# $Id$
#
# Copyright (C) 2009--2012 Internet Systems Consortium ("ISC")
#
# Permission to use, copy, modify, and distribute this software for any
# purpose with or without fee is hereby granted, provided that the above
# copyright notice and this permission notice appear in all copies.
#
# THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH
# REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
# AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT,
# INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
# LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
# OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
# PERFORMANCE OF THIS SOFTWARE.
"""
Utilities for event-driven programming.
"""
import gc
import sys
import signal
import logging
import asyncore
import traceback
import rpki.log
import rpki.sundial
logger = logging.getLogger(__name__)
ExitNow = asyncore.ExitNow
class iterator(object):
"""
Iteration construct for event-driven code. Takes three
arguments:
- Some kind of iterable object
- A callback to call on each item in the iteration
- A callback to call after the iteration terminates.
The item callback receives two arguments: the callable iterator
object and the current value of the iteration. It should call the
iterator (or arrange for the iterator to be called) when it is time
to continue to the next item in the iteration.
The termination callback receives no arguments.
Special case for memory constrained cases: if keyword argument
pop_list is True, iterable must be a list, which is modified in
place, popping items off of it until it's empty.
"""
def __init__(self, iterable, item_callback, done_callback, unwind_stack = True, pop_list = False):
assert not pop_list or isinstance(iterable, list), "iterable must be a list when using pop_list"
self.item_callback = item_callback
self.done_callback = done_callback if done_callback is not None else lambda: None
self.caller_file, self.caller_line, self.caller_function = traceback.extract_stack(limit = 2)[0][0:3]
self.unwind_stack = unwind_stack
self.pop_list = pop_list
try:
if self.pop_list:
self.iterator = iterable
else:
self.iterator = iter(iterable)
except (ExitNow, SystemExit):
raise
except Exception:
logger.debug("Problem constructing iterator for %s", repr(iterable))
raise
self.doit()
def __repr__(self):
return rpki.log.log_repr(self,
"created at %s:%s" % (self.caller_file,
self.caller_line),
self.caller_function)
def __call__(self):
if self.unwind_stack:
event_defer(self.doit)
else:
self.doit()
def doit(self):
"""
Implement the iterator protocol: attempt to call the item handler
with the next iteration value, call the termination handler if the
iterator signaled StopIteration.
"""
try:
if self.pop_list:
val = self.iterator.pop(0)
else:
val = self.iterator.next()
except (IndexError, StopIteration):
self.done_callback()
else:
self.item_callback(self, val)
## @var timer_queue
# Timer queue.
timer_queue = []
class timer(object):
"""
Timer construct for event-driven code.
"""
## @var gc_debug
# Verbose chatter about timers states and garbage collection.
gc_debug = False
## @var run_debug
# Verbose chatter about timers being run.
run_debug = False
def __init__(self, handler = None, errback = None):
self.set_handler(handler)
self.set_errback(errback)
self.when = None
if self.gc_debug:
self.trace("Creating %r" % self)
def trace(self, msg):
"""
Debug logging.
"""
if self.gc_debug:
bt = traceback.extract_stack(limit = 3)
logger.debug("%s from %s:%d", msg, bt[0][0], bt[0][1])
def set(self, when):
"""
Set a timer. Argument can be a datetime, to specify an absolute
time, or a timedelta, to specify an offset time.
"""
if self.gc_debug:
self.trace("Setting %r to %r" % (self, when))
if isinstance(when, rpki.sundial.timedelta):
self.when = rpki.sundial.now() + when
else:
self.when = when
assert isinstance(self.when, rpki.sundial.datetime), "%r: Expecting a datetime, got %r" % (self, self.when)
if self not in timer_queue:
timer_queue.append(self)
timer_queue.sort(key = lambda x: x.when)
def __cmp__(self, other):
return cmp(id(self), id(other))
if gc_debug:
def __del__(self):
logger.debug("Deleting %r", self)
def cancel(self):
"""
Cancel a timer, if it was set.
"""
if self.gc_debug:
self.trace("Canceling %r" % self)
try:
while True:
timer_queue.remove(self)
except ValueError:
pass
def is_set(self):
"""
Test whether this timer is currently set.
"""
return self in timer_queue
def set_handler(self, handler):
"""
Set timer's expiration handler. This is an alternative to
subclassing the timer class, and may be easier to use when
integrating timers into other classes (eg, the handler can be a
bound method to an object in a class representing a network
connection).
"""
self.handler = handler
def set_errback(self, errback):
"""
Set a timer's errback. Like set_handler(), for errbacks.
"""
self.errback = errback
@classmethod
def runq(cls):
"""
Run the timer queue: for each timer whose call time has passed,
pull the timer off the queue and call its handler() method.
Comparisions are made against time at which this function was
called, so that even if new events keep getting scheduled, we'll
return to the I/O loop reasonably quickly.
"""
now = rpki.sundial.now()
while timer_queue and now >= timer_queue[0].when:
t = timer_queue.pop(0)
if cls.run_debug:
logger.debug("Running %r", t)
try:
if t.handler is not None:
t.handler()
else:
logger.warning("Timer %r expired with no handler set", t)
except (ExitNow, SystemExit):
raise
except Exception, e:
if t.errback is not None:
t.errback(e)
else:
logger.exception("Unhandled exception from timer %r", t)
def __repr__(self):
return rpki.log.log_repr(self, self.when, repr(self.handler))
@classmethod
def seconds_until_wakeup(cls):
"""
Calculate delay until next timer expires, or None if no timers are
set and we should wait indefinitely. Rounds up to avoid spinning
in select() or poll(). We could calculate fractional seconds in
the right units instead, but select() and poll() don't even take
the same units (argh!), and we're not doing anything that
hair-triggered, so rounding up is simplest.
