| # Copyright 2007 Google Inc. |
| # Licensed to PSF under a Contributor Agreement. |
| |
| """Unittest for ipaddress module.""" |
| |
| import unittest |
| import re |
| import contextlib |
| import operator |
| import ipaddress |
| |
| |
| # Compatibility function |
| import binascii |
| try: |
| _compat_bytes_fromhex = bytes.fromhex |
| except AttributeError: |
| def _compat_bytes_fromhex(s): |
| return binascii.unhexlify(s) |
| _compat_str = ipaddress._compat_str |
| |
| |
| class BaseTestCase(unittest.TestCase): |
| # One big change in ipaddress over the original ipaddr module is |
| # error reporting that tries to assume users *don't know the rules* |
| # for what constitutes an RFC compliant IP address |
| |
| # Ensuring these errors are emitted correctly in all relevant cases |
| # meant moving to a more systematic test structure that allows the |
| # test structure to map more directly to the module structure |
| |
| # Note that if the constructors are refactored so that addresses with |
| # multiple problems get classified differently, that's OK - just |
| # move the affected examples to the newly appropriate test case. |
| |
| # There is some duplication between the original relatively ad hoc |
| # test suite and the new systematic tests. While some redundancy in |
| # testing is considered preferable to accidentally deleting a valid |
| # test, the original test suite will likely be reduced over time as |
| # redundant tests are identified. |
| |
| @property |
| def factory(self): |
| raise NotImplementedError |
| |
| @contextlib.contextmanager |
| def assertCleanError(self, exc_type, details, *args): |
| """ |
| Ensure exception does not display a context by default |
| |
| Wraps unittest.TestCase.assertRaisesRegex |
| """ |
| if args: |
| details = details % args |
| cm = self.assertRaisesRegex(exc_type, details) |
| with cm as exc: |
| yield exc |
| |
| def assertAddressError(self, details, *args): |
| """Ensure a clean AddressValueError""" |
| return self.assertCleanError(ipaddress.AddressValueError, |
| details, *args) |
| |
| def assertNetmaskError(self, details, *args): |
| """Ensure a clean NetmaskValueError""" |
| return self.assertCleanError(ipaddress.NetmaskValueError, |
| details, *args) |
| |
| def assertInstancesEqual(self, lhs, rhs): |
| """Check constructor arguments produce equivalent instances""" |
| self.assertEqual(self.factory(lhs), self.factory(rhs)) |
| |
| class CommonTestMixin: |
| |
| def test_empty_address(self): |
| with self.assertAddressError("Address cannot be empty"): |
| self.factory(u"") |
| |
| def test_floats_rejected(self): |
| with self.assertAddressError(re.escape(repr(u"1.0"))): |
| self.factory(1.0) |
| |
| def test_not_an_index_issue15559(self): |
| # Implementing __index__ makes for a very nasty interaction with the |
| # bytes constructor. Thus, we disallow implicit use as an integer |
| self.assertRaises(TypeError, operator.index, self.factory(1)) |
| self.assertRaises(TypeError, hex, self.factory(1)) |
| # Commented out: bytes semantics are different in 2.x |
| # self.assertRaises(TypeError, bytes, self.factory(1)) |
| |
| |
| class CommonTestMixin_v4(CommonTestMixin): |
| |
| def test_leading_zeros(self): |
| self.assertInstancesEqual(u"000.000.000.000", u"0.0.0.0") |
| self.assertInstancesEqual(u"192.168.000.001", u"192.168.0.1") |
| |
| def test_int(self): |
| self.assertInstancesEqual(0, u"0.0.0.0") |
| self.assertInstancesEqual(3232235521, u"192.168.0.1") |
| |
| def test_packed(self): |
| self.assertInstancesEqual(_compat_bytes_fromhex(u"00000000"), u"0.0.0.0") |
| self.assertInstancesEqual(_compat_bytes_fromhex(u"c0a80001"), u"192.168.0.1") |
| |
| def test_negative_ints_rejected(self): |
| msg = "-1 (< 0) is not permitted as an IPv4 address" |
| with self.assertAddressError(re.escape(msg)): |
| self.factory(-1) |
| |
| def test_large_ints_rejected(self): |
| msg = "%d (>= 2**32) is not permitted as an IPv4 address" |
| with self.assertAddressError(re.escape(msg % 2**32)): |
| self.factory(2**32) |
| |
| def test_bad_packed_length(self): |
| def assertBadLength(length): |
| addr = b'0' * length |
| msg = "%r (len %d != 4) is not permitted as an IPv4 address" |
| with self.assertAddressError(re.escape(msg % (addr, length))): |
| self.factory(addr) |
| |
| assertBadLength(3) |
| assertBadLength(5) |
| |
| class CommonTestMixin_v6(CommonTestMixin): |
| |
| def test_leading_zeros(self): |
| self.assertInstancesEqual(u"0000::0000", u"::") |
| self.assertInstancesEqual(u"000::c0a8:0001", u"::c0a8:1") |
| |
| def test_int(self): |
| self.assertInstancesEqual(0, u"::") |
| self.assertInstancesEqual(3232235521, u"::c0a8:1") |
| |
| def test_packed(self): |
| addr = (b'\0' * 12) + _compat_bytes_fromhex(u"00000000") |
| self.assertInstancesEqual(addr, u"::") |
| addr = (b'\0' * 12) + _compat_bytes_fromhex(u"c0a80001") |
| self.assertInstancesEqual(addr, u"::c0a8:1") |
| addr = _compat_bytes_fromhex(u"c0a80001") + (b'\0' * 12) |
| self.assertInstancesEqual(addr, u"c0a8:1::") |
| |
| def test_negative_ints_rejected(self): |
| msg = "-1 (< 0) is not permitted as an IPv6 address" |
| with self.assertAddressError(re.escape(msg)): |
| self.factory(-1) |
| |
| def test_large_ints_rejected(self): |
| msg = "%d (>= 2**128) is not permitted as an IPv6 address" |
| with self.assertAddressError(re.escape(msg % 2**128)): |
| self.factory(2**128) |
| |
| def test_bad_packed_length(self): |
| def assertBadLength(length): |
| addr = b'0' * length |
| msg = "%r (len %d != 16) is not permitted as an IPv6 address" |
| with self.assertAddressError(re.escape(msg % (addr, length))): |
| self.factory(addr) |
| self.factory(addr) |
| |
| assertBadLength(15) |
| assertBadLength(17) |
| |
| |
| class AddressTestCase_v4(BaseTestCase, CommonTestMixin_v4): |
| factory = ipaddress.IPv4Address |
| |
| def test_network_passed_as_address(self): |
| addr = u"127.0.0.1/24" |
| with self.assertAddressError("Unexpected '/' in %r", addr): |
| ipaddress.IPv4Address(addr) |
| |
| def test_bad_address_split(self): |
| def assertBadSplit(addr): |
| with self.assertAddressError("Expected 4 octets in %r", addr): |
| ipaddress.IPv4Address(addr) |
| |
| assertBadSplit(u"127.0.1") |
| assertBadSplit(u"42.42.42.42.42") |
| assertBadSplit(u"42.42.42") |
| assertBadSplit(u"42.42") |
| assertBadSplit(u"42") |
| assertBadSplit(u"42..42.42.42") |
| assertBadSplit(u"42.42.42.42.") |
| assertBadSplit(u"42.42.42.42...") |
| assertBadSplit(u".42.42.42.42") |
| assertBadSplit(u"...42.42.42.42") |
| assertBadSplit(u"016.016.016") |
| assertBadSplit(u"016.016") |
| assertBadSplit(u"016") |
| assertBadSplit(u"000") |
| assertBadSplit(u"0x0a.0x0a.0x0a") |
| assertBadSplit(u"0x0a.0x0a") |
| assertBadSplit(u"0x0a") |
| assertBadSplit(u".") |
| assertBadSplit(u"bogus") |
| assertBadSplit(u"bogus.com") |
| assertBadSplit(u"1000") |
| assertBadSplit(u"1000000000000000") |
| assertBadSplit(u"192.168.0.1.com") |
| |
| def test_empty_octet(self): |
| def assertBadOctet(addr): |
| with self.assertAddressError("Empty octet not permitted in %r", |
| addr): |
| ipaddress.IPv4Address(addr) |
| |
| assertBadOctet(u"42..42.42") |
| assertBadOctet(u"...") |
| |
| def test_invalid_characters(self): |
| def assertBadOctet(addr, octet): |
| msg = "Only decimal digits permitted in %r in %r" % (octet, addr) |
| with self.assertAddressError(re.escape(msg)): |
| ipaddress.IPv4Address(addr) |
| |
| assertBadOctet(u"0x0a.0x0a.0x0a.0x0a", u"0x0a") |
| assertBadOctet(u"0xa.0x0a.0x0a.0x0a", u"0xa") |
| assertBadOctet(u"42.42.42.-0", u"-0") |
| assertBadOctet(u"42.42.42.+0", u"+0") |
| assertBadOctet(u"42.42.42.-42", u"-42") |
| assertBadOctet(u"+1.+2.+3.4", u"+1") |
| assertBadOctet(u"1.2.3.4e0", u"4e0") |
| assertBadOctet(u"1.2.3.4::", u"4::") |
| assertBadOctet(u"1.a.2.3", u"a") |
| |
| def test_octal_decimal_ambiguity(self): |
| def assertBadOctet(addr, octet): |
| msg = "Ambiguous (octal/decimal) value in %r not permitted in %r" |
| with self.assertAddressError(re.escape(msg % (octet, addr))): |
| ipaddress.IPv4Address(addr) |
| |
| assertBadOctet(u"016.016.016.016", u"016") |
| assertBadOctet(u"001.000.008.016", u"008") |
| |
| def test_octet_length(self): |
| def assertBadOctet(addr, octet): |
| msg = "At most 3 characters permitted in %r in %r" |
| with self.assertAddressError(re.escape(msg % (octet, addr))): |
| ipaddress.IPv4Address(addr) |
