lighthouse/beacon_node/rest_api/tests/test.rs
Paul Hauner 75efed305c
Faster BeaconState enc/dec (#671)
* Add state enc/dec benches

* Add example for flamegraph

* Use `PublicKeyBytes` for `Validator`

* Ripple PublicKeyBytes change through codebase

* Add benches, optimizations to store BeaconState

* Store BeaconState in StorageContainer too

* Optimize StorageContainer with std::mem magic

* Fix rest_api tests
2019-12-06 16:44:03 +11:00

624 lines
18 KiB
Rust

#![cfg(test)]
use beacon_chain::{BeaconChain, BeaconChainTypes};
use node_test_rig::{
environment::{Environment, EnvironmentBuilder},
testing_client_config, ClientConfig, ClientGenesis, LocalBeaconNode,
};
use remote_beacon_node::{PublishStatus, ValidatorDuty};
use std::convert::TryInto;
use std::sync::Arc;
use tree_hash::TreeHash;
use types::{
test_utils::generate_deterministic_keypair, BeaconBlock, ChainSpec, Domain, Epoch, EthSpec,
MinimalEthSpec, PublicKey, RelativeEpoch, Signature, Slot,
};
use version;
type E = MinimalEthSpec;
fn build_env() -> Environment<E> {
EnvironmentBuilder::minimal()
.null_logger()
.expect("should build env logger")
.single_thread_tokio_runtime()
.expect("should start tokio runtime")
.build()
.expect("environment should build")
}
fn build_node<E: EthSpec>(env: &mut Environment<E>, config: ClientConfig) -> LocalBeaconNode<E> {
let context = env.core_context();
env.runtime()
.block_on(LocalBeaconNode::production(context, config))
.expect("should block until node created")
}
/// Returns the randao reveal for the given slot (assuming the given `beacon_chain` uses
/// deterministic keypairs).
fn get_randao_reveal<T: BeaconChainTypes>(
beacon_chain: Arc<BeaconChain<T>>,
slot: Slot,
spec: &ChainSpec,
) -> Signature {
let fork = beacon_chain.head().beacon_state.fork.clone();
let proposer_index = beacon_chain
.block_proposer(slot)
.expect("should get proposer index");
let keypair = generate_deterministic_keypair(proposer_index);
let epoch = slot.epoch(E::slots_per_epoch());
let message = epoch.tree_hash_root();
let domain = spec.get_domain(epoch, Domain::Randao, &fork);
Signature::new(&message, domain, &keypair.sk)
}
/// Signs the given block (assuming the given `beacon_chain` uses deterministic keypairs).
fn sign_block<T: BeaconChainTypes>(
beacon_chain: Arc<BeaconChain<T>>,
block: &mut BeaconBlock<T::EthSpec>,
spec: &ChainSpec,
) {
let fork = beacon_chain.head().beacon_state.fork.clone();
let proposer_index = beacon_chain
.block_proposer(block.slot)
.expect("should get proposer index");
let keypair = generate_deterministic_keypair(proposer_index);
block.sign(&keypair.sk, &fork, spec);
}
#[test]
fn validator_produce_attestation() {
let mut env = build_env();
let spec = &E::default_spec();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let beacon_chain = node
.client
.beacon_chain()
.expect("client should have beacon chain");
let state = beacon_chain.head().beacon_state.clone();
let validator_index = 0;
let duties = state
.get_attestation_duties(validator_index, RelativeEpoch::Current)
.expect("should have attestation duties cache")
.expect("should have attestation duties");
let mut attestation = env
.runtime()
.block_on(
remote_node
.http
.validator()
.produce_attestation(duties.slot, duties.index),
)
.expect("should fetch attestation from http api");
assert_eq!(
attestation.data.index, duties.index,
"should have same index"
);
assert_eq!(attestation.data.slot, duties.slot, "should have same slot");
assert_eq!(
attestation.aggregation_bits.num_set_bits(),
0,
"should have empty aggregation bits"
);
let keypair = generate_deterministic_keypair(validator_index);
// Fetch the duties again, but via HTTP for authenticity.
let duties = env
.runtime()
.block_on(remote_node.http.validator().get_duties(
attestation.data.slot.epoch(E::slots_per_epoch()),
&[keypair.pk.clone()],
))
.expect("should fetch duties from http api");
let duties = &duties[0];
// Try publishing the attestation without a signature, ensure it is flagged as invalid.
let publish_status = env
.runtime()
.block_on(
remote_node
.http
.validator()
.publish_attestation(attestation.clone()),
)
.expect("should publish attestation");
assert!(
!publish_status.is_valid(),
"the unsigned published attestation should not be valid"
);
attestation
.sign(
&keypair.sk,
duties
.attestation_committee_position
.expect("should have committee position"),
&state.fork,
spec,
)
.expect("should sign attestation");
// Try publishing the valid attestation.
let publish_status = env
.runtime()
.block_on(
remote_node
.http
.validator()
.publish_attestation(attestation.clone()),
)
.expect("should publish attestation");
assert!(
publish_status.is_valid(),
"the signed published attestation should be valid"
);
}
#[test]
fn validator_duties_bulk() {
let mut env = build_env();
