666 lines
26 KiB
Go
666 lines
26 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
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import (
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"bytes"
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"errors"
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"fmt"
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"os"
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"path"
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"path/filepath"
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"strings"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/ethdb/leveldb"
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"github.com/ethereum/go-ethereum/ethdb/memorydb"
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"github.com/ethereum/go-ethereum/log"
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"github.com/olekukonko/tablewriter"
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)
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// freezerdb is a database wrapper that enables freezer data retrievals.
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type freezerdb struct {
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ancientRoot string
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ethdb.KeyValueStore
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ethdb.AncientStore
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}
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// AncientDatadir returns the path of root ancient directory.
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func (frdb *freezerdb) AncientDatadir() (string, error) {
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return frdb.ancientRoot, nil
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}
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// Close implements io.Closer, closing both the fast key-value store as well as
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// the slow ancient tables.
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func (frdb *freezerdb) Close() error {
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var errs []error
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if err := frdb.AncientStore.Close(); err != nil {
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errs = append(errs, err)
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}
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if err := frdb.KeyValueStore.Close(); err != nil {
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errs = append(errs, err)
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}
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if len(errs) != 0 {
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return fmt.Errorf("%v", errs)
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}
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return nil
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}
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// Freeze is a helper method used for external testing to trigger and block until
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// a freeze cycle completes, without having to sleep for a minute to trigger the
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// automatic background run.
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func (frdb *freezerdb) Freeze(threshold uint64) error {
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if frdb.AncientStore.(*chainFreezer).readonly {
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return errReadOnly
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}
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// Set the freezer threshold to a temporary value
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defer func(old uint64) {
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frdb.AncientStore.(*chainFreezer).threshold.Store(old)
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}(frdb.AncientStore.(*chainFreezer).threshold.Load())
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frdb.AncientStore.(*chainFreezer).threshold.Store(threshold)
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// Trigger a freeze cycle and block until it's done
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trigger := make(chan struct{}, 1)
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frdb.AncientStore.(*chainFreezer).trigger <- trigger
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<-trigger
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return nil
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}
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// nofreezedb is a database wrapper that disables freezer data retrievals.
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type nofreezedb struct {
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ethdb.KeyValueStore
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}
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// HasAncient returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) HasAncient(kind string, number uint64) (bool, error) {
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return false, errNotSupported
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}
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// Ancient returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) Ancient(kind string, number uint64) ([]byte, error) {
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return nil, errNotSupported
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}
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// AncientRange returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) AncientRange(kind string, start, max, maxByteSize uint64) ([][]byte, error) {
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return nil, errNotSupported
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}
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// Ancients returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) Ancients() (uint64, error) {
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return 0, errNotSupported
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}
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// Tail returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) Tail() (uint64, error) {
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return 0, errNotSupported
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}
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// AncientSize returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) AncientSize(kind string) (uint64, error) {
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return 0, errNotSupported
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}
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// ModifyAncients is not supported.
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func (db *nofreezedb) ModifyAncients(func(ethdb.AncientWriteOp) error) (int64, error) {
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return 0, errNotSupported
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}
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// TruncateHead returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) TruncateHead(items uint64) (uint64, error) {
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return 0, errNotSupported
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}
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// TruncateTail returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) TruncateTail(items uint64) (uint64, error) {
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return 0, errNotSupported
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}
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// Sync returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) Sync() error {
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return errNotSupported
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}
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func (db *nofreezedb) ReadAncients(fn func(reader ethdb.AncientReaderOp) error) (err error) {
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// Unlike other ancient-related methods, this method does not return
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// errNotSupported when invoked.
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// The reason for this is that the caller might want to do several things:
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// 1. Check if something is in the freezer,
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// 2. If not, check leveldb.
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//
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// This will work, since the ancient-checks inside 'fn' will return errors,
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// and the leveldb work will continue.
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//
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// If we instead were to return errNotSupported here, then the caller would
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// have to explicitly check for that, having an extra clause to do the
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// non-ancient operations.
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return fn(db)
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}
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// MigrateTable processes the entries in a given table in sequence
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// converting them to a new format if they're of an old format.
