laconicd-deprecated/state/database.go
2018-08-09 20:49:40 +01:00

221 lines
7.5 KiB
Go

package state
import (
"github.com/cosmos/cosmos-sdk/store"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/ethermint/core"
ethcmn "github.com/ethereum/go-ethereum/common"
ethstate "github.com/ethereum/go-ethereum/core/state"
ethtrie "github.com/ethereum/go-ethereum/trie"
lru "github.com/hashicorp/golang-lru"
dbm "github.com/tendermint/tendermint/libs/db"
)
var (
// AccountsKey is the key used for storing Ethereum accounts in the Cosmos
// SDK multi-store.
AccountsKey = sdk.NewKVStoreKey("account")
// StorageKey is the key used for storing Ethereum contract storage in the
// Cosmos SDK multi-store.
StorageKey = sdk.NewKVStoreKey("storage")
// CodeKey is the key used for storing Ethereum contract code in the Cosmos
// SDK multi-store.
CodeKey = sdk.NewKVStoreKey("code")
)
const (
// codeSizeCacheSize is the number of codehash to size associations to
// keep in cached memory. This is to address any DoS attempts on
// EXTCODESIZE calls.
codeSizeCacheSize = 100000
)
// Database implements the Ethereum state.Database interface.
type Database struct {
// stateStore will be used for the history of accounts (balance, nonce,
// storage root hash, code hash) and for the history of contract data
// (effects of SSTORE instruction).
stateStore store.CommitMultiStore
accountsCache store.CacheKVStore
storageCache store.CacheKVStore
// codeDB contains mappings of codeHash => code
//
// NOTE: This database will store the information in memory until is it
// committed, using the function Commit. This function is called outside of
// the ApplyTransaction function, therefore in Ethermint we need to make
// sure this commit is invoked somewhere after each block or whatever the
// appropriate time for it.
codeDB dbm.DB
ethTrieDB *ethtrie.Database
// codeSizeCache contains an LRU cache of a specified capacity to cache
// EXTCODESIZE calls.
codeSizeCache *lru.Cache
dataCache *lru.Cache
Tracing bool
}
// NewDatabase returns a reference to an initialized Database type which
// implements Ethereum's state.Database interface. An error is returned if the
// latest state failed to load. The underlying storage structure is defined by
// the Cosmos SDK IAVL tree.
func NewDatabase(stateDB, codeDB dbm.DB, dataCacheSize int) (*Database, error) {
// Initialize an implementation of Ethereum state.Database and create a
// Cosmos SDK multi-store.
db := &Database{
stateStore: store.NewCommitMultiStore(stateDB),
}
// currently do not prune any historical state
db.stateStore.SetPruning(sdk.PruneNothing)
// Create the underlying multi-store stores that will persist account and
// account storage data.
db.stateStore.MountStoreWithDB(AccountsKey, sdk.StoreTypeIAVL, nil)
db.stateStore.MountStoreWithDB(StorageKey, sdk.StoreTypeIAVL, nil)
// Load the latest account state from the Cosmos SDK multi-store.
if err := db.stateStore.LoadLatestVersion(); err != nil {
return nil, err
}
// Set the persistent Cosmos SDK Database and initialize an Ethereum
// trie.Database using an EthereumDB as the underlying implementation of
// the ethdb.Database interface. It will be used to facilitate persistence
// of contract byte code when committing state.
db.codeDB = codeDB
db.ethTrieDB = ethtrie.NewDatabase(&core.EthereumDB{CodeDB: codeDB})
db.codeSizeCache, _ = lru.New(codeSizeCacheSize)
db.dataCache, _ = lru.New(dataCacheSize)
return db, nil
}
// LatestVersion returns the latest version of the underlying mult-store.
func (db *Database) LatestVersion() int64 {
return db.stateStore.LastCommitID().Version
}
// OpenTrie implements Ethereum's state.Database interface. It returns a Trie
// type which implements the Ethereum state.Trie interface. It us used for
// storage of accounts. An error is returned if state cannot load for a
// given version. The account cache is reset if the state is successfully
// loaded and the version is not the latest.
