Files
mxaccessgw/clients/dotnet/ZB.MOM.WW.MxGateway.Client.Tests/MxGatewayClientSessionTests.cs
Joseph Doherty bde042b4d4 feat(clients): CLI-04 typed single-item command parity (+CLI-30 unregister) — 4/5 clients
Every parity-critical single-item MXAccess command now has a typed session
helper instead of only a raw-Invoke escape hatch. Added per client:
- Phase 1: AdviseSupervisory, WriteSecured, WriteSecured2, AuthenticateUser,
  ArchestrAUserToId
- Phase 2: AddBufferedItem, SetBufferedUpdateInterval, Suspend, Activate
- CLI-30: Unregister (Rust + .NET; Go/Python already had it)

Each wraps the existing raw-command machinery (no new wire surface) and runs the
same MXAccess-level reply validation (hresult < 0 + MxStatusProxy). MXAccess
parity preserved: WriteSecured before AuthenticateUser+AdviseSupervisory surfaces
the native failure unchanged (not pre-validated/reordered). Credentials
(AuthenticateUser password, WriteSecured payloads) route through each client's
secret-redaction seam and never reach logs/exceptions/ToString/Debug/Display;
each suite asserts a distinctive credential is absent from surfaced errors. New
CLI subcommands source credentials via flag/env, never echoed.

- .NET: 21 helpers (validated + Raw), CLI subcommands, multi-secret CLI redactor.
  Build clean (0 warn), 102 passed.
- Go: 9 helpers + *Raw variants, redactSecrets seam, promoted CLI advise-supervisory
  to typed. gofmt/vet/build/test clean.
- Rust: 10 helpers incl. unregister; verified ensure_mxaccess_success runs on
  secured paths; error.rs credential scrub. fmt/check/test/clippy clean.
- Python: 9 async helpers, redact_secret seam + _invoke_redacted, CLI commands.
  145 passed.
- Shared doc: ClientLibrariesDesign "Typed Command Parity" section.

Java client typed parity is batched to windev (no local JRE); CLI-04 + CLI-30
stay open until it lands.

Claude-Session: https://claude.ai/code/session_01DMXXvNuPekkkrTEyPNxEkW
2026-07-09 16:41:43 -04:00

728 lines
32 KiB
C#

using ZB.MOM.WW.MxGateway.Contracts.Proto;
using Grpc.Core;
namespace ZB.MOM.WW.MxGateway.Client.Tests;
/// <summary>Tests for MxGatewaySession and client command behavior.</summary>
public sealed class MxGatewayClientSessionTests
{
/// <summary>Verifies that open session attaches API key metadata and cancellation token.</summary>
[Fact]
public async Task OpenSessionRawAsync_AttachesApiKeyMetadataAndCancellation()
{
using CancellationTokenSource cancellation = new();
FakeGatewayTransport transport = CreateTransport();
await using MxGatewayClient client = CreateClient(transport);
await client.OpenSessionRawAsync(new OpenSessionRequest(), cancellation.Token);
var call = Assert.Single(transport.OpenSessionCalls);
Assert.Equal("Bearer test-api-key", call.CallOptions.Headers?.GetValue("authorization"));
Assert.Equal(cancellation.Token, call.CallOptions.CancellationToken);
}
/// <summary>Verifies that open session returns a session with the raw open reply.</summary>
[Fact]
public async Task OpenSessionAsync_ReturnsSessionWithRawOpenReply()
{
FakeGatewayTransport transport = CreateTransport();
transport.OpenSessionReply.WorkerProcessId = 1234;
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
Assert.Equal("session-fixture", session.SessionId);
Assert.Same(transport.OpenSessionReply, session.OpenSessionReply);
Assert.Equal(1234, session.OpenSessionReply.WorkerProcessId);
}
/// <summary>Verifies that register builds a register command and returns server handle.</summary>
[Fact]
public async Task RegisterAsync_BuildsRegisterCommandAndReturnsServerHandle()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Register,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
Register = new RegisterReply { ServerHandle = 12 },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
int serverHandle = await session.RegisterAsync("fixture-client");
Assert.Equal(12, serverHandle);
var call = Assert.Single(transport.InvokeCalls);
Assert.Equal("session-fixture", call.Request.SessionId);
Assert.False(string.IsNullOrWhiteSpace(call.Request.ClientCorrelationId));
Assert.Equal(MxCommandKind.Register, call.Request.Command.Kind);
Assert.Equal("fixture-client", call.Request.Command.Register.ClientName);
}
/// <summary>Verifies that add item 2 builds a command with the specified context.</summary>
[Fact]
