-
Notifications
You must be signed in to change notification settings - Fork 602
New issue
Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.
By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.
Already on GitHub? Sign in to your account
Security model / TUF #75
Comments
Hi Rust community, I am one of the developers working on the The Update Framework (TUF). If any In addition to the documentation provided by Tony Arcieri (@tarcieri), you may find our integration proposal for the Python Package Index (PyPI) interesting. The PEP 458: http://legacy.python.org/dev/peps/pep-0458/ |
Thanks for the offer @vladimir-v-diaz! I'll be sure to reach out to you if we need help :) For now I'm going to be focusing a large amount of effort towards Rust's standard library, so this may be postponed for awhile, but I'd love to see something like this implemented! |
Some proposals in rust-lang/cargo#1281. Is there any news for this issue? It would be good to have a trusted crates.io-index for Rust 1.0. |
I've had this tab open for months. If someone else spearheads I can work on On Sunday, February 8, 2015, Mickaël Salaün [email protected]
|
@l0kod I have done no work on this but would be interested in collaborating. I helped write a partial implementation of TUF for RubyGems, but we never managed to carry it over the finish line. |
Is this being worked on? I've recently been interested in verifiable provenance of software artefacts, and would be much more comfortable if Rust and Crates.io had a better story here. I'd be willing to help with drafting an RFC drawing on PEP 458 and PEP 480 mentioned above. This is not an area of expertise for me, so I'll need to consult others, but it sounds like some with more experience are interested in helping. |
@kamalmarhubi to my knowledge this is not actively being worked on unfortunately |
@kamalmarhubi if you're interested in working on this, the creators of TUF are at least pretty responsive on their mailing list: |
@kamalmarhubi We'd be happy to collaborate with you on an RFC draft for the Rust community. Did we meet at PyCon 2015? As @tarcieri suggested, our mailing list would be a good place to start a discussion. @JustinCappos @Dachshund and I are available to work with you on this draft. Note: The Python proposal was recently updated and is available here |
@tarcieri thanks for the link! @vladimir-v-diaz I was definitely at PyCon, but I'm terrible at names and faces. To help narrow things down: I was session chair for a couple of sessions, and spent a lot of time in the green room. I am sad I missed the poster on this topic though! What's the best venue to get in touch about this topic? This bug? TUF mailing list? Somewhere else? |
@kamalmarhubi I'd recommend the TUF mailing list as a starting place. This is something I'm interested in working on, but I'd also like to help finish up applying TUF to RubyGems before I'd have time to start working on a TUF implementation for Rust. I'm familiar with both TUF and Rust though, as well as Cargo, and just generally am way too overinterested in cryptography and infosec so at the very least I can help consult / review code if you'd like to do the implementation work! 😉 |
@tarcieri sounds good. I'll send an intro email there soon enough. :-) |
Any progress on this? I suggest some immediate changes:
As long as these (or equivalent) measures aren't taken, every developer and user of rust-based software out there is at high risk. |
@genodeftest perhaps we need to back up and look at the actual threats:
So your problem is that All that said, as far as I know, beyond that But I think you're slightly overstating the severity of the issue, and making a bunch of recommendations that are half-measures that wouldn't significantly improve the security of the system but would certainly harm the cargo user experience. To go through these:
TUF implements what is effectively a non-X.509 PKI specifically designed for the purposes of authorizing developers to sign certain packages in the system, and without the added undue complexity needed to handle non-codesigning use cases. In a TUF PKI, someone like Mozilla would run a developer CA. Developers would provide some form of authentication along with a public key to be signed. The operators of the CA can then sign the developer keys offline (using e.g. an HSM, Yubikey, etc) and publish the signed keys via crates.io.
