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RAVEN (Risk Analysis and Vulnerability Enumeration for CI/CD)

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Raven

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Raven - CI/CD Security Analyzer

RAVEN (Risk Analysis and Vulnerability Enumeration for CI/CD) is a powerful security tool designed to perform massive scans for GitHub Actions CI workflows and digest the discovered data into a Neo4j database. Developed and maintained by the Cycode research team.

With Raven, we were able to identify and report security vulnerabilities in some of the most popular repositories hosted on GitHub, including:

We listed all vulnerabilities discovered using Raven in the tool Hall of Fame.

What is Raven

The tool provides the following capabilities to scan and analyze potential CI/CD vulnerabilities:

  • Downloader: You can download workflows and actions necessary for analysis. Workflows can be downloaded either for multiple accounts (user/organization) simultaneously or for public GitHub repositories, sorted by star count. Performing this step is a prerequisite for analyzing the workflows.
  • 📊 Indexer: Digesting the downloaded data into a graph-based Neo4j database. This process involves establishing relationships between workflows, actions, jobs, steps, etc.
  • 📚 Query Library: We created a library of pre-defined queries based on research conducted by the community.
  • Reporter: Raven has a simple way of reporting suspicious findings. As an example, it can be incorporated into the CI process for pull requests and run there.

Possible usages for Raven:

  • Scanner for your own organization's security
  • Scanning specified organizations for bug bounty purposes
  • Scan everything and report issues found to save the internet
  • Research and learning purposes

This tool provides a reliable and scalable solution for CI/CD security analysis, enabling users to query bad configurations and gain valuable insights into their codebase's security posture.

Why Raven

In the past year, Cycode Labs conducted extensive research on fundamental security issues of CI/CD systems. We examined the depths of many systems, thousands of projects, and several configurations. The conclusion is clear – the model in which security is delegated to developers has failed. This has been proven several times in our previous content:

  • A simple injection scenario exposed dozens of public repositories, including popular open-source projects.
  • We found that one of the most popular frontend frameworks was vulnerable to the innovative method of branch injection attack.
  • We detailed a completely different attack vector, 3rd party integration risks, the most popular project on GitHub, and thousands more.
  • Finally, the Microsoft 365 UI framework, with more than 300 million users, is vulnerable to an additional new threat – an artifact poisoning attack.
  • Additionally, we found, reported, and disclosed hundreds of other vulnerabilities privately.

Each of the vulnerabilities above has unique characteristics, making it nearly impossible for developers to stay up to date with the latest security trends. Unfortunately, each vulnerability shares a commonality – each exploitation can impact millions of victims.

It was for these reasons that Raven was created, a framework for CI/CD security analysis workflows (and GitHub Actions as the first use case). In our focus, we examined complex scenarios where each issue isn't a threat on its own, but when combined, they pose a severe threat.

Setup && Run

To get started with Raven, follow these installation instructions:

Step 1: Install the Raven package

pip3 install raven-cycode

Step 2: Setup a local Redis server and Neo4j database

docker run -d --name raven-neo4j -p7474:7474 -p7687:7687 --env NEO4J_AUTH=neo4j/123456789 --volume raven-neo4j:/data neo4j:5.12
docker run -d --name raven-redis -p6379:6379 --volume raven-redis:/data redis:7.2.1

Another way to setup the environment is by running our provided docker compose file:

git clone https://github.com/CycodeLabs/raven.git
cd raven
make setup

Step 3: Run Raven Downloader

Account mode:

raven download account --token $GITHUB_TOKEN --account-name RavenDemo

Crawl mode:

raven download crawl --token $GITHUB_TOKEN --min-stars 1000

Step 4: Run Raven Indexer

raven index

Step 5: Inspect the results through the reporter

raven report --format raw

At this point, it is possible to inspect the data in the Neo4j database, by connecting http://localhost:7474/browser/.

Prerequisites

  • Python 3.9+
  • Docker Compose v2.1.0+
  • Docker Engine v1.13.0+

Infrastructure

Raven is using two primary docker containers: Redis and Neo4j. make setup will run a docker compose command to prepare that environment.

