Browse Source

Merge branch 'unflip' of https://github.com/tendermint/tendermint into unflip

Conflicts:
	vm/vm.go
pull/55/head
Ethan Buchman 10 years ago
parent
commit
a28c1c83fc
14 changed files with 235 additions and 182 deletions
  1. +8
    -2
      common/word.go
  2. +1
    -1
      rpc/core/accounts.go
  3. +3
    -3
      rpc/core/txs.go
  4. +1
    -1
      rpc/test/helpers_test.go
  5. +2
    -2
      rpc/test/tests_test.go
  6. +1
    -1
      state/block_cache.go
  7. +1
    -1
      state/execution.go
  8. +1
    -1
      state/tx_cache.go
  9. +26
    -0
      vm/common.go
  10. +2
    -2
      vm/native.go
  11. +3
    -2
      vm/stack.go
  12. +1
    -1
      vm/test/fake_app_state.go
  13. +2
    -2
      vm/test/vm_test.go
  14. +183
    -163
      vm/vm.go

+ 8
- 2
common/word.go View File

@ -31,7 +31,10 @@ func (w Word256) Compare(other Word256) int {
func Uint64ToWord256(i uint64) Word256 { func Uint64ToWord256(i uint64) Word256 {
word := Word256{} word := Word256{}
PutUint64(word[:], i)
buf := [8]byte{}
PutUint64(buf[:], i)
word[24], word[25], word[26], word[27] = buf[7], buf[6], buf[5], buf[4]
word[28], word[29], word[30], word[31] = buf[3], buf[2], buf[1], buf[0]
return word return word
} }
@ -46,7 +49,10 @@ func LeftPadWord256(bz []byte) (word Word256) {
} }
func Uint64FromWord256(word Word256) uint64 { func Uint64FromWord256(word Word256) uint64 {
return binary.LittleEndian.Uint64(word[:])
buf := [8]byte{}
buf[0], buf[1], buf[2], buf[3] = word[31], word[30], word[29], word[28]
buf[4], buf[5], buf[6], buf[7] = word[27], word[26], word[25], word[24]
return binary.LittleEndian.Uint64(buf[:])
} }
//------------------------------------- //-------------------------------------


+ 1
- 1
rpc/core/accounts.go View File

@ -36,7 +36,7 @@ func GetStorage(address, key []byte) (*ctypes.ResponseGetStorage, error) {
storageRoot := account.StorageRoot storageRoot := account.StorageRoot
storageTree := state.LoadStorage(storageRoot) storageTree := state.LoadStorage(storageRoot)
_, value := storageTree.Get(RightPadWord256(key).Bytes())
_, value := storageTree.Get(LeftPadWord256(key).Bytes())
if value == nil { if value == nil {
return &ctypes.ResponseGetStorage{key, nil}, nil return &ctypes.ResponseGetStorage{key, nil}, nil
} }


+ 3
- 3
rpc/core/txs.go View File

@ -16,7 +16,7 @@ func toVMAccount(acc *account.Account) *vm.Account {
Balance: acc.Balance, Balance: acc.Balance,
Code: acc.Code, // This is crazy. Code: acc.Code, // This is crazy.
Nonce: uint64(acc.Sequence), Nonce: uint64(acc.Sequence),
StorageRoot: RightPadWord256(acc.StorageRoot),
StorageRoot: LeftPadWord256(acc.StorageRoot),
Other: acc.PubKey, Other: acc.PubKey,
} }
} }
@ -37,7 +37,7 @@ func Call(address, data []byte) (*ctypes.ResponseCall, error) {
txCache := state.NewTxCache(cache) txCache := state.NewTxCache(cache)
params := vm.Params{ params := vm.Params{
BlockHeight: uint64(st.LastBlockHeight), BlockHeight: uint64(st.LastBlockHeight),
BlockHash: RightPadWord256(st.LastBlockHash),
BlockHash: LeftPadWord256(st.LastBlockHash),
BlockTime: st.LastBlockTime.Unix(), BlockTime: st.LastBlockTime.Unix(),
GasLimit: 10000000, GasLimit: 10000000,
} }
@ -62,7 +62,7 @@ func CallCode(code, data []byte) (*ctypes.ResponseCall, error) {
txCache := state.NewTxCache(cache) txCache := state.NewTxCache(cache)
params := vm.Params{ params := vm.Params{
BlockHeight: uint64(st.LastBlockHeight), BlockHeight: uint64(st.LastBlockHeight),
BlockHash: RightPadWord256(st.LastBlockHash),
BlockHash: LeftPadWord256(st.LastBlockHash),
BlockTime: st.LastBlockTime.Unix(), BlockTime: st.LastBlockTime.Unix(),
GasLimit: 10000000, GasLimit: 10000000,
} }