I find that #1 is impractical and doesn't typically end up working out the way people would like it to. #3 doesn't add much effective security, and has a poor user experience, constantly prompting the user whenever there's any breakage in key continuity, and providing no additional context as to what happened. So, my vote is for a centrally managed PKI, and more specifically for TUF. As one last note: TUF is a hybrid system which allows "unclaimed" packages to be centrally signed by the packaging system, and "claimed" packages to be signed by one or more developers. This means under TUF, all packages are signed in some form. Even packages published before the addition of the signing system can be retroactively signed. I think unless you find some way to solve this problem, a package signing system has little value. @genodeftest I sense some urgency on your part, but this is a problem I'd really rather see done right as opposed to rushed out the door just to have "something". Unless it solves the problem of signing every crate, and doing so in a way that does not require every developer to get a cryptographic key to publish crates (impossible already as crates have already been published without associated cryptographic keys), and it does not require the user make lots of decisions about which keys to trust or how to bootstrap the system trust model, I don't think it's helpful. So those are my two requirements for a good package signing system:
|
I forgot one point: even if a git repo is fetched via HTTPS, how can we be sure that nobody put other commits into a git repo? Seems like TUF has some solution to that too. But it isn't implemented yet.
You could sign those git commits afterwards. That's how many people do releases: Put a git tag up, create an archive and sign the archive. If the crates index could do the signing, it must make sure that only the intended author can submit this archive/checksum/whatever. Sorry, I was kinda overreacting, possibly because I didn't get the features yet implemented. I think this issue is urgent though.
+1
But do some authentication against the author to do that. |
I think this can be mitigated by blocking or warning on plaintext git repos. Perhaps they can be blocked by default, with an option to allow crazy people to use plaintext git. Anyway, I think that should be handled as a separate issue than this one.
I think in general handling signatures with git repos will be difficult. A commit hash for a dependency can be included in the signed metadata for a given crate, but that only helps the case where a signed crate references another crate over git. For the case of If "TUF for Rust" used GPG to implement signatures and had a keyring of anyone who's ever published a crate to crates.io, you could validate signed commits or tags against that GPG keyring, but without knowing specifically which key to trust the best thing you can do is tell the user you found some key in the keyring, and then ask the user to make a decision about whether it's the correct one. I think these systems which rely on user choice for security don't really add a lot of value.
Exactly how much identity verification will happen is really up to whoever runs the developer CA (just gonna say Mozilla from here on out). I expect they will want the CA to be completely automated. From what I can tell, OAuth2 with GitHub is the only source of authentication / authorization that crates.io presently uses. It'd be nice if authorizing a given public key for a particular crates.io account had some degree of authentication beyond that. crates.io seems to pull in email addresses from GitHub after you first link an account, so it could at least be a combination of being authorized with OAuth2 and clicking a particular link in your email. I expect Mozilla lacks the time and resources to do any sort of non-automated identity verification beyond that. |
Crates on crates.io referencing other crates in git repos shouldn't be a problem anyway as crates.io requires that all dependencies of a crate must be on crates.io as well. If there was a way for me to assign a key to my crates.io account and sign all my crates with my key when publishing them, I'd definitely be in favor of that. |
@retep998 I haven't actually tried this, but can you publish a crate that has a git dependency? |
@tarcieri Nope, it will reject it. |
@retep998 if that's the case, it simplifies the security model to static files only, which is a great property |
Another (very conservative) approach would be to deprecate version wildcards. This would also improve stability. |
@ticki We're already deprecating version wildcards on crates.io! |
Potentially-useful trivia: Git can sign commits with X509 certificates. |
if commits to the index were signed, it would add a lot of integrity to this situation until a full solution is implemented |
@xloem FWIW, that was the goal of this work, which would initially implement index signing only, but leave the door open to a full TUF integration later: |
Even basic git commit or tag signatures would really help here. A stop-gap measure is needed. |
If you take a look at that proposal, it's using git commit signatures. However, the problem with git commit signatures is how you manage the keys used to verify them. That is the other problem addressed by that proposal. |
It's true the proposal is better. I infer there are things blocking it. Even imperfectly managed signature keys used for basic no-frills git commit or tag signatures would significantly reduce the attack surface here, and be familiar for users to verify. It's been seven years, what's possible to push through? What's simple and small? |
I think the biggest thing holding back these proposals is a lack of people willing to do the work. That said, there is some interest from the sigstore community in doing the work:
IMO, these proposals are as simple and small as they can be to provide a meaningful solution to the problem. |
Sigstore developers presented a "The state of Signing" across various language and packaging ecosystems. This work is tracked by OpenSSF "Digital Identity" WG. Perhaps helpful, as it covers various trust models and formats. |
Sounds great- thanks! But re the google doc The state of Signing, I get a permission error: "You need access". |
Sorry - the link was in WG meeting notes doc (under 2021-03-17 ), i believe g/ossf-wg-developer-identity membership is needed. I wrongly assumed it's fully public |
Can confirm I was able to access the State of Signing slides after joining |
Sorry, I did not want to look at all these comments posted in this thread, but: |
@L0g4n my understanding is that there are simply too many possible designs, trade-offs etc so it's difficult to agree on something and the discussion stalled. Lately, I've been seriously considering writing something simple and independent, so that we can get at least something and iterate from that. |
Co-authored-by: renovate[bot] <29139614+renovate[bot]@users.noreply.github.com>
Co-authored-by: renovate[bot] <29139614+renovate[bot]@users.noreply.github.com>
Co-authored-by: Renovate Bot <[email protected]>
FYI, here's an IRLO post on using Sigstore to sign crates: https://internals.rust-lang.org/t/pre-rfc-using-sigstore-for-signing-and-verifying-crates/18115 |
Okay, thanks. We will take a look!
