lmxopcua/tests/Server/ZB.MOM.WW.OtOpcUa.ControlPlane.Tests/ConfigComposerTests.cs

using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Configuration.Entities;
using ZB.MOM.WW.OtOpcUa.Configuration.Enums;
using ZB.MOM.WW.OtOpcUa.ControlPlane.AdminOperations;
using ZB.MOM.WW.OtOpcUa.ControlPlane.Tests.Harness;
using ZB.MOM.WW.OtOpcUa.Runtime.Drivers;

namespace ZB.MOM.WW.OtOpcUa.ControlPlane.Tests;

public sealed class ConfigComposerTests : ControlPlaneActorTestBase
{
    /// <summary>Verifies that an empty database produces a stable, reproducible hash.</summary>
    [Fact]
    public async Task Empty_database_produces_stable_hash()
    {
        var f = NewInMemoryDbFactory();

        await using var db1 = f.CreateDbContext();
        var a1 = await ConfigComposer.SnapshotAndFlattenAsync(db1);

        await using var db2 = f.CreateDbContext();
        var a2 = await ConfigComposer.SnapshotAndFlattenAsync(db2);

        a1.RevisionHash.ShouldBe(a2.RevisionHash);
        a1.Blob.ShouldBe(a2.Blob);
    }

    /// <summary>Verifies that insertion order does not affect the configuration hash.</summary>
    [Fact]
    public async Task Same_rows_in_different_insert_orders_produce_same_hash()
    {
        var name = Guid.NewGuid().ToString("N");
        var f = NewInMemoryDbFactory(name);

        await using (var db = f.CreateDbContext())
        {
            db.ServerClusters.Add(NewCluster("cluster-a"));
            db.ServerClusters.Add(NewCluster("cluster-b"));
            await db.SaveChangesAsync();
        }
        var hashAB = (await ConfigComposer.SnapshotAndFlattenAsync(f.CreateDbContext())).RevisionHash;

        // Fresh DB, same rows in reverse insertion order.
        var f2 = NewInMemoryDbFactory();
        await using (var db = f2.CreateDbContext())
        {
            db.ServerClusters.Add(NewCluster("cluster-b"));
            db.ServerClusters.Add(NewCluster("cluster-a"));
            await db.SaveChangesAsync();
        }
        var hashBA = (await ConfigComposer.SnapshotAndFlattenAsync(f2.CreateDbContext())).RevisionHash;

        hashAB.ShouldBe(hashBA);
    }

    /// <summary>Verifies that different database configurations produce different hashes.</summary>
    [Fact]
    public async Task Different_data_produces_different_hash()
    {
        var f = NewInMemoryDbFactory();
        await using (var db = f.CreateDbContext())
        {
            db.ServerClusters.Add(NewCluster("cluster-a"));
            await db.SaveChangesAsync();
        }
        var hashA = (await ConfigComposer.SnapshotAndFlattenAsync(f.CreateDbContext())).RevisionHash;

        await using (var db = f.CreateDbContext())
        {
            db.ServerClusters.Add(NewCluster("cluster-b"));
            await db.SaveChangesAsync();
        }
        var hashAB = (await ConfigComposer.SnapshotAndFlattenAsync(f.CreateDbContext())).RevisionHash;

        hashAB.ShouldNotBe(hashA);
    }

    /// <summary>Verifies that the revision hash is a 64-character lowercase hexadecimal string.</summary>
    [Fact]
    public async Task Hash_is_64_lowercase_hex_chars()
    {
        var f = NewInMemoryDbFactory();
        var artifact = await ConfigComposer.SnapshotAndFlattenAsync(f.CreateDbContext());
        artifact.RevisionHash.Length.ShouldBe(64);
        artifact.RevisionHash.ShouldMatch("^[0-9a-f]{64}$");
    }

    /// <summary>
    ///     Verifies that <see cref="ConfigComposer.SnapshotAndFlattenAsync"/> serialises a
    ///     <see cref="Device"/>'s <c>HostAddress</c> into the artifact blob and that
    ///     <see cref="DeploymentArtifact.ParseComposition(ReadOnlySpan{byte})"/> decodes it back
    ///     as the equipment's <see cref="ZB.MOM.WW.OtOpcUa.OpcUaServer.EquipmentNode.DeviceHost"/>
    ///     (follow-up E). Guards the real serialize→decode seam: if ConfigComposer's Device
    ///     serialisation ever drifted, DeviceHost would silently become null in production
    ///     (feature E degrades to a warn-skip) while hand-rolled artifact tests stayed green.
    /// </summary>
    [Fact]
    public async Task DeviceHost_survives_ConfigComposer_to_ParseComposition_round_trip()
    {
        var f = NewInMemoryDbFactory();
        await using (var db = f.CreateDbContext())
        {
            db.ServerClusters.Add(NewCluster("c1"));
            db.Namespaces.Add(new Namespace
            {
                NamespaceId = "ns-eq", ClusterId = "c1",
                Kind = NamespaceKind.Equipment, NamespaceUri = "urn:eq",
            });
            db.DriverInstances.Add(new DriverInstance
            {
                DriverInstanceId = "drv-1", ClusterId = "c1", NamespaceId = "ns-eq",
                Name = "Focas", DriverType = "Focas", DriverConfig = "{}",
            });
            db.Devices.Add(new Device
            {
                DeviceId = "dev-1", DriverInstanceId = "drv-1",
                Name = "dev-1", DeviceConfig = "{\"HostAddress\":\"10.9.9.9:8193\"}",
            });
            db.UnsAreas.Add(new UnsArea { UnsAreaId = "area-1", ClusterId = "c1", Name = "area-1" });
            db.UnsLines.Add(new UnsLine { UnsLineId = "line-1", UnsAreaId = "area-1", Name = "line-1" });
            db.Equipment.Add(new Equipment
            {
                EquipmentId = "eq-1", DriverInstanceId = "drv-1", DeviceId = "dev-1",
                UnsLineId = "line-1", Name = "machine-1", MachineCode = "MACHINE_001",
            });
            await db.SaveChangesAsync();
        }

        await using var readDb = f.CreateDbContext();
        var artifact = await ConfigComposer.SnapshotAndFlattenAsync(readDb);
        var composition = DeploymentArtifact.ParseComposition(artifact.Blob);

        var node = composition.EquipmentNodes.ShouldHaveSingleItem();
        node.EquipmentId.ShouldBe("eq-1");
        node.DriverInstanceId.ShouldBe("drv-1");
        node.DeviceId.ShouldBe("dev-1");
        node.DeviceHost.ShouldBe("10.9.9.9:8193");
    }

    private static readonly DateTime FixedTimestamp = new(2026, 1, 1, 0, 0, 0, DateTimeKind.Utc);

    private static ServerCluster NewCluster(string id) => new()
    {
        ClusterId = id,
        Name = id,
        Enterprise = "ent",
        Site = "site",
        RedundancyMode = RedundancyMode.None,
        CreatedBy = "test",
        // Pin every timestamp so two harnesses produce byte-identical snapshots when the logical
        // content matches. Production rows get real DateTime.UtcNow — divergence there is correct.
        CreatedAt = FixedTimestamp,
    };
}