438 lines
13 KiB
Go
438 lines
13 KiB
Go
// Copyright 2014 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package vm
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import (
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"fmt"
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"math/big"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/logger"
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"github.com/ethereum/go-ethereum/logger/glog"
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"github.com/ethereum/go-ethereum/params"
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)
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// Config are the configuration options for the EVM
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type Config struct {
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Debug bool
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EnableJit bool
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ForceJit bool
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Tracer Tracer
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}
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// EVM is used to run Ethereum based contracts and will utilise the
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// passed environment to query external sources for state information.
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// The EVM will run the byte code VM or JIT VM based on the passed
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// configuration.
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type EVM struct {
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env Environment
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jumpTable vmJumpTable
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cfg Config
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gasTable params.GasTable
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}
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// New returns a new instance of the EVM.
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func New(env Environment, cfg Config) *EVM {
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return &EVM{
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env: env,
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jumpTable: newJumpTable(env.RuleSet(), env.BlockNumber()),
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cfg: cfg,
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gasTable: env.RuleSet().GasTable(env.BlockNumber()),
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}
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}
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// Run loops and evaluates the contract's code with the given input data
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func (evm *EVM) Run(contract *Contract, input []byte) (ret []byte, err error) {
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evm.env.SetDepth(evm.env.Depth() + 1)
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defer evm.env.SetDepth(evm.env.Depth() - 1)
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if contract.CodeAddr != nil {
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if p := Precompiled[contract.CodeAddr.Str()]; p != nil {
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return evm.RunPrecompiled(p, input, contract)
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}
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}
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// Don't bother with the execution if there's no code.
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if len(contract.Code) == 0 {
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return nil, nil
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}
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codehash := contract.CodeHash // codehash is used when doing jump dest caching
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if codehash == (common.Hash{}) {
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codehash = crypto.Keccak256Hash(contract.Code)
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}
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var program *Program
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if false {
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// JIT disabled due to JIT not being Homestead gas reprice ready.
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// If the JIT is enabled check the status of the JIT program,
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// if it doesn't exist compile a new program in a separate
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// goroutine or wait for compilation to finish if the JIT is
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// forced.
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switch GetProgramStatus(codehash) {
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case progReady:
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return RunProgram(GetProgram(codehash), evm.env, contract, input)
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case progUnknown:
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if evm.cfg.ForceJit {
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// Create and compile program
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program = NewProgram(contract.Code)
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perr := CompileProgram(program)
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if perr == nil {
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return RunProgram(program, evm.env, contract, input)
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}
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glog.V(logger.Info).Infoln("error compiling program", err)
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} else {
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// create and compile the program. Compilation
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// is done in a separate goroutine
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program = NewProgram(contract.Code)
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go func() {
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err := CompileProgram(program)
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if err != nil {
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glog.V(logger.Info).Infoln("error compiling program", err)
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return
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}
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}()
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}
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}
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}
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var (
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caller = contract.caller
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code = contract.Code
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instrCount = 0
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op OpCode // current opcode
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mem = NewMemory() // bound memory
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stack = newstack() // local stack
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statedb = evm.env.Db() // current state
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// For optimisation reason we're using uint64 as the program counter.
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// It's theoretically possible to go above 2^64. The YP defines the PC to be uint256. Practically much less so feasible.
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pc = uint64(0) // program counter
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// jump evaluates and checks whether the given jump destination is a valid one
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// if valid move the `pc` otherwise return an error.
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jump = func(from uint64, to *big.Int) error {
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if !contract.jumpdests.has(codehash, code, to) {
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nop := contract.GetOp(to.Uint64())
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return fmt.Errorf("invalid jump destination (%v) %v", nop, to)
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}
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pc = to.Uint64()
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return nil
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}
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newMemSize *big.Int
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cost *big.Int
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)
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contract.Input = input
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// User defer pattern to check for an error and, based on the error being nil or not, use all gas and return.
