esp32_bluetooth_classic_sni.../libs/scapy/asn1/asn1.py

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# This file is part of Scapy
# See http://www.secdev.org/projects/scapy for more information
# Copyright (C) Philippe Biondi <phil@secdev.org>
# Modified by Maxence Tury <maxence.tury@ssi.gouv.fr>
# This program is published under a GPLv2 license
"""
ASN.1 (Abstract Syntax Notation One)
"""
from __future__ import absolute_import
from __future__ import print_function
import random
from datetime import datetime
from scapy.config import conf
from scapy.error import Scapy_Exception, warning
from scapy.volatile import RandField, RandIP, GeneralizedTime
from scapy.utils import Enum_metaclass, EnumElement, binrepr
from scapy.compat import plain_str, chb, orb
import scapy.modules.six as six
from scapy.modules.six.moves import range
class RandASN1Object(RandField):
def __init__(self, objlist=None):
self.objlist = [
x._asn1_obj
for x in six.itervalues(ASN1_Class_UNIVERSAL.__rdict__)
if hasattr(x, "_asn1_obj")
] if objlist is None else objlist
self.chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789" # noqa: E501
def _fix(self, n=0):
o = random.choice(self.objlist)
if issubclass(o, ASN1_INTEGER):
return o(int(random.gauss(0, 1000)))
elif issubclass(o, ASN1_IPADDRESS):
z = RandIP()._fix()
return o(z)
elif issubclass(o, ASN1_GENERALIZED_TIME) or issubclass(o, ASN1_UTC_TIME): # noqa: E501
z = GeneralizedTime()._fix()
return o(z)
elif issubclass(o, ASN1_STRING):
z = int(random.expovariate(0.05) + 1)
return o("".join(random.choice(self.chars) for _ in range(z)))
elif issubclass(o, ASN1_SEQUENCE) and (n < 10):
z = int(random.expovariate(0.08) + 1)
return o([self.__class__(objlist=self.objlist)._fix(n + 1)
for _ in range(z)])
return ASN1_INTEGER(int(random.gauss(0, 1000)))
##############
# ASN1 #
##############
class ASN1_Error(Scapy_Exception):
pass
class ASN1_Encoding_Error(ASN1_Error):
pass
class ASN1_Decoding_Error(ASN1_Error):
pass
class ASN1_BadTag_Decoding_Error(ASN1_Decoding_Error):
pass
class ASN1Codec(EnumElement):
def register_stem(cls, stem):
cls._stem = stem
def dec(cls, s, context=None):
return cls._stem.dec(s, context=context)
def safedec(cls, s, context=None):
return cls._stem.safedec(s, context=context)
def get_stem(cls):
return cls.stem
class ASN1_Codecs_metaclass(Enum_metaclass):
element_class = ASN1Codec
class ASN1_Codecs(six.with_metaclass(ASN1_Codecs_metaclass)):
BER = 1
DER = 2
PER = 3
CER = 4
LWER = 5
BACnet = 6
OER = 7
SER = 8
XER = 9
class ASN1Tag(EnumElement):
def __init__(self, key, value, context=None, codec=None):
EnumElement.__init__(self, key, value)
self._context = context
if codec is None:
codec = {}
self._codec = codec
def clone(self): # not a real deep copy. self.codec is shared
return self.__class__(self._key, self._value, self._context, self._codec) # noqa: E501
def register_asn1_object(self, asn1obj):
self._asn1_obj = asn1obj
def asn1_object(self, val):
if hasattr(self, "_asn1_obj"):
return self._asn1_obj(val)
raise ASN1_Error("%r does not have any assigned ASN1 object" % self)
def register(self, codecnum, codec):
self._codec[codecnum] = codec
def get_codec(self, codec):
try:
c = self._codec[codec]
except KeyError:
raise ASN1_Error("Codec %r not found for tag %r" % (codec, self))
return c
class ASN1_Class_metaclass(Enum_metaclass):
element_class = ASN1Tag
def __new__(cls, name, bases, dct): # XXX factorise a bit with Enum_metaclass.__new__() # noqa: E501
for b in bases:
for k, v in six.iteritems(b.__dict__):
if k not in dct and isinstance(v, ASN1Tag):
dct[k] = v.clone()
rdict = {}
for k, v in six.iteritems(dct):
if isinstance(v, int):
v = ASN1Tag(k, v)
dct[k] = v
rdict[v] = v
elif isinstance(v, ASN1Tag):
rdict[v] = v
dct["__rdict__"] = rdict
cls = type.__new__(cls, name, bases, dct)
for v in six.itervalues(cls.__dict__):
if isinstance(v, ASN1Tag):
v.context = cls # overwrite ASN1Tag contexts, even cloned ones
return cls
class ASN1_Class(six.with_metaclass(ASN1_Class_metaclass)):
pass
class ASN1_Class_UNIVERSAL(ASN1_Class):
name = "UNIVERSAL"
ERROR = -3
RAW = -2
NONE = -1
ANY = 0
BOOLEAN = 1
INTEGER = 2
BIT_STRING = 3
STRING = 4
NULL = 5
OID = 6
OBJECT_DESCRIPTOR = 7
EXTERNAL = 8
REAL = 9
ENUMERATED = 10
EMBEDDED_PDF = 11
UTF8_STRING = 12
RELATIVE_OID = 13
SEQUENCE = 16 | 0x20 # constructed encoding
SET = 17 | 0x20 # constructed encoding
NUMERIC_STRING = 18
PRINTABLE_STRING = 19
T61_STRING = 20 # aka TELETEX_STRING
VIDEOTEX_STRING = 21
IA5_STRING = 22
UTC_TIME = 23
GENERALIZED_TIME = 24
GRAPHIC_STRING = 25
ISO646_STRING = 26 # aka VISIBLE_STRING
GENERAL_STRING = 27
UNIVERSAL_STRING = 28
CHAR_STRING = 29
BMP_STRING = 30
IPADDRESS = 0 | 0x40 # application-specific encoding
COUNTER32 = 1 | 0x40 # application-specific encoding
GAUGE32 = 2 | 0x40 # application-specific encoding
TIME_TICKS = 3 | 0x40 # application-specific encoding
class ASN1_Object_metaclass(type):
def __new__(cls, name, bases, dct):
c = super(ASN1_Object_metaclass, cls).__new__(cls, name, bases, dct)
try:
c.tag.register_asn1_object(c)
except Exception:
warning("Error registering %r for %r" % (c.tag, c.codec))
return c
class ASN1_Object(six.with_metaclass(ASN1_Object_metaclass)):
tag = ASN1_Class_UNIVERSAL.ANY
def __init__(self, val):
self.val = val
def enc(self, codec):
return self.tag.get_codec(codec).enc(self.val)
def __repr__(self):
return "<%s[%r]>" % (self.__dict__.get("name", self.__class__.__name__), self.val) # noqa: E501
def __str__(self):
return self.enc(conf.ASN1_default_codec)
def __bytes__(self):
return self.enc(conf.ASN1_default_codec)
def strshow(self, lvl=0):
return (" " * lvl) + repr(self) + "\n"
def show(self, lvl=0):
print(self.strshow(lvl))
def __eq__(self, other):
return self.val == other
def __lt__(self, other):
return self.val < other
def __le__(self, other):
return self.val <= other
def __gt__(self, other):
return self.val > other
def __ge__(self, other):
return self.val >= other
def __ne__(self, other):
return self.val != other
#######################
# ASN1 objects #
#######################
# on the whole, we order the classes by ASN1_Class_UNIVERSAL tag value
class ASN1_DECODING_ERROR(ASN1_Object):
tag = ASN1_Class_UNIVERSAL.ERROR
def __init__(self, val, exc=None):
ASN1_Object.__init__(self, val)
self.exc = exc
def __repr__(self):
return "<%s[%r]{{%r}}>" % (self.__dict__.get("name", self.__class__.__name__), # noqa: E501
self.val, self.exc.args[0])
def enc(self, codec):
if isinstance(self.val, ASN1_Object):
return self.val.enc(codec)
return self.val
class ASN1_force(ASN1_Object):
tag = ASN1_Class_UNIVERSAL.RAW
def enc(self, codec):
if isinstance(self.val, ASN1_Object):
return self.val.enc(codec)
return self.val
class ASN1_BADTAG(ASN1_force):
pass
class ASN1_INTEGER(ASN1_Object):
tag = ASN1_Class_UNIVERSAL.INTEGER
def __repr__(self):
h = hex(self.val)
if h[-1] == "L":
h = h[:-1]
# cut at 22 because with leading '0x', x509 serials should be < 23
if len(h) > 22:
h = h[:12] + "..." + h[-10:]
r = repr(self.val)
if len(r) > 20:
r = r[:10] + "..." + r[-10:]
return h + " <%s[%s]>" % (self.__dict__.get("name", self.__class__.__name__), r) # noqa: E501
class ASN1_BOOLEAN(ASN1_INTEGER):
tag = ASN1_Class_UNIVERSAL.BOOLEAN
# BER: 0 means False, anything else means True
def __repr__(self):
return '%s %s' % (not (self.val == 0), ASN1_Object.__repr__(self))
class ASN1_BIT_STRING(ASN1_Object):
"""
ASN1_BIT_STRING values are bit strings like "011101".
