| RealPlayer PNG deflate heap corruption vulnerability
Author : Core Security Technologies Advisory - http://www.coresecurity.com
Date Published: 2003-03-28
Last Update: 2003-03-27
Advisory ID: CORE-2003-0306
Bugtraq ID: 7177
CVE Name: CAN-2003-0141
Title: RealPlayer PNG deflate heap corruption vulnerability.
Class: Boundary Error Condition
Remotely Exploitable: Yes
Locally Exploitable: Yes
Advisory URL: http://www.coresecurity.com/common/showdoc.php?idx=311&idxseccion=10
. Core Notification: 2003-03-07
. Notification aknowledged by RealNetworks: 2003-03-11
. Fix provided by RealNetworks and tested by Core: 2003-03-13
. Release schedule of updatesestablished: 2003-03-19
. Updates for Consumer Products released: 2003-03-27
Release Mode: COORDINATED RELEASE
RealPlayer is a popular program provided by RealNetworks, Inc. It is
used to play live video and audio over the net. This programs is able
to play a great set of media file formats, between them is the PNG graphic
file format. A vulnerability has been found in the way that RealPlayer
decompress those files.
If exploited, this vulnerability allows an attacker to execute arbitrary
code and obtain a remote command shell with those privileges of the user
. RealOne Player v2 (Win32) [versions: 6.0.11.x, where x = .818, .830,
. RealOne Player v1 (Win32) [version: 22.214.171.1245]
. RealOne Player for OS X [version: 126.96.36.1997, 188.8.131.528]
. RealPlayer 8/RealPlayer Plus 8 (Win32 & Mac OS 9) [version: 184.108.40.2064
(Win32 & Mac OS 9)]
. RealOne Enterprise Desktop (Win32) [version: 220.127.116.114]
RealNetworks provides security updates which fix this vulnerability in
the following page: http://service.real.com/help/faq/security/index.html
This vulnerability was found by Juliano Rizzo, Agustin Azubel Friedman,
Bruno Acselrad and Carlos Sarraute from Core Security Technologies during
Bugweek 2003 (March 3-7, 2003).
Previous problems were found by Drew Copley of eEye Digital Security.
We would like to thank Jeff Ayars and Haydon Boone from RealNetworks
for quickly addressing our report and coordinating the generation and
public release of patches and information regarding this vulnerability.
*Technical Description - Exploit/Concept Code:*
PNG files are compressed using the deflate algorithm. This algorithm
is described in the RFC 1951 "DEFLATE Compressed Data Format Specification"
(see ). The compression is performed by searching for repetitions of
the same data block. When a repetition is found a pair of length/offset
codes are inserted in the ouput string instead of the data block. These
codes indicate the distance (in bytes) of the beginning of the repeated
block respect to the current position, and its length (in bytes). The
algorithm can work in two modes, with fixed or dynamic Huffman trees.
When fixed trees are used a fixed alphabet of 288 symbols is used to represent
literals and length codes. The RFC 1951 states:
"...Literal/length values 286-287 will never actually occur in the
compressed data, but participate in the code construction..."
The problem we found in vulnerable implementations of the algorithm is
that when one of those two codes 286-287 is found in the compressed data,
a length of 2^32 bytes is assumed.
A loop starts copying from the offset specified after the length code
in the compressed bit stream. 2^32 bytes is larger than the size of the
buffer and also beyond the program address space and larger than the available
memory, so the loop finally raises an exception when it reaches the end
of the commited program memory. It allows an attacker to fill the program
memory after the buffer with a given pattern. After the exception is raised
a free or malloc function can be abused to use the values in the corrupted
heap memory to write any 32bit value to any address in memory. In particular
we can overwrite any function pointer (for example the unhandled exception
filter) and control the program execution flow, allowing us to execute
arbitrary code and obtain (for example) a remote command shell or a Core
Impact agent with those privileges of the user running RealPlayer.
This bug has been successfully exploited in RealOne Player 2.0 and a
CORE IMPACT's module has been made.
*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
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