Example #1
0
// Creates a 20 byte address and bumps the nonce.
func createAddress(creator *Account) Word256 {
	nonce := creator.Nonce
	creator.Nonce += 1
	temp := make([]byte, 32+8)
	copy(temp, creator.Address[:])
	PutInt64BE(temp[32:], nonce)
	return LeftPadWord256(sha3.Sha3(temp)[:20])
}
Example #2
0
func ecrecoverFunc(input []byte, gas *int64) (output []byte, err error) {
	// Deduct gas
	gasRequired := GasEcRecover
	if *gas < gasRequired {
		return nil, ErrInsufficientGas
	} else {
		*gas -= gasRequired
	}
	// Recover
	hash := input[:32]
	v := byte(input[32] - 27) // ignore input[33:64], v is small.
	sig := append(input[64:], v)

	recovered, err := secp256k1.RecoverPubkey(hash, sig)
	if err != nil {
		return nil, err
	}
	hashed := sha3.Sha3(recovered[1:])
	return LeftPadBytes(hashed, 32), nil
}
Example #3
0
// Just like Call() but does not transfer 'value' or modify the callDepth.
func (vm *VM) call(caller, callee *Account, code, input []byte, value int64, gas *int64) (output []byte, err error) {
	dbg.Printf("(%d) (%X) %X (code=%d) gas: %v (d) %X\n", vm.callDepth, caller.Address[:4], callee.Address, len(callee.Code), *gas, input)

	var (
		pc     int64 = 0
		stack        = NewStack(dataStackCapacity, gas, &err)
		memory       = make([]byte, memoryCapacity)
	)

	for {

		// Use BaseOp gas.
		if useGasNegative(gas, GasBaseOp, &err) {
			return nil, err
		}

		var op = codeGetOp(code, pc)
		dbg.Printf("(pc) %-3d (op) %-14s (st) %-4d ", pc, op.String(), stack.Len())

		switch op {

		case ADD: // 0x01
			x, y := stack.Pop(), stack.Pop()
			xb := new(big.Int).SetBytes(x[:])
			yb := new(big.Int).SetBytes(y[:])
			sum := new(big.Int).Add(xb, yb)
			res := LeftPadWord256(U256(sum).Bytes())
			stack.Push(res)
			dbg.Printf(" %v + %v = %v (%X)\n", xb, yb, sum, res)

		case MUL: // 0x02
			x, y := stack.Pop(), stack.Pop()
			xb := new(big.Int).SetBytes(x[:])
			yb := new(big.Int).SetBytes(y[:])
			prod := new(big.Int).Mul(xb, yb)
			res := LeftPadWord256(U256(prod).Bytes())
			stack.Push(res)
			dbg.Printf(" %v * %v = %v (%X)\n", xb, yb, prod, res)

		case SUB: // 0x03
			x, y := stack.Pop(), stack.Pop()
			xb := new(big.Int).SetBytes(x[:])
			yb := new(big.Int).SetBytes(y[:])
			diff := new(big.Int).Sub(xb, yb)
			res := LeftPadWord256(U256(diff).Bytes())
			stack.Push(res)
			dbg.Printf(" %v - %v = %v (%X)\n", xb, yb, diff, res)

		case DIV: // 0x04
			x, y := stack.Pop(), stack.Pop()
			if y.IsZero() {
				stack.Push(Zero256)
				dbg.Printf(" %x / %x = %v\n", x, y, 0)
			} else {
				xb := new(big.Int).SetBytes(x[:])
				yb := new(big.Int).SetBytes(y[:])
				div := new(big.Int).Div(xb, yb)
				res := LeftPadWord256(U256(div).Bytes())
				stack.Push(res)
				dbg.Printf(" %v / %v = %v (%X)\n", xb, yb, div, res)
			}

