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micropython/extmod/asyncio/core.py

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extmod/asyncio: Rename uasyncio to asyncio. The asyncio module now has much better CPython compatibility and deserves to be just called "asyncio". This will avoid people having to write `from uasyncio import asyncio`. Renames all files, and updates port manifests to use the new path. Also renames the built-in _uasyncio to _asyncio. This work was funded through GitHub Sponsors. Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
1 year ago
# MicroPython asyncio module
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
# MIT license; Copyright (c) 2019 Damien P. George
from time import ticks_ms as ticks, ticks_diff, ticks_add
import sys, select
extmod/uasyncio: Add optional implementation of core uasyncio in C. Implements Task and TaskQueue classes in C, using a pairing-heap data structure. Using this reduces RAM use of each Task, and improves overall performance of the uasyncio scheduler.
5 years ago
# Import TaskQueue and Task, preferring built-in C code over Python code
try:
extmod/asyncio: Rename uasyncio to asyncio. The asyncio module now has much better CPython compatibility and deserves to be just called "asyncio". This will avoid people having to write `from uasyncio import asyncio`. Renames all files, and updates port manifests to use the new path. Also renames the built-in _uasyncio to _asyncio. This work was funded through GitHub Sponsors. Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
1 year ago
from _asyncio import TaskQueue, Task
extmod/uasyncio: Add optional implementation of core uasyncio in C. Implements Task and TaskQueue classes in C, using a pairing-heap data structure. Using this reduces RAM use of each Task, and improves overall performance of the uasyncio scheduler.
5 years ago
except:
from .task import TaskQueue, Task
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
################################################################################
# Exceptions
class CancelledError(BaseException):
pass
class TimeoutError(Exception):
pass
extmod/uasyncio: Add global exception handling methods. This commit adds support for global exception handling in uasyncio according to the CPython error handling: https://docs.python.org/3/library/asyncio-eventloop.html#error-handling-api This allows a program to receive exceptions from detached tasks and log them to an appropriate location, instead of them being printed to the REPL. The implementation preallocates a context dictionary so in case of an exception there shouldn't be any RAM allocation. The approach here is compatible with CPython except that in CPython the exception handler is called once the task that threw an uncaught exception is freed, whereas in MicroPython the exception handler is called immediately when the exception is thrown.
5 years ago
# Used when calling Loop.call_exception_handler
_exc_context = {"message": "Task exception wasn't retrieved", "exception": None, "future": None}
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
################################################################################
# Sleep functions
top: Update Python formatting to black "2023 stable style". See https://black.readthedocs.io/en/stable/the_black_code_style/index.html Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
2 years ago
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
# "Yield" once, then raise StopIteration
class SingletonGenerator:
def __init__(self):
self.state = None
self.exc = StopIteration()
def __iter__(self):
return self
def __next__(self):
if self.state is not None:
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
_task_queue.push(cur_task, self.state)
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
self.state = None
return None
else:
self.exc.__traceback__ = None
raise self.exc
# Pause task execution for the given time (integer in milliseconds, uPy extension)
# Use a SingletonGenerator to do it without allocating on the heap
def sleep_ms(t, sgen=SingletonGenerator()):
assert sgen.state is None
extmod/uasyncio: Truncate negative sleeps to 0. Otherwise a task that continuously awaits on a large negative sleep can monopolise the scheduler (because its wake time is always less than everything else in the pairing heap). Signed-off-by: Damien George <damien@micropython.org>
4 years ago
sgen.state = ticks_add(ticks(), max(0, t))
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
return sgen
# Pause task execution for the given time (in seconds)
def sleep(t):
return sleep_ms(int(t * 1000))
################################################################################
# Queue and poller for stream IO
class IOQueue:
def __init__(self):
self.poller = select.poll()
self.map = {} # maps id(stream) to [task_waiting_read, task_waiting_write, stream]
def _enqueue(self, s, idx):
if id(s) not in self.map:
entry = [None, None, s]
entry[idx] = cur_task
self.map[id(s)] = entry
