Example #1
0
def testVal_object_group_network_02():
    """Test recursion through a group object"""
    conf = ['!',
        'name 1.1.2.20 loghost01',
        'name 1.2.2.20 loghost02',
        '!',
        'object-group network INSIDE_recurse',
        ' network-object host loghost02',

        'object-group network INSIDE_addrs',
        ' network-object host loghost01',
        ' network-object host 1.1.2.1',
        ' network-object 1.1.2.2 255.255.255.255',
        ' network-object 1.1.2.0 255.255.255.0',
        ' group-object INSIDE_recurse',
        '!',]
    cfg_factory = CiscoConfParse(conf, factory=True, syntax='asa')
    obj = cfg_factory.find_objects(r'object-group\snetwork')[1]

    result_correct_01 = [IPv4Obj('1.1.2.20/32'), IPv4Obj('1.1.2.1/32'),
        IPv4Obj('1.1.2.2/32'), IPv4Obj('1.1.2.0/24'), IPv4Obj('1.2.2.20/32')]
    result_correct_02 = ['1.1.2.20', '1.1.2.1', '1.1.2.2', 
        '1.1.2.0/255.255.255.0', '1.2.2.20']
    # Ensure obj.name is set correctly
    assert obj.name=="INSIDE_addrs"
    assert obj.networks==result_correct_01
    assert obj.network_strings==result_correct_02
    ## Test obj.networks again to test the result_cache
    assert obj.networks==result_correct_01
 def testVal_IOSIntfLine_in_ipv4_subnets(self):
     cfg = CiscoConfParse(self.c01, factory=True)
     result_correct = {
         'interface Serial 1/0': True,
         'interface Serial 1/1': True,
         'interface GigabitEthernet4/1': None,
         'interface GigabitEthernet4/2': None,
         'interface GigabitEthernet4/3': None,
         'interface GigabitEthernet4/4': None,
         'interface GigabitEthernet4/5': None,
         'interface GigabitEthernet4/6': None,
         'interface GigabitEthernet4/7': None,
         'interface GigabitEthernet4/8.120': True,
         'interface ATM5/0/0': None,
         'interface ATM5/0/0.32 point-to-point': True,
         'interface ATM5/0/1': None,
     }
     test_result = dict()
     ## Parse all interface objects in self.c01 and check in_ipv4_subnets
     test_network1 = IPv4Obj('1.1.0.0/23', strict=False)
     test_network2 = IPv4Obj('1.1.2.0/23', strict=False)
     networks = set([test_network1, test_network2])
     for intf_obj in cfg.find_objects('^interface'):
         test_result[intf_obj.text] = intf_obj.in_ipv4_subnets(networks)
     self.maxDiff = None
     self.assertEqual(result_correct, test_result)
Example #3
0
 def ip_network_object(self):
     try:
         return IPv4Obj('%s/%s' % (self.ipv4_addr, self.ipv4_netmask),
                        strict=False).network
     except AttributeError:
         return IPv4Obj('%s/%s' % (self.ipv4_addr, self.ipv4_netmask),
                        strict=False).network_address
     except:
         return self.default_ipv4_addr_object
Example #4
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 def testIPv4Obj_contain(self):
     ## Test ccp_util.IPv4Obj.__contains__()
     ##
     ## Test whether a prefix is or is not contained in another prefix
     results_correct = [
         ('1.0.0.0/8', '0.0.0.0/0', True),    # Is 1.0.0.0/8 in 0.0.0.0/0?
         ('0.0.0.0/0', '1.0.0.0/8', False),   # Is 0.0.0.0/0 in 1.0.0.0/8?
         ('1.1.1.0/27', '1.0.0.0/8', True),   # Is 1.1.1.0/27 in 1.0.0.0/8?
         ('1.1.1.0/27', '9.9.9.9/32', False), # Is 1.1.1.0/27 in 9.9.9.9/32?
         ('9.9.9.0/27', '9.9.9.9/32', False), # Is 9.9.9.0/27 in 9.9.9.9/32?
     ]
     for prefix1, prefix2, result_correct in results_correct:
         ## 'foo in bar' tests bar.__contains__(foo)
         test_result = IPv4Obj(prefix1) in IPv4Obj(prefix2)
         self.assertEqual(test_result, result_correct)
Example #5
0
 def ipv4_standby_addr_object(self):
     """Return a ccp_util.IPv4Obj object representing the standby address on this interface; if there is no address, return IPv4Obj('127.0.0.1/32')"""
     try:
         return IPv4Obj('%s/%s' %
                        (self.ipv4_standby_addr, self.ipv4_netmask))
     except:
         return self.default_ipv4_addr_object
Example #6
0
def testValues_IOSIntfLine_find_objects_factory_02(parse_c01_factory,
                                                   c01_insert_serial_replace):
    """test whether find_objects() returns correct IOSIntfLine objects and tests IOSIntfLine methods"""
    with patch(__name__ + '.' + 'IOSIntfLine') as mockobj:
        # the mock pretends to be an IOSCfgLine so we can test against it
        result_correct01 = mockobj
        result_correct01.linenum = 12
        result_correct01.text = 'interface Serial 2/0'
        result_correct01.classname = 'IOSIntfLine'
        result_correct01.ipv4_addr_object = IPv4Obj('1.1.1.1/30', strict=False)

        result_correct02 = c01_insert_serial_replace

        # Insert a line above the IOSIntfLine object
        parse_c01_factory.insert_before('interface Serial 1/0',
                                        'default interface Serial 1/0')
        # Replace text in the IOSIntfLine object
        parse_c01_factory.replace_lines('interface Serial 1/0',
                                        'interface Serial 2/0',
                                        exactmatch=False)

        test_result01 = parse_c01_factory.find_objects(
            '^interface Serial 2/0')[0]
        test_result02 = parse_c01_factory.ioscfg

