Both bugs surfaced only on split-role deployments (the MAIN cluster's
admin-only nodes), where the AdminUI runs without the driver role.
- Test Connect returned "No probe registered" for every driver: the
IDriverProbe set was registered only under the driver role, but the
admin-operations singleton that consumes it is pinned to admin. Extract
AddOtOpcUaDriverProbes() (idempotent via TryAddEnumerable) and call it
in the hasAdmin path too.
- Live driver-status/alerts/script-log panels showed "SignalR error:
Connection refused": these Blazor Server components opened a HubConnection
to their own hub via the browser's public URL, which server-side code
can't reach behind Traefik (host :9200 -> container :9000). Read the
in-process source directly instead -- DriverStatus via
IDriverStatusSnapshotStore.SnapshotChanged, Alerts/ScriptLog via a new
IInProcessBroadcaster<T>. Fleet status was unaffected (reads DB/ActorSystem).
Adds unit tests for probe registration, the snapshot-store event, and the
broadcaster.
GalaxyDriverPage deserialized DriverConfig with case-sensitive camelCase opts, but the
persisted/seeded config is PascalCase (the runtime reads it case-insensitively). So all four
nested option records read as null -> FromRecord NRE (HTTP 500) on edit, and the form would
have shown defaults instead of the real config (risking a clobber on save). Fix: add
PropertyNameCaseInsensitive=true (matches the runtime) so real values load, plus null-coalesce
the nested records in FromRecord as defense-in-depth. Regression test asserts the seeded
PascalCase config loads its real values.
Completes the test side of the in-progress Galaxy-tag workstream:
- Phase7ApplierTests / Phase7ApplierHierarchyTests: supply the now-required
Galaxy-tag args to Phase7Plan / Phase7CompositionResult.
- Add genuine coverage for Phase7Applier.MaterialiseGalaxyTags (folder-per-distinct-path,
variable-per-tag node-id derivation, folder dedupe) + added-Galaxy-tags-trigger-rebuild.
- S7.Cli.Tests: use the project's S7CpuType (CLI option type) instead of S7.Net.CpuType.
Whole solution now builds 0/0; OpcUaServer.Tests 52, S7.Cli.Tests 36 green.
Resolves the 12 reported build errors (7 CS0535 sink fakes + 5 CLI CS1587).
Runtime.Tests green (74). NOTE: OpcUaServer.Tests still has pre-existing CS7036
errors from the in-progress Galaxy-tag workstream (Phase7Plan/Phase7CompositionResult
new required params) — separate, test-only, not addressed here.
Capture the original ModbusTagDefinition as _source in ModbusTagRow and
rewrite ToDefinition() to use 'with {}', so StringByteOrder, ArrayCount,
Deadband, UnitId, and CoalesceProhibited survive a load→edit→save cycle.
Two pre-existing test bugs surfaced by the auth-alignment branch:
- Test wanted the 204/JSON contract but never sent Accept:
application/json — endpoint correctly returned 302 (form POST).
- Cookie-name assertion still used OtOpcUa.Auth= (now
ZB.MOM.WW.OtOpcUa.Auth= since the Task 1 default change).
Endpoint behavior is intentional and untouched.
ASP.NET Core's cookie-handler IsAjaxRequest heuristic only checks
X-Requested-With (not Accept). Drop the third test (Accept: application/json
was assumed to → 401 but actually → 302) and the Location.ShouldBeNull
assertion on the XHR test (framework still writes Location alongside 401;
clients ignore it). Renamed _ajax_ → _xhr_ for accuracy. Design doc
updated to match.
Adds protected MapGet("/") in the test host plus three [Fact] methods
exercising the cookie scheme's challenge heuristic for the root route:
browser (Accept: text/html), AJAX (X-Requested-With: XMLHttpRequest),
and JSON (Accept: application/json) callers. Also adds a no-redirect
HttpClient helper so the 302 + Location can be asserted directly.
Single Cookie auth scheme; framework default challenge restores 302 → /login
for browsers + 401 for AJAX. OtOpcUaCookieOptions now flows through to
CookieAuthenticationOptions via PostConfigure (fixes a latent bug where the
options class was bound but ignored). Cookie name moves to
ZB.MOM.WW.OtOpcUa.Auth; existing sessions get a one-time forced sign-out.
- DriverTestConnectE2eTests: 3 scenarios (sim/wrong-port/black-hole)
against the Modbus Docker fixture. Sim + wrong-port skip if fixture
unreachable; black-hole uses ModbusDriverProbe directly (no fixture).
- DriverReconnectE2eTests: message round-trip through AdminOperationsActor
cluster singleton — Ok=true + audit write, without live driver side effect.
- DriverStatusHubE2eTests: bridge-mocked fallback — spawns
DriverStatusSignalRBridge in the harness ActorSystem with a mock
IHubContext, publishes DriverHealthChanged to the driver-health DPS
topic, asserts store upsert + hub SendAsync call.
- DockerFixtureAvailability helper: TCP-connect probe for skip guards.
- Moq 4.20.72 added to central package management for hub mocking.
- Design doc §8.3 replaced with concrete pre-ship operator runbook.
- DriverTagPicker shell: modal chrome + per-driver picker body
rendered as ChildContent.
- 9 picker bodies (Modbus/AbCip/AbLegacy/S7/TwinCat/FOCAS/
OpcUaClient/Galaxy/Historian.Wonderware). 5 have computed
builder logic + unit tests; 4 are free-text passthroughs
(live browse for OPC UA + Galaxy is a documented follow-up).
- Each typed driver page gets a "Pick address" button that opens
the modal with the matching body. Picked address surfaces in
the modal footer for manual copy — no JS interop in v1.
- IDriverProbe abstraction in Core.Abstractions; one impl per driver
type, resolved by DriverType string. Phase 7.3 + 7.4 add concrete
probes for the 9 supported driver types.
- TestDriverConnect / TestDriverConnectResult messages.
- AdminOperationsActor.HandleTestDriverConnectAsync looks up the probe
by DriverType, runs it with a [1,60]s clamped timeout, and returns
success/latency or failure/message. Probes that throw or time out
surface as soft failures.
- 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.
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.
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.
Boots a real StandardServer + OpcUaApplicationHost, wires
SdkServiceLevelPublisher into a DeferredServiceLevelPublisher (production
binding pattern), spawns OpcUaPublishActor against the deferred
publisher, sends RedundancyStateChanged snapshots, and asserts that
ServerObject.ServiceLevel.Value reflects the role-derived byte:
Primary + RoleLeaderForDriver → 240
Secondary → 100
Together with the F13b endpoint-security tests (which already verify
ServerConfiguration.SecurityPolicies populates the three baseline
profiles), this closes Task 60's "dual-endpoint + ServiceLevel" scope.
Cross-node failover tests stay in the 2-node integration harness
(Task 59 / FailoverScenarioTests).
Runtime suite now 74 / 74 green (+2). Closes Task 60.
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.
Joseph Doherty