2e0743ad25
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
404 lines
20 KiB
C#
404 lines
20 KiB
C#
using System.Collections.Concurrent;
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using System.Text.Json;
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using Akka.Actor;
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using Microsoft.EntityFrameworkCore;
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using Shouldly;
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using Xunit;
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using ZB.MOM.WW.OtOpcUa.Commons.Engines;
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using ZB.MOM.WW.OtOpcUa.Commons.Messages.Deploy;
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using ZB.MOM.WW.OtOpcUa.Commons.Messages.Fleet;
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using ZB.MOM.WW.OtOpcUa.Commons.Messages.Redundancy;
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using ZB.MOM.WW.OtOpcUa.Commons.OpcUa;
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using ZB.MOM.WW.OtOpcUa.Commons.Types;
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using ZB.MOM.WW.OtOpcUa.Configuration;
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using ZB.MOM.WW.OtOpcUa.Configuration.Entities;
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using ZB.MOM.WW.OtOpcUa.Configuration.Enums;
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using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
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using ZB.MOM.WW.OtOpcUa.Runtime.Drivers;
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using ZB.MOM.WW.OtOpcUa.Runtime.OpcUa;
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using ZB.MOM.WW.OtOpcUa.Runtime.Tests.Harness;
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namespace ZB.MOM.WW.OtOpcUa.Runtime.Tests.Drivers;
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/// <summary>
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/// v3 Batch 4 (B4-WP3) — inbound operator-write routing through EITHER NodeId. A
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/// <see cref="DriverHostActor.RouteNodeWrite"/> carries the FULL ns-qualified NodeId string (the node
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/// manager's write hook passes <c>node.NodeId.ToString()</c>); the host normalises it to the bare id and
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/// resolves the <c>NodeId → (DriverInstanceId, RawPath)</c> reverse map — populated in
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/// <c>PushDesiredSubscriptions</c> for BOTH the raw NodeId AND every referencing UNS NodeId — gates on the
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/// driver PRIMARY, and forwards a <see cref="DriverInstanceActor.WriteAttribute"/> carrying the tag's
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/// <c>RawPath</c> to the driver child. So a write to the raw node and a write to the referencing UNS node
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/// both reach the SAME driver point (they share the driver ref).
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/// <para>
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/// Drives a real apply (Enabled Modbus driver ⇒ a real <see cref="DriverInstanceActor"/> child backed
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/// by a recording driver), then routes writes and asserts the forwarded wire-ref + the primary gate.
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/// </para>
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/// </summary>
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public sealed class DriverHostActorWriteRoutingTests : RuntimeActorTestBase
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{
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private static readonly NodeId TestNode = NodeId.Parse("driver-wr-test");
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private static readonly RevisionHash RevA = RevisionHash.Parse(new string('a', 64));
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private static readonly TimeSpan Timeout = TimeSpan.FromSeconds(5);
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// The single seeded raw tag + its UNS reference.
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private const string RawPath = "Plant/Modbus/dev1/speed";
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private const string UnsNodeId = "filling/line1/station1/speed";
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/// <summary>On the PRIMARY, a RouteNodeWrite for the ns-qualified UNS NodeId resolves to the raw tag's
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/// driver ref and forwards the write keyed by the tag's RawPath (dual-NodeId write routing).</summary>
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[Fact]
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public void Primary_routes_write_via_uns_nodeid_to_driver_by_rawpath()
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{
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var db = NewInMemoryDbFactory();
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var recorder = new RecordingDriverFactory("Modbus");
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var deploymentId = SeedV3Deployment(db, RevA);
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var actor = SpawnHostAndApply(db, deploymentId, recorder);
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var asker = CreateTestProbe();
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// The node manager passes the FULL ns-qualified id; the host must normalise + resolve it.
