lighthouse/beacon_node/http_api/tests/tests.rs

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Implement standard eth2.0 API (#1569) - Resolves #1550 - Resolves #824 - Resolves #825 - Resolves #1131 - Resolves #1411 - Resolves #1256 - Resolve #1177 - Includes the `ShufflingId` struct initially defined in #1492. That PR is now closed and the changes are included here, with significant bug fixes. - Implement the https://github.com/ethereum/eth2.0-APIs in a new `http_api` crate using `warp`. This replaces the `rest_api` crate. - Add a new `common/eth2` crate which provides a wrapper around `reqwest`, providing the HTTP client that is used by the validator client and for testing. This replaces the `common/remote_beacon_node` crate. - Create a `http_metrics` crate which is a dedicated server for Prometheus metrics (they are no longer served on the same port as the REST API). We now have flags for `--metrics`, `--metrics-address`, etc. - Allow the `subnet_id` to be an optional parameter for `VerifiedUnaggregatedAttestation::verify`. This means it does not need to be provided unnecessarily by the validator client. - Move `fn map_attestation_committee` in `mod beacon_chain::attestation_verification` to a new `fn with_committee_cache` on the `BeaconChain` so the same cache can be used for obtaining validator duties. - Add some other helpers to `BeaconChain` to assist with common API duties (e.g., `block_root_at_slot`, `head_beacon_block_root`). - Change the `NaiveAggregationPool` so it can index attestations by `hash_tree_root(attestation.data)`. This is a requirement of the API. - Add functions to `BeaconChainHarness` to allow it to create slashings and exits. - Allow for `eth1::Eth1NetworkId` to go to/from a `String`. - Add functions to the `OperationPool` to allow getting all objects in the pool. - Add function to `BeaconState` to check if a committee cache is initialized. - Fix bug where `seconds_per_eth1_block` was not transferring over from `YamlConfig` to `ChainSpec`. - Add the `deposit_contract_address` to `YamlConfig` and `ChainSpec`. We needed to be able to return it in an API response. - Change some uses of serde `serialize_with` and `deserialize_with` to a single use of `with` (code quality). - Impl `Display` and `FromStr` for several BLS fields. - Check for clock discrepancy when VC polls BN for sync state (with +/- 1 slot tolerance). This is not intended to be comprehensive, it was just easy to do. - See #1434 for a per-endpoint overview. - Seeking clarity here: https://github.com/ethereum/eth2.0-APIs/issues/75 - [x] Add docs for prom port to close #1256 - [x] Follow up on this #1177 - [x] ~~Follow up with #1424~~ Will fix in future PR. - [x] Follow up with #1411 - [x] ~~Follow up with #1260~~ Will fix in future PR. - [x] Add quotes to all integers. - [x] Remove `rest_types` - [x] Address missing beacon block error. (#1629) - [x] ~~Add tests for lighthouse/peers endpoints~~ Wontfix - [x] ~~Follow up with validator status proposal~~ Tracked in #1434 - [x] Unify graffiti structs - [x] ~~Start server when waiting for genesis?~~ Will fix in future PR. - [x] TODO in http_api tests - [x] Move lighthouse endpoints off /eth/v1 - [x] Update docs to link to standard - ~~Blocked on #1586~~ Co-authored-by: Michael Sproul <michael@sigmaprime.io>
2020-09-29 03:46:54 +00:00
use beacon_chain::{
test_utils::{
AttestationStrategy, BeaconChainHarness, BlockStrategy,
BlockingMigratorEphemeralHarnessType,
},
BeaconChain, StateSkipConfig,
};
use discv5::enr::{CombinedKey, EnrBuilder};
use environment::null_logger;
use eth2::{types::*, BeaconNodeHttpClient, Url};
use eth2_libp2p::{
rpc::methods::MetaData,
types::{EnrBitfield, SyncState},
NetworkGlobals,
};
use http_api::{Config, Context};
use network::NetworkMessage;
use state_processing::per_slot_processing;
use std::convert::TryInto;
use std::net::Ipv4Addr;
use std::sync::Arc;
use tokio::sync::mpsc;
use tokio::sync::oneshot;
use tree_hash::TreeHash;
use types::{
test_utils::generate_deterministic_keypairs, AggregateSignature, BeaconState, BitList, Domain,
EthSpec, Hash256, Keypair, MainnetEthSpec, RelativeEpoch, SelectionProof, SignedRoot, Slot,
};
type E = MainnetEthSpec;
const SLOTS_PER_EPOCH: u64 = 32;
const VALIDATOR_COUNT: usize = SLOTS_PER_EPOCH as usize;
const CHAIN_LENGTH: u64 = SLOTS_PER_EPOCH * 5;
const JUSTIFIED_EPOCH: u64 = 4;
const FINALIZED_EPOCH: u64 = 3;
/// Skipping the slots around the epoch boundary allows us to check that we're obtaining states
/// from skipped slots for the finalized and justified checkpoints (instead of the state from the
/// block that those roots point to).
const SKIPPED_SLOTS: &[u64] = &[
JUSTIFIED_EPOCH * SLOTS_PER_EPOCH - 1,
JUSTIFIED_EPOCH * SLOTS_PER_EPOCH,
FINALIZED_EPOCH * SLOTS_PER_EPOCH - 1,
FINALIZED_EPOCH * SLOTS_PER_EPOCH,
];
struct ApiTester {
chain: Arc<BeaconChain<BlockingMigratorEphemeralHarnessType<E>>>,
client: BeaconNodeHttpClient,
next_block: SignedBeaconBlock<E>,
attestations: Vec<Attestation<E>>,
attester_slashing: AttesterSlashing<E>,
proposer_slashing: ProposerSlashing,
voluntary_exit: SignedVoluntaryExit,
_server_shutdown: oneshot::Sender<()>,
validator_keypairs: Vec<Keypair>,
network_rx: mpsc::UnboundedReceiver<NetworkMessage<E>>,
}
impl ApiTester {
pub fn new() -> Self {
let mut harness = BeaconChainHarness::new(
MainnetEthSpec,
generate_deterministic_keypairs(VALIDATOR_COUNT),
);
harness.advance_slot();
for _ in 0..CHAIN_LENGTH {
let slot = harness.chain.slot().unwrap().as_u64();
if !SKIPPED_SLOTS.contains(&slot) {
harness.extend_chain(
1,
BlockStrategy::OnCanonicalHead,
AttestationStrategy::AllValidators,
);
}
harness.advance_slot();
}
let head = harness.chain.head().unwrap();
assert_eq!(
harness.chain.slot().unwrap(),
head.beacon_block.slot() + 1,
"precondition: current slot is one after head"
);
let (next_block, _next_state) =
harness.make_block(head.beacon_state.clone(), harness.chain.slot().unwrap());
let attestations = harness
.get_unaggregated_attestations(
&AttestationStrategy::AllValidators,
&head.beacon_state,
head.beacon_block_root,
harness.chain.slot().unwrap(),
)
.into_iter()
.map(|vec| vec.into_iter().map(|(attestation, _subnet_id)| attestation))
.flatten()
.collect::<Vec<_>>();
assert!(
!attestations.is_empty(),
"precondition: attestations for testing"
);
let attester_slashing = harness.make_attester_slashing(vec![0, 1]);
let proposer_slashing = harness.make_proposer_slashing(2);
let voluntary_exit = harness.make_voluntary_exit(3, harness.chain.epoch().unwrap());
// Changing this *after* the chain has been initialized is a bit cheeky, but it shouldn't
// cause issue.
//
// This allows for testing voluntary exits without building out a massive chain.
harness.chain.spec.shard_committee_period = 2;
let chain = Arc::new(harness.chain);
assert_eq!(
chain.head_info().unwrap().finalized_checkpoint.epoch,
3,
"precondition: finality"
);
assert_eq!(
chain
.head_info()
.unwrap()
.current_justified_checkpoint
.epoch,
4,
"precondition: justification"
);
let (network_tx, network_rx) = mpsc::unbounded_channel();
let log = null_logger().unwrap();
// Default metadata
let meta_data = MetaData {
seq_number: 0,
attnets: EnrBitfield::<MinimalEthSpec>::default(),
};
let enr_key = CombinedKey::generate_secp256k1();
let enr = EnrBuilder::new("v4").build(&enr_key).unwrap();
let network_globals = NetworkGlobals::new(enr, 42, 42, meta_data, vec![], &log);
*network_globals.sync_state.write() = SyncState::Synced;
let context = Arc::new(Context {
config: Config {
enabled: true,
listen_addr: Ipv4Addr::new(127, 0, 0, 1),
listen_port: 0,
allow_origin: None,
},
chain: Some(chain.clone()),
network_tx: Some(network_tx),
network_globals: Some(Arc::new(network_globals)),
log,
});
let ctx = context.clone();
let (shutdown_tx, shutdown_rx) = oneshot::channel();
let server_shutdown = async {
// It's not really interesting why this triggered, just that it happened.
let _ = shutdown_rx.await;
};
let (listening_socket, server) = http_api::serve(ctx, server_shutdown).unwrap();
tokio::spawn(async { server.await });
let client = BeaconNodeHttpClient::new(
Url::parse(&format!(
"http://{}:{}",
listening_socket.ip(),
listening_socket.port()
))
.unwrap(),
);
Self {
chain,
client,
next_block,
attestations,
attester_slashing,
proposer_slashing,
voluntary_exit,
_server_shutdown: shutdown_tx,
validator_keypairs: harness.validators_keypairs,
network_rx,
}
}
fn skip_slots(self, count: u64) -> Self {
for _ in 0..count {
self.chain
.slot_clock
.set_slot(self.chain.slot().unwrap().as_u64() + 1);
}
self
}
fn interesting_state_ids(&self) -> Vec<StateId> {
let mut ids = vec![
StateId::Head,
StateId::Genesis,
StateId::Finalized,
StateId::Justified,
StateId::Slot(Slot::new(0)),
StateId::Slot(Slot::new(32)),
StateId::Slot(Slot::from(SKIPPED_SLOTS[0])),
StateId::Slot(Slot::from(SKIPPED_SLOTS[1])),
StateId::Slot(Slot::from(SKIPPED_SLOTS[2])),
StateId::Slot(Slot::from(SKIPPED_SLOTS[3])),
StateId::Root(Hash256::zero()),
];
ids.push(StateId::Root(self.chain.head_info().unwrap().state_root));
ids
}
fn interesting_block_ids(&self) -> Vec<BlockId> {
let mut ids = vec![
BlockId::Head,
BlockId::Genesis,
BlockId::Finalized,
BlockId::Justified,
BlockId::Slot(Slot::new(0)),
BlockId::Slot(Slot::new(32)),
BlockId::Slot(Slot::from(SKIPPED_SLOTS[0])),
BlockId::Slot(Slot::from(SKIPPED_SLOTS[1])),
BlockId::Slot(Slot::from(SKIPPED_SLOTS[2])),
BlockId::Slot(Slot::from(SKIPPED_SLOTS[3])),
BlockId::Root(Hash256::zero()),
];
ids.push(BlockId::Root(self.chain.head_info().unwrap().block_root));
ids
}
fn get_state(&self, state_id: StateId) -> Option<BeaconState<E>> {
match state_id {
StateId::Head => Some(self.chain.head().unwrap().beacon_state),
StateId::Genesis => self
.chain
.get_state(&self.chain.genesis_state_root, None)
.unwrap(),
StateId::Finalized => {
let finalized_slot = self
.chain
.head_info()
.unwrap()
.finalized_checkpoint
.epoch
.start_slot(E::slots_per_epoch());
let root = self
.chain
.state_root_at_slot(finalized_slot)
.unwrap()
.unwrap();
self.chain.get_state(&root, Some(finalized_slot)).unwrap()
}
StateId::Justified => {
let justified_slot = self
.chain
.head_info()
.unwrap()
.current_justified_checkpoint
.epoch
.start_slot(E::slots_per_epoch());
let root = self
.chain
.state_root_at_slot(justified_slot)
.unwrap()
.unwrap();
self.chain.get_state(&root, Some(justified_slot)).unwrap()
}
StateId::Slot(slot) => {
let root = self.chain.state_root_at_slot(slot).unwrap().unwrap();
self.chain.get_state(&root, Some(slot)).unwrap()
}
StateId::Root(root) => self.chain.get_state(&root, None).unwrap(),
}
}
pub async fn test_beacon_genesis(self) -> Self {
let result = self.client.get_beacon_genesis().await.unwrap().data;
let state = self.chain.head().unwrap().beacon_state;
let expected = GenesisData {
genesis_time: state.genesis_time,
genesis_validators_root: state.genesis_validators_root,
genesis_fork_version: self.chain.spec.genesis_fork_version,
};
assert_eq!(result, expected);
self
}
pub async fn test_beacon_states_root(self) -> Self {
for state_id in self.interesting_state_ids() {
let result = self
.client
.get_beacon_states_root(state_id)
.await
.unwrap()
.map(|res| res.data.root);
let expected = match state_id {
StateId::Head => Some(self.chain.head_info().unwrap().state_root),
StateId::Genesis => Some(self.chain.genesis_state_root),
StateId::Finalized => {
let finalized_slot = self
.chain
.head_info()
.unwrap()
.finalized_checkpoint
.epoch
.start_slot(E::slots_per_epoch());
self.chain.state_root_at_slot(finalized_slot).unwrap()
}
StateId::Justified => {
let justified_slot = self
.chain
.head_info()
.unwrap()
.current_justified_checkpoint
.epoch
.start_slot(E::slots_per_epoch());
self.chain.state_root_at_slot(justified_slot).unwrap()
}
StateId::Slot(slot) => self.chain.state_root_at_slot(slot).unwrap(),
StateId::Root(root) => Some(root),
};
assert_eq!(result, expected, "{:?}", state_id);
}
self
}
pub async fn test_beacon_states_fork(self) -> Self {
for state_id in self.interesting_state_ids() {
let result = self
.client
.get_beacon_states_fork(state_id)
.await
.unwrap()
.map(|res| res.data);
let expected = self.get_state(state_id).map(|state| state.fork);
assert_eq!(result, expected, "{:?}", state_id);
}
self
}
pub async fn test_beacon_states_finality_checkpoints(self) -> Self {
for state_id in self.interesting_state_ids() {
let result = self
.client
.get_beacon_states_finality_checkpoints(state_id)
.await
.unwrap()
.map(|res| res.data);
let expected = self
.get_state(state_id)
.map(|state| FinalityCheckpointsData {
previous_justified: state.previous_justified_checkpoint,
current_justified: state.current_justified_checkpoint,
finalized: state.finalized_checkpoint,
});
assert_eq!(result, expected, "{:?}", state_id);
}
self
}
pub async fn test_beacon_states_validators(self) -> Self {
for state_id in self.interesting_state_ids() {
let result = self
.client
.get_beacon_states_validators(state_id)
.await
.unwrap()
.map(|res| res.data);
let expected = self.get_state(state_id).map(|state| {
let epoch = state.current_epoch();
let finalized_epoch = state.finalized_checkpoint.epoch;
let far_future_epoch = self.chain.spec.far_future_epoch;
let mut validators = Vec::with_capacity(state.validators.len());
for i in 0..state.validators.len() {
let validator = state.validators[i].clone();
validators.push(ValidatorData {
index: i as u64,
balance: state.balances[i],
status: ValidatorStatus::from_validator(
Some(&validator),
epoch,
finalized_epoch,
far_future_epoch,
),
validator,
})
}
validators
});
assert_eq!(result, expected, "{:?}", state_id);
}
self
}
pub async fn test_beacon_states_validator_id(self) -> Self {
for state_id in self.interesting_state_ids() {
let state_opt = self.get_state(state_id);
let validators = match state_opt.as_ref() {
Some(state) => state.validators.clone().into(),
None => vec![],
};
for (i, validator) in validators.into_iter().enumerate() {
let validator_ids = &[
ValidatorId::PublicKey(validator.pubkey.clone()),
ValidatorId::Index(i as u64),
];
for validator_id in validator_ids {
let result = self
.client
.get_beacon_states_validator_id(state_id, validator_id)
.await
.unwrap()
.map(|res| res.data);
if result.is_none() && state_opt.is_none() {
continue;
}
let state = state_opt.as_ref().expect("result should be none");
let expected = {
let epoch = state.current_epoch();
let finalized_epoch = state.finalized_checkpoint.epoch;
let far_future_epoch = self.chain.spec.far_future_epoch;
ValidatorData {
index: i as u64,
balance: state.balances[i],
status: ValidatorStatus::from_validator(
Some(&validator),
epoch,
finalized_epoch,
far_future_epoch,
),
validator: validator.clone(),
}
};
assert_eq!(result, Some(expected), "{:?}, {:?}", state_id, validator_id);
}
}
}
self
}
pub async fn test_beacon_states_committees(self) -> Self {
for state_id in self.interesting_state_ids() {
let mut state_opt = self.get_state(state_id);
let epoch = state_opt
.as_ref()
.map(|state| state.current_epoch())
.unwrap_or_else(|| Epoch::new(0));
let results = self
.client
.get_beacon_states_committees(state_id, epoch, None, None)
.await
.unwrap()
.map(|res| res.data);
