c5915700bd
OneShotShelve / TimedShelve / Unshelve now reach the ScriptedAlarmEngine. Scripted-alarm condition nodes get a ShelvedStateMachine subtree created before alarm.Create so the stack wires each shelve method's dispatch handler; AlarmConditionState.OnShelve / OnTimedUnshelve route to the engine and mirror the result onto the OPC UA node via SetShelvingState. The three per-instance shelve method NodeIds are indexed so the Call gate resolves them to OpcUaOperation.AlarmShelve instead of falling through to generic Call. Engine dispatch is split into the node-free InvokeEngineShelve so the routing decision is unit-testable. Adds 9 unit tests; updates phase-7-status.md Gap 1 (only AddComment remains unwired) and the #24 entry in looseends.md. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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Loose ends
State as of 2026-05-18, after the #9–#29 task-list run. Everything on the formal task list is shipped except #20; the items below are what genuinely remains, plus follow-ups surfaced during the run.
Open task
- #20 — D.1 dev-rig rollout smoke. A full 3-service deployment
(gateway + worker + server + Wonderware historian sidecar): deploy the
refreshed binaries, run
scripts/install/Refresh-Services.ps1, exercise alarms end-to-end, and capture the rollout artifact. The code blockers were cleared by #18; the act itself needs the physical AVEVA dev rig and cannot be produced from a dev box. Runbook context indocs/plans/alarms-worker-wiring-plan.md.
Follow-ups surfaced during the run
-
C.1 live SDK binding.
SdkAlarmHistorianWriteBackend.WriteBatchAsync(src/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Historian.Wonderware/Backend/) is still a placeholder returningRetryPleasefor every event, so queued alarm events are retained rather than written. Pinning the realaahClientManagedalarm-write entry point is rig-gated — pairs with #20. -
#24 Shelve-method routing.DONE. Acknowledge / Confirm already routed; OneShotShelve / TimedShelve / Unshelve now route via the nativeAlarmConditionState.OnShelve/OnTimedUnshelvehooks wired inDriverNodeManager.MarkAsAlarmCondition(scripted alarms get a shelvableShelvedStateMachinesubtree created beforealarm.Create). The three per-instance shelve method NodeIds are indexed so the Call gate resolves them toOpcUaOperation.AlarmShelve. Remaining: address-space materialisation of the shelve method nodes is best confirmed by a live OPC UA browse (pairs with the G6 / D.1 rig steps).AddCommentis still not wired to an OPC UA method node — seephase-7-status.mdGap 1. -
mxaccessgw alarm epic branch. The alarm subsystem work (A.2/A.3/A.4
- the two production-gap fixes from #18) lives on the mxaccessgw branch
docs/alarm-client-wm-app-finding. It is NOT merged to mxaccessgw's main. Whether/when to merge the alarm epic to main is an open release decision.
- the two production-gap fixes from #18) lives on the mxaccessgw branch
-
#15 operator/lab GA gates. Two v2 GA gates are manual lab steps, not automatable here: the OPC UA CTT (Compliance Test Tool) pass and the deployment-checklist signoff. Documented in
docs/plans/v2-ga-lab-gates-plan.md.
Done — for reference
The 5 Phase 7 gaps discovered mid-run (#24–#28) were all completed and merged; no Phase 7 gaps remain open. Add any new follow-ups above as they are spun out.