#!/usr/bin/env python """ $Id$ This file is part of the sqlmap project, http://sqlmap.sourceforge.net. Copyright (c) 2007-2010 Bernardo Damele A. G. Copyright (c) 2006 Daniele Bellucci sqlmap 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 version 2 of the License. sqlmap 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 sqlmap; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA """ import codecs import cProfile import inspect import os import random import re import socket import string import sys import time import urlparse import ntpath import posixpath import subprocess from ConfigParser import DEFAULTSECT from ConfigParser import RawConfigParser from StringIO import StringIO from subprocess import PIPE from subprocess import Popen as execute from tempfile import NamedTemporaryFile from tempfile import mkstemp from xml.sax import parse from extra.cloak.cloak import decloak from lib.contrib import magic from lib.core.data import conf from lib.core.data import kb from lib.core.data import logger from lib.core.data import paths from lib.core.data import queries from lib.core.data import temp from lib.core.convert import urlencode from lib.core.exception import sqlmapFilePathException from lib.core.exception import sqlmapNoneDataException from lib.core.exception import sqlmapMissingDependence from lib.core.exception import sqlmapSyntaxException from lib.core.optiondict import optDict from lib.core.settings import DESCRIPTION from lib.core.settings import IS_WIN from lib.core.settings import PLATFORM from lib.core.settings import SITE from lib.core.settings import SQL_STATEMENTS from lib.core.settings import SUPPORTED_DBMS from lib.core.settings import VERSION_STRING from lib.core.settings import MSSQL_ALIASES from lib.core.settings import MYSQL_ALIASES from lib.core.settings import PGSQL_ALIASES from lib.core.settings import ORACLE_ALIASES from lib.core.settings import SQLITE_ALIASES from lib.core.settings import ACCESS_ALIASES from lib.core.settings import FIREBIRD_ALIASES def paramToDict(place, parameters=None): """ Split the parameters into names and values, check if these parameters are within the testable parameters and return in a dictionary. @param place: where sqlmap has to work, can be GET, POST or Cookie. @type place: C{str} @param parameters: parameters string in the format for instance 'p1=v1&p2=v2' (GET and POST) or 'p1=v1;p2=v2' (Cookie). @type parameters: C{str} @return: the parameters in a dictionary. @rtype: C{str} """ testableParameters = {} if conf.parameters.has_key(place) and not parameters: parameters = conf.parameters[place] parameters = parameters.replace(", ", ",") if place == "Cookie": splitParams = parameters.split(";") else: splitParams = parameters.split("&") for element in splitParams: elem = element.split("=") if len(elem) == 2: parameter = elem[0].replace(" ", "") condition = not conf.testParameter condition |= parameter in conf.testParameter if condition: value = elem[1] testableParameters[parameter] = value if conf.testParameter and not testableParameters: paramStr = ", ".join(test for test in conf.testParameter) if len(conf.testParameter) > 1: warnMsg = "the testable parameters '%s' " % paramStr warnMsg += "you provided are not into the %s" % place else: parameter = conf.testParameter[0] warnMsg = "the testable parameter '%s' " % paramStr warnMsg += "you provided is not into the %s" % place logger.warn(warnMsg) elif len(conf.testParameter) != len(testableParameters.keys()): for parameter in conf.testParameter: if not testableParameters.has_key(parameter): warnMsg = "the testable parameter '%s' " % parameter warnMsg += "you provided is not into the %s" % place logger.warn(warnMsg) return testableParameters def formatDBMSfp(versions=None): """ This function format the back-end DBMS fingerprint value and return its values formatted as a human readable string. @return: detected back-end DBMS based upon fingerprint techniques. @rtype: C{str} """ if ( not versions or versions == [None] ) and kb.dbmsVersion and kb.dbmsVersion[0] != "Unknown": versions = kb.dbmsVersion if isinstance(versions, basestring): return "%s %s" % (kb.dbms, versions) elif isinstance(versions, (list, set, tuple)): return "%s %s" % (kb.dbms, " and ".join([version for version in versions])) elif not versions: warnMsg = "unable