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dpapi.py
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dpapi.py
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#!/usr/bin/env python
# Impacket - Collection of Python classes for working with network protocols.
#
# Copyright Fortra, LLC and its affiliated companies
#
# All rights reserved.
#
# This software is provided under a slightly modified version
# of the Apache Software License. See the accompanying LICENSE file
# for more information.
#
# Description:
# Example for using the DPAPI/Vault structures to unlock Windows Secrets.
#
# Author:
# Alberto Solino (@agsolino)
#
# Examples:
#
# You can unlock masterkeys, credentials and vaults. For the three, you will specify the file name (using -file for
# masterkeys and credentials, and -vpol and -vcrd for vaults).
# If no other parameter is sent, the contents of these resource will be shown, with their encrypted data as well.
# If you specify a -key blob (in the form of '0xabcdef...') that key will be used to decrypt the contents.
# In the case of vaults, you might need to also provide the user's sid (and the user password will be asked).
# For system secrets, instead of a password you will need to specify the system and security hives.
#
# References:
# All of the work done by these guys. I just adapted their work to my needs.
# - https://www.passcape.com/index.php?section=docsys&cmd=details&id=28
# - https://github.com/jordanbtucker/dpapick
# - https://github.com/gentilkiwi/mimikatz/wiki/howto-~-credential-manager-saved-credentials (and everything else Ben did )
# - http://blog.digital-forensics.it/2016/01/windows-revaulting.html
# - https://www.passcape.com/windows_password_recovery_vault_explorer
# - https://www.passcape.com/windows_password_recovery_dpapi_master_key
#
from __future__ import division
from __future__ import print_function
import struct
import argparse
import logging
import sys
from six import b
from binascii import unhexlify, hexlify
from hashlib import pbkdf2_hmac
from Cryptodome.Cipher import AES, PKCS1_v1_5
from Cryptodome.Hash import HMAC, SHA1, MD4
from impacket.uuid import bin_to_string
from impacket import crypto
from impacket.smbconnection import SMBConnection
from impacket.dcerpc.v5 import transport
from impacket.dcerpc.v5 import lsad
from impacket.dcerpc.v5 import bkrp
from impacket.dcerpc.v5.rpcrt import RPC_C_AUTHN_LEVEL_PKT_PRIVACY, RPC_C_AUTHN_GSS_NEGOTIATE
from impacket import version
from impacket.examples import logger
from impacket.examples.utils import parse_target
from impacket.examples.secretsdump import LocalOperations, LSASecrets
from impacket.structure import hexdump
from impacket.dpapi import MasterKeyFile, MasterKey, CredHist, DomainKey, CredentialFile, DPAPI_BLOB, \
CREDENTIAL_BLOB, VAULT_VCRD, VAULT_VPOL, VAULT_KNOWN_SCHEMAS, VAULT_VPOL_KEYS, P_BACKUP_KEY, PREFERRED_BACKUP_KEY, \
PVK_FILE_HDR, PRIVATE_KEY_BLOB, privatekeyblob_to_pkcs1, DPAPI_DOMAIN_RSA_MASTER_KEY, deriveKeysFromUser, deriveKeysFromUserkey, CREDHIST_FILE
class DPAPI:
def __init__(self, options):
self.options = options
self.dpapiSystem = {}
pass
def getDPAPI_SYSTEM(self,secretType, secret):
if secret.startswith("dpapi_machinekey:"):
machineKey, userKey = secret.split('\n')
machineKey = machineKey.split(':')[1]
userKey = userKey.split(':')[1]
self.dpapiSystem['MachineKey'] = unhexlify(machineKey[2:])
self.dpapiSystem['UserKey'] = unhexlify(userKey[2:])
def getLSA(self):
localOperations = LocalOperations(self.options.system)
bootKey = localOperations.getBootKey()
lsaSecrets = LSASecrets(self.options.security, bootKey, None, isRemote=False, history=False, perSecretCallback = self.getDPAPI_SYSTEM)
lsaSecrets.dumpSecrets()
# Did we get the values we wanted?
if 'MachineKey' not in self.dpapiSystem or 'UserKey' not in self.dpapiSystem:
logging.error('Cannot grab MachineKey/UserKey from LSA, aborting...')
