[tuple[str, int], None]: Returns a connected portal to the last registered matching actor
''' known to the arbiter.
Simple address lookup for a given actor name. """
Returns the (socket) address or ``None``.
'''
actor = current_actor() actor = current_actor()
async with get_arbiter( async with get_arbiter(*arbiter_sockaddr or actor._arb_addr) as arb_portal:
*arbiter_sockaddr or actor._arb_addr
) as arb_portal:
sockaddr = await arb_portal.run_from_ns( sockaddr = await arb_portal.run_from_ns('self', 'find_actor', name=name)
'self',
'find_actor',
name=name,
)
# TODO: return portals to all available actors - for now just # TODO: return portals to all available actors - for now just
# the last one that registered # the last one that registered
if name == 'arbiter' and actor.is_arbiter: if name == 'arbiter' and actor.is_arbiter:
raise RuntimeError("The current actor is the arbiter") raise RuntimeError("The current actor is the arbiter")
yield sockaddr if sockaddr else None elif sockaddr:
@acm
async def find_actor(
name: str,
arbiter_sockaddr: tuple[str, int] | None = None
) -> AsyncGenerator[Optional[Portal], None]:
'''
Ask the arbiter to find actor(s) by name.
Returns a connected portal to the last registered matching actor
known to the arbiter.
'''
async with query_actor(
name=name,
arbiter_sockaddr=arbiter_sockaddr,
) as sockaddr:
if sockaddr:
async with _connect_chan(*sockaddr) as chan: async with _connect_chan(*sockaddr) as chan:
async with open_portal(chan) as portal: async with open_portal(chan) as portal:
yield portal yield portal
@ -131,25 +83,20 @@ async def find_actor(
yield None yield None
@acm @asynccontextmanager
async def wait_for_actor( async def wait_for_actor(
name: str, name: str,
arbiter_sockaddr: tuple[str, int] | None = None arbiter_sockaddr: Tuple[str, int] = None
) -> AsyncGenerator[Portal, None]: ) -> typing.AsyncGenerator[Portal, None]:
"""Wait on an actor to register with the arbiter. """Wait on an actor to register with the arbiter.
A portal to the first registered actor is returned. A portal to the first registered actor is returned.
""" """
actor = current_actor() actor = current_actor()
async with get_arbiter( async with get_arbiter(*arbiter_sockaddr or actor._arb_addr) as arb_portal:
*arbiter_sockaddr or actor._arb_addr,
) as arb_portal: sockaddrs = await arb_portal.run_from_ns('self', 'wait_for_actor', name=name)
sockaddrs = await arb_portal.run_from_ns(
'self',
'wait_for_actor',
name=name,
)
sockaddr = sockaddrs[-1] sockaddr = sockaddrs[-1]
async with _connect_chan(*sockaddr) as chan: async with _connect_chan(*sockaddr) as chan:

View File

@ -1,64 +1,28 @@
# 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-process entry points. Sub-process entry points.
""" """
from __future__ import annotations
from functools import partial from functools import partial
from typing import ( from typing import Tuple, Any
Any, import signal
TYPE_CHECKING,
)
import trio # type: ignore import trio # type: ignore
from .log import ( from .log import get_console_log, get_logger
get_console_log,
get_logger,
)
from . import _state from . import _state
from .to_asyncio import run_as_asyncio_guest
from ._runtime import (
async_main,
Actor,
)
if TYPE_CHECKING:
from ._spawn import SpawnMethodKey
log = get_logger(__name__) log = get_logger(__name__)
def _mp_main( def _mp_main(
actor: 'Actor', # type: ignore
actor: Actor, # type: ignore accept_addr: Tuple[str, int],
accept_addr: tuple[str, int], forkserver_info: Tuple[Any, Any, Any, Any, Any],
forkserver_info: tuple[Any, Any, Any, Any, Any], start_method: str,
start_method: SpawnMethodKey, parent_addr: Tuple[str, int] = None,
parent_addr: tuple[str, int] | None = None,
infect_asyncio: bool = False,
) -> None: ) -> None:
''' """The routine called *after fork* which invokes a fresh ``trio.run``
The routine called *after fork* which invokes a fresh ``trio.run`` """
'''
actor._forkserver_info = forkserver_info actor._forkserver_info = forkserver_info
from ._spawn import try_set_start_method from ._spawn import try_set_start_method
spawn_ctx = try_set_start_method(start_method) spawn_ctx = try_set_start_method(start_method)
@ -76,17 +40,12 @@ def _mp_main(
log.debug(f"parent_addr is {parent_addr}") log.debug(f"parent_addr is {parent_addr}")
trio_main = partial( trio_main = partial(
async_main, actor._async_main,
actor,
accept_addr, accept_addr,
parent_addr=parent_addr parent_addr=parent_addr
) )
try: try:
if infect_asyncio: trio.run(trio_main)
actor._infected_aio = True
run_as_asyncio_guest(trio_main)
else:
trio.run(trio_main)
except KeyboardInterrupt: except KeyboardInterrupt:
pass # handle it the same way trio does? pass # handle it the same way trio does?
@ -95,17 +54,16 @@ def _mp_main(
def _trio_main( def _trio_main(
actor: 'Actor', # type: ignore
actor: Actor, # type: ignore
*, *,
parent_addr: tuple[str, int] | None = None, parent_addr: Tuple[str, int] = None,
infect_asyncio: bool = False,
) -> None: ) -> None:
''' """Entry point for a `trio_run_in_process` subactor.
Entry point for a `trio_run_in_process` subactor. """
# Disable sigint handling in children;
# we don't need it thanks to our cancellation machinery.
# signal.signal(signal.SIGINT, signal.SIG_IGN)
'''
log.info(f"Started new trio process for {actor.uid}") log.info(f"Started new trio process for {actor.uid}")
if actor.loglevel is not None: if actor.loglevel is not None:
@ -120,17 +78,12 @@ def _trio_main(
log.debug(f"parent_addr is {parent_addr}") log.debug(f"parent_addr is {parent_addr}")
trio_main = partial( trio_main = partial(
async_main, actor._async_main,
actor,
parent_addr=parent_addr parent_addr=parent_addr
) )
try: try:
if infect_asyncio: trio.run(trio_main)
actor._infected_aio = True
run_as_asyncio_guest(trio_main)
else:
trio.run(trio_main)
except KeyboardInterrupt: except KeyboardInterrupt:
log.warning(f"Actor {actor.uid} received KBI") log.warning(f"Actor {actor.uid} received KBI")

View File

@ -1,33 +1,11 @@
# 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/>.
""" """
Our classy exception set. Our classy exception set.
""" """
from typing import ( from typing import Dict, Any, Optional, Type
Any,
Optional,
Type,
)
import importlib import importlib
import builtins import builtins
import traceback import traceback
import exceptiongroup as eg
import trio import trio
@ -53,6 +31,9 @@ class RemoteActorError(Exception):
self.type = suberror_type self.type = suberror_type
self.msgdata = msgdata self.msgdata = msgdata
# TODO: a trio.MultiError.catch like context manager
# for catching underlying remote errors of a particular type
class InternalActorError(RemoteActorError): class InternalActorError(RemoteActorError):
"""Remote internal ``tractor`` error indicating """Remote internal ``tractor`` error indicating
@ -80,24 +61,11 @@ class NoRuntime(RuntimeError):
"The root actor has not been initialized yet" "The root actor has not been initialized yet"
class StreamOverrun(trio.TooSlowError):
"This stream was overrun by sender"
class AsyncioCancelled(Exception):
'''
Asyncio cancelled translation (non-base) error
for use with the ``to_asyncio`` module
to be raised in the ``trio`` side task
'''
def pack_error( def pack_error(
exc: BaseException, exc: BaseException,
tb=None, tb=None,
) -> dict[str, Any]: ) -> Dict[str, Any]:
"""Create an "error message" for tranmission over """Create an "error message" for tranmission over
a channel (aka the wire). a channel (aka the wire).
""" """
@ -116,17 +84,15 @@ def pack_error(
def unpack_error( def unpack_error(
msg: dict[str, Any], msg: Dict[str, Any],
chan=None, chan=None,
err_type=RemoteActorError err_type=RemoteActorError
) -> Exception: ) -> Exception:
''' """Unpack an 'error' message from the wire
Unpack an 'error' message from the wire
into a local ``RemoteActorError``. into a local ``RemoteActorError``.
''' """
__tracebackhide__ = True
error = msg['error'] error = msg['error']
tb_str = error.get('tb_str', '') tb_str = error.get('tb_str', '')
@ -139,12 +105,7 @@ def unpack_error(
suberror_type = trio.Cancelled suberror_type = trio.Cancelled
else: # try to lookup a suitable local error type else: # try to lookup a suitable local error type
for ns in [ for ns in [builtins, _this_mod, trio]:
builtins,
_this_mod,
eg,
trio,
]:
try: try:
suberror_type = getattr(ns, type_name) suberror_type = getattr(ns, type_name)
break break
@ -163,15 +124,12 @@ def unpack_error(
def is_multi_cancelled(exc: BaseException) -> bool: def is_multi_cancelled(exc: BaseException) -> bool:
''' """Predicate to determine if a ``trio.MultiError`` contains only
Predicate to determine if a possible ``eg.BaseExceptionGroup`` contains ``trio.Cancelled`` sub-exceptions (and is likely the result of
only ``trio.Cancelled`` sub-exceptions (and is likely the result of
cancelling a collection of subtasks. cancelling a collection of subtasks.
''' """
if isinstance(exc, eg.BaseExceptionGroup): return not trio.MultiError.filter(
return exc.subgroup( lambda exc: exc if not isinstance(exc, trio.Cancelled) else None,
lambda exc: isinstance(exc, trio.Cancelled) exc,
) is not None )
return False

View File

@ -1,19 +1,3 @@
# 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/>.
""" """
This is near-copy of the 3.8 stdlib's ``multiprocessing.forkserver.py`` This is near-copy of the 3.8 stdlib's ``multiprocessing.forkserver.py``
with some hackery to prevent any more then a single forkserver and with some hackery to prevent any more then a single forkserver and

View File

@ -1,42 +1,13 @@
# 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/>.
""" """
Inter-process comms abstractions Inter-process comms abstractions
""" """
from __future__ import annotations
import platform import platform
import struct
import typing import typing
from collections.abc import ( from typing import Any, Tuple, Optional
AsyncGenerator, from functools import partial
AsyncIterator,
)
from typing import (
Any,
runtime_checkable,
Optional,
Protocol,
Type,
TypeVar,
)
from tricycle import BufferedReceiveStream import msgpack
import msgspec
import trio import trio
from async_generator import asynccontextmanager from async_generator import asynccontextmanager
@ -46,195 +17,105 @@ log = get_logger(__name__)
_is_windows = platform.system() == 'Windows' _is_windows = platform.system() == 'Windows'
log = get_logger(__name__)
# :eyeroll:
try:
import msgpack_numpy
Unpacker = msgpack_numpy.Unpacker
except ImportError:
# just plain ``msgpack`` requires tweaking key settings
Unpacker = partial(msgpack.Unpacker, strict_map_key=False)
def get_stream_addrs(stream: trio.SocketStream) -> tuple: class MsgpackTCPStream:
# should both be IP sockets '''A ``trio.SocketStream`` delivering ``msgpack`` formatted data
lsockname = stream.socket.getsockname() using ``msgpack-python``.
rsockname = stream.socket.getpeername()
return (
tuple(lsockname[:2]),
tuple(rsockname[:2]),
)
MsgType = TypeVar("MsgType")
# TODO: consider using a generic def and indexing with our eventual
# msg definition/types?
# - https://docs.python.org/3/library/typing.html#typing.Protocol
# - https://jcristharif.com/msgspec/usage.html#structs
@runtime_checkable
class MsgTransport(Protocol[MsgType]):
stream: trio.SocketStream
drained: list[MsgType]
def __init__(self, stream: trio.SocketStream) -> None:
...
# XXX: should this instead be called `.sendall()`?
async def send(self, msg: MsgType) -> None:
...
async def recv(self) -> MsgType:
...
def __aiter__(self) -> MsgType:
...
def connected(self) -> bool:
...
# defining this sync otherwise it causes a mypy error because it
# can't figure out it's a generator i guess?..?
def drain(self) -> AsyncIterator[dict]:
...
@property
def laddr(self) -> tuple[str, int]:
...
@property
def raddr(self) -> tuple[str, int]:
...
# TODO: not sure why we have to inherit here, but it seems to be an
# issue with ``get_msg_transport()`` returning a ``Type[Protocol]``;
# probably should make a `mypy` issue?
class MsgpackTCPStream(MsgTransport):
'''
A ``trio.SocketStream`` delivering ``msgpack`` formatted data
using the ``msgspec`` codec lib.
''' '''
def __init__( def __init__(
self, self,
stream: trio.SocketStream, stream: trio.SocketStream,
prefix_size: int = 4,
) -> None: ) -> None:
self.stream = stream self.stream = stream
assert self.stream.socket assert self.stream.socket
# should both be IP sockets # should both be IP sockets
self._laddr, self._raddr = get_stream_addrs(stream) lsockname = stream.socket.getsockname()
assert isinstance(lsockname, tuple)
self._laddr = lsockname[:2]
rsockname = stream.socket.getpeername()
assert isinstance(rsockname, tuple)
self._raddr = rsockname[:2]
# create read loop instance # start and seed first entry to read loop
self._agen = self._iter_packets() self._agen = self._iter_packets()
# self._agen.asend(None) is None
self._send_lock = trio.StrictFIFOLock() self._send_lock = trio.StrictFIFOLock()
# public i guess? async def _iter_packets(self) -> typing.AsyncGenerator[dict, None]:
self.drained: list[dict] = [] """Yield packets from the underlying stream.
"""
self.recv_stream = BufferedReceiveStream(transport_stream=stream) unpacker = Unpacker(
self.prefix_size = prefix_size raw=False,
use_list=False,
# TODO: struct aware messaging coders )
self.encode = msgspec.msgpack.Encoder().encode
self.decode = msgspec.msgpack.Decoder().decode # dict[str, Any])
async def _iter_packets(self) -> AsyncGenerator[dict, None]:
'''Yield packets from the underlying stream.
'''
import msgspec # noqa
decodes_failed: int = 0
while True: while True:
try: try:
header = await self.recv_stream.receive_exactly(4) data = await self.stream.receive_some(2**10)
except ( except trio.BrokenResourceError as err:
ValueError, msg = err.args[0]
ConnectionResetError,
# not sure entirely why we need this but without it we # XXX: handle connection-reset-by-peer the same as a EOF.
# seem to be getting racy failures here on # we're currently remapping this since we allow
# arbiter/registry name subs.. # a quick connect then drop for root actors when
trio.BrokenResourceError, # checking to see if there exists an "arbiter"
): # on the chosen sockaddr (``_root.py:108`` or thereabouts)
raise TransportClosed( if (
f'transport {self} was already closed prior ro read' # nix
) '[Errno 104]' in msg or
if header == b'': # on windows it seems there are a variety of errors
raise TransportClosed( # to handle..
f'transport {self} was already closed prior ro read' _is_windows
) ):
raise TransportClosed(
size, = struct.unpack("<I", header) f'{self} was broken with {msg}'
log.transport(f'received header {size}') # type: ignore
msg_bytes = await self.recv_stream.receive_exactly(size)
log.transport(f"received {msg_bytes}") # type: ignore
try:
yield self.decode(msg_bytes)
except (
msgspec.DecodeError,
UnicodeDecodeError,
):
if decodes_failed < 4:
# ignore decoding errors for now and assume they have to
# do with a channel drop - hope that receiving from the
# channel will raise an expected error and bubble up.
try:
msg_str: str | bytes = msg_bytes.decode()
except UnicodeDecodeError:
msg_str = msg_bytes
log.error(
'`msgspec` failed to decode!?\n'
'dumping bytes:\n'
f'{msg_str!r}'
) )
decodes_failed += 1
else: else:
raise raise
async def send(self, msg: Any) -> None: log.transport(f"received {data}") # type: ignore
async with self._send_lock:
bytes_data: bytes = self.encode(msg) if data == b'':
raise TransportClosed(
f'transport {self} was already closed prior ro read'
)
# supposedly the fastest says, unpacker.feed(data)
# https://stackoverflow.com/a/54027962 for packet in unpacker:
size: bytes = struct.pack("<I", len(bytes_data)) yield packet
return await self.stream.send_all(size + bytes_data)
@property @property
def laddr(self) -> tuple[str, int]: def laddr(self) -> Tuple[Any, ...]:
return self._laddr return self._laddr
@property @property
def raddr(self) -> tuple[str, int]: def raddr(self) -> Tuple[Any, ...]:
return self._raddr return self._raddr
# XXX: should this instead be called `.sendall()`?
async def send(self, data: Any) -> None:
async with self._send_lock:
return await self.stream.send_all(
msgpack.dumps(data, use_bin_type=True))
async def recv(self) -> Any: async def recv(self) -> Any:
return await self._agen.asend(None) return await self._agen.asend(None)
async def drain(self) -> AsyncIterator[dict]:
'''
Drain the stream's remaining messages sent from
the far end until the connection is closed by
the peer.
'''
try:
async for msg in self._iter_packets():
self.drained.append(msg)
except TransportClosed:
for msg in self.drained:
yield msg
def __aiter__(self): def __aiter__(self):
return self._agen return self._agen
@ -242,87 +123,35 @@ class MsgpackTCPStream(MsgTransport):
return self.stream.socket.fileno() != -1 return self.stream.socket.fileno() != -1
def get_msg_transport(
key: tuple[str, str],
) -> Type[MsgTransport]:
return {
('msgpack', 'tcp'): MsgpackTCPStream,
}[key]
class Channel: class Channel:
''' """An inter-process channel for communication between (remote) actors.
An inter-process channel for communication between (remote) actors.
Wraps a ``MsgStream``: transport + encoding IPC connection. Currently the only supported transport is a ``trio.SocketStream``.
"""
Currently we only support ``trio.SocketStream`` for transport
(aka TCP) and the ``msgpack`` interchange format via the ``msgspec``
codec libary.
'''
def __init__( def __init__(
self, self,
destaddr: Optional[tuple[str, int]], destaddr: Optional[Tuple[str, int]] = None,
on_reconnect: typing.Callable[..., typing.Awaitable] = None,
msg_transport_type_key: tuple[str, str] = ('msgpack', 'tcp'), auto_reconnect: bool = False,
stream: trio.SocketStream = None, # expected to be active
# TODO: optional reconnection support?
# auto_reconnect: bool = False,
# on_reconnect: typing.Callable[..., typing.Awaitable] = None,
) -> None: ) -> None:
self._recon_seq = on_reconnect
# self._recon_seq = on_reconnect self._autorecon = auto_reconnect
# self._autorecon = auto_reconnect self.msgstream: Optional[MsgpackTCPStream] = MsgpackTCPStream(
stream) if stream else None
self._destaddr = destaddr if self.msgstream and destaddr:
self._transport_key = msg_transport_type_key raise ValueError(
f"A stream was provided with local addr {self.laddr}"
# Either created in ``.connect()`` or passed in by )
# user in ``.from_stream()``. self._destaddr = self.msgstream.raddr if self.msgstream else destaddr
self._stream: Optional[trio.SocketStream] = None
self.msgstream: Optional[MsgTransport] = None
# set after handshake - always uid of far end # set after handshake - always uid of far end
self.uid: Optional[tuple[str, str]] = None self.uid: Optional[Tuple[str, str]] = None
# set if far end actor errors internally
self._exc: Optional[Exception] = None
self._agen = self._aiter_recv() self._agen = self._aiter_recv()
self._exc: Optional[Exception] = None # set if far end actor errors
self._closed: bool = False self._closed: bool = False
# flag set on ``Portal.cancel_actor()`` indicating
# remote (peer) cancellation of the far end actor runtime.
self._cancel_called: bool = False # set on ``Portal.cancel_actor()``
@classmethod
def from_stream(
cls,
stream: trio.SocketStream,
**kwargs,
) -> Channel:
src, dst = get_stream_addrs(stream)
chan = Channel(destaddr=dst, **kwargs)
# set immediately here from provided instance
chan._stream = stream
chan.set_msg_transport(stream)
return chan
def set_msg_transport(
self,
stream: trio.SocketStream,
type_key: Optional[tuple[str, str]] = None,
) -> MsgTransport:
type_key = type_key or self._transport_key
self.msgstream = get_msg_transport(type_key)(stream)
return self.msgstream
def __repr__(self) -> str: def __repr__(self) -> str:
if self.msgstream: if self.msgstream:
@ -332,19 +161,20 @@ class Channel:
return object.__repr__(self) return object.__repr__(self)
@property @property
def laddr(self) -> Optional[tuple[str, int]]: def laddr(self) -> Optional[Tuple[Any, ...]]:
return self.msgstream.laddr if self.msgstream else None return self.msgstream.laddr if self.msgstream else None
@property @property
def raddr(self) -> Optional[tuple[str, int]]: def raddr(self) -> Optional[Tuple[Any, ...]]:
return self.msgstream.raddr if self.msgstream else None return self.msgstream.raddr if self.msgstream else None
async def connect( async def connect(
self, self,
destaddr: tuple[Any, ...] | None = None, destaddr: Tuple[Any, ...] = None,
**kwargs **kwargs
) -> MsgTransport: ) -> trio.SocketStream:
if self.connected(): if self.connected():
raise RuntimeError("channel is already connected?") raise RuntimeError("channel is already connected?")
@ -356,12 +186,12 @@ class Channel:
*destaddr, *destaddr,
**kwargs **kwargs
) )
msgstream = self.set_msg_transport(stream) self.msgstream = MsgpackTCPStream(stream)
log.transport( log.transport(
f'Opened channel[{type(msgstream)}]: {self.laddr} -> {self.raddr}' f'Opened channel to peer {self.laddr} -> {self.raddr}'
) )
return msgstream return stream
async def send(self, item: Any) -> None: async def send(self, item: Any) -> None:
@ -372,15 +202,16 @@ class Channel:
async def recv(self) -> Any: async def recv(self) -> Any:
assert self.msgstream assert self.msgstream
return await self.msgstream.recv()
# try: try:
# return await self.msgstream.recv() return await self.msgstream.recv()
# except trio.BrokenResourceError:
# if self._autorecon: except trio.BrokenResourceError:
# await self._reconnect() if self._autorecon:
# return await self.recv() await self._reconnect()
# raise return await self.recv()
raise
async def aclose(self) -> None: async def aclose(self) -> None:
@ -402,44 +233,40 @@ class Channel:
def __aiter__(self): def __aiter__(self):
return self._agen return self._agen
# async def _reconnect(self) -> None: async def _reconnect(self) -> None:
# """Handle connection failures by polling until a reconnect can be """Handle connection failures by polling until a reconnect can be
# established. established.
# """ """
# down = False down = False
# while True: while True:
# try: try:
# with trio.move_on_after(3) as cancel_scope: with trio.move_on_after(3) as cancel_scope:
# await self.connect() await self.connect()
# cancelled = cancel_scope.cancelled_caught cancelled = cancel_scope.cancelled_caught
# if cancelled: if cancelled:
# log.transport( log.transport(
# "Reconnect timed out after 3 seconds, retrying...") "Reconnect timed out after 3 seconds, retrying...")
# continue continue
# else: else:
# log.transport("Stream connection re-established!") log.transport("Stream connection re-established!")
# run any reconnection sequence
# # TODO: run any reconnection sequence on_recon = self._recon_seq
# # on_recon = self._recon_seq if on_recon:
# # if on_recon: await on_recon(self)
# # await on_recon(self) break
except (OSError, ConnectionRefusedError):
# break if not down:
# except (OSError, ConnectionRefusedError): down = True
# if not down: log.transport(
# down = True f"Connection to {self.raddr} went down, waiting"
# log.transport( " for re-establishment")
# f"Connection to {self.raddr} went down, waiting" await trio.sleep(1)
# " for re-establishment")
# await trio.sleep(1)
async def _aiter_recv( async def _aiter_recv(
self self
) -> AsyncGenerator[Any, None]: ) -> typing.AsyncGenerator[Any, None]:
''' """Async iterate items from underlying stream.
Async iterate items from underlying stream. """
'''
assert self.msgstream assert self.msgstream
while True: while True:
try: try:
@ -452,14 +279,16 @@ class Channel:
# await self.msgstream.send(sent) # await self.msgstream.send(sent)
except trio.BrokenResourceError: except trio.BrokenResourceError:
# if not self._autorecon: if not self._autorecon:
raise raise
await self.aclose() await self.aclose()
# if self._autorecon: # attempt reconnect if self._autorecon: # attempt reconnect
# await self._reconnect() await self._reconnect()
# continue continue
else:
return
def connected(self) -> bool: def connected(self) -> bool:
return self.msgstream.connected() if self.msgstream else False return self.msgstream.connected() if self.msgstream else False
@ -469,11 +298,9 @@ class Channel:
async def _connect_chan( async def _connect_chan(
host: str, port: int host: str, port: int
) -> typing.AsyncGenerator[Channel, None]: ) -> typing.AsyncGenerator[Channel, None]:
''' """Create and connect a channel with disconnect on context manager
Create and connect a channel with disconnect on context manager
teardown. teardown.
"""
'''
chan = Channel((host, port)) chan = Channel((host, port))
await chan.connect() await chan.connect()
yield chan yield chan

