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apenwarr-redo/builder.py
Alan Falloon 9354e78871 Null out lock vars so that __del__ gets called 
The builder was holding lock variables in the loop which means that
sometimes a state.Lock object would be created for the same file-id
twice, triggering the assertion. Assign the lock variables to None to
ensure that the state.Lock objects are destroyed before creating the
next one in the loop.
2018-10-11 23:15:37 -04:00

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import sys, os, errno, stat, signal
import vars, jwack, state
from helpers import unlink, close_on_exec, join
from log import log, log_, debug, debug2, err, warn
def _default_do_files(filename):
l = filename.split('.')
for i in range(1,len(l)+1):
basename = join('.', l[:i])
ext = join('.', l[i:])
if ext: ext = '.' + ext
yield ("default%s.do" % ext), basename, ext
def possible_do_files(t):
dirname,filename = os.path.split(t)
yield (os.path.join(vars.BASE, dirname), "%s.do" % filename,
'', filename, '')
# It's important to try every possibility in a directory before resorting
# to a parent directory. Think about nested projects: I don't want
# ../../default.o.do to take precedence over ../default.do, because
# the former one might just be an artifact of someone embedding my project
# into theirs as a subdir. When they do, my rules should still be used
# for building my project in *all* cases.
t = os.path.normpath(os.path.join(vars.BASE, t))
dirname,filename = os.path.split(t)
dirbits = dirname.split('/')
for i in range(len(dirbits), -1, -1):
basedir = join('/', dirbits[:i])
subdir = join('/', dirbits[i:])
for dofile,basename,ext in _default_do_files(filename):
yield (basedir, dofile,
subdir, os.path.join(subdir, basename), ext)
def find_do_file(f):
for dodir,dofile,basedir,basename,ext in possible_do_files(f.name):
dopath = os.path.join(dodir, dofile)
debug2('%s: %s:%s ?\n' % (f.name, dodir, dofile))
if os.path.exists(dopath):
f.add_dep('m', dopath)
return dodir,dofile,basedir,basename,ext
else:
f.add_dep('c', dopath)
return None,None,None,None,None
def _nice(t):
return state.relpath(t, vars.STARTDIR)
def _try_stat(filename):
try:
return os.lstat(filename)
except OSError, e:
if e.errno == errno.ENOENT:
return None
else:
raise
class ImmediateReturn(Exception):
def __init__(self, rv):
Exception.__init__(self, "immediate return with exit code %d" % rv)
self.rv = rv
class BuildJob:
def __init__(self, t, sf, lock, shouldbuildfunc, donefunc):
self.t = t # original target name, not relative to vars.BASE
self.sf = sf
tmpbase = t
while not os.path.isdir(os.path.dirname(tmpbase) or '.'):
ofs = tmpbase.rfind('/')
assert(ofs >= 0)
tmpbase = tmpbase[:ofs] + '__' + tmpbase[ofs+1:]
self.tmpname1 = '%s.redo1.tmp' % tmpbase
self.tmpname2 = '%s.redo2.tmp' % tmpbase
self.lock = lock
self.shouldbuildfunc = shouldbuildfunc
self.donefunc = donefunc
self.before_t = _try_stat(self.t)
def start(self):
assert(self.lock.owned)
try:
dirty = self.shouldbuildfunc(self.t)
if not dirty:
# target doesn't need to be built; skip the whole task
return self._after2(0)
except ImmediateReturn, e:
return self._after2(e.rv)
if vars.NO_OOB or dirty == True:
self._start_do()
else:
self._start_unlocked(dirty)
def _start_do(self):
assert(self.lock.owned)
t = self.t
sf = self.sf
newstamp = sf.read_stamp()
if (sf.is_generated and
newstamp != state.STAMP_MISSING and
(sf.stamp != newstamp or sf.is_override)):
state.warn_override(_nice(t))
sf.set_override()
sf.set_checked()
sf.save()
return self._after2(0)
if (os.path.exists(t) and not os.path.isdir(t + '/.')
