# -*- coding: utf-8 -*- # # Copyright (C) 2019 Chris Caron # All rights reserved. # # This code is licensed under the MIT License. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files(the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and / or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions : # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. from __future__ import print_function import re import os import sys from inspect import cleandoc from urllib.parse import unquote from apprise import utils from apprise import common # Disable logging for a cleaner testing output import logging logging.disable(logging.CRITICAL) # Ensure we don't create .pyc files for these tests sys.dont_write_bytecode = True def test_parse_qsd(): "utils: parse_qsd() testing """ result = utils.parse_qsd('a=1&b=&c&d=abcd') assert isinstance(result, dict) is True assert len(result) == 4 assert 'qsd' in result assert 'qsd+' in result assert 'qsd-' in result assert 'qsd:' in result assert len(result['qsd']) == 4 assert 'a' in result['qsd'] assert 'b' in result['qsd'] assert 'c' in result['qsd'] assert 'd' in result['qsd'] assert len(result['qsd-']) == 0 assert len(result['qsd+']) == 0 assert len(result['qsd:']) == 0 def test_parse_url_general(): "utils: parse_url() testing """ result = utils.parse_url('http://hostname') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('http://hostname/') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'http://hostname/' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # colon after hostname without port number is no good assert utils.parse_url('http://hostname:') is None # An invalid port result = utils.parse_url( 'http://hostname:invalid', verify_host=False, strict_port=True) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 'invalid' assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:invalid' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # However if we don't verify the host, it is okay result = utils.parse_url('http://hostname:', verify_host=False) assert result['schema'] == 'http' assert result['host'] == 'hostname:' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # A port of Zero is not valid with strict port checking assert utils.parse_url('http://hostname:0', strict_port=True) is None # Without strict port checking however, it is okay result = utils.parse_url('http://hostname:0', strict_port=False) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 0 assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:0' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # A negative port is not valid assert utils.parse_url('http://hostname:-92', strict_port=True) is None result = utils.parse_url( 'http://hostname:-92', verify_host=False, strict_port=True) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == -92 assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:-92' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # A port that is too large is not valid assert utils.parse_url('http://hostname:65536', strict_port=True) is None # This is an accetable port (the maximum) result = utils.parse_url('http://hostname:65535', strict_port=True) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 65535 assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:65535' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # This is an accetable port (the maximum) result = utils.parse_url('http://hostname:1', strict_port=True) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 1 assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:1' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # A port that was identfied as a string is invalid assert utils.parse_url('http://hostname:invalid', strict_port=True) is None result = utils.parse_url( 'http://hostname:invalid', verify_host=False, strict_port=True) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 'invalid' assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:invalid' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url( 'http://hostname:invalid', verify_host=False, strict_port=False) assert result['schema'] == 'http' assert result['host'] == 'hostname:invalid' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:invalid' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url( 'http://hostname:invalid?key=value&-minuskey=mvalue', verify_host=False, strict_port=False) assert result['schema'] == 'http' assert result['host'] == 'hostname:invalid' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:invalid' assert unquote(result['qsd']['-minuskey']) == 'mvalue' assert unquote(result['qsd']['key']) == 'value' assert unquote(result['qsd-']['minuskey']) == 'mvalue' assert result['qsd+'] == {} assert result['qsd:'] == {} # Handling of floats assert utils.parse_url('http://hostname:4.2', strict_port=True) is None result = utils.parse_url( 'http://hostname:4.2', verify_host=False, strict_port=True) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == '4.2' assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:4.2' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # A Port of zero is not acceptable for a regular hostname assert utils.parse_url('http://hostname:0', strict_port=True) is None # No host verification (zero is an acceptable port when this is the case result = utils.parse_url('http://hostname:0', verify_host=False) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 0 assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:0' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url( 'http://[2001:db8:002a:3256:adfe:05c0:0003:0006]:8080', verify_host=False) assert result['schema'] == 'http' assert result['host'] == '[2001:db8:002a:3256:adfe:05c0:0003:0006]' assert result['port'] == 8080 assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == \ 'http://[2001:db8:002a:3256:adfe:05c0:0003:0006]:8080' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url( 'http://hostname:0', verify_host=False, strict_port=True) assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 0 assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://hostname:0' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('http://hostname/?-KeY=Value') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'http://hostname/' assert '-key' in result['qsd'] assert unquote(result['qsd']['-key']) == 'Value' assert 'KeY' in result['qsd-'] assert unquote(result['qsd-']['KeY']) == 'Value' assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('http://hostname/?