| |
| assertBadOctet(u"0000.000.000.000", u"0000") |
| assertBadOctet(u"12345.67899.-54321.-98765", u"12345") |
| |
| def test_octet_limit(self): |
| def assertBadOctet(addr, octet): |
| msg = "Octet %d (> 255) not permitted in %r" % (octet, addr) |
| with self.assertAddressError(re.escape(msg)): |
| ipaddress.IPv4Address(addr) |
| |
| assertBadOctet(u"257.0.0.0", 257) |
| assertBadOctet(u"192.168.0.999", 999) |
| |
| |
| class AddressTestCase_v6(BaseTestCase, CommonTestMixin_v6): |
| factory = ipaddress.IPv6Address |
| |
| def test_network_passed_as_address(self): |
| addr = u"::1/24" |
| with self.assertAddressError("Unexpected '/' in %r", addr): |
| ipaddress.IPv6Address(addr) |
| |
| def test_bad_address_split_v6_not_enough_parts(self): |
| def assertBadSplit(addr): |
| msg = "At least 3 parts expected in %r" |
| with self.assertAddressError(msg, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadSplit(u":") |
| assertBadSplit(u":1") |
| assertBadSplit(u"FEDC:9878") |
| |
| def test_bad_address_split_v6_too_many_colons(self): |
| def assertBadSplit(addr): |
| msg = "At most 8 colons permitted in %r" |
| with self.assertAddressError(msg, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadSplit(u"9:8:7:6:5:4:3::2:1") |
| assertBadSplit(u"10:9:8:7:6:5:4:3:2:1") |
| assertBadSplit(u"::8:7:6:5:4:3:2:1") |
| assertBadSplit(u"8:7:6:5:4:3:2:1::") |
| # A trailing IPv4 address is two parts |
| assertBadSplit(u"10:9:8:7:6:5:4:3:42.42.42.42") |
| |
| def test_bad_address_split_v6_too_many_parts(self): |
| def assertBadSplit(addr): |
| msg = "Exactly 8 parts expected without '::' in %r" |
| with self.assertAddressError(msg, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadSplit(u"3ffe:0:0:0:0:0:0:0:1") |
| assertBadSplit(u"9:8:7:6:5:4:3:2:1") |
| assertBadSplit(u"7:6:5:4:3:2:1") |
| # A trailing IPv4 address is two parts |
| assertBadSplit(u"9:8:7:6:5:4:3:42.42.42.42") |
| assertBadSplit(u"7:6:5:4:3:42.42.42.42") |
| |
| def test_bad_address_split_v6_too_many_parts_with_double_colon(self): |
| def assertBadSplit(addr): |
| msg = "Expected at most 7 other parts with '::' in %r" |
| with self.assertAddressError(msg, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadSplit(u"1:2:3:4::5:6:7:8") |
| |
| def test_bad_address_split_v6_repeated_double_colon(self): |
| def assertBadSplit(addr): |
| msg = "At most one '::' permitted in %r" |
| with self.assertAddressError(msg, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadSplit(u"3ffe::1::1") |
| assertBadSplit(u"1::2::3::4:5") |
| assertBadSplit(u"2001::db:::1") |
| assertBadSplit(u"3ffe::1::") |
| assertBadSplit(u"::3ffe::1") |
| assertBadSplit(u":3ffe::1::1") |
| assertBadSplit(u"3ffe::1::1:") |
| assertBadSplit(u":3ffe::1::1:") |
| assertBadSplit(u":::") |
| assertBadSplit(u'2001:db8:::1') |
| |
| def test_bad_address_split_v6_leading_colon(self): |
| def assertBadSplit(addr): |
| msg = "Leading ':' only permitted as part of '::' in %r" |
| with self.assertAddressError(msg, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadSplit(u":2001:db8::1") |
| assertBadSplit(u":1:2:3:4:5:6:7") |
| assertBadSplit(u":1:2:3:4:5:6:") |
| assertBadSplit(u":6:5:4:3:2:1::") |
| |
| def test_bad_address_split_v6_trailing_colon(self): |
| def assertBadSplit(addr): |
| msg = "Trailing ':' only permitted as part of '::' in %r" |
| with self.assertAddressError(msg, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadSplit(u"2001:db8::1:") |
| assertBadSplit(u"1:2:3:4:5:6:7:") |
| assertBadSplit(u"::1.2.3.4:") |
| assertBadSplit(u"::7:6:5:4:3:2:") |
| |
| def test_bad_v4_part_in(self): |
| def assertBadAddressPart(addr, v4_error): |
| with self.assertAddressError("%s in %r", v4_error, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadAddressPart(u"3ffe::1.net", "Expected 4 octets in u?'1.net'") |
| assertBadAddressPart(u"3ffe::127.0.1", |
| "Expected 4 octets in u?'127.0.1'") |
| assertBadAddressPart(u"::1.2.3", |
| "Expected 4 octets in u?'1.2.3'") |
| assertBadAddressPart(u"::1.2.3.4.5", |
| "Expected 4 octets in u?'1.2.3.4.5'") |
| assertBadAddressPart(u"3ffe::1.1.1.net", |
| "Only decimal digits permitted in u?'net' " |
| "in u?'1.1.1.net'") |
| |
| def test_invalid_characters(self): |
| def assertBadPart(addr, part): |
| msg = "Only hex digits permitted in %r in %r" % (part, addr) |
| with self.assertAddressError(re.escape(msg)): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadPart(u"3ffe::goog", u"goog") |
| assertBadPart(u"3ffe::-0", u"-0") |
| assertBadPart(u"3ffe::+0", u"+0") |
| assertBadPart(u"3ffe::-1", u"-1") |
| assertBadPart(u"1.2.3.4::", u"1.2.3.4") |
| assertBadPart(u'1234:axy::b', u"axy") |
| |
| def test_part_length(self): |
| def assertBadPart(addr, part): |
| msg = "At most 4 characters permitted in %r in %r" |
| with self.assertAddressError(msg, part, addr): |
| ipaddress.IPv6Address(addr) |
| |
| assertBadPart(u"::00000", u"00000") |
| assertBadPart(u"3ffe::10000", u"10000") |
| assertBadPart(u"02001:db8::", u"02001") |
| assertBadPart(u'2001:888888::1', u"888888") |
| |
| |
| class NetmaskTestMixin_v4(CommonTestMixin_v4): |
| """Input validation on interfaces and networks is very similar""" |
| |
| def test_split_netmask(self): |
| addr = u"1.2.3.4/32/24" |
| with self.assertAddressError("Only one '/' permitted in %r" % addr): |
| self.factory(addr) |
| |
| def test_address_errors(self): |
| def assertBadAddress(addr, details): |
| with self.assertAddressError(details): |
| self.factory(addr) |
| |
| assertBadAddress(u"/", "Address cannot be empty") |
| assertBadAddress(u"/8", "Address cannot be empty") |
| assertBadAddress(u"bogus", "Expected 4 octets") |
| assertBadAddress(u"google.com", "Expected 4 octets") |
| assertBadAddress(u"10/8", "Expected 4 octets") |
| assertBadAddress(u"::1.2.3.4", "Only decimal digits") |
| assertBadAddress(u"1.2.3.256", re.escape(u"256 (> 255)")) |
| |
| def test_netmask_errors(self): |
| def assertBadNetmask(addr, netmask): |
| msg = "%r is not a valid netmask" |
| with self.assertNetmaskError(msg % netmask): |
| self.factory("%s/%s" % (addr, netmask)) |
| |
| assertBadNetmask(u"1.2.3.4", "") |
| assertBadNetmask(u"1.2.3.4", u"33") |
| assertBadNetmask(u"1.2.3.4", u"254.254.255.256") |
| assertBadNetmask(u"1.1.1.1", u"254.xyz.2.3") |
| assertBadNetmask(u"1.1.1.1", u"240.255.0.0") |
| assertBadNetmask(u"1.1.1.1", "pudding") |
| |
| class InterfaceTestCase_v4(BaseTestCase, NetmaskTestMixin_v4): |
| factory = ipaddress.IPv4Interface |
| |
| class NetworkTestCase_v4(BaseTestCase, NetmaskTestMixin_v4): |
| factory = ipaddress.IPv4Network |
| |
| |
| class NetmaskTestMixin_v6(CommonTestMixin_v6): |
| """Input validation on interfaces and networks is very similar""" |
| |
| def test_split_netmask(self): |
| addr = u"cafe:cafe::/128/190" |
| with self.assertAddressError("Only one '/' permitted in %r" % addr): |
| self.factory(addr) |
| |
| def test_address_errors(self): |
| def assertBadAddress(addr, details): |
| with self.assertAddressError(details): |
| self.factory(addr) |
| |
| assertBadAddress(u"/", "Address cannot be empty") |
| assertBadAddress(u"/8", "Address cannot be empty") |
| assertBadAddress(u"google.com", "At least 3 parts") |
| assertBadAddress(u"1.2.3.4", "At least 3 parts") |
| assertBadAddress(u"10/8", "At least 3 parts") |
| assertBadAddress(u"1234:axy::b", "Only hex digits") |
| |
| def test_netmask_errors(self): |
| def assertBadNetmask(addr, netmask): |
| msg = "%r is not a valid netmask" |
| with self.assertNetmaskError(msg % netmask): |
| self.factory("%s/%s" % (addr, netmask)) |
| |
| assertBadNetmask(u"::1", "") |
| assertBadNetmask(u"::1", u"::1") |
| assertBadNetmask(u"::1", u"1::") |
| assertBadNetmask(u"::1", u"129") |
| assertBadNetmask(u"::1", "pudding") |
| |
| class InterfaceTestCase_v6(BaseTestCase, NetmaskTestMixin_v6): |
| factory = ipaddress.IPv6Interface |
| |
| class NetworkTestCase_v6(BaseTestCase, NetmaskTestMixin_v6): |
| factory = ipaddress.IPv6Network |
| |
| |
| class FactoryFunctionErrors(BaseTestCase): |
| |
| def assertFactoryError(self, factory, kind): |
| """Ensure a clean ValueError with the expected message""" |
| addr = u"camelot" |
| msg = '%r does not appear to be an IPv4 or IPv6 %s' |
| with self.assertCleanError(ValueError, msg, addr, kind): |
| factory(addr) |
| |
| def test_ip_address(self): |
| self.assertFactoryError(ipaddress.ip_address, "address") |
