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Closures and vm based on closures

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Status: Work in progress
pull/150/head
obscuren 11 years ago
parent 82d0f65dab
commit 38ea6a6d5d
3 changed files with 217 additions and 5 deletions
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  1. 68
      ethchain/closure.go
  2. 98
      ethchain/vm.go
  3. 56
      ethchain/vm_test.go

68
ethchain/closure.go
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@ -0,0 +1,68 @@
package ethchain
// TODO Re write VM to use values instead of big integers?
import (
"github.com/ethereum/eth-go/ethutil"
"math/big"
)
type Callee interface {
ReturnGas(*big.Int, *State)
}
type ClosureBody interface {
Callee
ethutil.RlpEncodable
GetMem(int64) *ethutil.Value
}
// Basic inline closure object which implement the 'closure' interface
type Closure struct {
callee Callee
object ClosureBody
state *State
gas *big.Int
val *big.Int
}
// Create a new closure for the given data items
func NewClosure(callee Callee, object ClosureBody, state *State, gas, val *big.Int) *Closure {
return &Closure{callee, object, state, gas, val}
}
// Retuns the x element in data slice
func (c *Closure) GetMem(x int64) *ethutil.Value {
m := c.object.GetMem(x)
if m == nil {
return ethutil.EmptyValue()
}
return m
}
func (c *Closure) Return(ret []byte) []byte {
// Return the remaining gas to the callee
// If no callee is present return it to
// the origin (i.e. contract or tx)
if c.callee != nil {
c.callee.ReturnGas(c.gas, c.state)
} else {
c.object.ReturnGas(c.gas, c.state)
// TODO incase it's a POST contract we gotta serialise the contract again.
// But it's not yet defined
}
return ret
}
// Implement the Callee interface
func (c *Closure) ReturnGas(gas *big.Int, state *State) {
// Return the gas to the closure
c.gas.Add(c.gas, gas)
}
func (c *Closure) GetGas() *big.Int {
return c.gas
}

98
ethchain/vm.go
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@ -32,13 +32,101 @@ type RuntimeVars struct {
txData []string txData []string
} }
func (vm *Vm) RunClosure(closure *Closure, state *State, vars RuntimeVars) []byte {
// If the amount of gas supplied is less equal to 0
if closure.GetGas().Cmp(big.NewInt(0)) <= 0 {
// TODO Do something
}
// Memory for the current closure
var mem []byte
// New stack (should this be shared?)
stack := NewStack()
// Instruction pointer
pc := int64(0)
// Current address
//addr := vars.address
step := 0
if ethutil.Config.Debug {
ethutil.Config.Log.Debugf("# op\n")
}
for {
step++
// Get the memory location of pc
val := closure.GetMem(pc)
// Get the opcode (it must be an opcode!)
op := OpCode(val.Uint())
if ethutil.Config.Debug {
ethutil.Config.Log.Debugf("%-3d %-4s", pc, op.String())
}
// TODO Get each instruction cost properly
fee := new(big.Int)
fee.Add(fee, big.NewInt(1000))
if closure.GetGas().Cmp(fee) < 0 {
return closure.Return(nil)
}
switch op {
case oSTOP:
return closure.Return(nil)
case oPUSH:
pc++
val := closure.GetMem(pc).BigInt()
stack.Push(val)
case oMSTORE:
// Pop value of the stack
val := stack.Pop()
// Set the bytes to the memory field
mem = append(mem, ethutil.BigToBytes(val, 256)...)
case oCALL:
// Pop return size and offset
retSize, retOffset := stack.Popn()
// Pop input size and offset
inSize, inOffset := stack.Popn()
// TODO remove me.
fmt.Sprintln(inSize, inOffset)
// Pop gas and value of the stack.
gas, value := stack.Popn()
// Closure addr
addr := stack.Pop()
contract := state.GetContract(addr.Bytes())
closure := NewClosure(closure, contract, state, gas, value)
ret := vm.RunClosure(closure, state, vars)
// Ensure that memory is large enough to hold the returned data
totSize := new(big.Int).Add(retOffset, retSize)
lenSize := big.NewInt(int64(len(mem)))
// Resize the current memory slice so that the return value may fit
if totSize.Cmp(lenSize) > 0 {
diff := new(big.Int).Sub(totSize, lenSize)
newSlice := make([]byte, diff.Int64()+1)
mem = append(mem, newSlice...)
}
copy(mem[retOffset.Int64():retOffset.Int64()+retSize.Int64()+1], ret)
case oRETURN:
size, offset := stack.Popn()
ret := mem[offset.Int64() : offset.Int64()+size.Int64()+1]
return closure.Return(ret)
}
pc++
}
}
// Old VM code
func (vm *Vm) Process(contract *Contract, state *State, vars RuntimeVars) { func (vm *Vm) Process(contract *Contract, state *State, vars RuntimeVars) {
vm.mem = make(map[string]*big.Int) vm.mem = make(map[string]*big.Int)
vm.stack = NewStack() vm.stack = NewStack()
addr := vars.address // tx.Hash()[12:] addr := vars.address // tx.Hash()[12:]
// Instruction pointer // Instruction pointer
pc := 0 pc := int64(0)
if contract == nil { if contract == nil {
fmt.Println("Contract not found") fmt.Println("Contract not found")
@ -344,7 +432,7 @@ out:
contract.SetAddr(addr, y) contract.SetAddr(addr, y)
//contract.State().Update(string(idx), string(y)) //contract.State().Update(string(idx), string(y))
case oJMP: case oJMP:
x := int(vm.stack.Pop().Uint64()) x := vm.stack.Pop().Int64()
// Set pc to x - 1 (minus one so the incrementing at the end won't effect it) // Set pc to x - 1 (minus one so the incrementing at the end won't effect it)
pc = x pc = x
pc-- pc--
@ -352,7 +440,7 @@ out:
x := vm.stack.Pop() x := vm.stack.Pop()
// Set pc to x if it's non zero // Set pc to x if it's non zero
if x.Cmp(ethutil.BigFalse) != 0 { if x.Cmp(ethutil.BigFalse) != 0 {
pc = int(x.Uint64()) pc = x.Int64()
pc-- pc--
} }
case oIND: case oIND:
@ -400,9 +488,9 @@ out:
func makeInlineTx(addr []byte, value, from, length *big.Int, contract *Contract, state *State) { func makeInlineTx(addr []byte, value, from, length *big.Int, contract *Contract, state *State) {
ethutil.Config.Log.Debugf(" => creating inline tx %x %v %v %v", addr, value, from, length) ethutil.Config.Log.Debugf(" => creating inline tx %x %v %v %v", addr, value, from, length)
j := 0 j := int64(0)
dataItems := make([]string, int(length.Uint64())) dataItems := make([]string, int(length.Uint64()))
for i := from.Uint64(); i < length.Uint64(); i++ { for i := from.Int64(); i < length.Int64(); i++ {
dataItems[j] = contract.GetMem(j).Str() dataItems[j] = contract.GetMem(j).Str()
j++ j++
} }

