Joseph Doherty 0e1dcc119e Remove native-launcher fallbacks for the four Dockerized fixtures — Docker is the only supported path for Modbus / S7 / AB CIP / OpcUaClient integration. Native paths stay in place only where Docker isn't compatible (Galaxy: MXAccess COM + Windows-only; TwinCAT: Beckhoff runtime vs Hyper-V; FOCAS: closed-source Fanuc Fwlib32.dll; AB Legacy: PCCC has no OSS simulator). Simplifies the fixture landscape + removes the "which path do I run" ambiguity; removes two full native-launcher directories + the AB CIP native-spawn path; removes the parallel profile-as-CLI-arg-builder code from AbServerFixture. ...

Modbus — deletes tests/.../Modbus.IntegrationTests/Pymodbus/ (serve.ps1, standard.json, dl205.json, mitsubishi.json, s7_1500.json, README.md). Profile JSONs live only under Docker/profiles/ now. Docker/README.md loses its "Native-Python fallback" section; docs/drivers/Modbus-Test-Fixture.md "What the fixture is" bullet flipped from "primary launcher is Docker, native fallback under Pymodbus/" to "Docker is the only supported launch path".

S7 — deletes tests/.../S7.IntegrationTests/PythonSnap7/ (server.py, s7_1500.json, serve.ps1, README.md). Docker/README.md loses "Native-Python fallback"; docs/drivers/S7-Test-Fixture.md updated to match.

AB CIP — the biggest simplification because the native-binary spawn had the most code. AbServerFixture.cs rewrites: drops Process management (no more Process _proc + Kill/WaitForExit), drops LocateBinary() PATH lookup, drops the IAsyncLifetime initialize-spawns-server behavior. Fixture is now a thin TCP probe against localhost:44818 (or AB_SERVER_ENDPOINT override) — same shape as Snap7ServerFixture / ModbusSimulatorFixture / OpcPlcFixture. IsServerAvailable() simplifies to a single 500 ms probe. AbServerProfile.cs drops AbServerPlcArg + SeedTags + BuildCliArgs + ToCliSpec + the entire AbServerSeedTag record — the compose file is the canonical source of truth for which tags + which --plc mode each family gets; the profile record now carries just Family + ComposeProfile (matches the docker-compose service key) + Notes. KnownProfiles.ForFamily + .All stay for tests that iterate families. AbServerProfileTests.cs rewrites to match: drops BuildCliArgs_* + ToCliSpec_* + SeedTags_* tests; keeps the family-coverage contract tests + verifies the ComposeProfile strings match compose-file service names (a typo in either surfaces as a unit-test failure, not a silent "wrong family booted" at runtime). Docker/README.md loses "Native-binary fallback" section; docs/drivers/AbServer-Test-Fixture.md "What the fixture is" flipped to Docker-only with clearer skip rules.

dev-environment.md §Docker fixtures — the "Native fallbacks" subsection goes away; replaced with a one-line note that Docker is the only supported path for these four fixtures + a fresh clone needs Docker Desktop and nothing else.

Verified: whole-solution build 0 errors, AB CIP profile unit tests 6/6, AB CIP Docker smoke 4/4 (all family theory rows), S7 Docker smoke 3/3. Container lifecycle clean. The deleted native code surface was already redundant — every fixture the native paths served is now covered by Docker; keeping them invited drift between the two paths (the original AB CIP native profile had three undetected bugs per the #162 commit message: case-sensitive --plc, bracket tag notation, --path=1,0 requirement — noise the Docker path now avoids by never running the buggy code).

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

2026-04-20 12:27:44 -04:00

..

DL205

Phase 3 PR 52 -- Modbus exception-code -> OPC UA StatusCode translation. Before this PR every server-side Modbus exception AND every transport-layer failure collapsed to BadInternalError (0x80020000) in the driver's Read/Write results, making field diagnosis 'is this a tag misconfig or a driver bug?' impossible from the OPC UA client side. PR 52 adds a MapModbusExceptionToStatus helper that translates per spec: 01 Illegal Function -> BadNotSupported (0x803D0000); 02 Illegal Data Address -> BadOutOfRange (0x803C0000); 03 Illegal Data Value -> BadOutOfRange; 04 Server Failure -> BadDeviceFailure (0x80550000); 05/06 Acknowledge/Busy -> BadDeviceFailure; 0A/0B Gateway -> BadCommunicationError (0x80050000); unknown -> BadInternalError fallback. Non-Modbus failures (socket drop, timeout, malformed frame) in ReadAsync are now distinguished from tag-level faults: they map to BadCommunicationError so operators check network/PLC reachability rather than tag definitions. Why per-DL205: docs/v2/dl205.md documents DL205/DL260 returning only codes 01-04 with specific triggers -- exception 04 specifically means 'CPU in PROGRAM mode during a protected write', which is operator-recoverable by switching the CPU to RUN; surfacing it as BadDeviceFailure (not BadInternalError) makes the fix obvious. Changes in ModbusDriver: Read catch-chain now ModbusException first (-> mapper), generic Exception second (-> BadCommunicationError); Write catch-chain same pattern but generic Exception stays BadInternalError because write failures can legitimately come from EncodeRegister (out-of-range value) which is a driver-layer fault. Unit tests: MapModbusExceptionToStatus theory exercising every code in the table including the 0xFF fallback; Read_surface_exception_02_as_BadOutOfRange with an ExceptionRaisingTransport that forces code 02; Write_surface_exception_04_as_BadDeviceFailure for CPU-mode faults; Read_non_modbus_failure_maps_to_BadCommunicationError with a NonModbusFailureTransport that raises EndOfStreamException. 115/115 Modbus.Tests pass. Integration test: DL205ExceptionCodeTests.DL205_FC03_at_unmapped_register_returns_BadOutOfRange reads HR[16383] which is beyond the seeded uint16 cells on the dl205.json profile; pymodbus returns exception 02 and the driver surfaces BadOutOfRange. 11/11 DL205 integration tests pass with MODBUS_SIM_PROFILE=dl205.

2026-04-18 22:28:37 -04:00

Docker

Remove native-launcher fallbacks for the four Dockerized fixtures — Docker is the only supported path for Modbus / S7 / AB CIP / OpcUaClient integration. Native paths stay in place only where Docker isn't compatible (Galaxy: MXAccess COM + Windows-only; TwinCAT: Beckhoff runtime vs Hyper-V; FOCAS: closed-source Fanuc Fwlib32.dll; AB Legacy: PCCC has no OSS simulator). Simplifies the fixture landscape + removes the "which path do I run" ambiguity; removes two full native-launcher directories + the AB CIP native-spawn path; removes the parallel profile-as-CLI-arg-builder code from AbServerFixture.

2026-04-20 12:27:44 -04:00

Mitsubishi

Phase 3 PR 60 -- Mitsubishi MELSEC quirk integration tests against mitsubishi pymodbus profile. Seven facts in MitsubishiQuirkTests covering the quirks documented in docs/v2/mitsubishi.md that are testable end-to-end via pymodbus: (1) Mitsubishi_D0_fingerprint_reads_0x1234 -- MELSEC operators reserve D0 as a fingerprint word so Modbus clients can verify they're hitting the right Device Assignment block; test reads HR[0]=0x1234 via DRegisterToHolding('D0') helper. (2) Mitsubishi_Float32_CDAB_decodes_1_5f_from_D100 -- reads HR[100..101] with WordSwap AND BigEndian; asserts WordSwap==1.5f AND BigEndian!=1.5f, proving (a) MELSEC uses CDAB default same as DL260, (b) opposite of S7 ABCD, (c) driver flag is not a no-op. (3) Mitsubishi_D10_is_binary_not_BCD -- reads HR[10]=0x04D2 as Int16 and asserts value 1234 (binary decode), contrasting with DL205's BCD-by-default convention. (4) Mitsubishi_D10_as_BCD_throws_because_nibble_is_non_decimal -- reads same HR[10] as Bcd16 and asserts StatusCode != 0 because nibble 0xD fails BCD validation; proves the BCD decoder fails loud when the tag config is wrong rather than silently returning garbage. (5) Mitsubishi_QLiQR_X210_hex_maps_to_DI_528_reads_ON -- reads FC02 at the MelsecAddress.XInputToDiscrete('X210', Q_L_iQR)-resolved address (=528 decimal) and asserts ON; proves the hex-parsing path end-to-end. (6) Mitsubishi_family_trap_X20_differs_on_Q_vs_FX -- unit-level proof in the integration file so the headline family trap is visible to anyone filtering by Device=Mitsubishi. (7) Mitsubishi_M512_maps_to_coil_512_reads_ON -- reads FC01 at MRelayToCoil('M512')=512 (decimal) and asserts ON; proves the decimal M-relay path. Test fixture pattern: single MitsubishiQuirkTests class with a shared ShouldRun + NewDriverAsync helper rather than per-quirk classes (contrast with DL205's per-quirk splits). MELSEC per-model differentiation is handled by MelsecFamily enum on the helper rather than per-PR -- so one quirk file + one family enum covers Q/L/iQ-R/FX/iQ-F, and a new PLC family just adds an enum case instead of a new test class. 8/8 Mitsubishi integration tests pass (1 smoke + 7 quirk). 176/176 Modbus.Tests unit suite still green. S7 + DL205 integration tests can be run against their respective profiles by swapping MODBUS_SIM_PROFILE and restarting the pymodbus sim -- each family gates on its profile env var so no cross-family test pollution.

2026-04-18 23:07:00 -04:00

S7

Phase 3 PR 57 -- S7 byte-order + fingerprint integration tests against s7_1500 pymodbus profile. Three facts in new S7_ByteOrderTests class: (1) S7_Float32_ABCD_decodes_1_5f_from_HR100 reads HR[100..101] with ModbusByteOrder.BigEndian AND with WordSwap on the same wire bytes; asserts BigEndian==1.5f AND WordSwap!=1.5f -- proving both that Siemens S7 stores Float32 in ABCD word order (opposite of DL260 CDAB) and that the ByteOrder flag is not a no-op on the same wire buffer. (2) S7_Int32_ABCD_decodes_0x12345678_from_HR300 reads HR[300]=0x1234 + HR[301]=0x5678 with BigEndian and asserts the reassembled Int32 = 0x12345678; documents the contrast with DL260 CDAB Int32 encoding. (3) S7_DB1_fingerprint_marker_at_HR0_reads_0xABCD reads HR[0]=0xABCD -- real MB_SERVER deployments reserve DB1.DBW0 as a fingerprint so clients can verify they're pointing at the right DB, protecting against typos in the MB_SERVER.MB_HOLD_REG.DB_number parameter. No driver code changes -- the ByteOrder.BigEndian path has existed since PR 24; this PR exists to lock in the S7-specific semantics at the integration level so future refactors of NormalizeWordOrder can't silently break S7. All 3 tests gate on MODBUS_SIM_PROFILE=s7_1500 so they skip cleanly against dl205 or standard profiles. Verified end-to-end: 4/4 S7 integration tests pass (1 smoke from PR 56 + 3 new). No regression in driver unit tests. Per the per-quirk-PR plan: the S7 quirks NOT testable via pymodbus sim (MB_SERVER STATUS 0x8383 optimized-DB behavior, port-per-connection semantics, CP 343-1 Lean license rejection, STOP-mode non-determinism) remain in docs/v2/s7.md as design guidance for driver users rather than automated tests -- they're TIA-Portal-side or CP-hardware-side behaviors that pymodbus cannot reproduce without custom Python actions.

2026-04-18 22:58:44 -04:00

ModbusSimulatorFixture.cs

Phase 3 PR 43 — followup commit: validate pymodbus simulator end-to-end + fix three real bugs surfaced by running it. winget-installed Python 3.12.10 + pip-installed pymodbus[simulator]==3.13.0 on the dev box; both profiles boot cleanly, the integration-suite smoke test passes against either profile.

2026-04-18 21:14:02 -04:00

ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests.csproj

Remove native-launcher fallbacks for the four Dockerized fixtures — Docker is the only supported path for Modbus / S7 / AB CIP / OpcUaClient integration. Native paths stay in place only where Docker isn't compatible (Galaxy: MXAccess COM + Windows-only; TwinCAT: Beckhoff runtime vs Hyper-V; FOCAS: closed-source Fanuc Fwlib32.dll; AB Legacy: PCCC has no OSS simulator). Simplifies the fixture landscape + removes the "which path do I run" ambiguity; removes two full native-launcher directories + the AB CIP native-spawn path; removes the parallel profile-as-CLI-arg-builder code from AbServerFixture.

2026-04-20 12:27:44 -04:00