0x00 概述
1.drops之前的文档 SQLMAP进阶使用介绍过SQLMAP的高级使用方法,网上也有几篇介绍过SQLMAP源码的文章曾是土木人,都写的非常好,建议大家都看一下。
2.我准备分几篇文章详细的介绍下SQLMAP的源码,让想了解的朋友们熟悉一下SQLMAP的原理和一些手工注入的语句,今天先开始第一篇:流程篇。
3.之前最好了解SQMAP各个选项的意思,可以参考sqlmap用户手册和SQLMAP目录doc/README.pdf
4.内容中如有错误或者没有写清楚的地方,欢迎指正交流。有部分内容是参考上面介绍的几篇文章的,在此一并说明,感谢他们。
0x01 流程图
0x02 调试方法
1.我用的IDE是PyCharm。
2.在菜单栏Run->Edit Configurations。点击左侧的“+”,选择Python,Script中选择sqlmap.py的路径,Script parameters中填入注入时的命令,如下图。
3.打开sqlmap.py,开始函数是main函数,在main函数处下断点。
4.右键Debug ‘sqlmap’,然后程序就自动跳到我们下断点的main()函数处,后面可以继续添加断点进行调试。如下图,左边红色的代表跳转到下一个断点处,上面红色的表示跳到下一句代码处
5.另外,如果要在代码中加中文注释,需要在开始处添加以下语句:#coding:utf-8。
0x03 流程
3.1 初始化
我这里用的版本是:1.0-dev-nongit-20150614
miin()函数开始73行:
#!python
paths.SQLMAP_ROOT_PATH = modulePath()
setPaths()
进入common.py中的setPaths()函数后,就可以看到这个函数是定义SQLMAP路径和文件的,类似于:
#!python
paths.SQLMAP_EXTRAS_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "extra")
paths.SQLMAP_PROCS_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "procs")
paths.SQLMAP_SHELL_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "shell")
paths.SQLMAP_TAMPER_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "tamper")
paths.SQLMAP_WAF_PATH = os.path.join(paths.SQLMAP_ROOT_PATH, "waf")
接下来的78行函数initOptions(cmdLineOptions),包含了三个函数,作用如流程图所示,设置conf,KB,参数. conf会保存用户输入的一些参数,比如url,端口
kb会保存注入时的一些参数,其中有两个是比较特殊的kb.chars.start和kb.chars.stop,这两个是随机字符串,后面会有介绍。
#!python
_setConfAttributes()
_setKnowledgeBaseAttributes()
_mergeOptions(inputOptions, overrideOptions)
3.2 start
102行的start函数,算是检测开始的地方.start()函数位于controller.py中。
#!python
if conf.direct:
initTargetEnv()
setupTargetEnv()
action()
return True
首先这四句,意思是,如果你使用-d选项,那么sqlmap就会直接进入action()函数,连接数据库,语句类似为:
#!python
python sqlmap.py -d "mysql://admin:[email protected]:3306/testdb" -f --banner --dbs --user
#!python
if conf.url and not any((conf.forms, conf.crawlDepth)):
kb.targets.add((conf.url, conf.method, conf.data, conf.cookie, None))
上面代码会把url,methos,data,cookie加入到kb.targets,这些参数就是我们输入的
接下来从274行的for循环中,可以进入检测环节
#!python
for targetUrl, targetMethod, targetData, targetCookie, targetHeaders in kb.targets:
此循环先初始化一些一些变量,然后判断之前是否注入过,如果没有注入过,testSqlInj=True,否则testSqlInj=false。后面会进行判断是否检测过。
#!python
def setupTargetEnv():
_createTargetDirs()
_setRequestParams()
_setHashDB()
_resumeHashDBValues()
_setResultsFile()
_setAuthCred()
372行setupTargetEnv()函数中包含了5个函数,这些函数作用是
1.创建输出结果目录
2.解析请求参数
3.设置session信息,就是session.sqlite。
4.恢复session的数据,继续扫描。
5.存储扫描结果。
6.添加认证信息
其中比较重要的就是session.sqlite,这个文件在sqlmap的输出目录中,测试的结果都会保存在这个文件里。
3.2.1 checkWaf
#!python
checkWaf()
if conf.identifyWaf:
identifyWaf()
377行checkWaf()是检测是否有WAF,检测方法是NMAP的http-waf-detect.nse,比如页面为index.php?id=1,那现在添加一个随机变量index.php?id=1&aaa=2,设置paoyload类似为AND 1=1 UNION ALL SELECT 1,2,3,table_name FROM information_schema.tables WHERE 2>1-- ../../../etc/passwd
