forked from cerc-io/plugeth
448 lines
10 KiB
Go
448 lines
10 KiB
Go
package ethchain
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import (
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_ "bytes"
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_ "fmt"
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"github.com/ethereum/eth-go/ethutil"
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_ "github.com/obscuren/secp256k1-go"
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_ "math"
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"math/big"
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)
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var (
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GasStep = big.NewInt(1)
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GasSha = big.NewInt(20)
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GasSLoad = big.NewInt(20)
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GasSStore = big.NewInt(100)
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GasBalance = big.NewInt(20)
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GasCreate = big.NewInt(100)
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GasCall = big.NewInt(20)
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GasMemory = big.NewInt(1)
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)
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type Vm struct {
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txPool *TxPool
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// Stack for processing contracts
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stack *Stack
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// non-persistent key/value memory storage
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mem map[string]*big.Int
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vars RuntimeVars
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state *State
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}
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type RuntimeVars struct {
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origin []byte
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blockNumber uint64
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prevHash []byte
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coinbase []byte
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time int64
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diff *big.Int
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txData []string
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}
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func NewVm(state *State, vars RuntimeVars) *Vm {
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return &Vm{vars: vars, state: state}
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}
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var Pow256 = ethutil.BigPow(2, 256)
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func (vm *Vm) RunClosure(closure *Closure) []byte {
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// If the amount of gas supplied is less equal to 0
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if closure.Gas.Cmp(big.NewInt(0)) <= 0 {
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// TODO Do something
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}
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// Memory for the current closure
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mem := &Memory{}
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// New stack (should this be shared?)
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stack := NewStack()
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// Instruction pointer
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pc := big.NewInt(0)
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// Current step count
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step := 0
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// The base for all big integer arithmetic
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base := new(big.Int)
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if ethutil.Config.Debug {
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ethutil.Config.Log.Debugf("# op\n")
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}
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for {
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step++
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// Get the memory location of pc
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val := closure.Get(pc)
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// Get the opcode (it must be an opcode!)
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op := OpCode(val.Uint())
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if ethutil.Config.Debug {
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ethutil.Config.Log.Debugf("%-3d %-4s", pc, op.String())
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}
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// TODO Get each instruction cost properly
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gas := new(big.Int)
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useGas := func(amount *big.Int) {
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gas.Add(gas, amount)
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}
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switch op {
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case oSHA3:
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useGas(GasSha)
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case oSLOAD:
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useGas(GasSLoad)
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case oSSTORE:
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var mult *big.Int
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y, x := stack.Peekn()
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val := closure.GetMem(x)
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if val.IsEmpty() && len(y.Bytes()) > 0 {
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mult = ethutil.Big2
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} else if !val.IsEmpty() && len(y.Bytes()) == 0 {
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mult = ethutil.Big0
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} else {
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mult = ethutil.Big1
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}
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useGas(base.Mul(mult, GasSStore))
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case oBALANCE:
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useGas(GasBalance)
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case oCREATE:
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useGas(GasCreate)
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case oCALL:
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useGas(GasCall)
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case oMLOAD, oMSIZE, oMSTORE8, oMSTORE:
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useGas(GasMemory)
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default:
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useGas(GasStep)
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}
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if closure.Gas.Cmp(gas) < 0 {
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ethutil.Config.Log.Debugln("Insufficient gas", closure.Gas, gas)
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return closure.Return(nil)
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}
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switch op {
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case oLOG:
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stack.Print()
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mem.Print()
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case oSTOP: // Stop the closure
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return closure.Return(nil)
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// 0x20 range
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case oADD:
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x, y := stack.Popn()
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// (x + y) % 2 ** 256
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base.Add(x, y)
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base.Mod(base, Pow256)
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// Pop result back on the stack
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stack.Push(base)
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case oSUB:
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x, y := stack.Popn()
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// (x - y) % 2 ** 256
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base.Sub(x, y)
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base.Mod(base, Pow256)
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// Pop result back on the stack
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stack.Push(base)
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case oMUL:
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x, y := stack.Popn()
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// (x * y) % 2 ** 256
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base.Mul(x, y)
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base.Mod(base, Pow256)
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// Pop result back on the stack
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stack.Push(base)
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case oDIV:
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x, y := stack.Popn()
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// floor(x / y)
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base.Div(x, y)
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// Pop result back on the stack
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stack.Push(base)
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case oSDIV:
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x, y := stack.Popn()
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// n > 2**255
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if x.Cmp(Pow256) > 0 {
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x.Sub(Pow256, x)
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}
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if y.Cmp(Pow256) > 0 {
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y.Sub(Pow256, y)
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}
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z := new(big.Int)
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z.Div(x, y)
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if z.Cmp(Pow256) > 0 {
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z.Sub(Pow256, z)
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}
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// Push result on to the stack
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stack.Push(z)
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case oMOD:
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x, y := stack.Popn()
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base.Mod(x, y)
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stack.Push(base)
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case oSMOD:
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x, y := stack.Popn()
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// n > 2**255
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if x.Cmp(Pow256) > 0 {
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x.Sub(Pow256, x)
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}
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if y.Cmp(Pow256) > 0 {
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y.Sub(Pow256, y)
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}
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z := new(big.Int)
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z.Mod(x, y)
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if z.Cmp(Pow256) > 0 {
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z.Sub(Pow256, z)
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}
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// Push result on to the stack
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stack.Push(z)
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case oEXP:
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x, y := stack.Popn()
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base.Exp(x, y, Pow256)
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stack.Push(base)
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case oNEG:
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base.Sub(Pow256, stack.Pop())
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stack.Push(base)
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case oLT:
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x, y := stack.Popn()
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// x < y
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if x.Cmp(y) < 0 {
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stack.Push(ethutil.BigTrue)
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} else {
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stack.Push(ethutil.BigFalse)
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}
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case oGT:
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x, y := stack.Popn()
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// x > y
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if x.Cmp(y) > 0 {
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stack.Push(ethutil.BigTrue)
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} else {
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stack.Push(ethutil.BigFalse)
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}
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case oEQ:
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x, y := stack.Popn()
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// x == y
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if x.Cmp(y) == 0 {
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stack.Push(ethutil.BigTrue)
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} else {
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stack.Push(ethutil.BigFalse)
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}
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case oNOT:
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x := stack.Pop()
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if x.Cmp(ethutil.BigFalse) == 0 {
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stack.Push(ethutil.BigTrue)
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} else {
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stack.Push(ethutil.BigFalse)
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}
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// 0x10 range
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case oAND:
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x, y := stack.Popn()
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if (x.Cmp(ethutil.BigTrue) >= 0) && (y.Cmp(ethutil.BigTrue) >= 0) {
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stack.Push(ethutil.BigTrue)
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} else {
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stack.Push(ethutil.BigFalse)
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}
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case oOR:
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x, y := stack.Popn()
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if (x.Cmp(ethutil.BigInt0) >= 0) || (y.Cmp(ethutil.BigInt0) >= 0) {
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stack.Push(ethutil.BigTrue)
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} else {
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stack.Push(ethutil.BigFalse)
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}
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case oXOR:
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x, y := stack.Popn()
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stack.Push(base.Xor(x, y))
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case oBYTE:
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val, th := stack.Popn()
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if th.Cmp(big.NewInt(32)) < 0 {
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stack.Push(big.NewInt(int64(len(val.Bytes())-1) - th.Int64()))
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} else {
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stack.Push(ethutil.BigFalse)
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}
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// 0x20 range
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case oSHA3:
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size, offset := stack.Popn()
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data := mem.Get(offset.Int64(), size.Int64())
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stack.Push(ethutil.BigD(data))
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// 0x30 range
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case oADDRESS:
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stack.Push(ethutil.BigD(closure.Object().Address()))
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case oBALANCE:
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stack.Push(closure.Value)
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case oORIGIN:
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stack.Push(ethutil.BigD(vm.vars.origin))
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case oCALLER:
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stack.Push(ethutil.BigD(closure.Callee().Address()))
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case oCALLVALUE:
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// FIXME: Original value of the call, not the current value
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stack.Push(closure.Value)
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case oCALLDATA:
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offset := stack.Pop()
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mem.Set(offset.Int64(), int64(len(closure.Args)), closure.Args)
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case oCALLDATASIZE:
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stack.Push(big.NewInt(int64(len(closure.Args))))
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case oGASPRICE:
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// TODO
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// 0x40 range
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case oPREVHASH:
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stack.Push(ethutil.BigD(vm.vars.prevHash))
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case oCOINBASE:
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stack.Push(ethutil.BigD(vm.vars.coinbase))
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case oTIMESTAMP:
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stack.Push(big.NewInt(vm.vars.time))
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case oNUMBER:
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stack.Push(big.NewInt(int64(vm.vars.blockNumber)))
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case oDIFFICULTY:
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stack.Push(vm.vars.diff)
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case oGASLIMIT:
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// TODO
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// 0x50 range
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case oPUSH: // Push PC+1 on to the stack
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pc.Add(pc, ethutil.Big1)
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data := closure.Gets(pc, big.NewInt(32))
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val := ethutil.BigD(data.Bytes())
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// Push value to stack