+ 1
- 1
rpc/test/helpers_test.go View File

@ -288,7 +288,7 @@ func simpleContract() ([]byte, []byte, []byte) {
// the is the code we need to return the contractCode when the contract is initialized // the is the code we need to return the contractCode when the contract is initialized
lenCode := len(contractCode) lenCode := len(contractCode)
// push code to the stack // push code to the stack
//code := append([]byte{byte(0x60 + lenCode - 1)}, LeftPadWord256(contractCode).Bytes()...)
//code := append([]byte{byte(0x60 + lenCode - 1)}, RightPadWord256(contractCode).Bytes()...)
code := append([]byte{0x7f}, RightPadWord256(contractCode).Bytes()...) code := append([]byte{0x7f}, RightPadWord256(contractCode).Bytes()...)
// store it in memory // store it in memory
code = append(code, []byte{0x60, 0x0, 0x52}...) code = append(code, []byte{0x60, 0x0, 0x52}...)


+ 2
- 2
rpc/test/tests_test.go View File

@ -119,8 +119,8 @@ func testGetStorage(t *testing.T, typ string) {
mempoolCount = 0 mempoolCount = 0
v := getStorage(t, typ, contractAddr, []byte{0x1}) v := getStorage(t, typ, contractAddr, []byte{0x1})
got := RightPadWord256(v)
expected := RightPadWord256([]byte{0x5})
got := LeftPadWord256(v)
expected := LeftPadWord256([]byte{0x5})
if got.Compare(expected) != 0 { if got.Compare(expected) != 0 {
t.Fatalf("Wrong storage value. Got %x, expected %x", got.Bytes(), expected.Bytes()) t.Fatalf("Wrong storage value. Got %x, expected %x", got.Bytes(), expected.Bytes())
} }


+ 1
- 1
state/block_cache.go View File

@ -106,7 +106,7 @@ func (cache *BlockCache) GetStorage(addr Word256, key Word256) (value Word256) {
_, val_ := storage.Get(key.Bytes()) _, val_ := storage.Get(key.Bytes())
value = Zero256 value = Zero256
if val_ != nil { if val_ != nil {
value = RightPadWord256(val_.([]byte))
value = LeftPadWord256(val_.([]byte))
} }
cache.storages[Tuple256{addr, key}] = storageInfo{value, false} cache.storages[Tuple256{addr, key}] = storageInfo{value, false}
return value return value


+ 1
- 1
state/execution.go View File

@ -395,7 +395,7 @@ func ExecTx(blockCache *BlockCache, tx_ types.Tx, runCall bool, evc events.Firea
txCache = NewTxCache(blockCache) txCache = NewTxCache(blockCache)
params = vm.Params{ params = vm.Params{
BlockHeight: uint64(_s.LastBlockHeight), BlockHeight: uint64(_s.LastBlockHeight),
BlockHash: RightPadWord256(_s.LastBlockHash),
BlockHash: LeftPadWord256(_s.LastBlockHash),
BlockTime: _s.LastBlockTime.Unix(), BlockTime: _s.LastBlockTime.Unix(),
GasLimit: 10000000, GasLimit: 10000000,
} }


+ 1
- 1
state/tx_cache.go View File

@ -158,7 +158,7 @@ func toVMAccount(acc *ac.Account) *vm.Account {
Balance: acc.Balance, Balance: acc.Balance,
Code: acc.Code, // This is crazy. Code: acc.Code, // This is crazy.
Nonce: uint64(acc.Sequence), Nonce: uint64(acc.Sequence),
StorageRoot: RightPadWord256(acc.StorageRoot),
StorageRoot: LeftPadWord256(acc.StorageRoot),
Other: acc.PubKey, Other: acc.PubKey,
} }
} }