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func (db *nofreezedb) MigrateTable(kind string, convert convertLegacyFn) error {
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return errNotSupported
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}
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// AncientDatadir returns an error as we don't have a backing chain freezer.
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func (db *nofreezedb) AncientDatadir() (string, error) {
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return "", errNotSupported
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}
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// NewDatabase creates a high level database on top of a given key-value data
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// store without a freezer moving immutable chain segments into cold storage.
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func NewDatabase(db ethdb.KeyValueStore) ethdb.Database {
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return &nofreezedb{KeyValueStore: db}
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}
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// resolveChainFreezerDir is a helper function which resolves the absolute path
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// of chain freezer by considering backward compatibility.
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func resolveChainFreezerDir(ancient string) string {
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// Check if the chain freezer is already present in the specified
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// sub folder, if not then two possibilities:
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// - chain freezer is not initialized
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// - chain freezer exists in legacy location (root ancient folder)
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freezer := path.Join(ancient, chainFreezerName)
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if !common.FileExist(freezer) {
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if !common.FileExist(ancient) {
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// The entire ancient store is not initialized, still use the sub
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// folder for initialization.
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} else {
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// Ancient root is already initialized, then we hold the assumption
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// that chain freezer is also initialized and located in root folder.
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// In this case fallback to legacy location.
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freezer = ancient
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log.Info("Found legacy ancient chain path", "location", ancient)
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}
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}
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return freezer
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}
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// NewDatabaseWithFreezer creates a high level database on top of a given key-
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// value data store with a freezer moving immutable chain segments into cold
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// storage. The passed ancient indicates the path of root ancient directory
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// where the chain freezer can be opened.
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func NewDatabaseWithFreezer(db ethdb.KeyValueStore, ancient string, namespace string, readonly bool) (ethdb.Database, error) {
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// Create the idle freezer instance
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frdb, err := newChainFreezer(resolveChainFreezerDir(ancient), namespace, readonly)
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if err != nil {
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printChainMetadata(db)
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return nil, err
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}
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// Since the freezer can be stored separately from the user's key-value database,
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// there's a fairly high probability that the user requests invalid combinations
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// of the freezer and database. Ensure that we don't shoot ourselves in the foot
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// by serving up conflicting data, leading to both datastores getting corrupted.
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//
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// - If both the freezer and key-value store are empty (no genesis), we just
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// initialized a new empty freezer, so everything's fine.
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// - If the key-value store is empty, but the freezer is not, we need to make
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// sure the user's genesis matches the freezer. That will be checked in the
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// blockchain, since we don't have the genesis block here (nor should we at
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// this point care, the key-value/freezer combo is valid).
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// - If neither the key-value store nor the freezer is empty, cross validate
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// the genesis hashes to make sure they are compatible. If they are, also
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// ensure that there's no gap between the freezer and subsequently leveldb.
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// - If the key-value store is not empty, but the freezer is, we might just be
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// upgrading to the freezer release, or we might have had a small chain and
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// not frozen anything yet. Ensure that no blocks are missing yet from the
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// key-value store, since that would mean we already had an old freezer.
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// If the genesis hash is empty, we have a new key-value store, so nothing to
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// validate in this method. If, however, the genesis hash is not nil, compare
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// it to the freezer content.
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if kvgenesis, _ := db.Get(headerHashKey(0)); len(kvgenesis) > 0 {
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if frozen, _ := frdb.Ancients(); frozen > 0 {
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// If the freezer already contains something, ensure that the genesis blocks
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// match, otherwise we might mix up freezers across chains and destroy both
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// the freezer and the key-value store.
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frgenesis, err := frdb.Ancient(ChainFreezerHashTable, 0)
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if err != nil {
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printChainMetadata(db)
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return nil, fmt.Errorf("failed to retrieve genesis from ancient %v", err)
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} else if !bytes.Equal(kvgenesis, frgenesis) {
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printChainMetadata(db)
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return nil, fmt.Errorf("genesis mismatch: %#x (leveldb) != %#x (ancients)", kvgenesis, frgenesis)
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}
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// Key-value store and freezer belong to the same network. Ensure that they
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// are contiguous, otherwise we might end up with a non-functional freezer.
