lighthouse/beacon_node/beacon_chain/tests/block_verification.rs
Pawan Dhananjay 31044402ee
Sidecar inclusion proof (#4900)
* Refactor BlobSidecar to new type

* Fix some compile errors

* Gossip verification compiles

* Fix http api types take 1

* Fix another round of compile errors

* Beacon node crate compiles

* EF tests compile

* Remove all blob signing from VC

* fmt

* Tests compile

* Fix some tests

* Fix more http tests

* get compiling

* Fix gossip conditions and tests

* Add basic proof generation and verification

* remove unnecessary ssz decode

* add back build_sidecar

* remove default at fork for blobs

* fix beacon chain tests

* get relase tests compiling

* fix lints

* fix existing spec tests

* add new ef tests

* fix gossip duplicate rule

* lints

* add back sidecar signature check in gossip

* add finalized descendant check to blob sidecar gossip

* fix error conversion

* fix release tests

* sidecar inclusion self review cleanup

* Add proof verification and computation metrics

* Remove accidentally committed file

* Unify some block and blob errors; add slashing conditions for sidecars

* Address review comment

* Clean up re-org tests (#4957)

* Address more review comments

* Add Comments & Eliminate Unnecessary Clones

* update names

* Update beacon_node/beacon_chain/src/metrics.rs

Co-authored-by: Jimmy Chen <jchen.tc@gmail.com>

* Update beacon_node/network/src/network_beacon_processor/tests.rs

Co-authored-by: Jimmy Chen <jchen.tc@gmail.com>

* pr feedback

* fix test compile

* Sidecar Inclusion proof small refactor and updates (#4967)

* Update some comments, variables and small cosmetic fixes.

* Couple blobs and proofs into a tuple in `PayloadAndBlobs` for simplicity and safety.

* Update function comment.

* Update testing/ef_tests/src/cases/merkle_proof_validity.rs

Co-authored-by: Jimmy Chen <jchen.tc@gmail.com>

* Rename the block and blob wrapper types used in the beacon API interfaces.

* make sure gossip invalid blobs are passed to the slasher (#4970)

* Add blob headers to slasher before adding to DA checker

* Replace Vec with HashSet in BlockQueue

* fmt

* Rename gindex -> index

* Simplify gossip condition

---------

Co-authored-by: realbigsean <seananderson33@gmail.com>
Co-authored-by: realbigsean <sean@sigmaprime.io>
Co-authored-by: Michael Sproul <michael@sigmaprime.io>
Co-authored-by: Mark Mackey <mark@sigmaprime.io>
Co-authored-by: Jimmy Chen <jchen.tc@gmail.com>
2023-12-05 11:19:59 -05:00