to extensively fingerprint the back-end " warnMsg += "DBMS version" logger.warn(warnMsg) return kb.dbms def formatFingerprintString(values, chain=" or "): strJoin = "|".join([v for v in values]) return strJoin.replace("|", chain) def formatFingerprint(target, info): """ This function format the back-end operating system fingerprint value and return its values formatted as a human readable string. Example of info (kb.headersFp) dictionary: { 'distrib': set(['Ubuntu']), 'type': set(['Linux']), 'technology': set(['PHP 5.2.6', 'Apache 2.2.9']), 'release': set(['8.10']) } Example of info (kb.bannerFp) dictionary: { 'sp': set(['Service Pack 4']), 'dbmsVersion': '8.00.194', 'dbmsServicePack': '0', 'distrib': set(['2000']), 'dbmsRelease': '2000', 'type': set(['Windows']) } @return: detected back-end operating system based upon fingerprint techniques. @rtype: C{str} """ infoStr = "" if info and "type" in info: infoStr += "%s operating system: %s" % (target, formatFingerprintString(info["type"])) if "distrib" in info: infoStr += " %s" % formatFingerprintString(info["distrib"]) if "release" in info: infoStr += " %s" % formatFingerprintString(info["release"]) if "sp" in info: infoStr += " %s" % formatFingerprintString(info["sp"]) if "codename" in info: infoStr += " (%s)" % formatFingerprintString(info["codename"]) if "technology" in info: infoStr += "\nweb application technology: %s" % formatFingerprintString(info["technology"], ", ") return infoStr def getHtmlErrorFp(): """ This function parses the knowledge base htmlFp list and return its values formatted as a human readable string. @return: list of possible back-end DBMS based upon error messages parsing. @rtype: C{str} """ htmlParsed = "" if not kb.htmlFp: return None if len(kb.htmlFp) == 1: htmlVer = kb.htmlFp[0] htmlParsed = htmlVer elif len(kb.htmlFp) > 1: htmlParsed = " or ".join([htmlFp for htmlFp in kb.htmlFp]) return htmlParsed def getDocRoot(webApi=None): docRoot = None pagePath = directoryPath(conf.path) if kb.os == "Windows": if webApi == "php": defaultDocRoot = "C:/xampp/htdocs/" else: defaultDocRoot = "C:/Inetpub/wwwroot/" else: defaultDocRoot = "/var/www/" if kb.absFilePaths: for absFilePath in kb.absFilePaths: if directoryPath(absFilePath) == '/': continue absFilePath = normalizePath(absFilePath) absFilePathWin = None if isWindowsPath(absFilePath): absFilePathWin = posixToNtSlashes(absFilePath) absFilePath = ntToPosixSlashes(absFilePath[2:]) elif isWindowsDriveLetterPath(absFilePath): # E.g. C:/xampp/htdocs absFilePath = absFilePath[2:] if pagePath in absFilePath: index = absFilePath.index(pagePath) docRoot = absFilePath[:index] if len(docRoot) == 0: docRoot = None continue if absFilePathWin: docRoot = "C:/%s" % ntToPosixSlashes(docRoot) docRoot = normalizePath(docRoot) break if docRoot: infoMsg = "retrieved the web server document root: '%s'" % docRoot logger.info(infoMsg) else: warnMsg = "unable to retrieve the web server document root" logger.warn(warnMsg) message = "please provide the web server document root " message += "[%s]: " % defaultDocRoot inputDocRoot = readInput(message, default=defaultDocRoot) if inputDocRoot: docRoot = inputDocRoot else: docRoot = defaultDocRoot return docRoot def getDirs(webApi=None): directories = set() if kb.os == "Windows": if webApi == "php": defaultDirs = ["C:/xampp/htdocs/"] else: defaultDirs = ["C:/Inetpub/wwwroot/"] else: defaultDirs = ["/var/www/"] if kb.absFilePaths: infoMsg = "retrieved web server full paths: " infoMsg += "'%s'" % ", ".join(path for path in kb.absFilePaths) logger.info(infoMsg) for absFilePath in kb.absFilePaths: if absFilePath: directory = directoryPath(absFilePath) if isWindowsPath(directory): directory = ntToPosixSlashes(directory) if directory == '/': continue directories.add(directory) else: warnMsg = "unable to retrieve any web server path" logger.warn(warnMsg) message = "please provide any additional web server full path to try " message += "to upload the agent [%s]: " % ",".join(directory for directory in defaultDirs) inputDirs = readInput(message, default=",".join(directory for directory in defaultDirs)) if inputDirs: inputDirs = inputDirs.replace(", ", ",") inputDirs = inputDirs.split(",") for inputDir in inputDirs: if inputDir: directories.add(inputDir) else: [directories.add(directory) for directory in