M1 (MEDIUM): the VirtualTag re-assert re-published a stale last value with a
fresh deploy-time timestamp, and VirtualTagHostActor.OnResult recorded it to
the IHistoryWriter for Historize=true plans — every deploy would append an
artificial historian sample (BadInternalError if the last state was Bad) that
never corresponded to a real evaluation. Inert today (NullHistoryWriter) but a
data-quality bug once a VT history sink binds. Fix: EvaluationResult carries an
IsReassert flag (default false), set true in VirtualTagActor.OnReassertValue;
OnResult still PUBLISHES the AttributeValueUpdate (to repair the reset node) but
SKIPS _history.Record when IsReassert. Regression test
VirtualTagHostActorTests.Reassert_of_a_historized_vtag_publishes_but_does_not_re_record_to_the_historian
(fails before — count=2 — passes after: count stays 1).
LOW-3: corrected the ordering comments in VirtualTagActor.OnReassertValue and
VirtualTagHostActor.OnApply. ApplyVirtualTags goes to the VirtualTag HOST, not
the publish actor; the ordering holds because the re-assert reaches the publish
actor via a multi-hop chain (host -> child ReassertValue -> child -> parent
EvaluationResult -> OnResult -> publish actor) and thus lands AFTER
RebuildAddressSpace in the shared publish actor's FIFO mailbox.
M2 (CONFIRMED REAL — reported as scoped follow-up, not fixed here): the same
redeploy-reset race is latent for Part 9 scripted-alarm condition nodes. A
full-rebuild deploy clears + re-materialises them fresh
(OtOpcUaNodeManager.RebuildAddressSpace clears _alarmConditions @2160;
MaterialiseAlarmCondition recreates normal state), but the engine reload does
NOT re-emit an unchanged-active condition: ScriptedAlarmEngine.LoadAsync ->
EvaluatePredicateToStateAsync (@546-552) computes ApplyPredicate(seed, true)
where seed is the persisted state from the DB-backed EfAlarmConditionStateStore,
yielding EmissionKind.None, which ScriptedAlarmHostActor.OnEngineEmission (@292)
filters. Net: an active alarm with static dependencies under-reports until its
next real transition on a full-rebuild deploy. The fix is larger/riskier than
the VT case (touches the Core engine emission contract and must publish ONLY the
OPC UA node state, NOT the alerts topic, to avoid duplicate AVEVA history rows —
the alarm analogue of M1), so per review guidance it is deferred as a scoped
follow-up rather than forced into this commit.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Equipment VirtualTags published Bad at runtime whenever their dependency
value was static. Root cause: a deploy re-materialises each VirtualTag's
UNS node to BadWaitingForInitialData (OpcUaPublishActor.HandleRebuild), but
a surviving unchanged-plan VirtualTagActor keeps its value-dedup state, so
its unchanged recompute is suppressed (VirtualTagActor.OnDependencyChanged
value dedup) and the freshly-reset node stays Bad forever. Only masked when
the dependency value changes every poll.
Fix: VirtualTagHostActor tells each surviving (not just-spawned) child to
ReassertValue on every apply; the child re-emits its last value/quality,
bypassing dedup. Ordering is safe — DriverHostActor enqueues the
RebuildAddressSpace (materialise) to the single-threaded publish actor
before the ApplyVirtualTags that triggers the re-assert, so the re-publish
lands on the freshly-materialised node.
Regression test: VirtualTagHostActorTests
.Unchanged_redeploy_reasserts_last_value_so_a_reset_uns_node_recovers
(fails before, passes after). Live-verified on docker-dev: GateVt reads
Good via both the absolute and the {{equip}}/MainPressure script forms.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Pre-existing stale test surfaced by Batch 4's full gate (Batch 2/3 gates were
live-/run and never ran Host.IntegrationTests): Batch 2 registered CalculationProbe
in DriverFactoryBootstrap (9 probes) but AddOtOpcUaDriverProbes_is_idempotent's
AdminUiDriverTypeKeys still listed 8, so distinctTypes(9) != Length(8). Calculation
is a real DriverTypeNames.Calculation pseudo-driver with a probe; add it and refresh
the now-stale *DriverPage.razor comment (that routed flow retired in Batch 2). Not a
Batch-4 code change — a test-correctness fix.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
M1 — over-the-wire event-delivery proof (new NativeAlarmMultiNotifierEventDeliveryTests
in OpcUaServer.IntegrationTests): boots the real server, wires one condition to two
equipment folders, fires ONE transition, and asserts a Server-object subscriber gets
EXACTLY ONE event (the shared-InstanceStateSnapshot queue dedup), plus overlapping
Server + equipment-folder subscribers each get exactly one copy. Captures via the
subscription FastEventCallback keyed by ClientHandle (the per-item Notification/DequeueEvents
path delivers nothing for these conditions in the SDK client — the working capture is the
fast callback).