1643 lines
54 KiB
Rust

// #![cfg(not(debug_assertions))]
use beacon_chain::block_verification_types::{AsBlock, ExecutedBlock, RpcBlock};
use beacon_chain::{
test_utils::{AttestationStrategy, BeaconChainHarness, BlockStrategy, EphemeralHarnessType},
AvailabilityProcessingStatus, BeaconChain, BeaconChainTypes, ExecutionPendingBlock,
};
use beacon_chain::{
BeaconSnapshot, BlockError, ChainConfig, ChainSegmentResult, IntoExecutionPendingBlock,
NotifyExecutionLayer,
};
use lazy_static::lazy_static;
use logging::test_logger;
use slasher::{Config as SlasherConfig, Slasher};
use state_processing::{
common::get_indexed_attestation,
per_block_processing::{per_block_processing, BlockSignatureStrategy},
per_slot_processing, BlockProcessingError, ConsensusContext, StateProcessingStrategy,
VerifyBlockRoot,
};
use std::marker::PhantomData;
use std::sync::Arc;
use tempfile::tempdir;
use types::{test_utils::generate_deterministic_keypair, *};
type E = MainnetEthSpec;
// Should ideally be divisible by 3.
const VALIDATOR_COUNT: usize = 24;
const CHAIN_SEGMENT_LENGTH: usize = 64 * 5;
const BLOCK_INDICES: &[usize] = &[0, 1, 32, 64, 68 + 1, 129, CHAIN_SEGMENT_LENGTH - 1];
lazy_static! {
/// A cached set of keys.
static ref KEYPAIRS: Vec<Keypair> = types::test_utils::generate_deterministic_keypairs(VALIDATOR_COUNT);
}
async fn get_chain_segment() -> (Vec<BeaconSnapshot<E>>, Vec<Option<BlobSidecarList<E>>>) {
let harness = get_harness(VALIDATOR_COUNT);
harness
.extend_chain(
CHAIN_SEGMENT_LENGTH,
BlockStrategy::OnCanonicalHead,
AttestationStrategy::AllValidators,
)
.await;
let mut segment = Vec::with_capacity(CHAIN_SEGMENT_LENGTH);
let mut segment_blobs = Vec::with_capacity(CHAIN_SEGMENT_LENGTH);
for snapshot in harness
.chain
.chain_dump()
.expect("should dump chain")
.into_iter()
.skip(1)
{
let full_block = harness
.chain
.get_block(&snapshot.beacon_block_root)
.await
.unwrap()
.unwrap();
segment.push(BeaconSnapshot {
beacon_block_root: snapshot.beacon_block_root,
beacon_block: Arc::new(full_block),
beacon_state: snapshot.beacon_state,
});
segment_blobs.push(Some(
harness
.chain
.get_blobs(&snapshot.beacon_block_root)
.unwrap(),
))
}
(segment, segment_blobs)
}
async fn get_chain_segment_with_blob_sidecars(
) -> (Vec<BeaconSnapshot<E>>, Vec<Option<BlobSidecarList<E>>>) {
let harness = get_harness(VALIDATOR_COUNT);
harness
.extend_chain(
CHAIN_SEGMENT_LENGTH,
BlockStrategy::OnCanonicalHead,
AttestationStrategy::AllValidators,
)
.await;
let mut segment = Vec::with_capacity(CHAIN_SEGMENT_LENGTH);
let mut segment_blobs = Vec::with_capacity(CHAIN_SEGMENT_LENGTH);
for snapshot in harness
.chain
.chain_dump()
.expect("should dump chain")
.into_iter()
.skip(1)
{
let full_block = harness
.chain
.get_block(&snapshot.beacon_block_root)
.await
.unwrap()
.unwrap();
segment.push(BeaconSnapshot {
beacon_block_root: snapshot.beacon_block_root,
beacon_block: Arc::new(full_block),
beacon_state: snapshot.beacon_state,
});
let blob_sidecars = harness
.chain
.get_blobs(&snapshot.beacon_block_root)
.unwrap();
segment_blobs.push(Some(blob_sidecars))
}
(segment, segment_blobs)
}
fn get_harness(validator_count: usize) -> BeaconChainHarness<EphemeralHarnessType<E>> {
let harness = BeaconChainHarness::builder(MainnetEthSpec)
.default_spec()
.chain_config(ChainConfig {
reconstruct_historic_states: true,
..ChainConfig::default()
})
.keypairs(KEYPAIRS[0..validator_count].to_vec())
.fresh_ephemeral_store()
.mock_execution_layer()
.build();
harness.advance_slot();
harness
}
fn chain_segment_blocks(
chain_segment: &[BeaconSnapshot<E>],
blobs: &[Option<BlobSidecarList<E>>],
) -> Vec<RpcBlock<E>> {
chain_segment
.iter()
.zip(blobs.iter())
.map(|(snapshot, blobs)| {
RpcBlock::new(None, snapshot.beacon_block.clone(), blobs.clone()).unwrap()
})
.collect()
}
fn junk_signature() -> Signature {
let kp = generate_deterministic_keypair(VALIDATOR_COUNT);
let message = Hash256::from_slice(&[42; 32]);
kp.sk.sign(message)
}
fn junk_aggregate_signature() -> AggregateSignature {
let mut agg_sig = AggregateSignature::empty();
agg_sig.add_assign(&junk_signature());
agg_sig
}
fn update_proposal_signatures(
snapshots: &mut [BeaconSnapshot<E>],
harness: &BeaconChainHarness<EphemeralHarnessType<E>>,
) {
for snapshot in snapshots {
let spec = &harness.chain.spec;
let slot = snapshot.beacon_block.slot();
let state = &snapshot.beacon_state;
let proposer_index = state
.get_beacon_proposer_index(slot, spec)
.expect("should find proposer index");
let keypair = harness
.validator_keypairs
.get(proposer_index)
.expect("proposer keypair should be available");
let (block, _) = snapshot.beacon_block.as_ref().clone().deconstruct();
snapshot.beacon_block = Arc::new(block.sign(
&keypair.sk,
&state.fork(),
state.genesis_validators_root(),
spec,
));
}
}
fn update_parent_roots(
snapshots: &mut [BeaconSnapshot<E>],
blobs: &mut [Option<BlobSidecarList<E>>],
) {
for i in 0..snapshots.len() {
let root = snapshots[i].beacon_block.canonical_root();
if let (Some(child), Some(child_blobs)) = (snapshots.get_mut(i + 1), blobs.get_mut(i + 1)) {
let (mut block, signature) = child.beacon_block.as_ref().clone().deconstruct();
*block.parent_root_mut() = root;
let new_child = Arc::new(SignedBeaconBlock::from_block(block, signature));
if let Some(blobs) = child_blobs {
update_blob_signed_header(&new_child, blobs);
}
child.beacon_block = new_child;
}
}
}
fn update_blob_signed_header<E: EthSpec>(
signed_block: &SignedBeaconBlock<E>,
blobs: &mut BlobSidecarList<E>,
) {
for old_blob_sidecar in blobs.iter_mut() {
let new_blob = Arc::new(BlobSidecar::<E> {
index: old_blob_sidecar.index,
blob: old_blob_sidecar.blob.clone(),
kzg_commitment: old_blob_sidecar.kzg_commitment,
kzg_proof: old_blob_sidecar.kzg_proof,
signed_block_header: signed_block.signed_block_header(),
kzg_commitment_inclusion_proof: signed_block
.message()
.body()
.kzg_commitment_merkle_proof(old_blob_sidecar.index as usize)
.unwrap(),
});
*old_blob_sidecar = new_blob;
}
}
#[tokio::test]
async fn chain_segment_full_segment() {
let harness = get_harness(VALIDATOR_COUNT);
