def test_decryptCredential(self): credFile = CredentialFile(self.credentialFile) credFile.dump() blob = DPAPI_BLOB(credFile['Data']) decrypted = blob.decrypt(self.adminMasterKey) creds = CREDENTIAL_BLOB(decrypted) creds.dump() self.assertEqual(creds['Username'], 'david.bowie\x00'.encode('utf-16le'))
def test_decryptCredential(self): credFile = CredentialFile(self.credentialFile) credFile.dump() blob = DPAPI_BLOB(credFile['Data']) decrypted = blob.decrypt(self.adminMasterKey) creds = CREDENTIAL_BLOB(decrypted) creds.dump() self.assertEqual(creds['Username'], self.username.encode('utf-16le'))
def run(self): if self.options.action.upper() == 'MASTERKEY': fp = open(options.file, 'rb') data = fp.read() mkf = MasterKeyFile(data) mkf.dump() data = data[len(mkf):] if mkf['MasterKeyLen'] > 0: mk = MasterKey(data[:mkf['MasterKeyLen']]) data = data[len(mk):] if mkf['BackupKeyLen'] > 0: bkmk = MasterKey(data[:mkf['BackupKeyLen']]) data = data[len(bkmk):] if mkf['CredHistLen'] > 0: ch = CredHist(data[:mkf['CredHistLen']]) data = data[len(ch):] if mkf['DomainKeyLen'] > 0: dk = DomainKey(data[:mkf['DomainKeyLen']]) data = data[len(dk):] if self.options.system and self.options.security and self.options.sid is None: # We have hives, let's try to decrypt with them self.getLSA() decryptedKey = mk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted Backup key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted Backup key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.system and self.options.security: # Use SID + hash # We have hives, let's try to decrypt with them self.getLSA() key1, key2 = self.deriveKeysFromUserkey( self.options.sid, self.dpapiSystem['UserKey']) decryptedKey = mk.decrypt(key1) if decryptedKey: print('Decrypted key with UserKey + SID') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(key1) if decryptedKey: print('Decrypted Backup key with UserKey + SID') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(key2) if decryptedKey: print('Decrypted key with UserKey + SID') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(key2) if decryptedKey: print('Decrypted Backup key with UserKey + SID') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.key and self.options.sid: key = unhexlify(self.options.key[2:]) key1, key2 = self.deriveKeysFromUserkey(self.options.sid, key) decryptedKey = mk.decrypt(key1) if decryptedKey: print('Decrypted key with key provided + SID') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(key2) if decryptedKey: print('Decrypted key with key provided + SID') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.key: key = unhexlify(self.options.key[2:]) decryptedKey = mk.decrypt(key) if decryptedKey: print('Decrypted key with key provided') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.pvk and dk: pvkfile = open(self.options.pvk, 'rb').read() key = PRIVATE_KEY_BLOB(pvkfile[len(PVK_FILE_HDR()):]) private = privatekeyblob_to_pkcs1(key) cipher = PKCS1_v1_5.new(private) decryptedKey = cipher.decrypt(dk['SecretData'][::-1], None) if decryptedKey: domain_master_key = DPAPI_DOMAIN_RSA_MASTER_KEY( decryptedKey) key = domain_master_key[ 'buffer'][:domain_master_key['cbMasterKey']] print('Decrypted key with domain backup key provided') print('Decrypted key: 0x%s' % hexlify(key).decode('latin-1')) return elif self.options.sid and self.options.key is None: # Do we have a password? if self.options.password is None: # Nope let's ask it from getpass import getpass password = getpass("Password:"******"Password:"******"Password:"******"G$BCKUPKEY_PREFERRED", "G$BCKUPKEY_P"): buffer = crypto.decryptSecret( connection.getSessionKey(), lsad.hLsarRetrievePrivateData(dce, resp['PolicyHandle'], keyname)) guid = bin_to_string(buffer) name = "G$BCKUPKEY_{}".format(guid) secret = crypto.decryptSecret( connection.getSessionKey(), lsad.hLsarRetrievePrivateData(dce, resp['PolicyHandle'], name)) keyVersion = struct.unpack('<L', secret[:4])[0] if keyVersion == 1: # legacy key backup_key = P_BACKUP_KEY(secret) backupkey = backup_key['Data'] if self.options.export: logging.debug( "Exporting key to file {}".format(name + ".key")) open(name + ".key", 'wb').write(backupkey) else: print("Legacy key:") print("0x%s" % hexlify(backupkey).decode('latin-1')) print("\n") elif keyVersion == 2: # preferred key backup_key = PREFERRED_BACKUP_KEY(secret) pvk = backup_key['Data'][:backup_key['KeyLength']] cert = backup_key['Data'][ backup_key['KeyLength']:backup_key['KeyLength'] + backup_key['CertificateLength']] # build pvk header (PVK_MAGIC, PVK_FILE_VERSION_0, KeySpec, PVK_NO_ENCRYPT, 0, cbPvk) header = PVK_FILE_HDR() header['dwMagic'] = 0xb0b5f11e header['dwVersion'] = 0 header['dwKeySpec'] = 1 header['dwEncryptType'] = 0 header['cbEncryptData'] = 0 header['cbPvk'] = backup_key['KeyLength'] backupkey_pvk = header.getData() + pvk # pvk blob backupkey = backupkey_pvk if self.options.export: logging.debug( "Exporting certificate to file {}".format(name + ".der")) open(name + ".der", 'wb').write(cert) logging.debug( "Exporting private key to file {}".format(name + ".pvk")) open(name + ".pvk", 'wb').write(backupkey) else: print("Preferred key:") header.dump() print("PRIVATEKEYBLOB:{%s}" % (hexlify(backupkey).decode('latin-1'))) print("\n") return elif self.options.action.upper() == 'CREDENTIAL': fp = open(options.file, 'rb') data = fp.read() cred = CredentialFile(data) blob = DPAPI_BLOB(cred['Data']) if self.options.key is not None: key = unhexlify(self.options.key[2:]) decrypted = blob.decrypt(key) if decrypted is not None: creds = CREDENTIAL_BLOB(decrypted) creds.dump() return else: # Just print the data blob.dump() elif self.options.action.upper() == 'VAULT': if options.vcrd is None and options.vpol is None: print( 'You must specify either -vcrd or -vpol parameter. Type --help for more info' ) return if options.vcrd is not None: fp = open(options.vcrd, 'rb') data = fp.read() blob = VAULT_VCRD(data) if self.options.key is not None: key = unhexlify(self.options.key[2:]) cleartext = None for i, entry in enumerate(blob.attributesLen): if entry > 28: attribute = blob.attributes[i] if 'IV' in attribute.fields and len( attribute['IV']) == 16: cipher = AES.new(key, AES.MODE_CBC, iv=attribute['IV']) else: cipher = AES.new(key, AES.MODE_CBC) cleartext = cipher.decrypt(attribute['Data']) if cleartext is not None: # Lookup schema Friendly Name and print if we find one if blob['FriendlyName'].decode( 'utf-16le')[:-1] in VAULT_KNOWN_SCHEMAS: # Found one. Cast it and print vault = VAULT_KNOWN_SCHEMAS[ blob['FriendlyName'].decode('utf-16le')[:-1]]( cleartext) vault.dump() else: # otherwise hexdump(cleartext) return else: blob.dump() elif options.vpol is not None: fp = open(options.vpol, 'rb') data = fp.read() vpol = VAULT_VPOL(data) vpol.dump() if self.options.key is not None: key = unhexlify(self.options.key[2:]) blob = vpol['Blob'] data = blob.decrypt(key) if data is not None: keys = VAULT_VPOL_KEYS(data) keys.dump() return elif self.options.action.upper() == 'UNPROTECT': fp = open(options.file, 'rb') data = fp.read() blob = DPAPI_BLOB(data) if self.options.key is not None: key = unhexlify(self.options.key[2:]) if self.options.entropy_file is not None: fp2 = open(self.options.entropy_file, 'rb') entropy = fp2.read() fp2.close() elif self.options.entropy is not None: entropy = b(self.options.entropy) else: entropy = None decrypted = blob.decrypt(key, entropy) if decrypted is not None: print('Successfully decrypted data') hexdump(decrypted) return else: # Just print the data blob.dump() print('Cannot decrypt (specify -key or -sid whenever applicable) ')