+ 26
- 0
vm/common.go View File

@ -0,0 +1,26 @@
package vm
import (
"math/big"
)
// To256
//
// "cast" the big int to a 256 big int (i.e., limit to)
var tt256 = new(big.Int).Lsh(big.NewInt(1), 256)
var tt256m1 = new(big.Int).Sub(new(big.Int).Lsh(big.NewInt(1), 256), big.NewInt(1))
var tt255 = new(big.Int).Lsh(big.NewInt(1), 255)
func U256(x *big.Int) *big.Int {
x.And(x, tt256m1)
return x
}
func S256(x *big.Int) *big.Int {
if x.Cmp(tt255) < 0 {
return x
} else {
// We don't want to modify x, ever
return new(big.Int).Sub(x, tt256)
}
}

+ 2
- 2
vm/native.go View File

@ -39,7 +39,7 @@ func ecrecoverFunc(input []byte, gas *uint64) (output []byte, err error) {
return nil, err return nil, err
} }
hashed := sha3.Sha3(recovered[1:]) hashed := sha3.Sha3(recovered[1:])
return RightPadBytes(hashed, 32), nil
return LeftPadBytes(hashed, 32), nil
} }
func sha256Func(input []byte, gas *uint64) (output []byte, err error) { func sha256Func(input []byte, gas *uint64) (output []byte, err error) {
@ -73,7 +73,7 @@ func ripemd160Func(input []byte, gas *uint64) (output []byte, err error) {
if err != nil { if err != nil {
panic(err) panic(err)
} }
return RightPadBytes(hasher.Sum(nil), 32), nil
return LeftPadBytes(hasher.Sum(nil), 32), nil
} }
func identityFunc(input []byte, gas *uint64) (output []byte, err error) { func identityFunc(input []byte, gas *uint64) (output []byte, err error) {


+ 3
- 2
vm/stack.go View File

@ -51,7 +51,7 @@ func (st *Stack) PushBytes(bz []byte) {
if len(bz) != 32 { if len(bz) != 32 {
panic("Invalid bytes size: expected 32") panic("Invalid bytes size: expected 32")
} }
st.Push(RightPadWord256(bz))
st.Push(LeftPadWord256(bz))
} }
func (st *Stack) Push64(i uint64) { func (st *Stack) Push64(i uint64) {
@ -73,7 +73,8 @@ func (st *Stack) PopBytes() []byte {
} }
func (st *Stack) Pop64() uint64 { func (st *Stack) Pop64() uint64 {
return GetUint64(st.Pop().Bytes())
d := st.Pop()
return Uint64FromWord256(d)
} }
func (st *Stack) Len() int { func (st *Stack) Len() int {


+ 1
- 1
vm/test/fake_app_state.go View File

@ -90,5 +90,5 @@ func createAddress(creator *Account) Word256 {
temp := make([]byte, 32+8) temp := make([]byte, 32+8)
copy(temp, creator.Address[:]) copy(temp, creator.Address[:])
PutUint64(temp[32:], nonce) PutUint64(temp[32:], nonce)
return RightPadWord256(sha3.Sha3(temp)[:20])
return LeftPadWord256(sha3.Sha3(temp)[:20])
} }

+ 2
- 2
vm/test/vm_test.go View File

@ -64,10 +64,10 @@ func TestSubcurrency(t *testing.T) {
st := newAppState() st := newAppState()
// Create accounts // Create accounts
account1 := &Account{ account1 := &Account{
Address: RightPadWord256(makeBytes(20)),
Address: LeftPadWord256(makeBytes(20)),
} }
account2 := &Account{ account2 := &Account{
Address: RightPadWord256(makeBytes(20)),
Address: LeftPadWord256(makeBytes(20)),
} }
st.accounts[account1.Address.String()] = account1 st.accounts[account1.Address.String()] = account1
st.accounts[account2.Address.String()] = account2 st.accounts[account2.Address.String()] = account2


