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node-feature-discovery/pkg/client-nfd/compat/node-validator/node-validator_test.go
Markus Lehtonen fba7fb6c94 compat/api: use GroupRule type 
Simplify and rationalize the compat api. Many of the fields in Rule,
like Labels, Annotations or ExtendedResources are not applicable in this
context.
2025-03-14 13:40:57 +02:00

577 lines
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/*
Copyright 2024 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package nodevalidator
import (
"context"
"testing"
. "github.com/smartystreets/goconvey/convey"
compatv1alpha1 "sigs.k8s.io/node-feature-discovery/api/image-compatibility/v1alpha1"
"sigs.k8s.io/node-feature-discovery/api/nfd/v1alpha1"
artifactcli "sigs.k8s.io/node-feature-discovery/pkg/client-nfd/compat/artifact-client"
"sigs.k8s.io/node-feature-discovery/source"
"sigs.k8s.io/node-feature-discovery/source/fake"
)
func init() {
fs := source.GetConfigurableSource(fake.Name)
fs.SetConfig(fs.NewConfig())
}
func buildDefaultSpec(rules []v1alpha1.GroupRule) *compatv1alpha1.Spec {
return &compatv1alpha1.Spec{
Version: compatv1alpha1.Version,
Compatibilties: []compatv1alpha1.Compatibility{
{
Description: "Fake compatibility",
Rules: rules,
},
},
}
}
func buildDefaultExpectedOutput(status []ProcessedRuleStatus) []*CompatibilityStatus {
return []*CompatibilityStatus{
{
Description: "Fake compatibility",
Rules: status,
},
}
}
func assertOutput(ctx context.Context, spec *compatv1alpha1.Spec, expectedOutput []*CompatibilityStatus) {
validator := New(
WithArgs(&Args{}),
WithArtifactClient(newMock(ctx, spec)),
WithSources(map[string]source.FeatureSource{fake.Name: source.GetFeatureSource(fake.Name)}),
)
output, err := validator.Execute(ctx)
So(err, ShouldBeNil)
So(output, ShouldEqual, expectedOutput)
}
func TestNodeValidator(t *testing.T) {
ctx := context.Background()
Convey("With a single compatibility set", t, func() {
Convey("That contains flag which results in match", func() {
spec := buildDefaultSpec([]v1alpha1.GroupRule{
{
Name: "fake_1",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.flag",
MatchName: &v1alpha1.MatchExpression{Op: v1alpha1.MatchInRegexp, Value: v1alpha1.MatchValue{"^flag"}},
},
},
},
})
expectedOutput := buildDefaultExpectedOutput([]ProcessedRuleStatus{
{
Name: "fake_1",
IsMatch: true,
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.flag",
Name: "",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchInRegexp, Value: v1alpha1.MatchValue{"^flag"}},
MatcherType: MatchNameType,
IsMatch: true,
},
},
},
})
assertOutput(ctx, spec, expectedOutput)
})
Convey("That contains flags and attribute which result in mismatch", func() {
spec := buildDefaultSpec([]v1alpha1.GroupRule{
{
Name: "fake_2",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.flag",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"flag_unknown": &v1alpha1.MatchExpression{Op: v1alpha1.MatchExists},
},
},
{
Feature: "fake.attribute",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"attr_1": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"true"}},
},
},
},
},
})
expectedOutput := buildDefaultExpectedOutput([]ProcessedRuleStatus{
{
Name: "fake_2",
IsMatch: false,
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.attribute",
Name: "attr_1",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"true"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
{
Feature: "fake.flag",
Name: "flag_unknown",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchExists},
MatcherType: MatchExpressionType,
IsMatch: false,
},
},
},
})
assertOutput(ctx, spec, expectedOutput)
})
Convey("That contains instances which results in mismatch", func() {
spec := buildDefaultSpec([]v1alpha1.GroupRule{
{
Name: "fake_3",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.instance",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"name": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
"attr_1": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"true"}},
},
},
{
Feature: "fake.instance",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"name": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_2"}},
"attr_1": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
},
},
},
},
})
expectedOutput := buildDefaultExpectedOutput([]ProcessedRuleStatus{
{
Name: "fake_3",
IsMatch: false,
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.instance",
Name: "attr_1",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
MatcherType: MatchExpressionType,
IsMatch: false,
},
{
Feature: "fake.instance",
Name: "attr_1",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"true"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
{
Feature: "fake.instance",
Name: "name",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
{
Feature: "fake.instance",
Name: "name",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_2"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
},
},
})
assertOutput(ctx, spec, expectedOutput)
})
Convey("That contains instances which results in match", func() {
spec := buildDefaultSpec([]v1alpha1.GroupRule{
{
Name: "fake_4",
MatchAny: []v1alpha1.MatchAnyElem{
{
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.instance",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"name": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
},
},
},
},
{
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.instance",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"name": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_unknown"}},
},
},
},
},
},
},
})
expectedOutput := buildDefaultExpectedOutput([]ProcessedRuleStatus{
{
Name: "fake_4",
IsMatch: true,
MatchedAny: []MatchAnyElem{
{
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.instance",
Name: "name",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
},
},
{
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.instance",
Name: "name",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_unknown"}},
