zolfa
/
tendermint


								//go:build !libsecp256k1

								// +build !libsecp256k1


								package secp256k1


								import (

									"math/big"


									secp256k1 "github.com/btcsuite/btcd/btcec"


									"github.com/tendermint/tendermint/crypto"

								)


								// used to reject malleable signatures

								// see:

								//  - https://github.com/ethereum/go-ethereum/blob/f9401ae011ddf7f8d2d95020b7446c17f8d98dc1/crypto/signature_nocgo.go#L90-L93

								//  - https://github.com/ethereum/go-ethereum/blob/f9401ae011ddf7f8d2d95020b7446c17f8d98dc1/crypto/crypto.go#L39

								var secp256k1halfN = new(big.Int).Rsh(secp256k1.S256().N, 1)


								// Sign creates an ECDSA signature on curve Secp256k1, using SHA256 on the msg.

								// The returned signature will be of the form R || S (in lower-S form).

								func (privKey PrivKey) Sign(msg []byte) ([]byte, error) {

									priv, _ := secp256k1.PrivKeyFromBytes(secp256k1.S256(), privKey)


									sig, err := priv.Sign(crypto.Sha256(msg))

									if err != nil {

										return nil, err

									}


									sigBytes := serializeSig(sig)

									return sigBytes, nil

								}


								// VerifySignature verifies a signature of the form R || S.

								// It rejects signatures which are not in lower-S form.

								func (pubKey PubKey) VerifySignature(msg []byte, sigStr []byte) bool {

									if len(sigStr) != 64 {

										return false

									}


									pub, err := secp256k1.ParsePubKey(pubKey, secp256k1.S256())

									if err != nil {

										return false

									}


									// parse the signature:

									signature := signatureFromBytes(sigStr)

									// Reject malleable signatures. libsecp256k1 does this check but btcec doesn't.

									// see: https://github.com/ethereum/go-ethereum/blob/f9401ae011ddf7f8d2d95020b7446c17f8d98dc1/crypto/signature_nocgo.go#L90-L93

									if signature.S.Cmp(secp256k1halfN) > 0 {

										return false

									}


									return signature.Verify(crypto.Sha256(msg), pub)

								}


								// Read Signature struct from R || S. Caller needs to ensure

								// that len(sigStr) == 64.

								func signatureFromBytes(sigStr []byte) *secp256k1.Signature {

									return &secp256k1.Signature{

										R: new(big.Int).SetBytes(sigStr[:32]),

										S: new(big.Int).SetBytes(sigStr[32:64]),

									}

								}


								// Serialize signature to R || S.

								// R, S are padded to 32 bytes respectively.

								func serializeSig(sig *secp256k1.Signature) []byte {

									rBytes := sig.R.Bytes()

									sBytes := sig.S.Bytes()

									sigBytes := make([]byte, 64)

									// 0 pad the byte arrays from the left if they aren't big enough.

									copy(sigBytes[32-len(rBytes):32], rBytes)

									copy(sigBytes[64-len(sBytes):64], sBytes)

									return sigBytes

								}