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lmxopcua/tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests/ModbusProtocolOptionsTests.cs
Joseph Doherty 55f4044a69 Task #140 — Modbus protocol-behavior knobs 
Adds ModbusDriverOptions knobs that ≥4 of 6 surveyed vendors expose:

1. MaxCoilsPerRead (ushort, default 2000) — separate from MaxRegistersPerRead
   because coil packing (1 bit per coil) and register packing (16 bits each)
   have different spec ceilings. Coil-array reads above the cap auto-chunk
   the same way register reads have always done. New ReadBitBlockChunkedAsync
   re-assembles per-chunk LSB-first bitmaps into one logical bitmap.

2. UseFC15ForSingleCoilWrites (default false) — forces FC15 (Write Multiple
   Coils with quantity=1) for single-coil writes instead of the default FC05
   (Write Single Coil). Safety / audit PLCs that only accept the multi-write
   codes need this.

3. UseFC16ForSingleRegisterWrites (default false) — same idea for FC16 vs
   FC06 on single holding-register writes.

4. DisableFC23 (default false) — placeholder no-op for the future block-read
   coalescing (#143) work that may opt into FC23 (Read/Write Multiple
   Registers). Lets deployments pre-disable FC23 for PLCs that won't accept
   it, before we ship the optimisation that emits it.

Defaults preserve the historical wire output bit-for-bit (FC05/FC06 for
singles, no chunking under 2000 coils, no FC23). Factory DTO + JSON-binding
extended with parallel fields.

6 new ModbusProtocolOptionsTests covering: defaults, FC05→FC15 forcing,
FC06→FC16 forcing, MaxCoilsPerRead chunking math (2500 coils / 2000 cap →
2 reads of 2000 + 500). Existing 209 unit tests still green.
2026-04-24 23:59:04 -04:00

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using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
namespace ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests;
/// <summary>
/// #140 protocol-behavior knobs: MaxCoilsPerRead, UseFC15ForSingleCoilWrites,
/// UseFC16ForSingleRegisterWrites, DisableFC23. Coverage focuses on default behaviour
/// (no change from pre-#140) and the wire-FC selection when the knobs are flipped.
/// </summary>
[Trait("Category", "Unit")]
public sealed class ModbusProtocolOptionsTests
{
private sealed class CapturingTransport : IModbusTransport
{
public readonly List<byte[]> Sent = new();
public Task ConnectAsync(CancellationToken ct) => Task.CompletedTask;
public Task<byte[]> SendAsync(byte unitId, byte[] pdu, CancellationToken ct)
{
Sent.Add(pdu);
// Return a minimal valid response per FC. We zero-fill the data slot but size it
// correctly so the driver's bitmap walker doesn't IndexOutOfRange on chunked reads.
switch (pdu[0])
{
case 0x05: case 0x06: case 0x0F: case 0x10:
return Task.FromResult(pdu); // echo
case 0x01: case 0x02:
{
var qty = (ushort)((pdu[3] << 8) | pdu[4]);
var byteCount = (byte)((qty + 7) / 8);
var resp = new byte[2 + byteCount];
resp[0] = pdu[0]; resp[1] = byteCount;
return Task.FromResult(resp);
}
case 0x03: case 0x04:
{
var qty = (ushort)((pdu[3] << 8) | pdu[4]);
var byteCount = (byte)(qty * 2);
var resp = new byte[2 + byteCount];
resp[0] = pdu[0]; resp[1] = byteCount;
return Task.FromResult(resp);
}
default:
return Task.FromResult(new byte[] { pdu[0], 0, 0 });
}
}
public ValueTask DisposeAsync() => ValueTask.CompletedTask;
}
[Fact]
public void Defaults_Match_Historical_Behaviour()
{
var opts = new ModbusDriverOptions();
opts.MaxCoilsPerRead.ShouldBe((ushort)2000);
opts.UseFC15ForSingleCoilWrites.ShouldBeFalse();
opts.UseFC16ForSingleRegisterWrites.ShouldBeFalse();
opts.DisableFC23.ShouldBeFalse();
}
[Fact]
public async Task Single_Coil_Write_Uses_FC05_By_Default()
{
var fake = new CapturingTransport();
var tag = new ModbusTagDefinition("Run", ModbusRegion.Coils, 0, ModbusDataType.Bool);
var drv = new ModbusDriver(new ModbusDriverOptions { Host = "f", Tags = [tag] }, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Run", true)], CancellationToken.None);
fake.Sent.Last()[0].ShouldBe((byte)0x05); // FC05 Write Single Coil
}
[Fact]
public async Task Single_Coil_Write_Uses_FC15_When_Forced()
{
var fake = new CapturingTransport();
var tag = new ModbusTagDefinition("Run", ModbusRegion.Coils, 0, ModbusDataType.Bool);
var opts = new ModbusDriverOptions { Host = "f", Tags = [tag], UseFC15ForSingleCoilWrites = true };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Run", true)], CancellationToken.None);
fake.Sent.Last()[0].ShouldBe((byte)0x0F); // FC15 Write Multiple Coils
}
[Fact]
public async Task Single_Register_Write_Uses_FC06_By_Default()
{
var fake = new CapturingTransport();
var tag = new ModbusTagDefinition("Sp", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16);
var drv = new ModbusDriver(new ModbusDriverOptions { Host = "f", Tags = [tag] }, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
fake.Sent.Last()[0].ShouldBe((byte)0x06); // FC06 Write Single Register
}
[Fact]
public async Task Single_Register_Write_Uses_FC16_When_Forced()
{
var fake = new CapturingTransport();
var tag = new ModbusTagDefinition("Sp", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16);
var opts = new ModbusDriverOptions { Host = "f", Tags = [tag], UseFC16ForSingleRegisterWrites = true };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
fake.Sent.Last()[0].ShouldBe((byte)0x10); // FC16 Write Multiple Registers
}
[Fact]
public async Task Coil_Array_Read_Auto_Chunks_At_MaxCoilsPerRead()
{
var fake = new CapturingTransport();
// 2500 coils with cap 2000 → 2 reads (2000 + 500).
var tag = new ModbusTagDefinition("Big", ModbusRegion.Coils, 0, ModbusDataType.Bool, ArrayCount: 2500);
var opts = new ModbusDriverOptions { Host = "f", Tags = [tag], MaxCoilsPerRead = 2000 };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.ReadAsync(["Big"], CancellationToken.None);
// Ignore the probe FC03 from InitializeAsync; count only FC01 reads.
var fc01s = fake.Sent.Where(p => p[0] == 0x01).ToList();
fc01s.Count.ShouldBe(2);
// First chunk asks for 2000.
((ushort)((fc01s[0][3] << 8) | fc01s[0][4])).ShouldBe((ushort)2000);
// Second chunk asks for 500.
((ushort)((fc01s[1][3] << 8) | fc01s[1][4])).ShouldBe((ushort)500);
}
}
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