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This commit is contained in:
Paul Hauner
2020-05-18 21:24:23 +10:00
committed by GitHub
parent c571afb8d8
commit 4331834003
358 changed files with 217 additions and 229 deletions
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933
beacon_node/operation_pool/src/lib.rs Normal file
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mod attestation;
mod attestation_id;
mod max_cover;
mod persistence;
pub use persistence::PersistedOperationPool;
use attestation::AttMaxCover;
use attestation_id::AttestationId;
use max_cover::maximum_cover;
use parking_lot::RwLock;
use state_processing::per_block_processing::errors::{
AttestationValidationError, AttesterSlashingValidationError, ExitValidationError,
ProposerSlashingValidationError,
};
use state_processing::per_block_processing::{
get_slashable_indices_modular, verify_attestation_for_block_inclusion,
verify_attester_slashing, verify_exit, verify_exit_time_independent_only,
verify_proposer_slashing, VerifySignatures,
};
use std::collections::{hash_map, HashMap, HashSet};
use std::marker::PhantomData;
use types::{
typenum::Unsigned, Attestation, AttesterSlashing, BeaconState, BeaconStateError, ChainSpec,
EthSpec, Fork, Hash256, ProposerSlashing, RelativeEpoch, SignedVoluntaryExit, Validator,
};
#[derive(Default, Debug)]
pub struct OperationPool<T: EthSpec + Default> {
/// Map from attestation ID (see below) to vectors of attestations.
attestations: RwLock<HashMap<AttestationId, Vec<Attestation<T>>>>,
/// Map from two attestation IDs to a slashing for those IDs.
attester_slashings: RwLock<HashMap<(AttestationId, AttestationId), AttesterSlashing<T>>>,
/// Map from proposer index to slashing.
proposer_slashings: RwLock<HashMap<u64, ProposerSlashing>>,
/// Map from exiting validator to their exit data.
voluntary_exits: RwLock<HashMap<u64, SignedVoluntaryExit>>,
_phantom: PhantomData<T>,
}
#[derive(Debug, PartialEq)]
pub enum OpPoolError {
GetAttestationsTotalBalanceError(BeaconStateError),
}
impl<T: EthSpec> OperationPool<T> {
/// Create a new operation pool.
pub fn new() -> Self {
Self::default()
}
/// Insert an attestation into the pool, aggregating it with existing attestations if possible.
///
/// ## Note
///
/// This function assumes the given `attestation` is valid.
pub fn insert_attestation(
&self,
attestation: Attestation<T>,
fork: &Fork,
genesis_validators_root: Hash256,
spec: &ChainSpec,
) -> Result<(), AttestationValidationError> {
let id = AttestationId::from_data(&attestation.data, fork, genesis_validators_root, spec);
// Take a write lock on the attestations map.
let mut attestations = self.attestations.write();
let existing_attestations = match attestations.entry(id) {
hash_map::Entry::Vacant(entry) => {
entry.insert(vec![attestation]);
return Ok(());
}
hash_map::Entry::Occupied(entry) => entry.into_mut(),
};
let mut aggregated = false;
for existing_attestation in existing_attestations.iter_mut() {
if existing_attestation.signers_disjoint_from(&attestation) {
existing_attestation.aggregate(&attestation);
aggregated = true;
} else if *existing_attestation == attestation {
aggregated = true;
}
}
if !aggregated {
existing_attestations.push(attestation);
}
Ok(())
}
/// Total number of attestations in the pool, including attestations for the same data.
pub fn num_attestations(&self) -> usize {
self.attestations.read().values().map(Vec::len).sum()
}
/// Get a list of attestations for inclusion in a block.
