Malicious contributorsContributors with malicious intent or compromised accounts can introduce potential backdoors into code. Code reviews help mitigate against such attacks. With the new
Branch-Protection check, developers can verify that the project enforces mandatory code review from another developer before code is committed. Currently, this check can only be run by a repository admin due to GitHub API limitations. For a third-party repository, use the less informative
Code-Review check instead.
Vulnerable code
Despite best efforts by developers and peer reviews, vulnerable code can enter source control and remain undetected. That’s why it's important to enable continuous fuzzing and static code analysis to catch bugs early in the development lifecycle. We have added checks to detect if a project uses
Fuzzing and
SAST tools as part of their CI/CD system.
Build system compromiseA common CI/CD solution used by GitHub projects is
GitHub Actions. A danger with these action workflows is that they may handle untrusted user input. Meaning, an attacker can craft a malicious pull request to gain access to the privileged GitHub token, and with it the ability to
push malicious code to the repo without review. To mitigate this risk, Scorecard's
Token-Permissions prevention check now verifies that the GitHub workflows follow the principle of least privilege by making GitHub tokens read-only by default.
Bad dependenciesAny software is as secure as its weakest dependency. This may sound obvious, but the first step to knowing our dependencies is simply to declare them... and have our dependencies declare them too. Once we have this provenance information, we can assess the risks of our software and mitigate those risks. Unfortunately, there are several widely-used anti-patterns that break this provenance principle. The first of these anti-patterns is checked-in binaries -- as there's no way to easily verify or check the contents of the binary in the project. Scorecards provides
Binary-Artifacts check for testing this.
Another anti-pattern is the use of curl | bash in scripts which dynamically pulls dependencies. Cryptographic hashes let us pin our dependencies to a known value: if this value ever changes, the build system will detect it and refuse to build. Pinning dependencies is useful everywhere we have dependencies: not just during compilation, but also in Dockerfiles, CI/CD workflows, etc. Scorecards checks for these anti-patterns with the
Frozen-Deps check. This check is helpful for mitigating against malicious dependency attacks such as the recent
CodeCov attack.
Even with hash-pinning, hashes need to be updated once in a while when dependencies patch vulnerabilities. Tools like
dependabot or
renovatebot give us the opportunity to review and update the hashes. The Scorecards
Automated-Dependency-Update check verifies that developers rely on such tools to update their dependencies.
It is important to know vulnerabilities in a project before uptaking it as a dependency. Scorecards can provide this information via the new
Vulnerabilities check, without the need to subscribe to a vulnerability alert system.
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