func protoLabelSet(base, ext model.LabelSet) ([]*dto.LabelPair, error) {
labels := base.Clone().Merge(ext)
delete(labels, model.MetricNameLabel)
names := make([]string, 0, len(labels))
for ln := range labels {
names = append(names, string(ln))
}
sort.Strings(names)
pairs := make([]*dto.LabelPair, 0, len(labels))
for _, ln := range names {
if !model.LabelNameRE.MatchString(ln) {
return nil, fmt.Errorf("invalid label name %q", ln)
}
lv := labels[model.LabelName(ln)]
pairs = append(pairs, &dto.LabelPair{
Name: proto.String(ln),
Value: proto.String(string(lv)),
})
}
return pairs, nil
}
// Mutes returns true iff the given label set is muted.
func (ih *Inhibitor) Mutes(lset model.LabelSet) bool {
alerts := ih.alerts.GetPending()
defer alerts.Close()
// TODO(fabxc): improve erroring for iterators so it does not
// go silenced here.
for alert := range alerts.Next() {
if err := alerts.Err(); err != nil {
log.Errorf("Error iterating alerts: %s", err)
continue
}
if alert.Resolved() {
continue
}
for _, rule := range ih.rules {
if rule.Mutes(alert.Labels, lset) {
ih.marker.SetInhibited(lset.Fingerprint(), true)
return true
}
}
}
if err := alerts.Err(); err != nil {
log.Errorf("Error after iterating alerts: %s", err)
}
ih.marker.SetInhibited(lset.Fingerprint(), false)
return false
}
func newTestTarget(targetURL string, deadline time.Duration, labels model.LabelSet) *Target {
labels = labels.Clone()
labels[model.SchemeLabel] = "http"
labels[model.AddressLabel] = model.LabelValue(strings.TrimLeft(targetURL, "http://"))
labels[model.MetricsPathLabel] = "/metrics"
return &Target{
labels: labels,
}
}
// Mutes returns true iff the given label set is muted.
func (ih *Inhibitor) Mutes(lset model.LabelSet) bool {
fp := lset.Fingerprint()
for _, r := range ih.rules {
if r.TargetMatchers.Match(lset) && r.hasEqual(lset) {
ih.marker.SetInhibited(fp, true)
return true
}
}
ih.marker.SetInhibited(fp, false)
return false
}
// The Silences provider must implement the Muter interface
// for all its silences. The data provider may have access to an
// optimized view of the data to perform this evaluation.
func (s *Silences) Mutes(lset model.LabelSet) bool {
sils, err := s.All()
if err != nil {
log.Errorf("retrieving silences failed: %s", err)
// In doubt, do not silence anything.
return false
}
for _, sil := range sils {
if sil.Mutes(lset) {
s.mk.SetSilenced(lset.Fingerprint(), sil.ID)
return true
}
}
s.mk.SetSilenced(lset.Fingerprint())
return false
}
func protoLabelSet(base, ext model.LabelSet) []*dto.LabelPair {
labels := base.Clone().Merge(ext)
delete(labels, model.MetricNameLabel)
names := make([]string, 0, len(labels))
for ln := range labels {
names = append(names, string(ln))
}
sort.Strings(names)
pairs := make([]*dto.LabelPair, 0, len(labels))
for _, ln := range names {
lv := labels[model.LabelName(ln)]
pairs = append(pairs, &dto.LabelPair{
Name: proto.String(ln),
Value: proto.String(string(lv)),
})
}
return pairs
}
// processAlert determines in which aggregation group the alert falls
// and insert it.
func (d *Dispatcher) processAlert(alert *types.Alert, route *Route) {
group := model.LabelSet{}
for ln, lv := range alert.Labels {
if _, ok := route.RouteOpts.GroupBy[ln]; ok {
group[ln] = lv
}
}
fp := group.Fingerprint()
d.mtx.Lock()
groups, ok := d.aggrGroups[route]
if !ok {
groups = map[model.Fingerprint]*aggrGroup{}
d.aggrGroups[route] = groups
}
d.mtx.Unlock()
// If the group does not exist, create it.
