mirror of
https://github.com/caronc/apprise.git
synced 2024-11-29 11:34:10 +01:00
1276 lines
44 KiB
Python
1276 lines
44 KiB
Python
# -*- coding: utf-8 -*-
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#
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# Copyright (C) 2019 Chris Caron <lead2gold@gmail.com>
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# All rights reserved.
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#
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# This code is licensed under the MIT License.
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#
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# Permission is hereby granted, free of charge, to any person obtaining a copy
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# of this software and associated documentation files(the "Software"), to deal
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# in the Software without restriction, including without limitation the rights
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# to use, copy, modify, merge, publish, distribute, sublicense, and / or sell
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# copies of the Software, and to permit persons to whom the Software is
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# furnished to do so, subject to the following conditions :
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#
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# The above copyright notice and this permission notice shall be included in
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# all copies or substantial portions of the Software.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
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# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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# THE SOFTWARE.
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from __future__ import print_function
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import re
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import os
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import six
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try:
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# Python 2.7
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from urllib import unquote
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except ImportError:
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# Python 3.x
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from urllib.parse import unquote
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from apprise import utils
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# Disable logging for a cleaner testing output
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import logging
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logging.disable(logging.CRITICAL)
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def test_parse_qsd():
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"utils: parse_qsd() testing """
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result = utils.parse_qsd('a=1&b=&c&d=abcd')
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assert isinstance(result, dict) is True
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assert len(result) == 4
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assert 'qsd' in result
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assert 'qsd+' in result
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assert 'qsd-' in result
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assert 'qsd:' in result
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assert len(result['qsd']) == 4
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assert 'a' in result['qsd']
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assert 'b' in result['qsd']
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assert 'c' in result['qsd']
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assert 'd' in result['qsd']
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assert len(result['qsd-']) == 0
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assert len(result['qsd+']) == 0
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assert len(result['qsd:']) == 0
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def test_parse_url():
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"utils: parse_url() testing """
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result = utils.parse_url('http://hostname')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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assert result['url'] == 'http://hostname'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('http://hostname/')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'http://hostname/'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# colon after hostname without port number is no good
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assert utils.parse_url('http://hostname:') is None
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# However if we don't verify the host, it is okay
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result = utils.parse_url('http://hostname:', verify_host=False)
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname:'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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assert result['url'] == 'http://hostname:'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# A port of Zero is not valid
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assert utils.parse_url('http://hostname:0') is None
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# Port set to zero; port is not stored
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result = utils.parse_url('http://hostname:0', verify_host=False)
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname:0'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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assert result['url'] == 'http://hostname:0'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('http://hostname/?-KeY=Value')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'http://hostname/'
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assert '-key' in result['qsd']
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assert unquote(result['qsd']['-key']) == 'Value'
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assert 'KeY' in result['qsd-']
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assert unquote(result['qsd-']['KeY']) == 'Value'
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('http://hostname/?+KeY=Value')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'http://hostname/'
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assert '+key' in result['qsd']
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assert 'KeY' in result['qsd+']
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assert result['qsd+']['KeY'] == 'Value'
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assert result['qsd-'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('http://hostname/?:kEy=vALUE')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'http://hostname/'
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assert ':key' in result['qsd']
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assert 'kEy' in result['qsd:']
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assert result['qsd:']['kEy'] == 'vALUE'
