#![cfg(test)] #[macro_use] extern crate assert_matches; use beacon_chain::{BeaconChain, BeaconChainTypes, StateSkipConfig}; use node_test_rig::{ environment::{Environment, EnvironmentBuilder}, testing_client_config, ClientConfig, ClientGenesis, LocalBeaconNode, }; use remote_beacon_node::{ Committee, HeadBeaconBlock, PersistedOperationPool, PublishStatus, ValidatorResponse, }; use rest_types::ValidatorDutyBytes; use std::convert::TryInto; use std::sync::Arc; use std::time::{SystemTime, UNIX_EPOCH}; use types::{ test_utils::{ build_double_vote_attester_slashing, build_proposer_slashing, generate_deterministic_keypair, AttesterSlashingTestTask, ProposerSlashingTestTask, }, BeaconBlock, BeaconState, ChainSpec, Domain, Epoch, EthSpec, MinimalEthSpec, PublicKey, RelativeEpoch, Signature, SignedAggregateAndProof, SignedBeaconBlock, SignedRoot, Slot, SubnetId, Validator, }; type E = MinimalEthSpec; fn build_env() -> Environment { 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(env: &mut Environment, config: ClientConfig) -> LocalBeaconNode { 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( beacon_chain: Arc>, slot: Slot, spec: &ChainSpec, ) -> Signature { let head = beacon_chain.head().expect("should get head"); let fork = head.beacon_state.fork; let genesis_validators_root = head.beacon_state.genesis_validators_root; 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 domain = spec.get_domain(epoch, Domain::Randao, &fork, genesis_validators_root); let message = epoch.signing_root(domain); keypair.sk.sign(message) } /// Signs the given block (assuming the given `beacon_chain` uses deterministic keypairs). fn sign_block( beacon_chain: Arc>, block: BeaconBlock, spec: &ChainSpec, ) -> SignedBeaconBlock { let head = beacon_chain.head().expect("should get head"); let fork = head.beacon_state.fork; let genesis_validators_root = head.beacon_state.genesis_validators_root; 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, genesis_validators_root, 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 genesis_validators_root = beacon_chain.genesis_validators_root; let state = beacon_chain.head().expect("should get head").beacon_state; // Find a validator that has duties in the current slot of the chain. let mut validator_index = 0; let duties = loop { let duties = state .get_attestation_duties(validator_index, RelativeEpoch::Current) .expect("should have attestation duties cache") .expect("should have attestation duties"); if duties.slot == node.client.beacon_chain().unwrap().slot().unwrap() { break duties; } else { validator_index += 1 } }; 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]; let committee_count = duties .committee_count_at_slot .expect("should have committee count"); let subnet_id = SubnetId::compute_subnet::( attestation.data.slot, attestation.data.index, committee_count, spec, ) .unwrap(); // Try publishing the attestation without a signature or a committee bit set, ensure it is // raises an error. let publish_status = env .runtime() .block_on( remote_node .http .validator() .publish_attestations(vec![(attestation.clone(), subnet_id)]), ) .expect("should publish unsigned attestation"); assert!( !publish_status.is_valid(), "the unsigned published attestation should be invalid" ); // Set the aggregation bit. attestation .aggregation_bits .set( duties .attestation_committee_position .expect("should have committee position"), true, ) .expect("should set attestation bit"); // Try publishing with an aggreagation bit set, but an invalid signature. let publish_status = env .runtime() .block_on( remote_node .http .validator() .publish_attestations(vec![(attestation.clone(), subnet_id)]), ) .expect("should publish attestation with invalid signature"); assert!( !publish_status.is_valid(), "the unsigned published attestation should not be valid" ); // Un-set the aggregation bit, so signing doesn't error. attestation .aggregation_bits .set( duties .attestation_committee_position .expect("should have committee position"), false, ) .expect("should un-set attestation bit"); attestation .sign( &keypair.sk, duties .attestation_committee_position .expect("should have committee position"), &state.fork, state.genesis_validators_root, spec, ) .expect("should sign attestation"); // Try publishing the valid attestation. let publish_status = env .runtime() .block_on( remote_node .http .validator() .publish_attestations(vec![(attestation.clone(), subnet_id)]), ) .expect("should publish attestation"); assert!