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# Authors:
# Jan Cholasta <jcholast@redhat.com>
#
# Copyright (C) 2011 Red Hat
# see file 'COPYING' for use and warranty information
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
Test the `ipapython/ipautil.py` module.
"""
import nose
from ipapython import ipautil
class CheckIPAddress:
def __init__(self, addr):
self.description = "Test IP address parsing and verification (%s)" % addr
def __call__(self, addr, words=None, prefixlen=None):
try:
ip = ipautil.CheckedIPAddress(addr, match_local=False)
assert ip.words == words and ip.prefixlen == prefixlen
except:
assert words is None and prefixlen is None
def test_ip_address():
addrs = [
('10.11.12.13', (10, 11, 12, 13), 8),
('10.11.12.13/14', (10, 11, 12, 13), 14),
('10.11.12.13%zoneid',),
('10.11.12.13%zoneid/14',),
('10.11.12.1337',),
('10.11.12.13/33',),
('127.0.0.1',),
('241.1.2.3',),
('169.254.1.2',),
('10.11.12.0/24',),
('224.5.6.7',),
('10.11.12.255/24',),
('2001::1', (0x2001, 0, 0, 0, 0, 0, 0, 1), 64),
('2001::1/72', (0x2001, 0, 0, 0, 0, 0, 0, 1), 72),
('2001::1%zoneid', (0x2001, 0, 0, 0, 0, 0, 0, 1), 64),
('2001::1%zoneid/72',),
('2001::1beef',),
('2001::1/129',),
('::1',),
('6789::1',),
('fe89::1',),
('2001::/64',),
('ff01::1',),
('junk',)
]
for addr in addrs:
yield (CheckIPAddress(addr[0]),) + addr
class TestCIDict(object):
def setup(self):
self.cidict = ipautil.CIDict()
self.cidict["Key1"] = "val1"
self.cidict["key2"] = "val2"
self.cidict["KEY3"] = "VAL3"
def test_init(self):
cidict = ipautil.CIDict()
assert dict(cidict.items()) == {}
cidict = ipautil.CIDict([('a', 2), ('b', 3), ('C', 4)])
assert dict(cidict.items()) == {'a': 2, 'b': 3, 'C': 4}
cidict = ipautil.CIDict([('a', 2), ('b', None)], b=3, C=4)
assert dict(cidict.items()) == {'a': 2, 'b': 3, 'C': 4}
cidict = ipautil.CIDict({'a': 2, 'b': None}, b=3, C=4)
assert dict(cidict.items()) == {'a': 2, 'b': 3, 'C': 4}
cidict = ipautil.CIDict(a=2, b=3, C=4)
assert dict(cidict.items()) == {'a': 2, 'b': 3, 'C': 4}
def test_len(self):
nose.tools.assert_equal(3, len(self.cidict))
def test_getitem(self):
nose.tools.assert_equal("val1", self.cidict["Key1"])
nose.tools.assert_equal("val1", self.cidict["key1"])
nose.tools.assert_equal("val2", self.cidict["KEY2"])
nose.tools.assert_equal("VAL3", self.cidict["key3"])
nose.tools.assert_equal("VAL3", self.cidict["KEY3"])
with nose.tools.assert_raises(KeyError):
self.cidict["key4"]
def test_get(self):
nose.tools.assert_equal("val1", self.cidict.get("Key1"))
nose.tools.assert_equal("val1", self.cidict.get("key1"))
nose.tools.assert_equal("val2", self.cidict.get("KEY2"))
nose.tools.assert_equal("VAL3", self.cidict.get("key3"))
nose.tools.assert_equal("VAL3", self.cidict.get("KEY3"))
nose.tools.assert_equal("default", self.cidict.get("key4", "default"))
def test_setitem(self):
self.cidict["key4"] = "val4"
nose.tools.assert_equal("val4", self.cidict["key4"])
self.cidict["KEY4"] = "newval4"
nose.tools.assert_equal("newval4", self.cidict["key4"])
def test_del(self):
assert self.cidict.has_key("Key1")
del(self.cidict["Key1"])
assert not self.cidict.has_key("Key1")
assert self.cidict.has_key("key2")
del(self.cidict["KEY2"])
assert not self.cidict.has_key("key2")
def test_clear(self):
nose.tools.assert_equal(3, len(self.cidict))
self.cidict.clear()
nose.tools.assert_equal(0, len(self.cidict))
def test_copy(self):
copy = self.cidict.copy()
assert copy == self.cidict
nose.tools.assert_equal(3, len(copy))
assert copy.has_key("Key1")
assert copy.has_key("key1")
nose.tools.assert_equal("val1", copy["Key1"])
def test_haskey(self):
assert self.cidict.has_key("KEY1")
assert self.cidict.has_key("key2")
assert self.cidict.has_key("key3")
assert not self.cidict.has_key("Key4")
def test_contains(self):
assert "KEY1" in self.cidict
assert "key2" in self.cidict
assert "key3" in self.cidict
assert "Key4" not in self.cidict