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actor.Tell(new DriverHostActor.RouteNodeWrite($"ns=3;s={UnsNodeId}", 123.0, AddressSpaceRealm.Uns), asker.Ref);
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asker.ExpectMsg<DriverHostActor.NodeWriteResult>(Timeout).Success.ShouldBeTrue();
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AwaitAssert(() =>
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{
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recorder.Writes.Count.ShouldBe(1);
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recorder.Writes[0].FullReference.ShouldBe(RawPath); // the driver writes by RawPath, not the UNS id
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recorder.Writes[0].Value.ShouldBe(123.0);
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}, duration: Timeout);
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}
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/// <summary>On the PRIMARY, a RouteNodeWrite for the ns-qualified RAW NodeId resolves to the same driver
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/// ref and forwards the write keyed by the RawPath.</summary>
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[Fact]
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public void Primary_routes_write_via_raw_nodeid_to_driver_by_rawpath()
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{
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var db = NewInMemoryDbFactory();
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var recorder = new RecordingDriverFactory("Modbus");
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var deploymentId = SeedV3Deployment(db, RevA);
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var actor = SpawnHostAndApply(db, deploymentId, recorder);
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var asker = CreateTestProbe();
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actor.Tell(new DriverHostActor.RouteNodeWrite($"ns=2;s={RawPath}", 456.0, AddressSpaceRealm.Raw), asker.Ref);
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asker.ExpectMsg<DriverHostActor.NodeWriteResult>(Timeout).Success.ShouldBeTrue();
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AwaitAssert(() =>
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{
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recorder.Writes.Count.ShouldBe(1);
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recorder.Writes[0].FullReference.ShouldBe(RawPath);
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recorder.Writes[0].Value.ShouldBe(456.0);
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}, duration: Timeout);
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}
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/// <summary>On a SECONDARY, RouteNodeWrite (via the UNS NodeId) replies "not primary" and the driver
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/// receives NO write — the primary gate fires before the reverse-map lookup.</summary>
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[Fact]
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public void Secondary_rejects_write_and_does_not_forward_to_driver()
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{
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var db = NewInMemoryDbFactory();
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var recorder = new RecordingDriverFactory("Modbus");
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var deploymentId = SeedV3Deployment(db, RevA);
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var actor = SpawnHostAndApply(db, deploymentId, recorder);
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actor.Tell(new RedundancyStateChanged(
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new[]
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{
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new NodeRedundancyState(TestNode, RedundancyRole.Secondary,
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IsClusterLeader: false, IsRoleLeaderForDriver: false, AsOfUtc: DateTime.UtcNow),
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},
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CorrelationId.NewId()));
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var asker = CreateTestProbe();
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actor.Tell(new DriverHostActor.RouteNodeWrite($"ns=3;s={UnsNodeId}", 123.0, AddressSpaceRealm.Uns), asker.Ref);
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var result = asker.ExpectMsg<DriverHostActor.NodeWriteResult>(Timeout);
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result.Success.ShouldBeFalse();
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result.Reason.ShouldBe("not primary");
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recorder.Writes.ShouldBeEmpty();
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}
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/// <summary>An unknown NodeId (no reverse-map entry) replies failure and writes nothing.</summary>
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[Fact]
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public void Unknown_node_id_replies_failure()
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{
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var db = NewInMemoryDbFactory();
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var recorder = new RecordingDriverFactory("Modbus");