,如果没有WAF,页面不会变化,如果有WAF,因为payload中有很多敏感字符,大多数时候页面都会发生改变。
接下来的conf.identifyWaf代表sqlmap的参数–identify-waf,如果指定了此参数,就会进入identifyWaf()函数,主要检测的waf都在sqlmap的waf目录下。
当然检测的方法都比较简单,都是查看返回的数据库包种是否包含了某些特征字符。如:
#!python
__product__ = "360 Web Application Firewall (360)"
def detect(get_page):
retval = False
for vector in WAF_ATTACK_VECTORS:
page, headers, code = get_page(get=vector)
retval = re.search(r"wangzhan\.360\.cn", headers.get("X-Powered-By-360wzb", ""), re.I) is not None
if retval:
break
return retval
if (len(kb.injections) == 0 or (len(kb.injections) == 1 and kb.injections[0].place is None)) \
and (kb.injection.place is None or kb.injection.parameter is None):
回到start函数,385行会判断是否注入过,如果还没有测试过参数是否可以注入,则进入if语句中。如果之前测试过,则不会进入此语句。
#!python
for place in parameters:
# Test User-Agent and Referer headers only if
# --level >= 3
skip = (place == PLACE.USER_AGENT and conf.level <
skip |= (place == PLACE.REFERER and conf.level < 3)
# Test Host header only if
# --level >= 5
skip |= (place == PLACE.HOST and conf.level < 5)
# Test Cookie header only if --level >= 2
skip |= (place == PLACE.COOKIE and conf.level < 2)
这中间sqlmap给了我们一些注释,可以看到,level>=3时,会测试user-agent,referer,level>=5时,会测试HOST,level>=2时,会测试cookie。当然最终的测试判断还要在相应的xml中指定,后面会介绍。
#!python
check = checkDynParam(place, parameter, value)
480行的checkDynParam()函数会判断参数是否是动态的,比如index.php?id=1,通过更改id的值,如果参数是动态的,页面会不同。
3.2.2 heuristicCheckSqlInjection
#!python
check = heuristicCheckSqlInjection(place, parameter)
502行有个heuristicCheckSqlInjection()函数,翻译过来是启发性sql注入测试,其实就是先进行一个简单的测试,设置一个payload,然后解析请求结果。
heuristicCheckSqlInjection()在checks.py中,821行开始如下:
#!python
if conf.prefix or conf.suffix:
if conf.prefix:
prefix = conf.prefix
if conf.suffix:
suffix = conf.suffix
randStr = ""
while '\'' not in randStr:
randStr = randomStr(length=10, alphabet=HEURISTIC_CHECK_ALPHABET)
kb.heuristicMode = True
payload = "%s%s%s" % (prefix, randStr, suffix)
payload = agent.payload(place, parameter, newValue=payload)
page, _ = Request.queryPage(payload, place, content=True, raise404=False)
kb.heuristicMode = False
parseFilePaths(page)
result = wasLastResponseDBMSError()
首先conf.prefix和conf.suffix代表用户指定的前缀和后缀;在while '\'' not in randStr
中,随机选择'”‘, ‘\”, ‘)’, ‘(‘, ‘,’, ‘.’中的字符,选10个,并且单引号要在。接下来生成一个payload,类似u’name=PAYLOAD_DELIMITER\__1).”.”.”\’.”__PAYLOAD_DELIMITER‘。其中PAYLOAD_DELIMITER\__1和__PAYLOAD_DELIMITER是随机字符串。请求网页后,调用parseFilePaths进行解析,查看是否爆出绝对路径,而wasLastResponseDBMSError是判断response中是否包含了数据库的报错信息。
#!python
value = "%s%s%s" % (randomStr(), DUMMY_XSS_CHECK_APPENDIX, randomStr())
payload = "%s%s%s" % (prefix, "'%s" % value, suffix)
payload = agent.payload(place, parameter, newValue=payload)
page, _ = Request.queryPage(payload, place, content=True, raise404=False)
paramType = conf.method if conf.method not in (None, HTTPMETHOD.GET, HTTPMETHOD.POST) else place