defaultDirs] return directories def filePathToString(filePath): strRepl = filePath.replace("/", "_").replace("\\", "_") strRepl = strRepl.replace(" ", "_").replace(":", "_") return strRepl def dataToStdout(data): try: sys.stdout.write(data) sys.stdout.flush() except UnicodeEncodeError: print data.encode(conf.dataEncoding) def dataToSessionFile(data): if not conf.sessionFile: return conf.sessionFP.write(data) conf.sessionFP.flush() def dataToDumpFile(dumpFile, data): dumpFile.write(data) dumpFile.flush() def dataToOutFile(data): if not data: return "No data retrieved" rFile = filePathToString(conf.rFile) rFilePath = "%s%s%s" % (conf.filePath, os.sep, rFile) rFileFP = codecs.open(rFilePath, "wb") rFileFP.write(data) rFileFP.flush() rFileFP.close() return rFilePath def strToHex(inpStr): """ @param inpStr: inpStr to be converted into its hexadecimal value. @type inpStr: C{str} @return: the hexadecimal converted inpStr. @rtype: C{str} """ hexStr = "" for character in inpStr: if character == "\n": character = " " hexChar = "%2x" % ord(character) hexChar = hexChar.replace(" ", "0") hexChar = hexChar.upper() hexStr += hexChar return hexStr def fileToStr(fileName): """ @param fileName: file path to read the content and return as a no NEWLINE string. @type fileName: C{file.open} @return: the file content as a string without TAB and NEWLINE. @rtype: C{str} """ filePointer = codecs.open(fileName, "rb") fileText = filePointer.read() return fileText.replace(" ", "").replace("\t", "").replace("\r", "").replace("\n", " ") def fileToHex(fileName): """ @param fileName: file path to read the content and return as an hexadecimal string. @type fileName: C{file.open} @return: the file content as an hexadecimal string. @rtype: C{str} """ fileText = fileToStr(fileName) hexFile = strToHex(fileText) return hexFile def readInput(message, default=None): """ @param message: message to display on terminal. @type message: C{str} @return: a string read from keyboard as input. @rtype: C{str} """ if "\n" in message: message += "\n> " if conf.batch and default: infoMsg = "%s%s" % (message, getUnicode(default)) logger.info(infoMsg) debugMsg = "used the default behaviour, running in batch mode" logger.debug(debugMsg) data = default else: data = raw_input(message) if not data: data = default return data def randomRange(start=0, stop=1000): """ @param start: starting number. @type start: C{int} @param stop: last number. @type stop: C{int} @return: a random number within the range. @rtype: C{int} """ return int(random.randint(start, stop)) def randomInt(length=4): """ @param length: length of the random string. @type length: C{int} @return: a random string of digits. @rtype: C{str} """ return int("".join([random.choice(string.digits) for _ in xrange(0, length)])) def randomStr(length=4, lowercase=False): """ @param length: length of the random string. @type length: C{int} @return: a random string of characters. @rtype: C{str} """ if lowercase: rndStr = "".join([random.choice(string.lowercase) for _ in xrange(0, length)]) else: rndStr = "".join([random.choice(string.letters) for _ in xrange(0, length)]) return rndStr def sanitizeStr(inpStr): """ @param inpStr: inpStr to sanitize: cast to str datatype and replace newlines with one space and strip carriage returns. @type inpStr: C{str} @return: sanitized inpStr @rtype: C{str} """ cleanString = getUnicode(inpStr) cleanString = cleanString.replace("\n", " ").replace("\r", "") return cleanString def checkFile(filename): """ @param filename: filename to check if it exists. @type filename: C{str} """ if not os.path.exists(filename): raise sqlmapFilePathException, "unable to read file '%s'" % filename def replaceNewlineTabs(inpStr, stdout=False): if stdout: replacedString = inpStr.replace("\n", " ").replace("\t", " ") else: replacedString = inpStr.replace("\n", "__NEWLINE__").replace("\t", "__TAB__") replacedString = replacedString.replace(temp.delimiter, "__DEL__") return replacedString def banner(): """ This function prints sqlmap banner with its version """ print """ %s - %s %s """ % (VERSION_STRING, DESCRIPTION, SITE) def parsePasswordHash(password): blank = " " * 8 if not password or password == " ": password = "NULL" if kb.dbms == "Microsoft SQL Server" and password != "NULL": hexPassword = password password = "%s\n" % hexPassword