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lmxopcua/tests/ZB.MOM.WW.OtOpcUa.Tests.v1Archive/Integration/IncrementalSyncTests.cs
Joseph Doherty a3d16a28f1 Phase 2 Stream D Option B — archive v1 surface + new Driver.Galaxy.E2E parity suite. Non-destructive intermediate state: the v1 OtOpcUa.Host + Historian.Aveva + Tests + IntegrationTests projects all still build (494 v1 unit + 6 v1 integration tests still pass when run explicitly), but solution-level dotnet test ZB.MOM.WW.OtOpcUa.slnx now skips them via IsTestProject=false on the test projects + archive-status PropertyGroup comments on the src projects. The destructive deletion is reserved for Phase 2 PR 3 with explicit operator review per CLAUDE.md "only use destructive operations when truly the best approach". tests/ZB.MOM.WW.OtOpcUa.Tests/ renamed via git mv to tests/ZB.MOM.WW.OtOpcUa.Tests.v1Archive/; csproj <AssemblyName> kept as the original ZB.MOM.WW.OtOpcUa.Tests so v1 OtOpcUa.Host's [InternalsVisibleTo("ZB.MOM.WW.OtOpcUa.Tests")] still matches and the project rebuilds clean. tests/ZB.MOM.WW.OtOpcUa.IntegrationTests gets <IsTestProject>false</IsTestProject>. src/ZB.MOM.WW.OtOpcUa.Host + src/ZB.MOM.WW.OtOpcUa.Historian.Aveva get PropertyGroup archive-status comments documenting they're functionally superseded but kept in-build because cascading dependencies (Historian.Aveva → Host; IntegrationTests → Host) make a single-PR deletion high blast-radius. New tests/ZB.MOM.WW.OtOpcUa.Driver.Galaxy.E2E/ project (.NET 10) with ParityFixture that spawns OtOpcUa.Driver.Galaxy.Host.exe (net48 x86) as a Process.Start subprocess with OTOPCUA_GALAXY_BACKEND=db env vars, awaits 2s for the PipeServer to bind, then exposes a connected GalaxyProxyDriver; skips on non-Windows / Administrator shells (PipeAcl denies admins per decision #76) / ZB unreachable / Host EXE not built — each skip carries a SkipReason string the test method reads via Assert.Skip(SkipReason). RecordingAddressSpaceBuilder captures every Folder/Variable/AddProperty registration so parity tests can assert on the same shape v1 LmxNodeManager produced. HierarchyParityTests (3) — Discover returns gobjects with attributes; attribute full references match the tag.attribute Galaxy reference grammar; HistoryExtension flag flows through correctly. StabilityFindingsRegressionTests (4) — one test per 2026-04-13 stability finding from commits c76ab8f and 7310925: phantom probe subscription doesn't corrupt unrelated host status; HostStatusChangedEventArgs structurally carries a specific HostName + OldState + NewState (event signature mathematically prevents the v1 cross-host quality-clear bug); all GalaxyProxyDriver capability methods return Task or Task<T> (sync-over-async would deadlock OPC UA stack thread); AcknowledgeAsync completes before returning (no fire-and-forget background work that could race shutdown). Solution test count: 470 pass / 7 skip (E2E on admin shell) / 1 pre-existing Phase 0 baseline. Run archived suites explicitly: dotnet test tests/ZB.MOM.WW.OtOpcUa.Tests.v1Archive (494 pass) + dotnet test tests/ZB.MOM.WW.OtOpcUa.IntegrationTests (6 pass). docs/v2/V1_ARCHIVE_STATUS.md inventories every archived surface with run-it-explicitly instructions + a 10-step deletion plan for PR 3 + rollback procedure (git revert restores all four projects). docs/v2/implementation/exit-gate-phase-2-final.md supersedes the two partial-exit docs with the per-stream status table (A/B/C/D/E all addressed, D split across PR 2/3 per safety protocol), the test count breakdown, fresh adversarial review of PR 2 deltas (4 new findings: medium IsTestProject=false safety net loss, medium structural-vs-behavioral stability tests, low backend=db default, low Process.Start env inheritance), the 8 carried-forward findings from exit-gate-phase-2.md, the recommended PR order (1 → 2 → 3 → 4). docs/v2/implementation/pr-2-body.md is the Gitea web-UI paste-in for opening PR 2 once pushed. 
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-18 00:56:21 -04:00

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using System.Linq;
using System.Threading.Tasks;
using Opc.Ua;
using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Host.Domain;
using ZB.MOM.WW.OtOpcUa.Tests.Helpers;
namespace ZB.MOM.WW.OtOpcUa.Tests.Integration
{
public class IncrementalSyncTests
{
/// <summary>
/// Verifies that adding a new Galaxy object and attribute causes the corresponding OPC UA node subtree to appear after
/// sync.
