191 lines
8.4 KiB
C#
191 lines
8.4 KiB
C#
using Shouldly;
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using Xunit;
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using ZB.MOM.WW.OtOpcUa.Core.Abstractions;
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using ZB.MOM.WW.OtOpcUa.Core.Resilience;
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namespace ZB.MOM.WW.OtOpcUa.Core.Tests.Resilience;
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[Trait("Category", "Unit")]
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public sealed class DriverResilienceOptionsTests
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{
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/// <summary>
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/// 01/U-6 knob-inertness guard (OVERALL theme #1): the public property set of
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/// <see cref="DriverResilienceOptions"/> must be EXACTLY the pipeline-wired knobs. Every option a
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/// parser can populate must map to a strategy the builder actually composes — a parsed-but-unapplied
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/// knob (the bulkhead genre this pass deleted) is inertness the interface-forwarding and
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/// unwrapped-dispatch guards can't catch. To add a knob: wire it in <c>DriverResiliencePipelineBuilder</c>,
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/// add a behavior test that proves it engages, THEN add it to the expected set below.
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/// (<c>RecycleIntervalSeconds</c> is itself Tier-C-dormant per 01/U-2 — a documented open question,
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/// explicitly out of this pass's scope; it stays in the expected list as the recycle scheduler, not
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/// the Polly pipeline, is its consumer.)
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/// </summary>
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[Fact]
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public void Options_properties_are_exactly_the_pipeline_wired_set()
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{
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var expected = new[] { "Tier", "CapabilityPolicies", "RecycleIntervalSeconds" };
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var actual = typeof(DriverResilienceOptions)
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.GetProperties()
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.Select(p => p.Name)
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.OrderBy(n => n)
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.ToArray();
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actual.ShouldBe(expected.OrderBy(n => n).ToArray(),
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"DriverResilienceOptions must expose only pipeline-wired knobs — a new option needs a builder " +
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"strategy + a behavior test before it is added to the expected set (guards against the deleted " +
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"bulkhead 'parsed-but-unapplied' genre; see 01/U-6).");
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}
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/// <summary>Verifies that tier defaults cover every capability.</summary>
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/// <param name="tier">The driver tier to test.</param>
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[Theory]
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[InlineData(DriverTier.A)]
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[InlineData(DriverTier.B)]
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[InlineData(DriverTier.C)]
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public void TierDefaults_Cover_EveryCapability(DriverTier tier)
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{
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var defaults = DriverResilienceOptions.GetTierDefaults(tier);
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foreach (var capability in Enum.GetValues<DriverCapability>())
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defaults.ShouldContainKey(capability);
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}
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/// <summary>Verifies that write never retries by default.</summary>
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/// <param name="tier">The driver tier to test.</param>
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[Theory]
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[InlineData(DriverTier.A)]
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[InlineData(DriverTier.B)]
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[InlineData(DriverTier.C)]
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public void Write_NeverRetries_ByDefault(DriverTier tier)
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{
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var defaults = DriverResilienceOptions.GetTierDefaults(tier);
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defaults[DriverCapability.Write].RetryCount.ShouldBe(0);
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}
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/// <summary>Verifies that alarm acknowledge never retries by default.</summary>
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/// <param name="tier">The driver tier to test.</param>
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[Theory]
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[InlineData(DriverTier.A)]
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[InlineData(DriverTier.B)]
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[InlineData(DriverTier.C)]
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public void AlarmAcknowledge_NeverRetries_ByDefault(DriverTier tier)
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{
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var defaults = DriverResilienceOptions.GetTierDefaults(tier);
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defaults[DriverCapability.AlarmAcknowledge].RetryCount.ShouldBe(0);
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}
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/// <summary>Verifies that idempotent capabilities retry by default.</summary>
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/// <param name="tier">The driver tier to test.</param>
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/// <param name="capability">The driver capability to test.</param>
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[Theory]
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[InlineData(DriverTier.A, DriverCapability.Read)]
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[InlineData(DriverTier.A, DriverCapability.HistoryRead)]
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[InlineData(DriverTier.B, DriverCapability.Discover)]
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[InlineData(DriverTier.B, DriverCapability.Probe)]
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[InlineData(DriverTier.C, DriverCapability.AlarmSubscribe)]
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public void IdempotentCapabilities_Retry_ByDefault(DriverTier tier, DriverCapability capability)
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{
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var defaults = DriverResilienceOptions.GetTierDefaults(tier);
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defaults[capability].RetryCount.ShouldBeGreaterThan(0);
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}
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/// <summary>Verifies that TierC disables circuit breaker deferring to supervisor.</summary>
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[Fact]
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public void TierC_DisablesCircuitBreaker_DeferringToSupervisor()