public async Task AddItem2Async_BuildsAddItem2CommandWithContext()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.AddItem2,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
AddItem2 = new AddItem2Reply { ItemHandle = 34 },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
int itemHandle = await session.AddItem2Async(12, "Area001.Pump001.Speed", "runtime");
Assert.Equal(34, itemHandle);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.AddItem2, request.Command.Kind);
Assert.Equal(12, request.Command.AddItem2.ServerHandle);
Assert.Equal("Area001.Pump001.Speed", request.Command.AddItem2.ItemDefinition);
Assert.Equal("runtime", request.Command.AddItem2.ItemContext);
}
/// <summary>Verifies that write raw builds a write command with the raw value.</summary>
[Fact]
public async Task WriteRawAsync_BuildsWriteCommandWithRawValue()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Write,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxValue value = new()
{
DataType = MxDataType.Integer,
VariantType = "VT_I4",
Int32Value = 123,
};
MxCommandReply reply = await session.WriteRawAsync(12, 34, value, 56);
Assert.Equal(MxCommandKind.Write, reply.Kind);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.Write, request.Command.Kind);
Assert.Equal(12, request.Command.Write.ServerHandle);
Assert.Equal(34, request.Command.Write.ItemHandle);
Assert.Same(value, request.Command.Write.Value);
Assert.Equal(56, request.Command.Write.UserId);
}
/// <summary>Verifies that write 2 raw builds a write 2 command with value and timestamp.</summary>
[Fact]
public async Task Write2RawAsync_BuildsWrite2CommandWithValueAndTimestamp()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Write2,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxValue value = 123.ToMxValue();
MxValue timestampValue = DateTimeOffset.Parse("2026-01-01T00:00:00Z").ToMxValue();
MxCommandReply reply = await session.Write2RawAsync(12, 34, value, timestampValue, 56);
Assert.Equal(MxCommandKind.Write2, reply.Kind);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.Write2, request.Command.Kind);
Assert.Equal(12, request.Command.Write2.ServerHandle);
Assert.Equal(34, request.Command.Write2.ItemHandle);
Assert.Same(value, request.Command.Write2.Value);
Assert.Same(timestampValue, request.Command.Write2.TimestampValue);
Assert.Equal(56, request.Command.Write2.UserId);
}
/// <summary>Verifies that subscribe bulk builds one command and returns per-item results.</summary>
[Fact]
public async Task SubscribeBulkAsync_BuildsOneBulkCommandAndReturnsPerItemResults()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.SubscribeBulk,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
SubscribeBulk = new BulkSubscribeReply
{
Results =
{
new SubscribeResult
{
ServerHandle = 12,
TagAddress = "Area001.Pump001.Speed",
ItemHandle = 34,
WasSuccessful = true,
},
},
},
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
IReadOnlyList<SubscribeResult> results = await session.SubscribeBulkAsync(
12,
["Area001.Pump001.Speed"]);
SubscribeResult result = Assert.Single(results);
Assert.Equal(34, result.ItemHandle);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.SubscribeBulk, request.Command.Kind);
Assert.Equal(12, request.Command.SubscribeBulk.ServerHandle);
Assert.Equal(["Area001.Pump001.Speed"], request.Command.SubscribeBulk.TagAddresses);
}
/// <summary>Verifies that stream events yields events in the order received from the gateway.</summary>
[Fact]
public async Task StreamEventsAsync_YieldsEventsInGatewayOrder()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddEvent(new MxEvent
{
SessionId = "session-fixture",
Family = MxEventFamily.OnDataChange,
WorkerSequence = 1,
});
transport.AddEvent(new MxEvent
{
SessionId = "session-fixture",
Family = MxEventFamily.OnWriteComplete,
WorkerSequence = 2,
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
List<ulong> sequences = [];
await foreach (MxEvent gatewayEvent in session.StreamEventsAsync(afterWorkerSequence: 0))
{
sequences.Add(gatewayEvent.WorkerSequence);
}
Assert.Equal([1UL, 2UL], sequences);
StreamEventsRequest request = Assert.Single(transport.StreamEventsCalls).Request;
Assert.Equal("session-fixture", request.SessionId);
}
/// <summary>
/// Verifies that a reconnect-replay gap sentinel is surfaced as a typed
/// <see cref="MxEventStreamItem"/> with the gap populated, while normal
/// events pass through unchanged with IsReplayGap false.