| |
| def test_ip_interface(self): |
| self.assertFactoryError(ipaddress.ip_interface, "interface") |
| |
| def test_ip_network(self): |
| self.assertFactoryError(ipaddress.ip_network, "network") |
| |
| |
| class ComparisonTests(unittest.TestCase): |
| |
| v4addr = ipaddress.IPv4Address(1) |
| v4net = ipaddress.IPv4Network(1) |
| v4intf = ipaddress.IPv4Interface(1) |
| v6addr = ipaddress.IPv6Address(1) |
| v6net = ipaddress.IPv6Network(1) |
| v6intf = ipaddress.IPv6Interface(1) |
| |
| v4_addresses = [v4addr, v4intf] |
| v4_objects = v4_addresses + [v4net] |
| v6_addresses = [v6addr, v6intf] |
| v6_objects = v6_addresses + [v6net] |
| objects = v4_objects + v6_objects |
| |
| def test_foreign_type_equality(self): |
| # __eq__ should never raise TypeError directly |
| other = object() |
| for obj in self.objects: |
| self.assertNotEqual(obj, other) |
| self.assertFalse(obj == other) |
| self.assertEqual(obj.__eq__(other), NotImplemented) |
| self.assertEqual(obj.__ne__(other), NotImplemented) |
| |
| def test_mixed_type_equality(self): |
| # Ensure none of the internal objects accidentally |
| # expose the right set of attributes to become "equal" |
| for lhs in self.objects: |
| for rhs in self.objects: |
| if lhs is rhs: |
| continue |
| self.assertNotEqual(lhs, rhs) |
| |
| def test_containment(self): |
| for obj in self.v4_addresses: |
| self.assertIn(obj, self.v4net) |
| for obj in self.v6_addresses: |
| self.assertIn(obj, self.v6net) |
| for obj in self.v4_objects + [self.v6net]: |
| self.assertNotIn(obj, self.v6net) |
| for obj in self.v6_objects + [self.v4net]: |
| self.assertNotIn(obj, self.v4net) |
| |
| def test_mixed_type_ordering(self): |
| for lhs in self.objects: |
| for rhs in self.objects: |
| if isinstance(lhs, type(rhs)) or isinstance(rhs, type(lhs)): |
| continue |
| self.assertRaises(TypeError, lambda: lhs < rhs) |
| self.assertRaises(TypeError, lambda: lhs > rhs) |
| self.assertRaises(TypeError, lambda: lhs <= rhs) |
| self.assertRaises(TypeError, lambda: lhs >= rhs) |
| |
| def test_mixed_type_key(self): |
| # with get_mixed_type_key, you can sort addresses and network. |
| v4_ordered = [self.v4addr, self.v4net, self.v4intf] |
| v6_ordered = [self.v6addr, self.v6net, self.v6intf] |
| self.assertEqual(v4_ordered, |
| sorted(self.v4_objects, |
| key=ipaddress.get_mixed_type_key)) |
| self.assertEqual(v6_ordered, |
| sorted(self.v6_objects, |
| key=ipaddress.get_mixed_type_key)) |
| self.assertEqual(v4_ordered + v6_ordered, |
| sorted(self.objects, |
| key=ipaddress.get_mixed_type_key)) |
| self.assertEqual(NotImplemented, ipaddress.get_mixed_type_key(object)) |
| |
| def test_incompatible_versions(self): |
| # These should always raise TypeError |
| v4addr = ipaddress.ip_address(u'1.1.1.1') |
| v4net = ipaddress.ip_network(u'1.1.1.1') |
| v6addr = ipaddress.ip_address(u'::1') |
| v6net = ipaddress.ip_address(u'::1') |
| |
| self.assertRaises(TypeError, v4addr.__lt__, v6addr) |
| self.assertRaises(TypeError, v4addr.__gt__, v6addr) |
| self.assertRaises(TypeError, v4net.__lt__, v6net) |
| self.assertRaises(TypeError, v4net.__gt__, v6net) |
| |
| self.assertRaises(TypeError, v6addr.__lt__, v4addr) |
| self.assertRaises(TypeError, v6addr.__gt__, v4addr) |
| self.assertRaises(TypeError, v6net.__lt__, v4net) |
| self.assertRaises(TypeError, v6net.__gt__, v4net) |
| |
| |
| |
| class IpaddrUnitTest(unittest.TestCase): |
| |
| def setUp(self): |
| self.ipv4_address = ipaddress.IPv4Address(u'1.2.3.4') |
| self.ipv4_interface = ipaddress.IPv4Interface(u'1.2.3.4/24') |
| self.ipv4_network = ipaddress.IPv4Network(u'1.2.3.0/24') |
| #self.ipv4_hostmask = ipaddress.IPv4Interface(u'10.0.0.1/0.255.255.255') |
| self.ipv6_address = ipaddress.IPv6Interface( |
| u'2001:658:22a:cafe:200:0:0:1') |
| self.ipv6_interface = ipaddress.IPv6Interface( |
| u'2001:658:22a:cafe:200:0:0:1/64') |
| self.ipv6_network = ipaddress.IPv6Network(u'2001:658:22a:cafe::/64') |
| |
| def testRepr(self): |
| self.assertTrue(re.match(ur"IPv4Interface\(u?'1.2.3.4/32'\)", |
| repr(ipaddress.IPv4Interface(u'1.2.3.4')))) |
| self.assertTrue(re.match(ur"IPv6Interface\(u?'::1/128'\)", |
| repr(ipaddress.IPv6Interface(u'::1')))) |
| |
| # issue57 |
| def testAddressIntMath(self): |
| self.assertEqual(ipaddress.IPv4Address(u'1.1.1.1') + 255, |
| ipaddress.IPv4Address(u'1.1.2.0')) |
| self.assertEqual(ipaddress.IPv4Address(u'1.1.1.1') - 256, |
| ipaddress.IPv4Address(u'1.1.0.1')) |
| self.assertEqual(ipaddress.IPv6Address(u'::1') + (2**16 - 2), |
| ipaddress.IPv6Address(u'::ffff')) |
| self.assertEqual(ipaddress.IPv6Address(u'::ffff') - (2**16 - 2), |
| ipaddress.IPv6Address(u'::1')) |
| |
| def testInvalidIntToBytes(self): |
| self.assertRaises(ValueError, ipaddress.v4_int_to_packed, -1) |
| self.assertRaises(ValueError, ipaddress.v4_int_to_packed, |
| 2 ** ipaddress.IPV4LENGTH) |
| self.assertRaises(ValueError, ipaddress.v6_int_to_packed, -1) |
| self.assertRaises(ValueError, ipaddress.v6_int_to_packed, |
| 2 ** ipaddress.IPV6LENGTH) |
| |
| def testInternals(self): |
| first, last = ipaddress._find_address_range([ |
| ipaddress.IPv4Address(u'10.10.10.10'), |
| ipaddress.IPv4Address(u'10.10.10.12')]) |
| self.assertEqual(first, last) |
| self.assertEqual(128, ipaddress._count_righthand_zero_bits(0, 128)) |
| self.assertTrue(re.match(ur"IPv4Network\(u?'1.2.3.0/24'\)", repr(self.ipv4_network))) |
| |
| def testMissingAddressVersion(self): |
| class Broken(ipaddress._BaseAddress): |
| pass |
| broken = Broken('127.0.0.1') |
| with self.assertRaisesRegex(NotImplementedError, "Broken.*version"): |
| broken.version |
| |
| def testMissingNetworkVersion(self): |
| class Broken(ipaddress._BaseNetwork): |
| pass |
| broken = Broken('127.0.0.1') |
| with self.assertRaisesRegex(NotImplementedError, "Broken.*version"): |
| broken.version |
| |
| def testMissingAddressClass(self): |
| class Broken(ipaddress._BaseNetwork): |
| pass |
| broken = Broken(u'127.0.0.1') |
| with self.assertRaisesRegex(NotImplementedError, "Broken.*address"): |
| broken._address_class |
| |
| def testGetNetwork(self): |
| self.assertEqual(int(self.ipv4_network.network_address), 16909056) |
| self.assertEqual(_compat_str(self.ipv4_network.network_address), u'1.2.3.0') |
| |
| self.assertEqual(int(self.ipv6_network.network_address), |
| 42540616829182469433403647294022090752) |
| self.assertEqual(_compat_str(self.ipv6_network.network_address), |
| u'2001:658:22a:cafe::') |
| self.assertEqual(_compat_str(self.ipv6_network.hostmask), |
| u'::ffff:ffff:ffff:ffff') |
| |
| def testIpFromInt(self): |
| self.assertEqual(self.ipv4_interface._ip, |
| ipaddress.IPv4Interface(16909060)._ip) |
| |
| ipv4 = ipaddress.ip_network(u'1.2.3.4') |
| ipv6 = ipaddress.ip_network(u'2001:658:22a:cafe:200:0:0:1') |
| self.assertEqual(ipv4, ipaddress.ip_network(int(ipv4.network_address))) |
| self.assertEqual(ipv6, ipaddress.ip_network(int(ipv6.network_address))) |
| |
| v6_int = 42540616829182469433547762482097946625 |
| self.assertEqual(self.ipv6_interface._ip, |
| ipaddress.IPv6Interface(v6_int)._ip) |
| |
| self.assertEqual(ipaddress.ip_network(self.ipv4_address._ip).version, |
| 4) |
| self.assertEqual(ipaddress.ip_network(self.ipv6_address._ip).version, |
| 6) |
| |
| def testIpFromPacked(self): |
| address = ipaddress.ip_address |
| self.assertEqual(self.ipv4_interface._ip, |
| ipaddress.ip_interface(b'\x01\x02\x03\x04')._ip) |
| self.assertEqual(address(u'255.254.253.252'), |
| address(b'\xff\xfe\xfd\xfc')) |
| self.assertEqual(self.ipv6_interface.ip, |
| ipaddress.ip_interface( |
| b'\x20\x01\x06\x58\x02\x2a\xca\xfe' |
| b'\x02\x00\x00\x00\x00\x00\x00\x01').ip) |
| self.assertEqual(address(u'ffff:2:3:4:ffff::'), |
| address(b'\xff\xff\x00\x02\x00\x03\x00\x04' + |
| b'\xff\xff' + b'\x00' * 6)) |
| self.assertEqual(address(u'::'), |
| address(b'\x00' * 16)) |
| |
| def testGetIp(self): |
| self.assertEqual(int(self.ipv4_interface.ip), 16909060) |
| self.assertEqual(_compat_str(self.ipv4_interface.ip), u'1.2.3.4') |
| |
| self.assertEqual(int(self.ipv6_interface.ip), |
| 42540616829182469433547762482097946625) |
| self.assertEqual(_compat_str(self.ipv6_interface.ip), |
| u'2001:658:22a:cafe:200::1') |
| |
| def testGetNetmask(self): |
| self.assertEqual(int(self.ipv4_network.netmask), 4294967040) |
| self.assertEqual(_compat_str(self.ipv4_network.netmask), u'255.255.255.0') |