def test_items(self):
items = self.cidict.items()
nose.tools.assert_equal(3, len(items))
items_set = set(items)
assert ("Key1", "val1") in items_set
assert ("key2", "val2") in items_set
assert ("KEY3", "VAL3") in items_set
assert self.cidict.items() == list(self.cidict.iteritems()) == zip(
self.cidict.iterkeys(), self.cidict.itervalues())
def test_iter(self):
items = []
assert list(self.cidict) == list(self.cidict.keys())
assert sorted(self.cidict) == sorted(['Key1', 'key2', 'KEY3'])
def test_iteritems(self):
items = []
for (k,v) in self.cidict.iteritems():
items.append((k,v))
nose.tools.assert_equal(3, len(items))
items_set = set(items)
assert ("Key1", "val1") in items_set
assert ("key2", "val2") in items_set
assert ("KEY3", "VAL3") in items_set
def test_iterkeys(self):
keys = []
for k in self.cidict.iterkeys():
keys.append(k)
nose.tools.assert_equal(3, len(keys))
keys_set = set(keys)
assert "Key1" in keys_set
assert "key2" in keys_set
assert "KEY3" in keys_set
def test_itervalues(self):
values = []
for k in self.cidict.itervalues():
values.append(k)
nose.tools.assert_equal(3, len(values))
values_set = set(values)
assert "val1" in values_set
assert "val2" in values_set
assert "VAL3" in values_set
def test_keys(self):
keys = self.cidict.keys()
nose.tools.assert_equal(3, len(keys))
keys_set = set(keys)
assert "Key1" in keys_set
assert "key2" in keys_set
assert "KEY3" in keys_set
assert self.cidict.keys() == list(self.cidict.iterkeys())
def test_values(self):
values = self.cidict.values()
nose.tools.assert_equal(3, len(values))
values_set = set(values)
assert "val1" in values_set
assert "val2" in values_set
assert "VAL3" in values_set
assert self.cidict.values() == list(self.cidict.itervalues())
def test_update(self):
newdict = { "KEY2": "newval2",
"key4": "val4" }
self.cidict.update(newdict)
nose.tools.assert_equal(4, len(self.cidict))
items = self.cidict.items()
nose.tools.assert_equal(4, len(items))
items_set = set(items)
assert ("Key1", "val1") in items_set
# note the update "overwrites" the case of the key2
assert ("KEY2", "newval2") in items_set
assert ("KEY3", "VAL3") in items_set
assert ("key4", "val4") in items_set
def test_update_dict_and_kwargs(self):
self.cidict.update({'a': 'va', 'b': None}, b='vb', key2='v2')
assert dict(self.cidict.items()) == {
'a': 'va', 'b': 'vb',
'Key1': 'val1', 'key2': 'v2', 'KEY3': 'VAL3'}
def test_update_list_and_kwargs(self):
self.cidict.update([('a', 'va'), ('b', None)], b='vb', key2='val2')
assert dict(self.cidict.items()) == {
'a': 'va', 'b': 'vb',
'Key1': 'val1', 'key2': 'val2', 'KEY3': 'VAL3'}
def test_update_duplicate_values_dict(self):
with nose.tools.assert_raises(ValueError):
self.cidict.update({'a': 'va', 'A': None, 'b': 3})
def test_update_duplicate_values_list(self):
with nose.tools.assert_raises(ValueError):
self.cidict.update([('a', 'va'), ('A', None), ('b', 3)])
def test_update_duplicate_values_kwargs(self):
with nose.tools.assert_raises(ValueError):
self.cidict.update(a='va', A=None, b=3)
def test_update_kwargs(self):
self.cidict.update(b='vb', key2='val2')
assert dict(self.cidict.items()) == {
'b': 'vb', 'Key1': 'val1', 'key2': 'val2', 'KEY3': 'VAL3'}
def test_setdefault(self):
nose.tools.assert_equal("val1", self.cidict.setdefault("KEY1", "default"))
assert not self.cidict.has_key("KEY4")
nose.tools.assert_equal("default", self.cidict.setdefault("KEY4", "default"))
assert self.cidict.has_key("KEY4")
nose.tools.assert_equal("default", self.cidict["key4"])
assert not self.cidict.has_key("KEY5")
nose.tools.assert_equal(None, self.cidict.setdefault("KEY5"))
assert self.cidict.has_key("KEY5")
nose.tools.assert_equal(None, self.cidict["key5"])
def test_pop(self):
nose.tools.assert_equal("val1", self.cidict.pop("KEY1", "default"))
assert not self.cidict.has_key("key1")
nose.tools.assert_equal("val2", self.cidict.pop("KEY2"))
