#!/usr/bin/env python2 """ Copyright (c) 2006-2019 sqlmap developers (http://sqlmap.org/) See the file 'LICENSE' for copying permission """ from __future__ import print_function try: from crypt import crypt except: # removed ImportError because of https://github.com/sqlmapproject/sqlmap/issues/3171 from thirdparty.fcrypt.fcrypt import crypt _multiprocessing = None try: import multiprocessing # problems on FreeBSD (Reference: http://www.eggheadcafe.com/microsoft/Python/35880259/multiprocessing-on-freebsd.aspx) _ = multiprocessing.Queue() # problems with ctypes (Reference: https://github.com/sqlmapproject/sqlmap/issues/2952) _ = multiprocessing.Value('i') except (ImportError, OSError, AttributeError): pass else: try: if multiprocessing.cpu_count() > 1: _multiprocessing = multiprocessing except NotImplementedError: pass import base64 import binascii import gc import os import re import tempfile import time import zipfile from hashlib import md5 from hashlib import sha1 from hashlib import sha224 from hashlib import sha256 from hashlib import sha384 from hashlib import sha512 from lib.core.common import Backend from lib.core.common import checkFile from lib.core.common import clearConsoleLine from lib.core.common import dataToStdout from lib.core.common import getBytes from lib.core.common import getFileItems from lib.core.common import getPublicTypeMembers from lib.core.common import getSafeExString from lib.core.common import getUnicode from lib.core.common import hashDBRetrieve from lib.core.common import hashDBWrite from lib.core.common import normalizeUnicode from lib.core.common import paths from lib.core.common import readInput from lib.core.common import singleTimeLogMessage from lib.core.common import singleTimeWarnMessage from lib.core.compat import xrange from lib.core.convert import hexdecode from lib.core.convert import hexencode from lib.core.convert import utf8encode from lib.core.data import conf from lib.core.data import kb from lib.core.data import logger from lib.core.datatype import OrderedSet from lib.core.enums import DBMS from lib.core.enums import HASH from lib.core.enums import MKSTEMP_PREFIX from lib.core.exception import SqlmapDataException from lib.core.exception import SqlmapUserQuitException from lib.core.settings import COMMON_PASSWORD_SUFFIXES from lib.core.settings import COMMON_USER_COLUMNS from lib.core.settings import DEV_EMAIL_ADDRESS from lib.core.settings import DUMMY_USER_PREFIX from lib.core.settings import HASH_EMPTY_PASSWORD_MARKER from lib.core.settings import HASH_MOD_ITEM_DISPLAY from lib.core.settings import HASH_RECOGNITION_QUIT_THRESHOLD from lib.core.settings import IS_WIN from lib.core.settings import ITOA64 from lib.core.settings import NULL from lib.core.settings import UNICODE_ENCODING from lib.core.settings import ROTATING_CHARS from lib.core.wordlist import Wordlist from thirdparty import six from thirdparty.colorama.initialise import init as coloramainit from thirdparty.pydes.pyDes import des from thirdparty.pydes.pyDes import CBC from thirdparty.six.moves import queue as _queue def mysql_passwd(password, uppercase=True): """ Reference(s): http://csl.sublevel3.org/mysql-password-function/ >>> mysql_passwd(password='testpass', uppercase=True) '*00E247AC5F9AF26AE0194B41E1E769DEE1429A29' """ password = getBytes(password) retVal = "*%s" % sha1(sha1(password).digest()).hexdigest() return retVal.upper() if uppercase else retVal.lower() def mysql_old_passwd(password, uppercase=True): # prior to version '4.1' """ Reference(s): http://www.sfr-fresh.com/unix/privat/tpop3d-1.5.5.tar.gz:a/tpop3d-1.5.5/password.c http://voidnetwork.org/5ynL0rd/darkc0de/python_script/darkMySQLi.html >>> mysql_old_passwd(password='testpass', uppercase=True) '7DCDA0D57290B453' """ a, b, c = 1345345333, 7, 0x12345671 for d in password: if d == ' ' or d == '\t': continue e = ord(d) a ^= (((a & 63) + b) * e) + (a << 8) c += (c << 8) ^ a b += e retVal = "%08lx%08lx" % (a & ((1 << 31) - 1), c & ((1 << 31) - 1)) return retVal.upper() if uppercase else retVal.lower() def postgres_passwd(password, username, uppercase=False): """ Reference(s): http://pentestmonkey.net/blog/cracking-postgres-hashes/ >>> postgres_passwd(password='testpass', username='testuser', uppercase=False) 