let spec = &E::default_spec();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let beacon_chain = node
.client
.beacon_chain()
.expect("client should have beacon chain");
let epoch = Epoch::new(0);
let validators = beacon_chain
.head()
.beacon_state
.validators
.iter()
.map(|v| (&v.pubkey).try_into().expect("pubkey should be valid"))
.collect::<Vec<_>>();
let duties = env
.runtime()
.block_on(
remote_node
.http
.validator()
.get_duties_bulk(epoch, &validators),
)
.expect("should fetch duties from http api");
check_duties(duties, epoch, validators, beacon_chain, spec);
}
#[test]
fn validator_duties() {
let mut env = build_env();
let spec = &E::default_spec();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let beacon_chain = node
.client
.beacon_chain()
.expect("client should have beacon chain");
let mut epoch = Epoch::new(0);
let validators = beacon_chain
.head()
.beacon_state
.validators
.iter()
.map(|v| (&v.pubkey).try_into().expect("pubkey should be valid"))
.collect::<Vec<_>>();
let duties = env
.runtime()
.block_on(remote_node.http.validator().get_duties(epoch, &validators))
.expect("should fetch duties from http api");
// 1. Check at the current epoch.
check_duties(
duties,
epoch,
validators.clone(),
beacon_chain.clone(),
spec,
);
epoch += 4;
let duties = env
.runtime()
.block_on(remote_node.http.validator().get_duties(epoch, &validators))
.expect("should fetch duties from http api");
// 2. Check with a long skip forward.
check_duties(duties, epoch, validators, beacon_chain, spec);
// TODO: test an epoch in the past. Blocked because the `LocalBeaconNode` cannot produce a
// chain, yet.
}
fn check_duties<T: BeaconChainTypes>(
duties: Vec<ValidatorDuty>,
epoch: Epoch,
validators: Vec<PublicKey>,
beacon_chain: Arc<BeaconChain<T>>,
spec: &ChainSpec,
) {
assert_eq!(
validators.len(),
duties.len(),
"there should be a duty for each validator"
);
let state = beacon_chain
.state_at_slot(epoch.start_slot(T::EthSpec::slots_per_epoch()))
.expect("should get state at slot");
validators
.iter()
.zip(duties.iter())
.for_each(|(validator, duty)| {
assert_eq!(
*validator,
(&duty.validator_pubkey)
.try_into()
.expect("should be valid pubkey"),
"pubkey should match"
);
let validator_index = state
.get_validator_index(&validator.clone().into())
.expect("should have pubkey cache")
.expect("pubkey should exist");
let attestation_duty = state
.get_attestation_duties(validator_index, RelativeEpoch::Current)
.expect("should have attestation duties cache")
.expect("should have attestation duties");
assert_eq!(
Some(attestation_duty.slot),
duty.attestation_slot,
"attestation slot should match"
);
assert_eq!(
Some(attestation_duty.index),
duty.attestation_committee_index,
"attestation index should match"
);
if !duty.block_proposal_slots.is_empty() {
for slot in &duty.block_proposal_slots {
let expected_proposer = state
.get_beacon_proposer_index(*slot, spec)
.expect("should know proposer");
assert_eq!(
expected_proposer, validator_index,
"should get correct proposal slot"
);
}
} else {
epoch.slot_iter(E::slots_per_epoch()).for_each(|slot| {
let slot_proposer = state
.get_beacon_proposer_index(slot, spec)
.expect("should know proposer");
assert!(
slot_proposer != validator_index,
"validator should not have proposal slot in this epoch"
)
})
}
});
// Validator duties should include a proposer for every slot of the epoch.
let mut all_proposer_slots: Vec<Slot> = duties
.iter()
.flat_map(|duty| duty.block_proposal_slots.clone())
.collect();
all_proposer_slots.sort();
let all_slots: Vec<Slot> = epoch.slot_iter(E::slots_per_epoch()).collect();
assert_eq!(all_proposer_slots, all_slots);
}
#[test]
fn validator_block_post() {
let mut env = build_env();
let spec = &E::default_spec();
let mut config = testing_client_config();
config.genesis = ClientGenesis::Interop {
validator_count: 8,
genesis_time: 13_371_337,
};
let node = build_node(&mut env, config);
let remote_node = node.remote_node().expect("should produce remote node");
let beacon_chain = node
.client
.beacon_chain()
.expect("client should have beacon chain");
let slot = Slot::new(1);
let randao_reveal = get_randao_reveal(beacon_chain.clone(), slot, spec);
let mut block = env
.runtime()
.block_on(
remote_node
.http
.validator()
.produce_block(slot, randao_reveal.clone()),
)
.expect("should fetch block from http api");
// Try publishing the block without a signature, ensure it is flagged as invalid.
let publish_status = env
.runtime()
.block_on(remote_node.http.validator().publish_block(block.clone()))
.expect("should publish block");
if cfg!(not(feature = "fake_crypto")) {
assert!(
!publish_status.is_valid(),
"the unsigned published block should not be valid"
);
}
sign_block(beacon_chain.clone(), &mut block, spec);
let block_root = block.canonical_root();
let publish_status = env
.runtime()
