lighthouse/beacon_node/eth2-libp2p/tests/rpc_tests.rs
Age Manning 95c8e476bc
Initial work towards v0.2.0 (#924)
* Remove ping protocol

* Initial renaming of network services

* Correct rebasing relative to latest master

* Start updating types

* Adds HashMapDelay struct to utils

* Initial network restructure

* Network restructure. Adds new types for v0.2.0

* Removes build artefacts

* Shift validation to beacon chain

* Temporarily remove gossip validation

This is to be updated to match current optimisation efforts.

* Adds AggregateAndProof

* Begin rebuilding pubsub encoding/decoding

* Signature hacking

* Shift gossipsup decoding into eth2_libp2p

* Existing EF tests passing with fake_crypto

* Shifts block encoding/decoding into RPC

* Delete outdated API spec

* All release tests passing bar genesis state parsing

* Update and test YamlConfig

* Update to spec v0.10 compatible BLS

* Updates to BLS EF tests

* Add EF test for AggregateVerify

And delete unused hash2curve tests for uncompressed points

* Update EF tests to v0.10.1

* Use optional block root correctly in block proc

* Use genesis fork in deposit domain. All tests pass

* Fast aggregate verify test

* Update REST API docs

* Fix unused import

* Bump spec tags to v0.10.1

* Add `seconds_per_eth1_block` to chainspec

* Update to timestamp based eth1 voting scheme

* Return None from `get_votes_to_consider` if block cache is empty

* Handle overflows in `is_candidate_block`

* Revert to failing tests

* Fix eth1 data sets test

* Choose default vote according to spec

* Fix collect_valid_votes tests

* Fix `get_votes_to_consider` to choose all eligible blocks

* Uncomment winning_vote tests

* Add comments; remove unused code

* Reduce seconds_per_eth1_block for simulation

* Addressed review comments

* Add test for default vote case

* Fix logs

* Remove unused functions

* Meter default eth1 votes

* Fix comments

* Progress on attestation service

* Address review comments; remove unused dependency

* Initial work on removing libp2p lock

* Add LRU caches to store (rollup)

* Update attestation validation for DB changes (WIP)

* Initial version of should_forward_block

* Scaffold

* Progress on attestation validation

Also, consolidate prod+testing slot clocks so that they share much
of the same implementation and can both handle sub-slot time changes.

