The DriverInstance.ResilienceConfig column was authored in AdminUI, persisted to the
entity, and serialized into the deployment artifact by ConfigComposer — but the runtime
read path dropped it: DriverInstanceSpec didn't carry it and the invoker factory always
passed null, so every driver got tier defaults regardless of its configured overrides
(a silent dead-config gap — #10's residual sub-finding).
Read-path plumbing (write side was already complete):
- DriverInstanceSpec gains ResilienceConfig; DeploymentArtifact.TryReadSpec reads the column.
- IDriverCapabilityInvokerFactory.Create takes resilienceConfigJson; DriverHostActor.SpawnChild
threads spec.ResilienceConfig; the concrete factory parses it (ParseOrDefaults, layering on the
tier), logs any parse diagnostic (never throws), and builds the invoker with the merged options.
- Invalidate-on-change: the pipeline cache keys on (instance, host, capability) and ignores options
on a hit, so Create() now Invalidate()s the instance's cached pipelines first (no-op on first
spawn) — a respawn with changed options rebuilds them.
- DriverSpawnPlanner treats a ResilienceConfig change as a stop+respawn (the invoker/options are
bound to the child at spawn); a pure DriverConfig change stays an in-place delta (no reconnect).
- Host DI passes a logger to the factory for the parse diagnostic.
Verification (deterministic): factory Create applies a retryCount:0 override to actual execution
(control test proves tier default retries), invalidates the instance's cache on re-create (scoped —
sibling survives), malformed config logs+falls-back; planner respawns on ResilienceConfig change
(incl null→json) and stays delta on a pure config change; artifact parse carries/omits the column.
Core.Tests 243 (+5), Runtime.Tests 363 (+5), Host builds clean.
Remediates RESILIENCE-DISPATCH-GAP (surfaced by the 07/C-1 analyzer): the Phase 6.1
CapabilityInvoker resilience pipeline (retry / breaker / bulkhead / telemetry) was
constructed only in tests — the production dispatch layer called driver-capability
methods directly, bypassing it entirely.
The filed plan (thread CapabilityInvoker directly into DriverInstanceActor) is
INFEASIBLE: Runtime is deliberately Polly-free (references Core.Abstractions, not
Core — the same boundary IDriverFactory documents). So this introduces a seam,
mirroring IDriverFactory exactly:
- Core.Abstractions: IDriverCapabilityInvoker (+ NullDriverCapabilityInvoker
pass-through) and IDriverCapabilityInvokerFactory (+ null factory).
- Core: CapabilityInvoker now implements the interface; new
DriverCapabilityInvokerFactory builds a per-instance invoker over the
process-singleton pipeline builder + status tracker + tier resolver.
- Runtime: DriverInstanceActor takes an IDriverCapabilityInvoker (default =
pass-through) and routes all 6 dispatch sites (write, alarm-ack, subscribe,
unsubscribe, alarm-subscribe, discover) through it; per-host key resolved via
IPerCallHostResolver for single-ref calls, driver-instance key for bulk calls.
DriverHostActor builds + injects the real invoker per spawned driver.
- Host: DriverFactoryBootstrap registers the tracker, pipeline builder, and
concrete factory (needs DriverFactoryRegistry.GetTier). Runtime SCE resolves the
factory from DI like IDriverFactory; pass-through on nodes without it bound.
- Analyzer: IDriverCapabilityInvoker.ExecuteAsync/ExecuteWriteAsync are now
recognized wrapper homes (interface-typed invoker calls must suppress OTOPCUA0001
too). All 6 RESILIENCE-DISPATCH-GAP pragmas removed — the analyzer (an error in
Runtime) is now the standing regression guard.
Also adds retry / breaker-open / breaker-close LOGGING to the pipeline builder —
the operator-facing observability surface (the Admin /hosts reader, Phase 6.1
Stream E.2/E.3, was never built, so the pipeline otherwise runs silently).
Scope notes:
- Tier-DEFAULT policy only: DriverInstanceSpec (the deploy artifact) does not carry
the per-instance ResilienceConfig JSON, so overrides aren't applied yet (tracked
follow-up: plumb ResilienceConfig through the composer/artifact).
- GenericDriverNodeManager's call is NOT wired: that class is test-only scaffolding
(zero production references — the Server has its own address-space path); its
pragma is re-annotated accordingly, not left as a "tracked gap".
Verification (unit + analyzer; live behavioral gate still pending — see FOLLOWUP-10):
- Negative control: unwrapping any site fails the Runtime build with OTOPCUA0001.
