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State Transitions
The x/evm
module allows for users to submit Ethereum transactions (Tx
) and execute their containing messages to evoke state transitions on the given state.
Users submit transactions client-side to broadcast it to the network. When the transaction is included in a block during consensus, it is executed server-side. We highly recommend to understand the basics of the Tendermint consensus engine to understand the State Transitions in detail.
Client-Side
::: tip
👉 This is based on the eth_sendTransaction
JSON-RPC
:::
- A user submits a transaction via one of the available JSON-RPC endpoints using an Ethereum-compatible client or wallet (eg Metamask, WalletConnect, Ledger, etc):
a. eth (public) namespace:
eth_sendTransaction
eth_sendRawTransaction
b. personal (private) namespace:personal_sendTransaction
- An instance of
MsgEthereumTx
is created after populating the RPC transaction usingSetTxDefaults
to fill missing tx arguments with default values - The
Tx
fields are validated (stateless) usingValidateBasic()
- The
Tx
is signed using the key associated with the sender address and the latest ethereum hard fork (London
,Berlin
, etc) from theChainConfig
- The
Tx
is built from the msg fields using the Cosmos Config builder - The
Tx
is broadcasted in sync mode to ensure to wait for aCheckTx
execution response. Transactions are validated by the application usingCheckTx()
, before being added to the mempool of the consensus engine. - JSON-RPC user receives a response with the
RLP
hash of the transaction fields. This hash is different from the default hash used by SDK Transactions that calculates thesha256
hash of the transaction bytes.
Server-Side
Once a block (containing the Tx
) has been committed during consensus, it is applied to the application in a series of ABCI msgs server-side.
Each Tx
is handled by the application by calling RunTx
. After a stateless validation on each sdk.Msg
in the Tx
, the AnteHandler
confirms whether the Tx
is an Ethereum or SDK transaction. As an Ethereum transaction it's containing msgs are then handled by the x/evm
module to update the application's state.
AnteHandler
The anteHandler
is run for every transaction. It checks if the Tx
is an Ethereum transaction and routes it to an internal ante handler. Here, Tx
s are handled using EthereumTx extension options to process them differently than normal Cosmos SDK transactions. The antehandler
runs through a series of options and their AnteHandle
functions for each Tx
:
EthSetUpContextDecorator()
is adapted from SetUpContextDecorator from cosmos-sdk, it ignores gas consumption by setting the gas meter to infiniteEthValidateBasicDecorator(evmKeeper)
validates the fields of a Ethereum type CosmosTx
msgEthSigVerificationDecorator(evmKeeper)
validates that the registered chain id is the same as the one on the message, and that the signer address matches the one defined on the message. It's not skipped for RecheckTx, because it setFrom
address which is critical from other ante handler to work. Failure in RecheckTx will prevent tx to be included into block, especially when CheckTx succeed, in which case user won't see the error message.EthAccountVerificationDecorator(ak, bankKeeper, evmKeeper)
that the sender balance is greater than the total transaction cost. The account will be set to store if it doesn't exist, i.e cannot be found on store. This AnteHandler decorator will fail if:- any of the msgs is not a MsgEthereumTx
- from address is empty
- account balance is lower than the transaction cost
EthNonceVerificationDecorator(ak)
validates that the transaction nonces are valid and equivalent to the sender account’s current nonce.EthGasConsumeDecorator(evmKeeper)
validates that the Ethereum tx message has enough to cover intrinsic gas (during CheckTx only) and that the sender has enough balance to pay for the gas cost. Intrinsic gas for a transaction is the amount of gas that the transaction uses before the transaction is executed. The gas is a constant value plus any cost incurred by additional bytes of data supplied with the transaction. This AnteHandler decorator will fail if:- the transaction contains more than one message
- the message is not a MsgEthereumTx
- sender account cannot be found
- transaction's gas limit is lower than the intrinsic gas
- user doesn't have enough balance to deduct the transaction fees (gas_limit * gas_price)
- transaction or block gas meter runs out of gas
CanTransferDecorator(evmKeeper, feeMarketKeeper)
creates an EVM from the message and calls the BlockContext CanTransfer function to see if the address can execute the transaction.EthIncrementSenderSequenceDecorator(ak)
handles incrementing the sequence of the signer (i.e sender). If the transaction is a contract creation, the nonce will be incremented during the transaction execution and not within this AnteHandler decorator.
The options authante.NewMempoolFeeDecorator()
, authante.NewTxTimeoutHeightDecorator()
and authante.NewValidateMemoDecorator(ak)
are the same as for a Cosmos Tx
. Click here for more on the anteHandler
.
EVM module
After authentication through the antehandler
, each sdk.Msg
(in this case MsgEthereumTx
) in the Tx
is delivered to the Msg Handler in the x/evm
module and runs through the following the steps:
- Convert
Msg
to an ethereumTx
type - Apply
Tx
withEVMConfig
and attempt to perform a state transition, that will only be persisted (committed) to the underlying KVStore if the transaction does not fail:- Confirm that
EVMConfig
is created - Create the ethereum signer using chain config value from
EVMConfig
- Set the ethereum transaction hash to the (impermanent) transient store so that it's also available on the StateDB functions
- Generate a new EVM instance
- Confirm that EVM params for contract creation (
EnableCreate
) and contract execution (EnableCall
) are enabled - Apply message. If
To
address isnil
, create new contract using code as deployment code. Else call contract at given address with the given input as parameters - Calculate gas used by the evm operation
- Confirm that
- If
Tx
applied sucessfully- Execute EVM
Tx
postprocessing hooks. If hooks return error, revert the wholeTx
- Refund gas according to Ethereum gas accounting rules
- Update block bloom filter value using the logs generated from the tx
- Emit SDK events for the transaction fields and tx logs
- Execute EVM