/// </summary>
[Fact]
public async Task Sync_AddObject_NewNodeAppears()
{
var fixture = OpcUaServerFixture.WithFakeMxAccessClient();
await fixture.InitializeAsync();
try
{
using var client = new OpcUaTestClient();
await client.ConnectAsync(fixture.EndpointUrl);
// Verify initial state
var children = await client.BrowseAsync(client.MakeNodeId("TestArea"));
children.Select(c => c.Name).ShouldContain("TestMachine_001");
children.Select(c => c.Name).ShouldNotContain("NewObject");
// Add a new object
fixture.GalaxyRepository!.Hierarchy.Add(new GalaxyObjectInfo
{
GobjectId = 100, TagName = "NewObject_001", ContainedName = "NewObject",
BrowseName = "NewObject", ParentGobjectId = 2, IsArea = false
});
fixture.GalaxyRepository.Attributes.Add(new GalaxyAttributeInfo
{
GobjectId = 100, TagName = "NewObject_001", AttributeName = "Status",
FullTagReference = "NewObject_001.Status", MxDataType = 5
});
fixture.Service.TriggerRebuild();
await Task.Delay(1000);
// Reconnect in case session was disrupted during rebuild
using var client2 = new OpcUaTestClient();
await client2.ConnectAsync(fixture.EndpointUrl);
// New object should appear when browsing parent
children = await client2.BrowseAsync(client2.MakeNodeId("TestArea"));
children.Select(c => c.Name).ShouldContain("NewObject",
$"Browse returned: [{string.Join(", ", children.Select(c => c.Name))}]");
// Original object should still be there
children.Select(c => c.Name).ShouldContain("TestMachine_001");
}
finally
{
await fixture.DisposeAsync();
}
}
/// <summary>
/// Verifies that removing a Galaxy object tears down the corresponding OPC UA subtree without affecting siblings.
/// </summary>
[Fact]
public async Task Sync_RemoveObject_NodeDisappears()
{
var fixture = OpcUaServerFixture.WithFakeMxAccessClient();
await fixture.InitializeAsync();
try
{
using var client = new OpcUaTestClient();
await client.ConnectAsync(fixture.EndpointUrl);
// Verify MESReceiver exists
var children = await client.BrowseAsync(client.MakeNodeId("TestMachine_001"));
children.Select(c => c.Name).ShouldContain("MESReceiver");
// Remove MESReceiver (gobject_id 5) and its attributes
fixture.GalaxyRepository!.Hierarchy.RemoveAll(h => h.GobjectId == 5);
fixture.GalaxyRepository.Attributes.RemoveAll(a => a.GobjectId == 5);
fixture.Service.TriggerRebuild();
await Task.Delay(500);
// MESReceiver should be gone
children = await client.BrowseAsync(client.MakeNodeId("TestMachine_001"));
children.Select(c => c.Name).ShouldNotContain("MESReceiver");
// DelmiaReceiver should still be there
children.Select(c => c.Name).ShouldContain("DelmiaReceiver");
}
finally
{
await fixture.DisposeAsync();
}
}
/// <summary>
/// Verifies that adding a Galaxy attribute creates a new OPC UA variable during incremental rebuild.
/// </summary>
[Fact]
public async Task Sync_AddAttribute_NewVariableAppears()
{
var fixture = OpcUaServerFixture.WithFakeMxAccessClient();
await fixture.InitializeAsync();
try
{
using var client = new OpcUaTestClient();
await client.ConnectAsync(fixture.EndpointUrl);
// Add a new attribute to TestMachine_001
fixture.GalaxyRepository!.Attributes.Add(new GalaxyAttributeInfo
{
GobjectId = 3, TagName = "TestMachine_001", AttributeName = "NewAttr",
FullTagReference = "TestMachine_001.NewAttr", MxDataType = 5
});
fixture.Service.TriggerRebuild();
await Task.Delay(500);
var children = await client.BrowseAsync(client.MakeNodeId("TestMachine_001"));
children.Select(c => c.Name).ShouldContain("NewAttr");
children.Select(c => c.Name).ShouldContain("MachineID");
}
finally
{
await fixture.DisposeAsync();
}
}
/// <summary>
/// Verifies that subscriptions on unchanged objects continue receiving data after unrelated subtree rebuilds.
/// </summary>
[Fact]
public async Task Sync_UnchangedObject_SubscriptionSurvives()
{
var mxClient = new FakeMxAccessClient();
var fixture = OpcUaServerFixture.WithFakeMxAccessClient(mxClient);
await fixture.InitializeAsync();
try
{
using var client = new OpcUaTestClient();
await client.ConnectAsync(fixture.EndpointUrl);
// Subscribe to MachineID on TestMachine_001
var nodeId = client.MakeNodeId("TestMachine_001.MachineID");
var (sub, item) = await client.SubscribeAsync(nodeId);
await Task.Delay(500);
// Modify a DIFFERENT object (MESReceiver) — TestMachine_001 should be unaffected
var mesAttr = fixture.GalaxyRepository!.Attributes
.First(a => a.GobjectId == 5 && a.AttributeName == "MoveInBatchID");
mesAttr.SecurityClassification = 2; // change something
fixture.Service.TriggerRebuild();
await Task.Delay(500);
// Push a value change through MXAccess — subscription should still deliver
mxClient.SimulateDataChange("TestMachine_001.MachineID", Vtq.Good("UPDATED"));
await Task.Delay(1000);
var lastValue = (item.LastValue as MonitoredItemNotification)?.Value?.Value;
lastValue.ShouldBe("UPDATED");
}
finally
{
await fixture.DisposeAsync();
}
}
/// <summary>
/// Verifies that a rebuild request with no repository changes leaves the published namespace intact.
/// </summary>
[Fact]
public async Task Sync_NoChanges_NothingHappens()
{
var fixture = OpcUaServerFixture.WithFakeMxAccessClient();
await fixture.InitializeAsync();
try
{
using var client = new OpcUaTestClient();
await client.ConnectAsync(fixture.EndpointUrl);
// Trigger rebuild with no changes
fixture.Service.TriggerRebuild();
await Task.Delay(500);
// Everything should still work
var children = await client.BrowseAsync(client.MakeNodeId("TestMachine_001"));
children.Select(c => c.Name).ShouldContain("MachineID");
}
finally
{
await fixture.DisposeAsync();
}
}
}
}
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