064f37d6f6
Here we add a Go API for running tracing plugins within the main block import process. As an advanced user of geth, you can now create a Go file in eth/tracers/live/, and within that file register your custom tracer implementation. Then recompile geth and select your tracer on the command line. Hooks defined in the tracer will run whenever a block is processed. The hook system is defined in package core/tracing. It uses a struct with callbacks, instead of requiring an interface, for several reasons: - We plan to keep this API stable long-term. The core/tracing hook API does not depend on on deep geth internals. - There are a lot of hooks, and tracers will only need some of them. Using a struct allows you to implement only the hooks you want to actually use. All existing tracers in eth/tracers/native have been rewritten to use the new hook system. This change breaks compatibility with the vm.EVMLogger interface that we used to have. If you are a user of vm.EVMLogger, please migrate to core/tracing, and sorry for breaking your stuff. But we just couldn't have both the old and new tracing APIs coexist in the EVM. --------- Co-authored-by: Matthieu Vachon <matthieu.o.vachon@gmail.com> Co-authored-by: Delweng <delweng@gmail.com> Co-authored-by: Martin HS <martin@swende.se>
211 lines
6.9 KiB
Go
211 lines
6.9 KiB
Go
// Copyright 2015 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 runtime
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import (
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"math"
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"math/big"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core/rawdb"
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"github.com/ethereum/go-ethereum/core/state"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/core/vm"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/params"
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"github.com/holiman/uint256"
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)
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// Config is a basic type specifying certain configuration flags for running
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// the EVM.
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type Config struct {
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ChainConfig *params.ChainConfig
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Difficulty *big.Int
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Origin common.Address
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Coinbase common.Address
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BlockNumber *big.Int
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Time uint64
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GasLimit uint64
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GasPrice *big.Int
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Value *big.Int
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Debug bool
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EVMConfig vm.Config
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BaseFee *big.Int
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BlobBaseFee *big.Int
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BlobHashes []common.Hash
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BlobFeeCap *big.Int
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Random *common.Hash
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State *state.StateDB
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GetHashFn func(n uint64) common.Hash
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}
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// sets defaults on the config
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func setDefaults(cfg *Config) {
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if cfg.ChainConfig == nil {
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cfg.ChainConfig = ¶ms.ChainConfig{
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ChainID: big.NewInt(1),
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HomesteadBlock: new(big.Int),
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DAOForkBlock: new(big.Int),
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DAOForkSupport: false,
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EIP150Block: new(big.Int),
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EIP155Block: new(big.Int),
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EIP158Block: new(big.Int),
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ByzantiumBlock: new(big.Int),
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ConstantinopleBlock: new(big.Int),
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PetersburgBlock: new(big.Int),
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IstanbulBlock: new(big.Int),
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MuirGlacierBlock: new(big.Int),
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BerlinBlock: new(big.Int),
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LondonBlock: new(big.Int),
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}
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}
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if cfg.Difficulty == nil {
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cfg.Difficulty = new(big.Int)
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}
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if cfg.GasLimit == 0 {
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cfg.GasLimit = math.MaxUint64
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}
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if cfg.GasPrice == nil {
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cfg.GasPrice = new(big.Int)
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}
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if cfg.Value == nil {
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cfg.Value = new(big.Int)
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}
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if cfg.BlockNumber == nil {
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cfg.BlockNumber = new(big.Int)
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}
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if cfg.GetHashFn == nil {
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cfg.GetHashFn = func(n uint64) common.Hash {
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return common.BytesToHash(crypto.Keccak256([]byte(new(big.Int).SetUint64(n).String())))
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}
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}
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if cfg.BaseFee == nil {
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cfg.BaseFee = big.NewInt(params.InitialBaseFee)
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}
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if cfg.BlobBaseFee == nil {
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cfg.BlobBaseFee = big.NewInt(params.BlobTxMinBlobGasprice)
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}
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}
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// Execute executes the code using the input as call data during the execution.
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// It returns the EVM's return value, the new state and an error if it failed.
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//
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// Execute sets up an in-memory, temporary, environment for the execution of
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// the given code. It makes sure that it's restored to its original state afterwards.
