Replace the deleted equipment-base-prefix {{equip}} mechanism (impossible now
that equipment is reference-only) with per-reference resolution:
{{equip}}/<RefName> resolves through the owning equipment's UnsTagReference rows
(by effective name) to the backing raw tag's RawPath. Every unresolved <RefName>
is a clear deploy error + authoring rejection + Monaco diagnostic — preserving
"editor accepts <=> publish accepts".
Commons:
- EquipmentScriptPaths: delete DeriveEquipmentBase; SubstituteEquipmentToken now
takes the equipment's reference map (effectiveName -> RawPath) and substitutes
{{equip}}/<RefName> inside path literals (unresolved left intact, never throws);
add ExtractEquipReferenceNames (path-literal scoped) +
ExtractEquipReferenceNamesFromText (message templates). Slash syntax replaces
the v2 dot joint.
- New EquipmentReferenceMap: shared, input-shape-agnostic builder (entity + JSON
sides) over RawPathResolver — the single authority both compose seams + the
validator use, so resolved RawPaths agree byte-for-byte.
Compose seams (byte-parity kept):
- AddressSpaceComposer.Compose + DeploymentArtifact.ParseComposition both build
the per-equipment reference map from UnsTagReferences + Tags + raw topology and
substitute VirtualTag AND ScriptedAlarm-predicate sources before dependency
extraction (runtime dep refs = resolved RawPaths).
Deploy gate + authoring + editor:
- DraftValidator.ValidateEquipReferenceResolution: EquipReferenceUnresolved error
for unresolved {{equip}}/<RefName> in VirtualTag/ScriptedAlarm scripts + alarm
message-template tokens (naming script, equipment, missing ref).
- UnsTreeService.ValidateEquipTokenAsync (Wave-A M1): reference-relative authoring
rejection, replacing the stale DeriveEquipmentBase(empty)->reject-all logic.
- ScriptAnalysisService: {{equip}}/ completion offers the equipment's reference
effective names; DiagnoseAsync flags unresolved refs (OTSCRIPT_EQUIPREF) same as
the deploy gate. Requests carry optional EquipmentId (threaded MonacoEditor ->
monaco-init.js -> fetch bodies). IScriptTagCatalog.GetEquipmentRelativeLeavesAsync
repurposed to GetEquipmentReferenceNamesAsync(equipmentId, filter).
Tests: EquipmentScriptPaths substitution/extraction (slash pinned); composer<->
artifact reference-resolution byte-parity; DraftValidator unresolved-ref;
ScriptAnalysis completion+diagnostic; M1 authoring gate. Build clean (0/0); all
five affected suites green.
Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
OtOpcUa
OPC UA server (.NET 10 AnyCPU) that exposes a fleet of industrial drivers as a single OPC UA address space. Drivers ship in-process for AVEVA System Platform Galaxy (via the sibling mxaccessgw repo), Modbus TCP, Siemens S7, Allen-Bradley CIP (ControlLogix / CompactLogix), Allen-Bradley Legacy (SLC 500 / MicroLogix), Beckhoff TwinCAT (ADS), FANUC FOCAS, and OPC UA Client (gateway).
A cross-platform client stack (.NET 10) — shared library, CLI, and Avalonia desktop app — connects to any OPC UA server.
Architecture
OPC UA Clients (CLI, Desktop UI, 3rd-party)
|
v
+-------------------------------------+
| OtOpcUa.Server (.NET 10 AnyCPU) |
| address space + capability fan-out|
+-------------------------------------+
| | | | | | | |
Galaxy Modbus S7 AbCip AbLeg TwinCAT FOCAS OpcUaClient
|
v
mxaccessgw (sibling repo, gRPC)
|
v
MXAccess COM (x86 worker, on AVEVA box)
Galaxy is the only driver with an external runtime: it speaks gRPC to a separately installed mxaccessgw server (sibling repo at c:\Users\dohertj2\Desktop\mxaccessgw\) which owns the MXAccess COM apartment and the x86/STA bitness constraint server-side. Everything in this repo is platform-agnostic .NET 10.