56
ethchain/vm_test.go
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@ -8,6 +8,8 @@ import (
"testing" "testing"
) )
/*
func TestRun(t *testing.T) { func TestRun(t *testing.T) {
InitFees() InitFees()
@ -104,3 +106,57 @@ func TestRun2(t *testing.T) {
txData: tx.Data, txData: tx.Data,
}) })
} }
*/
// XXX Full stack test
func TestRun3(t *testing.T) {
ethutil.ReadConfig("")
db, _ := ethdb.NewMemDatabase()
state := NewState(ethutil.NewTrie(db, ""))
script := Compile([]string{
"PUSH", "300",
"MSTORE",
"PUSH", "300",
"MSTORE",
"PUSH", "62",
"PUSH", "0",
"RETURN",
})
tx := NewTransaction(ContractAddr, ethutil.Big("100000000000000000000000000000000000000000000000000"), script)
addr := tx.Hash()[12:]
fmt.Printf("addr contract %x\n", addr)
contract := MakeContract(tx, state)
state.UpdateContract(addr, contract)
callerScript := Compile([]string{
"PUSH", "62", // REND
"PUSH", "0", // RSTART
"PUSH", "22", // MEND
"PUSH", "15", // MSTART
"PUSH", "1000", /// Gas
"PUSH", "0", /// value
"PUSH", string(addr), // Sender
"CALL",
})
callerTx := NewTransaction(ContractAddr, ethutil.Big("100000000000000000000000000000000000000000000000000"), callerScript)
callerAddr := callerTx.Hash()[12:]
executer := NewTransaction(ContractAddr, ethutil.Big("10000"), nil)
executer.Sign([]byte("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"))
callerClosure := NewClosure(executer, MakeContract(callerTx, state), state, big.NewInt(1000000000), new(big.Int))
vm := &Vm{}
vm.RunClosure(callerClosure, state, RuntimeVars{
address: callerAddr,
blockNumber: 1,
sender: ethutil.FromHex("cd1722f3947def4cf144679da39c4c32bdc35681"),
prevHash: ethutil.FromHex("5e20a0453cecd065ea59c37ac63e079ee08998b6045136a8ce6635c7912ec0b6"),
coinbase: ethutil.FromHex("2adc25665018aa1fe0e6bc666dac8fc2697ff9ba"),
time: 1,
diff: big.NewInt(256),
txValue: big.NewInt(10000),
txData: nil,
})
}

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