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pezkuwi-subxt/polkadot/node/core/runtime-api/src/tests.rs
T
Bernhard Schuster 0f1a9fb1eb remove Default from CandidateDescriptor (#4484) 
* remove Default from CandidateHash

* Apply suggestions from code review

Co-authored-by: Andronik Ordian <write@reusable.software>

* chore: fmt

* remove backed candidate default

* Partial migration away from CandidateReceipt::default

* Remove more CandidateReceipt defaults

* fmt

* Mostly remove CommittedCandidateReceipt default usage

* Remove CommittedCandidateReceipt

* Remove more Defaults from polakdot primitives v1 + fmt

* Remove more Default from polkadot primites v1

* WIP trying to get overseer example + tests to compile

* feat: add primitives test helpers

* reduce deps of helper

* update primitive helpers

* make candidate validation compile

* fixup cargo lock

* make av-store compile

* fixup disputes coordinator tests

* test: fixup backing

* test: fixup approval voting

* fixup bitfield signing

* test: fixup runtime-api

* test: fixup availability dist

* foxi[ pverseer test]

* remove some Defaults, remove bounds from `dummy`

All `fn dummy` in primitives need to be removed anyways.
This aids in the transition.

* it's a test helper, so always use std

* test: fixup parachains runtime tests

Excluding benches.

* fix keyring

* fix paras runtime properly, no more default

* Remove fn dummy() usage from approval voting

* Move TestCandidateBuilder out of av store to test helpers

* Make candidate validation tests pass

* Make most dispute coirdinator tests pass

* Make provisioner tests work

* Make availability recovery tests work with test helpers

* Update polkadot-collator-protocol tests

* Update statement distribution tests

* Update polkadot overseer examples and tests

* Derive default for validation code so we don't break unrelated things

* Make para runtime test pass (no bench)

* Some more work

* chore: cargo fmt

* cargo fix

* avoid some Default::default

* fixup dispute coordinator test

* remove unused crate deps

* remove Default::default wherever possible, replace by dummy_* for the most part

* chore: cargo fmt

* Remove some warnings

* Remove CommittedCandidateReceipt dummy

* Remove CandidateReceipt dummy

* Remove CandidateDescriptor dummy

* Remove commented out code

* Fix para runtime tests

* chore: nightly

* Some updates to the builder

* Dynamically adjust mock head data size

* Make dispute cooridinator tests work

* Fix test candidate_backing_reorders_votes work

* +nightly-2021-10-29 fmt

* Spelling and remove a default use in builder

* Various clean up

* More small updates

* fmt

* More small updates

* Doc comments for test helpers

* cargo run --quiet --release --features=runtime-benchmarks -- benchmark --chain=kusama-dev --steps=50 --repeat=20 --pallet=runtime_parachains::paras_inherent --extrinsic=* --execution=wasm --wasm-execution=compiled --heap-pages=4096 --header=./file_header.txt --output=./runtime/kusama/src/weights/runtime_parachains_paras_inherent.rs

* cargo run --quiet --release --features=runtime-benchmarks -- benchmark --chain=polkadot-dev --steps=50 --repeat=20 --pallet=runtime_parachains::paras_inherent --extrinsic=* --execution=wasm --wasm-execution=compiled --heap-pages=4096 --header=./file_header.txt --output=./runtime/polkadot/src/weights/runtime_parachains_paras_inherent.rs

* Update lib.rs

* review comments

* fix warnings

* fix test by using correct candidate receipt relay parent

Co-authored-by: Andronik Ordian <write@reusable.software>
Co-authored-by: emostov <32168567+emostov@users.noreply.github.com>
Co-authored-by: Parity Bot <admin@parity.io>
Co-authored-by: Gavin Wood <gavin@parity.io>
2021-12-10 12:12:07 +00:00

