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phase-3-pr65-s7-discovery-subscribe-probe
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Joseph Doherty d8ef35d5bd Phase 3 PR 65 -- S7 ITagDiscovery + ISubscribable polling overlay + IHostConnectivityProbe. Three more capability interfaces on S7Driver, matching the Modbus driver's capability coverage. ITagDiscovery: DiscoverAsync streams every configured tag into IAddressSpaceBuilder under a single 'S7' folder; builder.Variable gets a DriverAttributeInfo carrying DriverDataType (MapDataType: Bool->Boolean, Byte/Int/UInt sizes->Int32 (until Core.Abstractions adds widths), Float32/Float64 direct, String + DateTime direct), SecurityClass (Operate if tag.Writable else ViewOnly -- matches the Modbus pattern so DriverNodeManager's ACL layer can gate writes per role without S7-specific logic), IsHistorized=false (S7 has no native historian surface), IsAlarm=false (S7 alarms land through TIA Portal's alarm-in-DB pattern which is per-site and out of scope for PR 65). ISubscribable polling overlay: same pattern Modbus established in PR 22. SubscribeAsync spawns a Task.Run loop that polls every tag, diffs against LastValues, raises OnDataChange on changes plus a force-raise on initial-data push per OPC UA Part 4 convention. Interval floored at 100ms -- S7 CPUs scan 2-10ms but process the comms mailbox at most once per scan, so sub-scan polling just queues wire-side with worse latency per S7netplus documented pattern. Poll errors tolerated: first-read fault doesn't kill the loop (caller can't receive initial values but subsequent polls try again); transient poll errors also swallowed so the loop survives a power-cycle + reconnect through the health surface. UnsubscribeAsync cancels the CTS + removes the subscription -- unknown handle is a no-op, not a throw, because the caller's race with server-side cleanup shouldn't crash either side. Shutdown tears down every subscription before disposing the Plc. IHostConnectivityProbe: HostName surfaced as host:port to match Modbus driver convention (Admin /hosts dashboard renders both families uniformly). GetHostStatuses returns one row (single-endpoint driver). ProbeLoopAsync serializes on the shared Gate + calls Plc.ReadStatusAsync (cheap Get-CPU-Status PDU that doubles as an 'is PLC up' check) every Probe.Interval with a Probe.Timeout cap, transitions HostState Unknown/Stopped -> Running on success and -> Stopped on any failure, raises OnHostStatusChanged only on actual transitions (no noise for steady-state probes). Probe loop starts at end of InitializeAsync when Probe.Enabled=true (default); Shutdown cancels the probe CTS. Initial state stays Unknown until first successful probe -- avoids broadcasting a premature Running before any PDU round-trip has happened. Unit tests (S7DiscoveryAndSubscribeTests, 4 facts): DiscoverAsync_projects_every_tag_into_the_address_space (3 tags + mixed writable/read-only -> Operate vs ViewOnly asserted), GetHostStatuses_returns_one_row_with_host_port_identity_pre_init, SubscribeAsync_returns_unique_handles_and_UnsubscribeAsync_accepts_them (diagnosticId uniqueness + idempotent double-unsubscribe), Subscribe_publishing_interval_is_floored_at_100ms (accepts 50ms request without throwing -- floor is applied internally). Uses a RecordingAddressSpaceBuilder stub that implements IVariableHandle.FullReference + MarkAsAlarmCondition (throws NotImplementedException since the S7 driver never calls it -- alarms out of scope). 57/57 S7 unit tests pass. dotnet build clean. All 5 capability interfaces (IDriver/ITagDiscovery/IReadable/IWritable/ISubscribable/IHostConnectivityProbe) now implemented -- the S7 driver surface is on par with the Modbus driver, minus the extended data types (Int64/UInt64/Float64/String/DateTime deferred per PR 64).
2026-04-19 00:16:10 -04:00
docs
