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#!/usr/bin/env python3
#
# 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 sys
import signal
import datetime
import traceback
import asyncio
import multiprocessing
from ruamel import yaml
# BuildStream toplevel imports
from .._exceptions import BstError
from .._message import Message, MessageType, unconditional_messages
from ..plugin import _plugin_lookup
from .. import _yaml, _signals, utils
# Used to distinguish between status messages and return values
class Envelope():
def __init__(self, message_type, message):
self.message_type = message_type
self.message = message
# Process class that doesn't call waitpid on its own.
# This prevents conflicts with the asyncio child watcher.
class Process(multiprocessing.Process):
def start(self):
self._popen = self._Popen(self)
self._sentinel = self._popen.sentinel
# Job()
#
# Args:
# scheduler (Scheduler): The scheduler
# element (Element): The element to operate on
# action_name (str): The queue action name
#
class Job():
def __init__(self, scheduler, element, action_name):
# Shared with child process
self.scheduler = scheduler # The scheduler
self.queue = multiprocessing.Queue() # A message passing queue
self.process = None # The Process object
self.watcher = None # Child process watcher
self.action_name = action_name # The action name for the Queue
self.action = None # The action callable function
self.complete = None # The complete callable function
self.element = element # The element we're processing
self.listening = False # Whether the parent is currently listening
self.suspended = False # Whether this job is currently suspended
# Only relevant in parent process after spawning
self.pid = None # The child's pid in the parent
self.result = None # Return value of child action in the parent
self.tries = 0
# spawn()
#
# Args:
# action (callable): The action function
# complete (callable): The function to call when complete
# max_retries (int): The maximum number of retries
#
def spawn(self, action, complete, max_retries=0):
self.action = action
self.complete = complete
self.tries += 1
self.max_retries = max_retries
self.parent_start_listening()
# Spawn the process
self.process = Process(target=self.child_action,
args=[self.element, self.queue, self.action_name])
# Here we want the following
#
# A.) Child should inherit blocked SIGINT state, it's never handled there
# B.) Child should not inherit SIGTSTP handled state
#
with _signals.blocked([signal.SIGINT], ignore=False):
self.scheduler.loop.remove_signal_handler(signal.SIGTSTP)
self.process.start()
self.scheduler.loop.add_signal_handler(signal.SIGTSTP, self.scheduler.suspend_event)
self.pid = self.process.pid
# Wait for it to complete
self.watcher = asyncio.get_child_watcher()
self.watcher.add_child_handler(self.pid, self.child_complete, self.element)
# shutdown()
#
# Should be called after the job completes
#
def shutdown(self):
# Make sure we've read everything we need and then stop listening
self.parent_process_queue()
self.parent_stop_listening()
# terminate()
#
# Forcefully terminates an ongoing job.
#
def terminate(self):
# First resume the job if it's suspended
self.resume(silent=True)
self.message(self.element, MessageType.STATUS,
"{} terminating".format(self.action_name))
# Make sure there is no garbage on the queue
self.parent_stop_listening()
# Terminate the process using multiprocessing API pathway
self.process.terminate()
# terminate_wait()
#
# Wait for terminated jobs to complete
#
# Args:
# timeout (float): Seconds to wait
#
# Returns:
# (bool): True if the process terminated cleanly, otherwise False
def terminate_wait(self, timeout):
# Join the child process after sending SIGTERM
self.process.join(timeout)
return (self.process.exitcode is not None)
# kill()
#
# Forcefully kill the process, and any children it might have.
#
def kill(self):
# Force kill
self.message(self.element, MessageType.WARN,
"{} did not terminate gracefully, killing".format(self.action_name))
utils._kill_process_tree(self.process.pid)
# suspend()
#
# Suspend this job.
#
def suspend(self):
if not self.suspended:
self.message(self.element, MessageType.STATUS,
"{} suspending".format(self.action_name))
try:
# Use SIGTSTP so that child processes may handle and propagate
# it to processes they spawn that become session leaders
os.kill(self.process.pid, signal.SIGTSTP)
# For some reason we receive exactly one suspend event for every
# SIGTSTP we send to the child fork(), even though the child forks
# are setsid(). We keep a count of these so we can ignore them
# in our event loop suspend_event()
self.scheduler.internal_stops += 1
self.suspended = True
except ProcessLookupError:
# ignore, process has already exited
pass
# resume()
#
# Resume this suspended job.
#
def resume(self, silent=False):
if self.suspended:
if not silent:
self.message(self.element, MessageType.STATUS,
"{} resuming".format(self.action_name))
os.kill(self.process.pid, signal.SIGCONT)
self.suspended = False
# This can be used equally in the parent and child processes
def message(self, plugin, message_type, message, **kwargs):
args = dict(kwargs)
args['scheduler'] = True
self.scheduler.context._message(
Message(plugin._get_unique_id(),
message_type,
message,
**args))
#######################################################
# Child Process #
#######################################################
def child_action(self, element, queue, action_name):
# This avoids some SIGTSTP signals from grandchildren
# getting propagated up to the master process
os.setsid()
# Assign the queue we passed across the process boundaries
#
# Set the global message handler in this child
# process to forward messages to the parent process
self.queue = queue
self.scheduler.context._set_message_handler(self.child_message_handler)
starttime = datetime.datetime.now()
stopped_time = None
def stop_time():
nonlocal stopped_time
stopped_time = datetime.datetime.now()
def resume_time():
nonlocal stopped_time
nonlocal starttime
starttime += (datetime.datetime.now() - stopped_time)
# Time, log and and run the action function
#
with _signals.suspendable(stop_time, resume_time), \
element._logging_enabled(action_name) as filename:
self.message(element, MessageType.START, self.action_name,
logfile=filename)
# Print the element's environment at the beginning of any element's log file.
#
# This should probably be omitted for non-build tasks but it's harmless here
elt_env = _yaml.node_sanitize(element._Element__environment)
env_dump = yaml.round_trip_dump(elt_env, default_flow_style=False, allow_unicode=True)
self.message(element, MessageType.LOG,
"Build environment for element {}".format(element.name),
detail=env_dump, logfile=filename)
try:
result = self.action(element)
if result is not None:
envelope = Envelope('result', result)
self.queue.put(envelope)
except BstError as e:
elapsed = datetime.datetime.now() - starttime
if self.tries <= self.max_retries:
self.message(element, MessageType.FAIL, "Try #{} failed, retrying".format(self.tries),
elapsed=elapsed)
else:
self.message(element, MessageType.FAIL, self.action_name,
elapsed=elapsed, detail=str(e),
logfile=filename, sandbox=e.sandbox)
self.child_shutdown(1)
except Exception as e:
# If an unhandled (not normalized to BstError) occurs, that's a bug,
# send the traceback and formatted exception back to the frontend
# and print it to the log file.
#
elapsed = datetime.datetime.now() - starttime
detail = "An unhandled exception occured:\n\n{}".format(traceback.format_exc())
self.message(element, MessageType.BUG, self.action_name,
elapsed=elapsed, detail=detail,
logfile=filename)
self.child_shutdown(1)
elapsed = datetime.datetime.now() - starttime
self.message(element, MessageType.SUCCESS, self.action_name, elapsed=elapsed,
logfile=filename)
# Shutdown needs to stay outside of the above context manager,
# make sure we dont try to handle SIGTERM while the process
# is already busy in sys.exit()
self.child_shutdown(0)
def child_complete(self, pid, returncode, element):
if returncode != 0 and self.tries <= self.max_retries:
self.shutdown()
self.spawn(self.action, self.complete, self.max_retries)
return
self.complete(self, returncode, element)
def child_shutdown(self, exit_code):
self.queue.close()
sys.exit(exit_code)
def child_log(self, plugin, message, context):
with plugin._output_file() as output:
INDENT = " "
EMPTYTIME = "--:--:--"
name = '[' + plugin.name + ']'
fmt = "[{timecode: <8}] {type: <7} {name: <15}: {message}"
detail = ''
if message.detail is not None:
fmt += "\n\n{detail}"
detail = message.detail.rstrip('\n')
detail = INDENT + INDENT.join(detail.splitlines(True))
timecode = EMPTYTIME
if message.message_type in (MessageType.SUCCESS, MessageType.FAIL):
hours, remainder = divmod(int(message.elapsed.total_seconds()), 60 * 60)
minutes, seconds = divmod(remainder, 60)
timecode = "{0:02d}:{1:02d}:{2:02d}".format(hours, minutes, seconds)
message_text = fmt.format(timecode=timecode,
type=message.message_type.upper(),
name=name,
message=message.message,
detail=detail)
output.write('{}\n'.format(message_text))
output.flush()
def child_message_handler(self, message, context):
# Tag them on the way out the door...
message.action_name = self.action_name
message.task_id = self.element._get_unique_id()
# Use the plugin for the task for the output, not a plugin
# which might be acting on behalf of the task
plugin = _plugin_lookup(message.task_id)
# Log first
self.child_log(plugin, message, context)
if message.message_type == MessageType.FAIL and self.tries <= self.max_retries:
# Job will be retried, display failures as warnings in the frontend
message.message_type = MessageType.WARN
# Send to frontend if appropriate
if (context._silent_messages() and
message.message_type not in unconditional_messages):
return
if message.message_type == MessageType.LOG:
return
self.queue.put(Envelope('message', message))
#######################################################
# Parent Process #
#######################################################
def parent_process_envelope(self, envelope):
if not self.listening:
return
if envelope.message_type == 'message':
# Propagate received messages from children
# back through the context.
self.scheduler.context._message(envelope.message)
elif envelope.message_type == 'result':
assert(self.result is None)
self.result = envelope.message
else:
raise Exception()
def parent_process_queue(self):
while not self.queue.empty():
envelope = self.queue.get_nowait()
self.parent_process_envelope(envelope)
def parent_recv(self, *args):
self.parent_process_queue()
def parent_start_listening(self):
# Warning: Platform specific code up ahead
#
# The multiprocessing.Queue object does not tell us how
# to receive io events in the receiving process, so we
# need to sneak in and get its file descriptor.
#
# The _reader member of the Queue is currently private
# but well known, perhaps it will become public:
#
# http://bugs.python.org/issue3831
#
if not self.listening:
self.scheduler.loop.add_reader(
self.queue._reader.fileno(), self.parent_recv)
self.listening = True
def parent_stop_listening(self):
if self.listening:
self.scheduler.loop.remove_reader(self.queue._reader.fileno())
self.listening = False
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