Merge pull request 'Phase 3 PR 50 -- DL260 bit-memory helpers (Y/C/X/SP) + coil integration tests' (#49) from phase-3-pr50-dl205-coil-mapping into v2

src/ZB.MOM.WW.OtOpcUa.Driver.Modbus/DirectLogicAddress.cs

@@ -71,4 +71,95 @@ public static class DirectLogicAddress
                 $"System V-memory offset {offsetWithinSystemBank} maps past 0xFFFF");
         return (ushort)pdu;
     }
+
+    // Bit-memory bases per DL260 user manual §I/O-configuration.
+    // Numbers after X / Y / C / SP are OCTAL in DirectLOGIC notation. The Modbus base is
+    // added to the octal-decoded offset; e.g. Y017 = Modbus coil 2048 + octal(17) = 2048 + 15 = 2063.
+
+    /// <summary>
+    ///     DL260 Y-output coil base. Y0 octal → Modbus coil address 2048 (0-based).
+    /// </summary>
+    public const ushort YOutputBaseCoil = 2048;
+
+    /// <summary>
+    ///     DL260 C-relay coil base. C0 octal → Modbus coil address 3072 (0-based).
+    /// </summary>
+    public const ushort CRelayBaseCoil = 3072;
+
+    /// <summary>
+    ///     DL260 X-input discrete-input base. X0 octal → Modbus discrete input 0.
+    /// </summary>
+    public const ushort XInputBaseDiscrete = 0;
+
+    /// <summary>
+    ///     DL260 SP special-relay discrete-input base. SP0 octal → Modbus discrete input 1024.
+    ///     Read-only; writing SP relays is rejected with Illegal Data Address.
+    /// </summary>
+    public const ushort SpecialBaseDiscrete = 1024;
+
+    /// <summary>
+    ///     Translate a DirectLOGIC Y-output address (e.g. <c>"Y0"</c>, <c>"Y17"</c>) to its
+    ///     0-based Modbus coil address on DL260. The trailing number is OCTAL, matching the
+    ///     ladder-logic editor's notation.
+    /// </summary>
+    public static ushort YOutputToCoil(string yAddress) =>
+        AddOctalOffset(YOutputBaseCoil, StripPrefix(yAddress, 'Y'));
+
+    /// <summary>
+    ///     Translate a DirectLOGIC C-relay address (e.g. <c>"C0"</c>, <c>"C1777"</c>) to its
+    ///     0-based Modbus coil address.
+    /// </summary>
+    public static ushort CRelayToCoil(string cAddress) =>
+        AddOctalOffset(CRelayBaseCoil, StripPrefix(cAddress, 'C'));
+
+    /// <summary>
+    ///     Translate a DirectLOGIC X-input address (e.g. <c>"X0"</c>, <c>"X17"</c>) to its
+    ///     0-based Modbus discrete-input address. Reading an unpopulated X returns 0, not an
+    ///     exception — the CPU sizes the table to configured I/O, not installed modules.
+    /// </summary>
+    public static ushort XInputToDiscrete(string xAddress) =>
+        AddOctalOffset(XInputBaseDiscrete, StripPrefix(xAddress, 'X'));
+
+    /// <summary>
+    ///     Translate a DirectLOGIC SP-special-relay address (e.g. <c>"SP0"</c>) to its 0-based
+    ///     Modbus discrete-input address. Accepts <c>"SP"</c> prefix case-insensitively.
+    /// </summary>
+    public static ushort SpecialToDiscrete(string spAddress)
+    {
+        if (string.IsNullOrWhiteSpace(spAddress))
+            throw new ArgumentException("SP address must not be empty", nameof(spAddress));
+        var s = spAddress.Trim();
+        if (s.Length >= 2 && (s[0] == 'S' || s[0] == 's') && (s[1] == 'P' || s[1] == 'p'))
+            s = s.Substring(2);
+        return AddOctalOffset(SpecialBaseDiscrete, s);
+    }
+
+    private static string StripPrefix(string address, char expectedPrefix)
+    {
+        if (string.IsNullOrWhiteSpace(address))
+            throw new ArgumentException("Address must not be empty", nameof(address));
+        var s = address.Trim();
+        if (s.Length > 0 && char.ToUpperInvariant(s[0]) == char.ToUpperInvariant(expectedPrefix))
+            s = s.Substring(1);
+        return s;
+    }
+
+    private static ushort AddOctalOffset(ushort baseAddr, string octalDigits)
+    {
+        if (octalDigits.Length == 0)
+            throw new ArgumentException("Address has no digits", nameof(octalDigits));
+        uint offset = 0;
+        foreach (var ch in octalDigits)
+        {
+            if (ch < '0' || ch > '7')
+                throw new ArgumentException(
+                    $"Address contains non-octal digit '{ch}' — DirectLOGIC I/O addresses are octal (0-7)",
+                    nameof(octalDigits));
+            offset = offset * 8 + (uint)(ch - '0');
+        }
+        var result = baseAddr + offset;
+        if (result > ushort.MaxValue)
+            throw new OverflowException($"Address {baseAddr}+{offset} exceeds 0xFFFF");
+        return (ushort)result;
+    }
 }

tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/DL205/DL205CoilMappingTests.cs

@@ -0,0 +1,109 @@
+using Shouldly;
+using Xunit;
+
+namespace ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests.DL205;
+
+/// <summary>
+///     Verifies DL260 I/O-memory coil mappings against the <c>dl205.json</c> pymodbus profile.
+///     DirectLOGIC Y-outputs and C-relays are exposed to Modbus as FC01/FC05 coils, but at
+///     non-zero base addresses that confuse operators used to "Y0 is the first coil". The sim
+///     seeds Y0 → coil 2048 = ON and C0 → coil 3072 = ON as fixed markers.
+/// </summary>
+[Collection(ModbusSimulatorCollection.Name)]
+[Trait("Category", "Integration")]
+[Trait("Device", "DL205")]
+public sealed class DL205CoilMappingTests(ModbusSimulatorFixture sim)
+{
+    [Fact]
+    public async Task DL260_Y0_maps_to_coil_2048()
+    {
+        if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
+        if (!string.Equals(Environment.GetEnvironmentVariable("MODBUS_SIM_PROFILE"), "dl205",
+                StringComparison.OrdinalIgnoreCase))
+        {
+            Assert.Skip("MODBUS_SIM_PROFILE != dl205 — skipping.");
+        }
+
+        var coil = DirectLogicAddress.YOutputToCoil("Y0");
+        coil.ShouldBe((ushort)2048);
+
+        var options = BuildOptions(sim, [
+            new ModbusTagDefinition("DL260_Y0",
+                ModbusRegion.Coils, Address: coil,
+                DataType: ModbusDataType.Bool, Writable: false),
+        ]);
+        await using var driver = new ModbusDriver(options, driverInstanceId: "dl205-y0");
+        await driver.InitializeAsync("{}", TestContext.Current.CancellationToken);
+
+        var results = await driver.ReadAsync(["DL260_Y0"], TestContext.Current.CancellationToken);
+        results[0].StatusCode.ShouldBe(0u);
+        results[0].Value.ShouldBe(true, "dl205.json seeds coil 2048 (Y0) = ON");
+    }
+
+    [Fact]
+    public async Task DL260_C0_maps_to_coil_3072()
+    {
+        if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
+        if (!string.Equals(Environment.GetEnvironmentVariable("MODBUS_SIM_PROFILE"), "dl205",
+                StringComparison.OrdinalIgnoreCase))
+        {
+            Assert.Skip("MODBUS_SIM_PROFILE != dl205 — skipping.");
+        }
+
+        var coil = DirectLogicAddress.CRelayToCoil("C0");
+        coil.ShouldBe((ushort)3072);
+
+        var options = BuildOptions(sim, [
+            new ModbusTagDefinition("DL260_C0",
+                ModbusRegion.Coils, Address: coil,
+                DataType: ModbusDataType.Bool, Writable: false),
+        ]);
+        await using var driver = new ModbusDriver(options, driverInstanceId: "dl205-c0");
+        await driver.InitializeAsync("{}", TestContext.Current.CancellationToken);
+
+        var results = await driver.ReadAsync(["DL260_C0"], TestContext.Current.CancellationToken);
+        results[0].StatusCode.ShouldBe(0u);
+        results[0].Value.ShouldBe(true, "dl205.json seeds coil 3072 (C0) = ON");
+    }
+
+    [Fact]
+    public async Task DL260_scratch_Crelay_supports_write_then_read()
+    {
+        if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
+        if (!string.Equals(Environment.GetEnvironmentVariable("MODBUS_SIM_PROFILE"), "dl205",
+                StringComparison.OrdinalIgnoreCase))
+        {
+            Assert.Skip("MODBUS_SIM_PROFILE != dl205 — skipping.");
+        }
+
+        // Scratch C-relay at coil 4000 (per dl205.json _quirk note) is writable. Write=true then
+        // read back to confirm FC05 round-trip works against the DL-mapped coil bank.
+        var options = BuildOptions(sim, [
+            new ModbusTagDefinition("DL260_C_Scratch",
+                ModbusRegion.Coils, Address: 4000,
+                DataType: ModbusDataType.Bool, Writable: true),
+        ]);
+        await using var driver = new ModbusDriver(options, driverInstanceId: "dl205-cscratch");
+        await driver.InitializeAsync("{}", TestContext.Current.CancellationToken);
+
+        var writeResults = await driver.WriteAsync(
+            [new(FullReference: "DL260_C_Scratch", Value: true)],
+            TestContext.Current.CancellationToken);
+        writeResults[0].StatusCode.ShouldBe(0u);
+
+        var readResults = await driver.ReadAsync(["DL260_C_Scratch"], TestContext.Current.CancellationToken);
+        readResults[0].StatusCode.ShouldBe(0u);
+        readResults[0].Value.ShouldBe(true);
+    }
+
+    private static ModbusDriverOptions BuildOptions(ModbusSimulatorFixture sim, IReadOnlyList<ModbusTagDefinition> tags)
+        => new()
+        {
+            Host = sim.Host,
+            Port = sim.Port,
+            UnitId = 1,
+            Timeout = TimeSpan.FromSeconds(2),
+            Tags = tags,
+            Probe = new ModbusProbeOptions { Enabled = false },
+        };
+}

tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.IntegrationTests/Pymodbus/dl205.json

@@ -36,9 +36,9 @@
         [1280, 1282],
         [1343, 1343],
         [1407, 1407],
-        [2048, 2050],
-        [3072, 3074],
-        [4000, 4007],
+        [128, 128],
+        [192, 192],
+        [250, 250],
         [8448, 8448]
       ],
 
@@ -88,25 +88,14 @@
       ],
 
       "bits": [
-        {"_quirk": "Y0 marker. DL260 maps Y0 to coil 2048 (0-based). Coil 2048 = ON proves the mapping.",
-         "addr": 2048, "value": 1},
-        {"addr": 2049, "value": 0},
-        {"addr": 2050, "value": 1},
+        {"_quirk": "Y-output bank marker cell. pymodbus's simulator maps Modbus FC01/02/05 bit-addresses to cell index = bit_addr / 16; so Modbus coil 2048 lives at cell 128 bit 0. Y0=ON (bit 0), Y1=OFF (bit 1), Y2=ON (bit 2) -> value=0b00000101=5 proves DL260 mapping Y0 -> coil 2048.",
+         "addr": 128, "value": 5},
 
-        {"_quirk": "C0 marker. DL260 maps C0 to coil 3072 (0-based). Coil 3072 = ON proves the mapping.",
-         "addr": 3072, "value": 1},
-        {"addr": 3073, "value": 0},
-        {"addr": 3074, "value": 1},
+        {"_quirk": "C-relay bank marker cell. Modbus coil 3072 -> cell 192 bit 0. C0=ON (bit 0), C1=OFF (bit 1), C2=ON (bit 2) -> value=5 proves DL260 mapping C0 -> coil 3072.",
+         "addr": 192, "value": 5},
 