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assert result['qsd+'] == {}
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assert result['qsd-'] == {}
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result = utils.parse_url(
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'http://hostname/?+KeY=ValueA&-kEy=ValueB&KEY=Value%20+C&:colon=y')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'http://hostname/'
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assert '+key' in result['qsd']
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assert '-key' in result['qsd']
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assert ':colon' in result['qsd']
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assert result['qsd:']['colon'] == 'y'
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assert 'key' in result['qsd']
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assert 'KeY' in result['qsd+']
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assert result['qsd+']['KeY'] == 'ValueA'
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assert 'kEy' in result['qsd-']
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assert result['qsd-']['kEy'] == 'ValueB'
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assert result['qsd']['key'] == 'Value C'
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assert result['qsd']['+key'] == result['qsd+']['KeY']
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assert result['qsd']['-key'] == result['qsd-']['kEy']
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result = utils.parse_url('http://hostname////')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'http://hostname/'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('http://hostname:40////')
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assert result['schema'] == 'http'
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assert result['host'] == 'hostname'
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assert result['port'] == 40
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'http://hostname:40/'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('HTTP://HoStNaMe:40/test.php')
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assert result['schema'] == 'http'
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assert result['host'] == 'HoStNaMe'
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assert result['port'] == 40
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/test.php'
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assert result['path'] == '/'
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assert result['query'] == 'test.php'
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assert result['url'] == 'http://HoStNaMe:40/test.php'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('HTTPS://user@hostname/test.py')
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assert result['schema'] == 'https'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] == 'user'
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assert result['password'] is None
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assert result['fullpath'] == '/test.py'
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assert result['path'] == '/'
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assert result['query'] == 'test.py'
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assert result['url'] == 'https://user@hostname/test.py'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url(' HTTPS://///user@@@hostname///test.py ')
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assert result['schema'] == 'https'
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assert result['host'] == 'hostname'
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assert result['port'] is None
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assert result['user'] == 'user'
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assert result['password'] is None
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assert result['fullpath'] == '/test.py'
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assert result['path'] == '/'
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assert result['query'] == 'test.py'
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assert result['url'] == 'https://user@hostname/test.py'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url(
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'HTTPS://user:password@otherHost/full///path/name/',
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)
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assert result['schema'] == 'https'
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assert result['host'] == 'otherHost'
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assert result['port'] is None
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assert result['user'] == 'user'
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assert result['password'] == 'password'
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assert result['fullpath'] == '/full/path/name/'
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assert result['path'] == '/full/path/name/'
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assert result['query'] is None
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assert result['url'] == 'https://user:password@otherHost/full/path/name/'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# Handle garbage
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assert utils.parse_url(None) is None
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result = utils.parse_url(
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'mailto://user:password@otherHost/lead2gold@gmail.com' +
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'?from=test@test.com&name=Chris%20Caron&format=text'
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)
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assert result['schema'] == 'mailto'
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assert result['host'] == 'otherHost'
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assert result['port'] is None
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assert result['user'] == 'user'
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assert result['password'] == 'password'
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assert unquote(result['fullpath']) == '/lead2gold@gmail.com'
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assert result['path'] == '/'
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assert unquote(result['query']) == 'lead2gold@gmail.com'
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assert unquote(result['url']) == \
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'mailto://user:password@otherHost/lead2gold@gmail.com'
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assert len(result['qsd']) == 3
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assert 'name' in result['qsd']
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assert unquote(result['qsd']['name']) == 'Chris Caron'
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assert 'from' in result['qsd']
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assert unquote(result['qsd']['from']) == 'test@test.com'
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assert 'format' in result['qsd']
