dohertj2/lmxopcua
1
0
Fork 0
Code Issues 1 Pull Requests 2 Actions Packages Projects Releases Wiki Activity
Files
99016c3137458057fefbfdf5b497e01865526807
lmxopcua/tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests/ModbusDriverTests.cs
Joseph Doherty 850b816873 Task #137 — Modbus per-tag suffix grammar (type / bit / byte-order / array) 
Adds the full Wonderware/Kepware/Ignition-style address suffix grammar so
users paste tag spreadsheets without per-tag manual translation:

  <region><offset>[.<bit>][:<type>[<len>]][:<order>][:<count>]

Examples that now parse end-to-end:
  40001                          HoldingRegisters[0], Int16
  400001                         same, 6-digit form
  40001.5                        bit 5 of HR[0]
  40001:F                        Float32 (HR[0..1])
  40001:F:CDAB                   word-swapped Float32
  40001:STR20                    20-char ASCII string
  HR1:DI                         Int32 via mnemonic region
  C100                           Coils[99] (mnemonic)
  40001:F:5                      Float32[5] array (3-field shorthand)
  40001:I:CDAB:10                Int16[10] word-swapped (4-field strict)

Driver-side plumbing:
- ModbusAddressParser + ParsedModbusAddress in the shared Addressing
  assembly. 91 parser tests (every grammar variant + malformed shapes).
- ModbusDataType / ModbusByteOrder moved to shared (with the same namespace
  so callers compile unchanged). ModbusByteOrder gains ByteSwap (BADC) and
  FullReverse (DCBA) alongside the existing BigEndian (ABCD) and WordSwap
  (CDAB).
- NormalizeWordOrder extended to honor all four orders for both 4-byte and
  8-byte values. Old WordSwap behavior preserved bit-for-bit.
- ModbusTagDefinition gains optional ArrayCount.
- ReadOneAsync / WriteOneAsync handle array fan-out: one FC03/04 read covers
  N consecutive register-typed elements, decoded into a typed array (short[],
  float[], etc.). Coil arrays use FC01 reads + FC15 writes (FakeTransport
  in tests gains FC15 support to match).
- DriverAttributeInfo IsArray / ArrayDim flow from ArrayCount so the OPC UA
  address space surfaces ValueRank=1 + ArrayDimensions to clients.
- ModbusDriverFactoryExtensions gains AddressString DTO field. When
  present, the parser drives Region/Address/DataType/ByteOrder/Bit/
  StringLength/ArrayCount; structured fields (Writable, WriteIdempotent,
  StringByteOrder) still come from the DTO. Existing structured tag rows
  keep working unchanged.

Tests: 91 parser unit tests (Driver.Modbus.Addressing.Tests, all green) +
204 driver tests including new ModbusByteOrderTests (BADC/DCBA roundtrips
across Int32/Float32/Float64) and ModbusArrayTests (Int16[5], Float32[3]
CDAB, Coil[10], length-mismatch error, IsArray/ArrayDim discovery).
Solution-wide build clean.

Caveat: grammar names (type codes, byte-order mnemonics, the :count
shorthand) were synthesized from training-era vendor docs. Verify against
current Kepware Modbus Ethernet Driver Help and Ignition Modbus Addressing
manuals before freezing for production deployments — naming may need a
back-compat layer if vendor wording has shifted.
2026-04-24 23:49:22 -04:00