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if kvhash, _ := db.Get(headerHashKey(frozen)); len(kvhash) == 0 {
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// Subsequent header after the freezer limit is missing from the database.
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// Reject startup if the database has a more recent head.
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if head := *ReadHeaderNumber(db, ReadHeadHeaderHash(db)); head > frozen-1 {
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// Find the smallest block stored in the key-value store
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// in range of [frozen, head]
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var number uint64
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for number = frozen; number <= head; number++ {
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if present, _ := db.Has(headerHashKey(number)); present {
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break
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}
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}
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// We are about to exit on error. Print database metadata before exiting
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printChainMetadata(db)
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return nil, fmt.Errorf("gap in the chain between ancients [0 - #%d] and leveldb [#%d - #%d] ",
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frozen-1, number, head)
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}
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// Database contains only older data than the freezer, this happens if the
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// state was wiped and reinited from an existing freezer.
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}
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// Otherwise, key-value store continues where the freezer left off, all is fine.
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// We might have duplicate blocks (crash after freezer write but before key-value
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// store deletion, but that's fine).
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} else {
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// If the freezer is empty, ensure nothing was moved yet from the key-value
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// store, otherwise we'll end up missing data. We check block #1 to decide
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// if we froze anything previously or not, but do take care of databases with
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// only the genesis block.
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if ReadHeadHeaderHash(db) != common.BytesToHash(kvgenesis) {
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// Key-value store contains more data than the genesis block, make sure we
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// didn't freeze anything yet.
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if kvblob, _ := db.Get(headerHashKey(1)); len(kvblob) == 0 {
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printChainMetadata(db)
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return nil, errors.New("ancient chain segments already extracted, please set --datadir.ancient to the correct path")
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}
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// Block #1 is still in the database, we're allowed to init a new freezer
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}
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// Otherwise, the head header is still the genesis, we're allowed to init a new
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// freezer.
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}
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}
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// Freezer is consistent with the key-value database, permit combining the two
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if !frdb.readonly {
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frdb.wg.Add(1)
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go func() {
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frdb.freeze(db)
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frdb.wg.Done()
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}()
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}
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return &freezerdb{
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ancientRoot: ancient,
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KeyValueStore: db,
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AncientStore: frdb,
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}, nil
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}
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// NewMemoryDatabase creates an ephemeral in-memory key-value database without a
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// freezer moving immutable chain segments into cold storage.
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func NewMemoryDatabase() ethdb.Database {
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return NewDatabase(memorydb.New())
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}
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// NewMemoryDatabaseWithCap creates an ephemeral in-memory key-value database
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// with an initial starting capacity, but without a freezer moving immutable
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// chain segments into cold storage.
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func NewMemoryDatabaseWithCap(size int) ethdb.Database {
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return NewDatabase(memorydb.NewWithCap(size))
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}
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// NewLevelDBDatabase creates a persistent key-value database without a freezer
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// moving immutable chain segments into cold storage.
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func NewLevelDBDatabase(file string, cache int, handles int, namespace string, readonly bool) (ethdb.Database, error) {
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db, err := leveldb.New(file, cache, handles, namespace, readonly)
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if err != nil {
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return nil, err
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}
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log.Info("Using LevelDB as the backing database")
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return NewDatabase(db), nil
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}
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const (
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dbPebble = "pebble"
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dbLeveldb = "leveldb"
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)
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// PreexistingDatabase checks the given data directory whether a database is already
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// instantiated at that location, and if so, returns the type of database (or the
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// empty string).
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func PreexistingDatabase(path string) string {
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if _, err := os.Stat(filepath.Join(path, "CURRENT")); err != nil {
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return "" // No pre-existing db
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}
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if matches, err := filepath.Glob(filepath.Join(path, "OPTIONS*")); len(matches) > 0 || err != nil {
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if err != nil {
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panic(err) // only possible if the pattern is malformed
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}
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return dbPebble
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}
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return dbLeveldb
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}
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// OpenOptions contains the options to apply when opening a database.
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// OBS: If AncientsDirectory is empty, it indicates that no freezer is to be used.
