What is merkle-patricia-tree?
The merkle-patricia-tree npm package is a JavaScript implementation of the Ethereum modified Merkle Patricia Trie. It is used to store key-value pairs in a way that allows for efficient verification of the inclusion and integrity of data. This is particularly useful in blockchain applications where data integrity and proof of inclusion are critical.
What are merkle-patricia-tree's main functionalities?
Creating a Trie
This feature allows you to create a new instance of a Merkle Patricia Trie. The Trie can then be used to store and manage key-value pairs.
const { BaseTrie: Trie } = require('merkle-patricia-tree');
const trie = new Trie();
Inserting Data
This feature allows you to insert key-value pairs into the Trie. The keys and values are stored as Buffers.
const { BaseTrie: Trie } = require('merkle-patricia-tree');
const trie = new Trie();
trie.put(Buffer.from('key1'), Buffer.from('value1'), (err) => {
if (err) throw err;
console.log('Data inserted');
});
Retrieving Data
This feature allows you to retrieve the value associated with a given key from the Trie.
const { BaseTrie: Trie } = require('merkle-patricia-tree');
const trie = new Trie();
trie.put(Buffer.from('key1'), Buffer.from('value1'), (err) => {
if (err) throw err;
trie.get(Buffer.from('key1'), (err, value) => {
if (err) throw err;
console.log('Retrieved value:', value.toString());
});
});
Deleting Data
This feature allows you to delete a key-value pair from the Trie.
const { BaseTrie: Trie } = require('merkle-patricia-tree');
const trie = new Trie();
trie.put(Buffer.from('key1'), Buffer.from('value1'), (err) => {
if (err) throw err;
trie.del(Buffer.from('key1'), (err) => {
if (err) throw err;
console.log('Data deleted');
});
});
Proving Inclusion
This feature allows you to create a proof that a particular key-value pair is included in the Trie.
const { BaseTrie: Trie } = require('merkle-patricia-tree');
const trie = new Trie();
trie.put(Buffer.from('key1'), Buffer.from('value1'), (err) => {
if (err) throw err;
trie.createProof(Buffer.from('key1'), (err, proof) => {
if (err) throw err;
console.log('Proof:', proof);
});
});
Other packages similar to merkle-patricia-tree
merkle-tree
The merkle-tree package provides a simple implementation of a Merkle Tree, which is a binary tree used for data verification. Unlike the merkle-patricia-tree, it does not support the Patricia Trie structure, which is more efficient for certain types of key-value storage and retrieval.
merkle
The merkle package is another implementation of a Merkle Tree. It is designed for general-purpose use and does not include the Patricia Trie optimizations found in merkle-patricia-tree. It is simpler but less efficient for large datasets.
merkle-tools
The merkle-tools package provides utilities for creating and managing Merkle Trees. It includes features for creating proofs and verifying data integrity, similar to merkle-patricia-tree, but it does not implement the Patricia Trie structure.
#modified merkle patricia tree
This is an implementation of the modified merkle patricia tree as specified in the Ethereum's yellow paper.
The modified Merkle Patricia tree (trie) provides a persistent data structure to map between arbitrary-length binary data (byte arrays). It is defined in terms of a mutable data structure to map between 256-bit binary fragments and arbitrary-length binary data. The core of the trie, and its sole requirement in terms of the protocol specification is to provide a single 32-byte value that identifies a given set of key-value pairs.
- Ethereum's yellow paper
Installation
npm install merkle-patricia-tree
Usage
var Trie = require('merkle-patricia-tree'),
levelup = require('levelup'),
db = levelup('./testdb'),
trie = new Trie(db);
trie.put('test', 'one', function () {
trie.get('test', function (err, value) {
if(value) console.log(value.toString())
});
});
API
new new Trie([db], [root])
new new Trie([options], [root])
Creates a new Trie object
db
- A instance of levelup or compatiable API. If no db is null
or left undefined then the the trie will be stored in memory vai memdownroot
- A hex String
or Buffer
for the root of a prevously stored trie.options
- hash with the followingimmutable
- A Boolean
determing if the Trie will be immutable or not. This property can be changed later.db
- the db
Trie
Properties
root
- The root of the trie
as a Buffer
isCheckpoint
- A Boolean
determining if you are saving to a checkpoint or directly to the dbisImmutable
- A Boolean
flag determing if the Trie is immutable or not
Trie
Methods
trie.put(key, value, cb)
Stores a give value at the give key
key
- the key as a Buffer
or String
value
- the value to be storedcb
- a callback Function
which is given the argumnet err
- for an errors that may have occured
trie.get(key, cb)
Retrieves a value stored at a key
key
- the key as a Buffer
or String
cb
- a callback Function
which is given the argumnets err
- for an errors that may have occured and vlue
- The found value in a Buffer
or if no value was found null
.
trie.delete(key, cb)
Removes a value
key
- the key as a Buffer
or String
cb
- a callback Function
which is given the argumnet err
- for an errors that may have occured
trie.checkpoint()
Creates a checkpoint that can later be reverted to or commited. After this is called, no changes to the trie will be permanently saved until commitCheckpoint
is called.
trie.commit(cb)
Commits a checkpoint to the trie
trie.revert()
revets the trie to the state it was at when createCheckpoint
was first called
trie.deleteState([stateRoot], cb)
Deletes all the nodes of a given stateroot. If no stateroot is given then it will delete the current state.
trie.createReadStream()
returns a read stream. The data
event is given an Object
hat has two propeties; the key
and the value
. Both should be Buffers.
examples
see this blog post
Testing
npm test
Test use mocha