274 lines
12 KiB
C#
Raw Blame History

using System.Buffers.Binary;
using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
using ZB.MOM.WW.OtOpcUa.Driver.Modbus;
namespace ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests;
[Trait("Category", "Unit")]
public sealed class ModbusDriverTests
{
/// <summary>
/// In-memory Modbus TCP server impl that speaks the function codes the driver uses.
/// Maintains a register/coil bank so Read/Write round-trips work. Internal (rather than
/// private) so sibling test files in this project can reuse it without duplicating the
/// fake.
/// </summary>
internal sealed class FakeTransport : IModbusTransport
{
public readonly ushort[] HoldingRegisters = new ushort[256];
public readonly ushort[] InputRegisters = new ushort[256];
public readonly bool[] Coils = new bool[256];
public readonly bool[] DiscreteInputs = new bool[256];
public bool ForceConnectFail { get; set; }
public Task ConnectAsync(CancellationToken ct)
=> ForceConnectFail ? Task.FromException(new InvalidOperationException("connect refused")) : Task.CompletedTask;
public Task<byte[]> SendAsync(byte unitId, byte[] pdu, CancellationToken ct)
{
var fc = pdu[0];
return fc switch
{
0x01 => Task.FromResult(ReadBits(pdu, Coils)),
0x02 => Task.FromResult(ReadBits(pdu, DiscreteInputs)),
0x03 => Task.FromResult(ReadRegs(pdu, HoldingRegisters)),
0x04 => Task.FromResult(ReadRegs(pdu, InputRegisters)),
0x05 => Task.FromResult(WriteCoil(pdu)),
0x06 => Task.FromResult(WriteSingleReg(pdu)),
0x0F => Task.FromResult(WriteMultipleCoils(pdu)),
0x10 => Task.FromResult(WriteMultipleRegs(pdu)),
_ => Task.FromException<byte[]>(new ModbusException(fc, 0x01, $"fc={fc} not supported by fake")),
};
}
private byte[] ReadBits(byte[] pdu, bool[] bank)
{
var addr = (ushort)((pdu[1] << 8) | pdu[2]);
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;
for (var i = 0; i < qty; i++)
if (bank[addr + i]) resp[2 + (i / 8)] |= (byte)(1 << (i % 8));
return resp;
}
private byte[] ReadRegs(byte[] pdu, ushort[] bank)
{
var addr = (ushort)((pdu[1] << 8) | pdu[2]);
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;
for (var i = 0; i < qty; i++)
{
resp[2 + i * 2] = (byte)(bank[addr + i] >> 8);
resp[3 + i * 2] = (byte)(bank[addr + i] & 0xFF);
}
return resp;
}
private byte[] WriteCoil(byte[] pdu)
{
var addr = (ushort)((pdu[1] << 8) | pdu[2]);
Coils[addr] = pdu[3] == 0xFF;
return pdu; // Modbus echoes the request on write success
}
private byte[] WriteSingleReg(byte[] pdu)
{
var addr = (ushort)((pdu[1] << 8) | pdu[2]);
HoldingRegisters[addr] = (ushort)((pdu[3] << 8) | pdu[4]);
return pdu;
}
private byte[] WriteMultipleRegs(byte[] pdu)
{
var addr = (ushort)((pdu[1] << 8) | pdu[2]);
var qty = (ushort)((pdu[3] << 8) | pdu[4]);
for (var i = 0; i < qty; i++)
HoldingRegisters[addr + i] = (ushort)((pdu[6 + i * 2] << 8) | pdu[7 + i * 2]);
return new byte[] { 0x10, pdu[1], pdu[2], pdu[3], pdu[4] };
}
private byte[] WriteMultipleCoils(byte[] pdu)
{
var addr = (ushort)((pdu[1] << 8) | pdu[2]);
var qty = (ushort)((pdu[3] << 8) | pdu[4]);
for (var i = 0; i < qty; i++)
Coils[addr + i] = ((pdu[6 + (i / 8)] >> (i % 8)) & 0x01) == 1;
return new byte[] { 0x0F, pdu[1], pdu[2], pdu[3], pdu[4] };
}
public ValueTask DisposeAsync() => ValueTask.CompletedTask;
}