- New Runtime guard (recording invoker): write routes via ExecuteWriteAsync with the
IPerCallHostResolver host; subscribe via ExecuteAsync — proves runtime routing.
- New analyzer test: the interface is a valid wrapper home.
- New pipeline-builder test: retry events are logged.
- Full solution builds clean (0 errors); Runtime.Tests 357, Core.Tests 238,
Analyzers.Tests 32 all green; pass-through default keeps existing dispatch tests
byte-for-byte unchanged.
U2 (Critical): RoslynVirtualTagEvaluator ran scripts with a CancellationToken
that a synchronous Roslyn script can never observe, so one CPU-bound/infinite-
loop virtual-tag script hung the owning VirtualTagActor forever (no timeout, no
recovery). Route evaluation through the existing TimedScriptEvaluator (Task.Run
+ WaitAsync) so the wall-clock budget is real; a runaway script now returns Bad
within the timeout instead of wedging the actor.
U3 (High): the live path cached evaluators in a raw ConcurrentDictionary never
cleared on republish, leaking a collectible AssemblyLoadContext per edited
script forever. Swap in the purpose-built CompiledScriptCache (Lazy single-
compile, dispose-on-Clear) and add an apply-boundary clear: a new narrow
IScriptCacheOwner seam the VirtualTagHostActor calls on each ApplyVirtualTags
generation (mirrors ScriptedAlarmEngine's per-generation clear).
Tests: infinite-loop-fails-within-timeout (bounded by WaitAsync so a regression
fails instead of hanging), happy-path-after-wrapping, ClearCompiledScripts-
empties-cache, and a host-actor wiring guard asserting each apply generation
calls ClearCompiledScripts (theme #1 production-caller assertion). Host.Integration
VT suite 18/18, Runtime VT suite 12/12.
Adds <summary>/<param>/<returns>/<inheritdoc> where missing and removes
project bookkeeping IDs (task/tracking refs) from shipped code comments,
so the docs read cleanly and CommentChecker is quiet except for known
false positives (PLC/protocol terms, event/IEqualityComparer inheritdoc).
Doc/comment-only; no logic changed; solution builds clean.
PR #423 shipped GatewayTagProvisioner + unit tests but never registered it in
DI nor passed it into the AddressSpaceApplier, so deploying historized tags used
the no-op NullHistorianProvisioning and never called the gateway's EnsureTags
(confirmed live on wonder-app-vd03: zero EnsureTags calls on a historized deploy).
Addresses HISTORIAN-GATEWAY-INTEGRATION-ISSUES.md.
Issue 1 (wire provisioner):
- Runtime: AddHistorianProvisioning extension (gated on ServerHistorian:Enabled,
mirrors AddServerHistorian) + NullHistorianProvisioning TryAdd default in
AddOtOpcUaRuntime; WithOtOpcUaRuntimeActors resolves IHistorianProvisioning and
passes it into the applier.
- Gateway driver: GatewayHistorian.CreateProvisioner factory (mirrors CreateDataSource).
- Host: Program.cs calls AddHistorianProvisioning after AddServerHistorian.
- Tests: AddHistorianProvisioningTests (config-gated registration + the
register->resolve->applier->EnsureTags chain).
Issue 2 (observability): AddressSpaceApplier logs the provisioning tally on every
successful dispatch (was gated behind Failed/Skipped > 0), including dispatched=N
so a dispatched=N/requested=0 line flags the dormant no-op. +2 tests.
Issue 3 (30s HistoryRead on unprovisioned tags): root coupling fixed by Issue 1;
documented the CallTimeout knob + coupling. Default left at 30s pending the
multi-data-point investigation the issue requests (lowering risks truncating
legitimate large reads).
Issue 4 (docs): docs/Historian.md gains a "Tag auto-provisioning (EnsureTags)"
section and CLAUDE.md a wiring/gating note (both stress ServerHistorian:Enabled).
Sibling scadaproj/CLAUDE.md carries no false claim -> unchanged.
Pre-existing Serilog observation: anchor CWD to AppContext.BaseDirectory before
AddZbSerilog so the relative file sink stops landing in C:\Windows\System32 under
the Windows-service CWD.
Builds 0-error; Runtime.Tests 355, OpcUaServer.Tests 329, Gateway.Tests 99 (+4
live-skipped) all green.
HistorianGateway is now the sole historian backend (read + alarm SendEvent +
continuous WriteLiveValues). Document the final state and retire the Wonderware
sidecar from the docs/config/labels:
- CLAUDE.md: rewrite the Historian section — ServerHistorian /
ContinuousHistorization / AlarmHistorian config keys, the IHistorianProvisioning
EnsureTags hook, the GatewayAlarmHistorianWriter SendEvent path + ReadEvents
dependency on gateway RuntimeDb:EventReadsEnabled=true, gateway-side
prerequisites (RuntimeDb flags + historian:read/write/tags:write scopes),
migration note, and two KNOWN-LIMITATION callouts (live-validation gate +
empty historized-ref-set recorder follow-on).
- appsettings.json: fix the stale ServerHistorian block (Host/Port/SharedSecret/
ServerCertThumbprint -> Endpoint/ApiKey/UseTls/AllowUntrustedServerCertificate/
CaCertificatePath/CallTimeout, keep MaxTieClusterOverfetch); add a disabled
ContinuousHistorization block; prune the orphaned Wonderware keys from
AlarmHistorian (keep the SQLite knobs). ApiKey env-supplied via
ServerHistorian__ApiKey (commented; valid strict JSON via _comment keys).
- README.md + docs (Historian.md, AlarmHistorian.md, Configuration.md,
ServiceHosting.md, DriverLifecycle.md, drivers/README.md, Uns.md, VirtualTags.md,
AlarmTracking.md, Client.UI.md, README.md, TestConnectProbes.md): retire the
Wonderware historian backend from current-backend descriptions; fix the stale
ServerHistorian/AlarmHistorian config tables (now gateway shape); convert
drivers/Historian.Wonderware.md to a retired stub pointing at the gateway.
- Source/UI labels (descriptive text only, no behavior change):
OtOpcUaServerHostedService.cs, HistoryPaging.cs, OtOpcUaSdkServer.cs,
HistorianAdapterActor.cs, VirtualTagModal.razor, ScriptedAlarmModal.razor,
AlarmsHistorian.razor now name the HistorianGateway backend.
Build clean (0 errors); AdminUI.Tests green (514 passed).
Claude-Session: https://claude.ai/code/session_012SDSQ3AcaXqPcBtDESBRii
The HistorianGateway driver is now the sole historian read/write+alarm backend, so the
Wonderware sidecar projects are dead code. Removes the 5 Wonderware projects (driver,
.Client, .Client.Contracts, + their 2 test projects) from the solution and tree, and fully
retires the vestigial 'Historian.Wonderware' driver type (UI/probe-only; it had no driver
factory): the Host probe registration, the AdminUI driver-config surface (driver page,
tag-config editor/model/validator entry, address picker/builder, driver-type catalog +
dropdown + edit-router entries), and their tests. Prunes the now-unused Wonderware
connection fields (Host/Port/UseTls/ServerCertThumbprint/SharedSecret) from
AlarmHistorianOptions (keeping Enabled + the SQLite store-and-forward knobs) and refreshes
the stale XML docs that named Wonderware as the production backend.
Claude-Session: https://claude.ai/code/session_012SDSQ3AcaXqPcBtDESBRii
Bind ContinuousHistorizationOptions (Enabled/OutboxPath/CommitMode/
CommitIntervalMs/DrainBatchSize/DrainIntervalSeconds/Capacity/backoff) with a
warn-only Validate(); gated on Enabled AND the ServerHistorian gateway being
configured, the Host registers the durable FasterLogHistorizationOutbox (container
-disposed) + a gateway-backed GatewayHistorianValueWriter, and binds outbox
depth/dropped observable gauges on the central scraped meter. WithOtOpcUaRuntimeActors
spawns the recorder (over the same dependency-mux ref) when the options + writer +
outbox resolve, registering ContinuousHistorizationRecorderKey. Spawned with an EMPTY
historized-ref set: the deployed address space builds later, so ref population is a
documented follow-on (a later SetHistorizedRefs feed) — T18 wires the actor + outbox
+ writer + meters; the ref feed is the known remaining gap.
Claude-Session: https://claude.ai/code/session_012SDSQ3AcaXqPcBtDESBRii
DriverHostActor/DriverInstanceActor and cluster events log via Akka's ILoggingAdapter, which had no Serilog bridge — under the Windows service host the default StandardOutLogger output is discarded, making the driver-role actor graph invisible (this masked the data-plane diagnosis).
- Add Akka.Logger.Serilog 1.5.60 (deps satisfied by Akka 1.5.62 / Serilog 4.3.1).
- WithOtOpcUaClusterBootstrap: ConfigureLoggers(DebugLevel; ClearLoggers(); AddLogger<SerilogLogger>()) — Akka.Hosting owns logger setup, so HOCON akka.loggers alone is not honored.
- Program.cs: set static Serilog.Log.Logger from the DI root logger after Build() (AddZbSerilog registers the MEL provider but not the static logger, which the Akka SerilogLogger and the startup banner both need).