        # Check attributes of the IOSIntfLine object
        assert result_correct01.linenum == test_result01.linenum
        assert result_correct01.text == test_result01.text
        assert result_correct01.classname == test_result01.classname
        assert result_correct01.ipv4_addr_object == test_result01.ipv4_addr_object

        # Ensure the text configs are exactly what we wanted
        assert result_correct02 == test_result02
Example #7
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 def network_object(self):
     try:
         if self.address_family == 'ip':
             return IPv4Obj('%s/%s' % (self.network, self.netmask),
                            strict=False)
         elif self.address_family == 'ipv6':
             return IPv6Network('%s/%s' % (self.network, self.netmask))
     except:
         return None
Example #8
0
 def networks(self):
     """Return a list of IPv4Obj objects which represent the address space allowed by
     This object-group"""
     retval = list()
     names = self.confobj.names
     for obj in self.children:
         if 'network-object host ' in obj.text:
             host_str = obj.re_match_typed(_RE_NETHOST,
                                           group=1,
                                           result_type=str)
             retval.append(IPv4Obj(names.get(host_str, host_str)))
         elif 'network-object ' in obj.text:
             network_str = obj.re_match_typed(_RE_NETWORK1,
                                              group=1,
                                              result_type=str)
             netmask_str = obj.re_match_typed(_RE_NETWORK2,
                                              group=1,
                                              result_type=str)
             retval.append(
                 IPv4Obj('{0} {1}'.format(
                     names.get(network_str, network_str), netmask_str)))
         elif 'group-object ' in obj.text:
             name = obj.re_match_typed(r'^\s*group-object\s+(\S+)',
                                       group=1,
                                       result_type=str)
             group_nets = self.confobj.object_group_network.get(name, None)
             if name == self.name:
                 ## Throw an error when importing self
                 raise ValueError(
                     "FATAL: Cannot recurse through group-object {0} in object-group network {1}"
                     .format(name, self.name))
             if (group_nets is None):
                 raise ValueError(
                     "FATAL: Cannot find group-object named {0}".format(
                         name))
             else:
                 retval.extend(group_nets.networks)
         elif 'description ' in obj.text:
             pass
         else:
             raise NotImplementedError("Cannot parse '{0}'".format(
                 obj.text))
     return retval
Example #9
0
 def in_ipv4_subnet(self, ipv4network=IPv4Obj('0.0.0.0/32', strict=False)):
     """Accept two string arguments for network and netmask, and return a boolean for whether this interface is within the requested subnet.  Return None if there is no address on the interface"""
     if not (str(self.ipv4_addr_object.ip) == "127.0.0.1"):
         try:
             # Return a boolean for whether the interface is in that network and mask
             return self.ipv4_addr_object in ipv4network
         except:
             raise ValueError(
                 "FATAL: %s.in_ipv4_subnet(ipv4network={0}) is an invalid arg"
                 .format(ipv4network))
     else:
         return None
Example #10
0
 def testIPv4Obj_parse(self):
     ## Ensure that IPv4Obj can correctly parse various inputs
     test_strings = [
         '1.0.0.1/24',
         '1.0.0.1/32',
         '1.0.0.1   255.255.255.0',
         '1.0.0.1   255.255.255.255',
         '1.0.0.1 255.255.255.0',
         '1.0.0.1 255.255.255.255',
         '1.0.0.1/255.255.255.0',
         '1.0.0.1/255.255.255.255',
     ]
     for test_string in test_strings:
         test_result = IPv4Obj(test_string)
         self.assertTrue(isinstance(test_result, IPv4Obj))
Example #11
0
    def testVal_object_group_network(self):
        conf = [
            '!',
            'name 1.1.2.20 loghost01',
            '!',
            'object-group network INSIDE_addrs',
            ' network-object host loghost01',
            ' network-object host 1.1.2.1',
            ' network-object 1.1.2.2 255.255.255.255',
            ' network-object 1.1.2.0 255.255.255.0',
            '!',
        ]
        cfg_factory = CiscoConfParse(conf, factory=True, syntax='asa')
        obj = cfg_factory.find_objects(r'object-group\snetwork')[0]

        # Ensure obj.name is set correctly
        self.assertEqual(obj.name, "INSIDE_addrs")
        result_correct = [
            IPv4Obj('1.1.2.20/32'),
            IPv4Obj('1.1.2.1/32'),
            IPv4Obj('1.1.2.2/32'),
            IPv4Obj('1.1.2.0/24')
        ]
        self.assertEqual(obj.networks, result_correct)
Example #12
0
    def networks(self):
        """Return a list of IPv4Obj objects which represent the address space allowed by
        This object-group"""
        ## FIXME: Implement object caching for other ASAConfigList objects
        ## Return a cached result if the networks lookup has already been done

        retval = list()
        for net_str in self.network_strings:
            ## Check the ASACfgList cache of network objects
            if not self.confobj._network_cache.get(net_str, False):
                net = IPv4Obj(net_str)
                self.confobj._network_cache[net_str] = net
                retval.append(net)
            else:
                retval.append(self.confobj._network_cache[net_str])

        return retval
Example #13
0
def testValues_IOSIntfLine_find_objects_factory_01(parse_c01_factory):
    """test whether find_objects() returns correct IOSIntfLine objects and tests IOSIntfLine methods"""
    # mockobj pretends to be the IOSIntfLine object
    with patch(__name__ + '.' + 'IOSIntfLine') as mockobj:
        # the mock pretends to be an IOSCfgLine so we can test against it
        result_correct = mockobj
        result_correct.linenum = 11
        result_correct.text = 'interface Serial 1/0'
        result_correct.classname = 'IOSIntfLine'
        result_correct.ipv4_addr_object = IPv4Obj('1.1.1.1/30', strict=False)

        # this test finds the IOSIntfLine instance for 'Serial 1/0'
        test_result = parse_c01_factory.find_objects(
            '^interface Serial 1/0')[0]

        assert result_correct.linenum == test_result.linenum
        assert result_correct.text == test_result.text
        assert result_correct.classname == test_result.classname
        assert result_correct.ipv4_addr_object == test_result.ipv4_addr_object
Example #14
0
 def testIPv4Obj_attributes(self):
     ## Ensure that attributes are accessible and pass the smell test
     test_object = IPv4Obj('1.0.0.1 255.255.255.0')
     results_correct = [
         ('ip',            IPv4Address('1.0.0.1')),
         ('netmask',       IPv4Address('255.255.255.0')),
         ('prefixlen',     24),
         ('broadcast',     IPv4Address('1.0.0.255')),
         ('network',       IPv4Network('1.0.0.0/24')),
         ('hostmask',      IPv4Address('0.0.0.255')),
         ('numhosts',      256),
         ('version',       4),
         ('is_reserved',   False),
         ('is_multicast',  False),
         ('is_private',    False),
         ('as_decimal',    16777217),
         ('as_hex_tuple', ('01', '00', '00', '01')),
         ('as_binary_tuple', ('00000001', '00000000', '00000000', '00000001')),
     ]
     for attribute, result_correct in results_correct:
         self.assertEqual(getattr(test_object, attribute), result_correct)
Example #15
0
 def __init__(self, *args, **kwargs):
     super(BaseASAIntfLine, self).__init__(*args, **kwargs)
     self.ifindex = None  # Optional, for user use
     self.default_ipv4_addr_object = IPv4Obj('127.0.0.1/32', strict=False)
Example #16
0
def testIPv4Obj_recursive():
    """IPv4Obj() should be able to parse itself"""
    obj = IPv4Obj(IPv4Obj('1.1.1.1/24'))
    assert str(obj.ip_object) == '1.1.1.1'
    assert obj.prefixlen == 24
 def testVal_IOSIntfLine_ipv4_network_object(self):
     cfg = CiscoConfParse(self.c01, factory=True)
     result_correct = {
         'interface Serial 1/0': IPv4Obj('1.1.1.0/30', strict=False),
         'interface Serial 1/1': IPv4Obj('1.1.1.8/31', strict=False),
         'interface GigabitEthernet4/1': IPv4Obj('127.0.0.1/32',
             strict=False),
         'interface GigabitEthernet4/2': IPv4Obj('127.0.0.1/32', 
             strict=False),
         'interface GigabitEthernet4/3': IPv4Obj('127.0.0.1/32',
             strict=False),
         'interface GigabitEthernet4/4': IPv4Obj('127.0.0.1/32',
             strict=False),
         'interface GigabitEthernet4/5': IPv4Obj('127.0.0.1/32',
             strict=False),
         'interface GigabitEthernet4/6': IPv4Obj('127.0.0.1/32',
             strict=False),
         'interface GigabitEthernet4/7': IPv4Obj('127.0.0.1/32',
             strict=False),
         'interface GigabitEthernet4/8.120': IPv4Obj('1.1.2.0/24',
             strict=False),
         'interface ATM5/0/0': IPv4Obj('127.0.0.1/32', strict=False),
         'interface ATM5/0/0.32 point-to-point': IPv4Obj('1.1.1.4/30',
             strict=False),
         'interface ATM5/0/1': IPv4Obj('127.0.0.1/32', strict=False),
     }
     test_result = dict()
     ## Parse all interface objects in self.c01 and check ipv4_network_object
     for intf_obj in cfg.find_objects('^interface'):
         test_result[intf_obj.text] = intf_obj.ipv4_network_object
     self.assertEqual(result_correct, test_result)