fd0bec4ffe
Every concern the 7-agent review parked is now decided and integrated: - universal browser: in-flight capture coalescing keyed (driverType, config-hash) + global cap of 4 concurrent captures; CanBrowse catches a throwing TryCreate and defensively shuts down the throwaway instance; cleanup ShutdownAsync bounded at 10s (R2-01); picker Refresh = close + re-capture. Coalesced sessions share an immutable tree, so DisposeAsync drops the session's reference, not the tree. - mtconnect: UNAVAILABLE pinned to BadNoCommunication (fleet's BadCommunicationError stays reserved for the driver's own transport failures); TIME_SERIES sampleCount flows into ArrayDim; Subscribe timeout bounds only the stream-start handshake; library version/TFM folded into the license checklist. - mqtt: browse rebirth is an explicit DriverOperator-gated "Request rebirth" button (RequestRebirthAsync(scope)) - never fired by open/root/expand; hand-rolled reconnect loop committed for P1 (MQTTnet v5 dropped ManagedMqttClient); Wave-2-start library re-verification checkbox; implement from the Sparkplug v3.0 spec text. - bacnet: P1 opens with a first-spike checklist (package TFM, BBMD/ segmented-RPM/COV API smoke, unicast-I-Am fixture behavior); AdminUI-node browse registers a second foreign device - BBMD FD-table sizing note. - sql-poll: split-node browse needs env parity for Sql__ConnectionStrings__ refs on admin nodes (actionable error + session-only pasted literal); one-row-per-key query contract (last-wins + rate-limited warning); absent key -> BadNoData; operationTimeout > commandTimeout authoring rule; Browser->Driver.Sql SqlClient transitive on AdminUI accepted on record. - omron: FINS framer gated on W227 + live golden vectors; CIP string layout is the first P1 live-gate item; AbCip harness static-init anti-pattern note; writable-defaults-true operator warning. - modbus-rtu: first P1 step confirms pymodbus exposes framer=rtu on a TCP server (custom-script fallback otherwise). - program doc: new cross-cutting rule - driver ctors must be connection-free (the universal browser's CanBrowse throwaway instances depend on it).
342 lines
19 KiB
Markdown
342 lines
19 KiB
Markdown
# Modbus RTU (RTU-over-TCP) — implementation design
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**Status:** Design / build-ready. Not implemented.
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**Date:** 2026-07-15
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**Scope:** Add the Modbus **RTU-over-TCP** transport mode to the existing `ModbusDriver`.
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**Descoped (user, 2026-07-15):** the direct-serial transport (`System.IO.Ports` /
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`ModbusRtuTransport`) is **not being built**. RTU buses are reached exclusively via a
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serial→Ethernet gateway (§3 explains why that's the right topology for this containerised
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server anyway). §2b and the serial-specific config/fixture material are retained below,
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clearly marked, as a design record should bare-metal serial ever be needed.
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**Research input:** [`docs/research/drivers/modbus-rtu.md`](../research/drivers/modbus-rtu.md).
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**Related:** [`docs/drivers/Modbus.md`](../drivers/Modbus.md),
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[`docs/v2/modbus-addressing.md`](../v2/modbus-addressing.md),
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[`docs/plans/2026-07-15-universal-discovery-browser-design.md`](2026-07-15-universal-discovery-browser-design.md).
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---
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## 1. Motivation + extend-vs-new verdict — **EXTEND**
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Add Modbus RTU as **a new `IModbusTransport` implementation behind the existing
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transport seam + driver-level config plumbing to select it.** Do **not** create a
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sibling driver. The Modbus application protocol above the wire (register model, function
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codes FC01–06/15/16, exception-PDU convention, data-type codecs, byte order, arrays,
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strings, BCD, bit-in-register, read planner + coalescing, auto-prohibit, deadband,
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write path, connectivity probe, OPC-UA materialisation, HistoryRead) is **byte-for-byte
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identical** across TCP and RTU — only the wire framing and the physical link differ. A
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second driver would clone that entire surface for zero benefit.
