//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes: //ORIGINAL LINE: @Test public void shouldIncludeAllProtocolsInSelectionIfEmptyVersionsProvided() public virtual void ShouldIncludeAllProtocolsInSelectionIfEmptyVersionsProvided() { // when ProtocolSelection <int, Org.Neo4j.causalclustering.protocol.Protocol_ApplicationProtocol> protocolSelection = _applicationProtocolRepository.getAll(RAFT, emptyList()); // then int?[] expectedRaftVersions = TestProtocols_TestApplicationProtocols.allVersionsOf(RAFT); assertThat(protocolSelection.Versions(), Matchers.containsInAnyOrder(expectedRaftVersions)); }
//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes: //ORIGINAL LINE: @Test public void shouldIncludeProtocolsInSelectionWithVersionsLimitedByThoseConfigured() public virtual void ShouldIncludeProtocolsInSelectionWithVersionsLimitedByThoseConfigured() { // given int?[] expectedRaftVersions = new int?[] { 1 }; // when ProtocolSelection <int, Org.Neo4j.causalclustering.protocol.Protocol_ApplicationProtocol> protocolSelection = _applicationProtocolRepository.getAll(RAFT, asList(expectedRaftVersions)); // then assertThat(protocolSelection.Versions(), Matchers.containsInAnyOrder(expectedRaftVersions)); }
//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes: //ORIGINAL LINE: @Test public void shouldIncludeProtocolsInSelectionWithVersionsLimitedByThoseExisting() public virtual void ShouldIncludeProtocolsInSelectionWithVersionsLimitedByThoseExisting() { // given int?[] expectedRaftVersions = TestProtocols_TestApplicationProtocols.allVersionsOf(RAFT); IList <int> configuredRaftVersions = Stream.concat(Stream.of(expectedRaftVersions), Stream.of(int.MaxValue)).collect(Collectors.toList()); // when ProtocolSelection <int, Org.Neo4j.causalclustering.protocol.Protocol_ApplicationProtocol> protocolSelection = _applicationProtocolRepository.getAll(RAFT, configuredRaftVersions); // then assertThat(protocolSelection.Versions(), Matchers.containsInAnyOrder(expectedRaftVersions)); }
public override void Handle(ApplicationProtocolResponse applicationProtocolResponse) { EnsureMagic(); if (applicationProtocolResponse.StatusCode() != SUCCESS) { Decline("Unsuccessful application protocol response"); return; } Optional <Protocol_ApplicationProtocol> protocol = _applicationProtocolRepository.select(applicationProtocolResponse.ProtocolName(), applicationProtocolResponse.Version()); if (!protocol.Present) { ProtocolSelection <int, Protocol_ApplicationProtocol> knownApplicationProtocolVersions = _applicationProtocolRepository.getAll(_supportedApplicationProtocol.identifier(), _supportedApplicationProtocol.versions()); Decline(string.Format("Mismatch of application protocols between client and server: Server protocol {0} version {1:D}: Client protocol {2} versions {3}", applicationProtocolResponse.ProtocolName(), applicationProtocolResponse.Version(), knownApplicationProtocolVersions.Identifier(), knownApplicationProtocolVersions.Versions())); } else { _negotiatedApplicationProtocol = protocol.get(); SendSwitchOverRequestIfReady(); } }
private void SendProtocolRequests(Channel channel, ApplicationSupportedProtocols applicationProtocols, ICollection <ModifierSupportedProtocols> supportedModifierProtocols) { supportedModifierProtocols.forEach(modifierProtocol => { ProtocolSelection <string, ModifierProtocol> protocolSelection = _modifierProtocolRepository.getAll(modifierProtocol.identifier(), modifierProtocol.versions()); channel.Write(new ModifierProtocolRequest(protocolSelection.Identifier(), protocolSelection.Versions())); }); ProtocolSelection <int, Protocol_ApplicationProtocol> applicationProtocolSelection = _applicationProtocolRepository.getAll(applicationProtocols.Identifier(), applicationProtocols.Versions()); channel.WriteAndFlush(new ApplicationProtocolRequest(applicationProtocolSelection.Identifier(), applicationProtocolSelection.Versions())); }