self.nodes = {}
self.orphans = {}
- def __getitem__(self, key):
- return self.nodes[key]
-
- def __len__(self):
- return len(self.nodes)
+ # Proxy the methods listed below to self.nodes.
+ def _proxy_method(name):
+ method = getattr(dict, name)
+ @functools.wraps(method, ('__name__', '__doc__'))
+ def wrapper(self, *args, **kwargs):
+ return method(self.nodes, *args, **kwargs)
+ return wrapper
- def get(self, key, default=None):
- return self.nodes.get(key, default)
+ for _method_name in ['__contains__', '__getitem__', '__len__', 'get']:
+ locals()[_method_name] = _proxy_method(_method_name)
def record_key(self, record):
return self.item_key(getattr(record, self.RECORD_ATTR))
def __init__(self, server_wishlist_actor, arvados_nodes_actor,
cloud_nodes_actor, cloud_update_actor, timer_actor,
arvados_factory, cloud_factory,
- shutdown_windows, min_nodes, max_nodes,
- poll_stale_after=600, node_stale_after=7200,
+ shutdown_windows, min_size, min_nodes, max_nodes,
+ poll_stale_after=600,
+ boot_fail_after=1800,
+ node_stale_after=7200,
node_setup_class=dispatch.ComputeNodeSetupActor,
node_shutdown_class=dispatch.ComputeNodeShutdownActor,
node_actor_class=dispatch.ComputeNodeMonitorActor):
self._logger = logging.getLogger('arvnodeman.daemon')
self._later = self.actor_ref.proxy()
self.shutdown_windows = shutdown_windows
+ self.min_cloud_size = min_size
self.min_nodes = min_nodes
self.max_nodes = max_nodes
self.poll_stale_after = poll_stale_after
+ self.boot_fail_after = boot_fail_after
self.node_stale_after = node_stale_after
self.last_polls = {}
for poll_name in ['server_wishlist', 'arvados_nodes', 'cloud_nodes']:
cloud_node=cloud_node,
cloud_node_start_time=start_time,
shutdown_timer=shutdown_timer,
+ cloud_fqdn_func=self._cloud_driver.node_fqdn,
update_actor=self._cloud_updater,
timer_actor=self._timer,
arvados_node=None,
poll_stale_after=self.poll_stale_after,
- node_stale_after=self.node_stale_after).proxy()
+ node_stale_after=self.node_stale_after,
+ cloud_client=self._cloud_driver,
+ boot_fail_after=self.boot_fail_after).proxy()
actor.subscribe(self._later.node_can_shutdown)
self._cloud_nodes_actor.subscribe_to(cloud_node.id,
actor.update_cloud_node)
self._pair_nodes(record, arv_rec.arvados_node)
break
for key, record in self.cloud_nodes.orphans.iteritems():
+ if key in self.shutdowns:
+ try:
+ self.shutdowns[key].stop().get()
+ except pykka.ActorDeadError:
+ pass
+ del self.shutdowns[key]
record.actor.stop()
- self.shutdowns.pop(key, None)
+ record.cloud_node = None
def update_arvados_nodes(self, nodelist):
self._update_poll_time('arvados_nodes')
[self.cloud_nodes, self.booted, self.booting])
def _nodes_busy(self):
- return sum(1 for idle in
- pykka.get_all(rec.actor.in_state('idle') for rec in
+ return sum(1 for busy in
+ pykka.get_all(rec.actor.in_state('busy') for rec in
self.cloud_nodes.nodes.itervalues())
- if idle is False)
+ if busy)
+
+ def _nodes_missing(self):
+ return sum(1 for arv_node in
+ pykka.get_all(rec.actor.arvados_node for rec in
+ self.cloud_nodes.nodes.itervalues()
+ if rec.actor.cloud_node.get().id not in self.shutdowns)
+ if arv_node and cnode.arvados_node_missing(arv_node, self.node_stale_after))
def _nodes_wanted(self):
up_count = self._nodes_up()
+ under_min = self.min_nodes - up_count
over_max = up_count - self.max_nodes
if over_max >= 0:
return -over_max
+ elif under_min > 0:
+ return under_min
else:
- up_count -= len(self.shutdowns) + self._nodes_busy()
+ up_count -= len(self.shutdowns) + self._nodes_busy() + self._nodes_missing()
return len(self.last_wishlist) - up_count
def _nodes_excess(self):
if nodes_wanted < 1:
return None
arvados_node = self.arvados_nodes.find_stale_node(self.node_stale_after)
- cloud_size = self.last_wishlist[nodes_wanted - 1]
+ try:
+ cloud_size = self.last_wishlist[self._nodes_up()]
+ except IndexError:
+ cloud_size = self.min_cloud_size
self._logger.info("Want %s more nodes. Booting a %s node.",
nodes_wanted, cloud_size.name)
new_setup = self._node_setup.start(
return pykka.get_all([getattr(actor, name) for name in attr_names])
def node_up(self, setup_proxy):
- cloud_node, arvados_node = self._get_actor_attrs(
- setup_proxy, 'cloud_node', 'arvados_node')
+ cloud_node = setup_proxy.cloud_node.get()
del self.booting[setup_proxy.actor_ref.actor_urn]
setup_proxy.stop()
record = self.cloud_nodes.get(cloud_node.id)
if record is None:
record = self._new_node(cloud_node)
self.booted[cloud_node.id] = record
- self._pair_nodes(record, arvados_node)
+ self._timer.schedule(time.time() + self.boot_fail_after,
+ self._later.shutdown_unpaired_node, cloud_node.id)
@_check_poll_freshness
def stop_booting_node(self):
if (nodes_excess < 1) or not self.booting:
return None
for key, node in self.booting.iteritems():
- node.stop_if_no_cloud_node().get()
- if not node.actor_ref.is_alive():
+ if node.stop_if_no_cloud_node().get():
del self.booting[key]
if nodes_excess > 1:
self._later.stop_booting_node()
break
- @_check_poll_freshness
- def node_can_shutdown(self, node_actor):
- if self._nodes_excess() < 1:
- return None
+ def _begin_node_shutdown(self, node_actor, cancellable):
cloud_node_id = node_actor.cloud_node.get().id
if cloud_node_id in self.shutdowns:
return None
shutdown = self._node_shutdown.start(
timer_actor=self._timer, cloud_client=self._new_cloud(),
- node_monitor=node_actor.actor_ref).proxy()
+ arvados_client=self._new_arvados(),
+ node_monitor=node_actor.actor_ref, cancellable=cancellable).proxy()
self.shutdowns[cloud_node_id] = shutdown
shutdown.subscribe(self._later.node_finished_shutdown)
+ @_check_poll_freshness
+ def node_can_shutdown(self, node_actor):
+ if self._nodes_excess() > 0:
+ self._begin_node_shutdown(node_actor, cancellable=True)
+
+ def shutdown_unpaired_node(self, cloud_node_id):
+ for record_dict in [self.cloud_nodes, self.booted]:
+ if cloud_node_id in record_dict:
+ record = record_dict[cloud_node_id]
+ break
+ else:
+ return None
+ if not record.actor.in_state('idle', 'busy').get():
+ self._begin_node_shutdown(record.actor, cancellable=False)
+
def node_finished_shutdown(self, shutdown_actor):
success, cloud_node = self._get_actor_attrs(shutdown_actor, 'success',
'cloud_node')
def shutdown(self):
self._logger.info("Shutting down after signal.")
self.poll_stale_after = -1 # Inhibit starting/stopping nodes
- for bootnode in self.booting.itervalues():
- bootnode.stop_if_no_cloud_node()
+ setup_stops = {key: node.stop_if_no_cloud_node()
+ for key, node in self.booting.iteritems()}
+ self.booting = {key: self.booting[key]
+ for key in setup_stops if not setup_stops[key].get()}
self._later.await_shutdown()
def await_shutdown(self):
- if any(node.actor_ref.is_alive() for node in self.booting.itervalues()):
+ if self.booting:
self._timer.schedule(time.time() + 1, self._later.await_shutdown)
else:
self.stop()