and not sf.is_generated):
# an existing source file that was not generated by us.
# This step is mentioned by djb in his notes.
# For example, a rule called default.c.do could be used to try
# to produce hello.c, but we don't want that to happen if
# hello.c was created by the end user.
# FIXME: always refuse to redo any file that was modified outside
# of redo? That would make it easy for someone to override a
# file temporarily, and could be undone by deleting the file.
debug2("-- static (%r)\n" % t)
sf.set_static()
sf.save()
return self._after2(0)
sf.zap_deps1()
(dodir, dofile, basedir, basename, ext) = find_do_file(sf)
if not dofile:
if os.path.exists(t):
sf.set_static()
sf.save()
return self._after2(0)
else:
err('no rule to make %r\n' % t)
return self._after2(1)
unlink(self.tmpname1)
unlink(self.tmpname2)
ffd = os.open(self.tmpname1, os.O_CREAT|os.O_RDWR|os.O_EXCL, 0666)
close_on_exec(ffd, True)
self.f = os.fdopen(ffd, 'w+')
# this will run in the dofile's directory, so use only basenames here
arg1 = basename + ext # target name (including extension)
arg2 = basename # target name (without extension)
argv = ['sh', '-e',
dofile,
arg1,
arg2,
# temp output file name
state.relpath(os.path.abspath(self.tmpname2), dodir),
]
if vars.VERBOSE: argv[1] += 'v'
if vars.XTRACE: argv[1] += 'x'
if vars.VERBOSE or vars.XTRACE: log_('\n')
firstline = open(os.path.join(dodir, dofile)).readline().strip()
if firstline.startswith('#!/'):
argv[0:2] = firstline[2:].split(' ')
log('%s\n' % _nice(t))
self.dodir = dodir
self.basename = basename
self.ext = ext
self.argv = argv
sf.is_generated = True
sf.save()
dof = state.File(name=os.path.join(dodir, dofile))
dof.set_static()
dof.save()
state.commit()
jwack.start_job(t, self._do_subproc, self._after)
def _start_unlocked(self, dirty):
# out-of-band redo of some sub-objects. This happens when we're not
# quite sure if t needs to be built or not (because some children
# look dirty, but might turn out to be clean thanks to checksums).
# We have to call redo-unlocked to figure it all out.
#
# Note: redo-unlocked will handle all the updating of sf, so we
# don't have to do it here, nor call _after1. However, we have to
# hold onto the lock because otherwise we would introduce a race
# condition; that's why it's called redo-unlocked, because it doesn't
# grab a lock.
argv = ['redo-unlocked', self.sf.name] + [d.name for d in dirty]
log('(%s)\n' % _nice(self.t))
state.commit()
def run():
os.chdir(vars.BASE)
os.environ['REDO_DEPTH'] = vars.DEPTH + ' '
signal.signal(signal.SIGPIPE, signal.SIG_DFL) # python ignores SIGPIPE
os.execvp(argv[0], argv)
assert(0)
# returns only if there's an exception
def after(t, rv):
return self._after2(rv)
jwack.start_job(self.t, run, after)
def _do_subproc(self):
# careful: REDO_PWD was the PWD relative to the STARTPATH at the time
# we *started* building the current target; but that target ran
# redo-ifchange, and it might have done it from a different directory
# than we started it in. So os.getcwd() might be != REDO_PWD right
# now.
assert(state.is_flushed())
dn = self.dodir
newp = os.path.realpath(dn)
os.environ['REDO_PWD'] = state.relpath(newp, vars.STARTDIR)
os.environ['REDO_TARGET'] = self.basename + self.ext
os.environ['REDO_DEPTH'] = vars.DEPTH + ' '
vars.add_lock(str(self.lock.fid))
if dn:
os.chdir(dn)
os.dup2(self.f.fileno(), 1)
os.close(self.f.fileno())
close_on_exec(1, False)
signal.signal(signal.SIGPIPE, signal.SIG_DFL) # python ignores SIGPIPE
if vars.VERBOSE or vars.XTRACE: log_('* %s\n' % ' '.join(self.argv))
os.execvp(self.argv[0], self.argv)
assert(0)
# returns only if there's an exception
def _after(self, t, rv):
try:
state.check_sane()
rv = self._after1(t, rv)
state.commit()
finally:
self._after2(rv)
def _after1(self, t, rv):
f = self.f
before_t = self.before_t
after_t = _try_stat(t)
st1 = os.fstat(f.fileno())
st2 = _try_stat(self.tmpname2)
if (after_t and
(not before_t or before_t.st_mtime != after_t.st_mtime) and
not stat.S_ISDIR(after_t.st_mode)):
err('%s modified %s directly!\n' % (self.argv[2], t))
err('...you should update $3 (a temp file) or stdout, not $1.\n')
rv = 206
elif st2 and st1.st_size > 0:
err('%s wrote to stdout *and* created $3.\n' % self.argv[2])
err('...you should write status messages to stderr, not stdout.\n')
rv = 207
if rv==0:
if st2:
try:
os.rename(self.tmpname2, t)
except OSError, e:
dnt = os.path.dirname(t)
if not os.path.exists(dnt):
err('%s: target dir %r does not exist!\n' % (t, dnt))
else:
err('%s: rename %s: %s\n' % (t, self.tmpname2, e))
raise
os.unlink(self.tmpname1)
elif st1.st_size > 0:
try:
os.rename(self.tmpname1, t)
except OSError, e:
if e.errno == errno.ENOENT:
unlink(t)
else:
err('%s: can\'t save stdout to %r: %s\n' %
(self.argv[2], t, e.strerror))
rv = 1000
if st2:
os.unlink(self.tmpname2)
else: # no output generated at all; that's ok
unlink(self.tmpname1)
unlink(t)
sf = self.sf
sf.refresh()
sf.is_generated = True
sf.is_override = False
if sf.is_checked() or sf.is_changed():
