"""A MultiKernelManager for use in the notebook webserver - raises HTTPErrors - creates REST API models """ # Copyright (c) Jupyter Development Team. # Distributed under the terms of the Modified BSD License. from collections import defaultdict from datetime import datetime, timedelta from functools import partial import os from tornado import gen, web from tornado.concurrent import Future from tornado.ioloop import IOLoop, PeriodicCallback from jupyter_client.session import Session from jupyter_client.multikernelmanager import MultiKernelManager from traitlets import (Any, Bool, Dict, List, Unicode, TraitError, Integer, Float, Instance, default, validate ) from notebook.utils import maybe_future, to_os_path, exists from notebook._tz import utcnow, isoformat from ipython_genutils.py3compat import getcwd from notebook.prometheus.metrics import KERNEL_CURRENTLY_RUNNING_TOTAL class MappingKernelManager(MultiKernelManager): """A KernelManager that handles notebook mapping and HTTP error handling""" @default('kernel_manager_class') def _default_kernel_manager_class(self): return "jupyter_client.ioloop.IOLoopKernelManager" kernel_argv = List(Unicode()) root_dir = Unicode(config=True) _kernel_connections = Dict() _culler_callback = None _initialized_culler = False @default('root_dir') def _default_root_dir(self): try: return self.parent.notebook_dir except AttributeError: return getcwd() @validate('root_dir') def _update_root_dir(self, proposal): """Do a bit of validation of the root dir.""" value = proposal['value'] if not os.path.isabs(value): # If we receive a non-absolute path, make it absolute. value = os.path.abspath(value) if not exists(value) or not os.path.isdir(value): raise TraitError("kernel root dir %r is not a directory" % value) return value cull_idle_timeout = Integer(0, config=True, help="""Timeout (in seconds) after which a kernel is considered idle and ready to be culled. Values of 0 or lower disable culling. Very short timeouts may result in kernels being culled for users with poor network connections.""" ) cull_interval_default = 300 # 5 minutes cull_interval = Integer(cull_interval_default, config=True, help="""The interval (in seconds) on which to check for idle kernels exceeding the cull timeout value.""" ) cull_connected = Bool(False, config=True, help="""Whether to consider culling kernels which have one or more connections. Only effective if cull_idle_timeout > 0.""" ) cull_busy = Bool(False, config=True, help="""Whether to consider culling kernels which are busy. Only effective if cull_idle_timeout > 0.""" ) buffer_offline_messages = Bool(True, config=True, help="""Whether messages from kernels whose frontends have disconnected should be buffered in-memory. When True (default), messages are buffered and replayed on reconnect, avoiding lost messages due to interrupted connectivity. Disable if long-running kernels will produce too much output while no frontends are connected. """ ) kernel_info_timeout = Float(60, config=True, help="""Timeout for giving up on a kernel (in seconds). On starting and restarting kernels, we check whether the kernel is running and responsive by sending kernel_info_requests. This sets the timeout in seconds for how long the kernel can take before being presumed dead. This affects the MappingKernelManager (which handles kernel restarts) and the ZMQChannelsHandler (which handles the startup). """ ) _kernel_buffers = Any() @default('_kernel_buffers') def _default_kernel_buffers(self): return defaultdict(lambda: {'buffer': [], 'session_key': '', 'channels': {}}) last_kernel_activity = Instance(datetime, help="The last activity on any kernel, including shutting down a kernel") def __init__(self, **kwargs): super(MappingKernelManager, self).__init__(**kwargs) self.last_kernel_activity = utcnow() allowed_message_types = List(trait=Unicode(), config=True, help="""White list of allowed kernel message types. When the list is empty, all message types are allowed. """ ) #------------------------------------------------------------------------- # Methods for managing kernels and sessions #------------------------------------------------------------------------- def _handle_kernel_died(self, kernel_id): """notice that a kernel died""" self.log.warning("Kernel %s died, removing from map.", kernel_id) self.remove_kernel(kernel_id) def cwd_for_path(self, path): """Turn API path into absolute OS path.""" os_path = to_os_path(path, self.root_dir) # in the case of notebooks and kernels not being on the same filesystem, # walk up to root_dir if the paths don't exist while not os.path.isdir(os_path) and os_path != self.root_dir: os_path = os.path.dirname(os_path) return os_path @gen.coroutine def start_kernel(self, kernel_id=None, path=None, **kwargs): """Start a kernel for a session and return its kernel_id. Parameters ---------- kernel_id : uuid The uuid to associate the new kernel with. If this is not None, this kernel will be persistent whenever it is requested. path : API path The API path (unicode, '/' delimited) for the cwd. Will be transformed to an OS path relative to root_dir. kernel_name : str The name identifying which kernel spec to launch. This is ignored if an existing kernel is returned, but it may be checked in the future. """ if kernel_id is None: if path is not None: kwargs['cwd'] = self.cwd_for_path(path) kernel_id = yield maybe_future( super(MappingKernelManager, self).start_kernel(**kwargs) ) self._kernel_connections[kernel_id] = 0 self.start_watching_activity(kernel_id) self.log.info("Kernel started: %s" % kernel_id) self.log.debug("Kernel args: %r" % kwargs) # register callback for failed auto-restart self.add_restart_callback(kernel_id, lambda : self._handle_kernel_died(kernel_id), 'dead', ) # Increase the metric of number of kernels running # for the relevant kernel type by 1 KERNEL_CURRENTLY_RUNNING_TOTAL.labels( type=self._kernels[kernel_id].kernel_name ).inc() else: self._check_kernel_id(kernel_id) self.log.info("Using existing kernel: %s" % kernel_id) # Initialize culling if not already if not self._initialized_culler: self.initialize_culler() # py2-compat raise gen.Return(kernel_id) def start_buffering(self, kernel_id, session_key, channels): """Start buffering messages for a kernel Parameters ---------- kernel_id : str The id of the kernel to start buffering. session_key: str The session_key, if any, that should get the buffer. If the session_key matches the current buffered session_key, the buffer will be returned. channels: dict({'channel': ZMQStream}) The zmq channels whose messages should be buffered. """ if not self.buffer_offline_messages: for channel, stream in channels.items(): stream.close() return self.log.info("Starting buffering for %s", session_key) self._check_kernel_id(kernel_id) # clear previous buffering state self.stop_buffering(kernel_id) buffer_info = self._kernel_buffers[kernel_id] # record the session key because only one session can buffer buffer_info['session_key'] = session_key # TODO: the buffer should likely be a memory bounded queue, we're starting with a list to keep it simple buffer_info['buffer'] = [] buffer_info['channels'] = channels # forward any future messages to the internal buffer def buffer_msg(channel, msg_parts): self.log.debug("Buffering msg on %s:%s", kernel_id, channel) buffer_info['buffer'].append((channel, msg_parts)) for channel, stream in channels.items(): stream.on_recv(partial(buffer_msg, channel)) def get_buffer(self, kernel_id, session_key): """Get the buffer for a given kernel Parameters ---------- kernel_id : str The id of the kernel to stop buffering. session_key: str, optional The session_key, if any, that should get the buffer. If the session_key matches the current buffered session_key, the buffer will be returned. """ self.log.debug("Getting buffer for %s", kernel_id) if kernel_id not in self._kernel_buffers: return buffer_info = self._kernel_buffers[kernel_id] if buffer_info['session_key'] == session_key: # remove buffer self._kernel_buffers.pop(kernel_id) # only return buffer_info if it's a match return buffer_info else: self.stop_buffering(kernel_id) def stop_buffering(self, kernel_id): """Stop buffering kernel messages Parameters ---------- kernel_id : str The id of the kernel to stop buffering. """ self.log.debug("Clearing buffer for %s", kernel_id) self._check_kernel_id(kernel_id) if kernel_id not in self._kernel_buffers: return buffer_info = self._kernel_buffers.pop(kernel_id) # close buffering streams for stream in buffer_info['channels'].values(): if not stream.closed(): stream.on_recv(None) stream.close() msg_buffer = buffer_info['buffer'] if msg_buffer: self.log.info("Discarding %s buffered messages for %s", len(msg_buffer), buffer_info['session_key']) def shutdown_kernel(self, kernel_id, now=False): """Shutdown a kernel by kernel_id""" self._check_kernel_id(kernel_id) kernel = self._kernels[kernel_id] if kernel._activity_stream: kernel._activity_stream.close() kernel._activity_stream = None self.stop_buffering(kernel_id) self._kernel_connections.pop(kernel_id, None) # Decrease the metric of number of kernels # running for the relevant kernel type by 1 KERNEL_CURRENTLY_RUNNING_TOTAL.labels( type=self._kernels[kernel_id].kernel_name ).dec() return super(MappingKernelManager, self).shutdown_kernel(kernel_id, now=now) @gen.coroutine def restart_kernel(self, kernel_id): """Restart a kernel by kernel_id""" self._check_kernel_id(kernel_id) yield maybe_future(super(MappingKernelManager, self).restart_kernel(kernel_id)) kernel = self.get_kernel(kernel_id) # return a Future that will resolve when the kernel has successfully restarted channel = kernel.connect_shell() future = Future() def finish(): """Common cleanup when restart finishes/fails for any reason.""" if not channel.closed(): channel.close() loop.remove_timeout(timeout) kernel.remove_restart_callback(on_restart_failed, 'dead') def on_reply(msg): self.log.debug("Kernel info reply received: %s", kernel_id) finish() if not future.done(): future.set_result(msg) def on_timeout(): self.log.warning("Timeout waiting for kernel_info_reply: %s", kernel_id) finish() if not future.done(): future.set_exception(gen.TimeoutError("Timeout waiting for restart")) def