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### The exact seam this plugs into
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The driver already splits the *PDU* (function code + data) from the *transport*
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(framing + link I/O) behind one interface:
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`src/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus/IModbusTransport.cs`
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```csharp
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public interface IModbusTransport : IAsyncDisposable
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{
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Task ConnectAsync(CancellationToken ct);
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Task<byte[]> SendAsync(byte unitId, byte[] pdu, CancellationToken ct); // pdu = [fc, ...data], returns response PDU
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}
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```
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- **`ModbusDriver`** builds every request as a raw PDU `byte[]` and calls
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`transport.SendAsync(ResolveUnitId(tag), pdu, ct)` (e.g. `ModbusDriver.cs` lines
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~1014/1035/1052/1069/1142/1154). It never touches MBAP, sockets, or CRC.
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- **`ModbusTcpTransport`** is the *only* place MBAP framing, the transaction-id counter
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(`_nextTx`), and `TcpClient`/`NetworkStream` I/O live — specifically `SendOnceAsync`
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(`ModbusTcpTransport.cs` lines 231–296) wraps the PDU as
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`[TxId(2)][Proto=0(2)][Length(2)][UnitId(1)] + PDU`, single-flights via `SemaphoreSlim
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_gate`, and owns reconnect/keepalive/idle-disconnect.
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- **The transport is injected**: `ModbusDriver`'s ctor takes
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`Func<ModbusDriverOptions, IModbusTransport>? transportFactory`
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(`ModbusDriver.cs` lines 98–114); the default closure builds `ModbusTcpTransport`.
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Tests already substitute in-memory fakes through this hook.
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So the work is **purely additive**: one new transport class + a CRC-16 helper +
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config/factory selection + one AdminUI field. **Zero** changes to codecs, planner,
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coalescing, health, materialisation, HistoryRead, or the address parser.
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### New/changed files at a glance
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| File | Change |
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| `…/Driver.Modbus/ModbusCrc.cs` | **new** — CRC-16 (poly `0xA001`) helper |
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| `…/Driver.Modbus/ModbusRtuFraming.cs` | **new** — shared ADU frame/deframe + FC-aware response sizing |
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| ~~`…/Driver.Modbus/ModbusRtuTransport.cs`~~ | ~~`System.IO.Ports.SerialPort` transport~~ — **descoped** (§2b kept as design record) |
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| `…/Driver.Modbus/ModbusRtuOverTcpTransport.cs` | **new** — RTU framing over a socket |
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| `…/Driver.Modbus/ModbusSocketLifecycle.cs` | **new** (refactor) — socket connect/reconnect/keepalive/idle extracted from `ModbusTcpTransport`, shared by TCP + RtuOverTcp |
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| `…/Driver.Modbus/ModbusTransportFactory.cs` | **new** — `Create(ModbusDriverOptions)` switch on `Transport`; used by the driver default closure **and** the probe |
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| `…/Driver.Modbus.Contracts/ModbusDriverOptions.cs` | add the `Transport` discriminator enum |
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| `…/Driver.Modbus/ModbusDriverFactoryExtensions.cs` | DTO fields + wire the default closure to `ModbusTransportFactory.Create` |
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| `…/Driver.Modbus/ModbusDriverProbe.cs` | build the transport via `ModbusTransportFactory` (currently hardcodes `new ModbusTcpTransport`, line 77) |
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| `…/Driver.Modbus/ModbusDriver.cs` | `BuildSlaveHostName` endpoint string reflects the transport (COM/gateway vs host:port) |
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| `…/AdminUI/…/Drivers/ModbusDriverPage.razor` | `Transport` selector (Tcp / RtuOverTcp) |
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**No new package dependency** — `System.IO.Ports` was only needed by the descoped
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direct-serial transport.
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---
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## 2. Transport implementations
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The transport produces the **RTU ADU**: `[slaveAddress(1)][PDU][CRC-lo][CRC-hi]` —
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no MBAP header, no transaction id. CRC-16 (poly `0xA001` reflected, appended
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**low byte first**) replaces TCP's transport-level integrity. The RTU framing/deframing
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lives in its own `ModbusRtuFraming` class (framing is byte-stream-agnostic, so a future
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direct-serial transport would share it unchanged).
