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# Copyright (c) 2018 gevent. See LICENSE for details. from __future__ import print_function, absolute_import, division import os import sys from weakref import ref as wref from greenlet import getcurrent from gevent import config as GEVENT_CONFIG from gevent.monkey import get_original from gevent.events import notify from gevent.events import EventLoopBlocked from gevent.events import MemoryUsageThresholdExceeded from gevent.events import MemoryUsageUnderThreshold from gevent.events import IPeriodicMonitorThread from gevent.events import implementer from gevent._tracer import GreenletTracer from gevent._compat import thread_mod_name from gevent._compat import perf_counter __all__ = [ 'PeriodicMonitoringThread', ] get_thread_ident = get_original(thread_mod_name, 'get_ident') start_new_thread = get_original(thread_mod_name, 'start_new_thread') thread_sleep = get_original('time', 'sleep') class MonitorWarning(RuntimeWarning): """The type of warnings we emit.""" class _MonitorEntry(object): __slots__ = ('function', 'period', 'last_run_time') def __init__(self, function, period): self.function = function self.period = period self.last_run_time = 0 def __eq__(self, other): return self.function == other.function and self.period == other.period def __repr__(self): return repr((self.function, self.period, self.last_run_time)) @implementer(IPeriodicMonitorThread) class PeriodicMonitoringThread(object): # This doesn't extend threading.Thread because that gets monkey-patched. # We use the low-level 'start_new_thread' primitive instead. # The amount of seconds we will sleep when we think we have nothing # to do. inactive_sleep_time = 2.0 # The absolute minimum we will sleep, regardless of # what particular monitoring functions want to say. min_sleep_time = 0.005 # The minimum period in seconds at which we will check memory usage. # Getting memory usage is fairly expensive. min_memory_monitor_period = 2 # A list of _MonitorEntry objects: [(function(hub), period, last_run_time))] # The first entry is always our entry for self.monitor_blocking _monitoring_functions = None # The calculated min sleep time for the monitoring functions list. _calculated_sleep_time = None # A boolean value that also happens to capture the # memory usage at the time we exceeded the threshold. Reset # to 0 when we go back below. _memory_exceeded = 0 # The instance of GreenletTracer we're using _greenlet_tracer = None def __init__(self, hub): self._hub_wref = wref(hub, self._on_hub_gc) self.should_run = True # Must be installed in the thread that the hub is running in; # the trace function is threadlocal assert get_thread_ident() == hub.thread_ident self._greenlet_tracer = GreenletTracer() self._monitoring_functions = [_MonitorEntry(self.monitor_blocking, GEVENT_CONFIG.max_blocking_time)] self._calculated_sleep_time = GEVENT_CONFIG.max_blocking_time # Create the actual monitoring thread. This is effectively a "daemon" # thread. self.monitor_thread_ident = start_new_thread(self, ()) # We must track the PID to know if your thread has died after a fork self.pid = os.getpid() def _on_fork(self): # Pseudo-standard method that resolver_ares and threadpool # also have, called by hub.reinit() pid = os.getpid() if pid != self.pid: self.pid = pid self.monitor_thread_ident = start_new_thread(self, ()) @property def hub(self): return self._hub_wref() def monitoring_functions(self): # Return a list of _MonitorEntry objects # Update max_blocking_time each time. mbt = GEVENT_CONFIG.max_blocking_time # XXX: Events so we know when this changes. if mbt != self._monitoring_functions[0].period: self._monitoring_functions[0].period = mbt self._calculated_sleep_time = min(x.period for x in self._monitoring_functions) return self._monitoring_functions def add_monitoring_function(self, function, period): if not callable(function): raise ValueError("function must be callable") if period is None: # Remove. self._monitoring_functions = [ x for x in self._monitoring_functions if x.function != function ] elif period <= 0: raise ValueError("Period must be positive.") else: # Add or update period entry = _MonitorEntry(function, period) self._monitoring_functions = [ x if x.function != function else entry for x in self._monitoring_functions ] if entry not in self._monitoring_functions: self._monitoring_functions.append(entry) self._calculated_sleep_time = min(x.period for x in self._monitoring_functions) def calculate_sleep_time(self): min_sleep = self._calculated_sleep_time if min_sleep <= 0: # Everyone wants to be disabled. Sleep for a longer period of # time than usual so we don't spin unnecessarily. We might be # enabled again in the future. return