alertmanager/test/mock.go

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package test
import (
"encoding/json"
"fmt"
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"net/http"
"reflect"
"time"
"github.com/prometheus/common/model"
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"github.com/prometheus/alertmanager/notify"
)
// At is a convenience method to allow for declarative syntax of Acceptance
// test definitions.
func At(ts float64) float64 {
return ts
}
type Interval struct {
start, end float64
}
func (iv Interval) String() string {
return fmt.Sprintf("[%v,%v]", iv.start, iv.end)
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}
func (iv Interval) contains(f float64) bool {
return f >= iv.start && f <= iv.end
}
// Between is a convenience constructor for an interval for declarative syntax
// of Acceptance test definitions.
func Between(start, end float64) Interval {
return Interval{start: start, end: end}
}
// TestSilence models a model.Silence with relative times.
type TestSilence struct {
ID uint64
match []string
matchRE []string
startsAt, endsAt float64
}
// Silence creates a new TestSilence active for the relative interval given
// by start and end.
func Silence(start, end float64) *TestSilence {
return &TestSilence{
startsAt: start,
endsAt: end,
}
}
// Match adds a new plain matcher to the silence.
func (s *TestSilence) Match(v ...string) *TestSilence {
s.match = append(s.match, v...)
return s
}
// MatchRE adds a new regex matcher to the silence
func (s *TestSilence) MatchRE(v ...string) *TestSilence {
if len(v)%2 == 1 {
panic("bad key/values")
}
s.matchRE = append(s.matchRE, v...)
return s
}
// nativeSilence converts the declared test silence into a regular
// silence with resolved times.
func (sil *TestSilence) nativeSilence(opts *AcceptanceOpts) *model.Silence {
nsil := &model.Silence{}
for i := 0; i < len(sil.match); i += 2 {
nsil.Matchers = append(nsil.Matchers, &model.Matcher{
Name: model.LabelName(sil.match[i]),
Value: sil.match[i+1],
})
}
for i := 0; i < len(sil.matchRE); i += 2 {
nsil.Matchers = append(nsil.Matchers, &model.Matcher{
Name: model.LabelName(sil.match[i]),
Value: sil.match[i+1],
IsRegex: true,
})
}
if sil.startsAt > 0 {
nsil.StartsAt = opts.expandTime(sil.startsAt)
}
if sil.endsAt > 0 {
nsil.EndsAt = opts.expandTime(sil.endsAt)
}
return nsil
}
// TestAlert models a model.Alert with relative times.
type TestAlert struct {
labels model.LabelSet
annotations model.LabelSet
startsAt, endsAt float64
}
// alert creates a new alert declaration with the given key/value pairs
// as identifying labels.
func Alert(keyval ...interface{}) *TestAlert {
if len(keyval)%2 == 1 {
panic("bad key/values")
}
a := &TestAlert{
labels: model.LabelSet{},
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annotations: model.LabelSet{},
}
for i := 0; i < len(keyval); i += 2 {
ln := model.LabelName(keyval[i].(string))
lv := model.LabelValue(keyval[i+1].(string))
a.labels[ln] = lv
}
return a
}
// nativeAlert converts the declared test alert into a full alert based
// on the given paramters.
func (a *TestAlert) nativeAlert(opts *AcceptanceOpts) *model.Alert {
na := &model.Alert{
Labels: a.labels,
Annotations: a.annotations,
}
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if a.startsAt > 0 {
na.StartsAt = opts.expandTime(a.startsAt)
}
if a.endsAt > 0 {
na.EndsAt = opts.expandTime(a.endsAt)
}
return na
}
// Annotate the alert with the given key/value pairs.
func (a *TestAlert) Annotate(keyval ...interface{}) *TestAlert {
if len(keyval)%2 == 1 {
panic("bad key/values")
}
for i := 0; i < len(keyval); i += 2 {
ln := model.LabelName(keyval[i].(string))
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lv := model.LabelValue(keyval[i+1].(string))
a.annotations[ln] = lv
}
return a
}
// Active declares the relative activity time for this alert. It
// must be a single starting value or two values where the second value
// declares the resolved time.
func (a *TestAlert) Active(tss ...float64) *TestAlert {
if len(tss) > 2 || len(tss) == 0 {
panic("only one or two timestamps allowed")
}
if len(tss) == 2 {
a.endsAt = tss[1]
}
a.startsAt = tss[0]
return a
}
func equalAlerts(a, b *model.Alert, opts *AcceptanceOpts) bool {
if !reflect.DeepEqual(a.Labels, b.Labels) {
return false
}
if !reflect.DeepEqual(a.Annotations, b.Annotations) {
return false
}
if !equalTime(a.StartsAt, b.StartsAt, opts) {
return false
}
if !equalTime(a.EndsAt, b.EndsAt, opts) {
return false
}
return true
}
func equalTime(a, b time.Time, opts *AcceptanceOpts) bool {
if a.IsZero() != b.IsZero() {
return false
}
diff := a.Sub(b)
if diff < 0 {
diff = -diff
}
return diff <= opts.Tolerance
}
type MockWebhook struct {
collector *Collector
addr string
}
func NewWebhook(addr string, c *Collector) *MockWebhook {
return &MockWebhook{
addr: addr,
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collector: c,
}
}
func (ws *MockWebhook) Run() {
http.ListenAndServe(ws.addr, ws)
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}
func (ws *MockWebhook) ServeHTTP(w http.ResponseWriter, req *http.Request) {
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dec := json.NewDecoder(req.Body)
defer req.Body.Close()
var v notify.WebhookMessage
if err := dec.Decode(&v); err != nil {
panic(err)
}
ws.collector.add(v.Alerts...)
}