if value in (page or ""):
infoMsg = "heuristic (XSS) test shows that %s parameter " % paramType
infoMsg += "'%s' might be vulnerable to XSS attacks" % parameter
logger.info(infoMsg)
kb.heuristicMode = False
上面的代码是从888行开始,DUMMY_XSS_CHECK_APPENDIX = “<‘\”>”,如果输入的字符串在页面中返回了,会提示可能存在XSS漏洞。
接下来,我们回到start函数中,继续看下面的代码。
#!python
if testSqlInj:
......
injection = checkSqlInjection(place, parameter, value)
在502行判断testSqlInj,如果为true,就代表之前没有检测过,然后就会到checkSqlInjection,checkSqlInjection()才是真正开始测试的函数,传入的参数是注入方法如GET,参数名,参数值。我们跟进。
3.2.3 checkSqlInjection
checkSqlInjection()在checks.py中,91行开始
#!python
paramType = conf.method if conf.method not in (None, HTTPMETHOD.GET, HTTPMETHOD.POST) else place
tests = getSortedInjectionTests()
paramType是注入的类型,如GET。tests是要测试的列表,如下图所示,包含了每个测试项的名称,这些数据都是和/sqlmap/xml/payloads/目录下每个xml相对应的。
#!python
if conf.dbms is None:
if not injection.dbms and PAYLOAD.TECHNIQUE.BOOLEAN in injection.data:
if not Backend.getIdentifiedDbms() and kb.heuristicDbms is False:
kb.heuristicDbms = heuristicCheckDbms(injection)
if kb.reduceTests is None and not conf.testFilter and (intersect(Backend.getErrorParsedDBMSes(), \
SUPPORTED_DBMS, True) or kb.heuristicDbms or injection.dbms):
msg = "it looks like the back-end DBMS is '%s'. " % (Format.getErrorParsedDBMSes() or kb.heuristicDbms or injection.dbms)
msg += "Do you want to skip test payloads specific for other DBMSes? [Y/n]"
kb.reduceTests = (Backend.getErrorParsedDBMSes() or [kb.heuristicDbms]) if readInput(msg, default='Y').upper() == 'Y' else []
if kb.extendTests is None and not conf.testFilter and (conf.level < 5 or conf.risk < 3) \
and (intersect(Backend.getErrorParsedDBMSes(), SUPPORTED_DBMS, True) or \
kb.heuristicDbms or injection.dbms):
msg = "for the remaining tests, do you want to include all tests "
msg += "for '%s' extending provided " % (Format.getErrorParsedDBMSes() or kb.heuristicDbms or injection.dbms)
msg += "level (%d)" % conf.level if conf.level < 5 else ""
msg += " and " if conf.level < 5 and conf.risk < 3 else ""
msg += "risk (%d)" % conf.risk if conf.risk < 3 else ""
msg += " values? [Y/n]" if conf.level < 5 and conf.risk < 3 else " value? [Y/n]"
kb.extendTests = (Backend.getErrorParsedDBMSes() or [kb.heuristicDbms]) if readInput(msg, default='Y').upper() == 'Y' else []
101行开始,这段代码主要是判断DBMS类型,首先,如果用户没有手工指定dbms,则会根据页面报错或者bool类型的测试,找出DBMS类型,找出后,会提示是否跳过测试其他的DBMS。然后,对于测试出来的DBMS,是否用所有的payload来测试。
140行if stype == PAYLOAD.TECHNIQUE.UNION:会判断是不是union注入,这个stype就是payload文件夹下面xml文件中的stype,如果是union,就会进入,然后配置列的数量等,今天先介绍流程,union注入以后会介绍。
#!python
if conf.tech and isinstance(conf.tech, list) and stype not in conf.tech:
debugMsg = "skipping test '%s' because the user " % title
debugMsg += "specified to test only for "
debugMsg += "%s techniques" % " & ".join(map(lambda x: PAYLOAD.SQLINJECTION[x], conf.tech))