		case SDIV: // 0x05
			x, y := stack.Pop(), stack.Pop()
			if y.IsZero() {
				stack.Push(Zero256)
				dbg.Printf(" %x / %x = %v\n", x, y, 0)
			} else {
				xb := S256(new(big.Int).SetBytes(x[:]))
				yb := S256(new(big.Int).SetBytes(y[:]))
				div := new(big.Int).Div(xb, yb)
				res := LeftPadWord256(U256(div).Bytes())
				stack.Push(res)
				dbg.Printf(" %v / %v = %v (%X)\n", xb, yb, div, res)
			}

		case MOD: // 0x06
			x, y := stack.Pop(), stack.Pop()
			if y.IsZero() {
				stack.Push(Zero256)
				dbg.Printf(" %v %% %v = %v\n", x, y, 0)
			} else {
				xb := new(big.Int).SetBytes(x[:])
				yb := new(big.Int).SetBytes(y[:])
				mod := new(big.Int).Mod(xb, yb)
				res := LeftPadWord256(U256(mod).Bytes())
				stack.Push(res)
				dbg.Printf(" %v %% %v = %v (%X)\n", xb, yb, mod, res)
			}

		case SMOD: // 0x07
			x, y := stack.Pop(), stack.Pop()
			if y.IsZero() {
				stack.Push(Zero256)
				dbg.Printf(" %v %% %v = %v\n", x, y, 0)
			} else {
				xb := S256(new(big.Int).SetBytes(x[:]))
				yb := S256(new(big.Int).SetBytes(y[:]))
				mod := new(big.Int).Mod(xb, yb)
				res := LeftPadWord256(U256(mod).Bytes())
				stack.Push(res)
				dbg.Printf(" %v %% %v = %v (%X)\n", xb, yb, mod, res)
			}

		case ADDMOD: // 0x08
			x, y, z := stack.Pop(), stack.Pop(), stack.Pop()
			if z.IsZero() {
				stack.Push(Zero256)
				dbg.Printf(" %v %% %v = %v\n", x, y, 0)
			} else {
				xb := new(big.Int).SetBytes(x[:])
				yb := new(big.Int).SetBytes(y[:])
				zb := new(big.Int).SetBytes(z[:])
				add := new(big.Int).Add(xb, yb)
				mod := new(big.Int).Mod(add, zb)
				res := LeftPadWord256(U256(mod).Bytes())
				stack.Push(res)
				dbg.Printf(" %v + %v %% %v = %v (%X)\n",
					xb, yb, zb, mod, res)
			}

		case MULMOD: // 0x09
			x, y, z := stack.Pop(), stack.Pop(), stack.Pop()
			if z.IsZero() {
				stack.Push(Zero256)
				dbg.Printf(" %v %% %v = %v\n", x, y, 0)
			} else {
				xb := new(big.Int).SetBytes(x[:])
				yb := new(big.Int).SetBytes(y[:])
				zb := new(big.Int).SetBytes(z[:])
				mul := new(big.Int).Mul(xb, yb)
				mod := new(big.Int).Mod(mul, zb)
				res := LeftPadWord256(U256(mod).Bytes())
				stack.Push(res)
				dbg.Printf(" %v * %v %% %v = %v (%X)\n",
					xb, yb, zb, mod, res)
			}

		case EXP: // 0x0A
			x, y := stack.Pop(), stack.Pop()
			xb := new(big.Int).SetBytes(x[:])
			yb := new(big.Int).SetBytes(y[:])
			pow := new(big.Int).Exp(xb, yb, big.NewInt(0))
			res := LeftPadWord256(U256(pow).Bytes())
			stack.Push(res)
			dbg.Printf(" %v ** %v = %v (%X)\n", xb, yb, pow, res)