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assert unquote(result['qsd']['format']) == 'text'
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# Test Passwords with question marks ?; not supported
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result = utils.parse_url(
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'http://user:pass.with.?question@host'
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)
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assert result is None
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# just hostnames
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result = utils.parse_url(
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'nuxref.com'
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)
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assert result['schema'] == 'http'
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assert result['host'] == 'nuxref.com'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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assert result['url'] == 'http://nuxref.com'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# just host and path
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result = utils.parse_url('invalid/host')
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assert result['schema'] == 'http'
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assert result['host'] == 'invalid'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] == '/host'
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assert result['path'] == '/'
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assert result['query'] == 'host'
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assert result['url'] == 'http://invalid/host'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# just all out invalid
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assert utils.parse_url('?') is None
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assert utils.parse_url('/') is None
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# Test some illegal strings
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result = utils.parse_url(object, verify_host=False)
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assert result is None
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result = utils.parse_url(None, verify_host=False)
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assert result is None
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# Just a schema; invalid host
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result = utils.parse_url('test://')
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assert result is None
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# Do it again without host validation
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result = utils.parse_url('test://', verify_host=False)
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assert result['schema'] == 'test'
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# It's worth noting that the hostname is an empty string and is NEVER set
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# to None if it wasn't specified.
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assert result['host'] == ''
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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assert result['url'] == 'test://'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('testhostname')
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assert result['schema'] == 'http'
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assert result['host'] == 'testhostname'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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# The default_schema kicks in here
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assert result['url'] == 'http://testhostname'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('example.com', default_schema='unknown')
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assert result['schema'] == 'unknown'
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assert result['host'] == 'example.com'
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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# The default_schema kicks in here
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assert result['url'] == 'unknown://example.com'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# An empty string without a hostame is still valid if verify_host is set
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result = utils.parse_url('', verify_host=False)
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assert result['schema'] == 'http'
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assert result['host'] == ''
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assert result['port'] is None
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assert result['user'] is None
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assert result['password'] is None
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assert result['fullpath'] is None
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assert result['path'] is None
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assert result['query'] is None
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# The default_schema kicks in here
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assert result['url'] == 'http://'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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# A messed up URL
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result = utils.parse_url('test://:@/', verify_host=False)
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assert result['schema'] == 'test'
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assert result['host'] == ''
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assert result['port'] is None
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assert result['user'] == ''
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assert result['password'] == ''
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assert result['fullpath'] == '/'
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assert result['path'] == '/'
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assert result['query'] is None
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assert result['url'] == 'test://:@/'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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result = utils.parse_url('crazy://:@//_/@^&/jack.json', verify_host=False)
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assert result['schema'] == 'crazy'
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assert result['host'] == ''
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assert result['port'] is None
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assert result['user'] == ''
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assert result['password'] == ''
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assert unquote(result['fullpath']) == '/_/@^&/jack.json'
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assert unquote(result['path']) == '/_/@^&/'
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assert result['query'] == 'jack.json'
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assert unquote(result['url']) == 'crazy://:@/_/@^&/jack.json'
