import re class IPAddress: # a number between 0 and 255, no leading zeros _IP_NUMBER_REGEXP = r"(25[0-5]|2[0-4]\d|1?[1-9]?\d)" # 4 numbers between 0 and 255, joined together with dots IP_REGEXP = r"{0}\.{0}\.{0}\.{0}".format(_IP_NUMBER_REGEXP) def __init__(self, intlist): if not isinstance(intlist, list) or not all(isinstance(n, int) for n in intlist): raise TypeError("The first constructor argument must be an list of ints") if not len(intlist) == 4 or not all(0 <= n <= 255 for n in intlist): raise ValueError("The integer list must contain 4 ints in range of 0 and 255, like an ip-address") self.ipnum = int.from_bytes(bytes(intlist), "big") @staticmethod def parse(ip: str): match = re.match("^" + IPAddress.IP_REGEXP + "$", ip) if not match: raise ValueError("%s is no ipv4-address" % ip) numbers = [int(match.group(i)) for i in range(1, 5)] return IPAddress(numbers) @staticmethod def from_int(numeric: int): if numeric not in range(1 << 32): raise ValueError("numeric value must be in uint-range") return IPAddress(list(numeric.to_bytes(4, "big"))) @staticmethod def is_ipv4(ip: str): match = re.match("^" + IPAddress.IP_REGEXP + "$", ip) return True if match else False def to_int(self): return self.ipnum def is_private(self): return ReservedIPBlocks.is_private(self) def get_private_segment(self): return ReservedIPBlocks.get_private_segment(self) def is_localhost(self): return ReservedIPBlocks.is_localhost(self) def is_multicast(self): return ReservedIPBlocks.is_multicast(self) def is_reserved(self): return ReservedIPBlocks.is_reserved(self) def is_zero_conf(self): return ReservedIPBlocks.is_zero_conf(self) def _tuple(self): return tuple(self.ipnum.to_bytes(4, "big")) def __repr__(self): return "IPAddress([%i, %i, %i, %i])" % self._tuple() def __str__(self): return "%i.%i.%i.%i" % self._tuple() def __hash__(self): return self.ipnum def __eq__(self, other): if other is None: return False return isinstance(other, IPAddress) and self.ipnum == other.ipnum def __lt__(self, other): if other is None: raise TypeError("Cannot compare to None") if not isinstance(other, IPAddress): raise NotImplemented # maybe other can compare to self return self.ipnum < other.ipnum class IPAddressBlock: CIDR_REGEXP = IPAddress.IP_REGEXP + r"(\/(3[0-2]|[12]?\d)|)?" def __init__(self, ip, netmask = 32): if isinstance(ip, str): ip = IPAddress.parse(ip) elif isinstance(ip, list): ip = IPAddress(ip) if not 1 <= netmask <= 32: raise ValueError("netmask must lie between 1 and 32") self.ipnum = ip.to_int() & self._bitmask(netmask) self.netmask = netmask self.last_ipnum = self.ipnum + self.block_size() - 1 @staticmethod def parse(cidr: str): match = re.match("^" + IPAddressBlock.CIDR_REGEXP + "$", cidr) if not match: raise ValueError("%s is no valid cidr-notation" % cidr) ip = [int(match.group(i)) for i in range(1, 5)] suffix = 32 if not match.group(6) else int(match.group(6)) return IPAddressBlock(ip, suffix) def block_size(self): return 2 ** (32 - self.netmask) def first_address(self): return IPAddress.from_int(self.ipnum) def last_address(self): return IPAddress.from_int(self.last_ipnum) def _bitmask(self, netmask): ones = lambda x: (1 << x) - 1 return ones(32) ^ ones(32 - netmask) def __repr__(self): return "IPAddressBlock(%s, %i)" % (repr(IPAddress.from_int(self.ipnum)), self.netmask) def __self__(self): return IPAddress.from_int(self.ipnum) + "/" + str(self.netmask) def __contains__(self, ip): return (ip.to_int() & self._bitmask(self.netmask)) == self.ipnum class ReservedIPBlocks: PRIVATE_IP_SEGMENTS = [ IPAddressBlock.parse(block) for block in ("10.0.0.0/8", "172.16.0.0/12", "192.168.0.0/16") ] LOCALHOST_SEGMENT = IPAddressBlock.parse("127.0.0.0/8") MULTICAST_SEGMENT = IPAddressBlock.parse("224.0.0.0/4") RESERVED_SEGMENT = IPAddressBlock.parse("240.0.0.0/4") ZERO_CONF_SEGMENT = IPAddressBlock.parse("169.254.0.0/16") @staticmethod def is_private(ip): return any(ip in block for block in ReservedIPBlocks.PRIVATE_IP_SEGMENTS) @staticmethod def get_private_segment(ip): if not ReservedIPBlocks.is_private(ip): raise ValueError("%s is not part of a private IP segment" % ip) for block in ReservedIPBlocks.PRIVATE_IP_SEGMENTS: if ip in block: return block @staticmethod def is_localhost(ip): return ip in ReservedIPBlocks.LOCALHOST_SEGMENT @staticmethod def is_multicast(ip): return ip in ReservedIPBlocks.MULTICAST_SEGMENT @staticmethod def is_reserved(ip): return ip in ReservedIPBlocks.RESERVED_SEGMENT @staticmethod def is_zero_conf(ip): return ip in ReservedIPBlocks.ZERO_CONF_SEGMENT