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lmxopcua/tests/Core/ZB.MOM.WW.OtOpcUa.Configuration.Tests/DraftValidatorTests.cs
Joseph Doherty a25593a9c6 chore: organize solution into module folders (Core/Server/Drivers/Client/Tooling) 
Group all 69 projects into category subfolders under src/ and tests/ so the
Rider Solution Explorer mirrors the module structure. Folders: Core, Server,
Drivers (with a nested Driver CLIs subfolder), Client, Tooling.

- Move every project folder on disk with git mv (history preserved as renames).
- Recompute relative paths in 57 .csproj files: cross-category ProjectReferences,
  the lib/ HintPath+None refs in Driver.Historian.Wonderware, and the external
  mxaccessgw refs in Driver.Galaxy and its test project.
- Rebuild ZB.MOM.WW.OtOpcUa.slnx with nested solution folders.
- Re-prefix project paths in functional scripts (e2e, compliance, smoke SQL,
  integration, install).

Build green (0 errors); unit tests pass. Docs left for a separate pass.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-17 01:55:28 -04:00

236 lines
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C#
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using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Configuration.Entities;
using ZB.MOM.WW.OtOpcUa.Configuration.Enums;
using ZB.MOM.WW.OtOpcUa.Configuration.Validation;
namespace ZB.MOM.WW.OtOpcUa.Configuration.Tests;
[Trait("Category", "Unit")]
public sealed class DraftValidatorTests
{
[Theory]
[InlineData("valid-name", true)]
[InlineData("line-01", true)]
[InlineData("_default", true)]
[InlineData("UPPER", false)]
[InlineData("with space", false)]
[InlineData("", false)]
public void UnsSegment_rule_accepts_lowercase_or_default_only(string name, bool shouldPass)
{
var uuid = Guid.NewGuid();
var draft = new DraftSnapshot
{
GenerationId = 1, ClusterId = "c",
Equipment =
[
new Equipment
{
EquipmentUuid = uuid,
EquipmentId = DraftValidator.DeriveEquipmentId(uuid),
Name = name,
DriverInstanceId = "d",
UnsLineId = "line-a",
MachineCode = "m",
},
],
};
var errors = DraftValidator.Validate(draft);
var hasUnsError = errors.Any(e => e.Code == "UnsSegmentInvalid");
hasUnsError.ShouldBe(!shouldPass);
}
[Fact]
public void Cross_cluster_namespace_binding_is_rejected()
{
var draft = new DraftSnapshot
{
GenerationId = 1, ClusterId = "c-A",
Namespaces = [new Namespace { NamespaceId = "ns-1", ClusterId = "c-B", NamespaceUri = "urn:x", Kind = NamespaceKind.Equipment }],
DriverInstances = [new DriverInstance { DriverInstanceId = "d-1", ClusterId = "c-A", NamespaceId = "ns-1", Name = "drv", DriverType = "ModbusTcp", DriverConfig = "{}" }],
};
var errors = DraftValidator.Validate(draft);
errors.ShouldContain(e => e.Code == "BadCrossClusterNamespaceBinding");
}
[Fact]
public void Same_cluster_namespace_binding_is_accepted()
{
var draft = new DraftSnapshot
{
GenerationId = 1, ClusterId = "c-A",
Namespaces = [new Namespace { NamespaceId = "ns-1", ClusterId = "c-A", NamespaceUri = "urn:x", Kind = NamespaceKind.Equipment }],
DriverInstances = [new DriverInstance { DriverInstanceId = "d-1", ClusterId = "c-A", NamespaceId = "ns-1", Name = "drv", DriverType = "ModbusTcp", DriverConfig = "{}" }],
};
