lighthouse/eth2/state_processing/benches/block_processing_benches.rs
2019-03-11 14:52:21 +11:00

426 lines
13 KiB
Rust

use criterion::Criterion;
use criterion::{black_box, Benchmark};
use ssz::TreeHash;
use state_processing::{
per_block_processing,
per_block_processing::{
process_attestations, process_attester_slashings, process_deposits, process_eth1_data,
process_exits, process_proposer_slashings, process_randao, process_transfers,
verify_block_signature,
},
};
use types::test_utils::{TestingBeaconBlockBuilder, TestingBeaconStateBuilder};
use types::*;
/// Run the benchmarking suite on a foundation spec with 16,384 validators.
pub fn block_processing_16k_validators(c: &mut Criterion) {
let spec = ChainSpec::foundation();
let validator_count = 300_032;
let (mut state, keypairs) = build_state(validator_count, &spec);
let block = build_block(&mut state, &keypairs, &spec);
assert_eq!(
block.body.proposer_slashings.len(),
spec.max_proposer_slashings as usize,
"The block should have the maximum possible proposer slashings"
);
assert_eq!(
block.body.attester_slashings.len(),
spec.max_attester_slashings as usize,
"The block should have the maximum possible attester slashings"
);
for attester_slashing in &block.body.attester_slashings {
let len_1 = attester_slashing
.slashable_attestation_1
.validator_indices
.len();
let len_2 = attester_slashing
.slashable_attestation_1
.validator_indices
.len();
assert!(
(len_1 == len_2) && (len_2 == spec.max_indices_per_slashable_vote as usize),
"Each attester slashing should have the maximum possible validator indices"
);
}
assert_eq!(
block.body.attestations.len(),
spec.max_attestations as usize,
"The block should have the maximum possible attestations."
);
assert_eq!(
block.body.deposits.len(),
spec.max_deposits as usize,
"The block should have the maximum possible deposits."
);
assert_eq!(
block.body.voluntary_exits.len(),
spec.max_voluntary_exits as usize,
"The block should have the maximum possible voluntary exits."
);
assert_eq!(
block.body.transfers.len(),
spec.max_transfers as usize,
"The block should have the maximum possible transfers."
);
bench_block_processing(
c,
&block,
&state,
&spec,
&format!("{}_validators", validator_count),
);
}
fn build_state(validator_count: usize, spec: &ChainSpec) -> (BeaconState, Vec<Keypair>) {
let mut builder = TestingBeaconStateBuilder::new(validator_count, &spec);
// Set the state to be just before an epoch transition.
let target_slot = (spec.genesis_epoch + 4).end_slot(spec.slots_per_epoch);
builder.teleport_to_slot(target_slot, &spec);
// Builds all caches; benches will not contain shuffling/committee building times.
builder.build_caches(&spec).unwrap();
builder.build()
}
fn build_block(state: &mut BeaconState, keypairs: &[Keypair], spec: &ChainSpec) -> BeaconBlock {
let mut builder = TestingBeaconBlockBuilder::new(spec);
builder.set_slot(state.slot);
let proposer_index = state.get_beacon_proposer_index(state.slot, spec).unwrap();
let keypair = &keypairs[proposer_index];
builder.set_randao_reveal(&keypair.sk, &state.fork, spec);
// Used as a stream of validator indices for use in slashings, exits, etc.
let mut validators_iter = (0..keypairs.len() as u64).into_iter();
// Insert the maximum possible number of `ProposerSlashing` objects.