+ 183
- 163
vm/vm.go View File

@ -1,6 +1,7 @@
package vm package vm
import ( import (
"bytes"
"errors" "errors"
"fmt" "fmt"
"math/big" "math/big"
@ -131,207 +132,252 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
return nil, nil return nil, nil
case ADD: // 0x01 case ADD: // 0x01
//x, y := stack.Pop64(), stack.Pop64()
//stack.Push64(x + y)
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
xb := new(big.Int).SetBytes(x[:])
yb := new(big.Int).SetBytes(y[:])
sum := new(big.Int).Add(xb, yb) sum := new(big.Int).Add(xb, yb)
stack.Push(RightPadWord256(flip(sum.Bytes())))
dbg.Printf(" %v + %v = %v\n", xb, yb, sum)
res := LeftPadWord256(U256(sum).Bytes())
stack.Push(res)
dbg.Printf(" %v + %v = %v (%X)\n", xb, yb, sum, res)
case MUL: // 0x02 case MUL: // 0x02
//x, y := stack.Pop64(), stack.Pop64()
//stack.Push64(x * y)
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
xb := new(big.Int).SetBytes(x[:])
yb := new(big.Int).SetBytes(y[:])
prod := new(big.Int).Mul(xb, yb) prod := new(big.Int).Mul(xb, yb)
stack.Push(RightPadWord256(flip(rightMostBytes(prod.Bytes(), 32))))
dbg.Printf(" %v * %v = %v\n", xb, yb, prod)
res := LeftPadWord256(U256(prod).Bytes())
stack.Push(res)
dbg.Printf(" %v * %v = %v (%X)\n", xb, yb, prod, res)
case SUB: // 0x03 case SUB: // 0x03
//x, y := stack.Pop64(), stack.Pop64()
//stack.Push64(x - y)
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
xb := new(big.Int).SetBytes(x[:])
yb := new(big.Int).SetBytes(y[:])
diff := new(big.Int).Sub(xb, yb) diff := new(big.Int).Sub(xb, yb)
stack.Push(RightPadWord256(flip(diff.Bytes())))
dbg.Printf(" %v - %v = %v\n", xb, yb, diff)
res := LeftPadWord256(U256(diff).Bytes())
stack.Push(res)
dbg.Printf(" %v - %v = %v (%X)\n", xb, yb, diff, res)
case DIV: // 0x04 case DIV: // 0x04
//x, y := stack.Pop64(), stack.Pop64()
//stack.Push64(x / y)
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
if y.IsZero() { // TODO
if y.IsZero() {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %x / %x = %v (TODO)\n", x, y, 0)
dbg.Printf(" %x / %x = %v\n", x, y, 0)
} else { } else {
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
xb := new(big.Int).SetBytes(x[:])
yb := new(big.Int).SetBytes(y[:])
div := new(big.Int).Div(xb, yb) div := new(big.Int).Div(xb, yb)
stack.Push(RightPadWord256(flip(div.Bytes())))
dbg.Printf(" %v / %v = %v\n", xb, yb, div)
res := LeftPadWord256(U256(div).Bytes())
stack.Push(res)
dbg.Printf(" %v / %v = %v (%X)\n", xb, yb, div, res)
} }
case SDIV: // 0x05 case SDIV: // 0x05
// TODO ... big?
x, y := int64(stack.Pop64()), int64(stack.Pop64())
if y == 0 { // TODO
x, y := stack.Pop(), stack.Pop()
if y.IsZero() {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v / %v = %v (TODO)\n", x, y, 0)
dbg.Printf(" %x / %x = %v\n", x, y, 0)
} else { } else {
stack.Push64(uint64(x / y))
dbg.Printf(" %v / %v = %v\n", x, y, x/y)
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 case MOD: // 0x06
//x, y := stack.Pop64(), stack.Pop64()
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
if y.IsZero() { // TODO
if y.IsZero() {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v %% %v = %v (TODO)\n", x, y, 0)
dbg.Printf(" %v %% %v = %v\n", x, y, 0)
} else { } else {
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
xb := new(big.Int).SetBytes(x[:])
yb := new(big.Int).SetBytes(y[:])
mod := new(big.Int).Mod(xb, yb) mod := new(big.Int).Mod(xb, yb)
stack.Push(RightPadWord256(flip(mod.Bytes())))
dbg.Printf(" %v %% %v = %v\n", xb, yb, mod)
res := LeftPadWord256(U256(mod).Bytes())
stack.Push(res)
dbg.Printf(" %v %% %v = %v (%X)\n", xb, yb, mod, res)
} }
case SMOD: // 0x07 case SMOD: // 0x07
// TODO ... big?
x, y := int64(stack.Pop64()), int64(stack.Pop64())
if y == 0 { // TODO
x, y := stack.Pop(), stack.Pop()
if y.IsZero() {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v %% %v = %v (TODO)\n", x, y, 0)