M2 — resolution-failure signal + path-agreement tripwire (AddressSpaceApplier): when a
native alarm HAS ReferencingEquipmentPaths but NONE resolve to an equipment folder, count
it as a failed node (degraded-apply meter) + LogWarning instead of a silent skip; documented
the DisplayName==Name coupling as a binding invariant. Tests:
Composer_referencing_equipment_paths_resolve_back_to_equipment_ids_in_the_applier (real
composer output → applier inversion) + ..._unresolvable_referencing_equipment_counts_as_failed.
M3 — WireAlarmNotifiers is now a RECONCILE (unwires a folder dropped from the supplied set,
bidirectionally) so a future surgical ChangedRawTags path can't leave a de-referenced
equipment receiving the alarm; binding guard comment added on the classifier's
ChangedRawTags→Rebuild branch. Test: WireAlarmNotifiers_reconciles_a_dropped_folder_out_of_the_notifier_set.
L1 — MaterialiseAlarmCondition's kind-swap drop-and-recreate now calls
UnwireAlarmNotifiers(conditionKey) before discarding the old instance (teardown symmetry).
L3 — BuildEquipmentIdByFolderPath LogWarnings on a duplicate Area/Line/Name collision
(defense-in-depth; UNS uniqueness prevents it).
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Closes the WP3/WP4 boundary seam WP4 flagged: ForwardNativeAlarm (DriverHostActor,
a WP3-owned file WP4 could not edit) built the AlarmTransitionEvent without the
referencing-equipment paths, so the /alerts equipment-list chips WP4 added never
populated in production (would fail live-gate leg 5). The RawTagPlan already carries
ReferencingEquipmentPaths (the Area/Line/Equipment UNS folder paths); this rides them
onto the per-condition alarm meta and into every transition. Coordinator-owned
1-file change (WP3 merged, no parallel agent owns this file this wave).
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Materialize each native alarm ONCE at the raw tag (ConditionId = RawPath, Raw
realm); wire the single condition as an SDK event notifier of each referencing
equipment's UNS folder so one ReportEvent fans to every root without
re-reporting per root (which would break Server-object dedup + Part 9 ack
correlation).
- New sink method WireAlarmNotifiers(alarmNodeId, alarmRealm,
notifierFolderNodeIds, notifierFolderRealm) on IOpcUaAddressSpaceSink,
forwarded through DeferredAddressSpaceSink + SdkAddressSpaceSink +
NullOpcUaAddressSpaceSink (the forwarding-trap guard); auto-covered by the
DeferredSinkForwardingReflectionTests realm + forwarding guards + a
hand-written forward test.
- OtOpcUaNodeManager: the normative AddNotifier(isInverse) pair + idempotent
EnsureFolderIsEventNotifier per equipment folder; tracked per condition in
_alarmNotifierWiring. Teardown symmetry: RemoveNotifier(bidirectional:true) on
RebuildAddressSpace, RemoveAlarmConditionNode, and RemoveEquipmentSubtree so no
inverse-notifier entry leaks across redeploys.
- AddressSpaceApplier.MaterialiseRawSubtree wires notifiers for each native alarm
tag, resolving its ReferencingEquipmentPaths (Area/Line/Equipment) to the
EquipmentId folder NodeIds via BuildEquipmentIdByFolderPath.
- AlarmTransitionEvent gains ReferencingEquipmentPaths (empty default); /alerts
renders the referencing-equipment list as display metadata.
