nimbus-eth1/nimbus/db/state_db.nim

210 lines
8.1 KiB
Nim

# Nimbus
# Copyright (c) 2018 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed except according to those terms.
import
sequtils, strformat, tables,
chronicles, eth/[common, rlp], nimcrypto, eth/trie/[hexary, db],
../constants, ../errors, ../validation,
storage_types
logScope:
topics = "state_db"
type
AccountStateDB* = ref object
trie: SecureHexaryTrie
ReadOnlyStateDB* = distinct AccountStateDB
proc rootHash*(db: AccountStateDB): KeccakHash =
db.trie.rootHash
proc `rootHash=`*(db: AccountStateDB, root: KeccakHash) =
db.trie = initSecureHexaryTrie(HexaryTrie(db.trie).db, root, db.trie.isPruning)
proc newAccountStateDB*(backingStore: TrieDatabaseRef,
root: KeccakHash, pruneTrie: bool): AccountStateDB =
result.new()
result.trie = initSecureHexaryTrie(backingStore, root, pruneTrie)
template createRangeFromAddress(address: EthAddress): ByteRange =
## XXX: The name of this proc is intentionally long, because it
## performs a memory allocation and data copying that may be eliminated
## in the future. Avoid renaming it to something similar as `toRange`, so
## it can remain searchable in the code.
toRange(@address)
proc getAccount*(db: AccountStateDB, address: EthAddress): Account =
let recordFound = db.trie.get(createRangeFromAddress address)
if recordFound.len > 0:
result = rlp.decode(recordFound, Account)
else:
result = newAccount()
proc setAccount*(db: AccountStateDB, address: EthAddress, account: Account) =
db.trie.put createRangeFromAddress(address), rlp.encode(account).toRange
proc deleteAccount*(db: AccountStateDB, address: EthAddress) =
db.trie.del createRangeFromAddress(address)
proc getCodeHash*(db: AccountStateDB, address: EthAddress): Hash256 =
let account = db.getAccount(address)
result = account.codeHash
proc getBalance*(db: AccountStateDB, address: EthAddress): UInt256 =
let account = db.getAccount(address)
account.balance
proc setBalance*(db: var AccountStateDB, address: EthAddress, balance: UInt256) =
var account = db.getAccount(address)
account.balance = balance
db.setAccount(address, account)
proc addBalance*(db: var AccountStateDB, address: EthAddress, delta: UInt256) =
db.setBalance(address, db.getBalance(address) + delta)
proc subBalance*(db: var AccountStateDB, address: EthAddress, delta: UInt256) =
db.setBalance(address, db.getBalance(address) - delta)
template createTrieKeyFromSlot(slot: UInt256): ByteRange =
# XXX: This is too expensive. Similar to `createRangeFromAddress`
# Converts a number to hex big-endian representation including
# prefix and leading zeros:
@(slot.toByteArrayBE).toRange
# Original py-evm code:
# pad32(int_to_big_endian(slot))
# morally equivalent to toByteRange_Unnecessary but with different types
template getAccountTrie(stateDb: AccountStateDB, account: Account): auto =
# TODO: implement `prefix-db` to solve issue #228 permanently.
# the `prefix-db` will automatically insert account address to the
# underlying-db key without disturb how the trie works.
# it will create virtual container for each account.
# see nim-eth#9
initSecureHexaryTrie(HexaryTrie(stateDb.trie).db, account.storageRoot, false)
# XXX: https://github.com/status-im/nimbus/issues/142#issuecomment-420583181
proc setStorageRoot*(db: var AccountStateDB, address: EthAddress, storageRoot: Hash256) =
var account = db.getAccount(address)
account.storageRoot = storageRoot
db.setAccount(address, account)
proc getStorageRoot*(db: AccountStateDB, address: EthAddress): Hash256 =
var account = db.getAccount(address)
account.storageRoot
proc setStorage*(db: var AccountStateDB,
address: EthAddress,
slot: UInt256, value: UInt256) =
var account = db.getAccount(address)
var accountTrie = getAccountTrie(db, account)
let slotAsKey = createTrieKeyFromSlot slot
if value > 0:
let encodedValue = rlp.encode(value).toRange
accountTrie.put(slotAsKey, encodedValue)
else:
accountTrie.del(slotAsKey)