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### 2a. `ModbusRtuFraming` (shared)
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- `byte[] BuildAdu(byte unitId, ReadOnlySpan<byte> pdu)` → `[unit][pdu][crcLo][crcHi]`.
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- `int ExpectedResponseLength(byte functionCode)` / a streaming reader that determines
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response length **by parsing the function code** (RTU frames are length-less — see
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§7). Read `addr(1)` + `fc(1)` first, then:
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- **Exception** (`fc & 0x80`): read `excCode(1) + CRC(2)` → 5-byte ADU total; throw
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`ModbusException(fc & 0x7F, excCode, …)` after CRC-validating.
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- **Read responses** FC01/02/03/04: read `byteCount(1)`, then `byteCount + CRC(2)`.
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- **Write echoes** FC05/06/15/16: fixed `addr + qty/value(4) + CRC(2)` → read 6 more.
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- After the full ADU is in hand: validate the trailing CRC-16 (mismatch →
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`ModbusTransportDesyncException(DesyncReason.…)` so it maps onto the existing
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`BadCommunicationError` handling), strip the address byte + CRC, and return the bare
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response PDU `[fc, ...data]` — exactly what `SendAsync`'s callers already decode.
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### 2b. ~~`ModbusRtuTransport : IModbusTransport` (direct serial)~~ — **DESCOPED** (design record only)
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> Not being built (user, 2026-07-15). Kept verbatim below so a future bare-metal-serial
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> need doesn't re-derive it — the R2-01 `BaseStream`-ignores-`ReadTimeout` finding in
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> particular.
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- Wraps a `System.IO.Ports.SerialPort`. `ConnectAsync` opens the port with the
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configured `PortName`/`BaudRate`/`DataBits`/`Parity`/`StopBits`; sets
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`ReadTimeout`/`WriteTimeout` from `ModbusDriverOptions.Timeout`.
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- **Per-op deadline (R2-01): `SerialPort.ReadTimeout` only governs the synchronous read
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API — async reads over `SerialPort.BaseStream` ignore `ReadTimeout`/`WriteTimeout`
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entirely** (the exact wall-clock gap class R2-01 found in the S7 driver, where async
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socket reads ignored `ReadTimeout` and a frozen peer wedged the poll). Every
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transaction MUST therefore run under a linked-CTS
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`CancellationTokenSource.CancelAfter(Options.Timeout)` deadline, mirroring
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`ModbusTcpTransport.SendOnceAsync` — timeout ⇒ close the port + surface
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`ModbusTransportDesyncException(DesyncReason.Timeout)`, distinct from caller
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cancellation (no teardown).
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- `SendAsync`: single-flight via the same `SemaphoreSlim _gate` pattern (**mandatory** on
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RTU — no TxId means at most one transaction on the bus at a time). Enforce ≥3.5-char
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inter-frame idle before transmit (computed from baud/word-length, or the
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`InterFrameDelayMs` override), write the ADU, then read the response using
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`ModbusRtuFraming`'s FC-aware sizing, backstopped by the linked-CTS per-op deadline.
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- Failure model is **simpler than TCP** — a COM port doesn't "drop" the way a NAT'd
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socket does. On an I/O error or CRC desync, close + reopen the port once and retry
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(reuse the single-retry shape from `ModbusTcpTransport.SendAsync`); no keepalive, no
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idle-disconnect, no geometric socket backoff.
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### 2c. `ModbusRtuOverTcpTransport : IModbusTransport` (RTU tunnelled over a socket)
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- **Identical RTU framing** (`ModbusRtuFraming`) but the byte stream rides a
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`TcpClient`/`NetworkStream` to a serial→Ethernet gateway instead of a COM port.
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- **Reuses the hardened socket lifecycle** — extract the connect (IPv4-preference DNS),
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`SO_KEEPALIVE`, idle-disconnect, and reconnect-with-backoff machinery from
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`ModbusTcpTransport` into `ModbusSocketLifecycle` and have **both** TCP variants
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compose it. The *only* delta from `ModbusTcpTransport` is: CRC framing instead of MBAP,
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and no transaction id. Low-risk to build and test (see §9).
