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# This file is part of creddump.
#
# creddump 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 3 of the License, or
# (at your option) any later version.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
import hashlib
import codecs
from struct import pack
from ..addrspace import HiveFileAddressSpace
from .rawreg import *
from foreign.client_handling.lazagne.config.crypto.rc4 import RC4
from foreign.client_handling.lazagne.config.crypto.pyDes import des, ECB
from foreign.client_handling.lazagne.config.crypto.pyaes.aes import AESModeOfOperationCBC
from foreign.client_handling.lazagne.config.winstructure import char_to_int, chr_or_byte, int_or_bytes
odd_parity = [
1, 1, 2, 2, 4, 4, 7, 7, 8, 8, 11, 11, 13, 13, 14, 14,
16, 16, 19, 19, 21, 21, 22, 22, 25, 25, 26, 26, 28, 28, 31, 31,
32, 32, 35, 35, 37, 37, 38, 38, 41, 41, 42, 42, 44, 44, 47, 47,
49, 49, 50, 50, 52, 52, 55, 55, 56, 56, 59, 59, 61, 61, 62, 62,
64, 64, 67, 67, 69, 69, 70, 70, 73, 73, 74, 74, 76, 76, 79, 79,
81, 81, 82, 82, 84, 84, 87, 87, 88, 88, 91, 91, 93, 93, 94, 94,
97, 97, 98, 98, 100, 100, 103, 103, 104, 104, 107, 107, 109, 109, 110, 110,
112, 112, 115, 115, 117, 117, 118, 118, 121, 121, 122, 122, 124, 124, 127, 127,
128, 128, 131, 131, 133, 133, 134, 134, 137, 137, 138, 138, 140, 140, 143, 143,
145, 145, 146, 146, 148, 148, 151, 151, 152, 152, 155, 155, 157, 157, 158, 158,
161, 161, 162, 162, 164, 164, 167, 167, 168, 168, 171, 171, 173, 173, 174, 174,
176, 176, 179, 179, 181, 181, 182, 182, 185, 185, 186, 186, 188, 188, 191, 191,
193, 193, 194, 194, 196, 196, 199, 199, 200, 200, 203, 203, 205, 205, 206, 206,
208, 208, 211, 211, 213, 213, 214, 214, 217, 217, 218, 218, 220, 220, 223, 223,
224, 224, 227, 227, 229, 229, 230, 230, 233, 233, 234, 234, 236, 236, 239, 239,
241, 241, 242, 242, 244, 244, 247, 247, 248, 248, 251, 251, 253, 253, 254, 254
]
# Permutation matrix for boot key
p = [0x8, 0x5, 0x4, 0x2, 0xb, 0x9, 0xd, 0x3,
0x0, 0x6, 0x1, 0xc, 0xe, 0xa, 0xf, 0x7]
# Constants for SAM decrypt algorithm
aqwerty = b"!@#$%^&*()qwertyUIOPAzxcvbnmQQQQQQQQQQQQ)(*@&%\0"
anum = b"0123456789012345678901234567890123456789\0"
antpassword = b"NTPASSWORD\0"
almpassword = b"LMPASSWORD\0"
empty_lm = codecs.decode('aad3b435b51404eeaad3b435b51404ee', 'hex')
empty_nt = codecs.decode('31d6cfe0d16ae931b73c59d7e0c089c0', 'hex')
AES_BLOCK_SIZE = 16
def str_to_key(s):
key = []
key.append(char_to_int(s[0]) >> 1)
key.append(((char_to_int(s[0]) & 0x01) << 6) | (char_to_int(s[1]) >> 2))
key.append(((char_to_int(s[1]) & 0x03) << 5) | (char_to_int(s[2]) >> 3))
key.append(((char_to_int(s[2]) & 0x07) << 4) | (char_to_int(s[3]) >> 4))
key.append(((char_to_int(s[3]) & 0x0F) << 3) | (char_to_int(s[4]) >> 5))
key.append(((char_to_int(s[4]) & 0x1F) << 2) | (char_to_int(s[5]) >> 6))
key.append(((char_to_int(s[5]) & 0x3F) << 1) | (char_to_int(s[6]) >> 7))
key.append(char_to_int(s[6]) & 0x7F)
for i in range(8):
key[i] = (key[i] << 1)