if results.is_none() && state_opt.is_none() {
continue;
}
let state = state_opt.as_mut().expect("result should be none");
state.build_all_committee_caches(&self.chain.spec).unwrap();
let committees = state
.get_beacon_committees_at_epoch(
RelativeEpoch::from_epoch(state.current_epoch(), epoch).unwrap(),
)
.unwrap();
for (i, result) in results.unwrap().into_iter().enumerate() {
let expected = &committees[i];
assert_eq!(result.index, expected.index, "{}", state_id);
assert_eq!(result.slot, expected.slot, "{}", state_id);
assert_eq!(
result
.validators
.into_iter()
.map(|i| i as usize)
.collect::<Vec<_>>(),
expected.committee.to_vec(),
"{}",
state_id
);
}
}
self
}
fn get_block_root(&self, block_id: BlockId) -> Option<Hash256> {
match block_id {
BlockId::Head => Some(self.chain.head_info().unwrap().block_root),
BlockId::Genesis => Some(self.chain.genesis_block_root),
BlockId::Finalized => Some(self.chain.head_info().unwrap().finalized_checkpoint.root),
BlockId::Justified => Some(
self.chain
.head_info()
.unwrap()
.current_justified_checkpoint
.root,
),
BlockId::Slot(slot) => self.chain.block_root_at_slot(slot).unwrap(),
BlockId::Root(root) => Some(root),
}
}
fn get_block(&self, block_id: BlockId) -> Option<SignedBeaconBlock<E>> {
let root = self.get_block_root(block_id);
root.and_then(|root| self.chain.get_block(&root).unwrap())
}
pub async fn test_beacon_headers_all_slots(self) -> Self {
for slot in 0..CHAIN_LENGTH {
let slot = Slot::from(slot);
let result = self
.client
.get_beacon_headers(Some(slot), None)
.await
.unwrap()
.map(|res| res.data);
let root = self.chain.block_root_at_slot(slot).unwrap();
if root.is_none() && result.is_none() {
continue;
}
let root = root.unwrap();
let block = self.chain.block_at_slot(slot).unwrap().unwrap();
let header = BlockHeaderData {
root,
canonical: true,
header: BlockHeaderAndSignature {
message: block.message.block_header(),
signature: block.signature.into(),
},
};
let expected = vec![header];
assert_eq!(result.unwrap(), expected, "slot {:?}", slot);
}
self
}
pub async fn test_beacon_headers_all_parents(self) -> Self {
let mut roots = self
.chain
.rev_iter_block_roots()
.unwrap()
.map(Result::unwrap)
.map(|(root, _slot)| root)
.collect::<Vec<_>>()
.into_iter()
.rev()
.collect::<Vec<_>>();
// The iterator natively returns duplicate roots for skipped slots.
roots.dedup();
for i in 1..roots.len() {
let parent_root = roots[i - 1];
let child_root = roots[i];
let result = self
.client
.get_beacon_headers(None, Some(parent_root))
.await
.unwrap()
.unwrap()
.data;
assert_eq!(result.len(), 1, "i {}", i);
assert_eq!(result[0].root, child_root, "i {}", i);
}
self
}
pub async fn test_beacon_headers_block_id(self) -> Self {
for block_id in self.interesting_block_ids() {
let result = self
.client
.get_beacon_headers_block_id(block_id)
.await
.unwrap()
.map(|res| res.data);
let block_root_opt = self.get_block_root(block_id);
let block_opt = block_root_opt.and_then(|root| self.chain.get_block(&root).unwrap());
if block_opt.is_none() && result.is_none() {
continue;
}
let result = result.unwrap();
let block = block_opt.unwrap();
let block_root = block_root_opt.unwrap();
let canonical = self
.chain
.block_root_at_slot(block.slot())
.unwrap()
.map_or(false, |canonical| block_root == canonical);
assert_eq!(result.canonical, canonical, "{:?}", block_id);
assert_eq!(result.root, block_root, "{:?}", block_id);
assert_eq!(
result.header.message,
block.message.block_header(),
"{:?}",
block_id
);
assert_eq!(
result.header.signature,
block.signature.into(),
"{:?}",
block_id
);
}
self
}
pub async fn test_beacon_blocks_root(self) -> Self {
for block_id in self.interesting_block_ids() {
let result = self
.client
.get_beacon_blocks_root(block_id)
.await
.unwrap()
.map(|res| res.data.root);
let expected = self.get_block_root(block_id);
assert_eq!(result, expected, "{:?}", block_id);
}
self
}
pub async fn test_post_beacon_blocks_valid(mut self) -> Self {
let next_block = &self.next_block;
self.client.post_beacon_blocks(next_block).await.unwrap();
assert!(
self.network_rx.try_recv().is_ok(),
"valid blocks should be sent to network"
);
self
}
pub async fn test_post_beacon_blocks_invalid(mut self) -> Self {
let mut next_block = self.next_block.clone();
next_block.message.proposer_index += 1;
assert!(self.client.post_beacon_blocks(&next_block).await.is_err());
assert!(
self.network_rx.try_recv().is_ok(),
"invalid blocks should be sent to network"
);
self
}
pub async fn test_beacon_blocks(self) -> Self {
for block_id in self.interesting_block_ids() {
let result = self
.client
.get_beacon_blocks(block_id)
.await
.unwrap()
.map(|res| res.data);
let expected = self.get_block(block_id);
assert_eq!(result, expected, "{:?}", block_id);
}
self
}
pub async fn test_beacon_blocks_attestations(self) -> Self {
for block_id in self.interesting_block_ids() {
let result = self
.client
.get_beacon_blocks_attestations(block_id)
.await
.unwrap()
.map(|res| res.data);
let expected = self
.get_block(block_id)
.map(|block| block.message.body.attestations.into());
assert_eq!(result, expected, "{:?}", block_id);
}
self
}
pub async fn test_post_beacon_pool_attestations_valid(mut self) -> Self {
for attestation in &self.attestations {
self.client