		case SIGNEXTEND: // 0x0B
			back := stack.Pop()
			backb := new(big.Int).SetBytes(back[:])
			if backb.Cmp(big.NewInt(31)) < 0 {
				bit := uint(backb.Uint64()*8 + 7)
				num := stack.Pop()
				numb := new(big.Int).SetBytes(num[:])
				mask := new(big.Int).Lsh(big.NewInt(1), bit)
				mask.Sub(mask, big.NewInt(1))
				if numb.Bit(int(bit)) == 1 {
					numb.Or(numb, mask.Not(mask))
				} else {
					numb.Add(numb, mask)
				}
				res := LeftPadWord256(U256(numb).Bytes())
				dbg.Printf(" = %v (%X)", numb, res)
				stack.Push(res)
			}

		case LT: // 0x10
			x, y := stack.Pop(), stack.Pop()
			xb := new(big.Int).SetBytes(x[:])
			yb := new(big.Int).SetBytes(y[:])
			if xb.Cmp(yb) < 0 {
				stack.Push64(1)
				dbg.Printf(" %v < %v = %v\n", xb, yb, 1)
			} else {
				stack.Push(Zero256)
				dbg.Printf(" %v < %v = %v\n", xb, yb, 0)
			}

		case GT: // 0x11
			x, y := stack.Pop(), stack.Pop()
			xb := new(big.Int).SetBytes(x[:])
			yb := new(big.Int).SetBytes(y[:])
			if xb.Cmp(yb) > 0 {
				stack.Push64(1)
				dbg.Printf(" %v > %v = %v\n", xb, yb, 1)
			} else {
				stack.Push(Zero256)
				dbg.Printf(" %v > %v = %v\n", xb, yb, 0)
			}

		case SLT: // 0x12
			x, y := stack.Pop(), stack.Pop()
			xb := S256(new(big.Int).SetBytes(x[:]))
			yb := S256(new(big.Int).SetBytes(y[:]))
			if xb.Cmp(yb) < 0 {
				stack.Push64(1)
				dbg.Printf(" %v < %v = %v\n", xb, yb, 1)
			} else {
				stack.Push(Zero256)
				dbg.Printf(" %v < %v = %v\n", xb, yb, 0)
			}

		case SGT: // 0x13
			x, y := stack.Pop(), stack.Pop()
			xb := S256(new(big.Int).SetBytes(x[:]))
			yb := S256(new(big.Int).SetBytes(y[:]))
			if xb.Cmp(yb) > 0 {
				stack.Push64(1)
				dbg.Printf(" %v > %v = %v\n", xb, yb, 1)
			} else {
				stack.Push(Zero256)
				dbg.Printf(" %v > %v = %v\n", xb, yb, 0)
			}

		case EQ: // 0x14
			x, y := stack.Pop(), stack.Pop()
			if bytes.Equal(x[:], y[:]) {
				stack.Push64(1)
				dbg.Printf(" %X == %X = %v\n", x, y, 1)
			} else {
				stack.Push(Zero256)
				dbg.Printf(" %X == %X = %v\n", x, y, 0)
			}

		case ISZERO: // 0x15
			x := stack.Pop()
			if x.IsZero() {
				stack.Push64(1)
				dbg.Printf(" %v == 0 = %v\n", x, 1)
			} else {
				stack.Push(Zero256)
				dbg.Printf(" %v == 0 = %v\n", x, 0)
			}

		case AND: // 0x16
			x, y := stack.Pop(), stack.Pop()
			z := [32]byte{}
			for i := 0; i < 32; i++ {
				z[i] = x[i] & y[i]
			}
			stack.Push(z)
			dbg.Printf(" %X & %X = %X\n", x, y, z)

		case OR: // 0x17
			x, y := stack.Pop(), stack.Pop()
			z := [32]byte{}
			for i := 0; i < 32; i++ {
				z[i] = x[i] | y[i]
			}
			stack.Push(z)
			dbg.Printf(" %X | %X = %X\n", x, y, z)

		case XOR: // 0x18
			x, y := stack.Pop(), stack.Pop()
			z := [32]byte{}
			for i := 0; i < 32; i++ {
				z[i] = x[i] ^ y[i]
			}
			stack.Push(z)
			dbg.Printf(" %X ^ %X = %X\n", x, y, z)

