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CVE-2025-62495

· Published 16/10/2025 16:15 · Modified 16/10/2025 16:15

Labels: CVE-2025-62495 2025-10-16CVE-2025-62495CWE-191[email protected]

Essential information

Published
16/10/2025 16:15
Modified
16/10/2025 16:15
Author
Creator
CVSS
7.1 HIGH (v3) 7.1 HIGH (v4.0)
CISA KEV
No
CWE
CVSS vector

CVSS metrics

Description

An integer overflow vulnerability exists in the QuickJS regular expression engine (libregexp) due to an inconsistent representation of the bytecode buffer size. * The regular expression bytecode is stored in a DynBuf structure, which correctly uses a $\text{size}\_\text{t}$ (an unsigned type, typically 64-bit) for its size member. * However, several functions, such as re_emit_op_u32 and other internal parsing routines, incorrectly cast or store this DynBuf $\text{size}\_\text{t}$ value into a signed int (typically 32-bit). * When a large or complex regular expression (such as those generated by a recursive pattern in a Proof-of-Concept) causes the bytecode size to exceed $2^{31}$ bytes (the maximum positive value for a signed 32-bit integer), the size value wraps around, resulting in a negative integer when stored in the int variable (Integer Overflow). * This negative value is subsequently used in offset calculations. For example, within functions like re_parse_disjunction, the negative size is used to compute an offset (pos) for patching a jump instruction. * This negative offset is then incorrectly added to the buffer pointer (s->byte\_code.buf + pos), leading to an out-of-bounds write on the first line of the snippet below: put_u32(s->byte_code.buf + pos, len);

NVD status

Status
Received — CVE has been recently published to the CVE List and has been received by the NVD.
Source
[email protected]
NVD
View on NVD

Affected products (CPE)

ProductCPE
quickjs / libregexp cpe:2.3:a:quickjs:libregexp:*:*:*:*:*:*:*:*

References