import sys, os, errno, stat, signal, time import vars, jwack, state, paths from helpers import unlink, close_on_exec import logs from logs import debug2, err, warn, meta, check_tty 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 log_reader_pid = None def close_stdin(): f = open('/dev/null') os.dup2(f.fileno(), 0) f.close() def start_stdin_log_reader(status, details, pretty, color, debug_locks, debug_pids): global log_reader_pid r, w = os.pipe() # main pipe to redo-log ar, aw = os.pipe() # ack pipe from redo-log --ack-fd sys.stdout.flush() sys.stderr.flush() pid = os.fork() if pid: # parent log_reader_pid = pid os.close(r) os.close(aw) b = os.read(ar, 8) if not b: # subprocess died without sending us anything: that's bad. err('failed to start redo-log subprocess; cannot continue.\n') os._exit(99) assert b == 'REDO-OK\n' # now we know the subproc is running and will report our errors # to stderr, so it's okay to lose our own stderr. os.close(ar) os.dup2(w, 1) os.dup2(w, 2) os.close(w) check_tty(sys.stderr, vars.COLOR) else: # child try: os.close(ar) os.close(w) os.dup2(r, 0) os.close(r) # redo-log sends to stdout (because if you ask for logs, that's # the output you wanted!). But redo itself sends logs to stderr # (because they're incidental to the thing you asked for). # To make these semantics work, we point redo-log's stdout at # our stderr when we launch it. os.dup2(2, 1) argv = [ 'redo-log', '--recursive', '--follow', '--ack-fd', str(aw), ('--status' if status and os.isatty(2) else '--no-status'), ('--details' if details else '--no-details'), ('--pretty' if pretty else '--no-pretty'), ('--debug-locks' if debug_locks else '--no-debug-locks'), ('--debug-pids' if debug_pids else '--no-debug-pids'), ] if color != 1: argv.append('--color' if color >= 2 else '--no-color') argv.append('-') os.execvp(argv[0], argv) except Exception, e: # pylint: disable=broad-except sys.stderr.write('redo-log: exec: %s\n' % e) finally: os._exit(99) def await_log_reader(): if not vars.LOG: return if log_reader_pid > 0: # never actually close fd#1 or fd#2; insanity awaits. # replace it with something else instead. # Since our stdout/stderr are attached to redo-log's stdin, # this will notify redo-log that it's time to die (after it finishes # reading the logs) out = open('/dev/tty', 'w') os.dup2(out.fileno(), 1) os.dup2(out.fileno(), 2) os.waitpid(log_reader_pid, 0) class ImmediateReturn(Exception): def __init__(self, rv): Exception.__init__(self, "immediate return with exit code %d" % rv) self.rv = rv class BuildJob(object): 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: try: is_target, dirty = self.shouldbuildfunc(self.t) except state.CyclicDependencyError: err('cyclic dependency while checking %s\n' % _nice(self.t)) raise ImmediateReturn(208) if not dirty: # target doesn't need to be built; skip the whole task if is_target: meta('unchanged', state.target_relpath(self.t)) return self._after2(0) except ImmediateReturn, e: return self._after2(e.rv) if vars.NO_OOB or dirty == True: # pylint: disable=singleton-comparison 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.is_override or state.detect_override(sf.stamp, newstamp))): state.warn_override(_nice(t)) if not sf.is_override: warn('%s - old: %r\n' % (_nice(t), sf.stamp)) warn('%s - new: %r\n' % (_nice(t), newstamp)) 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. debug2("-- static (%r)\n" % t) sf.set_static() sf.save() return self._after2(0) sf.zap_deps1() (dodir, dofile, _, basename, ext) = paths.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 redo %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) # pylint: disable=attribute-defined-outside-init 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' firstline = open(os.path.join(dodir, dofile)).readline().strip() if firstline.startswith('#!