# Modbus Driver In-process native-protocol driver that exposes Modbus-TCP devices as OPC UA variable nodes. It runs inside the OtOpcUa server's .NET 10 AnyCPU process and speaks Modbus-TCP directly over a socket — no gateway, no sidecar, no bitness constraint. Modbus has no discovery protocol and no native push model, so the address space is built entirely from pre-declared tags and subscriptions are a polling overlay on top of `IReadable`. For the driver spec (capability surface, config shape, byte-order matrix), see [docs/v2/driver-specs.md §2](../v2/driver-specs.md). For the manual test client, see [Driver.Modbus.Cli.md](../Driver.Modbus.Cli.md). For the integration fixture coverage map, see [Modbus-Test-Fixture.md](Modbus-Test-Fixture.md). ## Project Layout | Project | Role | |---------|------| | `src/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus/` | The driver — `ModbusDriver` plus the `ModbusTcpTransport` socket layer, the connectivity probe, and the auto-prohibition planner. | | `src/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Addressing/` | Shared address grammar — `ModbusAddressParser` and the `ModbusRegion` / `ModbusDataType` / `ModbusByteOrder` / `ModbusFamily` enums. Lives in its own assembly so the Admin UI and the parser can speak about addresses without a transport dependency. | | `src/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Contracts/` | `ModbusDriverOptions` + `ModbusTagDefinition` config records bound from the driver's `DriverConfig` JSON. | ## Capability Surface `ModbusDriver : IDriver, ITagDiscovery, IReadable, IWritable, ISubscribable, IHostConnectivityProbe, IPerCallHostResolver, IDisposable, IAsyncDisposable` (`Driver.Modbus/ModbusDriver.cs`). There is **no `IAlarmSource`** and no `IHistoryProvider` — the Modbus protocol expresses neither, so those capabilities are out of scope by design. | Capability | Implementation entry point | Notes | |------------|---------------------------|-------| | `ITagDiscovery` | `DiscoverAsync` | Emits one `Modbus/{tag}` variable per pre-declared tag; Modbus has no browse protocol, so the driver returns exactly the configured `Tags`. | | `IReadable` | `ReadAsync` → `ReadOneAsync` / `ReadCoalescedAsync` | FC01/FC02 for coils, FC03/FC04 for registers; auto-chunks reads past the per-device cap. | | `IWritable` | `WriteAsync` → `WriteOneAsync` | FC05/FC15 for coils, FC06/FC16 for registers; `BitInRegister` writes do a per-register read-modify-write under a lock. `DiscreteInputs` / `InputRegisters` are read-only and return `BadNotWritable`. | | `ISubscribable` | `SubscribeAsync` driven by the shared `PollGroupEngine` | No native push — subscriptions become per-tag polling groups with an optional per-tag `Deadband` filter. | | `IHostConnectivityProbe` | `ProbeLoopAsync` + `GetHostStatuses` | Periodic cheap FC03 at `Probe.ProbeAddress`; `HostName` is the `Host:Port` string surfaced to the Admin UI. | | `IPerCallHostResolver` | `ResolveHost` | Routes each call to a per-slave breaker key (`Host:Port/unit{UnitId}`) so a dead RTU slave behind a multi-unit gateway opens its own breaker. | ## Addressing Model Every exposed register is a pre-declared `ModbusTagDefinition` (Region, Address, DataType, ByteOrder, …). Tag spreadsheets are typically authored as address strings parsed by `ModbusAddressParser` at config-bind time; the grammar is `[.][:[]][:][:]`: | Form | Example | Meaning | |------|---------|---------| | Modicon digits | `40001` / `400001` | Holding register 0 (5- or 6-digit form), default Int16 | | Mnemonic prefix | `HR1` / `IR1` / `C100` / `DI5` | Region prefix + 1-based register number | | Bit suffix | `40001.5` | Bit 5 of holding register 0 (`BitInRegister`) | | Explicit type | `40001:F` / `40001:STR20` | Float32 / 20-char ASCII string | | Word order | `40001:F:CDAB` | Float32 with word-swap byte order | | Array | `40001:F:5` | Float32[5] (consumes HR[0..9]) | The four regions (`Coils`, `DiscreteInputs`, `InputRegisters`, `HoldingRegisters`) map directly to function-code selection. The type codes are aligned with Wonderware DASMBTCP and the Ignition Modbus driver so pasted tag sheets translate without manual rewriting. **Byte/word order** is the most common production misconfiguration. The four `ModbusByteOrder` mnemonics — `ABCD` (BigEndian, spec