func NewDecoder() Decoder {
// Get supported metrics.
return &defaultDecoder{
supportedStatMetrics: sinksV1Api.SupportedStatMetrics(),
lastExported: make(map[timeseriesKey]time.Time),
}
}
func (a *Api) exportMetricsSchema(request *restful.Request, response *restful.Response) {
result := TimeseriesSchema{}
for _, label := range sinksApi.CommonLabels() {
result.CommonLabels = append(result.CommonLabels, LabelDescriptor{
Key: label.Key,
Description: label.Description,
})
}
for _, label := range sinksApi.PodLabels() {
result.PodLabels = append(result.PodLabels, LabelDescriptor{
Key: label.Key,
Description: label.Description,
})
}
for _, metric := range sinksApi.SupportedStatMetrics() {
md := MetricDescriptor{
Name: metric.Name,
Description: metric.Description,
Type: metric.Type.String(),
ValueType: metric.ValueType.String(),
Units: metric.Units.String(),
}
for _, label := range metric.Labels {
md.Labels = append(md.Labels, LabelDescriptor{
Key: label.Key,
Description: label.Description,
})
}
result.Metrics = append(result.Metrics, md)
}
response.WriteEntity(result)
}
// NewExternalSinkManager returns an external sink manager that will manage pushing data to all
// the sinks in 'externalSinks', which is a map of sink name to ExternalSink object.
func NewExternalSinkManager(externalSinks []sink_api.ExternalSink) (ExternalSinkManager, error) {
// Get supported metrics.
supportedMetrics := sink_api.SupportedStatMetrics()
for i := range supportedMetrics {
supportedMetrics[i].Labels = sink_api.SupportedLabels()
}
// Create the metrics.
descriptors := make([]sink_api.MetricDescriptor, 0, len(supportedMetrics))
for _, supported := range supportedMetrics {
descriptors = append(descriptors, supported.MetricDescriptor)
}
for _, externalSink := range externalSinks {
err := externalSink.Register(descriptors)
if err != nil {
return nil, err
}
}
decoder := sink_api_old.NewDecoder()
return &externalSinkManager{
externalSinks: externalSinks,
decoder: decoder,
}, nil
}
func supportedMetricsDescriptors() []sink_api.MetricDescriptor {
// Get supported metrics.
supportedMetrics := sink_api.SupportedStatMetrics()
for i := range supportedMetrics {
supportedMetrics[i].Labels = sink_api.SupportedLabels()
}
// Create the metrics.
descriptors := make([]sink_api.MetricDescriptor, 0, len(supportedMetrics))
for _, supported := range supportedMetrics {
descriptors = append(descriptors, supported.MetricDescriptor)
}
return descriptors
}
func (self *externalSinkManager) DebugInfo() string {
desc := "External Sinks\n"
// Add metrics being exported.
desc += "\tExported metrics:\n"
for _, supported := range sink_api.SupportedStatMetrics() {
desc += fmt.Sprintf("\t\t%s: %s", supported.Name, supported.Description)
}
// Add labels being used.
desc += "\n\tExported labels:\n"
for _, label := range sink_api.SupportedLabels() {
desc += fmt.Sprintf("\t\t%s: %s", label.Key, label.Description)
}
desc += "\n\tExternal Sinks:\n"
for _, externalSink := range self.externalSinks {
desc += fmt.Sprintf("\n\t\t%s", externalSink.DebugInfo())
}
return desc
}
func (self *externalSinkManager) DebugInfo() string {
b := &bytes.Buffer{}
fmt.Fprintln(b, "External Sinks")
// Add metrics being exported.
fmt.Fprintln(b, "\tExported metrics:")
for _, supported := range sink_api.SupportedStatMetrics() {
fmt.Fprintf(b, "\t\t%s: %s\n", supported.Name, supported.Description)
}
// Add labels being used.
fmt.Fprintln(b, "\tExported labels:")
for _, label := range sink_api.SupportedLabels() {
fmt.Fprintf(b, "\t\t%s: %s\n", label.Key, label.Description)
}
fmt.Fprintln(b, "\tExternal Sinks:")
self.sinkMutex.RLock()
defer self.sinkMutex.RUnlock()
for _, externalSink := range self.externalSinks {
fmt.Fprintf(b, "\t\t%s\n", externalSink.DebugInfo())
}
return b.String()
}
func TestRealInput(t *testing.T) {
containers := []source_api.Container{
getContainer("container1"),
}
pods := []source_api.Pod{
{
PodMetadata: source_api.PodMetadata{
Name: "pod1",
ID: "123",
Namespace: "test",
Hostname: "1.2.3.4",
Status: "Running",
},
Containers: containers,
},
{
PodMetadata: source_api.PodMetadata{
Name: "pod2",
ID: "123",
Namespace: "test",
Hostname: "1.2.3.5",
Status: "Running",
},
Containers: containers,
},
}
input := source_api.AggregateData{
Pods: pods,
Containers: containers,
Machine: containers,
}
timeseries, err := NewDecoder().Timeseries(input)
assert.NoError(t, err)
assert.NotEmpty(t, timeseries)
expectedFsStats := getFsStats(input)
metrics := make(map[string][]sink_api.Timeseries)
for index := range timeseries {
series, ok := metrics[timeseries[index].Point.Name]
if !ok {
series = make([]sink_api.Timeseries, 0)
}
series = append(series, timeseries[index])
metrics[timeseries[index].Point.Name] = series
}
statMetrics := sink_api.SupportedStatMetrics()
for index := range statMetrics {
series, ok := metrics[statMetrics[index].MetricDescriptor.Name]
require.True(t, ok)
for innerIndex, entry := range series {
assert.Equal(t, statMetrics[index].MetricDescriptor, *series[innerIndex].MetricDescriptor)
spec := containers[0].Spec
stats := containers[0].Stats[0]
switch entry.Point.Name {
case "uptime":
_, ok := entry.Point.Value.(int64)
require.True(t, ok)
case "cpu/usage":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Cpu.Usage.Total, value)
case "memory/usage":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Memory.Usage, value)
case "memory/working_set":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Memory.WorkingSet, value)
case "memory/page_faults":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Memory.ContainerData.Pgfault, value)
case "memory/major_page_faults":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Memory.ContainerData.Pgmajfault, value)
case "network/rx":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Network.RxBytes, value)
case "network/rx_errors":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Network.RxErrors, value)
case "network/tx":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Network.TxBytes, value)
case "network/tx_errors":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, stats.Network.TxErrors, value)
case "filesystem/usage":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
name, ok := entry.Point.Labels[sink_api.LabelResourceID.Key]
require.True(t, ok)
assert.Equal(t, expectedFsStats[name].usage, value)
case "cpu/limit":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
expected := (spec.Cpu.Limit * 1000) / 1024
assert.Equal(t, expected, value)
case "memory/limit":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
assert.Equal(t, spec.Memory.Limit, value)
case "filesystem/limit":
value, ok := entry.Point.Value.(int64)
require.True(t, ok)
name, ok := entry.Point.Labels[sink_api.LabelResourceID.Key]
require.True(t, ok)
assert.Equal(t, expectedFsStats[name].limit, value)
default:
t.Errorf("unexpected metric type")
}
}
}
}