- Un-skipped + rewrote the native-alarm dark tests
(DriverHostActorNativeAlarmTests x6, DriverHostActorNativeAlarmAckRoutingTests
x1) for the v3 raw-condition model; new NodeManagerMultiNotifierAlarmTests
proves multi-notifier wiring + teardown symmetry (no leaked duplicates after a
re-trip) + applier wiring test.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
H1 (HIGH): write-routing key now (AddressSpaceRealm, bareId), not bare-only.
A raw s=<RawPath> and a UNS s=<Area/Line/Equip/Eff> can collide as bare
strings; the bare-only key let a colliding raw+UNS pair route to the WRONG
driver ref (last-writer-wins). The realm the node manager resolves (RealmOf)
is now threaded through IOpcUaNodeWriteGateway.WriteAsync -> RouteNodeWrite ->
_driverRefByNodeId keyed by (realm, bareId). New regression test:
Colliding_raw_and_uns_bare_ids_route_to_their_own_driver_by_realm.
M1 (MEDIUM): discovered-node injection made coherently DORMANT. HandleDiscoveredNodes
hard-short-circuits (single enforcement point; _discoveredByDriver never
populates so the re-inject tail is inert too), with a clear log pointing at the
/raw browse-commit flow. New pin: Discovered_nodes_are_ignored_dormant_in_v3;
the 16+2 v2 injection scenarios re-pointed to an accurate skip reason
(DiscoveryInjectionDormantV3).
M2 (MEDIUM): realm-qualified dual-node self-correction tests —
Failed_uns_write_reverts_uns_node_and_leaves_raw_node_untouched +
Raw_realm_revert_reverts_raw_node_only (the second fails if the realm is dropped).
L1: removed the = AddressSpaceRealm.Uns defaults from the consequential
node-manager mutation methods (WriteValue/WriteAlarmCondition/MaterialiseAlarmCondition/
EnsureFolder/EnsureVariable/UpdateFolderDisplayName/UpdateTagAttributes/
RaiseNodesAddedModelChange/Remove*/RevertOptimisticWriteIfNeeded) + the
AttributeValueUpdate/AlarmStateUpdate records, so the compiler forces explicit
realm; read-only accessors + internal builders retain their defaults.
L3: fixed the stale VirtualTagHostActor class comment (V3NodeIds.Uns, not the
retired EquipmentNodeIds.Variable).
Also: DeploymentArtifactRawUnsParityTests — Raw/UNS node-set byte-parity
round-trip between AddressSpaceComposer.Compose and DeploymentArtifact.ParseComposition.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Wave B of Batch 4 — the runtime binding seam for the dual namespace.
Applier (both realms, explicit realm at every sink call site):
- MaterialiseRawSubtree: Raw containers as folders + Raw tags as variables
keyed by RawPath (native-alarm tag → single Part 9 condition at the RawPath),
all in AddressSpaceRealm.Raw; historian tagname = override else RawPath.
- MaterialiseUnsReferences: each UNS reference Variable under its equipment
folder (Uns realm) + an Organizes UNS->Raw edge; inherits writable/array/
historian tagname from the backing raw tag (both NodeIds -> one tagname).
- FeedHistorizedRefs / ProvisionHistorizedTags now source RAW tags (mux ref
stays single, keyed by RawPath); ApplyPureRemove tears down raw tags + UNS
refs in place (raw-container removal falls back to rebuild).
DriverHostActor (dual-NodeId, single-source fan-out):
- _nodeIdByDriverRef value gains a realm (NodeRealmRef); rebuilt from
RawTags UNION UnsReferenceVariables so one (DriverInstanceId, RawPath) fans
to the raw NodeId AND every referencing UNS NodeId with identical
value/quality/timestamp. Write inverse map keyed by the bare id; the
ns-qualified NodeId the write hook passes is normalised (BareNodeId) so a
write to either NodeId resolves the same driver ref (-> RawPath write).
- Native raw alarm condition routing is realm-tagged (Raw); AttributeValueUpdate
+ AlarmStateUpdate carry the realm through to the sink.
Retire EquipmentNodeIds -> V3NodeIds.Uns (applier/VirtualTagHostActor) and
RawPaths.Combine (DiscoveredNodeMapper, discovered nodes are Raw now).
DeploymentArtifact.ParseComposition emits the Raw + UNS subtrees byte-parity
with the composer (reconstruct entities -> AddressSpaceComposer.Compose).
