130958cc24
The bug has a long discussion of this. Basically, in some environments, the exact details of which aren't understood, a Ctrl+C signal to the UI is being transmitted to all the process children. Looking at the output of "ps ax -O tpgid", its clear the main process is still the terminal owner of these processes. stty -a on a problematic system shows: "-ignbrk brkint" and on a working system shows: "-ignbrk -brkint" The description of brkint would suggest this is the problem, setting up that terminal environment wasn't able to reproduce the problem though. It was confirmed that using setsid() caused the problem to be resolved and is probably the right thing to be doing anyway, so lets do it. [YOCTO #6949] (Bitbake rev: 461aa73fff0ab616032d28c4fd0322eb88838be6) Signed-off-by: Richard Purdie <richard.purdie@linuxfoundation.org>
14 KiB
Executable File
#!/usr/bin/env python
import os import sys import warnings sys.path.insert(0, os.path.join(os.path.dirname(os.path.dirname(sys.argv[0])), 'lib')) from bb import fetch2 import logging import bb import select import errno import signal
Users shouldn't be running this code directly
if len(sys.argv) != 2 or not sys.argv[1].startswith("decafbad"): print("bitbake-worker is meant for internal execution by bitbake itself, please don't use it standalone.") sys.exit(1)
profiling = False if sys.argv[1] == "decafbadbad": profiling = True try: import cProfile as profile except: import profile
logger = logging.getLogger("BitBake")
try: import cPickle as pickle except ImportError: import pickle bb.msg.note(1, bb.msg.domain.Cache, "Importing cPickle failed. Falling back to a very slow implementation.")
worker_pipe = sys.stdout.fileno() bb.utils.nonblockingfd(worker_pipe)
handler = bb.event.LogHandler() logger.addHandler(handler)
if 0: # Code to write out a log file of all events passing through the worker logfilename = "/tmp/workerlogfile" format_str = "%(levelname)s: %(message)s" conlogformat = bb.msg.BBLogFormatter(format_str) consolelog = logging.FileHandler(logfilename) bb.msg.addDefaultlogFilter(consolelog) consolelog.setFormatter(conlogformat) logger.addHandler(consolelog)
worker_queue = ""
def worker_fire(event, d): data = "" + pickle.dumps(event) + "" worker_fire_prepickled(data)
def worker_fire_prepickled(event): global worker_queue
worker_queue = worker_queue + event
worker_flush()
def worker_flush(): global worker_queue, worker_pipe
if not worker_queue:
return
try:
written = os.write(worker_pipe, worker_queue)
worker_queue = worker_queue[written:]
except (IOError, OSError) as e:
if e.errno != errno.EAGAIN:
raise
def worker_child_fire(event, d): global worker_pipe
data = "<event>" + pickle.dumps(event) + "</event>"
worker_pipe.write(data)
bb.event.worker_fire = worker_fire
lf = None #lf = open("/tmp/workercommandlog", "w+") def workerlog_write(msg): if lf: lf.write(msg) lf.flush()
def sigterm_handler(signum, frame): signal.signal(signal.SIGTERM, signal.SIG_DFL) os.killpg(0, signal.SIGTERM) sys.exit()
def fork_off_task(cfg, data, workerdata, fn, task, taskname, appends, taskdepdata, quieterrors=False): # We need to setup the environment BEFORE the fork, since # a fork() or exec*() activates PSEUDO...
envbackup = {}
fakeenv = {}
umask = None
taskdep = workerdata["taskdeps"][fn]
if 'umask' in taskdep and taskname in taskdep['umask']:
# umask might come in as a number or text string..
try:
umask = int(taskdep['umask'][taskname],8)
except TypeError:
umask = taskdep['umask'][taskname]
# We can't use the fakeroot environment in a dry run as it possibly hasn't been built
if 'fakeroot' in taskdep and taskname in taskdep['fakeroot'] and not cfg.dry_run:
envvars = (workerdata["fakerootenv"][fn] or "").split()
for key, value in (var.split('=') for var in envvars):
envbackup[key] = os.environ.get(key)
os.environ[key] = value
fakeenv[key] = value
fakedirs = (workerdata["fakerootdirs"][fn] or "").split()
for p in fakedirs:
bb.utils.mkdirhier(p)
logger.debug(2, 'Running %s:%s under fakeroot, fakedirs: %s' %
(fn, taskname, ', '.join(fakedirs)))
else:
envvars = (workerdata["fakerootnoenv"][fn] or "").split()
for key, value in (var.split('=') for var in envvars):
envbackup[key] = os.environ.get(key)
os.environ[key] = value
fakeenv[key] = value
sys.stdout.flush()
sys.stderr.flush()
try:
pipein, pipeout = os.pipe()
pipein = os.fdopen(pipein, 'rb', 4096)
pipeout = os.fdopen(pipeout, 'wb', 0)
pid = os.fork()
except OSError as e:
bb.msg.fatal("RunQueue", "fork failed: %d (%s)" % (e.errno, e.strerror))
if pid == 0:
def child():
global worker_pipe
pipein.close()
signal.signal(signal.SIGTERM, sigterm_handler)
# Let SIGHUP exit as SIGTERM
signal.signal(signal.SIGHUP, sigterm_handler)
# Save out the PID so that the event can include it the
# events
bb.event.worker_pid = os.getpid()
bb.event.worker_fire = worker_child_fire
worker_pipe = pipeout
# Make the child the process group leader and ensure no
# child process will be controlled by the current terminal
# This ensures signals sent to the controlling terminal like Ctrl+C
# don't stop the child processes.
os.setsid()
# No stdin
newsi = os.open(os.devnull, os.O_RDWR)
os.dup2(newsi, sys.stdin.fileno())
if umask:
os.umask(umask)
data.setVar("BB_WORKERCONTEXT", "1")
data.setVar("BB_TASKDEPDATA", taskdepdata)
data.setVar("BUILDNAME", workerdata["buildname"])
data.setVar("DATE", workerdata["date"])
data.setVar("TIME", workerdata["time"])
bb.parse.siggen.set_taskdata(workerdata["sigdata"])
ret = 0
try:
the_data = bb.cache.Cache.loadDataFull(fn, appends, data)
the_data.setVar('BB_TASKHASH', workerdata["runq_hash"][task])
# exported_vars() returns a generator which *cannot* be passed to os.environ.update()
# successfully. We also need to unset anything from the environment which shouldn't be there
exports = bb.data.exported_vars(the_data)
bb.utils.empty_environment()
for e, v in exports:
os.environ[e] = v
for e in fakeenv:
os.environ[e] = fakeenv[e]
the_data.setVar(e, fakeenv[e])
the_data.setVarFlag(e, 'export', "1")
if quieterrors:
the_data.setVarFlag(taskname, "quieterrors", "1")
except Exception as exc:
if not quieterrors:
logger.critical(str(exc))
os._exit(1)
try:
if cfg.dry_run:
return 0
return bb.build.exec_task(fn, taskname, the_data, cfg.profile)
except:
os._exit(1)
if not profiling:
os._exit(child())
else:
profname = "profile-%s.log" % (fn.replace("/", "-") + "-" + taskname)
prof = profile.Profile()
try:
ret = profile.Profile.runcall(prof, child)
finally:
prof.dump_stats(profname)
bb.utils.process_profilelog(profname)
os._exit(ret)
else:
for key, value in envbackup.iteritems():
if value is None:
del os.environ[key]
else:
os.environ[key] = value
return pid, pipein, pipeout
class runQueueWorkerPipe(): """ Abstraction for a pipe between a worker thread and the worker server """ def init(self, pipein, pipeout): self.input = pipein if pipeout: pipeout.close() bb.utils.nonblockingfd(self.input) self.queue = ""
def read(self):
start = len(self.queue)
try:
self.queue = self.queue + self.input.read(102400)
except (OSError, IOError) as e:
if e.errno != errno.EAGAIN:
raise
end = len(self.queue)
index = self.queue.find("</event>")
while index != -1:
worker_fire_prepickled(self.queue[:index+8])
self.queue = self.queue[index+8:]
index = self.queue.find("</event>")
return (end > start)
def close(self):
while self.read():
continue
if len(self.queue) > 0:
print("Warning, worker child left partial message: %s" % self.queue)
self.input.close()
normalexit = False
class BitbakeWorker(object): def init(self, din): self.input = din bb.utils.nonblockingfd(self.input) self.queue = "" self.cookercfg = None self.databuilder = None self.data = None self.build_pids = {} self.build_pipes = {}
signal.signal(signal.SIGTERM, self.sigterm_exception)
# Let SIGHUP exit as SIGTERM
signal.signal(signal.SIGHUP, self.sigterm_exception)
def sigterm_exception(self, signum, stackframe):
if signum == signal.SIGTERM:
bb.warn("Worker recieved SIGTERM, shutting down...")
elif signum == signal.SIGHUP:
bb.warn("Worker recieved SIGHUP, shutting down...")