+KeY=Value') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'http://hostname/' assert '+key' in result['qsd'] assert 'KeY' in result['qsd+'] assert result['qsd+']['KeY'] == 'Value' assert result['qsd-'] == {} assert result['qsd:'] == {} result = utils.parse_url('http://hostname/?:kEy=vALUE') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'http://hostname/' assert ':key' in result['qsd'] assert 'kEy' in result['qsd:'] assert result['qsd:']['kEy'] == 'vALUE' assert result['qsd+'] == {} assert result['qsd-'] == {} result = utils.parse_url( 'http://hostname/?+KeY=ValueA&-kEy=ValueB&KEY=Value%20+C&:colon=y') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'http://hostname/' assert '+key' in result['qsd'] assert '-key' in result['qsd'] assert ':colon' in result['qsd'] assert result['qsd:']['colon'] == 'y' assert 'key' in result['qsd'] assert 'KeY' in result['qsd+'] assert result['qsd+']['KeY'] == 'ValueA' assert 'kEy' in result['qsd-'] assert result['qsd-']['kEy'] == 'ValueB' assert result['qsd']['key'] == 'Value C' assert result['qsd']['+key'] == result['qsd+']['KeY'] assert result['qsd']['-key'] == result['qsd-']['kEy'] result = utils.parse_url('http://hostname////') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'http://hostname/' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('http://hostname:40////') assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 40 assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'http://hostname:40/' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('HTTP://HoStNaMe:40/test.php') assert result['schema'] == 'http' assert result['host'] == 'HoStNaMe' assert result['port'] == 40 assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/test.php' assert result['path'] == '/' assert result['query'] == 'test.php' assert result['url'] == 'http://HoStNaMe:40/test.php' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('HTTPS://user@hostname/test.py') assert result['schema'] == 'https' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] == 'user' assert result['password'] is None assert result['fullpath'] == '/test.py' assert result['path'] == '/' assert result['query'] == 'test.py' assert result['url'] == 'https://user@hostname/test.py' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url(' HTTPS://///user@@@hostname///test.py ') assert result['schema'] == 'https' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] == 'user' assert result['password'] is None assert result['fullpath'] == '/test.py' assert result['path'] == '/' assert result['query'] == 'test.py' assert result['url'] == 'https://user@hostname/test.py' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url( 'HTTPS://user:password@otherHost/full///path/name/', ) assert result['schema'] == 'https' assert result['host'] == 'otherHost' assert result['port'] is None assert result['user'] == 'user' assert result['password'] == 'password' assert result['fullpath'] == '/full/path/name/' assert result['path'] == '/full/path/name/' assert result['query'] is None assert result['url'] == 'https://user:password@otherHost/full/path/name/' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url( 'HTTPS://hostname/a/path/ending/with/slash/?key=value', ) assert result['schema'] == 'https' assert result['host'] == 'hostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/a/path/ending/with/slash/' assert result['path'] == '/a/path/ending/with/slash/' assert result['query'] is None assert result['url'] == 'https://hostname/a/path/ending/with/slash/' assert result['qsd'] == {'key': 'value'} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # Handle garbage assert utils.parse_url(None) is None result = utils.parse_url( 'mailto://user:password@otherHost/lead2gold@gmail.com' + '?from=test@test.com&name=Chris%20Caron&format=text' ) assert result['schema'] == 'mailto' assert result['host'] == 'otherHost' assert result['port'] is None assert result['user'] == 'user' assert result['password'] == 'password' assert unquote(result['fullpath']) == '/lead2gold@gmail.com' assert result['path'] == '/' assert unquote(result['query']) == 'lead2gold@gmail.com' assert unquote(result['url']) == \ 'mailto://user:password@otherHost/lead2gold@gmail.com' assert len(result['qsd']) == 3 assert 'name' in result['qsd'] assert unquote(result['qsd']['name']) == 'Chris Caron' assert 'from' in result['qsd'] assert unquote(result['qsd']['from']) == 'test@test.com' assert 'format' in result['qsd'] assert unquote(result['qsd']['format']) == 'text' assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # Test Passwords with question marks ?; not supported result = utils.parse_url( 'http://user:pass.with.?question@host' ) assert result is None # just hostnames result = utils.parse_url( 'nuxref.com' ) assert result['schema'] == 'http' assert result['host'] == 'nuxref.com' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'http://nuxref.com' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # just host and path result = utils.parse_url('invalid/host') assert result['schema'] == 'http' assert result['host'] == 'invalid' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] == '/host' assert result['path'] == '/' assert result['query'] == 'host' assert result['url'] == 'http://invalid/host' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # just all out invalid assert utils.parse_url('?') is None assert utils.parse_url('/') is None # Test some illegal strings result = utils.parse_url(object, verify_host=False) assert result is None result = utils.parse_url(None, verify_host=False) assert result is None # Just a schema; invalid host result = utils.parse_url('test://') assert result is None # Do it again without host validation result = utils.parse_url('test://', verify_host=False) assert result['schema'] == 'test' # It's worth noting that the hostname is an empty string and is NEVER set # to None if it wasn't specified. assert result['host'] == '' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None assert result['url'] == 'test://' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('testhostname') assert result['schema'] == 'http' assert result['host'] == 'testhostname' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None # The default_schema kicks in here assert result['url'] == 'http://testhostname' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('example.com', default_schema='unknown') assert result['schema'] == 'unknown' assert result['host'] == 'example.com' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None # The default_schema kicks