gnosis/lighthouse
1
0
Fork 0
mirror of https://github.com/sigp/lighthouse.git synced 2026-03-04 01:01:41 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
3b4865c3ae1548c200f58fd4969d0403388bdcb3
lighthouse/testing/execution_engine_integration/src/test_rig.rs
Paul Hauner 3b4865c3ae Poll the engine_exchangeTransitionConfigurationV1 endpoint (#3047) 
## Issue Addressed

There has been an [`engine_exchangetransitionconfigurationv1`](https://github.com/ethereum/execution-apis/blob/main/src/engine/specification.md#engine_exchangetransitionconfigurationv1) method added to the execution API specs.

The `engine_exchangetransitionconfigurationv1` will be polled every 60s as per this PR: https://github.com/ethereum/execution-apis/pull/189. If that PR is merged as-is, then we will be matching the spec. If that PR *is not* merged, we are still fully compatible with the spec, but just doing more than we are required.

## Additional Info

- [x] ~~Blocked on #2837~~
- [x] Add method to EE integration tests
2022-03-08 04:40:42 +00:00

371 lines
11 KiB
Rust
Raw Blame History

use crate::execution_engine::{ExecutionEngine, GenericExecutionEngine};
use execution_layer::{ExecutionLayer, PayloadAttributes, PayloadStatus};
use std::sync::Arc;
use std::time::{Duration, Instant, SystemTime, UNIX_EPOCH};
use task_executor::TaskExecutor;
use tokio::time::sleep;
use types::{Address, ChainSpec, EthSpec, ExecutionBlockHash, Hash256, MainnetEthSpec, Uint256};
const EXECUTION_ENGINE_START_TIMEOUT: Duration = Duration::from_secs(10);
struct ExecutionPair<E> {
/// The Lighthouse `ExecutionLayer` struct, connected to the `execution_engine` via HTTP.
execution_layer: ExecutionLayer,
/// A handle to external EE process, once this is dropped the process will be killed.
#[allow(dead_code)]
execution_engine: ExecutionEngine<E>,
}
/// A rig that holds two EE processes for testing.
///
/// There are two EEs held here so that we can test out-of-order application of payloads, and other
/// edge-cases.
pub struct TestRig<E> {
#[allow(dead_code)]
runtime: Arc<tokio::runtime::Runtime>,
ee_a: ExecutionPair<E>,
ee_b: ExecutionPair<E>,
spec: ChainSpec,
_runtime_shutdown: exit_future::Signal,
}
impl<E: GenericExecutionEngine> TestRig<E> {
pub fn new(generic_engine: E) -> Self {
let log = environment::null_logger().unwrap();
let runtime = Arc::new(
tokio::runtime::Builder::new_multi_thread()
.enable_all()
.build()
.unwrap(),
);
let (runtime_shutdown, exit) = exit_future::signal();
let (shutdown_tx, _) = futures::channel::mpsc::channel(1);
let executor = TaskExecutor::new(Arc::downgrade(&runtime), exit, log.clone(), shutdown_tx);
let fee_recipient = None;
let ee_a = {
let execution_engine = ExecutionEngine::new(generic_engine.clone());
let urls = vec![execution_engine.http_url()];
let execution_layer =
ExecutionLayer::from_urls(urls, fee_recipient, executor.clone(), log.clone())
.unwrap();
ExecutionPair {
execution_engine,
execution_layer,
}
};
let ee_b = {
let execution_engine = ExecutionEngine::new(generic_engine);
let urls = vec![execution_engine.http_url()];
let execution_layer =
ExecutionLayer::from_urls(urls, fee_recipient, executor, log).unwrap();
ExecutionPair {
execution_engine,
execution_layer,
}
};
let mut spec = MainnetEthSpec::default_spec();
spec.terminal_total_difficulty = Uint256::zero();
Self {
runtime,
ee_a,
ee_b,
spec,
_runtime_shutdown: runtime_shutdown,
}
}
pub fn perform_tests_blocking(&self) {
self.ee_a
.execution_layer
.block_on_generic(|_| async { self.perform_tests().await })
.unwrap()
}
pub async fn wait_until_synced(&self) {
let start_instant = Instant::now();
for pair in [&self.ee_a, &self.ee_b] {
loop {
// Run the routine to check for online nodes.
pair.execution_layer.watchdog_task().await;
if pair.execution_layer.is_synced().await {
break;
} else if start_instant + EXECUTION_ENGINE_START_TIMEOUT > Instant::now() {
sleep(Duration::from_millis(500)).await;
} else {
panic!("timeout waiting for execution engines to come online")
}
}
}
}
pub async fn perform_tests(&self) {
self.wait_until_synced().await;
/*
* Check the transition config endpoint.
*/
for ee in [&self.ee_a, &self.ee_b] {
ee.execution_layer
.exchange_transition_configuration(&self.spec)
.await
.unwrap();
}
/*
* Read the terminal block hash from both pairs, check it's equal.
*/
let terminal_pow_block_hash = self
.ee_a
.execution_layer
.get_terminal_pow_block_hash(&self.spec)
.await
.unwrap()
.unwrap();
assert_eq!(
terminal_pow_block_hash,
self.ee_b
.execution_layer
.get_terminal_pow_block_hash(&self.spec)
.await
.unwrap()
.unwrap()
);
/*
* Execution Engine A:
*
* Produce a valid payload atop the terminal block.
*/
let parent_hash = terminal_pow_block_hash;
let timestamp = timestamp_now();
let prev_randao = Hash256::zero();