'md599e5ea7a6f7c3269995cba3927fd0093' """ username = getBytes(username) password = getBytes(password) retVal = "md5%s" % md5(password + username).hexdigest() return retVal.upper() if uppercase else retVal.lower() def mssql_passwd(password, salt, uppercase=False): """ Reference(s): http://www.leidecker.info/projects/phrasendrescher/mssql.c https://www.evilfingers.com/tools/GSAuditor.php >>> mssql_passwd(password='testpass', salt='4086ceb6', uppercase=False) '0x01004086ceb60c90646a8ab9889fe3ed8e5c150b5460ece8425a' """ binsalt = hexdecode(salt) unistr = "".join(("%s\0" if ord(_) < 256 else "%s") % utf8encode(_) for _ in password) retVal = "0100%s%s" % (salt, sha1(unistr + binsalt).hexdigest()) return "0x%s" % (retVal.upper() if uppercase else retVal.lower()) def mssql_old_passwd(password, salt, uppercase=True): # prior to version '2005' """ Reference(s): www.exploit-db.com/download_pdf/15537/ http://www.leidecker.info/projects/phrasendrescher/mssql.c https://www.evilfingers.com/tools/GSAuditor.php >>> mssql_old_passwd(password='testpass', salt='4086ceb6', uppercase=True) '0x01004086CEB60C90646A8AB9889FE3ED8E5C150B5460ECE8425AC7BB7255C0C81D79AA5D0E93D4BB077FB9A51DA0' """ binsalt = hexdecode(salt) unistr = "".join(("%s\0" if ord(_) < 256 else "%s") % utf8encode(_) for _ in password) retVal = "0100%s%s%s" % (salt, sha1(unistr + binsalt).hexdigest(), sha1(unistr.upper() + binsalt).hexdigest()) return "0x%s" % (retVal.upper() if uppercase else retVal.lower()) def mssql_new_passwd(password, salt, uppercase=False): """ Reference(s): http://hashcat.net/forum/thread-1474.html >>> mssql_new_passwd(password='testpass', salt='4086ceb6', uppercase=False) '0x02004086ceb6eb051cdbc5bdae68ffc66c918d4977e592f6bdfc2b444a7214f71fa31c35902c5b7ae773ed5f4c50676d329120ace32ee6bc81c24f70711eb0fc6400e85ebf25' """ binsalt = hexdecode(salt) unistr = "".join(("%s\0" if ord(_) < 256 else "%s") % utf8encode(_) for _ in password) retVal = "0200%s%s" % (salt, sha512(unistr + binsalt).hexdigest()) return "0x%s" % (retVal.upper() if uppercase else retVal.lower()) def oracle_passwd(password, salt, uppercase=True): """ Reference(s): https://www.evilfingers.com/tools/GSAuditor.php http://www.notesbit.com/index.php/scripts-oracle/oracle-11g-new-password-algorithm-is-revealed-by-seclistsorg/ http://seclists.org/bugtraq/2007/Sep/304 >>> oracle_passwd(password='SHAlala', salt='1B7B5F82B7235E9E182C', uppercase=True) 'S:2BFCFDF5895014EE9BB2B9BA067B01E0389BB5711B7B5F82B7235E9E182C' """ binsalt = hexdecode(salt) retVal = "s:%s%s" % (sha1(utf8encode(password) + binsalt).hexdigest(), salt) return retVal.upper() if uppercase else retVal.lower() def oracle_old_passwd(password, username, uppercase=True): # prior to version '11g' """ Reference(s): http://www.notesbit.com/index.php/scripts-oracle/oracle-11g-new-password-algorithm-is-revealed-by-seclistsorg/ >>> oracle_old_passwd(password='tiger', username='scott', uppercase=True) 'F894844C34402B67' """ IV, pad = "\0" * 8, "\0" username = getBytes(username) password = getBytes(password) unistr = "".join("\0%s" % c for c in (username + password).upper()) cipher = des(hexdecode("0123456789ABCDEF"), CBC, IV, pad) encrypted = cipher.encrypt(unistr) cipher = des(encrypted[-8:], CBC, IV, pad) encrypted = cipher.encrypt(unistr) retVal = hexencode(encrypted[-8:]) return retVal.upper() if uppercase else retVal.lower() def md5_generic_passwd(password, uppercase=False): """ >>> md5_generic_passwd(password='testpass', uppercase=False) '179ad45c6ce2cb97cf1029e212046e81' """ password = getBytes(password) retVal = md5(password).hexdigest() return retVal.upper() if uppercase else retVal.lower() def sha1_generic_passwd(password, uppercase=False): """ >>> sha1_generic_passwd(password='testpass', uppercase=False) '206c80413b9a96c1312cc346b7d2517b84463edd' """ password = getBytes(password) retVal = sha1(password).hexdigest() return retVal.upper() if uppercase else retVal.lower() def apache_sha1_passwd(password, **kwargs): """ >>> apache_sha1_passwd(password='testpass') '{SHA}IGyAQTualsExLMNGt9JRe4RGPt0=' """ password = getBytes(password) return "{SHA}%s" % base64.b64encode(sha1(password).digest()) def ssha_passwd(password, salt, **kwargs): """ >>> ssha_passwd(password='testpass', salt='salt') '{SSHA}mU1HPTvnmoXOhE4ROHP6sWfbfoRzYWx0' """ password = getBytes(password) salt = getBytes(salt) return "{SSHA}%s" % base64.b64encode(sha1(password + salt).digest() + salt) def ssha256_passwd(password, salt, **kwargs): """ >>> ssha256_passwd(password='testpass', salt='salt') '{SSHA256}hhubsLrO/Aje9F/kJrgv5ZLE40UmTrVWvI7Dt6InP99zYWx0' """ password = getBytes(password) salt = getBytes(salt) return "{SSHA256}%s" % base64.b64encode(sha256(password + salt).digest() + salt) def ssha512_passwd(password, salt, **kwargs): """ >>> ssha512_passwd(password='testpass', salt='salt') '{SSHA512}mCUSLfPMhXCQOJl9WHW/QMn9v9sjq7Ht/Wk7iVau8vLOfh+PeynkGMikqIE8sStFd0khdfcCD8xZmC6UyjTxsHNhbHQ=' """ password = getBytes(password) salt = getBytes(salt) return "{SSHA512}%s" % base64.b64encode(sha512(password + salt).digest() + salt) def sha224_generic_passwd(password, uppercase=False): """ >>> sha224_generic_passwd(password='testpass', uppercase=False) '648db6019764b598f75ab6b7616d2e82563a00eb1531680e19ac4c6f' """ password = getBytes(password) retVal = sha224(password).hexdigest() return retVal.upper() if uppercase else retVal.lower() def sha256_generic_passwd(password, uppercase=False): """ >>> sha256_generic_passwd(password='testpass', uppercase=False) '13d249f2cb4127b40cfa757866850278793f814ded3c587fe5889e889a7a9f6c' """ password = getBytes(password) retVal = sha256(password).hexdigest() return retVal.upper() if uppercase else retVal.lower() def sha384_generic_passwd(password, uppercase=False): """ >>> sha384_generic_passwd(password='testpass', uppercase=False) '6823546e56adf46849343be991d4b1be9b432e42ed1b4bb90635a0e4b930e49b9ca007bc3e04bf0a4e0df6f1f82769bf' """ password = getBytes(password) retVal = sha384(password).hexdigest() return retVal.upper() if uppercase else retVal.lower() def sha512_generic_passwd(password, uppercase=False): """ >>> sha512_generic_passwd(password='testpass', uppercase=False) '78ddc8555bb1677ff5af75ba5fc02cb30bb592b0610277ae15055e189b77fe3fda496e5027a3d99ec85d54941adee1cc174b50438fdc21d82d0a79f85b58cf44' """ password = getBytes(password) retVal = sha512(password).hexdigest() return retVal.upper() if uppercase else retVal.lower() def crypt_generic_passwd(password, salt, **kwargs): """ Reference(s): http://docs.python.org/library/crypt.html http://helpful.knobs-dials.com/index.php/Hashing_notes http://php.net/manual/en/function.crypt.php http://carey.geek.nz/code/python-fcrypt/ >>> crypt_generic_passwd(password='rasmuslerdorf', salt='rl', uppercase=False) 'rl.3StKT.4T8M' """ password = getBytes(password) salt = getBytes(salt) return crypt(password, salt) def unix_md5_passwd(password, salt, magic="$1$", **kwargs): """ Reference(s): http://www.sabren.net/code/python/crypt/md5crypt.py >>> unix_md5_passwd(password='testpass', salt='aD9ZLmkp') u'$1$aD9ZLmkp$DRM5a7rRZGyuuOPOjTEk61' """ def _encode64(value, count): output = "" while (count - 1 >= 0): count = count - 1 output += ITOA64[value & 0x3f] value = value >> 6 return output password = getBytes(password) magic = getBytes(magic) salt = getBytes(salt) salt = salt[:8] ctx = password + magic + salt final = md5(password + salt + password).digest() for pl in xrange(len(password), 0, -16): if pl > 16: ctx = ctx + final[:16] else: ctx = ctx + final[:pl] i = len(password) while i: if i & 1: ctx = ctx + chr(0) # if ($i & 1) { $ctx->add(pack("C", 0)); } else: ctx = ctx + password[0] i = i >> 1 final = md5(ctx).digest() for i in xrange(1000): ctx1 = "" if i & 1: ctx1 = ctx1 + password else: ctx1 = ctx1 + final[:16] if i % 3: ctx1 = ctx1 + salt if i % 7: ctx1 = ctx1 + password if i & 1: ctx1 = ctx1 + final[:16] else: ctx1 = ctx1 + password final = md5(ctx1).digest() hash_ = _encode64((int(ord(final[0])) << 16) | (int(ord(final[6])) << 8) | (int(ord(final[12]))), 4) hash_ = hash_ + _encode64((int(ord(final[1])) << 16) | (int(ord(final[7])) << 8) | (int(ord(final[13]))), 4) hash_ = hash_ + _encode64((int(ord(final[2])) << 16) | (int(ord(final[8])) << 8) | (int(ord(final[14]))), 4) hash_ = hash_ + _encode64((int(ord(final[3])) << 16) | (int(ord(final[9])) << 8) | (int(ord(final[15]))), 4) hash_ = hash_ + _encode64((int(ord(final[4])) << 16) | (int(ord(final[10])) << 8) | (int(ord(final[5]))), 4) hash_ = hash_ + _encode64((int(ord(final[11]))), 2) return "%s%s$%s" % (magic, salt.decode(UNICODE_ENCODING), hash_.decode(UNICODE_ENCODING)) def joomla_passwd(password, salt, **kwargs): """ Reference: https://stackoverflow.com/a/10428239 >>> joomla_passwd(password='testpass', salt='6GGlnaquVXI80b3HRmSyE3K1wEFFaBIf') 'e3d5794da74e917637332e0d21b76328:6GGlnaquVXI80b3HRmSyE3K1wEFFaBIf' """ password = getBytes(password) salt = getBytes(salt) return "%s:%s" % (md5("%s%s" % (password, salt)).hexdigest(), salt) def django_md5_passwd(password, salt, **kwargs): """ Reference: https://github.com/jay0lee/GAM/blob/master/src/passlib/handlers/django.py >>> django_md5_passwd(password='testpass', salt='salt') 'md5$salt$972141bcbcb6a0acc96e92309175b3c5' """ password = getBytes(password) salt = getBytes(salt) return "md5$%s$%s" % (salt, md5("%s%s" % (salt, password)).hexdigest()) def django_sha1_passwd(password, salt, **kwargs): """ Reference: https://github.com/jay0lee/GAM/blob/master/src/passlib/handlers/django.py >>> django_sha1_passwd(password='testpass', salt='salt') 'sha1$salt$6ce0e522aba69d8baa873f01420fccd0250fc5b2' """ password = getBytes(password) salt = getBytes(salt) return "sha1$%s$%s" % (salt, sha1("%s%s" % (salt, password)).hexdigest()) def vbulletin_passwd(password, salt, **kwargs): """ Reference: https://stackoverflow.com/a/2202810 >>> vbulletin_passwd(password='testpass', salt='salt') '85c4d8ea77ebef2236fb7e9d24ba9482:salt' """ password = getBytes(password) salt = getBytes(salt) return "%s:%s" % (md5("%s%s" % (md5(password).hexdigest(), salt)).hexdigest(), salt) def wordpress_passwd(password, salt, count, prefix, **kwargs): """ Reference(s): http://packetstormsecurity.org/files/74448/phpassbrute.py.txt http://scriptserver.mainframe8.com/wordpress_password_hasher.php >>> wordpress_passwd(password='testpass', salt='aD9ZLmkp', count=2048, prefix='$P$9aD9ZLmkp') '$P$9aD9ZLmkpsN4A83G8MefaaP888gVKX0' """ def _encode64(input_, count): output = '' i = 0 while i < count: value = ord(input_[i]) i += 1 output = output + ITOA64[value & 0x3f] if i < count: value = value | (ord(input_[i]) << 8) output = output + ITOA64[(value >> 6) & 0x3f] i += 1 if i >= count: break if i < count: value = value | (ord(input_[i]) << 16) output = output + ITOA64[(value >> 12) & 0x3f] i += 1 if i >= count: break output = output + ITOA64[(value >> 18) & 0x3f] return output password = getBytes(password) cipher = md5(salt) cipher.update(password) hash_ = cipher.digest() for i in xrange(count): _ = md5(hash_) _.update(password) hash_ = _.digest() return "%s%s" % (prefix, _encode64(hash_, 16)) __functions__ = { HASH.MYSQL: mysql_passwd, HASH.MYSQL_OLD: mysql_old_passwd, HASH.POSTGRES: postgres_passwd, HASH.MSSQL: mssql_passwd, HASH.MSSQL_OLD: mssql_old_passwd, HASH.MSSQL_NEW: mssql_new_passwd, HASH.ORACLE: oracle_passwd, HASH.ORACLE_OLD: oracle_old_passwd, HASH.MD5_GENERIC: md5_generic_passwd, HASH.SHA1_GENERIC: sha1_generic_passwd, HASH.SHA224_GENERIC: sha224_generic_passwd, HASH.SHA256_GENERIC: sha256_generic_passwd, HASH.SHA384_GENERIC: sha384_generic_passwd, HASH.SHA512_GENERIC: sha512_generic_passwd, HASH.CRYPT_GENERIC: crypt_generic_passwd, HASH.JOOMLA: joomla_passwd, HASH.DJANGO_MD5: django_md5_passwd, HASH.DJANGO_SHA1: django_sha1_passwd, HASH.WORDPRESS: wordpress_passwd, HASH.APACHE_MD5_CRYPT: unix_md5_passwd, HASH.UNIX_MD5_CRYPT: unix_md5_passwd, HASH.APACHE_SHA1: apache_sha1_passwd, HASH.VBULLETIN: vbulletin_passwd, HASH.VBULLETIN_OLD: vbulletin_passwd, HASH.SSHA: ssha_passwd, HASH.SSHA256: ssha256_passwd, HASH.SSHA512: ssha512_passwd, HASH.MD5_BASE64: md5_generic_passwd, HASH.SHA1_BASE64: sha1_generic_passwd, HASH.SHA256_BASE64: sha256_generic_passwd, HASH.SHA512_BASE64: sha512_generic_passwd, } def storeHashesToFile(attack_dict): if not attack_dict: return items = OrderedSet() for user, hashes in attack_dict.items(): for hash_ in hashes: hash_ = hash_.split()[0] if hash_ and hash_.strip() else hash_ if hash_ and hash_ != NULL and hashRecognition(hash_): item = None if user and not user.startswith(DUMMY_USER_PREFIX): item = "%s:%s\n" % (user.encode(UNICODE_ENCODING), hash_.encode(UNICODE_ENCODING)) else: item = "%s\n" % hash_.encode(UNICODE_ENCODING) if item and item not in items: items.add(item) if