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stack.Push(val)
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pc.Add(pc, big.NewInt(31))
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case oPUSH20:
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pc.Add(pc, ethutil.Big1)
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data := closure.Gets(pc, big.NewInt(20))
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val := ethutil.BigD(data.Bytes())
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// Push value to stack
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stack.Push(val)
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pc.Add(pc, big.NewInt(19))
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case oPOP:
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stack.Pop()
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case oDUP:
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stack.Push(stack.Peek())
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case oSWAP:
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x, y := stack.Popn()
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stack.Push(y)
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stack.Push(x)
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case oMLOAD:
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offset := stack.Pop()
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stack.Push(ethutil.BigD(mem.Get(offset.Int64(), 32)))
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case oMSTORE: // Store the value at stack top-1 in to memory at location stack top
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// Pop value of the stack
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val, mStart := stack.Popn()
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mem.Set(mStart.Int64(), 32, ethutil.BigToBytes(val, 256))
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case oMSTORE8:
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val, mStart := stack.Popn()
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base.And(val, new(big.Int).SetInt64(0xff))
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mem.Set(mStart.Int64(), 32, ethutil.BigToBytes(base, 256))
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case oSLOAD:
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loc := stack.Pop()
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val := closure.GetMem(loc)
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stack.Push(val.BigInt())
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case oSSTORE:
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val, loc := stack.Popn()
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closure.SetMem(loc, ethutil.NewValue(val))
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case oJUMP:
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pc = stack.Pop()
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case oJUMPI:
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cond, pos := stack.Popn()
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if cond.Cmp(ethutil.BigTrue) == 0 {
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pc = pos
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}
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case oPC:
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stack.Push(pc)
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case oMSIZE:
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stack.Push(big.NewInt(int64(mem.Len())))
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// 0x60 range
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case oCALL:
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// Closure addr
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addr := stack.Pop()
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// Pop gas and value of the stack.
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gas, value := stack.Popn()
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// Pop input size and offset
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inSize, inOffset := stack.Popn()
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// Pop return size and offset
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retSize, retOffset := stack.Popn()
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// Get the arguments from the memory
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args := mem.Get(inOffset.Int64(), inSize.Int64())
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// Fetch the contract which will serve as the closure body
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contract := vm.state.GetContract(addr.Bytes())
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// Create a new callable closure
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closure := NewClosure(closure, contract, contract.script, vm.state, gas, value)
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// Executer the closure and get the return value (if any)
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ret := closure.Call(vm, args)
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mem.Set(retOffset.Int64(), retSize.Int64(), ret)
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case oRETURN:
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size, offset := stack.Popn()
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ret := mem.Get(offset.Int64(), size.Int64())
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return closure.Return(ret)
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case oSUICIDE:
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/*
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recAddr := stack.Pop().Bytes()
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// Purge all memory
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deletedMemory := contract.state.Purge()
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// Add refunds to the pop'ed address
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refund := new(big.Int).Mul(StoreFee, big.NewInt(int64(deletedMemory)))
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account := state.GetAccount(recAddr)
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account.Amount.Add(account.Amount, refund)
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// Update the refunding address
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state.UpdateAccount(recAddr, account)
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// Delete the contract
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state.trie.Update(string(addr), "")
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ethutil.Config.Log.Debugf("(%d) => %x\n", deletedMemory, recAddr)
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break out
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*/
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default:
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ethutil.Config.Log.Debugf("Invalid opcode %x\n", op)
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return closure.Return(nil)
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}
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pc.Add(pc, ethutil.Big1)
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}
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}
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/*
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func makeInlineTx(addr []byte, value, from, length *big.Int, contract *Contract, state *State) {
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ethutil.Config.Log.Debugf(" => creating inline tx %x %v %v %v", addr, value, from, length)
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j := int64(0)
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dataItems := make([]string, int(length.Uint64()))
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for i := from.Int64(); i < length.Int64(); i++ {
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dataItems[j] = contract.GetMem(big.NewInt(j)).Str()
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j++
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}
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tx := NewTransaction(addr, value, dataItems)
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if tx.IsContract() {
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contract := MakeContract(tx, state)
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state.UpdateContract(contract)
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} else {
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account := state.GetAccount(tx.Recipient)
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account.Amount.Add(account.Amount, tx.Value)
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state.UpdateAccount(tx.Recipient, account)
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}
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}
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// Returns an address from the specified contract's address
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func contractMemory(state *State, contractAddr []byte, memAddr *big.Int) *big.Int {
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contract := state.GetContract(contractAddr)
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if contract == nil {
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log.Panicf("invalid contract addr %x", contractAddr)
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}
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val := state.trie.Get(memAddr.String())
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// decode the object as a big integer
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decoder := ethutil.NewValueFromBytes([]byte(val))
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if decoder.IsNil() {
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return ethutil.BigFalse
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}
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return decoder.BigInt()
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}
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*/
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