Files
lmxopcua/tests/Server/ZB.MOM.WW.OtOpcUa.OpcUaServer.Tests/NodeManagerModelChangeOnAddTests.cs
T
Joseph Doherty 2e0743ad25 fix(v3-batch4-wp3): realm-qualified write routing + dormant discovery guard + self-correction/byte-parity tests (Wave B review H1/M1/M2/L1/L3)
H1 (HIGH): write-routing key now (AddressSpaceRealm, bareId), not bare-only.
A raw s=<RawPath> and a UNS s=<Area/Line/Equip/Eff> can collide as bare
strings; the bare-only key let a colliding raw+UNS pair route to the WRONG
driver ref (last-writer-wins). The realm the node manager resolves (RealmOf)
is now threaded through IOpcUaNodeWriteGateway.WriteAsync -> RouteNodeWrite ->
_driverRefByNodeId keyed by (realm, bareId). New regression test:
Colliding_raw_and_uns_bare_ids_route_to_their_own_driver_by_realm.

M1 (MEDIUM): discovered-node injection made coherently DORMANT. HandleDiscoveredNodes
hard-short-circuits (single enforcement point; _discoveredByDriver never
populates so the re-inject tail is inert too), with a clear log pointing at the
/raw browse-commit flow. New pin: Discovered_nodes_are_ignored_dormant_in_v3;
the 16+2 v2 injection scenarios re-pointed to an accurate skip reason
(DiscoveryInjectionDormantV3).

M2 (MEDIUM): realm-qualified dual-node self-correction tests —
Failed_uns_write_reverts_uns_node_and_leaves_raw_node_untouched +
Raw_realm_revert_reverts_raw_node_only (the second fails if the realm is dropped).

L1: removed the = AddressSpaceRealm.Uns defaults from the consequential
node-manager mutation methods (WriteValue/WriteAlarmCondition/MaterialiseAlarmCondition/
EnsureFolder/EnsureVariable/UpdateFolderDisplayName/UpdateTagAttributes/
RaiseNodesAddedModelChange/Remove*/RevertOptimisticWriteIfNeeded) + the
AttributeValueUpdate/AlarmStateUpdate records, so the compiler forces explicit
realm; read-only accessors + internal builders retain their defaults.

L3: fixed the stale VirtualTagHostActor class comment (V3NodeIds.Uns, not the
retired EquipmentNodeIds.Variable).

Also: DeploymentArtifactRawUnsParityTests — Raw/UNS node-set byte-parity
round-trip between AddressSpaceComposer.Compose and DeploymentArtifact.ParseComposition.

Claude-Session: https://claude.ai/code/session_01LVneM3eh1UtJxEisFXgmox
2026-07-16 11:30:13 -04:00