/// </summary>
[Fact]
public async Task StreamEventItemsAsync_SurfacesReplayGapSentinel()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddEvent(new MxEvent
{
SessionId = "session-fixture",
ReplayGap = new ReplayGap
{
RequestedAfterSequence = 5,
OldestAvailableSequence = 42,
},
});
transport.AddEvent(new MxEvent
{
SessionId = "session-fixture",
Family = MxEventFamily.OnDataChange,
WorkerSequence = 42,
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
List<MxEventStreamItem> items = [];
await foreach (MxEventStreamItem item in session.StreamEventItemsAsync(afterWorkerSequence: 5))
{
items.Add(item);
}
Assert.Equal(2, items.Count);
MxEventStreamItem gap = items[0];
Assert.True(gap.IsReplayGap);
Assert.NotNull(gap.ReplayGap);
Assert.Equal(5UL, gap.ReplayGap!.RequestedAfterSequence);
Assert.Equal(42UL, gap.ReplayGap.OldestAvailableSequence);
Assert.Same(gap.ReplayGap, gap.Event.ReplayGap);
MxEventStreamItem normal = items[1];
Assert.False(normal.IsReplayGap);
Assert.Null(normal.ReplayGap);
Assert.Equal(42UL, normal.Event.WorkerSequence);
Assert.Equal(MxEventFamily.OnDataChange, normal.Event.Family);
}
/// <summary>Verifies that close is explicit and idempotent.</summary>
[Fact]
public async Task CloseAsync_IsExplicitAndIdempotent()
{
FakeGatewayTransport transport = CreateTransport();
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
CloseSessionReply first = await session.CloseAsync();
CloseSessionReply second = await session.CloseAsync();
Assert.Same(first, second);
var call = Assert.Single(transport.CloseSessionCalls);
Assert.Equal("session-fixture", call.Request.SessionId);
}
/// <summary>Verifies that invoke retries safe diagnostic commands on transient RPC failure.</summary>
[Fact]
public async Task InvokeAsync_RetriesSafeDiagnosticCommandOnTransientGrpcFailure()
{
FakeGatewayTransport transport = CreateTransport();
transport.InvokeExceptions.Enqueue(CreateTransientRpcException());
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Ping,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
await session.InvokeAsync(new MxCommandRequest
{
SessionId = session.SessionId,
Command = new MxCommand { Kind = MxCommandKind.Ping, Ping = new PingCommand() },
});
Assert.Equal(2, transport.InvokeCalls.Count);
}
/// <summary>Verifies that open session does not retry on transient RPC failure.</summary>
[Fact]
public async Task OpenSessionAsync_DoesNotRetryTransientGrpcFailure()
{
FakeGatewayTransport transport = CreateTransport();
transport.OpenSessionExceptions.Enqueue(CreateTransientRpcException());
await using MxGatewayClient client = CreateClient(transport);
await Assert.ThrowsAsync<RpcException>(async () => await client.OpenSessionAsync());
Assert.Single(transport.OpenSessionCalls);
}
/// <summary>Verifies that invoke does not retry write commands on transient RPC failure.</summary>
[Fact]
public async Task InvokeAsync_DoesNotRetryWriteCommand()
{
FakeGatewayTransport transport = CreateTransport();
transport.InvokeExceptions.Enqueue(CreateTransientRpcException());
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
await Assert.ThrowsAsync<RpcException>(async () =>
await session.WriteRawAsync(1, 2, 3.ToMxValue(), userId: 0));
Assert.Single(transport.InvokeCalls);
}
/// <summary>Verifies that invoke helpers pass cancellation token to the transport.</summary>
[Fact]
public async Task InvokeHelpers_PassCancellationTokenToTransport()
{
using CancellationTokenSource cancellation = new();
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Advise,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
await session.AdviseAsync(12, 34, cancellation.Token);
Assert.Equal(cancellation.Token, Assert.Single(transport.InvokeCalls).CallOptions.CancellationToken);
}
/// <summary>Verifies that BuildSparseArray produces a SparseArrayValue MxValue with the correct total length and elements.</summary>
[Fact]
public void BuildSparseArray_ProducesSparseArrayValueWithCorrectTotalLengthAndElements()
{
MxValue element0 = 42.ToMxValue();
MxValue element3 = 99.ToMxValue();
Dictionary<uint, MxValue> elements = new()
{
[0u] = element0,
[3u] = element3,
};
MxValue result = MxGatewaySession.BuildSparseArray(MxDataType.Integer, totalLength: 10, elements);
Assert.Equal(MxValue.KindOneofCase.SparseArrayValue, result.KindCase);
Assert.Equal(10u, result.SparseArrayValue.TotalLength);
Assert.Equal(MxDataType.Integer, result.SparseArrayValue.ElementDataType);
Assert.Equal(2, result.SparseArrayValue.Elements.Count);
MxSparseElement el0 = Assert.Single(result.SparseArrayValue.Elements, e => e.Index == 0u);
Assert.Same(element0, el0.Value);
MxSparseElement el3 = Assert.Single(result.SparseArrayValue.Elements, e => e.Index == 3u);
Assert.Same(element3, el3.Value);
}
/// <summary>Verifies that WriteArrayElementsAsync builds a write command whose value is a SparseArrayValue.</summary>
[Fact]
public async Task WriteArrayElementsAsync_BuildsWriteCommandWithSparseArrayValue()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Write,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
Dictionary<uint, MxValue> elements = new() { [1u] = 7.ToMxValue() };
await session.WriteArrayElementsAsync(
serverHandle: 12,
itemHandle: 34,
elementDataType: MxDataType.Integer,
totalLength: 5,
elements: elements,
userId: 56);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.Write, request.Command.Kind);
Assert.Equal(12, request.Command.Write.ServerHandle);
Assert.Equal(34, request.Command.Write.ItemHandle);
Assert.Equal(56, request.Command.Write.UserId);
MxValue written = request.Command.Write.Value;
Assert.Equal(MxValue.KindOneofCase.SparseArrayValue, written.KindCase);
Assert.Equal(5u, written.SparseArrayValue.TotalLength);
Assert.Equal(MxDataType.Integer, written.SparseArrayValue.ElementDataType);
MxSparseElement el = Assert.Single(written.SparseArrayValue.Elements);
Assert.Equal(1u, el.Index);
Assert.Equal(7, el.Value.Int32Value);
}
/// <summary>Verifies that unregister builds an unregister command with the server handle.</summary>
[Fact]
public async Task UnregisterAsync_BuildsUnregisterCommand()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Unregister,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
await session.UnregisterAsync(12);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.Unregister, request.Command.Kind);
Assert.Equal(12, request.Command.Unregister.ServerHandle);
}
/// <summary>Verifies that advise-supervisory builds the supervisory advise command.</summary>
[Fact]
public async Task AdviseSupervisoryAsync_BuildsAdviseSupervisoryCommand()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.AdviseSupervisory,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
await session.AdviseSupervisoryAsync(12, 34);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.AdviseSupervisory, request.Command.Kind);
Assert.Equal(12, request.Command.AdviseSupervisory.ServerHandle);
Assert.Equal(34, request.Command.AdviseSupervisory.ItemHandle);
}
/// <summary>Verifies that add-buffered-item returns the item handle from the typed reply.</summary>
[Fact]
public async Task AddBufferedItemAsync_BuildsCommandAndReturnsItemHandle()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.AddBufferedItem,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
AddBufferedItem = new AddBufferedItemReply { ItemHandle = 77 },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
int itemHandle = await session.AddBufferedItemAsync(12, "Area001.Pump001.Speed", "runtime");
Assert.Equal(77, itemHandle);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.AddBufferedItem, request.Command.Kind);
Assert.Equal(12, request.Command.AddBufferedItem.ServerHandle);