password += "%sheader: %s\n" % (blank, hexPassword[:6]) password += "%ssalt: %s\n" % (blank, hexPassword[6:14]) password += "%smixedcase: %s\n" % (blank, hexPassword[14:54]) if kb.dbmsVersion[0] not in ( "2005", "2008" ): password += "%suppercase: %s" % (blank, hexPassword[54:]) return password def cleanQuery(query): upperQuery = query for sqlStatements in SQL_STATEMENTS.values(): for sqlStatement in sqlStatements: sqlStatementEsc = sqlStatement.replace("(", "\\(") queryMatch = re.search("(%s)" % sqlStatementEsc, query, re.I) if queryMatch: upperQuery = upperQuery.replace(queryMatch.group(1), sqlStatement.upper()) return upperQuery def setPaths(): # sqlmap paths paths.SQLMAP_CONTRIB_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "lib", "contrib") paths.SQLMAP_EXTRAS_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "extra") paths.SQLMAP_SHELL_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "shell") paths.SQLMAP_TXT_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "txt") paths.SQLMAP_UDF_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "udf") paths.SQLMAP_XML_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "xml") paths.SQLMAP_XML_BANNER_PATH = os.path.join(paths.SQLMAP_XML_PATH, "banner") paths.SQLMAP_OUTPUT_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "output") paths.SQLMAP_DUMP_PATH = os.path.join(paths.SQLMAP_OUTPUT_PATH, "%s", "dump") paths.SQLMAP_FILES_PATH = os.path.join(paths.SQLMAP_OUTPUT_PATH, "%s", "files") # sqlmap files paths.SQLMAP_HISTORY = os.path.join(paths.SQLMAP_ROOT_PATH, ".sqlmap_history") paths.SQLMAP_CONFIG = os.path.join(paths.SQLMAP_ROOT_PATH, "sqlmap-%s.conf" % randomStr()) paths.FUZZ_VECTORS = os.path.join(paths.SQLMAP_TXT_PATH, "fuzz_vectors.txt") paths.DETECTION_RULES_XML = os.path.join(paths.SQLMAP_XML_PATH, "detection.xml") paths.ERRORS_XML = os.path.join(paths.SQLMAP_XML_PATH, "errors.xml") paths.QUERIES_XML = os.path.join(paths.SQLMAP_XML_PATH, "queries.xml") paths.GENERIC_XML = os.path.join(paths.SQLMAP_XML_BANNER_PATH, "generic.xml") paths.MSSQL_XML = os.path.join(paths.SQLMAP_XML_BANNER_PATH, "mssql.xml") paths.MYSQL_XML = os.path.join(paths.SQLMAP_XML_BANNER_PATH, "mysql.xml") paths.ORACLE_XML = os.path.join(paths.SQLMAP_XML_BANNER_PATH, "oracle.xml") paths.PGSQL_XML = os.path.join(paths.SQLMAP_XML_BANNER_PATH, "postgresql.xml") def weAreFrozen(): """ Returns whether we are frozen via py2exe. This will affect how we find out where we are located. Reference: http://www.py2exe.org/index.cgi/WhereAmI """ return hasattr(sys, "frozen") def parseTargetDirect(): """ Parse target dbms and set some attributes into the configuration singleton. """ if not conf.direct: return details = None remote = False for dbms in SUPPORTED_DBMS: details = re.search("^(?P%s)://(?P(?P.+?)\:(?P.*?)\@)?(?P(?P.+?)\:(?P[\d]+)\/)?(?P[\w\d\.\_\-\/]+?)$" % dbms, conf.direct, re.I) if details: conf.dbms = details.group('dbms') if details.group('credentials'): conf.dbmsUser = details.group('user') conf.dbmsPass = details.group('pass') else: conf.dbmsUser = unicode() conf.dbmsPass = unicode() if not conf.dbmsPass: conf.dbmsPass = None if details.group('remote'): remote = True conf.hostname = details.group('hostname') conf.port = int(details.group('port')) else: conf.hostname = "localhost" conf.port = 0 conf.dbmsDb = details.group('db') conf.parameters[None] = "direct connection" break if not details: errMsg = "invalid target details, valid syntax is for instance " errMsg += "'mysql://USER:PASSWORD@DBMS_IP:DBMS_PORT/DATABASE_NAME' " errMsg += "or 'access://DATABASE_FILEPATH'" raise sqlmapSyntaxException, errMsg dbmsDict = { "Microsoft SQL Server": [MSSQL_ALIASES, "python-pymssql", "http://pymssql.sourceforge.net/"], "MySQL": [MYSQL_ALIASES, "python-mysqldb", "http://mysql-python.sourceforge.net/"], "PostgreSQL": [PGSQL_ALIASES, "python-psycopg2", "http://initd.org/psycopg/"], "Oracle": [ORACLE_ALIASES, "python cx_Oracle", "http://cx-oracle.sourceforge.net/"], "SQLite": [SQLITE_ALIASES, "python-pysqlite2 and python-sqlite", "http://pysqlite.googlecode.com/"], "Access": [ACCESS_ALIASES, "python-pyodbc", "http://pyodbc.googlecode.com/"], "Firebird": [FIREBIRD_ALIASES, "python-kinterbasdb", "http://kinterbasdb.sourceforge.net/"] } for dbmsName, data in dbmsDict.items(): if conf.dbms in data[0]: try: if dbmsName in ('Access', 'SQLite'): if remote: warnMsg = "direct connection over the network for " warnMsg += "%s DBMS is not supported" % dbmsName logger.warn(warnMsg) conf.hostname = "localhost" conf.port = 0 elif not remote: errMsg = "missing remote connection details" raise sqlmapSyntaxException, errMsg if dbmsName == "Microsoft SQL Server": import _mssql import pymssql if not hasattr(pymssql, "__version__") or pymssql.