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func Execute(code, input []byte, cfg *Config) ([]byte, *state.StateDB, error) {
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if cfg == nil {
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cfg = new(Config)
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}
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setDefaults(cfg)
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if cfg.State == nil {
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cfg.State, _ = state.New(types.EmptyRootHash, state.NewDatabase(rawdb.NewMemoryDatabase()), nil)
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}
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var (
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address = common.BytesToAddress([]byte("contract"))
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vmenv = NewEnv(cfg)
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sender = vm.AccountRef(cfg.Origin)
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rules = cfg.ChainConfig.Rules(vmenv.Context.BlockNumber, vmenv.Context.Random != nil, vmenv.Context.Time)
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)
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if cfg.EVMConfig.Tracer != nil && cfg.EVMConfig.Tracer.OnTxStart != nil {
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cfg.EVMConfig.Tracer.OnTxStart(vmenv.GetVMContext(), types.NewTx(&types.LegacyTx{To: &address, Data: input, Value: cfg.Value, Gas: cfg.GasLimit}), cfg.Origin)
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}
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// Execute the preparatory steps for state transition which includes:
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// - prepare accessList(post-berlin)
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// - reset transient storage(eip 1153)
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cfg.State.Prepare(rules, cfg.Origin, cfg.Coinbase, &address, vm.ActivePrecompiles(rules), nil)
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cfg.State.CreateAccount(address)
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// set the receiver's (the executing contract) code for execution.
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cfg.State.SetCode(address, code)
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// Call the code with the given configuration.
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ret, _, err := vmenv.Call(
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sender,
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common.BytesToAddress([]byte("contract")),
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input,
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cfg.GasLimit,
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uint256.MustFromBig(cfg.Value),
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)
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return ret, cfg.State, err
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}
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// Create executes the code using the EVM create method
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func Create(input []byte, cfg *Config) ([]byte, common.Address, uint64, error) {
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if cfg == nil {
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cfg = new(Config)
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}
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setDefaults(cfg)
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if cfg.State == nil {
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cfg.State, _ = state.New(types.EmptyRootHash, state.NewDatabase(rawdb.NewMemoryDatabase()), nil)
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}
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var (
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vmenv = NewEnv(cfg)
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sender = vm.AccountRef(cfg.Origin)
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rules = cfg.ChainConfig.Rules(vmenv.Context.BlockNumber, vmenv.Context.Random != nil, vmenv.Context.Time)
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)
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if cfg.EVMConfig.Tracer != nil && cfg.EVMConfig.Tracer.OnTxStart != nil {
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cfg.EVMConfig.Tracer.OnTxStart(vmenv.GetVMContext(), types.NewTx(&types.LegacyTx{Data: input, Value: cfg.Value, Gas: cfg.GasLimit}), cfg.Origin)
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}
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// Execute the preparatory steps for state transition which includes:
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// - prepare accessList(post-berlin)
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// - reset transient storage(eip 1153)
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cfg.State.Prepare(rules, cfg.Origin, cfg.Coinbase, nil, vm.ActivePrecompiles(rules), nil)
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// Call the code with the given configuration.
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code, address, leftOverGas, err := vmenv.Create(
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sender,
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input,
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cfg.GasLimit,
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uint256.MustFromBig(cfg.Value),
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)
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return code, address, leftOverGas, err
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}
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// Call executes the code given by the contract's address. It will return the
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// EVM's return value or an error if it failed.
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//
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// Call, unlike Execute, requires a config and also requires the State field to
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// be set.
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func Call(address common.Address, input []byte, cfg *Config) ([]byte, uint64, error) {
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setDefaults(cfg)
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var (
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vmenv = NewEnv(cfg)
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sender = vm.AccountRef(cfg.Origin)
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statedb = cfg.State
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rules = cfg.ChainConfig.Rules(vmenv.Context.BlockNumber, vmenv.Context.Random != nil, vmenv.Context.Time)
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)
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if cfg.EVMConfig.Tracer != nil && cfg.EVMConfig.Tracer.OnTxStart != nil {
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cfg.EVMConfig.Tracer.OnTxStart(vmenv.GetVMContext(), types.NewTx(&types.LegacyTx{To: &address, Data: input, Value: cfg.Value, Gas: cfg.GasLimit}), cfg.Origin)
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}
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// Execute the preparatory steps for state transition which includes:
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// - prepare accessList(post-berlin)
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// - reset transient storage(eip 1153)
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statedb.Prepare(rules, cfg.Origin, cfg.Coinbase, &address, vm.ActivePrecompiles(rules), nil)
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// Call the code with the given configuration.
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ret, leftOverGas, err := vmenv.Call(
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sender,
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address,
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input,
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cfg.GasLimit,
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uint256.MustFromBig(cfg.Value),
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)
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return ret, leftOverGas, err
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}
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