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assert result['qsd'] == {}
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assert result['qsd-'] == {}
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assert result['qsd+'] == {}
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assert result['qsd:'] == {}
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def test_parse_bool():
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"utils: parse_bool() testing """
|
|
|
|
assert utils.parse_bool('Enabled', None) is True
|
|
assert utils.parse_bool('Disabled', None) is False
|
|
assert utils.parse_bool('Allow', None) is True
|
|
assert utils.parse_bool('Deny', None) is False
|
|
assert utils.parse_bool('Yes', None) is True
|
|
assert utils.parse_bool('YES', None) is True
|
|
assert utils.parse_bool('Always', None) is True
|
|
assert utils.parse_bool('No', None) is False
|
|
assert utils.parse_bool('NO', None) is False
|
|
assert utils.parse_bool('NEVER', None) is False
|
|
assert utils.parse_bool('TrUE', None) is True
|
|
assert utils.parse_bool('tRUe', None) is True
|
|
assert utils.parse_bool('FAlse', None) is False
|
|
assert utils.parse_bool('F', None) is False
|
|
assert utils.parse_bool('T', None) is True
|
|
assert utils.parse_bool('0', None) is False
|
|
assert utils.parse_bool('1', None) is True
|
|
assert utils.parse_bool('True', None) is True
|
|
assert utils.parse_bool('Yes', None) is True
|
|
assert utils.parse_bool(1, None) is True
|
|
assert utils.parse_bool(0, None) is False
|
|
assert utils.parse_bool(True, None) is True
|
|
assert utils.parse_bool(False, None) is False
|
|
|
|
# only the int of 0 will return False since the function
|
|
# casts this to a boolean
|
|
assert utils.parse_bool(2, None) is True
|
|
# An empty list is still false
|
|
assert utils.parse_bool([], None) is False
|
|
# But a list that contains something is True
|
|
assert utils.parse_bool(['value', ], None) is True
|
|
|
|
# Use Default (which is False)
|
|
assert utils.parse_bool('OhYeah') is False
|
|
# Adjust Default and get a different result
|
|
assert utils.parse_bool('OhYeah', True) is True
|
|
|
|
|
|
def test_is_hostname():
|
|
"""
|
|
API: is_hostname() function
|
|
|
|
"""
|
|
# Valid Hostnames
|
|
assert utils.is_hostname('yahoo.ca') == 'yahoo.ca'
|
|
assert utils.is_hostname('yahoo.ca.') == 'yahoo.ca'
|
|
assert utils.is_hostname('valid-dashes-in-host.ca') == \
|
|
'valid-dashes-in-host.ca'
|
|
assert utils.is_hostname('valid-underscores_in_host.ca') == \
|
|
'valid-underscores_in_host.ca'
|
|
|
|
# Invalid Hostnames
|
|
assert utils.is_hostname('-hostname.that.starts.with.a.dash') is False
|
|
assert utils.is_hostname('invalid-characters_#^.ca') is False
|
|
assert utils.is_hostname(' spaces ') is False
|
|
assert utils.is_hostname(' ') is False
|
|
assert utils.is_hostname('') is False
|
|
|
|
# Valid IPv4 Addresses
|
|
assert utils.is_hostname('127.0.0.1') == '127.0.0.1'
|
|
assert utils.is_hostname('0.0.0.0') == '0.0.0.0'
|
|
assert utils.is_hostname('255.255.255.255') == '255.255.255.255'
|
|
|
|
# But not if we're not checking for this:
|
|
assert utils.is_hostname('127.0.0.1', ipv4=False) is False
|
|
assert utils.is_hostname('0.0.0.0', ipv4=False) is False
|
|
assert utils.is_hostname('255.255.255.255', ipv4=False) is False
|
|
|
|
# Invalid IPv4 Addresses
|
|
assert utils.is_hostname('1.2.3') is False
|
|
assert utils.is_hostname('256.256.256.256') is False
|
|
assert utils.is_hostname('999.0.0.0') is False
|
|
assert utils.is_hostname('1.2.3.4.5') is False
|
|
assert utils.is_hostname(' 127.0.0.1 ') is False
|
|
assert utils.is_hostname(' ') is False
|
|
assert utils.is_hostname('') is False
|
|
|
|
# Valid IPv6 Addresses (square brakets supported for URL construction)
|
|
assert utils.is_hostname('[2001:0db8:85a3:0000:0000:8a2e:0370:7334]') == \
|
|
'[2001:0db8:85a3:0000:0000:8a2e:0370:7334]'
|
|
assert utils.is_hostname('2001:0db8:85a3:0000:0000:8a2e:0370:7334') == \
|
|
'[2001:0db8:85a3:0000:0000:8a2e:0370:7334]'
|
|
assert utils.is_hostname('[2001:db8:002a:3256:adfe:05c0:0003:0006]') == \
|
|
'[2001:db8:002a:3256:adfe:05c0:0003:0006]'
|
|
|
|
# localhost
|
|
assert utils.is_hostname('::1') == '[::1]'
|
|
assert utils.is_hostname('0:0:0:0:0:0:0:1') == '[0:0:0:0:0:0:0:1]'
|
|
|
|
# But not if we're not checking for this:
|
|
assert utils.is_hostname(
|
|
'[2001:0db8:85a3:0000:0000:8a2e:0370:7334]', ipv6=False) is False
|
|
assert utils.is_hostname(
|
|
'2001:0db8:85a3:0000:0000:8a2e:0370:7334', ipv6=False) is False
|
|
|
|
|
|
def test_is_ipaddr():
|
|
"""
|
|
API: is_ipaddr() function
|
|
|
|
"""
|
|
# Valid IPv4 Addresses
|
|
assert utils.is_ipaddr('127.0.0.1') == '127.0.0.1'
|
|
assert utils.is_ipaddr('0.0.0.0') == '0.0.0.0'
|
|
assert utils.is_ipaddr('255.255.255.255') == '255.255.255.255'
|
|
|
|
# Invalid IPv4 Addresses
|
|
assert utils.is_ipaddr('1.2.3') is False
|
|
assert utils.is_ipaddr('256.256.256.256') is False
|
|
assert utils.is_ipaddr('999.0.0.0') is False
|
|
assert utils.is_ipaddr('1.2.3.4.5') is False
|
|
assert utils.is_ipaddr(' 127.0.0.1 ') is False
|
|
assert utils.is_ipaddr(' ') is False
|
|
assert utils.is_ipaddr('') is False
|
|
|
|
# Valid IPv6 Addresses (square brakets supported for URL construction)
|
|
assert utils.is_ipaddr('[2001:0db8:85a3:0000:0000:8a2e:0370:7334]') == \
|
|
'[2001:0db8:85a3:0000:0000:8a2e:0370:7334]'
|
|
assert utils.is_ipaddr('2001:0db8:85a3:0000:0000:8a2e:0370:7334') == \
|
|
'[2001:0db8:85a3:0000:0000:8a2e:0370:7334]'
|
|
assert utils.is_ipaddr('[2001:db8:002a:3256:adfe:05c0:0003:0006]') == \
|
|
'[2001:db8:002a:3256:adfe:05c0:0003:0006]'
|
|
|
|
# localhost
|
|
assert utils.is_ipaddr('::1') == '[::1]'
|
|
assert utils.is_ipaddr('0:0:0:0:0:0:0:1') == '[0:0:0:0:0:0:0:1]'
|
|
|
|
|
|
def test_is_email():
|
|
"""
|
|
API: is_email() function
|
|
|
|
"""
|
|
# Valid Emails
|
|
results = utils.is_email('test@gmail.com')
|
|
assert '' == results['name']
|
|
assert 'test@gmail.com' == results['email']
|
|
assert 'test@gmail.com' == results['full_email']
|
|
assert 'gmail.com' == results['domain']
|
|
assert 'test' == results['user']
|
|
assert '' == results['label']
|
|
|
|
results = utils.is_email('test@my-valid_host.com')
|
|
assert '' == results['name']
|
|
assert 'test@my-valid_host.com' == results['email']
|
|
assert 'test@my-valid_host.com' == results['full_email']
|
|
assert 'my-valid_host.com' == results['domain']
|
|
assert 'test' == results['user']
|
|
assert '' == results['label']
|
|
|
|
results = utils.is_email('tag+test@gmail.com')
|
|
assert '' == results['name']
|
|
assert 'test@gmail.com' == results['email']
|
|
assert 'tag+test@gmail.com' == results['full_email']
|
|
assert 'gmail.com' == results['domain']
|
|
assert 'test' == results['user']
|
|
assert 'tag' == results['label']
|
|
|
|
# Support Full Names as well
|
|
results = utils.is_email('Bill Gates: bgates@microsoft.com')
|
|
assert 'Bill Gates' == results['name']
|
|
assert 'bgates@microsoft.com' == results['email']
|
|
assert 'bgates@microsoft.com' == results['full_email']
|
|
assert 'microsoft.com' == results['domain']
|
|
assert 'bgates' == results['user']
|
|
assert '' == results['label']
|
|
|
|
results = utils.is_email('Bill Gates <bgates@microsoft.com>')
|
|
assert 'Bill Gates' == results['name']
|
|
assert 'bgates@microsoft.com' == results['email']
|
|
assert 'bgates@microsoft.com' == results['full_email']
|
|
assert 'microsoft.com' == results['domain']
|
|
assert 'bgates' == results['user']
|
|
assert '' == results['label']
|
|
|
|
