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#
# Copyright (C) 2016 Codethink Limited
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2 of the License, or (at your option) any later version.
#
# This library 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library. If not, see <http://www.gnu.org/licenses/>.
#
# Authors:
# Tristan Van Berkom <tristan.vanberkom@codethink.co.uk>
# Jürg Billeter <juerg.billeter@codethink.co.uk>
# System imports
import os
import asyncio
from itertools import chain
import signal
import datetime
from contextlib import contextmanager
# Local imports
from .resources import Resources, ResourceType
from .jobs import CacheSizeJob, CleanupJob
# A decent return code for Scheduler.run()
class SchedStatus():
SUCCESS = 0
ERROR = -1
TERMINATED = 1
# Scheduler()
#
# The scheduler operates on a list queues, each of which is meant to accomplish
# a specific task. Elements enter the first queue when Scheduler.run() is called
# and into the next queue when complete. Scheduler.run() returns when all of the
# elements have been traversed or when an occurs.
#
# Using the scheduler is a matter of:
# a.) Deriving the Queue class and implementing its abstract methods
# b.) Instantiating a Scheduler with one or more queues
# c.) Calling Scheduler.run(elements) with a list of elements
# d.) Fetching results from your queues
#
# Args:
# context: The Context in the parent scheduling process
# start_time: The time at which the session started
# interrupt_callback: A callback to handle ^C
# ticker_callback: A callback call once per second
# job_start_callback: A callback call when each job starts
# job_complete_callback: A callback call when each job completes
#
class Scheduler():
def __init__(self, context,
start_time,
interrupt_callback=None,
ticker_callback=None,
job_start_callback=None,
job_complete_callback=None):
#
# Public members
#
self.active_jobs = [] # Jobs currently being run in the scheduler
self.waiting_jobs = [] # Jobs waiting for resources
self.queues = None # Exposed for the frontend to print summaries
self.context = context # The Context object shared with Queues
self.terminated = False # Whether the scheduler was asked to terminate or has terminated
self.suspended = False # Whether the scheduler is currently suspended
# These are shared with the Job, but should probably be removed or made private in some way.
self.loop = None # Shared for Job access to observe the message queue
self.internal_stops = 0 # Amount of SIGSTP signals we've introduced, this is shared with job.py
#
# Private members
#
self._interrupt_callback = interrupt_callback
self._ticker_callback = ticker_callback
self._job_start_callback = job_start_callback
self._job_complete_callback = job_complete_callback
self._starttime = start_time
self._suspendtime = None
self._queue_jobs = True # Whether we should continue to queue jobs
self._resources = Resources(context.sched_builders,
context.sched_fetchers,
context.sched_pushers)
# run()
#
# Args:
# queues (list): A list of Queue objects
#
# Returns:
# (SchedStatus): How the scheduling terminated
#
# Elements in the 'plan' will be processed by each
# queue in order. Processing will complete when all
# elements have been processed by each queue or when
# an error arises
#
def run(self, queues):
# Hold on to the queues to process
self.queues = queues
# Ensure that we have a fresh new event loop, in case we want
# to run another test in this thread.
self.loop = asyncio.new_event_loop()
asyncio.set_event_loop(self.loop)
# Add timeouts
if self._ticker_callback:
self.loop.call_later(1, self._tick)
# Handle unix signals while running
self._connect_signals()
# Run the queues
self._schedule_queue_jobs()
self.loop.run_forever()
self.loop.close()
# Stop handling unix signals
self._disconnect_signals()
failed = any(any(queue.failed_elements) for queue in self.queues)
self.loop = None
if failed:
status = SchedStatus.ERROR
elif self.terminated:
status = SchedStatus.TERMINATED
else:
status = SchedStatus.SUCCESS
return self.elapsed_time(), status
# terminate_jobs()
#
# Forcefully terminates all ongoing jobs.
#
# For this to be effective, one needs to return to
# the scheduler loop first and allow the scheduler
# to complete gracefully.
#
# NOTE: This will block SIGINT so that graceful process
# termination is not interrupted, and SIGINT will
# remain blocked after Scheduler.run() returns.
#
def terminate_jobs(self):
# Set this right away, the frontend will check this
# attribute to decide whether or not to print status info
# etc and the following code block will trigger some callbacks.
self.terminated = True
self.loop.call_soon(self._terminate_jobs_real)
# Block this until we're finished terminating jobs,
# this will remain blocked forever.
signal.pthread_sigmask(signal.SIG_BLOCK, [signal.SIGINT])
# jobs_suspended()
#
# A context manager for running with jobs suspended
#
@contextmanager
def jobs_suspended(self):
self._disconnect_signals()
self._suspend_jobs()
yield
self._resume_jobs()
self._connect_signals()
# stop_queueing()
#
# Stop queueing additional jobs, causes Scheduler.run()
# to return once all currently processing jobs are finished.
#
def stop_queueing(self):
