lighthouse/beacon_node/store/src/iter.rs

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use crate::Store;
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use std::borrow::Cow;
use std::sync::Arc;
use types::{BeaconBlock, BeaconState, BeaconStateError, EthSpec, Hash256, Slot};
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#[derive(Clone)]
pub struct StateRootsIterator<'a, T: EthSpec, U> {
store: Arc<U>,
beacon_state: Cow<'a, BeaconState<T>>,
slot: Slot,
}
impl<'a, T: EthSpec, U: Store> StateRootsIterator<'a, T, U> {
pub fn new(store: Arc<U>, beacon_state: &'a BeaconState<T>, start_slot: Slot) -> Self {
Self {
store,
beacon_state: Cow::Borrowed(beacon_state),
slot: start_slot,
}
}
pub fn owned(store: Arc<U>, beacon_state: BeaconState<T>, start_slot: Slot) -> Self {
Self {
slot: start_slot,
beacon_state: Cow::Owned(beacon_state),
store,
}
}
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}
impl<'a, T: EthSpec, U: Store> Iterator for StateRootsIterator<'a, T, U> {
type Item = (Hash256, Slot);
fn next(&mut self) -> Option<Self::Item> {
if (self.slot == 0) || (self.slot > self.beacon_state.slot) {
return None;
}
self.slot -= 1;
match self.beacon_state.get_state_root(self.slot) {
Ok(root) => Some((*root, self.slot)),
Err(BeaconStateError::SlotOutOfBounds) => {
// Read a `BeaconState` from the store that has access to prior historical root.
let beacon_state: BeaconState<T> = {
let new_state_root = self.beacon_state.get_oldest_state_root().ok()?;
self.store.get(&new_state_root).ok()?
}?;
self.beacon_state = Cow::Owned(beacon_state);
let root = self.beacon_state.get_state_root(self.slot).ok()?;
Some((*root, self.slot))
}
_ => None,
}
}
}
#[derive(Clone)]
/// Extends `BlockRootsIterator`, returning `BeaconBlock` instances, instead of their roots.
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pub struct BlockIterator<'a, T: EthSpec, U> {
roots: BlockRootsIterator<'a, T, U>,
}
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impl<'a, T: EthSpec, U: Store> BlockIterator<'a, T, U> {
/// Create a new iterator over all blocks in the given `beacon_state` and prior states.
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pub fn new(store: Arc<U>, beacon_state: &'a BeaconState<T>, start_slot: Slot) -> Self {
Self {
roots: BlockRootsIterator::new(store, beacon_state, start_slot),
}
}
/// Create a new iterator over all blocks in the given `beacon_state` and prior states.
pub fn owned(store: Arc<U>, beacon_state: BeaconState<T>, start_slot: Slot) -> Self {
Self {
roots: BlockRootsIterator::owned(store, beacon_state, start_slot),
}
}
}
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impl<'a, T: EthSpec, U: Store> Iterator for BlockIterator<'a, T, U> {
type Item = BeaconBlock;
fn next(&mut self) -> Option<Self::Item> {
let (root, _slot) = self.roots.next()?;
self.roots.store.get(&root).ok()?
}
}
/// Iterates backwards through block roots.
///
/// Uses the `latest_block_roots` field of `BeaconState` to as the source of block roots and will
/// perform a lookup on the `Store` for a prior `BeaconState` if `latest_block_roots` has been
/// exhausted.
///
/// Returns `None` for roots prior to genesis or when there is an error reading from `Store`.
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#[derive(Clone)]
pub struct BlockRootsIterator<'a, T: EthSpec, U> {
store: Arc<U>,
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beacon_state: Cow<'a, BeaconState<T>>,
slot: Slot,
}
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impl<'a, T: EthSpec, U: Store> BlockRootsIterator<'a, T, U> {
/// Create a new iterator over all block roots in the given `beacon_state` and prior states.
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pub fn new(store: Arc<U>, beacon_state: &'a BeaconState<T>, start_slot: Slot) -> Self {
Self {
slot: start_slot,
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beacon_state: Cow::Borrowed(beacon_state),
store,
}
}
/// Create a new iterator over all block roots in the given `beacon_state` and prior states.
pub fn owned(store: Arc<U>, beacon_state: BeaconState<T>, start_slot: Slot) -> Self {
Self {
slot: start_slot,
beacon_state: Cow::Owned(beacon_state),
store,
}
}
}
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impl<'a, T: EthSpec, U: Store> Iterator for BlockRootsIterator<'a, T, U> {
type Item = (Hash256, Slot);
fn next(&mut self) -> Option<Self::Item> {
if (self.slot == 0) || (self.slot > self.beacon_state.slot) {
return None;
}
self.slot -= 1;
match self.beacon_state.get_block_root(self.slot) {
Ok(root) => Some((*root, self.slot)),
Err(BeaconStateError::SlotOutOfBounds) => {
// Read a `BeaconState` from the store that has access to prior historical root.
