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lighthouse/beacon_node/eth2-libp2p/tests/rpc_tests.rs
Age Manning b6408805a2
Stable futures (#879) 
* Port eth1 lib to use stable futures

* Port eth1_test_rig to stable futures

* Port eth1 tests to stable futures

* Port genesis service to stable futures

* Port genesis tests to stable futures

* Port beacon_chain to stable futures

* Port lcli to stable futures

* Fix eth1_test_rig (#1014)

* Fix lcli

* Port timer to stable futures

* Fix timer

* Port websocket_server to stable futures

* Port notifier to stable futures

* Add TODOS

* Update hashmap hashset to stable futures

* Adds panic test to hashset delay

* Port remote_beacon_node to stable futures

* Fix lcli merge conflicts

* Non rpc stuff compiles

* protocol.rs compiles

* Port websockets, timer and notifier to stable futures (#1035)

* Fix lcli

* Port timer to stable futures

* Fix timer

* Port websocket_server to stable futures

* Port notifier to stable futures

* Add TODOS

* Port remote_beacon_node to stable futures

* Partial eth2-libp2p stable future upgrade

* Finished first round of fighting RPC types

* Further progress towards porting eth2-libp2p adds caching to discovery

* Update behaviour

* RPC handler to stable futures

* Update RPC to master libp2p

* Network service additions

* Fix the fallback transport construction (#1102)

* Correct warning

* Remove hashmap delay

* Compiling version of eth2-libp2p

* Update all crates versions

* Fix conversion function and add tests (#1113)

* Port validator_client to stable futures (#1114)

* Add PH & MS slot clock changes

* Account for genesis time

* Add progress on duties refactor

* Add simple is_aggregator bool to val subscription

* Start work on attestation_verification.rs

* Add progress on ObservedAttestations

* Progress with ObservedAttestations

* Fix tests

* Add observed attestations to the beacon chain

* Add attestation observation to processing code

* Add progress on attestation verification

* Add first draft of ObservedAttesters

* Add more tests

* Add observed attesters to beacon chain

* Add observers to attestation processing

* Add more attestation verification

* Create ObservedAggregators map

* Remove commented-out code

* Add observed aggregators into chain

* Add progress

* Finish adding features to attestation verification

* Ensure beacon chain compiles

* Link attn verification into chain

* Integrate new attn verification in chain

* Remove old attestation processing code

* Start trying to fix beacon_chain tests

* Split adding into pools into two functions

* Add aggregation to harness

* Get test harness working again

* Adjust the number of aggregators for test harness

* Fix edge-case in harness

* Integrate new attn processing in network

* Fix compile bug in validator_client

* Update validator API endpoints

* Fix aggreagation in test harness

* Fix enum thing

* Fix attestation observation bug:

* Patch failing API tests

* Start adding comments to attestation verification

* Remove unused attestation field

* Unify "is block known" logic

* Update comments

* Supress fork choice errors for network processing

* Add todos

* Tidy

* Add gossip attn tests

* Disallow test harness to produce old attns

* Comment out in-progress tests

* Partially address pruning tests

* Fix failing store test

* Add aggregate tests

* Add comments about which spec conditions we check

* Dont re-aggregate

* Split apart test harness attn production

* Fix compile error in network

* Make progress on commented-out test

* Fix skipping attestation test

* Add fork choice verification tests

* Tidy attn tests, remove dead code

* Remove some accidentally added code

* Fix clippy lint

* Rename test file

* Add block tests, add cheap block proposer check

* Rename block testing file

* Add observed_block_producers

* Tidy

* Switch around block signature verification

* Finish block testing

* Remove gossip from signature tests

* First pass of self review

* Fix deviation in spec

* Update test spec tags

* Start moving over to hashset

* Finish moving observed attesters to hashmap

* Move aggregation pool over to hashmap

* Make fc attn borrow again

* Fix rest_api compile error

* Fix missing comments

* Fix monster test

* Uncomment increasing slots test

* Address remaining comments

* Remove unsafe, use cfg test

* Remove cfg test flag

* Fix dodgy comment

* Revert "Update hashmap hashset to stable futures"

This reverts commit d432378a3cc5cd67fc29c0b15b96b886c1323554.