private static (ModbusDriver driver, FakeTransport fake) NewDriver(params ModbusTagDefinition[] tags)
{
var fake = new FakeTransport();
var opts = new ModbusDriverOptions { Host = "fake", Tags = tags };
var drv = new ModbusDriver(opts, "modbus-1", _ => fake);
return (drv, fake);
}
[Fact]
public async Task Initialize_connects_and_populates_tag_map()
{
var (drv, _) = NewDriver(
new ModbusTagDefinition("Level", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16),
new ModbusTagDefinition("Run", ModbusRegion.Coils, 0, ModbusDataType.Bool));
await drv.InitializeAsync("{}", CancellationToken.None);
drv.GetHealth().State.ShouldBe(DriverState.Healthy);
}
[Fact]
public async Task Read_Int16_holding_register_returns_BigEndian_value()
{
var (drv, fake) = NewDriver(new ModbusTagDefinition("Level", ModbusRegion.HoldingRegisters, 10, ModbusDataType.Int16));
await drv.InitializeAsync("{}", CancellationToken.None);
fake.HoldingRegisters[10] = 12345;
var r = await drv.ReadAsync(["Level"], CancellationToken.None);
r[0].Value.ShouldBe((short)12345);
r[0].StatusCode.ShouldBe(0u);
}
[Fact]
public async Task Read_Float32_spans_two_registers_BigEndian()
{
var (drv, fake) = NewDriver(new ModbusTagDefinition("Temp", ModbusRegion.HoldingRegisters, 4, ModbusDataType.Float32));
await drv.InitializeAsync("{}", CancellationToken.None);
// IEEE 754 single for 25.5f is 0x41CC0000 — [41 CC][00 00] big-endian across two regs.
var bytes = new byte[4];
BinaryPrimitives.WriteSingleBigEndian(bytes, 25.5f);
fake.HoldingRegisters[4] = (ushort)((bytes[0] << 8) | bytes[1]);
fake.HoldingRegisters[5] = (ushort)((bytes[2] << 8) | bytes[3]);
var r = await drv.ReadAsync(["Temp"], CancellationToken.None);
r[0].Value.ShouldBe(25.5f);
}
[Fact]
public async Task Read_Coil_returns_boolean()
{
var (drv, fake) = NewDriver(new ModbusTagDefinition("Run", ModbusRegion.Coils, 3, ModbusDataType.Bool));
await drv.InitializeAsync("{}", CancellationToken.None);
fake.Coils[3] = true;
var r = await drv.ReadAsync(["Run"], CancellationToken.None);
r[0].Value.ShouldBe(true);
}
[Fact]
public async Task Unknown_tag_returns_BadNodeIdUnknown_not_an_exception()
{
var (drv, _) = NewDriver();
await drv.InitializeAsync("{}", CancellationToken.None);
var r = await drv.ReadAsync(["DoesNotExist"], CancellationToken.None);
r[0].StatusCode.ShouldBe(0x80340000u);
}
[Fact]
public async Task Write_UInt16_holding_register_roundtrips()
{
var (drv, fake) = NewDriver(new ModbusTagDefinition("Setpoint", ModbusRegion.HoldingRegisters, 20, ModbusDataType.UInt16));
await drv.InitializeAsync("{}", CancellationToken.None);
var results = await drv.WriteAsync([new WriteRequest("Setpoint", (ushort)42000)], CancellationToken.None);
results[0].StatusCode.ShouldBe(0u);
fake.HoldingRegisters[20].ShouldBe((ushort)42000);
}
[Fact]
public async Task Write_Float32_uses_FC16_WriteMultipleRegisters()
{
var (drv, fake) = NewDriver(new ModbusTagDefinition("Temp", ModbusRegion.HoldingRegisters, 4, ModbusDataType.Float32));
await drv.InitializeAsync("{}", CancellationToken.None);
await drv.WriteAsync([new WriteRequest("Temp", 25.5f)], CancellationToken.None);
// Decode back through the fake bank to check the two-register shape.
var raw = new byte[4];
raw[0] = (byte)(fake.HoldingRegisters[4] >> 8);
raw[1] = (byte)(fake.HoldingRegisters[4] & 0xFF);