		case NOT: // 0x19
			x := stack.Pop()
			z := [32]byte{}
			for i := 0; i < 32; i++ {
				z[i] = ^x[i]
			}
			stack.Push(z)
			dbg.Printf(" !%X = %X\n", x, z)

		case BYTE: // 0x1A
			idx, val := stack.Pop64(), stack.Pop()
			res := byte(0)
			if idx < 32 {
				res = val[idx]
			}
			stack.Push64(int64(res))
			dbg.Printf(" => 0x%X\n", res)

		case SHA3: // 0x20
			if useGasNegative(gas, GasSha3, &err) {
				return nil, err
			}
			offset, size := stack.Pop64(), stack.Pop64()
			data, ok := subslice(memory, offset, size)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			data = sha3.Sha3(data)
			stack.PushBytes(data)
			dbg.Printf(" => (%v) %X\n", size, data)

		case ADDRESS: // 0x30
			stack.Push(callee.Address)
			dbg.Printf(" => %X\n", callee.Address)

		case BALANCE: // 0x31
			addr := stack.Pop()
			if useGasNegative(gas, GasGetAccount, &err) {
				return nil, err
			}
			acc := vm.appState.GetAccount(addr)
			if acc == nil {
				return nil, firstErr(err, ErrUnknownAddress)
			}
			balance := acc.Balance
			stack.Push64(balance)
			dbg.Printf(" => %v (%X)\n", balance, addr)

		case ORIGIN: // 0x32
			stack.Push(vm.origin)
			dbg.Printf(" => %X\n", vm.origin)

		case CALLER: // 0x33
			stack.Push(caller.Address)
			dbg.Printf(" => %X\n", caller.Address)

		case CALLVALUE: // 0x34
			stack.Push64(value)
			dbg.Printf(" => %v\n", value)

		case CALLDATALOAD: // 0x35
			offset := stack.Pop64()
			data, ok := subslice(input, offset, 32)
			if !ok {
				return nil, firstErr(err, ErrInputOutOfBounds)
			}
			res := LeftPadWord256(data)
			stack.Push(res)
			dbg.Printf(" => 0x%X\n", res)

		case CALLDATASIZE: // 0x36
			stack.Push64(int64(len(input)))
			dbg.Printf(" => %d\n", len(input))

		case CALLDATACOPY: // 0x37
			memOff := stack.Pop64()
			inputOff := stack.Pop64()
			length := stack.Pop64()
			data, ok := subslice(input, inputOff, length)
			if !ok {
				return nil, firstErr(err, ErrInputOutOfBounds)
			}
			dest, ok := subslice(memory, memOff, length)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			copy(dest, data)
			dbg.Printf(" => [%v, %v, %v] %X\n", memOff, inputOff, length, data)

		case CODESIZE: // 0x38
			l := int64(len(code))
			stack.Push64(l)
			dbg.Printf(" => %d\n", l)

		case CODECOPY: // 0x39
			memOff := stack.Pop64()
			codeOff := stack.Pop64()
			length := stack.Pop64()
			data, ok := subslice(code, codeOff, length)
			if !ok {
				return nil, firstErr(err, ErrCodeOutOfBounds)
			}
			dest, ok := subslice(memory, memOff, length)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			copy(dest, data)
			dbg.Printf(" => [%v, %v, %v] %X\n", memOff, codeOff, length, data)

		case GASPRICE_DEPRECATED: // 0x3A
			stack.Push(Zero256)
			dbg.Printf(" => %X (GASPRICE IS DEPRECATED)\n")

		case EXTCODESIZE: // 0x3B
			addr := stack.Pop()
			if useGasNegative(gas, GasGetAccount, &err) {
				return nil, err
			}
			acc := vm.appState.GetAccount(addr)
			if acc == nil {
				return nil, firstErr(err, ErrUnknownAddress)
			}
			code := acc.Code
			l := int64(len(code))
			stack.Push64(l)
			dbg.Printf(" => %d\n", l)