A zero-bit padded readable string is provided nonetheless,
which is stored in val_readable
"""
tag = ASN1_Class_UNIVERSAL.BIT_STRING
def __init__(self, val, readable=False):
if not readable:
self.val = val
else:
self.val_readable = val
def __setattr__(self, name, value):
if name == "val_readable":
if isinstance(value, (str, bytes)):
val = "".join(binrepr(orb(x)).zfill(8) for x in value)
else:
warning("Invalid val: should be bytes")
val = "<invalid val_readable>"
object.__setattr__(self, "val", val)
object.__setattr__(self, name, value)
object.__setattr__(self, "unused_bits", 0)
elif name == "val":
value = plain_str(value)
if isinstance(value, str):
if any(c for c in value if c not in ["0", "1"]):
warning("Invalid operation: 'val' is not a valid bit string.") # noqa: E501
return
else:
if len(value) % 8 == 0:
unused_bits = 0
else:
unused_bits = 8 - (len(value) % 8)
padded_value = value + ("0" * unused_bits)
bytes_arr = zip(*[iter(padded_value)] * 8)
val_readable = b"".join(chb(int("".join(x), 2)) for x in bytes_arr) # noqa: E501
else:
warning("Invalid val: should be str")
val_readable = b"<invalid val>"
unused_bits = 0
object.__setattr__(self, "val_readable", val_readable)
object.__setattr__(self, name, value)
object.__setattr__(self, "unused_bits", unused_bits)
elif name == "unused_bits":
warning("Invalid operation: unused_bits rewriting "
"is not supported.")
else:
object.__setattr__(self, name, value)
def __repr__(self):
s = self.val_readable
if len(s) > 16:
s = s[:10] + b"..." + s[-10:]
v = self.val
if len(v) > 20:
v = v[:10] + "..." + v[-10:]
return "<%s[%s]=%s (%d unused bit%s)>" % (
self.__dict__.get("name", self.__class__.__name__),
v,
s,
self.unused_bits,
"s" if self.unused_bits > 1 else ""
)
class ASN1_STRING(ASN1_Object):
tag = ASN1_Class_UNIVERSAL.STRING
class ASN1_NULL(ASN1_Object):
tag = ASN1_Class_UNIVERSAL.NULL
def __repr__(self):
return ASN1_Object.__repr__(self)
class ASN1_OID(ASN1_Object):
tag = ASN1_Class_UNIVERSAL.OID
def __init__(self, val):
val = plain_str(val)
val = conf.mib._oid(val)
ASN1_Object.__init__(self, val)
self.oidname = conf.mib._oidname(val)
def __repr__(self):
return "<%s[%r]>" % (self.__dict__.get("name", self.__class__.__name__), self.oidname) # noqa: E501
class ASN1_ENUMERATED(ASN1_INTEGER):
tag = ASN1_Class_UNIVERSAL.ENUMERATED
class ASN1_UTF8_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.UTF8_STRING
class ASN1_NUMERIC_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.NUMERIC_STRING
class ASN1_PRINTABLE_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.PRINTABLE_STRING
class ASN1_T61_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.T61_STRING
class ASN1_VIDEOTEX_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.VIDEOTEX_STRING
class ASN1_IA5_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.IA5_STRING
class ASN1_UTC_TIME(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.UTC_TIME
def __init__(self, val):
ASN1_STRING.__init__(self, val)
def __setattr__(self, name, value):
if isinstance(value, bytes):
value = plain_str(value)
if name == "val":
pretty_time = None
if isinstance(self, ASN1_GENERALIZED_TIME):
_len = 15
self._format = "%Y%m%d%H%M%S"
else:
_len = 13
self._format = "%y%m%d%H%M%S"
_nam = self.tag._asn1_obj.__name__[4:].lower()
if (isinstance(value, str) and
len(value) == _len and value[-1] == "Z"):
dt = datetime.strptime(value[:-1], self._format)
pretty_time = dt.strftime("%b %d %H:%M:%S %Y GMT")
else:
pretty_time = "%s [invalid %s]" % (value, _nam)
ASN1_STRING.__setattr__(self, "pretty_time", pretty_time)
ASN1_STRING.__setattr__(self, name, value)
elif name == "pretty_time":
print("Invalid operation: pretty_time rewriting is not supported.")
else:
ASN1_STRING.__setattr__(self, name, value)
def __repr__(self):
return "%s %s" % (self.pretty_time, ASN1_STRING.__repr__(self))
class ASN1_GENERALIZED_TIME(ASN1_UTC_TIME):
tag = ASN1_Class_UNIVERSAL.GENERALIZED_TIME
class ASN1_ISO646_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.ISO646_STRING
class ASN1_UNIVERSAL_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.UNIVERSAL_STRING
class ASN1_BMP_STRING(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.BMP_STRING
class ASN1_SEQUENCE(ASN1_Object):
tag = ASN1_Class_UNIVERSAL.SEQUENCE
def strshow(self, lvl=0):
s = (" " * lvl) + ("# %s:" % self.__class__.__name__) + "\n"
for o in self.val:
s += o.strshow(lvl=lvl + 1)
return s
class ASN1_SET(ASN1_SEQUENCE):
tag = ASN1_Class_UNIVERSAL.SET
class ASN1_IPADDRESS(ASN1_STRING):
tag = ASN1_Class_UNIVERSAL.IPADDRESS
class ASN1_COUNTER32(ASN1_INTEGER):
tag = ASN1_Class_UNIVERSAL.COUNTER32
class ASN1_GAUGE32(ASN1_INTEGER):
tag = ASN1_Class_UNIVERSAL.GAUGE32
class ASN1_TIME_TICKS(ASN1_INTEGER):
tag = ASN1_Class_UNIVERSAL.TIME_TICKS
conf.ASN1_default_codec = ASN1_Codecs.BER