Vulnerabilities
Misconfiguration
Runtime Security
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CVE Vulnerabilities

CVE-2022-40152

Stack-based Buffer Overflow

Published: Sep 16, 2022 | Modified: Nov 21, 2024
CVSS 3.x
7.5
HIGH
Source:
NVD
CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:N/I:N/A:H
CVSS 2.x
RedHat/V2
RedHat/V3
7.5 MODERATE
CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:N/I:N/A:H
Ubuntu
LOW
Additional information
NVDhttps://nvd.nist.gov/vuln/detail/CVE-2022-40152
CWEhttps://cwe.mitre.org/data/definitions/121.html

Those using Woodstox to parse XML data may be vulnerable to Denial of Service attacks (DOS) if DTD support is enabled. If the parser is running on user supplied input, an attacker may supply content that causes the parser to crash by stackoverflow. This effect may support a denial of service attack.

Weakness

A stack-based buffer overflow condition is a condition where the buffer being overwritten is allocated on the stack (i.e., is a local variable or, rarely, a parameter to a function).

Affected Software

Name Vendor Start Version End Version
Xstream Xstream_project * 1.4.19 (including)
OCP-Tools-4.13-RHEL-8 RedHat jenkins-0:2.387.3.1684911776-3.el8 *
Red Hat JBoss Enterprise Application Platform 7 RedHat woodstox-core *
Red Hat JBoss Enterprise Application Platform 7.4 for RHEL 8 RedHat eap7-woodstox-core-0:6.4.0-1.redhat_00001.1.el8eap *
Red Hat JBoss Enterprise Application Platform 7.4 for RHEL 9 RedHat eap7-woodstox-core-0:6.4.0-1.redhat_00001.1.el9eap *
Red Hat JBoss Enterprise Application Platform 7.4 on RHEL 7 RedHat eap7-woodstox-core-0:6.4.0-1.redhat_00001.1.el7eap *
RHINT Camel-Q 2.13.2 RedHat woodstox-core *
RHINT Camel-Springboot 3.18.3.P2 RedHat *
RHINT Camel-Springboot 3.20.1 RedHat woodstox-core *
RHINT Service Registry 2.4.3 GA RedHat woodstox-core *
RHPAM 7.13.4 async RedHat woodstox-core *
Libxstream-java Ubuntu bionic *
Libxstream-java Ubuntu kinetic *
Libxstream-java Ubuntu lunar *
Libxstream-java Ubuntu mantic *
Libxstream-java Ubuntu trusty *
Libxstream-java Ubuntu trusty/esm *
Libxstream-java Ubuntu xenial *

Potential Mitigations

  • Use automatic buffer overflow detection mechanisms that are offered by certain compilers or compiler extensions. Examples include: the Microsoft Visual Studio /GS flag, Fedora/Red Hat FORTIFY_SOURCE GCC flag, StackGuard, and ProPolice, which provide various mechanisms including canary-based detection and range/index checking.
  • D3-SFCV (Stack Frame Canary Validation) from D3FEND [REF-1334] discusses canary-based detection in detail.
  • Run or compile the software using features or extensions that randomly arrange the positions of a program’s executable and libraries in memory. Because this makes the addresses unpredictable, it can prevent an attacker from reliably jumping to exploitable code.
  • Examples include Address Space Layout Randomization (ASLR) [REF-58] [REF-60] and Position-Independent Executables (PIE) [REF-64]. Imported modules may be similarly realigned if their default memory addresses conflict with other modules, in a process known as “rebasing” (for Windows) and “prelinking” (for Linux) [REF-1332] using randomly generated addresses. ASLR for libraries cannot be used in conjunction with prelink since it would require relocating the libraries at run-time, defeating the whole purpose of prelinking.
  • For more information on these techniques see D3-SAOR (Segment Address Offset Randomization) from D3FEND [REF-1335].

References

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