self._queue_jobs = False
# elapsed_time()
#
# Fetches the current session elapsed time
#
# Returns:
# (datetime): The amount of time since the start of the session,
# discounting any time spent while jobs were suspended.
#
def elapsed_time(self):
timenow = datetime.datetime.now()
starttime = self._starttime
if not starttime:
starttime = timenow
return timenow - starttime
# schedule_jobs()
#
# Args:
# jobs ([Job]): A list of jobs to schedule
#
# Schedule 'Job's for the scheduler to run. Jobs scheduled will be
# run as soon any other queueing jobs finish, provided sufficient
# resources are available for them to run
#
def schedule_jobs(self, jobs):
for job in jobs:
self.waiting_jobs.append(job)
# job_completed():
#
# Called when a Job completes
#
# Args:
# queue (Queue): The Queue holding a complete job
# job (Job): The completed Job
# success (bool): Whether the Job completed with a success status
#
def job_completed(self, job, success):
self._resources.clear_job_resources(job)
self.active_jobs.remove(job)
self._job_complete_callback(job, success)
self._schedule_queue_jobs()
self._sched()
#######################################################
# Local Private Methods #
#######################################################
# _sched()
#
# The main driving function of the scheduler, it will be called
# automatically when Scheduler.run() is called initially,
#
def _sched(self):
for job in self.waiting_jobs:
self._resources.reserve_exclusive_resources(job)
for job in self.waiting_jobs:
if not self._resources.reserve_job_resources(job):
continue
job.spawn()
self.waiting_jobs.remove(job)
self.active_jobs.append(job)
if self._job_start_callback:
self._job_start_callback(job)
# If nothings ticking, time to bail out
if not self.active_jobs and not self.waiting_jobs:
self.loop.stop()
# _schedule_queue_jobs()
#
# Ask the queues what jobs they want to schedule and schedule
# them. This is done here so we can ask for new jobs when jobs
# from previous queues become available.
#
# This will process the Queues, pull elements through the Queues
# and process anything that is ready.
#
def _schedule_queue_jobs(self):
ready = []
process_queues = True
while self._queue_jobs and process_queues:
# Pull elements forward through queues
elements = []
for queue in self.queues:
# Enqueue elements complete from the last queue
queue.enqueue(elements)
# Dequeue processed elements for the next queue
elements = list(queue.dequeue())
# Kickoff whatever processes can be processed at this time
#
# We start by queuing from the last queue first, because
# we want to give priority to queues later in the
# scheduling process in the case that multiple queues
# share the same token type.
#
# This avoids starvation situations where we dont move on
# to fetch tasks for elements which failed to pull, and
# thus need all the pulls to complete before ever starting
# a build
ready.extend(chain.from_iterable(
queue.pop_ready_jobs() for queue in reversed(self.queues)
))
# pop_ready_jobs() may have skipped jobs, adding them to
# the done_queue. Pull these skipped elements forward to
# the next queue and process them.
process_queues = any(q.dequeue_ready() for q in self.queues)
self.schedule_jobs(ready)
self._sched()
self.schedule_jobs([job])
self.schedule_jobs([job])
def _run_cleanup(self, cache_size):
if cache_size and cache_size < self.context.cache_quota:
return
logpath = os.path.join(self.context.logdir, 'cleanup.{pid}.log')
job = CleanupJob(self, 'cleanup', logpath,
resources=[ResourceType.CACHE,
ResourceType.PROCESS],
exclusive_resources=[ResourceType.CACHE],
complete_cb=None)
def _check_cache_size_real(self):
logpath = os.path.join(self.context.logdir, 'cache_size.{pid}.log')
job = CacheSizeJob(self, 'cache_size', logpath,
resources=[ResourceType.CACHE,
ResourceType.PROCESS],
exclusive_resources=[ResourceType.CACHE],
complete_cb=self._run_cleanup)
# _suspend_jobs()
#
# Suspend all ongoing jobs.
#
def _suspend_jobs(self):
if not self.suspended:
self._suspendtime = datetime.datetime.now()
self.suspended = True
for job in self.active_jobs:
job.suspend()
# _resume_jobs()
#
# Resume suspended jobs.
#
def _resume_jobs(self):
if self.suspended:
for job in self.active_jobs:
job.resume()
self.suspended = False
self._starttime += (datetime.datetime.now() - self._suspendtime)
self._suspendtime = None
# _interrupt_event():
#
# A loop registered event callback for keyboard interrupts
#
def _interrupt_event(self):
# Leave this to the frontend to decide, if no
# interrrupt callback was specified, then just terminate.
if self._interrupt_callback:
self._interrupt_callback()
else:
# Default without a frontend is just terminate
self.terminate_jobs()
# _terminate_event():
#
# A loop registered event callback for SIGTERM
#
def _terminate_event(self):
self.terminate_jobs()
# _suspend_event():
#
# A loop registered event callback for SIGTSTP
#
def _suspend_event(self):
# Ignore the feedback signals from Job.suspend()
if self.internal_stops:
self.internal_stops -= 1
return
# No need to care if jobs were suspended or not, we _only_ handle this
# while we know jobs are not suspended.
self._suspend_jobs()
os.kill(os.getpid(), signal.SIGSTOP)
self._resume_jobs()
# _connect_signals():
#
# Connects our signal handler event callbacks to the mainloop
#
def _connect_signals(self):
self.loop.add_signal_handler(signal.SIGINT, self._interrupt_event)
self.loop.add_signal_handler(signal.SIGTERM, self._terminate_event)
self.loop.add_signal_handler(signal.SIGTSTP, self._suspend_event)
def _disconnect_signals(self):
self.loop.remove_signal_handler(signal.SIGINT)
self.loop.remove_signal_handler(signal.SIGTSTP)
self.loop.remove_signal_handler(signal.SIGTERM)
def _terminate_jobs_real(self):
# 20 seconds is a long time, it can take a while and sometimes
# we still fail, need to look deeper into this again.
wait_start = datetime.datetime.now()
wait_limit = 20.0
# First tell all jobs to terminate
for job in self.active_jobs:
job.terminate()
# Now wait for them to really terminate
for job in self.active_jobs:
elapsed = datetime.datetime.now() - wait_start
timeout = max(wait_limit - elapsed.total_seconds(), 0.0)
if not job.terminate_wait(timeout):
job.kill()
# Clear out the waiting jobs
self.waiting_jobs = []
# Regular timeout for driving status in the UI
def _tick(self):
elapsed = self.elapsed_time()
self._ticker_callback(elapsed)
self.loop.call_later(1, self._tick)
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