forked from cerc-io/laconicd-deprecated
735f00d4a3
* add tx when evm revert * add comment * use cache ctx Co-authored-by: Federico Kunze Küllmer <31522760+fedekunze@users.noreply.github.com>
324 lines
13 KiB
Go
324 lines
13 KiB
Go
package keeper
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import (
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"errors"
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"math/big"
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"os"
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"time"
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"github.com/palantir/stacktrace"
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tmtypes "github.com/tendermint/tendermint/types"
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"github.com/cosmos/cosmos-sdk/telemetry"
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sdk "github.com/cosmos/cosmos-sdk/types"
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sdkerrors "github.com/cosmos/cosmos-sdk/types/errors"
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authtypes "github.com/cosmos/cosmos-sdk/x/auth/types"
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ethermint "github.com/tharsis/ethermint/types"
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"github.com/tharsis/ethermint/x/evm/types"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core"
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ethtypes "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/params"
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)
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// NewEVM generates an ethereum VM from the provided Message fields and the ChainConfig.
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func (k *Keeper) NewEVM(msg core.Message, config *params.ChainConfig) *vm.EVM {
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blockCtx := vm.BlockContext{
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CanTransfer: core.CanTransfer,
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Transfer: core.Transfer,
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GetHash: k.GetHashFn(),
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Coinbase: common.Address{}, // there's no beneficiary since we're not mining
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GasLimit: ethermint.BlockGasLimit(k.ctx),
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BlockNumber: big.NewInt(k.ctx.BlockHeight()),
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Time: big.NewInt(k.ctx.BlockHeader().Time.Unix()),
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Difficulty: big.NewInt(0), // unused. Only required in PoW context
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}
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txCtx := core.NewEVMTxContext(msg)
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vmConfig := k.VMConfig()
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return vm.NewEVM(blockCtx, txCtx, k, config, vmConfig)
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}
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// VMConfig creates an EVM configuration from the module parameters and the debug setting.
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// The config generated uses the default JumpTable from the EVM.
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func (k Keeper) VMConfig() vm.Config {
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params := k.GetParams(k.ctx)
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return vm.Config{
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Debug: k.debug,
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Tracer: vm.NewJSONLogger(&vm.LogConfig{Debug: k.debug}, os.Stderr), // TODO: consider using the Struct Logger too
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NoRecursion: false, // TODO: consider disabling recursion though params
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ExtraEips: params.EIPs(),
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}
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}
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// GetHashFn implements vm.GetHashFunc for Ethermint. It handles 3 cases:
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// 1. The requested height matches the current height from context (and thus same epoch number)
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// 2. The requested height is from an previous height from the same chain epoch
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// 3. The requested height is from a height greater than the latest one
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func (k Keeper) GetHashFn() vm.GetHashFunc {
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return func(height uint64) common.Hash {
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h := int64(height)
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switch {
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case k.ctx.BlockHeight() == h:
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// Case 1: The requested height matches the one from the context so we can retrieve the header
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// hash directly from the context.
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return common.BytesToHash(k.ctx.HeaderHash())
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case k.ctx.BlockHeight() > h:
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// Case 2: if the chain is not the current height we need to retrieve the hash from the store for the
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// current chain epoch. This only applies if the current height is greater than the requested height.
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histInfo, found := k.stakingKeeper.GetHistoricalInfo(k.ctx, h)
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if !found {
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k.Logger(k.ctx).Debug("historical info not found", "height", h)
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return common.Hash{}
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}
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header, err := tmtypes.HeaderFromProto(&histInfo.Header)
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if err != nil {
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k.Logger(k.ctx).Error("failed to cast tendermint header from proto", "error", err)
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return common.Hash{}
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}
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return common.BytesToHash(header.Hash())
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default:
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// Case 3: heights greater than the current one returns an empty hash.
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return common.Hash{}
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}
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}
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}
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// ApplyTransaction runs and attempts to perform a state transition with the given transaction (i.e Message), that will
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// only be persisted to the underlying KVStore if the transaction does not error.
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//
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// Gas tracking
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//
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// Ethereum consumes gas according to the EVM opcodes instead of general reads and writes to store. Because of this, the
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// state transition needs to ignore the SDK gas consumption mechanism defined by the GasKVStore and instead consume the
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// amount of gas used by the VM execution. The amount of gas used is tracked by the EVM and returned in the execution
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// result.
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//
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// Prior to the execution, the starting tx gas meter is saved and replaced with an infinite gas meter in a new context
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// in order to ignore the SDK gas consumption config values (read, write, has, delete).
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// After the execution, the gas used from the message execution will be added to the starting gas consumed, taking into
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// consideration the amount of gas returned. Finally, the context is updated with the EVM gas consumed value prior to
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// returning.