		case EXTCODECOPY: // 0x3C
			addr := stack.Pop()
			if useGasNegative(gas, GasGetAccount, &err) {
				return nil, err
			}
			acc := vm.appState.GetAccount(addr)
			if acc == nil {
				return nil, firstErr(err, ErrUnknownAddress)
			}
			code := acc.Code
			memOff := stack.Pop64()
			codeOff := stack.Pop64()
			length := stack.Pop64()
			data, ok := subslice(code, codeOff, length)
			if !ok {
				return nil, firstErr(err, ErrCodeOutOfBounds)
			}
			dest, ok := subslice(memory, memOff, length)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			copy(dest, data)
			dbg.Printf(" => [%v, %v, %v] %X\n", memOff, codeOff, length, data)

		case BLOCKHASH: // 0x40
			stack.Push(Zero256)
			dbg.Printf(" => 0x%X (NOT SUPPORTED)\n", stack.Peek().Bytes())

		case COINBASE: // 0x41
			stack.Push(Zero256)
			dbg.Printf(" => 0x%X (NOT SUPPORTED)\n", stack.Peek().Bytes())

		case TIMESTAMP: // 0x42
			time := vm.params.BlockTime
			stack.Push64(int64(time))
			dbg.Printf(" => 0x%X\n", time)

		case BLOCKHEIGHT: // 0x43
			number := int64(vm.params.BlockHeight)
			stack.Push64(number)
			dbg.Printf(" => 0x%X\n", number)

		case GASLIMIT: // 0x45
			stack.Push64(vm.params.GasLimit)
			dbg.Printf(" => %v\n", vm.params.GasLimit)

		case POP: // 0x50
			popped := stack.Pop()
			dbg.Printf(" => 0x%X\n", popped)

		case MLOAD: // 0x51
			offset := stack.Pop64()
			data, ok := subslice(memory, offset, 32)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			stack.Push(LeftPadWord256(data))
			dbg.Printf(" => 0x%X\n", data)

		case MSTORE: // 0x52
			offset, data := stack.Pop64(), stack.Pop()
			dest, ok := subslice(memory, offset, 32)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			copy(dest, data[:])
			dbg.Printf(" => 0x%X\n", data)

		case MSTORE8: // 0x53
			offset, val := stack.Pop64(), byte(stack.Pop64()&0xFF)
			if len(memory) <= int(offset) {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			memory[offset] = val
			dbg.Printf(" => [%v] 0x%X\n", offset, val)

		case SLOAD: // 0x54
			loc := stack.Pop()
			data := vm.appState.GetStorage(callee.Address, loc)
			stack.Push(data)
			dbg.Printf(" {0x%X : 0x%X}\n", loc, data)

		case SSTORE: // 0x55
			loc, data := stack.Pop(), stack.Pop()
			if useGasNegative(gas, GasStorageUpdate, &err) {
				return nil, err
			}
			vm.appState.SetStorage(callee.Address, loc, data)
			dbg.Printf(" {0x%X : 0x%X}\n", loc, data)

		case JUMP: // 0x56
			err = jump(code, stack.Pop64(), &pc)
			continue

		case JUMPI: // 0x57
			pos, cond := stack.Pop64(), stack.Pop()
			if !cond.IsZero() {
				err = jump(code, pos, &pc)
				continue
			}
			dbg.Printf(" ~> false\n")

		case PC: // 0x58
			stack.Push64(pc)

		case MSIZE: // 0x59
			stack.Push64(int64(len(memory)))

		case GAS: // 0x5A
			stack.Push64(*gas)
			dbg.Printf(" => %X\n", *gas)