.post_beacon_pool_attestations(attestation)
.await
.unwrap();
assert!(
self.network_rx.try_recv().is_ok(),
"valid attestation should be sent to network"
);
}
self
}
pub async fn test_post_beacon_pool_attestations_invalid(mut self) -> Self {
for attestation in &self.attestations {
let mut attestation = attestation.clone();
attestation.data.slot += 1;
assert!(self
.client
.post_beacon_pool_attestations(&attestation)
.await
.is_err());
assert!(
self.network_rx.try_recv().is_err(),
"invalid attestation should not be sent to network"
);
}
self
}
pub async fn test_get_beacon_pool_attestations(self) -> Self {
let result = self
.client
.get_beacon_pool_attestations()
.await
.unwrap()
.data;
let mut expected = self.chain.op_pool.get_all_attestations();
expected.extend(self.chain.naive_aggregation_pool.read().iter().cloned());
assert_eq!(result, expected);
self
}
pub async fn test_post_beacon_pool_attester_slashings_valid(mut self) -> Self {
self.client
.post_beacon_pool_attester_slashings(&self.attester_slashing)
.await
.unwrap();
assert!(
self.network_rx.try_recv().is_ok(),
"valid attester slashing should be sent to network"
);
self
}
pub async fn test_post_beacon_pool_attester_slashings_invalid(mut self) -> Self {
let mut slashing = self.attester_slashing.clone();
slashing.attestation_1.data.slot += 1;
self.client
.post_beacon_pool_attester_slashings(&slashing)
.await
.unwrap_err();
assert!(
self.network_rx.try_recv().is_err(),
"invalid attester slashing should not be sent to network"
);
self
}
pub async fn test_get_beacon_pool_attester_slashings(self) -> Self {
let result = self
.client
.get_beacon_pool_attester_slashings()
.await
.unwrap()
.data;
let expected = self.chain.op_pool.get_all_attester_slashings();
assert_eq!(result, expected);
self
}
pub async fn test_post_beacon_pool_proposer_slashings_valid(mut self) -> Self {
self.client
.post_beacon_pool_proposer_slashings(&self.proposer_slashing)
.await
.unwrap();
assert!(
self.network_rx.try_recv().is_ok(),
"valid proposer slashing should be sent to network"
);
self
}
pub async fn test_post_beacon_pool_proposer_slashings_invalid(mut self) -> Self {
let mut slashing = self.proposer_slashing.clone();
slashing.signed_header_1.message.slot += 1;
self.client
.post_beacon_pool_proposer_slashings(&slashing)
.await
.unwrap_err();
assert!(
self.network_rx.try_recv().is_err(),
"invalid proposer slashing should not be sent to network"
);
self
}
pub async fn test_get_beacon_pool_proposer_slashings(self) -> Self {
let result = self
.client
.get_beacon_pool_proposer_slashings()
.await
.unwrap()
.data;
let expected = self.chain.op_pool.get_all_proposer_slashings();
assert_eq!(result, expected);
self
}
pub async fn test_post_beacon_pool_voluntary_exits_valid(mut self) -> Self {
self.client
.post_beacon_pool_voluntary_exits(&self.voluntary_exit)
.await
.unwrap();
assert!(
self.network_rx.try_recv().is_ok(),
"valid exit should be sent to network"
);
self
}
pub async fn test_post_beacon_pool_voluntary_exits_invalid(mut self) -> Self {
let mut exit = self.voluntary_exit.clone();
exit.message.epoch += 1;
self.client
.post_beacon_pool_voluntary_exits(&exit)
.await
.unwrap_err();
assert!(
self.network_rx.try_recv().is_err(),
"invalid exit should not be sent to network"
);
self
}
pub async fn test_get_beacon_pool_voluntary_exits(self) -> Self {
let result = self
.client
.get_beacon_pool_voluntary_exits()
.await
.unwrap()
.data;
let expected = self.chain.op_pool.get_all_voluntary_exits();
assert_eq!(result, expected);
self
}
pub async fn test_get_config_fork_schedule(self) -> Self {
let result = self.client.get_config_fork_schedule().await.unwrap().data;
let expected = vec![self.chain.head_info().unwrap().fork];
assert_eq!(result, expected);
self
}
pub async fn test_get_config_spec(self) -> Self {
let result = self.client.get_config_spec().await.unwrap().data;
let expected = YamlConfig::from_spec::<E>(&self.chain.spec);
assert_eq!(result, expected);
self
}
pub async fn test_get_config_deposit_contract(self) -> Self {
let result = self
.client
.get_config_deposit_contract()
.await
.unwrap()
.data;
let expected = DepositContractData {
address: self.chain.spec.deposit_contract_address,
chain_id: eth1::DEFAULT_NETWORK_ID.into(),
};
assert_eq!(result, expected);
self
}
pub async fn test_get_node_version(self) -> Self {
let result = self.client.get_node_version().await.unwrap().data;
let expected = VersionData {
version: lighthouse_version::version_with_platform(),
};
assert_eq!(result, expected);
self
}
pub async fn test_get_node_syncing(self) -> Self {
let result = self.client.get_node_syncing().await.unwrap().data;
let head_slot = self.chain.head_info().unwrap().slot;
let sync_distance = self.chain.slot().unwrap() - head_slot;
let expected = SyncingData {
is_syncing: false,
head_slot,
sync_distance,
};
assert_eq!(result, expected);
self
}
pub async fn test_get_debug_beacon_states(self) -> Self {
for state_id in self.interesting_state_ids() {
let result = self
.client
.get_debug_beacon_states(state_id)
.await
.unwrap()
.map(|res| res.data);
let mut expected = self.get_state(state_id);
expected.as_mut().map(|state| state.drop_all_caches());
assert_eq!(result, expected, "{:?}", state_id);
}
self
}
