Qualcomm Overlapping Buffer Copy Memory Corruption
CVE-2025-47394 Published on January 6, 2026
Buffer Copy Without Checking Size of Input in DSP Service
Memory corruption when copying overlapping buffers during memory operations due to incorrect offset calculations.
Vulnerability Analysis
CVE-2025-47394 is exploitable with local system access, and requires small amount of user privileges. This vulnerability is considered to have a low attack complexity. The potential impact of an exploit of this vulnerability is considered to be very high.
Weakness Type
What is a Classic Buffer Overflow Vulnerability?
The program copies an input buffer to an output buffer without verifying that the size of the input buffer is less than the size of the output buffer, leading to a buffer overflow. A buffer overflow condition exists when a program attempts to put more data in a buffer than it can hold, or when a program attempts to put data in a memory area outside of the boundaries of a buffer. The simplest type of error, and the most common cause of buffer overflows, is the "classic" case in which the program copies the buffer without restricting how much is copied. Other variants exist, but the existence of a classic overflow strongly suggests that the programmer is not considering even the most basic of security protections.
CVE-2025-47394 has been classified to as a Classic Buffer Overflow vulnerability or weakness.
Products Associated with CVE-2025-47394
stack.watch emails you whenever new vulnerabilities are published in Qualcomm Snapdragon or Google Android. Just hit a watch button to start following.
Affected Versions
Qualcomm, Inc. Snapdragon:- Version FastConnect 6200 is affected.
- Version FastConnect 6700 is affected.
- Version FastConnect 6900 is affected.
- Version FastConnect 7800 is affected.
- Version QCS610 is affected.
- Version QMP1000 is affected.
- Version Qualcomm Video Collaboration VC1 Platform is affected.
- Version Qualcomm Video Collaboration VC3 Platform is affected.
- Version SG6150 is affected.
- Version SG6150P is affected.
- Version SM6475 is affected.
- Version SM7435 is affected.
- Version SM8735 is affected.
- Version SM8750 is affected.
- Version SM8750P is affected.
- Version Snapdragon 4 Gen 2 Mobile Platform is affected.
- Version Snapdragon 6 Gen 1 Mobile Platform is affected.
- Version Snapdragon W5+ Gen 1 Wearable Platform is affected.
- Version SW5100 is affected.
- Version SW5100P is affected.
- Version SXR2330P is affected.
- Version SXR2350P is affected.
- Version WCD9370 is affected.
- Version WCD9375 is affected.
- Version WCD9378 is affected.
- Version WCD9380 is affected.
- Version WCD9385 is affected.
- Version WCD9395 is affected.
- Version WCN3950 is affected.
- Version WCN3980 is affected.
- Version WCN3988 is affected.
- Version WCN6755 is affected.
- Version WCN7750 is affected.
- Version WCN7860 is affected.
- Version WCN7861 is affected.
- Version WCN7880 is affected.
- Version WCN7881 is affected.
- Version WSA8810 is affected.
- Version WSA8815 is affected.
- Version WSA8830 is affected.
- Version WSA8832 is affected.
- Version WSA8835 is affected.
- Version WSA8840 is affected.
- Version WSA8845 is affected.
- Version WSA8845H is affected.
Exploit Probability
EPSS (Exploit Prediction Scoring System) scores estimate the probability that a vulnerability will be exploited in the wild within the next 30 days. The percentile shows you how this score compares to all other vulnerabilities.