View File

@ -1,39 +1,23 @@
# 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/>.
""" """
Helpers pulled mostly verbatim from ``multiprocessing.spawn`` Helpers pulled mostly verbatim from ``multiprocessing.spawn``
to aid with "fixing up" the ``__main__`` module in subprocesses. to aid with "fixing up" the ``__main__`` module in subprocesses.
These helpers are needed for any spawing backend that doesn't already These helpers are needed for any spawing backend that doesn't already handle this.
handle this. For example when using ``trio_run_in_process`` it is needed For example when using ``trio_run_in_process`` it is needed but obviously not when
but obviously not when we're already using ``multiprocessing``. we're already using ``multiprocessing``.
""" """
import os import os
import sys import sys
import platform import platform
import types import types
import runpy import runpy
from typing import Dict
ORIGINAL_DIR = os.path.abspath(os.getcwd()) ORIGINAL_DIR = os.path.abspath(os.getcwd())
def _mp_figure_out_main() -> dict[str, str]: def _mp_figure_out_main() -> Dict[str, str]:
"""Taken from ``multiprocessing.spawn.get_preparation_data()``. """Taken from ``multiprocessing.spawn.get_preparation_data()``.
Retrieve parent actor `__main__` module data. Retrieve parent actor `__main__` module data.

View File

@ -1,80 +1,60 @@
# tractor: structured concurrent "actors". """
# Copyright 2018-eternity Tyler Goodlet. Portal api
"""
# 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/>.
'''
Memory boundary "Portals": an API for structured
concurrency linked tasks running in disparate memory domains.
'''
from __future__ import annotations
import importlib import importlib
import inspect import inspect
from typing import ( from typing import (
Any, Optional, Tuple, Any, Dict, Optional, Set,
Callable, AsyncGenerator, Callable, AsyncGenerator
Type,
) )
from functools import partial from functools import partial
from dataclasses import dataclass from dataclasses import dataclass
from pprint import pformat
import warnings import warnings
import trio import trio
from async_generator import asynccontextmanager from async_generator import asynccontextmanager
from .trionics import maybe_open_nursery
from ._state import current_actor from ._state import current_actor
from ._ipc import Channel from ._ipc import Channel
from .log import get_logger from .log import get_logger
from .msg import NamespacePath
from ._exceptions import ( from ._exceptions import (
unpack_error, unpack_error,
NoResult, NoResult,
RemoteActorError,
ContextCancelled, ContextCancelled,
) )
from ._streaming import ( from ._streaming import Context, ReceiveMsgStream
Context,
MsgStream,
)
log = get_logger(__name__) log = get_logger(__name__)
def _unwrap_msg( @asynccontextmanager
msg: dict[str, Any], async def maybe_open_nursery(
channel: Channel nursery: trio.Nursery = None,
shield: bool = False,
) -> AsyncGenerator[trio.Nursery, Any]:
"""Create a new nursery if None provided.
) -> Any: Blocks on exit as expected if no input nursery is provided.
__tracebackhide__ = True """
try: if nursery is not None:
return msg['return'] yield nursery
except KeyError: else:
# internal error should never get here async with trio.open_nursery() as nursery:
assert msg.get('cid'), "Received internal error at portal?" nursery.cancel_scope.shield = shield
raise unpack_error(msg, channel) from None yield nursery
class MessagingError(Exception): def func_deats(func: Callable) -> Tuple[str, str]:
'Some kind of unexpected SC messaging dialog issue' return (
func.__module__,
func.__name__,
)
class Portal: class Portal:
''' """A 'portal' to a(n) (remote) ``Actor``.
A 'portal' to a(n) (remote) ``Actor``.
A portal is "opened" (and eventually closed) by one side of an A portal is "opened" (and eventually closed) by one side of an
inter-actor communication context. The side which opens the portal inter-actor communication context. The side which opens the portal
@ -90,56 +70,77 @@ class Portal:
function calling semantics are supported transparently; hence it is function calling semantics are supported transparently; hence it is
like having a "portal" between the seperate actor memory spaces. like having a "portal" between the seperate actor memory spaces.
''' """
# the timeout for a remote cancel request sent to
# a(n) (peer) actor.
cancel_timeout = 0.5
def __init__(self, channel: Channel) -> None: def __init__(self, channel: Channel) -> None:
self.channel = channel self.channel = channel
# when this is set to a tuple returned from ``_submit()`` then
# it is expected that ``result()`` will be awaited at some point
# during the portal's lifetime # during the portal's lifetime
self._result_msg: Optional[dict] = None self._result: Optional[Any] = None
# set when _submit_for_result is called
# When set to a ``Context`` (when _submit_for_result is called) self._expect_result: Optional[
# it is expected that ``result()`` will be awaited at some Tuple[str, Any, str, Dict[str, Any]]
# point. ] = None
self._expect_result: Optional[Context] = None self._streams: Set[ReceiveMsgStream] = set()
self._streams: set[MsgStream] = set()
self.actor = current_actor() self.actor = current_actor()
async def _submit_for_result( async def _submit(
self, self,
ns: str, ns: str,
func: str, func: str,
**kwargs kwargs,
) -> None: ) -> Tuple[str, trio.MemoryReceiveChannel, str, Dict[str, Any]]:
"""Submit a function to be scheduled and run by actor, return the
associated caller id, response queue, response type str,
first message packet as a tuple.
This is an async call.
"""
# ship a function call request to the remote actor
cid, recv_chan = await self.actor.send_cmd(
self.channel, ns, func, kwargs)
# wait on first response msg and handle (this should be
# in an immediate response)
first_msg = await recv_chan.receive()
functype = first_msg.get('functype')
if 'error' in first_msg:
raise unpack_error(first_msg, self.channel)
elif functype not in ('asyncfunc', 'asyncgen', 'context'):
raise ValueError(f"{first_msg} is an invalid response packet?")
return cid, recv_chan, functype, first_msg
async def _submit_for_result(self, ns: str, func: str, **kwargs) -> None:
assert self._expect_result is None, \ assert self._expect_result is None, \
"A pending main result has already been submitted" "A pending main result has already been submitted"
self._expect_result = await self.actor.start_remote_task( self._expect_result = await self._submit(ns, func, kwargs)
self.channel,
ns,
func,
kwargs
)
async def _return_once( async def _return_once(
self, self,
ctx: Context, cid: str,
recv_chan: trio.abc.ReceiveChannel,
resptype: str,
first_msg: dict
) -> Any:
assert resptype == 'asyncfunc' # single response
) -> dict[str, Any]: msg = await recv_chan.receive()
try:
assert ctx._remote_func_type == 'asyncfunc' # single response return msg['return']
msg = await ctx._recv_chan.receive() except KeyError:
return msg # internal error should never get here
assert msg.get('cid'), "Received internal error at portal?"
raise unpack_error(msg, self.channel)
async def result(self) -> Any: async def result(self) -> Any:
''' """Return the result(s) from the remote actor's "main" task.
Return the result(s) from the remote actor's "main" task. """
'''
# __tracebackhide__ = True
# Check for non-rpc errors slapped on the # Check for non-rpc errors slapped on the
# channel for which we always raise # channel for which we always raise
exc = self.channel._exc exc = self.channel._exc
@ -156,22 +157,27 @@ class Portal:
# expecting a "main" result # expecting a "main" result
assert self._expect_result assert self._expect_result
if self._result is None:
try:
self._result = await self._return_once(*self._expect_result)
except RemoteActorError as err:
self._result = err
if self._result_msg is None: # re-raise error on every call
self._result_msg = await self._return_once( if isinstance(self._result, RemoteActorError):
self._expect_result raise self._result
)
return _unwrap_msg(self._result_msg, self.channel) return self._result
async def _cancel_streams(self): async def _cancel_streams(self):
# terminate all locally running async generator # terminate all locally running async generator
# IPC calls # IPC calls
if self._streams: if self._streams:
log.cancel( log.warning(
f"Cancelling all streams with {self.channel.uid}") f"Cancelling all streams with {self.channel.uid}")
for stream in self._streams.copy(): for stream in self._streams.copy():
try: try:
# with trio.CancelScope(shield=True):
await stream.aclose() await stream.aclose()
except trio.ClosedResourceError: except trio.ClosedResourceError:
# don't error the stream having already been closed # don't error the stream having already been closed
@ -187,47 +193,38 @@ class Portal:
# we'll need to .aclose all those channels here # we'll need to .aclose all those channels here
await self._cancel_streams() await self._cancel_streams()
async def cancel_actor( async def cancel_actor(self):
self, """Cancel the actor on the other end of this portal.
timeout: float | None = None, """
) -> bool:
'''
Cancel the actor on the other end of this portal.
'''
if not self.channel.connected(): if not self.channel.connected():
log.cancel("This channel is already closed can't cancel") log.warning("This portal is already closed can't cancel")
return False return False
log.cancel( await self._cancel_streams()
log.warning(
f"Sending actor cancel request to {self.channel.uid} on " f"Sending actor cancel request to {self.channel.uid} on "
f"{self.channel}") f"{self.channel}")
self.channel._cancel_called = True
try: try:
# send cancel cmd - might not get response # send cancel cmd - might not get response
# XXX: sure would be nice to make this work with a proper shield # XXX: sure would be nice to make this work with a proper shield
with trio.move_on_after(timeout or self.cancel_timeout) as cs: # with trio.CancelScope() as cancel_scope:
cs.shield = True # with trio.CancelScope(shield=True) as cancel_scope:
with trio.move_on_after(0.5) as cancel_scope:
cancel_scope.shield = True
await self.run_from_ns('self', 'cancel') await self.run_from_ns('self', 'cancel')
return True return True
if cs.cancelled_caught: if cancel_scope.cancelled_caught:
log.cancel(f"May have failed to cancel {self.channel.uid}") log.warning(f"May have failed to cancel {self.channel.uid}")
# if we get here some weird cancellation case happened # if we get here some weird cancellation case happened
return False return False
except ( except trio.ClosedResourceError:
trio.ClosedResourceError, log.warning(
trio.BrokenResourceError, f"{self.channel} for {self.channel.uid} was already closed?")
):
log.cancel(
f"{self.channel} for {self.channel.uid} was already "
"closed or broken?")
return False return False
async def run_from_ns( async def run_from_ns(
@ -236,9 +233,7 @@ class Portal:
function_name: str, function_name: str,
**kwargs, **kwargs,
) -> Any: ) -> Any:
''' """Run a function from a (remote) namespace in a new task on the far-end actor.
Run a function from a (remote) namespace in a new task on the
far-end actor.
This is a more explitcit way to run tasks in a remote-process This is a more explitcit way to run tasks in a remote-process
actor using explicit object-path syntax. Hint: this is how actor using explicit object-path syntax. Hint: this is how
@ -247,20 +242,12 @@ class Portal:
Note:: Note::
A special namespace `self` can be used to invoke `Actor` A special namespace `self` can be used to invoke `Actor`
instance methods in the remote runtime. Currently this instance methods in the remote runtime. Currently this should only
should only be used solely for ``tractor`` runtime be used for `tractor` internals.
internals. """
return await self._return_once(
''' *(await self._submit(namespace_path, function_name, kwargs))
ctx = await self.actor.start_remote_task(
self.channel,
namespace_path,
function_name,
kwargs,
) )
ctx._portal = self
msg = await self._return_once(ctx)
return _unwrap_msg(msg, self.channel)
async def run( async def run(
self, self,
@ -268,14 +255,12 @@ class Portal:
fn_name: Optional[str] = None, fn_name: Optional[str] = None,
**kwargs **kwargs
) -> Any: ) -> Any:
''' """Submit a remote function to be scheduled and run by actor, in
Submit a remote function to be scheduled and run by actor, in
a new task, wrap and return its (stream of) result(s). a new task, wrap and return its (stream of) result(s).
This is a blocking call and returns either a value from the This is a blocking call and returns either a value from the
remote rpc task or a local async generator instance. remote rpc task or a local async generator instance.
"""
'''
if isinstance(func, str): if isinstance(func, str):
warnings.warn( warnings.warn(
"`Portal.run(namespace: str, funcname: str)` is now" "`Portal.run(namespace: str, funcname: str)` is now"
@ -299,27 +284,20 @@ class Portal:
raise TypeError( raise TypeError(
f'{func} must be a non-streaming async function!') f'{func} must be a non-streaming async function!')
fn_mod_path, fn_name = NamespacePath.from_ref(func).to_tuple() fn_mod_path, fn_name = func_deats(func)
ctx = await self.actor.start_remote_task( return await self._return_once(
self.channel, *(await self._submit(fn_mod_path, fn_name, kwargs))
fn_mod_path,
fn_name,
kwargs,
)
ctx._portal = self
return _unwrap_msg(
await self._return_once(ctx),
self.channel,
) )
@asynccontextmanager @asynccontextmanager
async def open_stream_from( async def open_stream_from(
self, self,
async_gen_func: Callable, # typing: ignore async_gen_func: Callable, # typing: ignore
shield: bool = False,
**kwargs, **kwargs,
) -> AsyncGenerator[MsgStream, None]: ) -> AsyncGenerator[ReceiveMsgStream, None]:
if not inspect.isasyncgenfunction(async_gen_func): if not inspect.isasyncgenfunction(async_gen_func):
if not ( if not (
@ -329,23 +307,22 @@ class Portal:
raise TypeError( raise TypeError(
f'{async_gen_func} must be an async generator function!') f'{async_gen_func} must be an async generator function!')
fn_mod_path, fn_name = NamespacePath.from_ref( fn_mod_path, fn_name = func_deats(async_gen_func)
async_gen_func).to_tuple() (
ctx = await self.actor.start_remote_task( cid,
self.channel, recv_chan,
fn_mod_path, functype,
fn_name, first_msg
kwargs ) = await self._submit(fn_mod_path, fn_name, kwargs)
)
ctx._portal = self
# ensure receive-only stream entrypoint # receive only stream
assert ctx._remote_func_type == 'asyncgen' assert functype == 'asyncgen'
ctx = Context(self.channel, cid, _portal=self)
try: try:
# deliver receive only stream # deliver receive only stream
async with MsgStream( async with ReceiveMsgStream(
ctx, ctx._recv_chan, ctx, recv_chan, shield=shield
) as rchan: ) as rchan:
self._streams.add(rchan) self._streams.add(rchan)
yield rchan yield rchan
@ -360,16 +337,13 @@ class Portal:
# message right now since there shouldn't be a reason to # message right now since there shouldn't be a reason to
# stop and restart the stream, right? # stop and restart the stream, right?
try: try:
with trio.CancelScope(shield=True): await ctx.cancel()
await ctx.cancel()
except trio.ClosedResourceError: except trio.ClosedResourceError:
# if the far end terminates before we send a cancel the # if the far end terminates before we send a cancel the
# underlying transport-channel may already be closed. # underlying transport-channel may already be closed.
log.cancel(f'Context {ctx} was already closed?') log.debug(f'Context {ctx} was already closed?')
# XXX: should this always be done?
# await recv_chan.aclose()
self._streams.remove(rchan) self._streams.remove(rchan)
@asynccontextmanager @asynccontextmanager
@ -379,9 +353,8 @@ class Portal:
func: Callable, func: Callable,
**kwargs, **kwargs,
) -> AsyncGenerator[tuple[Context, Any], None]: ) -> AsyncGenerator[Tuple[Context, Any], None]:
''' '''Open an inter-actor task context.
Open an inter-actor task context.
This is a synchronous API which allows for deterministic This is a synchronous API which allows for deterministic
setup/teardown of a remote task. The yielded ``Context`` further setup/teardown of a remote task. The yielded ``Context`` further
@ -389,6 +362,7 @@ class Portal:
and synchronized final result collection. See ``tractor.Context``. and synchronized final result collection. See ``tractor.Context``.
''' '''
# conduct target func method structural checks # conduct target func method structural checks
if not inspect.iscoroutinefunction(func) and ( if not inspect.iscoroutinefunction(func) and (
getattr(func, '_tractor_contex_function', False) getattr(func, '_tractor_contex_function', False)
@ -396,51 +370,46 @@ class Portal:
raise TypeError( raise TypeError(
f'{func} must be an async generator function!') f'{func} must be an async generator function!')
fn_mod_path, fn_name = NamespacePath.from_ref(func).to_tuple() fn_mod_path, fn_name = func_deats(func)
ctx = await self.actor.start_remote_task( recv_chan: Optional[trio.MemoryReceiveChannel] = None
self.channel,
fn_mod_path,
fn_name,
kwargs
)
assert ctx._remote_func_type == 'context' cid, recv_chan, functype, first_msg = await self._submit(
msg = await ctx._recv_chan.receive() fn_mod_path, fn_name, kwargs)
assert functype == 'context'
msg = await recv_chan.receive()
try: try:
# the "first" value here is delivered by the callee's # the "first" value here is delivered by the callee's
# ``Context.started()`` call. # ``Context.started()`` call.
first = msg['started'] first = msg['started']
ctx._started_called = True
except KeyError: except KeyError:
assert msg.get('cid'), ("Received internal error at context?") assert msg.get('cid'), ("Received internal error at context?")
if msg.get('error'): if msg.get('error'):
# raise kerr from unpack_error(msg, self.channel) # raise the error message
raise unpack_error(msg, self.channel) from None raise unpack_error(msg, self.channel)
else: else:
raise MessagingError( raise
f'Context for {ctx.cid} was expecting a `started` message'
f' but received a non-error msg:\n{pformat(msg)}'
)
_err: Optional[BaseException] = None _err: Optional[BaseException] = None
ctx._portal = self
uid = self.channel.uid
cid = ctx.cid
etype: Optional[Type[BaseException]] = None
# deliver context instance and .started() msg value in open tuple. # deliver context instance and .started() msg value in open tuple.
try: try:
async with trio.open_nursery() as scope_nursery: async with trio.open_nursery() as scope_nursery:
ctx._scope_nursery = scope_nursery ctx = Context(
self.channel,
cid,
_portal=self,
_recv_chan=recv_chan,
_scope_nursery=scope_nursery,
)
# pairs with handling in ``Actor._push_result()``
# recv_chan._ctx = ctx
# do we need this?
# await trio.lowlevel.checkpoint() # await trio.lowlevel.checkpoint()
yield ctx, first yield ctx, first
except ContextCancelled as err: except ContextCancelled as err:
@ -458,109 +427,59 @@ class Portal:
log.debug(f'Context {ctx} cancelled gracefully') log.debug(f'Context {ctx} cancelled gracefully')
except ( except (
BaseException, trio.Cancelled,
trio.MultiError,
# more specifically, we need to handle these but not Exception,
# sure it's worth being pedantic:
# Exception,
# trio.Cancelled,
# KeyboardInterrupt,
) as err: ) as err:
etype = type(err) _err = err
# the context cancels itself on any cancel # the context cancels itself on any cancel
# causing error. # causing error.
log.error(f'Context {ctx} sending cancel to far end')
if ctx.chan.connected(): with trio.CancelScope(shield=True):
log.cancel(
'Context cancelled for task, sending cancel request..\n'
f'task:{cid}\n'
f'actor:{uid}'
)
await ctx.cancel() await ctx.cancel()
else:
log.warning(
'IPC connection for context is broken?\n'
f'task:{cid}\n'
f'actor:{uid}'
)
raise raise
finally: finally:
# in the case where a runtime nursery (due to internal bug) result = await ctx.result()
# or a remote actor transmits an error we want to be
# sure we get the error the underlying feeder mem chan.
# if it's not raised here it *should* be raised from the
# msg loop nursery right?
if ctx.chan.connected():
log.info(
'Waiting on final context-task result for\n'
f'task: {cid}\n'
f'actor: {uid}'
)
result = await ctx.result()
log.runtime(
f'Context {fn_name} returned '
f'value from callee `{result}`'
)
# though it should be impossible for any tasks # though it should be impossible for any tasks
# operating *in* this scope to have survived # operating *in* this scope to have survived
# we tear down the runtime feeder chan last # we tear down the runtime feeder chan last
# to avoid premature stream clobbers. # to avoid premature stream clobbers.
if ctx._recv_chan is not None: if recv_chan is not None:
# should we encapsulate this in the context api? await recv_chan.aclose()
await ctx._recv_chan.aclose()
if etype: if _err:
if ctx._cancel_called: if ctx._cancel_called:
log.cancel( log.warning(
f'Context {fn_name} cancelled by caller with\n{etype}' f'Context {fn_name} cancelled by caller with\n{_err}'
) )
elif _err is not None: elif _err is not None:
log.cancel( log.warning(
f'Context for task cancelled by callee with {etype}\n' f'Context {fn_name} cancelled by callee with\n{_err}'
f'target: `{fn_name}`\n'
f'task:{cid}\n'
f'actor:{uid}'
) )
# XXX: (MEGA IMPORTANT) if this is a root opened process we else:
# wait for any immediate child in debug before popping the log.info(
# context from the runtime msg loop otherwise inside f'Context {fn_name} returned '
# ``Actor._push_result()`` the msg will be discarded and in f'value from callee `{result}`'
# the case where that msg is global debugger unlock (via )
# a "stop" msg for a stream), this can result in a deadlock
# where the root is waiting on the lock to clear but the
# child has already cleared it and clobbered IPC.
from ._debug import maybe_wait_for_debugger
await maybe_wait_for_debugger()
# remove the context from runtime tracking
self.actor._contexts.pop(
(self.channel.uid, ctx.cid),
None,
)
@dataclass @dataclass
class LocalPortal: class LocalPortal:
''' """A 'portal' to a local ``Actor``.
A 'portal' to a local ``Actor``.
A compatibility shim for normal portals but for invoking functions A compatibility shim for normal portals but for invoking functions
using an in process actor instance. using an in process actor instance.
"""
'''
actor: 'Actor' # type: ignore # noqa actor: 'Actor' # type: ignore # noqa
channel: Channel channel: Channel
async def run_from_ns(self, ns: str, func_name: str, **kwargs) -> Any: async def run_from_ns(self, ns: str, func_name: str, **kwargs) -> Any:
''' """Run a requested local function from a namespace path and
Run a requested local function from a namespace path and
return it's result. return it's result.
''' """
obj = self.actor if ns == 'self' else importlib.import_module(ns) obj = self.actor if ns == 'self' else importlib.import_module(ns)
func = getattr(obj, func_name) func = getattr(obj, func_name)
return await func(**kwargs) return await func(**kwargs)
@ -575,13 +494,10 @@ async def open_portal(
shield: bool = False, shield: bool = False,
) -> AsyncGenerator[Portal, None]: ) -> AsyncGenerator[Portal, None]:
''' """Open a ``Portal`` through the provided ``channel``.
Open a ``Portal`` through the provided ``channel``.
Spawns a background task to handle message processing (normally Spawns a background task to handle message processing.
done by the actor-runtime implicitly). """
'''
actor = current_actor() actor = current_actor()
assert actor assert actor
was_connected = False was_connected = False
@ -597,11 +513,9 @@ async def open_portal(
msg_loop_cs: Optional[trio.CancelScope] = None msg_loop_cs: Optional[trio.CancelScope] = None
if start_msg_loop: if start_msg_loop:
from ._runtime import process_messages
msg_loop_cs = await nursery.start( msg_loop_cs = await nursery.start(
partial( partial(
process_messages, actor._process_messages,
actor,
channel, channel,
# if the local task is cancelled we want to keep # if the local task is cancelled we want to keep
# the msg loop running until our block ends # the msg loop running until our block ends
@ -611,6 +525,7 @@ async def open_portal(
portal = Portal(channel) portal = Portal(channel)
try: try:
yield portal yield portal
finally: finally:
await portal.aclose() await portal.aclose()