FYI: we're working with the SigStore folks with the aim of supporting
Fulcio signatures natively in TUF. The intent from both sides is that
integrating TUF and then using Fulcio signatures will become the preferred
way for a registry to integrate SigStore.
…On Tue, Jan 10, 2023 at 9:01 AM Tony Arcieri ***@***.***> wrote:
FYI, here's an IRLO post on using Sigstore to sign crates:
https://internals.rust-lang.org/t/pre-rfc-using-sigstore-for-signing-and-verifying-crates/18115
—
Reply to this email directly, view it on GitHub
<#75 (comment)>,
or unsubscribe
<https://github.com/notifications/unsubscribe-auth/AAGRODYC7KZWOIVBZDTP6TLWRVTRXANCNFSM4AX6WBNQ>
.
You are receiving this because you were mentioned.Message ID:
***@***.***>
|
There's now an RFC for signing crates with Sigstore which also mentions TUF: rust-lang/rfcs#3403 |
RFC for TUF here: rust-lang/rfcs#3724 |
The fun thing about packaging systems with central package directories is the central package directories have this annoying tendency to be compromised. There have been a few such notable compromises in recent history, such as RubyGems and npm. Fortunately no serious problems resulted in either of these attacks they were both detected early, but a more sinister attack could go undetected, poisoning the package repository and spreading malware.
One way to stop this is to move the source of authority for the integrity of packages from the package repository to the developers of packages. However, managing keys is hard, and many people simply won't want to do this. Furthermore, you have to worry about how to retrofit the existing packages into this model if your packaging system didn't launch with developer-managed keys from day one (which Cargo didn't)
There's a system that solves all these problems called The Update Framework (TUF), collaboratively developed by both Tor developers and academics:
http://theupdateframework.com/
The Update Framework allows developers to opt-in to managing their own keys. High profile packages can be signed by developers: specifically, TUF supports "threshold signatures" so k / n developers are needed to countersign a package in order for it to count as released. However, not everyone is forced to manage their own keys: people who don't want to can have their packages signed by the package repository instead.
TUF secures developer keys by having developers who own "unclaimed" packages request to associate some signing keys with them. A system administrator then periodically (once a week or other tolerable time interval) signs these developer keys with an offline key (or keys, TUF uses threshold signatures everywhere). At this point, these packages move from "unclaimed" to "claimed", and become what TUF calls a "delegated target": the developers, not the packaging system, become the source of truth for that particular package.
For more information, I suggest you read their paper "Survivable Key Compromise In Software Update Systems":
http://freehaven.net/~arma/tuf-ccs2010.pdf
I think a system like TUF can easily be retrofitted to Cargo as it exists today. There are a few changes I might recommend before you try to add TUF, but I think you're off to a good start.
However, if you did want to use something like TUF, it does figure into the overall AuthZ model of the system. There are a number of outstanding AuthZ issues / suggestions like #48 and #58. If you do want to integrate a system like TUF where developers manage their own keys, it will definitely influence whatever AuthZ model you adopt, because TUF moves things like authorization and integrity partly to the client.
I worked on adding TUF to RubyGems at one point and liked it, although we never finished. The people behind it worked on adding it to PyPI, and were very helpful with our efforts to add it to RubyGems.
The text was updated successfully, but these errors were encountered: