时间:2021-07-01 10:21:17 帮助过:32人阅读
#!bashapt-get install php5apt-get install php5-devapt-get install apacheapt-get install mysql
#!bashmkdir godheadwget https://github.com/Qihoo360/phptrace/archive/v0.3.0.zipunzip v0.3.0.zipcd ./phptrace-0.3.0/extensionphpize5./configure --with-php-config=/usr/bin/php-configmake & make installcd ../cmdtoolmake
编辑 php.ini ,增加:
#!bashextension=trace.so
#!php
#!shellphp test.php &ps -axu|grep php./phptrace -p pid
#!bashcurl 127.0.0.1/test.phpps -aux|grep apache./phptrace -p pid
执行的代码如下:
#!php
执行顺序是:
#!basha>b>c>echo
参数含义:
名称 | 值 | 意义 |
---|---|---|
seq | int|执行的函数的次数 | |
type | 1/2 | 1是代表调用函数,2是代表该函数返回 |
level | -10 | 执行深度,比如a函数调用b,那么a的level就是1,b的level就是2,依次递增 |
func | eval | 调用的函数名称 |
st | 1448387651119460 | 时间戳 |
params | string | 函数的参数 |
file | c.php | 执行的文件 |
lineno | 1 | 此函数对应的行号 |
日志输出:
#!js{"seq":0, "type":1, "level":1, "func":"{main}", "st":1448387651119445, "params":"", "file":"/var/www/html/2.php", "lineno":11 }{"seq":1, "type":1, "level":2, "func":"a", "st":1448387651119451, "params":"", "file":"/var/www/html/2.php", "lineno":11 }{"seq":2, "type":1, "level":3, "func":"b", "st":1448387651119452, "params":"", "file":"/var/www/html/2.php", "lineno":9 }{"seq":3, "type":1, "level":4, "func":"c", "st":1448387651119453, "params":"", "file":"/var/www/html/2.php", "lineno":6 }{"seq":4, "type":2, "level":4, "func":"c, "st":1448387651119457, "return":"NULL", "wt":4, "ct":4, "mem":48, "pmem":144 }{"seq":5, "type":2, "level":3, "func":"b, "st":1448387651119459, "return":"NULL", "wt":7, "ct":6, "mem":48, "pmem":144 }{"seq":6, "type":2, "level":2, "func":"a, "st":1448387651119459, "return":"NULL", "wt":8, "ct":8, "mem":80, "pmem":176 }{"seq":7, "type":2, "level":1, "func":"{main}, "st":1448387651119460, "return":"1", "wt":15, "ct":14, "mem":112, "pmem":208 }
开一个后台进程一直刷新进程列表,如果出现没有tracer的进程就立即进行托管
通过对每一个文件的json进行提取,提取过程如下:
函数对应如下:
#!pythonlist1={ level1:[seq,type,func,param,return] level2:[seq,type,func,param,return] level3:[seq,type,func,param,return] #eval level4:[seq,type,func,param,return]}list2=
通过追踪危险函数,然后将其函数执行之前的关系梳理出来进行输出,然后再进行人工审查。
放上demo
安装
#!bashapt-get install php5-xdebug
修改 php.ini
#!bash[xdebug]zend_extension = "/usr/lib/php5/20131226/xdebug.so"xdebug.auto_trace = onxdebug.auto_profile = onxdebug.collect_params = onxdebug.collect_return = onxdebug.profiler_enable = onxdebug.trace_output_dir = "/tmp/ad/xdebug_log"xdebug.profiler_output_dir = "/tmp/ad/xdebug_log"
放上几个demo图片:
人为参与力度较大,无法进行脱离人工的操作进行独立执行。
精准度高,对于面向对象和面向过程的代码都可以进行分析。
案例:
介绍:
#!shellgit clone https://github.com/nikic/PHP-Parser.git & cd PHP-Parsercurl -sS https://getcomposer.org/installer | php
PHP >= 5.3; for parsing PHP 5.2 to PHP 5.6
#!bashphp composer.phar require nikic/php-parser
PHP >= 5.4; for parsing PHP 5.2 to PHP 7.0
#!bashphp composer.phar require nikic/php-parser 2.0.x-dev
#!php';$parser = (new ParserFactory)->create(ParserFactory::PREFER_PHP7);try { $stmts = $parser->parse($code); print_r($stmts); // $stmts is an array of statement nodes} catch (Error $e) { echo 'Parse Error: ', $e->getMessage();}
输出如下:
#!jsArray( [0] => PhpParser\Node\Expr\Eval_ Object ( [expr] => PhpParser\Node\Expr\ArrayDimFetch Object ( [var] => PhpParser\Node\Expr\Variable Object ( [name] => _POST [attributes:protected] => Array ( [startLine] => 1 [endLine] => 1 ) ) [dim] => PhpParser\Node\Expr\ConstFetch Object ( [name] => PhpParser\Node\Name Object ( [parts] => Array ( [0] => c ) [attributes:protected] => Array ( [startLine] => 1 [endLine] => 1 ) ) [attributes:protected] => Array ( [startLine] => 1 [endLine] => 1 ) ) [attributes:protected] => Array ( [startLine] => 1 [endLine] => 1 ) ) [attributes:protected] => Array ( [startLine] => 1 [endLine] => 1 ) ))
由此可见,我们需要提取出
#!js[0] => PhpParser\Node\Expr\Eval_ Object[name] => _POST[parts] => Array ( [0] => c )
然后进行拼接之后即可发现原始语句是:
#!phpeval($_POST[c][/c])
对于面向对象的程序进行分析比较弱。
适合大批量的自动化分析,可以脱离人工操作进行独立执行