| # Copyright (c) 2012 The Chromium OS Authors. All rights reserved. |
| # Use of this source code is governed by a BSD-style license that can be |
| # found in the LICENSE file. |
| |
| import logging |
| import random |
| import signal |
| import sys |
| import threading |
| import time |
| |
| from autotest_lib.client.common_lib import error |
| |
| |
| def handler(signum, frame): |
| """ |
| Register a handler for the timeout. |
| """ |
| raise error.TimeoutException('Call is timed out.') |
| |
| |
| def install_sigalarm_handler(new_handler): |
| """ |
| Try installing a sigalarm handler. |
| |
| In order to protect apache, wsgi intercepts any attempt to install a |
| sigalarm handler, so our function will feel the full force of a sigalarm |
| even if we try to install a pacifying signal handler. To avoid this we |
| need to confirm that the handler we tried to install really was installed. |
| |
| @param new_handler: The new handler to install. This must be a callable |
| object, or signal.SIG_IGN/SIG_DFL which correspond to |
| the numbers 1,0 respectively. |
| @return: True if the installation of new_handler succeeded, False otherwise. |
| """ |
| if (new_handler is None or |
| (not callable(new_handler) and |
| new_handler != signal.SIG_IGN and |
| new_handler != signal.SIG_DFL)): |
| logging.warning('Trying to install an invalid sigalarm handler.') |
| return False |
| |
| signal.signal(signal.SIGALRM, new_handler) |
| installed_handler = signal.getsignal(signal.SIGALRM) |
| return installed_handler == new_handler |
| |
| |
| def set_sigalarm_timeout(timeout_secs, default_timeout=60): |
| """ |
| Set the sigalarm timeout. |
| |
| This methods treats any timeout <= 0 as a possible error and falls back to |
| using it's default timeout, since negative timeouts can have 'alarming' |
| effects. Though 0 is a valid timeout, it is often used to cancel signals; in |
| order to set a sigalarm of 0 please call signal.alarm directly as there are |
| many situations where a 0 timeout is considered invalid. |
| |
| @param timeout_secs: The new timeout, in seconds. |
| @param default_timeout: The default timeout to use, if timeout <= 0. |
| @return: The old sigalarm timeout |
| """ |
| timeout_sec_n = int(timeout_secs) |
| if timeout_sec_n <= 0: |
| timeout_sec_n = int(default_timeout) |
| return signal.alarm(timeout_sec_n) |
| |
| |
| def timeout(func, args=(), kwargs={}, timeout_sec=60.0, default_result=None): |
| """ |
| This function run the given function using the args, kwargs and |
| return the given default value if the timeout_sec is exceeded. |
| |
| @param func: function to be called. |
| @param args: arguments for function to be called. |
| @param kwargs: keyword arguments for function to be called. |
| @param timeout_sec: timeout setting for call to exit, in seconds. |
| @param default_result: default return value for the function call. |
| |
| @return 1: is_timeout 2: result of the function call. If |
| is_timeout is True, the call is timed out. If the |
| value is False, the call is finished on time. |
| """ |
| old_alarm_sec = 0 |
| old_handler = signal.getsignal(signal.SIGALRM) |
| installed_handler = install_sigalarm_handler(handler) |
| if installed_handler: |
| old_alarm_sec = set_sigalarm_timeout(timeout_sec, default_timeout=60) |
| |
| # If old_timeout_time = 0 we either didn't install a handler, or sigalrm |
| # had a signal.SIG_DFL handler with 0 timeout. In the latter case we still |
| # need to restore the handler/timeout. |
| old_timeout_time = (time.time() + old_alarm_sec) if old_alarm_sec > 0 else 0 |
| |
| try: |
| default_result = func(*args, **kwargs) |
| return False, default_result |
| except error.TimeoutException: |
| return True, default_result |
| finally: |
| # If we installed a sigalarm handler, cancel it since our function |
| # returned on time. If we can successfully restore the old handler, |
| # reset the old timeout, or, if the old timeout's deadline has passed, |
| # set the sigalarm to fire in one second. If the old_timeout_time is 0 |
| # we don't need to set the sigalarm timeout since we have already set it |
| # as a byproduct of cancelling the current signal. |
| if installed_handler: |
| signal.alarm(0) |
| if install_sigalarm_handler(old_handler) and old_timeout_time: |
| set_sigalarm_timeout(int(old_timeout_time - time.time()), |
| default_timeout=1) |
| |
| |
| |
| def retry(ExceptionToCheck, timeout_min=1.0, delay_sec=3, blacklist=None, |
| exception_to_raise=None): |
| """Retry calling the decorated function using a delay with jitter. |
| |
| Will raise RPC ValidationError exceptions from the decorated |
| function without retrying; a malformed RPC isn't going to |
| magically become good. Will raise exceptions in blacklist as well. |
| |
| If the retry is done in a child thread, timeout may not be enforced as |
| signal only works in main thread. Therefore, the retry inside a child |
| thread may run longer than timeout or even hang. |
| |
| original from: |
| http://www.saltycrane.com/blog/2009/11/trying-out-retry-decorator-python/ |
| |
| @param ExceptionToCheck: the exception to check. May be a tuple of |
| exceptions to check. |
| @param timeout_min: timeout in minutes until giving up. |
| @param delay_sec: pre-jittered delay between retries in seconds. Actual |
| delays will be centered around this value, ranging up to |
| 50% off this midpoint. |
| @param blacklist: a list of exceptions that will be raised without retrying |
| @param exception_to_raise: the exception to raise. Callers can specify the |
| the exception they want to raise. |
| """ |
| def deco_retry(func): |
| random.seed() |
| |
| |
| def delay(): |
| """ |
| 'Jitter' the delay, up to 50% in either direction. |
| """ |
| random_delay = random.uniform(.5 * delay_sec, 1.5 * delay_sec) |
| logging.warning('Retrying in %f seconds...', random_delay) |
| time.sleep(random_delay) |
| |
| |
| def func_retry(*args, **kwargs): |
| # Used to cache exception to be raised later. |
| exc_info = None |
| delayed_enabled = False |
| exception_tuple = () if blacklist is None else tuple(blacklist) |
| start_time = time.time() |
| remaining_time = timeout_min * 60 |
| is_main_thread = isinstance(threading.current_thread(), |
| threading._MainThread) |
| while remaining_time > 0: |
| if delayed_enabled: |
| delay() |
| else: |
| delayed_enabled = True |
| try: |
| # Clear the cache |
| exc_info = None |
| if is_main_thread: |
| is_timeout, result = timeout(func, args, kwargs, |
| remaining_time) |
| if not is_timeout: |
| return result |
| else: |
| return func(*args, **kwargs) |
| except exception_tuple: |
| raise |
| except error.CrosDynamicSuiteException: |
| raise |
| except ExceptionToCheck as e: |
| logging.warning('%s(%s)', e.__class__, e) |
| # Cache the exception to be raised later. |
| exc_info = sys.exc_info() |
| |
| remaining_time = int(timeout_min*60 - |
| (time.time() - start_time)) |
| |
| # The call must have timed out or raised ExceptionToCheck. |
| if not exc_info: |
| if exception_to_raise: |
| raise exception_to_raise('Call is timed out.') |
| else: |
| raise error.TimeoutException('Call is timed out.') |
| # Raise the cached exception with original backtrace. |
| if exception_to_raise: |
| raise exception_to_raise('%s: %s' % (exc_info[0], exc_info[1])) |
| raise exc_info[0], exc_info[1], exc_info[2] |
| |
| |
| return func_retry # true decorator |
| return deco_retry |