View File

@ -1,42 +1,17 @@
# 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/>.
'''
Root actor runtime ignition(s). Root actor runtime ignition(s).
"""
'''
from contextlib import asynccontextmanager from contextlib import asynccontextmanager
from functools import partial from functools import partial
import importlib import importlib
import logging
import signal
import sys
import os import os
from typing import Tuple, Optional, List, Any
import typing import typing
import warnings import warnings
from exceptiongroup import BaseExceptionGroup
import trio import trio
from ._runtime import ( from ._actor import Actor, Arbiter
Actor,
Arbiter,
async_main,
)
from . import _debug from . import _debug
from . import _spawn from . import _spawn
from . import _state from . import _state
@ -46,8 +21,8 @@ from ._exceptions import is_multi_cancelled
# set at startup and after forks # set at startup and after forks
_default_arbiter_host: str = '127.0.0.1' _default_arbiter_host = '127.0.0.1'
_default_arbiter_port: int = 1616 _default_arbiter_port = 1616
logger = log.get_logger('tractor') logger = log.get_logger('tractor')
@ -56,45 +31,37 @@ logger = log.get_logger('tractor')
@asynccontextmanager @asynccontextmanager
async def open_root_actor( async def open_root_actor(
*,
# defaults are above # defaults are above
arbiter_addr: tuple[str, int] | None = None, arbiter_addr: Tuple[str, int] = (
_default_arbiter_host,
_default_arbiter_port,
),
# defaults are above name: Optional[str] = 'root',
registry_addr: tuple[str, int] | None = None,
name: str | None = 'root',
# either the `multiprocessing` start method: # either the `multiprocessing` start method:
# https://docs.python.org/3/library/multiprocessing.html#contexts-and-start-methods # https://docs.python.org/3/library/multiprocessing.html#contexts-and-start-methods
# OR `trio` (the new default). # OR `trio` (the new default).
start_method: _spawn.SpawnMethodKey | None = None, start_method: Optional[str] = None,
# enables the multi-process debugger support # enables the multi-process debugger support
debug_mode: bool = False, debug_mode: bool = False,
# internal logging # internal logging
loglevel: str | None = None, loglevel: Optional[str] = None,
enable_modules: list | None = None, enable_modules: Optional[List] = None,
rpc_module_paths: list | None = None, rpc_module_paths: Optional[List] = None,
) -> typing.Any: ) -> typing.Any:
''' """Async entry point for ``tractor``.
Runtime init entry point for ``tractor``.
''' """
# Override the global debugger hook to make it play nice with # Override the global debugger hook to make it play nice with
# ``trio``, see much discussion in: # ``trio``, see:
# https://github.com/python-trio/trio/issues/1155#issuecomment-742964018 # https://github.com/python-trio/trio/issues/1155#issuecomment-742964018
builtin_bp_handler = sys.breakpointhook
orig_bp_path: str | None = os.environ.get('PYTHONBREAKPOINT', None)
os.environ['PYTHONBREAKPOINT'] = 'tractor._debug._set_trace' os.environ['PYTHONBREAKPOINT'] = 'tractor._debug._set_trace'
# attempt to retreive ``trio``'s sigint handler and stash it
# on our debugger lock state.
_debug.Lock._trio_handler = signal.getsignal(signal.SIGINT)
# mark top most level process as root actor # mark top most level process as root actor
_state._runtime_vars['_is_root'] = True _state._runtime_vars['_is_root'] = True
@ -113,25 +80,6 @@ async def open_root_actor(
if start_method is not None: if start_method is not None:
_spawn.try_set_start_method(start_method) _spawn.try_set_start_method(start_method)
if arbiter_addr is not None:
warnings.warn(
'`arbiter_addr` is now deprecated and has been renamed to'
'`registry_addr`.\nUse that instead..',
DeprecationWarning,
stacklevel=2,
)
registry_addr = (host, port) = (
registry_addr
or arbiter_addr
or (
_default_arbiter_host,
_default_arbiter_port,
)
)
loglevel = (loglevel or log._default_loglevel).upper()
if debug_mode and _spawn._spawn_method == 'trio': if debug_mode and _spawn._spawn_method == 'trio':
_state._runtime_vars['_debug_mode'] = True _state._runtime_vars['_debug_mode'] = True
@ -139,41 +87,38 @@ async def open_root_actor(
# for use of ``await tractor.breakpoint()`` # for use of ``await tractor.breakpoint()``
enable_modules.append('tractor._debug') enable_modules.append('tractor._debug')
# if debug mode get's enabled *at least* use that level of if loglevel is None:
# logging for some informative console prompts. loglevel = 'pdb'
if (
logging.getLevelName(
# lul, need the upper case for the -> int map?
# sweet "dynamic function behaviour" stdlib...
loglevel,
) > logging.getLevelName('PDB')
):
loglevel = 'PDB'
elif debug_mode: elif debug_mode:
raise RuntimeError( raise RuntimeError(
"Debug mode is only supported for the `trio` backend!" "Debug mode is only supported for the `trio` backend!"
) )
log.get_console_log(loglevel) arbiter_addr = (host, port) = arbiter_addr or (
_default_arbiter_host,
_default_arbiter_port
)
loglevel = loglevel or log.get_loglevel()
if loglevel is not None:
log._default_loglevel = loglevel
log.get_console_log(loglevel)
# make a temporary connection to see if an arbiter exists
arbiter_found = False
try: try:
# make a temporary connection to see if an arbiter exists,
# if one can't be made quickly we assume none exists.
arbiter_found = False
# TODO: this connect-and-bail forces us to have to carefully # TODO: this connect-and-bail forces us to have to carefully
# rewrap TCP 104-connection-reset errors as EOF so as to avoid # rewrap TCP 104-connection-reset errors as EOF so as to avoid
# propagating cancel-causing errors to the channel-msg loop # propagating cancel-causing errors to the channel-msg loop
# machinery. Likely it would be better to eventually have # machinery. Likely it would be better to eventually have
# a "discovery" protocol with basic handshake instead. # a "discovery" protocol with basic handshake instead.
with trio.move_on_after(1): async with _connect_chan(host, port):
async with _connect_chan(host, port): arbiter_found = True
arbiter_found = True
except OSError: except OSError:
# TODO: make this a "discovery" log level? logger.warning(f"No actor could be found @ {host}:{port}")
logger.warning(f"No actor registry found @ {host}:{port}")
# create a local actor and start up its main routine/task # create a local actor and start up its main routine/task
if arbiter_found: if arbiter_found:
@ -183,7 +128,7 @@ async def open_root_actor(
actor = Actor( actor = Actor(
name or 'anonymous', name or 'anonymous',
arbiter_addr=registry_addr, arbiter_addr=arbiter_addr,
loglevel=loglevel, loglevel=loglevel,
enable_modules=enable_modules, enable_modules=enable_modules,
) )
@ -199,7 +144,7 @@ async def open_root_actor(
actor = Arbiter( actor = Arbiter(
name or 'arbiter', name or 'arbiter',
arbiter_addr=registry_addr, arbiter_addr=arbiter_addr,
loglevel=loglevel, loglevel=loglevel,
enable_modules=enable_modules, enable_modules=enable_modules,
) )
@ -215,14 +160,13 @@ async def open_root_actor(
# start the actor runtime in a new task # start the actor runtime in a new task
async with trio.open_nursery() as nursery: async with trio.open_nursery() as nursery:
# ``_runtime.async_main()`` creates an internal nursery and # ``Actor._async_main()`` creates an internal nursery and
# thus blocks here until the entire underlying actor tree has # thus blocks here until the entire underlying actor tree has
# terminated thereby conducting structured concurrency. # terminated thereby conducting structured concurrency.
await nursery.start( await nursery.start(
partial( partial(
async_main, actor._async_main,
actor,
accept_addr=(host, port), accept_addr=(host, port),
parent_addr=None parent_addr=None
) )
@ -230,10 +174,7 @@ async def open_root_actor(
try: try:
yield actor yield actor
except ( except (Exception, trio.MultiError) as err:
Exception,
BaseExceptionGroup,
) as err:
entered = await _debug._maybe_enter_pm(err) entered = await _debug._maybe_enter_pm(err)
@ -244,69 +185,71 @@ async def open_root_actor(
raise raise
finally: finally:
# NOTE: not sure if we'll ever need this but it's logger.info("Shutting down root actor")
# possibly better for even more determinism?
# logger.cancel(
# f'Waiting on {len(nurseries)} nurseries in root..')
# nurseries = actor._actoruid2nursery.values()
# async with trio.open_nursery() as tempn:
# for an in nurseries:
# tempn.start_soon(an.exited.wait)
logger.cancel("Shutting down root actor")
await actor.cancel() await actor.cancel()
finally: finally:
_state._current_actor = None _state._current_actor = None
logger.info("Root actor terminated")
# restore breakpoint hook state
sys.breakpointhook = builtin_bp_handler
if orig_bp_path is not None:
os.environ['PYTHONBREAKPOINT'] = orig_bp_path
else:
# clear env back to having no entry
os.environ.pop('PYTHONBREAKPOINT')
logger.runtime("Root actor terminated")
def run_daemon( def run(
enable_modules: list[str],
# target
async_fn: typing.Callable[..., typing.Awaitable],
*args,
# runtime kwargs # runtime kwargs
name: str | None = 'root', name: Optional[str] = 'root',
registry_addr: tuple[str, int] = ( arbiter_addr: Tuple[str, int] = (
_default_arbiter_host, _default_arbiter_host,
_default_arbiter_port, _default_arbiter_port,
), ),
start_method: str | None = None, start_method: Optional[str] = None,
debug_mode: bool = False, debug_mode: bool = False,
**kwargs **kwargs,
) -> None: ) -> Any:
''' """Run a trio-actor async function in process.
Spawn daemon actor which will respond to RPC; the main task simply
starts the runtime and then sleeps forever.
This is a very minimal convenience wrapper around starting
a "run-until-cancelled" root actor which can be started with a set
of enabled modules for RPC request handling.
'''
kwargs['enable_modules'] = list(enable_modules)
for path in enable_modules:
importlib.import_module(path)
This is tractor's main entry and the start point for any async actor.
"""
async def _main(): async def _main():
async with open_root_actor( async with open_root_actor(
registry_addr=registry_addr, arbiter_addr=arbiter_addr,
name=name, name=name,
start_method=start_method, start_method=start_method,
debug_mode=debug_mode, debug_mode=debug_mode,
**kwargs, **kwargs,
): ):
return await trio.sleep_forever()
return await async_fn(*args)
warnings.warn(
"`tractor.run()` is now deprecated. `tractor` now"
" implicitly starts the root actor on first actor nursery"
" use. If you want to start the root actor manually, use"
" `tractor.open_root_actor()`.",
DeprecationWarning,
stacklevel=2,
)
return trio.run(_main) return trio.run(_main)
def run_daemon(
rpc_module_paths: List[str],
**kwargs
) -> None:
"""Spawn daemon actor which will respond to RPC.
This is a convenience wrapper around
``tractor.run(trio.sleep(float('inf')))`` such that the first actor spawned
is meant to run forever responding to RPC requests.
"""
kwargs['rpc_module_paths'] = list(rpc_module_paths)
for path in rpc_module_paths:
importlib.import_module(path)
return run(partial(trio.sleep, float('inf')), **kwargs)

