forked from cerc-io/plugeth
core/vm: optimize copy-less data retrievals
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d8aaa3a215
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f8d8b56b28
@ -34,7 +34,21 @@ func calcMemSize(off, l *big.Int) *big.Int {
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// getData returns a slice from the data based on the start and size and pads
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// up to size with zero's. This function is overflow safe.
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func getData(data []byte, start, size *big.Int) []byte {
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func getData(data []byte, start uint64, size uint64) []byte {
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length := uint64(len(data))
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if start > length {
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start = length
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}
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end := start + size
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if end > length {
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end = length
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}
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return common.RightPadBytes(data[start:end], int(size))
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}
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// getDataBig returns a slice from the data based on the start and size and pads
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// up to size with zero's. This function is overflow safe.
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func getDataBig(data []byte, start *big.Int, size *big.Int) []byte {
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dlen := big.NewInt(int64(len(data)))
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s := math.BigMin(start, dlen)
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@ -149,30 +149,41 @@ func (c *dataCopy) Run(in []byte) ([]byte, error) {
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// bigModExp implements a native big integer exponential modular operation.
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type bigModExp struct{}
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var (
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big1 = big.NewInt(1)
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big4 = big.NewInt(4)
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big8 = big.NewInt(8)
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big16 = big.NewInt(16)
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big32 = big.NewInt(32)
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big64 = big.NewInt(64)
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big96 = big.NewInt(96)
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big480 = big.NewInt(480)
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big1024 = big.NewInt(1024)
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big3072 = big.NewInt(3072)
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big199680 = big.NewInt(199680)
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)
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// RequiredGas returns the gas required to execute the pre-compiled contract.
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func (c *bigModExp) RequiredGas(input []byte) uint64 {
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// Pad the input with zeroes to the minimum size to read the field lengths
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input = common.RightPadBytes(input, 96)
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var (
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baseLen = new(big.Int).SetBytes(input[:32])
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expLen = new(big.Int).SetBytes(input[32:64])
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modLen = new(big.Int).SetBytes(input[64:96])
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baseLen = new(big.Int).SetBytes(getData(input, 0, 32))
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expLen = new(big.Int).SetBytes(getData(input, 32, 32))
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modLen = new(big.Int).SetBytes(getData(input, 64, 32))
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)
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input = input[96:]
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if len(input) > 96 {
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input = input[96:]
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} else {
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input = input[:0]
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}
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// Retrieve the head 32 bytes of exp for the adjusted exponent length
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var expHead *big.Int
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if big.NewInt(int64(len(input))).Cmp(baseLen) <= 0 {
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expHead = new(big.Int)
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} else {
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offset := int(baseLen.Uint64())
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input = common.RightPadBytes(input, offset+32)
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if expLen.Cmp(big.NewInt(32)) > 0 {
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expHead = new(big.Int).SetBytes(input[offset : offset+32])
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if expLen.Cmp(big32) > 0 {
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expHead = new(big.Int).SetBytes(getData(input, baseLen.Uint64(), 32))
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} else {
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expHead = new(big.Int).SetBytes(input[offset : offset+int(expLen.Uint64())])
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expHead = new(big.Int).SetBytes(getData(input, baseLen.Uint64(), expLen.Uint64()))
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}
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}
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// Calculate the adjusted exponent length
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@ -181,29 +192,29 @@ func (c *bigModExp) RequiredGas(input []byte) uint64 {
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msb = bitlen - 1
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}
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adjExpLen := new(big.Int)
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if expLen.Cmp(big.NewInt(32)) > 0 {
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adjExpLen.Sub(expLen, big.NewInt(32))
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adjExpLen.Mul(big.NewInt(8), adjExpLen)
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if expLen.Cmp(big32) > 0 {
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adjExpLen.Sub(expLen, big32)
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adjExpLen.Mul(big8, adjExpLen)
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}
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adjExpLen.Add(adjExpLen, big.NewInt(int64(msb)))
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// Calculate the gas cost of the operation
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gas := new(big.Int).Set(math.BigMax(modLen, baseLen))
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switch {
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case gas.Cmp(big.NewInt(64)) <= 0:
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case gas.Cmp(big64) <= 0:
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gas.Mul(gas, gas)
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case gas.Cmp(big.NewInt(1024)) <= 0:
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case gas.Cmp(big1024) <= 0:
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gas = new(big.Int).Add(
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new(big.Int).Div(new(big.Int).Mul(gas, gas), big.NewInt(4)),
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new(big.Int).Sub(new(big.Int).Mul(big.NewInt(96), gas), big.NewInt(3072)),
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new(big.Int).Div(new(big.Int).Mul(gas, gas), big4),
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new(big.Int).Sub(new(big.Int).Mul(big96, gas), big3072),
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)
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default:
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gas = new(big.Int).Add(
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new(big.Int).Div(new(big.Int).Mul(gas, gas), big.NewInt(16)),
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new(big.Int).Sub(new(big.Int).Mul(big.NewInt(480), gas), big.NewInt(199680)),
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new(big.Int).Div(new(big.Int).Mul(gas, gas), big16),
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new(big.Int).Sub(new(big.Int).Mul(big480, gas), big199680),
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)
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}
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gas.Mul(gas, math.BigMax(adjExpLen, big.NewInt(1)))
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gas.Mul(gas, math.BigMax(adjExpLen, big1))
