326 lines
10 KiB
Go
326 lines
10 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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"github.com/ethereum/go-ethereum/ethdb"
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)
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// table is a wrapper around a database that prefixes each key access with a pre-
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// configured string.
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type table struct {
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db ethdb.Database
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prefix string
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}
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// NewTable returns a database object that prefixes all keys with a given string.
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func NewTable(db ethdb.Database, prefix string) ethdb.Database {
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return &table{
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db: db,
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prefix: prefix,
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}
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}
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// Close is a noop to implement the Database interface.
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func (t *table) Close() error {
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return nil
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}
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// Has retrieves if a prefixed version of a key is present in the database.
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func (t *table) Has(key []byte) (bool, error) {
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return t.db.Has(append([]byte(t.prefix), key...))
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}
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// Get retrieves the given prefixed key if it's present in the database.
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func (t *table) Get(key []byte) ([]byte, error) {
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return t.db.Get(append([]byte(t.prefix), key...))
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}
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// HasAncient is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) HasAncient(kind string, number uint64) (bool, error) {
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return t.db.HasAncient(kind, number)
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}
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// Ancient is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) Ancient(kind string, number uint64) ([]byte, error) {
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return t.db.Ancient(kind, number)
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}
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// AncientRange is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) AncientRange(kind string, start, count, maxBytes uint64) ([][]byte, error) {
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return t.db.AncientRange(kind, start, count, maxBytes)
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}
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// Ancients is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) Ancients() (uint64, error) {
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return t.db.Ancients()
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}
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// ItemAmountInAncient returns the actual length of current ancientDB.
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func (t *table) ItemAmountInAncient() (uint64, error) {
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return t.db.ItemAmountInAncient()
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}
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// AncientOffSet returns the offset of current ancientDB.
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func (t *table) AncientOffSet() uint64 {
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return t.db.AncientOffSet()
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}
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// Tail is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) Tail() (uint64, error) {
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return t.db.Tail()
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}
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// AncientSize is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) AncientSize(kind string) (uint64, error) {
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return t.db.AncientSize(kind)
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}
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// ModifyAncients runs an ancient write operation on the underlying database.
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func (t *table) ModifyAncients(fn func(ethdb.AncientWriteOp) error) (int64, error) {
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return t.db.ModifyAncients(fn)
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}
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func (t *table) ReadAncients(fn func(reader ethdb.AncientReaderOp) error) (err error) {
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return t.db.ReadAncients(fn)
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}
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// TruncateHead is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) TruncateHead(items uint64) (uint64, error) {
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return t.db.TruncateHead(items)
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}
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// TruncateTail is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) TruncateTail(items uint64) (uint64, error) {
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return t.db.TruncateTail(items)
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}
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// Sync is a noop passthrough that just forwards the request to the underlying
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// database.
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func (t *table) Sync() error {
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return t.db.Sync()
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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 (t *table) MigrateTable(kind string, convert convertLegacyFn) error {
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return t.db.MigrateTable(kind, convert)
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}
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// AncientDatadir returns the ancient datadir of the underlying database.
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func (t *table) AncientDatadir() (string, error) {
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return t.db.AncientDatadir()
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}
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// Put inserts the given value into the database at a prefixed version of the
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// provided key.
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func (t *table) Put(key []byte, value []byte) error {
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return t.db.Put(append([]byte(t.prefix), key...), value)
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}
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// Delete removes the given prefixed key from the database.
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func (t *table) Delete(key []byte) error {
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return t.db.Delete(append([]byte(t.prefix), key...))
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}
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// NewIterator creates a binary-alphabetical iterator over a subset
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// of database content with a particular key prefix, starting at a particular
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// initial key (or after, if it does not exist).
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func (t *table) NewIterator(prefix []byte, start []byte) ethdb.Iterator {
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innerPrefix := append([]byte(t.prefix), prefix...)
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iter := t.db.NewIterator(innerPrefix, start)
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return &tableIterator{
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iter: iter,
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prefix: t.prefix,
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}
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}
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// Stat returns a particular internal stat of the database.
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func (t *table) Stat(property string) (string, error) {
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return t.db.Stat(property)
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}
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// Compact flattens the underlying data store for the given key range. In essence,
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// deleted and overwritten versions are discarded, and the data is rearranged to
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// reduce the cost of operations needed to access them.
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//
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// A nil start is treated as a key before all keys in the data store; a nil limit
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// is treated as a key after all keys in the data store. If both is nil then it
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// will compact entire data store.
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func (t *table) Compact(start []byte, limit []byte) error {
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// If no start was specified, use the table prefix as the first value
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if start == nil {
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start = []byte(t.prefix)
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} else {
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start = append([]byte(t.prefix), start...)
