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lmxopcua/tests/ZB.MOM.WW.OtOpcUa.Driver.S7.Tests/S7DiscoveryAndSubscribeTests.cs
Joseph Doherty f3850f8914 Phase 6.1 Stream A.5/A.6 — WriteIdempotent flag on DriverAttributeInfo + Modbus/S7 tag records + FlakeyDriver integration tests 
Per-tag opt-in for write-retry per docs/v2/plan.md decisions #44, #45, #143.
Default is false — writes never auto-retry unless the driver author has marked
the tag as safe to replay.

Core.Abstractions:
- DriverAttributeInfo gains `bool WriteIdempotent = false` at the end of the
  positional record (back-compatible; every existing call site uses the default).

Driver.Modbus:
- ModbusTagDefinition gains `bool WriteIdempotent = false`. Safe candidates
  documented in the param XML: holding-register set-points, configuration
  registers. Unsafe: edge-triggered coils, counter-increment addresses.
- ModbusDriver.DiscoverAsync propagates t.WriteIdempotent into
  DriverAttributeInfo.WriteIdempotent.

Driver.S7:
- S7TagDefinition gains `bool WriteIdempotent = false`. Safe candidates:
  DB word/dword set-points, configuration DBs. Unsafe: M/Q bits that drive
  edge-triggered program routines.
- S7Driver.DiscoverAsync propagates the flag.

Stream A.5 integration tests (FlakeyDriverIntegrationTests, 4 new) exercise
the invoker + flaky-driver contract the plan enumerates:
- Read with 5 transient failures succeeds on the 6th attempt (RetryCount=10).
- Non-idempotent write with RetryCount=5 configured still fails on the first
  failure — no replay (decision #44 guard at the ExecuteWriteAsync surface).
- Idempotent write with 2 transient failures succeeds on the 3rd attempt.
- Two hosts on the same driver have independent breakers — dead-host trips
  its breaker but live-host's first call still succeeds.

Propagation tests:
- ModbusDriverTests: SetPoint WriteIdempotent=true flows into
  DriverAttributeInfo; PulseCoil default=false.
- S7DiscoveryAndSubscribeTests: same pattern for DBx SetPoint vs M-bit.

Full solution dotnet test: 947 passing (baseline 906, +41 net across Stream A
so far). Pre-existing Client.CLI Subscribe flake unchanged.

Stream A's remaining work (wiring CapabilityInvoker into DriverNodeManager's
OnReadValue / OnWriteValue / History / Subscribe dispatch paths) is the
server-side integration piece + needs DI wiring for the pipeline builder —
lands in the next PR on this branch.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-19 07:16:21 -04:00