DraftValidator.Validate(draft).ShouldNotContain(e => e.Code == "BadCrossClusterNamespaceBinding");
}
[Fact]
public void EquipmentUuid_change_across_generations_is_rejected()
{
var oldUuid = Guid.Parse("11111111-1111-1111-1111-111111111111");
var newUuid = Guid.Parse("22222222-2222-2222-2222-222222222222");
var eid = DraftValidator.DeriveEquipmentId(oldUuid);
var draft = new DraftSnapshot
{
GenerationId = 2, ClusterId = "c",
Equipment = [new Equipment { EquipmentUuid = newUuid, EquipmentId = eid, Name = "eq", DriverInstanceId = "d", UnsLineId = "line-a", MachineCode = "m" }],
PriorEquipment = [new Equipment { EquipmentUuid = oldUuid, EquipmentId = eid, Name = "eq", DriverInstanceId = "d", UnsLineId = "line-a", MachineCode = "m" }],
};
DraftValidator.Validate(draft).ShouldContain(e => e.Code == "EquipmentUuidImmutable");
}
[Fact]
public void ZTag_reserved_by_different_uuid_is_rejected()
{
var uuid = Guid.NewGuid();
var otherUuid = Guid.NewGuid();
var draft = new DraftSnapshot
{
GenerationId = 1, ClusterId = "c",
Equipment = [new Equipment { EquipmentUuid = uuid, EquipmentId = DraftValidator.DeriveEquipmentId(uuid), Name = "eq", DriverInstanceId = "d", UnsLineId = "line-a", MachineCode = "m", ZTag = "ZT-001" }],
ActiveReservations = [new ExternalIdReservation { Kind = ReservationKind.ZTag, Value = "ZT-001", EquipmentUuid = otherUuid, ClusterId = "c", FirstPublishedBy = "t" }],
};
DraftValidator.Validate(draft).ShouldContain(e => e.Code == "BadDuplicateExternalIdentifier");
}
[Fact]
public void EquipmentId_that_does_not_match_derivation_is_rejected()
{
var uuid = Guid.NewGuid();
var draft = new DraftSnapshot
{
GenerationId = 1, ClusterId = "c",
Equipment = [new Equipment { EquipmentUuid = uuid, EquipmentId = "EQ-operator-typed", Name = "eq", DriverInstanceId = "d", UnsLineId = "line-a", MachineCode = "m" }],
};
DraftValidator.Validate(draft).ShouldContain(e => e.Code == "EquipmentIdNotDerived");
}
[Fact]
public void Galaxy_driver_in_Equipment_namespace_is_rejected()
{
var draft = new DraftSnapshot
{
GenerationId = 1, ClusterId = "c",
Namespaces = [new Namespace { NamespaceId = "ns-1", ClusterId = "c", NamespaceUri = "urn:x", Kind = NamespaceKind.Equipment }],
DriverInstances = [new DriverInstance { DriverInstanceId = "d-1", ClusterId = "c", NamespaceId = "ns-1", Name = "drv", DriverType = "Galaxy", DriverConfig = "{}" }],
};
DraftValidator.Validate(draft).ShouldContain(e => e.Code == "DriverNamespaceKindMismatch");
}
[Fact]
public void Draft_with_three_violations_surfaces_all_three()
{
var uuid = Guid.NewGuid();
var draft = new DraftSnapshot
{
GenerationId = 1, ClusterId = "c-A",
Namespaces = [new Namespace { NamespaceId = "ns-1", ClusterId = "c-B", NamespaceUri = "urn:x", Kind = NamespaceKind.Equipment }],
DriverInstances = [new DriverInstance { DriverInstanceId = "d-1", ClusterId = "c-A", NamespaceId = "ns-1", Name = "drv", DriverType = "Galaxy", DriverConfig = "{}" }],
Equipment = [new Equipment { EquipmentUuid = uuid, EquipmentId = "EQ-wrong", Name = "BAD NAME", DriverInstanceId = "d-1", UnsLineId = "line-a", MachineCode = "m" }],
};
var errors = DraftValidator.Validate(draft);
errors.ShouldContain(e => e.Code == "BadCrossClusterNamespaceBinding");