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// Copyright 2020 Parity Technologies (UK) Ltd.
// This file is part of Polkadot.
// Polkadot is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Polkadot is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Polkadot. If not, see <http://www.gnu.org/licenses/>.
use super::*;
use ::test_helpers::{dummy_committed_candidate_receipt, dummy_validation_code};
use futures::channel::oneshot;
use polkadot_node_primitives::{BabeAllowedSlots, BabeEpoch, BabeEpochConfiguration};
use polkadot_node_subsystem_test_helpers::make_subsystem_context;
use polkadot_primitives::v1::{
AuthorityDiscoveryId, CandidateEvent, CommittedCandidateReceipt, CoreState, GroupRotationInfo,
Id as ParaId, InboundDownwardMessage, InboundHrmpMessage, OccupiedCoreAssumption,
PersistedValidationData, ScrapedOnChainVotes, SessionIndex, SessionInfo, ValidationCode,
ValidationCodeHash, ValidatorId, ValidatorIndex,
};
use sp_core::testing::TaskExecutor;
use std::{
collections::{BTreeMap, HashMap},
sync::{Arc, Mutex},
};
#[derive(Default, Clone)]
struct MockRuntimeApi {
authorities: Vec<AuthorityDiscoveryId>,
validators: Vec<ValidatorId>,
validator_groups: Vec<Vec<ValidatorIndex>>,
availability_cores: Vec<CoreState>,
availability_cores_wait: Arc<Mutex<()>>,
validation_data: HashMap<ParaId, PersistedValidationData>,
session_index_for_child: SessionIndex,
session_info: HashMap<SessionIndex, SessionInfo>,
validation_code: HashMap<ParaId, ValidationCode>,
validation_code_by_hash: HashMap<ValidationCodeHash, ValidationCode>,
validation_outputs_results: HashMap<ParaId, bool>,
candidate_pending_availability: HashMap<ParaId, CommittedCandidateReceipt>,
candidate_events: Vec<CandidateEvent>,
dmq_contents: HashMap<ParaId, Vec<InboundDownwardMessage>>,
hrmp_channels: HashMap<ParaId, BTreeMap<ParaId, Vec<InboundHrmpMessage>>>,
babe_epoch: Option<BabeEpoch>,
on_chain_votes: Option<ScrapedOnChainVotes>,
}
impl ProvideRuntimeApi<Block> for MockRuntimeApi {
type Api = Self;
fn runtime_api<'a>(&'a self) -> sp_api::ApiRef<'a, Self::Api> {
self.clone().into()
}
}
sp_api::mock_impl_runtime_apis! {
impl ParachainHost<Block> for MockRuntimeApi {
fn validators(&self) -> Vec<ValidatorId> {
self.validators.clone()
}
fn validator_groups(&self) -> (Vec<Vec<ValidatorIndex>>, GroupRotationInfo) {
(
self.validator_groups.clone(),
GroupRotationInfo {
session_start_block: 1,
group_rotation_frequency: 100,
now: 10,
},
)
}
fn availability_cores(&self) -> Vec<CoreState> {
let _ = self.availability_cores_wait.lock().unwrap();
self.availability_cores.clone()
}
fn persisted_validation_data(
&self,
para: ParaId,
_assumption: OccupiedCoreAssumption,
) -> Option<PersistedValidationData> {
self.validation_data.get(&para).cloned()
}
fn assumed_validation_data(
para_id: ParaId,
expected_persisted_validation_data_hash: Hash,
) -> Option<(PersistedValidationData, ValidationCodeHash)> {
self.validation_data
.get(&para_id)
.cloned()
.filter(|data| data.hash() == expected_persisted_validation_data_hash)
.zip(self.validation_code.get(&para_id).map(|code| code.hash()))
}
fn check_validation_outputs(
&self,
para_id: ParaId,
_commitments: polkadot_primitives::v1::CandidateCommitments,
) -> bool {
self.validation_outputs_results
.get(&para_id)
.cloned()
.expect(
"`check_validation_outputs` called but the expected result hasn't been supplied"
)
}
fn session_index_for_child(&self) -> SessionIndex {
self.session_index_for_child.clone()
}
fn session_info(&self, index: SessionIndex) -> Option<SessionInfo> {
self.session_info.get(&index).cloned()
}
fn validation_code(
&self,
para: ParaId,
_assumption: OccupiedCoreAssumption,
) -> Option<ValidationCode> {
self.validation_code.get(&para).map(|c| c.clone())
}
fn candidate_pending_availability(
&self,
para: ParaId,
) -> Option<CommittedCandidateReceipt> {
self.candidate_pending_availability.get(&para).map(|c| c.clone())
}
fn candidate_events(&self) -> Vec<CandidateEvent> {
self.candidate_events.clone()
}
fn dmq_contents(
&self,
recipient: ParaId,
) -> Vec<InboundDownwardMessage> {
self.dmq_contents.get(&recipient).map(|q| q.clone()).unwrap_or_default()
}
fn inbound_hrmp_channels_contents(
&self,
recipient: ParaId
) -> BTreeMap<ParaId, Vec<InboundHrmpMessage>> {
self.hrmp_channels.get(&recipient).map(|q| q.clone()).unwrap_or_default()
}
fn validation_code_by_hash(
&self,
hash: ValidationCodeHash,
) -> Option<ValidationCode> {
self.validation_code_by_hash.get(&hash).map(|c| c.clone())
}
fn on_chain_votes(&self) -> Option<ScrapedOnChainVotes> {
self.on_chain_votes.clone()
}
}
impl BabeApi<Block> for MockRuntimeApi {
fn configuration(&self) -> sp_consensus_babe::BabeGenesisConfiguration {
unimplemented!()
}
fn current_epoch_start(&self) -> sp_consensus_babe::Slot {
self.babe_epoch.as_ref().unwrap().start_slot
}
fn current_epoch(&self) -> BabeEpoch {
self.babe_epoch.as_ref().unwrap().clone()
}
fn next_epoch(&self) -> BabeEpoch {
unimplemented!()
}
fn generate_key_ownership_proof(
_slot: sp_consensus_babe::Slot,
_authority_id: sp_consensus_babe::AuthorityId,
) -> Option<sp_consensus_babe::OpaqueKeyOwnershipProof> {
None
}
fn submit_report_equivocation_unsigned_extrinsic(
_equivocation_proof: sp_consensus_babe::EquivocationProof<polkadot_primitives::v1::Header>,
_key_owner_proof: sp_consensus_babe::OpaqueKeyOwnershipProof,
) -> Option<()> {
None
}
}
impl AuthorityDiscoveryApi<Block> for MockRuntimeApi {
fn authorities(&self) -> Vec<AuthorityDiscoveryId> {
self.authorities.clone()
}
}
}
#[test]
fn requests_authorities() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let runtime_api = Arc::new(MockRuntimeApi::default());
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::Authorities(tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), runtime_api.authorities);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_validators() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let runtime_api = Arc::new(MockRuntimeApi::default());
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::Validators(tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), runtime_api.validators);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_validator_groups() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let runtime_api = Arc::new(MockRuntimeApi::default());
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::ValidatorGroups(tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap().0, runtime_api.validator_groups);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_availability_cores() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let runtime_api = Arc::new(MockRuntimeApi::default());
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::AvailabilityCores(tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), runtime_api.availability_cores);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_persisted_validation_data() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let relay_parent = [1; 32].into();
let para_a = 5.into();
let para_b = 6.into();
let spawner = sp_core::testing::TaskExecutor::new();
let mut runtime_api = MockRuntimeApi::default();
runtime_api.validation_data.insert(para_a, Default::default());
let runtime_api = Arc::new(runtime_api);
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::PersistedValidationData(para_a, OccupiedCoreAssumption::Included, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), Some(Default::default()));
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::PersistedValidationData(para_b, OccupiedCoreAssumption::Included, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), None);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_assumed_validation_data() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let relay_parent = [1; 32].into();
let para_a = 5.into();
let para_b = 6.into();
let spawner = sp_core::testing::TaskExecutor::new();
let validation_code = ValidationCode(vec![1, 2, 3]);
let expected_data_hash = <PersistedValidationData as Default>::default().hash();
let expected_code_hash = validation_code.hash();
let mut runtime_api = MockRuntimeApi::default();
runtime_api.validation_data.insert(para_a, Default::default());
runtime_api.validation_code.insert(para_a, validation_code);
runtime_api.validation_data.insert(para_b, Default::default());
let runtime_api = Arc::new(runtime_api);
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::AssumedValidationData(para_a, expected_data_hash, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), Some((Default::default(), expected_code_hash)));
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::AssumedValidationData(para_a, Hash::zero(), tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), None);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_check_validation_outputs() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let mut runtime_api = MockRuntimeApi::default();
let relay_parent = [1; 32].into();
