# ab_server test fixture Coverage map + gap inventory for the AB CIP integration fixture backed by libplctag's `ab_server` simulator. **TL;DR:** `ab_server` is a connectivity + atomic-read smoke harness for the AB CIP driver. It does **not** benchmark UDTs, alarms, or any family-specific quirk. UDT / alarm / quirk behavior is verified only by unit tests with `FakeAbCipTagRuntime`. ## What the fixture is - **Binary**: `ab_server` — a C program in libplctag's `src/tools/ab_server/` ([libplctag/libplctag](https://github.com/libplctag/libplctag), MIT). - **Launcher**: Docker (only supported path). `Docker/Dockerfile` multi-stage-builds `ab_server` from source against a pinned libplctag tag + copies the binary into a slim runtime image. `Docker/docker-compose.yml` has per-family services (`controllogix` / `compactlogix` / `micro800` / `guardlogix`); all bind `:44818`. - **Lifecycle**: `AbServerFixture` TCP-probes `127.0.0.1:44818` at collection init + records a skip reason when unreachable. Tests skip via `[AbServerFact]` / `[AbServerTheory]` which check the same probe. - **Profiles**: `KnownProfiles.{ControlLogix, CompactLogix, Micro800, GuardLogix}` in `AbServerProfile.cs` — thin Family + ComposeProfile + Notes records; the compose file is the canonical source of truth for which tags get seeded + which `--plc` mode the simulator boots in. - **Tests**: one smoke, `AbCipReadSmokeTests.Driver_reads_seeded_DInt_from_ab_server`, parametrized over all four profiles via `[AbServerTheory]` + `[MemberData]`. - **Endpoint override**: `AB_SERVER_ENDPOINT=host:port` points the fixture at a real PLC instead of the local container. ## What it actually covers - Read path: driver → libplctag → CIP-over-EtherNet/IP → simulator → back. - Atomic Logix types per seed: `DINT`, `REAL`, `BOOL`, `SINT`, `STRING`. - One `DINT[16]` array tag (ControlLogix profile only). - `--plc controllogix` and `--plc compactlogix` mode dispatch. - The skip-on-missing-binary behavior (`AbServerFactAttribute`) so a fresh clone without the simulator stays green. ## What it does NOT cover Each gap below is either stated explicitly in the profile's `Notes` field or inferable from the seed-tag set + smoke-test surface. ### 1. UDTs / CIP Template Object (class 0x6C) ControlLogix profile `Notes`: *"ab_server lacks full UDT emulation."* Unverified against `ab_server`: - PR 6 structured read/write (`AbCipStructureMember` fan-out) - #179 Template Object shape reader (`CipTemplateObjectDecoder` + `FetchUdtShapeAsync`) - #194 whole-UDT read optimization (`AbCipUdtReadPlanner` + `AbCipUdtMemberLayout` + the `ReadGroupAsync` path in `AbCipDriver`) Unit coverage: `AbCipFetchUdtShapeTests`, `CipTemplateObjectDecoderTests`, `AbCipUdtMemberLayoutTests`, `AbCipUdtReadPlannerTests`, `AbCipDriverWholeUdtReadTests` — all with golden Template-Object byte buffers + offset-keyed `FakeAbCipTag` values. ### 2. ALMD / ALMA alarm projection (#177) Depends on the ALMD UDT shape, which `ab_server` cannot emulate. The `OnAlarmEvent` raise/clear path + ack-write semantics are not exercised end-to-end. Unit coverage: `AbCipAlarmProjectionTests` — fakes feed `InFaulted` / `Severity` via `ValuesByOffset` + assert the emitted `AlarmEventArgs`. ### 3. Micro800 unconnected-only path Micro800 profile `Notes`: *"ab_server has no --plc micro800 — falls back to controllogix emulation."* The empty routing path + unconnected-session requirement (PR 11) is unit-tested but never challenged at the CIP wire level. Real Micro800 (2080-series) on a lab rig would be the authoritative benchmark. ### 4. GuardLogix safety subsystem GuardLogix profile `Notes`: *"ab_server doesn't emulate the safety subsystem."* Only the `_S`-suffix naming classifier (PR 12, `SecurityClassification.ViewOnly` forced on safety tags) runs. Actual safety-partition write rejection — what happens when a non-safety write lands on a real `1756-L8xS` — is not exercised. ### 5. CompactLogix narrow ConnectionSize cap CompactLogix profile `Notes`: *"ab_server lacks the narrower limit itself."* Driver-side `AbCipPlcFamilyProfile` caps `ConnectionSize` at the CompactLogix value per PR 10, but `ab_server` accepts whatever the client asks for — the cap's correctness is trusted from its unit test, never stressed against a simulator that rejects oversized requests. ### 6. BOOL-within-DINT read-modify-write (#181) The `AbCipDriver.WriteBitInDIntAsync` RMW path + its per-parent `SemaphoreSlim` serialization is unit-tested only (`AbCipBoolInDIntRmwTests`). `ab_server` seeds a plain `TestBOOL` tag; the `.N` bit-within-DINT syntax that triggers the RMW path is not exercised end-to-end. ### 7. Capability surfaces beyond read No smoke test for: - `IWritable.WriteAsync` - `ITagDiscovery.DiscoverAsync` (`@tags` walker) - `ISubscribable.SubscribeAsync` (poll-group engine) - `IHostConnectivityProbe` state transitions under wire failure - `IPerCallHostResolver` multi-device routing The driver implements all of these + they have unit coverage, but the only end-to-end path `ab_server` validates today is atomic `ReadAsync`. ## Logix Emulate golden-box tier Rockwell Studio 5000 Logix Emulate sits **above** ab_server in fidelity + **below** real hardware. When an operator has Emulate running on a reachable Windows box + sets two env vars, the suite promotes several behaviours from unit-only to end-to-end wire-level coverage: ```powershell $env:AB_SERVER_PROFILE = 'emulate' $env:AB_SERVER_ENDPOINT = ':44818' dotnet test tests\ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests ``` With `AB_SERVER_PROFILE` unset or `abserver`, the Emulate-tier classes skip cleanly + the ab_server Docker fixture runs as usual. | Gap this fixture doc calls out | ab_server | Logix Emulate | Real hardware | |---|---|---|---| | UDT / CIP Template Object (task #194) | no | **yes** | yes | | ALMD alarm projection (task #177) | no | **yes** | yes | | `@tags` Symbol Object walk with `Program:` scope | partial | **yes** | yes | | Add-On Instructions | no | **yes** | yes | | GuardLogix safety-partition write rejection | no | **yes** (Emulate 5580) | yes | | CompactLogix narrow ConnectionSize enforcement | no | **yes** (5370 firmware) | yes | | EtherNet/IP embedded-switch behaviour | no | no | yes | | Redundant chassis failover (1756-RM) | no | no | yes | | Motion control timing | no | no | yes | **Tests that promote to Emulate** (gated on `AB_SERVER_PROFILE=emulate` via `AbServerProfileGate.SkipUnless`): - `AbCipEmulateUdtReadTests.WholeUdt_read_decodes_each_member_at_its_Template_Object_offset` — #194 whole-UDT optimization, verified against real Template Object bytes - `AbCipEmulateAlmdTests.Real_ALMD_raise_fires_OnAlarmEvent_through_the_driver_projection` — #177 ALMD projection, verified against the real ALMD instruction **Required Studio 5000 project state** is documented in [`tests/…/AbCip.IntegrationTests/LogixProject/README.md`](../../tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/LogixProject/README.md); the `.L5X` export lands there once the Emulate PC is on-site + the project is authored. **Costs to accept**: - **Rockwell TechConnect or per-seat license** — not redistributable; not CI-runnable. Each operator licenses their own Emulate install. - **Windows-only + Hyper-V conflict** — Emulate can't coexist with Docker Desktop's WSL 2 backend on the same OS, same way TwinCAT XAR can't (see `docs/v2/dev-environment.md` §Integration host). - **Manual lifecycle** — no `docker compose up` equivalent; operator opens Emulate, loads the L5X, clicks Run. The L5X in the repo keeps project state reproducible, runtime-start is human. ## When to trust ab_server, when to reach for a rig | Question | ab_server | Unit tests | Logix Emulate | Lab rig | | --- | --- | --- | --- | --- | | "Does the driver talk CIP at all?" | yes | - | yes | - | | "Is my atomic read path wired correctly?" | yes | yes | yes | yes | | "Does whole-UDT grouping work?" | no | yes | **yes** | yes | | "Do ALMD alarms raise + clear?" | no | yes | **yes** | yes | | "Is Micro800 unconnected-only enforced wire-side?" | no (emulated as CLX) | partial | yes | yes (required) | | "Does GuardLogix reject non-safety writes on safety tags?" | no | no | yes (Emulate 5580) | yes | | "Does CompactLogix refuse oversized ConnectionSize?" | no | partial | yes (5370 firmware) | yes | | "Does BOOL-in-DINT RMW race against concurrent writers?" | no | yes | partial | yes (stress) | | "Does EtherNet/IP embedded-switch behave correctly?" | no | no | no | yes (required) | | "Does redundant-chassis failover work?" | no | no | no | yes (required) | ## Follow-up candidates If integration-level UDT / alarm / quirk proof becomes a shipping gate, the options are roughly: 1. **Logix Emulate golden-box tier** (scaffolded; see the section above) — highest-fidelity path short of real hardware. Closes UDT / ALMD / AOI / optimized-DB gaps in one license + one Windows PC. 2. **Extend `ab_server`** upstream — the project accepts PRs + already carries a CIP framing layer that UDT emulation could plug into. 3. **Stand up a lab rig** — physical `1756-L7x` / `5069-L3x` / `2080-LC30` / `1756-L8xS` controllers. The only path that covers safety partitions across nodes, redundant chassis, embedded-switch behaviour, and motion timing. See also: - `tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/AbServerFixture.cs` - `tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/AbServerProfile.cs` - `tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/AbServerProfileGate.cs` — `AB_SERVER_PROFILE` tier gate - `tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/AbCipReadSmokeTests.cs` - `tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/Docker/` — ab_server image + compose - `tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/Emulate/` — Logix Emulate tier tests - `tests/ZB.MOM.WW.OtOpcUa.Driver.AbCip.IntegrationTests/LogixProject/README.md` — L5X project state the Emulate tier expects - `docs/v2/test-data-sources.md` §2 — the broader test-data-source picking rationale this fixture slots into