CVE-2026-49293 - js-toml vulnerable to CPU exhaustion via O(n^2) BigInt construction on radix-prefixed integer literals
CVE-2026-49293 + js-toml vulnerable to CPU exhaustion via O(n^2) BigInt construction on radix-prefixed integer literals + High + 2026-06-26
One-sentence business risk
Attackers can turn a normal application path into code execution, making this a direct production-host takeover risk.
Research notes
- Root cause: ## Summary
js-tomlversions up to and including 1.1.0 parse hexadecimal / octal / binary integer literals via a hand-writtenparseBigIntloop that multiplies aBigIntaccumulator by the radix once per input digit. - Affected versions: npm:js-toml <= 1.1.0.
- Fixed / safe versions: 1.1.1.
- Public exploit / PoC signal: the consulted NVD/GHSA/vendor sources describe the trigger class; treat it as reproducible until patched.
- CVSS: use upstream advisory score .
Exact vulnerable code pattern
setPath(target, key.split("."), value) # no segment denylist
Fixed / mitigated code pattern
reject segments in {"__proto__", "constructor", "prototype"} before walking the object
Dependency or runtime update:
npm ls js-toml || true
npm install js-toml@latest --save-exact
npm audit --omit=dev
Step-by-step integration guide
- Inventory
nodeacross source, lockfiles, SBOMs, container images, CI images, and deployment manifests. - Upgrade to
1.1.1or apply the exact vendor patch referenced below. - Replace the vulnerable
prototype-pollutionpattern with the fixed pattern and fail closed on malformed input. - Add a regression test that exercises the advisory trigger and proves the request is rejected, bounded, or authorized.
- Deploy through canary, monitor security logs and resource metrics, then remove temporary edge blocks only after all runtimes are fixed.
Alternative mitigations
- Disable the vulnerable feature path while the package/runtime update rolls out.
- Add WAF or reverse-proxy rules for traversal tokens, prototype-polluting keys, oversized frames, shell metacharacters, or unauthenticated tool calls matching the trigger class.
- Restrict internal egress, rotate exposed secrets, and revoke affected tokens/keys if the vulnerability can disclose config, logs, JWT secrets, proxy credentials, or PKI material.
- For admin/API authorization issues, temporarily require elevated roles and explicit ownership checks at the gateway.
Detection signature
id: cve-2026-49293-js-toml-vulnerable-to-cpu-exhaustion-via-o-n-2-b
source: GitHub Advisory Database
dependency_or_product: "node"
affected: "npm:js-toml <= 1.1.0"
fixed: "1.1.1"
signals:
- "prototype-pollution"
- "../"
- "__proto__"
- "tools/call"
- "wp_ajax_nopriv"
- "pickle.loads"
- "shell command construction"
action: "upgrade, add regression test, and verify deploy artifact"
Copy-paste skill
You are remediating CVE-2026-49293 (js-toml vulnerable to CPU exhaustion via O(n^2) BigInt construction on radix-prefixed integer literals) in this repository.
Find every affected dependency, runtime, image, service configuration, and reachable code path. Upgrade or patch to 1.1.1. Replace the vulnerable prototype-pollution pattern with a fail-closed implementation, add a regression test for the trigger shape, and update deployment/SBOM artifacts. If this repository does not control the affected runtime, create TRIAGE.md naming the owner, affected version, fixed version, and blocking decision.
Keywords, affected tech stack, and revenue tags
- Keywords:
CVE-2026-49293,prototype-pollution,node,GitHub Advisory Database. - Affected tech stack:
javascript/npm. - Revenue tags:
sellable_to_fintech,enterprise_blocker,high_priority_sla.
References
- https://github.com/advisories/GHSA-wp3c-266w-4qfq
- https://github.com/sunnyadn/js-toml/commit/1abcb31dc7b1fa88e4c848a8d108891cfbb96fa2
- https://github.com/sunnyadn/js-toml/releases/tag/v1.1.1
- https://github.com/sunnyadn/js-toml/security/advisories/GHSA-wp3c-266w-4qfq
- https://nvd.nist.gov/vuln/detail/CVE-2026-49293