results = utils.is_email('Bill Gates: <bgates@microsoft.com>')
|
|
assert 'Bill Gates' == results['name']
|
|
assert 'bgates@microsoft.com' == results['email']
|
|
assert 'bgates@microsoft.com' == results['full_email']
|
|
assert 'microsoft.com' == results['domain']
|
|
assert 'bgates' == results['user']
|
|
assert '' == results['label']
|
|
|
|
results = utils.is_email('Sundar Pichai <ceo+spichai@gmail.com>')
|
|
assert 'Sundar Pichai' == results['name']
|
|
assert 'spichai@gmail.com' == results['email']
|
|
assert 'ceo+spichai@gmail.com' == results['full_email']
|
|
assert 'gmail.com' == results['domain']
|
|
assert 'spichai' == results['user']
|
|
assert 'ceo' == results['label']
|
|
|
|
# An email without name, but contains delimiters
|
|
results = utils.is_email(' <spichai@gmail.com>')
|
|
assert '' == results['name']
|
|
assert 'spichai@gmail.com' == results['email']
|
|
assert 'spichai@gmail.com' == results['full_email']
|
|
assert 'gmail.com' == results['domain']
|
|
assert 'spichai' == results['user']
|
|
assert '' == results['label']
|
|
|
|
# a valid email not properly delimited with a colon or angle bracket
|
|
# We do a best guess and still parse it correctly
|
|
results = utils.is_email("Name valid@example.com")
|
|
assert 'Name' == results['name']
|
|
assert 'valid@example.com' == results['email']
|
|
assert 'valid@example.com' == results['full_email']
|
|
assert 'example.com' == results['domain']
|
|
assert 'valid' == results['user']
|
|
assert '' == results['label']
|
|
|
|
# a valid email not properly delimited with a colon or angle bracket
|
|
# We do a best guess and still parse it correctly
|
|
results = utils.is_email("Руслан Эра russian+russia@example.ru")
|
|
assert 'Руслан Эра' == results['name']
|
|
assert 'russia@example.ru' == results['email']
|
|
assert 'russian+russia@example.ru' == results['full_email']
|
|
assert 'example.ru' == results['domain']
|
|
assert 'russia' == results['user']
|
|
assert 'russian' == results['label']
|
|
|
|
# Invalid Emails
|
|
assert utils.is_email('invalid.com') is False
|
|
assert utils.is_email(object()) is False
|
|
assert utils.is_email(None) is False
|
|
assert utils.is_email("Just A Name") is False
|
|
assert utils.is_email("Name <bademail>") is False
|
|
|
|
|
|
def test_parse_emails():
|
|
"""utils: parse_emails() testing """
|
|
# A simple single array entry (As str)
|
|
results = utils.parse_emails('')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
# just delimeters
|
|
results = utils.parse_emails(', ,, , ,,, ')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_emails(',')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_emails(None)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_emails(42)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_emails('this is not a parseable email at all')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 8
|
|
# Now we do it again with the store_unparsable flag set to False
|
|
results = utils.parse_emails(
|
|
'this is not a parseable email at all', store_unparseable=False)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
# Now test valid URLs
|
|
results = utils.parse_emails('user@example.com')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 1
|
|
assert 'user@example.com' in results
|
|
|
|
results = utils.parse_emails('a@')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 1
|
|
assert 'a@' in results
|
|
|
|
results = utils.parse_emails('user1@example.com user2@example.com')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 2
|
|
assert 'user1@example.com' in results
|
|
assert 'user2@example.com' in results
|
|
|
|
# Commas and spaces found inside URLs are ignored
|
|
emails = [
|
|
'user1@example.com,',
|
|
'test1@example.com,,, abcd@example.com',
|
|
'Chuck Norris roundhouse@kick.com',
|
|
'David Spade dspade@example.com, Yours Truly yours@truly.com',
|
|
]
|
|
|
|
results = utils.parse_emails(', '.join(emails))
|
|
assert isinstance(results, list)
|
|
assert len(results) == 6
|
|
assert 'user1@example.com' in results
|
|
assert 'test1@example.com' in results
|
|
assert 'abcd@example.com' in results
|
|
assert 'Chuck Norris roundhouse@kick.com' in results
|
|
assert 'David Spade dspade@example.com' in results
|
|
assert 'Yours Truly yours@truly.com' in results
|
|
|
|
# Test triangle bracket parsing
|
|
# Commas and spaces found inside URLs are ignored
|
|
emails = [
|
|
'User1 user1@example.com',
|
|
'User 2 user2@example.com',
|
|
'User Three <user3@example.com>',
|
|
'The Forth User: <user4@example.com>',
|
|
'5th User: user4@example.com',
|
|
]
|
|
|
|
results = utils.parse_emails(', '.join(emails))
|
|
assert isinstance(results, list)
|
|
assert len(results) == len(emails)
|
|
for email in emails:
|
|
assert email in results
|
|
|
|
# pass the entries in as a list
|
|
results = utils.parse_emails(emails)
|
|
assert isinstance(results, list)
|
|
assert len(results) == len(emails)
|
|
for email in emails:
|
|
assert email in results
|
|
|
|
# Pass in some unparseables
|
|
results = utils.parse_emails('garbage')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 1
|
|
|
|
results = utils.parse_emails('garbage', store_unparseable=False)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
# Pass in garbage
|
|
results = utils.parse_emails(object)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_emails(42)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_emails([None, object, 42])
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
|
|
def test_parse_urls():
|
|
"""utils: parse_urls() testing """
|
|
# A simple single array entry (As str)
|
|
results = utils.parse_urls('')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
# just delimeters
|
|
results = utils.parse_urls(', ,, , ,,, ')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_urls(',')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_urls(None)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_urls(42)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_urls('this is not a parseable url at all')
|
|
assert isinstance(results, list)
|
|
# we still end up returning this
|
|
assert len(results) == 8
|
|
|
|
results = utils.parse_urls(
|
|
'this is not a parseable url at all', store_unparseable=False)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
# Now test valid URLs
|
|
results = utils.parse_urls('windows://')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 1
|
|
assert 'windows://' in results
|
|
|
|
results = utils.parse_urls('windows:// gnome://')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 2
|
|
assert 'windows://' in results
|
|
assert 'gnome://' in results
|
|
|
|
# We don't want to parse out URLs that are part of another URL's arguments
|
|
results = utils.parse_urls('discord://host?url=https://localhost')
|
|
assert isinstance(results, list)
|
|
assert len(results) == 1
|
|
assert 'discord://host?url=https://localhost' in results
|
|
|
|
# Commas and spaces found inside URLs are ignored
|
|
urls = [
|
|
'mailgun://noreply@sandbox.mailgun.org/apikey/?to=test@example.com,'
|
|
'test2@example.com,, abcd@example.com',
|
|
'mailgun://noreply@sandbox.another.mailgun.org/apikey/'
|
|
'?to=hello@example.com,,hmmm@example.com,, abcd@example.com, ,',
|
|
'windows://',
|
|
]
|
|
|
|
# Since comma's and whitespace are the delimiters; they won't be
|
|
# present at the end of the URL; so we just need to write a special
|
|
# rstrip() as a regular exression to handle whitespace (\s) and comma
|
|
# delimiter
|
|
rstrip_re = re.compile(r'[\s,]+$')
