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Gas usage implementation (#123)

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* Set up gas consumption based on gas limit

* Convert evm gas meter to be infinite since being ignored

* Remove unnecessary declaration

* Update fees paid to validators to be function of gas limit and price instead of just gas

* added nonce check for node tx execution

* Increment account nonce after mempool check

* Remove unnecessary nonce increment
This commit is contained in:
Austin Abell 2019-10-19 08:14:38 +09:00 committed by GitHub
parent dc25d847c3
commit 9802cbc98e
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
3 changed files with 131 additions and 64 deletions
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141
app/ante.go
View File

@ -13,7 +13,6 @@ import (
emint "github.com/cosmos/ethermint/types" emint "github.com/cosmos/ethermint/types"
evmtypes "github.com/cosmos/ethermint/x/evm/types" evmtypes "github.com/cosmos/ethermint/x/evm/types"
ethcmn "github.com/ethereum/go-ethereum/common"
ethcore "github.com/ethereum/go-ethereum/core" ethcore "github.com/ethereum/go-ethereum/core"
tmcrypto "github.com/tendermint/tendermint/crypto" tmcrypto "github.com/tendermint/tendermint/crypto"
@ -41,7 +40,7 @@ func NewAnteHandler(ak auth.AccountKeeper, sk types.SupplyKeeper) sdk.AnteHandle
return sdkAnteHandler(ctx, ak, sk, castTx, sim) return sdkAnteHandler(ctx, ak, sk, castTx, sim)
case *evmtypes.EthereumTxMsg: case *evmtypes.EthereumTxMsg:
return ethAnteHandler(ctx, castTx, ak) return ethAnteHandler(ctx, ak, sk, castTx, sim)
default: default:
return ctx, sdk.ErrInternal(fmt.Sprintf("transaction type invalid: %T", tx)).Result(), true return ctx, sdk.ErrInternal(fmt.Sprintf("transaction type invalid: %T", tx)).Result(), true
@ -106,7 +105,6 @@ func sdkAnteHandler(
// the first signer pays the transaction fees // the first signer pays the transaction fees
if !stdTx.Fee.Amount.IsZero() { if !stdTx.Fee.Amount.IsZero() {
// Testing error is in DeductFees
res = auth.DeductFees(sk, newCtx, signerAccs[0], stdTx.Fee.Amount) res = auth.DeductFees(sk, newCtx, signerAccs[0], stdTx.Fee.Amount)
if !res.IsOK() { if !res.IsOK() {
return newCtx, res, true return newCtx, res, true
@ -193,53 +191,120 @@ func consumeSigGas(meter sdk.GasMeter, pubkey tmcrypto.PubKey) {
// perform the same series of checks. The distinction is made in CheckTx to // perform the same series of checks. The distinction is made in CheckTx to
// prevent spam and DoS attacks. // prevent spam and DoS attacks.
func ethAnteHandler( func ethAnteHandler(
ctx sdk.Context, ethTxMsg *evmtypes.EthereumTxMsg, ak auth.AccountKeeper, ctx sdk.Context, ak auth.AccountKeeper, sk types.SupplyKeeper,
ethTxMsg *evmtypes.EthereumTxMsg, sim bool,
) (newCtx sdk.Context, res sdk.Result, abort bool) { ) (newCtx sdk.Context, res sdk.Result, abort bool) {
var senderAddr sdk.AccAddress
// This is done to ignore costs in Ante handler checks
ctx = ctx.WithBlockGasMeter(sdk.NewInfiniteGasMeter())
if ctx.IsCheckTx() { if ctx.IsCheckTx() {
// Only perform pre-message (Ethereum transaction) execution validation // Only perform pre-message (Ethereum transaction) execution validation
// during CheckTx. Otherwise, during DeliverTx the EVM will handle them. // during CheckTx. Otherwise, during DeliverTx the EVM will handle them.