let para_a = 5.into();
let para_b = 6.into();
let commitments = polkadot_primitives::v1::CandidateCommitments::default();
let spawner = sp_core::testing::TaskExecutor::new();
runtime_api.validation_outputs_results.insert(para_a, false);
runtime_api.validation_outputs_results.insert(para_b, true);
let runtime_api = Arc::new(runtime_api);
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::CheckValidationOutputs(para_a, commitments.clone(), tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), runtime_api.validation_outputs_results[&para_a]);
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::CheckValidationOutputs(para_b, commitments, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), runtime_api.validation_outputs_results[&para_b]);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_session_index_for_child() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let runtime_api = Arc::new(MockRuntimeApi::default());
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::SessionIndexForChild(tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), runtime_api.session_index_for_child);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
fn dummy_session_info() -> SessionInfo {
SessionInfo {
validators: vec![],
discovery_keys: vec![],
assignment_keys: vec![],
validator_groups: vec![],
n_cores: 4u32,
zeroth_delay_tranche_width: 0u32,
relay_vrf_modulo_samples: 0u32,
n_delay_tranches: 2u32,
no_show_slots: 0u32,
needed_approvals: 1u32,
}
}
#[test]
fn requests_session_info() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let mut runtime_api = MockRuntimeApi::default();
let session_index = 1;
runtime_api.session_info.insert(session_index, dummy_session_info());
let runtime_api = Arc::new(runtime_api);
let spawner = sp_core::testing::TaskExecutor::new();
let relay_parent = [1; 32].into();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::SessionInfo(session_index, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), Some(dummy_session_info()));
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_validation_code() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let relay_parent = [1; 32].into();
let para_a = 5.into();
let para_b = 6.into();
let spawner = sp_core::testing::TaskExecutor::new();
let validation_code = dummy_validation_code();
let mut runtime_api = MockRuntimeApi::default();
runtime_api.validation_code.insert(para_a, validation_code.clone());
let runtime_api = Arc::new(runtime_api);
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::ValidationCode(para_a, OccupiedCoreAssumption::Included, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), Some(validation_code));
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::ValidationCode(para_b, OccupiedCoreAssumption::Included, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), None);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_candidate_pending_availability() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let relay_parent = [1; 32].into();
let para_a = 5.into();
let para_b = 6.into();
let spawner = sp_core::testing::TaskExecutor::new();
let candidate_receipt = dummy_committed_candidate_receipt(relay_parent);
let mut runtime_api = MockRuntimeApi::default();
runtime_api
.candidate_pending_availability
.insert(para_a, candidate_receipt.clone());
let runtime_api = Arc::new(runtime_api);
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::CandidatePendingAvailability(para_a, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), Some(candidate_receipt));
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::CandidatePendingAvailability(para_b, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), None);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_candidate_events() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let runtime_api = Arc::new(MockRuntimeApi::default());
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::CandidateEvents(tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), runtime_api.candidate_events);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_dmq_contents() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let relay_parent = [1; 32].into();
let para_a = 5.into();
let para_b = 6.into();
let spawner = sp_core::testing::TaskExecutor::new();
let runtime_api = Arc::new({
let mut runtime_api = MockRuntimeApi::default();
runtime_api.dmq_contents.insert(para_a, vec![]);
runtime_api.dmq_contents.insert(
para_b,
