use of com.radixdlt.environment.RemoteEventDispatcher in project radixdlt by radixdlt.
the class ConsensusModuleTest method getExternalModule.
private Module getExternalModule() {
return new AbstractModule() {
@Override
protected void configure() {
bind(Ledger.class).toInstance(mock(Ledger.class));
bind(new TypeLiteral<EventDispatcher<LocalTimeoutOccurrence>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<ViewUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTInsertUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTRebuildUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTHighQCUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTCommittedUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<LocalSyncRequest>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<ScheduledEventDispatcher<GetVerticesRequest>>() {
}).toInstance(rmock(ScheduledEventDispatcher.class));
bind(new TypeLiteral<ScheduledEventDispatcher<ScheduledLocalTimeout>>() {
}).toInstance(rmock(ScheduledEventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<ViewQuorumReached>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<RemoteEventDispatcher<Vote>>() {
}).toInstance(rmock(RemoteEventDispatcher.class));
bind(new TypeLiteral<RemoteEventDispatcher<Proposal>>() {
}).toInstance(rmock(RemoteEventDispatcher.class));
bind(new TypeLiteral<RemoteEventDispatcher<GetVerticesRequest>>() {
}).toInstance(requestSender);
bind(new TypeLiteral<RemoteEventDispatcher<GetVerticesResponse>>() {
}).toInstance(responseSender);
bind(new TypeLiteral<RemoteEventDispatcher<GetVerticesErrorResponse>>() {
}).toInstance(errorResponseSender);
bind(new TypeLiteral<EventDispatcher<NoVote>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<ScheduledEventDispatcher<View>>() {
}).toInstance(rmock(ScheduledEventDispatcher.class));
bind(new TypeLiteral<ScheduledEventDispatcher<VertexRequestTimeout>>() {
}).toInstance(rmock(ScheduledEventDispatcher.class));
bind(PersistentVertexStore.class).toInstance(mock(PersistentVertexStore.class));
bind(PersistentSafetyStateStore.class).toInstance(mock(PersistentSafetyStateStore.class));
bind(NextTxnsGenerator.class).toInstance(mock(NextTxnsGenerator.class));
bind(SystemCounters.class).toInstance(mock(SystemCounters.class));
bind(TimeSupplier.class).toInstance(mock(TimeSupplier.class));
bind(BFTConfiguration.class).toInstance(bftConfiguration);
LedgerProof proof = mock(LedgerProof.class);
when(proof.getView()).thenReturn(View.genesis());
bind(LedgerProof.class).annotatedWith(LastProof.class).toInstance(proof);
bind(RateLimiter.class).annotatedWith(GetVerticesRequestRateLimit.class).toInstance(RateLimiter.create(Double.MAX_VALUE));
bindConstant().annotatedWith(BFTSyncPatienceMillis.class).to(200);
bindConstant().annotatedWith(PacemakerTimeout.class).to(1000L);
bindConstant().annotatedWith(PacemakerRate.class).to(2.0);
bindConstant().annotatedWith(PacemakerMaxExponent.class).to(6);
ECKeyPair ecKeyPair = ECKeyPair.generateNew();
bind(HashSigner.class).toInstance(ecKeyPair::sign);
}
@Provides
ViewUpdate viewUpdate(@Self BFTNode node) {
return ViewUpdate.create(View.of(1), mock(HighQC.class), node, node);
}
@Provides
@Self
private BFTNode bftNode() {
return BFTNode.create(ecKeyPair.getPublicKey());
}
};
}
use of com.radixdlt.environment.RemoteEventDispatcher in project radixdlt by radixdlt.
the class EpochManagerTest method getExternalModule.
private Module getExternalModule() {
BFTNode self = BFTNode.create(ecKeyPair.getPublicKey());
return new AbstractModule() {
@Override
protected void configure() {
bind(HashSigner.class).toInstance(ecKeyPair::sign);
bind(BFTNode.class).annotatedWith(Self.class).toInstance(self);
bind(new TypeLiteral<EventDispatcher<LocalTimeoutOccurrence>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTInsertUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTRebuildUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTHighQCUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<BFTCommittedUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<EpochLocalTimeoutOccurrence>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<EpochView>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<LocalSyncRequest>>() {
}).toInstance(syncLedgerRequestSender);
bind(new TypeLiteral<EventDispatcher<ViewQuorumReached>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<EpochViewUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<ViewUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<NoVote>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<EventDispatcher<LedgerUpdate>>() {
}).toInstance(rmock(EventDispatcher.class));
bind(new TypeLiteral<ScheduledEventDispatcher<GetVerticesRequest>>() {
}).toInstance(timeoutScheduler);
bind(new TypeLiteral<ScheduledEventDispatcher<ScheduledLocalTimeout>>() {
}).toInstance(rmock(ScheduledEventDispatcher.class));
bind(new TypeLiteral<ScheduledEventDispatcher<Epoched<ScheduledLocalTimeout>>>() {
}).toInstance(rmock(ScheduledEventDispatcher.class));
bind(new TypeLiteral<ScheduledEventDispatcher<VertexRequestTimeout>>() {
}).toInstance(rmock(ScheduledEventDispatcher.class));
bind(new TypeLiteral<RemoteEventDispatcher<Proposal>>() {
}).toInstance(proposalDispatcher);
bind(new TypeLiteral<RemoteEventDispatcher<Vote>>() {
}).toInstance(voteDispatcher);
bind(new TypeLiteral<RemoteEventDispatcher<GetVerticesRequest>>() {
}).toInstance(rmock(RemoteEventDispatcher.class));
bind(new TypeLiteral<RemoteEventDispatcher<GetVerticesResponse>>() {
}).toInstance(rmock(RemoteEventDispatcher.class));
bind(new TypeLiteral<RemoteEventDispatcher<GetVerticesErrorResponse>>() {
}).toInstance(rmock(RemoteEventDispatcher.class));
bind(new TypeLiteral<RemoteEventDispatcher<LedgerStatusUpdate>>() {
}).toInstance(rmock(RemoteEventDispatcher.class));
bind(PersistentSafetyStateStore.class).toInstance(mock(PersistentSafetyStateStore.class));
bind(NextTxnsGenerator.class).toInstance(nextTxnsGenerator);
bind(SystemCounters.class).toInstance(new SystemCountersImpl());
bind(Mempool.class).toInstance(mempool);
bind(StateComputer.class).toInstance(stateComputer);
bind(PersistentVertexStore.class).toInstance(mock(PersistentVertexStore.class));
bind(RateLimiter.class).annotatedWith(GetVerticesRequestRateLimit.class).toInstance(RateLimiter.create(Double.MAX_VALUE));
bindConstant().annotatedWith(BFTSyncPatienceMillis.class).to(50);
bindConstant().annotatedWith(PacemakerTimeout.class).to(10L);
bindConstant().annotatedWith(PacemakerRate.class).to(2.0);
bindConstant().annotatedWith(PacemakerMaxExponent.class).to(0);
bind(TimeSupplier.class).toInstance(System::currentTimeMillis);
bind(new TypeLiteral<Consumer<EpochViewUpdate>>() {
}).toInstance(rmock(Consumer.class));
}
@Provides
private ViewUpdate view(BFTConfiguration bftConfiguration) {
HighQC highQC = bftConfiguration.getVertexStoreState().getHighQC();
View view = highQC.highestQC().getView().next();
return ViewUpdate.create(view, highQC, self, self);
}
@Provides
BFTValidatorSet validatorSet() {
return BFTValidatorSet.from(Stream.of(BFTValidator.from(self, UInt256.ONE)));
}
@Provides
@LastProof
LedgerProof verifiedLedgerHeaderAndProof(BFTValidatorSet validatorSet) {
var accumulatorState = new AccumulatorState(0, HashUtils.zero256());
return LedgerProof.genesis(accumulatorState, validatorSet, 0);
}
@Provides
@LastEpochProof
LedgerProof lastEpochProof(BFTValidatorSet validatorSet) {
var accumulatorState = new AccumulatorState(0, HashUtils.zero256());
return LedgerProof.genesis(accumulatorState, validatorSet, 0);
}
@Provides
BFTConfiguration bftConfiguration(@Self BFTNode self, Hasher hasher, BFTValidatorSet validatorSet) {
var accumulatorState = new AccumulatorState(0, HashUtils.zero256());
var unverifiedVertex = UnverifiedVertex.createGenesis(LedgerHeader.genesis(accumulatorState, validatorSet, 0));
var verifiedVertex = new VerifiedVertex(unverifiedVertex, hasher.hash(unverifiedVertex));
var qc = QuorumCertificate.ofGenesis(verifiedVertex, LedgerHeader.genesis(accumulatorState, validatorSet, 0));
var proposerElection = new WeightedRotatingLeaders(validatorSet);
return new BFTConfiguration(proposerElection, validatorSet, VerifiedVertexStoreState.create(HighQC.from(qc), verifiedVertex, Optional.empty(), hasher));
}
};
}
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