// Copyright 2015 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package tests import ( "bytes" "fmt" "math/big" "os" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core" "github.com/ethereum/go-ethereum/core/state" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/core/vm" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/ethdb" "github.com/ethereum/go-ethereum/logger/glog" ) var ( ForceJit bool EnableJit bool ) func init() { glog.SetV(0) if os.Getenv("JITVM") == "true" { ForceJit = true EnableJit = true } } func checkLogs(tlog []Log, logs vm.Logs) error { if len(tlog) != len(logs) { return fmt.Errorf("log length mismatch. Expected %d, got %d", len(tlog), len(logs)) } else { for i, log := range tlog { if common.HexToAddress(log.AddressF) != logs[i].Address { return fmt.Errorf("log address expected %v got %x", log.AddressF, logs[i].Address) } if !bytes.Equal(logs[i].Data, common.FromHex(log.DataF)) { return fmt.Errorf("log data expected %v got %x", log.DataF, logs[i].Data) } if len(log.TopicsF) != len(logs[i].Topics) { return fmt.Errorf("log topics length expected %d got %d", len(log.TopicsF), logs[i].Topics) } else { for j, topic := range log.TopicsF { if common.HexToHash(topic) != logs[i].Topics[j] { return fmt.Errorf("log topic[%d] expected %v got %x", j, topic, logs[i].Topics[j]) } } } genBloom := common.LeftPadBytes(types.LogsBloom(vm.Logs{logs[i]}).Bytes(), 256) if !bytes.Equal(genBloom, common.Hex2Bytes(log.BloomF)) { return fmt.Errorf("bloom mismatch") } } } return nil } type Account struct { Balance string Code string Nonce string Storage map[string]string } type Log struct { AddressF string `json:"address"` DataF string `json:"data"` TopicsF []string `json:"topics"` BloomF string `json:"bloom"` } func (self Log) Address() []byte { return common.Hex2Bytes(self.AddressF) } func (self Log) Data() []byte { return common.Hex2Bytes(self.DataF) } func (self Log) RlpData() interface{} { return nil } func (self Log) Topics() [][]byte { t := make([][]byte, len(self.TopicsF)) for i, topic := range self.TopicsF { t[i] = common.Hex2Bytes(topic) } return t } func makePreState(db ethdb.Database, accounts map[string]Account) *state.StateDB { statedb, _ := state.New(common.Hash{}, db) for addr, account := range accounts { insertAccount(statedb, addr, account) } return statedb } func insertAccount(state *state.StateDB, saddr string, account Account) { if common.IsHex(account.Code) { account.Code = account.Code[2:] } addr := common.HexToAddress(saddr) state.SetCode(addr, common.Hex2Bytes(account.Code)) state.SetNonce(addr, common.Big(account.Nonce).Uint64()) state.SetBalance(addr, common.Big(account.Balance)) for a, v := range account.Storage { state.SetState(addr, common.HexToHash(a), common.HexToHash(v)) } } type VmEnv struct { CurrentCoinbase string CurrentDifficulty string CurrentGasLimit string CurrentNumber string CurrentTimestamp interface{} PreviousHash string } type VmTest struct { Callcreates interface{} //Env map[string]string Env VmEnv Exec map[string]string Transaction map[string]string Logs []Log Gas string Out string Post map[string]Account Pre map[string]Account PostStateRoot string } type RuleSet struct { HomesteadBlock *big.Int DAOForkBlock *big.Int DAOForkSupport bool } func (r RuleSet) IsHomestead(n *big.Int) bool { return n.Cmp(r.HomesteadBlock) >= 0 } type Env struct { ruleSet RuleSet depth int state *state.StateDB skipTransfer bool initial bool Gas *big.Int origin common.Address parent common.Hash coinbase common.Address number *big.Int time *big.Int difficulty *big.Int gasLimit *big.Int vmTest bool evm *vm.EVM } func NewEnv(ruleSet RuleSet, state *state.StateDB) *Env { env := &Env{ ruleSet: ruleSet, state: state, } return env } func NewEnvFromMap(ruleSet RuleSet, state *state.StateDB, envValues map[string]string, exeValues map[string]string) *Env { env := NewEnv(ruleSet, state) env.origin = common.HexToAddress(exeValues["caller"]) env.parent = common.HexToHash(envValues["previousHash"]) env.coinbase = common.HexToAddress(envValues["currentCoinbase"]) env.number = common.Big(envValues["currentNumber"]) env.time = common.Big(envValues["currentTimestamp"]) env.difficulty = common.Big(envValues["currentDifficulty"]) env.gasLimit = common.Big(envValues["currentGasLimit"]) env.Gas = new(big.Int) env.evm = vm.New(env, vm.Config{ EnableJit: EnableJit, ForceJit: ForceJit, }) return env } func (self *Env) RuleSet() vm.RuleSet { return self.ruleSet } func (self *Env) Vm() vm.Vm { return self.evm } func (self *Env) Origin() common.Address { return self.origin } func (self *Env) BlockNumber() *big.Int { return self.number } func (self *Env) Coinbase() common.Address { return self.coinbase } func (self *Env) Time() *big.Int { return self.time } func (self *Env) Difficulty() *big.Int { return self.difficulty } func (self *Env) Db() vm.Database { return self.state } func (self *Env) GasLimit() *big.Int { return self.gasLimit } func (self *Env) VmType() vm.Type { return vm.StdVmTy } func (self *Env) GetHash(n uint64) common.Hash { return common.BytesToHash(crypto.Keccak256([]byte(big.NewInt(int64(n)).String()))) } func (self *Env) AddLog(log *vm.Log) { self.state.AddLog(log) } func (self *Env) Depth() int { return self.depth } func (self *Env) SetDepth(i int) { self.depth = i } func (self *Env) CanTransfer(from common.Address, balance *big.Int) bool { if self.skipTransfer { if self.initial { self.initial = false return true } } return self.state.GetBalance(from).Cmp(balance) >= 0 } func (self *Env) SnapshotDatabase() int { return self.state.Snapshot() } func (self *Env) RevertToSnapshot(snapshot int) { self.state.RevertToSnapshot(snapshot) } func (self *Env) Transfer(from, to vm.Account, amount *big.Int) { if self.skipTransfer { return } core.Transfer(from, to, amount) } func (self *Env) Call(caller vm.ContractRef, addr common.Address, data []byte, gas, price, value *big.Int) ([]byte, error) { if self.vmTest && self.depth > 0 { caller.ReturnGas(gas, price) return nil, nil } ret, err := core.Call(self, caller, addr, data, gas, price, value) self.Gas = gas return ret, err } func (self *Env) CallCode(caller vm.ContractRef, addr common.Address, data []byte, gas, price, value *big.Int) ([]byte, error) { if self.vmTest && self.depth > 0 { caller.ReturnGas(gas, price) return nil, nil } return core.CallCode(self, caller, addr, data, gas, price, value) } func (self *Env) DelegateCall(caller vm.ContractRef, addr common.Address, data []byte, gas, price *big.Int) ([]byte, error) { if self.vmTest && self.depth > 0 { caller.ReturnGas(gas, price) return nil, nil } return core.DelegateCall(self, caller, addr, data, gas, price) } func (self *Env) Create(caller vm.ContractRef, data []byte, gas, price, value *big.Int) ([]byte, common.Address, error) { if self.vmTest { caller.ReturnGas(gas, price) nonce := self.state.GetNonce(caller.Address()) obj := self.state.GetOrNewStateObject(crypto.CreateAddress(caller.Address(), nonce)) return nil, obj.Address(), nil } else { return core.Create(self, caller, data, gas, price, value) } } type Message struct { from common.Address to *common.Address value, gas, price *big.Int data []byte nonce uint64 } func NewMessage(from common.Address, to *common.Address, data []byte, value, gas, price *big.Int, nonce uint64) Message { return Message{from, to, value, gas, price, data, nonce} } func (self Message) Hash() []byte { return nil } func (self Message) From() (common.Address, error) { return self.from, nil } func (self Message) FromFrontier() (common.Address, error) { return self.from, nil } func (self Message) To() *common.Address { return self.to } func (self Message) GasPrice() *big.Int { return self.price } func (self Message) Gas() *big.Int { return self.gas } func (self Message) Value() *big.Int { return self.value } func (self Message) Nonce() uint64 { return self.nonce } func (self Message) CheckNonce() bool { return true } func (self Message) Data() []byte { return self.data }