ag, ok := groups[fp]
if !ok {
ag = newAggrGroup(d.ctx, group, &route.RouteOpts, d.timeout)
groups[fp] = ag
go ag.run(func(ctx context.Context, alerts ...*types.Alert) bool {
_, _, err := d.stage.Exec(ctx, alerts...)
if err != nil {
log.Errorf("Notify for %d alerts failed: %s", len(alerts), err)
}
return err == nil
})
}
ag.insert(alert)
}
func newTestTarget(targetURL string, deadline time.Duration, labels model.LabelSet) *Target {
labels = labels.Clone()
labels[model.SchemeLabel] = "http"
labels[model.AddressLabel] = model.LabelValue(strings.TrimLeft(targetURL, "http://"))
labels[model.MetricsPathLabel] = "/metrics"
t := &Target{
scrapeConfig: &config.ScrapeConfig{
ScrapeInterval: model.Duration(time.Millisecond),
ScrapeTimeout: model.Duration(deadline),
},
labels: labels,
status: &TargetStatus{},
scraperStopping: make(chan struct{}),
scraperStopped: make(chan struct{}),
}
var err error
if t.httpClient, err = t.client(); err != nil {
panic(err)
}
return t
}
func (g *Group) fingerprint() model.Fingerprint {
l := model.LabelSet{"name": model.LabelValue(g.name)}
return l.Fingerprint()
}
func (e *Endpoints) buildEndpoints(eps *apiv1.Endpoints) *config.TargetGroup {
if len(eps.Subsets) == 0 {
return nil
}
tg := &config.TargetGroup{
Source: endpointsSource(eps),
}
tg.Labels = model.LabelSet{
namespaceLabel: lv(eps.Namespace),
endpointsNameLabel: lv(eps.Name),
}
e.addServiceLabels(eps.Namespace, eps.Name, tg)
type podEntry struct {
pod *apiv1.Pod
servicePorts []apiv1.EndpointPort
}
seenPods := map[string]*podEntry{}
add := func(addr apiv1.EndpointAddress, port apiv1.EndpointPort, ready string) {
a := net.JoinHostPort(addr.IP, strconv.FormatUint(uint64(port.Port), 10))
target := model.LabelSet{
model.AddressLabel: lv(a),
endpointPortNameLabel: lv(port.Name),
endpointPortProtocolLabel: lv(string(port.Protocol)),
endpointReadyLabel: lv(ready),
}
pod := e.resolvePodRef(addr.TargetRef)
if pod == nil {
// This target is not a Pod, so don't continue with Pod specific logic.
tg.Targets = append(tg.Targets, target)
return
}
s := pod.Namespace + "/" + pod.Name
sp, ok := seenPods[s]
if !ok {
sp = &podEntry{pod: pod}
seenPods[s] = sp
}
// Attach standard pod labels.
target = target.Merge(podLabels(pod))
// Attach potential container port labels matching the endpoint port.
for _, c := range pod.Spec.Containers {
for _, cport := range c.Ports {
if port.Port == cport.ContainerPort {
ports := strconv.FormatUint(uint64(port.Port), 10)
target[podContainerNameLabel] = lv(c.Name)
target[podContainerPortNameLabel] = lv(cport.Name)
target[podContainerPortNumberLabel] = lv(ports)
target[podContainerPortProtocolLabel] = lv(string(port.Protocol))
break
}
}
}
// Add service port so we know that we have already generated a target
// for it.
sp.servicePorts = append(sp.servicePorts, port)
tg.Targets = append(tg.Targets, target)
}
for _, ss := range eps.Subsets {
for _, port := range ss.Ports {
for _, addr := range ss.Addresses {
add(addr, port, "true")
}
// Although this generates the same target again, as it was generated in
// the loop above, it causes the ready meta label to be overridden.
