# # BitBake Process based server. # # Copyright (C) 2010 Bob Foerster # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 as # published by the Free Software Foundation. # # This program 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 General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. """ This module implements a multiprocessing.Process based server for bitbake. """ import bb import bb.event import itertools import logging import multiprocessing import os import signal import sys import time import select from Queue import Empty from multiprocessing import Event, Process, util, Queue, Pipe, queues, Manager from . import BitBakeBaseServer, BitBakeBaseServerConnection, BaseImplServer logger = logging.getLogger('BitBake') class ServerCommunicator(): def __init__(self, connection, event_handle, server): self.connection = connection self.event_handle = event_handle self.server = server def runCommand(self, command): # @todo try/except self.connection.send(command) if not self.server.is_alive(): raise SystemExit while True: # don't let the user ctrl-c while we're waiting for a response try: if self.connection.poll(20): return self.connection.recv() else: bb.fatal("Timeout while attempting to communicate with bitbake server") except KeyboardInterrupt: pass def getEventHandle(self): return self.event_handle.value class EventAdapter(): """ Adapter to wrap our event queue since the caller (bb.event) expects to call a send() method, but our actual queue only has put() """ def __init__(self, queue): self.queue = queue def send(self, event): try: self.queue.put(event) except Exception as err: print("EventAdapter puked: %s" % str(err)) class ProcessServer(Process, BaseImplServer): profile_filename = "profile.log" profile_processed_filename = "profile.log.processed" def __init__(self, command_channel, event_queue, featurelist): BaseImplServer.__init__(self) Process.__init__(self) self.command_channel = command_channel self.event_queue = event_queue self.event = EventAdapter(event_queue) self.featurelist = featurelist self.quit = False self.quitin, self.quitout = Pipe() self.event_handle = multiprocessing.Value("i") def run(self): for event in bb.event.ui_queue: self.event_queue.put(event) self.event_handle.value = bb.event.register_UIHhandler(self) bb.cooker.server_main(self.cooker, self.main) def main(self): # Ignore SIGINT within the server, as all SIGINT handling is done by # the UI and communicated to us self.quitin.close() signal.signal(signal.SIGINT, signal.SIG_IGN) while not self.quit: try: if self.command_channel.poll(): command = self.command_channel.recv() self.runCommand(command) if self.quitout.poll(): self.quitout.recv() self.quit = True self.idle_commands(.1, [self.event_queue._reader, self.command_channel, self.quitout]) except Exception: logger.exception('Running command %s', command) self.event_queue.close() bb.event.unregister_UIHhandler(self.event_handle.value) self.command_channel.close() self.cooker.shutdown(True) def idle_commands(self, delay, fds = []): nextsleep = delay for function, data in self._idlefuns.items(): try: retval = function(self, data, False) if retval is False: del self._idlefuns[function] nextsleep = None elif retval is True: nextsleep = None elif nextsleep is None: continue else: fds = fds + retval except SystemExit: raise except Exception: logger.exception('Running idle function') del self._idlefuns[function] self.quit = True if nextsleep is not None: select.select(fds,[],[],nextsleep) def runCommand(self, command): """ Run a cooker command on the server """ self.command_channel.send(self.cooker.command.runCommand(command)) def stop(self): self.quitin.send("quit") self.quitin.close() class BitBakeProcessServerConnection(BitBakeBaseServerConnection): def __init__(self, serverImpl, ui_channel, event_queue): self.procserver = serverImpl self.ui_channel = ui_channel self.event_queue = event_queue self.connection = ServerCommunicator(self.ui_channel, self.procserver.event_handle, self.procserver) self.events = self.event_queue def sigterm_terminate(self): bb.error("UI received SIGTERM") self.terminate() def terminate(self): def flushevents(): while True: try: event = self.event_queue.get(block=False) except (Empty, IOError): break if isinstance(event, logging.LogRecord): logger.handle(event) signal.signal(signal.SIGINT, signal.SIG_IGN) self.procserver.stop() while self.procserver.is_alive(): flushevents() self.procserver.join(0.1) self.ui_channel.close() self.event_queue.close() self.event_queue.setexit() # Wrap Queue to provide API which isn't server implementation specific class ProcessEventQueue(multiprocessing.queues.Queue): def __init__(self, maxsize): multiprocessing.queues.Queue.__init__(self, maxsize) self.exit = False def setexit(self): self.exit = True def waitEvent(self, timeout): if self.exit: raise SystemExit try: if not self.server.is_alive(): self.setexit() return None return self.get(True, timeout) except Empty: return None def getEvent(self): try: if not self.server.is_alive(): self.setexit() return None return self.get(False) except Empty: return None class BitBakeServer(BitBakeBaseServer): def initServer(self): # establish communication channels. We use bidirectional pipes for # ui <--> server command/response pairs # and a queue for server -> ui event notifications # self.ui_channel, self.server_channel = Pipe() self.event_queue = ProcessEventQueue(0) self.serverImpl = ProcessServer(self.server_channel, self.event_queue, None) self.event_queue.server = self.serverImpl def detach(self): self.serverImpl.start() return def establishConnection(self, featureset): self.connection = BitBakeProcessServerConnection(self.serverImpl, self.ui_channel, self.event_queue) _, error = self.connection.connection.runCommand(["setFeatures", featureset]) if error: logger.error("Unable to set the cooker to the correct featureset: %s" % error) raise BaseException(error) signal.signal(signal.SIGTERM, lambda i, s: self.connection.sigterm_terminate()) return self.connection