# # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """Utilities for handling ISO 8601 duration format.""" import datetime import random import re import time from heat.common.i18n import _ iso_duration_re = re.compile('PT(?:(\d+)H)?(?:(\d+)M)?(?:(\d+)S)?$') wallclock = time.time class Duration(object): # (NOTE): we don't attempt to handle leap seconds or large clock # jumps here. The latter are assumed to be rare and the former # negligible in the context of the timeout. Time zone adjustments, # Daylight Savings and the like *are* handled. PEP 418 adds a proper # monotonic clock, but only in Python 3.3. def __init__(self, timeout=0): self._endtime = wallclock() + timeout def expired(self): return wallclock() > self._endtime def endtime(self): return self._endtime def parse_isoduration(duration): """Convert duration in ISO 8601 format to second(s). Year, Month, Week, and Day designators are not supported. Example: 'PT12H30M5S' """ result = iso_duration_re.match(duration) if not result: raise ValueError(_('Only ISO 8601 duration format of the form ' 'PT#H#M#S is supported.')) t = 0 t += (3600 * int(result.group(1))) if result.group(1) else 0 t += (60 * int(result.group(2))) if result.group(2) else 0 t += int(result.group(3)) if result.group(3) else 0 return t def retry_backoff_delay(attempt, scale_factor=1.0, jitter_max=0.0): """Calculate an exponential backoff delay with jitter. Delay is calculated as 2^attempt + (uniform random from [0,1) * jitter_max) :param attempt: The count of the current retry attempt :param scale_factor: Multiplier to scale the exponential delay by :param jitter_max: Maximum of random seconds to add to the delay :returns: Seconds since epoch to wait until """ exp = float(2 ** attempt) * float(scale_factor) if jitter_max == 0.0: return exp return exp + random.random() * jitter_max def round_to_seconds(dt): """Round a datetime to the nearest second.""" rounding = 0 if dt.microsecond >= 500000: rounding = 1 return dt + datetime.timedelta(0, rounding, -dt.microsecond)