///
/// The `validity_filter` is a closure that provides extra filtering of the attestations
/// before an approximately optimal bundle is constructed. We use it to provide access
/// to the fork choice data from the `BeaconChain` struct that doesn't logically belong
/// in the operation pool.
pub fn get_attestations(
&self,
state: &BeaconState<T>,
validity_filter: impl FnMut(&&Attestation<T>) -> bool,
spec: &ChainSpec,
) -> Result<Vec<Attestation<T>>, OpPoolError> {
// Attestations for the current fork, which may be from the current or previous epoch.
let prev_epoch = state.previous_epoch();
let current_epoch = state.current_epoch();
let prev_domain_bytes = AttestationId::compute_domain_bytes(
prev_epoch,
&state.fork,
state.genesis_validators_root,
spec,
);
let curr_domain_bytes = AttestationId::compute_domain_bytes(
current_epoch,
&state.fork,
state.genesis_validators_root,
spec,
);
let reader = self.attestations.read();
let active_indices = state
.get_cached_active_validator_indices(RelativeEpoch::Current)
.map_err(OpPoolError::GetAttestationsTotalBalanceError)?;
let total_active_balance = state
.get_total_balance(&active_indices, spec)
.map_err(OpPoolError::GetAttestationsTotalBalanceError)?;
let valid_attestations = reader
.iter()
.filter(|(key, _)| {
key.domain_bytes_match(&prev_domain_bytes)
|| key.domain_bytes_match(&curr_domain_bytes)
})
.flat_map(|(_, attestations)| attestations)
// That are valid...
.filter(|attestation| {
verify_attestation_for_block_inclusion(
state,
attestation,
VerifySignatures::False,
spec,
)
.is_ok()
})
.filter(validity_filter)
.flat_map(|att| AttMaxCover::new(att, state, total_active_balance, spec));
Ok(maximum_cover(
valid_attestations,
T::MaxAttestations::to_usize(),
))
}
/// Remove attestations which are too old to be included in a block.
pub fn prune_attestations(&self, finalized_state: &BeaconState<T>) {
// We know we can include an attestation if:
// state.slot <= attestation_slot + SLOTS_PER_EPOCH
// We approximate this check using the attestation's epoch, to avoid computing
// the slot or relying on the committee cache of the finalized state.
self.attestations.write().retain(|_, attestations| {
// All the attestations in this bucket have the same data, so we only need to
// check the first one.
attestations.first().map_or(false, |att| {
finalized_state.current_epoch() <= att.data.target.epoch + 1
})
});
}
/// Insert a proposer slashing into the pool.
pub fn insert_proposer_slashing(
&self,
slashing: ProposerSlashing,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), ProposerSlashingValidationError> {
// TODO: should maybe insert anyway if the proposer is unknown in the validator index,
// because they could *become* known later
verify_proposer_slashing(&slashing, state, VerifySignatures::True, spec)?;
self.proposer_slashings
.write()
.insert(slashing.signed_header_1.message.proposer_index, slashing);
Ok(())
}
/// Compute the tuple ID that is used to identify an attester slashing.
///
/// Depends on the fork field of the state, but not on the state's epoch.
fn attester_slashing_id(
slashing: &AttesterSlashing<T>,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> (AttestationId, AttestationId) {
(
AttestationId::from_data(
&slashing.attestation_1.data,
&state.fork,
state.genesis_validators_root,
spec,
),
AttestationId::from_data(
&slashing.attestation_2.data,
&state.fork,
state.genesis_validators_root,
spec,
),
)
}
/// Insert an attester slashing into the pool.
pub fn insert_attester_slashing(
&self,
slashing: AttesterSlashing<T>,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), AttesterSlashingValidationError> {
verify_attester_slashing(state, &slashing, VerifySignatures::True, spec)?;
let id = Self::attester_slashing_id(&slashing, state, spec);
self.attester_slashings.write().insert(id, slashing);
Ok(())
}
/// Get proposer and attester slashings for inclusion in a block.
