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a52086efc5bb87f0f62198ba4791aa7840a65793
lmxopcua/tests/ZB.MOM.WW.OtOpcUa.Driver.TwinCAT.IntegrationTests/TwinCAT3SmokeTests.cs
Joseph Doherty 69e0d02c72 task-galaxy-e2e branch — non-FOCAS work-in-progress snapshot 
Catch-all commit for pending work on the task-galaxy-e2e branch that
wasn't part of the FOCAS migration. Grouping by topic so future per-topic
commits can be cherry-picked if needed.

TwinCAT
- src/.../Driver.TwinCAT/AdsTwinCATClient.cs + TwinCATDriverFactoryExtensions.cs:
  factory-registration extensions + ADS client refinements.
- src/.../Driver.TwinCAT.Cli/Commands/BrowseCommand.cs: new browse command
  for the TwinCAT test-client CLI.
- tests/.../Driver.TwinCAT.IntegrationTests/TwinCAT3SmokeTests.cs + TwinCatProject/:
  fixture scaffold with a minimal POU + README pointing at the TCBSD/ESXi
  VM for e2e.
- docs/Driver.TwinCAT.Cli.md + docs/drivers/TwinCAT-Test-Fixture.md:
  documentation for the above.
- docs/v3/twincat-backlog.md: forward-looking backlog seed.

Admin UI + fleet status
- src/.../Admin/Components/Pages/Clusters/DriversTab.razor + Hosts.razor:
  UI refresh for fleet-status rendering.
- src/.../Admin/Hubs/FleetStatusHub.cs + FleetStatusPoller.cs +
  Admin/Program.cs: SignalR hub + poller plumbing for live fleet data.
- tests/.../Admin.Tests/FleetStatusPollerTests.cs: poller coverage.

Server + redundancy runtime (Phase 6.3 follow-ups)
- src/.../Server/Hosting/RedundancyPublisherHostedService.cs: HostedService
  that owns the RedundancyStatePublisher lifecycle + wires peer reachability.
- src/.../Server/Redundancy/ServerRedundancyNodeWriter.cs: OPC UA
  variable-node writer binding ServiceLevel + ServerUriArray to the
  publisher's events.
- src/.../Server/Program.cs + Server.csproj: hosted-service registration.
- tests/.../Server.Tests/ServerRedundancyNodeWriterTests.cs +
  Server.Tests.csproj: coverage for the above.

Configuration
- src/.../Configuration/Validation/DraftValidator.cs +
  tests/.../Configuration.Tests/DraftValidatorTests.cs: draft-validation
  refinements.

E2E scripts (shared infrastructure)
- scripts/e2e/README.md + _common.ps1 + test-all.ps1: shared helpers + the
  all-drivers test-all runner.
- scripts/e2e/test-opcuaclient.ps1: OPC UA Client e2e runner.

Docs
- docs/v2/implementation/phase-6-{1,2,3,4}*.md + exit-gate-phase-{3,7}.md:
  phase-gate + implementation doc updates.
- docs/v2/plan.md: top-level plan refresh.
- docs/v2/redundancy-interop-playbook.md: client interop playbook for the
  Phase 6.3 redundancy-runtime work.

Two orphan FOCAS docs remain on disk but deliberately unstaged —
docs/v2/focas-deployment.md and docs/v2/implementation/focas-simulator-plan.md
describe the now-retired Tier-C topology and should either be rewritten
or deleted in a follow-up.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-24 14:12:19 -04:00

618 lines
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C#
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using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
using ZB.MOM.WW.OtOpcUa.Driver.TwinCAT;
namespace ZB.MOM.WW.OtOpcUa.Driver.TwinCAT.IntegrationTests;
/// <summary>
/// End-to-end smoke tests against a live TwinCAT 3 XAR runtime. Skipped via
/// <see cref="TwinCATFactAttribute"/> when the VM isn't reachable / the AmsNetId
/// isn't set. Proves the driver's AMS route setup, ADS read/write, symbol browse,
/// native <c>AddDeviceNotification</c> subscription, array addressing, auto-reconnect,
/// full primitive type mapping, and the DiscoverAsync→address-space pipeline all work
/// on the wire — coverage the <c>FakeTwinCATClient</c>-backed unit suite can only
/// contract-test.