* Revert "Adds panic test to hashset delay"

This reverts commit 281502396fc5b90d9c421a309c2c056982c9525b.

* Ported attestation_service

* Ported duties_service

* Ported fork_service

* More ports

* Port block_service

* Minor fixes

* VC compiles

* Update TODOS

* Borrow self where possible

* Ignore aggregates that are already known.

* Unify aggregator modulo logic

* Fix typo in logs

* Refactor validator subscription logic

* Avoid reproducing selection proof

* Skip HTTP call if no subscriptions

* Rename DutyAndState -> DutyAndProof

* Tidy logs

* Print root as dbg

* Fix compile errors in tests

* Fix compile error in test

* Re-Fix attestation and duties service

* Minor fixes

Co-authored-by: Paul Hauner <paul@paulhauner.com>

* Network crate update to stable futures

* Port account_manager to stable futures (#1121)

* Port account_manager to stable futures

* Run async fns in tokio environment

* Port rest_api crate to stable futures (#1118)

* Port rest_api lib to stable futures

* Reduce tokio features

* Update notifier to stable futures

* Builder update

* Further updates

* Convert self referential async functions

* stable futures fixes (#1124)

* Fix eth1 update functions

* Fix genesis and client

* Fix beacon node lib

* Return appropriate runtimes from environment

* Fix test rig

* Refactor eth1 service update

* Upgrade simulator to stable futures

* Lighthouse compiles on stable futures

* Remove println debugging statement

* Update libp2p service, start rpc test upgrade

* Update network crate for new libp2p

* Update tokio::codec to futures_codec (#1128)

* Further work towards RPC corrections

* Correct http timeout and network service select

* Use tokio runtime for libp2p

* Revert "Update tokio::codec to futures_codec (#1128)"

This reverts commit e57aea924acf5cbabdcea18895ac07e38a425ed7.

* Upgrade RPC libp2p tests

* Upgrade secio fallback test

* Upgrade gossipsub examples

* Clean up RPC protocol

* Test fixes (#1133)

* Correct websocket timeout and run on os thread

* Fix network test

* Clean up PR

* Correct tokio tcp move attestation service tests

* Upgrade attestation service tests

* Correct network test

* Correct genesis test

* Test corrections

* Log info when block is received

* Modify logs and update attester service events

* Stable futures: fixes to vc, eth1 and account manager (#1142)

* Add local testnet scripts

* Remove whiteblock script

* Rename local testnet script

* Move spawns onto handle

* Fix VC panic

* Initial fix to block production issue

* Tidy block producer fix

* Tidy further

* Add local testnet clean script

* Run cargo fmt

* Tidy duties service

* Tidy fork service

* Tidy ForkService

* Tidy AttestationService

* Tidy notifier

* Ensure await is not suppressed in eth1

* Ensure await is not suppressed in account_manager

* Use .ok() instead of .unwrap_or(())

* RPC decoding test for proto

* Update discv5 and eth2-libp2p deps

* Fix lcli double runtime issue (#1144)

* Handle stream termination and dialing peer errors

* Correct peer_info variant types

* Remove unnecessary warnings

* Handle subnet unsubscription removal and improve logigng

* Add logs around ping

* Upgrade discv5 and improve logging

* Handle peer connection status for multiple connections

* Improve network service logging

* Improve logging around peer manager

* Upgrade swarm poll centralise peer management

* Identify clients on error

* Fix `remove_peer` in sync (#1150)

* remove_peer removes from all chains

* Remove logs

* Fix early return from loop

* Improved logging, fix panic

* Partially correct tests

* Stable futures: Vc sync (#1149)

* Improve syncing heuristic

* Add comments

* Use safer method for tolerance

* Fix tests

* Stable futures: Fix VC bug, update agg pool, add more metrics (#1151)