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var deploymentId = SeedV3Deployment(db, RevA);
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var actor = SpawnHostAndApply(db, deploymentId, recorder);
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var asker = CreateTestProbe();
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actor.Tell(new DriverHostActor.RouteNodeWrite("ns=3;s=filling/line1/station1/does-not-exist", 1.0, AddressSpaceRealm.Uns), asker.Ref);
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var result = asker.ExpectMsg<DriverHostActor.NodeWriteResult>(Timeout);
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result.Success.ShouldBeFalse();
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result.Reason.ShouldNotBeNull();
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recorder.Writes.ShouldBeEmpty();
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}
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/// <summary>A RouteNodeWrite arriving while the host is Stale (config DB unreachable) fast-fails with an
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/// immediate negative reply mentioning "stale".</summary>
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[Fact]
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public void Stale_host_fast_fails_route_node_write()
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{
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var db = new ThrowingDbFactory();
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var coordinator = CreateTestProbe();
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var actor = Sys.ActorOf(DriverHostActor.Props(
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db, TestNode, coordinator.Ref,
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localRoles: new HashSet<string> { "driver" }));
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var asker = CreateTestProbe();
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actor.Tell(new DriverHostActor.RouteNodeWrite($"ns=3;s={UnsNodeId}", 123.0, AddressSpaceRealm.Uns), asker.Ref);
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var result = asker.ExpectMsg<DriverHostActor.NodeWriteResult>(TimeSpan.FromSeconds(2));
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result.Success.ShouldBeFalse();
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result.Reason.ShouldNotBeNull();
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result.Reason!.ShouldContain("stale");
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}
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/// <summary>
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/// Review H1 regression — a raw <c>RawPath</c> and a UNS path that share a BARE <c>s=</c> id but back
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/// DIFFERENT driver instances must each route to their OWN driver. Seeds raw tag <c>A/B/C/D</c> on
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/// <c>drv-1</c> and a UnsTagReference whose UNS NodeId is ALSO <c>A/B/C/D</c> (Area A / Line B / Equip C
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/// / effective name D) but which backs a raw tag <c>X/Y/Z/W</c> on <c>drv-2</c>. A bare-only routing key
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/// would collide (last-writer-wins → wrong device); the <c>(realm, bareId)</c> key keeps them distinct.
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/// </summary>
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[Fact]
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public void Colliding_raw_and_uns_bare_ids_route_to_their_own_driver_by_realm()
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{
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var db = NewInMemoryDbFactory();
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var factory = new PerInstanceRecordingDriverFactory("Modbus");
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var deploymentId = SeedCollisionDeployment(db, RevA);
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var actor = SpawnHostAndApply(db, deploymentId, factory);
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// Write to the RAW node A/B/C/D → drv-1, forwarded by the raw tag's RawPath A/B/C/D.
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var asker1 = CreateTestProbe();
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actor.Tell(new DriverHostActor.RouteNodeWrite("ns=2;s=A/B/C/D", 111.0, AddressSpaceRealm.Raw), asker1.Ref);
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asker1.ExpectMsg<DriverHostActor.NodeWriteResult>(Timeout).Success.ShouldBeTrue();
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// Write to the UNS node A/B/C/D → drv-2, forwarded by the BACKING raw tag's RawPath X/Y/Z/W.
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var asker2 = CreateTestProbe();
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actor.Tell(new DriverHostActor.RouteNodeWrite("ns=3;s=A/B/C/D", 222.0, AddressSpaceRealm.Uns), asker2.Ref);
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asker2.ExpectMsg<DriverHostActor.NodeWriteResult>(Timeout).Success.ShouldBeTrue();
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AwaitAssert(() =>
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{
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// drv-1 got ONLY the raw write (A/B/C/D, 111); drv-2 got ONLY the UNS-routed write (X/Y/Z/W, 222).
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var w1 = factory.WritesFor("drv-1");
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var w2 = factory.WritesFor("drv-2");
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w1.Count.ShouldBe(1);
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w1[0].FullReference.ShouldBe("A/B/C/D");
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w1[0].Value.ShouldBe(111.0);
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w2.Count.ShouldBe(1);
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w2[0].FullReference.ShouldBe("X/Y/Z/W"); // the backing RawPath, NOT the shared bare id
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w2[0].Value.ShouldBe(222.0);
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}, duration: Timeout);
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}
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/// <summary>Spawns the host with the recording driver factory, dispatches the deployment, and waits for
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/// the Applied ACK so the reverse-map build in PushDesiredSubscriptions has completed before routing a
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/// write. No OPC UA / mux probes are wired — the write path doesn't depend on the publish actor.</summary>
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private IActorRef SpawnHostAndApply(
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IDbContextFactory<OtOpcUaConfigDbContext> db, DeploymentId deploymentId, IDriverFactory factory)
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{
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var coordinator = CreateTestProbe();
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var actor = Sys.ActorOf(DriverHostActor.Props(
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db, TestNode, coordinator.Ref,
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driverFactory: factory,
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localRoles: new HashSet<string> { "driver" }));
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actor.Tell(new DispatchDeployment(deploymentId, RevA, CorrelationId.NewId()));
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coordinator.ExpectMsg<ApplyAck>(Timeout).Outcome.ShouldBe(ApplyAckOutcome.Applied);
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return actor;
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}
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/// <summary>Seeds a Sealed v3 deployment: RawFolder "Plant" → DriverInstance "drv-1" (Modbus, ENABLED so a
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/// real child spawns) → Device "dev1" → Tag "speed" (RawPath <c>Plant/Modbus/dev1/speed</c>, ReadWrite),
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/// projected into equipment <c>filling/line1/station1</c> by a UnsTagReference (UNS NodeId
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/// <c>filling/line1/station1/speed</c>).</summary>
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private static DeploymentId SeedV3Deployment(IDbContextFactory<OtOpcUaConfigDbContext> db, RevisionHash rev)
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{
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var artifact = JsonSerializer.SerializeToUtf8Bytes(new
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{
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RawFolders = new[] { new { RawFolderId = "rf-plant", ParentRawFolderId = (string?)null, Name = "Plant", ClusterId = "c1" } },
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DriverInstances = new[]
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{
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new { DriverInstanceId = "drv-1", RawFolderId = "rf-plant", Name = "Modbus", DriverType = "Modbus", DriverConfig = "{}", ClusterId = "c1", Enabled = true },
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},
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Devices = new[] { new { DeviceId = "dev-1", DriverInstanceId = "drv-1", Name = "dev1", DeviceConfig = "{}" } },
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TagGroups = Array.Empty<object>(),
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Tags = new[]
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{
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new { TagId = "t-speed", DeviceId = "dev-1", TagGroupId = (string?)null, Name = "speed", DataType = "Double", AccessLevel = 1, TagConfig = "{}" },
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},
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UnsAreas = new[] { new { UnsAreaId = "a1", Name = "filling", ClusterId = "c1" } },
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UnsLines = new[] { new { UnsLineId = "l1", UnsAreaId = "a1", Name = "line1" } },
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Equipment = new[] { new { EquipmentId = "EQ-1", UnsLineId = "l1", Name = "station1", MachineCode = "M1" } },
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UnsTagReferences = new[] { new { UnsTagReferenceId = "r1", EquipmentId = "EQ-1", TagId = "t-speed", DisplayNameOverride = (string?)null } },
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});
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var id = DeploymentId.NewId();
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using var ctx = db.CreateDbContext();
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ctx.Deployments.Add(new Deployment
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{
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DeploymentId = id.Value,
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RevisionHash = rev.Value,
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Status = DeploymentStatus.Sealed,
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CreatedBy = "test",