assert not self.cidict.has_key("key2")
nose.tools.assert_equal("default", self.cidict.pop("key4", "default"))
with nose.tools.assert_raises(KeyError):
self.cidict.pop("key4")
def test_popitem(self):
items = set(self.cidict.items())
nose.tools.assert_equal(3, len(self.cidict))
item = self.cidict.popitem()
nose.tools.assert_equal(2, len(self.cidict))
assert item in items
items.discard(item)
item = self.cidict.popitem()
nose.tools.assert_equal(1, len(self.cidict))
assert item in items
items.discard(item)
item = self.cidict.popitem()
nose.tools.assert_equal(0, len(self.cidict))
assert item in items
items.discard(item)
def test_fromkeys(self):
dct = ipautil.CIDict.fromkeys(('A', 'b', 'C'))
assert sorted(dct.keys()) == sorted(['A', 'b', 'C'])
assert sorted(dct.values()) == [None] * 3
def test_clear(self):
self.cidict.clear()
assert self.cidict == {}
assert self.cidict.keys() == []
assert self.cidict.values() == []
assert self.cidict.items() == []
assert self.cidict._keys == {}
class TestTimeParser(object):
def test_simple(self):
timestr = "20070803"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(2007, time.year)
nose.tools.assert_equal(8, time.month)
nose.tools.assert_equal(3, time.day)
nose.tools.assert_equal(0, time.hour)
nose.tools.assert_equal(0, time.minute)
nose.tools.assert_equal(0, time.second)
def test_hour_min_sec(self):
timestr = "20051213141205"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(2005, time.year)
nose.tools.assert_equal(12, time.month)
nose.tools.assert_equal(13, time.day)
nose.tools.assert_equal(14, time.hour)
nose.tools.assert_equal(12, time.minute)
nose.tools.assert_equal(5, time.second)
def test_fractions(self):
timestr = "2003092208.5"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(2003, time.year)
nose.tools.assert_equal(9, time.month)
nose.tools.assert_equal(22, time.day)
nose.tools.assert_equal(8, time.hour)
nose.tools.assert_equal(30, time.minute)
nose.tools.assert_equal(0, time.second)
timestr = "199203301544,25"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(1992, time.year)
nose.tools.assert_equal(3, time.month)
nose.tools.assert_equal(30, time.day)
nose.tools.assert_equal(15, time.hour)
nose.tools.assert_equal(44, time.minute)
nose.tools.assert_equal(15, time.second)
timestr = "20060401185912,8"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(2006, time.year)
nose.tools.assert_equal(4, time.month)
nose.tools.assert_equal(1, time.day)
nose.tools.assert_equal(18, time.hour)
nose.tools.assert_equal(59, time.minute)
nose.tools.assert_equal(12, time.second)
nose.tools.assert_equal(800000, time.microsecond)
def test_time_zones(self):
timestr = "20051213141205Z"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(0, time.tzinfo.houroffset)
nose.tools.assert_equal(0, time.tzinfo.minoffset)
offset = time.tzinfo.utcoffset(time.tzinfo.dst())
nose.tools.assert_equal(0, offset.seconds)
timestr = "20051213141205+0500"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(5, time.tzinfo.houroffset)
nose.tools.assert_equal(0, time.tzinfo.minoffset)
offset = time.tzinfo.utcoffset(time.tzinfo.dst())
nose.tools.assert_equal(5 * 60 * 60, offset.seconds)
timestr = "20051213141205-0500"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(-5, time.tzinfo.houroffset)
nose.tools.assert_equal(0, time.tzinfo.minoffset)
# NOTE - the offset is always positive - it's minutes
# _east_ of UTC
offset = time.tzinfo.utcoffset(time.tzinfo.dst())
nose.tools.assert_equal((24 - 5) * 60 * 60, offset.seconds)
timestr = "20051213141205-0930"
time = ipautil.parse_generalized_time(timestr)
nose.tools.assert_equal(-9, time.tzinfo.houroffset)
nose.tools.assert_equal(-30, time.tzinfo.minoffset)
offset = time.tzinfo.utcoffset(time.tzinfo.dst())
nose.tools.assert_equal(((24 - 9) * 60 * 60) - (30 * 60), offset.seconds)
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