Code review at HEAD 7286d320. Host-001 (High): /metrics was auth-gated on admin
nodes (Prometheus 401) -> AllowAnonymous. Host-002: register LdapOptionsValidator
unconditionally for fail-fast startup validation on admin-only nodes. Host-004: fix
metrics XML doc. Host-003 (docs) left Open.
All five suppressed advisories are now resolved at baseline/resolved versions,
so every NuGetAuditSuppress is removed repo-wide:
- System.Security.Cryptography.Xml (GHSA-37gx-xxp4-5rgx / GHSA-w3x6-4m5h-cxqf)
-> fixed by the .NET 10 baseline (10.0.6)
- OPCFoundation Opc.Ua.Core (GHSA-h958-fxgg-g7w3) -> fixed at resolved 1.5.378.106
Two were still live and are now patched via direct security pins:
- OpenTelemetry.Api 1.9.0 -> 1.15.3 (GHSA-g94r-2vxg-569j) pinned in Cluster;
Runtime/ControlPlane/AdminUI + tests inherit via project reference
- Tmds.DBus.Protocol 0.20.0 -> 0.21.3 (GHSA-xrw6-gwf8-vvr9) pinned in Client.UI
Also correct the Historian sidecar runtime comments (x86 -> x64, matching the
csproj PlatformTarget). Solution audit: 0 vulnerable packages; full build clean.
Wire the materialised AlarmConditionState method handlers so a client calling
Acknowledge/Confirm/Shelve/AddComment is gated on the AlarmAck data-plane role
and, when allowed, routed back to the scripted-alarm engine via a new
`alarm-commands` DistributedPubSub topic.
- Commons: new AlarmCommand DTO (AlarmId/Operation/User/Comment/UnshelveAtUtc).
- ScriptedAlarmHostActor: add AlarmCommandsTopic const.
- OtOpcUaNodeManager: settable AlarmCommandRouter + wire OnAcknowledge/OnConfirm/
OnAddComment/OnShelve/OnTimedUnshelve. Each resolves the principal off
ISessionOperationContext.UserIdentity as RoleCarryingUserIdentity, fails closed
(BadUserAccessDenied) when the AlarmAck role is absent or no identity, else maps
+ routes an AlarmCommand and returns Good. OnShelve discriminates OneShotShelve/
TimedShelve/Unshelve from the SDK flags; TimedShelve expiry = UtcNow + ms.
No Akka/IActorRef handle — only the Action<AlarmCommand> delegate. T20 de-dup
note left; WriteAlarmCondition untouched.
- OpcUaServer.Security: OpcUaDataPlaneRoles.AlarmAck shared const (the role was a
bare string everywhere; introduced one symbol for the gate + tests).
- OtOpcUaSdkServer: SetAlarmCommandRouter pass-through.
- Host: boot wiring publishes each command via mediator.Tell(Publish(...)) using a
lazy ActorSystem accessor (mirrors DpsScriptLogPublisher).
- Tests: 11 new gate + mapping tests (OpcUaServer.Tests 88->99, all green).
A thin gateway over the admin-operations cluster singleton so CI/scripts can trigger a
deployment without the Blazor button. Forwards to the same IAdminOperationsClient.
StartDeploymentAsync; mounted on admin-role nodes. Auth is a fixed-time X-Api-Key check
against Security:DeployApiKey (orthogonal to the cookie-only web auth); AllowAnonymous so the
auth fallback doesn't 401 it, self-disabling (503) until the key is set. Outcome->status:
202/200/409/422. Unit tests for the key check + outcome mapping; HTTP E2E (real auth + real
deploy via the 2-node harness). Documented in docs/security.md.
The per-role overlay (appsettings.{role}.json) was appended after WebApplicationBuilder's
default sources, so it outranked environment variables — a baked role file could not be
overridden by a deployment env var. In otopcua-dev this meant appsettings.admin.json's
Security:Ldap:DevStubMode=false beat the compose's DevStub override, so every AdminUI login
attempted a real LDAP bind against a non-existent server and failed with 'Unexpected
authentication error'.
- Program.cs: re-append AddEnvironmentVariables() + AddCommandLine(args) after the role
overlay so deployment overrides keep top precedence (overlay still beats base appsettings).
- docker-dev/docker-compose.yml: the DevStub env var targeted the stale 'Authentication:Ldap'
section; the code reads 'Security:Ldap'. Corrected the prefix on every host node (+ comment).
Dev AdminUI login now signs in as Administrator via the DevStub bypass.