def run(self): if self.options.action.upper() == 'MASTERKEY': fp = open(options.file, 'rb') data = fp.read() mkf= MasterKeyFile(data) mkf.dump() data = data[len(mkf):] if mkf['MasterKeyLen'] > 0: mk = MasterKey(data[:mkf['MasterKeyLen']]) data = data[len(mk):] if mkf['BackupKeyLen'] > 0: bkmk = MasterKey(data[:mkf['BackupKeyLen']]) data = data[len(bkmk):] if mkf['CredHistLen'] > 0: ch = CredHist(data[:mkf['CredHistLen']]) data = data[len(ch):] if mkf['DomainKeyLen'] > 0: dk = DomainKey(data[:mkf['DomainKeyLen']]) data = data[len(dk):] if self.options.system and self.options.security: # We have hives, let's try to decrypt with them self.getLSA() decryptedKey = mk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted Backup key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted Backup key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.key: key = unhexlify(self.options.key[2:]) decryptedKey = mk.decrypt(key) if decryptedKey: print('Decrypted key with key provided') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.pvk and dk: pvkfile = open(self.options.pvk, 'rb').read() key = PRIVATE_KEY_BLOB(pvkfile[len(PVK_FILE_HDR()):]) private = privatekeyblob_to_pkcs1(key) cipher = PKCS1_v1_5.new(private) decryptedKey = cipher.decrypt(dk['SecretData'][::-1], None) if decryptedKey: domain_master_key = DPAPI_DOMAIN_RSA_MASTER_KEY(decryptedKey) key = domain_master_key['buffer'][:domain_master_key['cbMasterKey']] print('Decrypted key with domain backup key provided') print('Decrypted key: 0x%s' % hexlify(key).decode('latin-1')) return elif self.options.sid and self.options.key is None: # Do we have a password? if self.options.password is None: # Nope let's ask it from getpass import getpass password = getpass("Password:"******"Password:"******"G$BCKUPKEY_PREFERRED", "G$BCKUPKEY_P"): buffer = crypto.decryptSecret(connection.getSessionKey(), lsad.hLsarRetrievePrivateData(dce, resp['PolicyHandle'], keyname)) guid = bin_to_string(buffer) name = "G$BCKUPKEY_{}".format(guid) secret = crypto.decryptSecret(connection.getSessionKey(), lsad.hLsarRetrievePrivateData(dce, resp['PolicyHandle'], name)) keyVersion = struct.unpack('<L', secret[:4])[0] if keyVersion == 1: # legacy key backup_key = P_BACKUP_KEY(secret) backupkey = backup_key['Data'] if self.options.export: logging.debug("Exporting key to file {}".format(name + ".key")) open(name + ".key", 'wb').write(backupkey) else: print("Legacy key:") print("0x%s" % hexlify(backupkey).decode('latin-1')) print("\n") elif keyVersion == 2: # preferred key backup_key = PREFERRED_BACKUP_KEY(secret) pvk = backup_key['Data'][:backup_key['KeyLength']] cert = backup_key['Data'][backup_key['KeyLength']:backup_key['KeyLength'] + backup_key['CertificateLength']] # build pvk header (PVK_MAGIC, PVK_FILE_VERSION_0, KeySpec, PVK_NO_ENCRYPT, 0, cbPvk) header = PVK_FILE_HDR() header['dwMagic'] = 0xb0b5f11e header['dwVersion'] = 0 header['dwKeySpec'] = 1 header['dwEncryptType'] = 0 header['cbEncryptData'] = 0 header['cbPvk'] = backup_key['KeyLength'] backupkey_pvk = header.getData() + pvk # pvk blob backupkey = backupkey_pvk if self.options.export: logging.debug("Exporting certificate to file {}".format(name + ".der")) open(name + ".der", 'wb').write(cert) logging.debug("Exporting private key to file {}".format(name + ".pvk")) open(name + ".pvk", 'wb').write(backupkey) else: print("Preferred key:") header.dump() print("PRIVATEKEYBLOB:{%s}" % (hexlify(backupkey).decode('latin-1'))) print("\n") return elif self.options.action.upper() == 'CREDENTIAL': fp = open(options.file, 'rb') data = fp.read() cred = CredentialFile(data) blob = DPAPI_BLOB(cred['Data']) if self.options.key is not None: key = unhexlify(self.options.key[2:]) decrypted = blob.decrypt(key) if decrypted is not None: creds = CREDENTIAL_BLOB(decrypted) creds.dump() return else: # Just print the data blob.dump() elif self.options.action.upper() == 'VAULT': if options.vcrd is None and options.vpol is None: print('You must specify either -vcrd or -vpol parameter. Type --help for more info') return if options.vcrd is not None: fp = open(options.vcrd, 'rb') data = fp.read() blob = VAULT_VCRD(data) if self.options.key is not None: key = unhexlify(self.options.key[2:]) cleartext = None for i, entry in enumerate(blob.attributesLen): if entry > 28: attribute = blob.attributes[i] if 'IV' in attribute.fields and len(attribute['IV']) == 16: cipher = AES.new(key, AES.MODE_CBC, iv=attribute['IV']) else: cipher = AES.new(key, AES.MODE_CBC) cleartext = cipher.decrypt(attribute['Data']) if cleartext is not None: # Lookup schema Friendly Name and print if we find one if blob['FriendlyName'].decode('utf-16le')[:-1] in VAULT_KNOWN_SCHEMAS: # Found one. Cast it and print vault = VAULT_KNOWN_SCHEMAS[blob['FriendlyName'].decode('utf-16le')[:-1]](cleartext) vault.dump() else: # otherwise hexdump(cleartext) return else: blob.dump() elif options.vpol is not None: fp = open(options.vpol, 'rb') data = fp.read() vpol = VAULT_VPOL(data) vpol.dump() if self.options.key is not None: key = unhexlify(self.options.key[2:]) blob = vpol['Blob'] data = blob.decrypt(key) if data is not None: keys = VAULT_VPOL_KEYS(data) keys.dump() return print('Cannot decrypt (specify -key or -sid whenever applicable) ')
def run(self): if self.options.action.upper() == 'MASTERKEY': fp = open(options.file, 'rb') data = fp.read() mkf= MasterKeyFile(data) mkf.dump() data = data[len(mkf):] if mkf['MasterKeyLen'] > 0: mk = MasterKey(data[:mkf['MasterKeyLen']]) data = data[len(mk):] if mkf['BackupKeyLen'] > 0: bkmk = MasterKey(data[:mkf['BackupKeyLen']]) data = data[len(bkmk):] if mkf['CredHistLen'] > 0: ch = CredHist(data[:mkf['CredHistLen']]) data = data[len(ch):] if mkf['DomainKeyLen'] > 0: dk = DomainKey(data[:mkf['DomainKeyLen']]) data = data[len(dk):] if self.options.system and self.options.security: # We have hives, let's try to decrypt with them self.getLSA() decryptedKey = mk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted Backup key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted Backup key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.key: key = unhexlify(self.options.key[2:]) decryptedKey = mk.decrypt(key) if decryptedKey: print('Decrypted key with key provided') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.pvk and dk: pvkfile = open(self.options.pvk, 'rb').read() key = PRIVATE_KEY_BLOB(pvkfile[len(PVK_FILE_HDR()):]) private = privatekeyblob_to_pkcs1(key) cipher = PKCS1_v1_5.new(private) decryptedKey = cipher.decrypt(dk['SecretData'][::-1], None) if decryptedKey: domain_master_key = DPAPI_DOMAIN_RSA_MASTER_KEY(decryptedKey) key = domain_master_key['buffer'][:domain_master_key['cbMasterKey']] print('Decrypted key with domain backup key provided') print('Decrypted key: 0x%s' % hexlify(key).decode('latin-1')) return elif self.options.sid and self.options.key is None: # Do we have a password? if self.options.password is None: # Nope let's ask it from getpass import getpass password = getpass("Password:"******"Password:"******"G$BCKUPKEY_PREFERRED", "G$BCKUPKEY_P"): buffer = crypto.decryptSecret(connection.getSessionKey(), lsad.hLsarRetrievePrivateData(dce, resp['PolicyHandle'], keyname)) guid = bin_to_string(buffer) name = "G$BCKUPKEY_{}".format(guid) secret = crypto.decryptSecret(connection.getSessionKey(), lsad.hLsarRetrievePrivateData(dce, resp['PolicyHandle'], name)) keyVersion = struct.unpack('<L', secret[:4])[0] if keyVersion == 1: # legacy key backup_key = P_BACKUP_KEY(secret) backupkey = backup_key['Data'] if self.options.export: logging.debug("Exporting key to file {}".format(name + ".key")) open(name + ".key", 'wb').write(backupkey) else: print("Legacy key:") print("0x%s" % hexlify(backupkey)) print("\n") elif keyVersion == 2: # preferred key backup_key = PREFERRED_BACKUP_KEY(secret) pvk = backup_key['Data'][:backup_key['KeyLength']] cert = backup_key['Data'][backup_key['KeyLength']:backup_key['KeyLength'] + backup_key['CertificateLength']] # build pvk header (PVK_MAGIC, PVK_FILE_VERSION_0, KeySpec, PVK_NO_ENCRYPT, 0, cbPvk) header = PVK_FILE_HDR() header['dwMagic'] = 0xb0b5f11e header['dwVersion'] = 0 header['dwKeySpec'] = 1 header['dwEncryptType'] = 0 header['cbEncryptData'] = 0 header['cbPvk'] = backup_key['KeyLength'] backupkey_pvk = header.getData() + pvk # pvk blob backupkey = backupkey_pvk if self.options.export: logging.debug("Exporting certificate to file {}".format(name + ".der")) open(name + ".der", 'wb').write(cert) logging.debug("Exporting private key to file {}".format(name + ".pvk")) open(name + ".pvk", 'wb').write(backupkey) else: print("Preferred key:") header.dump() print("PRIVATEKEYBLOB:{%s}" % (hexlify(backupkey))) print("\n") return elif self.options.action.upper() == 'CREDENTIAL': fp = open(options.file, 'rb') data = fp.read() cred = CredentialFile(data) blob = DPAPI_BLOB(cred['Data']) if self.options.key is not None: key = unhexlify(self.options.key[2:]) decrypted = blob.decrypt(key) if decrypted is not None: creds = CREDENTIAL_BLOB(decrypted) creds.dump() return else: # Just print the data blob.dump() elif self.options.action.upper() == 'VAULT': if options.vcrd is None and options.vpol is None: print('You must specify either -vcrd or -vpol parameter. Type --help for more info') return if options.vcrd is not None: fp = open(options.vcrd, 'rb') data = fp.read() blob = VAULT_VCRD(data) if self.options.key is not None: key = unhexlify(self.options.key[2:]) cleartext = None for i, entry in enumerate(blob.attributesLen): if entry > 28: attribute = blob.attributes[i] if 'IV' in attribute.fields and len(attribute['IV']) == 16: cipher = AES.new(key, AES.MODE_CBC, iv=attribute['IV']) else: cipher = AES.new(key, AES.MODE_CBC) cleartext = cipher.decrypt(attribute['Data']) if cleartext is not None: # Lookup schema Friendly Name and print if we find one if blob['FriendlyName'].decode('utf-16le')[:-1] in VAULT_KNOWN_SCHEMAS: # Found one. Cast it and print vault = VAULT_KNOWN_SCHEMAS[blob['FriendlyName'].decode('utf-16le')[:-1]](cleartext) vault.dump() else: # otherwise hexdump(cleartext) return else: blob.dump() elif options.vpol is not None: fp = open(options.vpol, 'rb') data = fp.read() vpol = VAULT_VPOL(data) vpol.dump() if self.options.key is not None: key = unhexlify(self.options.key[2:]) blob = vpol['Blob'] data = blob.decrypt(key) if data is not None: keys = VAULT_VPOL_KEYS(data) keys.dump() return print('Cannot decrypt (specify -key or -sid whenever applicable) ')
def run(self): if self.options.action.upper() == 'MASTERKEY': fp = open(options.file, 'rb') data = fp.read() mkf = MasterKeyFile(data) mkf.dump() data = data[len(mkf):] if mkf['MasterKeyLen'] > 0: mk = MasterKey(data[:mkf['MasterKeyLen']]) data = data[len(mk):] if mkf['BackupKeyLen'] > 0: bkmk = MasterKey(data[:mkf['BackupKeyLen']]) data = data[len(bkmk):] if mkf['CredHistLen'] > 0: ch = CredHist(data[:mkf['CredHistLen']]) data = data[len(ch):] if mkf['DomainKeyLen'] > 0: dk = DomainKey(data[:mkf['DomainKeyLen']]) data = data[len(dk):] if self.options.system and self.options.security: # We