125 lines
5.8 KiB
C#
125 lines
5.8 KiB
C#
using Grpc.Core;
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using Microsoft.Extensions.Logging.Abstractions;
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using NSubstitute;
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using ZB.MOM.WW.ScadaBridge.DataConnectionLayer.Adapters;
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namespace ZB.MOM.WW.ScadaBridge.DataConnectionLayer.Tests.Adapters;
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/// <summary>
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/// DataConnectionLayer-S1 (MxGateway half): the adapter instance is reused across
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/// reconnects. Before the fix, <c>ConnectAsync</c> overwrote <c>_client</c> and
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/// <c>_eventLoopCts</c> without cancelling the previous event loop or disposing the
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/// previous client — every gateway flap accumulated an orphaned stream/socket, and
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/// the dying old loop's fault path could raise <c>Disconnected</c> against the new
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/// session after the guard was reset.
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/// </summary>
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[Collection("DataConnectionManagerActor")]
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public class MxGatewayDataConnectionReconnectTests
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{
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[Fact]
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public async Task Reconnect_DisposesPreviousClient_AndCancelsPreviousEventLoop()
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{
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var clients = new List<IMxGatewayClient>();
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var loopTokens = new List<CancellationToken>();
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var factory = Substitute.For<IMxGatewayClientFactory>();
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factory.Create().Returns(_ =>
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{
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var c = Substitute.For<IMxGatewayClient>();
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c.RunEventLoopAsync(Arg.Any<Action<MxValueUpdate>>(), Arg.Do<CancellationToken>(t => loopTokens.Add(t)))
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.Returns(Task.Delay(Timeout.Infinite));
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clients.Add(c);
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return c;
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});
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var adapter = new MxGatewayDataConnection(factory, NullLogger<MxGatewayDataConnection>.Instance);
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var details = new Dictionary<string, string> { ["Endpoint"] = "http://gw:5000", ["ApiKey"] = "k" };
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// The event loop is pumped fire-and-forget (ConnectAsync → Task.Run →
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// RunEventLoopAsync), so the token is recorded on a thread-pool continuation.
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// Barrier on each recorded token before proceeding.
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await adapter.ConnectAsync(details);
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await WaitUntilAsync(() => loopTokens.Count == 1);
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await adapter.ConnectAsync(details); // reconnect
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await WaitUntilAsync(() => loopTokens.Count == 2);
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Assert.Equal(2, clients.Count);
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await clients[0].Received(1).DisposeAsync();
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Assert.True(loopTokens[0].IsCancellationRequested); // old loop cancelled
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Assert.False(loopTokens[1].IsCancellationRequested); // new loop live
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}
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[Fact]
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public async Task StaleEventLoopRpcFault_AfterReconnect_DoesNotSignalDisconnected()
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{
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var loops = new List<TaskCompletionSource>();
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var loopTokens = new List<CancellationToken>();
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var adapter = CreateAdapterWithControllableLoops(loops, loopTokens, out var disconnectsRef);
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var details = new Dictionary<string, string> { ["Endpoint"] = "http://gw:5000", ["ApiKey"] = "k" };
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await adapter.ConnectAsync(details);
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await WaitUntilAsync(() => loopTokens.Count == 1);
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await adapter.ConnectAsync(details); // reconnect: cancels loop #0, resets _disconnectFired
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await WaitUntilAsync(() => loopTokens.Count == 2);
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// The OLD loop observes its cancellation as a gRPC fault, not an OCE —
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// the Grpc.Net default without ThrowOperationCanceledOnCancellation.
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loops[0].SetException(new RpcException(new Status(StatusCode.Cancelled, "call cancelled")));
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await Task.Delay(200);
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Assert.Equal(0, Volatile.Read(ref disconnectsRef.Value)); // stale fault absorbed — the fresh connection must not flap
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// The CURRENT loop's genuine fault must still signal, exactly once.
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loops[1].SetException(new RpcException(new Status(StatusCode.Unavailable, "gateway gone")));
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await WaitUntilAsync(() => Volatile.Read(ref disconnectsRef.Value) == 1);
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}
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[Fact]
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public async Task StaleEventLoopObjectDisposedFault_AfterReconnect_DoesNotSignalDisconnected()
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{
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var loops = new List<TaskCompletionSource>();
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var loopTokens = new List<CancellationToken>();
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var adapter = CreateAdapterWithControllableLoops(loops, loopTokens, out var disconnectsRef);
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var details = new Dictionary<string, string> { ["Endpoint"] = "http://gw:5000", ["ApiKey"] = "k" };
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await adapter.ConnectAsync(details);
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await WaitUntilAsync(() => loopTokens.Count == 1);
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await adapter.ConnectAsync(details); // reconnect
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await WaitUntilAsync(() => loopTokens.Count == 2);
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// The old loop faults with the concurrent-DisposeAsync shape.
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loops[0].SetException(new ObjectDisposedException("MxGatewayClient"));
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await Task.Delay(200);
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Assert.Equal(0, Volatile.Read(ref disconnectsRef.Value));
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}
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private sealed class IntRef { public int Value; }
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private static MxGatewayDataConnection CreateAdapterWithControllableLoops(
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List<TaskCompletionSource> loops, List<CancellationToken> loopTokens, out IntRef disconnectsRef)
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{
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var factory = Substitute.For<IMxGatewayClientFactory>();
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factory.Create().Returns(_ =>
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{
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var c = Substitute.For<IMxGatewayClient>();
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var tcs = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
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loops.Add(tcs);
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c.RunEventLoopAsync(Arg.Any<Action<MxValueUpdate>>(), Arg.Do<CancellationToken>(t => loopTokens.Add(t)))
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.Returns(tcs.Task);
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return c;
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});
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var adapter = new MxGatewayDataConnection(factory, NullLogger<MxGatewayDataConnection>.Instance);
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var refHolder = new IntRef();
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adapter.Disconnected += () => Interlocked.Increment(ref refHolder.Value);
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disconnectsRef = refHolder;
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return adapter;
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}
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private static async Task WaitUntilAsync(Func<bool> condition)
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{
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for (var i = 0; i < 100 && !condition(); i++)
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await Task.Delay(50);
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Assert.True(condition(), "condition not met within timeout");
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}
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}
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