kb.storeHashesChoice is None: message = "do you want to store hashes to a temporary file " message += "for eventual further processing with other tools [y/N] " kb.storeHashesChoice = readInput(message, default='N', boolean=True) if items and kb.storeHashesChoice: handle, filename = tempfile.mkstemp(prefix=MKSTEMP_PREFIX.HASHES, suffix=".txt") os.close(handle) infoMsg = "writing hashes to a temporary file '%s' " % filename logger.info(infoMsg) with open(filename, "w+") as f: for item in items: f.write(item) def attackCachedUsersPasswords(): if kb.data.cachedUsersPasswords: results = dictionaryAttack(kb.data.cachedUsersPasswords) lut = {} for (_, hash_, password) in results: lut[hash_.lower()] = password for user in kb.data.cachedUsersPasswords: for i in xrange(len(kb.data.cachedUsersPasswords[user])): if (kb.data.cachedUsersPasswords[user][i] or "").strip(): value = kb.data.cachedUsersPasswords[user][i].lower().split()[0] if value in lut: kb.data.cachedUsersPasswords[user][i] += "%s clear-text password: %s" % ('\n' if kb.data.cachedUsersPasswords[user][i][-1] != '\n' else '', lut[value]) def attackDumpedTable(): if kb.data.dumpedTable: table = kb.data.dumpedTable columns = list(table.keys()) count = table["__infos__"]["count"] if not count: return debugMsg = "analyzing table dump for possible password hashes" logger.debug(debugMsg) found = False col_user = '' col_passwords = set() attack_dict = {} for column in sorted(columns, key=lambda _: len(_), reverse=True): if column and column.lower() in COMMON_USER_COLUMNS: col_user = column break for i in xrange(count): if not found and i > HASH_RECOGNITION_QUIT_THRESHOLD: break for column in columns: if column == col_user or column == "__infos__": continue if len(table[column]["values"]) <= i: continue value = table[column]["values"][i] if hashRecognition(value): found = True if col_user and i < len(table[col_user]["values"]): if table[col_user]["values"][i] not in attack_dict: attack_dict[table[col_user]["values"][i]] = [] attack_dict[table[col_user]["values"][i]].append(value) else: attack_dict["%s%d" % (DUMMY_USER_PREFIX, i)] = [value] col_passwords.add(column) if attack_dict: infoMsg = "recognized possible password hashes in column%s " % ("s" if len(col_passwords) > 1 else "") infoMsg += "'%s'" % ", ".join(col for col in col_passwords) logger.info(infoMsg) storeHashesToFile(attack_dict) message = "do you want to crack them via a dictionary-based attack? %s" % ("[y/N/q]" if conf.multipleTargets else "[Y/n/q]") choice = readInput(message, default='N' if conf.multipleTargets else 'Y').upper() if choice == 'N': return elif choice == 'Q': raise SqlmapUserQuitException results = dictionaryAttack(attack_dict) lut = dict() for (_, hash_, password) in results: if hash_: lut[hash_.lower()] = password debugMsg = "post-processing table dump" logger.debug(debugMsg) for i in xrange(count): for column in columns: if not (column == col_user or column == '__infos__' or len(table[column]['values']) <= i): value = table[column]['values'][i] if value and value.lower() in lut: table[column]['values'][i] = "%s (%s)" % (getUnicode(table[column]['values'][i]), getUnicode(lut[value.lower()] or HASH_EMPTY_PASSWORD_MARKER)) table[column]['length'] = max(table[column]['length'], len(table[column]['values'][i])) def hashRecognition(value): retVal = None isOracle, isMySQL = Backend.isDbms(DBMS.ORACLE), Backend.isDbms(DBMS.MYSQL) if isinstance(value, six.string_types): for name, regex in getPublicTypeMembers(HASH): # Hashes for Oracle and old MySQL look the same hence these checks if isOracle and regex == HASH.MYSQL_OLD or isMySQL and regex == HASH.ORACLE_OLD: continue elif regex == HASH.CRYPT_GENERIC: if any((value.lower() == value, value.upper() == value)): continue elif re.match(regex, value): retVal = regex break return retVal def _bruteProcessVariantA(attack_info, hash_regex, suffix, retVal, proc_id, proc_count, wordlists, custom_wordlist, api): if IS_WIN: coloramainit() count = 0 rotator = 0 hashes = set(item[0][1] for item in attack_info) wordlist = Wordlist(wordlists, proc_id, getattr(proc_count, "value", 0), custom_wordlist) try: for word in wordlist: if not attack_info: break count += 1 if not isinstance(word, six.string_types): continue if