353 lines
14 KiB
Go
353 lines
14 KiB
Go
// Copyright 2018 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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// Package rawdb contains a collection of low level database accessors.
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package rawdb
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import (
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"bytes"
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"encoding/binary"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/metrics"
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)
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// The fields below define the low level database schema prefixing.
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var (
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// databaseVersionKey tracks the current database version.
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databaseVersionKey = []byte("DatabaseVersion")
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// headHeaderKey tracks the latest known header's hash.
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headHeaderKey = []byte("LastHeader")
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// headBlockKey tracks the latest known full block's hash.
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headBlockKey = []byte("LastBlock")
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// headFastBlockKey tracks the latest known incomplete block's hash during fast sync.
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headFastBlockKey = []byte("LastFast")
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// persistentStateIDKey tracks the id of latest stored state(for path-based only).
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persistentStateIDKey = []byte("LastStateID")
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// lastPivotKey tracks the last pivot block used by fast sync (to reenable on sethead).
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lastPivotKey = []byte("LastPivot")
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// fastTrieProgressKey tracks the number of trie entries imported during fast sync.
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fastTrieProgressKey = []byte("TrieSync")
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// snapshotDisabledKey flags that the snapshot should not be maintained due to initial sync.
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snapshotDisabledKey = []byte("SnapshotDisabled")
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// SnapshotRootKey tracks the hash of the last snapshot.
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SnapshotRootKey = []byte("SnapshotRoot")
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// snapshotJournalKey tracks the in-memory diff layers across restarts.
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snapshotJournalKey = []byte("SnapshotJournal")
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// snapshotGeneratorKey tracks the snapshot generation marker across restarts.
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snapshotGeneratorKey = []byte("SnapshotGenerator")
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// snapshotRecoveryKey tracks the snapshot recovery marker across restarts.
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snapshotRecoveryKey = []byte("SnapshotRecovery")
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// snapshotSyncStatusKey tracks the snapshot sync status across restarts.
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snapshotSyncStatusKey = []byte("SnapshotSyncStatus")
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// skeletonSyncStatusKey tracks the skeleton sync status across restarts.
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skeletonSyncStatusKey = []byte("SkeletonSyncStatus")
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// trieJournalKey tracks the in-memory trie node layers across restarts.
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trieJournalKey = []byte("TrieJournal")
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// txIndexTailKey tracks the oldest block whose transactions have been indexed.
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txIndexTailKey = []byte("TransactionIndexTail")
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// fastTxLookupLimitKey tracks the transaction lookup limit during fast sync.
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// This flag is deprecated, it's kept to avoid reporting errors when inspect
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// database.
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fastTxLookupLimitKey = []byte("FastTransactionLookupLimit")
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//offSet of new updated ancientDB.
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offSetOfCurrentAncientFreezer = []byte("offSetOfCurrentAncientFreezer")
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//offSet of the ancientDB before updated version.
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offSetOfLastAncientFreezer = []byte("offSetOfLastAncientFreezer")
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//frozenOfAncientDBKey tracks the block number for ancientDB to save.
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frozenOfAncientDBKey = []byte("FrozenOfAncientDB")
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//LastSafePointBlockKey tracks the block number for block state that write disk
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LastSafePointBlockKey = []byte("LastSafePointBlockNumber")
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//PruneAncientFlag flag whether prune ancient
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pruneAncientKey = []byte("PruneAncientFlag")
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// badBlockKey tracks the list of bad blocks seen by local
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badBlockKey = []byte("InvalidBlock")
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// uncleanShutdownKey tracks the list of local crashes
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uncleanShutdownKey = []byte("unclean-shutdown") // config prefix for the db
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// transitionStatusKey tracks the eth2 transition status.
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transitionStatusKey = []byte("eth2-transition")
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// snapSyncStatusFlagKey flags that status of snap sync.
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snapSyncStatusFlagKey = []byte("SnapSyncStatus")
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// Data item prefixes (use single byte to avoid mixing data types, avoid `i`, used for indexes).
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headerPrefix = []byte("h") // headerPrefix + num (uint64 big endian) + hash -> header
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headerTDSuffix = []byte("t") // headerPrefix + num (uint64 big endian) + hash + headerTDSuffix -> td
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headerHashSuffix = []byte("n") // headerPrefix + num (uint64 big endian) + headerHashSuffix -> hash
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headerNumberPrefix = []byte("H") // headerNumberPrefix + hash -> num (uint64 big endian)
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blockBodyPrefix = []byte("b") // blockBodyPrefix + num (uint64 big endian) + hash -> block body
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blockReceiptsPrefix = []byte("r") // blockReceiptsPrefix + num (uint64 big endian) + hash -> block receipts
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txLookupPrefix = []byte("l") // txLookupPrefix + hash -> transaction/receipt lookup metadata
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bloomBitsPrefix = []byte("B") // bloomBitsPrefix + bit (uint16 big endian) + section (uint64 big endian) + hash -> bloom bits
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SnapshotAccountPrefix = []byte("a") // SnapshotAccountPrefix + account hash -> account trie value
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SnapshotStoragePrefix = []byte("o") // SnapshotStoragePrefix + account hash + storage hash -> storage trie value
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CodePrefix = []byte("c") // CodePrefix + code hash -> account code
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// difflayer database
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diffLayerPrefix = []byte("d") // diffLayerPrefix + hash -> diffLayer
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// Path-based storage scheme of merkle patricia trie.
