mirror of
https://gitlab.com/pulsechaincom/lighthouse-pulse.git
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be4e261e74
## Overview This rather extensive PR achieves two primary goals: 1. Uses the finalized/justified checkpoints of fork choice (FC), rather than that of the head state. 2. Refactors fork choice, block production and block processing to `async` functions. Additionally, it achieves: - Concurrent forkchoice updates to the EL and cache pruning after a new head is selected. - Concurrent "block packing" (attestations, etc) and execution payload retrieval during block production. - Concurrent per-block-processing and execution payload verification during block processing. - The `Arc`-ification of `SignedBeaconBlock` during block processing (it's never mutated, so why not?): - I had to do this to deal with sending blocks into spawned tasks. - Previously we were cloning the beacon block at least 2 times during each block processing, these clones are either removed or turned into cheaper `Arc` clones. - We were also `Box`-ing and un-`Box`-ing beacon blocks as they moved throughout the networking crate. This is not a big deal, but it's nice to avoid shifting things between the stack and heap. - Avoids cloning *all the blocks* in *every chain segment* during sync. - It also has the potential to clean up our code where we need to pass an *owned* block around so we can send it back in the case of an error (I didn't do much of this, my PR is already big enough 😅) - The `BeaconChain::HeadSafetyStatus` struct was removed. It was an old relic from prior merge specs. For motivation for this change, see https://github.com/sigp/lighthouse/pull/3244#issuecomment-1160963273 ## Changes to `canonical_head` and `fork_choice` Previously, the `BeaconChain` had two separate fields: ``` canonical_head: RwLock<Snapshot>, fork_choice: RwLock<BeaconForkChoice> ``` Now, we have grouped these values under a single struct: ``` canonical_head: CanonicalHead { cached_head: RwLock<Arc<Snapshot>>, fork_choice: RwLock<BeaconForkChoice> } ``` Apart from ergonomics, the only *actual* change here is wrapping the canonical head snapshot in an `Arc`. This means that we no longer need to hold the `cached_head` (`canonical_head`, in old terms) lock when we want to pull some values from it. This was done to avoid deadlock risks by preventing functions from acquiring (and holding) the `cached_head` and `fork_choice` locks simultaneously. ## Breaking Changes ### The `state` (root) field in the `finalized_checkpoint` SSE event Consider the scenario where epoch `n` is just finalized, but `start_slot(n)` is skipped. There are two state roots we might in the `finalized_checkpoint` SSE event: 1. The state root of the finalized block, which is `get_block(finalized_checkpoint.root).state_root`. 4. The state root at slot of `start_slot(n)`, which would be the state from (1), but "skipped forward" through any skip slots. Previously, Lighthouse would choose (2). However, we can see that when [Teku generates that event](de2b2801c8/data/beaconrestapi/src/main/java/tech/pegasys/teku/beaconrestapi/handlers/v1/events/EventSubscriptionManager.java (L171-L182)
) it uses [`getStateRootFromBlockRoot`](de2b2801c8/data/provider/src/main/java/tech/pegasys/teku/api/ChainDataProvider.java (L336-L341)
) which uses (1). I have switched Lighthouse from (2) to (1). I think it's a somewhat arbitrary choice between the two, where (1) is easier to compute and is consistent with Teku. ## Notes for Reviewers I've renamed `BeaconChain::fork_choice` to `BeaconChain::recompute_head`. Doing this helped ensure I broke all previous uses of fork choice and I also find it more descriptive. It describes an action and can't be confused with trying to get a reference to the `ForkChoice` struct. I've changed the ordering of SSE events when a block is received. It used to be `[block, finalized, head]` and now it's `[block, head, finalized]`. It was easier this way and I don't think we were making any promises about SSE event ordering so it's not "breaking". I've made it so fork choice will run when it's first constructed. I did this because I wanted to have a cached version of the last call to `get_head`. Ensuring `get_head` has been run *at least once* means that the cached values doesn't need to wrapped in an `Option`. This was fairly simple, it just involved passing a `slot` to the constructor so it knows *when* it's being run. When loading a fork choice from the store and a slot clock isn't handy I've just used the `slot` that was saved in the `fork_choice_store`. That seems like it would be a faithful representation of the slot when we saved it. I added the `genesis_time: u64` to the `BeaconChain`. It's small, constant and nice to have around. Since we're using FC for the fin/just checkpoints, we no longer get the `0x00..00` roots at genesis. You can see I had to remove a work-around in `ef-tests` here: b56be3bc2. I can't find any reason why this would be an issue, if anything I think it'll be better since the genesis-alias has caught us out a few times (0x00..00 isn't actually a real root). Edit: I did find a case where the `network` expected the 0x00..00 alias and patched it here: 3f26ac3e2. You'll notice a lot of changes in tests. Generally, tests should be functionally equivalent. Here are the things creating the most diff-noise in tests: - Changing tests to be `tokio::async` tests. - Adding `.await` to fork choice, block processing and block production functions. - Refactor of the `canonical_head` "API" provided by the `BeaconChain`. E.g., `chain.canonical_head.cached_head()` instead of `chain.canonical_head.read()`. - Wrapping `SignedBeaconBlock` in an `Arc`. - In the `beacon_chain/tests/block_verification`, we can't use the `lazy_static` `CHAIN_SEGMENT` variable anymore since it's generated with an async function. We just generate it in each test, not so efficient but hopefully insignificant. I had to disable `rayon` concurrent tests in the `fork_choice` tests. This is because the use of `rayon` and `block_on` was causing a panic. Co-authored-by: Mac L <mjladson@pm.me>
235 lines
7.3 KiB
Rust
235 lines
7.3 KiB
Rust
//! Tests for gossip verification of voluntary exits, propser slashings and attester slashings.
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#![cfg(not(debug_assertions))]
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use beacon_chain::observed_operations::ObservationOutcome;
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use beacon_chain::test_utils::{
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test_spec, AttestationStrategy, BeaconChainHarness, BlockStrategy, DiskHarnessType,
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};
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use lazy_static::lazy_static;
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use sloggers::{null::NullLoggerBuilder, Build};
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use std::sync::Arc;
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use store::{LevelDB, StoreConfig};
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use tempfile::{tempdir, TempDir};
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use types::*;
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pub const VALIDATOR_COUNT: usize = 24;
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lazy_static! {
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/// A cached set of keys.
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static ref KEYPAIRS: Vec<Keypair> =
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types::test_utils::generate_deterministic_keypairs(VALIDATOR_COUNT);
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}
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type E = MinimalEthSpec;
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type TestHarness = BeaconChainHarness<DiskHarnessType<E>>;
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type HotColdDB = store::HotColdDB<E, LevelDB<E>, LevelDB<E>>;
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fn get_store(db_path: &TempDir) -> Arc<HotColdDB> {
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let spec = test_spec::<E>();
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let hot_path = db_path.path().join("hot_db");
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let cold_path = db_path.path().join("cold_db");
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let config = StoreConfig::default();
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let log = NullLoggerBuilder.build().expect("logger should build");
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HotColdDB::open(&hot_path, &cold_path, |_, _, _| Ok(()), config, spec, log)
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.expect("disk store should initialize")
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}
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fn get_harness(store: Arc<HotColdDB>, validator_count: usize) -> TestHarness {
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let harness = BeaconChainHarness::builder(MinimalEthSpec)
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.default_spec()
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.keypairs(KEYPAIRS[0..validator_count].to_vec())
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.fresh_disk_store(store)
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.mock_execution_layer()
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.build();
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harness.advance_slot();
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harness
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}
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#[tokio::test]
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async fn voluntary_exit() {
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let db_path = tempdir().unwrap();
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let store = get_store(&db_path);
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let harness = get_harness(store.clone(), VALIDATOR_COUNT);
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let spec = &harness.chain.spec.clone();
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harness
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.extend_chain(
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(E::slots_per_epoch() * (spec.shard_committee_period + 1)) as usize,
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BlockStrategy::OnCanonicalHead,
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AttestationStrategy::AllValidators,
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)
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.await;
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let validator_index1 = VALIDATOR_COUNT - 1;
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let validator_index2 = VALIDATOR_COUNT - 2;
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let exit1 = harness.make_voluntary_exit(
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validator_index1 as u64,
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Epoch::new(spec.shard_committee_period),
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);
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// First verification should show it to be fresh.
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assert!(matches!(
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harness
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.chain
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.verify_voluntary_exit_for_gossip(exit1.clone())
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.unwrap(),
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ObservationOutcome::New(_)
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));
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// Second should not.
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assert!(matches!(
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harness
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.chain
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.verify_voluntary_exit_for_gossip(exit1.clone()),
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Ok(ObservationOutcome::AlreadyKnown)
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));
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// A different exit for the same validator should also be detected as a duplicate.
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let exit2 = harness.make_voluntary_exit(
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validator_index1 as u64,
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Epoch::new(spec.shard_committee_period + 1),
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);
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assert!(matches!(
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harness.chain.verify_voluntary_exit_for_gossip(exit2),
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Ok(ObservationOutcome::AlreadyKnown)
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));
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// Exit for a different validator should be fine.
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let exit3 = harness.make_voluntary_exit(
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validator_index2 as u64,
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Epoch::new(spec.shard_committee_period),
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);
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assert!(matches!(
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harness
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.chain
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.verify_voluntary_exit_for_gossip(exit3)
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.unwrap(),
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ObservationOutcome::New(_)
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));
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}
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#[test]
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fn proposer_slashing() {
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let db_path = tempdir().unwrap();
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let store = get_store(&db_path);
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let harness = get_harness(store.clone(), VALIDATOR_COUNT);
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let validator_index1 = VALIDATOR_COUNT - 1;
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let validator_index2 = VALIDATOR_COUNT - 2;
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let slashing1 = harness.make_proposer_slashing(validator_index1 as u64);
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// First slashing for this proposer should be allowed.
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assert!(matches!(
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harness
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.chain
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.verify_proposer_slashing_for_gossip(slashing1.clone())
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.unwrap(),
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ObservationOutcome::New(_)
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));
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// Duplicate slashing should be detected.
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assert!(matches!(
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harness
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.chain
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.verify_proposer_slashing_for_gossip(slashing1.clone())
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.unwrap(),
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ObservationOutcome::AlreadyKnown
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));
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// Different slashing for the same index should be rejected
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let slashing2 = ProposerSlashing {
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signed_header_1: slashing1.signed_header_2,
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signed_header_2: slashing1.signed_header_1,
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};
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assert!(matches!(
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harness
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.chain
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.verify_proposer_slashing_for_gossip(slashing2)
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.unwrap(),
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ObservationOutcome::AlreadyKnown
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));
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// Proposer slashing for a different index should be accepted
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let slashing3 = harness.make_proposer_slashing(validator_index2 as u64);
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assert!(matches!(
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harness
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.chain
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.verify_proposer_slashing_for_gossip(slashing3)
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.unwrap(),
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ObservationOutcome::New(_)
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));
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}
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#[test]
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fn attester_slashing() {
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let db_path = tempdir().unwrap();
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let store = get_store(&db_path);
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let harness = get_harness(store.clone(), VALIDATOR_COUNT);
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// First third of the validators
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let first_third = (0..VALIDATOR_COUNT as u64 / 3).collect::<Vec<_>>();
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// First half of the validators
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let first_half = (0..VALIDATOR_COUNT as u64 / 2).collect::<Vec<_>>();
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// Last third of the validators
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let last_third = (2 * VALIDATOR_COUNT as u64 / 3..VALIDATOR_COUNT as u64).collect::<Vec<_>>();
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// Last half of the validators
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let second_half = (VALIDATOR_COUNT as u64 / 2..VALIDATOR_COUNT as u64).collect::<Vec<_>>();
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// Slashing for first third of validators should be accepted.
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let slashing1 = harness.make_attester_slashing(first_third);
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assert!(matches!(
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harness
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.chain
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.verify_attester_slashing_for_gossip(slashing1.clone())
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.unwrap(),
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ObservationOutcome::New(_)
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));
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// Overlapping slashing for first half of validators should also be accepted.
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let slashing2 = harness.make_attester_slashing(first_half);
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assert!(matches!(
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harness
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.chain
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.verify_attester_slashing_for_gossip(slashing2.clone())
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.unwrap(),
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ObservationOutcome::New(_)
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));
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// Repeating slashing1 or slashing2 should be rejected
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assert!(matches!(
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harness
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.chain
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.verify_attester_slashing_for_gossip(slashing1.clone())
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.unwrap(),
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ObservationOutcome::AlreadyKnown
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));
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assert!(matches!(
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harness
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.chain
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.verify_attester_slashing_for_gossip(slashing2.clone())
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.unwrap(),
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ObservationOutcome::AlreadyKnown
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));
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// Slashing for last half of validators should be accepted (distinct from all existing)
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let slashing3 = harness.make_attester_slashing(second_half);
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assert!(matches!(
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harness
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.chain
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.verify_attester_slashing_for_gossip(slashing3)
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.unwrap(),
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ObservationOutcome::New(_)
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));
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// Slashing for last third (contained in last half) should be rejected.
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let slashing4 = harness.make_attester_slashing(last_third);
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assert!(matches!(
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harness
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.chain
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.verify_attester_slashing_for_gossip(slashing4)
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.unwrap(),
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ObservationOutcome::AlreadyKnown
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));
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}
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