esp32_bluetooth_classic_sni.../libs/scapy/contrib/dce_rpc.py

# This file is part of Scapy
# Scapy is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# any later version.
#
# Scapy is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Scapy. If not, see <http://www.gnu.org/licenses/>.

# Copyright (C) 2016 Gauthier Sebaux

# scapy.contrib.description = DCE/RPC
# scapy.contrib.status = loads

"""
A basic dissector for DCE/RPC.
Isn't reliable for all packets and for building
"""

import struct

# TODO: namespace locally used fields
from scapy.packet import Packet, Raw, bind_layers
from scapy.fields import BitEnumField, ByteEnumField, ByteField, \
    FlagsField, IntField, LenField, ShortField, UUIDField, XByteField, \
    XShortField


# Fields
class EndiannessField(object):
    """Field which change the endianness of a sub-field"""
    __slots__ = ["fld", "endianess_from"]

    def __init__(self, fld, endianess_from):
        self.fld = fld
        self.endianess_from = endianess_from

    def set_endianess(self, pkt):
        """Add the endianness to the format"""
        end = self.endianess_from(pkt)
        if isinstance(end, str) and end:
            if isinstance(self.fld, UUIDField):
                self.fld.uuid_fmt = (UUIDField.FORMAT_LE if end == '<'
                                     else UUIDField.FORMAT_BE)
            else:
                # fld.fmt should always start with a order specifier, cf field
                # init
                self.fld.fmt = end[0] + self.fld.fmt[1:]
                self.fld.struct = struct.Struct(self.fld.fmt)

    def getfield(self, pkt, buf):
        """retrieve the field with endianness"""
        self.set_endianess(pkt)
        return self.fld.getfield(pkt, buf)

    def addfield(self, pkt, buf, val):
        """add the field with endianness to the buffer"""
        self.set_endianess(pkt)
        return self.fld.addfield(pkt, buf, val)

    def __getattr__(self, attr):
        return getattr(self.fld, attr)


# DCE/RPC Packet
DCE_RPC_TYPE = ["request", "ping", "response", "fault", "working", "no_call",
                "reject", "acknowledge", "connectionless_cancel", "frag_ack",
                "cancel_ack"]
DCE_RPC_FLAGS1 = ["reserved_0", "last_frag", "frag", "no_frag_ack", "maybe",
                  "idempotent", "broadcast", "reserved_7"]
DCE_RPC_FLAGS2 = ["reserved_0", "cancel_pending", "reserved_2", "reserved_3",
                  "reserved_4", "reserved_5", "reserved_6", "reserved_7"]


def dce_rpc_endianess(pkt):
    """Determine the right endianness sign for a given DCE/RPC packet"""
    if pkt.endianness == 0:  # big endian
        return ">"
    elif pkt.endianness == 1:  # little endian
        return "<"
    else:
        return "!"


class DceRpc(Packet):
    """DCE/RPC packet"""
    name = "DCE/RPC"
    fields_desc = [
        ByteField("version", 4),
        ByteEnumField("type", 0, DCE_RPC_TYPE),
        FlagsField("flags1", 0, 8, DCE_RPC_FLAGS1),
        FlagsField("flags2", 0, 8, DCE_RPC_FLAGS2),
        BitEnumField("endianness", 0, 4, ["big", "little"]),
        BitEnumField("encoding", 0, 4, ["ASCII", "EBCDIC"]),
        ByteEnumField("float", 0, ["IEEE", "VAX", "CRAY", "IBM"]),
        ByteField("DataRepr_reserved", 0),
        XByteField("serial_high", 0),
        EndiannessField(UUIDField("object_uuid", None),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(UUIDField("interface_uuid", None),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(UUIDField("activity", None),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(IntField("boot_time", 0),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(IntField("interface_version", 1),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(IntField("sequence_num", 0),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(ShortField("opnum", 0),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(XShortField("interface_hint", 0xffff),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(XShortField("activity_hint", 0xffff),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(LenField("frag_len", None, fmt="H"),
                        endianess_from=dce_rpc_endianess),
        EndiannessField(ShortField("frag_num", 0),
                        endianess_from=dce_rpc_endianess),
        ByteEnumField("auth", 0, ["none"]),  # TODO other auth ?
        XByteField("serial_low", 0),
    ]