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let beacon_state: BeaconState<T> = {
// Load the earliest state from disk.
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let new_state_root = self.beacon_state.get_oldest_state_root().ok()?;
self.store.get(&new_state_root).ok()?
}?;
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self.beacon_state = Cow::Owned(beacon_state);
let root = self.beacon_state.get_block_root(self.slot).ok()?;
Some((*root, self.slot))
}
_ => None,
}
}
}
#[cfg(test)]
mod test {
use super::*;
use crate::MemoryStore;
use types::{test_utils::TestingBeaconStateBuilder, Keypair, MainnetEthSpec};
fn get_state<T: EthSpec>() -> BeaconState<T> {
let builder = TestingBeaconStateBuilder::from_single_keypair(
0,
&Keypair::random(),
&T::default_spec(),
);
let (state, _keypairs) = builder.build();
state
}
#[test]
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fn block_root_iter() {
let store = Arc::new(MemoryStore::open());
let slots_per_historical_root = MainnetEthSpec::slots_per_historical_root();
let mut state_a: BeaconState<MainnetEthSpec> = get_state();
let mut state_b: BeaconState<MainnetEthSpec> = get_state();
state_a.slot = Slot::from(slots_per_historical_root);
state_b.slot = Slot::from(slots_per_historical_root * 2);
let mut hashes = (0..).into_iter().map(|i| Hash256::from(i));
for root in &mut state_a.latest_block_roots[..] {
*root = hashes.next().unwrap()
}
for root in &mut state_b.latest_block_roots[..] {
*root = hashes.next().unwrap()
}
let state_a_root = hashes.next().unwrap();
state_b.latest_state_roots[0] = state_a_root;
store.put(&state_a_root, &state_a).unwrap();
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let iter = BlockRootsIterator::new(store.clone(), &state_b, state_b.slot - 1);
assert!(
iter.clone().find(|(_root, slot)| *slot == 0).is_some(),
"iter should contain zero slot"
);
let mut collected: Vec<(Hash256, Slot)> = iter.collect();
collected.reverse();
let expected_len = 2 * MainnetEthSpec::slots_per_historical_root() - 1;
assert_eq!(collected.len(), expected_len);
for i in 0..expected_len {
assert_eq!(collected[i].0, Hash256::from(i as u64));
}
}
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#[test]
fn state_root_iter() {
let store = Arc::new(MemoryStore::open());
let slots_per_historical_root = MainnetEthSpec::slots_per_historical_root();
let mut state_a: BeaconState<MainnetEthSpec> = get_state();
let mut state_b: BeaconState<MainnetEthSpec> = get_state();
state_a.slot = Slot::from(slots_per_historical_root);
state_b.slot = Slot::from(slots_per_historical_root * 2);
let mut hashes = (0..).into_iter().map(|i| Hash256::from(i));
for slot in 0..slots_per_historical_root {
state_a
.set_state_root(Slot::from(slot), hashes.next().unwrap())
.expect(&format!("should set state_a slot {}", slot));
}
for slot in slots_per_historical_root..slots_per_historical_root * 2 {
state_b
.set_state_root(Slot::from(slot), hashes.next().unwrap())
.expect(&format!("should set state_b slot {}", slot));
}
let state_a_root = Hash256::from(slots_per_historical_root as u64);
let state_b_root = Hash256::from(slots_per_historical_root as u64 * 2);
store.put(&state_a_root, &state_a).unwrap();
store.put(&state_b_root, &state_b).unwrap();
let iter = StateRootsIterator::new(store.clone(), &state_b, state_b.slot - 1);
assert!(
iter.clone().find(|(_root, slot)| *slot == 0).is_some(),
"iter should contain zero slot"
);
let mut collected: Vec<(Hash256, Slot)> = iter.collect();
collected.reverse();
let expected_len = MainnetEthSpec::slots_per_historical_root() * 2 - 1;
assert_eq!(collected.len(), expected_len, "collection length incorrect");
for i in 0..expected_len {
let (hash, slot) = collected[i];
assert_eq!(slot, i as u64, "slot mismatch at {}: {} vs {}", i, slot, i);
assert_eq!(hash, Hash256::from(i as u64), "hash mismatch at {}", i);
}
}
}