# Copyright 2017, David Wilson # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # # 1. Redistributions of source code must retain the above copyright notice, # this list of conditions and the following disclaimer. # # 2. Redistributions in binary form must reproduce the above copyright notice, # this list of conditions and the following disclaimer in the documentation # and/or other materials provided with the distribution. # # 3. Neither the name of the copyright holder nor the names of its contributors # may be used to endorse or promote products derived from this software without # specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. from __future__ import absolute_import import atexit import errno import logging import os import signal import socket import sys import time try: import faulthandler except ImportError: faulthandler = None import mitogen import mitogen.core import mitogen.debug import mitogen.master import mitogen.parent import mitogen.service import mitogen.unix import mitogen.utils import ansible import ansible.constants as C import ansible_mitogen.logging import ansible_mitogen.services from mitogen.core import b LOG = logging.getLogger(__name__) ANSIBLE_PKG_OVERRIDE = ( u"__version__ = %r\n" u"__author__ = %r\n" ) def clean_shutdown(sock): """ Shut the write end of `sock`, causing `recv` in the worker process to wake up with a 0-byte read and initiate mux process exit, then wait for a 0-byte read from the read end, which will occur after the the child closes the descriptor on exit. This is done using :mod:`atexit` since Ansible lacks any more sensible hook to run code during exit, and unless some synchronization exists with MuxProcess, debug logs may appear on the user's terminal *after* the prompt has been printed. """ sock.shutdown(socket.SHUT_WR) sock.recv(1) def getenv_int(key, default=0): """ Get an integer-valued environment variable `key`, if it exists and parses as an integer, otherwise return `default`. """ try: return int(os.environ.get(key, str(default))) except ValueError: return default class MuxProcess(object): """ Implement a subprocess forked from the Ansible top-level, as a safe place to contain the Mitogen IO multiplexer thread, keeping its use of the logging package (and the logging package's heavy use of locks) far away from the clutches of os.fork(), which is used continuously by the multiprocessing package in the top-level process. The problem with running the multiplexer in that process is that should the multiplexer thread be in the process of emitting a log entry (and holding its lock) at the point of fork, in the child, the first attempt to log any log entry using the same handler will deadlock the child, as in the memory image the child received, the lock will always be marked held. See https://bugs.python.org/issue6721 for a thorough description of the class of problems this worker is intended to avoid. """ #: In the top-level process, this references one end of a socketpair(), #: which the MuxProcess blocks reading from in order to determine when #: the master process dies. Once the read returns, the MuxProcess will #: begin shutting itself down. worker_sock = None #: In the worker process, this references the other end of #: :py:attr:`worker_sock`. child_sock = None #: In the top-level process, this is the PID of the single MuxProcess #: that was spawned. worker_pid = None #: A copy of :data:`os.environ` at the time the multiplexer process was #: started. It's used by mitogen_local.py to find changes made to the #: top-level environment (e.g. vars plugins -- issue #297) that must be #: applied to locally executed commands and modules. original_env = None #: In both processes, this is the temporary UNIX socket used for #: forked WorkerProcesses to contact the MuxProcess unix_listener_path = None #: Singleton. _instance = None @classmethod def start(cls, _init_logging=True): """ Arrange for the subprocess to be started, if it is not already running. The parent process picks a UNIX socket path the child will use prior to fork, creates a socketpair used essentially as a semaphore, then blocks waiting for the child to indicate the UNIX socket is ready for use. :param bool _init_logging: For testing, if :data:`False`, don't initialize logging. """ if cls.worker_sock is not None: return if faulthandler is not None: faulthandler.enable() mitogen.utils.setup_gil() cls.unix_listener_path = mitogen.unix.make_socket_path() cls.worker_sock, cls.child_sock = socket.socketpair() atexit.register(lambda: clean_shutdown(cls.worker_sock)) mitogen.core.set_cloexec(cls.worker_sock.fileno()) mitogen.core.set_cloexec(cls.child_sock.fileno()) if os.environ.get('MITOGEN_PROFILING'): mitogen.core.enable_profiling() cls.original_env = dict(os.environ) cls.child_pid = os.fork() if _init_logging: ansible_mitogen.logging.setup() if cls.child_pid: cls.child_sock.close() cls.child_sock = None mitogen.core.io_op(cls.worker_sock.recv, 1) else: cls.worker_sock.close() cls.worker_sock = None self = cls() self.worker_main() # Test frameworks living somewhere higher on the stack of the # original parent process may try to catch sys.exit(), so do a C # level exit instead. os._exit(0) def worker_main(self): """ The main function of for the mux process: setup the Mitogen broker thread and ansible_mitogen services, then sleep waiting for the socket connected to the parent to be closed (indicating the parent has died). """ self._setup_master() self._setup_services() # Let the parent know our listening socket is ready. mitogen.core.io_op(self.child_sock.send, b('1')) # Block until the socket is closed, which happens on parent exit. mitogen.core.io_op(self.child_sock.recv, 1) def _enable_router_debug(self): if 'MITOGEN_ROUTER_DEBUG' in os.environ: self.router.enable_debug() def _enable_stack_dumps(self): secs = getenv_int('MITOGEN_DUMP_THREAD_STACKS', default=0) if secs: mitogen.debug.dump_to_logger(secs=secs) def _setup_responder(self, responder): """ Configure :class:`mitogen.master.ModuleResponder` to only permit certain packages, and to generate custom responses for certain modules. """ responder.whitelist_prefix('ansible') responder.whitelist_prefix('ansible_mitogen') responder.whitelist_prefix('simplejson') simplejson_path = os.path.join(os.path.dirname(__file__), 'compat') sys.path.insert(0, simplejson_path) # Ansible 2.3 is compatible with Python 2.4 targets, however # ansible/__init__.py is not. Instead, executor/module_common.py writes # out a 2.4-compatible namespace package for unknown reasons. So we # copy it here. responder.add_source_override( fullname='ansible', path=ansible.__file__, source=(ANSIBLE_PKG_OVERRIDE % ( ansible.__version__, ansible.__author__, )).encode(), is_pkg=True, ) def _setup_master(self): """ Construct a Router, Broker, and mitogen.unix listener """ self.router = mitogen.master.Router(max_message_size=4096 * 1048576) self._setup_responder(self.router.responder) mitogen.core.listen(self.router.broker, 'shutdown', self.on_broker_shutdown) mitogen.core.listen(self.router.broker, 'exit', self.on_broker_exit) self.listener = mitogen.unix.Listener( router=self.router, path=self.unix_listener_path, backlog=C.DEFAULT_FORKS, ) self._enable_router_debug() self._enable_stack_dumps() def _setup_services(self): """ Construct a ContextService and a thread to service requests for it arriving from worker processes. """ self.pool = mitogen.service.Pool( router=self.router, services=[ mitogen.service.FileService(router=self.router), mitogen.service.PushFileService(router=self.router), ansible_mitogen.services.ContextService(self.router), ansible_mitogen.services.ModuleDepService(self.router), ], size=getenv_int('MITOGEN_POOL_SIZE', default=16), ) LOG.debug('Service pool configured: size=%d', self.pool.size) def on_broker_shutdown(self): """ Respond to broker shutdown by beginning service pool shutdown. Do not join on the pool yet, since that would block the broker thread which then cannot clean up pending handlers, which is required for the threads to exit gracefully. """ self.pool.stop(join=False) try: os.unlink(self.listener.path) except OSError as e: # Prevent a shutdown race with the parent process. if e.args[0] != errno.ENOENT: raise def on_broker_exit(self): """ Respond to the broker thread about to exit by sending SIGTERM to ourself. In future this should gracefully join the pool, but TERM is fine for now. """ if os.environ.get('MITOGEN_PROFILING'): # TODO: avoid killing pool threads before they have written their # .pstats. Really shouldn't be using kill() here at all, but hard # to guarantee services can always be unblocked during shutdown. time.sleep(1) os.kill(os.getpid(), signal.SIGTERM)