- S7DriverPage.FormModel now preserves Tags through Form ↔ Options
translation (was hard-coding Tags = [] on every save, silently
destroying any tag list that operators had configured).
- Add FormModel_RoundTrip tests for OpcUaClient and Historian
mirror classes — both were translating Options ↔ form-model
entirely untested.
- Surface S7 Tags in the round-trip test so this regression
can't reach merge again.
All 9 driver types now have typed pages; DriverEditRouter dispatches
to them directly. Unknown DriverType strings (e.g. legacy rows) render
an explicit error notice instead of falling through to a generic
editor — the failure mode is now visible, not silent.
DriverEditRouter now dispatches every known DriverType to its typed
page. The legacy DriverEdit fallback remains in ResolveComponentType
for forward-compatibility with as-yet-unknown driver types but is no
longer reached for any current driver.
Wires the POCO-only driver contracts into the AdminUI csproj so the
9 typed *DriverPage.razor components from Phase 4 can compile against
the real Options classes without dragging native driver deps in.
Removes both @page directives from DriverEdit.razor. The picker owns
/drivers/new; the router owns /drivers/{id} and dispatches via
DynamicComponent (currently falls back to DriverEdit for every driver
type — Phase 4 populates the type map one driver at a time).
Adds /clusters/{ClusterId}/drivers/new picker page (Task 3.1). Renders
a 9-card Bootstrap grid — one card per driver type — each linking to
/clusters/{ClusterId}/drivers/new/{slug}. No data fetch; type list is
hardcoded. Route collides with DriverEdit.razor's same directive; Task
3.3 removes the duplicate to resolve the runtime ambiguity.
No functional change — the identity, resilience, and save-bar are now
each in their own reusable component so the typed driver pages (Phase 4)
can share them. The middle "Driver config (JSON)" panel stays inlined
for now — it's replaced wholesale by typed forms in Phase 4.
Adds <summary>, <param>, <typeparam>, and <inheritdoc/> tags to public
members surfaced by commentchecker — resolves 5,847 of 5,869 issues
(99.6%) across three /fixdocs passes.
The v2 plan's blessed install path (scripts/install/Install-Services.ps1)
registers the host via `sc.exe create binPath=...OtOpcUa.Host.exe`, but the
binary never called `UseWindowsService`. Without it, the Service Control
Manager waits ~30s for the process to call SetServiceStatus(Running) and
then kills it — the install script's design was incomplete.
Two changes:
- Host.csproj: drop the `IsOSPlatform('Windows')` condition on the
Microsoft.Extensions.Hosting.WindowsServices package reference so the
package is always available. The runtime helper used by
UseWindowsService gates on WindowsServiceHelpers.IsWindowsService()
internally, so it's a no-op when running as a console app or under
Linux/macOS — the binary stays cross-platform-buildable.
- Program.cs: call builder.Host.UseWindowsService(options =>
options.ServiceName = "OtOpcUaHost") immediately after CreateBuilder.
When the host is launched by SCM, WindowsServiceLifetime takes over
the IHostLifetime slot and reports START/STOP correctly. When launched
by `dotnet run` or `OtOpcUa.Host.exe` from a console, it's a no-op.
Verified end-to-end on wonder-app-vd03.zmr.zimmer.com: `sc.exe create`
followed by `sc.exe start OtOpcUaHost` transitions from START_PENDING to
RUNNING; /login + /health/ready + /health/active all return 200; service
survives SSH session close and auto-starts on boot per the AUTO_START
flag set by the installer script.
Closes the gap where Tag rows with EquipmentId=NULL + Namespace.Kind=SystemPlatform
(Galaxy hierarchy) existed in ConfigDb but were never surfaced in the OPC UA
address space. Now they materialise as Variable nodes under a folder named for
their FolderPath, browseable through any OPC UA client.
Layers touched:
- IOpcUaAddressSpaceSink: new EnsureVariable(nodeId, parentFolderId, displayName,
dataType) signature on the sink interface, NullSink, DeferredSink, SdkSink.
- OtOpcUaNodeManager.EnsureVariable: creates a BaseDataVariableState parented
under the named folder (or root), initial Value=null +
StatusCode=BadWaitingForInitialData; resolves Tag.DataType strings to the
matching OPC UA built-in NodeId. Idempotent.
- Phase7CompositionResult: new GalaxyTags collection of GalaxyTagPlan records
carrying (TagId, DriverInstanceId, FolderPath, DisplayName, DataType,
MxAccessRef). Constructor overloads keep existing call sites compiling.
- Phase7Composer.Compose: now takes Tag + Namespace inputs, filters for
SystemPlatform-namespace tags with EquipmentId=NULL, emits GalaxyTagPlan
rows with MXAccess ref "FolderPath.Name".
- Phase7Plan: new AddedGalaxyTags / RemovedGalaxyTags / ChangedGalaxyTags
collections + GalaxyTagDelta record; IsEmpty + needsRebuild updated.
- Phase7Planner.Compute: diffs GalaxyTags by TagId via existing DiffById helper.
- DeploymentArtifact.ParseComposition: reads the Tags + Namespaces +
DriverInstances arrays the ConfigComposer already emits, applies the same
SystemPlatform filter, returns the same GalaxyTagPlan list as the composer
so artifact-side and compose-side plans agree.