self.poller.register(s, select.POLLIN if idx == 0 else select.POLLOUT)
else:
sm = self.map[id(s)]
assert sm[idx] is None
assert sm[1 - idx] is not None
sm[idx] = cur_task
self.poller.modify(s, select.POLLIN | select.POLLOUT)
# Link task to this IOQueue so it can be removed if needed
cur_task.data = self
def _dequeue(self, s):
del self.map[id(s)]
self.poller.unregister(s)
def queue_read(self, s):
self._enqueue(s, 0)
def queue_write(self, s):
self._enqueue(s, 1)
def remove(self, task):
while True:
del_s = None
for k in self.map: # Iterate without allocating on the heap
q0, q1, s = self.map[k]
if q0 is task or q1 is task:
del_s = s
break
if del_s is not None:
self._dequeue(s)
else:
break
def wait_io_event(self, dt):
for s, ev in self.poller.ipoll(dt):
sm = self.map[id(s)]
# print('poll', s, sm, ev)
if ev & ~select.POLLOUT and sm[0] is not None:
# POLLIN or error
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
_task_queue.push(sm[0])
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
sm[0] = None
if ev & ~select.POLLIN and sm[1] is not None:
# POLLOUT or error
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
_task_queue.push(sm[1])
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
sm[1] = None
if sm[0] is None and sm[1] is None:
self._dequeue(s)
elif sm[0] is None:
self.poller.modify(s, select.POLLOUT)
else:
self.poller.modify(s, select.POLLIN)
################################################################################
# Main run loop
top: Update Python formatting to black "2023 stable style". See https://black.readthedocs.io/en/stable/the_black_code_style/index.html Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
2 years ago
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
# Ensure the awaitable is a task
def _promote_to_task(aw):
return aw if isinstance(aw, Task) else create_task(aw)
# Create and schedule a new task from a coroutine
def create_task(coro):
if not hasattr(coro, "send"):
raise TypeError("coroutine expected")
t = Task(coro, globals())
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
_task_queue.push(t)
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
return t
# Keep scheduling tasks until there are none left to schedule
def run_until_complete(main_task=None):
global cur_task
excs_all = (CancelledError, Exception) # To prevent heap allocation in loop
excs_stop = (CancelledError, StopIteration) # To prevent heap allocation in loop
while True:
# Wait until the head of _task_queue is ready to run
dt = 1
while dt > 0:
dt = -1
t = _task_queue.peek()
if t:
# A task waiting on _task_queue; "ph_key" is time to schedule task at
dt = max(0, ticks_diff(t.ph_key, ticks()))
elif not _io_queue.map:
# No tasks can be woken so finished running
return
# print('(poll {})'.format(dt), len(_io_queue.map))
_io_queue.wait_io_event(dt)
# Get next task to run and continue it
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
t = _task_queue.pop()
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
cur_task = t
try:
# Continue running the coroutine, it's responsible for rescheduling itself
exc = t.data
if not exc:
t.coro.send(None)
else:
extmod/uasyncio: Fix race with cancelled task waiting on finished task. This commit fixes a problem with a race between cancellation of task A and completion of task B, when A waits on B. If task B completes just before task A is cancelled then the cancellation of A does not work. Instead, the CancelledError meant to cancel A gets passed through to B (that's expected behaviour) but B handles it as a "Task exception wasn't retrieved" scenario, printing out such a message (this is because finished tasks point their "coro" attribute to themselves to indicate they are done, and implement the throw() method, but that method inadvertently catches the CancelledError). The correct behaviour is for B to bounce that CancelledError back out. This bug is mainly seen when wait_for() is used, and in that context the symptoms are: - occurs when using wait_for(T, S), if the task T being waited on finishes at exactly the same time as the wait-for timeout S expires - task T will have run to completion - the "Task exception wasn't retrieved message" is printed with "<class 'CancelledError'>" as the error (ie no traceback) - the wait_for(T, S) call never returns (it's never put back on the uasyncio run queue) and all tasks waiting on this are blocked forever from running - uasyncio otherwise continues to function and other tasks continue to be scheduled as normal The fix here reworks the "waiting" attribute of Task to be called "state" and uses it to indicate whether a task is: running and not awaited on, running and awaited on, finished and not awaited on, or finished and awaited on. This means the task does not need to point "coro" to itself to indicate finished, and also allows removal of the throw() method. A benefit of this is that "Task exception wasn't retrieved" messages can go back to being able to print the name of the coroutine function. Fixes issue #7386. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