Assert.Equal("Area001.Pump001.Speed", request.Command.AddBufferedItem.ItemDefinition);
Assert.Equal("runtime", request.Command.AddBufferedItem.ItemContext);
}
/// <summary>Verifies that set-buffered-update-interval builds the command with the interval.</summary>
[Fact]
public async Task SetBufferedUpdateIntervalAsync_BuildsCommandWithInterval()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.SetBufferedUpdateInterval,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
await session.SetBufferedUpdateIntervalAsync(12, 500);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.SetBufferedUpdateInterval, request.Command.Kind);
Assert.Equal(12, request.Command.SetBufferedUpdateInterval.ServerHandle);
Assert.Equal(500, request.Command.SetBufferedUpdateInterval.UpdateIntervalMilliseconds);
}
/// <summary>Verifies that suspend builds the command and returns the reply status.</summary>
[Fact]
public async Task SuspendAsync_BuildsCommandAndReturnsStatus()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Suspend,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
Suspend = new SuspendReply { Status = new MxStatusProxy { Success = 1, Category = MxStatusCategory.Ok } },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxStatusProxy? status = await session.SuspendAsync(12, 34);
Assert.NotNull(status);
Assert.Equal(1, status!.Success);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.Suspend, request.Command.Kind);
Assert.Equal(12, request.Command.Suspend.ServerHandle);
Assert.Equal(34, request.Command.Suspend.ItemHandle);
}
/// <summary>Verifies that activate builds the command and returns the reply status.</summary>
[Fact]
public async Task ActivateAsync_BuildsCommandAndReturnsStatus()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.Activate,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
Activate = new ActivateReply { Status = new MxStatusProxy { Success = 1, Category = MxStatusCategory.Ok } },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxStatusProxy? status = await session.ActivateAsync(12, 34);
Assert.NotNull(status);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.Activate, request.Command.Kind);
Assert.Equal(34, request.Command.Activate.ItemHandle);
}
/// <summary>Verifies that write-secured builds a WriteSecured command with value and user ids.</summary>
[Fact]
public async Task WriteSecuredAsync_BuildsWriteSecuredCommand()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.WriteSecured,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxValue value = 123.ToMxValue();
await session.WriteSecuredAsync(12, 34, value, currentUserId: 5, verifierUserId: 6);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.WriteSecured, request.Command.Kind);
Assert.Equal(12, request.Command.WriteSecured.ServerHandle);
Assert.Equal(34, request.Command.WriteSecured.ItemHandle);
Assert.Same(value, request.Command.WriteSecured.Value);
Assert.Equal(5, request.Command.WriteSecured.CurrentUserId);
Assert.Equal(6, request.Command.WriteSecured.VerifierUserId);
}
/// <summary>
/// MXAccess parity: WriteSecured issued before a prior AuthenticateUser fails
/// natively. The client must surface that scripted failure (as an
/// <see cref="MxAccessException"/>) rather than pre-validating it away.
/// </summary>
[Fact]
public async Task WriteSecuredAsync_SurfacesNativeFailureWhenNotAuthenticated()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.WriteSecured,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.MxaccessFailure },
Hresult = unchecked((int)0x80040200),
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxAccessException exception = await Assert.ThrowsAsync<MxAccessException>(
async () => await session.WriteSecuredAsync(12, 34, 123.ToMxValue(), currentUserId: 0, verifierUserId: 0));
// The native HRESULT is surfaced; the request payload is never in the message.