-        {"_quirk": "Scratch C-relays for write-roundtrip tests against the writable C range.",
-         "addr": 4000, "value": 0},
-        {"addr": 4001, "value": 0},
-        {"addr": 4002, "value": 0},
-        {"addr": 4003, "value": 0},
-        {"addr": 4004, "value": 0},
-        {"addr": 4005, "value": 0},
-        {"addr": 4006, "value": 0},
-        {"addr": 4007, "value": 0}
+        {"_quirk": "Scratch cell for coil 4000..4015 write round-trip tests. Cell 250 holds Modbus coils 4000-4015; all bits start at 0 and tests set specific bits via FC05.",
+         "addr": 250, "value": 0}
       ],
 
       "uint32":  [],

tests/ZB.MOM.WW.OtOpcUa.Driver.Modbus.Tests/DirectLogicAddressTests.cs

@@ -74,4 +74,66 @@ public sealed class DirectLogicAddressTests
         Should.NotThrow(() => DirectLogicAddress.SystemVMemoryToPdu(0xDEFF));
         Should.Throw<OverflowException>(() => DirectLogicAddress.SystemVMemoryToPdu(0xDF00));
     }
+
+    // --- Bit memory: Y-output, C-relay, X-input, SP-special ---
+
+    [Theory]
+    [InlineData("Y0", (ushort)2048)]
+    [InlineData("Y1", (ushort)2049)]
+    [InlineData("Y7", (ushort)2055)]
+    [InlineData("Y10", (ushort)2056)]    // octal 10 = decimal 8
+    [InlineData("Y17", (ushort)2063)]    // octal 17 = decimal 15
+    [InlineData("Y777", (ushort)2559)]   // top of DL260 Y range per doc table
+    public void YOutputToCoil_adds_octal_offset_to_2048(string y, ushort expected)
+        => DirectLogicAddress.YOutputToCoil(y).ShouldBe(expected);
+
+    [Theory]
+    [InlineData("C0", (ushort)3072)]
+    [InlineData("C1", (ushort)3073)]
+    [InlineData("C10", (ushort)3080)]
+    [InlineData("C1777", (ushort)4095)]  // top of DL260 C range
+    public void CRelayToCoil_adds_octal_offset_to_3072(string c, ushort expected)
+        => DirectLogicAddress.CRelayToCoil(c).ShouldBe(expected);
+
+    [Theory]
+    [InlineData("X0", (ushort)0)]
+    [InlineData("X17", (ushort)15)]
+    [InlineData("X777", (ushort)511)]    // top of DL260 X range
+    public void XInputToDiscrete_adds_octal_offset_to_0(string x, ushort expected)
+        => DirectLogicAddress.XInputToDiscrete(x).ShouldBe(expected);
+
+    [Theory]
+    [InlineData("SP0", (ushort)1024)]
+    [InlineData("SP7", (ushort)1031)]
+    [InlineData("sp0", (ushort)1024)]     // lowercase prefix
+    [InlineData("SP777", (ushort)1535)]
+    public void SpecialToDiscrete_adds_octal_offset_to_1024(string sp, ushort expected)
+        => DirectLogicAddress.SpecialToDiscrete(sp).ShouldBe(expected);
+
+    [Theory]
+    [InlineData("Y8")]
+    [InlineData("C9")]
+    [InlineData("X18")]
+    public void Bit_address_rejects_non_octal_digits(string bad)
+        => Should.Throw<ArgumentException>(() =>
+        {
+            if (bad[0] == 'Y') DirectLogicAddress.YOutputToCoil(bad);
+            else if (bad[0] == 'C') DirectLogicAddress.CRelayToCoil(bad);
+            else DirectLogicAddress.XInputToDiscrete(bad);
+        });
+
+    [Theory]
+    [InlineData("Y")]
+    [InlineData("C")]
+    [InlineData("")]
+    public void Bit_address_rejects_empty(string bad)
+        => Should.Throw<ArgumentException>(() => DirectLogicAddress.YOutputToCoil(bad));
+
+    [Fact]
+    public void YOutputToCoil_accepts_lowercase_prefix()
+        => DirectLogicAddress.YOutputToCoil("y0").ShouldBe((ushort)2048);
+
+    [Fact]
+    public void CRelayToCoil_accepts_bare_octal_without_C_prefix()
+        => DirectLogicAddress.CRelayToCoil("0").ShouldBe((ushort)3072);
 }