//
// CONTRACT: The root parameter is not interpreted as a state root hash, but as
// an encoding of an Cosmos SDK IAVL tree version.
func (db *Database) OpenTrie(root ethcmn.Hash) (ethstate.Trie, error) {
if !isRootEmpty(root) {
version := versionFromRootHash(root)
if db.stateStore.LastCommitID().Version != version {
if err := db.stateStore.LoadVersion(version); err != nil {
return nil, err
}
db.accountsCache = nil
}
}
if db.accountsCache == nil {
db.accountsCache = store.NewCacheKVStore(db.stateStore.GetCommitKVStore(AccountsKey))
db.storageCache = store.NewCacheKVStore(db.stateStore.GetCommitKVStore(StorageKey))
}
return &Trie{
store: db.accountsCache,
accountsCache: db.accountsCache,
storageCache: db.storageCache,
dataCache: db.dataCache,
ethTrieDB: db.ethTrieDB,
empty: isRootEmpty(root),
root: rootHashFromVersion(db.stateStore.LastCommitID().Version),
}, nil
}
// OpenStorageTrie implements Ethereum's state.Database interface. It returns
// a Trie type which implements the Ethereum state.Trie interface. It is used
// for storage of contract storage (state). Also, this trie is never committed
// separately as all the data is in a single multi-store and is committed when
// the account IAVL tree is committed.
//
// NOTE: It is assumed that the account state has already been loaded via
// OpenTrie.
//
// CONTRACT: The root parameter is not interpreted as a state root hash, but as
// an encoding of an IAVL tree version.
func (db *Database) OpenStorageTrie(addrHash, root ethcmn.Hash) (ethstate.Trie, error) {
// a contract storage trie does not need an accountCache, storageCache or
// an Ethereum trie because it will not be used upon commitment.
return &Trie{
store: db.storageCache,
dataCache: db.dataCache,
prefix: addrHash.Bytes(),
empty: isRootEmpty(root),
root: rootHashFromVersion(db.stateStore.LastCommitID().Version),
}, nil
}
// CopyTrie implements Ethereum's state.Database interface. For now, it
// performs a no-op as the underlying Cosmos SDK IAVL tree does not support
// such an operation.
//
// TODO: Does the IAVL tree need to support this operation? If so, why and
// how?
func (db *Database) CopyTrie(ethstate.Trie) ethstate.Trie {
return nil
}
// ContractCode implements Ethereum's state.Database interface. It will return
// the contract byte code for a given code hash. It will not return an error.
func (db *Database) ContractCode(addrHash, codeHash ethcmn.Hash) ([]byte, error) {
code := db.codeDB.Get(codeHash[:])
if codeLen := len(code); codeLen != 0 {
db.codeSizeCache.Add(codeHash, codeLen)
}
return code, nil
}
// ContractCodeSize implements Ethereum's state.Database interface. It will
// return the contract byte code size for a given code hash. It will not return
// an error.
func (db *Database) ContractCodeSize(addrHash, codeHash ethcmn.Hash) (int, error) {
if cached, ok := db.codeSizeCache.Get(codeHash); ok {
return cached.(int), nil
}
code, err := db.ContractCode(addrHash, codeHash)
return len(code), err
}
// Commit commits the underlying Cosmos SDK multi-store returning the commit
// ID.
func (db *Database) Commit() sdk.CommitID {
return db.stateStore.Commit()
}
// TrieDB implements Ethereum's state.Database interface. It returns Ethereum's
// trie.Database low level trie database used for contract state storage. In
// the context of Ethermint, it'll be used to solely store mappings of
// codeHash => code.
func (db *Database) TrieDB() *ethtrie.Database {
return db.ethTrieDB
}
// isRootEmpty returns true if a given root hash is empty or false otherwise.
func isRootEmpty(root ethcmn.Hash) bool {
return root == ethcmn.Hash{}
}