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type OpenOptions struct {
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Type string // "leveldb" | "pebble"
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Directory string // the datadir
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AncientsDirectory string // the ancients-dir
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Namespace string // the namespace for database relevant metrics
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Cache int // the capacity(in megabytes) of the data caching
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Handles int // number of files to be open simultaneously
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ReadOnly bool
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// Ephemeral means that filesystem sync operations should be avoided: data integrity in the face of
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// a crash is not important. This option should typically be used in tests.
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Ephemeral bool
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}
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// openKeyValueDatabase opens a disk-based key-value database, e.g. leveldb or pebble.
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//
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// type == null type != null
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// +----------------------------------------
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// db is non-existent | pebble default | specified type
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// db is existent | from db | specified type (if compatible)
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func openKeyValueDatabase(o OpenOptions) (ethdb.Database, error) {
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// Reject any unsupported database type
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if len(o.Type) != 0 && o.Type != dbLeveldb && o.Type != dbPebble {
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return nil, fmt.Errorf("unknown db.engine %v", o.Type)
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}
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// Retrieve any pre-existing database's type and use that or the requested one
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// as long as there's no conflict between the two types
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existingDb := PreexistingDatabase(o.Directory)
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if len(existingDb) != 0 && len(o.Type) != 0 && o.Type != existingDb {
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return nil, fmt.Errorf("db.engine choice was %v but found pre-existing %v database in specified data directory", o.Type, existingDb)
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}
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if o.Type == dbPebble || existingDb == dbPebble {
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if PebbleEnabled {
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log.Info("Using pebble as the backing database")
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return NewPebbleDBDatabase(o.Directory, o.Cache, o.Handles, o.Namespace, o.ReadOnly, o.Ephemeral)
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} else {
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return nil, errors.New("db.engine 'pebble' not supported on this platform")
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}
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}
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if o.Type == dbLeveldb || existingDb == dbLeveldb {
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log.Info("Using leveldb as the backing database")
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return NewLevelDBDatabase(o.Directory, o.Cache, o.Handles, o.Namespace, o.ReadOnly)
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}
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// No pre-existing database, no user-requested one either. Default to Pebble
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// on supported platforms and LevelDB on anything else.
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if PebbleEnabled {
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log.Info("Defaulting to pebble as the backing database")
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return NewPebbleDBDatabase(o.Directory, o.Cache, o.Handles, o.Namespace, o.ReadOnly, o.Ephemeral)
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} else {
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log.Info("Defaulting to leveldb as the backing database")
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return NewLevelDBDatabase(o.Directory, o.Cache, o.Handles, o.Namespace, o.ReadOnly)
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}
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}
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// Open opens both a disk-based key-value database such as leveldb or pebble, but also
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// integrates it with a freezer database -- if the AncientDir option has been
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// set on the provided OpenOptions.
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// The passed o.AncientDir indicates the path of root ancient directory where
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// the chain freezer can be opened.
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func Open(o OpenOptions) (ethdb.Database, error) {
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kvdb, err := openKeyValueDatabase(o)
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if err != nil {
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return nil, err
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}
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if len(o.AncientsDirectory) == 0 {
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return kvdb, nil
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}
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frdb, err := NewDatabaseWithFreezer(kvdb, o.AncientsDirectory, o.Namespace, o.ReadOnly)
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if err != nil {
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kvdb.Close()
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return nil, err
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}
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return frdb, nil
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}
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type counter uint64
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func (c counter) String() string {
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return fmt.Sprintf("%d", c)
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}
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func (c counter) Percentage(current uint64) string {
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return fmt.Sprintf("%d", current*100/uint64(c))
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}
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// stat stores sizes and count for a parameter
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type stat struct {
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size common.StorageSize
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count counter
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}
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// Add size to the stat and increase the counter by 1
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func (s *stat) Add(size common.StorageSize) {
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s.size += size
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s.count++
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}
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func (s *stat) Size() string {
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return s.size.String()
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}
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func (s *stat) Count() string {
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return s.count.String()
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}
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// InspectDatabase traverses the entire database and checks the size
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// of all different categories of data.