dbg.Printf(" %v %% %v = %v\n", x, y, 0)
} else { } else {
stack.Push64(uint64(x % y))
dbg.Printf(" %v %% %v = %v\n", x, y, x%y)
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 case ADDMOD: // 0x08
// TODO ... big?
x, y, z := stack.Pop64(), stack.Pop64(), stack.Pop64()
if z == 0 { // TODO
x, y, z := stack.Pop(), stack.Pop(), stack.Pop()
if z.IsZero() {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" (%v + %v) %% %v = %v (TODO)\n", x, y, z, 0)
dbg.Printf(" %v %% %v = %v\n", x, y, 0)
} else { } else {
stack.Push64((x + y) % z)
dbg.Printf(" (%v + %v) %% %v = %v\n", x, y, z, (x+y)%z)
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 case MULMOD: // 0x09
// TODO ... big?
x, y, z := stack.Pop64(), stack.Pop64(), stack.Pop64()
if z == 0 { // TODO
x, y, z := stack.Pop(), stack.Pop(), stack.Pop()
if z.IsZero() {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" (%v + %v) %% %v = %v (TODO)\n", x, y, z, 0)
dbg.Printf(" %v %% %v = %v\n", x, y, 0)
} else { } else {
stack.Push64((x * y) % z)
dbg.Printf(" (%v + %v) %% %v = %v\n", x, y, z, (x*y)%z)
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 case EXP: // 0x0A
//x, y := stack.Pop64(), stack.Pop64()
//stack.Push64(ExpUint64(x, y))
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
xb := new(big.Int).SetBytes(x[:])
yb := new(big.Int).SetBytes(y[:])
pow := new(big.Int).Exp(xb, yb, big.NewInt(0)) pow := new(big.Int).Exp(xb, yb, big.NewInt(0))
stack.Push(RightPadWord256(flip(pow.Bytes())))
dbg.Printf(" %v ** %v = %v\n", xb, yb, pow)
res := LeftPadWord256(U256(pow).Bytes())
dbg.Printf(" %v ** %v = %v (%X)\n", xb, yb, pow, res)
case SIGNEXTEND: // 0x0B case SIGNEXTEND: // 0x0B
x, y := stack.Pop64(), stack.Pop64()
res := (y << uint(x)) >> x
stack.Push64(res)
dbg.Printf(" (%v << %v) >> %v = %v\n", y, x, x, res)
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 case LT: // 0x10
x, y := stack.Pop64(), stack.Pop64()
if x < y {
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) stack.Push64(1)
dbg.Printf(" %v < %v = %v\n", xb, yb, 1)
} else { } else {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v < %v = %v\n", xb, yb, 0)
} }
dbg.Printf(" %v < %v = %v\n", x, y, x < y)
case GT: // 0x11 case GT: // 0x11
x, y := stack.Pop64(), stack.Pop64()
if x > y {
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) stack.Push64(1)
dbg.Printf(" %v > %v = %v\n", xb, yb, 1)
} else { } else {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v > %v = %v\n", xb, yb, 0)
} }
dbg.Printf(" %v > %v = %v\n", x, y, x > y)
case SLT: // 0x12 case SLT: // 0x12
x, y := int64(stack.Pop64()), int64(stack.Pop64())
if x < y {
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) stack.Push64(1)
dbg.Printf(" %v < %v = %v\n", xb, yb, 1)
} else { } else {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v < %v = %v\n", xb, yb, 0)
} }
dbg.Printf(" %v < %v = %v\n", x, y, x < y)
case SGT: // 0x13 case SGT: // 0x13
x, y := int64(stack.Pop64()), int64(stack.Pop64())
if x > y {
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) stack.Push64(1)
dbg.Printf(" %v > %v = %v\n", xb, yb, 1)
} else { } else {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v > %v = %v\n", xb, yb, 0)
} }
dbg.Printf(" %v > %v = %v\n", x, y, x > y)
case EQ: // 0x14 case EQ: // 0x14
x, y := stack.Pop64(), stack.Pop64()
if x == y {
x, y := stack.Pop(), stack.Pop()
if bytes.Equal(x[:], y[:]) {
stack.Push64(1) stack.Push64(1)
dbg.Printf(" %X == %X = %v\n", x, y, 1)
} else { } else {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %X == %X = %v\n", x, y, 0)
} }
dbg.Printf(" %v == %v = %v\n", x, y, x == y)
case ISZERO: // 0x15 case ISZERO: // 0x15
x := stack.Pop64()
if x == 0 {
x := stack.Pop()
if x.IsZero() {
stack.Push64(1) stack.Push64(1)
dbg.Printf(" %v == 0 = %v\n", x, 1)
} else { } else {
stack.Push(Zero256) stack.Push(Zero256)
