mirror of
https://github.com/0glabs/0g-storage-node.git
synced 2024-11-15 04:25:19 +00:00
Add trait.
This commit is contained in:
parent
b76fa7be9b
commit
5100c22933
@ -1,4 +1,5 @@
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mod merkle_tree;
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mod node_manager;
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mod proof;
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mod sha3;
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@ -7,17 +8,20 @@ use std::cmp::Ordering;
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use std::collections::{BTreeMap, HashMap};
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use std::fmt::Debug;
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use std::marker::PhantomData;
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use std::sync::Arc;
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use tracing::{trace, warn};
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pub use crate::merkle_tree::{
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Algorithm, HashElement, MerkleTreeInitialData, MerkleTreeRead, ZERO_HASHES,
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};
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pub use crate::node_manager::{EmptyNodeDatabase, NodeDatabase, NodeManager};
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pub use proof::{Proof, RangeProof};
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pub use sha3::Sha3Algorithm;
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pub struct AppendMerkleTree<E: HashElement, A: Algorithm<E>> {
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/// Keep all the nodes in the latest version. `layers[0]` is the layer of leaves.
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layers: Vec<Vec<E>>,
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node_manager: NodeManager<E>,
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/// Keep the delta nodes that can be used to construct a history tree.
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/// The key is the root node of that version.
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delta_nodes_map: BTreeMap<u64, DeltaNodes<E>>,
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@ -33,9 +37,15 @@ pub struct AppendMerkleTree<E: HashElement, A: Algorithm<E>> {
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}
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impl<E: HashElement, A: Algorithm<E>> AppendMerkleTree<E, A> {
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pub fn new(leaves: Vec<E>, leaf_height: usize, start_tx_seq: Option<u64>) -> Self {
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pub fn new(
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node_db: Arc<dyn NodeDatabase<E>>,
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leaves: Vec<E>,
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leaf_height: usize,
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start_tx_seq: Option<u64>,
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) -> Self {
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let mut merkle = Self {
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layers: vec![leaves],
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node_manager: NodeManager::new(node_db),
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delta_nodes_map: BTreeMap::new(),
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root_to_tx_seq_map: HashMap::new(),
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min_depth: None,
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@ -62,12 +72,14 @@ impl<E: HashElement, A: Algorithm<E>> AppendMerkleTree<E, A> {
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}
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pub fn new_with_subtrees(
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node_db: Arc<dyn NodeDatabase<E>>,
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initial_data: MerkleTreeInitialData<E>,
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leaf_height: usize,
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start_tx_seq: Option<u64>,
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) -> Result<Self> {
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let mut merkle = Self {
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layers: vec![vec![]],
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node_manager: NodeManager::new(node_db),
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delta_nodes_map: BTreeMap::new(),
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root_to_tx_seq_map: HashMap::new(),
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min_depth: None,
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@ -103,6 +115,8 @@ impl<E: HashElement, A: Algorithm<E>> AppendMerkleTree<E, A> {
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// Create an empty merkle tree with `depth`.
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let mut merkle = Self {
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layers: vec![vec![]; depth],
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// dummy node manager for the last chunk.
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node_manager: NodeManager::new(Arc::new(EmptyNodeDatabase {})),
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delta_nodes_map: BTreeMap::new(),
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root_to_tx_seq_map: HashMap::new(),
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min_depth: Some(depth),
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@ -123,6 +137,8 @@ impl<E: HashElement, A: Algorithm<E>> AppendMerkleTree<E, A> {
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layers[0] = leaves;
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let mut merkle = Self {
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layers,
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// dummy node manager for the last chunk.