logger.debug(debugMsg)
continue
177行,就是用户提供的–technique,共有六个选项BEUSTQ,但是现在很多文档,包括SQLMAP的官方文档都只给了BEUST的解释说明,少个inline_query,相当于查询语句中再加入一个查询语句。
B: Boolean-based blind SQL injection(布尔型注入)
E: Error-based SQL injection(报错型注入)
U: UNION query SQL injection(可联合查询注入)
S: Stacked queries SQL injection(可多语句查询注入)
T: Time-based blind SQL injection(基于时间延迟注入)
Q: inline_query(内联查询)
接下来,就是生成payload的过程。288行:
#!python
fstPayload = agent.cleanupPayload(test.request.payload, origValue=value if place not in (PLACE.URI, PLACE.CUSTOM_POST, PLACE.CUSTOM_HEADER) else None)
test.request.payload为’AND [RANDNUM]=[RANDNUM]'(相应payload.xml中的request值)。根据此代码,生成一个随机字符串,如fstPayload=u’AND 2876=2876’。
302行:
#!python
for boundary in boundaries:
injectable = False
if boundary.level > conf.level and not (kb.extendTests and intersect(payloadDbms, kb.extendTests, True)):
continue
循环遍历boundaries.xml中的boundary节点,如果boundary的level大于用户提供的level,则跳过,不检测。
307行:
#!python
clauseMatch = False
for clauseTest in test.clause:
if clauseTest in boundary.clause:
clauseMatch = True
break
if test.clause != [0] and boundary.clause != [0] and not clauseMatch:
continue
whereMatch = False
for where in test.where:
if where in boundary.where:
whereMatch = True
break
if not whereMatch:
continue
首先,循环遍历test.clause(payload中的clause值),如果clauseTest在boundary的clause中,则设置clauseMatch = True,代表此条boundary可以使用。 接下来循环匹配where(payload中的where值),如果存在这样的where,设置whereMatch = True。如果clause和where中的一个没有匹配成功,都会结束循环,进入下一个payload的测试。
#!python
prefix = boundary.prefix if boundary.prefix else ""
suffix = boundary.suffix if boundary.suffix else ""
ptype = boundary.ptype
prefix = conf.prefix if conf.prefix is not None else prefix
suffix = conf.suffix if conf.suffix is not None else suffix
comment = None if conf.suffix is not None else comment
上面是设置payload的前缀和后缀,如果用户设置了,则使用用户设置的,如果没有,则使用boundary中的。
352行:
#!python
for where in test.where:
if where == PAYLOAD.WHERE.ORIGINAL or conf.prefix:
......
elif where == PAYLOAD.WHERE.NEGATIVE:
......
elif where == PAYLOAD.WHERE.REPLACE:
......
这里的where是payload中的where值,共有三个值,where字段我理解的意思是,以什么样的方式将我们的payload添加进去。
1:表示将我们的payload直接添加在值得后面[此处指的应该是检测的参数的值] 如我们写的参数是id=1,设置
2:表示将检测的参数的值更换为一个整数,然后将payload添加在这个整数的后面。 如我们写的参数是id=1,设置
3:表示将检测的参数的值直接更换成我们的payload。 如我们写的参数是id=1,设置
最终在389行:
#!python
boundPayload = agent.prefixQuery(fstPayload, prefix, where, clause)
boundPayload = agent.suffixQuery(boundPayload, comment, suffix, where)
reqPayload = agent.payload(place, parameter, newValue=boundPayload, where=where)
组合前缀、后缀、payload等,生成请求的reqPayload。
这其中有个cleanupPayload()函数,其实就是将一些值进行随机化。如下图,例如kb.chars.start,kb.chars.stop,这两个变量是在基于错误的注入时,随机产生的字符串。
在398行:
#!python
for method, check in test.response.items():
check = agent.cleanupPayload(check, origValue=value if place not in (PLACE.