# Heuristically way to find the payload class
#
# To add a possible payload to a DCE/RPC packet, one must first create the
# packet class, then instead of binding layers using bind_layers, he must
# call DceRpcPayload.register_possible_payload() with the payload class as
# parameter.
#
# To be able to decide if the payload class is capable of handling the rest of
# the dissection, the classmethod can_handle() should be implemented in the
# payload class. This method is given the rest of the string to dissect as
# first argument, and the DceRpc packet instance as second argument. Based on
# this information, the method must return True if the class is capable of
# handling the dissection, False otherwise
class DceRpcPayload(Packet):
    """Dummy class which use the dispatch_hook to find the payload class"""
    _payload_class = []

    @classmethod
    def dispatch_hook(cls, _pkt, _underlayer=None, *args, **kargs):
        """dispatch_hook to choose among different registered payloads"""
        for klass in cls._payload_class:
            if hasattr(klass, "can_handle") and \
                    klass.can_handle(_pkt, _underlayer):
                return klass
        print("DCE/RPC payload class not found or undefined (using Raw)")
        return Raw

    @classmethod
    def register_possible_payload(cls, pay):
        """Method to call from possible DCE/RPC endpoint to register it as
        possible payload"""
        cls._payload_class.append(pay)


bind_layers(DceRpc, DceRpcPayload)
initial commit todo: add documentation & wireshark dissector 2021-08-31 11:51:03 +00:00			`# This file is part of Scapy`
			`# Scapy is free software: you can redistribute it and/or modify`
			`# it under the terms of the GNU General Public License as published by`
			`# the Free Software Foundation, either version 2 of the License, or`
			`# any later version.`
			`#`
			`# Scapy is distributed in the hope that it will be useful,`
			`# but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`# GNU General Public License for more details.`
			`#`
			`# You should have received a copy of the GNU General Public License`
			`# along with Scapy. If not, see <http://www.gnu.org/licenses/>.`

			`# Copyright (C) 2016 Gauthier Sebaux`

			`# scapy.contrib.description = DCE/RPC`
			`# scapy.contrib.status = loads`

			`"""`
			`A basic dissector for DCE/RPC.`
			`Isn't reliable for all packets and for building`
			`"""`

			`import struct`

			`# TODO: namespace locally used fields`
			`from scapy.packet import Packet, Raw, bind_layers`
			`from scapy.fields import BitEnumField, ByteEnumField, ByteField, \`
			`FlagsField, IntField, LenField, ShortField, UUIDField, XByteField, \`
			`XShortField`


			`# Fields`
			`class EndiannessField(object):`
			`"""Field which change the endianness of a sub-field"""`
			`__slots__ = ["fld", "endianess_from"]`

			`def __init__(self, fld, endianess_from):`
			`self.fld = fld`
			`self.endianess_from = endianess_from`

			`def set_endianess(self, pkt):`
			`"""Add the endianness to the format"""`
			`end = self.endianess_from(pkt)`
			`if isinstance(end, str) and end:`
			`if isinstance(self.fld, UUIDField):`
			`self.fld.uuid_fmt = (UUIDField.FORMAT_LE if end == '<'`
			`else UUIDField.FORMAT_BE)`
			`else:`
			`# fld.fmt should always start with a order specifier, cf field`
			`# init`
			`self.fld.fmt = end[0] + self.fld.fmt[1:]`
			`self.fld.struct = struct.Struct(self.fld.fmt)`

			`def getfield(self, pkt, buf):`
			`"""retrieve the field with endianness"""`
			`self.set_endianess(pkt)`
			`return self.fld.getfield(pkt, buf)`

			`def addfield(self, pkt, buf, val):`
			`"""add the field with endianness to the buffer"""`
			`self.set_endianess(pkt)`
			`return self.fld.addfield(pkt, buf, val)`