Sink surface: removed the transitional `= AddressSpaceRealm.Uns` defaults from
IOpcUaAddressSpaceSink / ISurgicalAddressSpaceSink / SdkAddressSpaceSink /
DeferredAddressSpaceSink / NullOpcUaAddressSpaceSink — every call site is now
explicit (realm reordered before the trailing optionals on EnsureVariable +
MaterialiseAlarmCondition). Node-manager convenience methods keep their
defaults (they are not the interface impl; Sdk delegates explicitly).
Tests: rewrote DriverHostActorLiveValueTests (fan-out drift, 1:N) +
DriverHostActorWriteRoutingTests (dual-NodeId raw/uns write routing) to the v3
raw+uns model; new AddressSpaceApplierRawUnsTests; migrated the EquipmentTags
provisioning/feed tests to RawTags; swept EquipmentNodeIds test callers.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Close the Wave-A M1 gap: the sink surface had no way to wire the mandated
cross-tree Organizes reference from each UNS reference Variable to its backing
Raw node, forcing WP3 to reopen the frozen surface. Add a dedicated
realm-qualified AddReference method instead.
- IOpcUaAddressSpaceSink.AddReference(sourceNodeId, sourceRealm, targetNodeId,
targetRealm, referenceType="Organizes"): realm-qualified both ends; idempotent;
a missing endpoint is a logged no-op (never throws) so a mid-rebuild race can't
fault a deploy. Base-interface capability (no surgical sniff, no transitional
default — WP3 wires it explicitly per UNS reference variable).
- SdkAddressSpaceSink forwards to the node manager; DeferredAddressSpaceSink
forwards unconditionally (like EnsureFolder); NullOpcUaAddressSpaceSink no-ops.
- OtOpcUaNodeManager.AddReference: resolve both nodes by full ns-qualified key
(variable/folder/condition via ResolveNodeState), guard both-exist, then wire
the edge bidirectionally (forward Organizes on source, inverse on target) with a
ReferenceExists idempotency guard + ClearChangeMasks on mutated sides. Reference
type resolved by ResolveReferenceType (Organizes default). Added internal
GetNodeReferences test/diagnostic accessor.
- Reflection guard: the exhaustive-forwarding test + the realm-discriminator guard
auto-cover AddReference (it has two AddressSpaceRealm params) — no edit needed.
- New SdkAddressSpaceSinkTests: Organizes UNS→Raw edge created bidirectionally +
idempotent; missing endpoint is a safe no-op.
- All 15 IOpcUaAddressSpaceSink test doubles gain the AddReference no-op so the
solution still builds.
Build: dotnet build ZB.MOM.WW.OtOpcUa.slnx = 0 errors.
Tests: Commons.Tests 310/310; OpcUaServer.Tests 337 passed / 4 pre-existing skips.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Register both v3 namespaces (Raw first, UNS second) on OtOpcUaNodeManager and
thread an AddressSpaceRealm discriminator through every node-naming sink method
so a bare node id is resolved to the correct namespace by realm — never parsed
out of the id string.
- IOpcUaAddressSpaceSink / ISurgicalAddressSpaceSink: every node-naming method
gains `AddressSpaceRealm realm = AddressSpaceRealm.Uns` (transitional default so
un-migrated WP3 call sites still compile; WP3/Wave B makes them explicit and
removes the default). Null + SdkAddressSpaceSink impls updated; DeferredAddress-
SpaceSink forwards realm through every method (the forwarding trap).
- DeferredSinkForwardingReflectionTests: existing exhaustive-forwarding guard
auto-covers the new signatures; added an explicit guard that every node-naming
sink method carries an AddressSpaceRealm parameter (RebuildAddressSpace exempt).
- OtOpcUaNodeManager: register RawNamespaceUri + UnsNamespaceUri; realm->namespace
index via NamespaceIndexForRealm; all node maps (_variables/_folders/
_alarmConditions/_nativeAlarmNodeIds/_historizedTagnames/_eventNotifierSources)
re-keyed by the full ns-qualified NodeId string so Raw and UNS nodes sharing a
bare id stay distinct; _notifierFolders already NodeId-keyed. A historized UNS
reference node registers the SAME historian tagname as its backing raw node
(both NodeIds -> one tagname). Inbound-write hook routes the full ns-qualified
NodeId to the write gateway (realm-aware) and reverts by bare id + realm.