///
/// This function computes both types of slashings together, because
/// attester slashings may be invalidated by proposer slashings included
/// earlier in the block.
pub fn get_slashings(
&self,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> (Vec<ProposerSlashing>, Vec<AttesterSlashing<T>>) {
let proposer_slashings = filter_limit_operations(
self.proposer_slashings.read().values(),
|slashing| {
state
.validators
.get(slashing.signed_header_1.message.proposer_index as usize)
.map_or(false, |validator| !validator.slashed)
},
T::MaxProposerSlashings::to_usize(),
);
// Set of validators to be slashed, so we don't attempt to construct invalid attester
// slashings.
let mut to_be_slashed = proposer_slashings
.iter()
.map(|s| s.signed_header_1.message.proposer_index)
.collect::<HashSet<_>>();
let epoch = state.current_epoch();
let attester_slashings = self
.attester_slashings
.read()
.iter()
.filter(|(id, slashing)| {
// Check the fork.
Self::attester_slashing_id(slashing, state, spec) == **id
})
.filter(|(_, slashing)| {
// Take all slashings that will slash 1 or more validators.
let slashed_validators =
get_slashable_indices_modular(state, slashing, |index, validator| {
validator.is_slashable_at(epoch) && !to_be_slashed.contains(&index)
});
// Extend the `to_be_slashed` set so subsequent iterations don't try to include
// useless slashings.
if let Ok(validators) = slashed_validators {
to_be_slashed.extend(validators);
true
} else {
false
}
})
.take(T::MaxAttesterSlashings::to_usize())
.map(|(_, slashing)| slashing.clone())
.collect();
(proposer_slashings, attester_slashings)
}
/// Prune proposer slashings for all slashed or withdrawn validators.
pub fn prune_proposer_slashings(&self, finalized_state: &BeaconState<T>) {
prune_validator_hash_map(
&mut self.proposer_slashings.write(),
|validator| {
validator.slashed || validator.is_withdrawable_at(finalized_state.current_epoch())
},
finalized_state,
);
}
/// Prune attester slashings for all slashed or withdrawn validators, or attestations on another
/// fork.
pub fn prune_attester_slashings(&self, finalized_state: &BeaconState<T>, spec: &ChainSpec) {
self.attester_slashings.write().retain(|id, slashing| {
let fork_ok = &Self::attester_slashing_id(slashing, finalized_state, spec) == id;
let curr_epoch = finalized_state.current_epoch();
let slashing_ok =
get_slashable_indices_modular(finalized_state, slashing, |_, validator| {
validator.slashed || validator.is_withdrawable_at(curr_epoch)
})
.is_ok();
fork_ok && slashing_ok
});
}
/// Total number of attester slashings in the pool.
pub fn num_attester_slashings(&self) -> usize {
self.attester_slashings.read().len()
}
/// Total number of proposer slashings in the pool.
pub fn num_proposer_slashings(&self) -> usize {
self.proposer_slashings.read().len()
}
/// Insert a voluntary exit, validating it almost-entirely (future exits are permitted).
pub fn insert_voluntary_exit(
&self,
exit: SignedVoluntaryExit,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Result<(), ExitValidationError> {
verify_exit_time_independent_only(state, &exit, VerifySignatures::True, spec)?;
self.voluntary_exits
.write()
.insert(exit.message.validator_index, exit);
Ok(())
}
/// Get a list of voluntary exits for inclusion in a block.
pub fn get_voluntary_exits(
&self,
state: &BeaconState<T>,
spec: &ChainSpec,
) -> Vec<SignedVoluntaryExit> {
filter_limit_operations(
self.voluntary_exits.read().values(),
|exit| verify_exit(state, exit, VerifySignatures::False, spec).is_ok(),
T::MaxVoluntaryExits::to_usize(),
)
}
/// Prune if validator has already exited at the last finalized state.
pub fn prune_voluntary_exits(&self, finalized_state: &BeaconState<T>) {
prune_validator_hash_map(
&mut self.voluntary_exits.write(),
|validator| validator.is_exited_at(finalized_state.current_epoch()),
finalized_state,
);
}
/// Prune all types of transactions given the latest finalized state.
pub fn prune_all(&self, finalized_state: &BeaconState<T>, spec: &ChainSpec) {
self.prune_attestations(finalized_state);
self.prune_proposer_slashings(finalized_state);
self.prune_attester_slashings(finalized_state, spec);
self.prune_voluntary_exits(finalized_state);
}
/// Total number of voluntary exits in the pool.
