# Copyright 2010 United States Government as represented by the # Administrator of the National Aeronautics and Space Administration. # Copyright 2011 Justin Santa Barbara # All Rights Reserved. # # 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 and helper functions.""" import bisect import calendar import copy import datetime import decimal import hashlib import multiprocessing import struct from oslo_concurrency import processutils from oslo_config import cfg from oslo_utils import timeutils from oslo_utils import units import six OPTS = [ cfg.StrOpt('rootwrap_config', default="/etc/ceilometer/rootwrap.conf", help='Path to the rootwrap configuration file to' 'use for running commands as root'), ] CONF = cfg.CONF CONF.register_opts(OPTS) def _get_root_helper(): return 'sudo ceilometer-rootwrap %s' % CONF.rootwrap_config def execute(*cmd, **kwargs): """Convenience wrapper around oslo's execute() method.""" if 'run_as_root' in kwargs and 'root_helper' not in kwargs: kwargs['root_helper'] = _get_root_helper() return processutils.execute(*cmd, **kwargs) def decode_unicode(input): """Decode the unicode of the message, and encode it into utf-8.""" if isinstance(input, dict): temp = {} # If the input data is a dict, create an equivalent dict with a # predictable insertion order to avoid inconsistencies in the # message signature computation for equivalent payloads modulo # ordering for key, value in sorted(six.iteritems(input)): temp[decode_unicode(key)] = decode_unicode(value) return temp elif isinstance(input, (tuple, list)): # When doing a pair of JSON encode/decode operations to the tuple, # the tuple would become list. So we have to generate the value as # list here. return [decode_unicode(element) for element in input] elif isinstance(input, six.text_type): return input.encode('utf-8') else: return input def recursive_keypairs(d, separator=':'): """Generator that produces sequence of keypairs for nested dictionaries.""" for name, value in sorted(six.iteritems(d)): if isinstance(value, dict): for subname, subvalue in recursive_keypairs(value, separator): yield ('%s%s%s' % (name, separator, subname), subvalue) elif isinstance(value, (tuple, list)): yield name, decode_unicode(value) else: yield name, value def restore_nesting(d, separator=':'): """Unwinds a flattened dict to restore nesting.""" d = copy.copy(d) if any([separator in k for k in d.keys()]) else d for k, v in d.copy().items(): if separator in k: top, rem = k.split(separator, 1) nest = d[top] if isinstance(d.get(top), dict) else {} nest[rem] = v d[top] = restore_nesting(nest, separator) del d[k] return d def dt_to_decimal(utc): """Datetime to Decimal. Some databases don't store microseconds in datetime so we always store as Decimal unixtime. """ if utc is None: return None decimal.getcontext().prec = 30 return (decimal.Decimal(str(calendar.timegm(utc.utctimetuple()))) + (decimal.Decimal(str(utc.microsecond)) / decimal.Decimal("1000000.0"))) def decimal_to_dt(dec): """Return a datetime from Decimal unixtime format.""" if dec is None: return None integer = int(dec) micro = (dec - decimal.Decimal(integer)) * decimal.Decimal(units.M) daittyme = datetime.datetime.utcfromtimestamp(integer) return daittyme.replace(microsecond=int(round(micro))) def sanitize_timestamp(timestamp): """Return a naive utc datetime object.""" if not timestamp: return timestamp if not isinstance(timestamp, datetime.datetime): timestamp = timeutils.parse_isotime(timestamp) return timeutils.normalize_time(timestamp) def stringify_timestamps(data): """Stringify any datetimes in given dict.""" isa_timestamp = lambda v: isinstance(v, datetime.datetime) return dict((k, v.isoformat() if isa_timestamp(v) else v) for (k, v) in six.iteritems(data)) def dict_to_keyval(value, key_base=None): """Expand a given dict to its corresponding key-value pairs. Generated keys are fully qualified, delimited using dot notation. ie. key = 'key.child_key.grandchild_key[0]' """ val_iter, key_func = None, None if isinstance(value, dict): val_iter = six.iteritems(value) key_func = lambda k: key_base + '.' + k if key_base else k elif isinstance(value, (tuple, list)): val_iter = enumerate(value) key_func = lambda k: key_base + '[%d]' % k if val_iter: for k, v in val_iter: key_gen = key_func(k) if isinstance(v, dict) or isinstance(v, (tuple, list)): for key_gen, v in dict_to_keyval(v, key_gen): yield key_gen, v else: yield key_gen, v def lowercase_keys(mapping): """Converts the values of the keys in mapping to lowercase.""" items = mapping.items() for key, value in items: del mapping[key] mapping[key.lower()] = value def lowercase_values(mapping): """Converts the values in the mapping dict to lowercase.""" items = mapping.items() for key, value in items: mapping[key] = value.lower() def update_nested(original_dict, updates): """Updates the leaf nodes in a nest dict. Updates occur without replacing entire sub-dicts. """ dict_to_update = copy.deepcopy(original_dict) for key, value in six.iteritems(updates): if isinstance(value, dict): sub_dict = update_nested(dict_to_update.get(key, {}), value) dict_to_update[key] = sub_dict else: dict_to_update[key] = updates[key] return dict_to_update def cpu_count(): try: return multiprocessing.cpu_count() or 1 except NotImplementedError: return 1 def uniq(dupes, attrs): """Exclude elements of dupes with a duplicated set of attribute values.""" key = lambda d: '/'.join([getattr(d, a) or '' for a in attrs]) keys = [] deduped = [] for d in dupes: if key(d) not in keys: deduped.append(d) keys.append(key(d)) return deduped def hash_of_set(s): return str(hash(frozenset(s))) class HashRing(object): def __init__(self, nodes, replicas=100): self._ring = dict() self._sorted_keys = [] for node in nodes: for r in six.moves.range(replicas): hashed_key = self._hash('%s-%s' % (node, r)) self._ring[hashed_key] = node self._sorted_keys.append(hashed_key) self._sorted_keys.sort() @staticmethod def _hash(key): return struct.unpack_from('>I', hashlib.md5(str(key).encode()).digest())[0] def _get_position_on_ring(self, key): hashed_key = self._hash(key) position = bisect.bisect(self._sorted_keys, hashed_key) return position if position < len(self._sorted_keys) else 0 def get_node(self, key): if not self._ring: return None pos = self._get_position_on_ring(key) return self._ring[self._sorted_keys[pos]]