# it got checked during the run; someone ran redo-stamp.
# update_stamp would call set_changed(); we don't want that
sf.stamp = sf.read_stamp()
else:
sf.csum = None
sf.update_stamp()
sf.set_changed()
else:
unlink(self.tmpname1)
unlink(self.tmpname2)
sf = self.sf
sf.set_failed()
sf.zap_deps2()
sf.save()
f.close()
if rv != 0:
err('%s: exit code %r\n' % (_nice(t),rv))
else:
if vars.VERBOSE or vars.XTRACE or vars.DEBUG:
log('%s (done)\n\n' % _nice(t))
return rv
def _after2(self, rv):
try:
self.donefunc(self.t, rv)
assert(self.lock.owned)
finally:
self.lock.unlock()
def main(targets, shouldbuildfunc):
retcode = [0] # a list so that it can be reassigned from done()
if vars.SHUFFLE:
import random
random.shuffle(targets)
locked = []
def done(t, rv):
if rv:
retcode[0] = 1
# In the first cycle, we just build as much as we can without worrying
# about any lock contention. If someone else has it locked, we move on.
seen = {}
lock = None
for t in targets:
assert(state.is_flushed())
if t in seen:
continue
seen[t] = 1
if not jwack.has_token():
state.commit()
jwack.get_token(t)
if retcode[0] and not vars.KEEP_GOING:
break
if not state.check_sane():
err('.redo directory disappeared; cannot continue.\n')
retcode[0] = 205
break
f = state.File(name=t)
lock = state.Lock(f.id)
if vars.UNLOCKED:
lock.owned = True
else:
lock.trylock()
if not lock.owned:
if vars.DEBUG_LOCKS:
log('%s (locked...)\n' % _nice(t))
locked.append((f.id,t))
else:
BuildJob(t, f, lock, shouldbuildfunc, done).start()
state.commit()
assert(state.is_flushed())
lock = None
del lock
# Now we've built all the "easy" ones. Go back and just wait on the
# remaining ones one by one. There's no reason to do it any more
# efficiently, because if these targets were previously locked, that
# means someone else was building them; thus, we probably won't need to
# do anything. The only exception is if we're invoked as redo instead
# of redo-ifchange; then we have to redo it even if someone else already
# did. But that should be rare.
while locked or jwack.running():
state.commit()
jwack.wait_all()
# at this point, we don't have any children holding any tokens, so
# it's okay to block below.
if retcode[0] and not vars.KEEP_GOING:
break
if locked:
if not state.check_sane():
err('.redo directory disappeared; cannot continue.\n')
retcode[0] = 205
break
fid,t = locked.pop(0)
lock = state.Lock(fid)
lock.trylock()
while not lock.owned:
if vars.DEBUG_LOCKS:
warn('%s (WAITING)\n' % _nice(t))
# this sequence looks a little silly, but the idea is to
# give up our personal token while we wait for the lock to
# be released; but we should never run get_token() while
# holding a lock, or we could cause deadlocks.
jwack.release_mine()
try:
lock.waitlock()
except state.CyclicDependencyError:
err('cyclic dependency while building %s\n' % _nice(t))
jwack.get_token(t)
retcode[0] = 208
return retcode[0]
lock.unlock()
jwack.get_token(t)
lock.trylock()
assert(lock.owned)
if vars.DEBUG_LOCKS:
log('%s (...unlocked!)\n' % _nice(t))
if state.File(name=t).is_failed():
err('%s: failed in another thread\n' % _nice(t))
retcode[0] = 2
lock.unlock()
else:
BuildJob(t, state.File(id=fid), lock,
shouldbuildfunc, done).start()
lock = None
state.commit()
return retcode[0]
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