Files
lmxopcua/tests/Core/ZB.MOM.WW.OtOpcUa.Core.Tests/Resilience/DriverResilienceOptionsParserTests.cs
T

381 lines
15 KiB
C#

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 DriverResilienceOptionsParserTests
{
/// <summary>Verifies that null JSON returns pure tier defaults.</summary>
[Fact]
public void NullJson_ReturnsPureTierDefaults()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.A, null, out var diag);
diag.ShouldBeNull();
options.Tier.ShouldBe(DriverTier.A);
options.Resolve(DriverCapability.Read).ShouldBe(
DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Read]);
}
/// <summary>Verifies that whitespace JSON returns defaults.</summary>
[Fact]
public void WhitespaceJson_ReturnsDefaults()
{
DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.B, " ", out var diag);
diag.ShouldBeNull();
}
/// <summary>Verifies that malformed JSON falls back with diagnostic.</summary>
[Fact]
public void MalformedJson_FallsBack_WithDiagnostic()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.A, "{not json", out var diag);
diag.ShouldNotBeNull();
diag.ShouldContain("malformed");
options.Tier.ShouldBe(DriverTier.A);
options.Resolve(DriverCapability.Read).ShouldBe(
DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Read]);
}
/// <summary>Verifies that empty object returns defaults.</summary>
[Fact]
public void EmptyObject_ReturnsDefaults()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.A, "{}", out var diag);
diag.ShouldBeNull();
options.Resolve(DriverCapability.Write).ShouldBe(
DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Write]);
}
/// <summary>Verifies that Read override is merged into tier defaults.</summary>
[Fact]
public void ReadOverride_MergedIntoTierDefaults()
{
var json = """
{
"capabilityPolicies": {
"Read": { "timeoutSeconds": 5, "retryCount": 7, "breakerFailureThreshold": 2 }
}
}
""";
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.A, json, out var diag);
diag.ShouldBeNull();
var read = options.Resolve(DriverCapability.Read);
read.TimeoutSeconds.ShouldBe(5);
read.RetryCount.ShouldBe(7);
read.BreakerFailureThreshold.ShouldBe(2);
// Other capabilities untouched
options.Resolve(DriverCapability.Write).ShouldBe(
DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Write]);
}
/// <summary>Verifies that partial policy fills missing fields from tier default.</summary>
[Fact]
public void PartialPolicy_FillsMissingFieldsFromTierDefault()
{
var json = """
{
"capabilityPolicies": {
"Read": { "retryCount": 10 }
}
}
""";
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.A, json, out _);
var read = options.Resolve(DriverCapability.Read);
var tierDefault = DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Read];
read.RetryCount.ShouldBe(10);
read.TimeoutSeconds.ShouldBe(tierDefault.TimeoutSeconds, "partial override; timeout falls back to tier default");
read.BreakerFailureThreshold.ShouldBe(tierDefault.BreakerFailureThreshold);
}
/// <summary>
/// 01/U-6: the deleted bulkhead knob's keys in stored JSON become ignored unknown keys — a
/// config carrying them parses clean with no diagnostic (migration-free contract).
/// </summary>
[Fact]
public void BulkheadKeys_InStoredJson_AreIgnored()
{
var json = """
{ "bulkheadMaxConcurrent": 100, "bulkheadMaxQueue": 500 }
""";
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.B, json, out var diag);
diag.ShouldBeNull();
// Known capabilities untouched — the stale bulkhead keys are simply ignored.
options.Resolve(DriverCapability.Read).ShouldBe(
DriverResilienceOptions.GetTierDefaults(DriverTier.B)[DriverCapability.Read]);
}
/// <summary>Verifies that unknown capability surfaces in diagnostic but does not fail.</summary>
[Fact]
public void UnknownCapability_Surfaces_InDiagnostic_ButDoesNotFail()
{
var json = """
{
"capabilityPolicies": {
"InventedCapability": { "timeoutSeconds": 99 }
}
}
""";
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.A, json, out var diag);
diag.ShouldNotBeNull();
diag.ShouldContain("InventedCapability");
// Known capabilities untouched.
options.Resolve(DriverCapability.Read).ShouldBe(
DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Read]);
}
/// <summary>Verifies that top-level property names are case insensitive.</summary>
[Fact]
public void PropertyNames_AreCaseInsensitive()
{
var json = """
{ "RECYCLEINTERVALSECONDS": 3600 }
""";
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.C, json, out var diag);
diag.ShouldBeNull();
options.RecycleIntervalSeconds.ShouldBe(3600);
}
/// <summary>Verifies that capability name is case insensitive.</summary>
[Fact]
public void CapabilityName_IsCaseInsensitive()
{
var json = """
{ "capabilityPolicies": { "read": { "retryCount": 99 } } }
""";
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.A, json, out var diag);
diag.ShouldBeNull();
options.Resolve(DriverCapability.Read).RetryCount.ShouldBe(99);
}
/// <summary>Verifies that every tier with empty JSON round-trips its defaults.</summary>
/// <param name="tier">The driver tier to test.</param>
[Theory]
[InlineData(DriverTier.A)]
[InlineData(DriverTier.B)]
[InlineData(DriverTier.C)]
public void EveryTier_WithEmptyJson_RoundTrips_Its_Defaults(DriverTier tier)
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(tier, "{}", out var diag);
diag.ShouldBeNull();
options.Tier.ShouldBe(tier);
foreach (var cap in Enum.GetValues<DriverCapability>())
options.Resolve(cap).ShouldBe(DriverResilienceOptions.GetTierDefaults(tier)[cap]);
}
/// <summary>Verifies that RecycleIntervalSeconds on Tier C with positive value parses and surfaces.</summary>
[Fact]
public void RecycleIntervalSeconds_TierC_PositiveValue_ParsesAndSurfaces()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.C, "{\"recycleIntervalSeconds\":3600}", out var diag);
diag.ShouldBeNull();
options.RecycleIntervalSeconds.ShouldBe(3600);
}
/// <summary>Verifies that RecycleIntervalSeconds when null defaults to null.</summary>
[Fact]
public void RecycleIntervalSeconds_Null_DefaultsToNull()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(DriverTier.C, "{}", out _);
options.RecycleIntervalSeconds.ShouldBeNull();
}
/// <summary>Verifies that RecycleIntervalSeconds on Tier A or B is rejected with diagnostic.</summary>
/// <param name="tier">The driver tier to test.</param>
[Theory]
[InlineData(DriverTier.A)]
[InlineData(DriverTier.B)]
public void RecycleIntervalSeconds_OnTierAorB_Rejected_With_Diagnostic(DriverTier tier)
{
// Decision #74 — in-process drivers must not scheduled-recycle because it would
// tear down every OPC UA session. The parser surfaces a diagnostic rather than
// silently honouring the value.
var options = DriverResilienceOptionsParser.ParseOrDefaults(
tier, "{\"recycleIntervalSeconds\":3600}", out var diag);
options.RecycleIntervalSeconds.ShouldBeNull();
diag.ShouldContain("Tier C only");
}
/// <summary>Verifies that RecycleIntervalSeconds with non-positive value is rejected with diagnostic.</summary>
[Fact]
public void RecycleIntervalSeconds_NonPositive_Rejected_With_Diagnostic()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.C, "{\"recycleIntervalSeconds\":0}", out var diag);
options.RecycleIntervalSeconds.ShouldBeNull();
diag.ShouldContain("must be positive");
}
// ---- 01/S-6: range clamps (clamp + diagnostic, never brick) ----
/// <summary>A non-positive timeout is nonsense; it snaps to the capability's tier default with a diagnostic.</summary>
[Fact]
public void TimeoutSeconds_Zero_FallsBackToTierDefault_WithDiagnostic()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Read\":{\"timeoutSeconds\":0}}}", out var diag);
var tierDefault = DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Read];
options.Resolve(DriverCapability.Read).TimeoutSeconds.ShouldBe(tierDefault.TimeoutSeconds);
diag.ShouldNotBeNull();
diag.ShouldContain("timeoutSeconds");
}
/// <summary>A timeout above Polly's ceiling clamps to the max with a diagnostic.</summary>
[Fact]
public void TimeoutSeconds_AbovePollyMax_Clamped()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Read\":{\"timeoutSeconds\":999999}}}", out var diag);
options.Resolve(DriverCapability.Read).TimeoutSeconds.ShouldBe(ResiliencePolicyRanges.MaxTimeoutSeconds);
diag.ShouldNotBeNull();
diag.ShouldContain("timeoutSeconds");
}
/// <summary>A negative retry count clamps to zero with a diagnostic.</summary>