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@ -1,145 +1,105 @@
# 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/>.
""" """
Machinery for actor process spawning using multiple backends. Machinery for actor process spawning using multiple backends.
""" """
from __future__ import annotations
import sys import sys
import multiprocessing as mp
import platform import platform
from typing import ( from typing import Any, Dict, Optional
Any,
Awaitable,
Literal,
Callable,
TypeVar,
TYPE_CHECKING,
)
from exceptiongroup import BaseExceptionGroup
import trio import trio
from trio_typing import TaskStatus from trio_typing import TaskStatus
from async_generator import asynccontextmanager
from ._debug import ( try:
maybe_wait_for_debugger, from multiprocessing import semaphore_tracker # type: ignore
acquire_debug_lock, resource_tracker = semaphore_tracker
) resource_tracker._resource_tracker = resource_tracker._semaphore_tracker
except ImportError:
# 3.8 introduces a more general version that also tracks shared mems
from multiprocessing import resource_tracker # type: ignore
from multiprocessing import forkserver # type: ignore
from typing import Tuple
from . import _forkserver_override
from ._state import ( from ._state import (
current_actor, current_actor,
is_main_process, is_main_process,
is_root_process,
debug_mode,
) )
from .log import get_logger from .log import get_logger
from ._portal import Portal from ._portal import Portal
from ._runtime import Actor from ._actor import Actor
from ._entry import _mp_main from ._entry import _mp_main
from ._exceptions import ActorFailure from ._exceptions import ActorFailure
if TYPE_CHECKING:
from ._supervise import ActorNursery
import multiprocessing as mp
ProcessType = TypeVar('ProcessType', mp.Process, trio.Process)
log = get_logger('tractor') log = get_logger('tractor')
# placeholder for an mp start context if so using that backend # placeholder for an mp start context if so using that backend
_ctx: mp.context.BaseContext | None = None _ctx: Optional[mp.context.BaseContext] = None
SpawnMethodKey = Literal[ _spawn_method: str = "spawn"
'trio', # supported on all platforms
'mp_spawn',
'mp_forkserver', # posix only
]
_spawn_method: SpawnMethodKey = 'trio'
if platform.system() == 'Windows': if platform.system() == 'Windows':
_spawn_method = "spawn"
import multiprocessing as mp
_ctx = mp.get_context("spawn") _ctx = mp.get_context("spawn")
async def proc_waiter(proc: mp.Process) -> None: async def proc_waiter(proc: mp.Process) -> None:
await trio.lowlevel.WaitForSingleObject(proc.sentinel) await trio.lowlevel.WaitForSingleObject(proc.sentinel)
else: else:
# *NIX systems use ``trio`` primitives as our default as well # *NIX systems use ``trio`` primitives as our default
_spawn_method = "trio"
async def proc_waiter(proc: mp.Process) -> None: async def proc_waiter(proc: mp.Process) -> None:
await trio.lowlevel.wait_readable(proc.sentinel) await trio.lowlevel.wait_readable(proc.sentinel)
def try_set_start_method( def try_set_start_method(name: str) -> Optional[mp.context.BaseContext]:
key: SpawnMethodKey """Attempt to set the method for process starting, aka the "actor
) -> mp.context.BaseContext | None:
'''
Attempt to set the method for process starting, aka the "actor
spawning backend". spawning backend".
If the desired method is not supported this function will error. If the desired method is not supported this function will error.
On Windows only the ``multiprocessing`` "spawn" method is offered On Windows only the ``multiprocessing`` "spawn" method is offered
besides the default ``trio`` which uses async wrapping around besides the default ``trio`` which uses async wrapping around
``subprocess.Popen``. ``subprocess.Popen``.
"""
'''
import multiprocessing as mp
global _ctx global _ctx
global _spawn_method global _spawn_method
mp_methods = mp.get_all_start_methods() methods = mp.get_all_start_methods()
if 'fork' in mp_methods: if 'fork' in methods:
# forking is incompatible with ``trio``s global task tree # forking is incompatible with ``trio``s global task tree
mp_methods.remove('fork') methods.remove('fork')
match key: # supported on all platforms
case 'mp_forkserver': methods += ['trio']
from . import _forkserver_override
_forkserver_override.override_stdlib()
_ctx = mp.get_context('forkserver')
case 'mp_spawn': if name not in methods:
_ctx = mp.get_context('spawn') raise ValueError(
f"Spawn method `{name}` is invalid please choose one of {methods}"
)
elif name == 'forkserver':
_forkserver_override.override_stdlib()
_ctx = mp.get_context(name)
elif name == 'trio':
_ctx = None
else:
_ctx = mp.get_context(name)
case 'trio': _spawn_method = name
_ctx = None
case _:
raise ValueError(
f'Spawn method `{key}` is invalid!\n'
f'Please choose one of {SpawnMethodKey}'
)
_spawn_method = key
return _ctx return _ctx
async def exhaust_portal( async def exhaust_portal(
portal: Portal, portal: Portal,
actor: Actor actor: Actor
) -> Any: ) -> Any:
''' """Pull final result from portal (assuming it has one).
Pull final result from portal (assuming it has one).
If the main task is an async generator do our best to consume If the main task is an async generator do our best to consume
what's left of it. what's left of it.
''' """
__tracebackhide__ = True
try: try:
log.debug(f"Waiting on final result from {actor.uid}") log.debug(f"Waiting on final result from {actor.uid}")
@ -147,11 +107,8 @@ async def exhaust_portal(
# always be established and shutdown using a context manager api # always be established and shutdown using a context manager api
final = await portal.result() final = await portal.result()
except ( except (Exception, trio.MultiError) as err:
Exception, # we reraise in the parent task via a ``trio.MultiError``
BaseExceptionGroup,
) as err:
# we reraise in the parent task via a ``BaseExceptionGroup``
return err return err
except trio.Cancelled as err: except trio.Cancelled as err:
# lol, of course we need this too ;P # lol, of course we need this too ;P
@ -164,190 +121,65 @@ async def exhaust_portal(
async def cancel_on_completion( async def cancel_on_completion(
portal: Portal, portal: Portal,
actor: Actor, actor: Actor,
errors: dict[tuple[str, str], Exception], errors: Dict[Tuple[str, str], Exception],
task_status: TaskStatus[trio.CancelScope] = trio.TASK_STATUS_IGNORED,
) -> None: ) -> None:
''' """Cancel actor gracefully once it's "main" portal's
Cancel actor gracefully once it's "main" portal's
result arrives. result arrives.
Should only be called for actors spawned with `run_in_actor()`. Should only be called for actors spawned with `run_in_actor()`.
"""
with trio.CancelScope() as cs:
''' task_status.started(cs)
# if this call errors we store the exception for later
# in ``errors`` which will be reraised inside
# an exception group and we still send out a cancel request
result = await exhaust_portal(portal, actor)
if isinstance(result, Exception):
errors[actor.uid] = result
log.warning(
f"Cancelling {portal.channel.uid} after error {result}"
)
else: # if this call errors we store the exception for later
log.runtime( # in ``errors`` which will be reraised inside
f"Cancelling {portal.channel.uid} gracefully " # a MultiError and we still send out a cancel request
f"after result {result}") result = await exhaust_portal(portal, actor)
if isinstance(result, Exception):
errors[actor.uid] = result
log.warning(
f"Cancelling {portal.channel.uid} after error {result}"
)
# cancel the process now that we have a final result else:
await portal.cancel_actor() log.runtime(
f"Cancelling {portal.channel.uid} gracefully "
f"after result {result}")
# cancel the process now that we have a final result
await portal.cancel_actor()
async def do_hard_kill( async def do_hard_kill(
proc: trio.Process, proc: trio.Process,
terminate_after: int = 3,
) -> None: ) -> None:
# NOTE: this timeout used to do nothing since we were shielding # NOTE: this timeout used to do nothing since we were shielding
# the ``.wait()`` inside ``new_proc()`` which will pretty much # the ``.wait()`` inside ``new_proc()`` which will pretty much
# never release until the process exits, now it acts as # never release until the process exits, now it acts as
# a hard-kill time ultimatum. # a hard-kill time ultimatum.
log.debug(f"Terminating {proc}") with trio.move_on_after(3) as cs:
with trio.move_on_after(terminate_after) as cs:
# NOTE: code below was copied verbatim from the now deprecated # NOTE: This ``__aexit__()`` shields internally.
# (in 0.20.0) ``trio._subrocess.Process.aclose()``, orig doc async with proc: # calls ``trio.Process.aclose()``
# string: log.debug(f"Terminating {proc}")
#
# Close any pipes we have to the process (both input and output)
# and wait for it to exit. If cancelled, kills the process and
# waits for it to finish exiting before propagating the
# cancellation.
with trio.CancelScope(shield=True):
if proc.stdin is not None:
await proc.stdin.aclose()
if proc.stdout is not None:
await proc.stdout.aclose()
if proc.stderr is not None:
await proc.stderr.aclose()
try:
await proc.wait()
finally:
if proc.returncode is None:
proc.kill()
with trio.CancelScope(shield=True):
await proc.wait()
if cs.cancelled_caught: if cs.cancelled_caught:
# XXX: should pretty much never get here unless we have # XXX: should pretty much never get here unless we have
# to move the bits from ``proc.__aexit__()`` out and # to move the bits from ``proc.__aexit__()`` out and
# into here. # into here.
log.critical(f"#ZOMBIE_LORD_IS_HERE: {proc}") log.critical(f"HARD KILLING {proc}")
proc.kill() proc.kill()
async def soft_wait( @asynccontextmanager
async def spawn_subactor(
proc: ProcessType, subactor: 'Actor',
wait_func: Callable[ parent_addr: Tuple[str, int],
[ProcessType], ):
Awaitable,
],
portal: Portal,
) -> None:
# Wait for proc termination but **dont' yet** call
# ``trio.Process.__aexit__()`` (it tears down stdio
# which will kill any waiting remote pdb trace).
# This is a "soft" (cancellable) join/reap.
uid = portal.channel.uid
try:
log.cancel(f'Soft waiting on actor:\n{uid}')
await wait_func(proc)
except trio.Cancelled:
# if cancelled during a soft wait, cancel the child
# actor before entering the hard reap sequence
# below. This means we try to do a graceful teardown
# via sending a cancel message before getting out
# zombie killing tools.
async with trio.open_nursery() as n:
n.cancel_scope.shield = True
async def cancel_on_proc_deth():
'''
Cancel the actor cancel request if we detect that
that the process terminated.
'''
await wait_func(proc)
n.cancel_scope.cancel()
n.start_soon(cancel_on_proc_deth)
await portal.cancel_actor()
if proc.poll() is None: # type: ignore
log.warning(
'Actor still alive after cancel request:\n'
f'{uid}'
)
n.cancel_scope.cancel()
raise
async def new_proc(
name: str,
actor_nursery: ActorNursery,
subactor: Actor,
errors: dict[tuple[str, str], Exception],
# passed through to actor main
bind_addr: tuple[str, int],
parent_addr: tuple[str, int],
_runtime_vars: dict[str, Any], # serialized and sent to _child
*,
infect_asyncio: bool = False,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED
) -> None:
# lookup backend spawning target
target = _methods[_spawn_method]
# mark the new actor with the global spawn method
subactor._spawn_method = _spawn_method
await target(
name,
actor_nursery,
subactor,
errors,
bind_addr,
parent_addr,
_runtime_vars, # run time vars
infect_asyncio=infect_asyncio,
task_status=task_status,
)
async def trio_proc(
name: str,
actor_nursery: ActorNursery,
subactor: Actor,
errors: dict[tuple[str, str], Exception],
# passed through to actor main
bind_addr: tuple[str, int],
parent_addr: tuple[str, int],
_runtime_vars: dict[str, Any], # serialized and sent to _child
*,
infect_asyncio: bool = False,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED
) -> None:
'''
Create a new ``Process`` using a "spawn method" as (configured using
``try_set_start_method()``).
This routine should be started in a actor runtime task and the logic
here is to be considered the core supervision strategy.
'''
spawn_cmd = [ spawn_cmd = [
sys.executable, sys.executable,
"-m", "-m",
@ -370,310 +202,281 @@ async def trio_proc(
"--loglevel", "--loglevel",
subactor.loglevel subactor.loglevel
] ]
# Tell child to run in guest mode on top of ``asyncio`` loop
if infect_asyncio:
spawn_cmd.append("--asyncio")
cancelled_during_spawn: bool = False proc = await trio.open_process(spawn_cmd)
proc: trio.Process | None = None
try: try:
yield proc
finally:
log.runtime(f"Attempting to kill {proc}")
# XXX: do this **after** cancellation/tearfown
# to avoid killing the process too early
# since trio does this internally on ``__aexit__()``
await do_hard_kill(proc)
async def new_proc(
name: str,
actor_nursery: 'ActorNursery', # type: ignore # noqa
subactor: Actor,
errors: Dict[Tuple[str, str], Exception],
# passed through to actor main
bind_addr: Tuple[str, int],
parent_addr: Tuple[str, int],
_runtime_vars: Dict[str, Any], # serialized and sent to _child
*,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED
) -> None:
"""Create a new ``multiprocessing.Process`` using the
spawn method as configured using ``try_set_start_method()``.
"""
cancel_scope = None
# mark the new actor with the global spawn method
subactor._spawn_method = _spawn_method
if _spawn_method == 'trio':
async with trio.open_nursery() as nursery:
async with spawn_subactor(
subactor,
parent_addr,
) as proc:
log.runtime(f"Started {proc}")
# wait for actor to spawn and connect back to us
# channel should have handshake completed by the
# local actor by the time we get a ref to it
event, chan = await actor_nursery._actor.wait_for_peer(
subactor.uid)
portal = Portal(chan)
actor_nursery._children[subactor.uid] = (
subactor, proc, portal)
# send additional init params
await chan.send({
"_parent_main_data": subactor._parent_main_data,
"enable_modules": subactor.enable_modules,
"_arb_addr": subactor._arb_addr,
"bind_host": bind_addr[0],
"bind_port": bind_addr[1],
"_runtime_vars": _runtime_vars,
})
# track subactor in current nursery
curr_actor = current_actor()
curr_actor._actoruid2nursery[subactor.uid] = actor_nursery
# resume caller at next checkpoint now that child is up
task_status.started(portal)
# wait for ActorNursery.wait() to be called
with trio.CancelScope(shield=True):
await actor_nursery._join_procs.wait()
if portal in actor_nursery._cancel_after_result_on_exit:
cancel_scope = await nursery.start(
cancel_on_completion,
portal,
subactor,
errors
)
# Wait for proc termination but **dont' yet** call
# ``trio.Process.__aexit__()`` (it tears down stdio
# which will kill any waiting remote pdb trace).
# TODO: No idea how we can enforce zombie
# reaping more stringently without the shield
# we used to have below...
# with trio.CancelScope(shield=True):
# async with proc:
# Always "hard" join sub procs since no actor zombies
# are allowed!
# this is a "light" (cancellable) join, the hard join is
# in the enclosing scope (see above).
await proc.wait()
log.debug(f"Joined {proc}")
# pop child entry to indicate we no longer managing this subactor
subactor, proc, portal = actor_nursery._children.pop(subactor.uid)
# cancel result waiter that may have been spawned in
# tandem if not done already
if cancel_scope:
log.warning(
"Cancelling existing result waiter task for "
f"{subactor.uid}")
cancel_scope.cancel()
else:
# `multiprocessing`
# async with trio.open_nursery() as nursery:
await mp_new_proc(
name=name,
actor_nursery=actor_nursery,
subactor=subactor,
errors=errors,
# passed through to actor main
bind_addr=bind_addr,
parent_addr=parent_addr,
_runtime_vars=_runtime_vars,
task_status=task_status,
)
async def mp_new_proc(
name: str,
actor_nursery: 'ActorNursery', # type: ignore # noqa
subactor: Actor,
errors: Dict[Tuple[str, str], Exception],
# passed through to actor main
bind_addr: Tuple[str, int],
parent_addr: Tuple[str, int],
_runtime_vars: Dict[str, Any], # serialized and sent to _child
*,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED
) -> None:
async with trio.open_nursery() as nursery:
assert _ctx
start_method = _ctx.get_start_method()
if start_method == 'forkserver':
# XXX do our hackery on the stdlib to avoid multiple
# forkservers (one at each subproc layer).
fs = forkserver._forkserver
curr_actor = current_actor()
if is_main_process() and not curr_actor._forkserver_info:
# if we're the "main" process start the forkserver
# only once and pass its ipc info to downstream
# children
# forkserver.set_forkserver_preload(enable_modules)
forkserver.ensure_running()
fs_info = (
fs._forkserver_address,
fs._forkserver_alive_fd,
getattr(fs, '_forkserver_pid', None),
getattr(
resource_tracker._resource_tracker, '_pid', None),
resource_tracker._resource_tracker._fd,
)
else:
assert curr_actor._forkserver_info
fs_info = (
fs._forkserver_address,
fs._forkserver_alive_fd,
fs._forkserver_pid,
resource_tracker._resource_tracker._pid,
resource_tracker._resource_tracker._fd,
) = curr_actor._forkserver_info
else:
fs_info = (None, None, None, None, None)
proc: mp.Process = _ctx.Process( # type: ignore
target=_mp_main,
args=(
subactor,
bind_addr,
fs_info,
start_method,
parent_addr,
),
# daemon=True,
name=name,
)
# `multiprocessing` only (since no async interface):
# register the process before start in case we get a cancel
# request before the actor has fully spawned - then we can wait
# for it to fully come up before sending a cancel request
actor_nursery._children[subactor.uid] = (subactor, proc, None)
proc.start()
if not proc.is_alive():
raise ActorFailure("Couldn't start sub-actor?")
log.runtime(f"Started {proc}")
try: try:
# TODO: needs ``trio_typing`` patch?
proc = await trio.lowlevel.open_process(spawn_cmd)
log.runtime(f"Started {proc}")
# wait for actor to spawn and connect back to us # wait for actor to spawn and connect back to us
# channel should have handshake completed by the # channel should have handshake completed by the
# local actor by the time we get a ref to it # local actor by the time we get a ref to it
event, chan = await actor_nursery._actor.wait_for_peer( event, chan = await actor_nursery._actor.wait_for_peer(
subactor.uid) subactor.uid)
portal = Portal(chan)
actor_nursery._children[subactor.uid] = (subactor, proc, portal)
except trio.Cancelled: # unblock parent task
cancelled_during_spawn = True task_status.started(portal)
# we may cancel before the child connects back in which
# case avoid clobbering the pdb tty.
if debug_mode():
with trio.CancelScope(shield=True):
# don't clobber an ongoing pdb
if is_root_process():
await maybe_wait_for_debugger()
elif proc is not None: # wait for ``ActorNursery`` block to signal that
async with acquire_debug_lock(subactor.uid): # subprocesses can be waited upon.
# soft wait on the proc to terminate # This is required to ensure synchronization
with trio.move_on_after(0.5): # with user code that may want to manually await results
await proc.wait() # from nursery spawned sub-actors. We don't want the
raise # containing nurseries here to collect results or error
# while user code is still doing it's thing. Only after the
# a sub-proc ref **must** exist now # nursery block closes do we allow subactor results to be
assert proc # awaited and reported upwards to the supervisor.
portal = Portal(chan)
actor_nursery._children[subactor.uid] = (
subactor,
proc,
portal,
)
# send additional init params
await chan.send({
"_parent_main_data": subactor._parent_main_data,
"enable_modules": subactor.enable_modules,
"_arb_addr": subactor._arb_addr,
"bind_host": bind_addr[0],
"bind_port": bind_addr[1],
"_runtime_vars": _runtime_vars,
})
# track subactor in current nursery
curr_actor = current_actor()
curr_actor._actoruid2nursery[subactor.uid] = actor_nursery
# resume caller at next checkpoint now that child is up
task_status.started(portal)
# wait for ActorNursery.wait() to be called
with trio.CancelScope(shield=True):
await actor_nursery._join_procs.wait() await actor_nursery._join_procs.wait()
async with trio.open_nursery() as nursery: finally:
# XXX: in the case we were cancelled before the sub-proc
# registered itself back we must be sure to try and clean
# any process we may have started.
reaping_cancelled: bool = False
cancel_scope: Optional[trio.CancelScope] = None
cancel_exc: Optional[trio.Cancelled] = None
if portal in actor_nursery._cancel_after_result_on_exit: if portal in actor_nursery._cancel_after_result_on_exit:
nursery.start_soon( try:
cancel_on_completion, # async with trio.open_nursery() as n:
portal, # n.cancel_scope.shield = True
subactor, cancel_scope = await nursery.start(
errors cancel_on_completion,
) portal,
subactor,
# This is a "soft" (cancellable) join/reap which errors
# will remote cancel the actor on a ``trio.Cancelled``
# condition.
await soft_wait(
proc,
trio.Process.wait,
portal
)
# cancel result waiter that may have been spawned in
# tandem if not done already
log.warning(
"Cancelling existing result waiter task for "
f"{subactor.uid}")
nursery.cancel_scope.cancel()
finally:
# XXX NOTE XXX: The "hard" reap since no actor zombies are
# allowed! Do this **after** cancellation/teardown to avoid
# killing the process too early.
if proc:
log.cancel(f'Hard reap sequence starting for {subactor.uid}')
with trio.CancelScope(shield=True):
# don't clobber an ongoing pdb
if cancelled_during_spawn:
# Try again to avoid TTY clobbering.
async with acquire_debug_lock(subactor.uid):
with trio.move_on_after(0.5):
await proc.wait()
if is_root_process():
# TODO: solve the following issue where we need
# to do a similar wait like this but in an
# "intermediary" parent actor that itself isn't
# in debug but has a child that is, and we need
# to hold off on relaying SIGINT until that child
# is complete.
# https://github.com/goodboy/tractor/issues/320
await maybe_wait_for_debugger(
child_in_debug=_runtime_vars.get(
'_debug_mode', False),
) )
except trio.Cancelled as err:
cancel_exc = err
if proc.poll() is None: # if the reaping task was cancelled we may have hit
log.cancel(f"Attempting to hard kill {proc}") # a race where the subproc disconnected before we
await do_hard_kill(proc) # could send it a message to cancel (classic 2 generals)
# in that case, wait shortly then kill the process.
reaping_cancelled = True
log.debug(f"Joined {proc}") if proc.is_alive():
else: with trio.move_on_after(0.1) as cs:
log.warning('Nursery cancelled before sub-proc started') cs.shield = True
await proc_waiter(proc)
if not cancelled_during_spawn: if cs.cancelled_caught:
# pop child entry to indicate we no longer managing this proc.terminate()
# subactor
actor_nursery._children.pop(subactor.uid)
if not reaping_cancelled and proc.is_alive():
async def mp_proc(
name: str,
actor_nursery: ActorNursery, # type: ignore # noqa
subactor: Actor,
errors: dict[tuple[str, str], Exception],
# passed through to actor main
bind_addr: tuple[str, int],
parent_addr: tuple[str, int],
_runtime_vars: dict[str, Any], # serialized and sent to _child
*,
infect_asyncio: bool = False,
task_status: TaskStatus[Portal] = trio.TASK_STATUS_IGNORED
) -> None:
# uggh zone
try:
from multiprocessing import semaphore_tracker # type: ignore
resource_tracker = semaphore_tracker
resource_tracker._resource_tracker = resource_tracker._semaphore_tracker # noqa
except ImportError:
# 3.8 introduces a more general version that also tracks shared mems
from multiprocessing import resource_tracker # type: ignore
assert _ctx
start_method = _ctx.get_start_method()
if start_method == 'forkserver':
from multiprocessing import forkserver # type: ignore
# XXX do our hackery on the stdlib to avoid multiple
# forkservers (one at each subproc layer).
fs = forkserver._forkserver
curr_actor = current_actor()
if is_main_process() and not curr_actor._forkserver_info:
# if we're the "main" process start the forkserver
# only once and pass its ipc info to downstream
# children
# forkserver.set_forkserver_preload(enable_modules)
forkserver.ensure_running()
fs_info = (
fs._forkserver_address, # type: ignore # noqa
fs._forkserver_alive_fd, # type: ignore # noqa
getattr(fs, '_forkserver_pid', None),
getattr(
resource_tracker._resource_tracker, '_pid', None),
resource_tracker._resource_tracker._fd,
)
else: # request to forkerserver to fork a new child
assert curr_actor._forkserver_info
fs_info = (
fs._forkserver_address, # type: ignore # noqa
fs._forkserver_alive_fd, # type: ignore # noqa
fs._forkserver_pid, # type: ignore # noqa
resource_tracker._resource_tracker._pid,
resource_tracker._resource_tracker._fd,
) = curr_actor._forkserver_info
else:
# spawn method
fs_info = (None, None, None, None, None)
proc: mp.Process = _ctx.Process( # type: ignore
target=_mp_main,
args=(
subactor,
bind_addr,
fs_info,
_spawn_method,
parent_addr,
infect_asyncio,
),
# daemon=True,
name=name,
)
# `multiprocessing` only (since no async interface):
# register the process before start in case we get a cancel
# request before the actor has fully spawned - then we can wait
# for it to fully come up before sending a cancel request
actor_nursery._children[subactor.uid] = (subactor, proc, None)
proc.start()
if not proc.is_alive():
raise ActorFailure("Couldn't start sub-actor?")
log.runtime(f"Started {proc}")
try:
# wait for actor to spawn and connect back to us
# channel should have handshake completed by the
# local actor by the time we get a ref to it
event, chan = await actor_nursery._actor.wait_for_peer(
subactor.uid)
# XXX: monkey patch poll API to match the ``subprocess`` API..
# not sure why they don't expose this but kk.
proc.poll = lambda: proc.exitcode # type: ignore
# except:
# TODO: in the case we were cancelled before the sub-proc
# registered itself back we must be sure to try and clean
# any process we may have started.
portal = Portal(chan)
actor_nursery._children[subactor.uid] = (subactor, proc, portal)
# unblock parent task
task_status.started(portal)
# wait for ``ActorNursery`` block to signal that
# subprocesses can be waited upon.
# This is required to ensure synchronization
# with user code that may want to manually await results
# from nursery spawned sub-actors. We don't want the
# containing nurseries here to collect results or error
# while user code is still doing it's thing. Only after the
# nursery block closes do we allow subactor results to be
# awaited and reported upwards to the supervisor.
with trio.CancelScope(shield=True):
await actor_nursery._join_procs.wait()
async with trio.open_nursery() as nursery:
if portal in actor_nursery._cancel_after_result_on_exit:
nursery.start_soon(
cancel_on_completion,
portal,
subactor,
errors
)
# This is a "soft" (cancellable) join/reap which
# will remote cancel the actor on a ``trio.Cancelled``
# condition.
await soft_wait(
proc,
proc_waiter,
portal
)
# cancel result waiter that may have been spawned in
# tandem if not done already
log.warning(
"Cancelling existing result waiter task for "
f"{subactor.uid}")
nursery.cancel_scope.cancel()
finally:
# hard reap sequence
if proc.is_alive():
log.cancel(f"Attempting to hard kill {proc}")
with trio.move_on_after(0.1) as cs:
cs.shield = True
await proc_waiter(proc) await proc_waiter(proc)
if cs.cancelled_caught: # TODO: timeout block here?
proc.terminate() proc.join()
proc.join() log.debug(f"Joined {proc}")
log.debug(f"Joined {proc}") # pop child entry to indicate we are no longer managing subactor
subactor, proc, portal = actor_nursery._children.pop(subactor.uid)
# pop child entry to indicate we are no longer managing subactor # cancel result waiter that may have been spawned in
actor_nursery._children.pop(subactor.uid) # tandem if not done already
if cancel_scope:
log.warning(
"Cancelling existing result waiter task for "
f"{subactor.uid}")
cancel_scope.cancel()
# TODO: prolly report to ``mypy`` how this causes all sorts of elif reaping_cancelled: # let the cancellation bubble up
# false errors.. assert cancel_exc
# subactor, proc, portal = actor_nursery._children.pop(subactor.uid) raise cancel_exc
# proc spawning backend target map
_methods: dict[SpawnMethodKey, Callable] = {
'trio': trio_proc,
'mp_spawn': mp_proc,
'mp_forkserver': mp_proc,
}

View File

@ -1,27 +1,9 @@
# 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/>.
""" """
Per process state Per process state
""" """
from typing import ( from typing import Optional, Dict, Any
Optional, from collections.abc import Mapping
Any, import multiprocessing as mp
)
import trio import trio
@ -29,7 +11,7 @@ from ._exceptions import NoRuntime
_current_actor: Optional['Actor'] = None # type: ignore # noqa _current_actor: Optional['Actor'] = None # type: ignore # noqa
_runtime_vars: dict[str, Any] = { _runtime_vars: Dict[str, Any] = {
'_debug_mode': False, '_debug_mode': False,
'_is_root': False, '_is_root': False,
'_root_mailbox': (None, None) '_root_mailbox': (None, None)
@ -45,10 +27,33 @@ def current_actor(err_on_no_runtime: bool = True) -> 'Actor': # type: ignore #
return _current_actor return _current_actor
_conc_name_getters = {
'task': trio.lowlevel.current_task,
'actor': current_actor
}
class ActorContextInfo(Mapping):
"Dyanmic lookup for local actor and task names"
_context_keys = ('task', 'actor')
def __len__(self):
return len(self._context_keys)
def __iter__(self):
return iter(self._context_keys)
def __getitem__(self, key: str) -> str:
try:
return _conc_name_getters[key]().name # type: ignore
except RuntimeError:
# no local actor/task context initialized yet
return f'no {key} context'
def is_main_process() -> bool: def is_main_process() -> bool:
"""Bool determining if this actor is running in the top-most process. """Bool determining if this actor is running in the top-most process.
""" """
import multiprocessing as mp
return mp.current_process().name == 'MainProcess' return mp.current_process().name == 'MainProcess'

