a4cfe50ade
* Import BLS to execution changes before Capella * Test for BLS to execution change HTTP API * Pack BLS to execution changes in LIFO order * Remove unused var * Clippy
486 lines
16 KiB
Rust
486 lines
16 KiB
Rust
//! Tests for API behaviour across fork boundaries.
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use crate::common::*;
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use beacon_chain::{test_utils::RelativeSyncCommittee, StateSkipConfig};
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use eth2::types::{IndexedErrorMessage, StateId, SyncSubcommittee};
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use types::{Address, ChainSpec, Epoch, EthSpec, MinimalEthSpec, Slot};
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type E = MinimalEthSpec;
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fn altair_spec(altair_fork_epoch: Epoch) -> ChainSpec {
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let mut spec = E::default_spec();
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spec.altair_fork_epoch = Some(altair_fork_epoch);
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spec
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}
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fn capella_spec(capella_fork_epoch: Epoch) -> ChainSpec {
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let mut spec = E::default_spec();
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spec.altair_fork_epoch = Some(Epoch::new(0));
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spec.bellatrix_fork_epoch = Some(Epoch::new(0));
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spec.capella_fork_epoch = Some(capella_fork_epoch);
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spec
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}
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#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
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async fn sync_committee_duties_across_fork() {
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let validator_count = E::sync_committee_size();
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let fork_epoch = Epoch::new(8);
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let spec = altair_spec(fork_epoch);
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let tester = InteractiveTester::<E>::new(Some(spec.clone()), validator_count).await;
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let harness = &tester.harness;
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let client = &tester.client;
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let all_validators = harness.get_all_validators();
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let all_validators_u64 = all_validators.iter().map(|x| *x as u64).collect::<Vec<_>>();
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assert_eq!(harness.get_current_slot(), 0);
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// Prior to the fork the endpoint should return an empty vec.
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let early_duties = client
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.post_validator_duties_sync(fork_epoch - 1, &all_validators_u64)
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.await
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.unwrap()
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.data;
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assert!(early_duties.is_empty());
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// If there's a skip slot at the fork slot, the endpoint should return duties, even
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// though the head state hasn't transitioned yet.
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let fork_slot = fork_epoch.start_slot(E::slots_per_epoch());
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let (genesis_state, genesis_state_root) = harness.get_current_state_and_root();
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let (_, state) = harness
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.add_attested_block_at_slot(
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fork_slot - 1,
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genesis_state,
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genesis_state_root,
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&all_validators,
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)
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.await
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.unwrap();
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harness.advance_slot();
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assert_eq!(harness.get_current_slot(), fork_slot);
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let sync_duties = client
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.post_validator_duties_sync(fork_epoch, &all_validators_u64)
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.await
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.unwrap()
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.data;
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assert_eq!(sync_duties.len(), E::sync_committee_size());
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// After applying a block at the fork slot the duties should remain unchanged.
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let state_root = state.canonical_root();
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harness
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.add_attested_block_at_slot(fork_slot, state, state_root, &all_validators)
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.await
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.unwrap();
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assert_eq!(
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client
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.post_validator_duties_sync(fork_epoch, &all_validators_u64)
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.await
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.unwrap()
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.data,
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sync_duties
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);
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// Sync duties should also be available for the next period.
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let current_period = fork_epoch.sync_committee_period(&spec).unwrap();
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let next_period_epoch = spec.epochs_per_sync_committee_period * (current_period + 1);
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let next_period_duties = client
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.post_validator_duties_sync(next_period_epoch, &all_validators_u64)
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.await
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.unwrap()
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.data;
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assert_eq!(next_period_duties.len(), E::sync_committee_size());
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// Sync duties should *not* be available for the period after the next period.
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// We expect a 400 (bad request) response.
