lighthouse/eth2/fork_choice/tests/tests.rs

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// Tests the available fork-choice algorithms
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extern crate beacon_chain;
extern crate bls;
extern crate db;
//extern crate env_logger; // for debugging
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extern crate fork_choice;
extern crate hex;
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extern crate log;
extern crate slot_clock;
extern crate types;
extern crate yaml_rust;
pub use beacon_chain::BeaconChain;
use bls::{PublicKey, Signature};
use db::stores::{BeaconBlockStore, BeaconStateStore};
use db::MemoryDB;
//use env_logger::{Builder, Env};
use fork_choice::{BitwiseLMDGhost, ForkChoice, ForkChoiceAlgorithm, LongestChain, SlowLMDGhost};
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use ssz::ssz_encode;
use std::collections::HashMap;
use std::sync::Arc;
use std::{fs::File, io::prelude::*, path::PathBuf};
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use types::{
BeaconBlock, BeaconBlockBody, BeaconState, ChainSpec, Epoch, Eth1Data, Hash256, Slot, Validator,
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};
use yaml_rust::yaml;
// Note: We Assume the block Id's are hex-encoded.
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#[test]
fn test_bitwise_lmd_ghost() {
// set up logging
//Builder::from_env(Env::default().default_filter_or("trace")).init();
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test_yaml_vectors(
ForkChoiceAlgorithm::BitwiseLMDGhost,
"tests/bitwise_lmd_ghost_test_vectors.yaml",
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100,
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);
}
#[test]
fn test_slow_lmd_ghost() {
test_yaml_vectors(
ForkChoiceAlgorithm::SlowLMDGhost,
"tests/lmd_ghost_test_vectors.yaml",
100,
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);
}
#[test]
fn test_longest_chain() {
test_yaml_vectors(
ForkChoiceAlgorithm::LongestChain,
"tests/longest_chain_test_vectors.yaml",
100,
);
}
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// run a generic test over given YAML test vectors
fn test_yaml_vectors(
fork_choice_algo: ForkChoiceAlgorithm,
yaml_file_path: &str,
emulated_validators: usize, // the number of validators used to give weights.
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) {
// load test cases from yaml
let test_cases = load_test_cases_from_yaml(yaml_file_path);
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// default vars
let spec = ChainSpec::foundation();
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let zero_hash = Hash256::zero();
let eth1_data = Eth1Data {
deposit_root: zero_hash.clone(),
block_hash: zero_hash.clone(),
};
let randao_reveal = Signature::empty_signature();
let signature = Signature::empty_signature();
let body = BeaconBlockBody {
proposer_slashings: vec![],
attester_slashings: vec![],
attestations: vec![],
deposits: vec![],
exits: vec![],
};
// process the tests
for test_case in test_cases {
// setup a fresh test
let (mut fork_choice, block_store, state_root) =
setup_inital_state(&fork_choice_algo, emulated_validators);
// keep a hashmap of block_id's to block_hashes (random hashes to abstract block_id)
//let mut block_id_map: HashMap<String, Hash256> = HashMap::new();
// keep a list of hash to slot
let mut block_slot: HashMap<Hash256, Slot> = HashMap::new();
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// assume the block tree is given to us in order.
let mut genesis_hash = None;
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for block in test_case["blocks"].clone().into_vec().unwrap() {
let block_id = block["id"].as_str().unwrap().to_string();
let parent_id = block["parent"].as_str().unwrap().to_string();
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// default params for genesis
let block_hash = id_to_hash(&block_id);
let mut slot = spec.genesis_slot;
let parent_root = id_to_hash(&parent_id);
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// set the slot and parent based off the YAML. Start with genesis;
// if not the genesis, update slot
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if parent_id != block_id {
// find parent slot
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slot = *(block_slot
.get(&parent_root)
.expect("Parent should have a slot number"))
+ 1;
} else {
genesis_hash = Some(block_hash);
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}
// update slot mapping
block_slot.insert(block_hash, slot);
// build the BeaconBlock
let beacon_block = BeaconBlock {
slot,
parent_root,
state_root: state_root.clone(),
randao_reveal: randao_reveal.clone(),
eth1_data: eth1_data.clone(),
signature: signature.clone(),
body: body.clone(),
};
// Store the block.
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block_store
.put(&block_hash, &ssz_encode(&beacon_block)[..])