* Removes lock from libp2p service

* Completed network lock removal

* Finish(?) attestation processing

* Correct network termination future

* Add slot check to block check

* Correct fmt issues

* Remove Drop implementation for network service

* Add first attempt at attestation proc. re-write

* Add version 2 of attestation processing

* Minor fixes

* Add validator pubkey cache

* Make get_indexed_attestation take a committee

* Link signature processing into new attn verification

* First working version

* Ensure pubkey cache is updated

* Add more metrics, slight optimizations

* Clone committee cache during attestation processing

* Update shuffling cache during block processing

* Remove old commented-out code

* Fix shuffling cache insert bug

* Used indexed attestation in fork choice

* Restructure attn processing, add metrics

* Add more detailed metrics

* Tidy, fix failing tests

* Fix failing tests, tidy

* Address reviewers suggestions

* Disable/delete two outdated tests

* Modification of validator for subscriptions

* Add slot signing to validator client

* Further progress on validation subscription

* Adds necessary validator subscription functionality

* Add new Pubkeys struct to signature_sets

* Refactor with functional approach

* Update beacon chain

* Clean up validator <-> beacon node http types

* Add aggregator status to ValidatorDuty

* Impl Clone for manual slot clock

* Fix minor errors

* Further progress validator client subscription

* Initial subscription and aggregation handling

* Remove decompressed member from pubkey bytes

* Progress to modifying val client for attestation aggregation

* First draft of validator client upgrade for aggregate attestations

* Add hashmap for indices lookup

* Add state cache, remove store cache

* Only build the head committee cache

* Removes lock on a network channel

* Partially implement beacon node subscription http api

* Correct compilation issues

* Change `get_attesting_indices` to use Vec

* Fix failing test

* Partial implementation of timer

* Adds timer, removes exit_future, http api to op pool

* Partial multiple aggregate attestation handling

* Permits bulk messages accross gossipsub network channel

* Correct compile issues

* Improve gosispsub messaging and correct rest api helpers

* Added global gossipsub subscriptions

* Update validator subscriptions data structs

* Tidy

* Re-structure validator subscriptions

* Initial handling of subscriptions

* Re-structure network service

* Add pubkey cache persistence file

* Add more comments

* Integrate persistence file into builder

* Add pubkey cache tests

* Add HashSetDelay and introduce into attestation service

* Handles validator subscriptions

* Add data_dir to beacon chain builder

* Remove Option in pubkey cache persistence file

* Ensure consistency between datadir/data_dir

* Fix failing network test

* Peer subnet discovery gets queued for future subscriptions

* Reorganise attestation service functions

* Initial wiring of attestation service

* First draft of attestation service timing logic

* Correct minor typos

* Tidy

* Fix todos

* Improve tests

* Add PeerInfo to connected peers mapping

* Fix compile error

* Fix compile error from merge

* Split up block processing metrics

* Tidy

* Refactor get_pubkey_from_state

* Remove commented-out code

* Rename state_cache -> checkpoint_cache

* Rename Checkpoint -> Snapshot

* Tidy, add comments

* Tidy up find_head function

* Change some checkpoint -> snapshot

* Add tests

* Expose max_len

* Remove dead code

* Tidy

* Fix bug

* Add sync-speed metric

* Add first attempt at VerifiableBlock

* Start integrating into beacon chain

* Integrate VerifiableBlock

* Rename VerifableBlock -> PartialBlockVerification

* Add start of typed methods

* Add progress

* Add further progress

* Rename structs

* Add full block verification to block_processing.rs

* Further beacon chain integration

* Update checks for gossip

* Add todo

* Start adding segement verification

* Add passing chain segement test

* Initial integration with batch sync

* Minor changes

* Tidy, add more error checking

* Start adding chain_segment tests

* Finish invalid signature tests

* Include single and gossip verified blocks in tests

* Add gossip verification tests

* Start adding docs

* Finish adding comments to block_processing.rs

* Rename block_processing.rs -> block_verification

* Start removing old block processing code

* Fixes beacon_chain compilation

* Fix project-wide compile errors

* Remove old code

* Correct code to pass all tests

* Fix bug with beacon proposer index

* Fix shim for BlockProcessingError

* Only process one epoch at a time

* Fix loop in chain segment processing

* Correct tests from master merge

* Add caching for state.eth1_data_votes

* Add BeaconChain::validator_pubkey

* Revert "Add caching for state.eth1_data_votes"

This reverts commit cd73dcd6434fb8d8e6bf30c5356355598ea7b78e.

Co-authored-by: Grant Wuerker <gwuerker@gmail.com>
Co-authored-by: Michael Sproul <michael@sigmaprime.io>
Co-authored-by: Michael Sproul <micsproul@gmail.com>
Co-authored-by: pawan <pawandhananjay@gmail.com>
Co-authored-by: Paul Hauner <paul@paulhauner.com>
2020-03-17 17:24:44 +11:00

