package common
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import (
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"bytes"
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"encoding/binary"
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"fmt"
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"math/big"
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"strconv"
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ethCommon "github.com/ethereum/go-ethereum/common"
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"github.com/hermeznetwork/tracerr"
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"github.com/iden3/go-iden3-crypto/babyjub"
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"github.com/iden3/go-iden3-crypto/poseidon"
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cryptoUtils "github.com/iden3/go-iden3-crypto/utils"
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)
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const (
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// NLeafElems is the number of elements for a leaf
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NLeafElems = 4
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// maxNonceValue is the maximum value that the Account.Nonce can have
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// (40 bits: maxNonceValue=2**40-1)
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maxNonceValue = 0xffffffffff
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// maxBalanceBytes is the maximum bytes that can use the
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// Account.Balance *big.Int
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maxBalanceBytes = 24
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// IdxBytesLen idx bytes
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IdxBytesLen = 6
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// maxIdxValue is the maximum value that Idx can have (48 bits:
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// maxIdxValue=2**48-1)
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maxIdxValue = 0xffffffffffff
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// UserThreshold determines the threshold from the User Idxs can be
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UserThreshold = 256
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// IdxUserThreshold is a Idx type value that determines the threshold
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// from the User Idxs can be
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IdxUserThreshold = Idx(UserThreshold)
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)
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var (
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// FFAddr is used to check if an ethereum address is 0xff..ff
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FFAddr = ethCommon.HexToAddress("0xffffffffffffffffffffffffffffffffffffffff")
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// EmptyAddr is used to check if an ethereum address is 0
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EmptyAddr = ethCommon.HexToAddress("0x0000000000000000000000000000000000000000")
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)
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// Idx represents the account Index in the MerkleTree
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type Idx uint64
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// String returns a string representation of the Idx
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func (idx Idx) String() string {
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return strconv.Itoa(int(idx))
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}
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// Bytes returns a byte array representing the Idx
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func (idx Idx) Bytes() ([6]byte, error) {
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if idx > maxIdxValue {
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return [6]byte{}, tracerr.Wrap(ErrIdxOverflow)
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}
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var idxBytes [8]byte
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binary.BigEndian.PutUint64(idxBytes[:], uint64(idx))
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var b [6]byte
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copy(b[:], idxBytes[2:])
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return b, nil
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}
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// BigInt returns a *big.Int representing the Idx
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func (idx Idx) BigInt() *big.Int {
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return big.NewInt(int64(idx))
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}
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// IdxFromBytes returns Idx from a byte array
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func IdxFromBytes(b []byte) (Idx, error) {
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if len(b) != IdxBytesLen {
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return 0, tracerr.Wrap(fmt.Errorf("can not parse Idx, bytes len %d, expected %d", len(b), IdxBytesLen))
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}
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var idxBytes [8]byte
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copy(idxBytes[2:], b[:])
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idx := binary.BigEndian.Uint64(idxBytes[:])
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return Idx(idx), nil
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}
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// IdxFromBigInt converts a *big.Int to Idx type
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func IdxFromBigInt(b *big.Int) (Idx, error) {
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if b.Int64() > maxIdxValue {
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return 0, tracerr.Wrap(ErrNumOverflow)
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}
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return Idx(uint64(b.Int64())), nil
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}
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// Nonce represents the nonce value in a uint64, which has the method Bytes
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// that returns a byte array of length 5 (40 bits).
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type Nonce uint64
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// Bytes returns a byte array of length 5 representing the Nonce
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func (n Nonce) Bytes() ([5]byte, error) {
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if n > maxNonceValue {
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return [5]byte{}, tracerr.Wrap(ErrNonceOverflow)
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}
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var nonceBytes [8]byte
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binary.BigEndian.PutUint64(nonceBytes[:], uint64(n))
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var b [5]byte
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copy(b[:], nonceBytes[3:])
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return b, nil
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}
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// BigInt returns the *big.Int representation of the Nonce value
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func (n Nonce) BigInt() *big.Int {
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return big.NewInt(int64(n))
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}
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// NonceFromBytes returns Nonce from a [5]byte
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func NonceFromBytes(b [5]byte) Nonce {
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var nonceBytes [8]byte
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copy(nonceBytes[3:], b[:])
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nonce := binary.BigEndian.Uint64(nonceBytes[:])
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return Nonce(nonce)
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}
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// Account is a struct that gives information of the holdings of an address and
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// a specific token. Is the data structure that generates the Value stored in
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// the leaf of the MerkleTree
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type Account struct {
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Idx Idx `meddler:"idx"`
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TokenID TokenID `meddler:"token_id"`
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BatchNum BatchNum `meddler:"batch_num"`
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BJJ babyjub.PublicKeyComp `meddler:"bjj"`
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EthAddr ethCommon.Address `meddler:"eth_addr"`
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Nonce Nonce `meddler:"-"` // max of 40 bits used
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Balance *big.Int `meddler:"-"` // max of 192 bits used
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}
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func (a *Account) String() string {
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buf := bytes.NewBufferString("")
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fmt.Fprintf(buf, "Idx: %v, ", a.Idx)
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fmt.Fprintf(buf, "BJJ: %s..., ", a.BJJ.String()[:10])
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fmt.Fprintf(buf, "EthAddr: %s..., ", a.EthAddr.String()[:10])
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fmt.Fprintf(buf, "TokenID: %v, ", a.TokenID)
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fmt.Fprintf(buf, "Nonce: %d, ", a.Nonce)
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fmt.Fprintf(buf, "Balance: %s, ", a.Balance.String())
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fmt.Fprintf(buf, "BatchNum: %v, ", a.BatchNum)
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return buf.String()
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}
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// Bytes returns the bytes representing the Account, in a way that each BigInt
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// is represented by 32 bytes, in spite of the BigInt could be represented in
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// less bytes (due a small big.Int), so in this way each BigInt is always 32
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// bytes and can be automatically parsed from a byte array.