if res := validateEthTxCheckTx(ctx, ak, ethTxMsg); !res.IsOK() { if senderAddr, res = validateEthTxCheckTx(ctx, ak, ethTxMsg); !res.IsOK() {
return newCtx, res, true return ctx, res, true
}
} else {
// This is still currently needed to retrieve the sender address
if senderAddr, res = validateSignature(ctx, ethTxMsg); !res.IsOK() {
return ctx, res, true
}
// Explicit nonce check is also needed in case of multiple txs with same nonce not being handled
if res := checkNonce(ctx, ak, ethTxMsg, senderAddr); !res.IsOK() {
return ctx, res, true
} }
} }
return ctx, sdk.Result{}, false // Recover and catch out of gas error
defer func() {
if r := recover(); r != nil {
switch rType := r.(type) {
case sdk.ErrorOutOfGas:
log := fmt.Sprintf("out of gas in location: %v", rType.Descriptor)
res = sdk.ErrOutOfGas(log).Result()
res.GasWanted = ethTxMsg.Data.GasLimit
res.GasUsed = ctx.GasMeter().GasConsumed()
abort = true
default:
panic(r)
}
}
}()
// Fetch sender account from signature
senderAcc, res := auth.GetSignerAcc(ctx, ak, senderAddr)
if !res.IsOK() {
return ctx, res, true
}
// Charge sender for gas up to limit
if ethTxMsg.Data.GasLimit != 0 {
// Cost calculates the fees paid to validators based on gas limit and price
cost := new(big.Int).Mul(ethTxMsg.Data.Price, new(big.Int).SetUint64(ethTxMsg.Data.GasLimit))
res = auth.DeductFees(sk, ctx, senderAcc, sdk.Coins{
sdk.NewCoin(emint.DenomDefault, sdk.NewIntFromBigInt(cost)),
})
if !res.IsOK() {
return ctx, res, true
}
}
// Set gas meter after ante handler to ignore gaskv costs
newCtx = auth.SetGasMeter(sim, ctx, ethTxMsg.Data.GasLimit)
gas, _ := ethcore.IntrinsicGas(ethTxMsg.Data.Payload, ethTxMsg.To() == nil, false)
newCtx.GasMeter().ConsumeGas(gas, "eth intrinsic gas")
return newCtx, sdk.Result{}, false
} }
func validateEthTxCheckTx( func validateEthTxCheckTx(
ctx sdk.Context, ak auth.AccountKeeper, ethTxMsg *evmtypes.EthereumTxMsg, ctx sdk.Context, ak auth.AccountKeeper, ethTxMsg *evmtypes.EthereumTxMsg,
) sdk.Result { ) (sdk.AccAddress, sdk.Result) {
// parse the chainID from a string to a base-10 integer
chainID, ok := new(big.Int).SetString(ctx.ChainID(), 10)
if !ok {
return emint.ErrInvalidChainID(fmt.Sprintf("invalid chainID: %s", ctx.ChainID())).Result()
}
// Validate sufficient fees have been provided that meet a minimum threshold // Validate sufficient fees have been provided that meet a minimum threshold
// defined by the proposer (for mempool purposes during CheckTx). // defined by the proposer (for mempool purposes during CheckTx).
if res := ensureSufficientMempoolFees(ctx, ethTxMsg); !res.IsOK() { if res := ensureSufficientMempoolFees(ctx, ethTxMsg); !res.IsOK() {
return res return nil, res
} }
// validate enough intrinsic gas // validate enough intrinsic gas
if res := validateIntrinsicGas(ethTxMsg); !res.IsOK() { if res := validateIntrinsicGas(ethTxMsg); !res.IsOK() {
return res return nil, res
}
signer, res := validateSignature(ctx, ethTxMsg)
if !res.IsOK() {
return nil, res
}
// validate account (nonce and balance checks)
if res := validateAccount(ctx, ak, ethTxMsg, signer); !res.IsOK() {
return nil, res
}
return sdk.AccAddress(signer.Bytes()), sdk.Result{}
}
// Validates signature and returns sender address