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**Modbus ASCII is out of scope** — a third, rarely-used framing (`:`-delimited hex,
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LRC instead of CRC). It would be another `IModbusTransport` behind the same seam if ever
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needed; not planned.
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---
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## 3. Why RTU-over-TCP only (the serial reality that drove the descope)
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OtOpcUa deploys as a containerised Linux server (docker-dev rig; docker host
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`10.100.0.35`) that is generally **not** attached to an RS-485 bus. The idiomatic
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topology is a **serial→Ethernet gateway** (Moxa NPort, Digi One, Lantronix, USR-TCP232)
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on the RS-485 multidrop, exposed over TCP. The server talks **RTU-over-TCP** to it — a
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plain socket, **zero host-device mapping, no `System.IO.Ports` dependency, no udev
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fragility**, and it reuses the already-hardened socket lifecycle.
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Direct serial was descoped because every one of its costs lands on the deployment side:
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`SerialPort` is macOS-weak (this repo's dev machine — untestable locally), containers
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need explicit `--device=` mapping, USB-serial adapters re-enumerate across replug
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(needing `/dev/serial/by-id/...` pinning), and Windows-container COM passthrough is
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unreliable. A gateway sidesteps all of it for the price of commodity hardware.
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---
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## 4. Config JSON shape
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**Per-tag `TagConfig` is unchanged.** `ModbusTagDefinition` / `ModbusTagDto` already carry
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everything RTU needs — including the per-tag **`UnitId`** override that makes an RS-485
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multi-drop bus "just work" (the read planner already refuses to coalesce across UnitIds;
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`ResolveUnitId` + `BuildSlaveHostName` already key per-slave resilience by unit). The
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`ModbusTagConfigEditor` in `TagConfigEditorMap` needs **no change**. Additions are
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**driver-level only**.
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One new field on `ModbusDriverOptions` (and a matching optional field on
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`ModbusDriverConfigDto`):
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| Field | Type | Applies to | Notes |
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|---|---|---|---|
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| `Transport` | `ModbusTransportMode` enum (`Tcp`\|`RtuOverTcp`) | all | **Default `Tcp`** (back-compat: existing configs omit it). An `Rtu` member is reserved for a future direct-serial leg — do not number-squat it |
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| `Host` / `Port` | reused | Tcp, **RtuOverTcp** | the gateway's socket for RtuOverTcp |
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`Host`/`Port`/`UnitId`/`TimeoutMs`/`MaxRegistersPerRead`/keepalive/reconnect all stay and
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apply identically to both modes. The descoped direct-serial leg would have added
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`SerialPort`/`BaudRate`/`DataBits`/`Parity`/`StopBits`/`InterFrameDelayMs` (with local
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enums in Contracts, NOT the `System.IO.Ports` BCL enums, to keep Contracts
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backend-dep-free) — none of that ships now. Per-tag multi-drop still works today via the
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existing per-tag `unitId` override (the RS-485 drops sit behind the gateway; the planner
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already refuses to coalesce across UnitIds).
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### Example — RTU-over-TCP to a serial→Ethernet gateway
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```json
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{
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"transport": "RtuOverTcp",
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"host": "10.20.0.50",
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"port": 4001,
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"unitId": 1,
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"timeoutMs": 1500,
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"tags": [
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{ "name": "Temp", "addressString": "30001:I" },
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{ "name": "Alarm", "region": "DiscreteInputs", "address": 5, "dataType": "Bool" }
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]
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}
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```
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Same `host`/`port` shape as Modbus TCP, but the wire frames are raw RTU (address + CRC,
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no MBAP). The `Transport` discriminator **must match the gateway's configured mode**:
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`"Tcp"` for a gateway doing Modbus/TCP translation, `"RtuOverTcp"` for
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transparent/RTU-passthrough. The two wire formats are mutually unparseable.
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---
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## 5. The `JsonStringEnumConverter` trap — **must handle**
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Per the project-wide enum-serialization bug (memory: *Driver enum-serialization bug*),
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driver pages serialize enums but factory DTOs are string-typed. The new `Transport` enum
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**must round-trip as a string**, or an AdminUI-authored RTU config faults the driver at
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deploy.
