// Copyright 2023 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 trienode import ( "fmt" "sort" "strings" "github.com/ethereum/go-ethereum/common" ) // Node is a wrapper which contains the encoded blob of the trie node and its // node hash. It is general enough that can be used to represent trie node // corresponding to different trie implementations. type Node struct { Hash common.Hash // Node hash, empty for deleted node Blob []byte // Encoded node blob, nil for the deleted node } // Size returns the total memory size used by this node. func (n *Node) Size() int { return len(n.Blob) + common.HashLength } // IsDeleted returns the indicator if the node is marked as deleted. func (n *Node) IsDeleted() bool { return len(n.Blob) == 0 } // New constructs a node with provided node information. func New(hash common.Hash, blob []byte) *Node { return &Node{Hash: hash, Blob: blob} } // NewDeleted constructs a node which is deleted. func NewDeleted() *Node { return New(common.Hash{}, nil) } // leaf represents a trie leaf node type leaf struct { Blob []byte // raw blob of leaf Parent common.Hash // the hash of parent node } // NodeSet contains a set of 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 Leaves []*leaf Nodes map[string]*Node updates int // the count of updated and inserted nodes deletes int // the count of deleted nodes } // NewNodeSet initializes a node set. The owner is zero for the account trie and // the owning account address hash for storage tries. func NewNodeSet(owner common.Hash) *NodeSet { return &NodeSet{ Owner: owner, Nodes: make(map[string]*Node), } } // ForEachWithOrder iterates the nodes with the order from bottom to top, // right to left, nodes with the longest path will be iterated first. func (set *NodeSet) ForEachWithOrder(callback func(path string, n *Node)) { paths := make([]string, 0, len(set.Nodes)) for path := range set.Nodes { paths = append(paths, path) } // Bottom-up, the longest path first sort.Sort(sort.Reverse(sort.StringSlice(paths))) for _, path := range paths { callback(path, set.Nodes[path]) } } // AddNode adds the provided node into set. func (set *NodeSet) AddNode(path []byte, n *Node) { if n.IsDeleted() { set.deletes += 1 } else { set.updates += 1 } set.Nodes[string(path)] = n } // Merge adds a set of nodes into the set. func (set *NodeSet) Merge(owner common.Hash, nodes map[string]*Node) error { if set.Owner != owner { return fmt.Errorf("nodesets belong to different owner are not mergeable %x-%x", set.Owner, owner) } for path, node := range nodes { prev, ok := set.Nodes[path] if ok { // overwrite happens, revoke the counter if prev.IsDeleted() { set.deletes -= 1 } else { set.updates -= 1 } } if node.IsDeleted() { set.deletes += 1 } else { set.updates += 1 } set.Nodes[path] = node } return nil } // AddLeaf adds the provided leaf node into set. TODO(rjl493456442) how can // we get rid of it? func (set *NodeSet) AddLeaf(parent common.Hash, blob []byte) { set.Leaves = append(set.Leaves, &leaf{Blob: blob, Parent: parent}) } // Size returns the number of dirty nodes in set. func (set *NodeSet) Size() (int, int) { return set.updates, set.deletes } // 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) for path, n := range set.Nodes { // Deletion if n.IsDeleted() { fmt.Fprintf(out, " [-]: %x\n", path) continue } // Insertion or 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 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 { subset, present := set.Sets[other.Owner] if present { return subset.Merge(other.Owner, other.Nodes) } set.Sets[other.Owner] = other return nil } // Flatten returns a two-dimensional map for internal nodes. func (set *MergedNodeSet) Flatten() map[common.Hash]map[string]*Node { nodes := make(map[common.Hash]map[string]*Node, len(set.Sets)) for owner, set := range set.Sets { nodes[owner] = set.Nodes } return nodes }