for _ in 0..spec.max_proposer_slashings {
let validator_index = validators_iter.next().expect("Insufficient validators.");
builder.insert_proposer_slashing(
validator_index,
&keypairs[validator_index as usize].sk,
&state.fork,
spec,
);
}
// Insert the maximum possible number of `AttesterSlashing` objects
for _ in 0..spec.max_attester_slashings {
let mut attesters: Vec<u64> = vec![];
let mut secret_keys: Vec<&SecretKey> = vec![];
for _ in 0..spec.max_indices_per_slashable_vote {
let validator_index = validators_iter.next().expect("Insufficient validators.");
attesters.push(validator_index);
secret_keys.push(&keypairs[validator_index as usize].sk);
}
builder.insert_attester_slashing(&attesters, &secret_keys, &state.fork, spec);
}
// Insert the maximum possible number of `Attestation` objects.
let all_secret_keys: Vec<&SecretKey> = keypairs.iter().map(|keypair| &keypair.sk).collect();
builder
.fill_with_attestations(state, &all_secret_keys, spec)
.unwrap();
// Insert the maximum possible number of `Deposit` objects.
for i in 0..spec.max_deposits {
builder.insert_deposit(32_000_000_000, state.deposit_index + i, spec);
}
// Insert the maximum possible number of `Exit` objects.
for _ in 0..spec.max_voluntary_exits {
let validator_index = validators_iter.next().expect("Insufficient validators.");
builder.insert_exit(
state,
validator_index,
&keypairs[validator_index as usize].sk,
spec,
);
}
// Insert the maximum possible number of `Transfer` objects.
for _ in 0..spec.max_transfers {
let validator_index = validators_iter.next().expect("Insufficient validators.");
// Manually set the validator to be withdrawn.
state.validator_registry[validator_index as usize].withdrawable_epoch =
state.previous_epoch(spec);
builder.insert_transfer(
state,
validator_index,
validator_index,
1,
keypairs[validator_index as usize].clone(),
spec,
);
}
let mut block = builder.build(&keypair.sk, &state.fork, spec);
// Set the eth1 data to be different from the state.
block.eth1_data.block_hash = Hash256::from_slice(&vec![42; 32]);
block
}
/// Run the detailed benchmarking suite on the given `BeaconState`.
///
/// `desc` will be added to the title of each bench.
fn bench_block_processing(
c: &mut Criterion,
initial_block: &BeaconBlock,
initial_state: &BeaconState,
initial_spec: &ChainSpec,
desc: &str,
) {
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("verify_block_signature", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
verify_block_signature(&mut state, &block, &spec).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_randao", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_randao(&mut state, &block, &spec).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_eth1_data", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_eth1_data(&mut state, &block.eth1_data).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_proposer_slashings", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_proposer_slashings(&mut state, &block.body.proposer_slashings, &spec)
.unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_attester_slashings", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_attester_slashings(&mut state, &block.body.attester_slashings, &spec)
.unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_attestations", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_attestations(&mut state, &block.body.attestations, &spec).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_deposits", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_deposits(&mut state, &block.body.deposits, &spec).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_exits", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_exits(&mut state, &block.body.voluntary_exits, &spec).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("process_transfers", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
process_transfers(&mut state, &block.body.transfers, &spec).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let state = initial_state.clone();
let block = initial_block.clone();
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("per_block_processing", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
per_block_processing(&mut state, &block, &spec).unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let mut state = initial_state.clone();
state.drop_cache(RelativeEpoch::Previous);
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("build_previous_state_epoch_cache", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
state
.build_epoch_cache(RelativeEpoch::Previous, &spec)
.unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let mut state = initial_state.clone();
state.drop_cache(RelativeEpoch::Current);
let spec = initial_spec.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("build_current_state_epoch_cache", move |b| {
b.iter_batched(
|| state.clone(),
|mut state| {
state
.build_epoch_cache(RelativeEpoch::Current, &spec)
.unwrap();
state
},
criterion::BatchSize::SmallInput,
)
})
.sample_size(10),
);
let block = initial_block.clone();
c.bench(
&format!("{}/block_processing", desc),
Benchmark::new("tree_hash_block", move |b| {
b.iter(|| black_box(block.hash_tree_root()))
})
.sample_size(10),
);
}