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Good news — the plumbing is **already correct on both ends** and just needs the new field:
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- `ModbusDriverPage.razor`'s serializer (`_jsonOpts`, line 328–334) already has
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`Converters = { new JsonStringEnumConverter() }` + camelCase. It serializes a
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`ModbusDriverOptions` directly, so a `ModbusTransportMode` on `ModbusDriverOptions`
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emits as `"RtuOverTcp"` automatically.
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- `ModbusDriverFactoryExtensions` DTO fields are typed `string?` and parsed via the
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existing `ParseEnum<T>` helper (case-insensitive) — mirror how `Family` /
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`MelsecSubFamily` are already handled. **Do not** type the DTO field as the enum.
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- `ModbusDriverProbe._opts` (line 19–24) already carries `JsonStringEnumConverter`.
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Add a driver-page/factory round-trip unit test asserting `"transport":"RtuOverTcp"`
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(string, not a number) — the same guard that caught S7/Modbus previously.
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---
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## 6. Capability mapping — identical to TCP, four deltas
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Same register model, function codes, data types, read/write semantics, coalescing,
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deadband, `WriteOnChangeOnly`, connectivity probe (FC03@0). **Read + write both fully
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supported.** The only deltas are below the seam:
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| Delta | TCP (today) | RtuOverTcp (added) |
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|---|---|---|
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| Physical link | `TcpClient` | `TcpClient` (to the serial→Ethernet gateway) |
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| Framing | 7-byte MBAP + TxId | `[addr][PDU][CRC-16]`, no TxId |
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| Integrity | TCP guarantees | app-level CRC-16 (`0xA001`) |
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| Unit/slave id | often 1 | **central** — one bus, many drops by unit id (already supported per-tag) |
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| Response length | MBAP `Length` field | **no length field** → FC-aware sizing (§7) |
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| Timing | none | single-flight mandatory (no TxId); bus-side T3.5 idle gating is the gateway's job |
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`ResolveHost` / `BuildSlaveHostName` (`ModbusDriver.cs` line 162,
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`"{host}:{port}/unit{n}"`) already produces the right per-slave resilience key for
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RtuOverTcp (`gatewayHost:port/unit{n}`) — no change needed.
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### Browseability — **NO** (reconcile w/ universal browser)
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Modbus RTU is **not browsable** — a flat, untyped register space with no discovery
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protocol, identical to Modbus TCP. `SupportsOnlineDiscovery=false`; the driver keeps
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`RediscoverPolicy = Once` and materialises the authored tag list into a flat folder. No
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browser (universal or bespoke). The AdminUI `ModbusAddressPickerBody`/`ModbusAddressBuilder`
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is an address *builder* (grammar helper), not a live browser, and stays valid for RTU.
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---
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## 7. Resilience / timeout
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- **Per-op deadline.** The linked-CTS `CancelAfter(Options.Timeout)` per-op deadline
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(exactly as `ModbusTcpTransport.SendOnceAsync` does today) is the hard backstop; a
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frozen gateway must never wedge a poll (R2-01). FC-aware sizing is the length signal —
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there is no MBAP length field to trust. Bus-side T1.5/T3.5 inter-frame timing is the
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serial→Ethernet gateway's responsibility, not this transport's.
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- **The one genuinely new correctness risk: RTU response sizing without a length field.**
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Get the FC-aware calculation + exception-PDU short-frame detection right (§2a), or the
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read hangs to timeout / mis-frames. Cover exhaustively with fake-stream unit tests
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(below). A CRC mismatch or truncated frame maps to
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`ModbusTransportDesyncException` → the existing single reconnect-retry + status mapping.
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- **RtuOverTcp reuses the socket lifecycle** — keepalive, idle-disconnect, reconnect
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backoff, IPv4-preference connect — unchanged from `ModbusTcpTransport` via the extracted
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`ModbusSocketLifecycle`.
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- **Single-flight is mandatory on RTU** (no TxId to correlate an interleaved response) —
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the existing `_gate` semaphore already provides it; keep it in both new transports.