View File

@ -1,32 +1,14 @@
# 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/>.
""" """
Message stream types and APIs. Message stream types and APIs.
""" """
from __future__ import annotations from __future__ import annotations
import inspect import inspect
from contextlib import asynccontextmanager from contextlib import contextmanager, asynccontextmanager
from dataclasses import dataclass from dataclasses import dataclass
from typing import ( from typing import (
Any, Any, Iterator, Optional, Callable,
Optional, AsyncGenerator, Dict,
Callable,
AsyncGenerator,
AsyncIterator AsyncIterator
) )
@ -37,26 +19,23 @@ import trio
from ._ipc import Channel from ._ipc import Channel
from ._exceptions import unpack_error, ContextCancelled from ._exceptions import unpack_error, ContextCancelled
from ._state import current_actor from ._state import current_actor
from ._broadcast import broadcast_receiver, BroadcastReceiver
from .log import get_logger from .log import get_logger
from .trionics import broadcast_receiver, BroadcastReceiver
log = get_logger(__name__) log = get_logger(__name__)
# TODO: the list # TODO: generic typing like trio's receive channel
# - generic typing like trio's receive channel but with msgspec # but with msgspec messages?
# messages? class ReceiveChannel(AsyncResource, Generic[ReceiveType]): # class ReceiveChannel(AsyncResource, Generic[ReceiveType]):
# - use __slots__ on ``Context``?
class MsgStream(trio.abc.Channel): class ReceiveMsgStream(trio.abc.ReceiveChannel):
''' '''A IPC message stream for receiving logically sequenced values
A bidirectional message stream for receiving logically sequenced over an inter-actor ``Channel``. This is the type returned to
values over an inter-actor IPC ``Channel``. a local task which entered either ``Portal.open_stream_from()`` or
``Context.open_stream()``.
This is the type returned to a local task which entered either
``Portal.open_stream_from()`` or ``Context.open_stream()``.
Termination rules: Termination rules:
@ -72,6 +51,7 @@ class MsgStream(trio.abc.Channel):
self, self,
ctx: 'Context', # typing: ignore # noqa ctx: 'Context', # typing: ignore # noqa
rx_chan: trio.MemoryReceiveChannel, rx_chan: trio.MemoryReceiveChannel,
shield: bool = False,
_broadcaster: Optional[BroadcastReceiver] = None, _broadcaster: Optional[BroadcastReceiver] = None,
) -> None: ) -> None:
@ -81,7 +61,6 @@ class MsgStream(trio.abc.Channel):
# flag to denote end of stream # flag to denote end of stream
self._eoc: bool = False self._eoc: bool = False
self._closed: bool = False
# delegate directly to underlying mem channel # delegate directly to underlying mem channel
def receive_nowait(self): def receive_nowait(self):
@ -98,14 +77,11 @@ class MsgStream(trio.abc.Channel):
if self._eoc: if self._eoc:
raise trio.EndOfChannel raise trio.EndOfChannel
if self._closed:
raise trio.ClosedResourceError('This stream was closed')
try: try:
msg = await self._rx_chan.receive() msg = await self._rx_chan.receive()
return msg['yield'] return msg['yield']
except KeyError as err: except KeyError:
# internal error should never get here # internal error should never get here
assert msg.get('cid'), ("Received internal error at portal?") assert msg.get('cid'), ("Received internal error at portal?")
@ -114,18 +90,9 @@ class MsgStream(trio.abc.Channel):
# - 'error' # - 'error'
# possibly just handle msg['stop'] here! # possibly just handle msg['stop'] here!
if self._closed: if msg.get('stop'):
raise trio.ClosedResourceError('This stream was closed')
if msg.get('stop') or self._eoc:
log.debug(f"{self} was stopped at remote end") log.debug(f"{self} was stopped at remote end")
# XXX: important to set so that a new ``.receive()``
# call (likely by another task using a broadcast receiver)
# doesn't accidentally pull the ``return`` message
# value out of the underlying feed mem chan!
self._eoc = True
# # when the send is closed we assume the stream has # # when the send is closed we assume the stream has
# # terminated and signal this local iterator to stop # # terminated and signal this local iterator to stop
# await self.aclose() # await self.aclose()
@ -133,7 +100,7 @@ class MsgStream(trio.abc.Channel):
# XXX: this causes ``ReceiveChannel.__anext__()`` to # XXX: this causes ``ReceiveChannel.__anext__()`` to
# raise a ``StopAsyncIteration`` **and** in our catch # raise a ``StopAsyncIteration`` **and** in our catch
# block below it will trigger ``.aclose()``. # block below it will trigger ``.aclose()``.
raise trio.EndOfChannel from err raise trio.EndOfChannel
# TODO: test that shows stream raising an expected error!!! # TODO: test that shows stream raising an expected error!!!
elif msg.get('error'): elif msg.get('error'):
@ -178,17 +145,16 @@ class MsgStream(trio.abc.Channel):
raise # propagate raise # propagate
async def aclose(self): async def aclose(self):
''' """Cancel associated remote actor task and local memory channel
Cancel associated remote actor task and local memory channel on on close.
close.
''' """
# XXX: keep proper adherance to trio's `.aclose()` semantics: # XXX: keep proper adherance to trio's `.aclose()` semantics:
# https://trio.readthedocs.io/en/stable/reference-io.html#trio.abc.AsyncResource.aclose # https://trio.readthedocs.io/en/stable/reference-io.html#trio.abc.AsyncResource.aclose
rx_chan = self._rx_chan rx_chan = self._rx_chan
if rx_chan._closed: if rx_chan._closed:
log.cancel(f"{self} is already closed") log.warning(f"{self} is already closed")
# this stream has already been closed so silently succeed as # this stream has already been closed so silently succeed as
# per ``trio.AsyncResource`` semantics. # per ``trio.AsyncResource`` semantics.
@ -212,32 +178,28 @@ class MsgStream(trio.abc.Channel):
# In the bidirectional case, `Context.open_stream()` will create # In the bidirectional case, `Context.open_stream()` will create
# the `Actor._cids2qs` entry from a call to # the `Actor._cids2qs` entry from a call to
# `Actor.get_context()` and will call us here to send the stop # `Actor.get_memchans()` and will send the stop message in
# msg in ``__aexit__()`` on teardown. # ``__aexit__()`` on teardown so it **does not** need to be
try: # called here.
# NOTE: if this call is cancelled we expect this end to if not self._ctx._portal:
# handle as though the stop was never sent (though if it # Only for 2 way streams can we can send stop from the
# was it shouldn't matter since it's unlikely a user # caller side.
# will try to re-use a stream after attemping to close try:
# it). # NOTE: if this call is cancelled we expect this end to
with trio.CancelScope(shield=True): # handle as though the stop was never sent (though if it
# was it shouldn't matter since it's unlikely a user
# will try to re-use a stream after attemping to close
# it).
await self._ctx.send_stop() await self._ctx.send_stop()
except ( except (
trio.BrokenResourceError, trio.BrokenResourceError,
trio.ClosedResourceError trio.ClosedResourceError
): ):
# the underlying channel may already have been pulled # the underlying channel may already have been pulled
# in which case our stop message is meaningless since # in which case our stop message is meaningless since
# it can't traverse the transport. # it can't traverse the transport.
ctx = self._ctx log.debug(f'Channel for {self} was already closed')
log.warning(
f'Stream was already destroyed?\n'
f'actor: {ctx.chan.uid}\n'
f'ctx id: {ctx.cid}'
)
self._closed = True
# Do we close the local mem chan ``self._rx_chan`` ??!? # Do we close the local mem chan ``self._rx_chan`` ??!?
@ -280,8 +242,7 @@ class MsgStream(trio.abc.Channel):
self, self,
) -> AsyncIterator[BroadcastReceiver]: ) -> AsyncIterator[BroadcastReceiver]:
''' '''Allocate and return a ``BroadcastReceiver`` which delegates
Allocate and return a ``BroadcastReceiver`` which delegates
to this message stream. to this message stream.
This allows multiple local tasks to receive each their own copy This allows multiple local tasks to receive each their own copy
@ -318,80 +279,52 @@ class MsgStream(trio.abc.Channel):
async with self._broadcaster.subscribe() as bstream: async with self._broadcaster.subscribe() as bstream:
assert bstream.key != self._broadcaster.key assert bstream.key != self._broadcaster.key
assert bstream._recv == self._broadcaster._recv assert bstream._recv == self._broadcaster._recv
# NOTE: we patch on a `.send()` to the bcaster so that the
# caller can still conduct 2-way streaming using this
# ``bstream`` handle transparently as though it was the msg
# stream instance.
bstream.send = self.send # type: ignore
yield bstream yield bstream
class MsgStream(ReceiveMsgStream, trio.abc.Channel):
"""
Bidirectional message stream for use within an inter-actor actor
``Context```.
"""
async def send( async def send(
self, self,
data: Any data: Any
) -> None: ) -> None:
''' '''Send a message over this stream to the far end.
Send a message over this stream to the far end.
''' '''
if self._ctx._error:
raise self._ctx._error # from None
if self._closed:
raise trio.ClosedResourceError('This stream was already closed')
await self._ctx.chan.send({'yield': data, 'cid': self._ctx.cid}) await self._ctx.chan.send({'yield': data, 'cid': self._ctx.cid})
@dataclass @dataclass
class Context: class Context:
''' '''An inter-actor task communication context.
An inter-actor, ``trio`` task communication context.
NB: This class should never be instatiated directly, it is delivered
by either runtime machinery to a remotely started task or by entering
``Portal.open_context()``.
Allows maintaining task or protocol specific state between Allows maintaining task or protocol specific state between
2 communicating actor tasks. A unique context is created on the 2 communicating actor tasks. A unique context is created on the
callee side/end for every request to a remote actor from a portal. callee side/end for every request to a remote actor from a portal.
A context can be cancelled and (possibly eventually restarted) from A context can be cancelled and (possibly eventually restarted) from
either side of the underlying IPC channel, open task oriented either side of the underlying IPC channel.
message streams and acts as an IPC aware inter-actor-task cancel
scope. A context can be used to open task oriented message streams and can
be thought of as an IPC aware inter-actor cancel scope.
''' '''
chan: Channel chan: Channel
cid: str cid: str
# these are the "feeder" channels for delivering
# message values to the local task from the runtime
# msg processing loop.
_recv_chan: trio.MemoryReceiveChannel
_send_chan: trio.MemorySendChannel
_remote_func_type: Optional[str] = None
# only set on the caller side # only set on the caller side
_portal: Optional['Portal'] = None # type: ignore # noqa _portal: Optional['Portal'] = None # type: ignore # noqa
_recv_chan: Optional[trio.MemoryReceiveChannel] = None
_result: Optional[Any] = False _result: Optional[Any] = False
_error: Optional[BaseException] = None
# status flags
_cancel_called: bool = False _cancel_called: bool = False
_cancel_msg: Optional[str] = None
_enter_debugger_on_cancel: bool = True
_started_called: bool = False
_started_received: bool = False
_stream_opened: bool = False
# only set on the callee side # only set on the callee side
_scope_nursery: Optional[trio.Nursery] = None _scope_nursery: Optional[trio.Nursery] = None
_backpressure: bool = False
async def send_yield(self, data: Any) -> None: async def send_yield(self, data: Any) -> None:
warnings.warn( warnings.warn(
@ -405,82 +338,34 @@ class Context:
async def send_stop(self) -> None: async def send_stop(self) -> None:
await self.chan.send({'stop': True, 'cid': self.cid}) await self.chan.send({'stop': True, 'cid': self.cid})
async def _maybe_raise_from_remote_msg( def _error_from_remote_msg(
self, self,
msg: dict[str, Any], msg: Dict[str, Any],
) -> None: ) -> None:
''' '''Unpack and raise a msg error into the local scope
(Maybe) unpack and raise a msg error into the local scope
nursery for this context. nursery for this context.
Acts as a form of "relay" for a remote error raised Acts as a form of "relay" for a remote error raised
in the corresponding remote callee task. in the corresponding remote callee task.
''' '''
error = msg.get('error') assert self._scope_nursery
if error:
# If this is an error message from a context opened by
# ``Portal.open_context()`` we want to interrupt any ongoing
# (child) tasks within that context to be notified of the remote
# error relayed here.
#
# The reason we may want to raise the remote error immediately
# is that there is no guarantee the associated local task(s)
# will attempt to read from any locally opened stream any time
# soon.
#
# NOTE: this only applies when
# ``Portal.open_context()`` has been called since it is assumed
# (currently) that other portal APIs (``Portal.run()``,
# ``.run_in_actor()``) do their own error checking at the point
# of the call and result processing.
log.error(
f'Remote context error for {self.chan.uid}:{self.cid}:\n'
f'{msg["error"]["tb_str"]}'
)
error = unpack_error(msg, self.chan)
if (
isinstance(error, ContextCancelled) and
self._cancel_called
):
# this is an expected cancel request response message
# and we don't need to raise it in scope since it will
# potentially override a real error
return
self._error = error async def raiser():
raise unpack_error(msg, self.chan)
# TODO: tempted to **not** do this by-reraising in a self._scope_nursery.start_soon(raiser)
# nursery and instead cancel a surrounding scope, detect
# the cancellation, then lookup the error that was set?
if self._scope_nursery:
async def raiser(): async def cancel(self) -> None:
raise self._error from None '''Cancel this inter-actor-task context.
# from trio.testing import wait_all_tasks_blocked
# await wait_all_tasks_blocked()
if not self._scope_nursery._closed: # type: ignore
self._scope_nursery.start_soon(raiser)
async def cancel(
self,
msg: Optional[str] = None,
) -> None:
'''
Cancel this inter-actor-task context.
Request that the far side cancel it's current linked context, Request that the far side cancel it's current linked context,
Timeout quickly in an attempt to sidestep 2-generals... Timeout quickly in an attempt to sidestep 2-generals...
''' '''
side = 'caller' if self._portal else 'callee' side = 'caller' if self._portal else 'callee'
if msg:
assert side == 'callee', 'Only callee side can provide cancel msg'
log.cancel(f'Cancelling {side} side of context to {self.chan.uid}') log.warning(f'Cancelling {side} side of context to {self.chan}')
self._cancel_called = True self._cancel_called = True
@ -493,7 +378,7 @@ class Context:
cid = self.cid cid = self.cid
with trio.move_on_after(0.5) as cs: with trio.move_on_after(0.5) as cs:
cs.shield = True cs.shield = True
log.cancel( log.warning(
f"Cancelling stream {cid} to " f"Cancelling stream {cid} to "
f"{self._portal.channel.uid}") f"{self._portal.channel.uid}")
@ -508,17 +393,11 @@ class Context:
# some other network error occurred. # some other network error occurred.
# if not self._portal.channel.connected(): # if not self._portal.channel.connected():
if not self.chan.connected(): if not self.chan.connected():
log.cancel( log.warning(
"May have failed to cancel remote task " "May have failed to cancel remote task "
f"{cid} for {self._portal.channel.uid}") f"{cid} for {self._portal.channel.uid}")
else:
log.cancel(
"Timed out on cancelling remote task "
f"{cid} for {self._portal.channel.uid}")
# callee side remote task
else: else:
self._cancel_msg = msg # callee side remote task
# TODO: should we have an explicit cancel message # TODO: should we have an explicit cancel message
# or is relaying the local `trio.Cancelled` as an # or is relaying the local `trio.Cancelled` as an
@ -535,12 +414,9 @@ class Context:
async def open_stream( async def open_stream(
self, self,
backpressure: Optional[bool] = True,
msg_buffer_size: Optional[int] = None,
) -> AsyncGenerator[MsgStream, None]: ) -> AsyncGenerator[MsgStream, None]:
''' '''Open a ``MsgStream``, a bi-directional stream connected to the
Open a ``MsgStream``, a bi-directional stream connected to the
cross-actor (far end) task for this ``Context``. cross-actor (far end) task for this ``Context``.
This context manager must be entered on both the caller and This context manager must be entered on both the caller and
@ -563,6 +439,16 @@ class Context:
# here we create a mem chan that corresponds to the # here we create a mem chan that corresponds to the
# far end caller / callee. # far end caller / callee.
# NOTE: in one way streaming this only happens on the
# caller side inside `Actor.send_cmd()` so if you try
# to send a stop from the caller to the callee in the
# single-direction-stream case you'll get a lookup error
# currently.
_, recv_chan = actor.get_memchans(
self.chan.uid,
self.cid
)
# Likewise if the surrounding context has been cancelled we error here # Likewise if the surrounding context has been cancelled we error here
# since it likely means the surrounding block was exited or # since it likely means the surrounding block was exited or
# killed # killed
@ -573,68 +459,46 @@ class Context:
f'Context around {actor.uid[0]}:{task} was already cancelled!' f'Context around {actor.uid[0]}:{task} was already cancelled!'
) )
if not self._portal and not self._started_called:
raise RuntimeError(
'Context.started()` must be called before opening a stream'
)
# NOTE: in one way streaming this only happens on the
# caller side inside `Actor.start_remote_task()` so if you try
# to send a stop from the caller to the callee in the
# single-direction-stream case you'll get a lookup error
# currently.
ctx = actor.get_context(
self.chan,
self.cid,
msg_buffer_size=msg_buffer_size,
)
ctx._backpressure = backpressure
assert ctx is self
# XXX: If the underlying channel feeder receive mem chan has # XXX: If the underlying channel feeder receive mem chan has
# been closed then likely client code has already exited # been closed then likely client code has already exited
# a ``.open_stream()`` block prior or there was some other # a ``.open_stream()`` block prior or there was some other
# unanticipated error or cancellation from ``trio``. # unanticipated error or cancellation from ``trio``.
if ctx._recv_chan._closed: if recv_chan._closed:
raise trio.ClosedResourceError( raise trio.ClosedResourceError(
'The underlying channel for this stream was already closed!?') 'The underlying channel for this stream was already closed!?')
async with MsgStream( async with MsgStream(
ctx=self, ctx=self,
rx_chan=ctx._recv_chan, rx_chan=recv_chan,
) as stream: ) as rchan:
if self._portal: if self._portal:
self._portal._streams.add(stream) self._portal._streams.add(rchan)
try: try:
self._stream_opened = True # ensure we aren't cancelled before delivering
# the stream
# XXX: do we need this?
# ensure we aren't cancelled before yielding the stream
# await trio.lowlevel.checkpoint() # await trio.lowlevel.checkpoint()
yield stream yield rchan
# NOTE: Make the stream "one-shot use". On exit, signal except trio.EndOfChannel:
# likely the far end sent us a 'stop' message to
# terminate the stream.
raise
else:
# XXX: Make the stream "one-shot use". On exit, signal
# ``trio.EndOfChannel``/``StopAsyncIteration`` to the # ``trio.EndOfChannel``/``StopAsyncIteration`` to the
# far end. # far end.
await stream.aclose() await self.send_stop()
finally: finally:
if self._portal: if self._portal:
try: self._portal._streams.remove(rchan)
self._portal._streams.remove(stream)
except KeyError:
log.warning(
f'Stream was already destroyed?\n'
f'actor: {self.chan.uid}\n'
f'ctx id: {self.cid}'
)
async def result(self) -> Any: async def result(self) -> Any:
''' '''From a caller side, wait for and return the final result from
From a caller side, wait for and return the final result from
the callee side task. the callee side task.
''' '''
@ -654,11 +518,12 @@ class Context:
try: try:
self._result = msg['return'] self._result = msg['return']
break break
except KeyError as msgerr: except KeyError:
if 'yield' in msg: if 'yield' in msg:
# far end task is still streaming to us so discard # far end task is still streaming to us..
log.warning(f'Discarding stream delivered {msg}') log.warning(f'Remote stream deliverd {msg}')
# do disard
continue continue
elif 'stop' in msg: elif 'stop' in msg:
@ -668,36 +533,17 @@ class Context:
# internal error should never get here # internal error should never get here
assert msg.get('cid'), ( assert msg.get('cid'), (
"Received internal error at portal?") "Received internal error at portal?")
raise unpack_error(msg, self._portal.channel)
raise unpack_error(
msg, self._portal.channel
) from msgerr
return self._result return self._result
async def started( async def started(self, value: Optional[Any] = None) -> None:
self,
value: Optional[Any] = None
) -> None:
'''
Indicate to calling actor's task that this linked context
has started and send ``value`` to the other side.
On the calling side ``value`` is the second item delivered
in the tuple returned by ``Portal.open_context()``.
'''
if self._portal: if self._portal:
raise RuntimeError( raise RuntimeError(
f"Caller side context {self} can not call started!") f"Caller side context {self} can not call started!")
elif self._started_called:
raise RuntimeError(
f"called 'started' twice on context with {self.chan.uid}")
await self.chan.send({'started': value, 'cid': self.cid}) await self.chan.send({'started': value, 'cid': self.cid})
self._started_called = True
# TODO: do we need a restart api? # TODO: do we need a restart api?
# async def restart(self) -> None: # async def restart(self) -> None:

View File

@ -1,40 +1,20 @@
# 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/>.
""" """
``trio`` inspired apis and helpers ``trio`` inspired apis and helpers
""" """
from contextlib import asynccontextmanager as acm
from functools import partial from functools import partial
import inspect import inspect
from typing import ( import multiprocessing as mp
Optional, from typing import Tuple, List, Dict, Optional
TYPE_CHECKING,
)
import typing import typing
import warnings import warnings
from exceptiongroup import BaseExceptionGroup
import trio import trio
from async_generator import asynccontextmanager
from ._debug import maybe_wait_for_debugger from . import _debug
from ._state import current_actor, is_main_process from ._state import current_actor, is_main_process, is_root_process
from .log import get_logger, get_loglevel from .log import get_logger, get_loglevel
from ._runtime import Actor from ._actor import Actor
from ._portal import Portal from ._portal import Portal
from ._exceptions import is_multi_cancelled from ._exceptions import is_multi_cancelled
from ._root import open_root_actor from ._root import open_root_actor
@ -42,98 +22,52 @@ from . import _state
from . import _spawn from . import _spawn
if TYPE_CHECKING:
import multiprocessing as mp
log = get_logger(__name__) log = get_logger(__name__)
_default_bind_addr: tuple[str, int] = ('127.0.0.1', 0) _default_bind_addr: Tuple[str, int] = ('127.0.0.1', 0)
class ActorNursery: class ActorNursery:
''' """Spawn scoped subprocess actors.
The fundamental actor supervision construct: spawn and manage """
explicit lifetime and capability restricted, bootstrapped,
``trio.run()`` scheduled sub-processes.
Though the concept of a "process nursery" is different in complexity
and slightly different in semantics then a tradtional single
threaded task nursery, much of the interface is the same. New
processes each require a top level "parent" or "root" task which is
itself no different then any task started by a tradtional
``trio.Nursery``. The main difference is that each "actor" (a
process + ``trio.run()``) contains a full, paralell executing
``trio``-task-tree. The following super powers ensue:
- starting tasks in a child actor are completely independent of
tasks started in the current process. They execute in *parallel*
relative to tasks in the current process and are scheduled by their
own actor's ``trio`` run loop.
- tasks scheduled in a remote process still maintain an SC protocol
across memory boundaries using a so called "structured concurrency
dialogue protocol" which ensures task-hierarchy-lifetimes are linked.
- remote tasks (in another actor) can fail and relay failure back to
the caller task (in some other actor) via a seralized
``RemoteActorError`` which means no zombie process or RPC
initiated task can ever go off on its own.
'''
def __init__( def __init__(
self, self,
actor: Actor, actor: Actor,
ria_nursery: trio.Nursery, ria_nursery: trio.Nursery,
da_nursery: trio.Nursery, da_nursery: trio.Nursery,
errors: dict[tuple[str, str], BaseException], errors: Dict[Tuple[str, str], Exception],
) -> None: ) -> None:
# self.supervisor = supervisor # TODO # self.supervisor = supervisor # TODO
self._actor: Actor = actor self._actor: Actor = actor
self._ria_nursery = ria_nursery self._ria_nursery = ria_nursery
self._da_nursery = da_nursery self._da_nursery = da_nursery
self._children: dict[ self._children: Dict[
tuple[str, str], Tuple[str, str],
tuple[ Tuple[Actor, mp.Process, Optional[Portal]]
Actor,
trio.Process | mp.Process,
Optional[Portal],
]
] = {} ] = {}
# portals spawned with ``run_in_actor()`` are # portals spawned with ``run_in_actor()`` are
# cancelled when their "main" result arrives # cancelled when their "main" result arrives
self._cancel_after_result_on_exit: set = set() self._cancel_after_result_on_exit: set = set()
self.cancelled: bool = False self.cancelled: bool = False
self._join_procs = trio.Event() self._join_procs = trio.Event()
self._at_least_one_child_in_debug: bool = False
self.errors = errors self.errors = errors
self.exited = trio.Event()
async def start_actor( async def start_actor(
self, self,
name: str, name: str,
*, *,
bind_addr: tuple[str, int] = _default_bind_addr, bind_addr: Tuple[str, int] = _default_bind_addr,
rpc_module_paths: list[str] | None = None, rpc_module_paths: List[str] = None,
enable_modules: list[str] | None = None, enable_modules: List[str] = None,
loglevel: str | None = None, # set log level per subactor loglevel: str = None, # set log level per subactor
nursery: trio.Nursery | None = None, nursery: trio.Nursery = None,
debug_mode: Optional[bool] | None = None,
infect_asyncio: bool = False,
) -> Portal: ) -> Portal:
'''
Start a (daemon) actor: an process that has no designated
"main task" besides the runtime.
'''
loglevel = loglevel or self._actor.loglevel or get_loglevel() loglevel = loglevel or self._actor.loglevel or get_loglevel()
# configure and pass runtime state # configure and pass runtime state
_rtv = _state._runtime_vars.copy() _rtv = _state._runtime_vars.copy()
_rtv['_is_root'] = False _rtv['_is_root'] = False
# allow setting debug policy per actor
if debug_mode is not None:
_rtv['_debug_mode'] = debug_mode
self._at_least_one_child_in_debug = True
enable_modules = enable_modules or [] enable_modules = enable_modules or []
if rpc_module_paths: if rpc_module_paths:
@ -170,25 +104,19 @@ class ActorNursery:
bind_addr, bind_addr,
parent_addr, parent_addr,
_rtv, # run time vars _rtv, # run time vars
infect_asyncio=infect_asyncio,
) )
) )
async def run_in_actor( async def run_in_actor(
self, self,
fn: typing.Callable, fn: typing.Callable,
*, *,
name: Optional[str] = None, name: Optional[str] = None,
bind_addr: tuple[str, int] = _default_bind_addr, bind_addr: Tuple[str, int] = _default_bind_addr,
rpc_module_paths: list[str] | None = None, rpc_module_paths: Optional[List[str]] = None,
enable_modules: list[str] | None = None, enable_modules: List[str] = None,
loglevel: str | None = None, # set log level per subactor loglevel: str = None, # set log level per subactor
infect_asyncio: bool = False,
**kwargs, # explicit args to ``fn`` **kwargs, # explicit args to ``fn``
) -> Portal: ) -> Portal:
"""Spawn a new actor, run a lone task, then terminate the actor and """Spawn a new actor, run a lone task, then terminate the actor and
return its result. return its result.
@ -212,7 +140,6 @@ class ActorNursery:
loglevel=loglevel, loglevel=loglevel,
# use the run_in_actor nursery # use the run_in_actor nursery
nursery=self._ria_nursery, nursery=self._ria_nursery,
infect_asyncio=infect_asyncio,
) )
# XXX: don't allow stream funcs # XXX: don't allow stream funcs
@ -241,7 +168,7 @@ class ActorNursery:
""" """
self.cancelled = True self.cancelled = True
log.cancel(f"Cancelling nursery in {self._actor.uid}") log.warning(f"Cancelling nursery in {self._actor.uid}")
with trio.move_on_after(3) as cs: with trio.move_on_after(3) as cs:
async with trio.open_nursery() as nursery: async with trio.open_nursery() as nursery:
@ -279,8 +206,7 @@ class ActorNursery:
# spawn cancel tasks for each sub-actor # spawn cancel tasks for each sub-actor
assert portal assert portal
if portal.channel.connected(): nursery.start_soon(portal.cancel_actor)
nursery.start_soon(portal.cancel_actor)
# if we cancelled the cancel (we hung cancelling remote actors) # if we cancelled the cancel (we hung cancelling remote actors)
# then hard kill all sub-processes # then hard kill all sub-processes
@ -295,17 +221,13 @@ class ActorNursery:
self._join_procs.set() self._join_procs.set()
@acm @asynccontextmanager
async def _open_and_supervise_one_cancels_all_nursery( async def _open_and_supervise_one_cancels_all_nursery(
actor: Actor, actor: Actor,
) -> typing.AsyncGenerator[ActorNursery, None]: ) -> typing.AsyncGenerator[ActorNursery, None]:
# TODO: yay or nay?
__tracebackhide__ = True
# the collection of errors retreived from spawned sub-actors # the collection of errors retreived from spawned sub-actors
errors: dict[tuple[str, str], BaseException] = {} errors: Dict[Tuple[str, str], Exception] = {}
# This is the outermost level "deamon actor" nursery. It is awaited # This is the outermost level "deamon actor" nursery. It is awaited
# **after** the below inner "run in actor nursery". This allows for # **after** the below inner "run in actor nursery". This allows for
@ -338,17 +260,19 @@ async def _open_and_supervise_one_cancels_all_nursery(
# after we yield upwards # after we yield upwards
yield anursery yield anursery
# When we didn't error in the caller's scope,
# signal all process-monitor-tasks to conduct
# the "hard join phase".
log.runtime( log.runtime(
f"Waiting on subactors {anursery._children} " f"Waiting on subactors {anursery._children} "
"to complete" "to complete"
) )
# Last bit before first nursery block ends in the case
# where we didn't error in the caller's scope
# signal all process monitor tasks to conduct
# hard join phase.
anursery._join_procs.set() anursery._join_procs.set()
except BaseException as inner_err: except BaseException as err:
errors[actor.uid] = inner_err
# If we error in the root but the debugger is # If we error in the root but the debugger is
# engaged we don't want to prematurely kill (and # engaged we don't want to prematurely kill (and
@ -356,66 +280,84 @@ async def _open_and_supervise_one_cancels_all_nursery(
# will make the pdb repl unusable. # will make the pdb repl unusable.
# Instead try to wait for pdb to be released before # Instead try to wait for pdb to be released before
# tearing down. # tearing down.
await maybe_wait_for_debugger( if is_root_process():
child_in_debug=anursery._at_least_one_child_in_debug
) # TODO: could this make things more deterministic?
# wait to see if a sub-actor task will be
# scheduled and grab the tty lock on the next
# tick?
# await trio.testing.wait_all_tasks_blocked()
debug_complete = _debug._no_remote_has_tty
if (
debug_complete and
not debug_complete.is_set()
):
log.warning(
'Root has errored but pdb is in use by '
f'child {_debug._global_actor_in_debug}\n'
'Waiting on tty lock to release..')
# with trio.CancelScope(shield=True):
await debug_complete.wait()
# if the caller's scope errored then we activate our # if the caller's scope errored then we activate our
# one-cancels-all supervisor strategy (don't # one-cancels-all supervisor strategy (don't
# worry more are coming). # worry more are coming).
anursery._join_procs.set() anursery._join_procs.set()
# XXX: hypothetically an error could be try:
# raised and then a cancel signal shows up # XXX: hypothetically an error could be
# slightly after in which case the `else:` # raised and then a cancel signal shows up
# block here might not complete? For now, # slightly after in which case the `else:`
# shield both. # block here might not complete? For now,
with trio.CancelScope(shield=True): # shield both.
etype = type(inner_err) with trio.CancelScope(shield=True):
if etype in ( etype = type(err)
trio.Cancelled, if etype in (
KeyboardInterrupt trio.Cancelled,
) or ( KeyboardInterrupt
is_multi_cancelled(inner_err) ) or (
): is_multi_cancelled(err)
log.cancel( ):
f"Nursery for {current_actor().uid} " log.warning(
f"was cancelled with {etype}") f"Nursery for {current_actor().uid} "
else: f"was cancelled with {etype}")
log.exception( else:
f"Nursery for {current_actor().uid} " log.exception(
f"errored with") f"Nursery for {current_actor().uid} "
f"errored with {err}, ")
# cancel all subactors # cancel all subactors
await anursery.cancel() await anursery.cancel()
# ria_nursery scope end except trio.MultiError as merr:
# If we receive additional errors while waiting on
# remaining subactors that were cancelled,
# aggregate those errors with the original error
# that triggered this teardown.
if err not in merr.exceptions:
raise trio.MultiError(merr.exceptions + [err])
else:
raise
# TODO: this is the handler around the ``.run_in_actor()`` # ria_nursery scope end
# nursery. Ideally we can drop this entirely in the future as
# the whole ``.run_in_actor()`` API should be built "on top of" # XXX: do we need a `trio.Cancelled` catch here as well?
# this lower level spawn-request-cancel "daemon actor" API where # this is the catch around the ``.run_in_actor()`` nursery
# a local in-actor task nursery is used with one-to-one task
# + `await Portal.run()` calls and the results/errors are
# handled directly (inline) and errors by the local nursery.
except ( except (
Exception, Exception,
BaseExceptionGroup, trio.MultiError,
trio.Cancelled trio.Cancelled
) as err: ) as err:
# XXX: yet another guard before allowing the cancel
# sequence in case a (single) child is in debug.
await maybe_wait_for_debugger(
child_in_debug=anursery._at_least_one_child_in_debug
)
# If actor-local error was raised while waiting on # If actor-local error was raised while waiting on
# ".run_in_actor()" actors then we also want to cancel all # ".run_in_actor()" actors then we also want to cancel all
# remaining sub-actors (due to our lone strategy: # remaining sub-actors (due to our lone strategy:
# one-cancels-all). # one-cancels-all).
log.cancel(f"Nursery cancelling due to {err}") log.warning(f"Nursery cancelling due to {err}")
if anursery._children: if anursery._children:
with trio.CancelScope(shield=True): with trio.CancelScope(shield=True):
await anursery.cancel() await anursery.cancel()
@ -432,26 +374,22 @@ async def _open_and_supervise_one_cancels_all_nursery(
with trio.CancelScope(shield=True): with trio.CancelScope(shield=True):
await anursery.cancel() await anursery.cancel()
# use `BaseExceptionGroup` as needed # use `MultiError` as needed
if len(errors) > 1: if len(errors) > 1:
raise BaseExceptionGroup( raise trio.MultiError(tuple(errors.values()))
'tractor.ActorNursery errored with',
tuple(errors.values()),
)
else: else:
raise list(errors.values())[0] raise list(errors.values())[0]
# da_nursery scope end - nursery checkpoint # ria_nursery scope end - nursery checkpoint
# final exit
# after nursery exit
@acm @asynccontextmanager
async def open_nursery( async def open_nursery(
**kwargs, **kwargs,
) -> typing.AsyncGenerator[ActorNursery, None]: ) -> typing.AsyncGenerator[ActorNursery, None]:
''' """Create and yield a new ``ActorNursery`` to be used for spawning
Create and yield a new ``ActorNursery`` to be used for spawning
structured concurrent subactors. structured concurrent subactors.
When an actor is spawned a new trio task is started which When an actor is spawned a new trio task is started which
@ -463,8 +401,7 @@ async def open_nursery(
close it. It turns out this approach is probably more correct close it. It turns out this approach is probably more correct
anyway since it is more clear from the following nested nurseries anyway since it is more clear from the following nested nurseries
which cancellation scopes correspond to each spawned subactor set. which cancellation scopes correspond to each spawned subactor set.
"""
'''
implicit_runtime = False implicit_runtime = False
actor = current_actor(err_on_no_runtime=False) actor = current_actor(err_on_no_runtime=False)
@ -482,23 +419,18 @@ async def open_nursery(
async with open_root_actor(**kwargs) as actor: async with open_root_actor(**kwargs) as actor:
assert actor is current_actor() assert actor is current_actor()
try: # try:
async with _open_and_supervise_one_cancels_all_nursery(
actor
) as anursery:
yield anursery
finally:
anursery.exited.set()
else: # sub-nursery case
try:
async with _open_and_supervise_one_cancels_all_nursery( async with _open_and_supervise_one_cancels_all_nursery(
actor actor
) as anursery: ) as anursery:
yield anursery yield anursery
finally:
anursery.exited.set() else: # sub-nursery case
async with _open_and_supervise_one_cancels_all_nursery(
actor
) as anursery:
yield anursery
finally: finally:
log.debug("Nursery teardown complete") log.debug("Nursery teardown complete")

View File

@ -1,29 +0,0 @@
# 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/>.
'''
Experimental APIs and subsystems not yet validated to be included as
built-ins.
This is a staging area for ``tractor.builtin``.
'''
from ._pubsub import pub as msgpub
__all__ = [
'msgpub',
]

View File

@ -1,332 +0,0 @@
# 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/>.
"""
Single target entrypoint, remote-task, dynamic (no push if no consumer)
pubsub API using async an generator which muli-plexes to consumers by
key.
NOTE: this module is likely deprecated by the new bi-directional streaming
support provided by ``tractor.Context.open_stream()`` and friends.
"""
from __future__ import annotations
import inspect
import typing
from typing import (
Any,
Callable,
)
from functools import partial
from async_generator import aclosing
import trio
import wrapt
from ..log import get_logger
from .._streaming import Context
__all__ = ['pub']
log = get_logger('messaging')
async def fan_out_to_ctxs(
pub_async_gen_func: typing.Callable, # it's an async gen ... gd mypy
topics2ctxs: dict[str, list],
packetizer: typing.Callable | None = None,
) -> None:
'''
Request and fan out quotes to each subscribed actor channel.
'''
def get_topics():
return tuple(topics2ctxs.keys())
agen = pub_async_gen_func(get_topics=get_topics)
async with aclosing(agen) as pub_gen:
async for published in pub_gen:
ctx_payloads: list[tuple[Context, Any]] = []
for topic, data in published.items():
log.debug(f"publishing {topic, data}")
# build a new dict packet or invoke provided packetizer
if packetizer is None:
packet = {topic: data}
else:
packet = packetizer(topic, data)
for ctx in topics2ctxs.get(topic, list()):
ctx_payloads.append((ctx, packet))
if not ctx_payloads:
log.debug(f"Unconsumed values:\n{published}")
# deliver to each subscriber (fan out)
if ctx_payloads:
for ctx, payload in ctx_payloads:
try:
await ctx.send_yield(payload)
except (
# That's right, anything you can think of...
trio.ClosedResourceError, ConnectionResetError,
ConnectionRefusedError,
):
log.warning(f"{ctx.chan} went down?")
for ctx_list in topics2ctxs.values():
try:
ctx_list.remove(ctx)
except ValueError:
continue
if not get_topics():
log.warning(f"No subscribers left for {pub_gen}")
break
def modify_subs(
topics2ctxs: dict[str, list[Context]],
topics: set[str],
ctx: Context,
) -> None:
"""Absolute symbol subscription list for each quote stream.
Effectively a symbol subscription api.
"""
log.info(f"{ctx.chan.uid} changed subscription to {topics}")
# update map from each symbol to requesting client's chan
for topic in topics:
topics2ctxs.setdefault(topic, list()).append(ctx)
# remove any existing symbol subscriptions if symbol is not
# found in ``symbols``
# TODO: this can likely be factored out into the pub-sub api
for topic in filter(
lambda topic: topic not in topics, topics2ctxs.copy()
):
ctx_list = topics2ctxs.get(topic)
if ctx_list:
try:
ctx_list.remove(ctx)
except ValueError:
pass
if not ctx_list:
# pop empty sets which will trigger bg quoter task termination
topics2ctxs.pop(topic)
_pub_state: dict[str, dict] = {}
_pubtask2lock: dict[str, trio.StrictFIFOLock] = {}
def pub(
wrapped: typing.Callable | None = None,
*,
tasks: set[str] = set(),
):
"""Publisher async generator decorator.
A publisher can be called multiple times from different actors but
will only spawn a finite set of internal tasks to stream values to
each caller. The ``tasks: set[str]`` argument to the decorator
specifies the names of the mutex set of publisher tasks. When the
publisher function is called, an argument ``task_name`` must be
passed to specify which task (of the set named in ``tasks``) should
be used. This allows for using the same publisher with different
input (arguments) without allowing more concurrent tasks then
necessary.
Values yielded from the decorated async generator must be
``dict[str, dict[str, Any]]`` where the fist level key is the topic
string and determines which subscription the packet will be
delivered to and the value is a packet ``dict[str, Any]`` by default
of the form:
.. ::python
{topic: str: value: Any}
The caller can instead opt to pass a ``packetizer`` callback who's
return value will be delivered as the published response.
The decorated async generator function must accept an argument
:func:`get_topics` which dynamically returns the tuple of current
subscriber topics:
.. code:: python
from tractor.msg import pub
@pub(tasks={'source_1', 'source_2'})
async def pub_service(get_topics):
data = await web_request(endpoints=get_topics())
for item in data:
yield data['key'], data
The publisher must be called passing in the following arguments:
- ``topics: set[str]`` the topic sequence or "subscriptions"
- ``task_name: str`` the task to use (if ``tasks`` was passed)
- ``ctx: Context`` the tractor context (only needed if calling the
pub func without a nursery, otherwise this is provided implicitly)
- packetizer: ``Callable[[str, Any], Any]`` a callback who receives
the topic and value from the publisher function each ``yield`` such that
whatever is returned is sent as the published value to subscribers of
that topic. By default this is a dict ``{topic: str: value: Any}``.
As an example, to make a subscriber call the above function:
.. code:: python
from functools import partial
import tractor
async with tractor.open_nursery() as n:
portal = n.run_in_actor(
'publisher', # actor name
partial( # func to execute in it
pub_service,
topics=('clicks', 'users'),
task_name='source1',
)
)
async for value in await portal.result():
print(f"Subscriber received {value}")
Here, you don't need to provide the ``ctx`` argument since the
remote actor provides it automatically to the spawned task. If you
were to call ``pub_service()`` directly from a wrapping function you
would need to provide this explicitly.
Remember you only need this if you need *a finite set of tasks*
running in a single actor to stream data to an arbitrary number of
subscribers. If you are ok to have a new task running for every call
to ``pub_service()`` then probably don't need this.
"""
global _pubtask2lock
# handle the decorator not called with () case
if wrapped is None:
return partial(pub, tasks=tasks)
task2lock: dict[str, trio.StrictFIFOLock] = {}
for name in tasks:
task2lock[name] = trio.StrictFIFOLock()
@wrapt.decorator
async def wrapper(agen, instance, args, kwargs):
# XXX: this is used to extract arguments properly as per the
# `wrapt` docs
async def _execute(
ctx: Context,
topics: set[str],
*args,
# *,
task_name: str | None = None, # default: only one task allocated
packetizer: Callable | None = None,
**kwargs,
):
if task_name is None:
task_name = trio.lowlevel.current_task().name
if tasks and task_name not in tasks:
raise TypeError(
f"{agen} must be called with a `task_name` named "
f"argument with a value from {tasks}")
elif not tasks and not task2lock:
# add a default root-task lock if none defined
task2lock[task_name] = trio.StrictFIFOLock()
_pubtask2lock.update(task2lock)
topics = set(topics)
lock = _pubtask2lock[task_name]
all_subs = _pub_state.setdefault('_subs', {})
topics2ctxs = all_subs.setdefault(task_name, {})
try:
modify_subs(topics2ctxs, topics, ctx)
# block and let existing feed task deliver
# stream data until it is cancelled in which case
# the next waiting task will take over and spawn it again
async with lock:
# no data feeder task yet; so start one
respawn = True
while respawn:
respawn = False
log.info(
f"Spawning data feed task for {funcname}")
try:
# unblocks when no more symbols subscriptions exist
# and the streamer task terminates
await fan_out_to_ctxs(
pub_async_gen_func=partial(
agen, *args, **kwargs),
topics2ctxs=topics2ctxs,
packetizer=packetizer,
)
log.info(
f"Terminating stream task {task_name or ''}"
f" for {agen.__name__}")
except trio.BrokenResourceError:
log.exception("Respawning failed data feed task")
respawn = True
finally:
# remove all subs for this context
modify_subs(topics2ctxs, set(), ctx)
# if there are truly no more subscriptions with this broker
# drop from broker subs dict
if not any(topics2ctxs.values()):
log.info(
f"No more subscriptions for publisher {task_name}")
# invoke it
await _execute(*args, **kwargs)
funcname = wrapped.__name__
if not inspect.isasyncgenfunction(wrapped):
raise TypeError(
f"Publisher {funcname} must be an async generator function"
)
if 'get_topics' not in inspect.signature(wrapped).parameters:
raise TypeError(
f"Publisher async gen {funcname} must define a "
"`get_topics` argument"
)
# XXX: manually monkey the wrapped function since
# ``wrapt.decorator`` doesn't seem to want to play nice with its
# whole "adapter" thing...
wrapped._tractor_stream_function = True # type: ignore
return wrapper(wrapped)