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node_manager: NodeManager::new(Arc::new(EmptyNodeDatabase {})),
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delta_nodes_map: BTreeMap::new(),
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root_to_tx_seq_map: HashMap::new(),
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min_depth: Some(depth),
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@ -699,9 +715,11 @@ macro_rules! ensure_eq {
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#[cfg(test)]
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mod tests {
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use crate::merkle_tree::MerkleTreeRead;
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use crate::node_manager::EmptyNodeDatabase;
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use crate::sha3::Sha3Algorithm;
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use crate::AppendMerkleTree;
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use ethereum_types::H256;
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use std::sync::Arc;
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#[test]
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fn test_proof() {
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@ -711,8 +729,12 @@ mod tests {
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for _ in 0..entry_len {
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data.push(H256::random());
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}
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let mut merkle =
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AppendMerkleTree::<H256, Sha3Algorithm>::new(vec![H256::zero()], 0, None);
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let mut merkle = AppendMerkleTree::<H256, Sha3Algorithm>::new(
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Arc::new(EmptyNodeDatabase {}),
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vec![H256::zero()],
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0,
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None,
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);
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merkle.append_list(data.clone());
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merkle.commit(Some(0));
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verify(&data, &mut merkle);
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@ -739,8 +761,12 @@ mod tests {
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for _ in 0..entry_len {
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data.push(H256::random());
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}
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let mut merkle =
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AppendMerkleTree::<H256, Sha3Algorithm>::new(vec![H256::zero()], 0, None);
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let mut merkle = AppendMerkleTree::<H256, Sha3Algorithm>::new(
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Arc::new(EmptyNodeDatabase {}),
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vec![H256::zero()],
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0,
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None,
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);
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merkle.append_list(data.clone());
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merkle.commit(Some(0));
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@ -764,7 +790,12 @@ mod tests {
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#[test]
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fn test_proof_at_version() {
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let n = [2, 255, 256, 257];
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let mut merkle = AppendMerkleTree::<H256, Sha3Algorithm>::new(vec![H256::zero()], 0, None);
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let mut merkle = AppendMerkleTree::<H256, Sha3Algorithm>::new(
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Arc::new(EmptyNodeDatabase {}),
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vec![H256::zero()],
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0,
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None,
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);
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let mut start_pos = 0;
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for (tx_seq, &entry_len) in n.iter().enumerate() {
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53
common/append_merkle/src/node_manager.rs
Normal file
53
common/append_merkle/src/node_manager.rs
Normal file
@ -0,0 +1,53 @@
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use crate::HashElement;
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use anyhow::Result;
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use std::collections::HashMap;
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use std::sync::Arc;
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use tracing::error;
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pub struct NodeManager<E: HashElement> {
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cache: HashMap<(usize, usize), E>,
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db: Arc<dyn NodeDatabase<E>>,
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}
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impl<E: HashElement> NodeManager<E> {
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pub fn new(db: Arc<dyn NodeDatabase<E>>) -> Self {
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Self {
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cache: HashMap::new(),
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db,
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}
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}
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pub fn get_node(&self, layer: usize, pos: usize) -> Option<E> {
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match self.cache.get(&(layer, pos)) {
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Some(node) => Some(node.clone()),
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None => self.db.get_node(layer, pos).unwrap_or_else(|e| {
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error!("Failed to get node: {}", e);
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None
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}),
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}
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}
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pub fn add_node(&mut self, layer: usize, pos: usize, node: E) {
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if let Err(e) = self.db.save_node(layer, pos, &node) {
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error!("Failed to save node: {}", e);
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}
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self.cache.insert((layer, pos), node);
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}
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}
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pub trait NodeDatabase<E: HashElement>: Send + Sync {
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fn get_node(&self, layer: usize, pos: usize) -> Result<Option<E>>;
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fn save_node(&self, layer: usize, pos: usize, node: &E) -> Result<()>;
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}
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/// A dummy database structure for in-memory merkle tree that will not read/write db.