| self.assertEqual(int(self.ipv6_network.netmask), |
| 340282366920938463444927863358058659840) |
| self.assertEqual(self.ipv6_network.prefixlen, 64) |
| |
| def testZeroNetmask(self): |
| ipv4_zero_netmask = ipaddress.IPv4Interface(u'1.2.3.4/0') |
| self.assertEqual(int(ipv4_zero_netmask.network.netmask), 0) |
| self.assertTrue(ipv4_zero_netmask.network._is_valid_netmask( |
| _compat_str(0))) |
| self.assertTrue(ipv4_zero_netmask._is_valid_netmask(u'0')) |
| self.assertTrue(ipv4_zero_netmask._is_valid_netmask(u'0.0.0.0')) |
| self.assertFalse(ipv4_zero_netmask._is_valid_netmask(u'invalid')) |
| |
| ipv6_zero_netmask = ipaddress.IPv6Interface(u'::1/0') |
| self.assertEqual(int(ipv6_zero_netmask.network.netmask), 0) |
| self.assertTrue(ipv6_zero_netmask.network._is_valid_netmask( |
| _compat_str(0))) |
| |
| def testIPv4NetAndHostmasks(self): |
| net = self.ipv4_network |
| self.assertFalse(net._is_valid_netmask(u'invalid')) |
| self.assertTrue(net._is_valid_netmask(u'128.128.128.128')) |
| self.assertFalse(net._is_valid_netmask(u'128.128.128.127')) |
| self.assertFalse(net._is_valid_netmask(u'128.128.128.255')) |
| self.assertTrue(net._is_valid_netmask(u'255.128.128.128')) |
| |
| self.assertFalse(net._is_hostmask(u'invalid')) |
| self.assertTrue(net._is_hostmask(u'128.255.255.255')) |
| self.assertFalse(net._is_hostmask(u'255.255.255.255')) |
| self.assertFalse(net._is_hostmask(u'1.2.3.4')) |
| |
| net = ipaddress.IPv4Network(u'127.0.0.0/0.0.0.255') |
| self.assertEqual(24, net.prefixlen) |
| |
| def testGetBroadcast(self): |
| self.assertEqual(int(self.ipv4_network.broadcast_address), 16909311) |
| self.assertEqual(_compat_str(self.ipv4_network.broadcast_address), u'1.2.3.255') |
| |
| self.assertEqual(int(self.ipv6_network.broadcast_address), |
| 42540616829182469451850391367731642367) |
| self.assertEqual(_compat_str(self.ipv6_network.broadcast_address), |
| u'2001:658:22a:cafe:ffff:ffff:ffff:ffff') |
| |
| def testGetPrefixlen(self): |
| self.assertEqual(self.ipv4_interface.network.prefixlen, 24) |
| self.assertEqual(self.ipv6_interface.network.prefixlen, 64) |
| |
| def testGetSupernet(self): |
| self.assertEqual(self.ipv4_network.supernet().prefixlen, 23) |
| self.assertEqual(_compat_str(self.ipv4_network.supernet().network_address), |
| u'1.2.2.0') |
| self.assertEqual( |
| ipaddress.IPv4Interface(u'0.0.0.0/0').network.supernet(), |
| ipaddress.IPv4Network(u'0.0.0.0/0')) |
| |
| self.assertEqual(self.ipv6_network.supernet().prefixlen, 63) |
| self.assertEqual(_compat_str(self.ipv6_network.supernet().network_address), |
| u'2001:658:22a:cafe::') |
| self.assertEqual(ipaddress.IPv6Interface(u'::0/0').network.supernet(), |
| ipaddress.IPv6Network(u'::0/0')) |
| |
| def testGetSupernet3(self): |
| self.assertEqual(self.ipv4_network.supernet(3).prefixlen, 21) |
| self.assertEqual(_compat_str(self.ipv4_network.supernet(3).network_address), |
| u'1.2.0.0') |
| |
| self.assertEqual(self.ipv6_network.supernet(3).prefixlen, 61) |
| self.assertEqual(_compat_str(self.ipv6_network.supernet(3).network_address), |
| u'2001:658:22a:caf8::') |
| |
| def testGetSupernet4(self): |
| self.assertRaises(ValueError, self.ipv4_network.supernet, |
| prefixlen_diff=2, new_prefix=1) |
| self.assertRaises(ValueError, self.ipv4_network.supernet, |
| new_prefix=25) |
| self.assertEqual(self.ipv4_network.supernet(prefixlen_diff=2), |
| self.ipv4_network.supernet(new_prefix=22)) |
| |
| self.assertRaises(ValueError, self.ipv6_network.supernet, |
| prefixlen_diff=2, new_prefix=1) |
| self.assertRaises(ValueError, self.ipv6_network.supernet, |
| new_prefix=65) |
| self.assertEqual(self.ipv6_network.supernet(prefixlen_diff=2), |
| self.ipv6_network.supernet(new_prefix=62)) |
| |
| def testHosts(self): |
| hosts = list(self.ipv4_network.hosts()) |
| self.assertEqual(254, len(hosts)) |
| self.assertEqual(ipaddress.IPv4Address(u'1.2.3.1'), hosts[0]) |
| self.assertEqual(ipaddress.IPv4Address(u'1.2.3.254'), hosts[-1]) |
| |
| # special case where only 1 bit is left for address |
| self.assertEqual([ipaddress.IPv4Address(u'2.0.0.0'), |
| ipaddress.IPv4Address(u'2.0.0.1')], |
| list(ipaddress.ip_network(u'2.0.0.0/31').hosts())) |
| |
| def testFancySubnetting(self): |
| self.assertEqual(sorted(self.ipv4_network.subnets(prefixlen_diff=3)), |
| sorted(self.ipv4_network.subnets(new_prefix=27))) |
| self.assertRaises(ValueError, list, |
| self.ipv4_network.subnets(new_prefix=23)) |
| self.assertRaises(ValueError, list, |
| self.ipv4_network.subnets(prefixlen_diff=3, |
| new_prefix=27)) |
| self.assertEqual(sorted(self.ipv6_network.subnets(prefixlen_diff=4)), |
| sorted(self.ipv6_network.subnets(new_prefix=68))) |
| self.assertRaises(ValueError, list, |
| self.ipv6_network.subnets(new_prefix=63)) |
| self.assertRaises(ValueError, list, |
| self.ipv6_network.subnets(prefixlen_diff=4, |
| new_prefix=68)) |
| |
| def testGetSubnets(self): |
| self.assertEqual(list(self.ipv4_network.subnets())[0].prefixlen, 25) |
| self.assertEqual(_compat_str(list( |
| self.ipv4_network.subnets())[0].network_address), |
| u'1.2.3.0') |
| self.assertEqual(_compat_str(list( |
| self.ipv4_network.subnets())[1].network_address), |
| u'1.2.3.128') |
| |
| self.assertEqual(list(self.ipv6_network.subnets())[0].prefixlen, 65) |
| |
| def testGetSubnetForSingle32(self): |
| ip = ipaddress.IPv4Network(u'1.2.3.4/32') |
| subnets1 = [_compat_str(x) for x in ip.subnets()] |
| subnets2 = [_compat_str(x) for x in ip.subnets(2)] |
| self.assertEqual(subnets1, [u'1.2.3.4/32']) |
| self.assertEqual(subnets1, subnets2) |
| |
| def testGetSubnetForSingle128(self): |
| ip = ipaddress.IPv6Network(u'::1/128') |
| subnets1 = [_compat_str(x) for x in ip.subnets()] |
| subnets2 = [_compat_str(x) for x in ip.subnets(2)] |
| self.assertEqual(subnets1, [u'::1/128']) |
| self.assertEqual(subnets1, subnets2) |
| |
| def testSubnet2(self): |
| ips = [str(x) for x in self.ipv4_network.subnets(2)] |
| self.assertEqual( |
| ips, |
| [u'1.2.3.0/26', u'1.2.3.64/26', u'1.2.3.128/26', u'1.2.3.192/26']) |
| |
| ipsv6 = [str(x) for x in self.ipv6_network.subnets(2)] |
| self.assertEqual( |
| ipsv6, |
| [u'2001:658:22a:cafe::/66', |
| u'2001:658:22a:cafe:4000::/66', |
| u'2001:658:22a:cafe:8000::/66', |
| u'2001:658:22a:cafe:c000::/66']) |
| |
| def testSubnetFailsForLargeCidrDiff(self): |
| self.assertRaises(ValueError, list, |
| self.ipv4_interface.network.subnets(9)) |
| self.assertRaises(ValueError, list, |
| self.ipv4_network.subnets(9)) |
| self.assertRaises(ValueError, list, |
| self.ipv6_interface.network.subnets(65)) |
| self.assertRaises(ValueError, list, |
| self.ipv6_network.subnets(65)) |
| |
| def testSupernetFailsForLargeCidrDiff(self): |
| self.assertRaises(ValueError, |
| self.ipv4_interface.network.supernet, 25) |
| self.assertRaises(ValueError, |
| self.ipv6_interface.network.supernet, 65) |
| |
| def testSubnetFailsForNegativeCidrDiff(self): |
| self.assertRaises(ValueError, list, |
| self.ipv4_interface.network.subnets(-1)) |
| self.assertRaises(ValueError, list, |
| self.ipv4_network.subnets(-1)) |
| self.assertRaises(ValueError, list, |
| self.ipv6_interface.network.subnets(-1)) |
| self.assertRaises(ValueError, list, |
| self.ipv6_network.subnets(-1)) |
| |
| def testGetNum_Addresses(self): |
| self.assertEqual(self.ipv4_network.num_addresses, 256) |
| self.assertEqual(list(self.ipv4_network.subnets())[0].num_addresses, |
| 128) |
| self.assertEqual(self.ipv4_network.supernet().num_addresses, 512) |
| |
| self.assertEqual(self.ipv6_network.num_addresses, 18446744073709551616) |
| self.assertEqual(list(self.ipv6_network.subnets())[0].num_addresses, |
| 9223372036854775808) |
| self.assertEqual(self.ipv6_network.supernet().num_addresses, |
| 36893488147419103232) |
| |
| def testContains(self): |
| self.assertTrue(ipaddress.IPv4Interface(u'1.2.3.128/25') in |
| self.ipv4_network) |
| self.assertFalse(ipaddress.IPv4Interface(u'1.2.4.1/24') in |
| self.ipv4_network) |
| # We can test addresses and string as well. |
| addr1 = ipaddress.IPv4Address(u'1.2.3.37') |
| self.assertTrue(addr1 in self.ipv4_network) |
| # issue 61, bad network comparison on like-ip'd network objects |
| # with identical broadcast addresses. |
| self.assertFalse(ipaddress.IPv4Network(u'1.1.0.0/16').__contains__( |
| ipaddress.IPv4Network(u'1.0.0.0/15'))) |
| |
| def testNth(self): |