/// </summary>
/// <remarks>
/// <para><b>Required VM project state</b> (see <c>TwinCatProject/README.md</c>):</para>
/// <list type="bullet">
/// <item>GVL <c>GVL_Fixture</c> with <c>nCounter : DINT</c> (seed <c>1234</c>),
/// <c>rSetpoint : REAL</c> (scratch; smoke writes + reads), <c>bFlag : BOOL</c>
/// (seed <c>TRUE</c>).</item>
/// <item>GVL <c>GVL_Primitives</c> with one of every ADS primitive at its seed value.</item>
/// <item>GVL <c>GVL_Arrays</c> with <c>aReal1D : ARRAY[0..31] OF REAL</c> (scratch; array
/// round-trip test writes element 5).</item>
/// <item>PLC program <c>MAIN</c> that increments <c>GVL_Fixture.nCounter</c>
/// every cycle (so the native-notification test can observe monotonic changes
/// without writing).</item>
/// </list>
/// </remarks>
[Collection("TwinCATXar")]
[Trait("Category", "Integration")]
[Trait("Simulator", "TwinCAT-XAR")]
public sealed class TwinCAT3SmokeTests(TwinCATXarFixture sim)
{
[TwinCATFact]
public async Task Driver_reads_seeded_DINT_through_real_ADS()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
var options = BuildOptions(sim);
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-read");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var snapshots = await drv.ReadAsync(
["Counter"], TestContext.Current.CancellationToken);
snapshots.Count.ShouldBe(1);
snapshots[0].StatusCode.ShouldBe(0u,
"ADS read against GVL_Fixture.nCounter must succeed end-to-end");
// Value is a DINT — we only assert the read path returned an integer. Don't
// pin to the 1234 seed: the PlcTask may watchdog-restart and reset counters
// to 0, and we care about end-to-end transport here, not PLC uptime.
Convert.ToInt32(snapshots[0].Value).ShouldBeGreaterThanOrEqualTo(0);
}
[TwinCATFact]
public async Task Driver_write_then_read_round_trip_on_scratch_REAL()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
var options = BuildOptions(sim);
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-write");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
const float probe = 42.5f;
var writeResults = await drv.WriteAsync(
[new WriteRequest("Setpoint", probe)],
TestContext.Current.CancellationToken);
writeResults.Count.ShouldBe(1);
writeResults[0].StatusCode.ShouldBe(0u);
var readResults = await drv.ReadAsync(
["Setpoint"], TestContext.Current.CancellationToken);
readResults.Count.ShouldBe(1);
readResults[0].StatusCode.ShouldBe(0u);
Convert.ToSingle(readResults[0].Value).ShouldBe(probe, tolerance: 0.001f);
}
[TwinCATFact]
public async Task Driver_subscribe_receives_native_ADS_notifications_on_counter_changes()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
var options = BuildOptions(sim);
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-sub");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var observed = new List<DataChangeEventArgs>();
var gate = new SemaphoreSlim(0);
drv.OnDataChange += (_, e) =>
{
lock (observed) observed.Add(e);
gate.Release();
};
var handle = await drv.SubscribeAsync(
["Counter"], TimeSpan.FromMilliseconds(500),
TestContext.Current.CancellationToken);
// We only assert the transport wires up and at least one notification lands.
// Don't pin to PLC cycle time: if PlcTask watchdog-restarts or runs slower than
// its nominal 10 ms, increments may be coarse — but the counter still changes,
// so any reasonable window catches it. 10 s leaves headroom for transient PLC
// restarts without turning into a test hang.
var got = await gate.WaitAsync(TimeSpan.FromSeconds(10), TestContext.Current.CancellationToken);
got.ShouldBeTrue("native ADS notification on GVL_Fixture.nCounter must fire within 10 s of subscribe");
int observedCount;
lock (observed) observedCount = observed.Count;
observedCount.ShouldBeGreaterThan(0);
await drv.UnsubscribeAsync(handle, TestContext.Current.CancellationToken);
}
[TwinCATFact]
public async Task Driver_browses_committed_symbol_hierarchy_via_real_ADS()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// Goes straight at the wire client rather than TwinCATDriver.DiscoverAsync: the
// discover flow funnels symbols into an IAddressSpaceBuilder, which doesn't give
// us a flat list to assert against. BrowseSymbolsAsync is what that flow calls
// internally, so covering it here covers the same transport path.