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defer func() {
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if err != nil && evm.cfg.Debug {
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evm.cfg.Tracer.CaptureState(evm.env, pc, op, contract.Gas, cost, mem, stack, contract, evm.env.Depth(), err)
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}
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}()
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if glog.V(logger.Debug) {
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glog.Infof("running byte VM %x\n", codehash[:4])
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tstart := time.Now()
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defer func() {
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glog.Infof("byte VM %x done. time: %v instrc: %v\n", codehash[:4], time.Since(tstart), instrCount)
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}()
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}
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for ; ; instrCount++ {
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/*
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if EnableJit && it%100 == 0 {
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if program != nil && progStatus(atomic.LoadInt32(&program.status)) == progReady {
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// move execution
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fmt.Println("moved", it)
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glog.V(logger.Info).Infoln("Moved execution to JIT")
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return runProgram(program, pc, mem, stack, evm.env, contract, input)
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}
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}
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*/
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// Get the memory location of pc
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op = contract.GetOp(pc)
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// calculate the new memory size and gas price for the current executing opcode
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newMemSize, cost, err = calculateGasAndSize(evm.gasTable, evm.env, contract, caller, op, statedb, mem, stack)
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if err != nil {
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return nil, err
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}
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// Use the calculated gas. When insufficient gas is present, use all gas and return an
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// Out Of Gas error
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if !contract.UseGas(cost) {
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return nil, OutOfGasError
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}
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// Resize the memory calculated previously
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mem.Resize(newMemSize.Uint64())
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// Add a log message
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if evm.cfg.Debug {
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evm.cfg.Tracer.CaptureState(evm.env, pc, op, contract.Gas, cost, mem, stack, contract, evm.env.Depth(), nil)
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}
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if opPtr := evm.jumpTable[op]; opPtr.valid {
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if opPtr.fn != nil {
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opPtr.fn(instruction{}, &pc, evm.env, contract, mem, stack)
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} else {
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switch op {
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case PC:
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opPc(instruction{data: new(big.Int).SetUint64(pc)}, &pc, evm.env, contract, mem, stack)
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case JUMP:
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if err := jump(pc, stack.pop()); err != nil {
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return nil, err
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}
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continue
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case JUMPI:
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pos, cond := stack.pop(), stack.pop()
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if cond.Cmp(common.BigTrue) >= 0 {
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if err := jump(pc, pos); err != nil {
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return nil, err
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}
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continue
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}
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case RETURN:
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offset, size := stack.pop(), stack.pop()
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ret := mem.GetPtr(offset.Int64(), size.Int64())
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return ret, nil
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case SUICIDE:
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opSuicide(instruction{}, nil, evm.env, contract, mem, stack)
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fallthrough
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case STOP: // Stop the contract
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return nil, nil
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}
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}
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} else {
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return nil, fmt.Errorf("Invalid opcode %x", op)
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}
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pc++
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}
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}
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// calculateGasAndSize calculates the required given the opcode and stack items calculates the new memorysize for
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// the operation. This does not reduce gas or resizes the memory.
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func calculateGasAndSize(gasTable params.GasTable, env Environment, contract *Contract, caller ContractRef, op OpCode, statedb Database, mem *Memory, stack *Stack) (*big.Int, *big.Int, error) {
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var (
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gas = new(big.Int)
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newMemSize *big.Int = new(big.Int)
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)
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err := baseCheck(op, stack, gas)
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if err != nil {
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return nil, nil, err
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}
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// stack Check, memory resize & gas phase
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switch op {
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case SUICIDE:
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// if suicide is not nil: homestead gas fork
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if gasTable.CreateBySuicide != nil {
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gas.Set(gasTable.Suicide)
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if !env.Db().Exist(common.BigToAddress(stack.data[len(stack.data)-1])) {
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gas.Add(gas, gasTable.CreateBySuicide)
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}
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}
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if !statedb.HasSuicided(contract.Address()) {
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statedb.AddRefund(params.SuicideRefundGas)
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}
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case EXTCODESIZE:
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gas.Set(gasTable.ExtcodeSize)
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case BALANCE:
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gas.Set(gasTable.Balance)
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case SLOAD:
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gas.Set(gasTable.SLoad)
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case SWAP1, SWAP2, SWAP3, SWAP4, SWAP5, SWAP6, SWAP7, SWAP8, SWAP9, SWAP10, SWAP11, SWAP12, SWAP13, SWAP14, SWAP15, SWAP16:
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n := int(op - SWAP1 + 2)
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err := stack.require(n)
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if err != nil {
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return nil, nil, err
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}
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gas.Set(GasFastestStep)
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case DUP1, DUP2, DUP3, DUP4, DUP5, DUP6, DUP7, DUP8, DUP9, DUP10, DUP11, DUP12, DUP13, DUP14, DUP15, DUP16:
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n := int(op - DUP1 + 1)
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err := stack.require(n)
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if err != nil {
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return nil, nil, err
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}
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gas.Set(GasFastestStep)
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case LOG0, LOG1, LOG2, LOG3, LOG4:
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n := int(op - LOG0)
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err := stack.require(n + 2)
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if err != nil {
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return nil, nil, err
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}
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mSize, mStart := stack.data[stack.len()-2], stack.data[stack.len()-1]