on_restart_failed(): self.log.warning("Restarting kernel failed: %s", kernel_id) finish() if not future.done(): future.set_exception(RuntimeError("Restart failed")) kernel.add_restart_callback(on_restart_failed, 'dead') kernel.session.send(channel, "kernel_info_request") channel.on_recv(on_reply) loop = IOLoop.current() timeout = loop.add_timeout(loop.time() + self.kernel_info_timeout, on_timeout) # wait for restart to complete yield future def notify_connect(self, kernel_id): """Notice a new connection to a kernel""" if kernel_id in self._kernel_connections: self._kernel_connections[kernel_id] += 1 def notify_disconnect(self, kernel_id): """Notice a disconnection from a kernel""" if kernel_id in self._kernel_connections: self._kernel_connections[kernel_id] -= 1 def kernel_model(self, kernel_id): """Return a JSON-safe dict representing a kernel For use in representing kernels in the JSON APIs. """ self._check_kernel_id(kernel_id) kernel = self._kernels[kernel_id] model = { "id":kernel_id, "name": kernel.kernel_name, "last_activity": isoformat(kernel.last_activity), "execution_state": kernel.execution_state, "connections": self._kernel_connections[kernel_id], } return model def list_kernels(self): """Returns a list of kernel_id's of kernels running.""" kernels = [] kernel_ids = super(MappingKernelManager, self).list_kernel_ids() for kernel_id in kernel_ids: model = self.kernel_model(kernel_id) kernels.append(model) return kernels # override _check_kernel_id to raise 404 instead of KeyError def _check_kernel_id(self, kernel_id): """Check a that a kernel_id exists and raise 404 if not.""" if kernel_id not in self: raise web.HTTPError(404, u'Kernel does not exist: %s' % kernel_id) # monitoring activity: def start_watching_activity(self, kernel_id): """Start watching IOPub messages on a kernel for activity. - update last_activity on every message - record execution_state from status messages """ kernel = self._kernels[kernel_id] # add busy/activity markers: kernel.execution_state = 'starting' kernel.last_activity = utcnow() kernel._activity_stream = kernel.connect_iopub() session = Session( config=kernel.session.config, key=kernel.session.key, ) def record_activity(msg_list): """Record an IOPub message arriving from a kernel""" self.last_kernel_activity = kernel.last_activity = utcnow() idents, fed_msg_list = session.feed_identities(msg_list) msg = session.deserialize(fed_msg_list) msg_type = msg['header']['msg_type'] if msg_type == 'status': kernel.execution_state = msg['content']['execution_state'] self.log.debug("activity on %s: %s (%s)", kernel_id, msg_type, kernel.execution_state) else: self.log.debug("activity on %s: %s", kernel_id, msg_type) kernel._activity_stream.on_recv(record_activity) def initialize_culler(self): """Start idle culler if 'cull_idle_timeout' is greater than zero. Regardless of that value, set flag that we've been here. """ if not self._initialized_culler and self.cull_idle_timeout > 0: if self._culler_callback is None: loop = IOLoop.current() if self.cull_interval <= 0: #handle case where user set invalid value self.log.warning("Invalid value for 'cull_interval' detected (%s) - using default value (%s).", self.cull_interval, self.cull_interval_default) self.cull_interval = self.cull_interval_default self._culler_callback = PeriodicCallback( self.cull_kernels, 1000*self.cull_interval) self.log.info("Culling kernels with idle durations > %s seconds at %s second intervals ...", self.cull_idle_timeout, self.cull_interval) if self.cull_busy: self.log.info("Culling kernels even if busy") if self.cull_connected: self.log.info("Culling kernels even with connected clients") self._culler_callback.start() self._initialized_culler = True def cull_kernels(self): self.log.debug("Polling every %s seconds for kernels idle > %s seconds...", self.cull_interval, self.cull_idle_timeout) """Create a separate list of kernels to avoid conflicting updates while iterating""" for kernel_id in list(self._kernels): try: self.cull_kernel_if_idle(kernel_id) except Exception as e: self.log.exception("The following exception was encountered while checking the idle duration of kernel %s: %s", kernel_id, e) def cull_kernel_if_idle(self, kernel_id): kernel = self._kernels[kernel_id] self.log.debug("kernel_id=%s, kernel_name=%s, last_activity=%s", kernel_id, kernel.kernel_name, kernel.last_activity) if kernel.last_activity is not None: dt_now = utcnow() dt_idle = dt_now - kernel.last_activity # Compute idle properties is_idle_time = dt_idle > timedelta(seconds=self.cull_idle_timeout) is_idle_execute = self.cull_busy or (kernel.execution_state != 'busy') connections = self._kernel_connections.get(kernel_id, 0) is_idle_connected = self.cull_connected or not connections # Cull the kernel if all three criteria are met if (is_idle_time and is_idle_execute and is_idle_connected): idle_duration = int(dt_idle.total_seconds()) self.log.warning("Culling '%s' kernel '%s' (%s) with %d connections due to %s seconds of inactivity.", kernel.execution_state, kernel.kernel_name, kernel_id, connections, idle_duration) self.shutdown_kernel(kernel_id)