pub fn num_voluntary_exits(&self) -> usize {
self.voluntary_exits.read().len()
}
}
/// Filter up to a maximum number of operations out of an iterator.
fn filter_limit_operations<'a, T: 'a, I, F>(operations: I, filter: F, limit: usize) -> Vec<T>
where
I: IntoIterator<Item = &'a T>,
F: Fn(&T) -> bool,
T: Clone,
{
operations
.into_iter()
.filter(|x| filter(*x))
.take(limit)
.cloned()
.collect()
}
/// Remove all entries from the given hash map for which `prune_if` returns true.
///
/// The keys in the map should be validator indices, which will be looked up
/// in the state's validator registry and then passed to `prune_if`.
/// Entries for unknown validators will be kept.
fn prune_validator_hash_map<T, F, E: EthSpec>(
map: &mut HashMap<u64, T>,
prune_if: F,
finalized_state: &BeaconState<E>,
) where
F: Fn(&Validator) -> bool,
{
map.retain(|&validator_index, _| {
finalized_state
.validators
.get(validator_index as usize)
.map_or(true, |validator| !prune_if(validator))
});
}
/// Compare two operation pools.
impl<T: EthSpec + Default> PartialEq for OperationPool<T> {
fn eq(&self, other: &Self) -> bool {
*self.attestations.read() == *other.attestations.read()
&& *self.attester_slashings.read() == *other.attester_slashings.read()
&& *self.proposer_slashings.read() == *other.proposer_slashings.read()
&& *self.voluntary_exits.read() == *other.voluntary_exits.read()
}
}
// TODO: more tests
#[cfg(all(test, not(debug_assertions)))]
mod release_tests {
use super::attestation::earliest_attestation_validators;
use super::*;
use state_processing::common::{get_attesting_indices, get_base_reward};
use std::collections::BTreeSet;
use std::iter::FromIterator;
use types::test_utils::*;
use types::*;
/// Create a signed attestation for use in tests.
/// Signed by all validators in `committee[signing_range]` and `committee[extra_signer]`.
fn signed_attestation<R: std::slice::SliceIndex<[usize], Output = [usize]>, E: EthSpec>(
committee: &[usize],
index: u64,
keypairs: &[Keypair],
signing_range: R,
slot: Slot,
state: &BeaconState<E>,
spec: &ChainSpec,
extra_signer: Option<usize>,
) -> Attestation<E> {
let mut builder = TestingAttestationBuilder::new(
AttestationTestTask::Valid,
state,
committee,
slot,
index,
spec,
);
let signers = &committee[signing_range];
let committee_keys = signers.iter().map(|&i| &keypairs[i].sk).collect::<Vec<_>>();
builder.sign(
AttestationTestTask::Valid,
signers,
&committee_keys,
&state.fork,
state.genesis_validators_root,
spec,
);
extra_signer.map(|c_idx| {
let validator_index = committee[c_idx];
builder.sign(
AttestationTestTask::Valid,
&[validator_index],
&[&keypairs[validator_index].sk],
&state.fork,
state.genesis_validators_root,
spec,
)
});
builder.build()
}
/// Test state for attestation-related tests.