View File

@ -1,35 +1,17 @@
# 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/>.
""" """
Log like a forester! Log like a forester!
""" """
from collections.abc import Mapping
import sys import sys
from functools import partial
import logging import logging
import colorlog # type: ignore import colorlog # type: ignore
from typing import Optional
import trio from ._state import ActorContextInfo
from ._state import current_actor
_proj_name: str = 'tractor' _proj_name = 'tractor'
_default_loglevel: str = 'ERROR' _default_loglevel = 'ERROR'
# Super sexy formatting thanks to ``colorlog``. # Super sexy formatting thanks to ``colorlog``.
# (NOTE: we use the '{' format style) # (NOTE: we use the '{' format style)
@ -38,8 +20,7 @@ LOG_FORMAT = (
# "{bold_white}{log_color}{asctime}{reset}" # "{bold_white}{log_color}{asctime}{reset}"
"{log_color}{asctime}{reset}" "{log_color}{asctime}{reset}"
" {bold_white}{thin_white}({reset}" " {bold_white}{thin_white}({reset}"
"{thin_white}{actor_name}[{actor_uid}], " "{thin_white}{actor}, {process}, {task}){reset}{bold_white}{thin_white})"
"{process}, {task}){reset}{bold_white}{thin_white})"
" {reset}{log_color}[{reset}{bold_log_color}{levelname}{reset}{log_color}]" " {reset}{log_color}[{reset}{bold_log_color}{levelname}{reset}{log_color}]"
" {log_color}{name}" " {log_color}{name}"
" {thin_white}{filename}{log_color}:{reset}{thin_white}{lineno}{log_color}" " {thin_white}{filename}{log_color}:{reset}{thin_white}{lineno}{log_color}"
@ -51,7 +32,6 @@ DATE_FORMAT = '%b %d %H:%M:%S'
LEVELS = { LEVELS = {
'TRANSPORT': 5, 'TRANSPORT': 5,
'RUNTIME': 15, 'RUNTIME': 15,
'CANCEL': 16,
'PDB': 500, 'PDB': 500,
} }
@ -61,7 +41,6 @@ STD_PALETTE = {
'PDB': 'white', 'PDB': 'white',
'WARNING': 'yellow', 'WARNING': 'yellow',
'INFO': 'green', 'INFO': 'green',
'CANCEL': 'yellow',
'RUNTIME': 'white', 'RUNTIME': 'white',
'DEBUG': 'white', 'DEBUG': 'white',
'TRANSPORT': 'cyan', 'TRANSPORT': 'cyan',
@ -73,8 +52,6 @@ BOLD_PALETTE = {
} }
# TODO: this isn't showing the correct '{filename}'
# as it did before..
class StackLevelAdapter(logging.LoggerAdapter): class StackLevelAdapter(logging.LoggerAdapter):
def transport( def transport(
@ -90,89 +67,16 @@ class StackLevelAdapter(logging.LoggerAdapter):
) -> None: ) -> None:
return self.log(15, msg) return self.log(15, msg)
def cancel(
self,
msg: str,
) -> None:
return self.log(16, msg)
def pdb( def pdb(
self, self,
msg: str, msg: str,
) -> None: ) -> None:
return self.log(500, msg) return self.log(500, msg)
def log(self, level, msg, *args, **kwargs):
"""
Delegate a log call to the underlying logger, after adding
contextual information from this adapter instance.
"""
if self.isEnabledFor(level):
# msg, kwargs = self.process(msg, kwargs)
self._log(level, msg, args, **kwargs)
# LOL, the stdlib doesn't allow passing through ``stacklevel``..
def _log(
self,
level,
msg,
args,
exc_info=None,
extra=None,
stack_info=False,
# XXX: bit we added to show fileinfo from actual caller.
# this level then ``.log()`` then finally the caller's level..
stacklevel=3,
):
"""
Low-level log implementation, proxied to allow nested logger adapters.
"""
return self.logger._log(
level,
msg,
args,
exc_info=exc_info,
extra=self.extra,
stack_info=stack_info,
stacklevel=stacklevel,
)
_conc_name_getters = {
'task': lambda: trio.lowlevel.current_task().name,
'actor': lambda: current_actor(),
'actor_name': lambda: current_actor().name,
'actor_uid': lambda: current_actor().uid[1][:6],
}
class ActorContextInfo(Mapping):
"Dyanmic lookup for local actor and task names"
_context_keys = (
'task',
'actor',
'actor_name',
'actor_uid',
)
def __len__(self):
return len(self._context_keys)
def __iter__(self):
return iter(self._context_keys)
def __getitem__(self, key: str) -> str:
try:
return _conc_name_getters[key]()
except RuntimeError:
# no local actor/task context initialized yet
return f'no {key} context'
def get_logger( def get_logger(
name: str | None = None, name: str = None,
_root_name: str = _proj_name, _root_name: str = _proj_name,
) -> StackLevelAdapter: ) -> StackLevelAdapter:
@ -207,7 +111,7 @@ def get_logger(
def get_console_log( def get_console_log(
level: str | None = None, level: str = None,
**kwargs, **kwargs,
) -> logging.LoggerAdapter: ) -> logging.LoggerAdapter:
'''Get the package logger and enable a handler which writes to stderr. '''Get the package logger and enable a handler which writes to stderr.
@ -240,5 +144,5 @@ def get_console_log(
return log return log
def get_loglevel() -> str: def get_loglevel() -> Optional[str]:
return _default_loglevel return _default_loglevel

View File

@ -1,80 +1,306 @@
# tractor: structured concurrent "actors". """
# Copyright 2018-eternity Tyler Goodlet. Messaging pattern APIs and helpers.
# This program is free software: you can redistribute it and/or modify NOTE: this module is likely deprecated by the new bi-directional streaming
# it under the terms of the GNU Affero General Public License as published by support provided by ``tractor.Context.open_stream()`` and friends.
# 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 import inspect
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the import typing
# GNU Affero General Public License for more details. from typing import Dict, Any, Set, Callable, List, Tuple
from functools import partial
from async_generator import aclosing
# You should have received a copy of the GNU Affero General Public License import trio
# along with this program. If not, see <https://www.gnu.org/licenses/>. import wrapt
''' from .log import get_logger
Built-in messaging patterns, types, APIs and helpers. from ._streaming import Context
''' __all__ = ['pub']
# TODO: integration with our ``enable_modules: list[str]`` caps sys. log = get_logger('messaging')
# ``pkgutil.resolve_name()`` internally uses
# ``importlib.import_module()`` which can be filtered by inserting
# a ``MetaPathFinder`` into ``sys.meta_path`` (which we could do before
# entering the ``_runtime.process_messages()`` loop).
# - https://github.com/python/cpython/blob/main/Lib/pkgutil.py#L645
# - https://stackoverflow.com/questions/1350466/preventing-python-code-from-importing-certain-modules
# - https://stackoverflow.com/a/63320902
# - https://docs.python.org/3/library/sys.html#sys.meta_path
# the new "Implicit Namespace Packages" might be relevant?
# - https://www.python.org/dev/peps/pep-0420/
# add implicit serialized message type support so that paths can be
# handed directly to IPC primitives such as streams and `Portal.run()`
# calls:
# - via ``msgspec``:
# - https://jcristharif.com/msgspec/api.html#struct
# - https://jcristharif.com/msgspec/extending.html
# via ``msgpack-python``:
# - https://github.com/msgpack/msgpack-python#packingunpacking-of-custom-data-type
from __future__ import annotations
from pkgutil import resolve_name
class NamespacePath(str): async def fan_out_to_ctxs(
''' pub_async_gen_func: typing.Callable, # it's an async gen ... gd mypy
A serializeable description of a (function) Python object location topics2ctxs: Dict[str, list],
described by the target's module path and namespace key meant as packetizer: typing.Callable = None,
a message-native "packet" to allows actors to point-and-load objects ) -> None:
by absolute reference. """Request and fan out quotes to each subscribed actor channel.
"""
def get_topics():
return tuple(topics2ctxs.keys())
''' agen = pub_async_gen_func(get_topics=get_topics)
_ref: object = None
def load_ref(self) -> object: async with aclosing(agen) as pub_gen:
if self._ref is None:
self._ref = resolve_name(self)
return self._ref
def to_tuple( async for published in pub_gen:
self,
) -> tuple[str, str]: ctx_payloads: List[Tuple[Context, Any]] = []
ref = self.load_ref()
return ref.__module__, getattr(ref, '__name__', '')
@classmethod for topic, data in published.items():
def from_ref( log.debug(f"publishing {topic, data}")
cls,
ref,
) -> NamespacePath: # build a new dict packet or invoke provided packetizer
return cls(':'.join( if packetizer is None:
(ref.__module__, packet = {topic: data}
getattr(ref, '__name__', ''))
)) else:
packet = packetizer(topic, data)
for ctx in topics2ctxs.get(topic, list()):
ctx_payloads.append((ctx, packet))
if not ctx_payloads:
log.debug(f"Unconsumed values:\n{published}")
# deliver to each subscriber (fan out)
if ctx_payloads:
for ctx, payload in ctx_payloads:
try:
await ctx.send_yield(payload)
except (
# That's right, anything you can think of...
trio.ClosedResourceError, ConnectionResetError,
ConnectionRefusedError,
):
log.warning(f"{ctx.chan} went down?")
for ctx_list in topics2ctxs.values():
try:
ctx_list.remove(ctx)
except ValueError:
continue
if not get_topics():
log.warning(f"No subscribers left for {pub_gen}")
break
def modify_subs(
topics2ctxs: Dict[str, List[Context]],
topics: Set[str],
ctx: Context,
) -> None:
"""Absolute symbol subscription list for each quote stream.
Effectively a symbol subscription api.
"""
log.info(f"{ctx.chan.uid} changed subscription to {topics}")
# update map from each symbol to requesting client's chan
for topic in topics:
topics2ctxs.setdefault(topic, list()).append(ctx)
# remove any existing symbol subscriptions if symbol is not
# found in ``symbols``
# TODO: this can likely be factored out into the pub-sub api
for topic in filter(
lambda topic: topic not in topics, topics2ctxs.copy()
):
ctx_list = topics2ctxs.get(topic)
if ctx_list:
try:
ctx_list.remove(ctx)
except ValueError:
pass
if not ctx_list:
# pop empty sets which will trigger bg quoter task termination
topics2ctxs.pop(topic)
_pub_state: Dict[str, dict] = {}
_pubtask2lock: Dict[str, trio.StrictFIFOLock] = {}
def pub(
wrapped: typing.Callable = None,
*,
tasks: Set[str] = set(),
):
"""Publisher async generator decorator.
A publisher can be called multiple times from different actors but
will only spawn a finite set of internal tasks to stream values to
each caller. The ``tasks: Set[str]`` argument to the decorator
specifies the names of the mutex set of publisher tasks. When the
publisher function is called, an argument ``task_name`` must be
passed to specify which task (of the set named in ``tasks``) should
be used. This allows for using the same publisher with different
input (arguments) without allowing more concurrent tasks then
necessary.
Values yielded from the decorated async generator must be
``Dict[str, Dict[str, Any]]`` where the fist level key is the topic
string and determines which subscription the packet will be
delivered to and the value is a packet ``Dict[str, Any]`` by default
of the form:
.. ::python
{topic: str: value: Any}
The caller can instead opt to pass a ``packetizer`` callback who's
return value will be delivered as the published response.
The decorated async generator function must accept an argument
:func:`get_topics` which dynamically returns the tuple of current
subscriber topics:
.. code:: python
from tractor.msg import pub
@pub(tasks={'source_1', 'source_2'})
async def pub_service(get_topics):
data = await web_request(endpoints=get_topics())
for item in data:
yield data['key'], data
The publisher must be called passing in the following arguments:
- ``topics: Set[str]`` the topic sequence or "subscriptions"
- ``task_name: str`` the task to use (if ``tasks`` was passed)
- ``ctx: Context`` the tractor context (only needed if calling the
pub func without a nursery, otherwise this is provided implicitly)
- packetizer: ``Callable[[str, Any], Any]`` a callback who receives
the topic and value from the publisher function each ``yield`` such that
whatever is returned is sent as the published value to subscribers of
that topic. By default this is a dict ``{topic: str: value: Any}``.
As an example, to make a subscriber call the above function:
.. code:: python
from functools import partial
import tractor
async with tractor.open_nursery() as n:
portal = n.run_in_actor(
'publisher', # actor name
partial( # func to execute in it
pub_service,
topics=('clicks', 'users'),
task_name='source1',
)
)
async for value in await portal.result():
print(f"Subscriber received {value}")
Here, you don't need to provide the ``ctx`` argument since the
remote actor provides it automatically to the spawned task. If you
were to call ``pub_service()`` directly from a wrapping function you
would need to provide this explicitly.
Remember you only need this if you need *a finite set of tasks*
running in a single actor to stream data to an arbitrary number of
subscribers. If you are ok to have a new task running for every call
to ``pub_service()`` then probably don't need this.
"""
global _pubtask2lock
# handle the decorator not called with () case
if wrapped is None:
return partial(pub, tasks=tasks)
task2lock: Dict[str, trio.StrictFIFOLock] = {}
for name in tasks:
task2lock[name] = trio.StrictFIFOLock()
@wrapt.decorator
async def wrapper(agen, instance, args, kwargs):
# XXX: this is used to extract arguments properly as per the
# `wrapt` docs
async def _execute(
ctx: Context,
topics: Set[str],
*args,
# *,
task_name: str = None, # default: only one task allocated
packetizer: Callable = None,
**kwargs,
):
if task_name is None:
task_name = trio.lowlevel.current_task().name
if tasks and task_name not in tasks:
raise TypeError(
f"{agen} must be called with a `task_name` named "
f"argument with a value from {tasks}")
elif not tasks and not task2lock:
# add a default root-task lock if none defined
task2lock[task_name] = trio.StrictFIFOLock()
_pubtask2lock.update(task2lock)
topics = set(topics)
lock = _pubtask2lock[task_name]
all_subs = _pub_state.setdefault('_subs', {})
topics2ctxs = all_subs.setdefault(task_name, {})
try:
modify_subs(topics2ctxs, topics, ctx)
# block and let existing feed task deliver
# stream data until it is cancelled in which case
# the next waiting task will take over and spawn it again
async with lock:
# no data feeder task yet; so start one
respawn = True
while respawn:
respawn = False
log.info(
f"Spawning data feed task for {funcname}")
try:
# unblocks when no more symbols subscriptions exist
# and the streamer task terminates
await fan_out_to_ctxs(
pub_async_gen_func=partial(
agen, *args, **kwargs),
topics2ctxs=topics2ctxs,
packetizer=packetizer,
)
log.info(
f"Terminating stream task {task_name or ''}"
f" for {agen.__name__}")
except trio.BrokenResourceError:
log.exception("Respawning failed data feed task")
respawn = True
finally:
# remove all subs for this context
modify_subs(topics2ctxs, set(), ctx)
# if there are truly no more subscriptions with this broker
# drop from broker subs dict
if not any(topics2ctxs.values()):
log.info(
f"No more subscriptions for publisher {task_name}")
# invoke it
await _execute(*args, **kwargs)
funcname = wrapped.__name__
if not inspect.isasyncgenfunction(wrapped):
raise TypeError(
f"Publisher {funcname} must be an async generator function"
)
if 'get_topics' not in inspect.signature(wrapped).parameters:
raise TypeError(
f"Publisher async gen {funcname} must define a "
"`get_topics` argument"
)
# XXX: manually monkey the wrapped function since
# ``wrapt.decorator`` doesn't seem to want to play nice with its
# whole "adapter" thing...
wrapped._tractor_stream_function = True # type: ignore
return wrapper(wrapped)

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from ._tractor_test import tractor_test

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import inspect
import platform
from functools import partial, wraps
import trio
import tractor
# from tractor import run
__all__ = ['tractor_test']
def tractor_test(fn):
"""
Use:
@tractor_test
async def test_whatever():
await ...
If fixtures:
- ``arb_addr`` (a socket addr tuple where arbiter is listening)
- ``loglevel`` (logging level passed to tractor internals)
- ``start_method`` (subprocess spawning backend)
are defined in the `pytest` fixture space they will be automatically
injected to tests declaring these funcargs.
"""
@wraps(fn)
def wrapper(
*args,
loglevel=None,
arb_addr=None,
start_method=None,
**kwargs
):
# __tracebackhide__ = True
if 'arb_addr' in inspect.signature(fn).parameters:
# injects test suite fixture value to test as well
# as `run()`
kwargs['arb_addr'] = arb_addr
if 'loglevel' in inspect.signature(fn).parameters:
# allows test suites to define a 'loglevel' fixture
# that activates the internal logging
kwargs['loglevel'] = loglevel
if start_method is None:
if platform.system() == "Windows":
start_method = 'spawn'
else:
start_method = 'trio'
if 'start_method' in inspect.signature(fn).parameters:
# set of subprocess spawning backends
kwargs['start_method'] = start_method
if kwargs:
# use explicit root actor start
async def _main():
async with tractor.open_root_actor(
# **kwargs,
arbiter_addr=arb_addr,
loglevel=loglevel,
start_method=start_method,
# TODO: only enable when pytest is passed --pdb
# debug_mode=True,
) as actor:
await fn(*args, **kwargs)
main = _main
else:
# use implicit root actor start
main = partial(fn, *args, **kwargs)
return trio.run(main)
# arbiter_addr=arb_addr,
# loglevel=loglevel,
# start_method=start_method,
# )
return wrapper

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@ -1,550 +0,0 @@
# 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/>.
'''
Infection apis for ``asyncio`` loops running ``trio`` using guest mode.
'''
import asyncio
from asyncio.exceptions import CancelledError
from contextlib import asynccontextmanager as acm
from dataclasses import dataclass
import inspect
from typing import (
Any,
Callable,
AsyncIterator,
Awaitable,
Optional,
)
import trio
from outcome import Error
from .log import get_logger
from ._state import current_actor
from ._exceptions import AsyncioCancelled
from .trionics._broadcast import (
broadcast_receiver,
BroadcastReceiver,
)
log = get_logger(__name__)
__all__ = ['run_task', 'run_as_asyncio_guest']
@dataclass
class LinkedTaskChannel(trio.abc.Channel):
'''
A "linked task channel" which allows for two-way synchronized msg
passing between a ``trio``-in-guest-mode task and an ``asyncio``
task scheduled in the host loop.
'''
_to_aio: asyncio.Queue
_from_aio: trio.MemoryReceiveChannel
_to_trio: trio.MemorySendChannel
_trio_cs: trio.CancelScope
_aio_task_complete: trio.Event
_trio_exited: bool = False
# set after ``asyncio.create_task()``
_aio_task: Optional[asyncio.Task] = None
_aio_err: Optional[BaseException] = None
_broadcaster: Optional[BroadcastReceiver] = None
async def aclose(self) -> None:
await self._from_aio.aclose()
async def receive(self) -> Any:
async with translate_aio_errors(
self,
# XXX: obviously this will deadlock if an on-going stream is
# being procesed.
# wait_on_aio_task=False,
):
# TODO: do we need this to guarantee asyncio code get's
# cancelled in the case where the trio side somehow creates
# a state where the asyncio cycle-task isn't getting the
# cancel request sent by (in theory) the last checkpoint
# cycle on the trio side?
# await trio.lowlevel.checkpoint()
return await self._from_aio.receive()
async def wait_asyncio_complete(self) -> None:
await self._aio_task_complete.wait()
# def cancel_asyncio_task(self) -> None:
# self._aio_task.cancel()
async def send(self, item: Any) -> None:
'''
Send a value through to the asyncio task presuming
it defines a ``from_trio`` argument, if it does not
this method will raise an error.
'''
self._to_aio.put_nowait(item)
def closed(self) -> bool:
return self._from_aio._closed # type: ignore
# TODO: shoud we consider some kind of "decorator" system
# that checks for structural-typing compatibliity and then
# automatically adds this ctx-mngr-as-method machinery?
@acm
async def subscribe(
self,
) -> AsyncIterator[BroadcastReceiver]:
'''
Allocate and return a ``BroadcastReceiver`` which delegates
to this inter-task channel.
This allows multiple local tasks to receive each their own copy
of this message stream.
See ``tractor._streaming.MsgStream.subscribe()`` for further
similar details.
'''
if self._broadcaster is None:
bcast = self._broadcaster = broadcast_receiver(
self,
# use memory channel size by default
self._from_aio._state.max_buffer_size, # type: ignore
receive_afunc=self.receive,
)
self.receive = bcast.receive # type: ignore
async with self._broadcaster.subscribe() as bstream:
assert bstream.key != self._broadcaster.key
assert bstream._recv == self._broadcaster._recv
yield bstream
def _run_asyncio_task(
func: Callable,
*,
qsize: int = 1,
provide_channels: bool = False,
**kwargs,
) -> LinkedTaskChannel:
'''
Run an ``asyncio`` async function or generator in a task, return
or stream the result back to ``trio``.
'''
__tracebackhide__ = True
if not current_actor().is_infected_aio():
raise RuntimeError("`infect_asyncio` mode is not enabled!?")
# ITC (inter task comms), these channel/queue names are mostly from
# ``asyncio``'s perspective.
aio_q = from_trio = asyncio.Queue(qsize) # type: ignore
to_trio, from_aio = trio.open_memory_channel(qsize) # type: ignore
args = tuple(inspect.getfullargspec(func).args)
if getattr(func, '_tractor_steam_function', None):
# the assumption is that the target async routine accepts the
# send channel then it intends to yield more then one return
# value otherwise it would just return ;P
assert qsize > 1
if provide_channels:
assert 'to_trio' in args
# allow target func to accept/stream results manually by name
if 'to_trio' in args:
kwargs['to_trio'] = to_trio
if 'from_trio' in args:
kwargs['from_trio'] = from_trio
coro = func(**kwargs)
cancel_scope = trio.CancelScope()
aio_task_complete = trio.Event()
aio_err: Optional[BaseException] = None
chan = LinkedTaskChannel(
aio_q, # asyncio.Queue
from_aio, # recv chan
to_trio, # send chan
cancel_scope,
aio_task_complete,
)
async def wait_on_coro_final_result(
to_trio: trio.MemorySendChannel,
coro: Awaitable,
aio_task_complete: trio.Event,
) -> None:
'''
Await ``coro`` and relay result back to ``trio``.
'''
nonlocal aio_err
nonlocal chan
orig = result = id(coro)
try:
result = await coro
except BaseException as aio_err:
log.exception('asyncio task errored')
chan._aio_err = aio_err
raise
else:
if (
result != orig and
aio_err is None and
# in the ``open_channel_from()`` case we don't
# relay through the "return value".
not provide_channels
):
to_trio.send_nowait(result)
finally:
# if the task was spawned using ``open_channel_from()``
# then we close the channels on exit.
if provide_channels:
# only close the sender side which will relay
# a ``trio.EndOfChannel`` to the trio (consumer) side.
to_trio.close()
aio_task_complete.set()
log.runtime(f'`asyncio` task: {task.get_name()} is complete')
# start the asyncio task we submitted from trio
if not inspect.isawaitable(coro):
raise TypeError(f"No support for invoking {coro}")
task = asyncio.create_task(
wait_on_coro_final_result(
to_trio,
coro,
aio_task_complete
)
)
chan._aio_task = task
def cancel_trio(task: asyncio.Task) -> None:
'''
Cancel the calling ``trio`` task on error.
'''
nonlocal chan
aio_err = chan._aio_err
task_err: Optional[BaseException] = None
# only to avoid ``asyncio`` complaining about uncaptured
# task exceptions
try:
task.exception()
except BaseException as terr:
task_err = terr
if isinstance(terr, CancelledError):
log.cancel(f'`asyncio` task cancelled: {task.get_name()}')
else:
log.exception(f'`asyncio` task: {task.get_name()} errored')
assert type(terr) is type(aio_err), 'Asyncio task error mismatch?'
if aio_err is not None:
# XXX: uhh is this true?
# assert task_err, f'Asyncio task {task.get_name()} discrepancy!?'
# NOTE: currently mem chan closure may act as a form
# of error relay (at least in the ``asyncio.CancelledError``
# case) since we have no way to directly trigger a ``trio``
# task error without creating a nursery to throw one.
# We might want to change this in the future though.
from_aio.close()
if type(aio_err) is CancelledError:
log.cancel("infected task was cancelled")
# TODO: show that the cancellation originated
# from the ``trio`` side? right?
# if cancel_scope.cancelled:
# raise aio_err from err
elif task_err is None:
assert aio_err
aio_err.with_traceback(aio_err.__traceback__)
log.error('infected task errorred')
# XXX: alway cancel the scope on error
# in case the trio task is blocking
# on a checkpoint.
cancel_scope.cancel()
# raise any ``asyncio`` side error.
raise aio_err
task.add_done_callback(cancel_trio)
return chan
@acm
async def translate_aio_errors(
chan: LinkedTaskChannel,
wait_on_aio_task: bool = False,
) -> AsyncIterator[None]:
'''
Error handling context around ``asyncio`` task spawns which
appropriately translates errors and cancels into ``trio`` land.
'''
trio_task = trio.lowlevel.current_task()
aio_err: Optional[BaseException] = None
# TODO: make thisi a channel method?
def maybe_raise_aio_err(
err: Optional[Exception] = None
) -> None:
aio_err = chan._aio_err
if (
aio_err is not None and
type(aio_err) != CancelledError
):
# always raise from any captured asyncio error
if err:
raise aio_err from err
else:
raise aio_err
task = chan._aio_task
assert task
try:
yield
except (
trio.Cancelled,
):
# relay cancel through to called ``asyncio`` task
assert chan._aio_task
chan._aio_task.cancel(
msg=f'the `trio` caller task was cancelled: {trio_task.name}'
)
raise
except (
# NOTE: see the note in the ``cancel_trio()`` asyncio task
# termination callback
trio.ClosedResourceError,
# trio.BrokenResourceError,
):
aio_err = chan._aio_err
if (
task.cancelled() and
type(aio_err) is CancelledError
):
# if an underlying ``asyncio.CancelledError`` triggered this
# channel close, raise our (non-``BaseException``) wrapper
# error: ``AsyncioCancelled`` from that source error.
raise AsyncioCancelled from aio_err
else:
raise
finally:
if (
# NOTE: always cancel the ``asyncio`` task if we've made it
# this far and it's not done.
not task.done() and aio_err
# or the trio side has exited it's surrounding cancel scope
# indicating the lifetime of the ``asyncio``-side task
# should also be terminated.
or chan._trio_exited
):
log.runtime(
f'Cancelling `asyncio`-task: {task.get_name()}'
)
# assert not aio_err, 'WTF how did asyncio do this?!'
task.cancel()
# Required to sync with the far end ``asyncio``-task to ensure
# any error is captured (via monkeypatching the
# ``channel._aio_err``) before calling ``maybe_raise_aio_err()``
# below!
if wait_on_aio_task:
await chan._aio_task_complete.wait()
# NOTE: if any ``asyncio`` error was caught, raise it here inline
# here in the ``trio`` task
maybe_raise_aio_err()
async def run_task(
func: Callable,
*,
qsize: int = 2**10,
**kwargs,
) -> Any:
'''
Run an ``asyncio`` async function or generator in a task, return
or stream the result back to ``trio``.
'''
# simple async func
chan = _run_asyncio_task(
func,
qsize=1,
**kwargs,
)
with chan._from_aio:
async with translate_aio_errors(
chan,
wait_on_aio_task=True,
):
# return single value that is the output from the
# ``asyncio`` function-as-task. Expect the mem chan api to
# do the job of handling cross-framework cancellations
# / errors via closure and translation in the
# ``translate_aio_errors()`` in the above ctx mngr.
return await chan.receive()
@acm
async def open_channel_from(
target: Callable[..., Any],
**kwargs,
) -> AsyncIterator[Any]:
'''
Open an inter-loop linked task channel for streaming between a target
spawned ``asyncio`` task and ``trio``.
'''
chan = _run_asyncio_task(
target,
qsize=2**8,
provide_channels=True,
**kwargs,
)
async with chan._from_aio:
async with translate_aio_errors(
chan,
wait_on_aio_task=True,
):
# sync to a "started()"-like first delivered value from the
# ``asyncio`` task.
try:
with chan._trio_cs:
first = await chan.receive()
# deliver stream handle upward
yield first, chan
finally:
chan._trio_exited = True
chan._to_trio.close()
def run_as_asyncio_guest(
trio_main: Callable,
) -> None:
'''
Entry for an "infected ``asyncio`` actor".
Entrypoint for a Python process which starts the ``asyncio`` event
loop and runs ``trio`` in guest mode resulting in a system where
``trio`` tasks can control ``asyncio`` tasks whilst maintaining
SC semantics.
'''
# Uh, oh.
#
# :o
# It looks like your event loop has caught a case of the ``trio``s.
# :()
# Don't worry, we've heard you'll barely notice. You might
# hallucinate a few more propagating errors and feel like your
# digestion has slowed but if anything get's too bad your parents
# will know about it.
# :)
async def aio_main(trio_main):
loop = asyncio.get_running_loop()
trio_done_fut = asyncio.Future()
def trio_done_callback(main_outcome):
if isinstance(main_outcome, Error):
error = main_outcome.error
trio_done_fut.set_exception(error)
# TODO: explicit asyncio tb?
# traceback.print_exception(error)
# XXX: do we need this?
# actor.cancel_soon()
main_outcome.unwrap()
else:
trio_done_fut.set_result(main_outcome)
log.runtime(f"trio_main finished: {main_outcome!r}")
# start the infection: run trio on the asyncio loop in "guest mode"
log.info(f"Infecting asyncio process with {trio_main}")
trio.lowlevel.start_guest_run(
trio_main,
run_sync_soon_threadsafe=loop.call_soon_threadsafe,
done_callback=trio_done_callback,
)
# ``.unwrap()`` will raise here on error
return (await trio_done_fut).unwrap()
# might as well if it's installed.
try:
import uvloop
loop = uvloop.new_event_loop()
asyncio.set_event_loop(loop)
except ImportError:
pass
return asyncio.run(aio_main(trio_main))