* Expose epoch processing summary

* Expose participation metrics to prometheus

* Switch to f64

* Reduce precision

* Change precision

* Expose observed attesters metrics

* Add metrics for agg/unagg attn counts

* Add metrics for gossip rx

* Add metrics for gossip tx

* Adds ignored attns to prom

* Add attestation timing

* Add timer for aggregation pool sig agg

* Add write lock timer for agg pool

* Add more metrics to agg pool

* Change map lock code

* Add extra metric to agg pool

* Change lock handling in agg pool

* Change .write() to .read()

* Add another agg pool timer

* Fix for is_aggregator

* Fix pruning bug

Co-authored-by: pawan <pawandhananjay@gmail.com>
Co-authored-by: Paul Hauner <paul@paulhauner.com>
2020-05-17 11:16:48 +00:00

542 lines
20 KiB
Rust
Raw Blame History

#![cfg(test)]
use eth2_libp2p::rpc::methods::*;
use eth2_libp2p::rpc::*;
use eth2_libp2p::{BehaviourEvent, Libp2pEvent, RPCEvent};
use slog::{debug, warn, Level};
use std::time::Duration;
use tokio::time::delay_for;
use types::{
BeaconBlock, Epoch, EthSpec, Hash256, MinimalEthSpec, Signature, SignedBeaconBlock, Slot,
};
mod common;
type E = MinimalEthSpec;
#[tokio::test]
// Tests the STATUS RPC message
async fn test_status_rpc() {
// set up the logging. The level and enabled logging or not
let log_level = Level::Debug;
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).await;
// Dummy STATUS RPC message
let rpc_request = RPCRequest::Status(StatusMessage {
fork_digest: [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_digest: [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),
});
// build the sender future
let sender_future = async {
loop {
match sender.next_event().await {
Libp2pEvent::PeerConnected { peer_id, .. } => {
// Send a STATUS message
debug!(log, "Sending RPC");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(10, rpc_request.clone()));
}
Libp2pEvent::Behaviour(BehaviourEvent::RPC(_, event)) => match event {
// Should receive the RPC response
RPCEvent::Response(id, response @ RPCCodedResponse::Success(_)) => {
if id == 10 {
debug!(log, "Sender Received");
let response = {
match response {
RPCCodedResponse::Success(r) => r,
_ => unreachable!(),
}
};
assert_eq!(response, rpc_response.clone());
debug!(log, "Sender Completed");
return;
}
}
_ => {} // Ignore other RPC messages
},
_ => {}
}
}
};
// build the receiver future
let receiver_future = async {
loop {
match receiver.next_event().await {
Libp2pEvent::Behaviour(BehaviourEvent::RPC(peer_id, event)) => {
match event {
// Should receive sent RPC request
RPCEvent::Request(id, request) => {
if request == rpc_request {
// send the response
debug!(log, "Receiver Received");
receiver.swarm.send_rpc(
peer_id,
RPCEvent::Response(
id,
RPCCodedResponse::Success(rpc_response.clone()),
),
);
}
}
_ => {} // Ignore other RPC requests
}
}
_ => {} // Ignore other events
}
}
};
tokio::select! {
_ = sender_future => {}
_ = receiver_future => {}
_ = delay_for(Duration::from_millis(800)) => {
panic!("Future timed out");
}
}
}
#[tokio::test]
// Tests a streamed BlocksByRange RPC Message
async 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).await;
// BlocksByRange Request
let rpc_request = RPCRequest::BlocksByRange(BlocksByRangeRequest {
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));
// keep count of the number of messages received
let mut messages_received = 0;
// build the sender future
let sender_future = async {
loop {
match sender.next_event().await {
Libp2pEvent::PeerConnected { peer_id, .. } => {
// Send a STATUS message
debug!(log, "Sending RPC");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(10, rpc_request.clone()));
}
Libp2pEvent::Behaviour(BehaviourEvent::RPC(_, event)) => match event {
// Should receive the RPC response
RPCEvent::Response(id, response) => {
if id == 10 {
warn!(log, "Sender received a response");
match response {
RPCCodedResponse::Success(res) => {
assert_eq!(res, rpc_response.clone());
messages_received += 1;
warn!(log, "Chunk received");
}
RPCCodedResponse::StreamTermination(_) => {
// should be exactly 10 messages before terminating
assert_eq!(messages_received, messages_to_send);
// end the test
return;
}
_ => panic!("Invalid RPC received"),
}
}
}
_ => {} // Ignore other RPC messages
},
_ => {} // Ignore other behaviour events
}
}
};
// build the receiver future
let receiver_future = async {
loop {
match receiver.next_event().await {
Libp2pEvent::Behaviour(BehaviourEvent::RPC(peer_id, event)) => {
match event {
// Should receive sent RPC request
RPCEvent::Request(id, request) => {
if request == rpc_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,
RPCCodedResponse::Success(rpc_response.clone()),
),
);
}
// send the stream termination
receiver.swarm.send_rpc(
peer_id,
RPCEvent::Response(
id,
RPCCodedResponse::StreamTermination(
ResponseTermination::BlocksByRange,
),
),
);
}
}
_ => {} // Ignore other events
}
}
_ => {} // Ignore other events
}
}
};
tokio::select! {
_ = sender_future => {}
_ = receiver_future => {}
_ = delay_for(Duration::from_millis(800)) => {
panic!("Future timed out");
}
}
}
#[tokio::test]
// Tests an empty response to a BlocksByRange RPC Message
async 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).await;
// BlocksByRange Request
let rpc_request = RPCRequest::BlocksByRange(BlocksByRangeRequest {
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 messages_to_send = 1;
// keep count of the number of messages received
let mut messages_received = 0;
// build the sender future
let sender_future = async {
loop {
match sender.next_event().await {
Libp2pEvent::PeerConnected { peer_id, .. } => {
// Send a STATUS message
debug!(log, "Sending RPC");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(10, rpc_request.clone()));
}
Libp2pEvent::Behaviour(BehaviourEvent::RPC(_, event)) => match event {
// Should receive the RPC response
RPCEvent::Response(id, response) => {
if id == 10 {
warn!(log, "Sender received a response");
match response {
RPCCodedResponse::Success(res) => {
assert_eq!(res, rpc_response.clone());
messages_received += 1;
warn!(log, "Chunk received");
}
RPCCodedResponse::StreamTermination(_) => {
// should be exactly 10 messages before terminating
assert_eq!(messages_received, messages_to_send);
// end the test
return;
}
_ => panic!("Invalid RPC received"),
}
}
}
_ => {} // Ignore other RPC messages
},
_ => {} // Ignore other behaviour events
}
}
};
// build the receiver future
let receiver_future = async {
loop {
match receiver.next_event().await {
Libp2pEvent::Behaviour(BehaviourEvent::RPC(peer_id, event)) => {
match event {
// Should receive sent RPC request
RPCEvent::Request(id, request) => {
if request == rpc_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,
RPCCodedResponse::Success(rpc_response.clone()),
),
);
}
// send the stream termination
receiver.swarm.send_rpc(
peer_id,
RPCEvent::Response(
id,
RPCCodedResponse::StreamTermination(
ResponseTermination::BlocksByRange,
),
),
);
}
}
_ => {} // Ignore other events
}
}
_ => {} // Ignore other events
}
}
};
tokio::select! {
_ = sender_future => {}
_ = receiver_future => {}
_ = delay_for(Duration::from_millis(800)) => {
panic!("Future timed out");
}
}
}
#[tokio::test]
// Tests a streamed, chunked BlocksByRoot RPC Message
// The size of the reponse is a full `BeaconBlock`
// which is greater than the Snappy frame size. Hence, this test
// serves to test the snappy framing format as well.
async fn test_blocks_by_root_chunked_rpc() {
// set up the logging. The level and enabled logging or not
let log_level = Level::Debug;
let enable_logging = false;