fn attestation_test_state<E: EthSpec>(
num_committees: usize,
) -> (BeaconState<E>, Vec<Keypair>, ChainSpec) {
let spec = E::default_spec();
let num_validators =
num_committees * E::slots_per_epoch() as usize * spec.target_committee_size;
let mut state_builder =
TestingBeaconStateBuilder::from_default_keypairs_file_if_exists(num_validators, &spec);
let slot_offset = 1000 * E::slots_per_epoch() + E::slots_per_epoch() / 2;
let slot = spec.genesis_slot + slot_offset;
state_builder.teleport_to_slot(slot);
state_builder.build_caches(&spec).unwrap();
let (state, keypairs) = state_builder.build();
(state, keypairs, spec)
}
#[test]
fn test_earliest_attestation() {
let (ref mut state, ref keypairs, ref spec) = attestation_test_state::<MainnetEthSpec>(1);
let slot = state.slot - 1;
let committees = state
.get_beacon_committees_at_slot(slot)
.unwrap()
.into_iter()
.map(BeaconCommittee::into_owned)
.collect::<Vec<_>>();
for bc in committees {
let att1 = signed_attestation(
&bc.committee,
bc.index,
keypairs,
..2,
slot,
state,
spec,
None,
);
let att2 = signed_attestation(
&bc.committee,
bc.index,
keypairs,
..,
slot,
state,
spec,
None,
);
assert_eq!(
att1.aggregation_bits.num_set_bits(),
earliest_attestation_validators(&att1, state).num_set_bits()
);
state
.current_epoch_attestations
.push(PendingAttestation {
aggregation_bits: att1.aggregation_bits.clone(),
data: att1.data.clone(),
inclusion_delay: 0,
proposer_index: 0,
})
.unwrap();
assert_eq!(
bc.committee.len() - 2,
earliest_attestation_validators(&att2, state).num_set_bits()
);
}
}
/// End-to-end test of basic attestation handling.
#[test]
fn attestation_aggregation_insert_get_prune() {
let (ref mut state, ref keypairs, ref spec) = attestation_test_state::<MainnetEthSpec>(1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_beacon_committees_at_slot(slot)
.unwrap()
.into_iter()
.map(BeaconCommittee::into_owned)
.collect::<Vec<_>>();
assert_eq!(
committees.len(),
1,
"we expect just one committee with this many validators"
);
for bc in &committees {
let step_size = 2;
for i in (0..bc.committee.len()).step_by(step_size) {
let att = signed_attestation(
&bc.committee,
bc.index,
keypairs,
i..i + step_size,
slot,
state,
spec,
None,
);
op_pool
.insert_attestation(att, &state.fork, state.genesis_validators_root, spec)
.unwrap();
}
}
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(op_pool.num_attestations(), committees.len());
// Before the min attestation inclusion delay, get_attestations shouldn't return anything.
state.slot -= 1;
assert_eq!(
op_pool
.get_attestations(state, |_| true, spec)
.expect("should have attestations")
.len(),
0
);
// Then once the delay has elapsed, we should get a single aggregated attestation.
state.slot += spec.min_attestation_inclusion_delay;
let block_attestations = op_pool
.get_attestations(state, |_| true, spec)
.expect("Should have block attestations");
assert_eq!(block_attestations.len(), committees.len());
let agg_att = &block_attestations[0];
assert_eq!(
agg_att.aggregation_bits.num_set_bits(),
spec.target_committee_size as usize
);
// Prune attestations shouldn't do anything at this point.
op_pool.prune_attestations(state);
assert_eq!(op_pool.num_attestations(), committees.len());
// But once we advance to more than an epoch after the attestation, it should prune it
// out of existence.
state.slot += 2 * MainnetEthSpec::slots_per_epoch();
op_pool.prune_attestations(state);
assert_eq!(op_pool.num_attestations(), 0);
}
/// Adding an attestation already in the pool should not increase the size of the pool.
#[test]
fn attestation_duplicate() {
let (ref mut state, ref keypairs, ref spec) = attestation_test_state::<MainnetEthSpec>(1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_beacon_committees_at_slot(slot)
.unwrap()
.into_iter()
.map(BeaconCommittee::into_owned)
.collect::<Vec<_>>();
for bc in &committees {
let att = signed_attestation(
&bc.committee,
bc.index,
keypairs,
..,
slot,
state,
spec,
None,
);
op_pool
.insert_attestation(
att.clone(),
&state.fork,
state.genesis_validators_root,
spec,
)
.unwrap();
op_pool
.insert_attestation(att, &state.fork, state.genesis_validators_root, spec)
.unwrap();
}
assert_eq!(op_pool.num_attestations(), committees.len());
}
/// Adding lots of attestations that only intersect pairwise should lead to two aggregate
/// attestations.
