c4f442ed5a
The iso8601_micro and iso8601 facts incorrectly called now.utcnow(), resulting in a new timestamp at the time it was called, not a conversion of the previously stored timestamp. Correct this by capturing the UTC timestamp once then calculating the local time using the UTC offset of the current system. * Use time.time() for getting the current time * Convert from that stored epoch timestamp to local and UTC times * Used existing timestamp for epoch time * Add unit tests that validate the formate of the return value rather than an exact value since mocking time and timezone is non-trivial
104 lines
3 KiB
Python
104 lines
3 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright (c) 2020 Ansible Project
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# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
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from __future__ import absolute_import, division, print_function
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__metaclass__ = type
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import pytest
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import datetime
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import string
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import time
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from ansible.module_utils.facts.system import date_time
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EPOCH_TS = 1594449296.123456
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DT = datetime.datetime(2020, 7, 11, 12, 34, 56, 124356)
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DT_UTC = datetime.datetime(2020, 7, 11, 2, 34, 56, 124356)
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@pytest.fixture
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def fake_now(monkeypatch):
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"""
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Patch `datetime.datetime.fromtimestamp()`, `datetime.datetime.utcfromtimestamp()`,
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and `time.time()` to return deterministic values.
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"""
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class FakeNow:
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@classmethod
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def fromtimestamp(cls, timestamp):
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return DT
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@classmethod
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def utcfromtimestamp(cls, timestamp):
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return DT_UTC
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def _time():
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return EPOCH_TS
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monkeypatch.setattr(date_time.datetime, 'datetime', FakeNow)
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monkeypatch.setattr(time, 'time', _time)
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@pytest.fixture
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def fake_date_facts(fake_now):
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"""Return a predictable instance of collected date_time facts."""
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collector = date_time.DateTimeFactCollector()
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data = collector.collect()
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return data
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@pytest.mark.parametrize(
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('fact_name', 'fact_value'),
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(
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('year', '2020'),
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('month', '07'),
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('weekday', 'Saturday'),
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('weekday_number', '6'),
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('weeknumber', '27'),
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('day', '11'),
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('hour', '12'),
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('minute', '34'),
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('second', '56'),
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('date', '2020-07-11'),
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('time', '12:34:56'),
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('iso8601_basic', '20200711T123456124356'),
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('iso8601_basic_short', '20200711T123456'),
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('iso8601_micro', '2020-07-11T02:34:56.124356Z'),
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('iso8601', '2020-07-11T02:34:56Z'),
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),
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)
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def test_date_time_facts(fake_date_facts, fact_name, fact_value):
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assert fake_date_facts['date_time'][fact_name] == fact_value
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def test_date_time_epoch(fake_date_facts):
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"""Test that format of returned epoch value is correct"""
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assert fake_date_facts['date_time']['epoch'].isdigit()
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assert len(fake_date_facts['date_time']['epoch']) == 10 # This length will not change any time soon
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@pytest.mark.parametrize('fact_name', ('tz', 'tz_dst'))
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def test_date_time_tz(fake_date_facts, fact_name):
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"""
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Test the the returned value for timezone consists of only uppercase
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letters and is the expected length.
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"""
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assert fake_date_facts['date_time'][fact_name].isupper()
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assert 2 <= len(fake_date_facts['date_time'][fact_name]) <= 5
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assert not set(fake_date_facts['date_time'][fact_name]).difference(set(string.ascii_uppercase))
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def test_date_time_tz_offset(fake_date_facts):
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"""
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Test that the timezone offset begins with a `+` or `-` and ends with a
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series of integers.
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"""
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assert fake_date_facts['date_time']['tz_offset'][0] in ['-', '+']
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assert fake_date_facts['date_time']['tz_offset'][1:].isdigit()
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assert len(fake_date_facts['date_time']['tz_offset']) == 5
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