let (chain_segment, chain_segment_blobs) = get_chain_segment().await;
let blocks: Vec<RpcBlock<E>> = chain_segment_blocks(&chain_segment, &chain_segment_blobs)
.into_iter()
.collect();
harness
.chain
.slot_clock
.set_slot(blocks.last().unwrap().slot().as_u64());
// Sneak in a little check to ensure we can process empty chain segments.
harness
.chain
.process_chain_segment(vec![], NotifyExecutionLayer::Yes)
.await
.into_block_error()
.expect("should import empty chain segment");
harness
.chain
.process_chain_segment(blocks.clone(), NotifyExecutionLayer::Yes)
.await
.into_block_error()
.expect("should import chain segment");
harness.chain.recompute_head_at_current_slot().await;
assert_eq!(
harness.head_block_root(),
blocks.last().unwrap().canonical_root(),
"harness should have last block as head"
);
}
#[tokio::test]
async fn chain_segment_varying_chunk_size() {
for chunk_size in &[1, 2, 3, 5, 31, 32, 33, 42] {
let harness = get_harness(VALIDATOR_COUNT);
let (chain_segment, chain_segment_blobs) = get_chain_segment().await;
let blocks: Vec<RpcBlock<E>> = chain_segment_blocks(&chain_segment, &chain_segment_blobs)
.into_iter()
.collect();
harness
.chain
.slot_clock
.set_slot(blocks.last().unwrap().slot().as_u64());
for chunk in blocks.chunks(*chunk_size) {
harness
.chain
.process_chain_segment(chunk.to_vec(), NotifyExecutionLayer::Yes)
.await
.into_block_error()
.unwrap_or_else(|_| panic!("should import chain segment of len {}", chunk_size));
}
harness.chain.recompute_head_at_current_slot().await;
assert_eq!(
harness.head_block_root(),
blocks.last().unwrap().canonical_root(),
"harness should have last block as head"
);
}
}
#[tokio::test]
async fn chain_segment_non_linear_parent_roots() {
let harness = get_harness(VALIDATOR_COUNT);
let (chain_segment, chain_segment_blobs) = get_chain_segment().await;
harness
.chain
.slot_clock
.set_slot(chain_segment.last().unwrap().beacon_block.slot().as_u64());
/*
* Test with a block removed.
*/
let mut blocks: Vec<RpcBlock<E>> = chain_segment_blocks(&chain_segment, &chain_segment_blobs)
.into_iter()
.collect();
blocks.remove(2);
assert!(
matches!(
harness
.chain
.process_chain_segment(blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error(),
Err(BlockError::NonLinearParentRoots)
),
"should not import chain with missing parent"
);
/*
* Test with a modified parent root.
*/
let mut blocks: Vec<RpcBlock<E>> = chain_segment_blocks(&chain_segment, &chain_segment_blobs)
.into_iter()
.collect();
let (mut block, signature) = blocks[3].as_block().clone().deconstruct();
*block.parent_root_mut() = Hash256::zero();
blocks[3] = RpcBlock::new_without_blobs(
None,
Arc::new(SignedBeaconBlock::from_block(block, signature)),
);
assert!(
matches!(
harness
.chain
.process_chain_segment(blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error(),
Err(BlockError::NonLinearParentRoots)
),
"should not import chain with a broken parent root link"
);
}
#[tokio::test]
async fn chain_segment_non_linear_slots() {
let harness = get_harness(VALIDATOR_COUNT);
let (chain_segment, chain_segment_blobs) = get_chain_segment().await;
harness
.chain
.slot_clock
.set_slot(chain_segment.last().unwrap().beacon_block.slot().as_u64());
/*
* Test where a child is lower than the parent.
*/
let mut blocks: Vec<RpcBlock<E>> = chain_segment_blocks(&chain_segment, &chain_segment_blobs)
.into_iter()
.collect();
let (mut block, signature) = blocks[3].as_block().clone().deconstruct();
*block.slot_mut() = Slot::new(0);
blocks[3] = RpcBlock::new_without_blobs(
None,
Arc::new(SignedBeaconBlock::from_block(block, signature)),
);
assert!(
matches!(
harness
.chain
.process_chain_segment(blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error(),
Err(BlockError::NonLinearSlots)
),
"should not import chain with a parent that has a lower slot than its child"
);
/*
* Test where a child is equal to the parent.
*/
let mut blocks: Vec<RpcBlock<E>> = chain_segment_blocks(&chain_segment, &chain_segment_blobs)
.into_iter()
.collect();
let (mut block, signature) = blocks[3].as_block().clone().deconstruct();
*block.slot_mut() = blocks[2].slot();
blocks[3] = RpcBlock::new_without_blobs(
None,
Arc::new(SignedBeaconBlock::from_block(block, signature)),
);
assert!(
matches!(
harness
.chain
.process_chain_segment(blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error(),
Err(BlockError::NonLinearSlots)
),
"should not import chain with a parent that has an equal slot to its child"
);
}
async fn assert_invalid_signature(
chain_segment: &[BeaconSnapshot<E>],
chain_segment_blobs: &[Option<BlobSidecarList<E>>],
harness: &BeaconChainHarness<EphemeralHarnessType<E>>,
block_index: usize,
snapshots: &[BeaconSnapshot<E>],
item: &str,
) {
let blocks: Vec<RpcBlock<E>> = snapshots
.iter()
.zip(chain_segment_blobs.iter())
.map(|(snapshot, blobs)| {
RpcBlock::new(None, snapshot.beacon_block.clone(), blobs.clone()).unwrap()
})
.collect();
// Ensure the block will be rejected if imported in a chain segment.
assert!(
matches!(
harness
.chain
.process_chain_segment(blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error(),
Err(BlockError::InvalidSignature)
),
"should not import chain segment with an invalid {} signature",
item
);
// Call fork choice to update cached head (including finalization).
harness.chain.recompute_head_at_current_slot().await;
// Ensure the block will be rejected if imported on its own (without gossip checking).
let ancestor_blocks = chain_segment
.iter()
.take(block_index)
.zip(chain_segment_blobs.iter())
.map(|(snapshot, blobs)| {
RpcBlock::new(None, snapshot.beacon_block.clone(), blobs.clone()).unwrap()
})
.collect();
// We don't care if this fails, we just call this to ensure that all prior blocks have been
// imported prior to this test.
let _ = harness
.chain
.process_chain_segment(ancestor_blocks, NotifyExecutionLayer::Yes)
.await;
harness.chain.recompute_head_at_current_slot().await;
let process_res = harness
.chain
.process_block(
snapshots[block_index].beacon_block.canonical_root(),
RpcBlock::new(
None,
snapshots[block_index].beacon_block.clone(),