# If the task is finished and on the run queue and gets here, then it
# had an exception and was not await'ed on. Throwing into it now will
# raise StopIteration and the code below will catch this and run the
# call_exception_handler function.
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
t.data = None
t.coro.throw(exc)
except excs_all as er:
# Check the task is not on any event queue
assert t.data is None
# This task is done, check if it's the main task and then loop should stop
if t is main_task:
if isinstance(er, StopIteration):
return er.value
raise er
extmod/uasyncio: Fix race with cancelled task waiting on finished task. This commit fixes a problem with a race between cancellation of task A and completion of task B, when A waits on B. If task B completes just before task A is cancelled then the cancellation of A does not work. Instead, the CancelledError meant to cancel A gets passed through to B (that's expected behaviour) but B handles it as a "Task exception wasn't retrieved" scenario, printing out such a message (this is because finished tasks point their "coro" attribute to themselves to indicate they are done, and implement the throw() method, but that method inadvertently catches the CancelledError). The correct behaviour is for B to bounce that CancelledError back out. This bug is mainly seen when wait_for() is used, and in that context the symptoms are: - occurs when using wait_for(T, S), if the task T being waited on finishes at exactly the same time as the wait-for timeout S expires - task T will have run to completion - the "Task exception wasn't retrieved message" is printed with "<class 'CancelledError'>" as the error (ie no traceback) - the wait_for(T, S) call never returns (it's never put back on the uasyncio run queue) and all tasks waiting on this are blocked forever from running - uasyncio otherwise continues to function and other tasks continue to be scheduled as normal The fix here reworks the "waiting" attribute of Task to be called "state" and uses it to indicate whether a task is: running and not awaited on, running and awaited on, finished and not awaited on, or finished and awaited on. This means the task does not need to point "coro" to itself to indicate finished, and also allows removal of the throw() method. A benefit of this is that "Task exception wasn't retrieved" messages can go back to being able to print the name of the coroutine function. Fixes issue #7386. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
if t.state:
# Task was running but is now finished.
waiting = False
if t.state is True:
# "None" indicates that the task is complete and not await'ed on (yet).
t.state = None
extmod/uasyncio: Allow task state to be a callable. This implements a form of CPython's "add_done_callback()", but at this stage it is a hidden feature and only intended to be used internally. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
elif callable(t.state):
# The task has a callback registered to be called on completion.
t.state(t, er)
t.state = False
waiting = True
extmod/uasyncio: Fix race with cancelled task waiting on finished task. This commit fixes a problem with a race between cancellation of task A and completion of task B, when A waits on B. If task B completes just before task A is cancelled then the cancellation of A does not work. Instead, the CancelledError meant to cancel A gets passed through to B (that's expected behaviour) but B handles it as a "Task exception wasn't retrieved" scenario, printing out such a message (this is because finished tasks point their "coro" attribute to themselves to indicate they are done, and implement the throw() method, but that method inadvertently catches the CancelledError). The correct behaviour is for B to bounce that CancelledError back out. This bug is mainly seen when wait_for() is used, and in that context the symptoms are: - occurs when using wait_for(T, S), if the task T being waited on finishes at exactly the same time as the wait-for timeout S expires - task T will have run to completion - the "Task exception wasn't retrieved message" is printed with "<class 'CancelledError'>" as the error (ie no traceback) - the wait_for(T, S) call never returns (it's never put back on the uasyncio run queue) and all tasks waiting on this are blocked forever from running - uasyncio otherwise continues to function and other tasks continue to be scheduled as normal The fix here reworks the "waiting" attribute of Task to be called "state" and uses it to indicate whether a task is: running and not awaited on, running and awaited on, finished and not awaited on, or finished and awaited on. This means the task does not need to point "coro" to itself to indicate finished, and also allows removal of the throw() method. A benefit of this is that "Task exception wasn't retrieved" messages can go back to being able to print the name of the coroutine function. Fixes issue #7386. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
else:
# Schedule any other tasks waiting on the completion of this task.
while t.state.peek():
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
_task_queue.push(t.state.pop())
extmod/uasyncio: Fix race with cancelled task waiting on finished task. This commit fixes a problem with a race between cancellation of task A and completion of task B, when A waits on B. If task B completes just before task A is cancelled then the cancellation of A does not work. Instead, the CancelledError meant to cancel A gets passed through to B (that's expected behaviour) but B handles it as a "Task exception wasn't retrieved" scenario, printing out such a message (this is because finished tasks point their "coro" attribute to themselves to indicate they are done, and implement the throw() method, but that method inadvertently catches the CancelledError). The correct behaviour is for B to bounce that CancelledError back out. This bug is mainly seen when wait_for() is used, and in that context the symptoms are: - occurs when using wait_for(T, S), if the task T being waited on finishes at exactly the same time as the wait-for timeout S expires - task T will have run to completion - the "Task exception wasn't retrieved message" is printed with "<class 'CancelledError'>" as the error (ie no traceback) - the wait_for(T, S) call never returns (it's never put back on the uasyncio run queue) and all tasks waiting on this are blocked forever from running - uasyncio otherwise continues to function and other tasks continue to be scheduled as normal The fix here reworks the "waiting" attribute of Task to be called "state" and uses it to indicate whether a task is: running and not awaited on, running and awaited on, finished and not awaited on, or finished and awaited on. This means the task does not need to point "coro" to itself to indicate finished, and also allows removal of the throw() method. A benefit of this is that "Task exception wasn't retrieved" messages can go back to being able to print the name of the coroutine function. Fixes issue #7386. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
waiting = True
# "False" indicates that the task is complete and has been await'ed on.
t.state = False
if not waiting and not isinstance(er, excs_stop):
# An exception ended this detached task, so queue it for later
# execution to handle the uncaught exception if no other task retrieves
# the exception in the meantime (this is handled by Task.throw).
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
_task_queue.push(t)
extmod/uasyncio: Fix race with cancelled task waiting on finished task. This commit fixes a problem with a race between cancellation of task A and completion of task B, when A waits on B. If task B completes just before task A is cancelled then the cancellation of A does not work. Instead, the CancelledError meant to cancel A gets passed through to B (that's expected behaviour) but B handles it as a "Task exception wasn't retrieved" scenario, printing out such a message (this is because finished tasks point their "coro" attribute to themselves to indicate they are done, and implement the throw() method, but that method inadvertently catches the CancelledError). The correct behaviour is for B to bounce that CancelledError back out. This bug is mainly seen when wait_for() is used, and in that context the symptoms are: - occurs when using wait_for(T, S), if the task T being waited on finishes at exactly the same time as the wait-for timeout S expires - task T will have run to completion - the "Task exception wasn't retrieved message" is printed with "<class 'CancelledError'>" as the error (ie no traceback) - the wait_for(T, S) call never returns (it's never put back on the uasyncio run queue) and all tasks waiting on this are blocked forever from running - uasyncio otherwise continues to function and other tasks continue to be scheduled as normal The fix here reworks the "waiting" attribute of Task to be called "state" and uses it to indicate whether a task is: running and not awaited on, running and awaited on, finished and not awaited on, or finished and awaited on. This means the task does not need to point "coro" to itself to indicate finished, and also allows removal of the throw() method. A benefit of this is that "Task exception wasn't retrieved" messages can go back to being able to print the name of the coroutine function. Fixes issue #7386. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
# Save return value of coro to pass up to caller.
t.data = er
elif t.state is None:
# Task is already finished and nothing await'ed on the task,
# so call the exception handler.
_exc_context["exception"] = exc
_exc_context["future"] = t
Loop.call_exception_handler(_exc_context)
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
# Create a new task from a coroutine and run it until it finishes
def run(coro):
return run_until_complete(create_task(coro))
################################################################################
# Event loop wrapper
extmod/uasyncio: Implement Loop.stop() to stop the event loop.
5 years ago
async def _stopper():
pass
_stop_task = None
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
class Loop:
extmod/uasyncio: Add global exception handling methods. This commit adds support for global exception handling in uasyncio according to the CPython error handling: https://docs.python.org/3/library/asyncio-eventloop.html#error-handling-api This allows a program to receive exceptions from detached tasks and log them to an appropriate location, instead of them being printed to the REPL. The implementation preallocates a context dictionary so in case of an exception there shouldn't be any RAM allocation. The approach here is compatible with CPython except that in CPython the exception handler is called once the task that threw an uncaught exception is freed, whereas in MicroPython the exception handler is called immediately when the exception is thrown.
5 years ago
_exc_handler = None
extmod/uasyncio: Don't create a Loop instance in get_event_loop(). The event loop is (for now) just a singleton so make it so that Loop instances are not needed.
5 years ago
def create_task(coro):
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
return create_task(coro)
extmod/uasyncio: Don't create a Loop instance in get_event_loop(). The event loop is (for now) just a singleton so make it so that Loop instances are not needed.
5 years ago
def run_forever():
extmod/uasyncio: Implement Loop.stop() to stop the event loop.
5 years ago
global _stop_task
_stop_task = Task(_stopper(), globals())
run_until_complete(_stop_task)
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
# TODO should keep running until .stop() is called, even if there're no tasks left
extmod/uasyncio: Don't create a Loop instance in get_event_loop(). The event loop is (for now) just a singleton so make it so that Loop instances are not needed.
5 years ago
def run_until_complete(aw):
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
return run_until_complete(_promote_to_task(aw))
extmod/uasyncio: Implement Loop.stop() to stop the event loop.
5 years ago
def stop():
global _stop_task
if _stop_task is not None:
extmod/uasyncio: Rename and merge TaskQueue push/pop methods. These are internal names and can be safely renamed without affecting user code. push_sorted() and push_head() are merged into a single push() method, which is already how the C version is implemented. pop_head() is simply renamed to pop(). The changes are: - q.push_sorted(task, t) -> q.push(task, t) - q.push_head(task) -> q.push(task) - q.pop_head() -> q.pop() The shorter names and removal of push_head() leads to a code size reduction of between 40 and 64 bytes on bare-metal targets. Signed-off-by: Damien George <damien@micropython.org>
3 years ago
_task_queue.push(_stop_task)
extmod/uasyncio: Implement Loop.stop() to stop the event loop.
5 years ago
# If stop() is called again, do nothing
_stop_task = None
extmod/uasyncio: Don't create a Loop instance in get_event_loop(). The event loop is (for now) just a singleton so make it so that Loop instances are not needed.
5 years ago
def close():
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
pass
extmod/uasyncio: Add global exception handling methods. This commit adds support for global exception handling in uasyncio according to the CPython error handling: https://docs.python.org/3/library/asyncio-eventloop.html#error-handling-api This allows a program to receive exceptions from detached tasks and log them to an appropriate location, instead of them being printed to the REPL. The implementation preallocates a context dictionary so in case of an exception there shouldn't be any RAM allocation. The approach here is compatible with CPython except that in CPython the exception handler is called once the task that threw an uncaught exception is freed, whereas in MicroPython the exception handler is called immediately when the exception is thrown.