		case JUMPDEST: // 0x5B
			dbg.Printf("\n")
			// Do nothing

		case PUSH1, PUSH2, PUSH3, PUSH4, PUSH5, PUSH6, PUSH7, PUSH8, PUSH9, PUSH10, PUSH11, PUSH12, PUSH13, PUSH14, PUSH15, PUSH16, PUSH17, PUSH18, PUSH19, PUSH20, PUSH21, PUSH22, PUSH23, PUSH24, PUSH25, PUSH26, PUSH27, PUSH28, PUSH29, PUSH30, PUSH31, PUSH32:
			a := int64(op - PUSH1 + 1)
			codeSegment, ok := subslice(code, pc+1, a)
			if !ok {
				return nil, firstErr(err, ErrCodeOutOfBounds)
			}
			res := LeftPadWord256(codeSegment)
			stack.Push(res)
			pc += a
			dbg.Printf(" => 0x%X\n", res)
			//stack.Print(10)

		case DUP1, DUP2, DUP3, DUP4, DUP5, DUP6, DUP7, DUP8, DUP9, DUP10, DUP11, DUP12, DUP13, DUP14, DUP15, DUP16:
			n := int(op - DUP1 + 1)
			stack.Dup(n)
			dbg.Printf(" => [%d] 0x%X\n", n, stack.Peek().Bytes())

		case SWAP1, SWAP2, SWAP3, SWAP4, SWAP5, SWAP6, SWAP7, SWAP8, SWAP9, SWAP10, SWAP11, SWAP12, SWAP13, SWAP14, SWAP15, SWAP16:
			n := int(op - SWAP1 + 2)
			stack.Swap(n)
			dbg.Printf(" => [%d] %X\n", n, stack.Peek())
			//stack.Print(10)

		case LOG0, LOG1, LOG2, LOG3, LOG4:
			n := int(op - LOG0)
			topics := make([]Word256, n)
			offset, size := stack.Pop64(), stack.Pop64()
			for i := 0; i < n; i++ {
				topics[i] = stack.Pop()
			}
			data, ok := subslice(memory, offset, size)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			data = copyslice(data)
			if vm.evc != nil {
				eventID := types.EventStringLogEvent(callee.Address.Postfix(20))
				fmt.Printf("eventID: %s\n", eventID)
				log := types.EventDataLog{
					callee.Address,
					topics,
					data,
					vm.params.BlockHeight,
				}
				vm.evc.FireEvent(eventID, log)
			}
			dbg.Printf(" => T:%X D:%X\n", topics, data)

		case CREATE: // 0xF0
			if !HasPermission(vm.appState, callee, ptypes.CreateContract) {
				return nil, ErrPermission{"create_contract"}
			}
			contractValue := stack.Pop64()
			offset, size := stack.Pop64(), stack.Pop64()
			input, ok := subslice(memory, offset, size)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}

			// Check balance
			if callee.Balance < contractValue {
				return nil, firstErr(err, ErrInsufficientBalance)
			}

			// TODO charge for gas to create account _ the code length * GasCreateByte

			newAccount := vm.appState.CreateAccount(callee)
			// Run the input to get the contract code.
			// NOTE: no need to copy 'input' as per Call contract.
			ret, err_ := vm.Call(callee, newAccount, input, input, contractValue, gas)
			if err_ != nil {
				stack.Push(Zero256)
			} else {
				newAccount.Code = ret // Set the code (ret need not be copied as per Call contract)
				stack.Push(newAccount.Address)
			}

		case CALL, CALLCODE: // 0xF1, 0xF2
			if !HasPermission(vm.appState, callee, ptypes.Call) {
				return nil, ErrPermission{"call"}
			}
			gasLimit := stack.Pop64()
			addr, value := stack.Pop(), stack.Pop64()
			inOffset, inSize := stack.Pop64(), stack.Pop64()   // inputs
			retOffset, retSize := stack.Pop64(), stack.Pop64() // outputs
			dbg.Printf(" => %X\n", addr)

			// Get the arguments from the memory
			args, ok := subslice(memory, inOffset, inSize)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			args = copyslice(args)