dbg.Printf(" %v == 0 = %v\n", x, 0)
} }
dbg.Printf(" %v == 0 = %v\n", x, x == 0)
case AND: // 0x16 case AND: // 0x16
//x, y := stack.Pop64(), stack.Pop64()
//stack.Push64(x & y)
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
res := new(big.Int).And(xb, yb)
stack.Push(RightPadWord256(flip(res.Bytes())))
dbg.Printf(" %v & %v = %v\n", xb, yb, res)
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 case OR: // 0x17
//x, y := stack.Pop64(), stack.Pop64()
//stack.Push64(x | y)
//dbg.Printf(" %v | %v = %v\n", x, y, x|y)
x, y := stack.Pop(), stack.Pop() x, y := stack.Pop(), stack.Pop()
xb := new(big.Int).SetBytes(flip(x[:]))
yb := new(big.Int).SetBytes(flip(y[:]))
res := new(big.Int).Or(xb, yb)
stack.Push(RightPadWord256(flip(res.Bytes())))
dbg.Printf(" %v & %v = %v\n", xb, yb, res)
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 case XOR: // 0x18
x, y := stack.Pop64(), stack.Pop64()
stack.Push64(x ^ y)
dbg.Printf(" %v ^ %v = %v\n", x, y, x^y)
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 case NOT: // 0x19
x := stack.Pop64()
stack.Push64(^x)
dbg.Printf(" !%v = %v\n", x, ^x)
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 case BYTE: // 0x1A
idx, val := stack.Pop64(), stack.Pop() idx, val := stack.Pop64(), stack.Pop()
@ -347,12 +393,12 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
return nil, firstErr(err, ErrInsufficientGas) return nil, firstErr(err, ErrInsufficientGas)
} }
offset, size := stack.Pop64(), stack.Pop64() offset, size := stack.Pop64(), stack.Pop64()
data, ok := subslice(memory, offset, size, false)
data, ok := subslice(memory, offset, size)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
data = sha3.Sha3(data) data = sha3.Sha3(data)
stack.PushBytes(flip(data))
stack.PushBytes(data)
dbg.Printf(" => (%v) %X\n", size, data) dbg.Printf(" => (%v) %X\n", size, data)
case ADDRESS: // 0x30 case ADDRESS: // 0x30
@ -364,7 +410,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
if ok = useGas(gas, GasGetAccount); !ok { if ok = useGas(gas, GasGetAccount); !ok {
return nil, firstErr(err, ErrInsufficientGas) return nil, firstErr(err, ErrInsufficientGas)
} }
acc := vm.appState.GetAccount(flipWord(addr)) // TODO ensure that 20byte lengths are supported.
acc := vm.appState.GetAccount(addr)
if acc == nil { if acc == nil {
return nil, firstErr(err, ErrUnknownAddress) return nil, firstErr(err, ErrUnknownAddress)
} }
@ -386,12 +432,13 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
case CALLDATALOAD: // 0x35 case CALLDATALOAD: // 0x35
offset := stack.Pop64() offset := stack.Pop64()
data, ok := subslice(input, offset, 32, true)
data, ok := subslice(input, offset, 32)
if !ok { if !ok {
return nil, firstErr(err, ErrInputOutOfBounds) return nil, firstErr(err, ErrInputOutOfBounds)
} }
stack.Push(RightPadWord256(data))
dbg.Printf(" => 0x%X\n", RightPadWord256(data))
res := LeftPadWord256(data)
stack.Push(res)
dbg.Printf(" => 0x%X\n", res)
case CALLDATASIZE: // 0x36 case CALLDATASIZE: // 0x36
stack.Push64(uint64(len(input))) stack.Push64(uint64(len(input)))
@ -401,11 +448,11 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
memOff := stack.Pop64() memOff := stack.Pop64()
inputOff := stack.Pop64() inputOff := stack.Pop64()
length := stack.Pop64() length := stack.Pop64()
data, ok := subslice(input, inputOff, length, false)
data, ok := subslice(input, inputOff, length)
if !ok { if !ok {
return nil, firstErr(err, ErrInputOutOfBounds) return nil, firstErr(err, ErrInputOutOfBounds)
} }
dest, ok := subslice(memory, memOff, length, false)
dest, ok := subslice(memory, memOff, length)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -421,11 +468,11 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
memOff := stack.Pop64() memOff := stack.Pop64()
codeOff := stack.Pop64() codeOff := stack.Pop64()
length := stack.Pop64() length := stack.Pop64()