suffix: word = word + suffix try: current = __functions__[hash_regex](password=word, uppercase=False) if current in hashes: for item in attack_info[:]: ((user, hash_), _) = item if hash_ == current: retVal.put((user, hash_, word)) clearConsoleLine() infoMsg = "\r[%s] [INFO] cracked password '%s'" % (time.strftime("%X"), word) if user and not user.startswith(DUMMY_USER_PREFIX): infoMsg += " for user '%s'\n" % user else: infoMsg += " for hash '%s'\n" % hash_ dataToStdout(infoMsg, True) attack_info.remove(item) elif (proc_id == 0 or getattr(proc_count, "value", 0) == 1) and count % HASH_MOD_ITEM_DISPLAY == 0 or hash_regex == HASH.ORACLE_OLD or hash_regex == HASH.CRYPT_GENERIC and IS_WIN: rotator += 1 if rotator >= len(ROTATING_CHARS): rotator = 0 status = "current status: %s... %s" % (word.ljust(5)[:5], ROTATING_CHARS[rotator]) if not api: dataToStdout("\r[%s] [INFO] %s" % (time.strftime("%X"), status)) except KeyboardInterrupt: raise except (UnicodeEncodeError, UnicodeDecodeError): pass # ignore possible encoding problems caused by some words in custom dictionaries except Exception as ex: warnMsg = "there was a problem while hashing entry: %s ('%s'). " % (repr(word), getSafeExString(ex)) warnMsg += "Please report by e-mail to '%s'" % DEV_EMAIL_ADDRESS logger.critical(warnMsg) except KeyboardInterrupt: pass finally: if hasattr(proc_count, "value"): with proc_count.get_lock(): proc_count.value -= 1 def _bruteProcessVariantB(user, hash_, kwargs, hash_regex, suffix, retVal, found, proc_id, proc_count, wordlists, custom_wordlist, api): if IS_WIN: coloramainit() count = 0 rotator = 0 wordlist = Wordlist(wordlists, proc_id, getattr(proc_count, "value", 0), custom_wordlist) try: for word in wordlist: if found.value: break count += 1 if not isinstance(word, six.string_types): continue if suffix: word = word + suffix try: current = __functions__[hash_regex](password=word, uppercase=False, **kwargs) if hash_ == current: if hash_regex == HASH.ORACLE_OLD: # only for cosmetic purposes word = word.upper() retVal.put((user, hash_, word)) clearConsoleLine() infoMsg = "\r[%s] [INFO] cracked password '%s'" % (time.strftime("%X"), word) if user and not user.startswith(DUMMY_USER_PREFIX): infoMsg += " for user '%s'\n" % user else: infoMsg += " for hash '%s'\n" % hash_ dataToStdout(infoMsg, True) found.value = True elif (proc_id == 0 or getattr(proc_count, "value", 0) == 1) and count % HASH_MOD_ITEM_DISPLAY == 0: rotator += 1 if rotator >= len(ROTATING_CHARS): rotator = 0 status = "current status: %s... %s" % (word.ljust(5)[:5], ROTATING_CHARS[rotator]) if user and not user.startswith(DUMMY_USER_PREFIX): status += " (user: %s)" % user if not api: dataToStdout("\r[%s] [INFO] %s" % (time.strftime("%X"), status)) except KeyboardInterrupt: raise except (UnicodeEncodeError, UnicodeDecodeError): pass # ignore possible encoding problems caused by some words in custom dictionaries except Exception as ex: warnMsg = "there was a problem while hashing entry: %s ('%s'). " % (repr(word), getSafeExString(ex)) warnMsg += "Please report by e-mail to '%s'" % DEV_EMAIL_ADDRESS logger.critical(warnMsg) except KeyboardInterrupt: pass finally: if hasattr(proc_count, "value"): with proc_count.get_lock(): proc_count.value -= 1 def dictionaryAttack(attack_dict): suffix_list = [""] custom_wordlist = [""] hash_regexes = [] results = [] resumes = [] user_hash = [] processException = False foundHash = False for (_, hashes) in attack_dict.items(): for hash_ in hashes: if not hash_: continue hash_ = hash_.split()[0] if hash_ and hash_.strip() else hash_ regex = hashRecognition(hash_) if regex and regex not in hash_regexes: hash_regexes.append(regex) infoMsg = "using hash method '%s'" % __functions__[regex].