Files
lmxopcua/tests/Drivers/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests/ModbusSubscribeOptionsTests.cs
T
Joseph Doherty aafb9d4929 v3(b1-modbus): RawPath identity seam — RawTagEntry-driven Modbus driver
Wave-B EXEMPLAR. Retire the pre-declared/blob-parse tag model; the driver now
builds its RawPath -> definition table from the artifact's RawTagEntry set via a
pure mapper.

- Contracts: rename ModbusEquipmentTagParser -> ModbusTagDefinitionFactory;
  TryParse(reference) -> FromTagConfig(tagConfig, rawPath) (def.Name = rawPath,
  no leading-brace heuristic); add inverse ToTagConfig(def) serializer; keep all
  strict-enum reads + guards; also read stringByteOrder/deadband/coalesceProhibited
  so a RawTagEntry round-trips the full authored def. Inspect() unchanged.
- Options: Tags(IReadOnlyList<ModbusTagDefinition>) -> RawTags(IReadOnlyList<RawTagEntry>).
- Driver: _tagsByName -> _tagsByRawPath (Ordinal); resolver byRawPath-only; build
  the table from RawTags at Initialize threading entry.WriteIdempotent onto each def;
  Discover/Teardown updated.
- Factory: remove ModbusTagDto/BuildTag/ValidateStringLength + ConfigDto.Tags; bind
  RawTags from driver-config JSON.
- CLI ModbusCommandBase.BuildOptions: serialise typed defs -> RawTagEntry via ToTagConfig.
- Tests: migrate Tags= -> RawTags via ModbusRawTags.Entries helper; parser tests ->
  FromTagConfig(rawPath); factory String-length/enum tests re-seated on the mapper seam.
- Propagated rename to ControlPlane EquipmentTagConfigInspector (outside Modbus projects).

Modbus.Tests 315/315, Addressing.Tests 161/161, Cli.Tests 72/72 green.
Docker-gated Driver.Modbus.IntegrationTests left untouched (won't compile against
the new API; expected).
2026-07-15 19:50:10 -04:00

185 lines
8.7 KiB
C#

using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
namespace ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests;
/// <summary>
/// #141 subscribe-side knobs: per-tag Deadband, driver-wide WriteOnChangeOnly.
/// </summary>
[Trait("Category", "Unit")]
public sealed class ModbusSubscribeOptionsTests
{
/// <summary>
/// Programmable transport: caller seeds a bank-of-registers value, each FC03 returns
/// the current value. Lets tests step the underlying register through a sequence and
/// observe how the deadband filter responds.
/// </summary>
private sealed class ProgrammableTransport : IModbusTransport
{
public ushort CurrentValue;
public int WritesSent;
public int FC06Count;
/// <summary>Establishes a connection (no-op for testing).</summary>
/// <param name="ct">The cancellation token.</param>
public Task ConnectAsync(CancellationToken ct) => Task.CompletedTask;
/// <summary>Sends a Modbus PDU and returns a response.</summary>
/// <param name="unitId">The Modbus unit ID.</param>
/// <param name="pdu">The protocol data unit to send.</param>
/// <param name="ct">The cancellation token.</param>
public Task<byte[]> SendAsync(byte unitId, byte[] pdu, CancellationToken ct)
{
switch (pdu[0])
{
case 0x03:
{
var qty = (ushort)((pdu[3] << 8) | pdu[4]);
var resp = new byte[2 + qty * 2];
resp[0] = 0x03; resp[1] = (byte)(qty * 2);
for (var i = 0; i < qty; i++)
{
resp[2 + i * 2] = (byte)(CurrentValue >> 8);
resp[3 + i * 2] = (byte)(CurrentValue & 0xFF);
}
return Task.FromResult(resp);
}
case 0x06:
WritesSent++; FC06Count++;
CurrentValue = (ushort)((pdu[3] << 8) | pdu[4]);
return Task.FromResult(pdu);
default:
return Task.FromResult(new byte[] { pdu[0], 0, 0 });
}
}
/// <summary>Disposes the transport (no-op for testing).</summary>
public ValueTask DisposeAsync() => ValueTask.CompletedTask;
}
/// <summary>Verifies that deadband filter suppresses changes below the threshold.</summary>
[Fact]
public async Task Deadband_Suppresses_SubThreshold_Changes()
{
var fake = new ProgrammableTransport();
var tag = new ModbusTagDefinition("Temp", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16, Deadband: 5.0);
var opts = new ModbusDriverOptions { Host = "f", RawTags = ModbusRawTags.Entries([tag]), Probe = new ModbusProbeOptions { Enabled = false } };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
var publishes = new List<short>();
drv.OnDataChange += (_, e) => publishes.Add((short)e.Snapshot.Value!);
// First publish always passes (no baseline). Then step the value:
// 100 → 102 (delta 2 < 5, suppressed) → 106 (delta 6 ≥ 5, published) → 107 (delta 1, suppressed).
var sub = await drv.SubscribeAsync(["Temp"], TimeSpan.FromMilliseconds(50), CancellationToken.None);
try
{
fake.CurrentValue = 100;
await Task.Delay(150);
fake.CurrentValue = 102;
await Task.Delay(150);
fake.CurrentValue = 106;
await Task.Delay(150);
fake.CurrentValue = 107;
await Task.Delay(150);
}
finally
{
await drv.UnsubscribeAsync(sub, CancellationToken.None);
}
// Expect at most 2 distinct values surfaced (100 baseline + 106). The 102 and 107 should
// be suppressed by the deadband. Ordering can be flaky on slow CI so we assert the set,
// not the exact sequence.
publishes.ShouldContain((short)100);
publishes.ShouldContain((short)106);
publishes.ShouldNotContain((short)102);
publishes.ShouldNotContain((short)107);
}
/// <summary>Verifies that null deadband publishes every value change.</summary>
[Fact]
public async Task Deadband_Null_Publishes_Every_Change()
{
var fake = new ProgrammableTransport();
var tag = new ModbusTagDefinition("Temp", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16); // no deadband
var opts = new ModbusDriverOptions { Host = "f", RawTags = ModbusRawTags.Entries([tag]), Probe = new ModbusProbeOptions { Enabled = false } };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
var publishes = new List<short>();
drv.OnDataChange += (_, e) => publishes.Add((short)e.Snapshot.Value!);
var sub = await drv.SubscribeAsync(["Temp"], TimeSpan.FromMilliseconds(50), CancellationToken.None);
try
{
fake.CurrentValue = 100; await Task.Delay(150);
fake.CurrentValue = 101; await Task.Delay(150); // tiny change still publishes
}
finally { await drv.UnsubscribeAsync(sub, CancellationToken.None); }
publishes.ShouldContain((short)100);
publishes.ShouldContain((short)101);
}
/// <summary>Verifies that WriteOnChangeOnly suppresses writes with identical repeated values.</summary>
[Fact]
public async Task WriteOnChangeOnly_Suppresses_Identical_Repeated_Writes()
{
var fake = new ProgrammableTransport();
var tag = new ModbusTagDefinition("Sp", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16);
var opts = new ModbusDriverOptions { Host = "f", RawTags = ModbusRawTags.Entries([tag]), WriteOnChangeOnly = true,
Probe = new ModbusProbeOptions { Enabled = false } };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None); // suppressed
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None); // suppressed
await drv.WriteAsync([new WriteRequest("Sp", (short)43)], CancellationToken.None); // distinct
fake.WritesSent.ShouldBe(2, "two distinct values written; identical-value repeats suppressed");
}
/// <summary>Verifies that WriteOnChangeOnly defaults to false and writes all values.</summary>
[Fact]
public async Task WriteOnChangeOnly_Default_False_Always_Writes()
{
var fake = new ProgrammableTransport();
var tag = new ModbusTagDefinition("Sp", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16);
var opts = new ModbusDriverOptions { Host = "f", RawTags = ModbusRawTags.Entries([tag]),
Probe = new ModbusProbeOptions { Enabled = false } };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
fake.WritesSent.ShouldBe(3, "default false → every write goes to the wire");
}
/// <summary>Verifies that external reads invalidate the WriteOnChangeOnly cache.</summary>
[Fact]
public async Task WriteOnChangeOnly_Cache_Invalidated_By_Read_Divergence()
{
var fake = new ProgrammableTransport();
var tag = new ModbusTagDefinition("Sp", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16);
var opts = new ModbusDriverOptions { Host = "f", RawTags = ModbusRawTags.Entries([tag]), WriteOnChangeOnly = true,
Probe = new ModbusProbeOptions { Enabled = false } };
var drv = new ModbusDriver(opts, "m1", _ => fake);
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
fake.FC06Count.ShouldBe(1);
// External change at the PLC (panel writes 99). Read sees 99 → invalidates the cache.
fake.CurrentValue = 99;
var read = await drv.ReadAsync(["Sp"], CancellationToken.None);
read[0].Value.ShouldBe((short)99);
// Now writing 42 again should NOT be suppressed because the cache was invalidated.
await drv.WriteAsync([new WriteRequest("Sp", (short)42)], CancellationToken.None);
fake.FC06Count.ShouldBe(2, "post-divergence write not suppressed");
}
}