in here assert result['url'] == 'unknown://example.com' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # An empty string without a hostame is still valid if verify_host is set result = utils.parse_url('', verify_host=False) assert result['schema'] == 'http' assert result['host'] == '' assert result['port'] is None assert result['user'] is None assert result['password'] is None assert result['fullpath'] is None assert result['path'] is None assert result['query'] is None # The default_schema kicks in here assert result['url'] == 'http://' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} # A messed up URL result = utils.parse_url('test://:@/', verify_host=False) assert result['schema'] == 'test' assert result['host'] == '' assert result['port'] is None assert result['user'] == '' assert result['password'] == '' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['query'] is None assert result['url'] == 'test://:@/' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} result = utils.parse_url('crazy://:@//_/@^&/jack.json', verify_host=False) assert result['schema'] == 'crazy' assert result['host'] == '' assert result['port'] is None assert result['user'] == '' assert result['password'] == '' assert unquote(result['fullpath']) == '/_/@^&/jack.json' assert unquote(result['path']) == '/_/@^&/' assert result['query'] == 'jack.json' assert unquote(result['url']) == 'crazy://:@/_/@^&/jack.json' assert result['qsd'] == {} assert result['qsd-'] == {} assert result['qsd+'] == {} assert result['qsd:'] == {} def test_parse_url_simple(): "utils: parse_url() testing """ result = utils.parse_url('http://hostname', simple=True) assert len(result) == 3 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['url'] == 'http://hostname' result = utils.parse_url('http://hostname/', simple=True) assert len(result) == 5 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'http://hostname/' # colon after hostname without port number is no good assert utils.parse_url('http://hostname:', simple=True) is None # An invalid port result = utils.parse_url( 'http://hostname:invalid', verify_host=False, strict_port=True, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 'invalid' assert result['url'] == 'http://hostname:invalid' # However if we don't verify the host, it is okay result = utils.parse_url( 'http://hostname:', verify_host=False, simple=True) assert len(result) == 3 assert result['schema'] == 'http' assert result['host'] == 'hostname:' assert result['url'] == 'http://hostname:' # A port of Zero is not valid with strict port checking assert utils.parse_url( 'http://hostname:0', strict_port=True, simple=True) is None # Without strict port checking however, it is okay result = utils.parse_url( 'http://hostname:0', strict_port=False, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['port'] == 0 assert result['host'] == 'hostname' assert result['url'] == 'http://hostname:0' # A negative port is not valid assert utils.parse_url( 'http://hostname:-92', strict_port=True, simple=True) is None result = utils.parse_url( 'http://hostname:-92', verify_host=False, strict_port=True, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == -92 assert result['url'] == 'http://hostname:-92' # A port that is too large is not valid assert utils.parse_url( 'http://hostname:65536', strict_port=True, simple=True) is None # This is an accetable port (the maximum) result = utils.parse_url( 'http://hostname:65535', strict_port=True, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 65535 assert result['url'] == 'http://hostname:65535' # This is an accetable port (the maximum) result = utils.parse_url( 'http://hostname:1', strict_port=True, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 1 assert result['url'] == 'http://hostname:1' # A port that was identfied as a string is invalid assert utils.parse_url( 'http://hostname:invalid', strict_port=True, simple=True) is None result = utils.parse_url( 'http://hostname:invalid', verify_host=False, strict_port=True, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 'invalid' assert result['url'] == 'http://hostname:invalid' result = utils.parse_url( 'http://hostname:invalid', verify_host=False, strict_port=False, simple=True) assert len(result) == 3 assert result['schema'] == 'http' assert result['host'] == 'hostname:invalid' assert result['url'] == 'http://hostname:invalid' result = utils.parse_url( 'http://hostname:invalid?key=value&-minuskey=mvalue', verify_host=False, strict_port=False, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname:invalid' assert result['url'] == 'http://hostname:invalid' assert isinstance(result['qsd'], dict) assert len(result['qsd']) == 2 assert unquote(result['qsd']['-minuskey']) == 'mvalue' assert unquote(result['qsd']['key']) == 'value' # Handling of floats assert utils.parse_url( 'http://hostname:4.2', strict_port=True, simple=True) is None result = utils.parse_url( 'http://hostname:4.2', verify_host=False, strict_port=True, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == '4.2' assert result['url'] == 'http://hostname:4.2' # A Port of zero is not acceptable for a regular hostname assert utils.parse_url( 'http://hostname:0', strict_port=True, simple=True) is None # No host verification (zero is an acceptable port when this is the case result = utils.parse_url( 'http://hostname:0', verify_host=False, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 0 assert result['url'] == 'http://hostname:0' result = utils.parse_url( 'http://[2001:db8:002a:3256:adfe:05c0:0003:0006]:8080', verify_host=False, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == '[2001:db8:002a:3256:adfe:05c0:0003:0006]' assert result['port'] == 8080 assert result['url'] == \ 'http://[2001:db8:002a:3256:adfe:05c0:0003:0006]:8080' result = utils.parse_url( 'http://hostname:0', verify_host=False, strict_port=True, simple=True) assert len(result) == 4 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 0 assert result['url'] == 'http://hostname:0' result = utils.parse_url('http://hostname/?-KeY=Value', simple=True) assert len(result) == 6 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'http://hostname/' assert '-key' in result['qsd'] assert unquote(result['qsd']['-key']) == 'Value' result = utils.parse_url('http://hostname/?