3b2defd94f
Renames all 11 projects (5 src + 6 tests), the .slnx solution file, all source-file namespaces, all axaml namespace references, and all v1 documentation references in CLAUDE.md and docs/*.md (excluding docs/v2/ which is already in OtOpcUa form). Also updates the TopShelf service registration name from "LmxOpcUa" to "OtOpcUa" per Phase 0 Task 0.6.
Preserves runtime identifiers per Phase 0 Out-of-Scope rules to avoid breaking v1/v2 client trust during coexistence: OPC UA `ApplicationUri` defaults (`urn:{GalaxyName}:LmxOpcUa`), server `EndpointPath` (`/LmxOpcUa`), `ServerName` default (feeds cert subject CN), `MxAccessConfiguration.ClientName` default (defensive — stays "LmxOpcUa" for MxAccess audit-trail consistency), client OPC UA identifiers (`ApplicationName = "LmxOpcUaClient"`, `ApplicationUri = "urn:localhost:LmxOpcUaClient"`, cert directory `%LocalAppData%\LmxOpcUaClient\pki\`), and the `LmxOpcUaServer` class name (class rename out of Phase 0 scope per Task 0.5 sed pattern; happens in Phase 1 alongside `LmxNodeManager → GenericDriverNodeManager` Core extraction). 23 LmxOpcUa references retained, all enumerated and justified in `docs/v2/implementation/exit-gate-phase-0.md`.
Build clean: 0 errors, 30 warnings (lower than baseline 167). Tests at strict improvement over baseline: 821 passing / 1 failing vs baseline 820 / 2 (one flaky pre-existing failure passed this run; the other still fails — both pre-existing and unrelated to the rename). `Client.UI.Tests`, `Historian.Aveva.Tests`, `Client.Shared.Tests`, `IntegrationTests` all match baseline exactly. Exit gate compliance results recorded in `docs/v2/implementation/exit-gate-phase-0.md` with all 7 checks PASS or DEFERRED-to-PR-review (#7 service install verification needs Windows service permissions on the reviewer's box).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
188 lines
7.3 KiB
C#
188 lines
7.3 KiB
C#
using System.Collections.Generic;
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using System.Threading.Tasks;
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using Opc.Ua;
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using Shouldly;
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using Xunit;
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using ZB.MOM.WW.OtOpcUa.Host.Configuration;
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using ZB.MOM.WW.OtOpcUa.Tests.Helpers;
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namespace ZB.MOM.WW.OtOpcUa.Tests.Integration
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{
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public class RedundancyTests
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{
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[Fact]
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public async Task Server_WithRedundancyDisabled_ReportsNone()
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{
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var fixture = OpcUaServerFixture.WithFakeMxAccessClient();
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await fixture.InitializeAsync();
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try
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{
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using var client = new OpcUaTestClient();
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await client.ConnectAsync(fixture.EndpointUrl);
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var redundancySupport = client.Read(VariableIds.Server_ServerRedundancy_RedundancySupport);
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((int)redundancySupport.Value).ShouldBe((int)RedundancySupport.None);
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var serviceLevel = client.Read(VariableIds.Server_ServiceLevel);
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((byte)serviceLevel.Value).ShouldBe((byte)255);
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}
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finally
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{
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await fixture.DisposeAsync();
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}
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}
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[Fact]
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public async Task Server_WithRedundancyEnabled_ReportsConfiguredMode()
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{
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var redundancy = new RedundancyConfiguration
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{
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Enabled = true,
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Mode = "Warm",
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Role = "Primary",
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ServiceLevelBase = 200,
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ServerUris = new List<string> { "urn:test:primary", "urn:test:secondary" }
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};
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var fixture = OpcUaServerFixture.WithFakeMxAccessClient(
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redundancy: redundancy,
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applicationUri: "urn:test:primary");
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await fixture.InitializeAsync();
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try
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{
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using var client = new OpcUaTestClient();
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await client.ConnectAsync(fixture.EndpointUrl);
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var redundancySupport = client.Read(VariableIds.Server_ServerRedundancy_RedundancySupport);
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((int)redundancySupport.Value).ShouldBe((int)RedundancySupport.Warm);
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}
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finally
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{
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await fixture.DisposeAsync();
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}
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}
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[Fact]
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public async Task Server_Primary_HasHigherServiceLevel_ThanSecondary()
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{
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var sharedUris = new List<string> { "urn:test:primary", "urn:test:secondary" };
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var primaryRedundancy = new RedundancyConfiguration
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{
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Enabled = true, Mode = "Warm", Role = "Primary",
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ServiceLevelBase = 200, ServerUris = sharedUris
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};
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var secondaryRedundancy = new RedundancyConfiguration
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{
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Enabled = true, Mode = "Warm", Role = "Secondary",
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ServiceLevelBase = 200, ServerUris = sharedUris
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};
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var primaryFixture = OpcUaServerFixture.WithFakeMxAccessClient(
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redundancy: primaryRedundancy, applicationUri: "urn:test:primary");
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var secondaryFixture = OpcUaServerFixture.WithFakeMxAccessClient(