pub async fn test_get_debug_beacon_heads(self) -> Self {
let result = self
.client
.get_debug_beacon_heads()
.await
.unwrap()
.data
.into_iter()
.map(|head| (head.root, head.slot))
.collect::<Vec<_>>();
let expected = self.chain.heads();
assert_eq!(result, expected);
self
}
fn validator_count(&self) -> usize {
self.chain.head().unwrap().beacon_state.validators.len()
}
fn interesting_validator_indices(&self) -> Vec<Vec<u64>> {
let validator_count = self.validator_count() as u64;
let mut interesting = vec![
vec![],
vec![0],
vec![0, 1],
vec![0, 1, 3],
vec![validator_count],
vec![validator_count, 1],
vec![validator_count, 1, 3],
vec![u64::max_value()],
vec![u64::max_value(), 1],
vec![u64::max_value(), 1, 3],
];
interesting.push((0..validator_count).collect());
interesting
}
pub async fn test_get_validator_duties_attester(self) -> Self {
let current_epoch = self.chain.epoch().unwrap().as_u64();
let half = current_epoch / 2;
let first = current_epoch - half;
let last = current_epoch + half;
for epoch in first..=last {
for indices in self.interesting_validator_indices() {
let epoch = Epoch::from(epoch);
// The endpoint does not allow getting duties past the next epoch.
if epoch > current_epoch + 1 {
assert_eq!(
self.client
.get_validator_duties_attester(epoch, Some(&indices))
.await
.unwrap_err()
.status()
.map(Into::into),
Some(400)
);
continue;
}
let results = self
.client
.get_validator_duties_attester(epoch, Some(&indices))
.await
.unwrap()
.data;
let mut state = self
.chain
.state_at_slot(
epoch.start_slot(E::slots_per_epoch()),
StateSkipConfig::WithStateRoots,
)
.unwrap();
state
.build_committee_cache(RelativeEpoch::Current, &self.chain.spec)
.unwrap();
let expected_len = indices
.iter()
.filter(|i| **i < state.validators.len() as u64)
.count();
assert_eq!(results.len(), expected_len);
for (indices_set, &i) in indices.iter().enumerate() {
if let Some(duty) = state
.get_attestation_duties(i as usize, RelativeEpoch::Current)
.unwrap()
{
let expected = AttesterData {
pubkey: state.validators[i as usize].pubkey.clone().into(),
validator_index: i,
committees_at_slot: duty.committees_at_slot,
committee_index: duty.index,
committee_length: duty.committee_len as u64,
validator_committee_index: duty.committee_position as u64,
slot: duty.slot,
};
let result = results
.iter()
.find(|duty| duty.validator_index == i)
.unwrap();
assert_eq!(
*result, expected,
"epoch: {}, indices_set: {}",
epoch, indices_set
);
} else {
assert!(
!results.iter().any(|duty| duty.validator_index == i),
"validator index should not exist in response"
);
}
}
}
}
self
}
pub async fn test_get_validator_duties_proposer(self) -> Self {
let current_epoch = self.chain.epoch().unwrap();
let result = self
.client
.get_validator_duties_proposer(current_epoch)
.await
.unwrap()
.data;
let mut state = self.chain.head_beacon_state().unwrap();
while state.current_epoch() < current_epoch {
per_slot_processing(&mut state, None, &self.chain.spec).unwrap();
}
state
.build_committee_cache(RelativeEpoch::Current, &self.chain.spec)
.unwrap();
let expected = current_epoch
.slot_iter(E::slots_per_epoch())
.map(|slot| {
let index = state
.get_beacon_proposer_index(slot, &self.chain.spec)
.unwrap();
let pubkey = state.validators[index].pubkey.clone().into();
ProposerData { pubkey, slot }
})
.collect::<Vec<_>>();
assert_eq!(result, expected);
self
}
pub async fn test_block_production(self) -> Self {
let fork = self.chain.head_info().unwrap().fork;
let genesis_validators_root = self.chain.genesis_validators_root;
for _ in 0..E::slots_per_epoch() * 3 {
let slot = self.chain.slot().unwrap();
let epoch = self.chain.epoch().unwrap();
let proposer_pubkey_bytes = self
.client
.get_validator_duties_proposer(epoch)
.await
.unwrap()
.data
.into_iter()
.find(|duty| duty.slot == slot)
.map(|duty| duty.pubkey)
.unwrap();
let proposer_pubkey = (&proposer_pubkey_bytes).try_into().unwrap();
let sk = self
.validator_keypairs
.iter()
.find(|kp| kp.pk == proposer_pubkey)
.map(|kp| kp.sk.clone())
.unwrap();
let randao_reveal = {
let domain = self.chain.spec.get_domain(
epoch,
Domain::Randao,
&fork,
genesis_validators_root,
);
let message = epoch.signing_root(domain);
sk.sign(message).into()
};
let block = self
.client
.get_validator_blocks::<E>(slot, randao_reveal, None)
.await
.unwrap()
.data;
let signed_block = block.sign(&sk, &fork, genesis_validators_root, &self.chain.spec);
self.client.post_beacon_blocks(&signed_block).await.unwrap();
assert_eq!(self.chain.head_beacon_block().unwrap(), signed_block);
self.chain.slot_clock.set_slot(slot.as_u64() + 1);
}
self
}
pub async fn test_get_validator_attestation_data(self) -> Self {
let mut state = self.chain.head_beacon_state().unwrap();
let slot = state.slot;
state
.build_committee_cache(RelativeEpoch::Current, &self.chain.spec)
.unwrap();
for index in 0..state.get_committee_count_at_slot(slot).unwrap() {
let result = self
.client
.get_validator_attestation_data(slot, index)
.await
.unwrap()
.data;
let expected = self
.chain
.produce_unaggregated_attestation(slot, index)
.unwrap()
.data;
assert_eq!(result, expected);
}
self
}
pub async fn test_get_validator_aggregate_attestation(self) -> Self {
let attestation = self
.chain
.head_beacon_block()
.unwrap()
.message
.body
.attestations[0]