using var client = new AdsTwinCATClient();
await client.ConnectAsync(
new TwinCATAmsAddress(sim.TargetNetId!, sim.AmsPort),
TimeSpan.FromSeconds(5),
TestContext.Current.CancellationToken);
var symbols = new List<TwinCATDiscoveredSymbol>();
await foreach (var s in client.BrowseSymbolsAsync(TestContext.Current.CancellationToken))
symbols.Add(s);
symbols.ShouldNotBeEmpty("BrowseSymbolsAsync must yield at least the committed GVL symbols");
// Spot-check the smoke-test contract: GVL_Fixture.nCounter (DINT, writable).
var counter = symbols.FirstOrDefault(s => s.InstancePath == "GVL_Fixture.nCounter");
counter.ShouldNotBeNull("GVL_Fixture.nCounter must surface in the symbol table");
counter.DataType.ShouldBe(TwinCATDataType.DInt);
// Primitive coverage — every ADS primitive is committed under GVL_Primitives. Prove
// the type mapper catches a couple of representative entries (BOOL, REAL, STRING).
symbols.ShouldContain(s => s.InstancePath == "GVL_Primitives.vBool" && s.DataType == TwinCATDataType.Bool);
symbols.ShouldContain(s => s.InstancePath == "GVL_Primitives.vReal" && s.DataType == TwinCATDataType.Real);
symbols.ShouldContain(s => s.InstancePath == "GVL_Primitives.vString" && s.DataType == TwinCATDataType.String);
// Array coverage — SymbolLoaderFactory (Flat mode) expands arrays to per-element
// paths, so at least one element of the 2-D REAL array should appear.
symbols.ShouldContain(s => s.InstancePath.StartsWith("GVL_Arrays.aReal2D", StringComparison.Ordinal));
// Enum / alias coverage — GVL_Enums roots one of each so we don't have to walk plants.
symbols.ShouldContain(s => s.InstancePath == "GVL_Enums.currentAxisState");
}
[TwinCATFact]
public async Task Driver_round_trips_array_element_write_and_read()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// Arrays are a high-traffic PLC pattern but no earlier test hits an indexed symbol
// end-to-end. Round-trip into GVL_Arrays.aReal1D[5] — the subscript flows through
// TwinCATSymbolPath.TryParse → AdsSymbolName ("GVL_Arrays.aReal1D[5]") which is
// the ADS wire syntax the SymbolLoader emits for per-element access.
var options = BuildOptions(sim);
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-array");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
const float probe = 73.25f;
var writeResults = await drv.WriteAsync(
[new WriteRequest("ArrayElem", probe)],
TestContext.Current.CancellationToken);
writeResults.Count.ShouldBe(1);
writeResults[0].StatusCode.ShouldBe(0u, "array-element write must succeed against aReal1D[5]");
var readResults = await drv.ReadAsync(
["ArrayElem"], TestContext.Current.CancellationToken);
readResults[0].StatusCode.ShouldBe(0u);
Convert.ToSingle(readResults[0].Value).ShouldBe(probe, tolerance: 0.001f);
}
[TwinCATFact]
public async Task Driver_auto_reconnects_after_underlying_client_is_disposed()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// Reconnect is the most operationally important durability property — ADS links
// drop (router restarts, VM reboots, TCP resets). EnsureConnectedAsync creates a
// fresh AdsClient when the prior one is gone, but until this test the live-wire
// recovery path was only unit-tested against FakeTwinCATClient.
var options = BuildOptions(sim);
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-reconnect");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var first = await drv.ReadAsync(["Counter"], TestContext.Current.CancellationToken);
first[0].StatusCode.ShouldBe(0u);
// Dispose the underlying client the driver is holding. Next read must reconnect
// (via EnsureConnectedAsync → AdsClient.Connect) rather than fail.
var hostAddress = $"ads://{sim.TargetNetId}:{sim.AmsPort}";
var device = drv.GetDeviceState(hostAddress).ShouldNotBeNull("device state must exist after Initialize");
device.DisposeClient();
var second = await drv.ReadAsync(["Counter"], TestContext.Current.CancellationToken);
second[0].StatusCode.ShouldBe(0u, "driver must transparently reconnect on next read");
}
[TwinCATTheory]
// vBool's expected value is null — the initial TRUE seed doesn't reliably survive cold
// restarts on this deployment, and the point of this theory is round-tripping the type
// mapper, not test-data seed persistence. All other primitives re-init on every boot.