func validateSignature(ctx sdk.Context, ethTxMsg *evmtypes.EthereumTxMsg) (sdk.AccAddress, sdk.Result) {
// parse the chainID from a string to a base-10 integer
chainID, ok := new(big.Int).SetString(ctx.ChainID(), 10)
if !ok {
return nil, emint.ErrInvalidChainID(fmt.Sprintf("invalid chainID: %s", ctx.ChainID())).Result()
} }
// validate sender/signature // validate sender/signature
signer, err := ethTxMsg.VerifySig(chainID) signer, err := ethTxMsg.VerifySig(chainID)
if err != nil { if err != nil {
return sdk.ErrUnauthorized(fmt.Sprintf("signature verification failed: %s", err)).Result() return nil, sdk.ErrUnauthorized(fmt.Sprintf("signature verification failed: %s", err)).Result()
} }
// validate account (nonce and balance checks) return sdk.AccAddress(signer.Bytes()), sdk.Result{}
if res := validateAccount(ctx, ak, ethTxMsg, signer); !res.IsOK() {
return res
}
return sdk.Result{}
} }
// validateIntrinsicGas validates that the Ethereum tx message has enough to // validateIntrinsicGas validates that the Ethereum tx message has enough to
@ -265,10 +330,10 @@ func validateIntrinsicGas(ethTxMsg *evmtypes.EthereumTxMsg) sdk.Result {
// validateAccount validates the account nonce and that the account has enough // validateAccount validates the account nonce and that the account has enough
// funds to cover the tx cost. // funds to cover the tx cost.
func validateAccount( func validateAccount(
ctx sdk.Context, ak auth.AccountKeeper, ethTxMsg *evmtypes.EthereumTxMsg, signer ethcmn.Address, ctx sdk.Context, ak auth.AccountKeeper, ethTxMsg *evmtypes.EthereumTxMsg, signer sdk.AccAddress,
) sdk.Result { ) sdk.Result {
acc := ak.GetAccount(ctx, sdk.AccAddress(signer.Bytes())) acc := ak.GetAccount(ctx, signer)
// on InitChain make sure account number == 0 // on InitChain make sure account number == 0
if ctx.BlockHeight() == 0 && acc.GetAccountNumber() != 0 { if ctx.BlockHeight() == 0 && acc.GetAccountNumber() != 0 {
@ -278,12 +343,9 @@ func validateAccount(
)).Result() )).Result()
} }
// Validate the transaction nonce is valid (equivalent to the sender accounts // Validate nonce is correct
// current nonce). if res := checkNonce(ctx, ak, ethTxMsg, signer); !res.IsOK() {
seq := acc.GetSequence() return res
if ethTxMsg.Data.AccountNonce != seq {
return sdk.ErrInvalidSequence(
fmt.Sprintf("nonce too low; got %d, expected %d", ethTxMsg.Data.AccountNonce, seq)).Result()
} }
// validate sender has enough funds // validate sender has enough funds
@ -297,6 +359,21 @@ func validateAccount(
return sdk.Result{} return sdk.Result{}
} }
func checkNonce(
ctx sdk.Context, ak auth.AccountKeeper, ethTxMsg *evmtypes.EthereumTxMsg, signer sdk.AccAddress,
) sdk.Result {
acc := ak.GetAccount(ctx, signer)
// Validate the transaction nonce is valid (equivalent to the sender accounts
// current nonce).
seq := acc.GetSequence()
if ethTxMsg.Data.AccountNonce != seq {
return sdk.ErrInvalidSequence(
fmt.Sprintf("invalid nonce; got %d, expected %d", ethTxMsg.Data.AccountNonce, seq)).Result()
}
return sdk.Result{}
}
// ensureSufficientMempoolFees verifies that enough fees have been provided by the // ensureSufficientMempoolFees verifies that enough fees have been provided by the
// Ethereum transaction that meet the minimum threshold set by the block // Ethereum transaction that meet the minimum threshold set by the block
// proposer. // proposer.