.clone();
let result = self
.client
.get_validator_aggregate_attestation(
attestation.data.slot,
attestation.data.tree_hash_root(),
)
.await
.unwrap()
.unwrap()
.data;
let expected = attestation;
assert_eq!(result, expected);
self
}
pub async fn get_aggregate(&mut self) -> SignedAggregateAndProof<E> {
let slot = self.chain.slot().unwrap();
let epoch = self.chain.epoch().unwrap();
let mut head = self.chain.head().unwrap();
while head.beacon_state.current_epoch() < epoch {
per_slot_processing(&mut head.beacon_state, None, &self.chain.spec).unwrap();
}
head.beacon_state
.build_committee_cache(RelativeEpoch::Current, &self.chain.spec)
.unwrap();
let committee_len = head.beacon_state.get_committee_count_at_slot(slot).unwrap();
let fork = head.beacon_state.fork;
let genesis_validators_root = self.chain.genesis_validators_root;
let mut duties = vec![];
for i in 0..self.validator_keypairs.len() {
duties.push(
self.client
.get_validator_duties_attester(epoch, Some(&[i as u64]))
.await
.unwrap()
.data[0]
.clone(),
)
}
let (i, kp, duty, proof) = self
.validator_keypairs
.iter()
.enumerate()
.find_map(|(i, kp)| {
let duty = duties[i].clone();
let proof = SelectionProof::new::<E>(
duty.slot,
&kp.sk,
&fork,
genesis_validators_root,
&self.chain.spec,
);
if proof
.is_aggregator(committee_len as usize, &self.chain.spec)
.unwrap()
{
Some((i, kp, duty, proof))
} else {
None
}
})
.expect("there is at least one aggregator for this epoch")
.clone();
if duty.slot > slot {
self.chain.slot_clock.set_slot(duty.slot.into());
}
let attestation_data = self
.client
.get_validator_attestation_data(duty.slot, duty.committee_index)
.await
.unwrap()
.data;
let mut attestation = Attestation {
aggregation_bits: BitList::with_capacity(duty.committee_length as usize).unwrap(),
data: attestation_data,
signature: AggregateSignature::infinity(),
};
attestation
.sign(
&kp.sk,
duty.validator_committee_index as usize,
&fork,
genesis_validators_root,
&self.chain.spec,
)
.unwrap();
SignedAggregateAndProof::from_aggregate(
i as u64,
attestation,
Some(proof),
&kp.sk,
&fork,
genesis_validators_root,
&self.chain.spec,
)
}
pub async fn test_get_validator_aggregate_and_proofs_valid(mut self) -> Self {
let aggregate = self.get_aggregate().await;
self.client
.post_validator_aggregate_and_proof::<E>(&aggregate)
.await
.unwrap();
assert!(self.network_rx.try_recv().is_ok());
self
}
pub async fn test_get_validator_aggregate_and_proofs_invalid(mut self) -> Self {
let mut aggregate = self.get_aggregate().await;
aggregate.message.aggregate.data.slot += 1;
self.client
.post_validator_aggregate_and_proof::<E>(&aggregate)
.await
.unwrap_err();
assert!(self.network_rx.try_recv().is_err());
self
}
pub async fn test_get_validator_beacon_committee_subscriptions(mut self) -> Self {
let subscription = BeaconCommitteeSubscription {
validator_index: 0,
committee_index: 0,
committees_at_slot: 1,
slot: Slot::new(1),
is_aggregator: true,
};
self.client
.post_validator_beacon_committee_subscriptions(&[subscription])
.await
.unwrap();
self.network_rx.try_recv().unwrap();
self
}
#[cfg(target_os = "linux")]
pub async fn test_get_lighthouse_health(self) -> Self {
self.client.get_lighthouse_health().await.unwrap();
self
}
#[cfg(not(target_os = "linux"))]
pub async fn test_get_lighthouse_health(self) -> Self {
self.client.get_lighthouse_health().await.unwrap_err();
self
}
pub async fn test_get_lighthouse_syncing(self) -> Self {
self.client.get_lighthouse_syncing().await.unwrap();
self
}
pub async fn test_get_lighthouse_proto_array(self) -> Self {
self.client.get_lighthouse_proto_array().await.unwrap();
self
}
pub async fn test_get_lighthouse_validator_inclusion_global(self) -> Self {
let epoch = self.chain.epoch().unwrap() - 1;
self.client
.get_lighthouse_validator_inclusion_global(epoch)
.await
.unwrap();
self
}
pub async fn test_get_lighthouse_validator_inclusion(self) -> Self {
let epoch = self.chain.epoch().unwrap() - 1;
self.client
.get_lighthouse_validator_inclusion(epoch, ValidatorId::Index(0))
.await
.unwrap();
self
}
}
#[tokio::test(core_threads = 2)]
async fn beacon_genesis() {
ApiTester::new().test_beacon_genesis().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_states_root() {
ApiTester::new().test_beacon_states_root().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_states_fork() {
ApiTester::new().test_beacon_states_fork().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_states_finality_checkpoints() {
ApiTester::new()
.test_beacon_states_finality_checkpoints()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_states_validators() {
ApiTester::new().test_beacon_states_validators().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_states_committees() {
ApiTester::new().test_beacon_states_committees().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_states_validator_id() {
ApiTester::new().test_beacon_states_validator_id().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_headers() {
ApiTester::new()
.test_beacon_headers_all_slots()
.await
.test_beacon_headers_all_parents()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_headers_block_id() {
ApiTester::new().test_beacon_headers_block_id().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_blocks() {