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SealedAtUtc = DateTime.UtcNow,
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ArtifactBlob = artifact,
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});
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ctx.SaveChanges();
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return id;
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}
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/// <summary>Seeds the review-H1 collision config: raw tag <c>A/B/C/D</c> on drv-1, and a UnsTagReference
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/// (Area A / Line B / Equip C, effective name D → UNS NodeId <c>A/B/C/D</c>) backing raw tag <c>X/Y/Z/W</c>
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/// on drv-2. Both drivers ENABLED (Modbus) so both children spawn.</summary>
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private static DeploymentId SeedCollisionDeployment(IDbContextFactory<OtOpcUaConfigDbContext> db, RevisionHash rev)
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{
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var artifact = JsonSerializer.SerializeToUtf8Bytes(new
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{
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RawFolders = new[]
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{
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new { RawFolderId = "rf-a", ParentRawFolderId = (string?)null, Name = "A", ClusterId = "c1" },
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new { RawFolderId = "rf-x", ParentRawFolderId = (string?)null, Name = "X", ClusterId = "c1" },
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},
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DriverInstances = new[]
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{
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new { DriverInstanceId = "drv-1", RawFolderId = "rf-a", Name = "B", DriverType = "Modbus", DriverConfig = "{}", ClusterId = "c1", Enabled = true },
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new { DriverInstanceId = "drv-2", RawFolderId = "rf-x", Name = "Y", DriverType = "Modbus", DriverConfig = "{}", ClusterId = "c1", Enabled = true },
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},
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Devices = new[]
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{
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new { DeviceId = "dev-c", DriverInstanceId = "drv-1", Name = "C", DeviceConfig = "{}" },
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new { DeviceId = "dev-z", DriverInstanceId = "drv-2", Name = "Z", DeviceConfig = "{}" },
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},
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TagGroups = Array.Empty<object>(),
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Tags = new[]
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{
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new { TagId = "t-d", DeviceId = "dev-c", TagGroupId = (string?)null, Name = "D", DataType = "Double", AccessLevel = 1, TagConfig = "{}" },
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new { TagId = "t-w", DeviceId = "dev-z", TagGroupId = (string?)null, Name = "W", DataType = "Double", AccessLevel = 1, TagConfig = "{}" },
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},
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UnsAreas = new[] { new { UnsAreaId = "a1", Name = "A", ClusterId = "c1" } },
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UnsLines = new[] { new { UnsLineId = "l1", UnsAreaId = "a1", Name = "B" } },
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Equipment = new[] { new { EquipmentId = "EQ-1", UnsLineId = "l1", Name = "C", MachineCode = "M1" } },
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// Effective name "D" (override) → UNS NodeId A/B/C/D, backing raw tag t-w (X/Y/Z/W) on drv-2.
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UnsTagReferences = new[] { new { UnsTagReferenceId = "r1", EquipmentId = "EQ-1", TagId = "t-w", DisplayNameOverride = "D" } },
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});
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var id = DeploymentId.NewId();
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using var ctx = db.CreateDbContext();
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ctx.Deployments.Add(new Deployment
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{
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DeploymentId = id.Value, RevisionHash = rev.Value, Status = DeploymentStatus.Sealed,
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CreatedBy = "test", SealedAtUtc = DateTime.UtcNow, ArtifactBlob = artifact,
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});
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ctx.SaveChanges();
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return id;
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}
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/// <summary>An <see cref="IDbContextFactory{T}"/> whose CreateDbContext always throws — drives the host
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/// into the Stale path.</summary>
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private sealed class ThrowingDbFactory : IDbContextFactory<OtOpcUaConfigDbContext>
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{
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/// <inheritdoc />
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public OtOpcUaConfigDbContext CreateDbContext() =>
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throw new InvalidOperationException("config DB unreachable (test stub)");
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}
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/// <summary>Factory producing a SEPARATE <see cref="RecordingDriver"/> per driver instance id, so a test