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//
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// For relevant discussion see: https://github.com/cosmos/cosmos-sdk/discussions/9072
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func (k *Keeper) ApplyTransaction(tx *ethtypes.Transaction) (*types.MsgEthereumTxResponse, error) {
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defer telemetry.ModuleMeasureSince(types.ModuleName, time.Now(), types.MetricKeyTransitionDB)
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cfg, found := k.GetChainConfig(k.ctx)
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if !found {
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return nil, stacktrace.Propagate(types.ErrChainConfigNotFound, "configuration not found")
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}
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ethCfg := cfg.EthereumConfig(k.eip155ChainID)
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// get the latest signer according to the chain rules from the config
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signer := ethtypes.MakeSigner(ethCfg, big.NewInt(k.ctx.BlockHeight()))
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msg, err := tx.AsMessage(signer)
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if err != nil {
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return nil, stacktrace.Propagate(err, "failed to return ethereum transaction as core message")
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}
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// create an ethereum StateTransition instance and run TransitionDb
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// we use a ctx context to avoid modifying to state in case EVM msg is reverted
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originalCtx := k.ctx
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cacheCtx, commit := k.ctx.CacheContext()
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k.ctx = cacheCtx
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evm := k.NewEVM(msg, ethCfg)
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k.SetTxHashTransient(tx.Hash())
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k.IncreaseTxIndexTransient()
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res, err := k.ApplyMessage(evm, msg, ethCfg)
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if err != nil {
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return nil, stacktrace.Propagate(err, "failed to apply ethereum core message")
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}
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txHash := tx.Hash()
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res.Hash = txHash.Hex()
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// Set the bloom filter and commit only if transaction is NOT reverted
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if !res.Reverted {
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logs := k.GetTxLogs(txHash)
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res.Logs = types.NewLogsFromEth(logs)
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// update block bloom filter
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bloom := k.GetBlockBloomTransient()
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bloom.Or(bloom, big.NewInt(0).SetBytes(ethtypes.LogsBloom(logs)))
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k.SetBlockBloomTransient(bloom)
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commit()
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}
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// refund gas prior to handling the vm error in order to set the updated gas meter
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k.ctx = originalCtx
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leftoverGas := msg.Gas() - res.GasUsed
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leftoverGas, err = k.RefundGas(msg, leftoverGas)
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if err != nil {
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return nil, stacktrace.Propagate(err, "failed to refund gas leftover gas to sender %s", msg.From())
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}
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// update the gas used after refund
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res.GasUsed = msg.Gas() - leftoverGas
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k.resetGasMeterAndConsumeGas(res.GasUsed)
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return res, nil
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}
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// Gas consumption notes (write doc from this)
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// gas = remaining gas = limit - consumed
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// Gas consumption in ethereum:
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// 0. Buy gas -> deduct gasLimit * gasPrice from user account
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// 0.1 leftover gas = gas limit
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// 1. consume intrinsic gas
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// 1.1 leftover gas = leftover gas - intrinsic gas
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// 2. Exec vm functions by passing the gas (i.e remaining gas)
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// 2.1 final leftover gas returned after spending gas from the opcodes jump tables
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// 3. Refund amount = max(gasConsumed / 2, gas refund), where gas refund is a local variable
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// TODO: (@fedekunze) currently we consume the entire gas limit in the ante handler, so if a transaction fails
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// the amount spent will be grater than the gas spent in an Ethereum tx (i.e here the leftover gas won't be refunded).
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// ApplyMessage computes the new state by applying the given message against the existing state.
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// If the message fails, the VM execution error with the reason will be returned to the client
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// and the transaction won't be committed to the store.
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//
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// Reverted state
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//
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// The transaction is never "reverted" since there is no snapshot + rollback performed on the StateDB.
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// Only successful transactions are written to the store during DeliverTx mode.