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let next_next_period_epoch = spec.epochs_per_sync_committee_period * (current_period + 2);
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assert_eq!(
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client
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.post_validator_duties_sync(next_next_period_epoch, &all_validators_u64)
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.await
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.unwrap_err()
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.status()
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.unwrap(),
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400
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);
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}
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#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
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async fn attestations_across_fork_with_skip_slots() {
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let validator_count = E::sync_committee_size();
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let fork_epoch = Epoch::new(8);
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let spec = altair_spec(fork_epoch);
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let tester = InteractiveTester::<E>::new(Some(spec.clone()), validator_count).await;
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let harness = &tester.harness;
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let client = &tester.client;
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let all_validators = harness.get_all_validators();
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let fork_slot = fork_epoch.start_slot(E::slots_per_epoch());
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let fork_state = harness
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.chain
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.state_at_slot(fork_slot, StateSkipConfig::WithStateRoots)
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.unwrap();
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harness.set_current_slot(fork_slot);
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let attestations = harness.make_attestations(
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&all_validators,
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&fork_state,
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fork_state.canonical_root(),
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(*fork_state.get_block_root(fork_slot - 1).unwrap()).into(),
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fork_slot,
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);
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let unaggregated_attestations = attestations
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.iter()
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.flat_map(|(atts, _)| atts.iter().map(|(att, _)| att.clone()))
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.collect::<Vec<_>>();
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assert!(!unaggregated_attestations.is_empty());
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client
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.post_beacon_pool_attestations(&unaggregated_attestations)
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.await
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.unwrap();
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let signed_aggregates = attestations
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.into_iter()
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.filter_map(|(_, op_aggregate)| op_aggregate)
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.collect::<Vec<_>>();
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assert!(!signed_aggregates.is_empty());
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client
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.post_validator_aggregate_and_proof(&signed_aggregates)
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.await
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.unwrap();
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}
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#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
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async fn sync_contributions_across_fork_with_skip_slots() {
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let validator_count = E::sync_committee_size();
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let fork_epoch = Epoch::new(8);
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let spec = altair_spec(fork_epoch);
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let tester = InteractiveTester::<E>::new(Some(spec.clone()), validator_count).await;
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let harness = &tester.harness;
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let client = &tester.client;
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let fork_slot = fork_epoch.start_slot(E::slots_per_epoch());
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let fork_state = harness
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.chain
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.state_at_slot(fork_slot, StateSkipConfig::WithStateRoots)
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.unwrap();
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harness.set_current_slot(fork_slot);
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let sync_messages = harness.make_sync_contributions(
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&fork_state,
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*fork_state.get_block_root(fork_slot - 1).unwrap(),
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fork_slot,
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RelativeSyncCommittee::Current,
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);
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let sync_committee_messages = sync_messages
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.iter()
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.flat_map(|(messages, _)| messages.iter().map(|(message, _subnet)| message.clone()))
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.collect::<Vec<_>>();
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assert!(!sync_committee_messages.is_empty());
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client
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.post_beacon_pool_sync_committee_signatures(&sync_committee_messages)
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.await
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.unwrap();
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let signed_contributions = sync_messages
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.into_iter()
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.filter_map(|(_, op_aggregate)| op_aggregate)
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.collect::<Vec<_>>();
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assert!(!signed_contributions.is_empty());
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client
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.post_validator_contribution_and_proofs(&signed_contributions)
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.await
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.unwrap();
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}
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#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
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async fn sync_committee_indices_across_fork() {
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let validator_count = E::sync_committee_size();
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let fork_epoch = Epoch::new(8);
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let spec = altair_spec(fork_epoch);
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let tester = InteractiveTester::<E>::new(Some(spec.clone()), validator_count).await;
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let harness = &tester.harness;
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let client = &tester.client;
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let all_validators = harness.get_all_validators();
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// Flatten subcommittees into a single vec.
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let flatten = |subcommittees: &[SyncSubcommittee]| -> Vec<u64> {
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subcommittees
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.iter()
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.flat_map(|sub| sub.indices.iter().copied())
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.collect()
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};
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// Prior to the fork the `sync_committees` endpoint should return a 400 error.
