esp32_bluetooth_classic_sni.../libs/scapy/pton_ntop.py

# This file is part of Scapy
# See http://www.secdev.org/projects/scapy for more information
# Copyright (C) Philippe Biondi <phil@secdev.org>
# This program is published under a GPLv2 license

"""
Convert IPv6 addresses between textual representation and binary.

These functions are missing when python is compiled
without IPv6 support, on Windows for instance.
"""

from __future__ import absolute_import
import socket
import re
import binascii
from scapy.modules.six.moves import range
from scapy.compat import plain_str, hex_bytes, bytes_encode, bytes_hex

_IP6_ZEROS = re.compile('(?::|^)(0(?::0)+)(?::|$)')
_INET6_PTON_EXC = socket.error("illegal IP address string passed to inet_pton")


def _inet6_pton(addr):
    """Convert an IPv6 address from text representation into binary form,
used when socket.inet_pton is not available.

    """
    joker_pos = None
    result = b""
    addr = plain_str(addr)
    if addr == '::':
        return b'\x00' * 16
    if addr.startswith('::'):
        addr = addr[1:]
    if addr.endswith('::'):
        addr = addr[:-1]
    parts = addr.split(":")
    nparts = len(parts)
    for i, part in enumerate(parts):
        if not part:
            # "::" indicates one or more groups of 2 null bytes
            if joker_pos is None:
                joker_pos = len(result)
            else:
                # Wildcard is only allowed once
                raise _INET6_PTON_EXC
        elif i + 1 == nparts and '.' in part:
            # The last part of an IPv6 address can be an IPv4 address
            if part.count('.') != 3:
                # we have to do this since socket.inet_aton('1.2') ==
                # b'\x01\x00\x00\x02'
                raise _INET6_PTON_EXC
            try:
                result += socket.inet_aton(part)
            except socket.error:
                raise _INET6_PTON_EXC
        else:
            # Each part must be 16bit. Add missing zeroes before decoding.
            try:
                result += hex_bytes(part.rjust(4, "0"))
            except (binascii.Error, TypeError):
                raise _INET6_PTON_EXC
    # If there's a wildcard, fill up with zeros to reach 128bit (16 bytes)
    if joker_pos is not None:
        if len(result) == 16:
            raise _INET6_PTON_EXC
        result = (result[:joker_pos] + b"\x00" * (16 - len(result)) +
                  result[joker_pos:])
    if len(result) != 16:
        raise _INET6_PTON_EXC
    return result


_INET_PTON = {
    socket.AF_INET: socket.inet_aton,
    socket.AF_INET6: _inet6_pton,
}


def inet_pton(af, addr):
    """Convert an IP address from text representation into binary form."""
    # Will replace Net/Net6 objects
    addr = plain_str(addr)
    # Use inet_pton if available
    try:
        return socket.inet_pton(af, addr)
    except AttributeError:
        try:
            return _INET_PTON[af](addr)
        except KeyError:
            raise socket.error("Address family not supported by protocol")


def _inet6_ntop(addr):
    """Convert an IPv6 address from binary form into text representation,
used when socket.inet_pton is not available.

    """
    # IPv6 addresses have 128bits (16 bytes)
    if len(addr) != 16:
        raise ValueError("invalid length of packed IP address string")

    # Decode to hex representation
    address = ":".join(plain_str(bytes_hex(addr[idx:idx + 2])).lstrip('0') or '0'  # noqa: E501
                       for idx in range(0, 16, 2))

    try:
        # Get the longest set of zero blocks. We need to take a look
        # at group 1 regarding the length, as 0:0:1:0:0:2:3:4 would
        # have two matches: 0:0: and :0:0: where the latter is longer,
        # though the first one should be taken. Group 1 is in both
        # cases 0:0.
        match = max(_IP6_ZEROS.finditer(address),
                    key=lambda m: m.end(1) - m.start(1))
        return '{}::{}'.format(address[:match.start()], address[match.end():])
    except ValueError:
        return address


_INET_NTOP = {
    socket.AF_INET: socket.inet_ntoa,
    socket.AF_INET6: _inet6_ntop,
}


def inet_ntop(af, addr):
    """Convert an IP address from binary form into text representation."""
    # Use inet_ntop if available
    addr = bytes_encode(addr)
    try:
        return socket.inet_ntop(af, addr)
    except AttributeError:
        try:
            return _INET_NTOP[af](addr)
        except KeyError:
            raise ValueError("unknown address family %d" % af)
initial commit todo: add documentation & wireshark dissector 2021-08-31 11:51:03 +00:00			`# This file is part of Scapy`
			`# See http://www.secdev.org/projects/scapy for more information`
			`# Copyright (C) Philippe Biondi <phil@secdev.org>`
			`# This program is published under a GPLv2 license`