__version__ < "1.0.2": errMsg = "pymssql library on your system must be " errMsg += "version 1.0.2 to work, get it from " errMsg += "http://sourceforge.net/projects/pymssql/files/pymssql/1.0.2/" raise sqlmapMissingDependence, errMsg elif dbmsName == "MySQL": import MySQLdb elif dbmsName == "PostgreSQL": import psycopg2 elif dbmsName == "Oracle": import cx_Oracle elif dbmsName == "SQLite": import sqlite import sqlite3 elif dbmsName == "Access": import pyodbc elif dbmsName == "Firebird": import kinterbasdb except ImportError, _: errMsg = "sqlmap requires %s third-party library " % data[1] errMsg += "in order to directly connect to the database " errMsg += "%s. Download from %s" % (dbmsName, data[2]) raise sqlmapMissingDependence, errMsg def parseTargetUrl(): """ Parse target url and set some attributes into the configuration singleton. """ if not conf.url: return if not re.search("^http[s]*://", conf.url): if ":443/" in conf.url: conf.url = "https://" + conf.url else: conf.url = "http://" + conf.url __urlSplit = urlparse.urlsplit(conf.url) __hostnamePort = __urlSplit[1].split(":") conf.scheme = __urlSplit[0] conf.path = __urlSplit[2] conf.hostname = __hostnamePort[0] if len(__hostnamePort) == 2: try: conf.port = int(__hostnamePort[1]) except: errMsg = "invalid target url" raise sqlmapSyntaxException, errMsg elif conf.scheme == "https": conf.port = 443 else: conf.port = 80 if __urlSplit[3]: conf.parameters["GET"] = __urlSplit[3] conf.url = "%s://%s:%d%s" % (conf.scheme, conf.hostname, conf.port, conf.path) def expandAsteriskForColumns(expression): # If the user provided an asterisk rather than the column(s) # name, sqlmap will retrieve the columns itself and reprocess # the SQL query string (expression) asterisk = re.search("^SELECT\s+\*\s+FROM\s+([\w\.\_]+)\s*", expression, re.I) if asterisk: infoMsg = "you did not provide the fields in your query. " infoMsg += "sqlmap will retrieve the column names itself" logger.info(infoMsg) dbTbl = asterisk.group(1) if dbTbl and "." in dbTbl: conf.db, conf.tbl = dbTbl.split(".") else: conf.tbl = dbTbl columnsDict = conf.dbmsHandler.getColumns(onlyColNames=True) if columnsDict and conf.db in columnsDict and conf.tbl in columnsDict[conf.db]: columns = columnsDict[conf.db][conf.tbl].keys() columns.sort() columnsStr = ", ".join([column for column in columns]) expression = expression.replace("*", columnsStr, 1) infoMsg = "the query with column names is: " infoMsg += "%s" % expression logger.info(infoMsg) return expression def getRange(count, dump=False, plusOne=False): count = int(count) indexRange = None limitStart = 1 limitStop = count if dump: if isinstance(conf.limitStop, int) and conf.limitStop > 0 and conf.limitStop < limitStop: limitStop = conf.limitStop if isinstance(conf.limitStart, int) and conf.limitStart > 0 and conf.limitStart <= limitStop: limitStart = conf.limitStart if plusOne: indexRange = range(limitStart, limitStop + 1) else: indexRange = range(limitStart - 1, limitStop) return indexRange def parseUnionPage(output, expression, partial=False, condition=None, sort=True): data = [] outCond1 = ( output.startswith(temp.start) and output.endswith(temp.stop) ) outCond2 = ( output.startswith("__START__") and output.endswith("__STOP__") ) if outCond1 or outCond2: if outCond1: regExpr = '%s(.*?)%s' % (temp.start, temp.stop) elif outCond2: regExpr = '__START__(.*?)