Infrastructure

Usage

The tool contains three main functionalities, download and index and report.

Download

Download Account Repositories

usage: raven download account [-h] --token TOKEN [--debug] [--redis-host REDIS_HOST] [--redis-port REDIS_PORT] [--clean-redis] (--account-name ACCOUNT_NAME | --personal)

options:
  -h, --help            show this help message and exit
  --token TOKEN         GITHUB_TOKEN to download data from Github API (Needed for effective rate-limiting)
  --debug               Whether to print debug statements, default: False
  --redis-host REDIS_HOST
                        Redis host, default: localhost
  --redis-port REDIS_PORT
                        Redis port, default: 6379
  --clean-redis, -cr    Whether to clean cache in the redis, default: False
  --account-name ACCOUNT_NAME
                        Account name for downloading the workflows, can be used multiple times
  --personal            Download repositories owned by the authenticated user

Download Public Repositories

usage: raven download crawl [-h] --token TOKEN [--debug] [--redis-host REDIS_HOST] [--redis-port REDIS_PORT] [--clean-redis] [--max-stars MAX_STARS] [--min-stars MIN_STARS]

options:
  -h, --help            show this help message and exit
  --token TOKEN         GITHUB_TOKEN to download data from Github API (Needed for effective rate-limiting)
  --debug               Whether to print debug statements, default: False
  --redis-host REDIS_HOST
                        Redis host, default: localhost
  --redis-port REDIS_PORT
                        Redis port, default: 6379
  --clean-redis, -cr    Whether to clean cache in the redis, default: False
  --max-stars MAX_STARS
                        Maximum number of stars for a repository
  --min-stars MIN_STARS
                        Minimum number of stars for a repository, default: 1000

Index

usage: raven index [-h] [--redis-host REDIS_HOST] [--redis-port REDIS_PORT] [--clean-redis] [--neo4j-uri NEO4J_URI] [--neo4j-user NEO4J_USER] [--neo4j-pass NEO4J_PASS]
                   [--clean-neo4j] [--debug]

options:
  -h, --help            show this help message and exit
  --redis-host REDIS_HOST
                        Redis host, default: localhost
  --redis-port REDIS_PORT
                        Redis port, default: 6379
  --clean-redis, -cr    Whether to clean cache in the redis, default: False
  --neo4j-uri NEO4J_URI
                        Neo4j URI endpoint, default: neo4j://localhost:7687
  --neo4j-user NEO4J_USER
                        Neo4j username, default: neo4j
  --neo4j-pass NEO4J_PASS
                        Neo4j password, default: 123456789
  --clean-neo4j, -cn    Whether to clean cache, and index from scratch, default: False
  --debug               Whether to print debug statements, default: False

Report

usage: raven report [-h] [--redis-host REDIS_HOST] [--redis-port REDIS_PORT] [--clean-redis] [--neo4j-uri NEO4J_URI] [--neo4j-user NEO4J_USER]
                    [--neo4j-pass NEO4J_PASS] [--clean-neo4j]
                    [--tag {injection,unauthenticated,fixed,priv-esc,supply-chain,best-practice,endoflife,reconnaissance}]
                    [--severity {info,low,medium,high,critical}] [--query_ids RQ-1,..,RQ-16] [--queries-path QUERIES_PATH] [--format {raw,json}]
                    {slack} ...

positional arguments:
  {slack}
    slack               Send report to slack channel

options:
  -h, --help            show this help message and exit
  --redis-host REDIS_HOST
                        Redis host, default: localhost
  --redis-port REDIS_PORT
                        Redis port, default: 6379
  --clean-redis, -cr    Whether to clean cache in the redis, default: False
  --neo4j-uri NEO4J_URI
                        Neo4j URI endpoint, default: neo4j://localhost:7687
  --neo4j-user NEO4J_USER
                        Neo4j username, default: neo4j
  --neo4j-pass NEO4J_PASS
                        Neo4j password, default: 123456789
  --clean-neo4j, -cn    Whether to clean cache, and index from scratch, default: False
  --tag {injection,unauthenticated,fixed,priv-esc,supply-chain,best-practice,endoflife,reconnaissance}, -t {injection,unauthenticated,fixed,priv-esc,supply-chain,best-practice,endoflife,reconnaissance}
                        Filter queries with specific tag
  --severity {info,low,medium,high,critical}, -s {info,low,medium,high,critical}
                        Filter queries by severity level (default: info)
  --query_ids RQ-1,..,RQ-16, -id RQ-1,..,RQ-16
                        Filter queries by query ids (example: RQ-2,RQ-8)
  --queries-path QUERIES_PATH, -dp QUERIES_PATH
                        Queries folder (default: library)
  --format {raw,json}, -f {raw,json}
                        Report format (default: raw)

Examples

Retrieve all workflows and actions associated with any account (user/organization).

raven download account --token $GITHUB_TOKEN --account-name microsoft --account-name google --debug

Scrape all publicly accessible GitHub repositories.

raven download crawl --token $GITHUB_TOKEN --min-stars 100 --max-stars 1000 --debug

After finishing the download process or if interrupted using Ctrl+C, proceed to index all workflows and actions into the Neo4j database.

raven index --debug

Now, we can generate a report using our query library.

raven report --severity high --tag injection --tag unauthenticated

Rate Limiting

For effective rate limiting, you should supply a Github token. For authenticated users, the next rate limiting applies:

  • Code search - 30 queries per minute
  • Any other API - 5000 per hour

Research Knowledge Base

Current Limitations

  • It is possible to run external action by referencing a folder with a Dockerfile (without action.yml). Currently, this behavior isn't supported.
  • It is possible to run external action by referencing a docker container through the docker://... URL. Currently, this behavior isn't supported.
  • It is possible to run an action by referencing it locally. This creates complex behavior, as it may come from a different repository that was checked out previously. The current behavior is trying to find it in the existing repository.
  • We aren't modeling the entire workflow structure. If additional fields are needed, please submit a pull request according to the contribution guidelines.

Future Research Work

  • Implementation of taint analysis. Example use case - a user can pass a pull request title (which is controllable parameter) to an action parameter that is named data. That action parameter may be used in a run command: - run: echo ${{ inputs.data }}, which creates a path for a code execution.
  • Expand the research for findings of harmful misuse of GITHUB_ENV. This may utilize the previous taint analysis as well.
  • Research whether actions/github-script has an interesting threat landscape. If it is, it can be modeled in the graph.

License

Apache License 2.0

Hall of Fame - Vulnerabilities Found and Disclosed Using Raven

Name Stars Fix Additional Sources
freeCodeCamp/freeCodeCamp CodeSee package update, 0871341 Blog
Significant-Gravitas/AutoGPT cdae7f8
tiangolo/fastapi 9efab1b LinkedIn
withastro/astro 650fb1a Blog
statelyai/xstate CodeSee package update Blog
bazelbuild/bazel 3561f07 Blog
docker-slim/docker-slim CodeSee package update Blog
microsoft/fluentui 2ea6195 Blog
tiangolo/sqlmodel cf36b2d LinkedIn
tiangolo/typer 0c106a1 LinkedIn
juspay/hyperswitch a052f9a
autogluon/autogluon ca18fa9
apache/camel 02e512a
ossf/scorecard c9f582b
Ombi-app/Ombi 5cc0d77 Blog
wireapp/wire-ios 9d39d6c Blog
cloudscape-design/components 2921d2d
DynamoDS/Dynamo Disabled workflow Blog
fauna/faunadb-js ee6f53f Blog
apache/incubator-kie-kogito-runtimes 53c18e5 Blog

Want more of CI/CD Security, AppSec, and ASPM? Check out Cycode

If you liked Raven, you would probably love our Cycode platform that offers even more enhanced capabilities for visibility, prioritization, and remediation of vulnerabilities across the software delivery.

If you are interested in a robust, research-driven Pipeline Security, Application Security, or ASPM solution, don't hesitate to get in touch with us or request a demo using the form https://cycode.com/book-a-demo/.

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