tornado-core/lib/MerkleTree.js

185 lines
5.8 KiB
JavaScript

const jsStorage = require("./Storage");
const mimcHasher = require("./MiMC");
class MerkleTree {
constructor(n_levels, zero_value, defaultElements, prefix, storage, hasher) {
this.prefix = prefix;
this.storage = storage || new jsStorage();
this.hasher = hasher || new mimcHasher();
this.n_levels = n_levels;
this.zero_values = [];
this.totalElements = 0;
let current_zero_value = zero_value || 0;
this.zero_values.push(current_zero_value);
for (let i = 0; i < n_levels; i++) {
current_zero_value = this.hasher.hash(i, current_zero_value, current_zero_value);
this.zero_values.push(
current_zero_value.toString(),
);
}
if (defaultElements) {
let level = 0
this.totalElements = defaultElements.length
defaultElements.forEach((element, i) => {
this.storage.put(MerkleTree.index_to_key(prefix, level, i), element)
})
level++
let numberOfElementInRow = Math.ceil(defaultElements.length / 2)
for (level; level <= this.n_levels; level++) {
for(let i = 0; i < numberOfElementInRow; i++) {
const leftKey = MerkleTree.index_to_key(prefix, level - 1, 2 * i)
const rightKey = MerkleTree.index_to_key(prefix, level - 1, 2 * i + 1)
const left = this.storage.get(leftKey)
const right = this.storage.get_or_element(rightKey, this.zero_values[level - 1])
const subRoot = this.hasher.hash(null, left, right);
this.storage.put(MerkleTree.index_to_key(prefix, level, i), subRoot)
}
numberOfElementInRow = Math.max(Math.ceil(numberOfElementInRow / 2), 1)
}
}
}
static index_to_key(prefix, level, index) {
const key = `${prefix}_tree_${level}_${index}`;
return key;
}
async root() {
let root = await this.storage.get_or_element(
MerkleTree.index_to_key(this.prefix, this.n_levels, 0),
this.zero_values[this.n_levels],
);
return root;
}
async path(index) {
class PathTraverser {
constructor(prefix, storage, zero_values) {
this.prefix = prefix;
this.storage = storage;
this.zero_values = zero_values;
this.path_elements = [];
this.path_index = [];
}
async handle_index(level, element_index, sibling_index) {
const sibling = await this.storage.get_or_element(
MerkleTree.index_to_key(this.prefix, level, sibling_index),
this.zero_values[level],
);
this.path_elements.push(sibling);
this.path_index.push(element_index % 2);
}
}
let traverser = new PathTraverser(this.prefix, this.storage, this.zero_values);
const root = await this.storage.get_or_element(
MerkleTree.index_to_key(this.prefix, this.n_levels, 0),
this.zero_values[this.n_levels],
);
const element = await this.storage.get_or_element(
MerkleTree.index_to_key(this.prefix, 0, index),
this.zero_values[0],
);
await this.traverse(index, traverser);
return {
root,
path_elements: traverser.path_elements,
path_index: traverser.path_index,
element
};
}
async update(index, element, insert = false) {
if (!insert && index >= this.totalElements) {
throw Error('Use insert method for new elements.')
} else if(insert && index < this.totalElements) {
throw Error('Use update method for existing elements.')
}
try {
class UpdateTraverser {
constructor(prefix, storage, hasher, element, zero_values) {
this.prefix = prefix;
this.current_element = element;
this.zero_values = zero_values;
this.storage = storage;
this.hasher = hasher;
this.key_values_to_put = [];
}
async handle_index(level, element_index, sibling_index) {
if (level == 0) {
this.original_element = await this.storage.get_or_element(
MerkleTree.index_to_key(this.prefix, level, element_index),
this.zero_values[level],
);
}
const sibling = await this.storage.get_or_element(
MerkleTree.index_to_key(this.prefix, level, sibling_index),
this.zero_values[level],
);
let left, right;
if (element_index % 2 == 0) {
left = this.current_element;
right = sibling;
} else {
left = sibling;
right = this.current_element;
}
this.key_values_to_put.push({
key: MerkleTree.index_to_key(this.prefix, level, element_index),
value: this.current_element,
});
this.current_element = this.hasher.hash(level, left, right);
}
}
let traverser = new UpdateTraverser(
this.prefix,
this.storage,
this.hasher,
element,
this.zero_values
);
await this.traverse(index, traverser);
traverser.key_values_to_put.push({
key: MerkleTree.index_to_key(this.prefix, this.n_levels, 0),
value: traverser.current_element,
});
await this.storage.put_batch(traverser.key_values_to_put);
} catch(e) {
console.error(e)
}
}
async insert(element) {
const index = this.totalElements
await this.update(index, element, true)
this.totalElements++
}
async traverse(index, handler) {
let current_index = index;
for (let i = 0; i < this.n_levels; i++) {
let sibling_index = current_index;
if (current_index % 2 == 0) {
sibling_index += 1;
} else {
sibling_index -= 1;
}
await handler.handle_index(i, current_index, sibling_index);
current_index = Math.floor(current_index / 2);
}
}
}
module.exports = MerkleTree;