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using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
namespace ZB.MOM.WW.OtOpcUa.Driver.S7.Tests;
/// <summary>
/// Shape tests for <see cref="S7Driver"/>'s <see cref="ITagDiscovery"/>,
/// <see cref="ISubscribable"/>, and <see cref="IHostConnectivityProbe"/> surfaces that
/// don't need a live PLC. Wire-level polling round-trips and probe transitions land in a
/// follow-up PR once we have a mock S7 server.
/// </summary>
[Trait("Category", "Unit")]
public sealed class S7DiscoveryAndSubscribeTests
{
private sealed class RecordingAddressSpaceBuilder : IAddressSpaceBuilder
{
public readonly List<string> Folders = new();
public readonly List<(string Name, DriverAttributeInfo Attr)> Variables = new();
public IAddressSpaceBuilder Folder(string browseName, string displayName)
{
Folders.Add(browseName);
return this;
}
public IVariableHandle Variable(string browseName, string displayName, DriverAttributeInfo attributeInfo)
{
Variables.Add((browseName, attributeInfo));
return new StubHandle();
}
public void AddProperty(string browseName, DriverDataType dataType, object? value) { }
public void AttachAlarmCondition(IVariableHandle sourceVariable, string alarmName, DriverAttributeInfo alarmInfo) { }
private sealed class StubHandle : IVariableHandle
{
public string FullReference => "stub";
public IAlarmConditionSink MarkAsAlarmCondition(AlarmConditionInfo info)
=> throw new NotImplementedException("S7 driver never calls this — no alarm surfacing");
}
}
[Fact]
public async Task DiscoverAsync_projects_every_tag_into_the_address_space()
{
var opts = new S7DriverOptions
{
Host = "192.0.2.1",
Tags =
[
new("TempSetpoint", "DB1.DBW0", S7DataType.Int16, Writable: true),
new("FaultBit", "M0.0", S7DataType.Bool, Writable: false),
new("PIDOutput", "DB5.DBD12", S7DataType.Float32, Writable: true),
],
};
using var drv = new S7Driver(opts, "s7-disco");
var builder = new RecordingAddressSpaceBuilder();
await drv.DiscoverAsync(builder, TestContext.Current.CancellationToken);
builder.Folders.ShouldContain("S7");
builder.Variables.Count.ShouldBe(3);
builder.Variables[0].Name.ShouldBe("TempSetpoint");
builder.Variables[0].Attr.SecurityClass.ShouldBe(SecurityClassification.Operate, "writable tags get Operate security class");
builder.Variables[1].Attr.SecurityClass.ShouldBe(SecurityClassification.ViewOnly, "read-only tags get ViewOnly");
builder.Variables[2].Attr.DriverDataType.ShouldBe(DriverDataType.Float32);
}
[Fact]
public async Task DiscoverAsync_propagates_WriteIdempotent_from_tag_to_attribute_info()
{
var opts = new S7DriverOptions
{
Host = "192.0.2.1",
Tags =
[
new("SetPoint", "DB1.DBW0", S7DataType.Int16, WriteIdempotent: true),
new("StartBit", "M0.0", S7DataType.Bool),
],
};
using var drv = new S7Driver(opts, "s7-idem");
var builder = new RecordingAddressSpaceBuilder();
await drv.DiscoverAsync(builder, TestContext.Current.CancellationToken);
builder.Variables.Single(v => v.Name == "SetPoint").Attr.WriteIdempotent.ShouldBeTrue();
builder.Variables.Single(v => v.Name == "StartBit").Attr.WriteIdempotent.ShouldBeFalse("default is opt-in per decision #44");
}
[Fact]
public void GetHostStatuses_returns_one_row_with_host_port_identity_pre_init()
{
var opts = new S7DriverOptions { Host = "plc1.internal", Port = 102 };
using var drv = new S7Driver(opts, "s7-host");
var rows = drv.GetHostStatuses();
rows.Count.ShouldBe(1);
rows[0].HostName.ShouldBe("plc1.internal:102");
rows[0].State.ShouldBe(HostState.Unknown, "pre-init / pre-probe state is Unknown");
}
[Fact]
public async Task SubscribeAsync_returns_unique_handles_and_UnsubscribeAsync_accepts_them()
{
var opts = new S7DriverOptions { Host = "192.0.2.1" };
using var drv = new S7Driver(opts, "s7-sub");
// SubscribeAsync does not itself call ReadAsync (the poll task does), so this works
// even though the driver isn't initialized. The poll task catches the resulting
// InvalidOperationException and the loop quietly continues — same pattern as the
// Modbus driver's poll loop tolerating transient transport failures.
var h1 = await drv.SubscribeAsync(["T1"], TimeSpan.FromMilliseconds(200), TestContext.Current.CancellationToken);
var h2 = await drv.SubscribeAsync(["T2"], TimeSpan.FromMilliseconds(200), TestContext.Current.CancellationToken);
h1.DiagnosticId.ShouldStartWith("s7-sub-");
h2.DiagnosticId.ShouldStartWith("s7-sub-");
h1.DiagnosticId.ShouldNotBe(h2.DiagnosticId);
await drv.UnsubscribeAsync(h1, TestContext.Current.CancellationToken);
await drv.UnsubscribeAsync(h2, TestContext.Current.CancellationToken);
// UnsubscribeAsync with an unknown handle must be a no-op, not throw.
await drv.UnsubscribeAsync(h1, TestContext.Current.CancellationToken);
}
[Fact]
public async Task Subscribe_publishing_interval_is_floored_at_100ms()
{
var opts = new S7DriverOptions { Host = "192.0.2.1", Probe = new S7ProbeOptions { Enabled = false } };
using var drv = new S7Driver(opts, "s7-floor");
// 50 ms requested — the floor protects the S7 CPU from sub-scan polling that would
// just queue wire-side. Test that the subscription is accepted (the floor is applied
// internally; the floor value isn't exposed, so we're really just asserting that the
// driver doesn't reject small intervals).
var h = await drv.SubscribeAsync(["T"], TimeSpan.FromMilliseconds(50), TestContext.Current.CancellationToken);
h.ShouldNotBeNull();
await drv.UnsubscribeAsync(h, TestContext.Current.CancellationToken);
}
}
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