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---
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## 8. Test fixtures
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1. **RTU-over-TCP against pymodbus (highest ROI, no serial hardware).** Add an
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`rtu_over_tcp` profile to the existing fixture
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`tests/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/Docker/docker-compose.yml`
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(alongside `standard`/`dl205`/`mitsubishi`/`s7_1500`/`exception_injection`), running
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`pymodbus.simulator` in **RTU-framed-TCP** mode. The existing profiles all share host
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port `:5020` and are mutually exclusive by design; bind `rtu_over_tcp` to a fresh port
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so it can co-run with `standard` (and sidestep the known shared-port stale-container
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trap). Add the `project=lmxopcua` label per the program-doc fixture convention (the
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checked-in compose services carry no `labels:` entries today). Drive it via
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`lmxopcua-fix up modbus rtu_over_tcp` + `lmxopcua-fix sync modbus`. This exercises the
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real CRC + FC-aware framing end-to-end with **no serial anything** — the only
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genuinely new logic. **First P1 step: confirm the pymodbus simulator entrypoint this
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fixture uses actually exposes the RTU framer on a TCP server** (pymodbus 3.x supports
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`framer=rtu` on TCP servers generally, but the simulator CLI/json config may not
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surface the knob); if it doesn't, fall back to a small custom server script alongside
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the existing `exception_injector.py` pattern.
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2. **`diagslave`** (TCP RTU mode) for manual/soak — optional, not unit CI.
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3. ~~Virtual serial pair (socat pty ↔ pymodbus RTU serial slave; com0com on Windows)~~ —
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**descoped with the direct-serial transport**; would return with it.
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**Unit-level (no PLC):**
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- `ModbusCrc` table-driven test against known Modbus CRC vectors.
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- `ModbusRtuFraming` / `ModbusRtuOverTcpTransport` against an **in-memory duplex stream
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fake** (fake one level below the existing `IModbusTransport` fakes — the byte stream)
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asserting ADU build, CRC append/validate, FC-aware response parse for each FC group,
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and exception-PDU short-frame handling.
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||
- Driver-page/factory round-trip test for the `JsonStringEnumConverter` guard (§5).
|
||
|
||
**Recommended CI shape:** unit (CRC + framing + config round-trip) + the `rtu_over_tcp`
|
||
pymodbus profile for integration. No live serial gate — nothing serial ships.
|
||
|
||
---
|
||
|
||
## 9. Phasing + effort
|
||
|
||
**Effort: LOW — likely the lowest-effort item on the driver roadmap.** The seam is
|
||
purpose-built; net-new code is small and localised.
|
||
|
||
- **P0 — shared plumbing:** `ModbusCrc` (~30 lines) + `ModbusRtuFraming` (FC-aware sizing)
|
||
+ extract `ModbusSocketLifecycle` from `ModbusTcpTransport` (mechanical refactor;
|
||
`ModbusTcpTransport` keeps behaviour) + `ModbusTransportFactory.Create` + the `Transport`
|
||
field on `ModbusDriverOptions`/DTO + factory closure + probe wiring. Unit tests for CRC +
|
||
framing + config round-trip.
|
||
- **P1 — `ModbusRtuOverTcpTransport`** (reuses the socket lifecycle; delta = CRC framing +
|
||
FC-aware length, no TxId) + `rtu_over_tcp` pymodbus docker profile + the AdminUI
|
||
`Transport` selector. No host-device dependency, testable on the existing pymodbus
|
||
harness, reuses hardened socket code.
|
||
- ~~**P2 — `ModbusRtuTransport`** (direct serial)~~ — **DESCOPED** (user, 2026-07-15).
|
||
§2b holds the design record if it's ever revived.
|
||
|
||
**Top risk:** the length-less-frame response-sizing correctness (FC-aware sizing +
|
||
exception-PDU short frames). Mitigated by exhaustive fake-stream framing tests and the
|
||
pymodbus RTU-over-TCP integration profile. All the serial-specific risks (T1.5/T3.5
|
||
gating, device enumeration, container device mapping) left with the descope.
|