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Combine two functions in to compute_deltas

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This commit is contained in:
Paul Hauner
2020-01-13 12:50:27 +11:00
parent d7761ec7b7
commit 120bcfa46b
1 changed files with 60 additions and 55 deletions
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115
eth2/lmd_ghost/src/proto_array.rs
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@@ -22,8 +22,8 @@ pub enum Error {
InvalidNodeDelta(usize), InvalidNodeDelta(usize),
DeltaOverflow(usize), DeltaOverflow(usize),
IndexOverflow(&'static str), IndexOverflow(&'static str),
InvalidDeltaLen { deltas: usize, indices: usize },
RevertedFinalizedEpoch, RevertedFinalizedEpoch,
IndexOutOfBounds,
} }
#[derive(Default, PartialEq, Clone)] #[derive(Default, PartialEq, Clone)]
@@ -102,20 +102,19 @@ impl<S: Store<E>, E: EthSpec> LmdGhost<S, E> for ProtoArrayForkChoice {
let new_balances = justified_state_balances; let new_balances = justified_state_balances;
let score_changes = balance_change_deltas(&mut votes, &old_balances, &new_balances) let deltas = compute_deltas(
.map_err(|e| format!("find_head balance_change_deltas failed: {:?}", e))? &proto_array.indices,
.into_iter() &mut votes,
.map(|(target, score_delta)| ScoreChange { &old_balances,
target, &new_balances,
score_delta, )
}) .map_err(|e| format!("find_head compute_deltas failed: {:?}", e))?;
.collect::<Vec<_>>();
proto_array proto_array
.maybe_prune(finalized_epoch, finalized_root) .maybe_prune(finalized_epoch, finalized_root)
.map_err(|e| format!("find_head maybe_prune failed: {:?}", e))?; .map_err(|e| format!("find_head maybe_prune failed: {:?}", e))?;
proto_array proto_array
.apply_score_changes(&score_changes, justified_epoch) .apply_score_changes(deltas, justified_epoch)
.map_err(|e| format!("find_head apply_score_changes failed: {:?}", e))?; .map_err(|e| format!("find_head apply_score_changes failed: {:?}", e))?;
*self.balances.write() = new_balances.to_vec(); *self.balances.write() = new_balances.to_vec();
@@ -153,12 +152,23 @@ impl<S: Store<E>, E: EthSpec> LmdGhost<S, E> for ProtoArrayForkChoice {
} }
} }
fn balance_change_deltas( /// Returns a list of `deltas`, where there is one delta for each of the indices in
/// `0..indices.len()`.
///
/// The deltas are formed by a change between `old_balances` and `new_balances`, and/or a change of vote in `votes`.
///
/// ## Errors
///
/// - If a value in `indices` is greater to or equal to `indices.len()`.
/// - If some `Hash256` in `votes` is not a key in `indices` (except for `Hash256::zero()`, this is
/// always valid).
fn compute_deltas(
indices: &HashMap<Hash256, usize>,
votes: &mut ElasticList<VoteTracker>, votes: &mut ElasticList<VoteTracker>,
old_balances: &[u64], old_balances: &[u64],
new_balances: &[u64], new_balances: &[u64],
) -> Result<HashMap<Hash256, i64>, Error> { ) -> Result<Vec<i64>, Error> {
let mut score_changes = HashMap::new(); let mut deltas = vec![0_i64; indices.len()];
for (val_index, vote) in votes.iter_mut().enumerate() { for (val_index, vote) in votes.iter_mut().enumerate() {
// There is no need to create a score change if the validator has never voted or both their // There is no need to create a score change if the validator has never voted or both their
@@ -174,23 +184,43 @@ fn balance_change_deltas(
// If the validators vote is not known in the _new_ balances, then use a balance of zero. // If the validators vote is not known in the _new_ balances, then use a balance of zero.