5 years ago
def set_exception_handler(handler):
Loop._exc_handler = handler
def get_exception_handler():
return Loop._exc_handler
def default_exception_handler(loop, context):
extmod/asyncio: Emit errors to stderr, not stdout. Sometimes these are different file descriptors, not to mention the Unix port, so use stderr to distinguish these error messages. CPython prints to stdout, but it does it via a call to the logging module. We don't want to introduce a dependency on logging, so printing to stderr is a good alternative. One can override default_exception_handler() if needed.
1 year ago
print(context["message"], file=sys.stderr)
print("future:", context["future"], "coro=", context["future"].coro, file=sys.stderr)
sys.print_exception(context["exception"], sys.stderr)
extmod/uasyncio: Add global exception handling methods. This commit adds support for global exception handling in uasyncio according to the CPython error handling: https://docs.python.org/3/library/asyncio-eventloop.html#error-handling-api This allows a program to receive exceptions from detached tasks and log them to an appropriate location, instead of them being printed to the REPL. The implementation preallocates a context dictionary so in case of an exception there shouldn't be any RAM allocation. The approach here is compatible with CPython except that in CPython the exception handler is called once the task that threw an uncaught exception is freed, whereas in MicroPython the exception handler is called immediately when the exception is thrown.
5 years ago
def call_exception_handler(context):
(Loop._exc_handler or Loop.default_exception_handler)(Loop, context)
extmod/uasyncio: Add new implementation of uasyncio module. This commit adds a completely new implementation of the uasyncio module. The aim of this version (compared to the original one in micropython-lib) is to be more compatible with CPython's asyncio module, so that one can more easily write code that runs under both MicroPython and CPython (and reuse CPython asyncio libraries, follow CPython asyncio tutorials, etc). Async code is not easy to write and any knowledge users already have from CPython asyncio should transfer to uasyncio without effort, and vice versa. The implementation here attempts to provide good compatibility with CPython's asyncio while still being "micro" enough to run where MicroPython runs. This follows the general philosophy of MicroPython itself, to make it feel like Python. The main change is to use a Task object for each coroutine. This allows more flexibility to queue tasks in various places, eg the main run loop, tasks waiting on events, locks or other tasks. It no longer requires pre-allocating a fixed queue size for the main run loop. A pairing heap is used to queue Tasks. It's currently implemented in pure Python, separated into components with lazy importing for optional components. In the future parts of this implementation can be moved to C to improve speed and reduce memory usage. But the aim is to maintain a pure-Python version as a reference version.
5 years ago
# The runq_len and waitq_len arguments are for legacy uasyncio compatibility
def get_event_loop(runq_len=0, waitq_len=0):
extmod/uasyncio: Don't create a Loop instance in get_event_loop(). The event loop is (for now) just a singleton so make it so that Loop instances are not needed.
5 years ago
return Loop
extmod/uasyncio: Add Loop.new_event_loop method. This commit adds Loop.new_event_loop() which is used to reset the singleton event loop. This functionality is put here instead of in Loop.close() to make it possible to write code that is compatible with CPython.
5 years ago
extmod/uasyncio: Add asyncio.current_task(). Matches CPython behavior. Fixes #6686
4 years ago
def current_task():
return cur_task
extmod/uasyncio: Add Loop.new_event_loop method. This commit adds Loop.new_event_loop() which is used to reset the singleton event loop. This functionality is put here instead of in Loop.close() to make it possible to write code that is compatible with CPython.
5 years ago
def new_event_loop():
global _task_queue, _io_queue
# TaskQueue of Task instances
_task_queue = TaskQueue()
# Task queue and poller for stream IO
_io_queue = IOQueue()
return Loop
# Initialise default event loop
new_event_loop()