URI, PLACE.CUSTOM_POST, PLACE.CUSTOM_HEADER) else None)
if method == PAYLOAD.METHOD.COMPARISON:
def genCmpPayload():
sndPayload = agent.cleanupPayload(test.response.comparison,
origValue=value if place not in (PLACE.URI, PLACE.CUSTOM_POST,
PLACE.CUSTOM_HEADER) else None)
boundPayload = agent.prefixQuery(sndPayload, prefix, where, clause)
boundPayload = agent.suffixQuery(boundPayload, comment, suffix,
where)
cmpPayload = agent.payload(place, parameter,
newValue=boundPayload, where=where)
return cmpPayload
kb.matchRatio = None
kb.negativeLogic = (where == PAYLOAD.WHERE.NEGATIVE)
Request.queryPage(genCmpPayload(), place, raise404=False)
falsePage = threadData.lastComparisonPage or ""
trueResult = Request.queryPage(reqPayload, place, raise404=False)
truePage = threadData.lastComparisonPage or ""
if trueResult:
falseResult = Request.queryPage(genCmpPayload(), place,
raise404=False)
if not falseResult:
infoMsg = "%s parameter '%s' seems to be '%s' injectable " % (
paramType, parameter, title)
logger.info(infoMsg)
injectable = True
if not injectable and not any((conf.string, conf.notString, conf.
regexp)) and kb.pageStable:
trueSet = set(extractTextTagContent(truePage))
falseSet = set(extractTextTagContent(falsePage))
candidates = filter(None, (_.strip() if _.strip() in (kb.
pageTemplate or "") and _.strip() not in falsePage and _.strip()
not in threadData.lastComparisonHeaders else None for _ in (
trueSet - falseSet)))
if candidates:
conf.string = candidates[0]
infoMsg = "%s parameter '%s' seems to be '%s' injectable (with
--string=\"%s\")" % (paramType, parameter, title, repr(conf.
string).lstrip('u').strip("'"))
logger.info(infoMsg)
injectable = True
elif method == PAYLOAD.METHOD.GREP:
try:
page, headers = Request.queryPage(reqPayload, place, content=True,
raise404=False)
output = extractRegexResult(check, page, re.DOTALL | re.
IGNORECASE) \
or extractRegexResult(check, listToStrValue( \
[headers[key] for key in headers.keys() if key.lower() !=
URI_HTTP_HEADER.lower()] \
if headers else None), re.DOTALL | re.IGNORECASE) \
or extractRegexResult(check, threadData.lastRedirectMsg[1]
\
if threadData.lastRedirectMsg and threadData.
lastRedirectMsg[0] == \
threadData.lastRequestUID else None, re.DOTALL | re.