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//
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// Prechecks and Preprocessing
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//
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// All relevant state transition prechecks for the MsgEthereumTx are performed on the AnteHandler,
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// prior to running the transaction against the state. The prechecks run are the following:
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//
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// 1. the nonce of the message caller is correct
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// 2. caller has enough balance to cover transaction fee(gaslimit * gasprice)
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// 3. the amount of gas required is available in the block
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// 4. the purchased gas is enough to cover intrinsic usage
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// 5. there is no overflow when calculating intrinsic gas
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// 6. caller has enough balance to cover asset transfer for **topmost** call
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//
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// The preprocessing steps performed by the AnteHandler are:
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//
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// 1. set up the initial access list (iff fork > Berlin)
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func (k *Keeper) ApplyMessage(evm *vm.EVM, msg core.Message, cfg *params.ChainConfig) (*types.MsgEthereumTxResponse, error) {
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var (
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ret []byte // return bytes from evm execution
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vmErr error // vm errors do not effect consensus and are therefore not assigned to err
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)
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sender := vm.AccountRef(msg.From())
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contractCreation := msg.To() == nil
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intrinsicGas, err := k.GetEthIntrinsicGas(msg, cfg, contractCreation)
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if err != nil {
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// should have already been checked on Ante Handler
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return nil, stacktrace.Propagate(err, "intrinsic gas failed")
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}
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// should be > 0 as it is checked on Ante Handler
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leftoverGas := msg.Gas() - intrinsicGas
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if contractCreation {
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ret, _, leftoverGas, vmErr = evm.Create(sender, msg.Data(), leftoverGas, msg.Value())
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} else {
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ret, leftoverGas, vmErr = evm.Call(sender, *msg.To(), msg.Data(), leftoverGas, msg.Value())
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}
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var reverted bool
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if vmErr != nil {
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if !errors.Is(vmErr, vm.ErrExecutionReverted) {
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// wrap the VM error
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return nil, stacktrace.Propagate(sdkerrors.Wrap(types.ErrVMExecution, vmErr.Error()), "vm execution failed")
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}
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reverted = true
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}
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gasUsed := msg.Gas() - leftoverGas
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return &types.MsgEthereumTxResponse{
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Ret: ret,
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Reverted: reverted,
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GasUsed: gasUsed,
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}, nil
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}
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// GetEthIntrinsicGas get the transaction intrinsic gas cost
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func (k *Keeper) GetEthIntrinsicGas(msg core.Message, cfg *params.ChainConfig, isContractCreation bool) (uint64, error) {
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height := big.NewInt(k.ctx.BlockHeight())
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homestead := cfg.IsHomestead(height)
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istanbul := cfg.IsIstanbul(height)
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return core.IntrinsicGas(msg.Data(), msg.AccessList(), isContractCreation, homestead, istanbul)
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}
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// RefundGas transfers the leftover gas to the sender of the message, caped to half of the total gas
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// consumed in the transaction. Additionally, the function sets the total gas consumed to the value
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// returned by the EVM execution, thus ignoring the previous intrinsic gas consumed during in the
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// AnteHandler.
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func (k *Keeper) RefundGas(msg core.Message, leftoverGas uint64) (uint64, error) {
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if leftoverGas > msg.Gas() {
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return leftoverGas, stacktrace.Propagate(
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sdkerrors.Wrapf(types.ErrInconsistentGas, "leftover gas cannot be greater than gas limit (%d > %d)", leftoverGas, msg.Gas()),
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"failed to update gas consumed after refund of leftover gas",
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)
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}
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gasConsumed := msg.Gas() - leftoverGas
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// Apply refund counter, capped to half of the used gas.
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refund := gasConsumed / 2
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availableRefund := k.GetRefund()
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if refund > availableRefund {
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refund = availableRefund
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}
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leftoverGas += refund
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if leftoverGas > msg.Gas() {
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return leftoverGas, stacktrace.Propagate(
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sdkerrors.Wrapf(types.ErrInconsistentGas, "leftover gas cannot be greater than gas limit (%d > %d)", leftoverGas, msg.Gas()),
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"failed to update gas consumed after refund of %d gas", refund,
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)
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}
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// Return EVM tokens for remaining gas, exchanged at the original rate.
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remaining := new(big.Int).Mul(new(big.Int).SetUint64(leftoverGas), msg.GasPrice())
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switch remaining.Sign() {
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case -1:
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// negative refund errors
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return leftoverGas, sdkerrors.Wrapf(types.ErrInvalidRefund, "refunded amount value cannot be negative %d", remaining.Int64())
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case 1:
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// positive amount refund
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params := k.GetParams(k.ctx)
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refundedCoins := sdk.Coins{sdk.NewCoin(params.EvmDenom, sdk.NewIntFromBigInt(remaining))}
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// refund to sender from the fee collector module account, which is the escrow account in charge of collecting tx fees
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err := k.bankKeeper.SendCoinsFromModuleToAccount(k.ctx, authtypes.FeeCollectorName, msg.From().Bytes(), refundedCoins)
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if err != nil {
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err = sdkerrors.Wrapf(sdkerrors.ErrInsufficientFunds, "fee collector account failed to refund fees: %s", err.Error())
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return leftoverGas, stacktrace.Propagate(err, "failed to refund %d leftover gas (%s)", leftoverGas, refundedCoins.String())
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}
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default:
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// no refund, consume gas and update the tx gas meter
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}
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return leftoverGas, nil
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}
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// resetGasMeterAndConsumeGas reset first the gas meter consumed value to zero and set it back to the new value
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// 'gasUsed'
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func (k *Keeper) resetGasMeterAndConsumeGas(gasUsed uint64) {
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// reset the gas count
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k.ctx.GasMeter().RefundGas(k.ctx.GasMeter().GasConsumed(), "reset the gas count")
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k.ctx.GasMeter().ConsumeGas(gasUsed, "apply evm transaction")
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}
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