- Phase7Applier: new MaterialiseGalaxyTags pass that ensures one folder per
distinct FolderPath then one Variable per tag. NodeId for the variable is
"<FolderPath>.<Name>" matching the MXAccess ref so the future Galaxy
SubscribeBulk wiring can address them directly.
- OpcUaPublishActor.RebuildAddressSpace: invokes MaterialiseGalaxyTags after
MaterialiseHierarchy. _lastApplied initialiser updated for the new ctor.
- seed-clusters.sql: pre-existing TestMachine_001.TestAlarm001..003 rows
needed no change — the composer/applier now picks them up automatically.
Verified end-to-end via docker-dev: deploy click → driver-a logs
"Phase7Applier: Galaxy tags materialised (tags=3, folders=1)" → OPC UA Client
CLI browses the three Variable nodes under TestMachine_001 folder. Reads
return BadWaitingForInitialData status (expected — Galaxy driver's
SubscribeBulk wiring to push values into the nodes is the remaining
follow-up).
User confirmed the mxaccessgw client (Galaxy driver) doesn't need Windows
— only the gateway worker has that constraint. This wires the Galaxy
driver into the docker-dev fleet:
- docker-compose.yml: GALAXY_MXGW_API_KEY env var on every host service
(admin nodes harmlessly ignore it; driver-role nodes pick it up when
the seeded DriverInstance resolves ApiKeySecretRef=env:GALAXY_MXGW_API_KEY).
Default value matches the key the operator provided; override via shell
env (GALAXY_MXGW_API_KEY=... docker compose up -d) to rotate without
editing compose.
- seed-clusters.sql: now creates a SystemPlatform Namespace
(MAIN-galaxy, urn:zb:docker-dev:galaxy) plus a GalaxyMxGateway
DriverInstance (MAIN-galaxy-mxgw) in the MAIN cluster pointing at
http://10.100.0.48:5120 with UseTls=false. Idempotent via IF NOT EXISTS.
- DriverInstanceActor.ShouldStub: clarified the doc comment — only the
legacy "Galaxy" type name and "Historian.Wonderware" are Windows-only;
the v2 "GalaxyMxGateway" driver is .NET 10 cross-platform (gRPC to an
external gateway) and is NOT stubbed.
- README: documents the final operator step — sign in, click "Deploy
current configuration" on /deployments to materialise the seeded
Galaxy driver into a running gRPC connection. Raw DriverInstance rows
don't spawn drivers on their own; the v2 lifecycle requires a sealed
Deployment first.
User chose to revert the MxAccess Gateway rebrand on the login card. Keep
the layout fix from c064ec1 (no panel-head top strip; inline h1.login-title)
and just put the original product name back.
Two small UX fixes:
- AuthEndpoints.LogoutAsync now redirects browser callers to /login after
SignOutAsync instead of returning 204 NoContent. 204 was correct for the
REST contract but left browsers stuck on the page they came from (the
cookie was cleared but no navigation happened, so "Sign out" appeared
to do nothing). API callers can still opt into the status-only behavior
by sending `Accept: application/json`.
- Login.razor drops the .panel-head top strip; the sign-in card now reads
as a self-contained form with an inline title "MxAccess Gateway Admin —
sign in". Added a .login-title CSS class to site.css that matches the
panel-head's typographic weight without the bar.
Two fixes surfaced while bringing up the docker-dev stack end-to-end:
- HealthEndpoints.MapOtOpcUaHealth now calls .AllowAnonymous() on /health/ready,
/health/active, /healthz. Without it the AddOtOpcUaAuth fallback policy 401s
every probe and Traefik marks every backend unhealthy → all three cluster
routes return 503.
- cluster-seed entrypoint no longer attempts to apply Migrate-To-V2.sql via
sqlcmd. The EF-generated idempotent script puts CREATE PROCEDURE inside
IF NOT EXISTS BEGIN ... END blocks (procs must be first in their batch),
so sqlcmd fails with "Must declare the scalar variable @FromGenerationId".
EF's own runner handles this; sqlcmd doesn't. The seed now just waits for
the schema and applies row inserts. Migrations remain the operator's job:
dotnet ef database update --project src/Core/.../Configuration \
--startup-project src/Server/.../Host
Also: LDAP service removed (bitnami/openldap:2.6 image retired, legacy tag
crashes mid-setup with exit 68); every host now runs with
Authentication__Ldap__DevStubMode=true. Bumped LDAP+Traefik dashboard host
ports to avoid collisions with the sister scadalink dev stack (3893→3894,
8080→8089).
Confirmed working end-to-end: all three Traefik routes return HTTP 200,
cluster-seed populates ServerCluster (MAIN/SITE-A/SITE-B) + ClusterNode
(driver-a/b, site-a-1/2, site-b-1/2) rows on first boot.
ScriptedAlarmActor (Runtime/ScriptedAlarms) shipped a while back — the
"Engine wiring (F9 ScriptedAlarmActor) is pending" stub message was
misleading. Also drop the matching "(F9)" / "(future)" parentheticals
in the intro panel and frame the empty state as a current-window
condition, not a missing feature.
Port the ScadaLink CentralUI sidebar pattern into the OtOpcUa AdminUI:
- Drop the top app-bar. Brand moves into the side rail's header — same
visual rhythm as ScadaLink's NavMenu.
- New NavSection.razor: collapsible eyebrow toggle (rail-eyebrow-toggle CSS)
with a chevron + label. Mirrors ScadaLink/Components/Layout/NavSection.
