nanoreth/crates/trie/db/tests/witness.rs

#![allow(missing_docs)]

use alloy_consensus::EMPTY_ROOT_HASH;
use alloy_primitives::{
    keccak256,
    map::{HashMap, HashSet},
    Address, Bytes, B256, U256,
};
use alloy_rlp::EMPTY_STRING_CODE;
use reth_db::{cursor::DbCursorRW, tables};
use reth_db_api::transaction::DbTxMut;
use reth_primitives_traits::{Account, StorageEntry};
use reth_provider::{test_utils::create_test_provider_factory, HashingWriter};
use reth_trie::{proof::Proof, witness::TrieWitness, HashedPostState, HashedStorage, StateRoot};
use reth_trie_db::{DatabaseProof, DatabaseStateRoot, DatabaseTrieWitness};

#[test]
fn includes_empty_node_preimage() {
    let factory = create_test_provider_factory();
    let provider = factory.provider_rw().unwrap();

    let address = Address::random();
    let hashed_address = keccak256(address);
    let hashed_slot = B256::random();

    // witness includes empty state trie root node
    assert_eq!(
        TrieWitness::from_tx(provider.tx_ref())
            .compute(HashedPostState {
                accounts: HashMap::from_iter([(hashed_address, Some(Account::default()))]),
                storages: HashMap::default(),
            })
            .unwrap(),
        HashMap::from_iter([(EMPTY_ROOT_HASH, Bytes::from([EMPTY_STRING_CODE]))])
    );

    // Insert account into database
    provider.insert_account_for_hashing([(address, Some(Account::default()))]).unwrap();

    let state_root = StateRoot::from_tx(provider.tx_ref()).root().unwrap();
    let multiproof = Proof::from_tx(provider.tx_ref())
        .multiproof(HashMap::from_iter([(hashed_address, HashSet::from_iter([hashed_slot]))]))
        .unwrap();

    let witness = TrieWitness::from_tx(provider.tx_ref())
        .compute(HashedPostState {
            accounts: HashMap::from_iter([(hashed_address, Some(Account::default()))]),
            storages: HashMap::from_iter([(
                hashed_address,
                HashedStorage::from_iter(false, [(hashed_slot, U256::from(1))]),
            )]),
        })
        .unwrap();
    assert!(witness.contains_key(&state_root));
    for node in multiproof.account_subtree.values() {
        assert_eq!(witness.get(&keccak256(node)), Some(node));
    }
    // witness includes empty state trie root node
    assert_eq!(witness.get(&EMPTY_ROOT_HASH), Some(&Bytes::from([EMPTY_STRING_CODE])));
}

#[test]
fn includes_nodes_for_destroyed_storage_nodes() {
    let factory = create_test_provider_factory();
    let provider = factory.provider_rw().unwrap();

    let address = Address::random();
    let hashed_address = keccak256(address);
    let slot = B256::random();
    let hashed_slot = keccak256(slot);

    // Insert account and slot into database
    provider.insert_account_for_hashing([(address, Some(Account::default()))]).unwrap();
    provider
        .insert_storage_for_hashing([(address, [StorageEntry { key: slot, value: U256::from(1) }])])
        .unwrap();

    let state_root = StateRoot::from_tx(provider.tx_ref()).root().unwrap();
    let multiproof = Proof::from_tx(provider.tx_ref())
        .multiproof(HashMap::from_iter([(hashed_address, HashSet::from_iter([hashed_slot]))]))
        .unwrap();

    let witness =
        TrieWitness::from_tx(provider.tx_ref())
            .compute(HashedPostState {
                accounts: HashMap::from_iter([(hashed_address, Some(Account::default()))]),
                storages: HashMap::from_iter([(
                    hashed_address,
                    HashedStorage::from_iter(true, []),
                )]), // destroyed
            })
            .unwrap();
    assert!(witness.contains_key(&state_root));
    for node in multiproof.account_subtree.values() {
        assert_eq!(witness.get(&keccak256(node)), Some(node));
    }
    for node in multiproof.storages.iter().flat_map(|(_, storage)| storage.subtree.values()) {
        assert_eq!(witness.get(&keccak256(node)), Some(node));
    }
}

#[test]
fn correctly_decodes_branch_node_values() {
    let factory = create_test_provider_factory();
    let provider = factory.provider_rw().unwrap();

    let address = Address::random();
    let hashed_address = keccak256(address);
    let hashed_slot1 = B256::with_last_byte(1);
    let hashed_slot2 = B256::with_last_byte(2);

    // Insert account and slots into database
    provider.insert_account_for_hashing([(address, Some(Account::default()))]).unwrap();
    let mut hashed_storage_cursor =
        provider.tx_ref().cursor_dup_write::<tables::HashedStorages>().unwrap();
    hashed_storage_cursor
        .upsert(hashed_address, &StorageEntry { key: hashed_slot1, value: U256::from(1) })
        .unwrap();
    hashed_storage_cursor
        .upsert(hashed_address, &StorageEntry { key: hashed_slot2, value: U256::from(1) })
        .unwrap();

    let state_root = StateRoot::from_tx(provider.tx_ref()).root().unwrap();
    let multiproof = Proof::from_tx(provider.tx_ref())
        .multiproof(HashMap::from_iter([(
            hashed_address,
            HashSet::from_iter([hashed_slot1, hashed_slot2]),
        )]))
        .unwrap();

    let witness = TrieWitness::from_tx(provider.tx_ref())
        .compute(HashedPostState {
            accounts: HashMap::from_iter([(hashed_address, Some(Account::default()))]),
            storages: HashMap::from_iter([(
                hashed_address,
                HashedStorage::from_iter(
                    false,
                    [hashed_slot1, hashed_slot2].map(|hashed_slot| (hashed_slot, U256::from(2))),
                ),
            )]),
        })
        .unwrap();
    assert!(witness.contains_key(&state_root));
    for node in multiproof.account_subtree.values() {
        assert_eq!(witness.get(&keccak256(node)), Some(node));
    }
    for node in multiproof.storages.iter().flat_map(|(_, storage)| storage.subtree.values()) {
        assert_eq!(witness.get(&keccak256(node)), Some(node));
    }
}