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}
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// If no limit was specified, use the first element not matching the prefix
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// as the limit
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if limit == nil {
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limit = []byte(t.prefix)
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for i := len(limit) - 1; i >= 0; i-- {
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// Bump the current character, stopping if it doesn't overflow
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limit[i]++
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if limit[i] > 0 {
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break
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}
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// Character overflown, proceed to the next or nil if the last
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if i == 0 {
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limit = nil
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}
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}
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} else {
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limit = append([]byte(t.prefix), limit...)
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}
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// Range correctly calculated based on table prefix, delegate down
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return t.db.Compact(start, limit)
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}
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// NewBatch creates a write-only database that buffers changes to its host db
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// until a final write is called, each operation prefixing all keys with the
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// pre-configured string.
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func (t *table) NewBatch() ethdb.Batch {
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return &tableBatch{t.db.NewBatch(), t.prefix}
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}
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func (t *table) DiffStore() ethdb.KeyValueStore {
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return nil
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}
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func (t *table) SetDiffStore(diff ethdb.KeyValueStore) {
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panic("not implement")
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}
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// NewBatchWithSize creates a write-only database batch with pre-allocated buffer.
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func (t *table) NewBatchWithSize(size int) ethdb.Batch {
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return &tableBatch{t.db.NewBatchWithSize(size), t.prefix}
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}
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// NewSnapshot creates a database snapshot based on the current state.
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// The created snapshot will not be affected by all following mutations
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// happened on the database.
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func (t *table) NewSnapshot() (ethdb.Snapshot, error) {
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return t.db.NewSnapshot()
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}
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// tableBatch is a wrapper around a database batch that prefixes each key access
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// with a pre-configured string.
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type tableBatch struct {
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batch ethdb.Batch
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prefix string
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}
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// Put inserts the given value into the batch for later committing.
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func (b *tableBatch) Put(key, value []byte) error {
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return b.batch.Put(append([]byte(b.prefix), key...), value)
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}
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// Delete inserts the a key removal into the batch for later committing.
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func (b *tableBatch) Delete(key []byte) error {
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return b.batch.Delete(append([]byte(b.prefix), key...))
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}
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// ValueSize retrieves the amount of data queued up for writing.
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func (b *tableBatch) ValueSize() int {
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return b.batch.ValueSize()
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}
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// Write flushes any accumulated data to disk.
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func (b *tableBatch) Write() error {
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return b.batch.Write()
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}
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// Reset resets the batch for reuse.
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func (b *tableBatch) Reset() {
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b.batch.Reset()
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}
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// tableReplayer is a wrapper around a batch replayer which truncates
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// the added prefix.
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type tableReplayer struct {
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w ethdb.KeyValueWriter
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prefix string
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}
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// Put implements the interface KeyValueWriter.
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func (r *tableReplayer) Put(key []byte, value []byte) error {
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trimmed := key[len(r.prefix):]
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return r.w.Put(trimmed, value)
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}
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// Delete implements the interface KeyValueWriter.
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func (r *tableReplayer) Delete(key []byte) error {
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trimmed := key[len(r.prefix):]
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return r.w.Delete(trimmed)
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}
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// Replay replays the batch contents.
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func (b *tableBatch) Replay(w ethdb.KeyValueWriter) error {
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return b.batch.Replay(&tableReplayer{w: w, prefix: b.prefix})
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}
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// tableIterator is a wrapper around a database iterator that prefixes each key access
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// with a pre-configured string.
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type tableIterator struct {
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iter ethdb.Iterator
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prefix string
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}
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// Next moves the iterator to the next key/value pair. It returns whether the
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// iterator is exhausted.
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func (iter *tableIterator) Next() bool {
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return iter.iter.Next()
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}
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// Error returns any accumulated error. Exhausting all the key/value pairs
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// is not considered to be an error.
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func (iter *tableIterator) Error() error {
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return iter.iter.Error()
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}
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// Key returns the key of the current key/value pair, or nil if done. The caller
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// should not modify the contents of the returned slice, and its contents may
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// change on the next call to Next.
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func (iter *tableIterator) Key() []byte {
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key := iter.iter.Key()
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if key == nil {
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return nil
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}
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return key[len(iter.prefix):]
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}
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// Value returns the value of the current key/value pair, or nil if done. The
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// caller should not modify the contents of the returned slice, and its contents
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// may change on the next call to Next.
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func (iter *tableIterator) Value() []byte {
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return iter.iter.Value()
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}
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// Release releases associated resources. Release should always succeed and can
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// be called multiple times without causing error.
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func (iter *tableIterator) Release() {
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iter.iter.Release()
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}
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