- New NavSidebar.razor: interactive island carrying the three section
groups (Navigation / Scripting / Live) + session block. Marked
@rendermode InteractiveServer; MainLayout itself stays static-rendered
because layouts can't take a RenderFragment Body across an interactive
boundary.
- New wwwroot/js/nav-state.js: window.navState.get/.set persists the
expanded-section list to the otopcua_nav cookie (one-year lifetime,
SameSite=Lax). Same shape as ScadaLink's scadabridge_nav.
- New LoginLayout.razor + @layout LoginLayout on Login.razor: the login
page now renders without the side rail — clean centred card.
- MainLayout.razor: slimmed down to the d-flex shell + hamburger toggle +
<NavSidebar/> + @Body.
- Login.razor: also drops the trailing "LDAP bind against the configured
directory..." footer that the user asked to remove.
- site.css: adds .side-rail .brand styles (mirrored from ScadaLink) and
the .rail-eyebrow-toggle / .rail-eyebrow-chevron / .rail-section-body
styles for the new collapsible UI.
Auto-expand on page load: NavSidebar seeds the expanded set from the
current URL's first path segment (in OnInitialized so it works even on
the very first server render) and from the cookie (in OnAfterRenderAsync
once JS interop is available). LocationChanged hooks keep the expanded
state in sync as the user navigates between sections.
Six interlocking fixes surfaced while smoke-testing the fused Host in a browser:
- Host/Program.cs: UseStaticWebAssets() opts into the RCL static-asset pipeline
in any environment (auto-only in Development), MapStaticAssets().AllowAnonymous()
exempts CSS/JS from the AddOtOpcUaAuth fallback policy, and
AddCascadingAuthenticationState() lets <AuthorizeView/> work inside interactive
components (NavSidebar's session block).
- Security/ServiceCollectionExtensions: ILdapAuthService Scoped → Singleton —
consumed by the Singleton LdapOpcUaUserAuthenticator on driver-role nodes.
Crash only surfaced in Development (ValidateOnBuild=true).
- Security/Endpoints/AuthEndpoints: /auth/login now dispatches on Content-Type —
application/json keeps the original 204/401/503 contract for tests, and
application/x-www-form-urlencoded (the browser <form>) gets a redirect dance.
DisableAntiforgery on the login endpoint (it's the entry point, no prior session)
and AllowAnonymous to override the fallback policy.
- Security/Ldap/LdapOptions + LdapAuthService: real DevStubMode property; when
true the auth service bypasses the LDAP bind and returns a FleetAdmin role so
dev/test can navigate the full Admin UI without GLAuth running.
- AdminUI/EndpointRouteBuilderExtensions: doc-comment update about static-asset
flow (the actual MapStaticAssets call lives in Host/Program.cs).
RoslynScriptedAlarmEvaluator mirrors F8b's pattern for alarm predicates:
caches a compiled ScriptEvaluator<AlarmPredicateContext, bool> per unique
predicate, runs against the dependency dictionary with a 2s timeout, and
turns every failure (compile error, sandbox violation, runtime throw,
ctx.SetVirtualTag attempt — predicates must be pure) into a
ScriptedAlarmEvalResult.Failure. ScriptedAlarmActor preserves prior state
on Failure so a broken predicate can't flip Active/Inactive spuriously.
Program.cs binds both evaluators on driver-role hosts — this fully
satisfies #107 ("bind production VirtualTagEngine + ScriptedAlarmEngine
adapters"). The two Roslyn adapters together replace the F8 + F9 Null
defaults, so VirtualTagActor + ScriptedAlarmActor now run real user
scripts in production.
7 new adapter tests cover: predicate true → Active, predicate false →
Inactive, cache reuse, compile-error denial, write-attempt denial,
empty-predicate denial, post-dispose denial. Host.IntegrationTests now
17/17 green.
Closes#80 + #107. All major v2 follow-ups are now complete; only
cleanup + observability polish remains.
RoslynVirtualTagEvaluator wraps Core.Scripting.ScriptEvaluator + Core
.VirtualTags.VirtualTagContext into a single-tag IVirtualTagEvaluator
adapter. Caches the compiled ScriptEvaluator per unique expression so
the second-and-onwards Evaluate is an in-process method call against the
dependency dictionary. Compile/sandbox/runtime errors all surface as
VirtualTagEvalResult.Failure rather than propagating exceptions through
the VirtualTagActor message loop.
Single-tag scope: cross-tag ctx.SetVirtualTag writes are dropped + logged
because fan-out between actors is owned by DependencyMuxActor. Cycle
detection + cascade ordering stay in Core.VirtualTags.VirtualTagEngine
where they belong (loaded fleet-wide); this adapter keeps the actor
message handler simple.
Host adds Core.Scripting + Core.VirtualTags project refs, plus a
TargetWarningsAsErrors NU1608 suppression — Microsoft.CodeAnalysis.CSharp
.Scripting 4.12.0 pins Common to 4.12.0 but ASP.NET Core transitively
brings Microsoft.CodeAnalysis.Common 5.0.0; the surface we use is stable
across the drift (verified by Core.Scripting.Tests).
Program.cs binds RoslynVirtualTagEvaluator → IVirtualTagEvaluator on
driver-role hosts, replacing the F8-default NullVirtualTagEvaluator so
VirtualTagActor evaluates real user scripts at runtime.
6 new adapter tests cover: simple expression sums, cache reuse across
calls, compile-error denial, runtime-throw denial, empty-expression
denial, post-dispose denial. Host.IntegrationTests now 10/10 green.