#[test]
fn attestation_pairwise_overlapping() {
let (ref mut state, ref keypairs, ref spec) = attestation_test_state::<MainnetEthSpec>(1);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_beacon_committees_at_slot(slot)
.unwrap()
.into_iter()
.map(BeaconCommittee::into_owned)
.collect::<Vec<_>>();
let step_size = 2;
for bc in &committees {
// Create attestations that overlap on `step_size` validators, like:
// {0,1,2,3}, {2,3,4,5}, {4,5,6,7}, ...
for i in (0..bc.committee.len() - step_size).step_by(step_size) {
let att = signed_attestation(
&bc.committee,
bc.index,
keypairs,
i..i + 2 * step_size,
slot,
state,
spec,
None,
);
op_pool
.insert_attestation(att, &state.fork, state.genesis_validators_root, spec)
.unwrap();
}
}
// The attestations should get aggregated into two attestations that comprise all
// validators.
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(op_pool.num_attestations(), 2 * committees.len());
}
/// Create a bunch of attestations signed by a small number of validators, and another
/// bunch signed by a larger number, such that there are at least `max_attestations`
/// signed by the larger number. Then, check that `get_attestations` only returns the
/// high-quality attestations. To ensure that no aggregation occurs, ALL attestations
/// are also signed by the 0th member of the committee.
#[test]
fn attestation_get_max() {
let small_step_size = 2;
let big_step_size = 4;
let (ref mut state, ref keypairs, ref spec) =
attestation_test_state::<MainnetEthSpec>(big_step_size);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_beacon_committees_at_slot(slot)
.unwrap()
.into_iter()
.map(BeaconCommittee::into_owned)
.collect::<Vec<_>>();
let max_attestations = <MainnetEthSpec as EthSpec>::MaxAttestations::to_usize();
let target_committee_size = spec.target_committee_size as usize;
let insert_attestations = |bc: &OwnedBeaconCommittee, step_size| {
for i in (0..target_committee_size).step_by(step_size) {
let att = signed_attestation(
&bc.committee,
bc.index,
keypairs,
i..i + step_size,
slot,
state,
spec,
if i == 0 { None } else { Some(0) },
);
op_pool
.insert_attestation(att, &state.fork, state.genesis_validators_root, spec)
.unwrap();
}
};
for committee in &committees {
assert_eq!(committee.committee.len(), target_committee_size);
// Attestations signed by only 2-3 validators
insert_attestations(committee, small_step_size);
// Attestations signed by 4+ validators
insert_attestations(committee, big_step_size);
}
let num_small = target_committee_size / small_step_size;
let num_big = target_committee_size / big_step_size;
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(
op_pool.num_attestations(),
(num_small + num_big) * committees.len()
);
assert!(op_pool.num_attestations() > max_attestations);
state.slot += spec.min_attestation_inclusion_delay;
let best_attestations = op_pool
.get_attestations(state, |_| true, spec)
.expect("should have best attestations");
assert_eq!(best_attestations.len(), max_attestations);
// All the best attestations should be signed by at least `big_step_size` (4) validators.
for att in &best_attestations {
assert!(att.aggregation_bits.num_set_bits() >= big_step_size);
}
}
#[test]
fn attestation_rewards() {
let small_step_size = 2;
let big_step_size = 4;
let (ref mut state, ref keypairs, ref spec) =
attestation_test_state::<MainnetEthSpec>(big_step_size);
let op_pool = OperationPool::new();
let slot = state.slot - 1;
let committees = state
.get_beacon_committees_at_slot(slot)
.unwrap()
.into_iter()
.map(BeaconCommittee::into_owned)
.collect::<Vec<_>>();
let max_attestations = <MainnetEthSpec as EthSpec>::MaxAttestations::to_usize();
let target_committee_size = spec.target_committee_size as usize;
// Each validator will have a multiple of 1_000_000_000 wei.