data, ok := subslice(code, codeOff, length, false)
data, ok := subslice(code, codeOff, length)
if !ok { if !ok {
return nil, firstErr(err, ErrCodeOutOfBounds) return nil, firstErr(err, ErrCodeOutOfBounds)
} }
dest, ok := subslice(memory, memOff, length, false)
dest, ok := subslice(memory, memOff, length)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -441,7 +488,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
if ok = useGas(gas, GasGetAccount); !ok { if ok = useGas(gas, GasGetAccount); !ok {
return nil, firstErr(err, ErrInsufficientGas) return nil, firstErr(err, ErrInsufficientGas)
} }
acc := vm.appState.GetAccount(flipWord(addr))
acc := vm.appState.GetAccount(addr)
if acc == nil { if acc == nil {
return nil, firstErr(err, ErrUnknownAddress) return nil, firstErr(err, ErrUnknownAddress)
} }
@ -455,7 +502,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
if ok = useGas(gas, GasGetAccount); !ok { if ok = useGas(gas, GasGetAccount); !ok {
return nil, firstErr(err, ErrInsufficientGas) return nil, firstErr(err, ErrInsufficientGas)
} }
acc := vm.appState.GetAccount(flipWord(addr))
acc := vm.appState.GetAccount(addr)
if acc == nil { if acc == nil {
return nil, firstErr(err, ErrUnknownAddress) return nil, firstErr(err, ErrUnknownAddress)
} }
@ -463,11 +510,11 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
memOff := stack.Pop64() memOff := stack.Pop64()
codeOff := stack.Pop64() codeOff := stack.Pop64()
length := stack.Pop64() length := stack.Pop64()
data, ok := subslice(code, codeOff, length, false)
data, ok := subslice(code, codeOff, length)
if !ok { if !ok {
return nil, firstErr(err, ErrCodeOutOfBounds) return nil, firstErr(err, ErrCodeOutOfBounds)
} }
dest, ok := subslice(memory, memOff, length, false)
dest, ok := subslice(memory, memOff, length)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -502,20 +549,20 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
case MLOAD: // 0x51 case MLOAD: // 0x51
offset := stack.Pop64() offset := stack.Pop64()
data, ok := subslice(memory, offset, 32, true)
data, ok := subslice(memory, offset, 32)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
stack.Push(RightPadWord256(data))
stack.Push(LeftPadWord256(data))
dbg.Printf(" => 0x%X\n", data) dbg.Printf(" => 0x%X\n", data)
case MSTORE: // 0x52 case MSTORE: // 0x52
offset, data := stack.Pop64(), stack.Pop() offset, data := stack.Pop64(), stack.Pop()
dest, ok := subslice(memory, offset, 32, false)
dest, ok := subslice(memory, offset, 32)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
copy(dest, flip(data[:]))
copy(dest, data[:])
dbg.Printf(" => 0x%X\n", data) dbg.Printf(" => 0x%X\n", data)
case MSTORE8: // 0x53 case MSTORE8: // 0x53
@ -543,8 +590,8 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
continue continue
case JUMPI: // 0x57 case JUMPI: // 0x57
pos, cond := stack.Pop64(), stack.Pop64()
if cond >= 1 {
pos, cond := stack.Pop64(), stack.Pop()
if !cond.IsZero() {
err = jump(code, pos, &pc) err = jump(code, pos, &pc)
continue continue
} }
@ -566,11 +613,11 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
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: 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 := uint64(op - PUSH1 + 1) a := uint64(op - PUSH1 + 1)
codeSegment, ok := subslice(code, pc+1, a, true)
codeSegment, ok := subslice(code, pc+1, a)
if !ok { if !ok {
return nil, firstErr(err, ErrCodeOutOfBounds) return nil, firstErr(err, ErrCodeOutOfBounds)
} }
res := RightPadWord256(codeSegment)
res := LeftPadWord256(codeSegment)
stack.Push(res) stack.Push(res)
pc += a pc += a
dbg.Printf(" => 0x%X\n", res) dbg.Printf(" => 0x%X\n", res)
@ -592,7 +639,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
for i := 0; i < n; i++ { for i := 0; i < n; i++ {
topics[i] = stack.Pop() topics[i] = stack.Pop()
} }
data, ok := subslice(memory, offset, size, false)
