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lmxopcua/src/ZB.MOM.WW.OtOpcUa.Driver.AbCip/LibplctagTagRuntime.cs
Joseph Doherty 257f4fd3f5 AB CIP PR 4 — IWritable implementation. LibplctagTagRuntime.EncodeValue fills in the switch for every atomic Logix type the driver currently surfaces — Bool (standalone BOOL via SetInt8 0/1), SInt/USInt (SetInt8/SetUInt8), Int/UInt (SetInt16/SetUInt16), DInt/UDInt (SetInt32/SetUInt32), LInt/ULInt (SetInt64/SetUInt64), Real (SetFloat32), LReal (SetFloat64), String (SetString 0), Dt (epoch DINT via SetInt32). BOOL-within-DINT writes throw NotSupportedException with a code comment matching the Modbus BitInRegister pattern at ModbusDriver.cs line 640 — the read-modify-write logic + lock-per-DINT discipline is a follow-up PR rather than squeezing it into the initial wire plumbing. Structure writes throw NotSupportedException pointing at PR 6 when UDT support lands. AbCipDriver now implements IWritable. WriteAsync iterates writes preserving order, short-circuits on unknown reference → BadNodeIdUnknown, on non-writable tag definition → BadNotWritable, on unknown device → BadNodeIdUnknown. Happy path materialises the cached runtime via EnsureTagRuntimeAsync (shares PR 3's lazy-init path so read+write on the same tag hits one native handle), EncodeValue into the tag's buffer, WriteAsync flushes, GetStatus confirms the wire status, maps libplctag error codes via AbCipStatusMapper.MapLibplctagStatus, sets health Healthy on success. Per plan decisions #44, #45, #143 the driver does NOT auto-retry writes — that's a resilience-layer concern (Polly pipeline sitting above) keyed on the tag's WriteIdempotent flag. Exception-mapping table — OperationCanceledException rethrows (honors cancellation), NotSupportedException → BadNotSupported (bit-in-DINT, Structure, future unsupported types), FormatException → BadTypeMismatch (Convert.ToInt32 of a non-numeric string), InvalidCastException → BadTypeMismatch (caller passed an object incompatible with the conversion target), OverflowException → BadOutOfRange (value exceeds target type range, e.g. Int16 write of 1_000_000), any other Exception → BadCommunicationError (wire drop, libplctag-internal failure). Health surface updates Degraded on every non-Cancellation exception path, Healthy on success. Introduces AbCipStatusMapper.BadTypeMismatch (0x80730000). 10 new unit tests in AbCipDriverWriteTests covering — unknown ref → BadNodeIdUnknown, non-writable tag → BadNotWritable, successful DInt write encodes + flushes the value + marks WriteCount=1, BOOL-in-DINT rejected as BadNotSupported (separate ThrowingBoolBitFake mirrors LibplctagTagRuntime's runtime check), non-zero libplctag status after write mapped via AbCipStatusMapper (timeout -5 → BadTimeout), FormatException from non-numeric-string write → BadTypeMismatch (RealConvertFake exercises real Convert.ToInt32), OverflowException from Int16 write of 1_000_000 → BadOutOfRange, generic exception during write → BadCommunicationError + health Degraded, batch with mixed success+failure preserves order across four request types, cancellation propagates as OperationCanceledException. FakeAbCipTag's test-fake base class methods made virtual so override hooks work correctly through the IAbCipTagRuntime interface (new-shadow was silently falling through to the base implementation). Total AbCip unit tests now 98/98 passing; Modbus + other existing tests untouched; full solution builds 0 errors. 
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-19 16:57:52 -04:00

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using libplctag;
namespace ZB.MOM.WW.OtOpcUa.Driver.AbCip;
/// <summary>
/// Default libplctag-backed <see cref="IAbCipTagRuntime"/>. Wraps a <see cref="Tag"/>
/// instance + translates our <see cref="AbCipDataType"/> enum into the
/// <c>GetInt32</c> / <c>GetFloat32</c> / <c>GetString</c> / <c>GetBit</c> calls libplctag
/// exposes. One runtime instance per <c>(device, tag path)</c>; lifetime is owned by the
/// driver's per-device state dict.
/// </summary>
internal sealed class LibplctagTagRuntime : IAbCipTagRuntime
{
private readonly Tag _tag;
public LibplctagTagRuntime(AbCipTagCreateParams p)
{
_tag = new Tag
{
Gateway = p.Gateway,
Path = p.CipPath,
PlcType = MapPlcType(p.LibplctagPlcAttribute),
Protocol = Protocol.ab_eip,
Name = p.TagName,
Timeout = p.Timeout,
};
}
public Task InitializeAsync(CancellationToken cancellationToken) => _tag.InitializeAsync(cancellationToken);
public Task ReadAsync(CancellationToken cancellationToken) => _tag.ReadAsync(cancellationToken);
public Task WriteAsync(CancellationToken cancellationToken) => _tag.WriteAsync(cancellationToken);
public int GetStatus() => (int)_tag.GetStatus();
public object? DecodeValue(AbCipDataType type, int? bitIndex) => type switch
{
AbCipDataType.Bool => bitIndex is int bit
? _tag.GetBit(bit)
: _tag.GetInt8(0) != 0,
AbCipDataType.SInt => (int)(sbyte)_tag.GetInt8(0),
AbCipDataType.USInt => (int)_tag.GetUInt8(0),
AbCipDataType.Int => (int)_tag.GetInt16(0),
AbCipDataType.UInt => (int)_tag.GetUInt16(0),
AbCipDataType.DInt => _tag.GetInt32(0),
AbCipDataType.UDInt => (int)_tag.GetUInt32(0),
AbCipDataType.LInt => _tag.GetInt64(0),
AbCipDataType.ULInt => (long)_tag.GetUInt64(0),
AbCipDataType.Real => _tag.GetFloat32(0),
AbCipDataType.LReal => _tag.GetFloat64(0),
AbCipDataType.String => _tag.GetString(0),
AbCipDataType.Dt => _tag.GetInt32(0), // seconds-since-epoch DINT; consumer widens as needed
AbCipDataType.Structure => null, // UDT whole-tag decode lands in PR 6
_ => null,
};
public void EncodeValue(AbCipDataType type, int? bitIndex, object? value)
{
switch (type)
{
case AbCipDataType.Bool:
if (bitIndex is int bit)
{
// BOOL-within-DINT writes require read-modify-write on the parent DINT.
// Deferred to a follow-up PR — matches the Modbus BitInRegister pattern at
// ModbusDriver.cs:640.
throw new NotSupportedException(
"BOOL-within-DINT writes require read-modify-write; not implemented in PR 4.");
}
_tag.SetInt8(0, Convert.ToBoolean(value) ? (sbyte)1 : (sbyte)0);
break;
case AbCipDataType.SInt:
_tag.SetInt8(0, Convert.ToSByte(value));
break;
case AbCipDataType.USInt:
_tag.SetUInt8(0, Convert.ToByte(value));
break;
case AbCipDataType.Int:
_tag.SetInt16(0, Convert.ToInt16(value));
break;
case AbCipDataType.UInt:
_tag.SetUInt16(0, Convert.ToUInt16(value));
break;
case AbCipDataType.DInt:
_tag.SetInt32(0, Convert.ToInt32(value));
break;
case AbCipDataType.UDInt:
_tag.SetUInt32(0, Convert.ToUInt32(value));
break;
case AbCipDataType.LInt:
_tag.SetInt64(0, Convert.ToInt64(value));
break;
case AbCipDataType.ULInt:
_tag.SetUInt64(0, Convert.ToUInt64(value));
break;
case AbCipDataType.Real:
_tag.SetFloat32(0, Convert.ToSingle(value));
break;
case AbCipDataType.LReal:
_tag.SetFloat64(0, Convert.ToDouble(value));
break;
case AbCipDataType.String:
_tag.SetString(0, Convert.ToString(value) ?? string.Empty);
break;
case AbCipDataType.Dt:
_tag.SetInt32(0, Convert.ToInt32(value));
break;
case AbCipDataType.Structure:
throw new NotSupportedException("Whole-UDT writes land in PR 6.");
default:
throw new NotSupportedException($"AbCipDataType {type} not writable.");
}
}
public void Dispose() => _tag.Dispose();
private static PlcType MapPlcType(string attribute) => attribute switch
{
"controllogix" => PlcType.ControlLogix,
"compactlogix" => PlcType.ControlLogix, // libplctag treats CompactLogix under ControlLogix family
"micro800" => PlcType.Micro800,
"micrologix" => PlcType.MicroLogix,
"slc500" => PlcType.Slc500,
"plc5" => PlcType.Plc5,
"omron-njnx" => PlcType.Omron,
_ => PlcType.ControlLogix,
};
}
/// <summary>
/// Default <see cref="IAbCipTagFactory"/> — creates a fresh <see cref="LibplctagTagRuntime"/>
/// per call. Stateless; safe to share across devices.
/// </summary>
internal sealed class LibplctagTagFactory : IAbCipTagFactory
{
public IAbCipTagRuntime Create(AbCipTagCreateParams createParams) =>
new LibplctagTagRuntime(createParams);
}
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