forked from cerc-io/plugeth
78a3c32ef4
This change simplifies the logic for indexing transactions and enhances the UX when transaction is not found by returning more information to users. Transaction indexing is now considered as a part of the initial sync, and `eth.syncing` will thus be `true` if transaction indexing is not yet finished. API consumers can use the syncing status to determine if the node is ready to serve users.
342 lines
13 KiB
Go
342 lines
13 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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// headFinalizedBlockKey tracks the latest known finalized block hash.
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headFinalizedBlockKey = []byte("LastFinalized")
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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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// 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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skeletonHeaderPrefix = []byte("S") // skeletonHeaderPrefix + num (uint64 big endian) -> header
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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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BestUpdateKey = []byte("update-") // bigEndian64(syncPeriod) -> RLP(types.LightClientUpdate) (nextCommittee only referenced by root hash)
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FixedCommitteeRootKey = []byte("fixedRoot-") // bigEndian64(syncPeriod) -> committee root hash
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SyncCommitteeKey = []byte("committee-") // bigEndian64(syncPeriod) -> serialized committee
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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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// 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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// skeletonHeaderKey = skeletonHeaderPrefix + num (uint64 big endian)
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func skeletonHeaderKey(number uint64) []byte {
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return append(skeletonHeaderPrefix, encodeBlockNumber(number)...)
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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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