+KeY=Value', simple=True) assert len(result) == 6 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'http://hostname/' assert '+key' in result['qsd'] assert result['qsd']['+key'] == 'Value' result = utils.parse_url('http://hostname/?:kEy=vALUE', simple=True) assert len(result) == 6 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'http://hostname/' assert ':key' in result['qsd'] assert result['qsd'][':key'] == 'vALUE' result = utils.parse_url( 'http://hostname/?+KeY=ValueA&-kEy=ValueB&KEY=Value%20+C&:colon=y', simple=True) assert len(result) == 6 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'http://hostname/' assert '+key' in result['qsd'] assert '-key' in result['qsd'] assert ':colon' in result['qsd'] assert result['qsd'][':colon'] == 'y' assert result['qsd']['key'] == 'Value C' assert result['qsd']['+key'] == 'ValueA' assert result['qsd']['-key'] == 'ValueB' result = utils.parse_url('http://hostname////', simple=True) assert len(result) == 5 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'http://hostname/' result = utils.parse_url('http://hostname:40////', simple=True) assert len(result) == 6 assert result['schema'] == 'http' assert result['host'] == 'hostname' assert result['port'] == 40 assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'http://hostname:40/' result = utils.parse_url('HTTP://HoStNaMe:40/test.php', simple=True) assert len(result) == 7 assert result['schema'] == 'http' assert result['host'] == 'HoStNaMe' assert result['port'] == 40 assert result['fullpath'] == '/test.php' assert result['path'] == '/' assert result['query'] == 'test.php' assert result['url'] == 'http://HoStNaMe:40/test.php' result = utils.parse_url('HTTPS://user@hostname/test.py', simple=True) assert len(result) == 7 assert result['schema'] == 'https' assert result['host'] == 'hostname' assert result['user'] == 'user' assert result['fullpath'] == '/test.py' assert result['path'] == '/' assert result['query'] == 'test.py' assert result['url'] == 'https://user@hostname/test.py' result = utils.parse_url( ' HTTPS://///user@@@hostname///test.py ', simple=True) assert len(result) == 7 assert result['schema'] == 'https' assert result['host'] == 'hostname' assert result['user'] == 'user' assert result['fullpath'] == '/test.py' assert result['path'] == '/' assert result['query'] == 'test.py' assert result['url'] == 'https://user@hostname/test.py' result = utils.parse_url( 'HTTPS://user:password@otherHost/full///path/name/', simple=True, ) assert len(result) == 7 assert result['schema'] == 'https' assert result['host'] == 'otherHost' assert result['user'] == 'user' assert result['password'] == 'password' assert result['fullpath'] == '/full/path/name/' assert result['path'] == '/full/path/name/' assert result['url'] == 'https://user:password@otherHost/full/path/name/' # Handle garbage assert utils.parse_url(None) is None result = utils.parse_url( 'mailto://user:password@otherHost/lead2gold@gmail.com' + '?from=test@test.com&name=Chris%20Caron&format=text', simple=True, ) assert len(result) == 9 assert result['schema'] == 'mailto' assert result['host'] == 'otherHost' assert result['user'] == 'user' assert result['password'] == 'password' assert unquote(result['fullpath']) == '/lead2gold@gmail.com' assert result['path'] == '/' assert unquote(result['query']) == 'lead2gold@gmail.com' assert unquote(result['url']) == \ 'mailto://user:password@otherHost/lead2gold@gmail.com' assert len(result['qsd']) == 3 assert 'name' in result['qsd'] assert unquote(result['qsd']['name']) == 'Chris Caron' assert 'from' in result['qsd'] assert unquote(result['qsd']['from']) == 'test@test.com' assert 'format' in result['qsd'] assert unquote(result['qsd']['format']) == 'text' # Test Passwords with question marks ?; not supported result = utils.parse_url( 'http://user:pass.with.?question@host', simple=True ) assert result is None # just hostnames result = utils.parse_url( 'nuxref.com', simple=True, ) assert len(result) == 3 assert result['schema'] == 'http' assert result['host'] == 'nuxref.com' assert result['url'] == 'http://nuxref.com' # just host and path result = utils.parse_url('invalid/host', simple=True) assert len(result) == 6 assert result['schema'] == 'http' assert result['host'] == 'invalid' assert result['fullpath'] == '/host' assert result['path'] == '/' assert result['query'] == 'host' assert result['url'] == 'http://invalid/host' # just all out invalid assert utils.parse_url('?', simple=True) is None assert utils.parse_url('/', simple=True) is None # Test some illegal strings result = utils.parse_url(object, verify_host=False, simple=True) assert result is None result = utils.parse_url(None, verify_host=False, simple=True) assert result is None # Just a schema; invalid host result = utils.parse_url('test://', simple=True) assert result is None # Do it again without host validation result = utils.parse_url('test://', verify_host=False, simple=True) assert len(result) == 2 assert result['schema'] == 'test' assert result['url'] == 'test://' result = utils.parse_url('testhostname', simple=True) assert len(result) == 3 assert result['schema'] == 'http' assert result['host'] == 'testhostname' # The default_schema kicks in here assert result['url'] == 'http://testhostname' result = utils.parse_url( 'example.com', default_schema='unknown', simple=True) assert len(result) == 3 assert result['schema'] == 'unknown' assert result['host'] == 'example.com' # The default_schema kicks in here assert result['url'] == 'unknown://example.com' # An empty string without a hostame is still valid if verify_host is set result = utils.parse_url('', verify_host=False, simple=True) assert len(result) == 2 assert result['schema'] == 'http' # The default_schema kicks in here assert result['url'] == 'http://' # A messed up URL result = utils.parse_url('test://:@/', verify_host=False, simple=True) assert len(result) == 6 assert result['schema'] == 'test' assert result['user'] == '' assert result['password'] == '' assert result['fullpath'] == '/' assert result['path'] == '/' assert result['url'] == 'test://:@/' result = utils.parse_url( 'crazy://:@//_/@^&/jack.json', verify_host=False, simple=True) assert len(result) == 7 assert result['schema'] == 'crazy' assert result['user'] == '' assert result['password'] == '' assert unquote(result['fullpath']) == '/_/@^&/jack.json' assert unquote(result['path']) == '/_/@^&/' assert result['query'] == 'jack.json' assert unquote(result['url']) == 'crazy://:@/_/@^&/jack.json' def test_url_assembly(): """ "utils: url_assembly() testing """ url = 'schema://user:password@hostname:port/path/?key=value' assert utils.url_assembly(**utils.parse_url(url, verify_host=False)) == url # Same URL without trailing slash after path url = 