|
|
|
|
# Since a comma acts as a delimiter, we run a risk of a problem where the
|
|
# comma exists as part of the URL and is therefore lost if it was found
|
|
# at the end of it.
|
|
|
|
results = utils.parse_urls(', '.join(urls))
|
|
assert isinstance(results, list)
|
|
assert len(results) == len(urls)
|
|
for url in urls:
|
|
assert rstrip_re.sub('', url) in results
|
|
|
|
# However if a comma is found at the end of a single url without a new
|
|
# match to hit, it is saved and not lost
|
|
|
|
# The comma at the end of the password will not be lost if we're
|
|
# dealing with a single entry:
|
|
url = 'http://hostname?password=,abcd,'
|
|
results = utils.parse_urls(url)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 1
|
|
assert url in results
|
|
|
|
# however if we have multiple entries, commas and spaces between
|
|
# URLs will be lost, however the last URL will not lose the comma
|
|
urls = [
|
|
'schema1://hostname?password=,abcd,',
|
|
'schema2://hostname?password=,abcd,',
|
|
]
|
|
results = utils.parse_urls(', '.join(urls))
|
|
assert isinstance(results, list)
|
|
assert len(results) == len(urls)
|
|
|
|
# No match because the comma is gone in the results entry
|
|
# schema1://hostname?password=,abcd
|
|
assert urls[0] not in results
|
|
assert urls[0][:-1] in results
|
|
|
|
# However we wouldn't have lost the comma in the second one:
|
|
# schema2://hostname?password=,abcd,
|
|
assert urls[1] in results
|
|
|
|
# Pass the list in (as a list); results are the same
|
|
results = utils.parse_urls(urls)
|
|
assert isinstance(results, list)
|
|
assert len(results) == len(urls)
|
|
|
|
# Pass in garbage
|
|
results = utils.parse_urls(object)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_urls(42)
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
results = utils.parse_urls([None, object, 42])
|
|
assert isinstance(results, list)
|
|
assert len(results) == 0
|
|
|
|
|
|
def test_parse_list():
|
|
"""utils: parse_list() testing """
|
|
|
|
# A simple single array entry (As str)
|
|
results = utils.parse_list(
|
|
'.mkv,.avi,.divx,.xvid,.mov,.wmv,.mp4,.mpg,.mpeg,.vob,.iso')
|
|
|
|
assert results == sorted([
|
|
'.divx', '.iso', '.mkv', '.mov', '.mpg', '.avi', '.mpeg', '.vob',
|
|
'.xvid', '.wmv', '.mp4',
|
|
])
|
|
|
|
class StrangeObject(object):
|
|
def __str__(self):
|
|
return '.avi'
|
|
|
|
# Now 2 lists with lots of duplicates and other delimiters
|
|
results = utils.parse_list(
|
|
'.mkv,.avi,.divx,.xvid,.mov,.wmv,.mp4,.mpg .mpeg,.vob,,; ;',
|
|
('.mkv,.avi,.divx,.xvid,.mov ', ' .wmv,.mp4;.mpg,.mpeg,'),
|
|
'.vob,.iso', ['.vob', ['.vob', '.mkv', StrangeObject(), ], ],
|
|
StrangeObject())
|
|
|
|
assert results == sorted([
|
|
'.divx', '.iso', '.mkv', '.mov', '.mpg', '.avi', '.mpeg', '.vob',
|
|
'.xvid', '.wmv', '.mp4',
|
|
])
|
|
|
|
# Garbage in is removed
|
|
assert utils.parse_list(object(), 42, None) == []
|
|
|
|
# Now a list with extras we want to add as strings
|
|
# empty entries are removed
|
|
results = utils.parse_list([
|
|
'.divx', '.iso', '.mkv', '.mov', '', ' ', '.avi', '.mpeg', '.vob',
|
|
'.xvid', '.mp4'], '.mov,.wmv,.mp4,.mpg')
|
|
|
|
assert results == sorted([
|
|
'.divx', '.wmv', '.iso', '.mkv', '.mov', '.mpg', '.avi', '.vob',
|
|
'.xvid', '.mpeg', '.mp4',
|
|
])
|
|
|
|
|
|
def test_exclusive_match():
|
|
"""utils: is_exclusive_match() testing
|
|
"""
|
|
|
|
# No Logic always returns True if there is also no data
|
|
assert utils.is_exclusive_match(data=None, logic=None) is True
|
|
assert utils.is_exclusive_match(data=None, logic=set()) is True
|
|
assert utils.is_exclusive_match(data='', logic=set()) is True
|
|
assert utils.is_exclusive_match(data=u'', logic=set()) is True
|
|
|
|
# however, once data is introduced, True is no longer returned
|
|
# if no logic has been specified
|
|
assert utils.is_exclusive_match(data=u'check', logic=set()) is False
|
|
assert utils.is_exclusive_match(
|
|
data=['check', 'checkb'], logic=set()) is False
|
|
|
|
# String delimters are stripped out so that a list can be formed
|
|
# the below is just an empty token list
|
|
assert utils.is_exclusive_match(data=set(), logic=',; ,') is True
|
|
|
|
# garbage logic is never an exclusive match
|
|
assert utils.is_exclusive_match(data=set(), logic=object()) is False
|
|
assert utils.is_exclusive_match(data=set(), logic=[object(), ]) is False