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trieNodeAccountPrefix = []byte("A") // trieNodeAccountPrefix + hexPath -> trie node
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trieNodeStoragePrefix = []byte("O") // trieNodeStoragePrefix + accountHash + hexPath -> trie node
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stateIDPrefix = []byte("L") // stateIDPrefix + state root -> state id
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PreimagePrefix = []byte("secure-key-") // PreimagePrefix + hash -> preimage
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configPrefix = []byte("ethereum-config-") // config prefix for the db
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genesisPrefix = []byte("ethereum-genesis-") // genesis state prefix for the db
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// BloomBitsIndexPrefix is the data table of a chain indexer to track its progress
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BloomBitsIndexPrefix = []byte("iB")
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ChtPrefix = []byte("chtRootV2-") // ChtPrefix + chtNum (uint64 big endian) -> trie root hash
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ChtTablePrefix = []byte("cht-")
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ChtIndexTablePrefix = []byte("chtIndexV2-")
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BloomTriePrefix = []byte("bltRoot-") // BloomTriePrefix + bloomTrieNum (uint64 big endian) -> trie root hash
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BloomTrieTablePrefix = []byte("blt-")
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BloomTrieIndexPrefix = []byte("bltIndex-")
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CliqueSnapshotPrefix = []byte("clique-")
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ParliaSnapshotPrefix = []byte("parlia-")
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preimageCounter = metrics.NewRegisteredCounter("db/preimage/total", nil)
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preimageHitCounter = metrics.NewRegisteredCounter("db/preimage/hits", nil)
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)
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// LegacyTxLookupEntry is the legacy TxLookupEntry definition with some unnecessary
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// fields.
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type LegacyTxLookupEntry struct {
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BlockHash common.Hash
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BlockIndex uint64
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Index uint64
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}
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// encodeBlockNumber encodes a block number as big endian uint64
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func encodeBlockNumber(number uint64) []byte {
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enc := make([]byte, 8)
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binary.BigEndian.PutUint64(enc, number)
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return enc
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}
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// headerKeyPrefix = headerPrefix + num (uint64 big endian)
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func headerKeyPrefix(number uint64) []byte {
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return append(headerPrefix, encodeBlockNumber(number)...)
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}
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// headerKey = headerPrefix + num (uint64 big endian) + hash
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func headerKey(number uint64, hash common.Hash) []byte {
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return append(append(headerPrefix, encodeBlockNumber(number)...), hash.Bytes()...)
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}
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// headerTDKey = headerPrefix + num (uint64 big endian) + hash + headerTDSuffix
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func headerTDKey(number uint64, hash common.Hash) []byte {
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return append(headerKey(number, hash), headerTDSuffix...)
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}
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// headerHashKey = headerPrefix + num (uint64 big endian) + headerHashSuffix
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func headerHashKey(number uint64) []byte {
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return append(append(headerPrefix, encodeBlockNumber(number)...), headerHashSuffix...)
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}
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// headerNumberKey = headerNumberPrefix + hash
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func headerNumberKey(hash common.Hash) []byte {
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return append(headerNumberPrefix, hash.Bytes()...)
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}
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// blockBodyKey = blockBodyPrefix + num (uint64 big endian) + hash
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func blockBodyKey(number uint64, hash common.Hash) []byte {
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return append(append(blockBodyPrefix, encodeBlockNumber(number)...), hash.Bytes()...)
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}
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// blockReceiptsKey = blockReceiptsPrefix + num (uint64 big endian) + hash
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func blockReceiptsKey(number uint64, hash common.Hash) []byte {
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return append(append(blockReceiptsPrefix, encodeBlockNumber(number)...), hash.Bytes()...)
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}
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// diffLayerKey = diffLayerKeyPrefix + hash
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func diffLayerKey(hash common.Hash) []byte {
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return append(diffLayerPrefix, hash.Bytes()...)
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}
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// txLookupKey = txLookupPrefix + hash
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func txLookupKey(hash common.Hash) []byte {
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return append(txLookupPrefix, hash.Bytes()...)
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}
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// accountSnapshotKey = SnapshotAccountPrefix + hash
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func accountSnapshotKey(hash common.Hash) []byte {
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return append(SnapshotAccountPrefix, hash.Bytes()...)
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}
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// storageSnapshotKey = SnapshotStoragePrefix + account hash + storage hash
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func storageSnapshotKey(accountHash, storageHash common.Hash) []byte {
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buf := make([]byte, len(SnapshotStoragePrefix)+common.HashLength+common.HashLength)
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n := copy(buf, SnapshotStoragePrefix)
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n += copy(buf[n:], accountHash.Bytes())
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copy(buf[n:], storageHash.Bytes())
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return buf
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}
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// storageSnapshotsKey = SnapshotStoragePrefix + account hash + storage hash
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func storageSnapshotsKey(accountHash common.Hash) []byte {
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return append(SnapshotStoragePrefix, accountHash.Bytes()...)
