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Pre-hashing signature messages #322
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@ivokub @yelhousni Does this make sense? Does it address what #312 is about? If we reach consensus here I think we can skip the Wednesday meeting. 😁 |
I'm not sure I follow completely. Shouldn't the interface be instead: type Signer interface {
Sign(msg []byte, hFunc hash.Hash) ([]byte, error)
SignNum(msg *big.Int) ([]byte, error)
} Otherwise I do not know what to do with the hash in |
Following up from #313 (comment), I would propose instead changing the functions for generating/unmarshalling keys for making prehashing hash functions/Fiat-Shamir hash function etc. a property of the key instead. So, instead of having an interface for generating the key as: func New(ss twistededwards.ID, r io.Reader) (signature.Signer, error) (or corresponding alternatives in ECDSA, Schnorr, BLS), we instead have type EdDSAKeyOption func(opt *config) error
func WithRandomnessSource(r io.Reader) EdDSAKeyOption
func WithPreHashing(hFunc hash.Hash) EdDSAKeyOption
func New(ss twistededwards.ID, opts... EdDSAKeyOption) (sign.Signer, error) and then the interface for type Signer interface {
Sign(msg []byte) ([]byte, error)
Verify(msg, sig []byte) (bool, error) In this case, user wouldn't have to figure out at every call what are the additional parameters (or even worse, taking the untrusted input from input, see JWT None problems) I would avoid When marshalling/unmarshalling, we can either embed the configuration into the corresponding On that note, I guess it would also be good to have import `github.com/consensys/gnark-crypto/ecc/bn254/ecdsa`
func main() {
var pk PrivateKey
err := pk.SetBytes(b)
if err != nil {
panic(err)
}
pk.Sign(msg)
} we can have import `github.com/consensys/gnark-crypto/signature/ecdsa`
func main() {
pk, err := ecdsa.Unmarshal(ecc.BN254, b)
if err != nil {
panic(err)
}
pk.Sign(msg)
} |
I think that your proposition is what makes most of sense from all discussed options ✚1️⃣ |
@ivokub I agree with your argument for key options vs many parameters, and I'm starting to doubt the necessity of exposing a "sign custom string" function in the first place. I was anticipating a lot of use cases where the user would sign a message like "hi this is an EDDSA signature" which with the new MiMC patch would result in an error with a sufficiently long message. The best way to handle these imo is to hash the message to fr first. Now if there are many such use-cases (which I'm not sure of) I think it would be nice to have Sign/Verify functions that take care of that initial hashing, and if not we should make it clear that the message should always be an fr element. That's why I thought a What are your thoughts? Do we really need to make signing customs strings easy and what is the best generic way to receive an fr element input (without using the type |
So I think there are several cases for the message we want to cover:
As an example of the different uses (currently doing it for ECDSA but should hold for other schemes) // input is an arbitrary length byte-string. By default we use SHA2-256+modreduce
pk, err := ecdsa.New(ecc.SECP256K1)
msg := []byte("this is a very long byte string which doesn't necessarily fit into scalar field")
sig, err := pk.Sign(msg)
// doesn't err
// input is an arbitrary length byte-string, but we use snark-friendly mimc
pk, err := ecdsa.New(ecc.SECP256K1, WithMessageHash(mimc.MiMC))
msg := []byte("this is a very long byte string which doesn't necessarily fit into scalar field")
sig, err := pk.Sign(msg)
// doesn't err
// input is a short arbitrary byte string, with no message hashing.
pk, err := ecdsa.New(ecc.SECP256K1, WithRawMessage())
msg := []byte("foo")
sig, err := pk.Sign(msg) // internally left pad msg with enough zeros so that can `var el fr.Element; el.FromBytes(paddedMsg)`
// doesn't err
// but if the input without message hash is long then doesn't work :(
pk, err := ecdsa.New(ecc.SECP256K1, WithMessage())
msg := []byte("this is a very long byte string which doesn't necessarily fit into scalar field")
sig, err := pk.Sign(msg)
// errs, error "can not unmarshal message into fr.Element"
// if we have already prehashed the message
pk, err := ecdsa.New(ecc.SECP256K1, WithPrehashed())
var el fr.Element
el.SetRandom()
msg := el.Bytes()
sig, err := pk.Sign(msg)
// doesn't err, input is a canonical representation of fr.Element
// but if we feed arbitrary bytes into prehashed instance, doesn't work
pk, err := ecdsa.New(ecc.SECP256K1, WithPrehashed())
msg := []byte("short")
sig, err := pk.Sign(msg)
// errs, error "message is not canonical representation of fr.Element" |
I think it would be best to modify the
Signer
interface as follows:Sign
takes in long messages such as human-readable strings. It then performs a hash-to-fr on the message, and passes it on toSignNum
withnil
ashFunc
. Just like the current logic forSign
, whenhFunc==nil
, the input is considered pre-hashed and not hashed again. The hash used for hashing to Fr is a conventional one, but that would not create an issue on the SNARK side because any human-readable string can be reasonably expected to be known at SNARK compile time.The text was updated successfully, but these errors were encountered: