mirror of https://github.com/nocturn9x/giambio.git
389 lines
13 KiB
Python
389 lines
13 KiB
Python
"""
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The main runtime environment for giambio
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Copyright (C) 2020 nocturn9x
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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"""
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# Import libraries and internal resources
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import types
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import socket
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from time import sleep as wait
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from timeit import default_timer
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from .objects import Task, TimeQueue
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from socket import SOL_SOCKET, SO_ERROR
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from .traps import want_read, want_write
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from collections import deque
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from .socket import AsyncSocket, WantWrite, WantRead
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from selectors import DefaultSelector, EVENT_READ, EVENT_WRITE
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from .exceptions import (
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CancelledError,
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ResourceBusy,
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)
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class AsyncScheduler:
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"""
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An asynchronous scheduler implementation. Tries to mimic the threaded
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model in its simplicity, without using actual threads, but rather alternating
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across coroutines execution to let more than one thing at a time to proceed
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with its calculations. An attempt to fix the threaded model has been made
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without making the API unnecessarily complicated.
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A few examples are tasks cancellation and exception propagation.
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"""
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def __init__(self):
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"""
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Object constructor
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"""
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# Tasks that are ready to run
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self.tasks = deque()
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# Selector object to perform I/O multiplexing
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self.selector = DefaultSelector()
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# This will always point to the currently running coroutine (Task object)
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self.current_task = None
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# Monotonic clock to keep track of elapsed time reliably
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self.clock = default_timer
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# Tasks that are asleep
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self.paused = TimeQueue(self.clock)
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# All active Event objects
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self.events = set()
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# Data to send back to a trap
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self.to_send = None
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# Have we ever ran?
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self.has_ran = False
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def done(self):
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"""
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Returns True if there is work to do
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"""
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if self.selector.get_map() or any([self.paused,
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self.tasks,
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self.events
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]):
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return False
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return True
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def shutdown(self):
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"""
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Shuts down the event loop
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"""
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# TODO: See if other teardown is required (massive join()?)
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self.selector.close()
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def run(self):
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"""
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Starts the loop and 'listens' for events until there is work to do,
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then exits. This behavior kinda reflects a kernel, as coroutines can
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request the loop's functionality only trough some fixed entry points,
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which in turn yield and give execution control to the loop itself.
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"""
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while True:
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try:
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if self.done():
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self.shutdown()
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break
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elif not self.tasks:
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if self.paused:
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# If there are no actively running tasks
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# we try to schedule the asleep ones
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self.awake_sleeping()
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if self.selector.get_map():
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# The next step is checking for I/O
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self.check_io()
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if self.events:
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# Try to awake event-waiting tasks
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self.check_events()
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# While there are tasks to run
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while self.tasks:
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# Sets the currently running task
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self.current_task = self.tasks.popleft()
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if self.current_task.cancel_pending:
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self.do_cancel()
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if self.to_send and self.current_task.status != "init":
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data = self.to_send
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else:
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data = None
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# Run a single step with the calculation
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method, *args = self.current_task.run(data)
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self.current_task.status = "run"
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self.current_task.steps += 1
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# Data has been sent, reset it to None
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if self.to_send and self.current_task != "init":
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self.to_send = None
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# Sneaky method call, thanks to David Beazley for this ;)
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getattr(self, method)(*args)
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except CancelledError:
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self.current_task.status = "cancelled"
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self.current_task.cancelled = True
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self.current_task.cancel_pending = False
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self.join() # TODO: Investigate if a call to join() is needed
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except StopIteration as ret:
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# Coroutine ends
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self.current_task.status = "end"
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self.current_task.result = ret.value
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self.current_task.finished = True
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self.join()
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except BaseException as err:
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self.current_task.exc = err
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self.current_task.status = "crashed"
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self.join()
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def do_cancel(self):
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"""
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Performs task cancellation by throwing CancelledError inside the current
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task in order to stop it from executing. The loop continues to execute
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as tasks are independent
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"""
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# TODO: Do we need anything else?
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self.current_task.throw(CancelledError)
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def get_running(self):
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"""
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Returns the current task
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"""
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self.tasks.append(self.current_task)
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self.to_send = self.current_task
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def check_events(self):
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"""
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Checks for ready or expired events and triggers them
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"""
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for event in self.events.copy():
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if event.set:
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event.event_caught = True
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event.waiters
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self.tasks.extend(event.waiters)
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self.events.remove(event)
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def awake_sleeping(self):
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"""
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Checks for and reschedules sleeping tasks
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"""
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wait(max(0.0, self.paused[0][0] - self.clock()))
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# Sleep until the closest deadline in order not to waste CPU cycles
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while self.paused[0][0] < self.clock():
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# Reschedules tasks when their deadline has elapsed
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self.tasks.append(self.paused.get())
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if not self.paused:
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break
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def check_io(self):
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"""
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Checks and schedules task to perform I/O
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"""
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# If there are no tasks ready wait indefinitely
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timeout = 0.0 if self.tasks else None
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for key in dict(self.selector.get_map()).values():
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if key.data.finished:
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self.selector.unregister(key.fileobj)
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if self.selector.get_map():
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io_ready = self.selector.select(timeout)
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# Get sockets that are ready and schedule their tasks
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for key, _ in io_ready:
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self.tasks.append(key.data) # Resource ready? Schedule its task
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def start(self, func: types.FunctionType, *args):
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"""
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Starts the event loop from a sync context
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"""
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entry = Task(func(*args), func.__name__ or str(func))
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self.tasks.append(entry)
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self.run()
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self.has_ran = True
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if entry.exc:
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raise entry.exc from None
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def reschedule_joinee(self):
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"""
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Reschedules the joinee(s) task of the
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currently running task, if any
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"""
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self.tasks.extend(self.current_task.waiters)
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def join(self):
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"""
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Handler for the 'join' event, does some magic to tell the scheduler
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to wait until the current coroutine ends
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"""
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child = self.current_task
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child.joined = True
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if child.parent:
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child.waiters.append(child.parent)
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if child.finished:
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self.reschedule_joinee()
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elif child.exc:
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... # TODO: Handle exceptions
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def sleep(self, seconds: int or float):
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"""
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Puts the caller to sleep for a given amount of seconds
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"""
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if seconds:
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self.current_task.status = "sleep"
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self.paused.put(self.current_task, seconds)
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else:
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self.tasks.append(self.current_task)
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# TODO: More generic I/O rather than just sockets
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def want_read(self, sock: socket.socket):
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"""
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Handler for the 'want_read' event, registers the socket inside the
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selector to perform I/0 multiplexing
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"""
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self.current_task.status = "I/O"
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if self.current_task.last_io:
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if self.current_task.last_io == ("READ", sock):
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# Socket is already scheduled!
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return
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else:
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self.selector.unregister(sock)
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self.current_task.last_io = "READ", sock
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try:
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self.selector.register(sock, EVENT_READ, self.current_task)
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except KeyError:
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# The socket is already registered doing something else
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raise ResourceBusy("The given resource is busy!") from None
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def want_write(self, sock: socket.socket):
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"""
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Handler for the 'want_write' event, registers the socket inside the
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selector to perform I/0 multiplexing
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"""
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self.current_task.status = "I/O"
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if self.current_task.last_io:
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if self.current_task.last_io == ("WRITE", sock):
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# Socket is already scheduled!
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return
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else:
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# TODO: Inspect why modify() causes issues
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self.selector.unregister(sock)
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self.current_task.last_io = "WRITE", sock
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try:
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self.selector.register(sock, EVENT_WRITE, self.current_task)
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except KeyError:
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raise ResourceBusy("The given resource is busy!") from None
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def event_set(self, event):
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"""
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Sets an event
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"""
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self.events.add(event)
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event.waiters.append(self.current_task)
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event.set = True
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self.reschedule_joinee()
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def event_wait(self, event):
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"""
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Pauses the current task on an event
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"""
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event.waiters.append(self.current_task)
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def cancel(self):
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"""
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Handler for the 'cancel' event, schedules the task to be cancelled later
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or does so straight away if it is safe to do so
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"""
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if self.current_task.status in ("I/O", "sleep"):
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# We cancel right away
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self.do_cancel()
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else:
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self.current_task.cancel_pending = True # Cancellation is deferred
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def wrap_socket(self, sock):
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"""
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Wraps a standard socket into an AsyncSocket object
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"""
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return AsyncSocket(sock, self)
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async def read_sock(self, sock: socket.socket, buffer: int):
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"""
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Reads from a socket asynchronously, waiting until the resource is
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available and returning up to buffer bytes from the socket
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"""
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try:
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return sock.recv(buffer)
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except WantRead:
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await want_read(sock)
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return sock.recv(buffer)
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async def accept_sock(self, sock: socket.socket):
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"""
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Accepts a socket connection asynchronously, waiting until the resource
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is available and returning the result of the accept() call
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"""
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try:
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return sock.accept()
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except WantRead:
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await want_read(sock)
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return sock.accept()
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async def sock_sendall(self, sock: socket.socket, data: bytes):
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"""
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Sends all the passed data, as bytes, trough the socket asynchronously
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"""
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while data:
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try:
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sent_no = sock.send(data)
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except WantWrite:
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await want_write(sock)
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sent_no = sock.send(data)
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data = data[sent_no:]
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async def close_sock(self, sock: socket.socket):
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"""
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Closes the socket asynchronously
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"""
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await want_write(sock)
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self.selector.unregister(sock)
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return sock.close()
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async def connect_sock(self, sock: socket.socket, addr: tuple):
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"""
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Connects a socket asynchronously
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"""
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try: # "Borrowed" from curio
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return sock.connect(addr)
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except WantWrite:
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await want_write(sock)
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err = sock.getsockopt(SOL_SOCKET, SO_ERROR)
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if err != 0:
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raise OSError(err, f"Connect call failed: {addr}")
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