raw[2] = (byte)(fake.HoldingRegisters[5] >> 8);
raw[3] = (byte)(fake.HoldingRegisters[5] & 0xFF);
BinaryPrimitives.ReadSingleBigEndian(raw).ShouldBe(25.5f);
}
[Fact]
public async Task Write_to_InputRegister_returns_BadNotWritable()
{
var (drv, _) = NewDriver(new ModbusTagDefinition("Ro", ModbusRegion.InputRegisters, 0, ModbusDataType.UInt16, Writable: false));
await drv.InitializeAsync("{}", CancellationToken.None);
var r = await drv.WriteAsync([new WriteRequest("Ro", (ushort)7)], CancellationToken.None);
r[0].StatusCode.ShouldBe(0x803B0000u);
}
[Fact]
public async Task Discover_streams_one_folder_per_driver_with_a_variable_per_tag()
{
var (drv, _) = NewDriver(
new ModbusTagDefinition("Level", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Int16),
new ModbusTagDefinition("Temp", ModbusRegion.HoldingRegisters, 4, ModbusDataType.Float32),
new ModbusTagDefinition("Run", ModbusRegion.Coils, 0, ModbusDataType.Bool));
await drv.InitializeAsync("{}", CancellationToken.None);
var builder = new RecordingBuilder();
await drv.DiscoverAsync(builder, CancellationToken.None);
builder.Folders.Count.ShouldBe(1);
builder.Folders[0].BrowseName.ShouldBe("Modbus");
builder.Variables.Count.ShouldBe(3);
builder.Variables.ShouldContain(v => v.BrowseName == "Level" && v.Info.DriverDataType == DriverDataType.Int32);
builder.Variables.ShouldContain(v => v.BrowseName == "Temp" && v.Info.DriverDataType == DriverDataType.Float32);
builder.Variables.ShouldContain(v => v.BrowseName == "Run" && v.Info.DriverDataType == DriverDataType.Boolean);
}
[Fact]
public async Task Discover_propagates_WriteIdempotent_from_tag_to_attribute_info()
{
var (drv, _) = NewDriver(
new ModbusTagDefinition("SetPoint", ModbusRegion.HoldingRegisters, 0, ModbusDataType.Float32, WriteIdempotent: true),
new ModbusTagDefinition("PulseCoil", ModbusRegion.Coils, 0, ModbusDataType.Bool));
await drv.InitializeAsync("{}", CancellationToken.None);
var builder = new RecordingBuilder();
await drv.DiscoverAsync(builder, CancellationToken.None);
var setPoint = builder.Variables.Single(v => v.BrowseName == "SetPoint");
var pulse = builder.Variables.Single(v => v.BrowseName == "PulseCoil");
setPoint.Info.WriteIdempotent.ShouldBeTrue();
pulse.Info.WriteIdempotent.ShouldBeFalse("default is opt-in per decision #44");
}
// --- helpers ---
private sealed class RecordingBuilder : IAddressSpaceBuilder
{
public List<(string BrowseName, string DisplayName)> Folders { get; } = new();
public List<(string BrowseName, DriverAttributeInfo Info)> Variables { get; } = new();
public IAddressSpaceBuilder Folder(string browseName, string displayName)
{ Folders.Add((browseName, displayName)); return this; }
public IVariableHandle Variable(string browseName, string displayName, DriverAttributeInfo info)
{ Variables.Add((browseName, info)); return new Handle(info.FullName); }
public void AddProperty(string _, DriverDataType __, object? ___) { }
private sealed class Handle(string fullRef) : IVariableHandle
{
public string FullReference => fullRef;
public IAlarmConditionSink MarkAsAlarmCondition(AlarmConditionInfo info) => new NullSink();
}
private sealed class NullSink : IAlarmConditionSink
{
public void OnTransition(AlarmEventArgs args) { }
}
}
}
Reference in New Issue View Git Blame Copy Permalink