'schema://user:password@hostname:port/path?key=value' assert utils.url_assembly(**utils.parse_url(url, verify_host=False)) == url url = 'schema://user@hostname:port/path?key=value' assert utils.url_assembly(**utils.parse_url(url, verify_host=False)) == url url = 'schema://hostname:10/a/file.php' assert utils.url_assembly(**utils.parse_url(url, verify_host=False)) == url def test_parse_bool(): "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_uuid(): """ API: is_uuid() function """ # Invalid Entries assert utils.is_uuid('invalid') is False assert utils.is_uuid(None) is False assert utils.is_uuid(5) is False assert utils.is_uuid(object) is False # A slightly invalid uuid4 entry assert utils.is_uuid('591ed387-fa65-ac97-9712-b9d2a15e42a9') is False assert utils.is_uuid('591ed387-fa65-Jc97-9712-b9d2a15e42a9') is False # Valid UUID4 Entries assert utils.is_uuid('591ed387-fa65-4c97-9712-b9d2a15e42a9') is True assert utils.is_uuid('32b0b447-fe84-4df1-8368-81925e729265') 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' # Underscores are supported by default assert utils.is_hostname('valid_dashes_in_host.ca') == \ 'valid_dashes_in_host.ca' # However they are not if specified otherwise: assert utils.is_hostname( 'valid_dashes_in_host.ca', underscore=False) is False # 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 # Test hostnames with a single character hostname assert utils.is_hostname( 'cloud.a.example.com', ipv4=False, ipv6=False) == 'cloud.a.example.com' 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 ') 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: ') 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 ') 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'] # Support Quotes results = utils.is_email('"Chris Hemsworth" ') assert 'Chris Hemsworth' == results['name'] assert 'ch@test.com' == results['email'] assert 'ch@test.com' == results['full_email'] assert 'test.com' == results['domain'] assert 'ch' == results['user'] assert '' == results['label'] # An email without name, but contains delimiters results = utils.is_email(' ') 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 ") is False # Extended valid emails # # The first + denotes our label, so this test really validates # that there is a correct split and parsing of our email results = utils.is_email('a-z0-9_!#$%&*+/=?%`{|}~^.-@gmail.com') assert '' == results['name'] assert 'a-z0-9_!#$%&*' == results['label'] assert '/=?%`{|}~^.-@gmail.com' == results['email'] assert 'a-z0-9_!#$%&*+/=?%`{|}~^.-@gmail.com' == results['full_email'] assert 'gmail.com' == results['domain'] assert '/=?%`{|}~^.-' == results['user'] # A similar test without '+' (use of a label) # The first + denotes our label, so this test really validates # that there is a correct split and parsing of our email results = utils.is_email('a-z0-9_!#$%&*/=?%`{|}~^.-@gmail.com') assert '' == results['name'] assert '' == results['label'] assert 'a-z0-9_!#$%&*/=?%`{|}~^.-@gmail.com' == results['email'] assert 'a-z0-9_!#$%&*/=?%`{|}~^.-@gmail.com' == results['full_email'] assert 'gmail.com' == results['domain'] assert 'a-z0-9_!#$%&*/=?%`{|}~^.-' == results['user'] def test_is_call_sign_no(): """ API: is_call_sign() function """ # Invalid numbers assert utils.is_call_sign(None) is False assert utils.is_call_sign(42) is False assert utils.is_call_sign(object) is False assert utils.is_call_sign('') is False assert utils.is_call_sign('1') is False assert utils.is_call_sign('12') is False assert utils.is_call_sign('abc') is False assert utils.is_call_sign('+()') is False assert utils.is_call_sign('+') is False assert utils.is_call_sign(None) is False assert utils.is_call_sign(42) is False # To short or 2 long assert utils.is_call_sign('DF1AB') is False assert utils.is_call_sign('DF1ABCX') is False assert utils.is_call_sign('DF1ABCEFG') is False assert utils.is_call_sign('1ABCX') is False # 4th character is not an number assert utils.is_call_sign('XXXXXX') is False # Some valid checks result = utils.is_call_sign('DF1ABC') assert isinstance(result, dict) assert 'DF1ABC' == result['callsign'] assert '' == result['ssid'] # Get our SSID result = utils.is_call_sign('DF1ABC-14') assert 'DF1ABC' == result['callsign'] assert '-14' == result['ssid'] def test_is_phone_no(): """ API: is_phone_no() function """ # Invalid numbers assert utils.is_phone_no(None) is False assert utils.is_phone_no(42) is False assert utils.is_phone_no(object) is False assert utils.is_phone_no('') is False assert utils.is_phone_no('1') is False assert utils.is_phone_no('12') is False assert utils.is_phone_no('abc') is False assert utils.is_phone_no('+()') is False assert utils.is_phone_no('+') is False assert utils.is_phone_no(None) is False assert utils.is_phone_no(42) is False assert utils.is_phone_no(object, min_len=0) is False assert utils.is_phone_no('', min_len=1) is False assert utils.is_phone_no('abc', min_len=0) is False assert utils.is_phone_no('', min_len=0) is False # Ambigious, but will document it here in this test as such results = utils.is_phone_no('+((()))--+', min_len=0) assert '' == results['country'] assert '' == results['area'] assert '' == results['line'] assert '' == results['pretty'] assert '' == results['full'] # Valid phone numbers assert utils.is_phone_no('+(0)') is False results = utils.is_phone_no('+(0)', min_len=1) assert '' == results['country'] assert '' == results['area'] assert '0' == results['line'] assert '0' == results['pretty'] assert '0' == results['full'] assert utils.is_phone_no('1') is False results = utils.is_phone_no('1', min_len=1) assert '' == results['country'] assert '' == results['area'] assert '1' == results['line'] assert '1' == results['pretty'] assert '1' == results['full'] assert utils.is_phone_no('12') is False results = utils.is_phone_no('12', min_len=2) assert '' == results['country'] assert '' == results['area'] assert '12' == results['line'] assert '12' == results['pretty'] assert '12' == results['full'] assert utils.is_phone_no('911') is False results = utils.is_phone_no('911', min_len=3) assert isinstance(results, dict) assert '' == results['country'] assert '' == results['area'] assert '911' == results['line'] assert '911' == results['pretty'] assert '911' == results['full'] assert utils.is_phone_no('1234') is False results = utils.is_phone_no('1234', min_len=4) assert isinstance(results, dict) assert '' == results['country'] assert '' == results['area'] assert '1234' == results['line'] assert '1234' == results['pretty'] assert '1234' == results['full'] assert utils.is_phone_no('12345') is False results = utils.is_phone_no('12345', min_len=5) assert isinstance(results, dict) assert '' == results['country'] assert '' == results['area'] assert '12345' == results['line'] assert '12345' == results['pretty'] assert '12345' == results['full'] assert utils.is_phone_no('123456') is False results = utils.is_phone_no('123456', min_len=6) assert isinstance(results, dict) assert '' == results['country'] assert '' == results['area'] assert '123456' == results['line'] assert '123456' == results['pretty'] assert '123456' == results['full'] # at 7 digits, the format hyphenates in the `pretty` section assert utils.is_phone_no('1234567') is False results = utils.is_phone_no('1234567', min_len=7) assert isinstance(results, dict) assert '' == results['country'] assert '' == results['area'] assert '1234567' == results['line'] assert '123-4567' == results['pretty'] assert '1234567' == results['full'] results = utils.is_phone_no('1(800) 123-4567') assert isinstance(results, dict) assert '1' == results['country'] assert '800' == results['area'] assert '1234567' == results['line'] assert '+1 800-123-4567' == results['pretty'] assert '18001234567' == results['full'] def test_parse_call_sign(): """utils: parse_call_sign() testing """ # A simple single array entry (As str) results = utils.parse_call_sign('') assert isinstance(results, list) assert len(results) == 0 # just delimeters results = utils.parse_call_sign(', ,, , ,,, ') assert isinstance(results, list) assert len(results) == 0 results = utils.parse_call_sign(None) assert isinstance(results, list) assert len(results) == 0 results = utils.parse_call_sign(42) assert isinstance(results, list) assert len(results) == 0 results = utils.parse_call_sign('this is not a parseable call sign at all') assert isinstance(results, list) assert len(results) == 9 results = utils.parse_call_sign( 'this is not a parseable call sign at all', store_unparseable=False) assert isinstance(results, list) assert len(results) == 0 # Now test valid call signs results = utils.parse_call_sign('0A1DEF') assert isinstance(results, list) assert len(results) == 1 assert '0A1DEF' in results results = utils.parse_call_sign('0A1DEF, DF1ABC') assert isinstance(results, list) assert len(results) == 2 assert '0A1DEF' in results assert 'DF1ABC' in results def test_parse_phone_no(): """utils: parse_phone_no() testing """ # A simple single array entry (As str) results = utils.parse_phone_no('') assert isinstance(results, list) assert len(results) == 0 # just delimeters results = utils.parse_phone_no(', ,, , ,,, ') assert isinstance(results, list) assert len(results) == 0 results = utils.parse_phone_no(',') assert isinstance(results, list) assert len(results) == 0 results = utils.parse_phone_no(None) assert isinstance(results, list) assert len(results) == 0 results = utils.parse_phone_no(42) assert isinstance(results, list) assert len(results) == 0 results = utils.parse_phone_no('this is not a parseable phoneno 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_phone_no( 'this is not a parseable email at all', store_unparseable=False) assert isinstance(results, list) assert len(results) == 0 results = utils.parse_phone_no('+', store_unparseable=False) assert isinstance(results, list) assert len(results) == 0 results = utils.parse_phone_no('(', store_unparseable=False) assert isinstance(results, list) assert len(results) == 0 # Number is too short results = utils.parse_phone_no('0', store_unparseable=False) assert isinstance(results, list) assert len(results) == 0 results = utils.parse_phone_no('12', store_unparseable=False) assert isinstance(results, list) assert len(results) == 0 # Now test valid phone numbers results = utils.parse_phone_no('+1 (124) 245 2345') assert isinstance(results, list) assert len(results) == 1 assert '+1 (124) 245 2345' in results results = utils.parse_phone_no('911', store_unparseable=False) assert isinstance(results, list) assert len(results) == 1 assert '911' in results results = utils.parse_phone_no( '911, 123-123-1234', store_unparseable=False) assert isinstance(results, list) assert len(results) == 2 assert '911' in results assert '123-123-1234' in results # Space variations results = utils.parse_phone_no(' 911 , +1 (123) 123-1234') assert isinstance(results, list) assert len(results) == 2 assert '911' in results assert '+1 (123) 123-1234' in results results = utils.parse_phone_no(' 911 , + 1 ( 123 ) 123-1234') assert isinstance(results, list) assert len(results) == 2 assert '911' in results assert '+ 1 ( 123 ) 123-1234' in results 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 emails 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 ', 'The Forth User: ', '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_dict_full_update(): """utils: dict_full_update() testing """ dict_1 = { 'a': 1, 'b': 2, 'c': 3, 'd': { 'z': 27, 'y': 26, 'x': 25, } } dict_2 = { 'd': { 'x': 'updated', 'w': 24, }, 'c': 'updated', 'e': 5, } utils.dict_full_update(dict_1, dict_2) # Dictionary 2 is untouched assert len(dict_2) == 3 assert dict_2['c'] == 'updated' assert dict_2['d']['w'] == 24 assert dict_2['d']['x'] == 'updated' assert dict_2['e'] == 5 # Dictionary 3 however has entries from Dict 2 applied # without disrupting entries that were not matched. assert len(dict_1) == 5 assert dict_1['a'] == 1 assert dict_1['b'] == 2 assert dict_1['c'] == 'updated' assert dict_1['d']['w'] == 24 assert dict_1['d']['x'] == 'updated' assert dict_1['d']['y'] == 26 assert dict_1['d']['z'] == 27 assert dict_1['e'] == 5 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: 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_module_detection(tmpdir): """utils: test_module_detection() testing """ # Clear our working variables so they don't obstruct with the tests here utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() # Test case where we load invalid data utils.module_detection(None) # Invalid data does not load anything assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 0 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # Prepare ourselves a file to work with notify_hook_a_base = tmpdir.mkdir('a') notify_hook_a = notify_hook_a_base.join('hook.py') notify_hook_a.write(cleandoc(""" from apprise.decorators import notify @notify(on="clihook") def mywrapper(body, title, notify_type, *args, **kwargs): pass """)) # Not previously loaded assert 'clihook' not in common.NOTIFY_SCHEMA_MAP # load entry by string