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lmxopcua/tests/Core/ZB.MOM.WW.OtOpcUa.Core.Tests/Resilience/CapabilityInvokerTests.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

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using Shouldly;
using Xunit;
using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
using ZB.MOM.WW.OtOpcUa.Core.Resilience;
namespace ZB.MOM.WW.OtOpcUa.Core.Tests.Resilience;
[Trait("Category", "Unit")]
public sealed class CapabilityInvokerTests
{
private static CapabilityInvoker MakeInvoker(
DriverResiliencePipelineBuilder builder,
DriverResilienceOptions options) =>
new(builder, "drv-test", () => options);
[Fact]
public async Task Read_ReturnsValue_FromCallSite()
{
var invoker = MakeInvoker(new DriverResiliencePipelineBuilder(), new DriverResilienceOptions { Tier = DriverTier.A });
var result = await invoker.ExecuteAsync(
DriverCapability.Read,
"host-1",
_ => ValueTask.FromResult(42),
CancellationToken.None);
result.ShouldBe(42);
}
[Fact]
public async Task Read_Retries_OnTransientFailure()
{
var invoker = MakeInvoker(new DriverResiliencePipelineBuilder(), new DriverResilienceOptions { Tier = DriverTier.A });
var attempts = 0;
var result = await invoker.ExecuteAsync(
DriverCapability.Read,
"host-1",
async _ =>
{
attempts++;
if (attempts < 2) throw new InvalidOperationException("transient");
await Task.Yield();
return "ok";
},
CancellationToken.None);
result.ShouldBe("ok");
attempts.ShouldBe(2);
}
[Fact]
public async Task Write_NonIdempotent_DoesNotRetry_EvenWhenPolicyHasRetries()
{
var options = new DriverResilienceOptions
{
Tier = DriverTier.A,
CapabilityPolicies = new Dictionary<DriverCapability, CapabilityPolicy>
{
[DriverCapability.Write] = new(TimeoutSeconds: 2, RetryCount: 3, BreakerFailureThreshold: 5),
},
};
var invoker = MakeInvoker(new DriverResiliencePipelineBuilder(), options);
var attempts = 0;
await Should.ThrowAsync<InvalidOperationException>(async () =>
await invoker.ExecuteWriteAsync(
"host-1",
isIdempotent: false,
async _ =>
{
attempts++;
await Task.Yield();
throw new InvalidOperationException("boom");
#pragma warning disable CS0162
return 0;
#pragma warning restore CS0162
},
CancellationToken.None));
attempts.ShouldBe(1, "non-idempotent write must never replay");
}
[Fact]
public async Task Write_Idempotent_Retries_WhenPolicyHasRetries()
{
var options = new DriverResilienceOptions
{
Tier = DriverTier.A,
CapabilityPolicies = new Dictionary<DriverCapability, CapabilityPolicy>
{
[DriverCapability.Write] = new(TimeoutSeconds: 2, RetryCount: 3, BreakerFailureThreshold: 5),
},
};
var invoker = MakeInvoker(new DriverResiliencePipelineBuilder(), options);
var attempts = 0;
var result = await invoker.ExecuteWriteAsync(
"host-1",
isIdempotent: true,
async _ =>
{
attempts++;
if (attempts < 2) throw new InvalidOperationException("transient");
await Task.Yield();
return "ok";
},
CancellationToken.None);
result.ShouldBe("ok");
attempts.ShouldBe(2);
}
[Fact]
public async Task Write_Default_DoesNotRetry_WhenPolicyHasZeroRetries()
{
// Tier A Write default is RetryCount=0. Even isIdempotent=true shouldn't retry
// because the policy says not to.
var invoker = MakeInvoker(new DriverResiliencePipelineBuilder(), new DriverResilienceOptions { Tier = DriverTier.A });
var attempts = 0;
await Should.ThrowAsync<InvalidOperationException>(async () =>
await invoker.ExecuteWriteAsync(
"host-1",
isIdempotent: true,
async _ =>
{
attempts++;
await Task.Yield();
throw new InvalidOperationException("boom");
#pragma warning disable CS0162
return 0;
#pragma warning restore CS0162
},
CancellationToken.None));
attempts.ShouldBe(1, "tier-A default for Write is RetryCount=0");
}
[Fact]
public async Task Execute_HonorsDifferentHosts_Independently()
{
var builder = new DriverResiliencePipelineBuilder();
var invoker = MakeInvoker(builder, new DriverResilienceOptions { Tier = DriverTier.A });
await invoker.ExecuteAsync(DriverCapability.Read, "host-a", _ => ValueTask.FromResult(1), CancellationToken.None);
await invoker.ExecuteAsync(DriverCapability.Read, "host-b", _ => ValueTask.FromResult(2), CancellationToken.None);
builder.CachedPipelineCount.ShouldBe(2);
}
}
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