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crypto: obtain a FIPS 140-3 validation #69536
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(Emoji vote if this was helpful or unhelpful; more detailed feedback welcome in this discussion.) |
I was just about to ask a question regarding Ed25519 usage in the other ticket when this was posted. Exciting news! |
Yes, we'll post a full list of algorithms once we are close to finalizing it, but it approximates to "everything that's NIST approved and not frozen, deprecated, or legacy-use". |
How this is going to be achieved? Build tags? |
Probably something more explicit, such as a
Yes. |
Change https://go.dev/cl/614495 mentions this issue: |
Background
FIPS 140 is a set of U.S. Government requirements for cryptographic modules. A number of companies must comply with them, for example as part of a broader FedRAMP compliance posture. (If that's not you, you can ignore this. Run!)
Current solutions for Go program compliance are based on cgo, and replace some of the crypto packages internals with FIPS 140 validated non-memory safe modules. These solutions come with varying levels of support (for example the Go+BoringCrypto solution is not officially supported and its compliance profile is left to the user to assess), introduce memory unsafe code, sometimes delay Go version updates, can have performance issues, affect the developer experience (for example inhibiting cross-compilation), and their compliance profile is debatable. As Go is adopted more and more in regulated settings, this is going to affect Go's adoption and developer experience.
The Go FIPS module
We plan to pursue a FIPS 140-3 validation for the NIST approved components of the Go standard library. The resulting module will be distributed as part of the standard library under the same license as the rest of the Go project, and will be transparently used by the relevant standard library packages with no API changes (wherever possible).
Users will be able to select the module to use at build time, for example choosing between a certified version, a version in the In Process list, or the latest unvalidated update. Moreover, we'll provide some mechanism for applications to disable the use of non-approved algorithms and modes at runtime.
Further planning details
The goal is shipping the module as part of Go 1.24, assuming our validation strategy is successful. This is the first time as far as we know that a Go library (or any non-Java memory safe library) is validated.
Unless completely unavoidable, we'll not compromise on security to achieve compliance. For example, we will inject random bytes from the kernel as additional input per SP 800-90Ar1, Section 8.7.2, every time we use the mandatory DRBG, and we'll use a dedicated DRBG for ECDSA to implement a "hedged" nonce generation equivalent to what crypto/ecdsa does now (safer than both NIST options of fully random and deterministic). Also, we'll try to add minimal complexity to regular non-FIPS builds.
NIST approved packages will be prioritized in being moved to the standard library (#65269) to get validated along the rest.
We'll test at least on Linux on amd64 and arm64. Further details will be available later in the process. (If you have specific requirements, please inquire about becoming a sponsor, see below.)
We aim to deprecate and hopefully remove Go+BoringCrypto once the module lands.
After the initial validation, we plan to revalidate at least every year, and every time a CVE affects the module with no standard library-side mitigation.
All work will be done on Gerrit, tracked in the issue tracker, and the testing harnesses will be committed in the tree.
This is an umbrella issue to track related issues and CLs, and to provide updates to the community. We'll file separate proposals for the exact build-time settings, for the FIPS-only policy mechanism, for any new APIs, and for any behavior changes.
We have started working with a CMVP testing laboratory, and contracted @cpu to help. This is an industry-sponsored effort that I (@FiloSottile) am leading as an independent maintainer, not a Google or Go team project (although it is coordinated with the Go team and @golang/security). We're funded by a few major stakeholders, and we're available to accept sponsorships and offer commercial support (reach out to [email protected] if interested).
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