The open source ecosystem has come very far and proven to be resilient. And while trust will remain a crucial part of any ecosystem, we urgently need to improve our tools and practices when it comes to sandboxing 3rd party code.
Almost every time I bump into uv in project work, the touted benefit is that it makes it easier to run projects with different python versions and avoiding clashes of 3rd dependencies - basically pyenv + venv + speed.
That sends a cold shiver down my spine, because it tells me that people are running all these different tools on their host machine with zero sandboxing.
One (amongst other) big problem with current software supply chain is that a lot of tools and dependencies are downloaded (eg from GitHub releases) without any validation that it was published by the expected author. That's why I'm working on an open source, auditable, accountless, self hostable, multi sig file authentication solution. The multi sig approach can protect against axios-like breaches. If this is of interest to you, take a look at https://asfaload.com/
Artifact attestation are indeed another solution based on https://www.sigstore.dev/ . I still think Asfaload is a good alternative, making different choices than sigstore:
- Asfaload is accountless(keys are identity) while sigstore relies on openid connect[1], which will tie most user to a mega corp
- Asfaload ' backend is a public git, making it easily auditable
- Asfaload will be easy to self host, meaning you can easily deploy it internally
- Asfaload is multisig, meaning event if GitHub account is breached, malevolent artifacts can be detected
- validating a download is transparant to the user, which only requires the download url, contrary to sigstore [2]
So Asfaload is not the only solution, but I think it has some unique characteristics that make it worth evaluating.
Yes, that's why I aim to make the checks transparant to the user. You only need to provide the download url for the authentication to take place. I really need to record a small demo of it.
Overall I believe this is the right approach and something like this is what's required. I can't see any code or your product though so I'm not sure what to make of it.
With the recent incidents affecting Trivy and litellm, I find it extremely useful to have a guide on what to do to secure your release process.
The advices here are really solid and actionable, and I would suggest any team to read them, and implement them if possible.
The scary part with supply chain security is that we are only as secure as our dependencies, and if the platform you’re using has non secure defaults, the efforts to secure the full chain are that much higher.
Almost every time I bump into uv in project work, the touted benefit is that it makes it easier to run projects with different python versions and avoiding clashes of 3rd dependencies - basically pyenv + venv + speed.
That sends a cold shiver down my spine, because it tells me that people are running all these different tools on their host machine with zero sandboxing.
[0] https://docs.github.com/en/actions/how-tos/secure-your-work/...
- Asfaload is accountless(keys are identity) while sigstore relies on openid connect[1], which will tie most user to a mega corp
- Asfaload ' backend is a public git, making it easily auditable
- Asfaload will be easy to self host, meaning you can easily deploy it internally
- Asfaload is multisig, meaning event if GitHub account is breached, malevolent artifacts can be detected
- validating a download is transparant to the user, which only requires the download url, contrary to sigstore [2]
So Asfaload is not the only solution, but I think it has some unique characteristics that make it worth evaluating.
1:https://docs.sigstore.dev/about/security/
2: https://docs.sigstore.dev/cosign/verifying/verify/
All the axios releases had attestations except for the compromised one. npm installed it anyway.
There's also a spec of the approach at https://github.com/asfaload/spec
I'm looking for early testers, let me know if you are interested to test it !
The advices here are really solid and actionable, and I would suggest any team to read them, and implement them if possible.
The scary part with supply chain security is that we are only as secure as our dependencies, and if the platform you’re using has non secure defaults, the efforts to secure the full chain are that much higher.
https://github.com/backnotprop/oss-security-audit