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A storage system inspired by Besu using Starknet Merkle Trees

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bonsai-trie

example workflow example workflow

Exploration_Team

This crate provides a storage implementation based on the Bonsai Storage implemented by Besu. It is a key/value storage that uses a Madara Merkle Trie to store the data.

Features

This library implements a trie-based key-value collection with the following properties:

  • Optimized for holding Starknet Felt items.
  • Persistance in an underlying key-value store. Defaults to RocksDB but the trie is generic on the underlying kv store.
  • A Madara-compatible root hash of the collection state is maintained efficiently on insertions/deletions thanks to persistence and greedy trie updates.
  • A Flat DB allowing direct access to items without requiring trie traversal. Item access complexity is inherited from the underlying key-value store without overhead.
  • Commit-based system allowing tagged atomic batches of updates on the collection items.
  • Trie Logs that allow efficiently reverting the collection state back to a given commit.
  • Thread-safe transactional states allowing to grab and manipulate a consistent view of the collection at a given commit height. This is especially useful for processing data at a given commit height while the collection is still being written to.
  • Transactional states can be merged back into the trunk state if no collisions happpened in the meantime.

Build:

cargo build

Docs and examples:

cargo doc --open

Usage example:

use bonsai_trie::{
    databases::{RocksDB, create_rocks_db, RocksDBConfig},
    BonsaiStorageError,
    id::{BasicIdBuilder, BasicId},
    BonsaiStorage, BonsaiStorageConfig, BonsaiTrieHash,
    ProofNode, Membership
};
use starknet_types_core::felt::Felt;
use starknet_types_core::hash::Pedersen;
use bitvec::prelude::*;

fn main() {
    // Get the underlying key-value store.
    let db = create_rocks_db("./rocksdb").unwrap();
    
    // Create a BonsaiStorage with default parameters.
    let config = BonsaiStorageConfig::default();
    let mut bonsai_storage: BonsaiStorage<_, _, Pedersen> = BonsaiStorage::new(RocksDB::new(&db, RocksDBConfig::default()), config).unwrap();
    
    // Create a simple incremental ID builder for commit IDs.
    // This is not necessary, you can use any kind of strictly monotonically increasing value to tag your commits. 
    let mut id_builder = BasicIdBuilder::new();

    // Define an idenfitier for a trie. All insert, get, remove and root hash will use this identifier. Define multiple identifier to use multiple tries that have separate root hash.
    let identifier = vec![];
    
    // Insert an item `pair1`.
    let pair1 = (vec![1, 2, 1], Felt::from_hex("0x66342762FDD54D033c195fec3ce2568b62052e").unwrap());
    let bitvec_1 = BitVec::from_vec(pair1.0.clone());
    bonsai_storage.insert(&identifier, &bitvec_1, &pair1.1).unwrap();

    // Insert a second item `pair2`.
    let pair2 = (vec![1, 2, 2], Felt::from_hex("0x66342762FD54D033c195fec3ce2568b62052e").unwrap());
    let bitvec = BitVec::from_vec(pair2.0.clone());
    bonsai_storage.insert(&identifier, &bitvec, &pair2.1).unwrap();

    // Commit the insertion of `pair1` and `pair2`.
    let id1 = id_builder.new_id()
    bonsai_storage.commit(id1);

    // Insert a new item `pair3`.
    let pair3 = (vec![1, 2, 2], Felt::from_hex("0x664D033c195fec3ce2568b62052e").unwrap());
    let bitvec = BitVec::from_vec(pair3.0.clone());
    bonsai_storage.insert(&identifier, &bitvec, &pair3.1).unwrap();

    // Commit the insertion of `pair3`. Save the commit ID to the `revert_to_id` variable.
    let revert_to_id = id_builder.new_id();
    bonsai_storage.commit(revert_to_id);

    // Remove `pair3`.
    bonsai_storage.remove(&identifier, &bitvec).unwrap();

    // Commit the removal of `pair3`.
    bonsai_storage.commit(id_builder.new_id());

    // Print the root hash and item `pair1`.
    println!("root: {:#?}", bonsai_storage.root_hash(&identifier));
    println!(
        "value: {:#?}",
        bonsai_storage.get(&identifier, &bitvec_1).unwrap()
    );

    // Revert the collection state back to the commit tagged by the `revert_to_id` variable.
    bonsai_storage.revert_to(revert_to_id).unwrap();

    // Print the root hash and item `pair3`.
    println!("root: {:#?}", bonsai_storage.root_hash(&identifier));
    println!("value: {:#?}", bonsai_storage.get(&identifier, &bitvec).unwrap());

    // Launch two threads that will simultaneously take transactional states to the commit identified by `id1`,
    // asserting in both of them that the item `pair1` is present and has the right value.
    std::thread::scope(|s| {
        s.spawn(|| {
            let bonsai_at_txn: BonsaiStorage<_, _, Pedersen> = bonsai_storage
                .get_transactional_state(id1, bonsai_storage.get_config())
                .unwrap()
                .unwrap();
            let bitvec = BitVec::from_vec(pair1.0.clone());
            assert_eq!(bonsai_at_txn.get(&identifier, &bitvec).unwrap().unwrap(), pair1.1);
        });

        s.spawn(|| {
            let bonsai_at_txn: BonsaiStorage<_, _, Pedersen> = bonsai_storage
                .get_transactional_state(id1, bonsai_storage.get_config())
                .unwrap()
                .unwrap();
            let bitvec = BitVec::from_vec(pair1.0.clone());
            assert_eq!(bonsai_at_txn.get(&identifier, &bitvec).unwrap().unwrap(), pair1.1);
        });
    });

    // Read item `pair1`.
    let pair1_val = bonsai_storage
        .get(&identifier, &BitVec::from_vec(vec![1, 2, 2]))
        .unwrap();

    // Insert a new item and commit.
    let pair4 = (
        vec![1, 2, 3],
        Felt::from_hex("0x66342762FDD54D033c195fec3ce2568b62052e").unwrap(),
    );
    bonsai_storage
        .insert(&identifier, &BitVec::from_vec(pair4.0.clone()), &pair4.1)
        .unwrap();
    bonsai_storage.commit(id_builder.new_id()).unwrap();
    let proof = bonsai_storage
        .get_proof(&identifier, &BitVec::from_vec(pair3.0.clone()))
        .unwrap();
    assert_eq!(
        BonsaiStorage::<BasicId, RocksDB<BasicId>>::verify_proof(
            bonsai_storage.root_hash(&identifier).unwrap(),
            &BitVec::from_vec(pair3.0.clone()),
            pair3.1,
            &proof
        ),
        Some(Membership::Member)
    );
}

Build and run benchmarks

This crate uses rayon to parallelize hash computations. As such, results will vary depending on the number of cores of your cpu.

cargo bench

Acknowledgements

  • Shout out to Danno Ferrin and Karim Taam for their work on Bonsai. This project is heavily inspired by their work.
  • Props to MassaLabs for the original implementation of this project.

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