__STOP__' output = re.findall(regExpr, output, re.S) if condition is None: condition = ( kb.resumedQueries and conf.url in kb.resumedQueries.keys() and expression in kb.resumedQueries[conf.url].keys() ) if partial or not condition: logOutput = "".join(["__START__%s__STOP__" % replaceNewlineTabs(value) for value in output]) dataToSessionFile("[%s][%s][%s][%s][%s]\n" % (conf.url, kb.injPlace, conf.parameters[kb.injPlace], expression, logOutput)) if sort: output = set(output) for entry in output: info = [] if "__DEL__" in entry: entry = entry.split("__DEL__") else: entry = entry.split(temp.delimiter) if len(entry) == 1: data.append(entry[0]) else: for value in entry: info.append(value) data.append(info) else: data = output if len(data) == 1 and isinstance(data[0], basestring): data = data[0] return data def getDelayQuery(andCond=False): query = None if kb.dbms in ("MySQL", "PostgreSQL"): if not kb.data.banner: conf.dbmsHandler.getVersionFromBanner() banVer = kb.bannerFp["dbmsVersion"] if (kb.dbms == "MySQL" and banVer >= "5.0.12") or (kb.dbms == "PostgreSQL" and banVer >= "8.2"): query = queries[kb.dbms].timedelay % conf.timeSec else: query = queries[kb.dbms].timedelay2 % conf.timeSec elif kb.dbms == "Firebird": query = queries[kb.dbms].timedelay else: query = queries[kb.dbms].timedelay % conf.timeSec if andCond: if kb.dbms in ( "MySQL", "SQLite" ): query = query.replace("SELECT ", "") elif kb.dbms == "Firebird": query = "(%s)>0" % query return query def getLocalIP(): s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect((conf.hostname, conf.port)) ip, _ = s.getsockname() s.close() return ip def getRemoteIP(): return socket.gethostbyname(conf.hostname) def getFileType(filePath): try: magicFileType = magic.from_file(filePath) except: return "unknown" if "ASCII" in magicFileType or "text" in magicFileType: return "text" else: return "binary" def pollProcess(process): while True: dataToStdout(".") time.sleep(1) returncode = process.poll() if returncode is not None: if returncode == 0: dataToStdout(" done\n") elif returncode < 0: dataToStdout(" process terminated by signal %d\n" % returncode) elif returncode > 0: dataToStdout(" quit unexpectedly with return code %d\n" % returncode) break def getCharset(charsetType=None): asciiTbl = [] if charsetType is None: asciiTbl = range(0, 128) # 0 or 1 elif charsetType == 1: asciiTbl.extend([ 0, 1 ]) asciiTbl.extend(range(47, 50)) # Digits elif charsetType == 2: asciiTbl.extend([ 0, 1 ]) asciiTbl.extend(range(47, 58)) # Hexadecimal elif charsetType == 3: asciiTbl.extend([ 0, 1 ]) asciiTbl.extend(range(47, 58)) asciiTbl.extend(range(64, 71)) asciiTbl.extend(range(96, 103)) # Characters elif charsetType == 4: asciiTbl.extend([ 0, 1 ]) asciiTbl.extend(range(64, 91)) asciiTbl.extend(range(96, 123)) # Characters and digits elif charsetType == 5: asciiTbl.extend([ 0, 1 ]) asciiTbl.extend(range(47, 58)) asciiTbl.extend(range(64, 91)) asciiTbl.extend(range(96, 123)) return asciiTbl def searchEnvPath(fileName): envPaths = os.environ["PATH"] result = None if IS_WIN: envPaths = envPaths.split(";") else: envPaths = envPaths.split(":") for envPath in envPaths: envPath = envPath.replace(";", "") result = os.path.exists(os.path.normpath(os.path.join(envPath, fileName))) if result: break return result def urlEncodeCookieValues(cookieStr): if cookieStr: result = "" for part in cookieStr.split(';'): index = part.find('=') + 1 if index > 0: name = part[:index - 1].strip() value = urlencode(part[index:], convall=True) result += "; %s=%s" % (name, value) elif part.strip().lower() != "secure": result += "%s%s" % ("%3B", urlencode(part, convall=True)) else: result += "; secure" if result.startswith('; '): result = result[2:] elif result.startswith('%3B'): result = result[3:] return result else: return None def directoryPath(path): retVal = None if isWindowsDriveLetterPath(path): retVal = ntpath.dirname(path) else: retVal = posixpath.dirname(path) return retVal def normalizePath(path): retVal = None if isWindowsDriveLetterPath(path): retVal = ntpath.normpath(path) else: retVal = posixpath.normpath(path) return retVal def safeStringFormat(formatStr, params): retVal = formatStr.replace("%d", "%s") if isinstance(params, basestring): retVal = retVal.replace("%s", params) else: count = 0 index = 0 while index != -1: index = retVal.find("%s") if index != -1: if count < len(params): retVal = retVal[:index] + getUnicode(params[count]) + retVal[index+2:] else: raise sqlmapNoneDataException, "wrong number of parameters during string formatting" count += 1 return retVal def sanitizeAsciiString(subject): if subject: index = None for i in xrange(len(subject)): if ord(subject[i]) >= 128: index = i break if not index: return subject else: return subject[:index] + "".join(subject[i] if ord(subject[i]) < 128 else '?' for i in xrange(index, len(subject))) else: return None def decloakToNamedTemporaryFile(filepath, name=None): retVal = NamedTemporaryFile() def __del__(): try: if hasattr(retVal, 'old_name'): retVal.name = old_name retVal.close() except OSError: pass retVal.