lighthouse-pulse/consensus/state_processing/tests/tests.rs
Paul Hauner b73c497be2 Support multiple BLS implementations (#1335)
## Issue Addressed

NA

## Proposed Changes

- Refactor the `bls` crate to support multiple BLS "backends" (e.g., milagro, blst, etc).
- Removes some duplicate, unused code in `common/rest_types/src/validator.rs`.
- Removes the old "upgrade legacy keypairs" functionality (these were unencrypted keys that haven't been supported for a few testnets, no one should be using them anymore).

## Additional Info

Most of the files changed are just inconsequential changes to function names.

## TODO

- [x] Optimization levels
- [x] Infinity point: https://github.com/supranational/blst/issues/11
- [x] Ensure milagro *and* blst are tested via CI
- [x] What to do with unsafe code?
- [x] Test infinity point in signature sets
2020-07-25 02:03:18 +00:00

229 lines
5.7 KiB
Rust

// #![cfg(not(feature = "fake_crypto"))]
use state_processing::{
per_block_processing, test_utils::BlockBuilder, BlockProcessingError, BlockSignatureStrategy,
};
use types::{
AggregateSignature, BeaconState, ChainSpec, EthSpec, Hash256, Keypair, MinimalEthSpec,
Signature, SignedBeaconBlock, Slot,
};
const VALIDATOR_COUNT: usize = 64;
fn get_block<T, F>(mut mutate_builder: F) -> (SignedBeaconBlock<T>, BeaconState<T>)
where
T: EthSpec,
F: FnMut(&mut BlockBuilder<T>),
{
let spec = T::default_spec();
let mut builder: BlockBuilder<T> = BlockBuilder::new(VALIDATOR_COUNT, &spec);
builder.set_slot(Slot::from(T::slots_per_epoch() * 3 - 2));
builder.build_caches(&spec);
mutate_builder(&mut builder);
builder.build(&spec)
}
fn test_scenario<T: EthSpec, F, G>(mutate_builder: F, mut invalidate_block: G, spec: &ChainSpec)
where
T: EthSpec,
F: FnMut(&mut BlockBuilder<T>),
G: FnMut(&mut SignedBeaconBlock<T>),
{
let (mut block, mut state) = get_block::<T, _>(mutate_builder);
/*
* Control check to ensure the valid block should pass verification.
*/
assert_eq!(
per_block_processing(
&mut state.clone(),
&block,
None,
BlockSignatureStrategy::VerifyIndividual,
spec
),
Ok(()),
"valid block should pass with verify individual"
);
assert_eq!(
per_block_processing(
&mut state.clone(),
&block,
None,
BlockSignatureStrategy::VerifyBulk,
spec
),
Ok(()),
"valid block should pass with verify bulk"
);
invalidate_block(&mut block);
/*
* Check to ensure the invalid block fails.
*/
assert!(
per_block_processing(
&mut state.clone(),
&block,
None,
BlockSignatureStrategy::VerifyIndividual,
spec
)
.is_err(),
"invalid block should fail with verify individual"
);
assert_eq!(
per_block_processing(
&mut state,
&block,
None,
BlockSignatureStrategy::VerifyBulk,
spec
),
Err(BlockProcessingError::BulkSignatureVerificationFailed),
"invalid block should fail with verify bulk"
);
}
// TODO: use lazy static
fn agg_sig() -> AggregateSignature {
let mut agg_sig = AggregateSignature::infinity();
agg_sig.add_assign(&sig());
agg_sig
}
// TODO: use lazy static
fn sig() -> Signature {
let keypair = Keypair::random();
keypair.sk.sign(Hash256::from_low_u64_be(42))
}
type TestEthSpec = MinimalEthSpec;
mod signatures_minimal {
use super::*;
#[test]
fn block_proposal() {
let spec = &TestEthSpec::default_spec();
test_scenario::<TestEthSpec, _, _>(|_| {}, |block| block.signature = sig(), spec);
}
#[test]
fn randao() {
let spec = &TestEthSpec::default_spec();
test_scenario::<TestEthSpec, _, _>(
|_| {},
|block| block.message.body.randao_reveal = sig(),
spec,
);
}
#[test]
fn proposer_slashing() {
let spec = &TestEthSpec::default_spec();
test_scenario::<TestEthSpec, _, _>(
|mut builder| {
builder.num_proposer_slashings = 1;
},
|block| {
block.message.body.proposer_slashings[0]
.signed_header_1
.signature = sig()
},
spec,
);
test_scenario::<TestEthSpec, _, _>(
|mut builder| {
builder.num_proposer_slashings = 1;
},
|block| {
block.message.body.proposer_slashings[0]
.signed_header_2
.signature = sig()
},
spec,
);
}
#[test]
fn attester_slashing() {
let spec = &TestEthSpec::default_spec();
test_scenario::<TestEthSpec, _, _>(
|mut builder| {
builder.num_attester_slashings = 1;
},
|block| {
block.message.body.attester_slashings[0]
.attestation_1
.signature = agg_sig()
},
spec,
);
test_scenario::<TestEthSpec, _, _>(
|mut builder| {
builder.num_attester_slashings = 1;
},
|block| {
block.message.body.attester_slashings[0]
.attestation_2
.signature = agg_sig()
},
spec,
);
}
#[test]
fn attestation() {
let spec = &TestEthSpec::default_spec();
test_scenario::<TestEthSpec, _, _>(
|mut builder| {
builder.num_attestations = 1;
},
|block| block.message.body.attestations[0].signature = agg_sig(),
spec,
);
}
#[test]
// TODO: fix fail by making valid merkle proofs.
#[should_panic]
fn deposit() {
let spec = &TestEthSpec::default_spec();
test_scenario::<TestEthSpec, _, _>(
|mut builder| {
builder.num_deposits = 1;
},
|block| block.message.body.deposits[0].data.signature = sig().into(),
spec,
);
}
#[test]
fn exit() {
let mut spec = &mut TestEthSpec::default_spec();
// Allows the test to pass.
spec.shard_committee_period = 0;
test_scenario::<TestEthSpec, _, _>(
|mut builder| {
builder.num_exits = 1;
},
|block| block.message.body.voluntary_exits[0].signature = sig(),
spec,
);
}
}