f45db028db
This removes the intermediate transaction log that was introduced as a part of the database cache as a workaround for leveldb batches causing massive memory usage spikes in favor of the recently introduced leveldb transaction interface which no longer has the memory usage issues. This approach is preferred because it can avoid the extra memory needed for the transaction log and therefore all of the intermediate states as well. As a result, the default cache size has been doubled since it equals roughly the same amount of overall memory usage and the flush interval has been raised as well.
664 lines
22 KiB
Go
664 lines
22 KiB
Go
// Copyright (c) 2015-2016 The btcsuite developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package ffldb
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import (
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"bytes"
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"fmt"
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"sync"
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"time"
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"github.com/btcsuite/btcd/database2/internal/treap"
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"github.com/btcsuite/goleveldb/leveldb"
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"github.com/btcsuite/goleveldb/leveldb/iterator"
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"github.com/btcsuite/goleveldb/leveldb/util"
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)
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const (
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// defaultCacheSize is the default size for the database cache.
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defaultCacheSize = 100 * 1024 * 1024 // 100 MB
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// defaultFlushSecs is the default number of seconds to use as a
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// threshold in between database cache flushes when the cache size has
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// not been exceeded.
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defaultFlushSecs = 300 // 5 minutes
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// ldbBatchHeaderSize is the size of a leveldb batch header which
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// includes the sequence header and record counter.
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//
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// ldbRecordIKeySize is the size of the ikey used internally by leveldb
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// when appending a record to a batch.
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//
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// These are used to help preallocate space needed for a batch in one
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// allocation instead of letting leveldb itself constantly grow it.
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// This results in far less pressure on the GC and consequently helps
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// prevent the GC from allocating a lot of extra unneeded space.
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ldbBatchHeaderSize = 12
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ldbRecordIKeySize = 8
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)
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// ldbCacheIter wraps a treap iterator to provide the additional functionality
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// needed to satisfy the leveldb iterator.Iterator interface.
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type ldbCacheIter struct {
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*treap.Iterator
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}
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// Enforce ldbCacheIterator implements the leveldb iterator.Iterator interface.
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var _ iterator.Iterator = (*ldbCacheIter)(nil)
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// Error is only provided to satisfy the iterator interface as there are no
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// errors for this memory-only structure.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *ldbCacheIter) Error() error {
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return nil
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}
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// SetReleaser is only provided to satisfy the iterator interface as there is no
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// need to override it.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *ldbCacheIter) SetReleaser(releaser util.Releaser) {
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}
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// Release is only provided to satisfy the iterator interface.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *ldbCacheIter) Release() {
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}
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// newLdbCacheIter creates a new treap iterator for the given slice against the
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// pending keys for the passed cache snapshot and returns it wrapped in an
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// ldbCacheIter so it can be used as a leveldb iterator.
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func newLdbCacheIter(snap *dbCacheSnapshot, slice *util.Range) *ldbCacheIter {
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iter := snap.pendingKeys.Iterator(slice.Start, slice.Limit)
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return &ldbCacheIter{Iterator: iter}
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}
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// dbCacheIterator defines an iterator over the key/value pairs in the database
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// cache and underlying database.
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type dbCacheIterator struct {
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cacheSnapshot *dbCacheSnapshot
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dbIter iterator.Iterator
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cacheIter iterator.Iterator
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currentIter iterator.Iterator
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released bool
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}
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// Enforce dbCacheIterator implements the leveldb iterator.Iterator interface.
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var _ iterator.Iterator = (*dbCacheIterator)(nil)
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// skipPendingUpdates skips any keys at the current database iterator position
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// that are being updated by the cache. The forwards flag indicates the
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// direction the iterator is moving.
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func (iter *dbCacheIterator) skipPendingUpdates(forwards bool) {
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for iter.dbIter.Valid() {
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var skip bool
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key := iter.dbIter.Key()
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if iter.cacheSnapshot.pendingRemove.Has(key) {
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skip = true
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} else if iter.cacheSnapshot.pendingKeys.Has(key) {
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skip = true
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}
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if !skip {
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break
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}
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if forwards {
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iter.dbIter.Next()
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} else {
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iter.dbIter.Prev()
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}
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}
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}
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// chooseIterator first skips any entries in the database iterator that are
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// being updated by the cache and sets the current iterator to the appropriate
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// iterator depending on their validity and the order they compare in while taking
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// into account the direction flag. When the iterator is being moved forwards
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// and both iterators are valid, the iterator with the smaller key is chosen and
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// vice versa when the iterator is being moved backwards.
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func (iter *dbCacheIterator) chooseIterator(forwards bool) bool {
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// Skip any keys at the current database iterator position that are
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// being updated by the cache.
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iter.skipPendingUpdates(forwards)
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// When both iterators are exhausted, the iterator is exhausted too.
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if !iter.dbIter.Valid() && !iter.cacheIter.Valid() {
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iter.currentIter = nil
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return false
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}
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// Choose the database iterator when the cache iterator is exhausted.
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if !iter.cacheIter.Valid() {
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iter.currentIter = iter.dbIter
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return true
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}
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// Choose the cache iterator when the database iterator is exhausted.
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if !iter.dbIter.Valid() {
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iter.currentIter = iter.cacheIter
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return true
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}
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// Both iterators are valid, so choose the iterator with either the
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// smaller or larger key depending on the forwards flag.
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compare := bytes.Compare(iter.dbIter.Key(), iter.cacheIter.Key())
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if (forwards && compare > 0) || (!forwards && compare < 0) {
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iter.currentIter = iter.cacheIter
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} else {
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iter.currentIter = iter.dbIter
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}
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return true
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}
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// First positions the iterator at the first key/value pair and returns whether
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// or not the pair exists.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) First() bool {
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// Seek to the first key in both the database and cache iterators and
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// choose the iterator that is both valid and has the smaller key.
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iter.dbIter.First()
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iter.cacheIter.First()
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return iter.chooseIterator(true)
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}
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// Last positions the iterator at the last key/value pair and returns whether or
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// not the pair exists.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Last() bool {
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// Seek to the last key in both the database and cache iterators and
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// choose the iterator that is both valid and has the larger key.
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iter.dbIter.Last()
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iter.cacheIter.Last()
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return iter.chooseIterator(false)
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}
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// Next moves the iterator one key/value pair forward and returns whether or not
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// the pair exists.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Next() bool {
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// Nothing to return if cursor is exhausted.
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if iter.currentIter == nil {
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return false
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}
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// Move the current iterator to the next entry and choose the iterator
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// that is both valid and has the smaller key.
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iter.currentIter.Next()
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return iter.chooseIterator(true)
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}
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// Prev moves the iterator one key/value pair backward and returns whether or
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// not the pair exists.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Prev() bool {
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// Nothing to return if cursor is exhausted.
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if iter.currentIter == nil {
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return false
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}
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// Move the current iterator to the previous entry and choose the
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// iterator that is both valid and has the larger key.
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iter.currentIter.Prev()
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return iter.chooseIterator(false)
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}
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// Seek positions the iterator at the first key/value pair that is greater than
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// or equal to the passed seek key. Returns false if no suitable key was found.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Seek(key []byte) bool {
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// Seek to the provided key in both the database and cache iterators
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// then choose the iterator that is both valid and has the larger key.
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iter.dbIter.Seek(key)
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iter.cacheIter.Seek(key)
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return iter.chooseIterator(true)
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}
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// Valid indicates whether the iterator is positioned at a valid key/value pair.
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// It will be considered invalid when the iterator is newly created or exhausted.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Valid() bool {
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return iter.currentIter != nil
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}
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// Key returns the current key the iterator is pointing to.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Key() []byte {
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// Nothing to return if iterator is exhausted.
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if iter.currentIter == nil {
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return nil
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}
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return iter.currentIter.Key()
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}
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// Value returns the current value the iterator is pointing to.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Value() []byte {
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// Nothing to return if iterator is exhausted.
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if iter.currentIter == nil {
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return nil
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}
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return iter.currentIter.Value()
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}
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// SetReleaser is only provided to satisfy the iterator interface as there is no
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// need to override it.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) SetReleaser(releaser util.Releaser) {
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}
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// Release releases the iterator by removing the underlying treap iterator from
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// the list of active iterators against the pending keys treap.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Release() {
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if !iter.released {
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iter.dbIter.Release()
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iter.cacheIter.Release()
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iter.currentIter = nil
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iter.released = true
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}
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}
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// Error is only provided to satisfy the iterator interface as there are no
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// errors for this memory-only structure.
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//
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// This is part of the leveldb iterator.Iterator interface implementation.
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func (iter *dbCacheIterator) Error() error {
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return nil
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}
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// dbCacheSnapshot defines a snapshot of the database cache and underlying
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// database at a particular point in time.
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type dbCacheSnapshot struct {
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dbSnapshot *leveldb.Snapshot
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pendingKeys *treap.Immutable
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pendingRemove *treap.Immutable
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}
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// Has returns whether or not the passed key exists.
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func (snap *dbCacheSnapshot) Has(key []byte) bool {
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// Check the cached entries first.
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if snap.pendingRemove.Has(key) {
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return false
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}
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if snap.pendingKeys.Has(key) {
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return true
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}
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// Consult the database.
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hasKey, _ := snap.dbSnapshot.Has(key, nil)
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return hasKey
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}
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// Get returns the value for the passed key. The function will return nil when
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// the key does not exist.
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func (snap *dbCacheSnapshot) Get(key []byte) []byte {
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// Check the cached entries first.
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if snap.pendingRemove.Has(key) {
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return nil
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}
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if value := snap.pendingKeys.Get(key); value != nil {
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return value
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}
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// Consult the database.
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value, err := snap.dbSnapshot.Get(key, nil)
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if err != nil {
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return nil
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}
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return value
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}
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// Release releases the snapshot.
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func (snap *dbCacheSnapshot) Release() {
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snap.dbSnapshot.Release()
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snap.pendingKeys = nil
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snap.pendingRemove = nil
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}
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// NewIterator returns a new iterator for the snapshot. The newly returned
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// iterator is not pointing to a valid item until a call to one of the methods
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// to position it is made.
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//
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// The slice parameter allows the iterator to be limited to a range of keys.
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// The start key is inclusive and the limit key is exclusive. Either or both
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// can be nil if the functionality is not desired.
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func (snap *dbCacheSnapshot) NewIterator(slice *util.Range) *dbCacheIterator {
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return &dbCacheIterator{
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dbIter: snap.dbSnapshot.NewIterator(slice, nil),
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cacheIter: newLdbCacheIter(snap, slice),
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cacheSnapshot: snap,
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}
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}
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// dbCache provides a database cache layer backed by an underlying database. It
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// allows a maximum cache size and flush interval to be specified such that the
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// cache is flushed to the database when the cache size exceeds the maximum
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// configured value or it has been longer than the configured interval since the
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// last flush. This effectively provides transaction batching so that callers
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// can commit transactions at will without incurring large performance hits due
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// to frequent disk syncs.
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type dbCache struct {
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// ldb is the underlying leveldb DB for metadata.
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ldb *leveldb.DB
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// store is used to sync blocks to flat files.
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store *blockStore
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// The following fields are related to flushing the cache to persistent
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// storage. Note that all flushing is performed in an opportunistic
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// fashion. This means that it is only flushed during a transaction or
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// when the database cache is closed.
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//
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// maxSize is the maximum size threshold the cache can grow to before
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// it is flushed.
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//
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// flushInterval is the threshold interval of time that is allowed to
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// pass before the cache is flushed.
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//
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// lastFlush is the time the cache was last flushed. It is used in
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// conjunction with the current time and the flush interval.
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//
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// NOTE: These flush related fields are protected by the database write
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// lock.
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maxSize uint64
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flushInterval time.Duration
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lastFlush time.Time
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// The following fields hold the keys that need to be stored or deleted
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// from the underlying database once the cache is full, enough time has
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// passed, or when the database is shutting down. Note that these are
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// stored using immutable treaps to support O(1) MVCC snapshots against
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// the cached data. The cacheLock is used to protect concurrent access
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// for cache updates and snapshots.
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cacheLock sync.RWMutex
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cachedKeys *treap.Immutable
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cachedRemove *treap.Immutable
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}
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// Snapshot returns a snapshot of the database cache and underlying database at
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// a particular point in time.
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//
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// The snapshot must be released after use by calling Release.
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func (c *dbCache) Snapshot() (*dbCacheSnapshot, error) {
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dbSnapshot, err := c.ldb.GetSnapshot()
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if err != nil {
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str := "failed to open transaction"
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return nil, convertErr(str, err)
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}
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// Since the cached keys to be added and removed use an immutable treap,
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// a snapshot is simply obtaining the root of the tree under the lock
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// which is used to atomically swap the root.
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c.cacheLock.RLock()
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cacheSnapshot := &dbCacheSnapshot{
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dbSnapshot: dbSnapshot,
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pendingKeys: c.cachedKeys,
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pendingRemove: c.cachedRemove,
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}
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c.cacheLock.RUnlock()
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return cacheSnapshot, nil
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}
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// updateDB invokes the passed function in the context of a managed leveldb
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// transaction. Any errors returned from the user-supplied function will cause
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// the transaction to be rolled back and are returned from this function.
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// Otherwise, the transaction is committed when the user-supplied function
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// returns a nil error.
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func (c *dbCache) updateDB(fn func(ldbTx *leveldb.Transaction) error) error {
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// Start a leveldb transaction.
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ldbTx, err := c.ldb.OpenTransaction()
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if err != nil {
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return convertErr("failed to open ldb transaction", err)
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}
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if err := fn(ldbTx); err != nil {
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ldbTx.Discard()
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return err
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}
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// Commit the leveldb transaction and convert any errors as needed.
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if err := ldbTx.Commit(); err != nil {
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return convertErr("failed to commit leveldb transaction", err)
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}
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return nil
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}
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// TreapForEacher is an interface which allows iteration of a treap in ascending
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// order using a user-supplied callback for each key/value pair. It mainly
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// exists so both mutable and immutable treaps can be atomically committed to
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// the database with the same function.
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type TreapForEacher interface {
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ForEach(func(k, v []byte) bool)
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}
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// commitTreaps atomically commits all of the passed pending add/update/remove
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// updates to the underlying database.
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func (c *dbCache) commitTreaps(pendingKeys, pendingRemove TreapForEacher) error {
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// Perform all leveldb updates using an atomic transaction.
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return c.updateDB(func(ldbTx *leveldb.Transaction) error {
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var innerErr error
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pendingKeys.ForEach(func(k, v []byte) bool {
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if dbErr := ldbTx.Put(k, v, nil); dbErr != nil {
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str := fmt.Sprintf("failed to put key %q to "+
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"ldb transaction", k)
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innerErr = convertErr(str, dbErr)
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return false
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}
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return true
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})
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if innerErr != nil {
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return innerErr
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}
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pendingRemove.ForEach(func(k, v []byte) bool {
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if dbErr := ldbTx.Delete(k, nil); dbErr != nil {
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str := fmt.Sprintf("failed to delete "+
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"key %q from ldb transaction",
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k)
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innerErr = convertErr(str, dbErr)
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return false
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}
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return true
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})
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return innerErr
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})
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}
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// flush flushes the database cache to persistent storage. This involes syncing
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// the block store and replaying all transactions that have been applied to the
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// cache to the underlying database.
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//
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// This function MUST be called with the database write lock held.
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func (c *dbCache) flush() error {
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c.lastFlush = time.Now()
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// Sync the current write file associated with the block store. This is
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// necessary before writing the metadata to prevent the case where the
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// metadata contains information about a block which actually hasn't
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// been written yet in unexpected shutdown scenarios.
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if err := c.store.syncBlocks(); err != nil {
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return err
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}
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// Since the cached keys to be added and removed use an immutable treap,
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// a snapshot is simply obtaining the root of the tree under the lock
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// which is used to atomically swap the root.
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c.cacheLock.RLock()
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cachedKeys := c.cachedKeys
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cachedRemove := c.cachedRemove
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c.cacheLock.RUnlock()
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// Nothing to do if there is no data to flush.
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if cachedKeys.Len() == 0 && cachedRemove.Len() == 0 {
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return nil
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}
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// Perform all leveldb updates using an atomic transaction.
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if err := c.commitTreaps(cachedKeys, cachedRemove); err != nil {
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return err
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}
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// Clear the cache since it has been flushed.
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c.cacheLock.Lock()
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c.cachedKeys = treap.NewImmutable()
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c.cachedRemove = treap.NewImmutable()
|
|
c.cacheLock.Unlock()
|
|
|
|
return nil
|
|
}
|
|
|
|
// needsFlush returns whether or not the database cache needs to be flushed to
|
|
// persistent storage based on its current size, whether or not adding all of
|
|
// the entries in the passed database transaction would cause it to exceed the
|
|
// configured limit, and how much time has elapsed since the last time the cache
|
|
// was flushed.
|
|
//
|
|
// This function MUST be called with the database write lock held.
|
|
func (c *dbCache) needsFlush(tx *transaction) bool {
|
|
// A flush is needed when more time has elapsed than the configured
|
|
// flush interval.
|
|
if time.Now().Sub(c.lastFlush) > c.flushInterval {
|
|
return true
|
|
}
|
|
|
|
// A flush is needed when the size of the database cache exceeds the
|
|
// specified max cache size. The total calculated size is multiplied by
|
|
// 1.5 here to account for additional memory consumption that will be
|
|
// needed during the flush as well as old nodes in the cache that are
|
|
// referenced by the snapshot used by the transaction.
|
|
snap := tx.snapshot
|
|
totalSize := snap.pendingKeys.Size() + snap.pendingRemove.Size()
|
|
totalSize = uint64(float64(totalSize) * 1.5)
|
|
if totalSize > c.maxSize {
|
|
return true
|
|
}
|
|
|
|
return false
|
|
}
|
|
|
|
// commitTx atomically adds all of the pending keys to add and remove into the
|
|
// database cache. When adding the pending keys would cause the size of the
|
|
// cache to exceed the max cache size, or the time since the last flush exceeds
|
|
// the configured flush interval, the cache will be flushed to the underlying
|
|
// persistent database.
|
|
//
|
|
// This is an atomic operation with respect to the cache in that either all of
|
|
// the pending keys to add and remove in the transaction will be applied or none
|
|
// of them will.
|
|
//
|
|
// The database cache itself might be flushed to the underlying persistent
|
|
// database even if the transaction fails to apply, but it will only be the
|
|
// state of the cache without the transaction applied.
|
|
//
|
|
// This function MUST be called during a database write transaction which in
|
|
// turn implies the database write lock will be held.
|
|
func (c *dbCache) commitTx(tx *transaction) error {
|
|
// Flush the cache and write the current transaction directly to the
|
|
// database if a flush is needed.
|
|
if c.needsFlush(tx) {
|
|
if err := c.flush(); err != nil {
|
|
return err
|
|
}
|
|
|
|
// Perform all leveldb updates using an atomic transaction.
|
|
err := c.commitTreaps(tx.pendingKeys, tx.pendingRemove)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
|
|
// Clear the transaction entries since they have been committed.
|
|
tx.pendingKeys = nil
|
|
tx.pendingRemove = nil
|
|
return nil
|
|
}
|
|
|
|
// At this point a database flush is not needed, so atomically commit
|
|
// the transaction to the cache.
|
|
|
|
// Since the cached keys to be added and removed use an immutable treap,
|
|
// a snapshot is simply obtaining the root of the tree under the lock
|
|
// which is used to atomically swap the root.
|
|
c.cacheLock.RLock()
|
|
newCachedKeys := c.cachedKeys
|
|
newCachedRemove := c.cachedRemove
|
|
c.cacheLock.RUnlock()
|
|
|
|
// Apply every key to add in the database transaction to the cache.
|
|
tx.pendingKeys.ForEach(func(k, v []byte) bool {
|
|
newCachedRemove = newCachedRemove.Delete(k)
|
|
newCachedKeys = newCachedKeys.Put(k, v)
|
|
return true
|
|
})
|
|
tx.pendingKeys = nil
|
|
|
|
// Apply every key to remove in the database transaction to the cache.
|
|
tx.pendingRemove.ForEach(func(k, v []byte) bool {
|
|
newCachedKeys = newCachedKeys.Delete(k)
|
|
newCachedRemove = newCachedRemove.Put(k, nil)
|
|
return true
|
|
})
|
|
tx.pendingRemove = nil
|
|
|
|
// Atomically replace the immutable treaps which hold the cached keys to
|
|
// add and delete.
|
|
c.cacheLock.Lock()
|
|
c.cachedKeys = newCachedKeys
|
|
c.cachedRemove = newCachedRemove
|
|
c.cacheLock.Unlock()
|
|
return nil
|
|
}
|
|
|
|
// Close cleanly shuts down the database cache by syncing all data and closing
|
|
// the underlying leveldb database.
|
|
//
|
|
// This function MUST be called with the database write lock held.
|
|
func (c *dbCache) Close() error {
|
|
// Flush any outstanding cached entries to disk.
|
|
if err := c.flush(); err != nil {
|
|
// Even if there is an error while flushing, attempt to close
|
|
// the underlying database. The error is ignored since it would
|
|
// mask the flush error.
|
|
_ = c.ldb.Close()
|
|
return err
|
|
}
|
|
|
|
// Close the underlying leveldb database.
|
|
if err := c.ldb.Close(); err != nil {
|
|
str := "failed to close underlying leveldb database"
|
|
return convertErr(str, err)
|
|
}
|
|
|
|
return nil
|
|
}
|
|
|
|
// newDbCache returns a new database cache instance backed by the provided
|
|
// leveldb instance. The cache will be flushed to leveldb when the max size
|
|
// exceeds the provided value or it has been longer than the provided interval
|
|
// since the last flush.
|
|
func newDbCache(ldb *leveldb.DB, store *blockStore, maxSize uint64, flushIntervalSecs uint32) *dbCache {
|
|
return &dbCache{
|
|
ldb: ldb,
|
|
store: store,
|
|
maxSize: maxSize,
|
|
flushInterval: time.Second * time.Duration(flushIntervalSecs),
|
|
lastFlush: time.Now(),
|
|
cachedKeys: treap.NewImmutable(),
|
|
cachedRemove: treap.NewImmutable(),
|
|
}
|
|
}
|