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}
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// bloomBitsKey = bloomBitsPrefix + bit (uint16 big endian) + section (uint64 big endian) + hash
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func bloomBitsKey(bit uint, section uint64, hash common.Hash) []byte {
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key := append(append(bloomBitsPrefix, make([]byte, 10)...), hash.Bytes()...)
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binary.BigEndian.PutUint16(key[1:], uint16(bit))
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binary.BigEndian.PutUint64(key[3:], section)
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return key
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}
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// preimageKey = PreimagePrefix + hash
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func preimageKey(hash common.Hash) []byte {
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return append(PreimagePrefix, hash.Bytes()...)
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}
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// codeKey = CodePrefix + hash
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func codeKey(hash common.Hash) []byte {
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return append(CodePrefix, hash.Bytes()...)
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}
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// IsCodeKey reports whether the given byte slice is the key of contract code,
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// if so return the raw code hash as well.
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func IsCodeKey(key []byte) (bool, []byte) {
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if bytes.HasPrefix(key, CodePrefix) && len(key) == common.HashLength+len(CodePrefix) {
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return true, key[len(CodePrefix):]
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}
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return false, nil
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}
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// configKey = configPrefix + hash
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func configKey(hash common.Hash) []byte {
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return append(configPrefix, hash.Bytes()...)
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}
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// genesisStateSpecKey = genesisPrefix + hash
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func genesisStateSpecKey(hash common.Hash) []byte {
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return append(genesisPrefix, hash.Bytes()...)
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}
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// stateIDKey = stateIDPrefix + root (32 bytes)
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func stateIDKey(root common.Hash) []byte {
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return append(stateIDPrefix, root.Bytes()...)
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}
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// accountTrieNodeKey = trieNodeAccountPrefix + nodePath.
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func accountTrieNodeKey(path []byte) []byte {
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return append(trieNodeAccountPrefix, path...)
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}
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// storageTrieNodeKey = trieNodeStoragePrefix + accountHash + nodePath.
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func storageTrieNodeKey(accountHash common.Hash, path []byte) []byte {
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buf := make([]byte, len(trieNodeStoragePrefix)+common.HashLength+len(path))
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n := copy(buf, trieNodeStoragePrefix)
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n += copy(buf[n:], accountHash.Bytes())
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copy(buf[n:], path)
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return buf
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}
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// IsLegacyTrieNode reports whether a provided database entry is a legacy trie
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// node. The characteristics of legacy trie node are:
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// - the key length is 32 bytes
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// - the key is the hash of val
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func IsLegacyTrieNode(key []byte, val []byte) bool {
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if len(key) != common.HashLength {
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return false
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}
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return bytes.Equal(key, crypto.Keccak256(val))
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}
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// ResolveAccountTrieNodeKey reports whether a provided database entry is an
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// account trie node in path-based state scheme, and returns the resolved
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// node path if so.
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func ResolveAccountTrieNodeKey(key []byte) (bool, []byte) {
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if !bytes.HasPrefix(key, trieNodeAccountPrefix) {
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return false, nil
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}
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// The remaining key should only consist a hex node path
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// whose length is in the range 0 to 64 (64 is excluded
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// since leaves are always wrapped with shortNode).
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if len(key) >= len(trieNodeAccountPrefix)+common.HashLength*2 {
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return false, nil
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}
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return true, key[len(trieNodeAccountPrefix):]
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}
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// IsAccountTrieNode reports whether a provided database entry is an account
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// trie node in path-based state scheme.
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func IsAccountTrieNode(key []byte) bool {
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ok, _ := ResolveAccountTrieNodeKey(key)
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return ok
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}
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// ResolveStorageTrieNode reports whether a provided database entry is a storage
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// trie node in path-based state scheme, and returns the resolved account hash
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// and node path if so.
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func ResolveStorageTrieNode(key []byte) (bool, common.Hash, []byte) {
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if !bytes.HasPrefix(key, trieNodeStoragePrefix) {
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return false, common.Hash{}, nil
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}
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// The remaining key consists of 2 parts:
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// - 32 bytes account hash
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// - hex node path whose length is in the range 0 to 64
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if len(key) < len(trieNodeStoragePrefix)+common.HashLength {
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return false, common.Hash{}, nil
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}
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if len(key) >= len(trieNodeStoragePrefix)+common.HashLength+common.HashLength*2 {
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return false, common.Hash{}, nil
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}
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accountHash := common.BytesToHash(key[len(trieNodeStoragePrefix) : len(trieNodeStoragePrefix)+common.HashLength])
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return true, accountHash, key[len(trieNodeStoragePrefix)+common.HashLength:]
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}
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// IsStorageTrieNode reports whether a provided database entry is a storage
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// trie node in path-based state scheme.
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func IsStorageTrieNode(key []byte) bool {
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ok, _, _ := ResolveStorageTrieNode(key)
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return ok
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}
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