arnaucube
/
go-iden3-crypto
mirror of https://github.com/arnaucube/go-iden3-crypto.git


								package poseidon


								import (

									"errors"

									"math/big"

									"strconv"


									"github.com/iden3/go-iden3-crypto/constants"

									"github.com/iden3/go-iden3-crypto/ff"

									"github.com/iden3/go-iden3-crypto/utils"

									"golang.org/x/crypto/blake2b"

								)


								const SEED = "poseidon"

								const NROUNDSF = 8

								const NROUNDSP = 57

								const T = 6


								var constC []*ff.Element

								var constM [T][T]*ff.Element


								func Zero() *ff.Element {

									return ff.NewElement().SetZero()

								}


								func modQ(v *big.Int) {

									v.Mod(v, constants.Q)

								}


								func init() {

									constC = getPseudoRandom(SEED+"_constants", NROUNDSF+NROUNDSP)

									constM = getMDS()

								}


								func getPseudoRandom(seed string, n int) []*ff.Element {

									res := make([]*ff.Element, n)

									hash := blake2b.Sum256([]byte(seed))

									for i := 0; i < n; i++ {

										hashBigInt := big.NewInt(int64(0))

										res[i] = ff.NewElement().SetBigInt(utils.SetBigIntFromLEBytes(hashBigInt, hash[:]))

										hash = blake2b.Sum256(hash[:])

									}

									return res

								}


								func nonceToString(n int) string {

									r := strconv.Itoa(n)

									for len(r) < 4 {

										r = "0" + r

									}

									return r

								}


								// https://eprint.iacr.org/2019/458.pdf pag.8

								func getMDS() [T][T]*ff.Element {

									nonce := 0

									cauchyMatrix := getPseudoRandom(SEED+"_matrix_"+nonceToString(nonce), T*2)

									for !checkAllDifferent(cauchyMatrix) {

										nonce += 1

										cauchyMatrix = getPseudoRandom(SEED+"_matrix_"+nonceToString(nonce), T*2)

									}

									var m [T][T]*ff.Element

									for i := 0; i < T; i++ {

										for j := 0; j < T; j++ {

											m[i][j] = ff.NewElement().Sub(cauchyMatrix[i], cauchyMatrix[T+j])

											m[i][j].Inverse(m[i][j])

										}

									}

									return m

								}


								func checkAllDifferent(v []*ff.Element) bool {

									for i := 0; i < len(v); i++ {

										if v[i].Equal(ff.NewElement().SetZero()) {

											return false

										}

										for j := i + 1; j < len(v); j++ {

											if v[i].Equal(v[j]) {

												return false

											}

										}

									}

									return true

								}


								// ark computes Add-Round Key, from the paper https://eprint.iacr.org/2019/458.pdf

								func ark(state [T]*ff.Element, c *ff.Element) {

									for i := 0; i < T; i++ {

										state[i].Add(state[i], c)

									}

								}


								// cubic performs x^5 mod p

								// https://eprint.iacr.org/2019/458.pdf page 8

								// var five = big.NewInt(5)


								func cubic(a *ff.Element) {

									a.Exp(*a, 5)

								}


								// sbox https://eprint.iacr.org/2019/458.pdf page 6

								func sbox(state [T]*ff.Element, i int) {

									if (i < NROUNDSF/2) || (i >= NROUNDSF/2+NROUNDSP) {

										for j := 0; j < T; j++ {

											cubic(state[j])

										}

									} else {

										cubic(state[0])

									}

								}


								// mix returns [[matrix]] * [vector]

								func mix(state [T]*ff.Element, newState [T]*ff.Element, m [T][T]*ff.Element) {

									mul := Zero()

									for i := 0; i < T; i++ {

										newState[i].SetUint64(0)

										for j := 0; j < T; j++ {

											mul.Mul(m[i][j], state[j])

											newState[i].Add(newState[i], mul)

										}

									}

								}


								// PoseidonHash computes the Poseidon hash for the given inputs

								func PoseidonHash(inpBI [T]*big.Int) (*big.Int, error) {

									if !utils.CheckBigIntArrayInField(inpBI[:]) {

										return nil, errors.New("inputs values not inside Finite Field")

									}

									inp := utils.BigIntArrayToElementArray(inpBI[:])

									state := [T]*ff.Element{}

									for i := 0; i < T; i++ {

										state[i] = ff.NewElement().Set(inp[i])

									}


									// ARK --> SBox --> M, https://eprint.iacr.org/2019/458.pdf pag.5

									var newState [T]*ff.Element

									for i := 0; i < T; i++ {

										newState[i] = Zero()

									}

									for i := 0; i < NROUNDSF+NROUNDSP; i++ {

										ark(state, constC[i])

										sbox(state, i)

										mix(state, newState, constM)

										state, newState = newState, state

									}

									rE := state[0]

									r := big.NewInt(0)

									rE.ToBigIntRegular(r)

									return r, nil

								}


								// Hash performs the Poseidon hash over a ff.Element array

								// in chunks of 5 elements

								func Hash(arr []*big.Int) (*big.Int, error) {

									r := big.NewInt(int64(1))

									for i := 0; i < len(arr); i = i + T - 1 {

										var toHash [T]*big.Int

										j := 0

										for ; j < T-1; j++ {

											if i+j >= len(arr) {

												break

											}

											toHash[j] = arr[i+j]

										}

										toHash[j] = r

										j++

										for ; j < T; j++ {

											toHash[j] = big.NewInt(0)

										}


										ph, err := PoseidonHash(toHash)

										if err != nil {

											return nil, err

										}

										modQ(r.Add(r, ph))

									}


									return r, nil

								}


								// HashBytes hashes a msg byte slice by blocks of 31 bytes encoded as

								// little-endian

								func HashBytes(b []byte) (*big.Int, error) {

									n := 31

									bElems := make([]*big.Int, 0, len(b)/n+1)

									for i := 0; i < len(b)/n; i++ {

										v := big.NewInt(int64(0))

										utils.SetBigIntFromLEBytes(v, b[n*i:n*(i+1)])

										bElems = append(bElems, v)


									}

									if len(b)%n != 0 {

										v := big.NewInt(int64(0))

										utils.SetBigIntFromLEBytes(v, b[(len(b)/n)*n:])

										bElems = append(bElems, v)

									}

									return Hash(bElems)

								}