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func (a *Account) Bytes() ([32 * NLeafElems]byte, error) {
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var b [32 * NLeafElems]byte
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if a.Nonce > maxNonceValue {
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return b, tracerr.Wrap(fmt.Errorf("%s Nonce", ErrNumOverflow))
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}
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if len(a.Balance.Bytes()) > maxBalanceBytes {
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return b, tracerr.Wrap(fmt.Errorf("%s Balance", ErrNumOverflow))
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}
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nonceBytes, err := a.Nonce.Bytes()
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if err != nil {
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return b, tracerr.Wrap(err)
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}
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copy(b[28:32], a.TokenID.Bytes())
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copy(b[23:28], nonceBytes[:])
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pkSign, pkY := babyjub.UnpackSignY(a.BJJ)
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if pkSign {
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b[22] = 1
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}
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balanceBytes := a.Balance.Bytes()
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copy(b[64-len(balanceBytes):64], balanceBytes)
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ayBytes := pkY.Bytes()
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copy(b[96-len(ayBytes):96], ayBytes)
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copy(b[108:128], a.EthAddr.Bytes())
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return b, nil
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}
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// BigInts returns the [5]*big.Int, where each *big.Int is inside the Finite Field
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func (a *Account) BigInts() ([NLeafElems]*big.Int, error) {
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e := [NLeafElems]*big.Int{}
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b, err := a.Bytes()
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if err != nil {
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return e, tracerr.Wrap(err)
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}
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e[0] = new(big.Int).SetBytes(b[0:32])
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e[1] = new(big.Int).SetBytes(b[32:64])
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e[2] = new(big.Int).SetBytes(b[64:96])
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e[3] = new(big.Int).SetBytes(b[96:128])
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return e, nil
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}
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// HashValue returns the value of the Account, which is the Poseidon hash of its *big.Int representation
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func (a *Account) HashValue() (*big.Int, error) {
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bi, err := a.BigInts()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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return poseidon.Hash(bi[:])
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}
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// AccountFromBigInts returns a Account from a [5]*big.Int
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func AccountFromBigInts(e [NLeafElems]*big.Int) (*Account, error) {
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if !cryptoUtils.CheckBigIntArrayInField(e[:]) {
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return nil, tracerr.Wrap(ErrNotInFF)
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}
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e0B := e[0].Bytes()
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e1B := e[1].Bytes()
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e2B := e[2].Bytes()
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e3B := e[3].Bytes()
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var b [32 * NLeafElems]byte
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copy(b[32-len(e0B):32], e0B)
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copy(b[64-len(e1B):64], e1B)
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copy(b[96-len(e2B):96], e2B)
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copy(b[128-len(e3B):128], e3B)
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return AccountFromBytes(b)
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}
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// AccountFromBytes returns a Account from a byte array
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func AccountFromBytes(b [32 * NLeafElems]byte) (*Account, error) {
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tokenID, err := TokenIDFromBytes(b[28:32])
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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var nonceBytes5 [5]byte
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copy(nonceBytes5[:], b[23:28])
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nonce := NonceFromBytes(nonceBytes5)
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sign := b[22] == 1
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balance := new(big.Int).SetBytes(b[40:64])
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// Balance is max of 192 bits (24 bytes)
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if !bytes.Equal(b[32:40], []byte{0, 0, 0, 0, 0, 0, 0, 0}) {
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return nil, tracerr.Wrap(fmt.Errorf("%s Balance", ErrNumOverflow))
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}
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ay := new(big.Int).SetBytes(b[64:96])
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publicKeyComp := babyjub.PackSignY(sign, ay)
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ethAddr := ethCommon.BytesToAddress(b[108:128])
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if !cryptoUtils.CheckBigIntInField(balance) {
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return nil, tracerr.Wrap(ErrNotInFF)
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}
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if !cryptoUtils.CheckBigIntInField(ay) {
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return nil, tracerr.Wrap(ErrNotInFF)
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}
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a := Account{
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TokenID: TokenID(tokenID),
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Nonce: nonce,
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Balance: balance,
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BJJ: publicKeyComp,
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EthAddr: ethAddr,
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}
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return &a, nil
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}
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// IdxNonce is a pair of Idx and Nonce representing an account
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type IdxNonce struct {
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Idx Idx `db:"idx"`
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Nonce Nonce `db:"nonce"`
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}
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// AccountUpdate represents an account balance and/or nonce update after a
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// processed batch
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type AccountUpdate struct {
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EthBlockNum int64 `meddler:"eth_block_num"`
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BatchNum BatchNum `meddler:"batch_num"`
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Idx Idx `meddler:"idx"`
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Nonce Nonce `meddler:"nonce"`
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Balance *big.Int `meddler:"balance,bigint"`
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}
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