			`"""`
			`Convert IPv6 addresses between textual representation and binary.`

			`These functions are missing when python is compiled`
			`without IPv6 support, on Windows for instance.`
			`"""`

			`from __future__ import absolute_import`
			`import socket`
			`import re`
			`import binascii`
			`from scapy.modules.six.moves import range`
			`from scapy.compat import plain_str, hex_bytes, bytes_encode, bytes_hex`

			`_IP6_ZEROS = re.compile('(?::\|^)(0(?::0)+)(?::\|$)')`
			`_INET6_PTON_EXC = socket.error("illegal IP address string passed to inet_pton")`


			`def _inet6_pton(addr):`
			`"""Convert an IPv6 address from text representation into binary form,`
			`used when socket.inet_pton is not available.`

			`"""`
			`joker_pos = None`
			`result = b""`
			`addr = plain_str(addr)`
			`if addr == '::':`
			`return b'\x00' * 16`
			`if addr.startswith('::'):`
			`addr = addr[1:]`
			`if addr.endswith('::'):`
			`addr = addr[:-1]`
			`parts = addr.split(":")`
			`nparts = len(parts)`
			`for i, part in enumerate(parts):`
			`if not part:`
			`# "::" indicates one or more groups of 2 null bytes`
			`if joker_pos is None:`
			`joker_pos = len(result)`
			`else:`
			`# Wildcard is only allowed once`
			`raise _INET6_PTON_EXC`
			`elif i + 1 == nparts and '.' in part:`
			`# The last part of an IPv6 address can be an IPv4 address`
			`if part.count('.') != 3:`
			`# we have to do this since socket.inet_aton('1.2') ==`
			`# b'\x01\x00\x00\x02'`
			`raise _INET6_PTON_EXC`
			`try:`
			`result += socket.inet_aton(part)`
			`except socket.error:`
			`raise _INET6_PTON_EXC`
			`else:`
			`# Each part must be 16bit. Add missing zeroes before decoding.`
			`try:`
			`result += hex_bytes(part.rjust(4, "0"))`
			`except (binascii.Error, TypeError):`
			`raise _INET6_PTON_EXC`
			`# If there's a wildcard, fill up with zeros to reach 128bit (16 bytes)`
			`if joker_pos is not None:`
			`if len(result) == 16:`
			`raise _INET6_PTON_EXC`
			`result = (result[:joker_pos] + b"\x00" * (16 - len(result)) +`
			`result[joker_pos:])`
			`if len(result) != 16:`
			`raise _INET6_PTON_EXC`
			`return result`


			`_INET_PTON = {`
			`socket.AF_INET: socket.inet_aton,`
			`socket.AF_INET6: _inet6_pton,`
			`}`


			`def inet_pton(af, addr):`
			`"""Convert an IP address from text representation into binary form."""`
			`# Will replace Net/Net6 objects`
			`addr = plain_str(addr)`
			`# Use inet_pton if available`
			`try:`
			`return socket.inet_pton(af, addr)`
			`except AttributeError:`
			`try:`
			`return _INET_PTON[af](addr)`
			`except KeyError:`
			`raise socket.error("Address family not supported by protocol")`


			`def _inet6_ntop(addr):`
			`"""Convert an IPv6 address from binary form into text representation,`
			`used when socket.inet_pton is not available.`

			`"""`
			`# IPv6 addresses have 128bits (16 bytes)`
			`if len(addr) != 16:`
			`raise ValueError("invalid length of packed IP address string")`

			`# Decode to hex representation`
			`address = ":".join(plain_str(bytes_hex(addr[idx:idx + 2])).lstrip('0') or '0' # noqa: E501`
			`for idx in range(0, 16, 2))`

			`try:`
			`# Get the longest set of zero blocks. We need to take a look`
			`# at group 1 regarding the length, as 0:0:1:0:0:2:3:4 would`
			`# have two matches: 0:0: and :0:0: where the latter is longer,`
			`# though the first one should be taken. Group 1 is in both`
			`# cases 0:0.`
			`match = max(_IP6_ZEROS.finditer(address),`
			`key=lambda m: m.end(1) - m.start(1))`
			`return '{}::{}'.format(address[:match.start()], address[match.end():])`
			`except ValueError:`
			`return address`


			`_INET_NTOP = {`
			`socket.AF_INET: socket.inet_ntoa,`
			`socket.AF_INET6: _inet6_ntop,`
			`}`


			`def inet_ntop(af, addr):`
			`"""Convert an IP address from binary form into text representation."""`
			`# Use inet_ntop if available`
			`addr = bytes_encode(addr)`
			`try:`
			`return socket.inet_ntop(af, addr)`
			`except AttributeError:`
			`try:`
			`return _INET_NTOP[af](addr)`
			`except KeyError:`
			`raise ValueError("unknown address family %d" % af)`