MatcherType: MatchExpressionType,
IsMatch: false,
},
},
},
},
},
})
assertOutput(ctx, spec, expectedOutput)
})
Convey("That contains spec with zero matches which results in mismatch", func() {
spec := buildDefaultSpec([]v1alpha1.GroupRule{
{
Name: "fake_5",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "unknown.unknown",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"name": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
},
},
},
},
})
expectedOutput := buildDefaultExpectedOutput([]ProcessedRuleStatus{
{
Name: "fake_5",
IsMatch: false,
MatchedExpressions: []MatchedExpression{
{
Feature: "unknown.unknown",
Name: "name",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
MatcherType: MatchExpressionType,
IsMatch: false,
},
},
},
})
assertOutput(ctx, spec, expectedOutput)
})
Convey("That contains matchAny and matchFeatures in one spec", func() {
spec := buildDefaultSpec([]v1alpha1.GroupRule{
{
Name: "fake_6",
MatchAny: []v1alpha1.MatchAnyElem{
{
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.instance",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"name": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
},
},
},
},
{
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.instance",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"name": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_unknown"}},
},
},
},
},
},
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.attribute",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"attr_1": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"true"}},
},
},
},
},
})
expectedOutput := buildDefaultExpectedOutput([]ProcessedRuleStatus{
{
Name: "fake_6",
IsMatch: true,
MatchedAny: []MatchAnyElem{
{
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.instance",
Name: "name",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_1"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
},
},
{
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.instance",
Name: "name",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"instance_unknown"}},
MatcherType: MatchExpressionType,
IsMatch: false,
},
},
},
},
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.attribute",
Name: "attr_1",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"true"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
},
},
})
assertOutput(ctx, spec, expectedOutput)
})
})
Convey("With multiple compatibility sets", t, func() {
spec := &compatv1alpha1.Spec{
Version: compatv1alpha1.Version,
Compatibilties: []compatv1alpha1.Compatibility{
{
Tag: "prefered",
Weight: 90,
Description: "Fake compatibility 1",
Rules: []v1alpha1.GroupRule{
{
Name: "fake_1",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.attribute",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"attr_1": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
},
},
},
},
},
},
{
Tag: "fallback",
Weight: 40,
Description: "Fake compatibility 2",
Rules: []v1alpha1.GroupRule{
{
Name: "fake_1",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.attribute",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"attr_2": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
},
},
},
},
},
},
},
}
expectedOutput := []*CompatibilityStatus{
{
Tag: "prefered",
Weight: 90,
Description: "Fake compatibility 1",
Rules: []ProcessedRuleStatus{
{
Name: "fake_1",
IsMatch: false,
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.attribute",
Name: "attr_1",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
MatcherType: MatchExpressionType,
IsMatch: false,
},
},
},
},
},
{
Tag: "fallback",
Weight: 40,
Description: "Fake compatibility 2",
Rules: []ProcessedRuleStatus{
{
Name: "fake_1",
IsMatch: true,
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.attribute",
Name: "attr_2",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
MatcherType: MatchExpressionType,
IsMatch: true,
},
},
},
},
},
}
validator := New(
WithArgs(&Args{}),
WithArtifactClient(newMock(ctx, spec)),
WithSources(map[string]source.FeatureSource{fake.Name: source.GetFeatureSource(fake.Name)}),
)
output, err := validator.Execute(ctx)
So(err, ShouldBeNil)
So(output, ShouldEqual, expectedOutput)
})
Convey("With compatibility sets filtered out by tags", t, func() {
spec := &compatv1alpha1.Spec{
Version: compatv1alpha1.Version,
Compatibilties: []compatv1alpha1.Compatibility{
{
Tag: "prefered",
Weight: 90,
Description: "Fake compatibility 1",
Rules: []v1alpha1.GroupRule{
{
Name: "fake_1",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.attribute",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"attr_1": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
},
},
},
},
},
},
{
Tag: "fallback",
Weight: 40,
Description: "Fake compatibility 2",
Rules: []v1alpha1.GroupRule{
{
Name: "fake_1",
MatchFeatures: v1alpha1.FeatureMatcher{
{
Feature: "fake.attribute",
MatchExpressions: &v1alpha1.MatchExpressionSet{
"attr_2": &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
},
},
},
},
},
},
},
}
expectedOutput := []*CompatibilityStatus{
{
Tag: "prefered",
Weight: 90,
Description: "Fake compatibility 1",
Rules: []ProcessedRuleStatus{
{
Name: "fake_1",
IsMatch: false,
MatchedExpressions: []MatchedExpression{
{
Feature: "fake.attribute",
Name: "attr_1",
Expression: &v1alpha1.MatchExpression{Op: v1alpha1.MatchIn, Value: v1alpha1.MatchValue{"false"}},
MatcherType: MatchExpressionType,
IsMatch: false,
},
},
},
},
},
}
validator := New(
WithArgs(&Args{
Tags: []string{"prefered"},
}),
WithArtifactClient(newMock(ctx, spec)),
WithSources(map[string]source.FeatureSource{fake.Name: source.GetFeatureSource(fake.Name)}),
)
output, err := validator.Execute(ctx)
So(err, ShouldBeNil)
So(output, ShouldEqual, expectedOutput)
})
}
func newMock(ctx context.Context, result *compatv1alpha1.Spec) *artifactcli.MockArtifactClient {
artifactClient := &artifactcli.MockArtifactClient{}
artifactClient.On("FetchCompatibilitySpec", ctx).Return(result, nil)
return artifactClient
}
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