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pub struct EmptyNodeDatabase {}
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impl<E: HashElement> NodeDatabase<E> for EmptyNodeDatabase {
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fn get_node(&self, _layer: usize, _pos: usize) -> Result<Option<E>> {
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Ok(None)
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}
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fn save_node(&self, _layer: usize, _pos: usize, _node: &E) -> Result<()> {
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Ok(())
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}
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}
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@ -10,7 +10,7 @@ use crate::log_store::log_manager::{
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use crate::log_store::{FlowRead, FlowSeal, FlowWrite};
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use crate::{try_option, ZgsKeyValueDB};
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use anyhow::{anyhow, bail, Result};
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use append_merkle::{MerkleTreeInitialData, MerkleTreeRead};
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use append_merkle::{EmptyNodeDatabase, MerkleTreeInitialData, MerkleTreeRead, NodeDatabase};
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use itertools::Itertools;
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use parking_lot::RwLock;
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use shared_types::{ChunkArray, DataRoot, FlowProof, Merkle};
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@ -25,15 +25,15 @@ use tracing::{debug, error, trace};
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use zgs_spec::{BYTES_PER_SECTOR, SEALS_PER_LOAD, SECTORS_PER_LOAD, SECTORS_PER_SEAL};
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pub struct FlowStore {
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db: FlowDBStore,
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db: Arc<FlowDBStore>,
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seal_manager: SealTaskManager,
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config: FlowConfig,
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}
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impl FlowStore {
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pub fn new(db: Arc<dyn ZgsKeyValueDB>, config: FlowConfig) -> Self {
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pub fn new(db: Arc<FlowDBStore>, config: FlowConfig) -> Self {
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Self {
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db: FlowDBStore::new(db),
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db,
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seal_manager: Default::default(),
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config,
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}
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@ -436,7 +436,13 @@ impl FlowDBStore {
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let mut expected_index = 0;
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let empty_data = vec![0; PORA_CHUNK_SIZE * ENTRY_SIZE];
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let empty_root = *Merkle::new(data_to_merkle_leaves(&empty_data)?, 0, None).root();
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let empty_root = *Merkle::new(
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Arc::new(EmptyNodeDatabase {}),
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data_to_merkle_leaves(&empty_data)?,
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0,
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None,
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)
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.root();
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for r in self.kvdb.iter(COL_ENTRY_BATCH_ROOT) {
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let (index_bytes, root_bytes) = r?;
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@ -666,3 +672,22 @@ fn decode_mpt_node_key(data: &[u8]) -> Result<(usize, usize)> {
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let position = try_decode_usize(&data[mem::size_of::<u64>()..])?;
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Ok((layer_index, position))
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}
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impl NodeDatabase<DataRoot> for FlowDBStore {
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fn get_node(&self, layer: usize, pos: usize) -> Result<Option<DataRoot>> {
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Ok(self
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.kvdb
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.get(COL_FLOW_MPT_NODES, &encode_mpt_node_key(layer, pos))?
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.map(|v| DataRoot::from_slice(&v)))
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}
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fn save_node(&self, layer: usize, pos: usize, node: &DataRoot) -> Result<()> {
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let mut tx = self.kvdb.transaction();
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tx.put(
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COL_FLOW_MPT_NODES,
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&encode_mpt_node_key(layer, pos),
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node.as_bytes(),
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);
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Ok(self.kvdb.write(tx)?)
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}
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}
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@ -4,15 +4,15 @@ mod seal;
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mod serde;
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use ::serde::{Deserialize, Serialize};
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use std::cmp::min;
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use anyhow::Result;
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use ethereum_types::H256;
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use ssz_derive::{Decode, Encode};
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use std::cmp::min;
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use std::sync::Arc;
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use crate::log_store::log_manager::data_to_merkle_leaves;
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use crate::try_option;
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use append_merkle::{Algorithm, MerkleTreeRead, Sha3Algorithm};
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use append_merkle::{Algorithm, EmptyNodeDatabase, MerkleTreeRead, Sha3Algorithm};
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use shared_types::{ChunkArray, DataRoot, Merkle};
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use tracing::trace;
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use zgs_spec::{
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@ -248,7 +248,7 @@ impl EntryBatch {
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} else {
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vec![]
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};
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let mut merkle = Merkle::new(initial_leaves, 0, None);
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let mut merkle = Merkle::new(Arc::new(EmptyNodeDatabase {}), initial_leaves, 0, None);
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for subtree in self.data.get_subtree_list() {
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trace!(?subtree, "get subtree, leaves={}", merkle.leaves());
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if subtree.start_sector != merkle.leaves() {
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@ -1,12 +1,12 @@
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use crate::config::ShardConfig;
