""" Managing Gateway Groups and interactions with multiple channels. (c) 2008-2014, Holger Krekel and others """ import sys import atexit from functools import partial from execnet import XSpec from execnet import gateway_io, gateway_bootstrap from execnet.gateway_base import reraise, trace, get_execmodel from threading import Lock NO_ENDMARKER_WANTED = object() class Group(object): """ Gateway Groups. """ defaultspec = "popen" def __init__(self, xspecs=(), execmodel="thread"): """ initialize group and make gateways as specified. execmodel can be 'thread' or 'eventlet'. """ self._gateways = [] self._autoidcounter = 0 self._autoidlock = Lock() self._gateways_to_join = [] # we use the same execmodel for all of the Gateway objects # we spawn on our side. Probably we should not allow different # execmodels between different groups but not clear. # Note that "other side" execmodels may differ and is typically # specified by the spec passed to makegateway. self.set_execmodel(execmodel) for xspec in xspecs: self.makegateway(xspec) atexit.register(self._cleanup_atexit) @property def execmodel(self): return self._execmodel @property def remote_execmodel(self): return self._remote_execmodel def set_execmodel(self, execmodel, remote_execmodel=None): """ Set the execution model for local and remote site. execmodel can be one of "thread" or "eventlet" (XXX gevent). It determines the execution model for any newly created gateway. If remote_execmodel is not specified it takes on the value of execmodel. NOTE: Execution models can only be set before any gateway is created. """ if self._gateways: raise ValueError("can not set execution models if " "gateways have been created already") if remote_execmodel is None: remote_execmodel = execmodel self._execmodel = get_execmodel(execmodel) self._remote_execmodel = get_execmodel(remote_execmodel) def __repr__(self): idgateways = [gw.id for gw in self] return "" % idgateways def __getitem__(self, key): if isinstance(key, int): return self._gateways[key] for gw in self._gateways: if gw == key or gw.id == key: return gw raise KeyError(key) def __contains__(self, key): try: self[key] return True except KeyError: return False def __len__(self): return len(self._gateways) def __iter__(self): return iter(list(self._gateways)) def makegateway(self, spec=None): """create and configure a gateway to a Python interpreter. The ``spec`` string encodes the target gateway type and configuration information. The general format is:: key1=value1//key2=value2//... If you leave out the ``=value`` part a True value is assumed. Valid types: ``popen``, ``ssh=hostname``, ``socket=host:port``. Valid configuration:: id= specifies the gateway id python= specifies which python interpreter to execute execmodel=model 'thread', 'eventlet', 'gevent' model for execution chdir= specifies to which directory to change nice= specifies process priority of new process env:NAME=value specifies a remote environment variable setting. If no spec is given, self.defaultspec is used. """ if not spec: spec = self.defaultspec if not isinstance(spec, XSpec): spec = XSpec(spec) self.allocate_id(spec) if spec.execmodel is None: spec.execmodel = self.remote_execmodel.backend if spec.via: assert not spec.socket master = self[spec.via] proxy_channel = master.remote_exec(gateway_io) proxy_channel.send(vars(spec)) proxy_io_master = gateway_io.ProxyIO(proxy_channel, self.execmodel) gw = gateway_bootstrap.bootstrap(proxy_io_master, spec) elif spec.popen or spec.ssh or spec.vagrant_ssh: io = gateway_io.create_io(spec, execmodel=self.execmodel) gw = gateway_bootstrap.bootstrap(io, spec) elif spec.socket: from execnet import gateway_socket io = gateway_socket.create_io(spec, self, execmodel=self.execmodel) gw = gateway_bootstrap.bootstrap(io, spec) else: raise ValueError("no gateway type found for {!r}".format(spec._spec)) gw.spec = spec self._register(gw) if spec.chdir or spec.nice or spec.env: channel = gw.remote_exec(""" import os path, nice, env = channel.receive() if path: if not os.path.exists(path): os.mkdir(path) os.chdir(path) if nice and hasattr(os, 'nice'): os.nice(nice) if env: for name, value in env.items(): os.environ[name] = value """) nice = spec.nice and int(spec.nice) or 0 channel.send((spec.chdir, nice, spec.env)) channel.waitclose() return gw def allocate_id(self, spec): """ (re-entrant) allocate id for the given xspec object. """ if spec.id is None: with self._autoidlock: id = "gw" + str(self._autoidcounter) self._autoidcounter += 1 if id in self: raise ValueError("already have gateway with id {!r}".format(id)) spec.id = id def _register(self, gateway): assert not hasattr(gateway, '_group') assert gateway.id assert id not in self self._gateways.append(gateway) gateway._group = self def _unregister(self, gateway): self._gateways.remove(gateway) self._gateways_to_join.append(gateway) def _cleanup_atexit(self): trace("=== atexit cleanup {!r} ===".format(self)) self.terminate(timeout=1.0) def terminate(self, timeout=None): """ trigger exit of member gateways and wait for termination of member gateways and associated subprocesses. After waiting timeout seconds try to to kill local sub processes of popen- and ssh-gateways. Timeout defaults to None meaning open-ended waiting and no kill attempts. """ while self: vias = {} for gw in self: if gw.spec.via: vias[gw.spec.via] = True for gw in self: if gw.id not in vias: gw.exit() def join_wait(gw): gw.join() gw._io.wait() def kill(gw): trace("Gateways did not come down after timeout: %r" % gw) gw._io.kill() safe_terminate(self.execmodel, timeout, [ (partial(join_wait, gw), partial(kill, gw)) for gw in self._gateways_to_join ]) self._gateways_to_join[:] = [] def remote_exec(self, source, **kwargs): """ remote_exec source on all member gateways and return MultiChannel connecting to all sub processes. """ channels = [] for gw in self: channels.append(gw.remote_exec(source, **kwargs)) return MultiChannel(channels) class MultiChannel: def __init__(self, channels): self._channels = channels def __len__(self): return len(self._channels) def __iter__(self): return iter(self._channels) def __getitem__(self, key): return self._channels[key] def __contains__(self, chan): return chan in self._channels def send_each(self, item): for ch in self._channels: ch.send(item) def receive_each(self, withchannel=False): assert not hasattr(self, '_queue') l = [] for ch in self._channels: obj = ch.receive() if withchannel: l.append((ch, obj)) else: l.append(obj) return l def make_receive_queue(self, endmarker=NO_ENDMARKER_WANTED): try: return self._queue except AttributeError: self._queue = None for ch in self._channels: if self._queue is None: self._queue = ch.gateway.execmodel.queue.Queue() def putreceived(obj, channel=ch): self._queue.put((channel, obj)) if endmarker is NO_ENDMARKER_WANTED: ch.setcallback(putreceived) else: ch.setcallback(putreceived, endmarker=endmarker) return self._queue def waitclose(self): first = None for ch in self._channels: try: ch.waitclose() except ch.RemoteError: if first is None: first = sys.exc_info() if first: reraise(*first) def safe_terminate(execmodel, timeout, list_of_paired_functions): workerpool = execmodel.WorkerPool() def termkill(termfunc, killfunc): termreply = workerpool.spawn(termfunc) try: termreply.get(timeout=timeout) except IOError: killfunc() replylist = [] for termfunc, killfunc in list_of_paired_functions: reply = workerpool.spawn(termkill, termfunc, killfunc) replylist.append(reply) for reply in replylist: reply.get() workerpool.waitall() default_group = Group() makegateway = default_group.makegateway set_execmodel = default_group.set_execmodel