let messages_to_send = 3;
let log = common::build_log(log_level, enable_logging);
let spec = E::default_spec();
// get sender/receiver
let (mut sender, mut receiver) = common::build_node_pair(&log).await;
// BlocksByRoot Request
let rpc_request = RPCRequest::BlocksByRoot(BlocksByRootRequest {
block_roots: vec![Hash256::from_low_u64_be(0), Hash256::from_low_u64_be(0)],
});
// BlocksByRoot Response
let full_block = BeaconBlock::full(&spec);
let signed_full_block = SignedBeaconBlock {
message: full_block,
signature: Signature::empty_signature(),
};
let rpc_response = RPCResponse::BlocksByRoot(Box::new(signed_full_block));
// keep count of the number of messages received
let mut messages_received = 0;
// build the sender future
let sender_future = async {
loop {
match sender.next_event().await {
Libp2pEvent::PeerConnected { peer_id, .. } => {
// Send a STATUS message
debug!(log, "Sending RPC");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(10, rpc_request.clone()));
}
Libp2pEvent::Behaviour(BehaviourEvent::RPC(_, event)) => match event {
// Should receive the RPC response
RPCEvent::Response(id, response) => {
if id == 10 {
debug!(log, "Sender received a response");
match response {
RPCCodedResponse::Success(res) => {
assert_eq!(res, rpc_response.clone());
messages_received += 1;
debug!(log, "Chunk received");
}
RPCCodedResponse::StreamTermination(_) => {
// should be exactly messages_to_send
assert_eq!(messages_received, messages_to_send);
// end the test
return;
}
_ => {} // Ignore other RPC messages
}
}
}
_ => {} // Ignore other RPC messages
},
_ => {} // Ignore other behaviour events
}
}
};
// build the receiver future
let receiver_future = async {
loop {
match receiver.next_event().await {
Libp2pEvent::Behaviour(BehaviourEvent::RPC(peer_id, event)) => {
match event {
// Should receive sent RPC request
RPCEvent::Request(id, request) => {
if request == rpc_request {
// send the response
debug!(log, "Receiver got request");
for _ in 1..=messages_to_send {
receiver.swarm.send_rpc(
peer_id.clone(),
RPCEvent::Response(
id,
RPCCodedResponse::Success(rpc_response.clone()),
),
);
debug!(log, "Sending message");
}
// send the stream termination
receiver.swarm.send_rpc(
peer_id,
RPCEvent::Response(
id,
RPCCodedResponse::StreamTermination(
ResponseTermination::BlocksByRange,
),
),
);
debug!(log, "Send stream term");
}
}
_ => {} // Ignore other events
}
}
_ => {} // Ignore other events
}
}
};
tokio::select! {
_ = sender_future => {}
_ = receiver_future => {}
_ = delay_for(Duration::from_millis(1000)) => {
panic!("Future timed out");
}
}
}
#[tokio::test]
// Tests a Goodbye RPC message
async 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).await;
// Goodbye Request
let rpc_request = RPCRequest::Goodbye(GoodbyeReason::ClientShutdown);
// build the sender future
let sender_future = async {
loop {
match sender.next_event().await {
Libp2pEvent::PeerConnected { peer_id, .. } => {
// Send a STATUS message
debug!(log, "Sending RPC");
sender
.swarm
.send_rpc(peer_id, RPCEvent::Request(10, rpc_request.clone()));
}
_ => {} // Ignore other RPC messages
}
}
};
// build the receiver future
let receiver_future = async {
loop {
match receiver.next_event().await {
Libp2pEvent::Behaviour(BehaviourEvent::RPC(_peer_id, event)) => {
match event {
// Should receive sent RPC request
RPCEvent::Request(id, request) => {
if request == rpc_request {
assert_eq!(id, 0);
assert_eq!(rpc_request.clone(), request); // receives the goodbye. Nothing left to do
return;
}
}
_ => {} // Ignore other events
}
}
_ => {} // Ignore other events
}
}
};
tokio::select! {
_ = sender_future => {}
_ = receiver_future => {}
_ = delay_for(Duration::from_millis(1000)) => {
panic!("Future timed out");
}
}
}
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