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assert_eq!(
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client
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.get_beacon_states_sync_committees(StateId::Slot(Slot::new(0)), None)
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.await
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.unwrap_err()
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.status()
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.unwrap(),
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400
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);
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assert_eq!(
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client
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.get_beacon_states_sync_committees(StateId::Head, Some(Epoch::new(0)))
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.await
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.unwrap_err()
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.status()
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.unwrap(),
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400
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);
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// If there's a skip slot at the fork slot, the endpoint will return a 400 until a block is
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// applied.
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let fork_slot = fork_epoch.start_slot(E::slots_per_epoch());
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let (genesis_state, genesis_state_root) = harness.get_current_state_and_root();
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let (_, state) = harness
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.add_attested_block_at_slot(
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fork_slot - 1,
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genesis_state,
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genesis_state_root,
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&all_validators,
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)
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.await
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.unwrap();
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harness.advance_slot();
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assert_eq!(harness.get_current_slot(), fork_slot);
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// Using the head state must fail.
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assert_eq!(
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client
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.get_beacon_states_sync_committees(StateId::Head, Some(fork_epoch))
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.await
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.unwrap_err()
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.status()
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.unwrap(),
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400
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);
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// In theory we could do a state advance and make this work, but to keep things simple I've
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// avoided doing that for now.
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assert_eq!(
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client
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.get_beacon_states_sync_committees(StateId::Slot(fork_slot), None)
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.await
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.unwrap_err()
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.status()
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.unwrap(),
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400
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);
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// Once the head is updated it should be useable for requests, including in the next sync
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// committee period.
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let state_root = state.canonical_root();
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harness
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.add_attested_block_at_slot(fork_slot + 1, state, state_root, &all_validators)
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.await
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.unwrap();
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let current_period = fork_epoch.sync_committee_period(&spec).unwrap();
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let next_period_epoch = spec.epochs_per_sync_committee_period * (current_period + 1);
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assert!(next_period_epoch > fork_epoch);
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for epoch in [
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None,
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Some(fork_epoch),
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Some(fork_epoch + 1),
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Some(next_period_epoch),
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Some(next_period_epoch + 1),
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] {
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let committee = client
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.get_beacon_states_sync_committees(StateId::Head, epoch)
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.await
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.unwrap()
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.data;
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assert_eq!(committee.validators.len(), E::sync_committee_size());
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assert_eq!(
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committee.validators,
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flatten(&committee.validator_aggregates)
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);
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}
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}
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/// Assert that an HTTP API error has the given status code and indexed errors for the given indices.
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fn assert_server_indexed_error(error: eth2::Error, status_code: u16, indices: Vec<usize>) {
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let eth2::Error::ServerIndexedMessage(IndexedErrorMessage {
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code,
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failures,
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..
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}) = error else {
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panic!("wrong error, expected ServerIndexedMessage, got: {error:?}")
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};
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assert_eq!(code, status_code);
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assert_eq!(failures.len(), indices.len());
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for (index, failure) in indices.into_iter().zip(failures) {
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assert_eq!(failure.index, index as u64);
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}
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}
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#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
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async fn bls_to_execution_changes_update_all_around_capella_fork() {
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let validator_count = 128;
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let fork_epoch = Epoch::new(2);
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let spec = capella_spec(fork_epoch);
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let max_bls_to_execution_changes = E::max_bls_to_execution_changes();
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let tester = InteractiveTester::<E>::new(Some(spec.clone()), validator_count).await;
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let harness = &tester.harness;
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let client = &tester.client;
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let all_validators = harness.get_all_validators();
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let all_validators_u64 = all_validators.iter().map(|x| *x as u64).collect::<Vec<_>>();
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// Create a bunch of valid address changes.
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let valid_address_changes = all_validators_u64
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.iter()
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.map(|&validator_index| {
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harness.make_bls_to_execution_change(
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validator_index,
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Address::from_low_u64_be(validator_index),
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)
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})
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.collect::<Vec<_>>();
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// Address changes which conflict with `valid_address_changes` on the address chosen.
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let conflicting_address_changes = all_validators_u64
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.iter()
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.map(|&validator_index| {
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harness.make_bls_to_execution_change(
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validator_index,
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Address::from_low_u64_be(validator_index + 1),
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)
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})
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.collect::<Vec<_>>();
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// Address changes signed with the wrong key.
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let wrong_key_address_changes = all_validators_u64
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.iter()
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.map(|&validator_index| {
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// Use the correct pubkey.
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let pubkey = &harness.get_withdrawal_keypair(validator_index).pk;
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// And the wrong secret key.
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let secret_key = &harness
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.get_withdrawal_keypair((validator_index + 1) % validator_count as u64)
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.sk;
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harness.make_bls_to_execution_change_with_keys(
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validator_index,
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Address::from_low_u64_be(validator_index),
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pubkey,
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secret_key,
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)
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})
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.collect::<Vec<_>>();
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// Submit some changes before Capella. Just enough to fill two blocks.
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let num_pre_capella = validator_count / 4;
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let blocks_filled_pre_capella = 2;
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assert_eq!(
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num_pre_capella,
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blocks_filled_pre_capella * max_bls_to_execution_changes
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);
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client
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.post_beacon_pool_bls_to_execution_changes(&valid_address_changes[..num_pre_capella])
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.await
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.unwrap();
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// Conflicting changes for the same validators should all fail.
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let error = client
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.post_beacon_pool_bls_to_execution_changes(&conflicting_address_changes[..num_pre_capella])
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.await
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.unwrap_err();
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assert_server_indexed_error(error, 400, (0..num_pre_capella).collect());
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// Re-submitting the same changes should be accepted.
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client
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.post_beacon_pool_bls_to_execution_changes(&valid_address_changes[..num_pre_capella])
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.await
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.unwrap();
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// Invalid changes signed with the wrong keys should all be rejected without affecting the seen
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// indices filters (apply ALL of them).
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let error = client
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.post_beacon_pool_bls_to_execution_changes(&wrong_key_address_changes)
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.await
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.unwrap_err();
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assert_server_indexed_error(error, 400, all_validators.clone());
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// Advance to right before Capella.
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let capella_slot = fork_epoch.start_slot(E::slots_per_epoch());
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harness.extend_to_slot(capella_slot - 1).await;
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assert_eq!(harness.head_slot(), capella_slot - 1);
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// Add Capella blocks which should be full of BLS to execution changes.
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for i in 0..validator_count / max_bls_to_execution_changes {
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let head_block_root = harness.extend_slots(1).await;
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let head_block = harness
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.chain
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.get_block(&head_block_root)
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.await
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.unwrap()
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.unwrap();
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let bls_to_execution_changes = head_block
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.message()
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.body()
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.bls_to_execution_changes()
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.unwrap();
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// Block should be full.
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assert_eq!(
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bls_to_execution_changes.len(),
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max_bls_to_execution_changes,
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"block not full on iteration {i}"
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);
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// Included changes should be the ones from `valid_address_changes` in any order.
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for address_change in bls_to_execution_changes.iter() {
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assert!(valid_address_changes.contains(address_change));
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}
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// After the initial 2 blocks, add the rest of the changes using a large
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// request containing all the valid, all the conflicting and all the invalid.
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// Despite the invalid and duplicate messages, the new ones should still get picked up by
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// the pool.
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if i == blocks_filled_pre_capella - 1 {
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let all_address_changes: Vec<_> = [
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valid_address_changes.clone(),
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conflicting_address_changes.clone(),
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wrong_key_address_changes.clone(),
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]
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.concat();
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let error = client
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.post_beacon_pool_bls_to_execution_changes(&all_address_changes)
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.await
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.unwrap_err();
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assert_server_indexed_error(
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error,
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400,
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(validator_count..3 * validator_count).collect(),
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);
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}
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}
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// Eventually all validators should have eth1 withdrawal credentials.
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let head_state = harness.get_current_state();
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for validator in head_state.validators() {
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assert!(validator.has_eth1_withdrawal_credential(&spec));
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}
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}
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