errors.ShouldContain(e => e.Code == "DriverNamespaceKindMismatch");
errors.ShouldContain(e => e.Code == "EquipmentIdNotDerived");
errors.ShouldContain(e => e.Code == "UnsSegmentInvalid");
}
// ------------------------------------------------------------------------------------
// Phase 6.3 task #148 part 2 — ValidateClusterTopology
// ------------------------------------------------------------------------------------
[Theory]
[InlineData(1, RedundancyMode.None, 1, 0)] // single-node standalone — ok
[InlineData(2, RedundancyMode.Warm, 2, 0)] // 2-node warm — ok
[InlineData(2, RedundancyMode.Hot, 2, 0)] // 2-node hot — ok
[InlineData(1, RedundancyMode.Warm, 1, 1)] // declared mismatch — should flag
[InlineData(2, RedundancyMode.None, 2, 1)] // None with 2 nodes — should flag
public void ValidateClusterTopology_checks_declared_pair(
byte nodeCount, RedundancyMode mode, int enabledNodes, int expectedDeclaredErrors)
{
var cluster = BuildCluster(nodeCount: nodeCount, mode: mode);
var nodes = Enumerable.Range(0, enabledNodes)
.Select(i => BuildNode($"n-{i}", enabled: true, role: i == 0 ? RedundancyRole.Primary : RedundancyRole.Secondary))
.ToList();
var errors = DraftValidator.ValidateClusterTopology(cluster, nodes);
errors.Count(e => e.Code == "ClusterRedundancyModeInvalid").ShouldBe(expectedDeclaredErrors);
}
[Fact]
public void ValidateClusterTopology_flags_disabled_node_mismatch()
{
// Declared 2 + Hot, but one node disabled — runtime would boot InvalidTopology.
var cluster = BuildCluster(nodeCount: 2, mode: RedundancyMode.Hot);
var nodes = new[]
{
BuildNode("primary", enabled: true, role: RedundancyRole.Primary),
BuildNode("backup", enabled: false, role: RedundancyRole.Secondary),
};
var errors = DraftValidator.ValidateClusterTopology(cluster, nodes);
errors.ShouldContain(e => e.Code == "ClusterEnabledNodeCountMismatch");
}
[Fact]
public void ValidateClusterTopology_flags_multiple_Primary()
{
var cluster = BuildCluster(nodeCount: 2, mode: RedundancyMode.Hot);
var nodes = new[]
{
BuildNode("a", enabled: true, role: RedundancyRole.Primary),
BuildNode("b", enabled: true, role: RedundancyRole.Primary),
};
var errors = DraftValidator.ValidateClusterTopology(cluster, nodes);
errors.ShouldContain(e => e.Code == "ClusterMultiplePrimary");
}
[Fact]
public void ValidateClusterTopology_returns_no_errors_on_valid_standalone()
{
var cluster = BuildCluster(nodeCount: 1, mode: RedundancyMode.None);
var nodes = new[] { BuildNode("only", enabled: true, role: RedundancyRole.Primary) };
var errors = DraftValidator.ValidateClusterTopology(cluster, nodes);
errors.ShouldBeEmpty();
}
private static ServerCluster BuildCluster(byte nodeCount, RedundancyMode mode) => new()
{
ClusterId = "c-test",
Name = "Test",
Enterprise = "zb",
Site = "dev",
NodeCount = nodeCount,
RedundancyMode = mode,
Enabled = true,
CreatedBy = "t",
};
private static ClusterNode BuildNode(string id, bool enabled, RedundancyRole role) => new()
{
NodeId = id,
ClusterId = "c-test",
RedundancyRole = role,
Host = "localhost",
OpcUaPort = 4840,
DashboardPort = 5001,
ApplicationUri = $"urn:{id}",
ServiceLevelBase = 200,
Enabled = enabled,
CreatedBy = "t",
};
}
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