( publish_status.is_valid(), "the signed published attestation should be valid" ); // Try obtaining an aggregated attestation with a matching attestation data to the previous // one. let aggregated_attestation = env .runtime() .block_on( remote_node .http .validator() .produce_aggregate_attestation(&attestation.data), ) .expect("should fetch aggregated attestation from http api"); let signed_aggregate_and_proof = SignedAggregateAndProof::from_aggregate( validator_index as u64, aggregated_attestation, None, &keypair.sk, &state.fork, genesis_validators_root, spec, ); // Publish the signed aggregate. let publish_status = env .runtime() .block_on( remote_node .http .validator() .publish_aggregate_and_proof(vec![signed_aggregate_and_proof]), ) .expect("should publish aggregate and proof"); assert!( publish_status.is_valid(), "the signed aggregate and proof should be valid" ); } #[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() .expect("should get head") .beacon_state .validators .iter() .map(|v| (&v.pubkey).try_into().expect("pubkey should be valid")) .collect::>(); 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( duties: Vec, epoch: Epoch, validators: Vec, beacon_chain: Arc>, spec: &ChainSpec, ) { assert_eq!( validators.len(), duties.len(), "there should be a duty for each validator" ); // Are the duties from the current epoch of the beacon chain, and thus are proposer indices // known? let proposers_known = epoch == beacon_chain.epoch().unwrap(); let mut state = beacon_chain .state_at_slot( epoch.start_slot(T::EthSpec::slots_per_epoch()), StateSkipConfig::WithStateRoots, ) .expect("should get state at slot"); state.build_all_caches(spec).expect("should build caches"); 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 proposers_known { let block_proposal_slots = duty.block_proposal_slots.as_ref().unwrap(); if !block_proposal_slots.is_empty() { for slot in 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_ne!( slot_proposer, validator_index, "validator should not have proposal slot in this epoch" ) }) } } else { assert_eq!(duty.block_proposal_slots, None); } }); if proposers_known { // Validator duties should include a proposer for every slot of the epoch. let mut all_proposer_slots: Vec = duties .iter() .flat_map(|duty| duty.block_proposal_slots.clone().unwrap()) .collect(); all_proposer_slots.sort(); let all_slots: Vec = 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 two_slots_secs = (spec.milliseconds_per_slot / 1_000) * 2; let mut config = testing_client_config(); config.genesis = ClientGenesis::Interop { validator_count: 8, genesis_time: SystemTime::now() .duration_since(UNIX_EPOCH) .unwrap() .as_secs() - two_slots_secs, }; 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 block = env .runtime() .block_on( remote_node .http .validator() .produce_block(slot, randao_reveal, None), ) .expect("should fetch block from http api"); // Try publishing the block without a signature, ensure it is flagged as invalid. let empty_sig_block = SignedBeaconBlock { message: block.clone(), signature: Signature::empty(), }; let publish_status = env .runtime() .block_on(remote_node.http.validator().publish_block(empty_sig_block)) .expect("should publish block"); if cfg!(not(feature = "fake_crypto")) { assert!( !publish_status.is_valid(), "the unsigned published block should not be valid" ); } let signed_block = sign_block(beacon_chain.clone(), block, spec); let block_root = signed_block.canonical_root(); let publish_status = env .runtime() .block_on(remote_node.http.validator().publish_block(signed_block)) .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" ); // Note: this heads check is not super useful for this test, however it is include so it get // _some_ testing. If you remove this call, make sure it's tested somewhere else. let heads = env .runtime() .block_on(remote_node.http.beacon().get_heads()) .expect("should get heads"); assert_eq!(heads.len(), 1, "there should be only one head"); assert_eq!( heads, vec![HeadBeaconBlock { beacon_block_root: head.block_root, beacon_block_slot: head.slot, }], "there should be only one head" ); } #[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, slot, spec); let block = env .runtime() .block_on( remote_node .http .validator() .produce_block(slot, randao_reveal.clone(), None), ) .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, None) .expect("should produce block"); assert_eq!( block, expected_block, "the block returned from the API should be as expected" ); } #[test] fn validator_block_get_with_graffiti() { 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, slot, spec); let block = env .runtime() .block_on(remote_node.http.validator().produce_block( slot, randao_reveal.clone(), Some(*b"test-graffiti-test-graffiti-test"), )) .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, Some(*b"test-graffiti-test-graffiti-test"), ) .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), StateSkipConfig::WithStateRoots) .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() .expect("should get head") .beacon_state .genesis_time, genesis_time, "should match genesis time from head state" ); } #[test] fn genesis_validators_root() { 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_validators_root = env .runtime() .block_on(remote_node.http.beacon().get_genesis_validators_root()) .expect("should fetch genesis time from http api"); assert_eq!( node.client .beacon_chain() .expect("should have beacon chain") .head() .expect("should get head") .beacon_state .genesis_validators_root, genesis_validators_root, "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() .expect("should get 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 version from http api"); assert_eq!( lighthouse_version::version_with_platform(), version, "result should be as expected" ); } #[test] fn get_genesis_state_root() { 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 slot = Slot::new(0); let result = env .runtime() .block_on(remote_node.http.beacon().get_state_root(slot)) .expect("should fetch from http api"); let expected = node .client .beacon_chain() .expect("should have beacon chain") .rev_iter_state_roots() .expect("should get iter") .map(Result::unwrap) .find(|(_cur_root, cur_slot)| slot == *cur_slot) .map(|(cur_root, _)| cur_root) .expect("chain should have state root at slot"); assert_eq!(result, expected, "result should be as expected"); } #[test] fn get_genesis_block_root() { 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 slot = Slot::new(0); let result = env .runtime() .block_on(remote_node.http.beacon().get_block_root(slot)) .expect("should fetch from http api"); let expected = node .client .beacon_chain() .expect("should have beacon chain") .rev_iter_block_roots() .expect("should get iter") .map(Result::unwrap) .find(|(_cur_root, cur_slot)| slot == *cur_slot) .map(|(cur_root, _)| cur_root) .expect("chain should have state root at slot"); assert_eq!(result, expected, "result should be as expected"); } #[test] fn get_validators() { 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 chain = node .client .beacon_chain() .expect("node should have beacon chain"); let state = &chain.head().expect("should get head").beacon_state; let validators = state.validators.iter().take(2).collect::>(); let pubkeys = validators .iter() .map(|v| (&v.pubkey).try_into().expect("should decode pubkey bytes")) .collect(); let result = env .runtime() .block_on(remote_node.http.beacon().get_validators(pubkeys, None)) .expect("should fetch from http api"); result .iter() .zip(validators.iter()) .for_each(|(response, validator)| compare_validator_response(state, response, validator)); } #[test] fn get_all_validators() { 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 chain = node .client .beacon_chain() .expect("node should have beacon chain"); let state = &chain.head().expect("should get head").beacon_state; let result = env .runtime() .block_on(remote_node.http.beacon().get_all_validators(None)) .expect("should fetch from http api"); result .iter() .zip(state.validators.iter()) .for_each(|(response, validator)| compare_validator_response(state, response, validator)); } #[test] fn get_active_validators() { 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 chain = node .client .beacon_chain() .expect("node should have beacon chain"); let state = &chain.head().expect("should get head").beacon_state; let result = env .runtime() .block_on(remote_node.http.beacon().get_active_validators(None)) .expect("should fetch from http api"); /* * This test isn't comprehensive because all of the validators in the state are active (i.e., * there is no one to exclude. * * This should be fixed once we can generate more interesting scenarios with the * `NodeTestRig`. */ let validators = state .validators .iter() .filter(|validator| validator.is_active_at(state.current_epoch())); result .iter() .zip(validators) .for_each(|(response, validator)| compare_validator_response(state, response, validator)); } #[test] fn get_committees() { 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 chain = node .client .beacon_chain() .expect("node should have beacon chain"); let epoch = Epoch::new(0); let result = env .runtime() .block_on(remote_node.http.beacon().get_committees(epoch)) .expect("should fetch from http api"); let expected = chain .head() .expect("should get head") .beacon_state .get_beacon_committees_at_epoch(RelativeEpoch::Current) .expect("should get committees") .iter() .map(|c| Committee { slot: c.slot, index: c.index, committee: c.committee.to_vec(), }) .collect::>(); assert_eq!