performance, and document all the transaction and state cycles and flows.
## Context
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This ADR addresses the issues of 3 different components of the EVM state: the `StateDB` interface,
the live `stateObject` accounts, and the `StateTransition` functionality. These issues are outlined
below in the section for each corresponding component:
### `StateDB`
In order to execute state transitions, the EVM receives a reference to a database interface to
perform CRUD operations on accounts, balances, code and state storage, among other state queries.
This database interface is defined by go-ethereum's `vm.StateDB`, which is currently implemented
using the `CommitStateDB` concrete type.
The `CommitStateDB` performs state updates by having a direct access to the `sdk.Context`, the evm's
`sdk.StoreKey` and external `Keepers` for account and balances. Currently, the context field needs
to be set on every block or state transition using `WithContext(ctx)` in order to pass the updated
block and transaction data to the `CommitStateDB`.
However, traditionally in Cosmos SDK-based chains, the `Keeper` type has been the de-facto abstraction
that manages access the key-value store (`KVStore`) owned by the module through the store key.
`Keepers` usually hold a reference to external module `Keepers` to perform functionality outside of
the scope of their module.
In the existing architecture of the EVM module, both `CommitStateDB` and `Keeper` have access to
state.
### State Objects
The `CommitStateDB` also holds references of `stateObjects`, defined as "live ethereum consensus
accounts (i.e any balance, account nonces or storage) which will get modified while processing a
state transition".
Upon a state transition, these objects will be modified and marked as 'dirty' (a.k.a stateless
update) on the `CommitStateDB`. Then, at every `EndBlock`, the state of these modified objects will
A general EVM state transition is performed by calling the ethereum `vm.EVM``Create` or `Call` functions, depending on whether the transaction creates a contract or performs a transfer or call to a given contract.
In the case of the `x/evm` module, it currently uses a modified version of Geth's `TransitionDB`, that wraps these two `vm.EVM` methods. The reason for using this modified function, is due to several reasons:
1. The use of `sdk.Msg` (`MsgEthereumTx`) instead of the ethereum `core.Message` type for the `vm.EVM` functions, preventing the direct use of the `core.ApplyMessage`.
2. The use of custom gas accounting through the transaction `GasMeter` available on the `sdk.Context` to consume the same amount of gas as on Ethereum.
3. Simulate logic via ABCI `CheckTx`, that prevents the state from being finalized.
## Decision
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### `StateDB`
The `CommitStateDB` type will be removed in favor turning the module's `Keeper` into a `StateDB`
concrete implementation.
```go
// Keeper now fully implements the StateDB interface
var _ vm.StateDB = (*Keeper)(nil)
// Keeper defines the EVM module state keeper for CRUD operations.
// It also implements the go-ethereum vm.StateDB interface. Instead of using
// a trie and database for querying and persistence, the Keeper uses KVStores
// and external Keepers to facilitate state transitions for accounts and balance
// accounting.
type Keeper struct {
// store key and encoding codec
// external module keepers (account, bank, etc) and params subspace
// cache fields and sdk.Context (reset every block)
// other CommitStateDB fields (journal, accessList, etc)
}
```
This means that a `Keeper` pointer will now directly be passed to the `vm.EVM` for accessing the state and performing state transitions.
The new `StateDB` (`Keeper`) will adopt the use of the [`TransientStore`](https://docs.cosmos.network/master/core/store.html#transient-store) that discards the existing values of the store when the block is committed.
The state transition logic will be refactored to use the [`ApplyTransaction`](https://github.com/ethereum/go-ethereum/blob/v1.10.3/core/state_processor.go#L137-L150) function from the `core`
package of go-ethereum as reference. This method calls creates a go-ethereum `StateTransition`
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### Backwards Compatibility
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The proposed ADR is a breaking state machine change and will not have any backwards compatibility
since no chain that uses this code is in a production ready-state (at the moment of writing).
### Positive
- Improve maintenance by simplifying the state transition logic
- Defines a single option for accessing the store through the `Keeper`, thus removing the
`CommitStateDB` type.
- State operations and tests are now all located in the `evm/keeper/` package
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## Test Cases [optional]
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