6
x/evm/module.go
View File

@ -117,7 +117,11 @@ func (am AppModule) BeginBlock(ctx sdk.Context, bl abci.RequestBeginBlock) {
// EndBlock function for module at end of block // EndBlock function for module at end of block
func (am AppModule) EndBlock(ctx sdk.Context, _ abci.RequestEndBlock) []abci.ValidatorUpdate { func (am AppModule) EndBlock(ctx sdk.Context, _ abci.RequestEndBlock) []abci.ValidatorUpdate {
_, err := am.keeper.csdb.Commit(true) // Gas costs are handled within msg handler so costs should be ignored
ebCtx := ctx.WithBlockGasMeter(sdk.NewInfiniteGasMeter())
// Commit state objects to KV store
_, err := am.keeper.csdb.WithContext(ebCtx).Commit(true)
if err != nil { if err != nil {
panic(err) panic(err)
} }

48
x/evm/types/state_transition.go
View File

@ -31,6 +31,9 @@ type StateTransition struct {
func (st StateTransition) TransitionCSDB(ctx sdk.Context) (sdk.Result, *big.Int) { func (st StateTransition) TransitionCSDB(ctx sdk.Context) (sdk.Result, *big.Int) {
contractCreation := st.Recipient == nil contractCreation := st.Recipient == nil
// This gas limit the the transaction gas limit with intrinsic gas subtracted
gasLimit := ctx.GasMeter().Limit()
// Create context for evm // Create context for evm
context := vm.Context{ context := vm.Context{
CanTransfer: core.CanTransfer, CanTransfer: core.CanTransfer,
@ -40,11 +43,17 @@ func (st StateTransition) TransitionCSDB(ctx sdk.Context) (sdk.Result, *big.Int)
BlockNumber: big.NewInt(ctx.BlockHeight()), BlockNumber: big.NewInt(ctx.BlockHeight()),
Time: big.NewInt(time.Now().Unix()), Time: big.NewInt(time.Now().Unix()),
Difficulty: big.NewInt(0x30000), // unused Difficulty: big.NewInt(0x30000), // unused
GasLimit: ctx.GasMeter().Limit(), GasLimit: gasLimit,
GasPrice: ctx.MinGasPrices().AmountOf(emint.DenomDefault).Int, GasPrice: ctx.MinGasPrices().AmountOf(emint.DenomDefault).Int,
} }
vmenv := vm.NewEVM(context, st.Csdb.WithContext(ctx), GenerateChainConfig(st.ChainID), vm.Config{}) // This gas meter is set up to consume gas from gaskv during evm execution and be ignored
evmGasMeter := sdk.NewInfiniteGasMeter()
vmenv := vm.NewEVM(
context, st.Csdb.WithContext(ctx.WithGasMeter(evmGasMeter)),
GenerateChainConfig(st.ChainID), vm.Config{},
)
var ( var (
leftOverGas uint64 leftOverGas uint64
@ -54,11 +63,11 @@ func (st StateTransition) TransitionCSDB(ctx sdk.Context) (sdk.Result, *big.Int)
) )
if contractCreation { if contractCreation {
_, addr, leftOverGas, vmerr = vmenv.Create(senderRef, st.Payload, st.GasLimit, st.Amount) _, addr, leftOverGas, vmerr = vmenv.Create(senderRef, st.Payload, gasLimit, st.Amount)
} else { } else {
// Increment the nonce for the next transaction // Increment the nonce for the next transaction
st.Csdb.SetNonce(st.Sender, st.Csdb.GetNonce(st.Sender)+1) st.Csdb.SetNonce(st.Sender, st.Csdb.GetNonce(st.Sender)+1)
_, leftOverGas, vmerr = vmenv.Call(senderRef, *st.Recipient, st.Payload, st.GasLimit, st.Amount) _, leftOverGas, vmerr = vmenv.Call(senderRef, *st.Recipient, st.Payload, gasLimit, st.Amount)
} }
// handle errors // handle errors
@ -66,15 +75,13 @@ func (st StateTransition) TransitionCSDB(ctx sdk.Context) (sdk.Result, *big.Int)
return emint.ErrVMExecution(vmerr.Error()).Result(), nil return emint.ErrVMExecution(vmerr.Error()).Result(), nil
} }
// Refund remaining gas from tx (Check these values and ensure gas is being consumed correctly) // Refunds would happen here, if intended in future
refundGas(st.Csdb, &leftOverGas, st.GasLimit, context.GasPrice, st.Sender)
// add balance for the processor of the tx (determine who rewards are being processed to)
// TODO: Double check nothing needs to be done here
st.Csdb.Finalise(true) // Change to depend on config st.Csdb.Finalise(true) // Change to depend on config
// TODO: Consume gas from sender // Consume gas from evm execution
// Out of gas check does not need to be done here since it is done within the EVM execution
ctx.GasMeter().ConsumeGas(gasLimit-leftOverGas, "EVM execution consumption")
// Generate bloom filter to be saved in tx receipt data // Generate bloom filter to be saved in tx receipt data
bloomInt := big.NewInt(0) bloomInt := big.NewInt(0)
@ -90,24 +97,3 @@ func (st StateTransition) TransitionCSDB(ctx sdk.Context) (sdk.Result, *big.Int)
return sdk.Result{Data: returnData, GasUsed: st.GasLimit - leftOverGas}, bloomInt return sdk.Result{Data: returnData, GasUsed: st.GasLimit - leftOverGas}, bloomInt
} }
func refundGas(
st vm.StateDB, gasRemaining *uint64, initialGas uint64, gasPrice *big.Int,
from common.Address,
) {
// Apply refund counter, capped to half of the used gas.
refund := (initialGas - *gasRemaining) / 2
if refund > st.GetRefund() {
refund = st.GetRefund()
}
*gasRemaining += refund
// // Return ETH for remaining gas, exchanged at the original rate.
// remaining := new(big.Int).Mul(new(big.Int).SetUint64(*gasRemaining), gasPrice)
// st.AddBalance(from, remaining)
// // Also return remaining gas to the block gas counter so it is
// // available for the next transaction.
// TODO: Return gas to block gas meter?
// st.gp.AddGas(st.gas)
}