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func InspectDatabase(db ethdb.Database, keyPrefix, keyStart []byte) error {
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it := db.NewIterator(keyPrefix, keyStart)
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defer it.Release()
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var (
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count int64
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start = time.Now()
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logged = time.Now()
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// Key-value store statistics
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headers stat
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bodies stat
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receipts stat
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tds stat
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numHashPairings stat
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hashNumPairings stat
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legacyTries stat
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stateLookups stat
|
|
accountTries stat
|
|
storageTries stat
|
|
codes stat
|
|
txLookups stat
|
|
accountSnaps stat
|
|
storageSnaps stat
|
|
preimages stat
|
|
bloomBits stat
|
|
beaconHeaders stat
|
|
cliqueSnaps stat
|
|
|
|
// Les statistic
|
|
chtTrieNodes stat
|
|
bloomTrieNodes stat
|
|
|
|
// Meta- and unaccounted data
|
|
metadata stat
|
|
unaccounted stat
|
|
|
|
// Totals
|
|
total common.StorageSize
|
|
)
|
|
// Inspect key-value database first.
|
|
for it.Next() {
|
|
var (
|
|
key = it.Key()
|
|
size = common.StorageSize(len(key) + len(it.Value()))
|
|
)
|
|
total += size
|
|
switch {
|
|
case bytes.HasPrefix(key, headerPrefix) && len(key) == (len(headerPrefix)+8+common.HashLength):
|
|
headers.Add(size)
|
|
case bytes.HasPrefix(key, blockBodyPrefix) && len(key) == (len(blockBodyPrefix)+8+common.HashLength):
|
|
bodies.Add(size)
|
|
case bytes.HasPrefix(key, blockReceiptsPrefix) && len(key) == (len(blockReceiptsPrefix)+8+common.HashLength):
|
|
receipts.Add(size)
|
|
case bytes.HasPrefix(key, headerPrefix) && bytes.HasSuffix(key, headerTDSuffix):
|
|
tds.Add(size)
|
|
case bytes.HasPrefix(key, headerPrefix) && bytes.HasSuffix(key, headerHashSuffix):
|
|
numHashPairings.Add(size)
|
|
case bytes.HasPrefix(key, headerNumberPrefix) && len(key) == (len(headerNumberPrefix)+common.HashLength):
|
|
hashNumPairings.Add(size)
|
|
case IsLegacyTrieNode(key, it.Value()):
|
|
legacyTries.Add(size)
|
|
case bytes.HasPrefix(key, stateIDPrefix) && len(key) == len(stateIDPrefix)+common.HashLength:
|
|
stateLookups.Add(size)
|
|
case IsAccountTrieNode(key):
|
|
accountTries.Add(size)
|
|
case IsStorageTrieNode(key):
|
|
storageTries.Add(size)
|
|
case bytes.HasPrefix(key, CodePrefix) && len(key) == len(CodePrefix)+common.HashLength:
|
|
codes.Add(size)
|
|
case bytes.HasPrefix(key, txLookupPrefix) && len(key) == (len(txLookupPrefix)+common.HashLength):
|
|
txLookups.Add(size)
|
|
case bytes.HasPrefix(key, SnapshotAccountPrefix) && len(key) == (len(SnapshotAccountPrefix)+common.HashLength):
|
|
accountSnaps.Add(size)
|
|
case bytes.HasPrefix(key, SnapshotStoragePrefix) && len(key) == (len(SnapshotStoragePrefix)+2*common.HashLength):
|
|
storageSnaps.Add(size)
|
|
case bytes.HasPrefix(key, PreimagePrefix) && len(key) == (len(PreimagePrefix)+common.HashLength):
|
|
preimages.Add(size)
|
|
case bytes.HasPrefix(key, configPrefix) && len(key) == (len(configPrefix)+common.HashLength):
|
|
metadata.Add(size)
|
|
case bytes.HasPrefix(key, genesisPrefix) && len(key) == (len(genesisPrefix)+common.HashLength):