			// Ensure that gasLimit is reasonable
			if *gas < gasLimit {
				return nil, firstErr(err, ErrInsufficientGas)
			} else {
				*gas -= gasLimit
				// NOTE: we will return any used gas later.
			}

			// Begin execution
			var ret []byte
			var err error
			if nativeContract := registeredNativeContracts[addr]; nativeContract != nil {
				// Native contract
				ret, err = nativeContract(vm.appState, callee, args, &gasLimit)

				// for now we fire the Call event. maybe later we'll fire more particulars
				var exception string
				if err != nil {
					exception = err.Error()
				}
				// NOTE: these fire call events and not particular events for eg name reg or permissions
				vm.fireCallEvent(&exception, &ret, callee, &Account{Address: addr}, args, value, gas)
			} else {
				// EVM contract
				if useGasNegative(gas, GasGetAccount, &err) {
					return nil, err
				}
				acc := vm.appState.GetAccount(addr)
				// since CALL is used also for sending funds,
				// acc may not exist yet. This is an error for
				// CALLCODE, but not for CALL, though I don't think
				// ethereum actually cares
				if op == CALLCODE {
					if acc == nil {
						return nil, firstErr(err, ErrUnknownAddress)
					}
					ret, err = vm.Call(callee, callee, acc.Code, args, value, gas)
				} else {
					if acc == nil {
						// nil account means we're sending funds to a new account
						if !HasPermission(vm.appState, caller, ptypes.CreateAccount) {
							return nil, ErrPermission{"create_account"}
						}
						acc = &Account{Address: addr}
						vm.appState.UpdateAccount(acc)
						// send funds to new account
						ret, err = vm.Call(callee, acc, acc.Code, args, value, gas)
					} else {
						// call standard contract
						ret, err = vm.Call(callee, acc, acc.Code, args, value, gas)
					}
				}
			}

			// Push result
			if err != nil {
				dbg.Printf("error on call: %s\n", err.Error())
				stack.Push(Zero256)
			} else {
				stack.Push(One256)
				dest, ok := subslice(memory, retOffset, retSize)
				if !ok {
					return nil, firstErr(err, ErrMemoryOutOfBounds)
				}
				copy(dest, ret)
			}

			// Handle remaining gas.
			*gas += gasLimit

			dbg.Printf("resume %X (%v)\n", callee.Address, gas)

		case RETURN: // 0xF3
			offset, size := stack.Pop64(), stack.Pop64()
			ret, ok := subslice(memory, offset, size)
			if !ok {
				return nil, firstErr(err, ErrMemoryOutOfBounds)
			}
			dbg.Printf(" => [%v, %v] (%d) 0x%X\n", offset, size, len(ret), ret)
			output = copyslice(ret)
			return output, nil

		case SUICIDE: // 0xFF
			addr := stack.Pop()
			if useGasNegative(gas, GasGetAccount, &err) {
				return nil, err
			}
			// TODO if the receiver is , then make it the fee. (?)
			// TODO: create account if doesn't exist (no reason not to)
			receiver := vm.appState.GetAccount(addr)
			if receiver == nil {
				return nil, firstErr(err, ErrUnknownAddress)
			}
			balance := callee.Balance
			receiver.Balance += balance
			vm.appState.UpdateAccount(receiver)
			vm.appState.RemoveAccount(callee)
			dbg.Printf(" => (%X) %v\n", addr[:4], balance)
			fallthrough

		case STOP: // 0x00
			return nil, nil

		default:
			dbg.Printf("(pc) %-3v Invalid opcode %X\n", pc, op)
			return nil, fmt.Errorf("Invalid opcode %X", op)
		}

		pc++

	}
}
Example #4
0
// Convenience function to return address of new contract
func NewContractAddress(caller []byte, nonce int) []byte {
	temp := make([]byte, 32+8)
	copy(temp, caller)
	PutInt64BE(temp[32:], int64(nonce))
	return sha3.Sha3(temp)[:20]
}