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gas.Div(gas, new(big.Int).SetUint64(params.ModExpQuadCoeffDiv))
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if gas.BitLen() > 64 {
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@ -213,23 +224,25 @@ func (c *bigModExp) RequiredGas(input []byte) uint64 {
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}
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func (c *bigModExp) Run(input []byte) ([]byte, error) {
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// Pad the input with zeroes to the minimum size to read the field lengths
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input = common.RightPadBytes(input, 96)
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var (
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baseLen = new(big.Int).SetBytes(input[:32]).Uint64()
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expLen = new(big.Int).SetBytes(input[32:64]).Uint64()
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modLen = new(big.Int).SetBytes(input[64:96]).Uint64()
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baseLen = new(big.Int).SetBytes(getData(input, 0, 32)).Uint64()
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expLen = new(big.Int).SetBytes(getData(input, 32, 32)).Uint64()
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modLen = new(big.Int).SetBytes(getData(input, 64, 32)).Uint64()
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)
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input = input[96:]
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// Pad the input with zeroes to the minimum size to read the field contents
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input = common.RightPadBytes(input, int(baseLen+expLen+modLen))
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if len(input) > 96 {
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input = input[96:]
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} else {
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input = input[:0]
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}
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// Handle a special case when both the base and mod length is zero
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if baseLen == 0 && modLen == 0 {
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return []byte{}, nil
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}
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// Retrieve the operands and execute the exponentiation
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var (
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base = new(big.Int).SetBytes(input[:baseLen])
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exp = new(big.Int).SetBytes(input[baseLen : baseLen+expLen])
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mod = new(big.Int).SetBytes(input[baseLen+expLen : baseLen+expLen+modLen])
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base = new(big.Int).SetBytes(getData(input, 0, baseLen))
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exp = new(big.Int).SetBytes(getData(input, baseLen, expLen))
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mod = new(big.Int).SetBytes(getData(input, baseLen+expLen, modLen))
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)
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if mod.BitLen() == 0 {
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// Modulo 0 is undefined, return zero
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@ -286,14 +299,11 @@ func (c *bn256Add) RequiredGas(input []byte) uint64 {
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}
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func (c *bn256Add) Run(input []byte) ([]byte, error) {
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// Ensure we have enough data to operate on
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input = common.RightPadBytes(input, 128)
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x, err := newCurvePoint(input[:64])
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x, err := newCurvePoint(getData(input, 0, 64))
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if err != nil {
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return nil, err
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}
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y, err := newCurvePoint(input[64:128])
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y, err := newCurvePoint(getData(input, 64, 64))
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if err != nil {
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return nil, err
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}
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@ -310,14 +320,11 @@ func (c *bn256ScalarMul) RequiredGas(input []byte) uint64 {
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}
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func (c *bn256ScalarMul) Run(input []byte) ([]byte, error) {
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// Ensure we have enough data to operate on
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input = common.RightPadBytes(input, 96)
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p, err := newCurvePoint(input[:64])
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p, err := newCurvePoint(getData(input, 0, 64))
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if err != nil {
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return nil, err
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}
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p.ScalarMult(p, new(big.Int).SetBytes(input[64:96]))
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p.ScalarMult(p, new(big.Int).SetBytes(getData(input, 64, 32)))
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return p.Marshal(), nil
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}
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@ -325,7 +325,7 @@ func TestPrecompiledBn256Pairing(t *testing.T) {
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}
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// Behcnmarks the sample inputs from the elliptic curve pairing check EIP 197.
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func BenchmarkPrecompiledPairing(bench *testing.B) {
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func BenchmarkPrecompiledBn256Pairing(bench *testing.B) {
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for _, test := range bn256PairingTests {
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benchmarkPrecompiled("08", test, bench)
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}
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@ -337,7 +337,7 @@ func opCallValue(pc *uint64, evm *EVM, contract *Contract, memory *Memory, stack
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}
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func opCalldataLoad(pc *uint64, evm *EVM, contract *Contract, memory *Memory, stack *Stack) ([]byte, error) {
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stack.push(new(big.Int).SetBytes(getData(contract.Input, stack.pop(), common.Big32)))
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stack.push(new(big.Int).SetBytes(getDataBig(contract.Input, stack.pop(), big32)))
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return nil, nil
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}
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@ -352,7 +352,7 @@ func opCalldataCopy(pc *uint64, evm *EVM, contract *Contract, memory *Memory, st
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cOff = stack.pop()
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l = stack.pop()
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)
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memory.Set(mOff.Uint64(), l.Uint64(), getData(contract.Input, cOff, l))
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memory.Set(mOff.Uint64(), l.Uint64(), getDataBig(contract.Input, cOff, l))
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evm.interpreter.intPool.put(mOff, cOff, l)
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return nil, nil
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@ -380,7 +380,7 @@ func opCodeCopy(pc *uint64, evm *EVM, contract *Contract, memory *Memory, stack
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cOff = stack.pop()
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l = stack.pop()
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)
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codeCopy := getData(contract.Code, cOff, l)
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codeCopy := getDataBig(contract.Code, cOff, l)
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memory.Set(mOff.Uint64(), l.Uint64(), codeCopy)
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@ -395,7 +395,7 @@ func opExtCodeCopy(pc *uint64, evm *EVM, contract *Contract, memory *Memory, sta
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cOff = stack.pop()
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l = stack.pop()
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)
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codeCopy := getData(evm.StateDB.GetCode(addr), cOff, l)
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codeCopy := getDataBig(evm.StateDB.GetCode(addr), cOff, l)
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memory.Set(mOff.Uint64(), l.Uint64(), codeCopy)
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