			`def __getattr__(self, attr):`
			`return getattr(self.fld, attr)`


			`# DCE/RPC Packet`
			`DCE_RPC_TYPE = ["request", "ping", "response", "fault", "working", "no_call",`
			`"reject", "acknowledge", "connectionless_cancel", "frag_ack",`
			`"cancel_ack"]`
			`DCE_RPC_FLAGS1 = ["reserved_0", "last_frag", "frag", "no_frag_ack", "maybe",`
			`"idempotent", "broadcast", "reserved_7"]`
			`DCE_RPC_FLAGS2 = ["reserved_0", "cancel_pending", "reserved_2", "reserved_3",`
			`"reserved_4", "reserved_5", "reserved_6", "reserved_7"]`


			`def dce_rpc_endianess(pkt):`
			`"""Determine the right endianness sign for a given DCE/RPC packet"""`
			`if pkt.endianness == 0: # big endian`
			`return ">"`
			`elif pkt.endianness == 1: # little endian`
			`return "<"`
			`else:`
			`return "!"`


			`class DceRpc(Packet):`
			`"""DCE/RPC packet"""`
			`name = "DCE/RPC"`
			`fields_desc = [`
			`ByteField("version", 4),`
			`ByteEnumField("type", 0, DCE_RPC_TYPE),`
			`FlagsField("flags1", 0, 8, DCE_RPC_FLAGS1),`
			`FlagsField("flags2", 0, 8, DCE_RPC_FLAGS2),`
			`BitEnumField("endianness", 0, 4, ["big", "little"]),`
			`BitEnumField("encoding", 0, 4, ["ASCII", "EBCDIC"]),`
			`ByteEnumField("float", 0, ["IEEE", "VAX", "CRAY", "IBM"]),`
			`ByteField("DataRepr_reserved", 0),`
			`XByteField("serial_high", 0),`
			`EndiannessField(UUIDField("object_uuid", None),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(UUIDField("interface_uuid", None),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(UUIDField("activity", None),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(IntField("boot_time", 0),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(IntField("interface_version", 1),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(IntField("sequence_num", 0),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(ShortField("opnum", 0),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(XShortField("interface_hint", 0xffff),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(XShortField("activity_hint", 0xffff),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(LenField("frag_len", None, fmt="H"),`
			`endianess_from=dce_rpc_endianess),`
			`EndiannessField(ShortField("frag_num", 0),`
			`endianess_from=dce_rpc_endianess),`
			`ByteEnumField("auth", 0, ["none"]), # TODO other auth ?`
			`XByteField("serial_low", 0),`
			`]`


			`# Heuristically way to find the payload class`
			`#`
			`# To add a possible payload to a DCE/RPC packet, one must first create the`
			`# packet class, then instead of binding layers using bind_layers, he must`
			`# call DceRpcPayload.register_possible_payload() with the payload class as`
			`# parameter.`
			`#`
			`# To be able to decide if the payload class is capable of handling the rest of`
			`# the dissection, the classmethod can_handle() should be implemented in the`
			`# payload class. This method is given the rest of the string to dissect as`
			`# first argument, and the DceRpc packet instance as second argument. Based on`
			`# this information, the method must return True if the class is capable of`
			`# handling the dissection, False otherwise`
			`class DceRpcPayload(Packet):`
			`"""Dummy class which use the dispatch_hook to find the payload class"""`
			`_payload_class = []`

			`@classmethod`
			`def dispatch_hook(cls, _pkt, _underlayer=None, args, *kargs):`
			`"""dispatch_hook to choose among different registered payloads"""`
			`for klass in cls._payload_class:`
			`if hasattr(klass, "can_handle") and \`
			`klass.can_handle(_pkt, _underlayer):`
			`return klass`
			`print("DCE/RPC payload class not found or undefined (using Raw)")`
			`return Raw`

			`@classmethod`
			`def register_possible_payload(cls, pay):`
			`"""Method to call from possible DCE/RPC endpoint to register it as`
			`possible payload"""`
			`cls._payload_class.append(pay)`


			`bind_layers(DceRpc, DceRpcPayload)`