462 lines
18 KiB
Rust

#![cfg(test)]
use eth2_libp2p::rpc::methods::*;
use eth2_libp2p::rpc::*;
use eth2_libp2p::{Libp2pEvent, RPCEvent};
use slog::{warn, Level};
use std::sync::atomic::{AtomicBool, Ordering::Relaxed};
use std::sync::{Arc, Mutex};
use std::time::Duration;
use tokio::prelude::*;
use types::{
BeaconBlock, Epoch, EthSpec, Hash256, MinimalEthSpec, Signature, SignedBeaconBlock, Slot,
};
mod common;
type E = MinimalEthSpec;
#[test]
// Tests the STATUS RPC message
fn test_status_rpc() {
// set up the logging. The level and enabled logging or not
let log_level = Level::Trace;
let enable_logging = false;
let log = common::build_log(log_level, enable_logging);
// get sender/receiver
let (mut sender, mut receiver) = common::build_node_pair(&log, 10500);
// Dummy STATUS RPC message
let rpc_request = RPCRequest::Status(StatusMessage {
fork_version: [0; 4],
finalized_root: Hash256::from_low_u64_be(0),
finalized_epoch: Epoch::new(1),
head_root: Hash256::from_low_u64_be(0),
head_slot: Slot::new(1),
});
// Dummy STATUS RPC message
let rpc_response = RPCResponse::Status(StatusMessage {
fork_version: [0; 4],
finalized_root: Hash256::from_low_u64_be(0),
finalized_epoch: Epoch::new(1),
head_root: Hash256::from_low_u64_be(0),
head_slot: Slot::new(1),
});
let sender_request = rpc_request.clone();
let sender_log = log.clone();
let sender_response = rpc_response.clone();
// build the sender future
let sender_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match sender.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::PeerDialed(peer_id))) => {
// Send a STATUS message
warn!(sender_log, "Sending RPC");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(1, sender_request.clone()));
}
Async::Ready(Some(Libp2pEvent::RPC(_, event))) => match event {
// Should receive the RPC response
RPCEvent::Response(id, response @ RPCErrorResponse::Success(_)) => {
warn!(sender_log, "Sender Received");
assert_eq!(id, 1);
let response = {
match response {
RPCErrorResponse::Success(r) => r,
_ => unreachable!(),
}
};
assert_eq!(response, sender_response.clone());
warn!(sender_log, "Sender Completed");
return Ok(Async::Ready(true));
}
e => panic!("Received invalid RPC message {}", e),
},
Async::Ready(Some(_)) => (),
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
};
}
});
// build the receiver future
let receiver_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match receiver.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::RPC(peer_id, event))) => match event {
// Should receive sent RPC request
RPCEvent::Request(id, request) => {
assert_eq!(id, 1);
assert_eq!(rpc_request.clone(), request);
// send the response
warn!(log, "Receiver Received");
receiver.swarm.send_rpc(
peer_id,
RPCEvent::Response(id, RPCErrorResponse::Success(rpc_response.clone())),
);
}
e => panic!("Received invalid RPC message {}", e),
},
Async::Ready(Some(_)) => (),
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
}
}
});
// execute the futures and check the result
let test_result = Arc::new(AtomicBool::new(false));
let error_result = test_result.clone();
let thread_result = test_result.clone();
tokio::run(
sender_future
.select(receiver_future)
.timeout(Duration::from_millis(1000))
.map_err(move |_| error_result.store(false, Relaxed))
.map(move |result| {
thread_result.store(result.0, Relaxed);
}),
);
assert!(test_result.load(Relaxed));
}
#[test]
// Tests a streamed BlocksByRange RPC Message
fn test_blocks_by_range_chunked_rpc() {
// set up the logging. The level and enabled logging or not
let log_level = Level::Trace;
let enable_logging = false;
let messages_to_send = 10;
let log = common::build_log(log_level, enable_logging);
// get sender/receiver
let (mut sender, mut receiver) = common::build_node_pair(&log, 10505);
// BlocksByRange Request
let rpc_request = RPCRequest::BlocksByRange(BlocksByRangeRequest {
head_block_root: Hash256::from_low_u64_be(0),
start_slot: 0,
count: messages_to_send,
step: 0,
});
// BlocksByRange Response
let spec = E::default_spec();
let empty_block = BeaconBlock::empty(&spec);
let empty_signed = SignedBeaconBlock {