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redundancy: secondaryRedundancy, applicationUri: "urn:test:secondary",
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serverName: "TestGalaxy2");
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await primaryFixture.InitializeAsync();
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await secondaryFixture.InitializeAsync();
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try
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{
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using var primaryClient = new OpcUaTestClient();
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await primaryClient.ConnectAsync(primaryFixture.EndpointUrl);
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var primaryLevel = (byte)primaryClient.Read(VariableIds.Server_ServiceLevel).Value;
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using var secondaryClient = new OpcUaTestClient();
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await secondaryClient.ConnectAsync(secondaryFixture.EndpointUrl);
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var secondaryLevel = (byte)secondaryClient.Read(VariableIds.Server_ServiceLevel).Value;
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primaryLevel.ShouldBeGreaterThan(secondaryLevel);
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}
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finally
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{
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await secondaryFixture.DisposeAsync();
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await primaryFixture.DisposeAsync();
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}
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}
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[Fact]
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public async Task Server_WithRedundancyEnabled_ExposesServerUriArray()
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{
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var serverUris = new List<string> { "urn:test:server1", "urn:test:server2" };
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var redundancy = new RedundancyConfiguration
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{
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Enabled = true, Mode = "Warm", Role = "Primary",
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ServiceLevelBase = 200, ServerUris = serverUris
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};
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var fixture = OpcUaServerFixture.WithFakeMxAccessClient(
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redundancy: redundancy, applicationUri: "urn:test:server1");
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await fixture.InitializeAsync();
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try
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{
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using var client = new OpcUaTestClient();
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await client.ConnectAsync(fixture.EndpointUrl);
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var uriArrayValue = client.Read(VariableIds.Server_ServerRedundancy_ServerUriArray);
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// ServerUriArray may not be exposed if the SDK doesn't create the non-transparent
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// redundancy node type automatically. If the value is null, the server logged a
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// warning and the test is informational rather than a hard failure.
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if (uriArrayValue.Value != null)
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{
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var uris = (string[])uriArrayValue.Value;
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uris.Length.ShouldBe(2);
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uris.ShouldContain("urn:test:server1");
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uris.ShouldContain("urn:test:server2");
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}
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}
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finally
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{
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await fixture.DisposeAsync();
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}
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}
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[Fact]
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public async Task TwoServers_BothExposeSameRedundantSet()
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{
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var sharedUris = new List<string> { "urn:test:a", "urn:test:b" };
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var configA = new RedundancyConfiguration
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{
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Enabled = true, Mode = "Warm", Role = "Primary",
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ServiceLevelBase = 200, ServerUris = sharedUris
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};
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var configB = new RedundancyConfiguration
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{
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Enabled = true, Mode = "Warm", Role = "Secondary",
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ServiceLevelBase = 200, ServerUris = sharedUris
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};
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var fixtureA = OpcUaServerFixture.WithFakeMxAccessClient(
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redundancy: configA, applicationUri: "urn:test:a");
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var fixtureB = OpcUaServerFixture.WithFakeMxAccessClient(
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redundancy: configB, applicationUri: "urn:test:b",
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serverName: "TestGalaxy2");
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await fixtureA.InitializeAsync();
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await fixtureB.InitializeAsync();
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try
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{
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using var clientA = new OpcUaTestClient();
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await clientA.ConnectAsync(fixtureA.EndpointUrl);
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var modeA = (int)clientA.Read(VariableIds.Server_ServerRedundancy_RedundancySupport).Value;
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using var clientB = new OpcUaTestClient();
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await clientB.ConnectAsync(fixtureB.EndpointUrl);
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var modeB = (int)clientB.Read(VariableIds.Server_ServerRedundancy_RedundancySupport).Value;
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modeA.ShouldBe((int)RedundancySupport.Warm);
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modeB.ShouldBe((int)RedundancySupport.Warm);
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}
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finally
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{
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await fixtureB.DisposeAsync();
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await fixtureA.DisposeAsync();
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}
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}
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}
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} |