key[i] = odd_parity[key[i]]
return b"".join(chr_or_byte(k) for k in key)
def sid_to_key(sid):
s1 = b""
s1 += chr_or_byte(sid & 0xFF)
s1 += chr_or_byte((sid >> 8) & 0xFF)
s1 += chr_or_byte((sid >> 16) & 0xFF)
s1 += chr_or_byte((sid >> 24) & 0xFF)
s1 += int_or_bytes(s1[0])
s1 += int_or_bytes(s1[1])
s1 += int_or_bytes(s1[2])
s2 = int_or_bytes(s1[3]) + int_or_bytes(s1[0]) + int_or_bytes(s1[1]) + int_or_bytes(s1[2])
s2 += int_or_bytes(s2[0]) + int_or_bytes(s2[1]) + int_or_bytes(s2[2])
return str_to_key(s1), str_to_key(s2)
def find_control_set(sysaddr):
root = get_root(sysaddr)
if not root:
return 1
csselect = open_key(root, [b"Select"])
if not csselect:
return 1
for v in values(csselect):
if v.Name == b"Current":
return v.Data.value
def get_bootkey(sysaddr):
cs = find_control_set(sysaddr)
lsa_base = [b"ControlSet%03d" % cs, b"Control", b"Lsa"]
lsa_keys = [b"JD", b"Skew1", b"GBG", b"Data"]
root = get_root(sysaddr)
if not root:
return None
lsa = open_key(root, lsa_base)
if not lsa:
return None
bootkey = b""
for lk in lsa_keys:
key = open_key(lsa, [lk])
class_data = sysaddr.read(key.Class.value, key.ClassLength.value)
bootkey += codecs.decode(class_data.decode('utf-16-le'), 'hex')
bootkey_scrambled = b""
for i in range(len(bootkey)):
try:
bootkey_scrambled += bootkey[p[i]]
except TypeError:
bootkey_scrambled += bytes([bootkey[p[i]]])
return bootkey_scrambled
def get_hbootkey(samaddr, bootkey):
sam_account_path = [b"SAM", b"Domains", b"Account"]
root = get_root(samaddr)
if not root:
return None
sam_account_key = open_key(root, sam_account_path)
if not sam_account_key:
return None
F = None
for v in values(sam_account_key):
if v.Name == b'F':
F = samaddr.read(v.Data.value, v.DataLength.value)
if not F:
return None
revision = ord(F[0x00])
if revision == 2:
md5 = hashlib.md5(F[0x70:0x80] + aqwerty + bootkey + anum)
rc4_key = md5.digest()
rc4 = RC4(rc4_key)
hbootkey = rc4.encrypt(F[0x80:0xA0])
return hbootkey
elif revision == 3:
iv = F[0x78:0x88]
encryptedHBootKey = F[0x88:0xA8]
cipher = AESModeOfOperationCBC(bootkey, iv=iv)
hbootkey = b"".join([cipher.decrypt(encryptedHBootKey[i:i + AES_BLOCK_SIZE]) for i in range(0, len(encryptedHBootKey), AES_BLOCK_SIZE)])
return hbootkey[:16]
def get_user_keys(samaddr):
user_key_path = [b"SAM", b"Domains", b"Account", b"Users"]
root = get_root(samaddr)
if not root:
return []
user_key = open_key(root, user_key_path)
if not user_key:
return []
return [k for k in subkeys(user_key) if k.Name != b"Names"]
def decrypt_single_hash(rid, hbootkey, enc_hash, lmntstr):
if enc_hash == "":
return ""
(des_k1, des_k2) = sid_to_key(rid)
d1 = des(des_k1, ECB)
d2 = des(des_k2, ECB)
md5 = hashlib.md5()
md5.update(hbootkey[:0x10] + pack("<L", rid) + lmntstr)
rc4_key = md5.digest()
rc4 = RC4(rc4_key)
obfkey = rc4.encrypt(enc_hash)
hash_ = d1.decrypt(obfkey[:8]) + d2.decrypt(obfkey[8:])
return hash_
def decrypt_single_salted_hash(rid, hbootkey, enc_hash, lmntstr, salt):
if enc_hash == "":
return ""
(des_k1, des_k2) = sid_to_key(rid)