for _, addr := range ss.NotReadyAddresses {
add(addr, port, "false")
}
}
}
// For all seen pods, check all container ports. If they were not covered
// by one of the service endpoints, generate targets for them.
for _, pe := range seenPods {
for _, c := range pe.pod.Spec.Containers {
for _, cport := range c.Ports {
hasSeenPort := func() bool {
for _, eport := range pe.servicePorts {
if cport.ContainerPort == eport.Port {
return true
}
}
return false
}
if hasSeenPort() {
continue
}
a := net.JoinHostPort(pe.pod.Status.PodIP, strconv.FormatUint(uint64(cport.ContainerPort), 10))
ports := strconv.FormatUint(uint64(cport.ContainerPort), 10)
target := model.LabelSet{
model.AddressLabel: lv(a),
podContainerNameLabel: lv(c.Name),
podContainerPortNameLabel: lv(cport.Name),
podContainerPortNumberLabel: lv(ports),
podContainerPortProtocolLabel: lv(string(cport.Protocol)),
}
tg.Targets = append(tg.Targets, target.Merge(podLabels(pe.pod)))
}
}
}
return tg
}
// populateLabels builds a label set from the given label set and scrape configuration.
// It returns a label set before relabeling was applied as the second return value.
// Returns a nil label set if the target is dropped during relabeling.
func populateLabels(lset model.LabelSet, cfg *config.ScrapeConfig) (res, orig model.LabelSet, err error) {
if _, ok := lset[model.AddressLabel]; !ok {
return nil, nil, fmt.Errorf("no address")
}
// Copy labels into the labelset for the target if they are not
// set already. Apply the labelsets in order of decreasing precedence.
scrapeLabels := model.LabelSet{
model.SchemeLabel: model.LabelValue(cfg.Scheme),
model.MetricsPathLabel: model.LabelValue(cfg.MetricsPath),
model.JobLabel: model.LabelValue(cfg.JobName),
}
for ln, lv := range scrapeLabels {
if _, ok := lset[ln]; !ok {
lset[ln] = lv
}
}
// Encode scrape query parameters as labels.
for k, v := range cfg.Params {
if len(v) > 0 {
lset[model.LabelName(model.ParamLabelPrefix+k)] = model.LabelValue(v[0])
}
}
preRelabelLabels := lset.Clone()
lset = relabel.Process(lset, cfg.RelabelConfigs...)
// Check if the target was dropped.
if lset == nil {
return nil, nil, nil
}
// addPort checks whether we should add a default port to the address.
// If the address is not valid, we don't append a port either.
addPort := func(s string) bool {
// If we can split, a port exists and we don't have to add one.
if _, _, err := net.SplitHostPort(s); err == nil {
return false
}
// If adding a port makes it valid, the previous error
// was not due to an invalid address and we can append a port.
_, _, err := net.SplitHostPort(s + ":1234")
return err == nil
}
// If it's an address with no trailing port, infer it based on the used scheme.
if addr := string(lset[model.AddressLabel]); addPort(addr) {
// Addresses reaching this point are already wrapped in [] if necessary.
switch lset[model.SchemeLabel] {
case "http", "":
addr = addr + ":80"
case "https":
addr = addr + ":443"
default:
return nil, nil, fmt.Errorf("invalid scheme: %q", cfg.Scheme)
}
lset[model.AddressLabel] = model.LabelValue(addr)
}
if err := config.CheckTargetAddress(lset[model.AddressLabel]); err != nil {
return nil, nil, err
}
// Meta labels are deleted after relabelling. Other internal labels propagate to
// the target which decides whether they will be part of their label set.
for ln := range lset {
if strings.HasPrefix(string(ln), model.MetaLabelPrefix) {
delete(lset, ln)
}
}
// Default the instance label to the target address.
if _, ok := lset[model.InstanceLabel]; !ok {
lset[model.InstanceLabel] = lset[model.AddressLabel]
}
return lset, preRelabelLabels, nil
}
