@octokit/request has a Regular Expression in fetchWrapper that Leads to ReDoS Vulnerability Due to Catastrophic Backtracking

Description

Summary

The regular expression /<([^>]+)>; rel="deprecation"/ used to match the link header in HTTP responses is vulnerable to a ReDoS (Regular Expression Denial of Service) attack. This vulnerability arises due to the unbounded nature of the regex's matching behavior, which can lead to catastrophic backtracking when processing specially crafted input. An attacker could exploit this flaw by sending a malicious link header, resulting in excessive CPU usage and potentially causing the server to become unresponsive, impacting service availability.

Details

The vulnerability resides in the regular expression /<([^>]+)>; rel="deprecation"/, which is used to match the link header in HTTP responses. This regular expression captures content between angle brackets (<>) followed by ; rel="deprecation". However, the pattern is vulnerable to ReDoS (Regular Expression Denial of Service) attacks due to its susceptibility to catastrophic backtracking when processing malicious input.
An attacker can exploit this vulnerability by sending a specially crafted link header designed to trigger excessive backtracking. For example, the following headers:

fakeHeaders.set("link", "<".repeat(100000) + ">");
fakeHeaders.set("deprecation", "true");

The crafted link header consists of 100,000 consecutive < characters followed by a closing >. This input forces the regular expression engine to backtrack extensively in an attempt to match the pattern. As a result, the server can experience a significant increase in CPU usage, which may lead to denial of service, making the server unresponsive or even causing it to crash under load.
The issue is present in the following code:

const matches = responseHeaders.link && responseHeaders.link.match(/<([^>]+)>; rel="deprecation"/);

In this scenario, the link header value triggers the regex to perform excessive backtracking, resulting in resource exhaustion and potentially causing the service to become unavailable.

PoC

The gist of PoC.js
1. run npm i @octokit/request
2. run 'node poc.js'
result:
3. then the program will stuck forever with high CPU usage

import { request } from "@octokit/request";
const originalFetch = globalThis.fetch;
globalThis.fetch = async (url, options) => {
  const response = await originalFetch(url, options);
  const fakeHeaders = new Headers(response.headers);
  fakeHeaders.set("link", "<".repeat(100000) + ">");
  fakeHeaders.set("deprecation", "true");
  return new Response(response.body, {
    status: response.status,
    statusText: response.statusText,
    headers: fakeHeaders
  });
};
request("GET /repos/octocat/hello-world")
  .then(response => {
    // console.log("[+] Response received:", response);
  })
  .catch(error => {
    // console.error("[-] Error:", error);
  });
// globalThis.fetch = originalFetch;

Impact

This is a Denial of Service (DoS) vulnerability caused by a ReDoS (Regular Expression Denial of Service) flaw. The vulnerability allows an attacker to craft a malicious link header that exploits the inefficient backtracking behavior of the regular expression used in the code.
The primary impact is the potential for server resource exhaustion, specifically high CPU usage, which can cause the server to become unresponsive or even crash when processing the malicious request. This affects the availability of the service, leading to downtime or degraded performance.
The vulnerability impacts any system that uses this specific regular expression to process link headers in HTTP responses. This can include:
* Web applications or APIs that rely on parsing headers for deprecation information.
* Users interacting with the affected service, as they may experience delays or outages if the server becomes overwhelmed.
* Service providers who may face disruption in operations or performance degradation due to this flaw.
If left unpatched, the vulnerability can be exploited by any unauthenticated user who is able to send a specially crafted HTTP request with a malicious link header, making it a low-barrier attack that could be exploited by anyone.

Basic information

Type
reviewed
Severity
medium
Advisory on GitHub
Open advisory ↗
Repository advisory
Open repository advisory ↗
Source code
Browse source ↗
Published (advisory)
2025-02-14 18:00:18 UTC
Updated
2026-01-16 17:29:37 UTC
GitHub reviewed
2025-02-14 18:00:18 UTC
NVD published
2025-02-14

EPSS Score

Score Percentile
0.08% 23.89%

CVSS Scores

Base score Version Severity Vector
5.3 3.1
CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:N/I:N/A:L Click to expand
Attack vector (AV:N)
Could be attacked over the internet or any normal routed network—not just someone sitting at the machine.
Attack complexity (AC:L)
Once they can reach the bug, pulling it off is straightforward—no weird race conditions or rare setup.
Privileges required (PR:N)
No account or special rights needed—anonymous or random user is enough.
User interaction (UI:N)
Nobody has to click “OK” or open a trap file; it can work without a victim helping.
Scope (S:U)
Damage stays in the same “trust bubble” as the broken component—no big spill into unrelated systems.
Confidentiality (C:N)
Doesn’t really leak secrets in a meaningful way.
Integrity (I:N)
Data isn’t meaningfully altered or forged.
Availability (A:L)
Might cause slowdowns, glitches, or partial disruption—not a full brick.

Identifiers

CWEs

CWE id Name
CWE-1333 Inefficient Regular Expression Complexity

Credits

  • guiyi-he (reporter)
  • MaikelvandenHurk-TomTom (analyst)

Affected packages (2)

Vulnerable version ranges and first patched releases as published by GitHub.

Ecosystem Package Vulnerable range First patched Vulnerable functions
npm @octokit/request >= 9.0.0-beta.1, < 9.2.1 9.2.1
npm @octokit/request >= 1.0.0, < 8.4.1 8.4.1

References

cvelogic Threat Intelligence