// Copyright 2015 Prometheus Team // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package types import ( "fmt" "hash/fnv" "regexp" "strings" "sync" "time" "github.com/prometheus/common/model" ) // Marker helps to mark alerts as silenced and/or inhibited. // All methods are goroutine-safe. type Marker interface { SetInhibited(alert model.Fingerprint, b bool) SetSilenced(alert model.Fingerprint, sil ...uint64) Silenced(alert model.Fingerprint) (uint64, bool) Inhibited(alert model.Fingerprint) bool } // NewMarker returns an instance of a Marker implementation. func NewMarker() Marker { return &memMarker{ inhibited: map[model.Fingerprint]struct{}{}, silenced: map[model.Fingerprint]uint64{}, } } type memMarker struct { inhibited map[model.Fingerprint]struct{} silenced map[model.Fingerprint]uint64 mtx sync.RWMutex } func (m *memMarker) Inhibited(alert model.Fingerprint) bool { m.mtx.RLock() defer m.mtx.RUnlock() _, ok := m.inhibited[alert] return ok } func (m *memMarker) Silenced(alert model.Fingerprint) (uint64, bool) { m.mtx.RLock() defer m.mtx.RUnlock() sid, ok := m.silenced[alert] return sid, ok } func (m *memMarker) SetInhibited(alert model.Fingerprint, b bool) { m.mtx.Lock() defer m.mtx.Unlock() if !b { delete(m.inhibited, alert) } else { m.inhibited[alert] = struct{}{} } } func (m *memMarker) SetSilenced(alert model.Fingerprint, sil ...uint64) { m.mtx.Lock() defer m.mtx.Unlock() if len(sil) == 0 { delete(m.silenced, alert) } else { m.silenced[alert] = sil[0] } } // MultiError contains multiple errors and implements the error interface. Its // zero value is ready to use. All its methods are goroutine safe. type MultiError struct { mtx sync.Mutex errors []error } // Add adds an error to the MultiError. func (e *MultiError) Add(err error) { e.mtx.Lock() defer e.mtx.Unlock() e.errors = append(e.errors, err) } // Len returns the number of errors added to the MultiError. func (e *MultiError) Len() int { e.mtx.Lock() defer e.mtx.Unlock() return len(e.errors) } // Errors returns the errors added to the MuliError. The returned slice is a // copy of the internal slice of errors. func (e *MultiError) Errors() []error { e.mtx.Lock() defer e.mtx.Unlock() return append(make([]error, 0, len(e.errors)), e.errors...) } func (e *MultiError) Error() string { e.mtx.Lock() defer e.mtx.Unlock() es := make([]string, 0, len(e.errors)) for _, err := range e.errors { es = append(es, err.Error()) } return strings.Join(es, "; ") } // Alert wraps a model.Alert with additional information relevant // to internal of the Alertmanager. // The type is never exposed to external communication and the // embedded alert has to be sanitized beforehand. type Alert struct { model.Alert // The authoritative timestamp. UpdatedAt time.Time Timeout bool WasSilenced bool `json:"-"` WasInhibited bool `json:"-"` } // AlertSlice is a sortable slice of Alerts. type AlertSlice []*Alert func (as AlertSlice) Less(i, j int) bool { return as[i].UpdatedAt.Before(as[j].UpdatedAt) } func (as AlertSlice) Swap(i, j int) { as[i], as[j] = as[j], as[i] } func (as AlertSlice) Len() int { return len(as) } // Alerts turns a sequence of internal alerts into a list of // exposable model.Alert structures. func Alerts(alerts ...*Alert) model.Alerts { res := make(model.Alerts, 0, len(alerts)) for _, a := range alerts { v := a.Alert // If the end timestamp was set as the expected value in case // of a timeout but is not reached yet, do not expose it. if a.Timeout && !a.Resolved() { v.EndsAt = time.Time{} } res = append(res, &v) } return res } // Merge merges the timespan of two alerts based and overwrites annotations // based on the authoritative timestamp. A new alert is returned, the labels // are assumed to be equal. func (a *Alert) Merge(o *Alert) *Alert { // Let o always be the younger alert. if o.UpdatedAt.Before(a.UpdatedAt) { return o.Merge(a) } res := *o // Always pick the earliest starting time. if a.StartsAt.Before(o.StartsAt) { res.StartsAt = a.StartsAt } // A non-timeout resolved timestamp always rules. // The latest explicit resolved timestamp wins. if a.EndsAt.After(o.EndsAt) && !a.Timeout { res.EndsAt = a.EndsAt } return &res } // A Muter determines whether a given label set is muted. type Muter interface { Mutes(model.LabelSet) bool } // A MuteFunc is a function that implements the Muter interface. type MuteFunc func(model.LabelSet) bool // Mutes implements the Muter interface. func (f MuteFunc) Mutes(lset model.LabelSet) bool { return f(lset) } // A Silence determines whether a given label set is muted // at the current time. type Silence struct { model.Silence // A set of matchers determining if an alert is affected // by the silence. Matchers Matchers `json:"-"` // timeFunc provides the time against which to evaluate // the silence. timeFunc func() time.Time } // NewSilence creates a new internal Silence from a public silence object. func NewSilence(s *model.Silence) *Silence { sil := &Silence{ Silence: *s, timeFunc: time.Now, } for _, m := range s.Matchers { if !m.IsRegex { sil.Matchers = append(sil.Matchers, NewMatcher(m.Name, m.Value)) continue } rem := NewRegexMatcher(m.Name, regexp.MustCompile("^(?:"+m.Value+")$")) sil.Matchers = append(sil.Matchers, rem) } return sil } // Mutes implements the Muter interface. func (sil *Silence) Mutes(lset model.LabelSet) bool { t := sil.timeFunc() if t.Before(sil.StartsAt) || t.After(sil.EndsAt) { return false } b := sil.Matchers.Match(lset) return b } // NotifyInfo holds information about the last successful notification // of an alert to a receiver. type NotifyInfo struct { Alert model.Fingerprint Receiver string Resolved bool Timestamp time.Time } func (n *NotifyInfo) String() string { return fmt.Sprintf("", n.Alert, n.Timestamp, n.Receiver, n.Resolved) } // Fingerprint returns a quasi-unique fingerprint for the NotifyInfo. func (n *NotifyInfo) Fingerprint() model.Fingerprint { h := fnv.New64a() h.Write([]byte(n.Receiver)) fp := model.Fingerprint(h.Sum64()) return fp ^ n.Alert }