[InlineData("GVL_Primitives.vBool", TwinCATDataType.Bool, null)]
[InlineData("GVL_Primitives.vSInt", TwinCATDataType.SInt, "-42")]
[InlineData("GVL_Primitives.vUSInt", TwinCATDataType.USInt, "250")]
[InlineData("GVL_Primitives.vInt", TwinCATDataType.Int, "-12345")]
[InlineData("GVL_Primitives.vUInt", TwinCATDataType.UInt, "54321")]
[InlineData("GVL_Primitives.vDInt", TwinCATDataType.DInt, "-1234567")]
[InlineData("GVL_Primitives.vUDInt", TwinCATDataType.UDInt, "4000000000")]
[InlineData("GVL_Primitives.vLInt", TwinCATDataType.LInt, "-1234567890123")]
[InlineData("GVL_Primitives.vULInt", TwinCATDataType.ULInt, "12345678901234567")]
[InlineData("GVL_Primitives.vReal", TwinCATDataType.Real, "3.14159")]
[InlineData("GVL_Primitives.vLReal", TwinCATDataType.LReal, "2.7182818284590452")]
[InlineData("GVL_Primitives.vString", TwinCATDataType.String, "Hello from TC3")]
[InlineData("GVL_Primitives.vTime", TwinCATDataType.Time, null)]
[InlineData("GVL_Primitives.vTimeOfDay", TwinCATDataType.TimeOfDay, null)]
[InlineData("GVL_Primitives.vDate", TwinCATDataType.Date, null)]
[InlineData("GVL_Primitives.vDateTime", TwinCATDataType.DateTime, null)]
public async Task Driver_reads_every_primitive_type_with_correct_mapping(
string symbolPath, TwinCATDataType type, string? expectedValueInvariant)
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// One driver per case is ~0.3 s each on the live VM — pragmatic vs a shared-driver
// iteration pattern since the point is to exercise options/tag-mapping/ReadAsync
// end-to-end per primitive, catching regressions like the STRING(N) mapper bug.
var options = new TwinCATDriverOptions
{
Devices = [new TwinCATDeviceOptions($"ads://{sim.TargetNetId}:{sim.AmsPort}", "XAR-VM")],
Tags =
[
new TwinCATTagDefinition(
Name: "Primitive",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: symbolPath,
DataType: type),
],
Timeout = TimeSpan.FromSeconds(5),
Probe = new TwinCATProbeOptions { Enabled = false },
};
await using var drv = new TwinCATDriver(options, driverInstanceId: $"tc3-prim-{type}");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var result = await drv.ReadAsync(["Primitive"], TestContext.Current.CancellationToken);
result[0].StatusCode.ShouldBe(0u, $"primitive read must succeed for {symbolPath} ({type})");
result[0].Value.ShouldNotBeNull();
// Expected-value check only where the seed is ergonomic to re-encode as a literal —
// TIME / TOD / DATE / DT arrive as uint ticks, which is covered by the status+type
// assertions above; adding brittle tick-math here adds no signal over that.
if (expectedValueInvariant is not null)
{
switch (type)
{
case TwinCATDataType.Bool:
result[0].Value.ShouldBe(bool.Parse(expectedValueInvariant));
break;
case TwinCATDataType.String:
result[0].Value.ShouldBe(expectedValueInvariant);
break;
case TwinCATDataType.Real:
Convert.ToSingle(result[0].Value).ShouldBe(
float.Parse(expectedValueInvariant, System.Globalization.CultureInfo.InvariantCulture),
tolerance: 0.0001f);
break;
case TwinCATDataType.LReal:
Convert.ToDouble(result[0].Value).ShouldBe(
double.Parse(expectedValueInvariant, System.Globalization.CultureInfo.InvariantCulture),
tolerance: 0.0000001);
break;
default:
// Integer primitives: parse against the target CLR type the mapper chose.