| self.assertEqual(_compat_str(self.ipv4_network[5]), u'1.2.3.5') |
| self.assertRaises(IndexError, self.ipv4_network.__getitem__, 256) |
| |
| self.assertEqual(_compat_str(self.ipv6_network[5]), |
| u'2001:658:22a:cafe::5') |
| |
| def testGetitem(self): |
| # http://code.google.com/p/ipaddr-py/issues/detail?id=15 |
| addr = ipaddress.IPv4Network(u'172.31.255.128/255.255.255.240') |
| self.assertEqual(28, addr.prefixlen) |
| addr_list = list(addr) |
| self.assertEqual(u'172.31.255.128', str(addr_list[0])) |
| self.assertEqual(u'172.31.255.128', str(addr[0])) |
| self.assertEqual(u'172.31.255.143', str(addr_list[-1])) |
| self.assertEqual(u'172.31.255.143', str(addr[-1])) |
| self.assertEqual(addr_list[-1], addr[-1]) |
| |
| def testEqual(self): |
| self.assertTrue(self.ipv4_interface == |
| ipaddress.IPv4Interface(u'1.2.3.4/24')) |
| self.assertFalse(self.ipv4_interface == |
| ipaddress.IPv4Interface(u'1.2.3.4/23')) |
| self.assertFalse(self.ipv4_interface == |
| ipaddress.IPv6Interface(u'::1.2.3.4/24')) |
| self.assertFalse(self.ipv4_interface == u'') |
| self.assertFalse(self.ipv4_interface == []) |
| self.assertFalse(self.ipv4_interface == 2) |
| |
| self.assertTrue(self.ipv6_interface == |
| ipaddress.IPv6Interface(u'2001:658:22a:cafe:200::1/64')) |
| self.assertFalse(self.ipv6_interface == |
| ipaddress.IPv6Interface(u'2001:658:22a:cafe:200::1/63')) |
| self.assertFalse(self.ipv6_interface == |
| ipaddress.IPv4Interface(u'1.2.3.4/23')) |
| self.assertFalse(self.ipv6_interface == u'') |
| self.assertFalse(self.ipv6_interface == []) |
| self.assertFalse(self.ipv6_interface == 2) |
| |
| def testNotEqual(self): |
| self.assertFalse(self.ipv4_interface != |
| ipaddress.IPv4Interface(u'1.2.3.4/24')) |
| self.assertTrue(self.ipv4_interface != |
| ipaddress.IPv4Interface(u'1.2.3.4/23')) |
| self.assertTrue(self.ipv4_interface != |
| ipaddress.IPv6Interface(u'::1.2.3.4/24')) |
| self.assertTrue(self.ipv4_interface != u'') |
| self.assertTrue(self.ipv4_interface != []) |
| self.assertTrue(self.ipv4_interface != 2) |
| |
| self.assertTrue(self.ipv4_address != |
| ipaddress.IPv4Address(u'1.2.3.5')) |
| self.assertTrue(self.ipv4_address != u'') |
| self.assertTrue(self.ipv4_address != []) |
| self.assertTrue(self.ipv4_address != 2) |
| |
| self.assertFalse(self.ipv6_interface != |
| ipaddress.IPv6Interface(u'2001:658:22a:cafe:200::1/64')) |
| self.assertTrue(self.ipv6_interface != |
| ipaddress.IPv6Interface(u'2001:658:22a:cafe:200::1/63')) |
| self.assertTrue(self.ipv6_interface != |
| ipaddress.IPv4Interface(u'1.2.3.4/23')) |
| self.assertTrue(self.ipv6_interface != u'') |
| self.assertTrue(self.ipv6_interface != []) |
| self.assertTrue(self.ipv6_interface != 2) |
| |
| self.assertTrue(self.ipv6_address != |
| ipaddress.IPv4Address(u'1.2.3.4')) |
| self.assertTrue(self.ipv6_address != u'') |
| self.assertTrue(self.ipv6_address != []) |
| self.assertTrue(self.ipv6_address != 2) |
| |
| def testSlash32Constructor(self): |
| self.assertEqual(_compat_str(ipaddress.IPv4Interface( |
| u'1.2.3.4/255.255.255.255')), u'1.2.3.4/32') |
| |
| def testSlash128Constructor(self): |
| self.assertEqual(_compat_str(ipaddress.IPv6Interface(u'::1/128')), |
| u'::1/128') |
| |
| def testSlash0Constructor(self): |
| self.assertEqual(_compat_str(ipaddress.IPv4Interface(u'1.2.3.4/0.0.0.0')), |
| u'1.2.3.4/0') |
| |
| def testCollapsing(self): |
| # test only IP addresses including some duplicates |
| ip1 = ipaddress.IPv4Address(u'1.1.1.0') |
| ip2 = ipaddress.IPv4Address(u'1.1.1.1') |
| ip3 = ipaddress.IPv4Address(u'1.1.1.2') |
| ip4 = ipaddress.IPv4Address(u'1.1.1.3') |
| ip5 = ipaddress.IPv4Address(u'1.1.1.4') |
| ip6 = ipaddress.IPv4Address(u'1.1.1.0') |
| # check that addreses are subsumed properly. |
| collapsed = ipaddress.collapse_addresses( |
| [ip1, ip2, ip3, ip4, ip5, ip6]) |
| self.assertEqual(list(collapsed), |
| [ipaddress.IPv4Network(u'1.1.1.0/30'), |
| ipaddress.IPv4Network(u'1.1.1.4/32')]) |
| |
| # test a mix of IP addresses and networks including some duplicates |
| ip1 = ipaddress.IPv4Address(u'1.1.1.0') |
| ip2 = ipaddress.IPv4Address(u'1.1.1.1') |
| ip3 = ipaddress.IPv4Address(u'1.1.1.2') |
| ip4 = ipaddress.IPv4Address(u'1.1.1.3') |
| #ip5 = ipaddress.IPv4Interface(u'1.1.1.4/30') |
| #ip6 = ipaddress.IPv4Interface(u'1.1.1.4/30') |
| # check that addreses are subsumed properly. |
| collapsed = ipaddress.collapse_addresses([ip1, ip2, ip3, ip4]) |
| self.assertEqual(list(collapsed), |
| [ipaddress.IPv4Network(u'1.1.1.0/30')]) |
| |
| # test only IP networks |
| ip1 = ipaddress.IPv4Network(u'1.1.0.0/24') |
| ip2 = ipaddress.IPv4Network(u'1.1.1.0/24') |
| ip3 = ipaddress.IPv4Network(u'1.1.2.0/24') |
| ip4 = ipaddress.IPv4Network(u'1.1.3.0/24') |
| ip5 = ipaddress.IPv4Network(u'1.1.4.0/24') |
| # stored in no particular order b/c we want CollapseAddr to call |
| # [].sort |
| ip6 = ipaddress.IPv4Network(u'1.1.0.0/22') |
| # check that addreses are subsumed properly. |
| collapsed = ipaddress.collapse_addresses([ip1, ip2, ip3, ip4, ip5, |
| ip6]) |
| self.assertEqual(list(collapsed), |
| [ipaddress.IPv4Network(u'1.1.0.0/22'), |
| ipaddress.IPv4Network(u'1.1.4.0/24')]) |
| |
| # test that two addresses are supernet'ed properly |
| collapsed = ipaddress.collapse_addresses([ip1, ip2]) |
| self.assertEqual(list(collapsed), |
| [ipaddress.IPv4Network(u'1.1.0.0/23')]) |
| |
| # test same IP networks |
| ip_same1 = ip_same2 = ipaddress.IPv4Network(u'1.1.1.1/32') |
| self.assertEqual(list(ipaddress.collapse_addresses( |
| [ip_same1, ip_same2])), |
| [ip_same1]) |
| |
| # test same IP addresses |
| ip_same1 = ip_same2 = ipaddress.IPv4Address(u'1.1.1.1') |
| self.assertEqual(list(ipaddress.collapse_addresses( |
| [ip_same1, ip_same2])), |
| [ipaddress.ip_network(u'1.1.1.1/32')]) |
| ip1 = ipaddress.IPv6Network(u'2001::/100') |
| ip2 = ipaddress.IPv6Network(u'2001::/120') |
| ip3 = ipaddress.IPv6Network(u'2001::/96') |
| # test that ipv6 addresses are subsumed properly. |
| collapsed = ipaddress.collapse_addresses([ip1, ip2, ip3]) |
| self.assertEqual(list(collapsed), [ip3]) |
| |
| # the toejam test |
| addr_tuples = [ |
| (ipaddress.ip_address(u'1.1.1.1'), |
| ipaddress.ip_address(u'::1')), |
| (ipaddress.IPv4Network(u'1.1.0.0/24'), |
| ipaddress.IPv6Network(u'2001::/120')), |
| (ipaddress.IPv4Network(u'1.1.0.0/32'), |
| ipaddress.IPv6Network(u'2001::/128')), |
| ] |
| for ip1, ip2 in addr_tuples: |
| self.assertRaises(TypeError, ipaddress.collapse_addresses, |
| [ip1, ip2]) |
| |
| def testSummarizing(self): |
| #ip = ipaddress.ip_address |
| #ipnet = ipaddress.ip_network |
| summarize = ipaddress.summarize_address_range |
| ip1 = ipaddress.ip_address(u'1.1.1.0') |
| ip2 = ipaddress.ip_address(u'1.1.1.255') |
| |
| # summarize works only for IPv4 & IPv6 |
| class IPv7Address(ipaddress.IPv6Address): |
| @property |
| def version(self): |
| return 7 |
| ip_invalid1 = IPv7Address(u'::1') |
| ip_invalid2 = IPv7Address(u'::1') |
| self.assertRaises(ValueError, list, |
| summarize(ip_invalid1, ip_invalid2)) |
| # test that a summary over ip4 & ip6 fails |
| self.assertRaises(TypeError, list, |
| summarize(ip1, ipaddress.IPv6Address(u'::1'))) |
| # test a /24 is summarized properly |
| self.assertEqual(list(summarize(ip1, ip2))[0], |
| ipaddress.ip_network(u'1.1.1.0/24')) |
| # test an IPv4 range that isn't on a network byte boundary |
| ip2 = ipaddress.ip_address(u'1.1.1.8') |
| self.assertEqual(list(summarize(ip1, ip2)), |
| [ipaddress.ip_network(u'1.1.1.0/29'), |
| ipaddress.ip_network(u'1.1.1.8')]) |
| # all! |
| ip1 = ipaddress.IPv4Address(0) |
| ip2 = ipaddress.IPv4Address(ipaddress.IPv4Address._ALL_ONES) |
| self.assertEqual([ipaddress.IPv4Network(u'0.0.0.0/0')], |
| list(summarize(ip1, ip2))) |
| |
| ip1 = ipaddress.ip_address(u'1::') |
| ip2 = ipaddress.ip_address(u'1:ffff:ffff:ffff:ffff:ffff:ffff:ffff') |
| # test a IPv6 is sumamrized properly |
| self.assertEqual(list(summarize(ip1, ip2))[0], |
| ipaddress.ip_network(u'1::/16')) |
| # test an IPv6 range that isn't on a network byte boundary |
| ip2 = ipaddress.ip_address(u'2::') |
| self.assertEqual(list(summarize(ip1, ip2)), |
| [ipaddress.ip_network(u'1::/16'), |
| ipaddress.ip_network(u'2::/128')]) |
| |
| # test exception raised when first is greater than last |
| self.assertRaises(ValueError, list, |
| summarize(ipaddress.ip_address(u'1.1.1.0'), |
| ipaddress.ip_address(u'1.1.0.0'))) |