d1 = des(des_k1, ECB)
d2 = des(des_k2, ECB)
cipher = AESModeOfOperationCBC(hbootkey, salt)
obfkey = b"".join([cipher.decrypt(enc_hash[i:i + AES_BLOCK_SIZE]) for i in range(0, len(enc_hash), AES_BLOCK_SIZE)])
hash_ = d1.decrypt(obfkey[:8]) + d2.decrypt(obfkey[8:16])
return hash_
def get_user_hashes(user_key, hbootkey):
samaddr = user_key.space
rid = int(user_key.Name, 16)
V = None
for v in values(user_key):
if v.Name == 'V':
V = samaddr.read(v.Data.value, v.DataLength.value)
if not V: return None
hash_offset = unpack("<L", V[0xa8:0xa8+4])[0] + 0xCC
lm_offset_bytes = V[0x9c:0x9c+4]
nt_offset_bytes = V[0x9c+12:0x9c+16]
lm_offset = unpack("<L", lm_offset_bytes)[0] + 204
nt_offset = unpack("<L", nt_offset_bytes)[0] + 204
lm_revision = int(codecs.encode(V[lm_offset+2:lm_offset+3], 'hex').decode(), 16)
if lm_revision == 1:
lm_exists = True if unpack("<L", V[0x9c+4:0x9c+8])[0] == 20 else False
enc_lm_hash = V[hash_offset+4:hash_offset+20] if lm_exists else ""
lmhash = decrypt_single_hash(rid, hbootkey, enc_lm_hash, almpassword)
elif lm_revision == 2:
lm_exists = True if unpack("<L", V[0x9c+4:0x9c+8])[0] == 56 else False
lm_salt = V[hash_offset+4:hash_offset+20] if lm_exists else ""
enc_lm_hash = V[hash_offset+20:hash_offset+52] if lm_exists else ""
lmhash = decrypt_single_salted_hash(rid, hbootkey, enc_lm_hash, almpassword, lm_salt)
nt_revision = int(codecs.encode(V[nt_offset+2:nt_offset+3], 'hex').decode(), 16)
if nt_revision == 1:
nt_exists = True if unpack("<L", V[0x9c+16:0x9c+20])[0] == 20 else False
enc_nt_hash = V[nt_offset+4:nt_offset+20] if nt_exists else ""
nthash = decrypt_single_hash(rid, hbootkey, enc_nt_hash, antpassword)
elif nt_revision == 2:
nt_exists = True if unpack("<L", V[0x9c+16:0x9c+20])[0] == 56 else False
nt_salt = V[nt_offset+8:nt_offset+24] if nt_exists else ""
enc_nt_hash = V[nt_offset+24:nt_offset+56] if nt_exists else ""
nthash = decrypt_single_salted_hash(rid, hbootkey, enc_nt_hash, antpassword, nt_salt)
return lmhash, nthash
def get_user_name(user_key):
samaddr = user_key.space
V = None
for v in values(user_key):
if v.Name == b'V':
V = samaddr.read(v.Data.value, v.DataLength.value)
if not V:
return None
name_offset = unpack("<L", V[0x0c:0x10])[0] + 0xCC
name_length = unpack("<L", V[0x10:0x14])[0]
username = V[name_offset:name_offset + name_length].decode('utf-16-le')
return username
def dump_hashes(sysaddr, samaddr):
bootkey = get_bootkey(sysaddr)
hbootkey = get_hbootkey(samaddr, bootkey)
results = []
for user in get_user_keys(samaddr):
lmhash, nthash = get_user_hashes(user, hbootkey)
if not lmhash:
lmhash = empty_lm
if not nthash:
nthash = empty_nt
results.append(
"%s:%d:%s:%s:::" % (get_user_name(user), int(user.Name, 16), codecs.encode(lmhash, 'hex').decode(),
codecs.encode(nthash, 'hex').decode()))
return results
def dump_file_hashes(syshive_fname, samhive_fname):
sysaddr = HiveFileAddressSpace(syshive_fname)
samaddr = HiveFileAddressSpace(samhive_fname)
return dump_hashes(sysaddr, samaddr)
|