"""
if not timer_queue:
return None
now = rpki.sundial.now()
if now >= timer_queue[0].when:
return 0
delay = timer_queue[0].when - now
seconds = delay.convert_to_seconds()
if delay.microseconds:
seconds += 1
return seconds
@classmethod
def clear(cls):
"""
Cancel every timer on the queue. We could just throw away the
queue content, but this way we can notify subclasses that provide
their own cancel() method.
"""
while timer_queue:
timer_queue.pop(0).cancel()
def _raiseExitNow(signum, frame):
"""
Signal handler for event_loop().
"""
raise ExitNow
def exit_event_loop():
"""
Force exit from event_loop().
"""
raise ExitNow
def event_defer(handler, delay = rpki.sundial.timedelta(seconds = 0)):
"""
Use a near-term (default: zero interval) timer to schedule an event
to run after letting the I/O system have a turn.
"""
timer(handler).set(delay)
## @var debug_event_timing
# Enable insanely verbose logging of event timing
debug_event_timing = False
def event_loop(catch_signals = (signal.SIGINT, signal.SIGTERM)):
"""
Replacement for asyncore.loop(), adding timer and signal support.
"""
old_signal_handlers = {}
while True:
save_sigs = len(old_signal_handlers) == 0
try:
for sig in catch_signals:
old = signal.signal(sig, _raiseExitNow)
if save_sigs:
old_signal_handlers[sig] = old
while asyncore.socket_map or timer_queue:
t = timer.seconds_until_wakeup()
if debug_event_timing:
logger.debug("Dismissing to asyncore.poll(), t = %s, q = %r", t, timer_queue)
asyncore.poll(t, asyncore.socket_map)
timer.runq()
if timer.gc_debug:
gc.collect()
if gc.garbage:
for i in gc.garbage:
logger.debug("GC-cycle %r", i)
del gc.garbage[:]
except ExitNow:
break
except SystemExit:
raise
except ValueError, e:
if str(e) == "filedescriptor out of range in select()":
logger.error("Something is badly wrong, select() thinks we gave it a bad file descriptor.")
logger.error("Content of asyncore.socket_map:")
for fd in sorted(asyncore.socket_map.iterkeys()):
logger.error(" fd %s obj %r", fd, asyncore.socket_map[fd])
logger.error("Not safe to continue due to risk of spin loop on select(). Exiting.")
sys.exit(1)
logger.exception("event_loop() exited with exception %r, this is not supposed to happen, restarting")
except Exception, e:
logger.exception("event_loop() exited with exception %r, this is not supposed to happen, restarting")
else:
break
finally:
for sig in old_signal_handlers:
signal.signal(sig, old_signal_handlers[sig])
class sync_wrapper(object):
"""
Synchronous wrapper around asynchronous functions. Running in
asynchronous mode at all times makes sense for event-driven daemons,
but is kind of tedious for simple scripts, hence this wrapper.
The wrapped function should take at least two arguments: a callback
function and an errback function. If any arguments are passed to
the wrapper, they will be passed as additional arguments to the
wrapped function.
"""
res = None
err = None
def __init__(self, func):
self.func = func
def cb(self, res = None):
"""
Wrapped code has requested normal termination. Store result, and
exit the event loop.
"""
self.res = res
raise ExitNow
def eb(self, err):
"""
Wrapped code raised an exception. Store exception data, then exit
the event loop.
"""
exc_info = sys.exc_info()
self.err = exc_info if exc_info[1] is err else err
raise ExitNow
def __call__(self, *args, **kwargs):
def thunk():
try:
self.func(self.cb, self.eb, *args, **kwargs)
except ExitNow:
raise
except Exception, e:
self.eb(e)
event_defer(thunk)
event_loop()
if self.err is None:
return self.res
elif isinstance(self.err, tuple):
raise self.err[0], self.err[1], self.err[2]
else:
raise self.err
class gc_summary(object):
"""
Periodic summary of GC state, for tracking down memory bloat.
"""
def __init__(self, interval, threshold = 0):
if isinstance(interval, (int, long)):
interval = rpki.sundial.timedelta(seconds = interval)
self.interval = interval
self.threshold = threshold
self.timer = timer(handler = self.handler)
self.timer.set(self.interval)
def handler(self):
"""
Collect and log GC state for this period, reset timer.
"""
logger.debug("gc_summary: Running gc.collect()")
gc.collect()
logger.debug("gc_summary: Summarizing (threshold %d)", self.threshold)
total = {}
tuples = {}
for g in gc.get_objects():
k = type(g).__name__
total[k] = total.get(k, 0) + 1
if isinstance(g, tuple):
k = ", ".join(type(x).__name__ for x in g)
tuples[k] = tuples.get(k, 0) + 1
logger.debug("gc_summary: Sorting result")
total = total.items()
total.sort(reverse = True, key = lambda x: x[1])
tuples = tuples.items()
tuples.sort(reverse = True, key = lambda x: x[1])
logger.debug("gc_summary: Object type counts in descending order")
for name, count in total:
if count > self.threshold:
logger.debug("gc_summary: %8d %s", count, name)
logger.debug("gc_summary: Tuple content type signature counts in descending order")
for types, count in tuples:
if count > self.threshold:
logger.debug("gc_summary: %8d (%s)", count, types)
logger.debug("gc_summary: Scheduling next cycle")
self.timer.set(self.interval)