| # test exception raised when first and last aren't IP addresses |
| self.assertRaises(TypeError, list, |
| summarize(ipaddress.ip_network(u'1.1.1.0'), |
| ipaddress.ip_network(u'1.1.0.0'))) |
| self.assertRaises(TypeError, list, |
| summarize(ipaddress.ip_network(u'1.1.1.0'), |
| ipaddress.ip_network(u'1.1.0.0'))) |
| # test exception raised when first and last are not same version |
| self.assertRaises(TypeError, list, |
| summarize(ipaddress.ip_address(u'::'), |
| ipaddress.ip_network(u'1.1.0.0'))) |
| |
| def testAddressComparison(self): |
| self.assertTrue(ipaddress.ip_address(u'1.1.1.1') <= |
| ipaddress.ip_address(u'1.1.1.1')) |
| self.assertTrue(ipaddress.ip_address(u'1.1.1.1') <= |
| ipaddress.ip_address(u'1.1.1.2')) |
| self.assertTrue(ipaddress.ip_address(u'::1') <= |
| ipaddress.ip_address(u'::1')) |
| self.assertTrue(ipaddress.ip_address(u'::1') <= |
| ipaddress.ip_address(u'::2')) |
| |
| def testInterfaceComparison(self): |
| self.assertTrue(ipaddress.ip_interface(u'1.1.1.1') <= |
| ipaddress.ip_interface(u'1.1.1.1')) |
| self.assertTrue(ipaddress.ip_interface(u'1.1.1.1') <= |
| ipaddress.ip_interface(u'1.1.1.2')) |
| self.assertTrue(ipaddress.ip_interface(u'::1') <= |
| ipaddress.ip_interface(u'::1')) |
| self.assertTrue(ipaddress.ip_interface(u'::1') <= |
| ipaddress.ip_interface(u'::2')) |
| |
| def testNetworkComparison(self): |
| # ip1 and ip2 have the same network address |
| ip1 = ipaddress.IPv4Network(u'1.1.1.0/24') |
| ip2 = ipaddress.IPv4Network(u'1.1.1.0/32') |
| ip3 = ipaddress.IPv4Network(u'1.1.2.0/24') |
| |
| self.assertTrue(ip1 < ip3) |
| self.assertTrue(ip3 > ip2) |
| |
| self.assertEqual(ip1.compare_networks(ip1), 0) |
| |
| # if addresses are the same, sort by netmask |
| self.assertEqual(ip1.compare_networks(ip2), -1) |
| self.assertEqual(ip2.compare_networks(ip1), 1) |
| |
| self.assertEqual(ip1.compare_networks(ip3), -1) |
| self.assertEqual(ip3.compare_networks(ip1), 1) |
| self.assertTrue(ip1._get_networks_key() < ip3._get_networks_key()) |
| |
| ip1 = ipaddress.IPv6Network(u'2001:2000::/96') |
| ip2 = ipaddress.IPv6Network(u'2001:2001::/96') |
| ip3 = ipaddress.IPv6Network(u'2001:ffff:2000::/96') |
| |
| self.assertTrue(ip1 < ip3) |
| self.assertTrue(ip3 > ip2) |
| self.assertEqual(ip1.compare_networks(ip3), -1) |
| self.assertTrue(ip1._get_networks_key() < ip3._get_networks_key()) |
| |
| # Test comparing different protocols. |
| # Should always raise a TypeError. |
| self.assertRaises(TypeError, |
| self.ipv4_network.compare_networks, |
| self.ipv6_network) |
| ipv6 = ipaddress.IPv6Interface(u'::/0') |
| ipv4 = ipaddress.IPv4Interface(u'0.0.0.0/0') |
| self.assertRaises(TypeError, ipv4.__lt__, ipv6) |
| self.assertRaises(TypeError, ipv4.__gt__, ipv6) |
| self.assertRaises(TypeError, ipv6.__lt__, ipv4) |
| self.assertRaises(TypeError, ipv6.__gt__, ipv4) |
| |
| # Regression test for issue 19. |
| ip1 = ipaddress.ip_network(u'10.1.2.128/25') |
| self.assertFalse(ip1 < ip1) |
| self.assertFalse(ip1 > ip1) |
| ip2 = ipaddress.ip_network(u'10.1.3.0/24') |
| self.assertTrue(ip1 < ip2) |
| self.assertFalse(ip2 < ip1) |
| self.assertFalse(ip1 > ip2) |
| self.assertTrue(ip2 > ip1) |
| ip3 = ipaddress.ip_network(u'10.1.3.0/25') |
| self.assertTrue(ip2 < ip3) |
| self.assertFalse(ip3 < ip2) |
| self.assertFalse(ip2 > ip3) |
| self.assertTrue(ip3 > ip2) |
| |
| # Regression test for issue 28. |
| ip1 = ipaddress.ip_network(u'10.10.10.0/31') |
| ip2 = ipaddress.ip_network(u'10.10.10.0') |
| ip3 = ipaddress.ip_network(u'10.10.10.2/31') |
| ip4 = ipaddress.ip_network(u'10.10.10.2') |
| sorted = [ip1, ip2, ip3, ip4] |
| unsorted = [ip2, ip4, ip1, ip3] |
| unsorted.sort() |
| self.assertEqual(sorted, unsorted) |
| unsorted = [ip4, ip1, ip3, ip2] |
| unsorted.sort() |
| self.assertEqual(sorted, unsorted) |
| self.assertRaises(TypeError, ip1.__lt__, |
| ipaddress.ip_address(u'10.10.10.0')) |
| self.assertRaises(TypeError, ip2.__lt__, |
| ipaddress.ip_address(u'10.10.10.0')) |
| |
| # <=, >= |
| self.assertTrue(ipaddress.ip_network(u'1.1.1.1') <= |
| ipaddress.ip_network(u'1.1.1.1')) |
| self.assertTrue(ipaddress.ip_network(u'1.1.1.1') <= |
| ipaddress.ip_network(u'1.1.1.2')) |
| self.assertFalse(ipaddress.ip_network(u'1.1.1.2') <= |
| ipaddress.ip_network(u'1.1.1.1')) |
| self.assertTrue(ipaddress.ip_network(u'::1') <= |
| ipaddress.ip_network(u'::1')) |
| self.assertTrue(ipaddress.ip_network(u'::1') <= |
| ipaddress.ip_network(u'::2')) |
| self.assertFalse(ipaddress.ip_network(u'::2') <= |
| ipaddress.ip_network(u'::1')) |
| |
| def testStrictNetworks(self): |
| self.assertRaises(ValueError, ipaddress.ip_network, u'192.168.1.1/24') |
| self.assertRaises(ValueError, ipaddress.ip_network, u'::1/120') |
| |
| def testOverlaps(self): |
| other = ipaddress.IPv4Network(u'1.2.3.0/30') |
| other2 = ipaddress.IPv4Network(u'1.2.2.0/24') |
| other3 = ipaddress.IPv4Network(u'1.2.2.64/26') |
| self.assertTrue(self.ipv4_network.overlaps(other)) |
| self.assertFalse(self.ipv4_network.overlaps(other2)) |
| self.assertTrue(other2.overlaps(other3)) |
| |
| def testEmbeddedIpv4(self): |
| ipv4_string = u'192.168.0.1' |
| ipv4 = ipaddress.IPv4Interface(ipv4_string) |
| v4compat_ipv6 = ipaddress.IPv6Interface(u'::%s' % ipv4_string) |
| self.assertEqual(int(v4compat_ipv6.ip), int(ipv4.ip)) |
| v4mapped_ipv6 = ipaddress.IPv6Interface(u'::ffff:%s' % ipv4_string) |
| self.assertNotEqual(v4mapped_ipv6.ip, ipv4.ip) |
| self.assertRaises(ipaddress.AddressValueError, ipaddress.IPv6Interface, |
| u'2001:1.1.1.1:1.1.1.1') |
| |
| # Issue 67: IPv6 with embedded IPv4 address not recognized. |
| def testIPv6AddressTooLarge(self): |
| # RFC4291 2.5.5.2 |
| self.assertEqual(ipaddress.ip_address(u'::FFFF:192.0.2.1'), |
| ipaddress.ip_address(u'::FFFF:c000:201')) |
| # RFC4291 2.2 (part 3) x::d.d.d.d |
| self.assertEqual(ipaddress.ip_address(u'FFFF::192.0.2.1'), |
| ipaddress.ip_address(u'FFFF::c000:201')) |
| |
| def testIPVersion(self): |
| self.assertEqual(self.ipv4_address.version, 4) |
| self.assertEqual(self.ipv6_address.version, 6) |
| |
| def testMaxPrefixLength(self): |
| self.assertEqual(self.ipv4_interface.max_prefixlen, 32) |
| self.assertEqual(self.ipv6_interface.max_prefixlen, 128) |
| |
| def testPacked(self): |
| self.assertEqual(self.ipv4_address.packed, |
| b'\x01\x02\x03\x04') |
| self.assertEqual(ipaddress.IPv4Interface(u'255.254.253.252').packed, |
| b'\xff\xfe\xfd\xfc') |
| self.assertEqual(self.ipv6_address.packed, |
| b'\x20\x01\x06\x58\x02\x2a\xca\xfe' |
| b'\x02\x00\x00\x00\x00\x00\x00\x01') |
| self.assertEqual(ipaddress.IPv6Interface(u'ffff:2:3:4:ffff::').packed, |
| b'\xff\xff\x00\x02\x00\x03\x00\x04\xff\xff' |
| + b'\x00' * 6) |
| self.assertEqual(ipaddress.IPv6Interface(u'::1:0:0:0:0').packed, |
| b'\x00' * 6 + b'\x00\x01' + b'\x00' * 8) |
| |
| def testIpStrFromPrefixlen(self): |
| ipv4 = ipaddress.IPv4Interface(u'1.2.3.4/24') |
| self.assertEqual(ipv4._ip_string_from_prefix(), u'255.255.255.0') |
| self.assertEqual(ipv4._ip_string_from_prefix(28), u'255.255.255.240') |
| |
| def testIpType(self): |
| ipv4net = ipaddress.ip_network(u'1.2.3.4') |
| ipv4addr = ipaddress.ip_address(u'1.2.3.4') |
| ipv6net = ipaddress.ip_network(u'::1.2.3.4') |
| ipv6addr = ipaddress.ip_address(u'::1.2.3.4') |
| self.assertEqual(ipaddress.IPv4Network, type(ipv4net)) |
| self.assertEqual(ipaddress.IPv4Address, type(ipv4addr)) |
| self.assertEqual(ipaddress.IPv6Network, type(ipv6net)) |
| self.assertEqual(ipaddress.IPv6Address, type(ipv6addr)) |
| |
| def testReservedIpv4(self): |
| # test networks |
| self.assertEqual(True, ipaddress.ip_interface( |
| u'224.1.1.1/31').is_multicast) |
| self.assertEqual(False, ipaddress.ip_network(u'240.0.0.0').is_multicast) |
| self.assertEqual(True, ipaddress.ip_network(u'240.0.0.0').is_reserved) |
| |
| self.assertEqual(True, ipaddress.ip_interface( |
| u'192.168.1.1/17').is_private) |
| self.assertEqual(False, ipaddress.ip_network(u'192.169.0.0').is_private) |
| self.assertEqual(True, ipaddress.ip_network( |
| u'10.255.255.255').is_private) |
| self.assertEqual(False, ipaddress.ip_network(u'11.0.0.0').is_private) |
| self.assertEqual(False, ipaddress.ip_network(u'11.0.0.0').is_reserved) |
| self.assertEqual(True, ipaddress.ip_network( |
| u'172.31.255.255').is_private) |
| self.assertEqual(False, ipaddress.ip_network(u'172.32.0.0').is_private) |
| self.assertEqual(True, |