__name__ logger.info(infoMsg) for hash_regex in hash_regexes: keys = set() attack_info = [] for (user, hashes) in attack_dict.items(): for hash_ in hashes: if not hash_: continue foundHash = True hash_ = hash_.split()[0] if hash_ and hash_.strip() else hash_ if re.match(hash_regex, hash_): try: item = None if hash_regex not in (HASH.CRYPT_GENERIC, HASH.JOOMLA, HASH.WORDPRESS, HASH.UNIX_MD5_CRYPT, HASH.APACHE_MD5_CRYPT, HASH.APACHE_SHA1, HASH.VBULLETIN, HASH.VBULLETIN_OLD, HASH.SSHA, HASH.SSHA256, HASH.SSHA512, HASH.DJANGO_MD5, HASH.DJANGO_SHA1, HASH.MD5_BASE64, HASH.SHA1_BASE64, HASH.SHA256_BASE64, HASH.SHA512_BASE64): hash_ = hash_.lower() if hash_regex in (HASH.MD5_BASE64, HASH.SHA1_BASE64, HASH.SHA256_BASE64, HASH.SHA512_BASE64): item = [(user, hash_.decode("base64").encode("hex")), {}] elif hash_regex in (HASH.MYSQL, HASH.MYSQL_OLD, HASH.MD5_GENERIC, HASH.SHA1_GENERIC, HASH.SHA224_GENERIC, HASH.SHA256_GENERIC, HASH.SHA384_GENERIC, HASH.SHA512_GENERIC, HASH.APACHE_SHA1): item = [(user, hash_), {}] elif hash_regex in (HASH.SSHA,): item = [(user, hash_), {"salt": hash_.decode("base64")[20:]}] elif hash_regex in (HASH.SSHA256,): item = [(user, hash_), {"salt": hash_.decode("base64")[32:]}] elif hash_regex in (HASH.SSHA512,): item = [(user, hash_), {"salt": hash_.decode("base64")[64:]}] elif hash_regex in (HASH.ORACLE_OLD, HASH.POSTGRES): item = [(user, hash_), {'username': user}] elif hash_regex in (HASH.ORACLE,): item = [(user, hash_), {"salt": hash_[-20:]}] elif hash_regex in (HASH.MSSQL, HASH.MSSQL_OLD, HASH.MSSQL_NEW): item = [(user, hash_), {"salt": hash_[6:14]}] elif hash_regex in (HASH.CRYPT_GENERIC,): item = [(user, hash_), {"salt": hash_[0:2]}] elif hash_regex in (HASH.UNIX_MD5_CRYPT, HASH.APACHE_MD5_CRYPT): item = [(user, hash_), {"salt": hash_.split('$')[2], "magic": "$%s$" % hash_.split('$')[1]}] elif hash_regex in (HASH.JOOMLA, HASH.VBULLETIN, HASH.VBULLETIN_OLD): item = [(user, hash_), {"salt": hash_.split(':')[-1]}] elif hash_regex in (HASH.DJANGO_MD5, HASH.DJANGO_SHA1): item = [(user, hash_), {"salt": hash_.split('$')[1]}] elif hash_regex in (HASH.WORDPRESS,): if ITOA64.index(hash_[3]) < 32: item = [(user, hash_), {"salt": hash_[4:12], "count": 1 << ITOA64.index(hash_[3]), "prefix": hash_[:12]}] else: warnMsg = "invalid hash '%s'" % hash_ logger.warn(warnMsg) if item and hash_ not in keys: resumed = hashDBRetrieve(hash_) if not resumed: attack_info.append(item) user_hash.append(item[0]) else: infoMsg = "resuming password '%s' for hash '%s'" % (resumed, hash_) if user and not user.startswith(DUMMY_USER_PREFIX): infoMsg += " for user '%s'" % user logger.info(infoMsg) resumes.append((user, hash_, resumed)) keys.add(hash_) except (binascii.Error, IndexError): pass if not attack_info: continue if not kb.wordlists: while not kb.wordlists: # the slowest of all methods hence smaller default dict if hash_regex in (HASH.ORACLE_OLD,): dictPaths = [paths.SMALL_DICT] else: dictPaths = [paths.WORDLIST] message = "what dictionary do you want to use?\n" message += "[1] default dictionary file '%s' (press Enter)\n" % dictPaths[0] message += "[2] custom dictionary file\n" message += "[3] file with list of dictionary files" choice = readInput(message, default='1') try: if choice == '2': message = "what's the custom dictionary's location?\n" dictPath = readInput(message) if dictPath: dictPaths = [dictPath] logger.info("using custom dictionary") elif choice == '3': message = "what's the list file location?\n" listPath = readInput(message) checkFile(listPath) dictPaths = getFileItems(listPath) logger.info("using custom list of dictionaries") else: logger.info("using default dictionary") dictPaths = [_ for _ in dictPaths if _] for dictPath in dictPaths: checkFile(dictPath) if os.path.splitext(dictPath)[1].lower() == ".zip": _ = zipfile.ZipFile(dictPath, 'r') if len(_.namelist()) == 0: errMsg = "no file(s) inside '%s'" % dictPath raise SqlmapDataException(errMsg) else: _.open(_.namelist()[0]) kb.wordlists = dictPaths except Exception as ex: warnMsg = "there was a problem while loading dictionaries" warnMsg += " ('%s')" % getSafeExString(ex) logger.critical(warnMsg) message = "do you want to use common password suffixes? (slow!) [y/N] " if readInput(message, default='N', boolean=True): suffix_list += COMMON_PASSWORD_SUFFIXES infoMsg = "starting dictionary-based cracking (%s)" % __functions__[hash_regex].