message: empty_block,
signature: Signature::empty_signature(),
};
let rpc_response = RPCResponse::BlocksByRange(Box::new(empty_signed));
let sender_request = rpc_request.clone();
let sender_log = log.clone();
let sender_response = rpc_response.clone();
// keep count of the number of messages received
let messages_received = Arc::new(Mutex::new(0));
// build the sender future
let sender_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match sender.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::PeerDialed(peer_id))) => {
// Send a BlocksByRange request
warn!(sender_log, "Sender sending RPC request");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(1, sender_request.clone()));
}
Async::Ready(Some(Libp2pEvent::RPC(_, event))) => match event {
// Should receive the RPC response
RPCEvent::Response(id, response) => {
warn!(sender_log, "Sender received a response");
assert_eq!(id, 1);
match response {
RPCErrorResponse::Success(res) => {
assert_eq!(res, sender_response.clone());
*messages_received.lock().unwrap() += 1;
warn!(sender_log, "Chunk received");
}
RPCErrorResponse::StreamTermination(
ResponseTermination::BlocksByRange,
) => {
// should be exactly 10 messages before terminating
assert_eq!(*messages_received.lock().unwrap(), messages_to_send);
// end the test
return Ok(Async::Ready(true));
}
_ => panic!("Invalid RPC received"),
}
}
_ => panic!("Received invalid RPC message"),
},
Async::Ready(Some(_)) => {}
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
};
}
});
// build the receiver future
let receiver_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match receiver.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::RPC(peer_id, event))) => match event {
// Should receive the sent RPC request
RPCEvent::Request(id, request) => {
assert_eq!(id, 1);
assert_eq!(rpc_request.clone(), request);
// send the response
warn!(log, "Receiver got request");
for _ in 1..=messages_to_send {
receiver.swarm.send_rpc(
peer_id.clone(),
RPCEvent::Response(
id,
RPCErrorResponse::Success(rpc_response.clone()),
),
);
}
// send the stream termination
receiver.swarm.send_rpc(
peer_id,
RPCEvent::Response(
id,
RPCErrorResponse::StreamTermination(
ResponseTermination::BlocksByRange,
),
),
);
}
_ => panic!("Received invalid RPC message"),
},
Async::Ready(Some(_)) => (),
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
}
}
});
// execute the futures and check the result
let test_result = Arc::new(AtomicBool::new(false));
let error_result = test_result.clone();
let thread_result = test_result.clone();
tokio::run(
sender_future
.select(receiver_future)
.timeout(Duration::from_millis(1000))
.map_err(move |_| error_result.store(false, Relaxed))
.map(move |result| {
thread_result.store(result.0, Relaxed);
}),
);
assert!(test_result.load(Relaxed));
}
#[test]
// Tests an empty response to a BlocksByRange RPC Message
fn test_blocks_by_range_single_empty_rpc() {
// set up the logging. The level and enabled logging or not
let log_level = Level::Trace;
let enable_logging = false;
let log = common::build_log(log_level, enable_logging);
// get sender/receiver
let (mut sender, mut receiver) = common::build_node_pair(&log, 10510);
// BlocksByRange Request
let rpc_request = RPCRequest::BlocksByRange(BlocksByRangeRequest {
head_block_root: Hash256::from_low_u64_be(0),
start_slot: 0,
count: 10,
step: 0,
});
// BlocksByRange Response
let spec = E::default_spec();
let empty_block = BeaconBlock::empty(&spec);
let empty_signed = SignedBeaconBlock {
message: empty_block,
signature: Signature::empty_signature(),
};
let rpc_response = RPCResponse::BlocksByRange(Box::new(empty_signed));
let sender_request = rpc_request.clone();
let sender_log = log.clone();
let sender_response = rpc_response.clone();
// keep count of the number of messages received
let messages_received = Arc::new(Mutex::new(0));
// build the sender future
let sender_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match sender.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::PeerDialed(peer_id))) => {
// Send a BlocksByRange request