.unwrap();
// run add block for fork choice if not genesis
if parent_id != block_id {
fork_choice
.add_block(&beacon_block, &block_hash, &spec)
.unwrap();
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}
}
// add the weights (attestations)
let mut current_validator = 0;
for id_map in test_case["weights"].clone().into_vec().unwrap() {
// get the block id and weights
for (map_id, map_weight) in id_map.as_hash().unwrap().iter() {
let id = map_id.as_str().unwrap();
let block_root = id_to_hash(&id.to_string());
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let weight = map_weight.as_i64().unwrap();
// we assume a validator has a value 1 and add an attestation for to achieve the
// correct weight
for _ in 0..weight {
assert!(
current_validator <= emulated_validators,
"Not enough validators to emulate weights"
);
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fork_choice
.add_attestation(current_validator as u64, &block_root, &spec)
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.unwrap();
current_validator += 1;
}
}
}
// everything is set up, run the fork choice, using genesis as the head
let head = fork_choice
.find_head(&genesis_hash.unwrap(), &spec)
.unwrap();
// compare the result to the expected test
let success = test_case["heads"]
.clone()
.into_vec()
.unwrap()
.iter()
.find(|heads| id_to_hash(&heads["id"].as_str().unwrap().to_string()) == head)
.is_some();
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println!("Head found: {}", head);
assert!(success, "Did not find one of the possible heads");
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}
}
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// loads the test_cases from the supplied yaml file
fn load_test_cases_from_yaml(file_path: &str) -> Vec<yaml_rust::Yaml> {
// load the yaml
let mut file = {
let mut file_path_buf = PathBuf::from(env!("CARGO_MANIFEST_DIR"));
file_path_buf.push(file_path);
File::open(file_path_buf).unwrap()
};
let mut yaml_str = String::new();
file.read_to_string(&mut yaml_str).unwrap();
let docs = yaml::YamlLoader::load_from_str(&yaml_str).unwrap();
let doc = &docs[0];
doc["test_cases"].as_vec().unwrap().clone()
}
// initialise a single validator and state. All blocks will reference this state root.
fn setup_inital_state(
fork_choice_algo: &ForkChoiceAlgorithm,
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no_validators: usize,
) -> (Box<ForkChoice>, Arc<BeaconBlockStore<MemoryDB>>, Hash256) {
let zero_hash = Hash256::zero();
let db = Arc::new(MemoryDB::open());
let block_store = Arc::new(BeaconBlockStore::new(db.clone()));
let state_store = Arc::new(BeaconStateStore::new(db.clone()));
// the fork choice instantiation
let fork_choice: Box<ForkChoice> = match fork_choice_algo {
ForkChoiceAlgorithm::BitwiseLMDGhost => Box::new(BitwiseLMDGhost::new(
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block_store.clone(),
state_store.clone(),
)),
ForkChoiceAlgorithm::SlowLMDGhost => {
Box::new(SlowLMDGhost::new(block_store.clone(), state_store.clone()))
}
ForkChoiceAlgorithm::LongestChain => Box::new(LongestChain::new(block_store.clone())),
};
// misc vars for setting up the state
let genesis_time = 1_550_381_159;
let latest_eth1_data = Eth1Data {
deposit_root: zero_hash.clone(),
block_hash: zero_hash.clone(),
};
let initial_validator_deposits = vec![];
let spec = ChainSpec::foundation();
// create the state
let mut state = BeaconState::genesis(
genesis_time,
initial_validator_deposits,
latest_eth1_data,
&spec,
)
.unwrap();
let default_validator = Validator {
pubkey: PublicKey::default(),
withdrawal_credentials: zero_hash,
activation_epoch: Epoch::from(0u64),
exit_epoch: spec.far_future_epoch,
withdrawal_epoch: spec.far_future_epoch,
penalized_epoch: spec.far_future_epoch,
status_flags: None,
};
// activate the validators
for _ in 0..no_validators {
state.validator_registry.push(default_validator.clone());
state.validator_balances.push(32_000_000_000);
}
let state_root = state.canonical_root();
state_store
.put(&state_root, &ssz_encode(&state)[..])
.unwrap();
// return initialised vars
(fork_choice, block_store, state_root)
}
// convert a block_id into a Hash256 -- assume input is hex encoded;
fn id_to_hash(id: &String) -> Hash256 {
let bytes = hex::decode(id).expect("Block ID should be hex");
let len = std::cmp::min(bytes.len(), 32);
let mut fixed_bytes = [0u8; 32];
for (index, byte) in bytes.iter().take(32).enumerate() {
fixed_bytes[32 - len + index] = *byte;
}
Hash256::from(fixed_bytes)
}