CVE-2025-59613: CWE-121 Stack-based Buffer Overflow in Qualcomm, Inc. Snapdragon
CVE-2025-59613 is a stack-based buffer overflow vulnerability in Qualcomm Snapdragon products caused by a memory corruption issue when the output buffer size is smaller than the input buffer size during a data copying operation. This vulnerability affects multiple Qualcomm Snapdragon and related platforms. The CVSS score is 6. 7, indicating a medium severity level with high impact on confidentiality, integrity, and availability. No official patch or remediation guidance is currently provided by the vendor, and no known exploits are reported in the wild.
AI Analysis
Technical Summary
This vulnerability involves a stack-based buffer overflow (CWE-121) in Qualcomm Snapdragon products. It occurs due to improper handling of buffer sizes during data copying, where the output buffer is smaller than the input buffer, leading to memory corruption. Affected products include a broad range of Snapdragon platforms and related hardware components. The CVSS 3.1 vector indicates local attack vector with low attack complexity, requiring high privileges and no user interaction, impacting confidentiality, integrity, and availability. No patch or official remediation level has been disclosed by Qualcomm as of the published date.
Potential Impact
Successful exploitation of this vulnerability could lead to memory corruption, potentially allowing an attacker with high privileges and local access to compromise system confidentiality, integrity, and availability. Given the stack-based buffer overflow nature, this could result in arbitrary code execution or system crashes. However, no known exploits are currently reported in the wild.
Mitigation Recommendations
Patch status is not yet confirmed — check the vendor advisory for current remediation guidance. Since no official patch or mitigation level has been provided by Qualcomm, users should monitor for updates from the vendor. Until a fix is available, restricting local privileged access and avoiding untrusted input to vulnerable components may reduce risk.
CVE-2025-59613: CWE-121 Stack-based Buffer Overflow in Qualcomm, Inc. Snapdragon
Description
CVE-2025-59613 is a stack-based buffer overflow vulnerability in Qualcomm Snapdragon products caused by a memory corruption issue when the output buffer size is smaller than the input buffer size during a data copying operation. This vulnerability affects multiple Qualcomm Snapdragon and related platforms. The CVSS score is 6. 7, indicating a medium severity level with high impact on confidentiality, integrity, and availability. No official patch or remediation guidance is currently provided by the vendor, and no known exploits are reported in the wild.
CVSS v3.1
Score 6.7medium
Weaknesses
AI-Powered Analysis
Machine-generated threat intelligence
Technical Analysis
This vulnerability involves a stack-based buffer overflow (CWE-121) in Qualcomm Snapdragon products. It occurs due to improper handling of buffer sizes during data copying, where the output buffer is smaller than the input buffer, leading to memory corruption. Affected products include a broad range of Snapdragon platforms and related hardware components. The CVSS 3.1 vector indicates local attack vector with low attack complexity, requiring high privileges and no user interaction, impacting confidentiality, integrity, and availability. No patch or official remediation level has been disclosed by Qualcomm as of the published date.
Potential Impact
Successful exploitation of this vulnerability could lead to memory corruption, potentially allowing an attacker with high privileges and local access to compromise system confidentiality, integrity, and availability. Given the stack-based buffer overflow nature, this could result in arbitrary code execution or system crashes. However, no known exploits are currently reported in the wild.
Mitigation Recommendations
Patch status is not yet confirmed — check the vendor advisory for current remediation guidance. Since no official patch or mitigation level has been provided by Qualcomm, users should monitor for updates from the vendor. Until a fix is available, restricting local privileged access and avoiding untrusted input to vulnerable components may reduce risk.
Technical Details
- Data Version
- 5.2
- Assigner Short Name
- qualcomm
- Date Reserved
- 2025-09-18T03:19:23.202Z
- Cvss Version
- 3.1
- State
- PUBLISHED
- Remediation Level
- null
Threat ID: 6a1e08c0e29bf47b5051e1d9
Added to database: 6/1/2026, 10:33:36 PM
Last enriched: 6/1/2026, 11:03:41 PM
Last updated: 6/2/2026, 4:56:48 AM
Views: 7
Community Reviews
0 reviewsCrowdsource mitigation strategies, share intel context, and vote on the most helpful responses. Sign in to add your voice and help keep defenders ahead.
Want to contribute mitigation steps or threat intel context? Sign in or create an account to join the community discussion.
Actions
Updates to AI analysis require Pro Console access. Upgrade inside Console → Billing.
External Links
Need more coverage?
Upgrade to Pro Console for AI refresh and higher limits.
For incident response and remediation, OffSeq services can help resolve threats faster.
Latest Threats
Check if your credentials are on the dark web
Instant breach scanning across billions of leaked records. Free tier available.