| ipaddress.ip_network(u'169.254.1.0/24').is_link_local) |
| |
| self.assertEqual(True, |
| ipaddress.ip_interface( |
| u'169.254.100.200/24').is_link_local) |
| self.assertEqual(False, |
| ipaddress.ip_interface( |
| u'169.255.100.200/24').is_link_local) |
| |
| self.assertEqual(True, |
| ipaddress.ip_network( |
| u'127.100.200.254/32').is_loopback) |
| self.assertEqual(True, ipaddress.ip_network( |
| u'127.42.0.0/16').is_loopback) |
| self.assertEqual(False, ipaddress.ip_network(u'128.0.0.0').is_loopback) |
| |
| # test addresses |
| self.assertEqual(True, ipaddress.ip_address(u'0.0.0.0').is_unspecified) |
| self.assertEqual(True, ipaddress.ip_address(u'224.1.1.1').is_multicast) |
| self.assertEqual(False, ipaddress.ip_address(u'240.0.0.0').is_multicast) |
| self.assertEqual(True, ipaddress.ip_address(u'240.0.0.1').is_reserved) |
| self.assertEqual(False, |
| ipaddress.ip_address(u'239.255.255.255').is_reserved) |
| |
| self.assertEqual(True, ipaddress.ip_address(u'192.168.1.1').is_private) |
| self.assertEqual(False, ipaddress.ip_address(u'192.169.0.0').is_private) |
| self.assertEqual(True, ipaddress.ip_address( |
| u'10.255.255.255').is_private) |
| self.assertEqual(False, ipaddress.ip_address(u'11.0.0.0').is_private) |
| self.assertEqual(True, ipaddress.ip_address( |
| u'172.31.255.255').is_private) |
| self.assertEqual(False, ipaddress.ip_address(u'172.32.0.0').is_private) |
| |
| self.assertEqual(True, |
| ipaddress.ip_address(u'169.254.100.200').is_link_local) |
| self.assertEqual(False, |
| ipaddress.ip_address(u'169.255.100.200').is_link_local) |
| |
| self.assertEqual(True, |
| ipaddress.ip_address(u'127.100.200.254').is_loopback) |
| self.assertEqual(True, ipaddress.ip_address(u'127.42.0.0').is_loopback) |
| self.assertEqual(False, ipaddress.ip_address(u'128.0.0.0').is_loopback) |
| self.assertEqual(True, ipaddress.ip_network(u'0.0.0.0').is_unspecified) |
| |
| def testReservedIpv6(self): |
| |
| self.assertEqual(True, ipaddress.ip_network(u'ffff::').is_multicast) |
| self.assertEqual(True, ipaddress.ip_network(2**128 - 1).is_multicast) |
| self.assertEqual(True, ipaddress.ip_network(u'ff00::').is_multicast) |
| self.assertEqual(False, ipaddress.ip_network(u'fdff::').is_multicast) |
| |
| self.assertEqual(True, ipaddress.ip_network(u'fecf::').is_site_local) |
| self.assertEqual(True, ipaddress.ip_network( |
| u'feff:ffff:ffff:ffff::').is_site_local) |
| self.assertEqual(False, ipaddress.ip_network( |
| u'fbf:ffff::').is_site_local) |
| self.assertEqual(False, ipaddress.ip_network(u'ff00::').is_site_local) |
| |
| self.assertEqual(True, ipaddress.ip_network(u'fc00::').is_private) |
| self.assertEqual(True, ipaddress.ip_network( |
| u'fc00:ffff:ffff:ffff::').is_private) |
| self.assertEqual(False, ipaddress.ip_network(u'fbff:ffff::').is_private) |
| self.assertEqual(False, ipaddress.ip_network(u'fe00::').is_private) |
| |
| self.assertEqual(True, ipaddress.ip_network(u'fea0::').is_link_local) |
| self.assertEqual(True, ipaddress.ip_network( |
| u'febf:ffff::').is_link_local) |
| self.assertEqual(False, ipaddress.ip_network( |
| u'fe7f:ffff::').is_link_local) |
| self.assertEqual(False, ipaddress.ip_network(u'fec0::').is_link_local) |
| |
| self.assertEqual(True, ipaddress.ip_interface(u'0:0::0:01').is_loopback) |
| self.assertEqual(False, ipaddress.ip_interface(u'::1/127').is_loopback) |
| self.assertEqual(False, ipaddress.ip_network(u'::').is_loopback) |
| self.assertEqual(False, ipaddress.ip_network(u'::2').is_loopback) |
| |
| self.assertEqual(True, ipaddress.ip_network(u'0::0').is_unspecified) |
| self.assertEqual(False, ipaddress.ip_network(u'::1').is_unspecified) |
| self.assertEqual(False, ipaddress.ip_network(u'::/127').is_unspecified) |
| |
| # test addresses |
| self.assertEqual(True, ipaddress.ip_address(u'ffff::').is_multicast) |
| self.assertEqual(True, ipaddress.ip_address(2**128 - 1).is_multicast) |
| self.assertEqual(True, ipaddress.ip_address(u'ff00::').is_multicast) |
| self.assertEqual(False, ipaddress.ip_address(u'fdff::').is_multicast) |
| |
| self.assertEqual(True, ipaddress.ip_address(u'fecf::').is_site_local) |
| self.assertEqual(True, ipaddress.ip_address( |
| u'feff:ffff:ffff:ffff::').is_site_local) |
| self.assertEqual(False, ipaddress.ip_address( |
| u'fbf:ffff::').is_site_local) |
| self.assertEqual(False, ipaddress.ip_address(u'ff00::').is_site_local) |
| |
| self.assertEqual(True, ipaddress.ip_address(u'fc00::').is_private) |
| self.assertEqual(True, ipaddress.ip_address( |
| u'fc00:ffff:ffff:ffff::').is_private) |
| self.assertEqual(False, ipaddress.ip_address(u'fbff:ffff::').is_private) |
| self.assertEqual(False, ipaddress.ip_address(u'fe00::').is_private) |
| |
| self.assertEqual(True, ipaddress.ip_address(u'fea0::').is_link_local) |
| self.assertEqual(True, ipaddress.ip_address( |
| u'febf:ffff::').is_link_local) |
| self.assertEqual(False, ipaddress.ip_address( |
| u'fe7f:ffff::').is_link_local) |
| self.assertEqual(False, ipaddress.ip_address(u'fec0::').is_link_local) |
| |
| self.assertEqual(True, ipaddress.ip_address(u'0:0::0:01').is_loopback) |
| self.assertEqual(True, ipaddress.ip_address(u'::1').is_loopback) |
| self.assertEqual(False, ipaddress.ip_address(u'::2').is_loopback) |
| |
| self.assertEqual(True, ipaddress.ip_address(u'0::0').is_unspecified) |
| self.assertEqual(False, ipaddress.ip_address(u'::1').is_unspecified) |
| |
| # some generic IETF reserved addresses |
| self.assertEqual(True, ipaddress.ip_address(u'100::').is_reserved) |
| self.assertEqual(True, ipaddress.ip_network(u'4000::1/128').is_reserved) |
| |
| def testIpv4Mapped(self): |
| self.assertEqual( |
| ipaddress.ip_address(u'::ffff:192.168.1.1').ipv4_mapped, |
| ipaddress.ip_address(u'192.168.1.1')) |
| self.assertEqual(ipaddress.ip_address(u'::c0a8:101').ipv4_mapped, None) |
| self.assertEqual(ipaddress.ip_address(u'::ffff:c0a8:101').ipv4_mapped, |
| ipaddress.ip_address(u'192.168.1.1')) |
| |
| def testAddrExclude(self): |
| addr1 = ipaddress.ip_network(u'10.1.1.0/24') |
| addr2 = ipaddress.ip_network(u'10.1.1.0/26') |
| addr3 = ipaddress.ip_network(u'10.2.1.0/24') |
| addr4 = ipaddress.ip_address(u'10.1.1.0') |
| addr5 = ipaddress.ip_network(u'2001:db8::0/32') |
| self.assertEqual(sorted(list(addr1.address_exclude(addr2))), |
| [ipaddress.ip_network(u'10.1.1.64/26'), |
| ipaddress.ip_network(u'10.1.1.128/25')]) |
| self.assertRaises(ValueError, list, addr1.address_exclude(addr3)) |
| self.assertRaises(TypeError, list, addr1.address_exclude(addr4)) |
| self.assertRaises(TypeError, list, addr1.address_exclude(addr5)) |
| self.assertEqual(list(addr1.address_exclude(addr1)), []) |
| |
| def testHash(self): |
| self.assertEqual(hash(ipaddress.ip_interface(u'10.1.1.0/24')), |
| hash(ipaddress.ip_interface(u'10.1.1.0/24'))) |
| self.assertEqual(hash(ipaddress.ip_network(u'10.1.1.0/24')), |
| hash(ipaddress.ip_network(u'10.1.1.0/24'))) |
| self.assertEqual(hash(ipaddress.ip_address(u'10.1.1.0')), |
| hash(ipaddress.ip_address(u'10.1.1.0'))) |
| # i70 |
| self.assertEqual(hash(ipaddress.ip_address(u'1.2.3.4')), |
| hash(ipaddress.ip_address( |
| int(ipaddress.ip_address(u'1.2.3.4')._ip)))) |
| ip1 = ipaddress.ip_address(u'10.1.1.0') |
| ip2 = ipaddress.ip_address(u'1::') |
| dummy = {} |
| dummy[self.ipv4_address] = None |
| dummy[self.ipv6_address] = None |
| dummy[ip1] = None |
| dummy[ip2] = None |
| self.assertTrue(self.ipv4_address in dummy) |
| self.assertTrue(ip2 in dummy) |
| |
| def testIPBases(self): |
| net = self.ipv4_network |
| self.assertEqual(u'1.2.3.0/24', net.compressed) |
| self.assertEqual( |
| net._ip_int_from_prefix(24), |
| net._ip_int_from_prefix(None)) |
| net = self.ipv6_network |
| self.assertRaises(ValueError, net._string_from_ip_int, 2**128 + 1) |
| self.assertEqual( |
| self.ipv6_address._string_from_ip_int(self.ipv6_address._ip), |
| self.ipv6_address._string_from_ip_int(None)) |
| |
| def testIPv6NetworkHelpers(self): |
| net = self.ipv6_network |
| self.assertEqual(u'2001:658:22a:cafe::/64', net.with_prefixlen) |
| self.assertEqual(u'2001:658:22a:cafe::/ffff:ffff:ffff:ffff::', |
| net.with_netmask) |
| self.assertEqual(u'2001:658:22a:cafe::/::ffff:ffff:ffff:ffff', |
| net.with_hostmask) |
| self.assertEqual(u'2001:658:22a:cafe::/64', str(net)) |
| |
| def testIPv4NetworkHelpers(self): |
| net = self.ipv4_network |
| self.assertEqual(u'1.2.3.0/24', net.with_prefixlen) |