(result, expected, "result should be as expected"); } #[test] fn get_fork_choice() { 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_choice = env .runtime() .block_on(remote_node.http.advanced().get_fork_choice()) .expect("should not error when getting fork choice"); assert_eq!( fork_choice, *node .client .beacon_chain() .expect("node should have beacon chain") .fork_choice .read() .proto_array() .core_proto_array(), "result should be as expected" ); } #[test] fn get_operation_pool() { 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 result = env .runtime() .block_on(remote_node.http.advanced().get_operation_pool()) .expect("should not error when getting fork choice"); let expected = PersistedOperationPool::from_operation_pool( &node .client .beacon_chain() .expect("node should have chain") .op_pool, ); assert_eq!(result, expected, "result should be as expected"); } fn compare_validator_response( state: &BeaconState, response: &ValidatorResponse, validator: &Validator, ) { let response_validator = response.validator.clone().expect("should have validator"); let i = response .validator_index .expect("should have validator index"); let balance = response.balance.expect("should have balance"); assert_eq!(response.pubkey, validator.pubkey, "pubkey"); assert_eq!(response_validator, *validator, "validator"); assert_eq!(state.balances[i], balance, "balances"); assert_eq!(state.validators[i], *validator, "validator index"); } #[test] fn proposer_slashing() { 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 chain = node .client .beacon_chain() .expect("node should have beacon chain"); let state = chain .head() .expect("should have retrieved state") .beacon_state; let spec = &chain.spec; // Check that there are no proposer slashings before insertion let (proposer_slashings, _attester_slashings) = chain.op_pool.get_slashings(&state); assert_eq!(proposer_slashings.len(), 0); let slot = state.slot; let proposer_index = chain .block_proposer(slot) .expect("should get proposer index"); let keypair = generate_deterministic_keypair(proposer_index); let key = &keypair.sk; let fork = &state.fork; let proposer_slashing = build_proposer_slashing::( ProposerSlashingTestTask::Valid, proposer_index as u64, &key, fork, state.genesis_validators_root, spec, ); let result = env .runtime() .block_on( remote_node .http .beacon() .proposer_slashing(proposer_slashing.clone()), ) .expect("should fetch from http api"); assert!(result, true); // Length should be just one as we've inserted only one proposer slashing let (proposer_slashings, _attester_slashings) = chain.op_pool.get_slashings(&state); assert_eq!(proposer_slashings.len(), 1); assert_eq!(proposer_slashing.clone(), proposer_slashings[0]); let mut invalid_proposer_slashing = build_proposer_slashing::( ProposerSlashingTestTask::Valid, proposer_index as u64, &key, fork, state.genesis_validators_root, spec, ); invalid_proposer_slashing.signed_header_2 = invalid_proposer_slashing.signed_header_1.clone(); let result = env.runtime().block_on( remote_node .http .beacon() .proposer_slashing(invalid_proposer_slashing), ); assert!(result.is_err()); // Length should still be one as we've inserted nothing since last time. let (proposer_slashings, _attester_slashings) = chain.op_pool.get_slashings(&state); assert_eq!(proposer_slashings.len(), 1); assert_eq!(proposer_slashing, proposer_slashings[0]); } #[test] fn attester_slashing() { 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 chain = node .client .beacon_chain() .expect("node should have beacon chain"); let state = chain .head() .expect("should have retrieved state") .beacon_state; let slot = state.slot; let spec = &chain.spec; let proposer_index = chain .block_proposer(slot) .expect("should get proposer index"); let keypair = generate_deterministic_keypair(proposer_index); let secret_keys = vec![&keypair.sk]; let validator_indices = vec![proposer_index as u64]; let fork = &state.fork; // Checking there are no attester slashings before insertion let (_proposer_slashings, attester_slashings) = chain.op_pool.get_slashings(&state); assert_eq!