class ProcessInfo:
def __init__(self, name, command, callback=None, persist=False,
max_errors=3, args=None, kwargs=None):
- self.name = name
+ self._name = name
self.command = command
self.callback = callback
if args is None: args = list()
self.max_errors = max_errors
self.clear()
def clear(self):
- self.dont_run = False
- self.signal = None
- self.process = None
- self.error_count = 0
+ self._dont_run = False
+ self._signal = None
+ self._process = None
+ self._error_count = 0
def start(self):
assert self.process is None
self.restart()
def restart(self):
self.clear()
log.debug(u'ProcessInfo.restart(): executing %s', self.command)
- self.process = subprocess.Popen(self.command, *self.args, **self.kwargs)
+ self._process = subprocess.Popen(self.command,
+ *self.args, **self.kwargs)
def stop(self):
assert self.process is not None
- self.dont_run = True
- if self.signal == signal.SIGTERM or self.signal == signal.SIGKILL:
+ self._dont_run = True
+ if self._signal == signal.SIGTERM or self._signal == signal.SIGKILL:
# Allready stopped, kill it
self.kill(signal.SIGKILL)
else:
self.process.pid, signum)
assert self.process is not None
os.kill(self.process.pid, signum)
- self.signal = signum
+ self._signal = signum
@property
def running(self):
return self.process is not None and self.process.poll() is None
+ @property
+ def name(self):
+ return self._name
+ @property
+ def process(self):
+ return self._process
+ @property
+ def error_count(self):
+ return self._error_count
def __repr__(self):
pid = None
if self.process is not None:
pid = self.process.pid
return 'ProcessInfo(name=%s, pid=%s command=%s, persist=%s, cb=%s)' % (
self.name, pid, self.command, self.persist,
- self.callback.__name__)
+ self.callback and self.callback.__name__ or None)
class ProcessManager:
self.pidmap = dict()
log.debug(u'ProcessManager()')
- def register(self, name, command, callback=None, persist=False,
+ def register(self, name, command=None, callback=None, persist=False,
max_errors=3, *args, **kwargs):
log.debug(u'ProcessManager.register(%s, %s, %s, %s, %s, %s, %s)',
name, command, callback, persist, max_errors, args, kwargs)
+ if not isinstance(name, ProcessInfo):
+ pi = ProcessInfo(name, command, callback, persist, max_errors,
+ args, kwargs)
+ else:
+ pi = name
+ name = pi.name
assert not self.has(name)
- self.services[name] = ProcessInfo(name, command, callback, persist,
- max_errors, args, kwargs)
+ self.services[name] = pi
+ return pi
def unregister(self, name):
log.debug(u'ProcessManager.unregister(%s)', name)
+ if isinstance(name, ProcessInfo):
+ pi = name
+ name = pi.name
+ else:
+ pi = self.services[name]
del self.services[name]
+ return pi
def _call(self, pi):
pi.start()
self.namemap[pi.name] = self.pidmap[pi.process.pid] = pi
- def once(self, name, command, callback=None, persist=False,
+ def once(self, name, command=None, callback=None, persist=False,
max_errors=3, *args, **kwargs):
log.debug(u'ProcessManager.once(%s, %s, %s, %s, %s, %s, %s)',
name, command, callback, persist, max_errors, args, kwargs)
+ if not isinstance(name, ProcessInfo):
+ pi = ProcessInfo(name, command, callback, persist, max_errors,
+ args, kwargs)
+ else:
+ pi = name
+ name = pi.name
assert not self.has(name)
- pi = ProcessInfo(name, command, callback, persist, max_errors,
- args, kwargs)
self._call(pi)
+ return pi
def start(self, name):
log.debug(u'ProcessManager.start(%s)', name)
- assert name not in self.namemap
- self._call(self.services[name])
+ if isinstance(name, ProcessInfo):
+ name = name.name
+ if name not in self.namemap:
+ self._call(self.services[name])
+ return True
+ return False
def stop(self, name):
log.debug(u'ProcessManager.stop(%s)', name)
- assert name in self.namemap
- self.namemap[name].stop()
+ if isinstance(name, ProcessInfo):
+ name = name.name
+ if name in self.namemap:
+ self.namemap[name].stop()
+ return True
+ return False
def restart(self, name):
log.debug(u'ProcessManager.restart(%s)', name)
+ if isinstance(name, ProcessInfo):
+ name = name.name
# we have to check first in namemap in case is an unregistered
# process (added with once())
if name in self.namemap:
pi = self.namemap[name]
+ # the process will change its PID, so we delete it while we know it
+ del self.pidmap[pi.process.pid]
pi.stop()
pi.process.wait()
pi.restart()
+ # add the new PID
+ self.pidmap[pi.process.pid] = pi
+ return True
else:
- self.services[name].start()
+ self.start(name)
+ return False
def kill(self, name, signum):
log.debug(u'ProcessManager.kill(%s, %s)', name, signum)
- assert name in self.namemap
- self.namemap[name].kill(name, stop)
+ if isinstance(name, ProcessInfo):
+ name = name.name
+ if name in self.namemap:
+ self.namemap[name].kill(name, stop)
+ return True
+ return False
def sigchild_handler(self, signum, stack_frame=None):
log.debug(u'ProcessManager.sigchild_handler(%s)', signum)
log.debug(u'ProcessManager.sigchild_handler: '
u'calling %s(%s)', p.callback.__name__, p)
p.callback(self, p)
- if p.dont_run or not p.persist or p.error_count >= p.max_errors:
+ if (p._dont_run or not p.persist
+ or p._error_count >= p.max_errors):
log.debug(u"ProcessManager.sigchild_handler: can't "
u'persist, dont_run=%s, persist=%s, error_cout=%s, '
- u'max_errors=%s', p.dont_run, p.persist,
- p.error_count, p.max_errors)
+ u'max_errors=%s', p._dont_run, p.persist,
+ p._error_count, p.max_errors)
del self.namemap[p.name]
del self.pidmap[pid]
p.clear()
else:
log.debug(u'ProcessManager.sigchild_handler: persist')
if p.process.returncode == 0:
- p.error_count = 0
+ p._error_count = 0
log.debug(u'ProcessManager.sigchild_handler: '
u'return OK, resetting error_count')
else:
- p.error_count += 1
+ p._error_count += 1
log.debug(u'ProcessManager.sigchild_handler: return'
- u'not 0, error_count + 1 = %s', p.error_count)
+ u'not 0, error_count + 1 = %s', p._error_count)
del self.pidmap[pid]
p.restart()
self.pidmap[p.process.pid] = p
if name in self.pidmap:
return self.pidmap[name]
raise KeyError, name
+ # Syntax sugar for self[name]
+ __getitem__ = get
def has(self, name):
if isinstance(name, basestring): # is a name
if name in self.pidmap:
return True
return False
-
- def __getitem__(self, name):
- return self.get(name)
-
- def __contains__(self, name):
- return self.has(name)
+ # Syntax sugar for name in self
+ __contains__ = has
if __name__ == '__main__':
assert 'test-service' in manager.services
assert 'test-service' not in manager.namemap
assert not get('test-service').running
+ assert manager['test-service'] == get('test-service')
+ assert has('test-service')
+ assert 'test-service' in manager
register('test-service-2', ('sleep', '3'), notify, False)
assert 'test-service-2' in manager.services
assert 'test-once' not in manager.services
assert 'test-once' in manager.namemap
assert get('test-once').running
+ assert get('test-once').process.pid
+ pid = get('test-once').process.pid
+ restart('test-once')
+ assert pid != get('test-once').process.pid
+ assert pid != manager.pidmap[get('test-once').process.pid].process.pid
start('test-service')
assert 'test-service' in manager.namemap
assert get('test-service').running
+ assert get('test-service').process.pid
+ pid = get('test-service').process.pid
+ restart('test-service')
+ assert pid != get('test-service').process.pid
+ assert pid != manager.pidmap[get('test-service').process.pid].process.pid
print "Known processes:", manager.services.keys()
print "Waiting...", manager.namemap.keys()
assert 'test-once' not in manager.services
assert 'test-once' not in manager.namemap
+ restart('test-service')
+ assert get('test-service').process.pid
+ assert manager.pidmap[get('test-service').process.pid].process.pid
+
once('test-wait', ('sleep', '2'))
- print 'test-wait returned?', get('test-wait').process.poll()
+ print 'test-wait running?', get('test-wait').running
assert get('test-wait').running
print 'Waiting test-wait to return...'
ret = get('test-wait').process.wait()