|
|
metadata.Add(size)
|
|
case bytes.HasPrefix(key, bloomBitsPrefix) && len(key) == (len(bloomBitsPrefix)+10+common.HashLength):
|
|
bloomBits.Add(size)
|
|
case bytes.HasPrefix(key, BloomBitsIndexPrefix):
|
|
bloomBits.Add(size)
|
|
case bytes.HasPrefix(key, skeletonHeaderPrefix) && len(key) == (len(skeletonHeaderPrefix)+8):
|
|
beaconHeaders.Add(size)
|
|
case bytes.HasPrefix(key, CliqueSnapshotPrefix) && len(key) == 7+common.HashLength:
|
|
cliqueSnaps.Add(size)
|
|
case bytes.HasPrefix(key, ChtTablePrefix) ||
|
|
bytes.HasPrefix(key, ChtIndexTablePrefix) ||
|
|
bytes.HasPrefix(key, ChtPrefix): // Canonical hash trie
|
|
chtTrieNodes.Add(size)
|
|
case bytes.HasPrefix(key, BloomTrieTablePrefix) ||
|
|
bytes.HasPrefix(key, BloomTrieIndexPrefix) ||
|
|
bytes.HasPrefix(key, BloomTriePrefix): // Bloomtrie sub
|
|
bloomTrieNodes.Add(size)
|
|
default:
|
|
var accounted bool
|
|
for _, meta := range [][]byte{
|
|
databaseVersionKey, headHeaderKey, headBlockKey, headFastBlockKey, headFinalizedBlockKey,
|
|
lastPivotKey, fastTrieProgressKey, snapshotDisabledKey, SnapshotRootKey, snapshotJournalKey,
|
|
snapshotGeneratorKey, snapshotRecoveryKey, txIndexTailKey, fastTxLookupLimitKey,
|
|
uncleanShutdownKey, badBlockKey, transitionStatusKey, skeletonSyncStatusKey,
|
|
persistentStateIDKey, trieJournalKey, snapshotSyncStatusKey, snapSyncStatusFlagKey,
|
|
} {
|
|
if bytes.Equal(key, meta) {
|
|
metadata.Add(size)
|
|
accounted = true
|
|
break
|
|
}
|
|
}
|
|
if !accounted {
|
|
unaccounted.Add(size)
|
|
}
|
|
}
|
|
count++
|
|
if count%1000 == 0 && time.Since(logged) > 8*time.Second {
|
|
log.Info("Inspecting database", "count", count, "elapsed", common.PrettyDuration(time.Since(start)))
|
|
logged = time.Now()
|
|
}
|
|
}
|
|
// Display the database statistic of key-value store.
|
|
stats := [][]string{
|
|
{"Key-Value store", "Headers", headers.Size(), headers.Count()},
|
|
{"Key-Value store", "Bodies", bodies.Size(), bodies.Count()},
|
|
{"Key-Value store", "Receipt lists", receipts.Size(), receipts.Count()},
|
|
{"Key-Value store", "Difficulties", tds.Size(), tds.Count()},
|
|
{"Key-Value store", "Block number->hash", numHashPairings.Size(), numHashPairings.Count()},
|
|
{"Key-Value store", "Block hash->number", hashNumPairings.Size(), hashNumPairings.Count()},
|
|
{"Key-Value store", "Transaction index", txLookups.Size(), txLookups.Count()},
|
|
{"Key-Value store", "Bloombit index", bloomBits.Size(), bloomBits.Count()},
|
|
{"Key-Value store", "Contract codes", codes.Size(), codes.Count()},
|
|
{"Key-Value store", "Hash trie nodes", legacyTries.Size(), legacyTries.Count()},
|
|
{"Key-Value store", "Path trie state lookups", stateLookups.Size(), stateLookups.Count()},
|
|
{"Key-Value store", "Path trie account nodes", accountTries.Size(), accountTries.Count()},
|
|
{"Key-Value store", "Path trie storage nodes", storageTries.Size(), storageTries.Count()},
|
|
{"Key-Value store", "Trie preimages", preimages.Size(), preimages.Count()},
|
|
{"Key-Value store", "Account snapshot", accountSnaps.Size(), accountSnaps.Count()},
|
|
{"Key-Value store", "Storage snapshot", storageSnaps.Size(), storageSnaps.Count()},
|
|
{"Key-Value store", "Beacon sync headers", beaconHeaders.Size(), beaconHeaders.Count()},
|
|
{"Key-Value store", "Clique snapshots", cliqueSnaps.Size(), cliqueSnaps.Count()},
|
|
{"Key-Value store", "Singleton metadata", metadata.Size(), metadata.Count()},
|
|
{"Light client", "CHT trie nodes", chtTrieNodes.Size(), chtTrieNodes.Count()},
|
|
{"Light client", "Bloom trie nodes", bloomTrieNodes.Size(), bloomTrieNodes.Count()},
|
|
}
|
|
// Inspect all registered append-only file store then.