utils.module_detection(str(notify_hook_a)) assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # Now loaded assert 'clihook' in common.NOTIFY_SCHEMA_MAP # load entry by array utils.module_detection([str(notify_hook_a)]) # No changes to our path assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # Reset our variables for the next test utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() del common.NOTIFY_SCHEMA_MAP['clihook'] # Hidden files are ignored notify_hook_b_base = tmpdir.mkdir('b') notify_hook_b = notify_hook_b_base.join('.hook.py') notify_hook_b.write(cleandoc(""" from apprise.decorators import notify # this is in a hidden file so it will not load @notify(on="hidden") def mywrapper(body, title, notify_type, *args, **kwargs): pass """)) assert 'hidden' not in common.NOTIFY_SCHEMA_MAP utils.module_detection([str(notify_hook_b)]) # Verify that it did not load assert 'hidden' not in common.NOTIFY_SCHEMA_MAP # Path was scanned; nothing loaded assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # Reset our variables for the next test utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() # modules with no hooks found are ignored notify_hook_c_base = tmpdir.mkdir('c') notify_hook_c = notify_hook_c_base.join('empty.py') notify_hook_c.write("") utils.module_detection([str(notify_hook_c)]) # File was found, no custom modules assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # A new path scanned utils.module_detection([str(notify_hook_c_base)]) assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 def create_hook(tdir, cache=True, on="valid1"): """ Just a temporary hook creation tool for writing a working notify hook """ tdir.write(cleandoc(""" from apprise.decorators import notify # this is a good hook but burried in hidden directory which won't # be accessed unless the file is pointed to via absolute path @notify(on="{}") def mywrapper(body, title, notify_type, *args, **kwargs): pass """.format(on))) utils.module_detection([str(tdir)], cache=cache) create_hook(notify_hook_c, on='valid1') assert 'valid1' not in common.NOTIFY_SCHEMA_MAP # Even if we correct our empty file; the fact the directory has been # scanned and failed to load (same with file), it won't be loaded # a second time. This is intentional since module_detection() get's # called for every AppriseAsset() object creation. This prevents us # from reloading conent over and over again wasting resources assert 'valid1' not in common.NOTIFY_SCHEMA_MAP utils.module_detection([str(notify_hook_c)]) assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # Even by absolute path... utils.module_detection([str(notify_hook_c)]) assert 'valid1' not in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # However we can bypass the cache if we really want to utils.module_detection([str(notify_hook_c_base)], cache=False) assert 'valid1' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # Bypassing it twice causes the module to load twice (not very efficient) # However we can bypass the cache if we really want to utils.module_detection([str(notify_hook_c_base)], cache=False) assert 'valid1' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # If you update the module (corrupting it in the process and reload) notify_hook_c.write(cleandoc(""" raise ValueError """)) # Force no cache to cause the file to be replaced utils.module_detection([str(notify_hook_c_base)], cache=False) # Our valid entry is no longer loaded assert 'valid1' not in common.NOTIFY_SCHEMA_MAP # No change to scanned paths assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 # The previously loaded module is now gone assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # Reload our valid1 entry create_hook(notify_hook_c, on='valid1', cache=False) assert 'valid1' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # Prepare an empty file notify_hook_c.write("") utils.module_detection([str(notify_hook_c_base)], cache=False) # Our valid entry is no longer loaded assert 'valid1' not in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # Now reload our module again (this time rather then an exception, the # module is read back and swaps `valid1` for `valid2` create_hook(notify_hook_c, on='valid1', cache=False) assert 'valid1' in common.NOTIFY_SCHEMA_MAP assert 'valid2' not in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 create_hook(notify_hook_c, on='valid2', cache=False) assert 'valid1' not in common.NOTIFY_SCHEMA_MAP assert 'valid2' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # Reset our variables for the next test create_hook(notify_hook_c, on='valid1', cache=False) del common.NOTIFY_SCHEMA_MAP['valid1'] utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() notify_hook_d = notify_hook_c_base.join('.ignore.py') notify_hook_d.write("") notify_hook_e_base = notify_hook_c_base.mkdir('.ignore') notify_hook_e = notify_hook_e_base.join('__init__.py') notify_hook_e.write(cleandoc(""" from apprise.decorators import notify # this is a good hook but burried in hidden directory which won't # be accessed unless the file is pointed to via absolute path @notify(on="valid2") def mywrapper(body, title, notify_type, *args, **kwargs): pass """)) # Try to load our base directory again; this time we search by the # directory; the only edge case we're testing here is it will not # even look at the .ignore.py file found since it is invalid utils.module_detection([str(notify_hook_c_base)]) assert 'valid1' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # Reset our variables for the next test del common.NOTIFY_SCHEMA_MAP['valid1'] utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() # Try to load our base directory again utils.module_detection([str(notify_hook_c)]) assert 'valid1' in common.NOTIFY_SCHEMA_MAP # Hidden directories are not scanned assert 'valid2' not in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert str(notify_hook_c) in utils.PATHS_PREVIOUSLY_SCANNED assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # However a direct reference to the hidden directory is okay utils.module_detection([str(notify_hook_e_base)]) # We loaded our module assert 'valid2' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 3 assert str(notify_hook_c) in utils.PATHS_PREVIOUSLY_SCANNED assert str(notify_hook_e) in utils.PATHS_PREVIOUSLY_SCANNED assert str(notify_hook_e_base) in utils.PATHS_PREVIOUSLY_SCANNED assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 2 # Reset our variables for the next test del common.NOTIFY_SCHEMA_MAP['valid1'] del