default), `CDAB` (WordSwap), `BADC` (ByteSwap), `DCBA` (FullReverse) — describe how bytes A/B/C/D appear across consecutive registers when decoding a multi-register value. ## Device Profiles `ModbusDriverOptions.Family` selects a parser family-native branch (`ModbusFamily`): - **`Generic`** (default) — only Modicon (`4xxxx`) and mnemonic (`HR1`, `C100`) forms are accepted. - **`DL205`** — AutomationDirect DirectLOGIC. V-memory (octal) → HoldingRegisters, `Y`/`C` → Coils, `X`/`SP` → DiscreteInputs. Strings can be packed low-byte-first via `ModbusTagDefinition.StringByteOrder` (the grammar can't express this — see `ModbusStringByteOrder`). - **`MELSEC`** — Mitsubishi. D-registers → HoldingRegisters, `X` → DiscreteInputs, `Y`/`M` → Coils; the `MelsecSubFamily` selector switches Q/L/iQR (hex) vs FX (octal) X/Y interpretation. Per-family register caps are honoured through `MaxRegistersPerRead` / `MaxRegistersPerWrite` / `MaxCoilsPerRead` (e.g. DL205/DL260 cap reads at 128, Mitsubishi Q at 64); the driver auto-chunks larger reads into consecutive requests. ## Coalesced Reads + Auto-Prohibition When `MaxReadGap > 0` the read planner (`ReadCoalescedAsync`) groups tags in the same `(UnitId, Region)`, sorts by address, and merges near-adjacent register spans (gap ≤ `MaxReadGap`, total span ≤ the read cap) into a single FC03/FC04 PDU, then slices the response back into per-tag values. If a coalesced read hits a Modbus exception (illegal/protected register), the offending range is recorded as **auto-prohibited** so the planner stops re-coalescing across it; the surviving members fall back to per-tag reads in the same scan. Setting `AutoProhibitReprobeInterval` starts a background loop that periodically retries prohibited ranges and uses bisection to narrow a multi-register prohibition down to the actual offending register(s). Per-tag escape hatch: `ModbusTagDefinition.CoalesceProhibited`. ## Configuration `ModbusDriverOptions` (`Driver.Modbus.Contracts/ModbusDriverOptions.cs`) binds from the driver's `DriverConfig` JSON. Key fields: - **Endpoint** — `Host`, `Port` (default 502), `UnitId`, `Timeout`. Per-tag `UnitId` overrides drive multi-slave gateway topology. - **`Tags`** — the pre-declared `ModbusTagDefinition` list; this *is* the address space. - **`Probe`** — connectivity-probe interval / timeout / probe register (default register 0). - **Read/write caps** — `MaxRegistersPerRead` (125), `MaxRegistersPerWrite` (123), `MaxCoilsPerRead` (2000), plus `MaxReadGap` and `AutoProhibitReprobeInterval` for coalescing. - **Function-code overrides** — `UseFC15ForSingleCoilWrites`, `UseFC16ForSingleRegisterWrites` for PLCs that only accept multi-write codes. - **Resilience** — `AutoReconnect`, `KeepAlive`, `IdleDisconnectTimeout`, `Reconnect` backoff, and `WriteOnChangeOnly` redundant-write suppression. Full per-field descriptions live in `ModbusDriverOptions.cs`. The JSON skeleton is reproduced in [docs/v2/driver-specs.md §2](../v2/driver-specs.md). ## Testing - **Unit tests** — `tests/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests/` (driver behaviour via a fake transport) and `tests/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Addressing.Tests/` (the address grammar). - **Integration tests** — `tests/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/` run against the Docker Modbus simulator fixture. See [Modbus-Test-Fixture.md](Modbus-Test-Fixture.md) for the coverage map and the `MODBUS_SIM_ENDPOINT` wiring. - **Manual client** — [Driver.Modbus.Cli.md](../Driver.Modbus.Cli.md). ## Operational Notes - **Wrong-endian readings are silently plausible.** A byte-order misconfiguration produces a wrong number, not a Bad quality code — surface byte-order mismatches as data-validation alerts, not status codes (see [docs/v2/driver-specs.md §2](../v2/driver-specs.md)). - **`WriteOnChangeOnly` + write-only tags** — the suppression cache is only invalidated by a read that returns a divergent value. A tag that is never subscribed/polled never refreshes its cache entry, so a re-asserted value can be suppressed indefinitely. Subscribe every tag that needs deterministic re-writes, or leave the option off. - **Auto-prohibited ranges** are visible via `GetAutoProhibitedRanges` and logged on first occurrence / on clear — use them to find protected register holes in a device's map.