package cloudwatch import ( "context" "testing" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/service/cloudwatch" "github.com/aws/aws-sdk-go/service/ec2" "github.com/aws/aws-sdk-go/service/ec2/ec2iface" "github.com/bmizerany/assert" "github.com/grafana/grafana/pkg/components/simplejson" "github.com/grafana/grafana/pkg/tsdb" . "github.com/smartystreets/goconvey/convey" ) type mockedEc2 struct { ec2iface.EC2API Resp ec2.DescribeInstancesOutput } func (m mockedEc2) DescribeInstancesPages(in *ec2.DescribeInstancesInput, fn func(*ec2.DescribeInstancesOutput, bool) bool) error { fn(&m.Resp, true) return nil } func TestCloudWatchMetrics(t *testing.T) { Convey("When calling getMetricsForCustomMetrics", t, func() { dsInfo := &DatasourceInfo{ Region: "us-east-1", Namespace: "Foo", Profile: "default", AssumeRoleArn: "", } f := func(dsInfo *DatasourceInfo) (cloudwatch.ListMetricsOutput, error) { return cloudwatch.ListMetricsOutput{ Metrics: []*cloudwatch.Metric{ { MetricName: aws.String("Test_MetricName"), Dimensions: []*cloudwatch.Dimension{ { Name: aws.String("Test_DimensionName"), }, }, }, }, }, nil } metrics, _ := getMetricsForCustomMetrics(dsInfo, f) Convey("Should contain Test_MetricName", func() { So(metrics, ShouldContain, "Test_MetricName") }) }) Convey("When calling getDimensionsForCustomMetrics", t, func() { dsInfo := &DatasourceInfo{ Region: "us-east-1", Namespace: "Foo", Profile: "default", AssumeRoleArn: "", } f := func(dsInfo *DatasourceInfo) (cloudwatch.ListMetricsOutput, error) { return cloudwatch.ListMetricsOutput{ Metrics: []*cloudwatch.Metric{ { MetricName: aws.String("Test_MetricName"), Dimensions: []*cloudwatch.Dimension{ { Name: aws.String("Test_DimensionName"), }, }, }, }, }, nil } dimensionKeys, _ := getDimensionsForCustomMetrics(dsInfo, f) Convey("Should contain Test_DimensionName", func() { So(dimensionKeys, ShouldContain, "Test_DimensionName") }) }) Convey("When calling handleGetEc2InstanceAttribute", t, func() { executor := &CloudWatchExecutor{ ec2Svc: mockedEc2{Resp: ec2.DescribeInstancesOutput{ Reservations: []*ec2.Reservation{ { Instances: []*ec2.Instance{ { InstanceId: aws.String("i-12345678"), Tags: []*ec2.Tag{ { Key: aws.String("Environment"), Value: aws.String("production"), }, }, }, }, }, }, }}, } json := simplejson.New() json.Set("region", "us-east-1") json.Set("attributeName", "InstanceId") filters := make(map[string]interface{}) filters["tag:Environment"] = []string{"production"} json.Set("filters", filters) result, _ := executor.handleGetEc2InstanceAttribute(context.Background(), json, &tsdb.TsdbQuery{}) Convey("Should equal production InstanceId", func() { So(result[0].Text, ShouldEqual, "i-12345678") }) }) Convey("When calling handleGetEbsVolumeIds", t, func() { executor := &CloudWatchExecutor{ ec2Svc: mockedEc2{Resp: ec2.DescribeInstancesOutput{ Reservations: []*ec2.Reservation{ { Instances: []*ec2.Instance{ { InstanceId: aws.String("i-1"), BlockDeviceMappings: []*ec2.InstanceBlockDeviceMapping{ {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-1-1")}}, {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-1-2")}}, }, }, { InstanceId: aws.String("i-2"), BlockDeviceMappings: []*ec2.InstanceBlockDeviceMapping{ {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-2-1")}}, {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-2-2")}}, }, }, }, }, { Instances: []*ec2.Instance{ { InstanceId: aws.String("i-3"), BlockDeviceMappings: []*ec2.InstanceBlockDeviceMapping{ {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-3-1")}}, {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-3-2")}}, }, }, { InstanceId: aws.String("i-4"), BlockDeviceMappings: []*ec2.InstanceBlockDeviceMapping{ {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-4-1")}}, {Ebs: &ec2.EbsInstanceBlockDevice{VolumeId: aws.String("vol-4-2")}}, }, }, }, }, }, }}, } json := simplejson.New() json.Set("region", "us-east-1") json.Set("instanceId", "{i-1, i-2, i-3, i-4}") result, _ := executor.handleGetEbsVolumeIds(context.Background(), json, &tsdb.TsdbQuery{}) Convey("Should return all 8 VolumeIds", func() { So(len(result), ShouldEqual, 8) So(result[0].Text, ShouldEqual, "vol-1-1") So(result[1].Text, ShouldEqual, "vol-1-2") So(result[2].Text, ShouldEqual, "vol-2-1") So(result[3].Text, ShouldEqual, "vol-2-2") So(result[4].Text, ShouldEqual, "vol-3-1") So(result[5].Text, ShouldEqual, "vol-3-2") So(result[6].Text, ShouldEqual, "vol-4-1") So(result[7].Text, ShouldEqual, "vol-4-2") }) }) } func TestParseMultiSelectValue(t *testing.T) { values := parseMultiSelectValue(" i-someInstance ") assert.Equal(t, []string{"i-someInstance"}, values) values = parseMultiSelectValue("{i-05}") assert.Equal(t, []string{"i-05"}, values) values = parseMultiSelectValue(" {i-01, i-03, i-04} ") assert.Equal(t, []string{"i-01", "i-03", "i-04"}, values) values = parseMultiSelectValue("i-{01}") assert.Equal(t, []string{"i-{01}"}, values) }