S7 integration — AbCip/Modbus already have real-simulator integration suites; S7 had zero wire-level coverage despite being a Tier-A driver (all unit tests mocked IS7Client). Picked python-snap7's `snap7.server.Server` over raw Snap7 C library because `pip install` beats per-OS binary-pin maintenance, the package ships a Python __main__ shim that mirrors our existing pymodbus serve.ps1 + *.json pattern structurally, and the python-snap7 project is actively maintained. New project `tests/ZB.MOM.WW.OtOpcUa.Driver.S7.IntegrationTests/` with four moving parts: (a) `Snap7ServerFixture` — collection-scoped TCP probe on `localhost:1102` that sets `SkipReason` when the simulator's not running, matching the `ModbusSimulatorFixture` shape one directory over (same S7_SIM_ENDPOINT env var override convention for pointing at a real S7 CPU on port 102); (b) `PythonSnap7/` — `serve.ps1` wrapper + `server.py` shim + `s7_1500.json` seed profile + `README.md` documenting install / run / known limitations; (c) `S7_1500/S7_1500Profile.cs` — driver-side `S7DriverOptions` whose tag addresses map 1:1 to the JSON profile's seed offsets (DB1.DBW0 u16, DB1.DBW10 i16, DB1.DBD20 i32, DB1.DBD30 f32, DB1.DBX50.3 bool, DB1.DBW100 scratch); (d) `S7_1500SmokeTests` — three tests proving typed reads + write-then-read round-trip work through real S7netplus + real ISO-on-TCP + real snap7 server. Picked port 1102 default instead of S7-standard 102 because 102 is privileged on Linux + triggers Windows Firewall prompt; S7netplus 0.20 has a 5-arg `Plc(CpuType, host, port, rack, slot)` ctor that lets the driver honour `S7DriverOptions.Port`, but the existing driver code called the 4-arg overload + silently hardcoded 102. One-line driver fix (S7Driver.cs:87) threads `_options.Port` through — the S7 unit suite (58/58) still passes unchanged because every unit test uses a fake IS7Client that never sees the real ctor. Server seed-type matrix in `server.py` covers u8 / i8 / u16 / i16 / u32 / i32 / f32 / bool-with-bit / ascii (S7 STRING with max_len header). register_area takes the SrvArea enum value, not the string name — a 15-minute debug after the first test run caught that; documented inline.
Per-driver test-fixture coverage docs — eight new files in `docs/drivers/` laying out what each driver's harness actually benchmarks vs. what's trusted from field deployments. Pattern mirrors the AbServer-Test-Fixture.md doc that shipped earlier in this arc: TL;DR → What the fixture is → What it actually covers → What it does NOT cover → When-to-trust table → Follow-up candidates → Key files. Ugly truth the survey made visible: Galaxy + Modbus + (now) S7 + AB CIP have real wire-level coverage; AB Legacy / TwinCAT / FOCAS / OpcUaClient are still contract-only because their libraries ship no fake + no open-source simulator exists (AB Legacy PCCC), no public simulator exists (FOCAS), the vendor SDK has no in-process fake (TwinCAT/ADS.NET), or the test wiring just hasn't happened yet (OpcUaClient could trivially loopback against this repo's own server — flagged as #215). Each doc names the specific follow-up route: Snap7 server for S7 (done), TwinCAT 3 developer-runtime auto-restart for TwinCAT, Tier-C out-of-process Host for FOCAS, lab rigs for AB Legacy + hardware-gated bits of the others. `docs/drivers/README.md` gains a coverage-map section linking all eight. Tracking tasks #215-#222 filed for each PR-able follow-up.
Build clean (driver + integration project + docs); S7.Tests 58/58 (unchanged); S7.IntegrationTests 3/3 (new, verified end-to-end against a live python-snap7 server: `driver_reads_seeded_u16_through_real_S7comm`, `driver_reads_seeded_typed_batch`, `driver_write_then_read_round_trip_on_scratch_word`). Next fixture follow-up is #215 (OpcUaClient loopback against own server) — highest ROI of the remaining set, zero external deps.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Closes the observer half of #162 that was flagged as "persisted as 0 today"
in PR #105. The Admin /hosts column refresh + FleetStatusHub SignalR push
+ red-badge visual still belong to the visual-compliance pass.
Core.Resilience:
- DriverResilienceStatusTracker gains RecordCallStart + RecordCallComplete
+ CurrentInFlight field on the snapshot record. Concurrent-safe via the
same ConcurrentDictionary.AddOrUpdate pattern as the other recorder methods.
Clamps to zero on over-decrement so a stray Complete-without-Start can't
drive the counter negative.
- CapabilityInvoker gains an optional statusTracker ctor parameter. When
wired, every ExecuteAsync / ExecuteAsync(void) wraps the pipeline call
in try / finally that records start/complete — so the counter advances
cleanly whether the call succeeds, cancels, or throws. Null tracker keeps
the pre-Phase-6.1 Stream E.3 behaviour exactly.
Server.Hosting:
- ResilienceStatusPublisherHostedService persists CurrentInFlight as the
DriverInstanceResilienceStatus.CurrentBulkheadDepth column (was 0 before
this PR). One-line fix on both the insert + update branches.
The in-flight counter is a pragmatic proxy for Polly's internal bulkhead
depth — a future PR wiring Polly telemetry would replace it with the real
value. The shape of the column + the publisher + the Admin /hosts query
doesn't change, so the follow-up is invisible to consumers.
Tests (8 new InFlightCounterTests, all pass):
- Start+Complete nets to zero.
- Nested starts sum; Complete decrements.
- Complete-without-Start clamps to zero.
- Different hosts track independently.
- Concurrent starts (500 parallel) don't lose count.
- CapabilityInvoker observed-mid-call depth == 1 during a pending call.
- CapabilityInvoker exception path still decrements (try/finally).
- CapabilityInvoker without tracker doesn't throw.
Full solution dotnet test: 1243 passing (was 1235, +8). Pre-existing
Client.CLI Subscribe flake unchanged.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