self.inactive_sleep_time return max((min_sleep, self.min_sleep_time)) def kill(self): if not self.should_run: # Prevent overwriting trace functions. return # Stop this monitoring thread from running. self.should_run = False # Uninstall our tracing hook self._greenlet_tracer.kill() def _on_hub_gc(self, _): self.kill() def __call__(self): # The function that runs in the monitoring thread. # We cannot use threading.current_thread because it would # create an immortal DummyThread object. getcurrent().gevent_monitoring_thread = wref(self) try: while self.should_run: functions = self.monitoring_functions() assert functions sleep_time = self.calculate_sleep_time() thread_sleep(sleep_time) # Make sure the hub is still around, and still active, # and keep it around while we are here. hub = self.hub if not hub: self.kill() if self.should_run: this_run = perf_counter() for entry in functions: f = entry.function period = entry.period last_run = entry.last_run_time if period and last_run + period <= this_run: entry.last_run_time = this_run f(hub) del hub # break our reference to hub while we sleep except SystemExit: pass except: # pylint:disable=bare-except # We're a daemon thread, so swallow any exceptions that get here # during interpreter shutdown. if not sys or not sys.stderr: # pragma: no cover # Interpreter is shutting down pass else: hub = self.hub if hub is not None: # XXX: This tends to do bad things like end the process, because we # try to switch *threads*, which can't happen. Need something better. hub.handle_error(self, *sys.exc_info()) def monitor_blocking(self, hub): # Called periodically to see if the trace function has # fired to switch greenlets. If not, we will print # the greenlet tree. # For tests, we return a true value when we think we found something # blocking did_block = self._greenlet_tracer.did_block_hub(hub) if not did_block: return active_greenlet = did_block[1] report = self._greenlet_tracer.did_block_hub_report( hub, active_greenlet, dict(greenlet_stacks=False, current_thread_ident=self.monitor_thread_ident)) stream = hub.exception_stream for line in report: # Printing line by line may interleave with other things, # but it should also prevent a "reentrant call to print" # when the report is large. print(line, file=stream) notify(EventLoopBlocked(active_greenlet, GEVENT_CONFIG.max_blocking_time, report)) return (active_greenlet, report) def ignore_current_greenlet_blocking(self): self._greenlet_tracer.ignore_current_greenlet_blocking() def monitor_current_greenlet_blocking(self): self._greenlet_tracer.monitor_current_greenlet_blocking() def _get_process(self): # pylint:disable=method-hidden try: # The standard library 'resource' module doesn't provide # a standard way to get the RSS measure, only the maximum. # You might be tempted to try to compute something by adding # together text and data sizes, but on many systems those come back # zero. So our only option is psutil. from psutil import Process, AccessDenied # Make sure it works (why would we be denied access to our own process?) try: proc = Process() proc.memory_full_info() except AccessDenied: # pragma: no cover proc = None except ImportError: proc = None self._get_process = lambda: proc return proc def can_monitor_memory_usage(self): return self._get_process() is not None def install_monitor_memory_usage(self): # Start monitoring memory usage, if possible. # If not possible, emit a warning. if not self.can_monitor_memory_usage(): import warnings warnings.warn("Unable to monitor memory usage. Install psutil.", MonitorWarning) return self.add_monitoring_function(self.monitor_memory_usage, max(GEVENT_CONFIG.memory_monitor_period, self.min_memory_monitor_period)) def monitor_memory_usage(self, _hub): max_allowed = GEVENT_CONFIG.max_memory_usage if not max_allowed: # They disabled it. return -1 # value for tests rusage = self._get_process().memory_full_info() # uss only documented available on Windows, Linux, and OS X. # If not available, fall back to rss as an aproximation. mem_usage = getattr(rusage, 'uss', 0) or rusage.rss event = None # Return value for tests if mem_usage > max_allowed: if mem_usage > self._memory_exceeded: # We're still growing event = MemoryUsageThresholdExceeded( mem_usage, max_allowed, rusage) notify(event) self._memory_exceeded = mem_usage else: # we're below. Were we above it last time? if self._memory_exceeded: event = MemoryUsageUnderThreshold( mem_usage, max_allowed, rusage, self._memory_exceeded) notify(event) self._memory_exceeded = 0 return event def __repr__(self): return '<%s at %s in thread %s greenlet %r for %r>' % ( self.__class__.__name__, hex(id(self)), hex(self.monitor_thread_ident), getcurrent(), self._hub_wref())