__name__ logger.info(infoMsg) for item in attack_info: ((user, _), _) = item if user and not user.startswith(DUMMY_USER_PREFIX): custom_wordlist.append(normalizeUnicode(user)) # Algorithms without extra arguments (e.g. salt and/or username) if hash_regex in (HASH.MYSQL, HASH.MYSQL_OLD, HASH.MD5_GENERIC, HASH.SHA1_GENERIC, HASH.SHA224_GENERIC, HASH.SHA256_GENERIC, HASH.SHA384_GENERIC, HASH.SHA512_GENERIC, HASH.APACHE_SHA1, HASH.VBULLETIN, HASH.VBULLETIN_OLD): for suffix in suffix_list: if not attack_info or processException: break if suffix: clearConsoleLine() infoMsg = "using suffix '%s'" % suffix logger.info(infoMsg) retVal = None processes = [] try: if _multiprocessing: if _multiprocessing.cpu_count() > 1: infoMsg = "starting %d processes " % _multiprocessing.cpu_count() singleTimeLogMessage(infoMsg) gc.disable() retVal = _multiprocessing.Queue() count = _multiprocessing.Value('i', _multiprocessing.cpu_count()) for i in xrange(_multiprocessing.cpu_count()): process = _multiprocessing.Process(target=_bruteProcessVariantA, args=(attack_info, hash_regex, suffix, retVal, i, count, kb.wordlists, custom_wordlist, conf.api)) processes.append(process) for process in processes: process.daemon = True process.start() while count.value > 0: time.sleep(0.5) else: warnMsg = "multiprocessing hash cracking is currently " warnMsg += "not supported on this platform" singleTimeWarnMessage(warnMsg) retVal = _queue.Queue() _bruteProcessVariantA(attack_info, hash_regex, suffix, retVal, 0, 1, kb.wordlists, custom_wordlist, conf.api) except KeyboardInterrupt: print() processException = True warnMsg = "user aborted during dictionary-based attack phase (Ctrl+C was pressed)" logger.warn(warnMsg) for process in processes: try: process.terminate() process.join() except (OSError, AttributeError): pass finally: if _multiprocessing: gc.enable() if retVal: if conf.hashDB: conf.hashDB.beginTransaction() while not retVal.empty(): user, hash_, word = item = retVal.get(block=False) attack_info = filter(lambda _: _[0][0] != user or _[0][1] != hash_, attack_info) hashDBWrite(hash_, word) results.append(item) if conf.hashDB: conf.hashDB.endTransaction() clearConsoleLine() else: for ((user, hash_), kwargs) in attack_info: if processException: break if any(_[0] == user and _[1] == hash_ for _ in results): continue count = 0 found = False for suffix in suffix_list: if found or processException: break if suffix: clearConsoleLine() infoMsg = "using suffix '%s'" % suffix logger.info(infoMsg) retVal = None processes = [] try: if _multiprocessing: if _multiprocessing.cpu_count() > 1: infoMsg = "starting %d processes " % _multiprocessing.cpu_count() singleTimeLogMessage(infoMsg) gc.disable() retVal = _multiprocessing.Queue() found_ = _multiprocessing.Value('i', False) count = _multiprocessing.Value('i', _multiprocessing.cpu_count()) for i in xrange(_multiprocessing.cpu_count()): process = _multiprocessing.Process(target=_bruteProcessVariantB, args=(user, hash_, kwargs, hash_regex, suffix, retVal, found_, i, count, kb.wordlists, custom_wordlist, conf.api)) processes.append(process) for process in processes: process.daemon = True process.start() while count.value > 0: time.sleep(0.5) found = found_.value != 0 else: warnMsg = "multiprocessing hash cracking is currently " warnMsg += "not supported on this platform" singleTimeWarnMessage(warnMsg) class Value(): pass retVal = _queue.Queue() found_ = Value() found_.value = False _bruteProcessVariantB(user, hash_, kwargs, hash_regex, suffix, retVal, found_, 0, 1, kb.wordlists, custom_wordlist, conf.api) found = found_.value except KeyboardInterrupt: print() processException = True warnMsg = "user aborted during dictionary-based attack phase (Ctrl+C was pressed)" logger.warn(warnMsg) for process in processes: try: process.terminate() process.join() except (OSError, AttributeError): pass finally: if _multiprocessing: gc.enable() if retVal and conf.hashDB: if conf.hashDB: conf.hashDB.beginTransaction() while not retVal.empty(): user, hash_, word = item = retVal.get(block=False) hashDBWrite(hash_, word) results.append(item) if conf.hashDB: conf.hashDB.endTransaction() clearConsoleLine() results.extend(resumes) if foundHash and len(hash_regexes) == 0: warnMsg = "unknown hash format" logger.warn(warnMsg) if len(results) == 0: warnMsg = "no clear password(s) found" logger.warn(warnMsg) return results def crackHashFile(hashFile): i = 0 attack_dict = {} for line in getFileItems(conf.hashFile): if ':' in line: user, hash_ = line.split(':', 1) attack_dict[user] = [hash_] else: attack_dict["%s%d" % (DUMMY_USER_PREFIX, i)] = [line] i += 1 dictionaryAttack(attack_dict)