Prerequisites
- .NET 10 SDK (server, drivers, clients all target .NET 10)
- SQL Server reachable for the central config DB
- For Galaxy specifically: a running
mxaccessgwdeployment — see docs/v2/Galaxy.ParityRig.md - For historian read-back / alarm history / continuous historization: a running
ZB.MOM.WW.HistorianGatewaydeployment (the sole historian backend; consumed as theZB.MOM.WW.HistorianGateway.ClientgRPC package). It must runRuntimeDb:Enabled=true+RuntimeDb:EventReadsEnabled=true, and the API key must carryhistorian:read+historian:write+historian:tags:writescopes.
Quick Start
dotnet restore ZB.MOM.WW.OtOpcUa.slnx
dotnet build ZB.MOM.WW.OtOpcUa.slnx
dotnet test ZB.MOM.WW.OtOpcUa.slnx
# Run the server in dev (foreground)
dotnet run --project src/Server/ZB.MOM.WW.OtOpcUa.Host
The server starts on opc.tcp://localhost:4840 with the None security profile. Configure Security.Profiles in src/Server/ZB.MOM.WW.OtOpcUa.Host/appsettings.json to enable Basic256Sha256-Sign or Basic256Sha256-SignAndEncrypt. See docs/security.md.
Install as Windows Services
Production deployment is driven by scripts/install/Install-Services.ps1, which registers the OtOpcUa server service under a chosen service account. Historian support requires a separately deployed ZB.MOM.WW.HistorianGateway and Galaxy support a separately installed mxaccessgw — neither this repo nor the install script provisions them.
.\scripts\install\Install-Services.ps1 `
-InstallRoot 'C:\Program Files\OtOpcUa' `
-ServiceAccount 'DOMAIN\svc-otopcua'
The historian backend is the external ZB.MOM.WW.HistorianGateway (not installed by this script). See the script header and docs/ServiceHosting.md for full options.
Client CLI
dotnet run --project src/Client/ZB.MOM.WW.OtOpcUa.Client.CLI -- connect -u opc.tcp://localhost:4840
dotnet run --project src/Client/ZB.MOM.WW.OtOpcUa.Client.CLI -- browse -u opc.tcp://localhost:4840 -r -d 3
dotnet run --project src/Client/ZB.MOM.WW.OtOpcUa.Client.CLI -- read -u opc.tcp://localhost:4840 -n "ns=2;s=SomeNode"
dotnet run --project src/Client/ZB.MOM.WW.OtOpcUa.Client.CLI -- write -u opc.tcp://localhost:4840 -n "ns=2;s=SomeNode" -v 42
dotnet run --project src/Client/ZB.MOM.WW.OtOpcUa.Client.CLI -- subscribe -u opc.tcp://localhost:4840 -n "ns=2;s=SomeNode" -i 500
See docs/Client.CLI.md and docs/Client.UI.md.
Documentation
Architecture deep-dives
| Topic | Doc |
|---|---|
| OPC UA server composition, namespace fan-out, Polly invoker | docs/OpcUaServer.md |
| Address space layout | docs/AddressSpace.md |
| Read / Write dispatch (driver vs virtual vs scripted-alarm) | docs/ReadWriteOperations.md |
| Incremental sync (driver-backend rediscovery + config publishes) | docs/IncrementalSync.md |
| Service hosting (Server + Admin; external HistorianGateway backend) | docs/ServiceHosting.md |
| Security (transport, LDAP, certificates) | docs/security.md |
| Redundancy | docs/Redundancy.md |
| Status dashboard | docs/StatusDashboard.md |
Drivers
| Topic | Doc |
|---|---|
| Driver specs (per-driver capability surface, config, addressing) | docs/v2/driver-specs.md |
| Galaxy driver | docs/drivers/Galaxy.md |
| Modbus / S7 / AbCip / AbLegacy / TwinCAT / FOCAS / OpcUaClient | docs/drivers/ |
| Galaxy parity rig (mxaccessgw setup) | docs/v2/Galaxy.ParityRig.md |
| Galaxy performance + tracing | docs/v2/Galaxy.Performance.md |
Clients
| Topic | Doc |
|---|---|
| Client CLI | docs/Client.CLI.md |
| Client UI (Avalonia desktop) | docs/Client.UI.md |
v1 archive
The original v1 in-process MXAccess docs (Galaxy.Host topology, Configuration env vars, AlarmTracking, DataTypeMapping, HistoricalDataAccess, Subscriptions, etc.) are preserved under docs/v1/ — historical reference only. PR 7.2 retired the v1 architecture on 2026-04-30; current state is documented in the sections above.
License
Internal use only.