Assert.Contains("WriteSecured", exception.Message);
Assert.Single(transport.InvokeCalls);
}
/// <summary>Verifies that write-secured2 builds a WriteSecured2 command with value and timestamp.</summary>
[Fact]
public async Task WriteSecured2Async_BuildsWriteSecured2Command()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.WriteSecured2,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxValue value = 123.ToMxValue();
MxValue timestampValue = DateTimeOffset.Parse("2026-01-01T00:00:00Z").ToMxValue();
await session.WriteSecured2Async(12, 34, value, timestampValue, currentUserId: 5, verifierUserId: 6);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.WriteSecured2, request.Command.Kind);
Assert.Same(value, request.Command.WriteSecured2.Value);
Assert.Same(timestampValue, request.Command.WriteSecured2.TimestampValue);
Assert.Equal(5, request.Command.WriteSecured2.CurrentUserId);
Assert.Equal(6, request.Command.WriteSecured2.VerifierUserId);
}
/// <summary>Verifies that authenticate-user builds the command and returns the resolved user id.</summary>
[Fact]
public async Task AuthenticateUserAsync_BuildsCommandAndReturnsUserId()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.AuthenticateUser,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
AuthenticateUser = new AuthenticateUserReply { UserId = 4242 },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
int userId = await session.AuthenticateUserAsync(12, "operator", "s3cr3t-p@ss");
Assert.Equal(4242, userId);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.AuthenticateUser, request.Command.Kind);
Assert.Equal("operator", request.Command.AuthenticateUser.VerifyUser);
Assert.Equal("s3cr3t-p@ss", request.Command.AuthenticateUser.VerifyUserPassword);
}
/// <summary>
/// SECRET REDACTION: when AuthenticateUser fails, the surfaced exception message
/// must never contain the credential — the error path is built only from
/// reply-derived diagnostics, not the request payload.
/// </summary>
[Fact]
public async Task AuthenticateUserAsync_FailureDoesNotLeakCredentialInErrorMessage()
{
const string password = "super-secret-credential-123";
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.AuthenticateUser,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.MxaccessFailure },
Hresult = unchecked((int)0x80040210),
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
MxAccessException exception = await Assert.ThrowsAsync<MxAccessException>(
async () => await session.AuthenticateUserAsync(12, "operator", password));
Assert.DoesNotContain(password, exception.Message);
Assert.DoesNotContain(password, exception.ToString());
}
/// <summary>Verifies that archestra-user-to-id builds the command and returns the resolved user id.</summary>
[Fact]
public async Task ArchestraUserToIdAsync_BuildsCommandAndReturnsUserId()
{
FakeGatewayTransport transport = CreateTransport();
transport.AddInvokeReply(new MxCommandReply
{
SessionId = "session-fixture",
Kind = MxCommandKind.ArchestraUserToId,
ProtocolStatus = new ProtocolStatus { Code = ProtocolStatusCode.Ok },
ArchestraUserToId = new ArchestrAUserToIdReply { UserId = 909 },
});
await using MxGatewayClient client = CreateClient(transport);
MxGatewaySession session = await client.OpenSessionAsync();
int userId = await session.ArchestraUserToIdAsync(12, "BCC47053-9542-4D65-BDAA-BCDEA6A32A73");
Assert.Equal(909, userId);
MxCommandRequest request = Assert.Single(transport.InvokeCalls).Request;
Assert.Equal(MxCommandKind.ArchestraUserToId, request.Command.Kind);
Assert.Equal("BCC47053-9542-4D65-BDAA-BCDEA6A32A73", request.Command.ArchestraUserToId.UserIdGuid);
}
private static MxGatewayClient CreateClient(FakeGatewayTransport transport)
{
return new MxGatewayClient(transport.Options, transport);
}
private static FakeGatewayTransport CreateTransport()
{
return new FakeGatewayTransport(new MxGatewayClientOptions
{
Endpoint = new Uri("http://localhost:5000"),
ApiKey = "test-api-key",
});
}
private static RpcException CreateTransientRpcException()
{
return new RpcException(new Status(StatusCode.Unavailable, "gateway unavailable"));
}
}