IGNORECASE)
if output:
result = output == "1"
if result:
infoMsg = "%s parameter '%s' is '%s' injectable " % (
paramType, parameter, title)
logger.info(infoMsg)
injectable = True
except SqlmapConnectionException, msg:
debugMsg = "problem occurred most likely because the "
debugMsg += "server hasn't recovered as expected from the "
debugMsg += "error-based payload used ('%s')" % msg
logger.debug(debugMsg)
elif method == PAYLOAD.METHOD.TIME:
trueResult = Request.queryPage(reqPayload, place,
timeBasedCompare=True, raise404=False)
if trueResult:
# Confirm test's results
trueResult = Request.queryPage(reqPayload, place,
timeBasedCompare=True, raise404=False)
if trueResult:
infoMsg = "%s parameter '%s' seems to be '%s' injectable " % (
paramType, parameter, title)
logger.info(infoMsg)
injectable = True
elif method == PAYLOAD.METHOD.UNION:
configUnion(test.request.char, test.request.columns)
if not Backend.getIdentifiedDbms():
if kb.heuristicDbms is None:
warnMsg = "using unescaped version of the test "
warnMsg += "because of zero knowledge of the "
warnMsg += "back-end DBMS. You can try to "
warnMsg += "explicitly set it using option '--dbms'"
singleTimeWarnMessage(warnMsg)
else:
Backend.forceDbms(kb.heuristicDbms)
if unionExtended:
infoMsg = "automatically extending ranges for UNION "
infoMsg += "query injection technique tests as "
infoMsg += "there is at least one other (potential) "
infoMsg += "technique found"
singleTimeLogMessage(infoMsg)
reqPayload, vector = unionTest(comment, place, parameter, value,
prefix, suffix)
if isinstance(reqPayload, basestring):
infoMsg = "%s parameter '%s' is '%s' injectable" % (paramType,
parameter, title)
logger.info(infoMsg)
injectable = True
# Overwrite 'where' because it can be set
# by unionTest() directly
where = vector[6]
kb.previousMethod = method
上面这部分代码非常多,通过for循环遍历payload中的
所以,上面的代码可以分为:
1.method为PAYLOAD.METHOD.COMPARISON:bool类型盲注 2.method为PAYLOAD.METHOD.GREP:基于错误的sql注入 3.mehtod为PAYLOAD.METHOD.TIME:基于时间的盲注 4.method为PAYLOAD.METHOD.UNION:union联合查询
请注意,上面这四种方法,和之前说的六种注入方法不是一个概念,这里的是payload中的response代码,而注入用的是request代码。通过比较request的结果和response的结果,确定是否可以注入。以后的文章会介绍怎么比较的。。
checkSqlInjectiond的关键部分就到这里了,后面就是把注入的数据保存起来。马上会介绍读取的时候。
3.2.4 Payload生成条件
前面具体介绍了Payload的生成方法,这里再总结一下条件:
1.sqlmap会实现读取payloads文件夹下xml文件中的每个test元素,然后循环遍历。
2.此时还会遍历boundaries.xml文件。
3.当且仅当某个boundary元素的where节点的值包含test元素where节点的值,clause节点的值包含test元素的clause节点的值,该boundary才能和当前的test匹配,从而进一步生成payload。
4.where字段有三个值1:表示将我们的payload直接添加在值得后面[此处指的应该是检测的参数的值] 如我们写的参数是id=1,设置
5.最终的payload = url参数 + boundary.prefix+test.payload+boundary.suffix
3.2.5 Action
在start()的617行是action()函数,位于Action.py中,此函数是判断用户提供的参数,然后提供相应的函数。
#!python
if conf.getDbs:
conf.dumper.dbs(conf.dbmsHandler.getDbs())
if conf.getTables:
conf.dumper.dbTables(conf.dbmsHandler.getTables())
if conf.commonTables:
conf.dumper.dbTables(tableExists(paths.COMMON_TABLES))
3.2.6 HashDB
sqlmap注入的结果会保存在输出目录的session.sqlite文件汇总,此文件是sqlite数据库,可以使用SQLiteManager打开。
回到controller.py中的start函数。第602行
#!python
_saveToResultsFile()
_saveToHashDB()
_showInjections()
_selectInjection()
这四个函数的作用就是保存结果保存结果、保存session、显示注入结果,包括类型,payload等。