/'): argv[0:2] = firstline[2:].split(' ') # make sure to create the logfile *before* writing the meta() about it. # that way redo-log won't trace into an obsolete logfile. if vars.LOG: open(state.logname(self.sf.id), 'w') # FIXME: put these variables somewhere else, instead of on-the-fly # extending this class! # pylint: disable=attribute-defined-outside-init self.dodir = dodir self.basename = basename self.ext = ext self.argv = argv dof = state.File(name=os.path.join(dodir, dofile)) dof.set_static() dof.save() state.commit() meta('do', state.target_relpath(t)) 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. here = os.getcwd() def _fix(p): return state.relpath(os.path.join(vars.BASE, p), here) argv = (['redo-unlocked', _fix(self.sf.name)] + list(set(_fix(d.name) for d in dirty))) meta('check', state.target_relpath(self.t)) state.commit() def run(): os.environ['REDO_DEPTH'] = vars.DEPTH + ' ' # python ignores SIGPIPE signal.signal(signal.SIGPIPE, signal.SIG_DFL) 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) if vars.LOG: cur_inode = str(os.fstat(2).st_ino) if not vars.LOG_INODE or cur_inode == vars.LOG_INODE: # .do script has *not* redirected stderr, which means we're # using redo-log's log saving mode. That means subprocs # should be logged to their own file. If the .do script # *does* redirect stderr, that redirection should be inherited # by subprocs, so we'd do nothing. logf = open(state.logname(self.sf.id), 'w') new_inode = str(os.fstat(logf.fileno()).st_ino) os.environ['REDO_LOG'] = '1' # .do files can check this os.environ['REDO_LOG_INODE'] = new_inode os.dup2(logf.fileno(), 2) close_on_exec(2, False) logf.close() else: if 'REDO_LOG_INODE' in os.environ: del os.environ['REDO_LOG_INODE'] os.environ['REDO_LOG'] = '' signal.signal(signal.SIGPIPE, signal.SIG_DFL) # python ignores SIGPIPE if vars.VERBOSE or vars.XTRACE: logs.write('* %s' % ' '.join(self.argv).replace('\n', ' ')) os.execvp(self.argv[0], self.argv) # FIXME: it would be nice to log the exit code to logf. # But that would have to happen in the parent process, which doesn't # have logf open. 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: # FIXME: race condition here between updating stamp/is_generated # and actually renaming the files into place. There needs to # be some kind of two-stage commit, I guess. 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, # so only use read_stamp. 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() meta('done', '%d %s' % (rv, state.target_relpath(self.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 if vars.TARGET and not vars.UNLOCKED: me = os.path.join(vars.STARTDIR, os.path.join(vars.PWD, vars.TARGET)) myfile = state.File(name=me) selflock = state.Lock(state.LOG_LOCK_MAGIC + myfile.id) else: selflock = myfile = me = None def cheat(): if not selflock: return 0 selflock.trylock() if not selflock.owned: # redo-log already owns it: let's cheat. # Give ourselves one extra token so that the "foreground" log # can always make progress. return 1 else: # redo-log isn't watching us (yet) selflock.unlock() return 0 # 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: if not t: err('cannot build the empty target ("").\n') retcode[0] = 204 break assert state.is_flushed() if t in seen: continue seen[t] = 1 if not jwack.has_token(): state.commit() jwack.ensure_token_or_cheat(t, cheat) 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: meta('locked', state.target_relpath(t)) locked.append((f.id, t, f.name)) else: # We had to create f before we had a lock, because we need f.id # to make the lock. But someone may have updated the state # between then and now. # FIXME: separate obtaining the fid from creating the File. # FIXME: maybe integrate locking into the File object? f.refresh() 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() assert jwack._mytokens == 0 # pylint: disable=protected-access jwack.ensure_token_or_cheat('self', cheat) # 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) backoff = 0.01 lock.trylock() while not lock.owned: # Don't spin with 100% CPU while we fight for the lock. import random time.sleep(random.random() * min(backoff, 1.0)) backoff *= 2 # after printing this line, redo-log will recurse into t, # whether it's us building it, or someone else. meta('waiting', state.target_relpath(t)) try: lock.check() except state.CyclicDependencyError: err('cyclic dependency while building %s\n' % _nice(t)) retcode[0] = 208 return retcode[0] # 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 ensure_token() while # holding a lock, or we could cause deadlocks. jwack.release_mine() lock.waitlock() # now t is definitely free, so we get to decide whether # to build it. lock.unlock() jwack.ensure_token_or_cheat(t, cheat) lock.trylock() assert lock.owned meta('unlocked', state.target_relpath(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]