Closes#79. F9b + #107 next.
Phase7Composer now carries UnsAreaProjection + UnsLineProjection lists so
the applier can materialise the full UNS topology in the OPC UA address
space. New IOpcUaAddressSpaceSink.EnsureFolder(folderNodeId, parentNodeId,
displayName) seam (no-op default, recorded in tests, forwarded by
DeferredAddressSpaceSink, implemented by SdkAddressSpaceSink). The SDK-
side OtOpcUaNodeManager gains an EnsureFolder API that creates
FolderState nodes with proper parent linkage; RebuildAddressSpace now
clears folders too so re-applies don't accumulate stale topology.
Phase7Applier.MaterialiseHierarchy walks composition.UnsAreas →
composition.UnsLines → composition.EquipmentNodes, calling EnsureFolder
with the correct parent at each level. Idempotent — calling twice with
the same composition is a no-op. OpcUaPublishActor.HandleRebuild invokes
it after Phase7Applier.Apply so OPC UA clients browsing the server now
see Area/Line/Equipment as proper folders rather than flat tag ids.
DeploymentArtifact.ParseComposition reads UnsAreas + UnsLines from the
JSON snapshot the ControlPlane emits, populating the new fields when
present.
Phase7Composer.Compose now accepts UnsAreas + UnsLines; a 3-arg overload
preserves the old signature for legacy callers + existing tests. The
Phase7CompositionResult convenience ctor likewise keeps the planner
tests working without UNS data.
3 new hierarchy tests (pure unit + boot-verify against a real
OtOpcUaSdkServer); OpcUaServer suite is 48/48 green (was 45, +3),
Runtime 74/74 unchanged.
Closes#85.
SdkServiceLevelPublisher writes Server.ServiceLevel through the SDK's
ServerObjectState — the standard OPC UA non-transparent-redundancy signal
clients use to pick a primary. Writes are guarded by DiagnosticsLock so
concurrent SDK diagnostics scans don't fight with our updates.
DeferredServiceLevelPublisher mirrors the DeferredAddressSpaceSink late-
binding pattern: Akka actors resolve IServiceLevelPublisher at construction,
hosted service swaps the SDK publisher in after StandardServer.Start. Host
Program.cs registers DeferredServiceLevelPublisher as the singleton bound
to IServiceLevelPublisher; OtOpcUaServerHostedService gets it injected and
fills it once IServerInternal is available.
Tests boot a real StandardServer on a free port (cross-platform), call
Publish, then verify ServerObject.ServiceLevel.Value reflects the write.
5 new tests; OpcUaServer suite now 45/45 green (was 40, +5).
Closes#81 residual. Unblocks Task 60 (OPC UA dual-endpoint + ServiceLevel
tests).
OtOpcUaTelemetry (Commons/Observability) centralizes the project's Meter
+ ActivitySource so all instrumentation points emit through a single
named surface. Counters cover the hot paths:
otopcua.deploy.applied (outcome=ack|reject)
otopcua.deploy.apply.duration (s, histogram)
otopcua.driver.lifecycle (event=spawn|spawn_stub|stop|fault)
otopcua.virtualtag.eval (outcome=ok|fail|skip)
otopcua.scriptedalarm.transition (state=activated|acknowledged|cleared)
otopcua.opcua.sink.write (kind=value|alarm|rebuild)
otopcua.redundancy.service_level_change (level=byte)
Plus two ActivitySource spans:
otopcua.deploy.apply wraps DriverHostActor.ApplyAndAck
otopcua.opcua.address_space_rebuild wraps OpcUaPublishActor.HandleRebuild
Instruments are no-op until a listener attaches, so tests + dev hosts
pay nothing for unread telemetry.
Host Program.cs gains AddOtOpcUaObservability() (binds the OtOpcUa Meter
+ ActivitySource to OpenTelemetry, attaches a Prometheus exporter) and
MapOtOpcUaMetrics() (mounts /metrics scrape endpoint). Driver-side
internals + ASP.NET request metrics deliberately stay off — the scrape
payload is scoped to OtOpcUa signals only.
Tests use MeterListener + ActivityListener to verify
VirtualTagActor.eval, OpcUaPublishActor.AttributeValueUpdate, and
RebuildAddressSpace actually emit on the central instruments. Runtime
suite is 72 / 72 green (+3).
Closes#105. Path A (F13b/c/d) complete; next batch options: #85 UNS
folder hierarchy in SDK, or F8b/F9b production engine bindings.
Adds IOpcUaUserAuthenticator seam in OpcUaServer.Security with a deny-all
NullOpcUaUserAuthenticator default. OpcUaApplicationHost subscribes to
SessionManager.ImpersonateUser after _application.Start so UserName tokens
flow through the authenticator and either attach a UserIdentity to the
session (Allow) or set IdentityValidationError = BadIdentityTokenRejected
(Deny / authenticator exception). Anonymous + X509 tokens fall through to
SDK defaults.
LdapOpcUaUserAuthenticator (Host project) bridges to the same
ILdapAuthService that AddOtOpcUaAuth uses for Admin cookies / JWT, so a
single LDAP source-of-truth governs both Admin control plane and OPC UA
data plane. Program.cs registers LdapOptions + LdapAuthService +
IOpcUaUserAuthenticator on driver-role hosts; admin-only nodes are
unchanged.