Phase 2 PR 61 -- Close V1_ARCHIVE_STATUS.md; Phase 2 Streams D + E done. Purely a documentation-closure PR. The v1 archive deletion itself happened across earlier PRs: PR 2 on phase-2-stream-d archive-marked the four v1 projects (IsTestProject=false so dotnet test slnx bypassed them); Phase 3 PR 18 deleted the archived project source trees. What remained on disk was stale bin/obj residue from pre-deletion builds -- git never tracked those, so removing them from the working tree is cosmetic only (no source-file diff in this PR). What this PR actually changes: V1_ARCHIVE_STATUS.md is rewritten from 'Deletion plan (Phase 2 PR 3)' pre-work prose to a CLOSED retrospective that (a) lists all five v1 directories as deleted with check-marks (src/OtOpcUa.Host, src/Historian.Aveva, tests/Historian.Aveva.Tests, tests/Tests.v1Archive, tests/IntegrationTests), (b) names the parity-bar tests that now fill the role the 494 v1 tests originally held (Driver.Galaxy.E2E cross-FX subprocess parity + stability-findings regression, per-component *.Tests projects, Driver.Modbus.IntegrationTests, LiveStack/ smoke tests), and (c) gives the closure timeline connecting PR 2 -> Phase 3 PR 18 -> this PR 61. Also added the Modbus TCP driver family as parity coverage that didn't exist in v1 (DL205 + S7-1500 + Mitsubishi MELSEC via pymodbus sim). Stream D (retire legacy Host) has been effectively done since Phase 3 PR 18; Stream E (parity validation) is done since PR 2 landed the Driver.Galaxy.E2E project with HostSubprocessParityTests + HierarchyParityTests + StabilityFindingsRegressionTests. This PR exists to definitively close the two pending Phase 2 tasks on the task list and give future-me (or anyone picking up Phase 2 retrospectives) a single 'what actually happened' doc instead of a 'what we plan to do' prose that didn't match reality. dotnet build ZB.MOM.WW.OtOpcUa.slnx: 0 errors, 200 warnings (all xunit1051 cancellation-token analyzer advisories, unchanged from v2 tip). No test regressions -- no source code changed.
2026-04-18 23:20:54 -04:00
gr
Track Galaxy Platform and AppEngine runtime state via ScanState probes and proactively invalidate descendant variable quality on Stopped transitions so operators can detect a stopped runtime host before downstream clients read stale data and so the bridge delivers a uniform bad-quality signal instead of relying on MxAccess per-tag fan-out
2026-04-13 15:40:44 -04:00
lib
Migrate historian from SQL to aahClientManaged SDK and resolve all OPC UA Part 11 gaps
2026-04-06 16:38:00 -04:00
scripts
Phase 2 Stream D progress — non-destructive deliverables: appsettings → DriverConfig migration script, two-service Windows installer scripts, process-spawn cross-FX parity test, Stream D removal procedure doc with both Option A (rewrite 494 v1 tests) and Option B (archive + new v2 E2E suite) spelled out step-by-step. Cannot one-shot the actual legacy-Host deletion in any unattended session — explained in the procedure doc; the parity-defect debug cycle is intrinsically interactive (each iteration requires inspecting a v1↔v2 diff and deciding if it's a legitimate v2 improvement or a regression, then either widening the assertion or fixing the v2 code), and git rm -r src/ZB.MOM.WW.OtOpcUa.Host is destructive enough to need explicit operator authorization on a real PR review. scripts/migration/Migrate-AppSettings-To-DriverConfig.ps1 takes a v1 appsettings.json and emits the v2 DriverInstance.DriverConfig JSON blob (MxAccess/Database/Historian sections) ready to upsert into the central Configuration DB; null-leaf stripping; -DryRun mode; smoke-tested against the dev appsettings.json and produces the expected three-section ordered-dictionary output. scripts/install/Install-Services.ps1 registers the two v2 services with sc.exe — OtOpcUaGalaxyHost first (net48 x86 EXE with OTOPCUA_GALAXY_PIPE/OTOPCUA_ALLOWED_SID/OTOPCUA_GALAXY_SECRET/OTOPCUA_GALAXY_BACKEND/OTOPCUA_GALAXY_ZB_CONN/OTOPCUA_GALAXY_CLIENT_NAME env vars set via HKLM:\SYSTEM\CurrentControlSet\Services\OtOpcUaGalaxyHost\Environment registry), then OtOpcUa with depend=OtOpcUaGalaxyHost; resolves down-level account names to SID for the IPC ACL; generates a fresh 32-byte base64 shared secret per install if not supplied (kept out of registry — operators record offline for service rebinding scenarios); echoes start commands. scripts/install/Uninstall-Services.ps1 stops + removes both services. tests/ZB.MOM.WW.OtOpcUa.Driver.Galaxy.Proxy.Tests/HostSubprocessParityTests.cs is the production-shape parity test — Proxy (.NET 10) spawns the actual OtOpcUa.Driver.Galaxy.Host.exe (net48 x86) as a subprocess via Process.Start with backend=db env vars, connects via real named pipe, calls Discover, asserts at least one Galaxy gobject comes back. Skipped when running as Administrator (PipeAcl denies admins, same guard as other IPC integration tests), when the Host EXE hasn't been built, or when the ZB SQL endpoint is unreachable. This is the cross-FX integration that the parity suite genuinely needs — the previous IPC tests all ran in-process; this one validates