nimbus-eth1/nimbus/db/ledger/distinct_ledgers.nim

152 lines
5.5 KiB
Nim

# Nimbus
# Copyright (c) 2023 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.
# The point of this file is just to give a little more type-safety
# and clarity to our use of SecureHexaryTrie, by having distinct
# types for the big trie containing all the accounts and the little
# tries containing the storage for an individual account.
#
# It's nice to have all the accesses go through "getAccountBytes"
# rather than just "get" (which is hard to search for). Plus we
# may want to put in assertions to make sure that the nodes for
# the account are all present (in stateless mode), etc.
{.push raises: [].}
## Re-write of `distinct_tries.nim` to be imported into `accounts_ledger.nim`
## for using new database API.
##
import
std/[algorithm, sequtils, strutils, tables, typetraits],
chronicles,
eth/common,
results,
".."/[core_db, storage_types]
type
AccountLedger* = distinct CoreDxAccRef
StorageLedger* = distinct CoreDxPhkRef
SomeLedger* = AccountLedger | StorageLedger
# ------------------------------------------------------------------------------
# Public debugging helpers
# ------------------------------------------------------------------------------
proc toSvp*(sl: StorageLedger): seq[(UInt256,UInt256)] =
## Dump as slot id-value pair sequence
let
db = sl.distinctBase.parent
save = db.trackNewApi
db.trackNewApi = false
defer: db.trackNewApi = save
let kvt = db.newKvt
var kvp: Table[UInt256,UInt256]
try:
for (slotHash,val) in sl.distinctBase.toMpt.pairs:
let rc = kvt.get(slotHashToSlotKey(slotHash).toOpenArray)
if rc.isErr:
warn "StorageLedger.dump()", slotHash, error=($$rc.error)
else:
kvp[rlp.decode(rc.value,UInt256)] = rlp.decode(val,UInt256)
except CatchableError as e:
raiseAssert "Ooops(" & $e.name & "): " & e.msg
kvp.keys.toSeq.sorted.mapIt((it,kvp.getOrDefault(it,high UInt256)))
proc toStr*(w: seq[(UInt256,UInt256)]): string =
"[" & w.mapIt("(" & it[0].toHex & "," & it[1].toHex & ")").join(", ") & "]"
# ------------------------------------------------------------------------------
# Public helpers
# ------------------------------------------------------------------------------
proc db*(t: SomeLedger): CoreDbRef =
t.distinctBase.parent
proc rootHash*(t: SomeLedger): Hash256 =
t.distinctBase.rootVid().hash().expect "SomeLedger/rootHash()"
proc rootVid*(t: SomeLedger): CoreDbVidRef =
t.distinctBase.rootVid
# ------------------------------------------------------------------------------
# Public functions: accounts ledger
# ------------------------------------------------------------------------------
proc init*(
T: type AccountLedger;
db: CoreDbRef;
rootHash: Hash256;
isPruning = true;
): T =
let vid = db.getRoot(rootHash).expect "AccountLedger/getRoot()"
db.newAccMpt(vid, isPruning).T
proc init*(
T: type AccountLedger;
db: CoreDbRef;
isPruning = true;
): T =
db.newAccMpt(CoreDbVidRef(nil), isPruning).AccountLedger
proc fetch*(al: AccountLedger; eAddr: EthAddress): Result[CoreDbAccount,void] =
## Using `fetch()` for trie data retrieval
al.distinctBase.fetch(eAddr).mapErr(proc(ign: CoreDbErrorRef) = discard)
proc merge*(al: AccountLedger; eAddr: EthAddress; account: CoreDbAccount) =
## Using `merge()` for trie data storage
al.distinctBase.merge(eAddr, account).expect "AccountLedger/merge()"
proc delete*(al: AccountLedger, eAddr: EthAddress) =
al.distinctBase.delete(eAddr).expect "AccountLedger/delete()"
# ------------------------------------------------------------------------------
# Public functions: storage ledger
# ------------------------------------------------------------------------------
proc init*(
T: type StorageLedger;
al: AccountLedger;
account: CoreDbAccount;
isPruning = false;
): T =
## Storage trie constructor.
##
## Note that the argument `isPruning` should be left `false` on the legacy
## `CoreDb` backend. Otherwise, pruning might kill some unwanted entries from
## storage tries ending up with an unstable database leading to crashes (see
## https://github.com/status-im/nimbus-eth1/issues/932.)
al.distinctBase.parent.newMpt(account.storageVid, isPruning).toPhk.T
#proc init*(T: type StorageLedger; db: CoreDbRef, isPruning = false): T =
# db.newMpt(CoreDbVidRef(nil), isPruning).toPhk.T
proc fetch*(sl: StorageLedger, slot: UInt256): Result[Blob,void] =
sl.distinctBase.fetch(slot.toBytesBE).mapErr proc(ign: CoreDbErrorRef)=discard
proc merge*(sl: StorageLedger, slot: UInt256, value: openArray[byte]) =
sl.distinctBase.merge(slot.toBytesBE, value).expect "StorageLedger/merge()"
proc delete*(sl: StorageLedger, slot: UInt256) =
sl.distinctBase.delete(slot.toBytesBE).expect "StorageLedger/delete()"
iterator storage*(
al: AccountLedger;
account: CoreDbAccount;
): (Blob,Blob)
{.gcsafe, raises: [CoreDbApiError].} =
## For given account, iterate over storage slots
for (key,val) in al.distinctBase.parent.newMpt(account.storageVid).pairs:
yield (key,val)
# ------------------------------------------------------------------------------
# End
# ------------------------------------------------------------------------------