| self.assertEqual(u'1.2.3.0/255.255.255.0', net.with_netmask) |
| self.assertEqual(u'1.2.3.0/0.0.0.255', net.with_hostmask) |
| self.assertEqual(u'1.2.3.0/24', str(net)) |
| |
| def testCopyConstructor(self): |
| addr1 = ipaddress.ip_network(u'10.1.1.0/24') |
| addr2 = ipaddress.ip_network(addr1) |
| addr3 = ipaddress.ip_interface(u'2001:658:22a:cafe:200::1/64') |
| addr4 = ipaddress.ip_interface(addr3) |
| addr5 = ipaddress.IPv4Address(u'1.1.1.1') |
| addr6 = ipaddress.IPv6Address(u'2001:658:22a:cafe:200::1') |
| |
| self.assertEqual(addr1, addr2) |
| self.assertEqual(addr3, addr4) |
| self.assertEqual(addr5, ipaddress.IPv4Address(addr5)) |
| self.assertEqual(addr6, ipaddress.IPv6Address(addr6)) |
| |
| def testCompressIPv6Address(self): |
| test_addresses = { |
| u'1:2:3:4:5:6:7:8': u'1:2:3:4:5:6:7:8/128', |
| u'2001:0:0:4:0:0:0:8': u'2001:0:0:4::8/128', |
| u'2001:0:0:4:5:6:7:8': u'2001::4:5:6:7:8/128', |
| u'2001:0:3:4:5:6:7:8': u'2001:0:3:4:5:6:7:8/128', |
| u'2001:0:3:4:5:6:7:8': u'2001:0:3:4:5:6:7:8/128', |
| u'0:0:3:0:0:0:0:ffff': u'0:0:3::ffff/128', |
| u'0:0:0:4:0:0:0:ffff': u'::4:0:0:0:ffff/128', |
| u'0:0:0:0:5:0:0:ffff': u'::5:0:0:ffff/128', |
| u'1:0:0:4:0:0:7:8': u'1::4:0:0:7:8/128', |
| u'0:0:0:0:0:0:0:0': u'::/128', |
| u'0:0:0:0:0:0:0:0/0': u'::/0', |
| u'0:0:0:0:0:0:0:1': u'::1/128', |
| u'2001:0658:022a:cafe:0000:0000:0000:0000/66': |
| u'2001:658:22a:cafe::/66', |
| u'::1.2.3.4': u'::102:304/128', |
| u'1:2:3:4:5:ffff:1.2.3.4': u'1:2:3:4:5:ffff:102:304/128', |
| u'::7:6:5:4:3:2:1': u'0:7:6:5:4:3:2:1/128', |
| u'::7:6:5:4:3:2:0': u'0:7:6:5:4:3:2:0/128', |
| u'7:6:5:4:3:2:1::': u'7:6:5:4:3:2:1:0/128', |
| u'0:6:5:4:3:2:1::': u'0:6:5:4:3:2:1:0/128', |
| } |
| for uncompressed, compressed in list(test_addresses.items()): |
| self.assertEqual(compressed, str(ipaddress.IPv6Interface( |
| uncompressed))) |
| |
| def testExplodeShortHandIpStr(self): |
| addr1 = ipaddress.IPv6Interface(u'2001::1') |
| addr2 = ipaddress.IPv6Address(u'2001:0:5ef5:79fd:0:59d:a0e5:ba1') |
| addr3 = ipaddress.IPv6Network(u'2001::/96') |
| addr4 = ipaddress.IPv4Address(u'192.168.178.1') |
| self.assertEqual(u'2001:0000:0000:0000:0000:0000:0000:0001/128', |
| addr1.exploded) |
| self.assertEqual(u'0000:0000:0000:0000:0000:0000:0000:0001/128', |
| ipaddress.IPv6Interface(u'::1/128').exploded) |
| # issue 77 |
| self.assertEqual(u'2001:0000:5ef5:79fd:0000:059d:a0e5:0ba1', |
| addr2.exploded) |
| self.assertEqual(u'2001:0000:0000:0000:0000:0000:0000:0000/96', |
| addr3.exploded) |
| self.assertEqual(u'192.168.178.1', addr4.exploded) |
| |
| def testIntRepresentation(self): |
| self.assertEqual(16909060, int(self.ipv4_address)) |
| self.assertEqual(42540616829182469433547762482097946625, |
| int(self.ipv6_address)) |
| |
| def testForceVersion(self): |
| self.assertEqual(ipaddress.ip_network(1).version, 4) |
| self.assertEqual(ipaddress.IPv6Network(1).version, 6) |
| |
| def testWithStar(self): |
| self.assertEqual(self.ipv4_interface.with_prefixlen, u"1.2.3.4/24") |
| self.assertEqual(self.ipv4_interface.with_netmask, |
| u"1.2.3.4/255.255.255.0") |
| self.assertEqual(self.ipv4_interface.with_hostmask, |
| u"1.2.3.4/0.0.0.255") |
| |
| self.assertEqual(self.ipv6_interface.with_prefixlen, |
| u'2001:658:22a:cafe:200::1/64') |
| self.assertEqual(self.ipv6_interface.with_netmask, |
| u'2001:658:22a:cafe:200::1/ffff:ffff:ffff:ffff::') |
| # this probably don't make much sense, but it's included for |
| # compatibility with ipv4 |
| self.assertEqual(self.ipv6_interface.with_hostmask, |
| u'2001:658:22a:cafe:200::1/::ffff:ffff:ffff:ffff') |
| |
| def testNetworkElementCaching(self): |
| # V4 - make sure we're empty |
| self.assertFalse(u'network_address' in self.ipv4_network._cache) |
| self.assertFalse(u'broadcast_address' in self.ipv4_network._cache) |
| self.assertFalse(u'hostmask' in self.ipv4_network._cache) |
| |
| # V4 - populate and test |
| self.assertEqual(self.ipv4_network.network_address, |
| ipaddress.IPv4Address(u'1.2.3.0')) |
| self.assertEqual(self.ipv4_network.broadcast_address, |
| ipaddress.IPv4Address(u'1.2.3.255')) |
| self.assertEqual(self.ipv4_network.hostmask, |
| ipaddress.IPv4Address(u'0.0.0.255')) |
| |
| # V4 - check we're cached |
| self.assertTrue(u'broadcast_address' in self.ipv4_network._cache) |
| self.assertTrue(u'hostmask' in self.ipv4_network._cache) |
| |
| # V6 - make sure we're empty |
| self.assertFalse(u'broadcast_address' in self.ipv6_network._cache) |
| self.assertFalse(u'hostmask' in self.ipv6_network._cache) |
| |
| # V6 - populate and test |
| self.assertEqual(self.ipv6_network.network_address, |
| ipaddress.IPv6Address(u'2001:658:22a:cafe::')) |
| self.assertEqual(self.ipv6_interface.network.network_address, |
| ipaddress.IPv6Address(u'2001:658:22a:cafe::')) |
| |
| self.assertEqual( |
| self.ipv6_network.broadcast_address, |
| ipaddress.IPv6Address(u'2001:658:22a:cafe:ffff:ffff:ffff:ffff')) |
| self.assertEqual(self.ipv6_network.hostmask, |
| ipaddress.IPv6Address(u'::ffff:ffff:ffff:ffff')) |
| self.assertEqual( |
| self.ipv6_interface.network.broadcast_address, |
| ipaddress.IPv6Address(u'2001:658:22a:cafe:ffff:ffff:ffff:ffff')) |
| self.assertEqual(self.ipv6_interface.network.hostmask, |
| ipaddress.IPv6Address(u'::ffff:ffff:ffff:ffff')) |
| |
| # V6 - check we're cached |
| self.assertTrue(u'broadcast_address' in self.ipv6_network._cache) |
| self.assertTrue(u'hostmask' in self.ipv6_network._cache) |
| self.assertTrue( |
| u'broadcast_address' in self.ipv6_interface.network._cache) |
| self.assertTrue(u'hostmask' in self.ipv6_interface.network._cache) |
| |
| def testTeredo(self): |
| # stolen from wikipedia |
| server = ipaddress.IPv4Address(u'65.54.227.120') |
| client = ipaddress.IPv4Address(u'192.0.2.45') |
| teredo_addr = u'2001:0000:4136:e378:8000:63bf:3fff:fdd2' |
| self.assertEqual((server, client), |
| ipaddress.ip_address(teredo_addr).teredo) |
| bad_addr = u'2000::4136:e378:8000:63bf:3fff:fdd2' |
| self.assertFalse(ipaddress.ip_address(bad_addr).teredo) |
| bad_addr = u'2001:0001:4136:e378:8000:63bf:3fff:fdd2' |
| self.assertFalse(ipaddress.ip_address(bad_addr).teredo) |
| |
| # i77 |
| teredo_addr = ipaddress.IPv6Address(u'2001:0:5ef5:79fd:0:59d:a0e5:ba1') |
| self.assertEqual((ipaddress.IPv4Address(u'94.245.121.253'), |
| ipaddress.IPv4Address(u'95.26.244.94')), |
| teredo_addr.teredo) |
| |
| def testsixtofour(self): |
| sixtofouraddr = ipaddress.ip_address(u'2002:ac1d:2d64::1') |
| bad_addr = ipaddress.ip_address(u'2000:ac1d:2d64::1') |
| self.assertEqual(ipaddress.IPv4Address(u'172.29.45.100'), |
| sixtofouraddr.sixtofour) |
| self.assertFalse(bad_addr.sixtofour) |
| |
| # Monkey-patch test runner |
| if not hasattr(BaseTestCase, 'assertRaisesRegex'): |
| class _AssertRaisesRegex(object): |
| def __init__(self, expected_exception, expected_regex): |
| self.expected = expected_exception |
| self.expected_regex = re.compile(expected_regex) |
| |
| def __enter__(self): |
| return self |
| |
| def __exit__(self, exc_type, exc_value, tb): |
| if exc_type is None: |
| try: |
| exc_name = self.expected.__name__ |
| except AttributeError: |
| exc_name = str(self.expected) |
| if self.obj_name: |
| self._raiseFailure("{} not raised by {}".format(exc_name, |
| self.obj_name)) |
| else: |
| self._raiseFailure("{} not raised".format(exc_name)) |
| if not issubclass(exc_type, self.expected): |
| # let unexpected exceptions pass through |
| return False |
| self.exception = exc_value |
| if self.expected_regex is None: |
| return True |
| |
| expected_regex = self.expected_regex |
| if not expected_regex.search(str(exc_value)): |
| raise AssertionError(u'"{}" does not match "{}"'.format( |
| expected_regex.pattern, str(exc_value))) |
| return True |
| |
| BaseTestCase.assertRaisesRegex = _AssertRaisesRegex |
| IpaddrUnitTest.assertRaisesRegex = _AssertRaisesRegex |
| if not hasattr(BaseTestCase, 'assertIn'): |
| _assertIn = lambda self, o, iterable: self.assertTrue(o in iterable) |
| _assertNotIn = lambda self, o, iterable: self.assertFalse(o in iterable) |
| BaseTestCase.assertIn = _assertIn |
| BaseTestCase.assertNotIn = _assertNotIn |
| IpaddrUnitTest.assertIn = _assertIn |
| IpaddrUnitTest.assertNotIn = _assertNotIn |
| ComparisonTests.assertIn = _assertIn |
| ComparisonTests.assertNotIn = _assertNotIn |
| |
| |
| if __name__ == '__main__': |
| unittest.main() |