// Safe from overflow unless there are about 18B validators (2^64 / 1_000_000_000).
for i in 0..state.validators.len() {
state.validators[i].effective_balance = 1_000_000_000 * i as u64;
}
let insert_attestations = |bc: &OwnedBeaconCommittee, step_size| {
for i in (0..target_committee_size).step_by(step_size) {
let att = signed_attestation(
&bc.committee,
bc.index,
keypairs,
i..i + step_size,
slot,
state,
spec,
if i == 0 { None } else { Some(0) },
);
op_pool
.insert_attestation(att, &state.fork, state.genesis_validators_root, spec)
.unwrap();
}
};
for committee in &committees {
assert_eq!(committee.committee.len(), target_committee_size);
// Attestations signed by only 2-3 validators
insert_attestations(committee, small_step_size);
// Attestations signed by 4+ validators
insert_attestations(committee, big_step_size);
}
let num_small = target_committee_size / small_step_size;
let num_big = target_committee_size / big_step_size;
assert_eq!(op_pool.attestations.read().len(), committees.len());
assert_eq!(
op_pool.num_attestations(),
(num_small + num_big) * committees.len()
);
assert!(op_pool.num_attestations() > max_attestations);
state.slot += spec.min_attestation_inclusion_delay;
let best_attestations = op_pool
.get_attestations(state, |_| true, spec)
.expect("should have valid best attestations");
assert_eq!(best_attestations.len(), max_attestations);
let active_indices = state
.get_cached_active_validator_indices(RelativeEpoch::Current)
.unwrap();
let total_active_balance = state.get_total_balance(&active_indices, spec).unwrap();
// Set of indices covered by previous attestations in `best_attestations`.
let mut seen_indices = BTreeSet::new();
// Used for asserting that rewards are in decreasing order.
let mut prev_reward = u64::max_value();
for att in &best_attestations {
let fresh_validators_bitlist = earliest_attestation_validators(att, state);
let committee = state
.get_beacon_committee(att.data.slot, att.data.index)
.expect("should get beacon committee");
let att_indices = BTreeSet::from_iter(
get_attesting_indices::<MainnetEthSpec>(
committee.committee,
&fresh_validators_bitlist,
)
.unwrap(),
);
let fresh_indices = &att_indices - &seen_indices;
let rewards = fresh_indices
.iter()
.map(|validator_index| {
get_base_reward(state, *validator_index as usize, total_active_balance, spec)
.unwrap()
/ spec.proposer_reward_quotient
})
.sum();
// Check that rewards are in decreasing order
assert!(prev_reward >= rewards);
prev_reward = rewards;
seen_indices.extend(fresh_indices);
}
}
/// Insert two slashings for the same proposer and ensure only one is returned.
#[test]
fn duplicate_proposer_slashing() {
let spec = MainnetEthSpec::default_spec();
let num_validators = 32;
let mut state_builder =
TestingBeaconStateBuilder::<MainnetEthSpec>::from_default_keypairs_file_if_exists(
num_validators,
&spec,
);
state_builder.build_caches(&spec).unwrap();
let (state, keypairs) = state_builder.build();
let op_pool = OperationPool::new();
let proposer_index = 0;
let slashing1 = TestingProposerSlashingBuilder::double_vote::<MainnetEthSpec>(
ProposerSlashingTestTask::Valid,
proposer_index,
&keypairs[proposer_index as usize].sk,
&state.fork,
state.genesis_validators_root,
&spec,
);
let slashing2 = ProposerSlashing {
signed_header_1: slashing1.signed_header_2.clone(),
signed_header_2: slashing1.signed_header_1.clone(),
};
// Both slashings should be accepted by the pool.
op_pool
.insert_proposer_slashing(slashing1.clone(), &state, &spec)
.unwrap();
op_pool
.insert_proposer_slashing(slashing2.clone(), &state, &spec)
.unwrap();
// Should only get the second slashing back.
assert_eq!(op_pool.get_slashings(&state, &spec).0, vec![slashing2]);
}
}