HistoryRead seams resolve via NodeId directly. DefaultNamespaceUri kept as a
transitional alias to UnsNamespaceUri for the SubscriptionSurvivalTests.
- Test doubles across Commons.Tests / OpcUaServer.Tests / Runtime.Tests updated to
the new interface signatures; SdkAddressSpaceSinkTests asserts the UNS namespace
index for default-realm nodes.
Build: dotnet build ZB.MOM.WW.OtOpcUa.slnx = 0 errors.
Tests: Commons.Tests 310/310; OpcUaServer.Tests 335 passed / 4 pre-existing skips.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Un-darken the address-space composition for the v3 dual namespace.
Composer (AddressSpaceComposer):
- Raw subtree: RawContainerNode (Folder/Driver/Device/TagGroup as
Object/Folder nodes, keyed s=<RawPath>, parent-before-child) + RawTagPlan
(raw tag Variables keyed (realm=Raw, s=<RawPath>) carrying DataType /
writable / historize+historian tagname / array shape). Native-alarm intent
attaches at the RAW tag (ConditionId = RawPath) with the list of referencing
equipment UNS paths (one alarm at the raw tag, not one per equipment).
- UNS subtree: UnsReferenceVariable per UnsTagReference, keyed
(realm=Uns, s=<Area>/<Line>/<Equipment>/<EffectiveName>), carrying its
backing RawPath (Organizes UNS->Raw target + fan-out) and inheriting
DataType/AccessLevel from the backing raw tag. Effective name =
DisplayNameOverride else backing raw Tag.Name.
- All RawPaths flow through one shared RawTopology (RawPathResolver +
memoised container paths), byte-parity with EquipmentReferenceMap.
- Every new node carries an AddressSpaceRealm (so WP3's applier picks the
namespace at the call site). Additive/defaulted model changes only — the
un-migrated AddressSpaceApplier still compiles.
Planner (AddressSpacePlanner.Compute) + AddressSpacePlan:
- Per-realm diff sets: RawContainers + RawTags keyed by RawPath (NodeId) so a
rename = remove+add; UnsReferenceVariables keyed by the stable
UnsTagReferenceId so a backing-tag rename re-points (BackingRawPath moves,
NodeId stable) and a display-name-override edit is UNS-only.
- PINNED: raw-tag rename = remove+add in Raw AND re-point in UNS.
Classifier folds the new sets in (adds->PureAdd, removes->PureRemove,
changed->Rebuild safe default).
Tests: AddressSpaceComposerDualNamespaceTests (7),
AddressSpacePlannerDualNamespaceTests (8, incl. the rename pin),
AddressSpaceChangeClassifierDualNamespaceTests (8); reactivated
EquipmentNamespaceMaterializationTests' Batch-4-pending case, re-authored to
drive the composer over the seeded config (the artifact-decode seam is WP3).
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
Batch 4 contracts commit (coordinator lands before Wave A fan-out). Purely
additive so wave agents branch from a green base:
- AddressSpaceRealm enum (Raw | Uns) — the explicit realm discriminator that
travels alongside a node's s= identifier at every sink seam (WP2 adds it to
IOpcUaAddressSpaceSink / ISurgicalAddressSpaceSink; WP3 threads it).
- V3NodeIds — the two namespace URI constants (https://zb.com/otopcua/raw,
https://zb.com/otopcua/uns, replacing the single .../ns) + Raw() pass-through
(s= id == RawPath) + Uns()/UnsChild() slash-joined Area/Line/Equipment[/Eff]
builders, both sharing RawPaths.Separator + ordinal segment validation.
Placement note: URIs live in V3NodeIds (Commons) rather than beside the retired
OtOpcUaNodeManager.DefaultNamespaceUri so runtime + tests reference them without
depending on OpcUaServer (single-source-of-truth, §5). WP2 rewires the node
manager to register both via V3NodeIds.RawNamespaceUri/UnsNamespaceUri.
EquipmentNodeIds retirement is NOT in this commit: its callers are the applier +
runtime (DriverHostActor/VirtualTagHostActor/DiscoveredNodeMapper), all WP3-owned
(the composer does not use it) — deleting it here would red the base. WP3 sweeps
it in Wave B.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox