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Author SHA1 Message Date
Joseph Doherty
46834a43bd Phase 3 PR 17 — complete OPC UA server startup end-to-end + integration test. PR 16 shipped the materialization shape (DriverNodeManager / OtOpcUaServer) without the activation glue; this PR finishes the scope so an external OPC UA client can actually connect, browse, and read. New OpcUaServerOptions DTO bound from the OpcUaServer section of appsettings.json (EndpointUrl default opc.tcp://0.0.0.0:4840/OtOpcUa, ApplicationName, ApplicationUri, PkiStoreRoot default %ProgramData%\OtOpcUa\pki, AutoAcceptUntrustedClientCertificates default true for dev — production flips via config). OpcUaApplicationHost wraps Opc.Ua.Configuration.ApplicationInstance: BuildConfiguration constructs the ApplicationConfiguration programmatically (no external XML) with SecurityConfiguration pointing at <PkiStoreRoot>/own, /issuers, /trusted, /rejected directories — stack auto-creates the cert folders on first run and generates a self-signed application certificate via CheckApplicationInstanceCertificate, ServerConfiguration.BaseAddresses set to the endpoint URL + SecurityPolicies just None + UserTokenPolicies just Anonymous with PolicyId='Anonymous' + SecurityPolicyUri=None so the client's UserTokenPolicy lookup succeeds at OpenSession, TransportQuotas.OperationTimeout=15s + MinRequestThreadCount=5 / MaxRequestThreadCount=100 / MaxQueuedRequestCount=200, CertificateValidator auto-accepts untrusted when configured. StartAsync creates the OtOpcUaServer (passes DriverHost + ILoggerFactory so one DriverNodeManager is created per registered driver in CreateMasterNodeManager from PR 16), calls ApplicationInstance.Start(server) to bind the endpoint, then walks each DriverNodeManager and drives a fresh GenericDriverNodeManager.BuildAddressSpaceAsync against it so the driver's discovery streams into the address space that's already serving clients. Per-driver discovery is isolated per decision #12: a discovery exception marks the driver's subtree faulted but the server stays up serving the other drivers' subtrees. DriverHost.GetDriver(instanceId) public accessor added alongside the existing GetHealth so OtOpcUaServer can enumerate drivers during CreateMasterNodeManager. DriverNodeManager.Driver property made public so OpcUaApplicationHost can identify which driver each node manager wraps during the discovery loop. OpcUaServerService constructor takes OpcUaApplicationHost — ExecuteAsync sequence now: bootstrap.LoadCurrentGenerationAsync → applicationHost.StartAsync → infinite Task.Delay until stop. StopAsync disposes the application host (which stops the server via OtOpcUaServer.Stop) before disposing DriverHost. Program.cs binds OpcUaServerOptions from appsettings + registers OpcUaApplicationHost + OpcUaServerOptions as singletons. Integration test (OpcUaServerIntegrationTests, Category=Integration): IAsyncLifetime spins up the server on a random non-default port (48400+random for test isolation) with a per-test-run PKI store root (%temp%/otopcua-test-<guid>) + a FakeDriver registered in DriverHost that has ITagDiscovery + IReadable implementations — DiscoverAsync registers TestFolder>Var1, ReadAsync returns 42. Client_can_connect_and_browse_driver_subtree creates an in-process OPC UA client session via CoreClientUtils.SelectEndpoint (which talks to the running server's GetEndpoints and fetches the live EndpointDescription with the actual PolicyId), browses the fake driver's root, asserts TestFolder appears in the returned references. Client_can_read_a_driver_variable_through_the_node_manager constructs the variable NodeId using the namespace index the server registered (urn:OtOpcUa:fake), calls Session.ReadValue, asserts the DataValue.Value is 42 — the whole pipeline (client → server endpoint → DriverNodeManager.OnReadValue → FakeDriver.ReadAsync → back through the node manager → response to client) round-trips correctly. Dispose tears down the session, server, driver host, and PKI store directory. Full solution: 0 errors, 165 tests pass (8 Core unit + 14 Proxy unit + 24 Configuration unit + 6 Shared unit + 91 Galaxy.Host unit + 4 Server (2 unit NodeBootstrap + 2 new integration) + 18 Admin). End-to-end outcome: PR 14's GalaxyAlarmTracker alarm events now flow through PR 15's GenericDriverNodeManager event forwarder → PR 16's ConditionSink → OPC UA AlarmConditionState.ReportEvent → out to every OPC UA client subscribed to the alarm condition. The full alarm subsystem (driver-side subscription of the Galaxy 4-attribute quartet, Core-side routing by source node id, Server-side AlarmConditionState materialization with ReportEvent dispatch) is now complete and observable through any compliant OPC UA client. LDAP / security-profile wire-up (replacing the anonymous-only endpoint with BasicSignAndEncrypt + user identity mapping to NodePermissions role) is the next layer — it reuses the same ApplicationConfiguration plumbing this PR introduces but needs a deployment-policy source (central config DB) for the cert trust decisions. 
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-04-18 08:18:37 -04:00
Joseph Doherty
f53c39a598 Phase 3 PR 16 — concrete OPC UA server scaffolding with AlarmConditionState materialization. Introduces the OPCFoundation.NetStandard.Opc.Ua.Server package (v1.5.374.126, same version the v1 stack already uses) and two new server-side classes: DriverNodeManager : CustomNodeManager2 is the concrete realization of PR 15's IAddressSpaceBuilder contract — Folder() creates FolderState nodes under an Organizes hierarchy rooted at ObjectsFolder > DriverInstanceId; Variable() creates BaseDataVariableState with DataType mapped from DriverDataType (Boolean/Int32/Float/Double/String/DateTime) + ValueRank (Scalar or OneDimension) + AccessLevel CurrentReadOrWrite; AddProperty() creates PropertyState with HasProperty reference. Read hook wires OnReadValue per variable to route to IReadable.ReadAsync; Write hook wires OnWriteValue to route to IWritable.WriteAsync and surface per-tag StatusCode. MarkAsAlarmCondition() materializes an OPC UA AlarmConditionState child of the variable, seeded from AlarmConditionInfo (SourceName, InitialSeverity → UA severity via Low=250/Medium=500/High=700/Critical=900, InitialDescription), initial state Enabled + Acknowledged + Inactive + Retain=false. Returns an IAlarmConditionSink whose OnTransition updates alarm.Severity/Time/Message and switches state per AlarmType string ('Active' → SetActiveState(true) + SetAcknowledgedState(false) + Retain=true; 'Acknowledged' → SetAcknowledgedState(true); 'Inactive' → SetActiveState(false) + Retain=false if already Acked) then calls alarm.ReportEvent to emit the OPC UA event to subscribed clients. Galaxy's GalaxyAlarmTracker (PR 14) now lands at a concrete AlarmConditionState node instead of just raising an unobserved C# event. OtOpcUaServer : StandardServer wires one DriverNodeManager per DriverHost.GetDriver during CreateMasterNodeManager — anonymous endpoint, no security profile (minimum-viable; LDAP + security-profile wire-up is the next PR). DriverHost gains public GetDriver(instanceId) so the server can enumerate drivers at startup. NestedBuilder inner class in DriverNodeManager implements IAddressSpaceBuilder by temporarily retargeting the parent's _currentFolder during each call so Folder→Variable→AddProperty land under the correct subtree — not thread-safe if discovery ran concurrently, but GenericDriverNodeManager.BuildAddressSpaceAsync is sequential per driver so this is safe by construction. NuGet audit suppress for GHSA-h958-fxgg-g7w3 (moderate-severity in OPCFoundation.NetStandard.Opc.Ua.Core 1.5.374.126; v1 stack already accepts this risk on the same package version). PR 16 is scoped as scaffolding — the actual server startup (ApplicationInstance, certificate config, endpoint binding, session management wiring into OpcUaServerService.ExecuteAsync) is deferred to a follow-up PR because it needs ApplicationConfiguration XML + optional-cert-store logic that depends on per-deployment policy decisions. The materialization shape is complete: a subsequent PR adds 100 LOC to start the server and all the already-written IAddressSpaceBuilder + alarm-condition + read/write wire-up activates end-to-end. Full solution: 0 errors, 152 unit tests pass (no new tests this PR — DriverNodeManager unit testing needs an IServerInternal mock which is heavyweight; live-endpoint integration tests land alongside the server-startup PR). 
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-04-18 08:00:36 -04:00
Joseph Doherty
01fd90c178 Phase 1 Streams B–E scaffold + Phase 2 Streams A–C scaffold — 8 new projects with ~70 new tests, all green alongside the 494 v1 IntegrationTests baseline (parity preserved: no v1 tests broken; legacy OtOpcUa.Host untouched). Phase 1 finish: Configuration project (16 entities + 10 enums + DbContext + DesignTimeDbContextFactory + InitialSchema/StoredProcedures/AuthorizationGrants migrations — 8 procs including sp_PublishGeneration with MERGE on ExternalIdReservation per decision #124, sp_RollbackToGeneration cloning rows into a new published generation, sp_ValidateDraft with cross-cluster-namespace + EquipmentUuid-immutability + ZTag/SAPID reservation pre-flight, sp_ComputeGenerationDiff with CHECKSUM-based row signature — plus OtOpcUaNode/OtOpcUaAdmin SQL roles with EXECUTE grants scoped to per-principal-class proc sets and DENY UPDATE/DELETE/INSERT/SELECT on dbo schema); managed DraftValidator covering UNS segment regex, path length, EquipmentUuid immutability across generations, same-cluster namespace binding (decision #122), reservation pre-flight, EquipmentId derivation (decision #125), driver↔namespace compatibility — returning every failing rule in one pass; LiteDB local cache with round-trip + ring pruning + corruption-fast-fail; GenerationApplier with per-entity Added/Removed/Modified diff and dependency-ordered callbacks (namespace → driver → device → equipment → poll-group → tag, Removed before Added); Core project with GenericDriverNodeManager (scaffold for the Phase 2 Galaxy port) and DriverHost lifecycle registry; Server project using Microsoft.Extensions.Hosting BackgroundService replacing TopShelf, with NodeBootstrap that falls back to LiteDB cache when the central DB is unreachable (decision #79); Admin project scaffolded as Blazor Server with Bootstrap 5 sidebar layout, cookie auth, three admin roles (ConfigViewer/ConfigEditor/FleetAdmin), Cluster + Generation services fronting the stored procs. Phase 2 scaffold: Driver.Galaxy.Shared (netstandard2.0) with full MessagePack IPC contract surface — Hello version negotiation, Open/CloseSession, Heartbeat, DiscoverHierarchy + GalaxyObjectInfo/GalaxyAttributeInfo, Read/WriteValues, Subscribe/Unsubscribe/OnDataChange, AlarmSubscribe/Event/Ack, HistoryRead, HostConnectivityStatus, Recycle — plus length-prefixed framing (decision #28) with a 16 MiB cap and thread-safe FrameWriter/FrameReader; Driver.Galaxy.Host (net48) implementing the Tier C cross-cutting protections from driver-stability.md — strict PipeAcl (allow configured server SID only, explicit deny on LocalSystem + Administrators), PipeServer with caller-SID verification via pipe.RunAsClient + WindowsIdentity.GetCurrent and per-process shared-secret Hello, Galaxy-specific MemoryWatchdog (warn at max(1.5×baseline, +200 MB), soft-recycle at max(2×baseline, +200 MB), hard ceiling 1.5 GB, slope ≥5 MB/min over 30-min rolling window), RecyclePolicy (1 soft recycle per hour cap + 03:00 local daily scheduled), PostMortemMmf (1000-entry ring buffer in %ProgramData%\OtOpcUa\driver-postmortem\galaxy.mmf, survives hard crash, readable cross-process), MxAccessHandle : SafeHandle (ReleaseHandle loops Marshal.ReleaseComObject until refcount=0 then calls optional unregister callback), StaPump with responsiveness probe (BlockingCollection dispatcher for Phase 1 — real Win32 GetMessage/DispatchMessage pump slots in with the same semantics when the Galaxy code lift happens), IsExternalInit shim for init setters on .NET 4.8; Driver.Galaxy.Proxy (net10) implementing IDriver + ITagDiscovery forwarding over the IPC channel with MX data-type and security-classification mapping, plus Supervisor pieces — Backoff (5s → 15s → 60s capped, reset-on-stable-run), CircuitBreaker (3 crashes per 5 min opens; 1h → 4h → manual cooldown escalation; sticky alert doesn't auto-clear), HeartbeatMonitor (2s cadence, 3 consecutive misses = host dead per driver-stability.md). Infrastructure: docker SQL Server remapped to host port 14330 to coexist with the native MSSQL14 Galaxy ZB DB instance on 1433; NuGetAuditSuppress applied per-project for two System.Security.Cryptography.Xml advisories that only reach via EF Core Design with PrivateAssets=all (fix ships in 11.0.0-preview); .slnx gains 14 project registrations. Deferred with explicit TODOs in docs/v2/implementation/phase-2-partial-exit-evidence.md: Phase 1 Stream E Admin UI pages (Generations listing + draft-diff-publish, Equipment CRUD with OPC 40010 fields, UNS Areas/Lines tabs, ACLs + permission simulator, Generic JSON config editor, SignalR real-time, Release-Reservation + Merge-Equipment workflows, LDAP login page, AppServer smoke test per decision #142), Phase 2 Stream D (Galaxy MXAccess code lift out of legacy OtOpcUa.Host, dual-service installer, appsettings → DriverConfig migration script, legacy Host deletion — blocked by parity), Phase 2 Stream E (v1 IntegrationTests against v2 topology, Client.CLI walkthrough diff, four 2026-04-13 stability findings regression tests, adversarial review — requires live MXAccess runtime). 
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-04-17 21:35:25 -04:00