chain_segment_blobs[block_index].clone(),
)
.unwrap(),
NotifyExecutionLayer::Yes,
|| Ok(()),
)
.await;
assert!(
matches!(process_res, Err(BlockError::InvalidSignature)),
"should not import individual block with an invalid {} signature, got: {:?}",
item,
process_res
);
// NOTE: we choose not to check gossip verification here. It only checks one signature
// (proposal) and that is already tested elsewhere in this file.
//
// It's not trivial to just check gossip verification since it will start refusing
// blocks as soon as it has seen one valid proposal signature for a given (validator,
// slot) tuple.
}
async fn get_invalid_sigs_harness(
chain_segment: &[BeaconSnapshot<E>],
) -> BeaconChainHarness<EphemeralHarnessType<E>> {
let harness = get_harness(VALIDATOR_COUNT);
harness
.chain
.slot_clock
.set_slot(chain_segment.last().unwrap().beacon_block.slot().as_u64());
harness
}
#[tokio::test]
async fn invalid_signature_gossip_block() {
let (chain_segment, chain_segment_blobs) = get_chain_segment().await;
for &block_index in BLOCK_INDICES {
// Ensure the block will be rejected if imported on its own (without gossip checking).
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let (block, _) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
snapshots[block_index].beacon_block = Arc::new(SignedBeaconBlock::from_block(
block.clone(),
junk_signature(),
));
// Import all the ancestors before the `block_index` block.
let ancestor_blocks = chain_segment
.iter()
.take(block_index)
.zip(chain_segment_blobs.iter())
.map(|(snapshot, blobs)| {
RpcBlock::new(None, snapshot.beacon_block.clone(), blobs.clone()).unwrap()
})
.collect();
harness
.chain
.process_chain_segment(ancestor_blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error()
.expect("should import all blocks prior to the one being tested");
let signed_block = SignedBeaconBlock::from_block(block, junk_signature());
assert!(
matches!(
harness
.chain
.process_block(
signed_block.canonical_root(),
Arc::new(signed_block),
NotifyExecutionLayer::Yes,
|| Ok(()),
)
.await,
Err(BlockError::InvalidSignature)
),
"should not import individual block with an invalid gossip signature",
);
}
}
#[tokio::test]
async fn invalid_signature_block_proposal() {
let (chain_segment, chain_segment_blobs) = get_chain_segment().await;
for &block_index in BLOCK_INDICES {
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let (block, _) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
snapshots[block_index].beacon_block = Arc::new(SignedBeaconBlock::from_block(
block.clone(),
junk_signature(),
));
let blocks: Vec<RpcBlock<E>> = snapshots
.iter()
.zip(chain_segment_blobs.iter())
.map(|(snapshot, blobs)| {
RpcBlock::new(None, snapshot.beacon_block.clone(), blobs.clone()).unwrap()
})
.collect::<Vec<_>>();
// Ensure the block will be rejected if imported in a chain segment.
assert!(
matches!(
harness
.chain
.process_chain_segment(blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error(),
Err(BlockError::InvalidSignature)
),
"should not import chain segment with an invalid block signature",
);
}
}
#[tokio::test]
async fn invalid_signature_randao_reveal() {
let (chain_segment, mut chain_segment_blobs) = get_chain_segment().await;
for &block_index in BLOCK_INDICES {
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let (mut block, signature) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
*block.body_mut().randao_reveal_mut() = junk_signature();
snapshots[block_index].beacon_block =
Arc::new(SignedBeaconBlock::from_block(block, signature));
update_parent_roots(&mut snapshots, &mut chain_segment_blobs);
update_proposal_signatures(&mut snapshots, &harness);
assert_invalid_signature(
&chain_segment,
&chain_segment_blobs,
&harness,
block_index,
&snapshots,
"randao",
)
.await;
}
}
#[tokio::test]
async fn invalid_signature_proposer_slashing() {
let (chain_segment, mut chain_segment_blobs) = get_chain_segment().await;
for &block_index in BLOCK_INDICES {
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let (mut block, signature) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
let proposer_slashing = ProposerSlashing {
signed_header_1: SignedBeaconBlockHeader {
message: block.block_header(),
signature: junk_signature(),
},
signed_header_2: SignedBeaconBlockHeader {
message: block.block_header(),
signature: junk_signature(),
},
};
block
.body_mut()
.proposer_slashings_mut()
.push(proposer_slashing)
.expect("should update proposer slashing");
snapshots[block_index].beacon_block =
Arc::new(SignedBeaconBlock::from_block(block, signature));
update_parent_roots(&mut snapshots, &mut chain_segment_blobs);
update_proposal_signatures(&mut snapshots, &harness);
assert_invalid_signature(
&chain_segment,
&chain_segment_blobs,
&harness,
block_index,
&snapshots,
"proposer slashing",
)
.await;
}
}
#[tokio::test]
async fn invalid_signature_attester_slashing() {
let (chain_segment, mut chain_segment_blobs) = get_chain_segment().await;
for &block_index in BLOCK_INDICES {
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let indexed_attestation = IndexedAttestation {
attesting_indices: vec![0].into(),
data: AttestationData {
slot: Slot::new(0),
index: 0,
beacon_block_root: Hash256::zero(),
source: Checkpoint {
epoch: Epoch::new(0),
root: Hash256::zero(),
},
target: Checkpoint {
epoch: Epoch::new(0),
root: Hash256::zero(),
},
},
signature: junk_aggregate_signature(),
};
let attester_slashing = AttesterSlashing {
attestation_1: indexed_attestation.clone(),
attestation_2: indexed_attestation,
};
let (mut block, signature) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
block
.body_mut()
.attester_slashings_mut()
.push(attester_slashing)
.expect("should update attester slashing");
snapshots[block_index].beacon_block =
Arc::new(SignedBeaconBlock::from_block(block, signature));
update_parent_roots(&mut snapshots, &mut chain_segment_blobs);
update_proposal_signatures(&mut snapshots, &harness);
assert_invalid_signature(
&chain_segment,
&chain_segment_blobs,
&harness,
block_index,
&snapshots,
"attester slashing",
)
.await;