Convert.ToInt64(result[0].Value).ShouldBe(long.Parse(expectedValueInvariant));
break;
}
}
}
[TwinCATFact]
public async Task Driver_reads_bit_indexed_BOOL_from_word()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// GVL_Primitives.vWord = 0xBEEF = 1011 1110 1110 1111. Bit 3 = 1 (within the low
// nibble 'F'). Tags with bitIndex route through ExtractBit → TwinCAT.Ads supports
// the .N bit-access suffix natively so the driver's read path relies on that.
var options = new TwinCATDriverOptions
{
Devices = [new TwinCATDeviceOptions($"ads://{sim.TargetNetId}:{sim.AmsPort}", "XAR-VM")],
Tags =
[
new TwinCATTagDefinition(
Name: "WordBit3",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Primitives.vWord.3",
DataType: TwinCATDataType.Bool),
new TwinCATTagDefinition(
Name: "WordBit4",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Primitives.vWord.4",
DataType: TwinCATDataType.Bool),
],
Timeout = TimeSpan.FromSeconds(5),
Probe = new TwinCATProbeOptions { Enabled = false },
};
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-bitbool");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var result = await drv.ReadAsync(["WordBit3", "WordBit4"], TestContext.Current.CancellationToken);
result[0].StatusCode.ShouldBe(0u);
result[0].Value.ShouldBe(true, "bit 3 of 0xBEEF is set");
result[1].StatusCode.ShouldBe(0u);
result[1].Value.ShouldBe(false, "bit 4 of 0xBEEF is clear");
}
[TwinCATFact]
public async Task Driver_reads_deeply_nested_UDT_path()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// 5-level nested path into the plant hierarchy. FB_LineSim is driving the motor
// temperature from a sine of the counter, so the value is alive but bounded.
var options = new TwinCATDriverOptions
{
Devices = [new TwinCATDeviceOptions($"ads://{sim.TargetNetId}:{sim.AmsPort}", "XAR-VM")],
Tags =
[
new TwinCATTagDefinition(
Name: "MotorTemp",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Plant.Line1.Stations[1].Axes[1].Motor.Temperature",
DataType: TwinCATDataType.LReal),
new TwinCATTagDefinition(
Name: "MotorRunning",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Plant.Line1.Stations[1].Axes[1].Motor.Running",
DataType: TwinCATDataType.Bool),
],
Timeout = TimeSpan.FromSeconds(5),
Probe = new TwinCATProbeOptions { Enabled = false },
};
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-udt");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var result = await drv.ReadAsync(["MotorTemp", "MotorRunning"], TestContext.Current.CancellationToken);
result[0].StatusCode.ShouldBe(0u, "nested UDT LREAL path must round-trip");
result[0].Value.ShouldBeOfType<double>();
result[1].StatusCode.ShouldBe(0u, "nested UDT BOOL path must round-trip");
result[1].Value.ShouldBeOfType<bool>();
}
[TwinCATFact]
public async Task Driver_reports_errors_for_unknown_tag_and_nonexistent_symbol_and_readonly_write()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// Three negative paths in one driver instance — cheaper than spinning three drivers
// for what are essentially status-code assertions:
// 1. unknown tag name (not in the options map) → BadNodeIdUnknown
// 2. known tag pointing at a nonexistent PLC symbol → ADS error mapped to non-zero
// 3. write against a Writable=false tag → BadNotWritable
var options = new TwinCATDriverOptions
{
Devices = [new TwinCATDeviceOptions($"ads://{sim.TargetNetId}:{sim.AmsPort}", "XAR-VM")],
Tags =
[
new TwinCATTagDefinition(
Name: "NonexistentSymbol",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_DoesNotExist.vGhost",
DataType: TwinCATDataType.DInt),
new TwinCATTagDefinition(
Name: "ReadOnlyCounter",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Fixture.nCounter",
DataType: TwinCATDataType.DInt,
Writable: false),
],
Timeout = TimeSpan.FromSeconds(5),
Probe = new TwinCATProbeOptions { Enabled = false },
};
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-errors");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
// (1) Unknown tag — never registered in options, must short-circuit before ADS.