(attester_slashings.len(), 0); let attester_slashing = build_double_vote_attester_slashing( AttesterSlashingTestTask::Valid, &validator_indices[..], &secret_keys[..], fork, state.genesis_validators_root, spec, ); let result = env .runtime() .block_on( remote_node .http .beacon() .attester_slashing(attester_slashing.clone()), ) .expect("should fetch from http api"); assert!(result, true); // Length should be just one as we've inserted only one attester slashing let (_proposer_slashings, attester_slashings) = chain.op_pool.get_slashings(&state); assert_eq!(attester_slashings.len(), 1); assert_eq!(attester_slashing, attester_slashings[0]); // Building an invalid attester slashing let mut invalid_attester_slashing = build_double_vote_attester_slashing( AttesterSlashingTestTask::Valid, &validator_indices[..], &secret_keys[..], fork, state.genesis_validators_root, spec, ); invalid_attester_slashing.attestation_2 = invalid_attester_slashing.attestation_1.clone(); let result = env.runtime().block_on( remote_node .http .beacon() .attester_slashing(invalid_attester_slashing), ); result.unwrap_err(); // Length should still be one as we've failed to insert the attester slashing. let (_proposer_slashings, attester_slashings) = chain.op_pool.get_slashings(&state); assert_eq!(attester_slashings.len(), 1); assert_eq!(attester_slashing, attester_slashings[0]); } mod validator_attestation { use super::*; use http::StatusCode; use node_test_rig::environment::Environment; use remote_beacon_node::{Error::DidNotSucceed, HttpClient}; use types::{Attestation, AttestationDuty, MinimalEthSpec}; use url::Url; fn setup() -> ( Environment, LocalBeaconNode, HttpClient, Url, AttestationDuty, ) { 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 client = remote_node.http.clone(); let socket_addr = node .client .http_listen_addr() .expect("A remote beacon node must have a http server"); let url = Url::parse(&format!( "http://{}:{}/validator/attestation", socket_addr.ip(), socket_addr.port() )) .expect("should be valid endpoint"); // Find a validator that has duties in the current slot of the chain. let mut validator_index = 0; let beacon_chain = node .client .beacon_chain() .expect("client should have beacon chain"); let state = beacon_chain.head().expect("should get head").beacon_state; let duties = loop { let duties = state .get_attestation_duties(validator_index, RelativeEpoch::Current) .expect("should have attestation duties cache") .expect("should have attestation duties"); if duties.slot == node.client.beacon_chain().unwrap().slot().unwrap() { break duties; } else { validator_index += 1 } }; (env, node, client, url, duties) } #[test] fn requires_query_parameters() { let (mut env, _node, client, url, _duties) = setup(); let attestation = env.runtime().block_on( // query parameters are missing client.json_get::>(url.clone(), vec![]), ); assert_matches!( attestation.expect_err("should not succeed"), DidNotSucceed { status, body } => { assert_eq!(status, StatusCode::BAD_REQUEST); assert_eq!(body, "URL query must be valid and contain at least one of the following keys: [\"slot\"]".to_owned()); } ); } #[test] fn requires_slot() { let (mut env, _node, client, url, duties) = setup(); let attestation = env.runtime().block_on( // `slot` is missing client.json_get::>( url.clone(), vec![("committee_index".into(), format!("{}", duties.index))], ), ); assert_matches!( attestation.expect_err("should not succeed"), DidNotSucceed { status, body } => { assert_eq!(status, StatusCode::BAD_REQUEST); assert_eq!(body, "URL query must be valid and contain at least one of the following keys: [\"slot\"]".to_owned()); } ); } #[test] fn requires_committee_index() { let (mut env, _node, client, url, duties) = setup(); let attestation = env.runtime().block_on( // `committee_index` is missing. client.json_get::>( url.clone(), vec![("slot".into(), format!("{}", duties.slot))], ), ); assert_matches!( attestation.expect_err("should not succeed"), DidNotSucceed { status, body } => { assert_eq!(status, StatusCode::BAD_REQUEST); assert_eq!(body, "URL query must be valid and contain at least one of the following keys: [\"committee_index\"]".to_owned()); } ); } } #[cfg(target_os = "linux")] #[test] fn get_health() { 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"); env.runtime() .block_on(remote_node.http.node().get_health()) .unwrap(); }