146 lines
6.7 KiB
C#

using Opc.Ua;
using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Commons.OpcUa;
namespace ZB.MOM.WW.OtOpcUa.OpcUaServer.Tests;
/// <summary>
/// FixedTree injection — the BEHAVIOURAL half of the runtime node-add model-change announcement. When a
/// driver discovers FixedTree nodes AFTER the server is up and they are materialised into the served
/// Equipment address space, already-connected OPC UA clients won't see them unless the server emits a
/// Part 3 <c>GeneralModelChangeEvent</c> (verb <c>NodeAdded</c>) under the affected parent so subscribed
/// clients refresh their browse. <see cref="OtOpcUaNodeManager.RaiseNodesAddedModelChange"/> is that seam
/// (Tasks 4/5 call it after materialising discovered nodes); this test asserts:
/// <list type="bullet">
/// <item>the built event announces the affected parent with verb <c>NodeAdded</c> (the runtime-add
/// counterpart of <see cref="NodeManagerSurgicalShapeUpdateTests"/>'s <c>DataTypeChanged</c> case);</item>
/// <item>raising it is tolerant — callable before AND after nodes exist, and never throws even when the
/// event path is disabled / has no monitored items.</item>
/// </list>
/// <para>
/// Coverage boundary (deliberate, mirrors <see cref="NodeManagerSurgicalShapeUpdateTests"/>): the
/// model-change event is asserted via its <i>builder</i>
/// (<see cref="OtOpcUaNodeManager.BuildNodesAddedModelChange"/>) in isolation, not its end-to-end
/// <c>Server.ReportEvent</c> dispatch — observing that would require a subscribed event monitored-item.
/// The single in-lock report call-site is covered by inspection (it mirrors the shape-changed reporter).
/// </para>
/// </summary>
public sealed class NodeManagerModelChangeOnAddTests : IDisposable
{
private static CancellationToken Ct => TestContext.Current.CancellationToken;
private readonly string _pkiRoot = Path.Combine(
Path.GetTempPath(),
$"otopcua-modelchange-add-{Guid.NewGuid():N}");
/// <summary>The built model-change event announces the affected parent with verb NodeAdded and the parent's
/// TypeDefinition as AffectedType — what model-aware clients consume to re-browse the new children.</summary>
[Trait("Category", "Unit")]
[Fact]
public async Task Built_nodes_added_event_announces_the_affected_parent_with_NodeAdded_verb()
{
var (host, server) = await BootAsync();
var nm = server.NodeManager!;
nm.EnsureFolder("eq-7", parentNodeId: null, displayName: "Equipment 7", realm: AddressSpaceRealm.Uns);
nm.EnsureVariable("eq-7/speed", parentFolderNodeId: "eq-7", displayName: "Speed", dataType: "Float", writable: false, realm: AddressSpaceRealm.Uns);
var parent = nm.TryGetFolder("eq-7")!;
var e = nm.BuildNodesAddedModelChange("eq-7");
e.ShouldNotBeNull();
e.Changes.ShouldNotBeNull();
var changes = e.Changes.Value;
changes.Length.ShouldBe(1);
changes[0].Affected.ShouldBe(parent.NodeId);
changes[0].AffectedType.ShouldBe(ObjectTypeIds.FolderType);
changes[0].Verb.ShouldBe((byte)ModelChangeStructureVerbMask.NodeAdded);
await host.DisposeAsync();
}
/// <summary>For an affected id that is not (yet) materialised, the built event still announces NodeAdded but
/// its AffectedType falls back to <see cref="NodeId.Null"/> (a valid Part 3 "type not applicable") — the
/// documented fallback of <see cref="OtOpcUaNodeManager.BuildNodesAddedModelChange"/>, locked in as an
/// invariant.</summary>
[Trait("Category", "Unit")]
[Fact]
public async Task Built_event_for_unknown_id_falls_back_to_null_AffectedType()
{
var (host, server) = await BootAsync();
var nm = server.NodeManager!;
// No EnsureFolder/EnsureVariable for this id — it is not in the node maps.
var e = nm.BuildNodesAddedModelChange("eq-unknown");
e.ShouldNotBeNull();
e.Changes.ShouldNotBeNull();
var changes = e.Changes.Value;
changes.Length.ShouldBe(1);
changes[0].Verb.ShouldBe((byte)ModelChangeStructureVerbMask.NodeAdded);
changes[0].AffectedType.ShouldBe(NodeId.Null);
await host.DisposeAsync();
}
/// <summary>Raising the announcement is tolerant: callable before any nodes exist (unknown affected id ⇒
/// AffectedType defaults to null, still a valid Part 3 change) AND after they are materialised, and never
/// throws even when the event path reaches no monitored items (same tolerance as the write-revert path).</summary>
[Trait("Category", "Unit")]
[Fact]
public async Task Raising_nodes_added_is_tolerant_before_and_after_nodes_exist()
{
var (host, server) = await BootAsync();
var nm = server.NodeManager!;
// Before any nodes exist under the parent — must not throw.
Should.NotThrow(() => nm.RaiseNodesAddedModelChange("eq-9", realm: AddressSpaceRealm.Uns));
nm.EnsureFolder("eq-9", parentNodeId: null, displayName: "Equipment 9", realm: AddressSpaceRealm.Uns);
nm.EnsureVariable("eq-9/temp", parentFolderNodeId: "eq-9", displayName: "Temp", dataType: "Float", writable: false, realm: AddressSpaceRealm.Uns);
// After the nodes are materialised — still must not throw.
Should.NotThrow(() => nm.RaiseNodesAddedModelChange("eq-9", realm: AddressSpaceRealm.Uns));
await host.DisposeAsync();
}
private async Task<(OpcUaApplicationHost Host, OtOpcUaSdkServer Server)> BootAsync()
{
var host = new OpcUaApplicationHost(
new OpcUaApplicationHostOptions
{
ApplicationName = "OtOpcUa.ModelChangeOnAddTest",
ApplicationUri = $"urn:OtOpcUa.ModelChangeOnAddTest:{Guid.NewGuid():N}",
OpcUaPort = AllocateFreePort(),
PublicHostname = "localhost",
PkiStoreRoot = _pkiRoot,
},
Microsoft.Extensions.Logging.Abstractions.NullLogger<OpcUaApplicationHost>.Instance);
var server = new OtOpcUaSdkServer();
await host.StartAsync(server, Ct);
return (host, server);
}
private static int AllocateFreePort()
{
using var listener = new System.Net.Sockets.TcpListener(System.Net.IPAddress.Loopback, 0);
listener.Start();
var port = ((System.Net.IPEndPoint)listener.LocalEndpoint).Port;
listener.Stop();
return port;
}
/// <summary>Cleans up the PKI root directory.</summary>
public void Dispose()
{
if (Directory.Exists(_pkiRoot))
{
try { Directory.Delete(_pkiRoot, recursive: true); }
catch { /* best-effort cleanup */ }
}
}
}