var unknownRead = await drv.ReadAsync(["NeverDeclared"], TestContext.Current.CancellationToken);
unknownRead[0].StatusCode.ShouldBe(TwinCATStatusMapper.BadNodeIdUnknown);
// (2) Known tag, nonexistent PLC symbol — ADS returns SymbolNotFound, driver maps it
// to a non-zero OPC UA status. Don't pin to a specific code — the exact mapping
// is a driver-internal concern and we only care it surfaces as an error.
var ghostRead = await drv.ReadAsync(["NonexistentSymbol"], TestContext.Current.CancellationToken);
ghostRead[0].StatusCode.ShouldNotBe(0u, "nonexistent PLC symbol must surface as a non-Good status");
// (3) Read-only declared tag — write must short-circuit with BadNotWritable before ADS.
var roWrite = await drv.WriteAsync(
[new WriteRequest("ReadOnlyCounter", 999)],
TestContext.Current.CancellationToken);
roWrite[0].StatusCode.ShouldBe(TwinCATStatusMapper.BadNotWritable);
}
[TwinCATFact]
public async Task Driver_routes_reads_per_device_and_isolates_unreachable_peers()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// Two devices in one driver: the real VM + a bogus AmsNetId that won't resolve. Tags
// routed to the real device must still succeed; tags on the unreachable device must
// surface comms errors without poisoning the healthy one — this is the multi-device
// routing + per-device connection isolation contract the unit suite can't prove on the wire.
var realHost = $"ads://{sim.TargetNetId}:{sim.AmsPort}";
var ghostHost = "ads://99.99.99.99.1.1:851";
var options = new TwinCATDriverOptions
{
Devices =
[
new TwinCATDeviceOptions(realHost, "Real-VM"),
new TwinCATDeviceOptions(ghostHost, "Ghost-VM"),
],
Tags =
[
new TwinCATTagDefinition(
Name: "RealCounter",
DeviceHostAddress: realHost,
SymbolPath: "GVL_Fixture.nCounter",
DataType: TwinCATDataType.DInt),
new TwinCATTagDefinition(
Name: "GhostCounter",
DeviceHostAddress: ghostHost,
SymbolPath: "GVL_Fixture.nCounter",
DataType: TwinCATDataType.DInt),
],
// Shorter timeout so the bogus device fails fast rather than dragging the whole
// test; the healthy read shouldn't be slowed down by a peer timeout.
Timeout = TimeSpan.FromSeconds(2),
Probe = new TwinCATProbeOptions { Enabled = false },
};
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-multidev");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var real = await drv.ReadAsync(["RealCounter"], TestContext.Current.CancellationToken);
real[0].StatusCode.ShouldBe(0u, "healthy device read must succeed alongside unreachable peer");
var ghost = await drv.ReadAsync(["GhostCounter"], TestContext.Current.CancellationToken);
ghost[0].StatusCode.ShouldNotBe(0u, "unreachable device read must surface non-Good status");
// Per-device host resolver — each tag's resolved host matches the device it was
// declared against, regardless of the order reads arrive.
drv.ResolveHost("RealCounter").ShouldBe(realHost);
drv.ResolveHost("GhostCounter").ShouldBe(ghostHost);
}
[TwinCATFact]
public async Task Probe_loop_raises_host_status_transition_to_Running_on_reachable_target()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// Turn the probe loop on — InitializeAsync kicks off a background task per device
// that calls AdsClient.ReadState. On first success the driver fires an
// OnHostStatusChanged(Unknown|Stopped → Running). We only need to see one transition
// to Running to prove the probe + event wiring is live.
var options = new TwinCATDriverOptions
{
Devices = [new TwinCATDeviceOptions($"ads://{sim.TargetNetId}:{sim.AmsPort}", "XAR-VM")],
Tags = [],
Timeout = TimeSpan.FromSeconds(5),
Probe = new TwinCATProbeOptions
{
Enabled = true,
Interval = TimeSpan.FromMilliseconds(250),
Timeout = TimeSpan.FromSeconds(2),
},
};
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-probe");
var runningSeen = new TaskCompletionSource<bool>();
drv.OnHostStatusChanged += (_, e) =>
{
if (e.NewState == HostState.Running) runningSeen.TrySetResult(true);
};
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
// 5 s headroom: first probe fires ~250 ms after Initialize, plus ADS connect handshake.