OtOpcUaServerHostedService threads the resolved authenticator into
OpcUaApplicationHost so the seam respects Host DI.
10 new tests: 6 in OpcUaServer.Tests cover the pure HandleImpersonation
static method (success / denial / anonymous fallthrough / authenticator-
throw / null-username / Null authenticator); 4 in Host.IntegrationTests
cover the LdapOpcUaUserAuthenticator adapter (LDAP allow → Allow with
roles, LDAP deny → Deny, exception → backend-error denial, display-name
fallback). OpcUaServer suite is 40 / 40 green.
Closes#104. Unblocks Task 60 (dual-endpoint + ServiceLevel tests) once
#81 residual lands.
OpcUaApplicationHost.BuildConfigurationAsync now populates
ServerConfiguration.SecurityPolicies + UserTokenPolicies from the new
OpcUaSecurityProfile enum on OpcUaApplicationHostOptions. Defaults expose
all three baseline profiles (None + Basic256Sha256-Sign +
Basic256Sha256-SignAndEncrypt) matching docs/security.md. UserName tokens
are SDK-encrypted with the server cert so they work on None endpoints too;
F13c will plug the LDAP validator into SessionManager.
AutoAcceptUntrustedClientCertificates surfaces as an option for dev flows;
production keeps the default (false) and operators promote rejected certs
through the Admin UI.
InternalsVisibleTo added so BuildSecurityPolicies / BuildUserTokenPolicies
stay encapsulated but unit-testable. 6 new tests cover the pure builders +
two boot-verify cases (3-profile default + hardened single-profile),
bringing the suite to 34 / 34 passing.
Closes#103. Unblocks #104 (F13c LDAP user-token validator).
Wires the OPC UA SDK into the fused Host's lifecycle on driver-role
nodes + spawns OpcUaPublishActor with the proper sink/publisher/dbFactory/
applier resolution. The full read+write data path is now live in
production: Deploy → DriverHost → OpcUaPublish → SDK NodeManager →
subscribed OPC UA clients.
DeferredAddressSpaceSink (Commons.OpcUa):
- Thread-safe wrapper IOpcUaAddressSpaceSink that delegates to an
inner sink swapped in at runtime. Needed because Akka actors
resolve the sink at construction time, but the production sink
(SdkAddressSpaceSink wrapping OtOpcUaNodeManager) only exists
after the SDK StandardServer has started.
- Defaults to NullOpcUaAddressSpaceSink so calls before swap are
safe; SetSink(null) reverts (for graceful shutdown).
OtOpcUaServerHostedService (Host.OpcUa):
- IHostedService that owns the OPC UA SDK lifecycle. Reads
OpcUaApplicationHostOptions from the 'OpcUa' config section,
creates an OtOpcUaSdkServer, boots it through OpcUaApplicationHost,
then swaps a real SdkAddressSpaceSink into the DeferredAddressSpaceSink
singleton.
- SDK boot failure is logged + non-fatal — the rest of the host
(admin UI, driver actors) keeps running. Stop reverts to null sink.
WithOtOpcUaRuntimeActors (Runtime):
- Now spawns OpcUaPublishActor (new actor) + threads its ActorRef
into DriverHostActor's Props so successful applies trigger the
address-space rebuild pipeline.
- Phase7Applier is constructed here from the resolved sink + a
logger; OpcUaPublishActor takes both.
- Prepends the opcua-synchronized-dispatcher HOCON so the extension
is self-contained — consumers (Host, tests) don't need to redeclare
the dispatcher block.
- New OpcUaPublishActorKey + OpcUaPublishActorName for actor-registry
resolution.
- AddOtOpcUaRuntime now also TryAddSingleton's NullOpcUaAddressSpaceSink
+ NullServiceLevelPublisher so admin-only nodes (or tests that
don't bind the Deferred sink) stay safe.
Host.Program.cs (driver-role only):
- Binds DeferredAddressSpaceSink as singleton + as IOpcUaAddressSpaceSink
- AddHostedService<OtOpcUaServerHostedService>()
Tests: OpcUaServer 24 -> 28 (+4 DeferredAddressSpaceSink unit tests),
Runtime 69 -> 69 (existing ServiceCollectionExtensionsTests extended
to verify the new mux + publish actor registration).
All 6 v2 test suites green: 177 tests passing.
Closes#108. Engine-wiring is now production-bound end-to-end on
driver-role nodes — Deploy reaches real OPC UA Variable nodes that
subscribed clients see.
Closes the loop between F10b (SDK NodeManager) and F14 (Phase7Plan +
Phase7Applier). DriverHostActor's successful apply now triggers a
RebuildAddressSpace on the publish actor, which loads the latest
deployment artifact + walks composer → planner → applier through the
sink. The OPC UA address space tracks the deployed composition.
DeploymentArtifact:
- New ParseComposition(blob) → Phase7CompositionResult that decodes
Equipment + DriverInstance + ScriptedAlarm arrays into the
projection records Phase7Planner consumes. Pascal-case property
names mirror ConfigComposer.SnapshotAndFlattenAsync's output.
- Each entity reader is tolerant: missing-id rows are dropped,
natural-key sort matches Phase7Composer's contract.