ApiTester::new().test_beacon_blocks().await;
}
#[tokio::test(core_threads = 2)]
async fn post_beacon_blocks_valid() {
ApiTester::new().test_post_beacon_blocks_valid().await;
}
#[tokio::test(core_threads = 2)]
async fn post_beacon_blocks_invalid() {
ApiTester::new().test_post_beacon_blocks_invalid().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_blocks_root() {
ApiTester::new().test_beacon_blocks_root().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_blocks_attestations() {
ApiTester::new().test_beacon_blocks_attestations().await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_get() {
ApiTester::new()
.test_get_beacon_pool_attestations()
.await
.test_get_beacon_pool_attester_slashings()
.await
.test_get_beacon_pool_proposer_slashings()
.await
.test_get_beacon_pool_voluntary_exits()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_attestations_valid() {
ApiTester::new()
.test_post_beacon_pool_attestations_valid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_attestations_invalid() {
ApiTester::new()
.test_post_beacon_pool_attestations_invalid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_attester_slashings_valid() {
ApiTester::new()
.test_post_beacon_pool_attester_slashings_valid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_attester_slashings_invalid() {
ApiTester::new()
.test_post_beacon_pool_attester_slashings_invalid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_proposer_slashings_valid() {
ApiTester::new()
.test_post_beacon_pool_proposer_slashings_valid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_proposer_slashings_invalid() {
ApiTester::new()
.test_post_beacon_pool_proposer_slashings_invalid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_voluntary_exits_valid() {
ApiTester::new()
.test_post_beacon_pool_voluntary_exits_valid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn beacon_pools_post_voluntary_exits_invalid() {
ApiTester::new()
.test_post_beacon_pool_voluntary_exits_invalid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn config_get() {
ApiTester::new()
.test_get_config_fork_schedule()
.await
.test_get_config_spec()
.await
.test_get_config_deposit_contract()
.await;
}
#[tokio::test(core_threads = 2)]
async fn debug_get() {
ApiTester::new()
.test_get_debug_beacon_states()
.await
.test_get_debug_beacon_heads()
.await;
}
#[tokio::test(core_threads = 2)]
async fn node_get() {
ApiTester::new()
.test_get_node_version()
.await
.test_get_node_syncing()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_duties_attester() {
ApiTester::new().test_get_validator_duties_attester().await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_duties_attester_with_skip_slots() {
ApiTester::new()
.skip_slots(E::slots_per_epoch() * 2)
.test_get_validator_duties_attester()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_duties_proposer() {
ApiTester::new().test_get_validator_duties_proposer().await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_duties_proposer_with_skip_slots() {
ApiTester::new()
.skip_slots(E::slots_per_epoch() * 2)
.test_get_validator_duties_proposer()
.await;
}
#[tokio::test(core_threads = 2)]
async fn block_production() {
ApiTester::new().test_block_production().await;
}
#[tokio::test(core_threads = 2)]
async fn block_production_with_skip_slots() {
ApiTester::new()
.skip_slots(E::slots_per_epoch() * 2)
.test_block_production()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_attestation_data() {
ApiTester::new().test_get_validator_attestation_data().await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_attestation_data_with_skip_slots() {
ApiTester::new()
.skip_slots(E::slots_per_epoch() * 2)
.test_get_validator_attestation_data()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_aggregate_attestation() {
ApiTester::new()
.test_get_validator_aggregate_attestation()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_aggregate_attestation_with_skip_slots() {
ApiTester::new()
.skip_slots(E::slots_per_epoch() * 2)
.test_get_validator_aggregate_attestation()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_aggregate_and_proofs_valid() {
ApiTester::new()
.test_get_validator_aggregate_and_proofs_valid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_aggregate_and_proofs_valid_with_skip_slots() {
ApiTester::new()
.skip_slots(E::slots_per_epoch() * 2)
.test_get_validator_aggregate_and_proofs_valid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_aggregate_and_proofs_invalid() {
ApiTester::new()
.test_get_validator_aggregate_and_proofs_invalid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_aggregate_and_proofs_invalid_with_skip_slots() {
ApiTester::new()
.skip_slots(E::slots_per_epoch() * 2)
.test_get_validator_aggregate_and_proofs_invalid()
.await;
}
#[tokio::test(core_threads = 2)]
async fn get_validator_beacon_committee_subscriptions() {
ApiTester::new()
.test_get_validator_beacon_committee_subscriptions()
.await;
}
#[tokio::test(core_threads = 2)]
async fn lighthouse_endpoints() {
ApiTester::new()
.test_get_lighthouse_health()
.await
.test_get_lighthouse_syncing()
.await
.test_get_lighthouse_proto_array()
.await
.test_get_lighthouse_validator_inclusion()
.await
.test_get_lighthouse_validator_inclusion_global()
.await;
}