}
}
#[tokio::test]
async fn invalid_signature_attestation() {
let (chain_segment, mut chain_segment_blobs) = get_chain_segment().await;
let mut checked_attestation = false;
for &block_index in BLOCK_INDICES {
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let (mut block, signature) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
if let Some(attestation) = block.body_mut().attestations_mut().get_mut(0) {
attestation.signature = junk_aggregate_signature();
snapshots[block_index].beacon_block =
Arc::new(SignedBeaconBlock::from_block(block, signature));
update_parent_roots(&mut snapshots, &mut chain_segment_blobs);
update_proposal_signatures(&mut snapshots, &harness);
assert_invalid_signature(
&chain_segment,
&chain_segment_blobs,
&harness,
block_index,
&snapshots,
"attestation",
)
.await;
checked_attestation = true;
}
}
assert!(
checked_attestation,
"the test should check an attestation signature"
)
}
#[tokio::test]
async fn invalid_signature_deposit() {
let (chain_segment, mut chain_segment_blobs) = get_chain_segment().await;
for &block_index in BLOCK_INDICES {
// Note: an invalid deposit signature is permitted!
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let deposit = Deposit {
proof: vec![Hash256::zero(); DEPOSIT_TREE_DEPTH + 1].into(),
data: DepositData {
pubkey: Keypair::random().pk.into(),
withdrawal_credentials: Hash256::zero(),
amount: 0,
signature: junk_signature().into(),
},
};
let (mut block, signature) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
block
.body_mut()
.deposits_mut()
.push(deposit)
.expect("should update deposit");
snapshots[block_index].beacon_block =
Arc::new(SignedBeaconBlock::from_block(block, signature));
update_parent_roots(&mut snapshots, &mut chain_segment_blobs);
update_proposal_signatures(&mut snapshots, &harness);
let blocks: Vec<RpcBlock<E>> = snapshots
.iter()
.zip(chain_segment_blobs.iter())
.map(|(snapshot, blobs)| {
RpcBlock::new(None, snapshot.beacon_block.clone(), blobs.clone()).unwrap()
})
.collect();
assert!(
!matches!(
harness
.chain
.process_chain_segment(blocks, NotifyExecutionLayer::Yes)
.await
.into_block_error(),
Err(BlockError::InvalidSignature)
),
"should not throw an invalid signature error for a bad deposit signature"
);
}
}
#[tokio::test]
async fn invalid_signature_exit() {
let (chain_segment, mut chain_segment_blobs) = get_chain_segment().await;
for &block_index in BLOCK_INDICES {
let harness = get_invalid_sigs_harness(&chain_segment).await;
let mut snapshots = chain_segment.clone();
let epoch = snapshots[block_index].beacon_state.current_epoch();
let (mut block, signature) = snapshots[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
block
.body_mut()
.voluntary_exits_mut()
.push(SignedVoluntaryExit {
message: VoluntaryExit {
epoch,
validator_index: 0,
},
signature: junk_signature(),
})
.expect("should update deposit");
snapshots[block_index].beacon_block =
Arc::new(SignedBeaconBlock::from_block(block, signature));
update_parent_roots(&mut snapshots, &mut chain_segment_blobs);
update_proposal_signatures(&mut snapshots, &harness);
assert_invalid_signature(
&chain_segment,
&chain_segment_blobs,
&harness,
block_index,
&snapshots,
"voluntary exit",
)
.await;
}
}
fn unwrap_err<T, E>(result: Result<T, E>) -> E {
match result {
Ok(_) => panic!("called unwrap_err on Ok"),
Err(e) => e,
}
}
#[tokio::test]
async fn block_gossip_verification() {
let harness = get_harness(VALIDATOR_COUNT);
let (chain_segment, chain_segment_blobs) = get_chain_segment_with_blob_sidecars().await;
let block_index = CHAIN_SEGMENT_LENGTH - 2;
harness
.chain
.slot_clock
.set_slot(chain_segment[block_index].beacon_block.slot().as_u64());
// Import the ancestors prior to the block we're testing.
for (snapshot, blobs_opt) in chain_segment[0..block_index]
.iter()
.zip(chain_segment_blobs.iter())
{
let gossip_verified = harness
.chain
.verify_block_for_gossip(snapshot.beacon_block.clone())
.await
.expect("should obtain gossip verified block");
harness
.chain
.process_block(
gossip_verified.block_root,
gossip_verified,
NotifyExecutionLayer::Yes,
|| Ok(()),
)
.await
.expect("should import valid gossip verified block");
if let Some(blob_sidecars) = blobs_opt {
for blob_sidecar in blob_sidecars {
let blob_index = blob_sidecar.index;
let gossip_verified = harness
.chain
.verify_blob_sidecar_for_gossip(blob_sidecar.clone(), blob_index)
.expect("should obtain gossip verified blob");
harness
.chain
.process_gossip_blob(gossip_verified)
.await
.expect("should import valid gossip verified blob");
}
}
}
// Recompute the head to ensure we cache the latest view of fork choice.
harness.chain.recompute_head_at_current_slot().await;
/*
* This test ensures that:
*
* Spec v0.12.1
*
* The block is not from a future slot (with a MAXIMUM_GOSSIP_CLOCK_DISPARITY allowance) --
* i.e. validate that signed_beacon_block.message.slot <= current_slot (a client MAY queue
* future blocks for processing at the appropriate slot).
*/
let (mut block, signature) = chain_segment[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
let expected_block_slot = block.slot() + 1;
*block.slot_mut() = expected_block_slot;
assert!(
matches!(
unwrap_err(harness.chain.verify_block_for_gossip(Arc::new(SignedBeaconBlock::from_block(block, signature))).await),
BlockError::FutureSlot {
present_slot,
block_slot,
}
if present_slot == expected_block_slot - 1 && block_slot == expected_block_slot
),
"should not import a block with a future slot"
);
/*
* This test ensure that:
*
* Spec v0.12.1
*
* The block is from a slot greater than the latest finalized slot -- i.e. validate that
* signed_beacon_block.message.slot >
* compute_start_slot_at_epoch(state.finalized_checkpoint.epoch) (a client MAY choose to
* validate and store such blocks for additional purposes -- e.g. slashing detection, archive
* nodes, etc).
*/
let (mut block, signature) = chain_segment[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
let expected_finalized_slot = harness
.finalized_checkpoint()
.epoch
.start_slot(E::slots_per_epoch());
*block.slot_mut() = expected_finalized_slot;
