Emit and verify portable cryptographic evidence bundles, offline: Ed25519 + RFC 6962 Merkle + optional SD-JWT.
Project description
proofbundle
Emit and verify, fully offline, portable evidence that a piece of data was signed and anchored in a tamper-evident log — and optionally carries a selectively disclosable credential. Pure Python, no server, no daemon, one JSON file.
At a glance: proofbundle emit signs and anchors a payload; proofbundle verify checks one self-contained bundle.json with three offline cryptographic
checks → OK or FAILED. No network, no daemon, no own crypto. 50 tests.
Contents
- Why
- What it verifies
- How it fits together
- Install
- Quickstart
- Interoperability
- Bundle format
- Eval receipts
- Security notes and scope
- Roadmap
- Contributing
- License
Why
Cryptographic evidence today usually needs a running service to check it. Sigstore Rekor, Certificate Transparency and other transparency logs are excellent, but verifying an inclusion proof normally means talking to a log server or wiring up Go tooling. There is no small, portable, Python-native verifier that takes one self-contained file and answers a simple question offline:
Were these exact bytes signed by this key, and anchored under this Merkle root, yes or no.
proofbundle is that verifier — and, since v0.2, the matching emitter. It is
the verification half of a larger idea: turning a reproducible result (for
example an AI evaluation run) into a signed, third-party-verifiable, selectively
disclosable receipt. The verifier shipped first, small and correct, so it could
be reviewed and trusted on its own; emit_bundle now creates bundles that
verify_bundle accepts, fully offline on both sides.
What it verifies
A bundle is a single JSON document. proofbundle checks, offline:
- ed25519-signature — the payload was signed by the stated Ed25519 key
- merkle-inclusion — the payload is anchored under the stated tree root, using an RFC 6962 / RFC 9162 inclusion proof (the same primitive as Rekor and Certificate Transparency)
- sd-jwt (optional) — an embedded SD-JWT selective-disclosure credential is well formed, and if an issuer key is given, correctly issuer-signed
The verifier treats the payload as opaque bytes. It proves that these exact bytes were signed and anchored, not what they mean. That is on purpose: it keeps the trusted core tiny.
How it fits together
flowchart LR
P["payload bytes"]
P -->|"Ed25519 sign"| S["signature"]
P -->|"RFC 6962 anchor"| M["Merkle inclusion proof"]
SD["SD-JWT VC (optional)"] -.-> B
S --> B["bundle.json"]
M --> B
B --> V{{"proofbundle verify"}}
V --> C1["ed25519-signature"]
V --> C2["merkle-inclusion"]
V --> C3["sd-jwt (optional)"]
C1 --> R{"all checks pass?"}
C2 --> R
C3 --> R
R -->|yes| OK(["=> OK exit 0"])
R -->|no| FAIL(["=> FAILED exit 1"])
style V fill:#D6248A,stroke:#D6248A,color:#fff
style OK fill:#D6248A,stroke:#D6248A,color:#fff
style FAIL fill:#ef4444,stroke:#ef4444,color:#fff
Install
pip install proofbundle
Requires Python 3.9+ and cryptography. Signature
math is delegated to cryptography; this project never rolls its own crypto.
The Merkle and SD-JWT logic is pure standard library.
SD-JWT support is an optional extra (it adds no runtime dependency beyond the
core cryptography, so the trusted core stays lean):
pip install "proofbundle[sdjwt]"
Quickstart
# generate a real example bundle with throwaway keys
python examples/make_example.py
# verify it
proofbundle verify examples/example_bundle.json
Machine-readable output and a non-zero exit code on failure:
proofbundle verify --json bundle.json # exit 0 = ok, 1 = failed, 2 = malformed
Emit a bundle of your own (v0.2): sign a payload with a fresh key and anchor it, then verify it anywhere, offline.
proofbundle emit --payload-file result.json --new-key signer.key --out bundle.json
proofbundle verify bundle.json
Library use:
from proofbundle import verify_bundle
result = verify_bundle("bundle.json")
print(result.ok) # True / False
for check in result.checks:
print(check.name, check.ok, check.detail)
Verify a consistency proof between two log states directly:
from proofbundle import verify_consistency
verify_consistency(first_size, second_size, proof, first_root, second_root) # -> bool
Interoperability
proofbundle uses the same RFC 6962 / RFC 9162 Merkle primitive as
Sigstore Rekor and Certificate Transparency, so its
verify_inclusion checks a real proof from a live transparency log, not just its
own bundles. examples/rekor_interop.py verifies a
real Sigstore Rekor inclusion proof (a committed fixture, logIndex 25579 in a
4.16-million-entry tree) fully offline, and documents the field mapping from
the Rekor bundle and its C2SP tlog-checkpoint signed note to proofbundle's
merkle object. Correctness is also checked against external RFC 6962 test
vectors vendored from
transparency-dev/merkle (see
tests/fixtures/), plus Hypothesis property tests.