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@ -1,40 +0,0 @@
# 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/>.
'''
Sugary patterns for trio + tractor designs.
'''
from ._mngrs import (
gather_contexts,
maybe_open_context,
maybe_open_nursery,
)
from ._broadcast import (
broadcast_receiver,
BroadcastReceiver,
Lagged,
)
__all__ = [
'gather_contexts',
'broadcast_receiver',
'BroadcastReceiver',
'Lagged',
'maybe_open_context',
'maybe_open_nursery',
]

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@ -1,461 +0,0 @@
# 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/>.
'''
``tokio`` style broadcast channel.
https://docs.rs/tokio/1.11.0/tokio/sync/broadcast/index.html
'''
from __future__ import annotations
from abc import abstractmethod
from collections import deque
from contextlib import asynccontextmanager
from functools import partial
from operator import ne
from typing import Optional, Callable, Awaitable, Any, AsyncIterator, Protocol
from typing import Generic, TypeVar
import trio
from trio._core._run import Task
from trio.abc import ReceiveChannel
from trio.lowlevel import current_task
from msgspec import Struct
from tractor.log import get_logger
log = get_logger(__name__)
# A regular invariant generic type
T = TypeVar("T")
# covariant because AsyncReceiver[Derived] can be passed to someone
# expecting AsyncReceiver[Base])
ReceiveType = TypeVar("ReceiveType", covariant=True)
class AsyncReceiver(
Protocol,
Generic[ReceiveType],
):
'''
An async receivable duck-type that quacks much like trio's
``trio.abc.ReceiveChannel``.
'''
@abstractmethod
async def receive(self) -> ReceiveType:
...
@abstractmethod
def __aiter__(self) -> AsyncIterator[ReceiveType]:
...
@abstractmethod
async def __anext__(self) -> ReceiveType:
...
# ``trio.abc.AsyncResource`` methods
@abstractmethod
async def aclose(self):
...
@abstractmethod
async def __aenter__(self) -> AsyncReceiver[ReceiveType]:
...
@abstractmethod
async def __aexit__(self, *args) -> None:
...
class Lagged(trio.TooSlowError):
'''
Subscribed consumer task was too slow and was overrun
by the fastest consumer-producer pair.
'''
class BroadcastState(Struct):
'''
Common state to all receivers of a broadcast.
'''
queue: deque
maxlen: int
# map of underlying instance id keys to receiver instances which
# must be provided as a singleton per broadcaster set.
subs: dict[int, int]
# broadcast event to wake up all sleeping consumer tasks
# on a newly produced value from the sender.
recv_ready: Optional[tuple[int, trio.Event]] = None
# if a ``trio.EndOfChannel`` is received on any
# consumer all consumers should be placed in this state
# such that the group is notified of the end-of-broadcast.
# For now, this is solely for testing/debugging purposes.
eoc: bool = False
# If the broadcaster was cancelled, we might as well track it
cancelled: dict[int, Task] = {}
def statistics(self) -> dict[str, Any]:
'''
Return broadcast receiver group "statistics" like many of
``trio``'s internal task-sync primitives.
'''
key: int | None
ev: trio.Event | None
subs = self.subs
if self.recv_ready is not None:
key, ev = self.recv_ready
else:
key = ev = None
qlens: dict[int, int] = {}
for tid, sz in subs.items():
qlens[tid] = sz if sz != -1 else 0
return {
'open_consumers': len(subs),
'queued_len_by_task': qlens,
'max_buffer_size': self.maxlen,
'tasks_waiting': ev.statistics().tasks_waiting if ev else 0,
'tasks_cancelled': self.cancelled,
'next_value_receiver_id': key,
}
class BroadcastReceiver(ReceiveChannel):
'''
A memory receive channel broadcaster which is non-lossy for the
fastest consumer.
Additional consumer tasks can receive all produced values by registering
with ``.subscribe()`` and receiving from the new instance it delivers.
'''
def __init__(
self,
rx_chan: AsyncReceiver,
state: BroadcastState,
receive_afunc: Optional[Callable[[], Awaitable[Any]]] = None,
raise_on_lag: bool = True,
) -> None:
# register the original underlying (clone)
self.key = id(self)
self._state = state
# each consumer has an int count which indicates
# which index contains the next value that the task has not yet
# consumed and thus should read. In the "up-to-date" case the
# consumer task must wait for a new value from the underlying
# receiver and we use ``-1`` as the sentinel for this state.
state.subs[self.key] = -1
# underlying for this receiver
self._rx = rx_chan
self._recv = receive_afunc or rx_chan.receive
self._closed: bool = False
self._raise_on_lag = raise_on_lag
def receive_nowait(
self,
_key: int | None = None,
_state: BroadcastState | None = None,
) -> Any:
'''
Sync version of `.receive()` which does all the low level work
of receiving from the underlying/wrapped receive channel.
'''
key = _key or self.key
state = _state or self._state
# TODO: ideally we can make some way to "lock out" the
# underlying receive channel in some way such that if some task
# tries to pull from it directly (i.e. one we're unaware of)
# then it errors out.
# only tasks which have entered ``.subscribe()`` can
# receive on this broadcaster.
try:
seq = state.subs[key]
except KeyError:
if self._closed:
raise trio.ClosedResourceError
raise RuntimeError(
f'{self} is not registerd as subscriber')
# check that task does not already have a value it can receive
# immediately and/or that it has lagged.
if seq > -1:
# get the oldest value we haven't received immediately
try:
value = state.queue[seq]
except IndexError:
# adhere to ``tokio`` style "lagging":
# "Once RecvError::Lagged is returned, the lagging
# receiver's position is updated to the oldest value
# contained by the channel. The next call to recv will
# return this value."
# https://docs.rs/tokio/1.11.0/tokio/sync/broadcast/index.html#lagging
mxln = state.maxlen
lost = seq - mxln
# decrement to the last value and expect
# consumer to either handle the ``Lagged`` and come back
# or bail out on its own (thus un-subscribing)
state.subs[key] = mxln - 1
# this task was overrun by the producer side
task: Task = current_task()
msg = f'Task `{task.name}` overrun and dropped `{lost}` values'
if self._raise_on_lag:
raise Lagged(msg)
else:
log.warning(msg)
return self.receive_nowait(_key, _state)
state.subs[key] -= 1
return value
raise trio.WouldBlock
async def _receive_from_underlying(
self,
key: int,
state: BroadcastState,
) -> ReceiveType:
if self._closed:
raise trio.ClosedResourceError
event = trio.Event()
assert state.recv_ready is None
state.recv_ready = key, event
try:
# if we're cancelled here it should be
# fine to bail without affecting any other consumers
# right?
value = await self._recv()
# items with lower indices are "newer"
# NOTE: ``collections.deque`` implicitly takes care of
# trucating values outside our ``state.maxlen``. In the
# alt-backend-array-case we'll need to make sure this is
# implemented in similar ringer-buffer-ish style.
state.queue.appendleft(value)
# broadcast new value to all subscribers by increasing
# all sequence numbers that will point in the queue to
# their latest available value.
# don't decrement the sequence for this task since we
# already retreived the last value
# XXX: which of these impls is fastest?
# subs = state.subs.copy()
# subs.pop(key)
for sub_key in filter(
# lambda k: k != key, state.subs,
partial(ne, key), state.subs,
):
state.subs[sub_key] += 1
# NOTE: this should ONLY be set if the above task was *NOT*
# cancelled on the `._recv()` call.
event.set()
return value
except trio.EndOfChannel:
# if any one consumer gets an EOC from the underlying
# receiver we need to unblock and send that signal to
# all other consumers.
self._state.eoc = True
if event.statistics().tasks_waiting:
event.set()
raise
except (
trio.Cancelled,
):
# handle cancelled specially otherwise sibling
# consumers will be awoken with a sequence of -1
# and will potentially try to rewait the underlying
# receiver instead of just cancelling immediately.
self._state.cancelled[key] = current_task()
if event.statistics().tasks_waiting:
event.set()
raise
finally:
# Reset receiver waiter task event for next blocking condition.
# this MUST be reset even if the above ``.recv()`` call
# was cancelled to avoid the next consumer from blocking on
# an event that won't be set!
state.recv_ready = None
async def receive(self) -> ReceiveType:
key = self.key
state = self._state
try:
return self.receive_nowait(
_key=key,
_state=state,
)
except trio.WouldBlock:
pass
# current task already has the latest value **and** is the
# first task to begin waiting for a new one so we begin blocking
# until rescheduled with the a new value from the underlying.
if state.recv_ready is None:
return await self._receive_from_underlying(key, state)
# This task is all caught up and ready to receive the latest
# value, so queue/schedule it to be woken on the next internal
# event.
else:
while state.recv_ready is not None:
# seq = state.subs[key]
# assert seq == -1 # sanity
_, ev = state.recv_ready
await ev.wait()
try:
return self.receive_nowait(
_key=key,
_state=state,
)
except trio.WouldBlock:
if self._closed:
raise trio.ClosedResourceError
subs = state.subs
if (
len(subs) == 1
and key in subs
# or cancelled
):
# XXX: we are the last and only user of this BR so
# likely it makes sense to unwind back to the
# underlying?
# import tractor
# await tractor.breakpoint()
log.warning(
f'Only one sub left for {self}?\n'
'We can probably unwind from breceiver?'
)
# XXX: In the case where the first task to allocate the
# ``.recv_ready`` event is cancelled we will be woken
# with a non-incremented sequence number (the ``-1``
# sentinel) and thus will read the oldest value if we
# use that. Instead we need to detect if we have not
# been incremented and then receive again.
# return await self.receive()
return await self._receive_from_underlying(key, state)
@asynccontextmanager
async def subscribe(
self,
raise_on_lag: bool = True,
) -> AsyncIterator[BroadcastReceiver]:
'''
Subscribe for values from this broadcast receiver.
Returns a new ``BroadCastReceiver`` which is registered for and
pulls data from a clone of the original
``trio.abc.ReceiveChannel`` provided at creation.
'''
if self._closed:
raise trio.ClosedResourceError
state = self._state
br = BroadcastReceiver(
rx_chan=self._rx,
state=state,
receive_afunc=self._recv,
raise_on_lag=raise_on_lag,
)
# assert clone in state.subs
assert br.key in state.subs
try:
yield br
finally:
await br.aclose()
async def aclose(
self,
) -> None:
'''
Close this receiver without affecting other consumers.
'''
if self._closed:
return
# if there are sleeping consumers wake
# them on closure.
rr = self._state.recv_ready
if rr:
_, event = rr
event.set()
# XXX: leaving it like this consumers can still get values
# up to the last received that still reside in the queue.
self._state.subs.pop(self.key)
self._closed = True
def broadcast_receiver(
recv_chan: AsyncReceiver,
max_buffer_size: int,
receive_afunc: Optional[Callable[[], Awaitable[Any]]] = None,
raise_on_lag: bool = True,
) -> BroadcastReceiver:
return BroadcastReceiver(
recv_chan,
state=BroadcastState(
queue=deque(maxlen=max_buffer_size),
maxlen=max_buffer_size,
subs={},
),
receive_afunc=receive_afunc,
raise_on_lag=raise_on_lag,
)

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@ -1,278 +0,0 @@
# 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/>.
'''
Async context manager primitives with hard ``trio``-aware semantics
'''
from contextlib import asynccontextmanager as acm
import inspect
from typing import (
Any,
AsyncContextManager,
AsyncGenerator,
AsyncIterator,
Callable,
Hashable,
Optional,
Sequence,
TypeVar,
)
import trio
from trio_typing import TaskStatus
from .._state import current_actor
from ..log import get_logger
log = get_logger(__name__)
# A regular invariant generic type
T = TypeVar("T")
@acm
async def maybe_open_nursery(
nursery: trio.Nursery | None = None,
shield: bool = False,
) -> AsyncGenerator[trio.Nursery, Any]:
'''
Create a new nursery if None provided.
Blocks on exit as expected if no input nursery is provided.
'''
if nursery is not None:
yield nursery
else:
async with trio.open_nursery() as nursery:
nursery.cancel_scope.shield = shield
yield nursery
async def _enter_and_wait(
mngr: AsyncContextManager[T],
unwrapped: dict[int, T],
all_entered: trio.Event,
parent_exit: trio.Event,
) -> None:
'''
Open the async context manager deliver it's value
to this task's spawner and sleep until cancelled.
'''
async with mngr as value:
unwrapped[id(mngr)] = value
if all(unwrapped.values()):
all_entered.set()
await parent_exit.wait()
@acm
async def gather_contexts(
mngrs: Sequence[AsyncContextManager[T]],
) -> AsyncGenerator[tuple[Optional[T], ...], None]:
'''
Concurrently enter a sequence of async context managers, each in
a separate ``trio`` task and deliver the unwrapped values in the
same order once all managers have entered. On exit all contexts are
subsequently and concurrently exited.
This function is somewhat similar to common usage of
``contextlib.AsyncExitStack.enter_async_context()`` (in a loop) in
combo with ``asyncio.gather()`` except the managers are concurrently
entered and exited, and cancellation just works.
'''
unwrapped: dict[int, Optional[T]] = {}.fromkeys(id(mngr) for mngr in mngrs)
all_entered = trio.Event()
parent_exit = trio.Event()
# XXX: ensure greedy sequence of manager instances
# since a lazy inline generator doesn't seem to work
# with `async with` syntax.
mngrs = list(mngrs)
if not mngrs:
raise ValueError(
'input mngrs is empty?\n'
'Did try to use inline generator syntax?'
)
async with trio.open_nursery() as n:
for mngr in mngrs:
n.start_soon(
_enter_and_wait,
mngr,
unwrapped,
all_entered,
parent_exit,
)
# deliver control once all managers have started up
await all_entered.wait()
try:
yield tuple(unwrapped.values())
finally:
# NOTE: this is ABSOLUTELY REQUIRED to avoid
# the following wacky bug:
# <tractorbugurlhere>
parent_exit.set()
# Per actor task caching helpers.
# Further potential examples of interest:
# https://gist.github.com/njsmith/cf6fc0a97f53865f2c671659c88c1798#file-cache-py-L8
class _Cache:
'''
Globally (actor-processs scoped) cached, task access to
a kept-alive-while-in-use async resource.
'''
service_n: Optional[trio.Nursery] = None
locks: dict[Hashable, trio.Lock] = {}
users: int = 0
values: dict[Any, Any] = {}
resources: dict[
Hashable,
tuple[trio.Nursery, trio.Event]
] = {}
# nurseries: dict[int, trio.Nursery] = {}
no_more_users: Optional[trio.Event] = None
@classmethod
async def run_ctx(
cls,
mng,
ctx_key: tuple,
task_status: TaskStatus[T] = trio.TASK_STATUS_IGNORED,
) -> None:
async with mng as value:
_, no_more_users = cls.resources[ctx_key]
cls.values[ctx_key] = value
task_status.started(value)
try:
await no_more_users.wait()
finally:
# discard nursery ref so it won't be re-used (an error)?
value = cls.values.pop(ctx_key)
cls.resources.pop(ctx_key)
@acm
async def maybe_open_context(
acm_func: Callable[..., AsyncContextManager[T]],
# XXX: used as cache key after conversion to tuple
# and all embedded values must also be hashable
kwargs: dict = {},
key: Hashable | Callable[..., Hashable] = None,
) -> AsyncIterator[tuple[bool, T]]:
'''
Maybe open a context manager if there is not already a _Cached
version for the provided ``key`` for *this* actor. Return the
_Cached instance on a _Cache hit.
'''
fid = id(acm_func)
if inspect.isfunction(key):
ctx_key = (fid, key(**kwargs))
else:
ctx_key = (fid, key or tuple(kwargs.items()))
# yielded output
yielded: Any = None
# Lock resource acquisition around task racing / ``trio``'s
# scheduler protocol.
# NOTE: the lock is target context manager func specific in order
# to allow re-entrant use cases where one `maybe_open_context()`
# wrapped factor may want to call into another.
lock = _Cache.locks.setdefault(fid, trio.Lock())
await lock.acquire()
# XXX: one singleton nursery per actor and we want to
# have it not be closed until all consumers have exited (which is
# currently difficult to implement any other way besides using our
# pre-allocated runtime instance..)
service_n: trio.Nursery = current_actor()._service_n
# TODO: is there any way to allocate
# a 'stays-open-till-last-task-finshed nursery?
# service_n: trio.Nursery
# async with maybe_open_nursery(_Cache.service_n) as service_n:
# _Cache.service_n = service_n
try:
# **critical section** that should prevent other tasks from
# checking the _Cache until complete otherwise the scheduler
# may switch and by accident we create more then one resource.
yielded = _Cache.values[ctx_key]
except KeyError:
log.info(f'Allocating new {acm_func} for {ctx_key}')
mngr = acm_func(**kwargs)
resources = _Cache.resources
assert not resources.get(ctx_key), f'Resource exists? {ctx_key}'
resources[ctx_key] = (service_n, trio.Event())
# sync up to the mngr's yielded value
yielded = await service_n.start(
_Cache.run_ctx,
mngr,
ctx_key,
)
_Cache.users += 1
lock.release()
yield False, yielded
else:
log.info(f'Reusing _Cached resource for {ctx_key}')
_Cache.users += 1
lock.release()
yield True, yielded
finally:
_Cache.users -= 1
if yielded is not None:
# if no more consumers, teardown the client
if _Cache.users <= 0:
log.info(f'De-allocating resource for {ctx_key}')
# XXX: if we're cancelled we the entry may have never
# been entered since the nursery task was killed.
# _, no_more_users = _Cache.resources[ctx_key]
entry = _Cache.resources.get(ctx_key)
if entry:
_, no_more_users = entry
no_more_users.set()
_Cache.locks.pop(fid)