have hives, let's try to decrypt with them self.getLSA() decryptedKey = mk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['UserKey']) if decryptedKey: print('Decrypted Backup key with UserKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(self.dpapiSystem['MachineKey']) if decryptedKey: print('Decrypted Backup key with MachineKey') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.key: key = unhexlify(self.options.key[2:]) decryptedKey = mk.decrypt(key) if decryptedKey: print('Decrypted key with key provided') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return elif self.options.sid and self.options.key is None: # Do we have a password? if self.options.password is None: # Nope let's ask it from getpass import getpass password = getpass("Password:") else: password = options.password key1, key2, key3 = self.deriveKeysFromUser( self.options.sid, password) # if mkf['flags'] & 4 ? SHA1 : MD4 decryptedKey = mk.decrypt(key3) if decryptedKey: print('Decrypted key with User Key (MD4 protected)') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(key2) if decryptedKey: print('Decrypted key with User Key (MD4)') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = mk.decrypt(key1) if decryptedKey: print('Decrypted key with User Key (SHA1)') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(key3) if decryptedKey: print('Decrypted Backup key with User Key (MD4 protected)') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(key2) if decryptedKey: print('Decrypted Backup key with User Key (MD4)') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return decryptedKey = bkmk.decrypt(key1) if decryptedKey: print('Decrypted Backup key with User Key (SHA1)') print('Decrypted key: 0x%s' % hexlify(decryptedKey).decode('latin-1')) return else: # Just print key's data if mkf['MasterKeyLen'] > 0: mk.dump() if mkf['BackupKeyLen'] > 0: bkmk.dump() if mkf['CredHistLen'] > 0: ch.dump() if mkf['DomainKeyLen'] > 0: dk.dump() elif self.options.action.upper() == 'CREDENTIAL': fp = open(options.file, 'rb') data = fp.read() cred = CredentialFile(data) blob = DPAPI_BLOB(cred['Data']) if self.options.key is not None: key = unhexlify(self.options.key[2:]) decrypted = blob.decrypt(key) if decrypted is not None: creds = CREDENTIAL_BLOB(decrypted) creds.dump() return else: # Just print the data blob.dump() elif self.options.action.upper() == 'VAULT': if options.vcrd is None and options.vpol is None: print( 'You must specify either -vcrd or -vpol parameter. Type --help for more info' ) return if options.vcrd is not None: fp = open(options.vcrd, 'rb') data = fp.read() blob = VAULT_VCRD(data) if self.options.key is not None: key = unhexlify(self.options.key[2:]) cleartext = None for i, entry in enumerate(blob.attributesLen): if entry > 28: attribute = blob.attributes[i] if 'IV' in attribute.fields and len( attribute['IV']) == 16: cipher = AES.new(key, AES.MODE_CBC, iv=attribute['IV']) else: cipher = AES.new(key, AES.MODE_CBC) cleartext = cipher.decrypt(attribute['Data']) if cleartext is not None: # Lookup schema Friendly Name and print if we find one if blob['FriendlyName'].decode( 'utf-16le')[:-1] in VAULT_KNOWN_SCHEMAS: # Found one. Cast it and print vault = VAULT_KNOWN_SCHEMAS[ blob['FriendlyName'].decode('utf-16le')[:-1]]( cleartext) vault.dump() else: # otherwise hexdump(cleartext) return else: blob.dump() elif options.vpol is not None: fp = open(options.vpol, 'rb') data = fp.read() vpol = VAULT_VPOL(data) vpol.dump() if self.options.key is not None: key = unhexlify(self.options.key[2:]) blob = vpol['Blob'] data = blob.decrypt(key) if data is not None: keys = VAULT_VPOL_KEYS(data) keys.dump() return print('Cannot decrypt (specify -key or -sid whenever applicable) ')