181 lines
6.6 KiB
Python
181 lines
6.6 KiB
Python
#
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# Copyright 2012 New Dream Network, LLC (DreamHost)
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# Copyright (c) 2013 OpenStack Foundation
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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"""Tests for ceilometer/utils.py
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"""
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import datetime
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import decimal
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from oslotest import base
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from ceilometer import utils
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class TestUtils(base.BaseTestCase):
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def test_datetime_to_decimal(self):
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expected = 1356093296.12
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utc_datetime = datetime.datetime.utcfromtimestamp(expected)
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actual = utils.dt_to_decimal(utc_datetime)
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self.assertAlmostEqual(expected, float(actual), places=5)
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def test_decimal_to_datetime(self):
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expected = 1356093296.12
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dexpected = decimal.Decimal(str(expected)) # Python 2.6 wants str()
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expected_datetime = datetime.datetime.utcfromtimestamp(expected)
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actual_datetime = utils.decimal_to_dt(dexpected)
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# Python 3 have rounding issue on this, so use float
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self.assertAlmostEqual(utils.dt_to_decimal(expected_datetime),
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utils.dt_to_decimal(actual_datetime),
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places=5)
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def test_recursive_keypairs(self):
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data = {'a': 'A', 'b': 'B',
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'nested': {'a': 'A', 'b': 'B'}}
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pairs = list(utils.recursive_keypairs(data))
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self.assertEqual([('a', 'A'), ('b', 'B'),
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('nested:a', 'A'), ('nested:b', 'B')],
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pairs)
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def test_recursive_keypairs_with_separator(self):
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data = {'a': 'A',
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'b': 'B',
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'nested': {'a': 'A',
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'b': 'B',
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},
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}
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separator = '.'
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pairs = list(utils.recursive_keypairs(data, separator))
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self.assertEqual([('a', 'A'),
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('b', 'B'),
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('nested.a', 'A'),
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('nested.b', 'B')],
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pairs)
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def test_recursive_keypairs_with_list_of_dict(self):
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small = 1
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big = 1 << 64
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expected = [('a', 'A'),
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('b', 'B'),
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('nested:list', [{small: 99, big: 42}])]
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data = {'a': 'A',
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'b': 'B',
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'nested': {'list': [{small: 99, big: 42}]}}
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pairs = list(utils.recursive_keypairs(data))
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self.assertEqual(len(expected), len(pairs))
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for k, v in pairs:
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# the keys 1 and 1<<64 cause a hash collision on 64bit platforms
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if k == 'nested:list':
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self.assertIn(v,
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[[{small: 99, big: 42}],
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[{big: 42, small: 99}]])
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else:
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self.assertIn((k, v), expected)
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def test_restore_nesting_unested(self):
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metadata = {'a': 'A', 'b': 'B'}
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unwound = utils.restore_nesting(metadata)
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self.assertIs(metadata, unwound)
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def test_restore_nesting(self):
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metadata = {'a': 'A', 'b': 'B',
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'nested:a': 'A',
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'nested:b': 'B',
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'nested:twice:c': 'C',
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'nested:twice:d': 'D',
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'embedded:e': 'E'}
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unwound = utils.restore_nesting(metadata)
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expected = {'a': 'A', 'b': 'B',
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'nested': {'a': 'A', 'b': 'B',
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'twice': {'c': 'C', 'd': 'D'}},
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'embedded': {'e': 'E'}}
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self.assertEqual(expected, unwound)
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self.assertIsNot(metadata, unwound)
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def test_restore_nesting_with_separator(self):
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metadata = {'a': 'A', 'b': 'B',
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'nested.a': 'A',
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'nested.b': 'B',
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'nested.twice.c': 'C',
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'nested.twice.d': 'D',
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'embedded.e': 'E'}
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unwound = utils.restore_nesting(metadata, separator='.')
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expected = {'a': 'A', 'b': 'B',
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'nested': {'a': 'A', 'b': 'B',
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'twice': {'c': 'C', 'd': 'D'}},
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'embedded': {'e': 'E'}}
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self.assertEqual(expected, unwound)
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self.assertIsNot(metadata, unwound)
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def test_decimal_to_dt_with_none_parameter(self):
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self.assertIsNone(utils.decimal_to_dt(None))
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def test_dict_to_kv(self):
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data = {'a': 'A',
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'b': 'B',
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'nested': {'a': 'A',
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'b': 'B',
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},
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'nested2': [{'c': 'A'}, {'c': 'B'}]
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}
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pairs = list(utils.dict_to_keyval(data))
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self.assertEqual([('a', 'A'),
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('b', 'B'),
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('nested.a', 'A'),
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('nested.b', 'B'),
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('nested2[0].c', 'A'),
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('nested2[1].c', 'B')],
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sorted(pairs, key=lambda x: x[0]))
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def test_hash_of_set(self):
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x = ['a', 'b']
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y = ['a', 'b', 'a']
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z = ['a', 'c']
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self.assertEqual(utils.hash_of_set(x), utils.hash_of_set(y))
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self.assertNotEqual(utils.hash_of_set(x), utils.hash_of_set(z))
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self.assertNotEqual(utils.hash_of_set(y), utils.hash_of_set(z))
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def test_hash_ring(self):
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num_nodes = 10
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num_keys = 1000
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nodes = [str(x) for x in range(num_nodes)]
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hr = utils.HashRing(nodes)
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buckets = [0] * num_nodes
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assignments = [-1] * num_keys
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for k in range(num_keys):
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n = int(hr.get_node(str(k)))
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self.assertTrue(0 <= n <= num_nodes)
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buckets[n] += 1
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assignments[k] = n
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# at least something in each bucket
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self.assertTrue(all((c > 0 for c in buckets)))
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# approximately even distribution
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diff = max(buckets) - min(buckets)
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self.assertTrue(diff < 0.3 * (num_keys / num_nodes))
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# consistency
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num_nodes += 1
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nodes.append(str(num_nodes + 1))
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hr = utils.HashRing(nodes)
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for k in range(num_keys):
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n = int(hr.get_node(str(k)))
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assignments[k] -= n
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reassigned = len([c for c in assignments if c != 0])
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self.assertTrue(reassigned < num_keys / num_nodes)
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