前面介绍过会判断testSqlInj的值,如果为True,代表没有测试过,会进入checkSqlInjection()函数,如果测试过,那么testSqlInj为false,就会跳过checkSqlInjection()。
比如我们选择–current-db时,通过action()进入到conf.dumper.currentDb(conf.dbmsHandler.getCurrentDb())。进入到databases.py的getCurrentDb中。
#!python
query = queries[Backend.getIdentifiedDbms()].current_db.query
这是获取相应的命令,比如mysql的命令是database().一直跟踪函数到use.py的346行
#!python
if not value and not abortedFlag:
output = _oneShotUnionUse(expression, unpack)
value = parseUnionPage(output)
_onehotUninoUse就是读取session文件,获取已经注入过的数据,如果session中没有,代表没有请求过,则重新请求获取数据。output此时是获取的网页的源码。
#!python
retVal = hashDBRetrieve("%s%s" % (conf.hexConvert, expression), checkConf=True)
_onehotUninoUse的第一行,就是从session中获取数据,跟踪进hashdb.py的regrieve函数
#!python
def hashKey(key):
key = key.encode(UNICODE_ENCODING) if isinstance(key, unicode) else repr(key)
retVal = int(hashlib.md5(key).hexdigest()[:12], 16) #注释:hash的算法,对应数据库中的id。md5后,转换为10进制,就是session中的id
return retVal
def retrieve(self, key, unserialize=False):
retVal = None
if key and (self._write_cache or os.path.isfile(self.filepath)):
hash_ = HashDB.hashKey(key)
retVal = self._write_cache.get(hash_)
if not retVal:
while True:
try:
for row in self.cursor.execute("SELECT value FROM storage WHERE id=?", (hash_,)):
retVal = row[0]
except sqlite3.OperationalError, ex:
if not "locked" in ex.message:
raise
except sqlite3.DatabaseError, ex:
errMsg = "error occurred while accessing session file '%s' ('%s'). " % (self.filepath, ex)
errMsg += "If the problem persists please rerun with `--flush-session`"
raise SqlmapDataException, errMsg
else:
break
return retVal if not unserialize else unserializeObject(retVal)
通过HashDB.hashKey()计算id,然后到session.sqlite中找记录,那么key是怎么生成的呢?
在common.py中有个hashDBRetrieve(),
#!python
def hashDBRetrieve(key, unserialize=False, checkConf=False):
_ = "%s%s%s" % (conf.url or "%s%s" % (conf.hostname, conf.port), key, HASHDB_MILESTONE_VALUE)
retVal = conf.hashDB.retrieve(_, unserialize) if kb.resumeValues and not (checkConf and any((conf.flushSession, conf.freshQueries))) else None
if not kb.inferenceMode and not kb.fileReadMode and any(_ in (retVal or "") for _ in (PARTIAL_VALUE_MARKER, PARTIAL_HEX_VALUE_MARKER)):
retVal = None
return retVal
此函数用于生成hash的key,生成方法为url+’None’+命令+HASHDB_MILESTONE_VALUE,比如u’http://127.0.0.1:80/biweb/archives/detail.phpNoneDATABASE()JHjrBugdDA’。此key经过int(hashlib.md5(key).hexdigest()[:12], 16),就是对应session中的id
最终在session.sqlite中根据id,就能够找到记录。
如上图,获取到的记录其实就是一个网页的源代码,另外可以看到current-db的前后有几个字符串,这个字符串就是kb.chars.start和kb.chars.stop
回到_oneShotUnionUse中,如果session中没有记录,则会重新进行请求,获取数据
#!python
vector = kb.injection.data[PAYLOAD.TECHNIQUE.UNION].vector
kb.unionDuplicates = vector[7]
kb.forcePartialUnion = vector[8]
query = agent.forgeUnionQuery(injExpression, vector[0], vector[1], vector[2], vector[3], vector[4], vector[5], vector[6], None, limited)
where = PAYLOAD.WHERE.NEGATIVE if conf.limitStart or conf.limitStop else vector[6]
payload = agent.payload(newValue=query, where=where)
最终的值通过解析session中的记录value = parseUnionPage(output),找到kb.chars.start和kb.chars.stop中间的值,就是结果。
0x04 结束
还有很多东西没有写出来,希望后面的几篇文章能够写好。花了好久的时间,调试、码字,不知道又没有人能看到最后。。