let finalized_block_hash = ExecutionBlockHash::zero();
let proposer_index = 0;
let valid_payload = self
.ee_a
.execution_layer
.get_payload::<MainnetEthSpec>(
parent_hash,
timestamp,
prev_randao,
finalized_block_hash,
proposer_index,
)
.await
.unwrap();
/*
* Execution Engine A:
*
* Indicate that the payload is the head of the chain, before submitting a
* `notify_new_payload`.
*/
let head_block_hash = valid_payload.block_hash;
let finalized_block_hash = ExecutionBlockHash::zero();
let payload_attributes = None;
let status = self
.ee_a
.execution_layer
.notify_forkchoice_updated(head_block_hash, finalized_block_hash, payload_attributes)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Syncing);
/*
* Execution Engine A:
*
* Provide the valid payload back to the EE again.
*/
let status = self
.ee_a
.execution_layer
.notify_new_payload(&valid_payload)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Valid);
/*
* Execution Engine A:
*
* Indicate that the payload is the head of the chain.
*
* Do not provide payload attributes (we'll test that later).
*/
let head_block_hash = valid_payload.block_hash;
let finalized_block_hash = ExecutionBlockHash::zero();
let payload_attributes = None;
let status = self
.ee_a
.execution_layer
.notify_forkchoice_updated(head_block_hash, finalized_block_hash, payload_attributes)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Valid);
/*
* Execution Engine A:
*
* Provide an invalidated payload to the EE.
*/
let mut invalid_payload = valid_payload.clone();
invalid_payload.prev_randao = Hash256::from_low_u64_be(42);
let status = self
.ee_a
.execution_layer
.notify_new_payload(&invalid_payload)
.await
.unwrap();
assert!(matches!(status, PayloadStatus::InvalidBlockHash { .. }));
/*
* Execution Engine A:
*
* Produce another payload atop the previous one.
*/
let parent_hash = valid_payload.block_hash;
let timestamp = valid_payload.timestamp + 1;
let prev_randao = Hash256::zero();
let finalized_block_hash = ExecutionBlockHash::zero();
let proposer_index = 0;
let second_payload = self
.ee_a
.execution_layer
.get_payload::<MainnetEthSpec>(
parent_hash,
timestamp,
prev_randao,
finalized_block_hash,
proposer_index,
)
.await
.unwrap();
/*
* Execution Engine A:
*
* Provide the second payload back to the EE again.
*/
let status = self
.ee_a
.execution_layer
.notify_new_payload(&second_payload)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Valid);
/*
* Execution Engine A:
*
* Indicate that the payload is the head of the chain, providing payload attributes.
*/
let head_block_hash = valid_payload.block_hash;
let finalized_block_hash = ExecutionBlockHash::zero();
let payload_attributes = Some(PayloadAttributes {
timestamp: second_payload.timestamp + 1,
prev_randao: Hash256::zero(),
suggested_fee_recipient: Address::zero(),
});
let status = self
.ee_a
.execution_layer
.notify_forkchoice_updated(head_block_hash, finalized_block_hash, payload_attributes)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Valid);
/*
* Execution Engine B:
*
* Provide the second payload, without providing the first.
*/
let status = self
.ee_b
.execution_layer
.notify_new_payload(&second_payload)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Accepted);
/*
* Execution Engine B:
*
* Set the second payload as the head, without providing payload attributes.
*/
let head_block_hash = second_payload.block_hash;
let finalized_block_hash = ExecutionBlockHash::zero();
let payload_attributes = None;
let status = self
.ee_b
.execution_layer
.notify_forkchoice_updated(head_block_hash, finalized_block_hash, payload_attributes)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Syncing);
/*
* Execution Engine B:
*
* Provide the first payload to the EE.
*/
let status = self
.ee_b
.execution_layer
.notify_new_payload(&valid_payload)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Valid);
/*
* Execution Engine B:
*
* Provide the second payload, now the first has been provided.
*/
let status = self
.ee_b
.execution_layer
.notify_new_payload(&second_payload)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Valid);
/*
* Execution Engine B:
*
* Set the second payload as the head, without providing payload attributes.
*/
let head_block_hash = second_payload.block_hash;
let finalized_block_hash = ExecutionBlockHash::zero();
let payload_attributes = None;
let status = self
.ee_b
.execution_layer
.notify_forkchoice_updated(head_block_hash, finalized_block_hash, payload_attributes)
.await
.unwrap();
assert_eq!(status, PayloadStatus::Valid);
}
}
/// Returns the duration since the unix epoch.
pub fn timestamp_now() -> u64 {
SystemTime::now()
.duration_since(UNIX_EPOCH)
.unwrap_or_else(|_| Duration::from_secs(0))
.as_secs()
}
Reference in New Issue View Git Blame Copy Permalink