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/// with two drivers can assert which instance received a given write (used by the H1 collision test).</summary>
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private sealed class PerInstanceRecordingDriverFactory : IDriverFactory
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{
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private readonly string _supportedType;
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private readonly Dictionary<string, RecordingDriver> _byId = new(StringComparer.Ordinal);
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private readonly object _lock = new();
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public PerInstanceRecordingDriverFactory(string supportedType) { _supportedType = supportedType; }
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/// <summary>The writes the given driver instance received.</summary>
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public IReadOnlyList<WriteRequest> WritesFor(string driverInstanceId)
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{
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lock (_lock) return _byId.TryGetValue(driverInstanceId, out var d) ? d.Writes : Array.Empty<WriteRequest>();
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}
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/// <inheritdoc />
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public IDriver? TryCreate(string driverType, string driverInstanceId, string driverConfigJson)
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{
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if (!string.Equals(driverType, _supportedType, StringComparison.Ordinal)) return null;
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lock (_lock)
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{
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if (!_byId.TryGetValue(driverInstanceId, out var d))
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{
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d = new RecordingDriver();
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d.Bind(driverInstanceId, driverType);
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_byId[driverInstanceId] = d;
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}
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return d;
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}
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}
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/// <inheritdoc />
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public IReadOnlyCollection<string> SupportedTypes => new[] { _supportedType };
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}
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/// <summary>Factory producing a single <see cref="RecordingDriver"/> for the supported type.</summary>
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private sealed class RecordingDriverFactory : IDriverFactory
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{
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private readonly string _supportedType;
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private readonly RecordingDriver _driver = new();
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public RecordingDriverFactory(string supportedType) { _supportedType = supportedType; }
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/// <summary>The writes the spawned driver received.</summary>
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public IReadOnlyList<WriteRequest> Writes => _driver.Writes;
|
|
|
|
/// <inheritdoc />
|
|
public IDriver? TryCreate(string driverType, string driverInstanceId, string driverConfigJson)
|
|
{
|
|
if (!string.Equals(driverType, _supportedType, StringComparison.Ordinal)) return null;
|
|
_driver.Bind(driverInstanceId, driverType);
|
|
return _driver;
|
|
}
|
|
|
|
/// <inheritdoc />
|
|
public IReadOnlyCollection<string> SupportedTypes => new[] { _supportedType };
|
|
}
|
|
|
|
/// <summary>An <see cref="IDriver"/> + <see cref="IWritable"/> that records every write and returns Good.</summary>
|
|
private sealed class RecordingDriver : IDriver, IWritable
|
|
{
|
|
private readonly ConcurrentQueue<WriteRequest> _writes = new();
|
|
/// <inheritdoc />
|
|
public string DriverInstanceId { get; private set; } = string.Empty;
|
|
/// <inheritdoc />
|
|
public string DriverType { get; private set; } = string.Empty;
|
|
/// <summary>The writes received so far.</summary>
|
|
public IReadOnlyList<WriteRequest> Writes => _writes.ToArray();
|
|
/// <summary>Sets the identity once the factory is asked to create it.</summary>
|
|
public void Bind(string id, string type) { DriverInstanceId = id; DriverType = type; }
|
|
/// <inheritdoc />
|
|
public Task InitializeAsync(string driverConfigJson, CancellationToken cancellationToken) => Task.CompletedTask;
|
|
/// <inheritdoc />
|
|
public Task ReinitializeAsync(string driverConfigJson, CancellationToken cancellationToken) => Task.CompletedTask;
|
|
/// <inheritdoc />
|
|
public Task ShutdownAsync(CancellationToken cancellationToken) => Task.CompletedTask;
|
|
/// <inheritdoc />
|
|
public DriverHealth GetHealth() => new(DriverState.Healthy, DateTime.UtcNow, LastError: null);
|
|
/// <inheritdoc />
|
|
public long GetMemoryFootprint() => 0;
|
|
/// <inheritdoc />
|
|
public Task FlushOptionalCachesAsync(CancellationToken cancellationToken) => Task.CompletedTask;
|
|
/// <inheritdoc />
|
|
public Task<IReadOnlyList<WriteResult>> WriteAsync(
|
|
IReadOnlyList<WriteRequest> writes, CancellationToken cancellationToken)
|
|
{
|
|
foreach (var w in writes) _writes.Enqueue(w);
|
|
return Task.FromResult<IReadOnlyList<WriteResult>>(
|
|
writes.Select(_ => new WriteResult(0u)).ToArray());
|
|
}
|
|
}
|
|
}
|