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288 lines
9.6 KiB
288 lines
9.6 KiB
// Copyright 2022 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 pathdb
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import (
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"fmt"
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"time"
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"github.com/VictoriaMetrics/fastcache"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core/rawdb"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/log"
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"github.com/ethereum/go-ethereum/trie/trienode"
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)
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// nodebuffer is a collection of modified trie nodes to aggregate the disk
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// write. The content of the nodebuffer must be checked before diving into
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// disk (since it basically is not-yet-written data).
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type nodebuffer struct {
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layers uint64 // The number of diff layers aggregated inside
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size uint64 // The size of aggregated writes
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limit uint64 // The maximum memory allowance in bytes
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nodes map[common.Hash]map[string]*trienode.Node // The dirty node set, mapped by owner and path
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}
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// newNodeBuffer initializes the node buffer with the provided nodes.
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func newNodeBuffer(limit int, nodes map[common.Hash]map[string]*trienode.Node, layers uint64) *nodebuffer {
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if nodes == nil {
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nodes = make(map[common.Hash]map[string]*trienode.Node)
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}
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var size uint64
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for _, subset := range nodes {
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for path, n := range subset {
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size += uint64(len(n.Blob) + len(path))
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}
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}
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return &nodebuffer{
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layers: layers,
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nodes: nodes,
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size: size,
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limit: uint64(limit),
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}
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}
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// node retrieves the trie node with given node info.
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func (b *nodebuffer) node(owner common.Hash, path []byte, hash common.Hash) (*trienode.Node, error) {
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subset, ok := b.nodes[owner]
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if !ok {
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return nil, nil
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}
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n, ok := subset[string(path)]
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if !ok {
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return nil, nil
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}
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if n.Hash != hash {
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dirtyFalseMeter.Mark(1)
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log.Error("Unexpected trie node in node buffer", "owner", owner, "path", path, "expect", hash, "got", n.Hash)
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return nil, newUnexpectedNodeError("dirty", hash, n.Hash, owner, path, n.Blob)
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}
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return n, nil
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}
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// commit merges the dirty nodes into the nodebuffer. This operation won't take
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// the ownership of the nodes map which belongs to the bottom-most diff layer.
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// It will just hold the node references from the given map which are safe to
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// copy.
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func (b *nodebuffer) commit(nodes map[common.Hash]map[string]*trienode.Node) *nodebuffer {
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var (
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delta int64
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overwrite int64
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overwriteSize int64
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)
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for owner, subset := range nodes {
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current, exist := b.nodes[owner]
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if !exist {
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// Allocate a new map for the subset instead of claiming it directly
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// from the passed map to avoid potential concurrent map read/write.
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// The nodes belong to original diff layer are still accessible even
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// after merging, thus the ownership of nodes map should still belong
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// to original layer and any mutation on it should be prevented.
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current = make(map[string]*trienode.Node)
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for path, n := range subset {
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current[path] = n
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delta += int64(len(n.Blob) + len(path))
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}
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b.nodes[owner] = current
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continue
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}
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for path, n := range subset {
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if orig, exist := current[path]; !exist {
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delta += int64(len(n.Blob) + len(path))
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} else {
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delta += int64(len(n.Blob) - len(orig.Blob))
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overwrite++
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overwriteSize += int64(len(orig.Blob) + len(path))
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}
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current[path] = n
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}
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b.nodes[owner] = current
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}
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b.updateSize(delta)
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b.layers++
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gcNodesMeter.Mark(overwrite)
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gcBytesMeter.Mark(overwriteSize)
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return b
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}
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// revert is the reverse operation of commit. It also merges the provided nodes
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// into the nodebuffer, the difference is that the provided node set should
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// revert the changes made by the last state transition.
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func (b *nodebuffer) revert(db ethdb.KeyValueReader, nodes map[common.Hash]map[string]*trienode.Node) error {
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// Short circuit if no embedded state transition to revert.
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if b.layers == 0 {
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return errStateUnrecoverable
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}
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b.layers--
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// Reset the entire buffer if only a single transition left.
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if b.layers == 0 {
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b.reset()
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return nil
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}
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var delta int64
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for owner, subset := range nodes {
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current, ok := b.nodes[owner]
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if !ok {
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panic(fmt.Sprintf("non-existent subset (%x)", owner))
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}
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for path, n := range subset {
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orig, ok := current[path]
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if !ok {
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// There is a special case in MPT that one child is removed from
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// a fullNode which only has two children, and then a new child
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// with different position is immediately inserted into the fullNode.
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// In this case, the clean child of the fullNode will also be
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// marked as dirty because of node collapse and expansion.
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//
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// In case of database rollback, don't panic if this "clean"
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// node occurs which is not present in buffer.
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var nhash common.Hash
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if owner == (common.Hash{}) {
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_, nhash = rawdb.ReadAccountTrieNode(db, []byte(path))
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} else {
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_, nhash = rawdb.ReadStorageTrieNode(db, owner, []byte(path))
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}
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// Ignore the clean node in the case described above.
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if nhash == n.Hash {
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continue
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}
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panic(fmt.Sprintf("non-existent node (%x %v) blob: %v", owner, path, crypto.Keccak256Hash(n.Blob).Hex()))
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}
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current[path] = n
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delta += int64(len(n.Blob)) - int64(len(orig.Blob))
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}
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}
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b.updateSize(delta)
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return nil
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}
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// updateSize updates the total cache size by the given delta.
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func (b *nodebuffer) updateSize(delta int64) {
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size := int64(b.size) + delta
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if size >= 0 {
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b.size = uint64(size)
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return
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}
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s := b.size
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b.size = 0
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log.Error("Invalid pathdb buffer size", "prev", common.StorageSize(s), "delta", common.StorageSize(delta))
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}
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// reset cleans up the disk cache.
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func (b *nodebuffer) reset() {
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b.layers = 0
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b.size = 0
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b.nodes = make(map[common.Hash]map[string]*trienode.Node)
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}
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// empty returns an indicator if nodebuffer contains any state transition inside.
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func (b *nodebuffer) empty() bool {
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return b.layers == 0
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}
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// setSize sets the buffer size to the provided number, and invokes a flush
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// operation if the current memory usage exceeds the new limit.
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func (b *nodebuffer) setSize(size int, db ethdb.KeyValueStore, clean *fastcache.Cache, id uint64) error {
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b.limit = uint64(size)
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return b.flush(db, clean, id, false)
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}
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// allocBatch returns a database batch with pre-allocated buffer.
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func (b *nodebuffer) allocBatch(db ethdb.KeyValueStore) ethdb.Batch {
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var metasize int
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for owner, nodes := range b.nodes {
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if owner == (common.Hash{}) {
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metasize += len(nodes) * len(rawdb.TrieNodeAccountPrefix) // database key prefix
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} else {
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metasize += len(nodes) * (len(rawdb.TrieNodeStoragePrefix) + common.HashLength) // database key prefix + owner
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}
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}
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return db.NewBatchWithSize((metasize + int(b.size)) * 11 / 10) // extra 10% for potential pebble internal stuff
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}
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// flush persists the in-memory dirty trie node into the disk if the configured
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// memory threshold is reached. Note, all data must be written atomically.
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func (b *nodebuffer) flush(db ethdb.KeyValueStore, clean *fastcache.Cache, id uint64, force bool) error {
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if b.size <= b.limit && !force {
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return nil
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}
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// Ensure the target state id is aligned with the internal counter.
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head := rawdb.ReadPersistentStateID(db)
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if head+b.layers != id {
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return fmt.Errorf("buffer layers (%d) cannot be applied on top of persisted state id (%d) to reach requested state id (%d)", b.layers, head, id)
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}
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var (
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start = time.Now()
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batch = b.allocBatch(db)
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)
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nodes := writeNodes(batch, b.nodes, clean)
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rawdb.WritePersistentStateID(batch, id)
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// Flush all mutations in a single batch
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size := batch.ValueSize()
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if err := batch.Write(); err != nil {
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return err
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}
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commitBytesMeter.Mark(int64(size))
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commitNodesMeter.Mark(int64(nodes))
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commitTimeTimer.UpdateSince(start)
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log.Debug("Persisted pathdb nodes", "nodes", len(b.nodes), "bytes", common.StorageSize(size), "elapsed", common.PrettyDuration(time.Since(start)))
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b.reset()
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return nil
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}
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// writeNodes writes the trie nodes into the provided database batch.
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// Note this function will also inject all the newly written nodes
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// into clean cache.
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func writeNodes(batch ethdb.Batch, nodes map[common.Hash]map[string]*trienode.Node, clean *fastcache.Cache) (total int) {
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for owner, subset := range nodes {
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for path, n := range subset {
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if n.IsDeleted() {
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if owner == (common.Hash{}) {
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rawdb.DeleteAccountTrieNode(batch, []byte(path))
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} else {
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rawdb.DeleteStorageTrieNode(batch, owner, []byte(path))
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}
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if clean != nil {
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clean.Del(cacheKey(owner, []byte(path)))
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}
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} else {
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if owner == (common.Hash{}) {
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rawdb.WriteAccountTrieNode(batch, []byte(path), n.Blob)
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} else {
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rawdb.WriteStorageTrieNode(batch, owner, []byte(path), n.Blob)
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}
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if clean != nil {
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clean.Set(cacheKey(owner, []byte(path)), n.Blob)
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}
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}
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}
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total += len(subset)
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}
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return total
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}
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// cacheKey constructs the unique key of clean cache.
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func cacheKey(owner common.Hash, path []byte) []byte {
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if owner == (common.Hash{}) {
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return path
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}
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return append(owner.Bytes(), path...)
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}
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