sys.exit(1)
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 = 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 = 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:")
else:
password = options.password
key1, key2, key3 = 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
elif self.options.target is not None:
domain, username, password, remoteName = parse_target(self.options.target)
if domain is None:
domain = ''
if password == '' and username != '' and self.options.hashes is None and self.options.no_pass is False and self.options.aesKey is None:
from getpass import getpass
password = getpass("Password:")
if self.options.hashes is not None:
lmhash, nthash = self.options.hashes.split(':')
else:
lmhash, nthash = '',''
rpctransport = transport.DCERPCTransportFactory(r'ncacn_np:%s[\PIPE\protected_storage]' % remoteName)
if hasattr(rpctransport, 'set_credentials'):
# This method exists only for selected protocol sequences.
rpctransport.set_credentials(username, password, domain, lmhash, nthash, self.options.aesKey)
rpctransport.set_kerberos(self.options.k, self.options.dc_ip)
dce = rpctransport.get_dce_rpc()
dce.set_auth_level(RPC_C_AUTHN_LEVEL_PKT_PRIVACY)
if self.options.k is True:
dce.set_auth_type(RPC_C_AUTHN_GSS_NEGOTIATE)
dce.connect()
dce.bind(bkrp.MSRPC_UUID_BKRP, transfer_syntax = ('8a885d04-1ceb-11c9-9fe8-08002b104860', '2.0'))
request = bkrp.BackuprKey()
request['pguidActionAgent'] = bkrp.BACKUPKEY_RESTORE_GUID
request['pDataIn'] = dk.getData()
request['cbDataIn'] = len(dk.getData())
request['dwParam'] = 0
resp = dce.request(request)
## Stripping heading zeros resulting from asymetric decryption
beginning=0
for i in range(len(resp['ppDataOut'])):
if resp['ppDataOut'][i]==b'\x00':
beginning+=1
else:
break
masterkey=b''.join(resp['ppDataOut'][beginning:])
print('Decrypted key using rpc call')
print('Decrypted key: 0x%s' % hexlify(masterkey).decode())
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()
# credit to @gentilkiwi
elif self.options.action.upper() == 'BACKUPKEYS':
domain, username, password, address = parse_target(self.options.target)
if password == '' and username != '' and self.options.hashes is None and self.options.no_pass is False and self.options.aesKey is None:
from getpass import getpass
password = getpass ("Password:")
if self.options.hashes is not None:
lmhash, nthash = self.options.hashes.split(':')
else:
lmhash, nthash = '',''
connection = SMBConnection(address, address)
if self.options.k:
connection.kerberosLogin(username, password, domain, lmhash, nthash, self.options.aesKey)
else:
connection.login(username, password, domain, lmhash=lmhash, nthash=nthash)
rpctransport = transport.DCERPCTransportFactory(r'ncacn_np:445[\pipe\lsarpc]')
rpctransport.set_smb_connection(connection)
dce = rpctransport.get_dce_rpc()
if self.options.k:
dce.set_auth_type(RPC_C_AUTHN_GSS_NEGOTIATE)
try:
dce.connect()
dce.bind(lsad.MSRPC_UUID_LSAD)
except transport.DCERPCException as e:
raise e
resp = lsad.hLsarOpenPolicy2(dce, lsad.POLICY_GET_PRIVATE_INFORMATION)
for keyname in ("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()
elif self.options.action.upper() == 'CREDHIST':
fp = open(self.options.file, 'rb')
data = fp.read()
chf = CREDHIST_FILE(data)
if len(chf.credhist_entries_list) == 0:
print('The CREDHIST file is empty')
return
# Handle key options
if self.options.key:
key = unhexlify(self.options.key[2:])
keys = deriveKeysFromUserkey(chf.credhist_entries_list[0].sid, key)
# Only other option is using a password
else:
# 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
keys = deriveKeysFromUser(chf.credhist_entries_list[0].sid, password)
if self.options.entry is None:
# First find the correct key to the 1st entry
real_key = None
for k in keys:
chf.decrypt_entry_by_index(0, k)
if chf.credhist_entries_list[0].pwdhash is not None:
real_key = k
break
# Wrong key
if real_key is None:
chf.dump()
print()
print('Cannot decrypt (wrong key or password)')
return
else:
chf.decrypt(real_key)
chf.dump()
# Fully successful decryption
if chf.credhist_entries_list[-1].pwdhash is not None:
return
else:
for k in keys:
chf.decrypt_entry_by_index(self.options.entry, k)
if chf.credhist_entries_list[self.options.entry].pwdhash is not None:
chf.credhist_entries_list[self.options.entry].dump()
return
chf.credhist_entries_list[self.options.entry].dump()
print()
print('Cannot decrypt (wrong key or password)')
return
print('Cannot decrypt (specify -key or -sid whenever applicable) ')
if __name__ == '__main__':
# Init the example's logger theme
logger.init()
print(version.BANNER)
parser = argparse.ArgumentParser(add_help=True, description="Example for using the DPAPI/Vault structures to unlock Windows Secrets.")