assert!(
matches!(
unwrap_err(harness.chain.verify_block_for_gossip(Arc::new(SignedBeaconBlock::from_block(block, signature))).await),
BlockError::WouldRevertFinalizedSlot {
block_slot,
finalized_slot,
}
if block_slot == expected_finalized_slot && finalized_slot == expected_finalized_slot
),
"should not import a block with a finalized slot"
);
/*
* This test ensures that:
*
* Spec v0.12.1
*
* The proposer signature, signed_beacon_block.signature, is valid with respect to the
* proposer_index pubkey.
*/
let block = chain_segment[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct()
.0;
assert!(
matches!(
unwrap_err(
harness
.chain
.verify_block_for_gossip(Arc::new(SignedBeaconBlock::from_block(
block,
junk_signature()
)))
.await
),
BlockError::ProposalSignatureInvalid
),
"should not import a block with an invalid proposal signature"
);
/*
* This test ensures that:
*
* Spec v0.12.2
*
* The block's parent (defined by block.parent_root) passes validation.
*/
let (mut block, signature) = chain_segment[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
let parent_root = Hash256::from_low_u64_be(42);
*block.parent_root_mut() = parent_root;
assert!(
matches!(
unwrap_err(harness.chain.verify_block_for_gossip(Arc::new(SignedBeaconBlock::from_block(block, signature))).await),
BlockError::ParentUnknown(block)
if block.parent_root() == parent_root
),
"should not import a block for an unknown parent"
);
/*
* This test ensures that:
*
* Spec v0.12.2
*
* The current finalized_checkpoint is an ancestor of block -- i.e. get_ancestor(store,
* block.parent_root, compute_start_slot_at_epoch(store.finalized_checkpoint.epoch)) ==
* store.finalized_checkpoint.root
*/
let (mut block, signature) = chain_segment[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct();
let parent_root = chain_segment[0].beacon_block_root;
*block.parent_root_mut() = parent_root;
assert!(
matches!(
unwrap_err(harness.chain.verify_block_for_gossip(Arc::new(SignedBeaconBlock::from_block(block, signature))).await),
BlockError::NotFinalizedDescendant { block_parent_root }
if block_parent_root == parent_root
),
"should not import a block that conflicts with finality"
);
/*
* This test ensures that:
*
* Spec v0.12.1
*
* The block is proposed by the expected proposer_index for the block's slot in the context of
* the current shuffling (defined by parent_root/slot). If the proposer_index cannot
* immediately be verified against the expected shuffling, the block MAY be queued for later
* processing while proposers for the block's branch are calculated.
*/
let mut block = chain_segment[block_index]
.beacon_block
.as_ref()
.clone()
.deconstruct()
.0;
let expected_proposer = block.proposer_index();
let other_proposer = (0..VALIDATOR_COUNT as u64)
.find(|i| *i != block.proposer_index())
.expect("there must be more than one validator in this test");
*block.proposer_index_mut() = other_proposer;
let block = block.sign(
&generate_deterministic_keypair(other_proposer as usize).sk,
&harness.chain.canonical_head.cached_head().head_fork(),
harness.chain.genesis_validators_root,
&harness.chain.spec,
);
assert!(
matches!(
unwrap_err(harness.chain.verify_block_for_gossip(Arc::new(block.clone())).await),
BlockError::IncorrectBlockProposer {
block,
local_shuffling,
}
if block == other_proposer && local_shuffling == expected_proposer
),
"should not import a block with the wrong proposer index"
);
// Check to ensure that we registered this is a valid block from this proposer.
assert!(
matches!(
unwrap_err(harness.chain.verify_block_for_gossip(Arc::new(block.clone())).await),
BlockError::BlockIsAlreadyKnown,
),
"should register any valid signature against the proposer, even if the block failed later verification"
);
let block = chain_segment[block_index].beacon_block.clone();
assert!(
harness.chain.verify_block_for_gossip(block).await.is_ok(),
"the valid block should be processed"
);
/*
* This test ensures that:
*
* Spec v0.12.1
*
* The block is the first block with valid signature received for the proposer for the slot,
* signed_beacon_block.message.slot.
*/
let block = chain_segment[block_index].beacon_block.clone();
assert!(
matches!(
harness
.chain
.verify_block_for_gossip(block.clone())
.await
.expect_err("should error when processing known block"),
BlockError::BlockIsAlreadyKnown
),
"the second proposal by this validator should be rejected"
);
}
#[tokio::test]
async fn verify_block_for_gossip_slashing_detection() {
let slasher_dir = tempdir().unwrap();
let slasher = Arc::new(
Slasher::open(SlasherConfig::new(slasher_dir.path().into()), test_logger()).unwrap(),
);
let inner_slasher = slasher.clone();
let harness = BeaconChainHarness::builder(MainnetEthSpec)
.default_spec()
.keypairs(KEYPAIRS.to_vec())
.fresh_ephemeral_store()
.initial_mutator(Box::new(move |builder| builder.slasher(inner_slasher)))
.mock_execution_layer()
.build();
harness.advance_slot();
let state = harness.get_current_state();
let ((block1, blobs1), _) = harness.make_block(state.clone(), Slot::new(1)).await;
let ((block2, _blobs2), _) = harness.make_block(state, Slot::new(1)).await;
let verified_block = harness
.chain
.verify_block_for_gossip(Arc::new(block1))
.await
.unwrap();
if let Some((kzg_proofs, blobs)) = blobs1 {
let sidecars =
BlobSidecar::build_sidecars(blobs, verified_block.block(), kzg_proofs).unwrap();
for sidecar in sidecars {
let blob_index = sidecar.index;
let verified_blob = harness
.chain
.verify_blob_sidecar_for_gossip(sidecar, blob_index)
.unwrap();
harness
.chain
.process_gossip_blob(verified_blob)
.await
.unwrap();
}
}
harness
.chain
.process_block(
verified_block.block_root,
verified_block,
NotifyExecutionLayer::Yes,
|| Ok(()),
)
.await
.unwrap();
unwrap_err(
harness
.chain
.verify_block_for_gossip(Arc::new(block2))
.await,
);
// Slasher should have been handed the two conflicting blocks and crafted a slashing.
slasher.process_queued(Epoch::new(0)).unwrap();
let proposer_slashings = slasher.get_proposer_slashings();
assert_eq!(proposer_slashings.len(), 1);
// windows won't delete the temporary directory if you don't do this..
drop(harness);
drop(slasher);
slasher_dir.close().unwrap();
}
#[tokio::test]
async fn verify_block_for_gossip_doppelganger_detection() {
let harness = get_harness(VALIDATOR_COUNT);
let state = harness.get_current_state();
let ((block, _), _) = harness.make_block(state.clone(), Slot::new(1)).await;
let verified_block = harness
.chain
.verify_block_for_gossip(Arc::new(block))
.await
.unwrap();
let attestations = verified_block.block.message().body().attestations().clone();
harness
.chain
.process_block(
verified_block.block_root,
verified_block,
NotifyExecutionLayer::Yes,
|| Ok(()),
)
.await
.unwrap();
for att in attestations.iter() {
let epoch = att.data.target.epoch;
let committee = state
.get_beacon_committee(att.data.slot, att.data.index)
.unwrap();
let indexed_attestation = get_indexed_attestation(committee.committee, att).unwrap();
for &index in &indexed_attestation.attesting_indices {
let index = index as usize;
assert!(harness.chain.validator_seen_at_epoch(index, epoch));
// Check the correct beacon cache is populated
assert!(harness
.chain
.observed_block_attesters
.read()
.validator_has_been_observed(epoch, index)
.expect("should check if block attester was observed"));
assert!(!harness
.chain
.observed_gossip_attesters
.read()
.validator_has_been_observed(epoch, index)
.expect("should check if gossip attester was observed"));
assert!(!harness
.chain
.observed_aggregators
.read()
.validator_has_been_observed(epoch, index)
.expect("should check if gossip aggregator was observed"));
}
}
}
#[tokio::test]
async fn add_base_block_to_altair_chain() {
let mut spec = MainnetEthSpec::default_spec();
let slots_per_epoch = MainnetEthSpec::slots_per_epoch();
// The Altair fork happens at epoch 1.
spec.altair_fork_epoch = Some(Epoch::new(1));
let harness = BeaconChainHarness::builder(MainnetEthSpec)
.spec(spec)
.keypairs(KEYPAIRS[..].to_vec())
.fresh_ephemeral_store()
.mock_execution_layer()
.build();
// Move out of the genesis slot.
harness.advance_slot();
// Build out all the blocks in epoch 0.
harness
.extend_chain(
slots_per_epoch as usize,
BlockStrategy::OnCanonicalHead,
AttestationStrategy::AllValidators,
)
.await;
// Move into the next empty slot.
harness.advance_slot();
// Produce an Altair block.
let state = harness.get_current_state();
let slot = harness.get_current_slot();
let ((altair_signed_block, _), _) = harness.make_block(state.clone(), slot).await;
let altair_block = &altair_signed_block
.as_altair()
.expect("test expects an altair block")
.message;
let altair_body = &altair_block.body;
// Create a Base-equivalent of `altair_block`.
let base_block = SignedBeaconBlock::Base(SignedBeaconBlockBase {
message: BeaconBlockBase {
slot: altair_block.slot,
proposer_index: altair_block.proposer_index,
parent_root: altair_block.parent_root,
state_root: altair_block.state_root,
body: BeaconBlockBodyBase {
randao_reveal: altair_body.randao_reveal.clone(),
eth1_data: altair_body.eth1_data.clone(),
graffiti: altair_body.graffiti,
proposer_slashings: altair_body.proposer_slashings.clone(),
attester_slashings: altair_body.attester_slashings.clone(),
attestations: altair_body.attestations.clone(),
deposits: altair_body.deposits.clone(),
voluntary_exits: altair_body.voluntary_exits.clone(),
_phantom: PhantomData,
},
},
signature: Signature::empty(),
});
// Ensure that it would be impossible to apply this block to `per_block_processing`.
{
let mut state = state;
let mut ctxt = ConsensusContext::new(base_block.slot());
per_slot_processing(&mut state, None, &harness.chain.spec).unwrap();
assert!(matches!(
per_block_processing(
&mut state,
&base_block,
BlockSignatureStrategy::NoVerification,
StateProcessingStrategy::Accurate,
VerifyBlockRoot::True,
&mut ctxt,
&harness.chain.spec,
),
Err(BlockProcessingError::InconsistentBlockFork(
InconsistentFork {
fork_at_slot: ForkName::Altair,
object_fork: ForkName::Base,
}
))
));
}
// Ensure that it would be impossible to verify this block for gossip.
assert!(matches!(
harness
.chain
.verify_block_for_gossip(Arc::new(base_block.clone()))
.await
.expect_err("should error when processing base block"),
BlockError::InconsistentFork(InconsistentFork {
fork_at_slot: ForkName::Altair,
object_fork: ForkName::Base,
})
));
// Ensure that it would be impossible to import via `BeaconChain::process_block`.
assert!(matches!(
harness
.chain
.process_block(
base_block.canonical_root(),
Arc::new(base_block.clone()),
NotifyExecutionLayer::Yes,
|| Ok(()),
)
.await
.expect_err("should error when processing base block"),
BlockError::InconsistentFork(InconsistentFork {
fork_at_slot: ForkName::Altair,
object_fork: ForkName::Base,
})
));
// Ensure that it would be impossible to import via `BeaconChain::process_chain_segment`.
assert!(matches!(
harness
.chain
.process_chain_segment(
vec![RpcBlock::new_without_blobs(None, Arc::new(base_block))],
NotifyExecutionLayer::Yes,
)
.await,
ChainSegmentResult::Failed {
imported_blocks: 0,
error: BlockError::InconsistentFork(InconsistentFork {
fork_at_slot: ForkName::Altair,
object_fork: ForkName::Base,
})
}
));
}
#[tokio::test]
async fn add_altair_block_to_base_chain() {
let mut spec = MainnetEthSpec::default_spec();
// Altair never happens.
spec.altair_fork_epoch = None;
let harness = BeaconChainHarness::builder(MainnetEthSpec)
.spec(spec)
.keypairs(KEYPAIRS[..].to_vec())
.fresh_ephemeral_store()
.mock_execution_layer()
.build();
// Move out of the genesis slot.
harness.advance_slot();
// Build one block.
harness
.extend_chain(
1,
BlockStrategy::OnCanonicalHead,
AttestationStrategy::AllValidators,
)
.await;
// Move into the next empty slot.
harness.advance_slot();
// Produce an altair block.
let state = harness.get_current_state();
let slot = harness.get_current_slot();
let ((base_signed_block, _), _) = harness.make_block(state.clone(), slot).await;
let base_block = &base_signed_block
.as_base()
.expect("test expects a base block")
.message;
let base_body = &base_block.body;
// Create an Altair-equivalent of `altair_block`.
let altair_block = SignedBeaconBlock::Altair(SignedBeaconBlockAltair {
message: BeaconBlockAltair {
slot: base_block.slot,
proposer_index: base_block.proposer_index,
parent_root: base_block.parent_root,
state_root: base_block.state_root,
body: BeaconBlockBodyAltair {
randao_reveal: base_body.randao_reveal.clone(),
eth1_data: base_body.eth1_data.clone(),
graffiti: base_body.graffiti,
proposer_slashings: base_body.proposer_slashings.clone(),
attester_slashings: base_body.attester_slashings.clone(),
attestations: base_body.attestations.clone(),
deposits: base_body.deposits.clone(),
voluntary_exits: base_body.voluntary_exits.clone(),
sync_aggregate: SyncAggregate::empty(),
_phantom: PhantomData,
},
},
signature: Signature::empty(),
});
// Ensure that it would be impossible to apply this block to `per_block_processing`.
{
let mut state = state;
let mut ctxt = ConsensusContext::new(altair_block.slot());
per_slot_processing(&mut state, None, &harness.chain.spec).unwrap();
assert!(matches!(
per_block_processing(
&mut state,
&altair_block,
BlockSignatureStrategy::NoVerification,
StateProcessingStrategy::Accurate,
VerifyBlockRoot::True,
&mut ctxt,
&harness.chain.spec,
),
Err(BlockProcessingError::InconsistentBlockFork(
InconsistentFork {
fork_at_slot: ForkName::Base,
object_fork: ForkName::Altair,
}
))
));
}
// Ensure that it would be impossible to verify this block for gossip.
assert!(matches!(
harness
.chain
.verify_block_for_gossip(Arc::new(altair_block.clone()))
.await
.expect_err("should error when processing altair block"),
BlockError::InconsistentFork(InconsistentFork {
fork_at_slot: ForkName::Base,
object_fork: ForkName::Altair,
})
));
// Ensure that it would be impossible to import via `BeaconChain::process_block`.
assert!(matches!(
harness
.chain
.process_block(
altair_block.canonical_root(),
Arc::new(altair_block.clone()),
NotifyExecutionLayer::Yes,
|| Ok(()),
)
.await
.expect_err("should error when processing altair block"),
BlockError::InconsistentFork(InconsistentFork {
fork_at_slot: ForkName::Base,
object_fork: ForkName::Altair,
})
));
// Ensure that it would be impossible to import via `BeaconChain::process_chain_segment`.
assert!(matches!(
harness
.chain
.process_chain_segment(
vec![RpcBlock::new_without_blobs(None, Arc::new(altair_block))],
NotifyExecutionLayer::Yes
)
.await,
ChainSegmentResult::Failed {
imported_blocks: 0,
error: BlockError::InconsistentFork(InconsistentFork {
fork_at_slot: ForkName::Base,
object_fork: ForkName::Altair,
})
}
));
}
#[tokio::test]
async fn import_duplicate_block_unrealized_justification() {
let spec = MainnetEthSpec::default_spec();
let harness = BeaconChainHarness::builder(MainnetEthSpec)
.spec(spec)
.keypairs(KEYPAIRS[..].to_vec())
.fresh_ephemeral_store()
.mock_execution_layer()
.build();
let chain = &harness.chain;
// Move out of the genesis slot.
harness.advance_slot();
// Build the chain out to the first justification opportunity 2/3rds of the way through epoch 2.
let num_slots = E::slots_per_epoch() as usize * 8 / 3;
harness
.extend_chain(
num_slots,
BlockStrategy::OnCanonicalHead,
AttestationStrategy::AllValidators,
)
.await;
// Move into the next empty slot.
harness.advance_slot();
// The store's justified checkpoint must still be at epoch 0, while unrealized justification
// must be at epoch 1.
{
let fc = chain.canonical_head.fork_choice_read_lock();
assert_eq!(fc.justified_checkpoint().epoch, 0);
assert_eq!(fc.unrealized_justified_checkpoint().epoch, 1);
drop(fc);
}
// Produce a block to justify epoch 2.
let state = harness.get_current_state();
let slot = harness.get_current_slot();
let (block_contents, _) = harness.make_block(state.clone(), slot).await;
let (block, _) = block_contents;
let block = Arc::new(block);
let block_root = block.canonical_root();
// Create two verified variants of the block, representing the same block being processed in
// parallel.
let notify_execution_layer = NotifyExecutionLayer::Yes;
let verified_block1 = block
.clone()
.into_execution_pending_block(block_root, chain, notify_execution_layer)
.unwrap();
let verified_block2 = block
.into_execution_pending_block(block_root, chain, notify_execution_layer)
.unwrap();
// Import the first block, simulating a block processed via a finalized chain segment.
import_execution_pending_block(chain.clone(), verified_block1)
.await
.unwrap();
// Unrealized justification should NOT have updated.
let unrealized_justification = {
let fc = chain.canonical_head.fork_choice_read_lock();
assert_eq!(fc.justified_checkpoint().epoch, 0);
let unrealized_justification = fc.unrealized_justified_checkpoint();
assert_eq!(unrealized_justification.epoch, 2);
// The fork choice node for the block should have unrealized justification.
let fc_block = fc.get_block(&block_root).unwrap();
assert_eq!(
fc_block.unrealized_justified_checkpoint,
Some(unrealized_justification)
);
drop(fc);
unrealized_justification
};
// Import the second verified block, simulating a block processed via RPC.
import_execution_pending_block(chain.clone(), verified_block2)
.await
.unwrap();
// Unrealized justification should still be updated.
let fc3 = chain.canonical_head.fork_choice_read_lock();
assert_eq!(fc3.justified_checkpoint().epoch, 0);
assert_eq!(
fc3.unrealized_justified_checkpoint(),
unrealized_justification
);
// The fork choice node for the block should still have the unrealized justified checkpoint.
let fc_block = fc3.get_block(&block_root).unwrap();
drop(fc3);
assert_eq!(
fc_block.unrealized_justified_checkpoint,
Some(unrealized_justification)
);
}
async fn import_execution_pending_block<T: BeaconChainTypes>(
chain: Arc<BeaconChain<T>>,
execution_pending_block: ExecutionPendingBlock<T>,
) -> Result<AvailabilityProcessingStatus, String> {
match chain
.clone()
.into_executed_block(execution_pending_block)
.await
.unwrap()
{
ExecutedBlock::Available(block) => chain
.import_available_block(Box::from(block))
.await
.map_err(|e| format!("{e:?}")),
ExecutedBlock::AvailabilityPending(_) => {
Err("AvailabilityPending not expected in this test. Block not imported.".to_string())
}
}
}