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gas.Add(gas, params.LogGas)
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gas.Add(gas, new(big.Int).Mul(big.NewInt(int64(n)), params.LogTopicGas))
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gas.Add(gas, new(big.Int).Mul(mSize, params.LogDataGas))
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newMemSize = calcMemSize(mStart, mSize)
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quadMemGas(mem, newMemSize, gas)
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case EXP:
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gas.Add(gas, new(big.Int).Mul(big.NewInt(int64(len(stack.data[stack.len()-2].Bytes()))), params.ExpByteGas))
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case SSTORE:
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err := stack.require(2)
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if err != nil {
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return nil, nil, err
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}
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var g *big.Int
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y, x := stack.data[stack.len()-2], stack.data[stack.len()-1]
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val := statedb.GetState(contract.Address(), common.BigToHash(x))
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// This checks for 3 scenario's and calculates gas accordingly
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// 1. From a zero-value address to a non-zero value (NEW VALUE)
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// 2. From a non-zero value address to a zero-value address (DELETE)
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// 3. From a non-zero to a non-zero (CHANGE)
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if common.EmptyHash(val) && !common.EmptyHash(common.BigToHash(y)) {
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// 0 => non 0
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g = params.SstoreSetGas
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} else if !common.EmptyHash(val) && common.EmptyHash(common.BigToHash(y)) {
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statedb.AddRefund(params.SstoreRefundGas)
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g = params.SstoreClearGas
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} else {
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// non 0 => non 0 (or 0 => 0)
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g = params.SstoreResetGas
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}
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gas.Set(g)
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case MLOAD:
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newMemSize = calcMemSize(stack.peek(), u256(32))
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quadMemGas(mem, newMemSize, gas)
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case MSTORE8:
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newMemSize = calcMemSize(stack.peek(), u256(1))
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quadMemGas(mem, newMemSize, gas)
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case MSTORE:
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newMemSize = calcMemSize(stack.peek(), u256(32))
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quadMemGas(mem, newMemSize, gas)
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case RETURN:
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newMemSize = calcMemSize(stack.peek(), stack.data[stack.len()-2])
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quadMemGas(mem, newMemSize, gas)
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case SHA3:
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newMemSize = calcMemSize(stack.peek(), stack.data[stack.len()-2])
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words := toWordSize(stack.data[stack.len()-2])
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gas.Add(gas, words.Mul(words, params.Sha3WordGas))
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quadMemGas(mem, newMemSize, gas)
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case CALLDATACOPY:
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newMemSize = calcMemSize(stack.peek(), stack.data[stack.len()-3])
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words := toWordSize(stack.data[stack.len()-3])
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gas.Add(gas, words.Mul(words, params.CopyGas))
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quadMemGas(mem, newMemSize, gas)
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case CODECOPY:
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newMemSize = calcMemSize(stack.peek(), stack.data[stack.len()-3])
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words := toWordSize(stack.data[stack.len()-3])
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gas.Add(gas, words.Mul(words, params.CopyGas))
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quadMemGas(mem, newMemSize, gas)
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case EXTCODECOPY:
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gas.Set(gasTable.ExtcodeCopy)
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newMemSize = calcMemSize(stack.data[stack.len()-2], stack.data[stack.len()-4])
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words := toWordSize(stack.data[stack.len()-4])
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gas.Add(gas, words.Mul(words, params.CopyGas))
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quadMemGas(mem, newMemSize, gas)
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case CREATE:
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newMemSize = calcMemSize(stack.data[stack.len()-2], stack.data[stack.len()-3])
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quadMemGas(mem, newMemSize, gas)
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case CALL, CALLCODE:
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gas.Set(gasTable.Calls)
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if op == CALL {
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if !env.Db().Exist(common.BigToAddress(stack.data[stack.len()-2])) {
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gas.Add(gas, params.CallNewAccountGas)
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}
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}
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if len(stack.data[stack.len()-3].Bytes()) > 0 {
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gas.Add(gas, params.CallValueTransferGas)
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}
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x := calcMemSize(stack.data[stack.len()-6], stack.data[stack.len()-7])
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y := calcMemSize(stack.data[stack.len()-4], stack.data[stack.len()-5])
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newMemSize = common.BigMax(x, y)
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quadMemGas(mem, newMemSize, gas)
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cg := callGas(gasTable, contract.Gas, gas, stack.data[stack.len()-1])
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// Replace the stack item with the new gas calculation. This means that
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// either the original item is left on the stack or the item is replaced by:
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// (availableGas - gas) * 63 / 64
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// We replace the stack item so that it's available when the opCall instruction is
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// called. This information is otherwise lost due to the dependency on *current*
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// available gas.
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stack.data[stack.len()-1] = cg
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gas.Add(gas, cg)
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case DELEGATECALL:
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gas.Set(gasTable.Calls)
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x := calcMemSize(stack.data[stack.len()-5], stack.data[stack.len()-6])
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y := calcMemSize(stack.data[stack.len()-3], stack.data[stack.len()-4])
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newMemSize = common.BigMax(x, y)
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quadMemGas(mem, newMemSize, gas)
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cg := callGas(gasTable, contract.Gas, gas, stack.data[stack.len()-1])
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// Replace the stack item with the new gas calculation. This means that
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// either the original item is left on the stack or the item is replaced by:
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// (availableGas - gas) * 63 / 64
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// We replace the stack item so that it's available when the opCall instruction is
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// called.
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stack.data[stack.len()-1] = cg
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gas.Add(gas, cg)
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}
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return newMemSize, gas, nil
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}
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// RunPrecompile runs and evaluate the output of a precompiled contract defined in contracts.go
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func (evm *EVM) RunPrecompiled(p *PrecompiledAccount, input []byte, contract *Contract) (ret []byte, err error) {
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gas := p.Gas(len(input))
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if contract.UseGas(gas) {
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ret = p.Call(input)
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return ret, nil
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} else {
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return nil, OutOfGasError
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}
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}
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