parser.add_argument('-debug', action='store_true', help='Turn DEBUG output ON')
subparsers = parser.add_subparsers(help='actions', dest='action')
# A domain backup key command
backupkeys = subparsers.add_parser('backupkeys', help='domain backup key related functions')
backupkeys.add_argument('-t', '--target', action='store', required=True, help='[[domain/]username[:password]@]<targetName or address>')
backupkeys.add_argument('-hashes', action="store", metavar = "LMHASH:NTHASH", help='NTLM hashes, format is LMHASH:NTHASH')
backupkeys.add_argument('-no-pass', action="store_true", help='don\'t ask for password (useful for -k)')
backupkeys.add_argument('-k', action="store_true", required=False, help='Use Kerberos authentication. Grabs credentials from ccache file '
'(KRB5CCNAME) based on target parameters. If valid credentials cannot be found, it will use the '
'ones specified in the command line')
backupkeys.add_argument('-aesKey', action="store", metavar = "hex key", help='AES key to use for Kerberos Authentication '
'(128 or 256 bits)')
backupkeys.add_argument('-dc-ip', action='store',metavar = "ip address", help='IP Address of the domain controller. '
'If omitted it will use the domain part (FQDN) specified in the target parameter')
backupkeys.add_argument('--export', action='store_true', required=False, help='export keys to file')
# A masterkey command
masterkey = subparsers.add_parser('masterkey', help='masterkey related functions')
masterkey.add_argument('-file', action='store', required=True, help='Master Key File to parse')
masterkey.add_argument('-sid', action='store', help='SID of the user')
masterkey.add_argument('-pvk', action='store', help='Domain backup privatekey to use for decryption')
masterkey.add_argument('-key', action='store', help='Specific key to use for decryption')
masterkey.add_argument('-password', action='store', help='User\'s password. If you specified the SID and not the password it will be prompted')
masterkey.add_argument('-system', action='store', help='SYSTEM hive to parse')
masterkey.add_argument('-security', action='store', help='SECURITY hive to parse')
masterkey.add_argument('-t', '--target', action='store', help='The masterkey owner\'s credentails to ask the DC for decryption'
'Format: [[domain/]username[:password]@]<targetName or address>')
masterkey.add_argument('-hashes', action="store", metavar = "LMHASH:NTHASH", help='NTLM hashes, format is LMHASH:NTHASH')
masterkey.add_argument('-no-pass', action="store_true", help='don\'t ask for password (useful for -k)')
masterkey.add_argument('-k', action="store_true", help='Use Kerberos authentication. Grabs credentials from ccache file '
'(KRB5CCNAME) based on target parameters. If valid credentials cannot be found, it will use the '
'ones specified in the command line')
masterkey.add_argument('-aesKey', action="store", metavar = "hex key", help='AES key to use for Kerberos Authentication '
'(128 or 256 bits)')
masterkey.add_argument('-dc-ip', action='store',metavar = "ip address", help='IP Address of the domain controller. '
'If omitted it will use the domain part (FQDN) specified in the target parameter')
# A credential command
credential = subparsers.add_parser('credential', help='credential related functions')
credential.add_argument('-file', action='store', required=True, help='Credential file')
credential.add_argument('-key', action='store', required=False, help='Key used for decryption')
# A vault command
vault = subparsers.add_parser('vault', help='vault credential related functions')
vault.add_argument('-vcrd', action='store', required=False, help='Vault Credential file')
vault.add_argument('-vpol', action='store', required=False, help='Vault Policy file')
vault.add_argument('-key', action='store', required=False, help='Master key used for decryption')
# A CryptUnprotectData command
unprotect = subparsers.add_parser('unprotect', help='Provides CryptUnprotectData functionality')
unprotect.add_argument('-file', action='store', required=True, help='File with DATA_BLOB to decrypt')
unprotect.add_argument('-key', action='store', required=False, help='Key used for decryption')
unprotect.add_argument('-entropy', action='store', default=None, required=False, help='String with extra entropy needed for decryption')
unprotect.add_argument('-entropy-file', action='store', default=None, required=False, help='File with binary entropy contents (overwrites -entropy)')
# A CREDHIST command
credhist = subparsers.add_parser('credhist', help='CREDHIST related functions')
credhist.add_argument('-file', action='store', required=True, help='CREDHIST file')
credhist.add_argument('-key', action='store', help='Specific key to use for decryption')
credhist.add_argument('-password', action='store', help='User\'s password')
credhist.add_argument('-entry', action='store', type=int, help='Entry index in CREDHIST')
options = parser.parse_args()
if len(sys.argv)==1:
parser.print_help()
sys.exit(1)
if options.debug is True:
logging.getLogger().setLevel(logging.DEBUG)
# Print the Library's installation path
logging.debug(version.getInstallationPath())
else:
logging.getLogger().setLevel(logging.INFO)
try:
executer = DPAPI(options)
executer.run()
except Exception as e:
if logging.getLogger().level == logging.DEBUG:
import traceback
traceback.print_exc()
print('ERROR: %s' % str(e))