|
|
ancients, err := inspectFreezers(db)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
for _, ancient := range ancients {
|
|
for _, table := range ancient.sizes {
|
|
stats = append(stats, []string{
|
|
fmt.Sprintf("Ancient store (%s)", strings.Title(ancient.name)),
|
|
strings.Title(table.name),
|
|
table.size.String(),
|
|
fmt.Sprintf("%d", ancient.count()),
|
|
})
|
|
}
|
|
total += ancient.size()
|
|
}
|
|
table := tablewriter.NewWriter(os.Stdout)
|
|
table.SetHeader([]string{"Database", "Category", "Size", "Items"})
|
|
table.SetFooter([]string{"", "Total", total.String(), " "})
|
|
table.AppendBulk(stats)
|
|
table.Render()
|
|
|
|
if unaccounted.size > 0 {
|
|
log.Error("Database contains unaccounted data", "size", unaccounted.size, "count", unaccounted.count)
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// printChainMetadata prints out chain metadata to stderr.
|
|
func printChainMetadata(db ethdb.KeyValueStore) {
|
|
fmt.Fprintf(os.Stderr, "Chain metadata\n")
|
|
for _, v := range ReadChainMetadata(db) {
|
|
fmt.Fprintf(os.Stderr, " %s\n", strings.Join(v, ": "))
|
|
}
|
|
fmt.Fprintf(os.Stderr, "\n\n")
|
|
}
|
|
|
|
// ReadChainMetadata returns a set of key/value pairs that contains information
|
|
// about the database chain status. This can be used for diagnostic purposes
|
|
// when investigating the state of the node.
|
|
func ReadChainMetadata(db ethdb.KeyValueStore) [][]string {
|
|
pp := func(val *uint64) string {
|
|
if val == nil {
|
|
return "<nil>"
|
|
}
|
|
return fmt.Sprintf("%d (%#x)", *val, *val)
|
|
}
|
|
data := [][]string{
|
|
{"databaseVersion", pp(ReadDatabaseVersion(db))},
|
|
{"headBlockHash", fmt.Sprintf("%v", ReadHeadBlockHash(db))},
|
|
{"headFastBlockHash", fmt.Sprintf("%v", ReadHeadFastBlockHash(db))},
|
|
{"headHeaderHash", fmt.Sprintf("%v", ReadHeadHeaderHash(db))},
|
|
{"lastPivotNumber", pp(ReadLastPivotNumber(db))},
|
|
{"len(snapshotSyncStatus)", fmt.Sprintf("%d bytes", len(ReadSnapshotSyncStatus(db)))},
|
|
{"snapshotDisabled", fmt.Sprintf("%v", ReadSnapshotDisabled(db))},
|
|
{"snapshotJournal", fmt.Sprintf("%d bytes", len(ReadSnapshotJournal(db)))},
|
|
{"snapshotRecoveryNumber", pp(ReadSnapshotRecoveryNumber(db))},
|
|
{"snapshotRoot", fmt.Sprintf("%v", ReadSnapshotRoot(db))},
|
|
{"txIndexTail", pp(ReadTxIndexTail(db))},
|
|
{"fastTxLookupLimit", pp(ReadFastTxLookupLimit(db))},
|
|
}
|
|
if b := ReadSkeletonSyncStatus(db); b != nil {
|
|
data = append(data, []string{"SkeletonSyncStatus", string(b)})
|
|
}
|
|
return data
|
|
}
|