warn!(sender_log, "Sender sending RPC request");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(1, sender_request.clone()));
}
Async::Ready(Some(Libp2pEvent::RPC(_, event))) => match event {
// Should receive the RPC response
RPCEvent::Response(id, response) => {
warn!(sender_log, "Sender received a response");
assert_eq!(id, 1);
match response {
RPCErrorResponse::Success(res) => {
assert_eq!(res, sender_response.clone());
*messages_received.lock().unwrap() += 1;
warn!(sender_log, "Chunk received");
}
RPCErrorResponse::StreamTermination(
ResponseTermination::BlocksByRange,
) => {
// should be exactly 1 messages before terminating
assert_eq!(*messages_received.lock().unwrap(), 1);
// end the test
return Ok(Async::Ready(true));
}
_ => panic!("Invalid RPC received"),
}
}
m => panic!("Received invalid RPC message: {}", m),
},
Async::Ready(Some(_)) => {}
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
};
}
});
// build the receiver future
let receiver_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match receiver.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::RPC(peer_id, event))) => match event {
// Should receive the sent RPC request
RPCEvent::Request(id, request) => {
assert_eq!(id, 1);
assert_eq!(rpc_request.clone(), request);
// send the response
warn!(log, "Receiver got request");
receiver.swarm.send_rpc(
peer_id.clone(),
RPCEvent::Response(id, RPCErrorResponse::Success(rpc_response.clone())),
);
// send the stream termination
receiver.swarm.send_rpc(
peer_id,
RPCEvent::Response(
id,
RPCErrorResponse::StreamTermination(
ResponseTermination::BlocksByRange,
),
),
);
}
_ => panic!("Received invalid RPC message"),
},
Async::Ready(Some(_)) => (),
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
}
}
});
// execute the futures and check the result
let test_result = Arc::new(AtomicBool::new(false));
let error_result = test_result.clone();
let thread_result = test_result.clone();
tokio::run(
sender_future
.select(receiver_future)
.timeout(Duration::from_millis(1000))
.map_err(move |_| error_result.store(false, Relaxed))
.map(move |result| {
thread_result.store(result.0, Relaxed);
}),
);
assert!(test_result.load(Relaxed));
}
#[test]
// Tests a Goodbye RPC message
fn test_goodbye_rpc() {
// set up the logging. The level and enabled logging or not
let log_level = Level::Trace;
let enable_logging = false;
let log = common::build_log(log_level, enable_logging);
// get sender/receiver
let (mut sender, mut receiver) = common::build_node_pair(&log, 10520);
// Goodbye Request
let rpc_request = RPCRequest::Goodbye(GoodbyeReason::ClientShutdown);
let sender_request = rpc_request.clone();
let sender_log = log.clone();
// build the sender future
let sender_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match sender.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::PeerDialed(peer_id))) => {
// Send a Goodbye request
warn!(sender_log, "Sender sending RPC request");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(1, sender_request.clone()));
}
Async::Ready(Some(_)) => {}
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
};
}
});
// build the receiver future
let receiver_future = future::poll_fn(move || -> Poll<bool, ()> {
loop {
match receiver.poll().unwrap() {
Async::Ready(Some(Libp2pEvent::RPC(_, event))) => match event {
// Should receive the sent RPC request
RPCEvent::Request(id, request) => {
assert_eq!(id, 0);
assert_eq!(rpc_request.clone(), request);
// receives the goodbye. Nothing left to do
return Ok(Async::Ready(true));
}
_ => panic!("Received invalid RPC message"),
},
Async::Ready(Some(_)) => (),
Async::Ready(None) | Async::NotReady => return Ok(Async::NotReady),
}
}
});
// execute the futures and check the result
let test_result = Arc::new(AtomicBool::new(false));
let error_result = test_result.clone();
let thread_result = test_result.clone();
tokio::run(
sender_future
.select(receiver_future)
.timeout(Duration::from_millis(1000))
.map_err(move |_| error_result.store(false, Relaxed))
.map(move |result| {
thread_result.store(result.0, Relaxed);
}),
);
assert!(test_result.load(Relaxed));
}