// //
// It is possible that there is a vote for an unknown validator if we change our justified // It is possible that there is a vote for an unknown validator if we change our justified
// state to a new state with a higher epoch that is on a different fork (that fork may have // state to a new state with a higher epoch that is on a different fork because that fork may have
// on-boarded less validators than the prior fork). // on-boarded less validators than the prior fork.
let new_balance = new_balances.get(val_index).copied().unwrap_or_else(|| 0); let new_balance = new_balances.get(val_index).copied().unwrap_or_else(|| 0);
if vote.current_root != vote.next_root || old_balance != new_balance { if vote.current_root != vote.next_root || old_balance != new_balance {
*score_changes.entry(vote.current_root).or_insert(0) -= old_balance as i64; // If the current vote is for the zero-hash there's no need to subtract the balance
*score_changes.entry(vote.next_root).or_insert(0) += new_balance as i64; // from it. Additionally, the zero-hash will most likley not exist in `indices`.
if vote.current_root != Hash256::zero() {
let current_delta_index = *indices
.get(&vote.current_root)
.ok_or_else(|| Error::NodeUnknown(vote.current_root))?;
deltas
.get_mut(current_delta_index)
.ok_or_else(|| Error::InvalidNodeDelta(current_delta_index))?
.checked_sub(old_balance as i64)
.ok_or_else(|| Error::DeltaOverflow(current_delta_index))?;
}
// If the next vote is for the zero-hash there's no need to add the balance
// to it. Additionally, the zero-hash will most likley not exist in `indices`.
if vote.next_root != Hash256::zero() {
let next_delta_index = *indices
.get(&vote.next_root)
.ok_or_else(|| Error::NodeUnknown(vote.next_root))?;
deltas
.get_mut(next_delta_index)
.ok_or_else(|| Error::InvalidNodeDelta(next_delta_index))?
.checked_add(new_balance as i64)
.ok_or_else(|| Error::DeltaOverflow(next_delta_index))?;
}
vote.current_root = vote.next_root; vote.current_root = vote.next_root;
} }
} }
Ok(score_changes) Ok(deltas)
}
pub struct ScoreChange {
target: Hash256,
score_delta: i64,
} }
#[derive(PartialEq)] #[derive(PartialEq)]
@@ -227,10 +257,15 @@ pub struct ProtoArray {
impl ProtoArray { impl ProtoArray {
pub fn apply_score_changes( pub fn apply_score_changes(
&mut self, &mut self,
changes: &[ScoreChange], mut deltas: Vec<i64>,
justified_epoch: Epoch, justified_epoch: Epoch,
) -> Result<(), Error> { ) -> Result<(), Error> {
let mut deltas = produce_deltas(&self.indices, changes, self.nodes.len())?; if deltas.len() != self.indices.len() {
return Err(Error::InvalidDeltaLen {
deltas: deltas.len(),
indices: self.indices.len(),
});
}
self.ffg_update_required = justified_epoch != self.justified_epoch; self.ffg_update_required = justified_epoch != self.justified_epoch;
if self.ffg_update_required { if self.ffg_update_required {
@@ -486,36 +521,6 @@ impl ProtoArray {
} }
} }
/// Takes a list of `ScoreChange`, returning a list of deltas.
///
/// The returned list has the length of `num_nodes`. Each `ScoreChanged` is mapped to a position in
/// the returned list according to a lookup in `indices`.
///
/// ## Errors
///
/// It is an error to have a value in `indices` that is greater than or equal to `num_nodes`.
fn produce_deltas(
indices: &HashMap<Hash256, usize>,
changes: &[ScoreChange],
num_nodes: usize,
) -> Result<Vec<i64>, Error> {
let mut deltas: Vec<i64> = vec![0; num_nodes];
// Update `deltas` with the value of each `ScoreChange`.
changes.iter().try_for_each(|c| {
let i = indices
.get(&c.target)
.ok_or_else(|| Error::NodeUnknown(c.target))?;
let v = deltas.get_mut(*i).ok_or_else(|| Error::IndexOutOfBounds)?;
*v = v.saturating_add(c.score_delta);
Ok(())
})?;
Ok(deltas)
}
/// A Vec-wrapper which will grow to match any request. /// A Vec-wrapper which will grow to match any request.
/// ///
/// E.g., a `get` or `insert` to an out-of-bounds element will cause the Vec to grow (using /// E.g., a `get` or `insert` to an out-of-bounds element will cause the Vec to grow (using