use std::sync::Arc; use super::attestation_validation::helpers::{ generate_attestation, insert_justified_block_hash, }; use super::bls::{ Keypair, }; use super::db::{ MemoryDB, }; use super::db::stores::{ BlockStore, PoWChainStore, ValidatorStore, }; use super::types::{ AttestationRecord, AttesterMap, Block, Hash256, ProposerMap, }; use super::ssz_helpers::ssz_block::SszBlock; use super::validation::block_validation::{ BlockValidationContext, SszBlockValidationError, BlockStatus, }; use super::ssz::{ SszStream, }; #[derive(Debug)] pub struct BlockTestParams { pub total_validators: usize, pub cycle_length: u8, pub shard_count: u16, pub shards_per_slot: u16, pub validators_per_shard: usize, pub block_slot: u64, pub attestations_justified_slot: u64, pub parent_proposer_index: usize, pub validation_context_slot: u64, pub validation_context_justified_slot: u64, pub validation_context_justified_block_hash: Hash256, pub validation_context_finalized_slot: u64, } pub struct TestStore { pub db: Arc, pub block: Arc>, pub pow_chain: Arc>, pub validator: Arc>, } impl TestStore { pub fn new() -> Self { let db = Arc::new(MemoryDB::open()); let block = Arc::new(BlockStore::new(db.clone())); let pow_chain = Arc::new(PoWChainStore::new(db.clone())); let validator = Arc::new(ValidatorStore::new(db.clone())); Self { db, block, pow_chain, validator, } } } type ParentHashes = Vec; /// Setup for a block validation function, without actually executing the /// block validation function. pub fn setup_block_validation_scenario(params: &BlockTestParams) -> (Block, ParentHashes, AttesterMap, ProposerMap, TestStore) { let stores = TestStore::new(); let cycle_length = params.cycle_length; let shards_per_slot = params.shards_per_slot; let validators_per_shard = params.validators_per_shard; let block_slot = params.block_slot; let attestations_justified_slot = params.attestations_justified_slot; let mut parent_hashes: Vec = (0..(cycle_length * 2)) .map(|i| Hash256::from(i as u64)) .collect(); let parent_hash = Hash256::from("parent_hash".as_bytes()); let randao_reveal = Hash256::from("randao_reveal".as_bytes()); let justified_block_hash = Hash256::from("justified_hash".as_bytes()); let pow_chain_ref = Hash256::from("pow_chain".as_bytes()); let active_state_root = Hash256::from("active_state".as_bytes()); let crystallized_state_root = Hash256::from("cry_state".as_bytes()); let shard_block_hash = Hash256::from("shard_block_hash".as_bytes()); /* * Store a valid PoW chain ref */ stores.pow_chain.put_block_hash(pow_chain_ref.as_ref()).unwrap(); /* * Generate a minimum viable parent block and store it in the database. */ let mut parent_block = Block::zero(); let parent_attestation = AttestationRecord::zero(); parent_block.slot_number = block_slot - 1; parent_block.attestations.push(parent_attestation); let parent_block_ssz = serialize_block(&parent_block); stores.block.put_serialized_block(parent_hash.as_ref(), &parent_block_ssz).unwrap(); let proposer_map = { let mut proposer_map = ProposerMap::new(); proposer_map.insert(parent_block.slot_number, params.parent_proposer_index); proposer_map }; let (attester_map, attestations, _keypairs) = { let mut i = 0; let attestation_slot = block_slot - 1; let mut attester_map = AttesterMap::new(); let mut attestations = vec![]; let mut keypairs = vec![]; /* * Insert the required justified_block_hash into parent_hashes */ insert_justified_block_hash( &mut parent_hashes, &justified_block_hash, block_slot, attestation_slot); /* * For each shard in this slot, generate an attestation. */ for shard in 0..shards_per_slot { let mut signing_keys = vec![]; let mut attesters = vec![]; /* * Generate a random keypair for each validator and clone it into the * list of keypairs. Store it in the database. */ for _ in 0..validators_per_shard { let keypair = Keypair::random(); keypairs.push(keypair.clone()); stores.validator.put_public_key_by_index(i, &keypair.pk).unwrap(); signing_keys.push(Some(keypair.sk.clone())); attesters.push(i); i += 1; } attester_map.insert((attestation_slot, shard), attesters); let attestation = generate_attestation( shard, &shard_block_hash, block_slot, attestation_slot, attestations_justified_slot, &justified_block_hash, cycle_length, &parent_hashes, &signing_keys[..], &stores.block); attestations.push(attestation); } (attester_map, attestations, keypairs) }; let block = Block { parent_hash, slot_number: block_slot, randao_reveal, attestations, pow_chain_ref, active_state_root, crystallized_state_root, }; (block, parent_hashes, attester_map, proposer_map, stores) } /// Helper function to take some Block and SSZ serialize it. pub fn serialize_block(b: &Block) -> Vec { let mut stream = SszStream::new(); stream.append(b); stream.drain() } /// Setup and run a block validation scenario, given some parameters. /// /// Returns the Result returned from the block validation function. pub fn run_block_validation_scenario( params: &BlockTestParams, mutator_func: F) -> Result<(BlockStatus, Option), SszBlockValidationError> where F: FnOnce(Block, AttesterMap, ProposerMap, TestStore) -> (Block, AttesterMap, ProposerMap, TestStore) { let (block, parent_hashes, attester_map, proposer_map, stores) = setup_block_validation_scenario(¶ms); let (block, attester_map, proposer_map, stores) = mutator_func(block, attester_map, proposer_map, stores); let ssz_bytes = serialize_block(&block); let ssz_block = SszBlock::from_slice(&ssz_bytes[..]) .unwrap(); let context = BlockValidationContext { present_slot: params.validation_context_slot, cycle_length: params.cycle_length, last_justified_slot: params.validation_context_justified_slot, last_justified_block_hash: params.validation_context_justified_block_hash, last_finalized_slot: params.validation_context_finalized_slot, parent_hashes: Arc::new(parent_hashes), proposer_map: Arc::new(proposer_map), attester_map: Arc::new(attester_map), block_store: stores.block.clone(), validator_store: stores.validator.clone(), pow_store: stores.pow_chain.clone() }; let validation_status = context.validate_ssz_block(&ssz_block); /* * If validation returned a block, make sure it's the same block we supplied to it. * * I.e., there were no errors during the serialization -> deserialization process. */ if let Ok((_, Some(returned_block))) = &validation_status { assert_eq!(*returned_block, block); }; validation_status }