vec![InboundDownwardMessage { sent_at: 228, msg: b"Novus Ordo Seclorum".to_vec() }],
);
runtime_api
});
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::DmqContents(para_a, tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), vec![]);
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::DmqContents(para_b, tx)),
})
.await;
assert_eq!(
rx.await.unwrap().unwrap(),
vec![InboundDownwardMessage { sent_at: 228, msg: b"Novus Ordo Seclorum".to_vec() }]
);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_inbound_hrmp_channels_contents() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let relay_parent = [1; 32].into();
let para_a = 99.into();
let para_b = 66.into();
let para_c = 33.into();
let spawner = sp_core::testing::TaskExecutor::new();
let para_b_inbound_channels = [
(para_a, vec![]),
(para_c, vec![InboundHrmpMessage { sent_at: 1, data: "𝙀=𝙈𝘾²".as_bytes().to_owned() }]),
]
.iter()
.cloned()
.collect::<BTreeMap<_, _>>();
let runtime_api = Arc::new({
let mut runtime_api = MockRuntimeApi::default();
runtime_api.hrmp_channels.insert(para_a, BTreeMap::new());
runtime_api.hrmp_channels.insert(para_b, para_b_inbound_channels.clone());
runtime_api
});
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::InboundHrmpChannelsContents(para_a, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), BTreeMap::new());
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::InboundHrmpChannelsContents(para_b, tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), para_b_inbound_channels);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn requests_validation_code_by_hash() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let spawner = sp_core::testing::TaskExecutor::new();
let (runtime_api, validation_code) = {
let mut runtime_api = MockRuntimeApi::default();
let mut validation_code = Vec::new();
for n in 0..5 {
let code = ValidationCode::from(vec![n; 32]);
runtime_api.validation_code_by_hash.insert(code.hash(), code.clone());
validation_code.push(code);
}
(runtime_api, validation_code)
};
let subsystem = RuntimeApiSubsystem::new(Arc::new(runtime_api), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let relay_parent = [1; 32].into();
let test_task = async move {
for code in validation_code {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(
relay_parent,
Request::ValidationCodeByHash(code.hash(), tx),
),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), Some(code));
}
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn multiple_requests_in_parallel_are_working() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let runtime_api = Arc::new(MockRuntimeApi::default());
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let mutex = runtime_api.availability_cores_wait.clone();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
// Make all requests block until we release this mutex.
let lock = mutex.lock().unwrap();
let mut receivers = Vec::new();
for _ in 0..MAX_PARALLEL_REQUESTS * 10 {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::AvailabilityCores(tx)),
})
.await;
receivers.push(rx);
}
let join = future::join_all(receivers);
drop(lock);
join.await
.into_iter()
.for_each(|r| assert_eq!(r.unwrap().unwrap(), runtime_api.availability_cores));
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
#[test]
fn request_babe_epoch() {
let (ctx, mut ctx_handle) = make_subsystem_context(TaskExecutor::new());
let mut runtime_api = MockRuntimeApi::default();
let epoch = BabeEpoch {
epoch_index: 100,
start_slot: sp_consensus_babe::Slot::from(1000),
duration: 10,
authorities: Vec::new(),
randomness: [1u8; 32],
config: BabeEpochConfiguration { c: (1, 4), allowed_slots: BabeAllowedSlots::PrimarySlots },
};
runtime_api.babe_epoch = Some(epoch.clone());
let runtime_api = Arc::new(runtime_api);
let relay_parent = [1; 32].into();
let spawner = sp_core::testing::TaskExecutor::new();
let subsystem = RuntimeApiSubsystem::new(runtime_api.clone(), Metrics(None), spawner);
let subsystem_task = run(ctx, subsystem).map(|x| x.unwrap());
let test_task = async move {
let (tx, rx) = oneshot::channel();
ctx_handle
.send(FromOverseer::Communication {
msg: RuntimeApiMessage::Request(relay_parent, Request::CurrentBabeEpoch(tx)),
})
.await;
assert_eq!(rx.await.unwrap().unwrap(), epoch);
ctx_handle.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
};
futures::executor::block_on(future::join(subsystem_task, test_task));
}
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