package alerting import ( "testing" . "github.com/smartystreets/goconvey/convey" ) type conditionStub struct { firing bool } func (c *conditionStub) Eval(context *AlertResultContext) { context.Firing = c.firing } func TestAlertingExecutor(t *testing.T) { Convey("Test alert execution", t, func() { handler := NewHandler() Convey("Show return triggered with single passing condition", func() { context := NewAlertResultContext(&AlertRule{ Conditions: []AlertCondition{&conditionStub{ firing: true, }}, }) handler.eval(context) So(context.Firing, ShouldEqual, true) }) Convey("Show return false with not passing condition", func() { context := NewAlertResultContext(&AlertRule{ Conditions: []AlertCondition{ &conditionStub{firing: true}, &conditionStub{firing: false}, }, }) handler.eval(context) So(context.Firing, ShouldEqual, false) }) // Convey("Show return critical since below 2", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: "<"}, // Transformer: transformers.NewAggregationTransformer("avg"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{2, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Critical) // }) // // Convey("Show return critical since sum is above 10", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: ">"}, // Transformer: transformers.NewAggregationTransformer("sum"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{9, 0}, {9, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Critical) // }) // // Convey("Show return ok since avg is below 10", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: ">"}, // Transformer: transformers.NewAggregationTransformer("avg"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{9, 0}, {9, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Ok) // }) // // Convey("Show return ok since min is below 10", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: ">"}, // Transformer: transformers.NewAggregationTransformer("avg"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{11, 0}, {9, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Ok) // }) // // Convey("Show return ok since max is above 10", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: ">"}, // Transformer: transformers.NewAggregationTransformer("max"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{6, 0}, {11, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Critical) // }) // // }) // // Convey("muliple time series", func() { // Convey("both are ok", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: ">"}, // Transformer: transformers.NewAggregationTransformer("avg"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{2, 0}}), // tsdb.NewTimeSeries("test1", [][2]float64{{2, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Ok) // }) // // Convey("first serie is good, second is critical", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: ">"}, // Transformer: transformers.NewAggregationTransformer("avg"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{2, 0}}), // tsdb.NewTimeSeries("test1", [][2]float64{{11, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Critical) // }) // // Convey("first serie is warn, second is critical", func() { // rule := &AlertRule{ // Critical: Level{Value: 10, Operator: ">"}, // Warning: Level{Value: 5, Operator: ">"}, // Transformer: transformers.NewAggregationTransformer("avg"), // } // // timeSeries := []*tsdb.TimeSeries{ // tsdb.NewTimeSeries("test1", [][2]float64{{6, 0}}), // tsdb.NewTimeSeries("test1", [][2]float64{{11, 0}}), // } // // result := executor.evaluateRule(rule, timeSeries) // So(result.State, ShouldEqual, alertstates.Critical) // }) // }) }) }