__del__ = __del__ retVal.write(decloak(filepath)) retVal.seek(0) if name: retVal.old_name = retVal.name retVal.name = name return retVal def decloakToMkstemp(filepath, **kwargs): name = mkstemp(**kwargs)[1] retVal = open(name, 'w+b') retVal.write(decloak(filepath)) retVal.seek(0) return retVal def isWindowsPath(filepath): return re.search("\A[\w]\:\\\\", filepath) is not None def isWindowsDriveLetterPath(filepath): return re.search("\A[\w]\:", filepath) is not None def posixToNtSlashes(filepath): return filepath.replace('/', '\\') def ntToPosixSlashes(filepath): return filepath.replace('\\', '/') def isBase64EncodedString(subject): return re.match(r"\A(?:[A-Za-z0-9+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}=)?\Z", subject) is not None def isHexEncodedString(subject): return re.match(r"\A[0-9a-fA-F]+\Z", subject) is not None def profile(profileOutputFile=None, dotOutputFile=None, imageOutputFile=None): try: from extra.gprof2dot import gprof2dot from extra.xdot import xdot import gobject import gtk import pydot except ImportError, e: errMsg = "profiling requires third-party libraries (%s)" % getUnicode(e) logger.error(errMsg) return if profileOutputFile is None: profileOutputFile = os.path.join(paths.SQLMAP_OUTPUT_PATH, "sqlmap_profile.raw") if dotOutputFile is None: dotOutputFile = os.path.join(paths.SQLMAP_OUTPUT_PATH, "sqlmap_profile.dot") if imageOutputFile is None: imageOutputFile = os.path.join(paths.SQLMAP_OUTPUT_PATH, "sqlmap_profile.png") if os.path.exists(profileOutputFile): os.remove(profileOutputFile) if os.path.exists(dotOutputFile): os.remove(dotOutputFile) if os.path.exists(imageOutputFile): os.remove(imageOutputFile) infoMsg = "profiling the execution into file %s" % profileOutputFile logger.info(infoMsg) # Start sqlmap main function and generate a raw profile file cProfile.run("start()", profileOutputFile) infoMsg = "converting profile data into a dot file '%s'" % dotOutputFile logger.info(infoMsg) # Create dot file by using extra/gprof2dot/gprof2dot.py # http://code.google.com/p/jrfonseca/wiki/Gprof2Dot dotFilePointer = codecs.open(dotOutputFile, 'wt', conf.dataEncoding) parser = gprof2dot.PstatsParser(profileOutputFile) profile = parser.parse() profile.prune(0.5/100.0, 0.1/100.0) dot = gprof2dot.DotWriter(dotFilePointer) dot.graph(profile, gprof2dot.TEMPERATURE_COLORMAP) dotFilePointer.close() infoMsg = "converting dot file into a graph image '%s'" % imageOutputFile logger.info(infoMsg) # Create graph image (png) by using pydot (python-pydot) # http://code.google.com/p/pydot/ pydotGraph = pydot.graph_from_dot_file(dotOutputFile) pydotGraph.write_png(imageOutputFile) infoMsg = "displaying interactive graph with xdot library" logger.info(infoMsg) # Display interactive Graphviz dot file by using extra/xdot/xdot.py # http://code.google.com/p/jrfonseca/wiki/XDot win = xdot.DotWindow() win.connect('destroy', gtk.main_quit) win.set_filter("dot") win.open_file(dotOutputFile) gobject.timeout_add(1000, win.update, dotOutputFile) gtk.main() def getConsoleWidth(default=80): width = None if 'COLUMNS' in os.environ and os.environ['COLUMNS'].isdigit(): width = int(os.environ['COLUMNS']) else: output=subprocess.Popen('stty size', shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE).stdout.read() items = output.split() if len(items) == 2 and items[1].isdigit(): width = int(items[1]) if width is None: try: import curses stdscr = curses.initscr() _, width = stdscr.getmaxyx() curses.endwin() except: pass return width if width else default def parseXmlFile(xmlFile, handler): xfile = codecs.open(xmlFile, 'rb', conf.dataEncoding) content = xfile.read() stream = StringIO(content) parse(stream, handler) stream.close() xfile.close() def calculateDeltaSeconds(start, epsilon=0.05): return int(time.time() - start + epsilon) def initCommonOutputs(): kb.commonOutputs = {} key = None fileName = os.path.join(paths.SQLMAP_TXT_PATH, 'common-outputs.txt') cfile = codecs.open(fileName, 'r', conf.dataEncoding) for line in cfile.readlines(): # xreadlines doesn't return unicode strings when codec.open() is used if line.find('#') != -1: line = line[:line.find('#')] line = line.strip() if len(line) > 1: if line.startswith('[') and line.endswith(']'): key = line[1:-1] elif key: if key not in kb.commonOutputs: kb.commonOutputs[key] = [] if line not in kb.commonOutputs[key]: kb.commonOutputs[key].append(line) cfile.close() def goGoodSamaritan(part, prevValue, originalCharset): """ Function for retrieving parameters needed for common prediction (good samaritan) feature. part is for instance Users, Databases, Tables and corresponds to the header (e.g. [Users]) in txt/common-outputs.txt. prevValue: retrieved query output so far (e.g. 