Bundle format (proofbundle/v0.1)
The format is specified normatively in SPEC.md (fields, encodings,
RFC 6962 hashing, verification order) with a machine-readable JSON Schema at
schemas/proofbundle_v0_1.schema.json.
{
"schema": "proofbundle/v0.1",
"payload_b64": "<the exact bytes that were signed and anchored>",
"signature": { "alg": "ed25519", "public_key_b64": "...", "sig_b64": "..." },
"merkle": {
"hash_alg": "sha256-rfc6962",
"leaf_index": 1,
"tree_size": 4,
"inclusion_proof_b64": ["...", "..."],
"root_b64": "..."
},
"sd_jwt_vc": { "compact": "<sd-jwt>", "issuer_public_key_b64": "..." }
}
sd_jwt_vc is optional. Base64 fields are standard base64; the SD-JWT compact
string uses base64url as per the spec.
Security notes and scope, stated honestly
The scope is deliberately narrow. It does exactly what it says and no more:
- Ed25519 signatures only, for both the payload and the optional SD-JWT issuer signature.
- SD-JWT: the SD-JWT core is now RFC 9901
(November 2025); this verifies that every presented disclosure is committed in the
issuer-signed payload, and the issuer signature (EdDSA) if a key is supplied. It
does not verify a Key Binding JWT, an X.509 or trust-list chain, status
lists, or
vcttype metadata. SD-JWT VC (the credential-type profile) is still an IETF draft (draft-ietf-oauth-sd-jwt-vc); full VC conformance is on the roadmap. - The verifier does not fetch anything. Trust anchors (the signer key, the expected root) are inputs you supply out of band.
- No custom cryptography. Ed25519 comes from
cryptography; Merkle hashing is RFC 6962.
If you find a correctness or security issue, please open an issue or see SECURITY.md.
Eval receipts
Since v0.4, proofbundle turns a reproducible eval run into a signed, Merkle-anchored
receipt that proves suite S comparator threshold T, passed while carrying only
salted commitments to the model and dataset identifiers — never the weights, the
data, or the plaintext names. A third party verifies the threshold was met, offline,
from one file, without ever seeing the model or the test set.
pip install "proofbundle[eval]" # emit side needs an RFC 8785 canonicalizer
proofbundle emit-eval --claim claim.json --out receipt.json --new-key signer.key
proofbundle verify receipt.json # a receipt is a normal bundle
proofbundle show-eval receipt.json # verify + print the claim (issuer-bound)
The claim format is specified in EVAL_CLAIM.md; the emit path uses
RFC 8785 JCS canonicalization, the verify path stays dependency-free. Honest scope:
a receipt proves passed against threshold and hides the model/dataset via salted
commitments — it does not prove the evaluation was well designed or that the score
itself is correct. Those are human judgements; what it removes is the need to simply
trust the number.
Roadmap
- v0.1 — the offline verifier plus a real example bundle.
- v0.2 — the emitter:
emit_bundle/proofbundle emit. - v0.3 — external RFC 6962 conformance vectors + real Sigstore Rekor interop.
- v0.4 (current release) — the eval-receipt emitter (
emit_eval_receipt/proofbundle emit-eval), salted commitments, issuer binding, file-based adapters. - v0.5 — selective disclosure of the exact score via SD-JWT issuance (the issuer reveals identifier + salt on demand) and full SD-JWT VC conformance.
Contributing
See CONTRIBUTING.md and the
Code of Conduct. Good first issues are labeled
good-first-issue.
The verifier core aims to stay small, dependency-light and correct.
License
MIT, see LICENSE.
proofbundle is part of b7n0de, Verified AI Work · b7n0de.com
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