arnaucube
/
hermez-node
mirror of https://github.com/arnaucube/hermez-node.git


								package common


								import (

									"bytes"

									"encoding/binary"

									"fmt"

									"math/big"


									ethCommon "github.com/ethereum/go-ethereum/common"

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

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

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

								)


								const (

									// NLEAFELEMS is the number of elements for a leaf

									NLEAFELEMS = 4

									// maxNonceValue is the maximum value that the Account.Nonce can have (40 bits: maxNonceValue=2**40-1)

									maxNonceValue = 0xffffffffff

									// maxBalanceBytes is the maximum bytes that can use the Account.Balance *big.Int

									maxBalanceBytes = 24

								)


								// Account is a struct that gives information of the holdings of an address and a specific token. Is the data structure that generates the Value stored in the leaf of the MerkleTree

								type Account struct {

									TokenID   TokenID

									Nonce     Nonce    // max of 40 bits used

									Balance   *big.Int // max of 192 bits used

									PublicKey *babyjub.PublicKey

									EthAddr   ethCommon.Address

								}


								func (a *Account) String() string {

									buf := bytes.NewBufferString("")

									fmt.Fprintf(buf, "PublicKey: %s..., ", a.PublicKey.String()[:10])

									fmt.Fprintf(buf, "EthAddr: %s..., ", a.EthAddr.String()[:10])

									fmt.Fprintf(buf, "TokenID: %v, ", a.TokenID)

									fmt.Fprintf(buf, "Nonce: %d, ", a.Nonce)

									fmt.Fprintf(buf, "Balance: %s, ", a.Balance.String())

									return buf.String()

								}


								// Bytes returns the bytes representing the Account, in a way that each BigInt is represented by 32 bytes, in spite of the BigInt could be represented in less bytes (due a small big.Int), so in this way each BigInt is always 32 bytes and can be automatically parsed from a byte array.

								func (a *Account) Bytes() ([32 * NLEAFELEMS]byte, error) {

									var b [32 * NLEAFELEMS]byte


									if a.Nonce > maxNonceValue {

										return b, fmt.Errorf("%s Nonce", ErrNumOverflow)

									}

									if len(a.Balance.Bytes()) > maxBalanceBytes {

										return b, fmt.Errorf("%s Balance", ErrNumOverflow)

									}


									nonceBytes, err := a.Nonce.Bytes()

									if err != nil {

										return b, err

									}


									copy(b[0:4], a.TokenID.Bytes())

									copy(b[4:9], nonceBytes[:])

									if babyjub.PointCoordSign(a.PublicKey.X) {

										b[10] = 1

									}

									copy(b[32:64], SwapEndianness(a.Balance.Bytes())) // SwapEndianness, as big.Int uses BigEndian

									copy(b[64:96], SwapEndianness(a.PublicKey.Y.Bytes()))

									copy(b[96:116], a.EthAddr.Bytes())


									return b, nil

								}


								// BigInts returns the [5]*big.Int, where each *big.Int is inside the Finite Field

								func (a *Account) BigInts() ([NLEAFELEMS]*big.Int, error) {

									e := [NLEAFELEMS]*big.Int{}


									b, err := a.Bytes()

									if err != nil {

										return e, err

									}


									e[0] = new(big.Int).SetBytes(SwapEndianness(b[0:32]))

									e[1] = new(big.Int).SetBytes(SwapEndianness(b[32:64]))

									e[2] = new(big.Int).SetBytes(SwapEndianness(b[64:96]))

									e[3] = new(big.Int).SetBytes(SwapEndianness(b[96:128]))


									return e, nil

								}


								// HashValue returns the value of the Account, which is the Poseidon hash of its *big.Int representation

								func (a *Account) HashValue() (*big.Int, error) {

									b0 := big.NewInt(0)

									toHash := []*big.Int{b0, b0, b0, b0, b0, b0}

									lBI, err := a.BigInts()

									if err != nil {

										return nil, err

									}

									copy(toHash[:], lBI[:])


									v, err := poseidon.Hash(toHash)

									return v, err

								}


								// AccountFromBigInts returns a Account from a [5]*big.Int

								func AccountFromBigInts(e [NLEAFELEMS]*big.Int) (*Account, error) {

									if !cryptoUtils.CheckBigIntArrayInField(e[:]) {

										return nil, ErrNotInFF

									}

									var b [32 * NLEAFELEMS]byte

									copy(b[0:32], SwapEndianness(e[0].Bytes())) // SwapEndianness, as big.Int uses BigEndian

									copy(b[32:64], SwapEndianness(e[1].Bytes()))

									copy(b[64:96], SwapEndianness(e[2].Bytes()))

									copy(b[96:128], SwapEndianness(e[3].Bytes()))


									return AccountFromBytes(b)

								}


								// AccountFromBytes returns a Account from a byte array

								func AccountFromBytes(b [32 * NLEAFELEMS]byte) (*Account, error) {

									tokenID := binary.LittleEndian.Uint32(b[0:4])

									var nonceBytes5 [5]byte

									copy(nonceBytes5[:], b[4:9])

									nonce := NonceFromBytes(nonceBytes5)

									sign := b[10] == 1

									balance := new(big.Int).SetBytes(SwapEndianness(b[32:56])) // b[32:56], as Balance is 192 bits (24 bytes)

									if !bytes.Equal(b[56:64], []byte{0, 0, 0, 0, 0, 0, 0, 0}) {

										return nil, fmt.Errorf("%s Balance", ErrNumOverflow)

									}

									ay := new(big.Int).SetBytes(SwapEndianness(b[64:96]))

									pkPoint, err := babyjub.PointFromSignAndY(sign, ay)

									if err != nil {

										return nil, err

									}

									publicKey := babyjub.PublicKey(*pkPoint)

									ethAddr := ethCommon.BytesToAddress(b[96:116])


									if !cryptoUtils.CheckBigIntInField(balance) {

										return nil, ErrNotInFF

									}

									if !cryptoUtils.CheckBigIntInField(ay) {

										return nil, ErrNotInFF

									}


									a := Account{

										TokenID:   TokenID(tokenID),

										Nonce:     nonce,

										Balance:   balance,

										PublicKey: &publicKey,

										EthAddr:   ethAddr,

									}

									return &a, nil

								}