|
|
|
|
#
|
|
# Test with logic:
|
|
#
|
|
data = set(['abc'])
|
|
|
|
# def in data
|
|
assert utils.is_exclusive_match(
|
|
logic='def', data=data) is False
|
|
# def in data
|
|
assert utils.is_exclusive_match(
|
|
logic=['def', ], data=data) is False
|
|
# def in data
|
|
assert utils.is_exclusive_match(
|
|
logic=('def', ), data=data) is False
|
|
# def in data
|
|
assert utils.is_exclusive_match(
|
|
logic=set(['def', ]), data=data) is False
|
|
# abc in data
|
|
assert utils.is_exclusive_match(
|
|
logic=['abc', ], data=data) is True
|
|
# abc in data
|
|
assert utils.is_exclusive_match(
|
|
logic=('abc', ), data=data) is True
|
|
# abc in data
|
|
assert utils.is_exclusive_match(
|
|
logic=set(['abc', ]), data=data) is True
|
|
# abc or def in data
|
|
assert utils.is_exclusive_match(
|
|
logic='abc, def', data=data) is True
|
|
|
|
#
|
|
# Update our data set so we can do more advance checks
|
|
#
|
|
data = set(['abc', 'def', 'efg', 'xyz'])
|
|
|
|
# match_all matches everything
|
|
assert utils.is_exclusive_match(logic='all', data=data) is True
|
|
assert utils.is_exclusive_match(logic=['all'], data=data) is True
|
|
|
|
# def and abc in data
|
|
assert utils.is_exclusive_match(
|
|
logic=[('abc', 'def')], data=data) is True
|
|
|
|
# cba and abc in data
|
|
assert utils.is_exclusive_match(
|
|
logic=[('cba', 'abc')], data=data) is False
|
|
|
|
# www or zzz or abc and xyz
|
|
assert utils.is_exclusive_match(
|
|
logic=['www', 'zzz', ('abc', 'xyz')], data=data) is True
|
|
# www or zzz or abc and xyz (strings are valid too)
|
|
assert utils.is_exclusive_match(
|
|
logic=['www', 'zzz', ('abc, xyz')], data=data) is True
|
|
|
|
# www or zzz or abc and jjj
|
|
assert utils.is_exclusive_match(
|
|
logic=['www', 'zzz', ('abc', 'jjj')], data=data) is False
|
|
|
|
#
|
|
# Empty data set
|
|
#
|
|
data = set()
|
|
assert utils.is_exclusive_match(logic=['www'], data=data) is False
|
|
assert utils.is_exclusive_match(logic='all', data=data) is True
|
|
|
|
# Change default value from 'all' to 'match_me'. Logic matches
|
|
# so we pass
|
|
assert utils.is_exclusive_match(
|
|
logic='match_me', data=data, match_all='match_me') is True
|
|
|
|
|
|
def test_apprise_validate_regex():
|
|
"""
|
|
API: Apprise() Validate Regex tests
|
|
|
|
"""
|
|
assert utils.validate_regex(None) is None
|
|
assert utils.validate_regex(object) is None
|
|
assert utils.validate_regex(42) is None
|
|
assert utils.validate_regex("") is None
|
|
assert utils.validate_regex(" ") is None
|
|
assert utils.validate_regex("abc") == "abc"
|
|
|
|
# value is a keyword that is extracted (if found)
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[^-]+)-', fmt="{value}") == "abcd"
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[^-]+)-', strip=False,
|
|
fmt="{value}") == " abcd "
|
|
|
|
# String flags supported in addition to numeric
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[^-]+)-', 'i', fmt="{value}") == "abcd"
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[^-]+)-', re.I, fmt="{value}") == "abcd"
|
|
|
|
# Test multiple flag settings
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[^-]+)-', 'isax', fmt="{value}") == "abcd"
|
|
|
|
# Invalid flags are just ignored. The below fails to match
|
|
# because the default value of 'i' is over-ridden by what is
|
|
# identfied below, and no flag is set at the end of the day
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[ABCD]+)-', '-%2gb', fmt="{value}") is None
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[ABCD]+)-', '', fmt="{value}") is None
|
|
assert utils.validate_regex(
|
|
"- abcd -", r'-(?P<value>[ABCD]+)-', None, fmt="{value}") is None
|
|
|
|
|
|
def test_environ_temporary_change():
|
|
"""utils: environ() testing
|
|
"""
|
|
|
|
e_key1 = 'APPRISE_TEMP1'
|
|
e_key2 = 'APPRISE_TEMP2'
|
|
e_key3 = 'APPRISE_TEMP3'
|
|
|
|
e_val1 = 'ABCD'
|
|
e_val2 = 'DEFG'
|
|
e_val3 = 'HIJK'
|
|
|
|
os.environ[e_key1] = e_val1
|
|
os.environ[e_key2] = e_val2
|
|
os.environ[e_key3] = e_val3
|
|
|
|
# Ensure our environment variable stuck
|
|
assert e_key1 in os.environ
|
|
assert e_val1 in os.environ[e_key1]
|
|
assert e_key2 in os.environ
|
|
assert e_val2 in os.environ[e_key2]
|
|
assert e_key3 in os.environ
|
|
assert e_val3 in os.environ[e_key3]
|
|
|
|
