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package mimc7
import ( "errors" "math/big"
"github.com/ethereum/go-ethereum/crypto" _constants "github.com/iden3/go-iden3-crypto/constants" "github.com/iden3/go-iden3-crypto/ff" "github.com/iden3/go-iden3-crypto/utils" )
// SEED defines the seed used to constants
const SEED = "mimc"
var constants = generateConstantsData()
type constantsData struct { seedHash *big.Int iv *big.Int nRounds int cts []*ff.Element }
func generateConstantsData() constantsData { var constants constantsData
constants.seedHash = new(big.Int).SetBytes(crypto.Keccak256([]byte(SEED))) c := new(big.Int).SetBytes(crypto.Keccak256([]byte(SEED + "_iv"))) constants.iv = new(big.Int).Mod(c, _constants.Q)
constants.nRounds = 91 cts := getConstants(SEED, constants.nRounds) constants.cts = cts return constants }
func getConstants(seed string, nRounds int) []*ff.Element { cts := make([]*ff.Element, nRounds) cts[0] = ff.NewElement() c := new(big.Int).SetBytes(crypto.Keccak256([]byte(SEED))) for i := 1; i < nRounds; i++ { c = new(big.Int).SetBytes(crypto.Keccak256(c.Bytes()))
n := new(big.Int).Mod(c, _constants.Q) cts[i] = ff.NewElement().SetBigInt(n) } return cts }
// MIMC7HashGeneric performs the MIMC7 hash over a *big.Int, in a generic way,
// where it can be specified the Finite Field over R, and the number of rounds
func MIMC7HashGeneric(xInBI, kBI *big.Int, nRounds int) *big.Int { //nolint:golint
xIn := ff.NewElement().SetBigInt(xInBI) k := ff.NewElement().SetBigInt(kBI)
cts := getConstants(SEED, nRounds) var r *ff.Element for i := 0; i < nRounds; i++ { var t *ff.Element if i == 0 { t = ff.NewElement().Add(xIn, k) } else { t = ff.NewElement().Add(ff.NewElement().Add(r, k), cts[i]) } t2 := ff.NewElement().Square(t) t4 := ff.NewElement().Square(t2) r = ff.NewElement().Mul(ff.NewElement().Mul(t4, t2), t) } rE := ff.NewElement().Add(r, k)
res := big.NewInt(0) rE.ToBigIntRegular(res) return res }
// HashGeneric performs the MIMC7 hash over a *big.Int array, in a generic way,
// where it can be specified the Finite Field over R, and the number of rounds
func HashGeneric(iv *big.Int, arr []*big.Int, nRounds int) (*big.Int, error) { if !utils.CheckBigIntArrayInField(arr) { return nil, errors.New("inputs values not inside Finite Field") } r := iv var err error for i := 0; i < len(arr); i++ { r = MIMC7HashGeneric(r, arr[i], nRounds) if err != nil { return r, err } } return r, nil }
// MIMC7Hash performs the MIMC7 hash over a *big.Int, using the Finite Field
// over R and the number of rounds setted in the `constants` variable
func MIMC7Hash(xInBI, kBI *big.Int) *big.Int { //nolint:golint
xIn := ff.NewElement().SetBigInt(xInBI) k := ff.NewElement().SetBigInt(kBI)
var r *ff.Element for i := 0; i < constants.nRounds; i++ { var t *ff.Element if i == 0 { t = ff.NewElement().Add(xIn, k) } else { t = ff.NewElement().Add(ff.NewElement().Add(r, k), constants.cts[i]) } t2 := ff.NewElement().Square(t) t4 := ff.NewElement().Square(t2) r = ff.NewElement().Mul(ff.NewElement().Mul(t4, t2), t) } rE := ff.NewElement().Add(r, k)
res := big.NewInt(0) rE.ToBigIntRegular(res) return res }
// Hash performs the MIMC7 hash over a *big.Int array
func Hash(arr []*big.Int, key *big.Int) (*big.Int, error) { if !utils.CheckBigIntArrayInField(arr) { return nil, errors.New("inputs values not inside Finite Field") } var r *big.Int if key == nil { r = big.NewInt(0) } else { r = key } for i := 0; i < len(arr); i++ { r = new(big.Int).Add( new(big.Int).Add( r, arr[i], ), MIMC7Hash(arr[i], r)) r = new(big.Int).Mod(r, _constants.Q) } return r, nil }
// HashBytes hashes a msg byte slice by blocks of 31 bytes encoded as
// little-endian
func HashBytes(b []byte) *big.Int { n := 31 bElems := make([]*big.Int, 0, len(b)/n+1) for i := 0; i < len(b)/n; i++ { v := new(big.Int) utils.SetBigIntFromLEBytes(v, b[n*i:n*(i+1)]) bElems = append(bElems, v) } if len(b)%n != 0 { v := new(big.Int) utils.SetBigIntFromLEBytes(v, b[(len(b)/n)*n:]) bElems = append(bElems, v) } h, err := Hash(bElems, nil) if err != nil { panic(err) } return h }
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