.block_on(remote_node.http.validator().publish_block(block.clone()))
.expect("should publish block");
if cfg!(not(feature = "fake_crypto")) {
assert_eq!(
publish_status,
PublishStatus::Valid,
"the signed published block should be valid"
);
}
let head = env
.runtime()
.block_on(remote_node.http.beacon().get_head())
.expect("should get head");
assert_eq!(
head.block_root, block_root,
"the published block should become the head block"
);
}
#[test]
fn validator_block_get() {
let mut env = build_env();
let spec = &E::default_spec();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let beacon_chain = node
.client
.beacon_chain()
.expect("client should have beacon chain");
let slot = Slot::new(1);
let randao_reveal = get_randao_reveal(beacon_chain.clone(), slot, spec);
let block = env
.runtime()
.block_on(
remote_node
.http
.validator()
.produce_block(slot, randao_reveal.clone()),
)
.expect("should fetch block from http api");
let (expected_block, _state) = node
.client
.beacon_chain()
.expect("client should have beacon chain")
.produce_block(randao_reveal, slot)
.expect("should produce block");
assert_eq!(
block, expected_block,
"the block returned from the API should be as expected"
);
}
#[test]
fn beacon_state() {
let mut env = build_env();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let (state_by_slot, root) = env
.runtime()
.block_on(remote_node.http.beacon().get_state_by_slot(Slot::new(0)))
.expect("should fetch state from http api");
let (state_by_root, root_2) = env
.runtime()
.block_on(remote_node.http.beacon().get_state_by_root(root))
.expect("should fetch state from http api");
let mut db_state = node
.client
.beacon_chain()
.expect("client should have beacon chain")
.state_at_slot(Slot::new(0))
.expect("should find state");
db_state.drop_all_caches();
assert_eq!(
root, root_2,
"the two roots returned from the api should be identical"
);
assert_eq!(
root,
db_state.canonical_root(),
"root from database should match that from the API"
);
assert_eq!(
state_by_slot, db_state,
"genesis state by slot from api should match that from the DB"
);
assert_eq!(
state_by_root, db_state,
"genesis state by root from api should match that from the DB"
);
}
#[test]
fn beacon_block() {
let mut env = build_env();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let (block_by_slot, root) = env
.runtime()
.block_on(remote_node.http.beacon().get_block_by_slot(Slot::new(0)))
.expect("should fetch block from http api");
let (block_by_root, root_2) = env
.runtime()
.block_on(remote_node.http.beacon().get_block_by_root(root))
.expect("should fetch block from http api");
let db_block = node
.client
.beacon_chain()
.expect("client should have beacon chain")
.block_at_slot(Slot::new(0))
.expect("should find block")
.expect("block should not be none");
assert_eq!(
root, root_2,
"the two roots returned from the api should be identical"
);
assert_eq!(
root,
db_block.canonical_root(),
"root from database should match that from the API"
);
assert_eq!(
block_by_slot, db_block,
"genesis block by slot from api should match that from the DB"
);
assert_eq!(
block_by_root, db_block,
"genesis block by root from api should match that from the DB"
);
}
#[test]
fn genesis_time() {
let mut env = build_env();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let genesis_time = env
.runtime()
.block_on(remote_node.http.beacon().get_genesis_time())
.expect("should fetch genesis time from http api");
assert_eq!(
node.client
.beacon_chain()
.expect("should have beacon chain")
.head()
.beacon_state
.genesis_time,
genesis_time,
"should match genesis time from head state"
);
}
#[test]
fn fork() {
let mut env = build_env();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let fork = env
.runtime()
.block_on(remote_node.http.beacon().get_fork())
.expect("should fetch from http api");
assert_eq!(
node.client
.beacon_chain()
.expect("should have beacon chain")
.head()
.beacon_state
.fork,
fork,
"should match head state"
);
}
#[test]
fn eth2_config() {
let mut env = build_env();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let eth2_config = env
.runtime()
.block_on(remote_node.http.spec().get_eth2_config())
.expect("should fetch eth2 config from http api");
// TODO: check the entire eth2_config, not just the spec.
assert_eq!(
node.client
.beacon_chain()
.expect("should have beacon chain")
.spec,
eth2_config.spec,
"should match genesis time from head state"
);
}
#[test]
fn get_version() {
let mut env = build_env();
let node = build_node(&mut env, testing_client_config());
let remote_node = node.remote_node().expect("should produce remote node");
let version = env
.runtime()
.block_on(remote_node.http.node().get_version())
.expect("should fetch eth2 config from http api");
assert_eq!(version::version(), version, "result should be as expected");
}