self.handle_finishnow(None)
signal.signal(signal.SIGTERM, signal.SIG_DFL)
os.kill(os.getpid(), signal.SIGTERM)
def serve(self):
while True:
(ready, _, _) = select.select([self.input] + [i.input for i in self.build_pipes.values()], [] , [], 1)
if self.input in ready or len(self.queue):
start = len(self.queue)
try:
self.queue = self.queue + self.input.read()
except (OSError, IOError):
pass
end = len(self.queue)
self.handle_item("cookerconfig", self.handle_cookercfg)
self.handle_item("workerdata", self.handle_workerdata)
self.handle_item("runtask", self.handle_runtask)
self.handle_item("finishnow", self.handle_finishnow)
self.handle_item("ping", self.handle_ping)
self.handle_item("quit", self.handle_quit)
for pipe in self.build_pipes:
self.build_pipes[pipe].read()
if len(self.build_pids):
self.process_waitpid()
worker_flush()
def handle_item(self, item, func):
if self.queue.startswith("<" + item + ">"):
index = self.queue.find("</" + item + ">")
while index != -1:
func(self.queue[(len(item) + 2):index])
self.queue = self.queue[(index + len(item) + 3):]
index = self.queue.find("</" + item + ">")
def handle_cookercfg(self, data):
self.cookercfg = pickle.loads(data)
self.databuilder = bb.cookerdata.CookerDataBuilder(self.cookercfg, worker=True)
self.databuilder.parseBaseConfiguration()
self.data = self.databuilder.data
def handle_workerdata(self, data):
self.workerdata = pickle.loads(data)
bb.msg.loggerDefaultDebugLevel = self.workerdata["logdefaultdebug"]
bb.msg.loggerDefaultVerbose = self.workerdata["logdefaultverbose"]
bb.msg.loggerVerboseLogs = self.workerdata["logdefaultverboselogs"]
bb.msg.loggerDefaultDomains = self.workerdata["logdefaultdomain"]
self.data.setVar("PRSERV_HOST", self.workerdata["prhost"])
def handle_ping(self, _):
workerlog_write("Handling ping\n")
logger.warn("Pong from bitbake-worker!")
def handle_quit(self, data):
workerlog_write("Handling quit\n")
global normalexit
normalexit = True
sys.exit(0)
def handle_runtask(self, data):
fn, task, taskname, quieterrors, appends, taskdepdata = pickle.loads(data)
workerlog_write("Handling runtask %s %s %s\n" % (task, fn, taskname))
pid, pipein, pipeout = fork_off_task(self.cookercfg, self.data, self.workerdata, fn, task, taskname, appends, taskdepdata, quieterrors)
self.build_pids[pid] = task
self.build_pipes[pid] = runQueueWorkerPipe(pipein, pipeout)
def process_waitpid(self):
"""
Return none is there are no processes awaiting result collection, otherwise
collect the process exit codes and close the information pipe.
"""
try:
pid, status = os.waitpid(-1, os.WNOHANG)
if pid == 0 or os.WIFSTOPPED(status):
return None
except OSError:
return None
workerlog_write("Exit code of %s for pid %s\n" % (status, pid))
if os.WIFEXITED(status):
status = os.WEXITSTATUS(status)
elif os.WIFSIGNALED(status):
# Per shell conventions for $?, when a process exits due to
# a signal, we return an exit code of 128 + SIGNUM
status = 128 + os.WTERMSIG(status)
task = self.build_pids[pid]
del self.build_pids[pid]
self.build_pipes[pid].close()
del self.build_pipes[pid]
worker_fire_prepickled("<exitcode>" + pickle.dumps((task, status)) + "</exitcode>")
def handle_finishnow(self, _):
if self.build_pids:
logger.info("Sending SIGTERM to remaining %s tasks", len(self.build_pids))
for k, v in self.build_pids.iteritems():
try:
os.kill(-k, signal.SIGTERM)
os.waitpid(-1, 0)
except:
pass
for pipe in self.build_pipes:
self.build_pipes[pipe].read()
try: worker = BitbakeWorker(sys.stdin) if not profiling: worker.serve() else: profname = "profile-worker.log" prof = profile.Profile() try: profile.Profile.runcall(prof, worker.serve) finally: prof.dump_stats(profname) bb.utils.process_profilelog(profname) except BaseException as e: if not normalexit: import traceback sys.stderr.write(traceback.format_exc()) sys.stderr.write(str(e)) while len(worker_queue): worker_flush() workerlog_write("exitting") sys.exit(0)