data, ok := subslice(memory, offset, size)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -608,7 +655,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
case CREATE: // 0xF0 case CREATE: // 0xF0
contractValue := stack.Pop64() contractValue := stack.Pop64()
offset, size := stack.Pop64(), stack.Pop64() offset, size := stack.Pop64(), stack.Pop64()
input, ok := subslice(memory, offset, size, false)
input, ok := subslice(memory, offset, size)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -638,7 +685,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
dbg.Printf(" => %X\n", addr) dbg.Printf(" => %X\n", addr)
// Get the arguments from the memory // Get the arguments from the memory
args, ok := subslice(memory, inOffset, inSize, false)
args, ok := subslice(memory, inOffset, inSize)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -662,7 +709,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
if ok = useGas(gas, GasGetAccount); !ok { if ok = useGas(gas, GasGetAccount); !ok {
return nil, firstErr(err, ErrInsufficientGas) return nil, firstErr(err, ErrInsufficientGas)
} }
acc := vm.appState.GetAccount(flipWord(addr))
acc := vm.appState.GetAccount(addr)
if acc == nil { if acc == nil {
return nil, firstErr(err, ErrUnknownAddress) return nil, firstErr(err, ErrUnknownAddress)
} }
@ -678,7 +725,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
stack.Push(Zero256) stack.Push(Zero256)
} else { } else {
stack.Push(One256) stack.Push(One256)
dest, ok := subslice(memory, retOffset, retSize, false)
dest, ok := subslice(memory, retOffset, retSize)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -692,7 +739,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
case RETURN: // 0xF3 case RETURN: // 0xF3
offset, size := stack.Pop64(), stack.Pop64() offset, size := stack.Pop64(), stack.Pop64()
ret, ok := subslice(memory, offset, size, false)
ret, ok := subslice(memory, offset, size)
if !ok { if !ok {
return nil, firstErr(err, ErrMemoryOutOfBounds) return nil, firstErr(err, ErrMemoryOutOfBounds)
} }
@ -705,7 +752,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
return nil, firstErr(err, ErrInsufficientGas) return nil, firstErr(err, ErrInsufficientGas)
} }
// TODO if the receiver is , then make it the fee. // TODO if the receiver is , then make it the fee.
receiver := vm.appState.GetAccount(flipWord(addr))
receiver := vm.appState.GetAccount(addr)
if receiver == nil { if receiver == nil {
return nil, firstErr(err, ErrUnknownAddress) return nil, firstErr(err, ErrUnknownAddress)
} }
@ -726,7 +773,7 @@ func (vm *VM) call(caller, callee *Account, code, input []byte, value uint64, ga
} }
} }
func subslice(data []byte, offset, length uint64, flip_ bool) (ret []byte, ok bool) {
func subslice(data []byte, offset, length uint64) (ret []byte, ok bool) {
size := uint64(len(data)) size := uint64(len(data))
if size < offset { if size < offset {
return nil, false return nil, false
@ -737,9 +784,6 @@ func subslice(data []byte, offset, length uint64, flip_ bool) (ret []byte, ok bo
ret, ok = data[offset:offset+length], true ret, ok = data[offset:offset+length], true
} }
if flip_ {
ret = flip(ret)
}
return return
} }
@ -794,27 +838,3 @@ func transfer(from, to *Account, amount uint64) error {
return nil return nil
} }
} }
func flip(in []byte) []byte {
l2 := len(in) / 2
flipped := make([]byte, len(in))
// copy the middle bit (if its even it will get overwritten)
if len(in) != 0 {
flipped[l2] = in[l2]
}
for i := 0; i < l2; i++ {
flipped[i] = in[len(in)-1-i]
flipped[len(in)-1-i] = in[i]
}
return flipped
}
func flipWord(in Word256) Word256 {
word := Word256{}
// copy the middle bit (if its even it will get overwritten)
for i := 0; i < 16; i++ {
word[i] = in[len(in)-1-i]
word[len(in)-1-i] = in[i]
}
return word
}

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