with utils.environ(e_key1, e_key3):
|
|
# Eliminates Environment Variable 1 and 3
|
|
assert e_key1 not in os.environ
|
|
assert e_key2 in os.environ
|
|
assert e_val2 in os.environ[e_key2]
|
|
assert e_key3 not in os.environ
|
|
|
|
# after with is over, environment is restored to normal
|
|
assert e_key1 in os.environ
|
|
assert e_val1 in os.environ[e_key1]
|
|
assert e_key2 in os.environ
|
|
assert e_val2 in os.environ[e_key2]
|
|
assert e_key3 in os.environ
|
|
assert e_val3 in os.environ[e_key3]
|
|
|
|
d_key = 'APPRISE_NOT_SET'
|
|
n_key = 'APPRISE_NEW_KEY'
|
|
n_val = 'NEW_VAL'
|
|
|
|
# Verify that our temporary variables (defined above) are not pre-existing
|
|
# environemnt variables as we'll be setting them below
|
|
assert n_key not in os.environ
|
|
assert d_key not in os.environ
|
|
|
|
# makes it easier to pass in the arguments
|
|
updates = {
|
|
e_key1: e_val3,
|
|
e_key2: e_val1,
|
|
n_key: n_val,
|
|
}
|
|
with utils.environ(d_key, e_key3, **updates):
|
|
# Attempt to eliminate an undefined key (silently ignored)
|
|
# Eliminates Environment Variable 3
|
|
# Environment Variable 1 takes on the value of Env 3
|
|
# Environment Variable 2 takes on the value of Env 1
|
|
# Set a brand new variable that previously didn't exist
|
|
assert e_key1 in os.environ
|
|
assert e_val3 in os.environ[e_key1]
|
|
assert e_key2 in os.environ
|
|
assert e_val1 in os.environ[e_key2]
|
|
assert e_key3 not in os.environ
|
|
|
|
# Can't delete a variable that doesn't exist; so we're in the same
|
|
# state here.
|
|
assert d_key not in os.environ
|
|
|
|
# Our temporary variables will be found now
|
|
assert n_key in os.environ
|
|
assert n_val in os.environ[n_key]
|
|
|
|
# after with is over, environment is restored to normal
|
|
assert e_key1 in os.environ
|
|
assert e_val1 in os.environ[e_key1]
|
|
assert e_key2 in os.environ
|
|
assert e_val2 in os.environ[e_key2]
|
|
assert e_key3 in os.environ
|
|
assert e_val3 in os.environ[e_key3]
|
|
|
|
# Even our temporary variables are now missing
|
|
assert n_key not in os.environ
|
|
assert d_key not in os.environ
|
|
|
|
|
|
def test_apply_templating():
|
|
"""utils: apply_template() testing
|
|
"""
|
|
|
|
template = "Hello {{fname}}, How are you {{whence}}?"
|
|
|
|
result = utils.apply_template(
|
|
template, **{'fname': 'Chris', 'whence': 'this morning'})
|
|
assert isinstance(result, six.string_types) is True
|
|
assert result == "Hello Chris, How are you this morning?"
|
|
|
|
# In this example 'whence' isn't provided, so it isn't swapped
|
|
result = utils.apply_template(
|
|
template, **{'fname': 'Chris'})
|
|
assert isinstance(result, six.string_types) is True
|
|
assert result == "Hello Chris, How are you {{whence}}?"
|
|
|
|
# white space won't cause any ill affects:
|
|
template = "Hello {{ fname }}, How are you {{ whence}}?"
|
|
result = utils.apply_template(
|
|
template, **{'fname': 'Chris', 'whence': 'this morning'})
|
|
assert isinstance(result, six.string_types) is True
|
|
assert result == "Hello Chris, How are you this morning?"
|
|
|
|
# No arguments won't cause any problems
|
|
template = "Hello {{fname}}, How are you {{whence}}?"
|
|
result = utils.apply_template(template)
|
|
assert isinstance(result, six.string_types) is True
|
|
assert result == template
|
|
|
|
# Wrong elements are simply ignored
|
|
result = utils.apply_template(
|
|
template,
|
|
**{'fname': 'l2g', 'whence': 'this evening', 'ignore': 'me'})
|
|
assert isinstance(result, six.string_types) is True
|
|
assert result == "Hello l2g, How are you this evening?"
|
|
|
|
# Empty template makes things easy
|
|
result = utils.apply_template(
|
|
"", **{'fname': 'l2g', 'whence': 'this evening'})
|
|
assert isinstance(result, six.string_types) is True
|
|
assert result == ""
|
|
|
|
# Regular expressions are safely escapped and act as normal
|
|
# tokens:
|
|
template = "Hello {{.*}}, How are you {{[A-Z0-9]+}}?"
|
|
result = utils.apply_template(
|
|
template, **{'.*': 'l2g', '[A-Z0-9]+': 'this afternoon'})
|
|
assert result == "Hello l2g, How are you this afternoon?"
|
|
|
|
# JSON is handled too such as escaping quotes
|
|
template = '{value: "{{ value }}"}'
|
|
result = utils.apply_template(
|
|
template, app_mode=utils.TemplateType.JSON,
|
|
**{'value': '"quotes are escaped"'})
|
|
assert result == '{value: "\\"quotes are escaped\\""}'
|