the production deployment topology where Proxy and Host are separate processes communicating only over the named pipe. docs/v2/implementation/stream-d-removal-procedure.md is the next-session playbook: Option A (rewrite 494 v1 tests via a ProxyMxAccessClientAdapter that implements v1's IMxAccessClient by forwarding to GalaxyProxyDriver — Vtq↔DataValueSnapshot, Quality↔StatusCode, OnTagValueChanged↔OnDataChange mapping; 3-5 days, full coverage), Option B (rename OtOpcUa.Tests → OtOpcUa.Tests.v1Archive with [Trait("Category", "v1Archive")] for opt-in CI runs; new OtOpcUa.Driver.Galaxy.E2E test project with 10-20 representative tests via the HostSubprocessParityTests pattern; 1-2 days, accreted coverage); deletion checklist with eight pre-conditions, ten ordered steps, and a rollback path (git revert restores the legacy Host alongside the v2 stack — both topologies remain installable until the downstream consumer cutover). Full solution 964 pass / 1 pre-existing Phase 0 baseline; the 494 v1 IntegrationTests + 6 v1 IntegrationTests-net48 still pass because legacy OtOpcUa.Host stays untouched until an interactive session executes the procedure doc.
2026-04-18 00:38:44 -04:00
src
Phase 3 PR 65 -- S7 ITagDiscovery + ISubscribable polling overlay + IHostConnectivityProbe. Three more capability interfaces on S7Driver, matching the Modbus driver's capability coverage. ITagDiscovery: DiscoverAsync streams every configured tag into IAddressSpaceBuilder under a single 'S7' folder; builder.Variable gets a DriverAttributeInfo carrying DriverDataType (MapDataType: Bool->Boolean, Byte/Int/UInt sizes->Int32 (until Core.Abstractions adds widths), Float32/Float64 direct, String + DateTime direct), SecurityClass (Operate if tag.Writable else ViewOnly -- matches the Modbus pattern so DriverNodeManager's ACL layer can gate writes per role without S7-specific logic), IsHistorized=false (S7 has no native historian surface), IsAlarm=false (S7 alarms land through TIA Portal's alarm-in-DB pattern which is per-site and out of scope for PR 65). ISubscribable polling overlay: same pattern Modbus established in PR 22. SubscribeAsync spawns a Task.Run loop that polls every tag, diffs against LastValues, raises OnDataChange on changes plus a force-raise on initial-data push per OPC UA Part 4 convention. Interval floored at 100ms -- S7 CPUs scan 2-10ms but process the comms mailbox at most once per scan, so sub-scan polling just queues wire-side with worse latency per S7netplus documented pattern. Poll errors tolerated: first-read fault doesn't kill the loop (caller can't receive initial values but subsequent polls try again); transient poll errors also swallowed so the loop survives a power-cycle + reconnect through the health surface. UnsubscribeAsync cancels the CTS + removes the subscription -- unknown handle is a no-op, not a throw, because the caller's race with server-side cleanup shouldn't crash either side. Shutdown tears down every subscription before disposing the Plc. IHostConnectivityProbe: HostName surfaced as host:port to match Modbus driver convention (Admin /hosts dashboard renders both families uniformly). GetHostStatuses returns one row (single-endpoint driver). ProbeLoopAsync serializes on the shared Gate + calls Plc.ReadStatusAsync (cheap Get-CPU-Status PDU that doubles as an 'is PLC up' check) every Probe.Interval with a Probe.Timeout cap, transitions HostState Unknown/Stopped -> Running on success and -> Stopped on any failure, raises OnHostStatusChanged only on actual transitions (no noise for steady-state probes). Probe loop starts at end of InitializeAsync when Probe.Enabled=true (default); Shutdown cancels the probe CTS. Initial state stays Unknown until first successful probe -- avoids broadcasting a premature Running before any PDU round-trip has happened. Unit tests (S7DiscoveryAndSubscribeTests, 4 facts): DiscoverAsync_projects_every_tag_into_the_address_space (3 tags + mixed writable/read-only -> Operate vs ViewOnly asserted), GetHostStatuses_returns_one_row_with_host_port_identity_pre_init, SubscribeAsync_returns_unique_handles_and_UnsubscribeAsync_accepts_them (diagnosticId uniqueness + idempotent double-unsubscribe), Subscribe_publishing_interval_is_floored_at_100ms (accepts 50ms request without throwing -- floor is applied internally). Uses a RecordingAddressSpaceBuilder stub that implements IVariableHandle.FullReference + MarkAsAlarmCondition (throws NotImplementedException since the S7 driver never calls it -- alarms out of scope). 57/57 S7 unit tests pass. dotnet build clean. All 5 capability interfaces (IDriver/ITagDiscovery/IReadable/IWritable/ISubscribable/IHostConnectivityProbe) now implemented -- the S7 driver surface is on par with the Modbus driver, minus the extended data types (Int64/UInt64/Float64/String/DateTime deferred per PR 64).
2026-04-19 00:16:10 -04:00
tests
Phase 3 PR 65 -- S7 ITagDiscovery + ISubscribable polling overlay + IHostConnectivityProbe. Three more capability interfaces on S7Driver, matching the Modbus driver's capability coverage. ITagDiscovery: DiscoverAsync streams every configured tag into IAddressSpaceBuilder under a single 'S7' folder; builder.Variable gets a DriverAttributeInfo carrying DriverDataType (MapDataType: Bool->Boolean, Byte/Int/UInt sizes->Int32 (until Core.Abstractions adds widths), Float32/Float64 direct, String + DateTime direct), SecurityClass (Operate if tag.Writable else ViewOnly -- matches the Modbus pattern so DriverNodeManager's ACL layer can gate writes per role without S7-specific logic), IsHistorized=false (S7 has no native historian surface), IsAlarm=false (S7 alarms land through TIA Portal's alarm-in-DB pattern which is per-site and out of scope for PR 65). ISubscribable polling overlay: same pattern Modbus established in PR 22. SubscribeAsync spawns a Task.Run loop that polls every tag, diffs against LastValues, raises OnDataChange on changes plus a force-raise on initial-data push per OPC UA Part 4 convention. Interval floored at 100ms -- S7 CPUs scan 2-10ms but process the comms mailbox at most once per scan, so sub-scan polling just queues wire-side with worse latency per S7netplus documented pattern. Poll errors tolerated: first-read fault doesn't kill the loop (caller can't receive initial values but subsequent polls try again); transient poll errors also swallowed so the loop survives a power-cycle + reconnect through the health surface. UnsubscribeAsync cancels the CTS + removes the subscription -- unknown handle is a no-op, not a throw, because the caller's race with server-side cleanup shouldn't crash either side. Shutdown tears down every subscription before disposing the Plc. IHostConnectivityProbe: HostName surfaced as host:port to match Modbus driver convention (Admin /hosts dashboard renders both families uniformly). GetHostStatuses returns one row (single-endpoint driver). ProbeLoopAsync serializes on the shared Gate + calls Plc.ReadStatusAsync (cheap Get-CPU-Status PDU that doubles as an 'is PLC up' check) every Probe.Interval with a Probe.Timeout cap, transitions HostState Unknown/Stopped -> Running on success and -> Stopped on any failure, raises OnHostStatusChanged only on actual transitions (no noise for steady-state probes). Probe loop starts at end of InitializeAsync when Probe.Enabled=true (default); Shutdown cancels the probe CTS. Initial state stays Unknown until first successful probe -- avoids broadcasting a premature Running before any PDU round-trip has happened. Unit tests (S7DiscoveryAndSubscribeTests, 4 facts): DiscoverAsync_projects_every_tag_into_the_address_space (3 tags + mixed writable/read-only -> Operate vs ViewOnly asserted), GetHostStatuses_returns_one_row_with_host_port_identity_pre_init, SubscribeAsync_returns_unique_handles_and_UnsubscribeAsync_accepts_them (diagnosticId uniqueness + idempotent double-unsubscribe), Subscribe_publishing_interval_is_floored_at_100ms (accepts 50ms request without throwing -- floor is applied internally). Uses a RecordingAddressSpaceBuilder stub that implements IVariableHandle.FullReference + MarkAsAlarmCondition (throws NotImplementedException since the S7 driver never calls it -- alarms out of scope). 57/57 S7 unit tests pass. dotnet build clean. All 5 capability interfaces (IDriver/ITagDiscovery/IReadable/IWritable/ISubscribable/IHostConnectivityProbe) now implemented -- the S7 driver surface is on par with the Modbus driver, minus the extended data types (Int64/UInt64/Float64/String/DateTime deferred per PR 64).
2026-04-19 00:16:10 -04:00
_p54.json
Phase 3 PR 56 -- Siemens S7-1500 pymodbus profile + smoke integration test. Adds tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/Pymodbus/s7_1500.json modelling the SIMATIC S7-1500 + MB_SERVER default deployment documented in docs/v2/s7.md: DB1.DBW0 = 0xABCD fingerprint marker (operators reserve this so clients can verify they're talking to the right DB), scratch HR range 200..209 for write-roundtrip tests mirroring dl205.json + standard.json, Float32 1.5f at HR[100..101] in ABCD word order (high word first -- OPPOSITE of DL260 CDAB), Int32 0x12345678 at HR[300..301] in ABCD. Also seeds a coil at bit-addr 400 (= cell 25 bit 0) and a discrete input at bit-addr 500 (= cell 31 bit 0) so future S7-specific tests for FC01/FC02 have stable markers. shared blocks=true to match the proven dl205.json pattern (pymodbus's bits/uint16 cells coexist cleanly when addresses don't collide). Write list references cells (0, 25, 100-101, 200-209, 300-301), not bit addresses -- pymodbus's write-range entries are cell-indexed, not bit-indexed. Adds tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/S7/ directory with S7_1500Profile.cs (mirrors DL205Profile pattern: SmokeHoldingRegister=200, SmokeHoldingValue=4321, BuildOptions tags + probe-disabled + 2s timeout) and S7_1500SmokeTests.cs (single fact S7_1500_roundtrip_write_then_read_of_holding_register that writes SmokeHoldingValue then reads it back, asserting both write status 0 and read status 0 + value equality). Gates on MODBUS_SIM_PROFILE=s7_1500 so the test skips cleanly against other profiles. csproj updated to copy S7/** to test output as PreserveNewest (pattern matching DL205/**). Pymodbus/serve.ps1 ValidateSet extended from {standard,dl205} to {standard,dl205,s7_1500,mitsubishi} -- mitsubishi.json lands in PR 58 but the validator slot is claimed now so the serve.ps1 diff is one line in this PR and zero lines in future PRs. Verified end-to-end: smoke test 1/1 passes against the running pymodbus s7_1500 profile (localhost:5020 FC06 write of 4321 at HR[200] + FC03 read back). 143/143 Modbus.Tests pass, no regression in driver code because this PR is purely test-asset. Per-quirk S7 integration tests (ABCD word order default, FC23 IllegalFunction, MB_SERVER STATUS 0x8383 behaviour, port-per-connection semantics) land in PR 57+.
2026-04-18 22:57:03 -04:00
_p55.json
Phase 3 PR 56 -- Siemens S7-1500 pymodbus profile + smoke integration test. Adds tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/Pymodbus/s7_1500.json modelling the SIMATIC S7-1500 + MB_SERVER default deployment documented in docs/v2/s7.md: DB1.DBW0 = 0xABCD fingerprint marker (operators reserve this so clients can verify they're talking to the right DB), scratch HR range 200..209 for write-roundtrip tests mirroring dl205.json + standard.json, Float32 1.5f at HR[100..101] in ABCD word order (high word first -- OPPOSITE of DL260 CDAB), Int32 0x12345678 at HR[300..301] in ABCD. Also seeds a coil at bit-addr 400 (= cell 25 bit 0) and a discrete input at bit-addr 500 (= cell 31 bit 0) so future S7-specific tests for FC01/FC02 have stable markers. shared blocks=true to match the proven dl205.json pattern (pymodbus's bits/uint16 cells coexist cleanly when addresses don't collide). Write list references cells (0, 25, 100-101, 200-209, 300-301), not bit addresses -- pymodbus's write-range entries are cell-indexed, not bit-indexed. Adds tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/S7/ directory with S7_1500Profile.cs (mirrors DL205Profile pattern: SmokeHoldingRegister=200, SmokeHoldingValue=4321, BuildOptions tags + probe-disabled + 2s timeout) and S7_1500SmokeTests.cs (single fact S7_1500_roundtrip_write_then_read_of_holding_register that writes SmokeHoldingValue then reads it back, asserting both write status 0 and read status 0 + value equality). Gates on MODBUS_SIM_PROFILE=s7_1500 so the test skips cleanly against other profiles. csproj updated to copy S7/** to test output as PreserveNewest (pattern matching DL205/**). Pymodbus/serve.ps1 ValidateSet extended from {standard,dl205} to {standard,dl205,s7_1500,mitsubishi} -- mitsubishi.json lands in PR 58 but the validator slot is claimed now so the serve.ps1 diff is one line in this PR and zero lines in future PRs. Verified end-to-end: smoke test 1/1 passes against the running pymodbus s7_1500 profile (localhost:5020 FC06 write of 4321 at HR[200] + FC03 read back). 143/143 Modbus.Tests pass, no regression in driver code because this PR is purely test-asset. Per-quirk S7 integration tests (ABCD word order default, FC23 IllegalFunction, MB_SERVER STATUS 0x8383 behaviour, port-per-connection semantics) land in PR 57+.
2026-04-18 22:57:03 -04:00
.gitignore
Gitignore .local/ directory for dev-only secrets like the Galaxy.Host shared secret. Created during the PR 38 / install-services workflow to keep per-install secrets out of the repo.
2026-04-18 19:15:13 -04:00
CLAUDE.md
Phase 0 — mechanical rename ZB.MOM.WW.LmxOpcUa.* → ZB.MOM.WW.OtOpcUa.*
2026-04-17 13:57:47 -04:00
export-clean-copy.bat
Add clean export script for distributing repo without git history
2026-04-01 03:31:25 -04:00
mxaccess_documentation.md
Implement LmxOpcUa server — all 6 phases complete
2026-03-25 05:55:27 -04:00
README.md
Extract historian into a runtime-loaded plugin so hosts without the Wonderware SDK can run with Historian.Enabled=false
2026-04-12 15:16:07 -04:00
runtimestatus.md
Track Galaxy Platform and AppEngine runtime state via ScanState probes and proactively invalidate descendant variable quality on Stopped transitions so operators can detect a stopped runtime host before downstream clients read stale data and so the bridge delivers a uniform bad-quality signal instead of relying on MxAccess per-tag fan-out
2026-04-13 15:40:44 -04:00
service_info.md
Add Galaxy platform scope filter so multi-node deployments can restrict the OPC UA address space to only objects hosted by the local platform, reducing memory footprint and MXAccess subscription count from the full Galaxy (49 objects / 4206 attributes) down to the local subtree (3 objects / 386 attributes on the dev Galaxy).
2026-04-16 00:39:11 -04:00
session.dat
Implement LmxOpcUa server — all 6 phases complete
2026-03-25 05:55:27 -04:00
StyleGuide.md
Extract historian into a runtime-loaded plugin so hosts without the Wonderware SDK can run with Historian.Enabled=false
2026-04-12 15:16:07 -04:00
ZB.MOM.WW.OtOpcUa.slnx
Phase 3 PR 62 -- Siemens S7 native driver project scaffold (S7comm via S7netplus). First non-Modbus in-process driver. Creates src/ZB.MOM.WW.OtOpcUa.Driver.S7 (.NET 10, x64 -- S7netplus is managed, no bitness constraint like MXAccess) + tests/ZB.MOM.WW.OtOpcUa.Driver.S7.Tests + slnx entries. Depends on S7netplus 0.20.0 which is the latest version on NuGet resolvable in this cache (0.21.0 per driver-specs.md is not yet published; 0.20.0 covers the same Plc+CpuType+ReadAsync surface). S7DriverOptions captures the connection settings documented in driver-specs.md \u00A75: Host, Port (default 102 ISO-on-TCP), CpuType (default S71500 per most-common deployment), Rack=0, Slot=0 (S7-1200/1500 onboard PN convention; S7-300/400 operators must override to slot 2 or 3), Timeout=5s, Tags list + Probe settings with default MW0 probe address. S7TagDefinition uses S7.Net-style address strings (DB1.DBW0, M0.0, I0.0, QD4) with an S7DataType enum (Bool, Byte, Int16, UInt16, Int32, UInt32, Int64, UInt64, Float32, Float64, String, DateTime -- the full type matrix from the spec); StringLength defaults to 254 (S7 STRING max). S7Driver implements the IDriver-only subset per the PR plan: InitializeAsync opens a managed Plc with the configured CpuType + Host + Rack + Slot, pins WriteTimeout / ReadTimeout on the underlying TcpClient, awaits Plc.OpenAsync with a linked CTS bounded by Options.Timeout so the ISO handshake itself respects the configured bound; health transitions Unknown -> Initializing -> Healthy on success or Unknown -> Initializing -> Faulted on handshake failure, with a best-effort Plc.Close() on the faulted path so retries don't leak the TcpClient. ShutdownAsync closes the Plc and flips health back to Unknown. DisposeAsync routes through ShutdownAsync + disposes the SemaphoreSlim. Internal Gate + Plc accessors are exposed to the test project (InternalsVisibleTo) so PRs 63-65 can stack read/write/subscribe on the same serialization semaphore per the S7netplus documented 'one Plc per PLC, SemaphoreSlim-serialized' pattern. ITagDiscovery, IReadable, IWritable, ISubscribable, IHostConnectivityProbe are all deliberately omitted from this PR -- they depend on the S7AddressParser (PR 63) and land sequenced in PRs 64-65. Unit tests (S7DriverScaffoldTests, 5 facts): default options target S7-1500 / port 102 / slot 0, default probe interval 5s, tag defaults to writable with StringLength 254, driver reports DriverType=S7 + Unknown health pre-init, Initialize against RFC-5737 reserved IP 192.0.2.1 with 250ms timeout transitions to Faulted and throws (tests the connect-failure path doesn't leave the driver in an ambiguous state). 5/5 pass. dotnet build ZB.MOM.WW.OtOpcUa.slnx: 0 errors. No regression in Modbus / Galaxy suites. PR 63 ships S7AddressParser next, PR 64 wires IReadable/IWritable over S7netplus, PR 65 adds discovery + polling-overlay subscribe + probe.
2026-04-19 00:03:09 -04:00

README.md

LmxOpcUa

OPC UA server and cross-platform client tools for AVEVA System Platform (Wonderware) Galaxy. The server exposes Galaxy tags via MXAccess as an OPC UA address space. The client stack provides a shared library, CLI tool, and Avalonia desktop application for browsing, reading/writing, subscriptions, alarms, and historical data.

Architecture

                                    OPC UA Clients
                              (CLI, Desktop UI, 3rd-party)
                                         |
                                         v
+-----------------+     +------------------+     +-----------------+
| Galaxy Repo DB  |---->|   OPC UA Server  |<--->| MXAccess Client |
|   (SQL Server)  |     | (address space)  |     | (STA + COM)     |
+-----------------+     +------------------+     +-----------------+
                                |                        |
                        +-------+--------+     +---------+---------+
                        | Status Dashboard|     | Historian Runtime |
                        |  (HTTP/JSON)   |     |   (SQL Server)    |
                        +----------------+     +-------------------+

Contained Name vs Tag Name

Browse Path (contained names) Runtime Reference (tag name)
TestMachine_001/DelmiaReceiver/DownloadPath DelmiaReceiver_001.DownloadPath
TestMachine_001/MESReceiver/MoveInBatchID MESReceiver_001.MoveInBatchID

Server

The OPC UA server runs on .NET Framework 4.8 (x86) and bridges the Galaxy runtime to OPC UA clients.

Server Prerequisites

  • .NET Framework 4.8 SDK
  • AVEVA System Platform with ArchestrA Framework installed
  • Galaxy repository database (SQL Server, Windows Auth)
  • MXAccess COM registered (LMXProxy.LMXProxyServer)
  • Wonderware Historian (optional, for historical data access)
  • Windows (required for COM interop and MXAccess)

Build and Run Server

dotnet restore ZB.MOM.WW.LmxOpcUa.slnx
dotnet build src/ZB.MOM.WW.LmxOpcUa.Host
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Host

The server starts on opc.tcp://localhost:4840/LmxOpcUa with the None security profile by default. Configure Security.Profiles in appsettings.json to enable Basic256Sha256-Sign or Basic256Sha256-SignAndEncrypt for transport security. See Security Guide.

Install as Windows Service

cd src/ZB.MOM.WW.LmxOpcUa.Host/bin/Debug/net48
ZB.MOM.WW.LmxOpcUa.Host.exe install
ZB.MOM.WW.LmxOpcUa.Host.exe start

Service logon requirement: The service must run under a Windows account that has access to the AVEVA Galaxy and Historian. The default LocalSystem account can connect to MXAccess and SQL Server but cannot authenticate with the Historian SDK (HCAP). Configure the service to "Log on as" a domain or local user that is a recognized ArchestrA platform user. This can be set in services.msc or during install with ZB.MOM.WW.LmxOpcUa.Host.exe install -username DOMAIN\user -password ***.

Run Server Tests

dotnet test tests/ZB.MOM.WW.LmxOpcUa.Tests
dotnet test tests/ZB.MOM.WW.LmxOpcUa.IntegrationTests

Client Stack

The client stack is cross-platform (.NET 10) and consists of three projects sharing a common IOpcUaClientService abstraction. No AVEVA software or COM is required — the clients connect to any OPC UA server.

Client Prerequisites

  • .NET 10 SDK
  • No platform-specific dependencies (runs on Windows, macOS, Linux)

Build All Clients

dotnet build src/ZB.MOM.WW.LmxOpcUa.Client.Shared
dotnet build src/ZB.MOM.WW.LmxOpcUa.Client.CLI
dotnet build src/ZB.MOM.WW.LmxOpcUa.Client.UI

Run Client Tests

dotnet test tests/ZB.MOM.WW.LmxOpcUa.Client.Shared.Tests
dotnet test tests/ZB.MOM.WW.LmxOpcUa.Client.CLI.Tests
dotnet test tests/ZB.MOM.WW.LmxOpcUa.Client.UI.Tests

Client CLI

# Connect
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- connect -u opc.tcp://localhost:4840/LmxOpcUa

# Browse Galaxy hierarchy
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- browse -u opc.tcp://localhost:4840/LmxOpcUa -n "ns=3;s=ZB" -r -d 5

# Read a tag
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- read -u opc.tcp://localhost:4840/LmxOpcUa -n "ns=3;s=TestMachine_001.MachineID"

# Write a tag
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- write -u opc.tcp://localhost:4840/LmxOpcUa -n "ns=3;s=TestChildObject.TestString" -v "Hello"

# Subscribe to changes
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- subscribe -u opc.tcp://localhost:4840/LmxOpcUa -n "ns=3;s=TestChildObject.TestInt" -i 500

# Read historical data
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- historyread -u opc.tcp://localhost:4840/LmxOpcUa -n "ns=3;s=TestMachine_001.TestHistoryValue" --start "2026-03-25" --end "2026-03-30"

# Subscribe to alarm events
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- alarms -u opc.tcp://localhost:4840/LmxOpcUa -n "ns=3;s=TestMachine_001" --refresh

# Query redundancy state
dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.CLI -- redundancy -u opc.tcp://localhost:4840/LmxOpcUa

Client UI

dotnet run --project src/ZB.MOM.WW.LmxOpcUa.Client.UI

The desktop application provides browse tree, subscriptions, alarm monitoring, history reads, and write dialogs. See Client UI Documentation for details.

Project Structure

src/
    ZB.MOM.WW.LmxOpcUa.Host/           OPC UA server (.NET Framework 4.8, x86)
        Configuration/                   Config binding and validation
        Domain/                          Interfaces, DTOs, enums, mappers
        Historian/                       Wonderware Historian data source
        Metrics/                         Performance tracking (rolling P95)
        MxAccess/                        STA thread, COM interop, subscriptions
        GalaxyRepository/                SQL queries, change detection
        OpcUa/                           Server, node manager, address space, alarms, diff
        Status/                          HTTP dashboard, health checks

    ZB.MOM.WW.LmxOpcUa.Client.Shared/   Shared OPC UA client library (.NET 10)
    ZB.MOM.WW.LmxOpcUa.Client.CLI/      Command-line client (.NET 10)
    ZB.MOM.WW.LmxOpcUa.Client.UI/       Avalonia desktop client (.NET 10)

tests/
    ZB.MOM.WW.LmxOpcUa.Tests/           Server unit + integration tests
    ZB.MOM.WW.LmxOpcUa.IntegrationTests/ Server integration tests (live DB)
    ZB.MOM.WW.LmxOpcUa.Client.Shared.Tests/  Shared library tests
    ZB.MOM.WW.LmxOpcUa.Client.CLI.Tests/     CLI command tests
    ZB.MOM.WW.LmxOpcUa.Client.UI.Tests/      UI ViewModel + headless tests

gr/                                      Galaxy repository docs, SQL queries, schema

Documentation

Server

Component Description
OPC UA Server Endpoint, sessions, security policy, server lifecycle
Address Space Hierarchy nodes, variable nodes, primitive grouping, NodeId scheme
Galaxy Repository SQL queries, deployed package chain, change detection
MXAccess Bridge STA thread, COM interop, subscriptions, reconnection
Data Type Mapping Galaxy to OPC UA types, arrays, security classification
Read/Write Operations Value reads, writes, access level enforcement, array element writes
Subscriptions Ref-counted MXAccess subscriptions, data change dispatch
Alarm Tracking AlarmConditionState nodes, InAlarm monitoring, event reporting
Historical Data Access Historian data source, HistoryReadRaw, HistoryReadProcessed
Incremental Sync Diff computation, subtree teardown/rebuild, subscription preservation
Configuration appsettings.json binding, feature flags, validation
Status Dashboard HTTP server, health checks, metrics reporting
Service Hosting TopShelf, startup/shutdown sequence, error handling
Security Transport security profiles, certificate trust, production hardening
Redundancy Non-transparent warm/hot redundancy, ServiceLevel, paired deployment

Client

Component Description
Client CLI Connect, browse, read, write, subscribe, historyread, alarms, redundancy commands
Client UI Avalonia desktop client: browse, subscribe, alarms, history, write values

Reference

License

Internal use only.

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