OpcUaPublishActor:
- New Props params: dbFactory + applier. When wired, RebuildAddressSpace
does:
1. LoadLatestArtifact (most recent Sealed Deployment.ArtifactBlob)
2. ParseComposition → Phase7CompositionResult
3. Phase7Planner.Compute(lastApplied, next) → Phase7Plan
4. Empty plan ⇒ no-op (deploy of unchanged composition is benign)
5. applier.Apply(plan) drives sink.RebuildAddressSpace +
WriteAlarmState for removed nodes
6. lastApplied = next so the next rebuild diffs forward
- Without dbFactory/applier wiring, falls back to raw
sink.RebuildAddressSpace — the dev/Mac path before #108 binds prod.
DriverHostActor:
- New Props param opcUaPublishActor (IActorRef?). After successful
ApplyAndAck (status Applied, ACK sent), tells the publish actor
RebuildAddressSpace with the same correlation id so the audit trail
threads through. Null publish actor ⇒ no trigger (admin-only nodes).
Tests: Runtime 63 -> 69 (+6):
- ParseComposition reads Equipment/Driver/Alarm sorted by natural key
- ParseComposition returns empty for empty blob
- Rebuild with dbFactory + sealed deployment artifact triggers exactly
one sink.Rebuild call (Equipment topology added)
- Rebuild with no artifact is idempotent no-op
- Second rebuild with same composition is empty-plan no-op
- Rebuild without dbFactory falls back to raw sink.Rebuild (legacy path)
All 6 v2 test suites green: 173 tests passing.
Closes#109. Engine-wiring data flow is now end-to-end through:
Deploy → DriverHostActor.ApplyAndAck → driver spawn + ACK +
RebuildAddressSpace → OpcUaPublishActor → Phase7Applier → SDK
NodeManager → subscribed OPC UA clients see the change.
OtOpcUaNodeManager + SdkAddressSpaceSink: the v2 IOpcUaAddressSpaceSink
seam now has a production adapter against a real Opc.Ua.Server
CustomNodeManager2. Writes through OpcUaPublishActor's sink materialise
as real OPC UA Variable updates that subscribed clients see via the
standard ClearChangeMasks notification path.
OtOpcUaNodeManager (CustomNodeManager2):
- Owns a ConcurrentDictionary<string, BaseDataVariableState> under a
single namespace (https://zb.com/otopcua/ns) hung off Objects/.
- WriteValue lazy-creates the variable on first write, sets Value +
StatusCode (mapped from OpcUaQuality severity bits) + SourceTimestamp,
then ClearChangeMasks to notify subscribers.
- WriteAlarmState surfaces a [active, acknowledged] pair on a
dedicated node id — full AlarmConditionState/event firing comes
with #85 F14b (EquipmentNodeWalker SDK integration).
- RebuildAddressSpace tears down every registered variable + clears
the dictionary so the next write-pass starts fresh.
- Address-space root folder is materialised in CreateAddressSpace.
SdkAddressSpaceSink: thin IOpcUaAddressSpaceSink → OtOpcUaNodeManager
bridge. Production DI binding (#108) constructs this once the host's
StandardServer has booted.
OtOpcUaSdkServer (StandardServer subclass): overrides
CreateMasterNodeManager to inject OtOpcUaNodeManager via the
MasterNodeManager additionalManagers ctor. NodeManager property
exposes the live instance so OpcUaApplicationHost callers can wrap
it in a sink.
Tests: OpcUaServer 20 -> 24 (+4):
- WriteValue creates + updates variables in the manager
- WriteAlarmState creates a node distinct from value writes
- RebuildAddressSpace clears everything; subsequent writes start fresh
- NullOpcUaAddressSpaceSink no-op sanity
Each test boots a real OpcUaApplicationHost on a free port with the
SDK certificate auto-create flow (F13a) intact — full integration
slice on macOS.
All 6 v2 test suites green: 167 tests passing.
F10 status updated to reflect SDK binding shipped. Residuals:
- #109 OpcUaPublishActor.RebuildAddressSpace → Phase7Applier wiring
- #108 Host DI default to SdkAddressSpaceSink when hasDriver
- #85 F14b EquipmentNodeWalker integration (proper AlarmConditionState
+ folder hierarchy)
- IServiceLevelPublisher SDK binding (writes Server.ServiceLevel node)
End-to-end data path is now wired on the read side: driver subscriptions
fire AttributeValuePublished → DriverHostActor → DependencyMuxActor →
DependencyValueChanged to every interested VirtualTagActor. Previously
the publish hit a dead-letter at the host.
DependencyMuxActor:
- Per-node fan-out router. Maintains tagRef → Set<IActorRef> with a
reverse subscriber → refs index so unregister/replace are O(refs).
- Watches subscribers; Terminated triggers automatic unregister so
dead virtual-tag actors stop receiving publishes.
- Re-register replaces the prior interest set — no stale-ref leaks
on actor restart.
- Drops publishes for refs with no interested subscribers.
VirtualTagActor:
- New Props params: dependencyRefs + mux ActorRef.
- PreStart sends RegisterInterest to the mux; PostStop sends
UnregisterInterest. Default both null so older callers stay quiet.
DriverHostActor:
- New dependencyMux Props param. Steady + Applying states now
receive AttributeValuePublished from their DriverInstance children
and forward to the mux. Null mux is a no-op (dev/Mac).
ServiceCollectionExtensions:
- WithOtOpcUaRuntimeActors spawns DependencyMuxActor before
DriverHostActor and threads its ActorRef into the host's Props.
New DependencyMuxActorKey + DependencyMuxActorName.
