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BLS signature

Overview

The groups for verification key and message and signature are configurable by using feature flag.
When using feature SignatureG1, signature and message are in G1, verification key in G2 which makes signing cheaper but verification expensive. When using feature SignatureG2, signature and message are in G2, verification key in G1 which makes signing expensive but verification cheaper.
The default feature is SignatureG2 to keep the verification fast.
2 variatons of creating multi-sigs are provided, one that requires proof of possesion to avoid rogue key attack and is fast. The other does not require proof of possesion but is slower. The former is present in multi_sig_fast.rs and latter in multi_sig_slow.rs. Both variations differ in signature and verkey aggregation only. The signing algorithms for each signer remains same. The verification algorithm remains same as well. Batch verification is supported as well. Threshold signatures can be created but the currently implemented key generation requires a trusted third party but key generation mechanisms without needing a trusted third party can be used without changing the signature aggregation or verkey aggregation mechanisms.

API

Generate parameters which will be used by all signers and verifiers in the system. To simulate a random oracle, a publicly known string is hashed to a generate group element

let params = Params::new("some publicly known string".as_bytes());

Generate keys

let mut rng = thread_rng();
let keypair = Keypair::new(&mut rng, &params);


let sk = keypair.sig_key;
let vk = keypair.ver_key;

Sign

let msg = "Message to sign";
let b = msg.as_bytes();
let sig = Signature::new(&b, &sk);

Verify

sig.verify(&b, &vk, &params)

Multi-Signature and Verification (Not vulnerable to rogue public key attack but slow)

Multi-Signature

let keypair1 = Keypair::new(None);
let keypair2 = Keypair::new(None);
let msg = "Small msg";
let b = m.as_bytes();
let sig1 = Signature::new(&b, &keypair1.sig_key);
let sig2 = Signature::new(&b, &keypair2.sig_key);
let sigs_and_ver_keys: Vec<(&Signature, &VerKey)> = vec![(&sig1, &keypair1.vk), (&sig2, &keypair2.vk)]
let asig = MultiSignature::from_sigs(sigs_and_ver_keys);

Multi-Signature Verification

let vks = vec![&keypair1.vk, &keypair2.vk]
MultiSignature::verify(&asig, &b, vks, &params)
        OR
let vks = vec![&keypair1.vk, &keypair2.vk]
let avk = AggregatedVerKey::from_verkeys(vks);
assert!(asig.verify(&b, &avk, &params));

Multi-Signature and Verification (vulnerable to rogue public key attack but fast)

Proof of possession of secret key (signature over verification key)

Generate proof of possession of signing key
let keypair = Keypair::new(None);
let sk = keypair.sig_key;
let vk = keypair.ver_key;

let proof = ProofOfPossession::generate(&vk, &sk);
Verify proof of possession of signing key
ProofOfPossession::verify(&proof, &vk, &params)

Multi-Signature

let keypair1 = Keypair::new(None);
let keypair2 = Keypair::new(None);
let msg = "Small msg";
let b = m.as_bytes();
let sig1 = Signature::new(&b, &keypair1.sig_key);
let sig2 = Signature::new(&b, &keypair2.sig_key);
let sigs: Vec<&Signature> = vec![&sig1, &sig2]
let asig = MultiSignatureFast::from_sigs(sigs);

Multi-Signature Verification

let vks = vec![&keypair1.vk, &keypair2.vk]
MultiSignatureFast::verify(&asig, &b, vks, &params)
        OR
let vks = vec![&keypair1.vk, &keypair2.vk]
let avk = AggregatedVerKeyFast::from_verkeys(vks);
assert!(asig.verify(&b, &avk, &params));

Batch Verification of signatures

Use Signature::batch_verify and Signature::batch_verify_distinct_msgs for batch verification. The former
does not assume messages are distinct but the latter does. For their speed comparison, run test batch_verify

Threshold signature

// To generate keys using a trusted third party
let threshold = 3;
let total = 5;
let params = Params::new("test".as_bytes());
let (_, signers) = trusted_party_SSS_keygen(threshold, total, &params);

// Once threshold no of signatures are present, use ThresholdScheme::aggregate_sigs
let threshold_sig = ThresholdScheme::aggregate_sigs(threshold, sigs);

// Once threshold no of keys are present, use ThresholdScheme::aggregate_vk
let threshold_vk = ThresholdScheme::aggregate_vk(
            threshold,
            signers
                .iter()
                .map(|s| (s.id, &s.verkey))
                .collect::<Vec<(usize, &VerKey)>>(),
        );

// Now the threshold sig can be verified like a regular signature
assert!(threshold_sig.verify(&msg, &threshold_vk, &params));

Serialization and Deserialization

let bs: Vec<u8> = vec![1, 5, 190, 200, ......];

let sk = SigKey::from_bytes(&bs);
let sk_bytes = sk.tobytes();

let vk = VerKey::from_bytes(&bs);
let vk_bytes = vk.tobytes();

let sig = Signature::from_bytes(&bs).unwrap();
let sig_bytes = sig.tobytes();

Similar for other objects like AggregatedVerKey, MultiSignature, AggregatedVerKeyFast, MultiSignatureFast