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use crate::log_store::flow_store::{batch_iter_sharded, FlowConfig, FlowStore};
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use crate::log_store::flow_store::{batch_iter_sharded, FlowConfig, FlowDBStore, FlowStore};
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use crate::log_store::tx_store::TransactionStore;
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use crate::log_store::{
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FlowRead, FlowWrite, LogStoreChunkRead, LogStoreChunkWrite, LogStoreRead, LogStoreWrite,
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};
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use crate::{try_option, ZgsKeyValueDB};
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use anyhow::{anyhow, bail, Result};
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use append_merkle::{Algorithm, MerkleTreeRead, Sha3Algorithm};
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use append_merkle::{Algorithm, EmptyNodeDatabase, MerkleTreeRead, Sha3Algorithm};
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use ethereum_types::H256;
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use kvdb_rocksdb::{Database, DatabaseConfig};
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use merkle_light::merkle::{log2_pow2, MerkleTree};
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@ -626,7 +626,8 @@ impl LogManager {
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executor: task_executor::TaskExecutor,
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) -> Result<Self> {
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let tx_store = TransactionStore::new(db.clone())?;
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let flow_store = Arc::new(FlowStore::new(db.clone(), config.flow));
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let flow_db = Arc::new(FlowDBStore::new(db.clone()));
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let flow_store = Arc::new(FlowStore::new(flow_db.clone(), config.flow));
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let mut initial_data = flow_store.get_chunk_root_list()?;
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// If the last tx `put_tx` does not complete, we will revert it in `initial_data.subtree_list`
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// first and call `put_tx` later. The known leaves in its data will be saved in `extra_leaves`
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@ -705,8 +706,12 @@ impl LogManager {
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}
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}
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let mut pora_chunks_merkle =
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Merkle::new_with_subtrees(initial_data, log2_pow2(PORA_CHUNK_SIZE), start_tx_seq)?;
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let mut pora_chunks_merkle = Merkle::new_with_subtrees(
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flow_db,
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initial_data,
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log2_pow2(PORA_CHUNK_SIZE),
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start_tx_seq,
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)?;
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let last_chunk_merkle = match start_tx_seq {
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Some(tx_seq) => {
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tx_store.rebuild_last_chunk_merkle(pora_chunks_merkle.leaves(), tx_seq)?
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@ -977,7 +982,13 @@ impl LogManager {
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let data = pad_data[start_index * ENTRY_SIZE
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..(start_index + PORA_CHUNK_SIZE) * ENTRY_SIZE]
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.to_vec();
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let root = *Merkle::new(data_to_merkle_leaves(&data)?, 0, None).root();
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let root = *Merkle::new(
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Arc::new(EmptyNodeDatabase {}),
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data_to_merkle_leaves(&data)?,
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0,
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None,
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)
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.root();
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merkle.pora_chunks_merkle.append(root);
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root_map.insert(merkle.pora_chunks_merkle.leaves() - 1, (root, 1));
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start_index += PORA_CHUNK_SIZE;
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@ -3,11 +3,14 @@ use crate::log_store::log_manager::{
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PORA_CHUNK_SIZE,
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};
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use crate::log_store::{LogStoreChunkRead, LogStoreChunkWrite, LogStoreRead, LogStoreWrite};
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use append_merkle::{Algorithm, AppendMerkleTree, MerkleTreeRead, Sha3Algorithm};
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use append_merkle::{
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Algorithm, AppendMerkleTree, EmptyNodeDatabase, MerkleTreeRead, Sha3Algorithm,
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};
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use ethereum_types::H256;
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use rand::random;
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use shared_types::{compute_padded_chunk_size, ChunkArray, Transaction, CHUNK_SIZE};
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use std::cmp;
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use std::sync::Arc;
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use task_executor::test_utils::TestRuntime;
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#[test]
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@ -26,7 +29,12 @@ fn test_put_get() {
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data[i * CHUNK_SIZE] = random();
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}
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let (padded_chunks, _) = compute_padded_chunk_size(data_size);
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let mut merkle = AppendMerkleTree::<H256, Sha3Algorithm>::new(vec![H256::zero()], 0, None);
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let mut merkle = AppendMerkleTree::<H256, Sha3Algorithm>::new(
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Arc::new(EmptyNodeDatabase {}),
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vec![H256::zero()],
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0,
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None,
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);
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merkle.append_list(data_to_merkle_leaves(&LogManager::padding_raw(start_offset - 1)).unwrap());
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let mut data_padded = data.clone();
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data_padded.append(&mut vec![0u8; CHUNK_SIZE]);
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@ -124,6 +132,7 @@ fn test_root() {
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let mt = sub_merkle_tree(&data).unwrap();
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println!("{:?} {}", mt.root(), hex::encode(mt.root()));
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let append_mt = AppendMerkleTree::<H256, Sha3Algorithm>::new(
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Arc::new(EmptyNodeDatabase {}),
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data_to_merkle_leaves(&data).unwrap(),
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0,
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None,
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