var completed = await Task.WhenAny(
runningSeen.Task,
Task.Delay(TimeSpan.FromSeconds(5), TestContext.Current.CancellationToken));
completed.ShouldBe(runningSeen.Task, "probe loop must raise a Running transition within 5 s");
// Snapshot should also reflect Running — proves GetHostStatuses is in sync with the event.
var statuses = drv.GetHostStatuses();
statuses.Count.ShouldBe(1);
statuses[0].State.ShouldBe(HostState.Running);
}
[TwinCATFact]
public async Task DiscoverAsync_renders_declared_tags_and_controller_browse_hits_address_space_builder()
{
if (sim.SkipReason is not null) Assert.Skip(sim.SkipReason);
// Hits the DiscoverAsync → IAddressSpaceBuilder pipeline the browse-only test bypasses.
// With EnableControllerBrowse=true, the driver must (a) emit the pre-declared tag under
// the device folder and (b) drop discovered symbols into a sibling "Discovered/" folder.
var baseOptions = BuildOptions(sim);
var options = new TwinCATDriverOptions
{
Devices = baseOptions.Devices,
Tags = baseOptions.Tags,
UseNativeNotifications = baseOptions.UseNativeNotifications,
Timeout = baseOptions.Timeout,
Probe = baseOptions.Probe,
EnableControllerBrowse = true,
};
await using var drv = new TwinCATDriver(options, driverInstanceId: "tc3-smoke-discover");
await drv.InitializeAsync("{}", TestContext.Current.CancellationToken);
var builder = new RecordingAddressSpaceBuilder();
await drv.DiscoverAsync(builder, TestContext.Current.CancellationToken);
// Structural folders in the order the driver emits them: TwinCAT → device → Discovered.
builder.FolderBrowseNames.ShouldContain("TwinCAT");
builder.FolderBrowseNames.ShouldContain($"ads://{sim.TargetNetId}:{sim.AmsPort}");
builder.FolderBrowseNames.ShouldContain("Discovered");
// Pre-declared tag from TwinCATDriverOptions.Tags — always emitted regardless of browse.
builder.Variables.ShouldContain(v => v.BrowseName == "Counter"
&& v.Info.DriverDataType == DriverDataType.Int32);
// Controller-discovered symbol — GVL_Fixture.nCounter lands under Discovered/.
builder.Variables.ShouldContain(v => v.BrowseName == "GVL_Fixture.nCounter"
&& v.Info.DriverDataType == DriverDataType.Int32);
}
private static TwinCATDriverOptions BuildOptions(TwinCATXarFixture sim) => new()
{
Devices = [
new TwinCATDeviceOptions(
HostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
DeviceName: "XAR-VM"),
],
Tags = [
new TwinCATTagDefinition(
Name: "Counter",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Fixture.nCounter",
DataType: TwinCATDataType.DInt),
new TwinCATTagDefinition(
Name: "Setpoint",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Fixture.rSetpoint",
DataType: TwinCATDataType.Real,
Writable: true),
new TwinCATTagDefinition(
Name: "ArrayElem",
DeviceHostAddress: $"ads://{sim.TargetNetId}:{sim.AmsPort}",
SymbolPath: "GVL_Arrays.aReal1D[5]",
DataType: TwinCATDataType.Real,
Writable: true),
],
UseNativeNotifications = true,
Timeout = TimeSpan.FromSeconds(5),
// Disable the probe loop — the smoke tests run their own reads; a background
// probe against GVL_Fixture.nCounter would race with them for the ADS client
// gate + inject flakiness unrelated to the code under test.
Probe = new TwinCATProbeOptions { Enabled = false },
};
}
/// <summary>
/// Test double that captures every <see cref="IAddressSpaceBuilder.Folder"/> /
/// <see cref="IAddressSpaceBuilder.Variable"/> call the driver makes during
/// <c>DiscoverAsync</c>. Lets assertions inspect the resulting folder + variable tree
/// without materializing an OPC UA node manager.
/// </summary>
internal sealed class RecordingAddressSpaceBuilder : IAddressSpaceBuilder
{
public List<(string BrowseName, string DisplayName)> Folders { get; } = [];
public List<(string BrowseName, DriverAttributeInfo Info)> Variables { get; } = [];
public IEnumerable<string> FolderBrowseNames => Folders.Select(f => f.BrowseName);
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 name, DriverDataType type, object? value) { }
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) { }
}
}
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