# map slothash back to slot value
# see iterator storage below
var
triedb = HexaryTrie(db.trie).db
# slotHash can be obtained from accountTrie.put?
slotHash = keccak256.digest(slot.toByteArrayBE)
triedb.put(slotHashToSlotKey(slotHash.data).toOpenArray, rlp.encode(slot))
account.storageRoot = accountTrie.rootHash
db.setAccount(address, account)
iterator storage*(db: AccountStateDB, address: EthAddress): (UInt256, UInt256) =
let
storageRoot = db.getStorageRoot(address)
triedb = HexaryTrie(db.trie).db
var trie = initHexaryTrie(triedb, storageRoot)
for key, value in trie:
if key.len != 0:
var keyData = triedb.get(slotHashToSlotKey(key.toOpenArray).toOpenArray).toRange
yield (rlp.decode(keyData, UInt256), rlp.decode(value, UInt256))
proc getStorage*(db: AccountStateDB, address: EthAddress, slot: UInt256): (UInt256, bool) =
let
account = db.getAccount(address)
slotAsKey = createTrieKeyFromSlot slot
accountTrie = getAccountTrie(db, account)
let
foundRecord = accountTrie.get(slotAsKey)
if foundRecord.len > 0:
result = (rlp.decode(foundRecord, UInt256), true)
else:
result = (0.u256, false)
proc setNonce*(db: AccountStateDB, address: EthAddress, newNonce: AccountNonce) =
var account = db.getAccount(address)
if newNonce != account.nonce:
account.nonce = newNonce
db.setAccount(address, account)
proc getNonce*(db: AccountStateDB, address: EthAddress): AccountNonce =
let account = db.getAccount(address)
account.nonce
proc setCode*(db: AccountStateDB, address: EthAddress, code: ByteRange) =
var account = db.getAccount(address)
# TODO: implement JournalDB to store code and storage
# also use JournalDB to revert state trie
let
newCodeHash = keccak256.digest code.toOpenArray
triedb = HexaryTrie(db.trie).db
if code.len != 0:
triedb.put(contractHashKey(newCodeHash).toOpenArray, code.toOpenArray)
account.codeHash = newCodeHash
db.setAccount(address, account)
proc getCode*(db: AccountStateDB, address: EthAddress): ByteRange =
let triedb = HexaryTrie(db.trie).db
let data = triedb.get(contractHashKey(db.getCodeHash(address)).toOpenArray)
data.toRange
proc hasCodeOrNonce*(db: AccountStateDB, address: EthAddress): bool {.inline.} =
db.getNonce(address) != 0 or db.getCodeHash(address) != EMPTY_SHA3
proc dumpAccount*(db: AccountStateDB, addressS: string): string =
let address = addressS.parseAddress
return fmt"{addressS}: Storage: {db.getStorage(address, 0.u256)}; getAccount: {db.getAccount address}"
proc accountExists*(db: AccountStateDB, address: EthAddress): bool =
db.trie.get(createRangeFromAddress address).len > 0
proc isDeadAccount*(db: AccountStateDB, address: EthAddress): bool =
let recordFound = db.trie.get(createRangeFromAddress address)
if recordFound.len > 0:
let account = rlp.decode(recordFound, Account)
result = account.codeHash == EMPTY_SHA3 and
account.balance.isZero and
account.nonce == 0
else:
result = true
proc rootHash*(db: ReadOnlyStateDB): KeccakHash {.borrow.}
proc getAccount*(db: ReadOnlyStateDB, address: EthAddress): Account {.borrow.}
proc getCodeHash*(db: ReadOnlyStateDB, address: EthAddress): Hash256 {.borrow.}
proc getBalance*(db: ReadOnlyStateDB, address: EthAddress): UInt256 {.borrow.}
proc getStorageRoot*(db: ReadOnlyStateDB, address: EthAddress): Hash256 {.borrow.}
proc getStorage*(db: ReadOnlyStateDB, address: EthAddress, slot: UInt256): (UInt256, bool) {.borrow.}
proc getNonce*(db: ReadOnlyStateDB, address: EthAddress): AccountNonce {.borrow.}
proc getCode*(db: ReadOnlyStateDB, address: EthAddress): ByteRange {.borrow.}
proc hasCodeOrNonce*(db: ReadOnlyStateDB, address: EthAddress): bool {.borrow.}
proc accountExists*(db: ReadOnlyStateDB, address: EthAddress): bool {.borrow.}
proc isDeadAccount*(db: ReadOnlyStateDB, address: EthAddress): bool {.borrow.}