[Fact]
public void RetryCount_Negative_ClampedToZero()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Read\":{\"retryCount\":-1}}}", out var diag);
options.Resolve(DriverCapability.Read).RetryCount.ShouldBe(0);
diag.ShouldNotBeNull();
diag.ShouldContain("retryCount");
}
/// <summary>An absurd retry count clamps to the operational cap with a diagnostic.</summary>
[Fact]
public void RetryCount_AboveCap_ClampedTo100()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Read\":{\"retryCount\":2000000000}}}", out var diag);
options.Resolve(DriverCapability.Read).RetryCount.ShouldBe(ResiliencePolicyRanges.MaxRetryCount);
diag.ShouldNotBeNull();
diag.ShouldContain("retryCount");
}
/// <summary>A breaker threshold of 1 (below Polly's MinimumThroughput floor) raises to 2 with a diagnostic.</summary>
[Fact]
public void BreakerThreshold_One_ClampedToTwo()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Read\":{\"breakerFailureThreshold\":1}}}", out var diag);
options.Resolve(DriverCapability.Read).BreakerFailureThreshold.ShouldBe(
ResiliencePolicyRanges.MinEnabledBreakerFailureThreshold);
diag.ShouldNotBeNull();
diag.ShouldContain("breakerFailureThreshold");
}
/// <summary>A negative breaker threshold disables the breaker (0) with a diagnostic.</summary>
[Fact]
public void BreakerThreshold_Negative_DisablesBreaker()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Read\":{\"breakerFailureThreshold\":-5}}}", out var diag);
options.Resolve(DriverCapability.Read).BreakerFailureThreshold.ShouldBe(0);
diag.ShouldNotBeNull();
diag.ShouldContain("breakerFailureThreshold");
}
/// <summary>Multiple clamps in one policy all surface in the (appended) diagnostic string.</summary>
[Fact]
public void MultipleClamps_AllSurfaceInDiagnostic()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A,
"{\"capabilityPolicies\":{\"Read\":{\"timeoutSeconds\":0,\"retryCount\":-1,\"breakerFailureThreshold\":1}}}",
out var diag);
diag.ShouldNotBeNull();
diag.ShouldContain("timeoutSeconds");
diag.ShouldContain("retryCount");
diag.ShouldContain("breakerFailureThreshold");
var read = options.Resolve(DriverCapability.Read);
read.TimeoutSeconds.ShouldBe(DriverResilienceOptions.GetTierDefaults(DriverTier.A)[DriverCapability.Read].TimeoutSeconds);
read.RetryCount.ShouldBe(0);
read.BreakerFailureThreshold.ShouldBe(ResiliencePolicyRanges.MinEnabledBreakerFailureThreshold);
}
// ---- 01/S-8 = 03/S12: write-shaped capabilities never retry ----
/// <summary>A Write retryCount override is forced to 0 with a diagnostic (writes are non-idempotent).</summary>
[Fact]
public void WriteRetryOverride_IsForcedToZero_WithDiagnostic()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Write\":{\"retryCount\":5}}}", out var diag);
options.Resolve(DriverCapability.Write).RetryCount.ShouldBe(0);
diag.ShouldNotBeNull();
diag.ShouldContain("Write never retries");
}
/// <summary>An AlarmAcknowledge retryCount override is forced to 0 with a diagnostic.</summary>
[Fact]
public void AlarmAcknowledgeRetryOverride_IsForcedToZero_WithDiagnostic()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"AlarmAcknowledge\":{\"retryCount\":3}}}", out var diag);
options.Resolve(DriverCapability.AlarmAcknowledge).RetryCount.ShouldBe(0);
diag.ShouldNotBeNull();
diag.ShouldContain("AlarmAcknowledge never retries");
}
/// <summary>A Read (idempotent) retryCount override is still honored — the invariant is write-shaped only.</summary>
[Fact]
public void ReadRetryOverride_StillHonored()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A, "{\"capabilityPolicies\":{\"Read\":{\"retryCount\":5}}}", out var diag);
options.Resolve(DriverCapability.Read).RetryCount.ShouldBe(5);
diag.ShouldBeNull();
}
/// <summary>In-range overrides pass through untouched with no diagnostic.</summary>
[Fact]
public void InRangeOverrides_PassThrough_NoDiagnostic()
{
var options = DriverResilienceOptionsParser.ParseOrDefaults(
DriverTier.A,
"{\"capabilityPolicies\":{\"Read\":{\"timeoutSeconds\":5,\"retryCount\":3,\"breakerFailureThreshold\":4}}}",
out var diag);
diag.ShouldBeNull();
var read = options.Resolve(DriverCapability.Read);
read.TimeoutSeconds.ShouldBe(5);
read.RetryCount.ShouldBe(3);
read.BreakerFailureThreshold.ShouldBe(4);
}
}