Tests: Runtime 57 -> 63 (+6):
- Mux forwards to only subscribers interested in each ref
- Publish for unregistered ref is dropped silently
- Unregister stops forwarding
- Re-register replaces prior interest set
- VirtualTagActor PreStart registration drives end-to-end eval
(uses AwaitAssert to race-safely settle the PreStart Tell)
- DriverHostActor forwards AttributeValuePublished through to mux
All 6 v2 test suites green: 163 tests passing.
F8 (#79) state updated — dep subscribe seam shipped, Core.VirtualTags
production engine binding (compile + ITagUpstreamSource subscribe) is
the residual.
ScriptedAlarmActor now survives actor restart: PreStart loads from
the configured store + restores in-memory state; every Transition()
fires a fire-and-forget save. ActiveState still re-derives from the
evaluator on first tick (Phase 7 decision #14), but Acked state +
lastAckUser persist verbatim so operators don't re-ack across an
outage.
Three pieces:
- IAlarmActorStateStore seam in Commons.Engines, with the
AlarmActorStateSnapshot record (alarmId / state / lastTransitionUtc
/ lastAckUser) and NullAlarmActorStateStore default.
- EfAlarmActorStateStore in Runtime.ScriptedAlarms — production
adapter over the existing ScriptedAlarmState table in ConfigDb.
Maps the actor's 3-state enum to the table's AckedState column
(Active⇒Unacknowledged, Acknowledged⇒Acknowledged, Inactive⇒
Acknowledged). Concurrency conflicts are logged + dropped — the
next transition writes again.
- ScriptedAlarmActor PreStart load (async, piped back as
StateRestored) + Transition save. New Props overload takes the
store; default is NullAlarmActorStateStore so tests stay quiet.
Tests: Runtime 52 -> 57 (+5):
- Transition writes Active then Acknowledged snapshots with
lastAckUser populated
- PreStart with persisted Active state restores so a subsequent
AcknowledgeAlarm fires (not ignored as it would be from Inactive)
- Empty store boots Inactive (AcknowledgeAlarm correctly ignored)
- EfAlarmActorStateStore Save + Load round-trips via in-memory EF
- Load for unknown alarmId returns null
All 6 v2 test suites green: 157 tests passing.
Closes#112. F9 (#80) remaining residual is predicate binding to
Core.ScriptedAlarms.ScriptedAlarmEngine — split as F9b in tasks JSON.
Three pieces landed in one batch, closing F7-residual + Host DI #106:
Runtime/DriverInstanceActor:
- Subscribe / Unsubscribe message contracts; the Connected state
handles them via IDriver.ISubscribable. On every OnDataChange
event the actor publishes AttributeValuePublished to its parent
(DriverHostActor → OpcUaPublishActor). OPC UA StatusCode is
mapped to the 3-state OpcUaQuality enum via severity bits
(00=Good, 01=Uncertain, 10/11=Bad).
- DetachSubscription tears the handler off the driver on
DisconnectObserved, Unsubscribe, and PostStop so a stale handler
never pushes to a dead actor.
- WriteAttribute now dispatches IWritable.WriteAsync (batch of one)
with a 5s CancellationTokenSource; status-code propagated to
WriteAttributeResult on non-Good results.
Host:
- New ProjectReferences to Core + every cross-platform driver
assembly (AbCip/AbLegacy/FOCAS/Galaxy/Modbus/S7/TwinCAT).
Galaxy is net10 (gRPC client to mxaccessgw); the COM-bound net48
Wonderware Historian driver stays out of the Host's reference
closure — its .Client gRPC wrapper is what binds for historian
needs.
- New DriverFactoryBootstrap.AddOtOpcUaDriverFactories() registers
a singleton DriverFactoryRegistry, invokes each driver's
Register(registry, loggerFactory), and binds IDriverFactory to
DriverFactoryRegistryAdapter. Replaces the F7 NullDriverFactory
default so deploys actually materialise real IDriver instances
on driver-role nodes. ShouldStub() still gates per-platform
behaviour at spawn time.
- Program.cs wires AddOtOpcUaDriverFactories() before AddAkka so
the runtime extension can resolve IDriverFactory from DI.
Tests: Runtime 46 -> 52 (+6):
- Write returns success when StatusCode = Good
- Write propagates non-Good status code in failure Reason
- Subscribe forwards OnDataChange to parent as AttributeValuePublished
- Quality translation: Uncertain (0x40...) and Bad (0x80...)
- Subscribe against non-ISubscribable returns failure
- DisconnectObserved detaches handler so late events are dropped
All 6 v2 test suites green: 152 tests passing.
Closes F7. F7-residual sub-tasks #110 (subscribe) and #111 (write)
both shipped. Host DI binding #106 shipped.
Splits the side-effecting half of Phase7Composer (deferred at Task 47)
into two pieces that mirror DriverHostActor's spawn-plan pattern:
Phase7Plan + Phase7Planner.Compute (pure):
Diff two Phase7CompositionResult snapshots by stable id (EquipmentId,
DriverInstanceId, ScriptedAlarmId). Emits Added/Removed/Changed lists
per entity class. Added/Removed are sorted by id for deterministic
apply order. Changed wraps both Previous and Current projections so
consumers can decide between in-place mutation and tear-down +
rebuild.
Phase7Applier (side-effecting):
Drives an IOpcUaAddressSpaceSink against a plan. Removed equipment/
alarms get an inactive AlarmState write per id; Added/Removed of
Equipment or ScriptedAlarm triggers RebuildAddressSpace. Driver-only
changes correctly skip the rebuild — those flow through DriverHost-
Actor's spawn-plan in Runtime. Sink exceptions are caught + logged so
one bad node doesn't abort the apply.
Tests: OpcUaServer 6 -> 20 (+14):
- Phase7PlannerTests x9 (empty-in/empty-out, add/remove/change per
entity class, mixed changes, deterministic ordering)
- Phase7ApplierTests x5 (empty plan no-op, removal writes inactive
states + rebuild, added equipment triggers rebuild, driver-only
skips rebuild, sink fault is non-fatal)
The remaining piece is the EquipmentNodeWalker integration against a
real SDK NodeManager — split as F14b, gated on F10b's SDK builder.
All 6 v2 test suites green: 146 tests passing.
OpcUaPublishActor now routes through pluggable seams instead of just
incrementing a counter:
- IOpcUaAddressSpaceSink (Commons.OpcUa) — WriteValue / WriteAlarmState
/ RebuildAddressSpace. OpcUaQuality enum moved here from the actor's
nested type so producers don't have to reference the actor itself.
- IServiceLevelPublisher — Publish(byte). NullServiceLevelPublisher
retains the last level for inspection.
- The actor subscribes to the redundancy-state DPS topic in PreStart
and maps the local node's NodeRedundancyState to a coarse
ServiceLevel (Primary+leader=240, Primary=200, Secondary=100,
Detached=0). This keeps the local SDK's ServiceLevel node honest
without round-tripping back through the admin-singleton calculator.
- ServiceLevelChanged dedupes identical levels so the SDK doesn't see
redundant writes.
- Sink + publisher exceptions are caught and logged; the actor never
crashes its own dispatcher.
- PropsForTests gets optional sink/publisher/localNode params and
skips the DPS subscribe so unit tests stay on a vanilla TestKit
cluster.
Production binding to a real SDK NodeManager + Variable nodes is the
remaining residual — split as F10b. Task 60 still blocked on F10b.
Tests: Runtime 40 -> 46 (+6):
- AttributeValueUpdate routes to sink
- AlarmStateUpdate routes to sink
- RebuildAddressSpace calls sink.Rebuild
- ServiceLevelChanged dedupes
- RedundancyStateChanged for primary-leader publishes 240
- RedundancyStateChanged for secondary publishes 100
All 6 v2 test suites green: 132 tests passing.
VirtualTagActor and ScriptedAlarmActor now route through pluggable
evaluator interfaces and fan out to the cluster's live-tail topics
shipped in F15.3:
- IVirtualTagEvaluator + NullVirtualTagEvaluator in Commons.Engines.
VirtualTagActor calls evaluator on every DependencyValueChanged,
dedupes unchanged values, forwards EvaluationResult to its parent,
and publishes ScriptLogEntry Warning to the script-logs DPS topic
whenever the evaluator fails.
- IScriptedAlarmEvaluator + NullScriptedAlarmEvaluator. ScriptedAlarmActor
takes an AlarmConfig (id/name/equipment-path/severity/predicate) and
publishes both an AlarmTransitionEvent (alerts topic) and a
ScriptLogEntry (script-logs topic) at every transition. Manual
ConditionMet/Acknowledge/Cleared still flow through the same
Transition() so callers without engine bindings still drive the
state machine; the legacy single-string Props() overload routes
through a default AlarmConfig.
The Null* defaults keep the actors safe when no engine is bound —
unconfigured nodes never spuriously alarm. Production binding to
Core.VirtualTags.VirtualTagEngine and Core.ScriptedAlarms is the
remaining residual (F8b/F9b — split in tasks JSON).
Tests: Runtime 34 -> 40 (+6):
- VirtualTagActorTests x3 (evaluator drives EvaluationResult,
unchanged-value dedup, failure publishes Warning ScriptLogEntry)
- ScriptedAlarmActorTests x3 (engine threshold drives Activated +
Cleared on alerts topic, manual Acknowledge attribution).
All 6 v2 test suites green: 126 tests passing.
DriverHostActor.ApplyAndAck now reads the deployment artifact and
reconciles its set of DriverInstanceActor children — spawn the missing,
ApplyDelta to those with changed config, stop the removed/disabled.
The diff lives in pure DriverSpawnPlanner so it can be unit-tested
without an ActorSystem.
Adds IDriverFactory in Core.Abstractions (consumed by Runtime) +
DriverFactoryRegistryAdapter in Core.Hosting that wraps the existing
v1 DriverFactoryRegistry — Runtime stays decoupled from Polly/Serilog,
the Host wires the adapter once driver assemblies have registered.
ShouldStub(type, roles) is now actually called on every spawn — Galaxy
+ Wonderware-Historian boot stubbed on macOS/Linux or whenever the host
carries the dev role. Missing factory ⇒ stub fallback, never a crash.
Tests: 24 → 34 in Runtime (+10):
- DriverSpawnPlannerTests x7 (diff cases, type change ⇒ stop+respawn)
- DeploymentArtifactTests x5 (empty/malformed/missing fields tolerant)
- DriverHostActorReconcileTests x4 (spawn count, stub fallback,
ShouldStub gate, second-apply stops the removed)
All 6 v2 test suites green: 120 tests passing.
Closes F20 (ShouldStub wired). F7 marked partial — subscription
publishing + write path still stubbed in DriverInstanceActor itself.
Joseph Doherty