common.NOTIFY_SCHEMA_MAP['valid2'] utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() # Load our file directly assert 'valid2' not in common.NOTIFY_SCHEMA_MAP utils.module_detection([str(notify_hook_e)]) # Now we have it loaded as expected assert 'valid2' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert str(notify_hook_e) in utils.PATHS_PREVIOUSLY_SCANNED assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # however if we try to load the base directory where the __init__.py # was already loaded from, it will not change anything utils.module_detection([str(notify_hook_e_base)]) assert 'valid2' in common.NOTIFY_SCHEMA_MAP assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 2 assert str(notify_hook_e) in utils.PATHS_PREVIOUSLY_SCANNED assert str(notify_hook_e_base) in utils.PATHS_PREVIOUSLY_SCANNED assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 # Tidy up for the next test del common.NOTIFY_SCHEMA_MAP['valid2'] utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() assert 'valid1' not in common.NOTIFY_SCHEMA_MAP assert 'valid2' not in common.NOTIFY_SCHEMA_MAP assert 'valid3' not in common.NOTIFY_SCHEMA_MAP notify_hook_f_base = tmpdir.mkdir('f') notify_hook_f = notify_hook_f_base.join('invalid.py') notify_hook_f.write(cleandoc(""" from apprise.decorators import notify # A very invalid hook type... on should not be None @notify(on=None) def mywrapper(body, title, notify_type, *args, **kwargs): pass # An invalid name @notify(on='valid1', name=None) def mywrapper(body, title, notify_type, *args, **kwargs): pass # Another invalid name (so it's ignored) @notify(on='valid2', name=object) def mywrapper(body, title, notify_type, *args, **kwargs): pass # Simply put... the name has to be a string to be referenced # however this will still be loaded @notify(on='valid3', name=4) def mywrapper(body, title, notify_type, *args, **kwargs): pass """)) utils.module_detection([str(notify_hook_f)]) assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 1 assert 'valid1' in common.NOTIFY_SCHEMA_MAP assert 'valid2' in common.NOTIFY_SCHEMA_MAP assert 'valid3' in common.NOTIFY_SCHEMA_MAP # Reset our variables for the next test del common.NOTIFY_SCHEMA_MAP['valid1'] del common.NOTIFY_SCHEMA_MAP['valid2'] del common.NOTIFY_SCHEMA_MAP['valid3'] utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() # Now test the handling of just bad data entirely notify_hook_g_base = tmpdir.mkdir('g') notify_hook_g = notify_hook_g_base.join('binary.py') with open(str(notify_hook_g), 'wb') as fout: fout.write(os.urandom(512)) utils.module_detection([str(notify_hook_g)]) assert len(utils.PATHS_PREVIOUSLY_SCANNED) == 1 assert len(common.NOTIFY_CUSTOM_MODULE_MAP) == 0 # Reset our variables before we leave utils.PATHS_PREVIOUSLY_SCANNED.clear() common.NOTIFY_CUSTOM_MODULE_MAP.clear() 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 # # Update our data set so we can do more advance checks # data = set(['always', 'entry1']) # We'll always match on the with keyword always assert utils.is_exclusive_match(logic='always', data=data) is True assert utils.is_exclusive_match(logic='garbage', data=data) is True # However we will not match if we turn this feature off assert utils.is_exclusive_match( logic='garbage', data=data, match_always=False) is False # 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[^-]+)-', fmt="{value}") == "abcd" assert utils.validate_regex( "- abcd -", r'-(?P[^-]+)-', strip=False, fmt="{value}") == " abcd " # String flags supported in addition to numeric assert utils.validate_regex( "- abcd -", r'-(?P[^-]+)-', 'i', fmt="{value}") == "abcd" assert utils.validate_regex( "- abcd -", r'-(?P[^-]+)-', re.I, fmt="{value}") == "abcd" # Test multiple flag settings assert utils.validate_regex( "- abcd -", r'-(?P[^-]+)-', '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[ABCD]+)-', '-%2gb', fmt="{value}") is None assert utils.validate_regex( "- abcd -", r'-(?P[ABCD]+)-', '', fmt="{value}") is None assert utils.validate_regex( "- abcd -", r'-(?P[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, str) 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, str) 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, str) 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, str) 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, str) 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, str) 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\\""}' def test_cwe312_word(): """utils: cwe312_word() testing """ assert utils.cwe312_word(None) is None assert utils.cwe312_word(42) == 42 assert utils.cwe312_word('') == '' assert utils.cwe312_word(' ') == ' ' assert utils.cwe312_word('!') == '!' assert utils.cwe312_word('a') == 'a' assert utils.cwe312_word('ab') == 'ab' assert utils.cwe312_word('abc') == 'abc' assert utils.cwe312_word('abcd') == 'abcd' assert utils.cwe312_word('abcd', force=True) == 'a...d' assert utils.cwe312_word('abc--d') == 'abc--d' assert utils.cwe312_word('a-domain.ca') == 'a...a' # Variances to still catch domain assert utils.cwe312_word('a-domain.ca', advanced=False) == 'a-domain.ca' assert utils.cwe312_word('a-domain.ca', threshold=6) == 'a-domain.ca' def test_cwe312_url(): """utils: cwe312_url() testing """ assert utils.cwe312_url(None) is None assert utils.cwe312_url(42) == 42 assert utils.cwe312_url('http://') == 'http://' assert utils.cwe312_url('discord://') == 'discord://' assert utils.cwe312_url('path') == 'http://path' assert utils.cwe312_url('path/') == 'http://path/' # Now test http:// private data assert utils.cwe312_url( 'http://user:pass123@localhost') == 'http://user:p...3@localhost' assert utils.cwe312_url( 'http://user@localhost') == 'http://user@localhost' assert utils.cwe312_url( 'http://user@localhost?password=abc123') == \ 'http://user@localhost?password=a...3' assert utils.cwe312_url( 'http://user@localhost?secret=secret-.12345') == \ 'http://user@localhost?secret=s...5' # Now test other:// private data assert utils.cwe312_url( 'gitter://b5637831f563aa846bb5b2c27d8fe8f633b8f026/apprise') == \ 'gitter://b...6/apprise' assert utils.cwe312_url( 'gitter://b5637831f563aa846bb5b2c27d8fe8f633b8f026' '/apprise/?pass=abc123') == \ 'gitter://b...6/apprise/?pass=a...3' assert utils.cwe312_url( 'slack://mybot@xoxb-43598234231-3248932482278-BZK5Wj15B9mPh1RkShJoCZ44' '/lead2gold@gmail.com') == 'slack://mybot@x...4/l...m' assert utils.cwe312_url( 'slack://test@B4QP3WWB4/J3QWT41JM/XIl2ffpqXkzkwMXrJdevi7W3/' '#random') == 'slack://test@B...4/J...M/X...3/'