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{
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var defaults = DriverResilienceOptions.GetTierDefaults(DriverTier.C);
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foreach (var (_, policy) in defaults)
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policy.BreakerFailureThreshold.ShouldBe(0, "Tier C breaker is handled by the Proxy supervisor (decision #68)");
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}
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/// <summary>Verifies that TierA and TierB enable circuit breaker.</summary>
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/// <param name="tier">The driver tier to test.</param>
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[Theory]
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[InlineData(DriverTier.A)]
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[InlineData(DriverTier.B)]
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public void TierAAndB_EnableCircuitBreaker(DriverTier tier)
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{
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var defaults = DriverResilienceOptions.GetTierDefaults(tier);
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foreach (var (_, policy) in defaults)
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policy.BreakerFailureThreshold.ShouldBeGreaterThan(0);
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}
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/// <summary>Verifies that resolve uses tier defaults when no override is set.</summary>
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[Fact]
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public void Resolve_Uses_TierDefaults_When_NoOverride()
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{
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var options = new DriverResilienceOptions { Tier = DriverTier.A };
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var resolved = options.Resolve(DriverCapability.Read);
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resolved.ShouldBe(DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Read]);
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}
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/// <summary>Verifies that resolve uses override when configured.</summary>
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[Fact]
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public void Resolve_Uses_Override_When_Configured()
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{
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var custom = new CapabilityPolicy(TimeoutSeconds: 42, RetryCount: 7, BreakerFailureThreshold: 9);
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var options = new DriverResilienceOptions
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{
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Tier = DriverTier.A,
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CapabilityPolicies = new Dictionary<DriverCapability, CapabilityPolicy>
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{
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[DriverCapability.Read] = custom,
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},
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};
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options.Resolve(DriverCapability.Read).ShouldBe(custom);
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options.Resolve(DriverCapability.Write).ShouldBe(
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DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Write]);
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}
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/// <summary>
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/// Core-010 regression: every <see cref="DriverCapability"/> value must successfully resolve
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/// under every tier with a default <see cref="DriverResilienceOptions"/>. A future
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/// enum-only addition that forgets to update <c>GetTierDefaults</c> would otherwise blow up
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/// on the hot path with <see cref="KeyNotFoundException"/>.
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/// </summary>
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/// <param name="tier">The driver tier to test.</param>
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[Theory]
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[InlineData(DriverTier.A)]
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[InlineData(DriverTier.B)]
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[InlineData(DriverTier.C)]
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public void Resolve_Returns_NonNull_Policy_For_Every_Capability(DriverTier tier)
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{
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var options = new DriverResilienceOptions { Tier = tier };
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foreach (var capability in Enum.GetValues<DriverCapability>())
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{
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var policy = options.Resolve(capability);
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policy.ShouldNotBeNull(
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$"every DriverCapability must resolve to a non-null policy for tier {tier} — {capability} did not");
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}
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}
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/// <summary>
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/// Core-010 regression: when a capability is somehow missing from BOTH the override
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/// map and the tier defaults (defensive — should be impossible thanks to the
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/// <c>TierDefaults_Cover_EveryCapability</c> invariant, but is the failure mode the
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/// finding flagged), <c>Resolve</c> must throw a diagnostic <see cref="KeyNotFoundException"/>
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/// that names the missing capability and tier — not a bare lookup failure.
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/// </summary>
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[Fact]
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public void Resolve_Throws_Diagnostic_When_Capability_Missing_From_Tier_Defaults()
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{
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// Use a CapabilityPolicies dict that purposely omits one capability and use reflection
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// to confirm the message names the capability when the tier defaults also omit it.
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// We can't easily mutate GetTierDefaults so we exercise the documented behavior on a
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// synthetic non-tier-known capability (we cast an out-of-range enum value).
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var options = new DriverResilienceOptions { Tier = DriverTier.A };
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var bogus = (DriverCapability)int.MaxValue;
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var ex = Should.Throw<KeyNotFoundException>(() => options.Resolve(bogus));
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ex.Message.ShouldContain(bogus.ToString());
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ex.Message.ShouldContain(DriverTier.A.ToString());
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ex.Message.ShouldContain(nameof(DriverResilienceOptions.GetTierDefaults));
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}
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}
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