// Copyright 2022 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package trie import ( "fmt" "reflect" "sort" "strings" "github.com/ethereum/go-ethereum/common" ) // memoryNode is all the information we know about a single cached trie node // in the memory. type memoryNode struct { hash common.Hash // Node hash, computed by hashing rlp value, empty for deleted nodes size uint16 // Byte size of the useful cached data, 0 for deleted nodes node node // Cached collapsed trie node, or raw rlp data, nil for deleted nodes } // memoryNodeSize is the raw size of a memoryNode data structure without any // node data included. It's an approximate size, but should be a lot better // than not counting them. // nolint:unused var memoryNodeSize = int(reflect.TypeOf(memoryNode{}).Size()) // memorySize returns the total memory size used by this node. // nolint:unused func (n *memoryNode) memorySize(pathlen int) int { return int(n.size) + memoryNodeSize + pathlen } // rlp returns the raw rlp encoded blob of the cached trie node, either directly // from the cache, or by regenerating it from the collapsed node. // nolint:unused func (n *memoryNode) rlp() []byte { if node, ok := n.node.(rawNode); ok { return node } return nodeToBytes(n.node) } // obj returns the decoded and expanded trie node, either directly from the cache, // or by regenerating it from the rlp encoded blob. // nolint:unused func (n *memoryNode) obj() node { if node, ok := n.node.(rawNode); ok { return mustDecodeNode(n.hash[:], node) } return expandNode(n.hash[:], n.node) } // isDeleted returns the indicator if the node is marked as deleted. func (n *memoryNode) isDeleted() bool { return n.hash == (common.Hash{}) } // nodeWithPrev wraps the memoryNode with the previous node value. // nolint: unused type nodeWithPrev struct { *memoryNode prev []byte // RLP-encoded previous value, nil means it's non-existent } // unwrap returns the internal memoryNode object. // nolint: unused func (n *nodeWithPrev) unwrap() *memoryNode { return n.memoryNode } // memorySize returns the total memory size used by this node. It overloads // the function in memoryNode by counting the size of previous value as well. // nolint: unused func (n *nodeWithPrev) memorySize(pathlen int) int { return n.memoryNode.memorySize(pathlen) + len(n.prev) } // NodeSet contains all dirty nodes collected during the commit operation. // Each node is keyed by path. It's not thread-safe to use. type NodeSet struct { owner common.Hash // the identifier of the trie nodes map[string]*memoryNode // the set of dirty nodes(inserted, updated, deleted) leaves []*leaf // the list of dirty leaves accessList map[string][]byte // The list of accessed nodes, which records the original node value } // NewNodeSet initializes an empty node set to be used for tracking dirty nodes // for a specific account or storage trie. The owner is zero for the account trie // and the owning account address hash for storage tries. The provided accessList // represents the original value of accessed nodes, it can be optional but would // be beneficial for speeding up the construction of trie history. func NewNodeSet(owner common.Hash, accessList map[string][]byte) *NodeSet { // Don't panic for lazy users if accessList == nil { accessList = make(map[string][]byte) } return &NodeSet{ owner: owner, nodes: make(map[string]*memoryNode), accessList: accessList, } } // forEachWithOrder iterates the dirty nodes with the specified order. // If topToBottom is true: // // then the order of iteration is top to bottom, left to right. // // If topToBottom is false: // // then the order of iteration is bottom to top, right to left. func (set *NodeSet) forEachWithOrder(topToBottom bool, callback func(path string, n *memoryNode)) { var paths sort.StringSlice for path := range set.nodes { paths = append(paths, path) } if topToBottom { paths.Sort() } else { sort.Sort(sort.Reverse(paths)) } for _, path := range paths { callback(path, set.nodes[path]) } } // markUpdated marks the node as dirty(newly-inserted or updated) with provided // node path, node object along with its previous value. func (set *NodeSet) markUpdated(path []byte, node *memoryNode) { set.nodes[string(path)] = node } // markDeleted marks the node as deleted with provided path and previous value. // nolint: unused func (set *NodeSet) markDeleted(path []byte) { set.nodes[string(path)] = &memoryNode{} } // addLeaf collects the provided leaf node into set. func (set *NodeSet) addLeaf(node *leaf) { set.leaves = append(set.leaves, node) } // Size returns the number of dirty nodes contained in the set. func (set *NodeSet) Size() int { return len(set.nodes) } // Hashes returns the hashes of all updated nodes. TODO(rjl493456442) how can // we get rid of it? func (set *NodeSet) Hashes() []common.Hash { var ret []common.Hash for _, node := range set.nodes { ret = append(ret, node.hash) } return ret } // Summary returns a string-representation of the NodeSet. func (set *NodeSet) Summary() string { var out = new(strings.Builder) fmt.Fprintf(out, "nodeset owner: %v\n", set.owner) if set.nodes != nil { for path, n := range set.nodes { // Deletion if n.isDeleted() { fmt.Fprintf(out, " [-]: %x\n", path) continue } // Update fmt.Fprintf(out, " [+]: %x -> %v\n", path, n.hash) } } for _, n := range set.leaves { fmt.Fprintf(out, "[leaf]: %v\n", n) } return out.String() } // MergedNodeSet represents a merged dirty node set for a group of tries. type MergedNodeSet struct { sets map[common.Hash]*NodeSet } // NewMergedNodeSet initializes an empty merged set. func NewMergedNodeSet() *MergedNodeSet { return &MergedNodeSet{sets: make(map[common.Hash]*NodeSet)} } // NewWithNodeSet constructs a merged nodeset with the provided single set. func NewWithNodeSet(set *NodeSet) *MergedNodeSet { merged := NewMergedNodeSet() merged.Merge(set) return merged } // Merge merges the provided dirty nodes of a trie into the set. The assumption // is held that no duplicated set belonging to the same trie will be merged twice. func (set *MergedNodeSet) Merge(other *NodeSet) error { _, present := set.sets[other.owner] if present { return fmt.Errorf("duplicate trie for owner %#x", other.owner) } set.sets[other.owner] = other return nil }