'i'). Returns singleValue if there is a complete single match (in part of txt/common-outputs.txt under 'part') regarding parameter prevValue. If there is no single value match, but multiple, commonCharset is returned containing more probable characters (retrieved from matched values in txt/common-outputs.txt) together with the rest of charset as otherCharset. """ if kb.commonOutputs is None: initCommonOutputs() predictionSet = set() wildIndexes = [] singleValue = None # If the header (e.g. Databases) we are looking for has common # outputs defined if part in kb.commonOutputs: # For each common output for item in kb.commonOutputs[part]: # Check if the common output (item) starts with prevValue # where prevValue is the enumerated character(s) so far if item.startswith(prevValue): singleValue = item if len(item) > len(prevValue): char = item[len(prevValue)] if char not in predictionSet: predictionSet.add(char) commonCharset = [] otherCharset = [] # Split the original charset into common chars (commonCharset) # and other chars (otherCharset) for ordChar in originalCharset: if chr(ordChar) not in predictionSet: otherCharset.append(ordChar) else: commonCharset.append(ordChar) commonCharset.sort() if len(commonCharset) > 1: return None, commonCharset, otherCharset else: return singleValue, commonCharset, originalCharset else: return None, None, originalCharset def getCompiledRegex(regex, *args): """ Returns compiled regular expression and stores it in cache for further usage """ if (regex, args) in kb.cache.regex: return kb.cache.regex[(regex, args)] else: retVal = re.compile(regex, *args) kb.cache.regex[(regex, args)] = retVal return retVal def getPartRun(): """ Goes through call stack and finds constructs matching conf.dmbsHandler.*. Returns it or its alias used in txt/common-outputs.txt """ retVal = None commonPartsDict = optDict["Enumeration"] stack = [item[4][0] if isinstance(item[4], list) else '' for item in inspect.stack()] reobj = getCompiledRegex('conf\.dbmsHandler\.([^(]+)\(\)') # Goes backwards through the stack to find the conf.dbmsHandler method # calling this function for i in xrange(len(stack) - 1, 0, -1): match = reobj.search(stack[i]) if match: # This is the calling conf.dbmsHandler method (e.g. 'getDbms') retVal = match.groups()[0] break return commonPartsDict[retVal][1] if retVal in commonPartsDict else retVal def getCommonStart(strings=[]): """ Returns common start of given strings """ if not strings or not isinstance(strings, list): return None if len(strings) == 1: return strings[0] retVal = unicode() maxCount = min(len(string) for string in strings) count = 0 while count < maxCount: char = strings[0][count] for i in xrange(1, len(strings)): if char != strings[i][count]: char = None break if char is None: break retVal += char count += 1 return retVal def getUnicode(value): if isinstance(value, basestring): return value if isinstance(value, unicode) else unicode(value, conf.dataEncoding if 'dataEncoding' in conf else "utf-8") else: return unicode(value) def getBruteUnicode(string): retVal = unicode() for char in string: retVal += unichr(ord(char)) return retVal class UnicodeRawConfigParser(RawConfigParser): def write(self, fp): """Write an .ini-format representation of the configuration state.""" if self._defaults: fp.write("[%s]\n" % DEFAULTSECT) for (key, value) in self._defaults.items(): fp.write("%s = %s\n" % (key, getUnicode(value).replace('\n', '\n\t'))) fp.write("\n") for section in self._sections: fp.write("[%s]\n" % section) for (key, value) in self._sections[section].items(): if key != "__name__": if value is None: fp.write("%s\n" % (key)) else: fp.write("%s = %s\n" % (key, getUnicode(value).replace('\n', '\n\t'))) fp.write("\n")