alertmanager/types/types.go

// 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 (
	"strings"
	"sync"
	"time"

	"github.com/prometheus/common/model"
)

type AlertState string

const (
	AlertStateUnprocessed AlertState = "unprocessed"
	AlertStateActive      AlertState = "active"
	AlertStateSuppressed  AlertState = "suppressed"
)

// AlertStatus stores the state and values associated with an Alert.
type AlertStatus struct {
	State       AlertState `json:"state"`
	SilencedBy  []string   `json:"silencedBy"`
	InhibitedBy []string   `json:"inhibitedBy"`
}

// Marker helps to mark alerts as silenced and/or inhibited.
// All methods are goroutine-safe.
type Marker interface {
	SetActive(alert model.Fingerprint)
	SetInhibited(alert model.Fingerprint, ids ...string)
	SetSilenced(alert model.Fingerprint, ids ...string)

	Count(...AlertState) int

	Status(model.Fingerprint) AlertStatus
	Delete(model.Fingerprint)

	Unprocessed(model.Fingerprint) bool
	Active(model.Fingerprint) bool
	Silenced(model.Fingerprint) ([]string, bool)
	Inhibited(model.Fingerprint) ([]string, bool)
}

// NewMarker returns an instance of a Marker implementation.
func NewMarker() Marker {
	return &memMarker{
		m: map[model.Fingerprint]*AlertStatus{},
	}
}

type memMarker struct {
	m map[model.Fingerprint]*AlertStatus

	mtx sync.RWMutex
}

// Count alerts of a given state.
func (m *memMarker) Count(states ...AlertState) int {
	count := 0

	m.mtx.RLock()
	defer m.mtx.RUnlock()

	if len(states) == 0 {
		count = len(m.m)
	} else {
		for _, status := range m.m {
			for _, state := range states {
				if status.State == state {
					count++
				}
			}
		}
	}
	return count
}

// SetSilenced sets the AlertStatus to suppressed and stores the associated silence IDs.
func (m *memMarker) SetSilenced(alert model.Fingerprint, ids ...string) {
	m.mtx.Lock()

	s, found := m.m[alert]
	if !found {
		s = &AlertStatus{}
		m.m[alert] = s
	}

	// If there are any silence or alert IDs associated with the
	// fingerprint, it is suppressed. Otherwise, set it to
	// AlertStateUnprocessed.
	if len(ids) == 0 && len(s.InhibitedBy) == 0 {
		m.mtx.Unlock()
		m.SetActive(alert)
		return
	}

	s.State = AlertStateSuppressed
	s.SilencedBy = ids

	m.mtx.Unlock()
}

// SetInhibited sets the AlertStatus to suppressed and stores the associated alert IDs.
func (m *memMarker) SetInhibited(alert model.Fingerprint, ids ...string) {
	m.mtx.Lock()

	s, found := m.m[alert]
	if !found {
		s = &AlertStatus{}
		m.m[alert] = s
	}

	// If there are any silence or alert IDs associated with the
	// fingerprint, it is suppressed. Otherwise, set it to
	// AlertStateUnprocessed.
	if len(ids) == 0 && len(s.SilencedBy) == 0 {
		m.mtx.Unlock()
		m.SetActive(alert)
		return
	}

	s.State = AlertStateSuppressed
	s.InhibitedBy = ids

	m.mtx.Unlock()
}

func (m *memMarker) SetActive(alert model.Fingerprint) {
	m.mtx.Lock()
	defer m.mtx.Unlock()

	s, found := m.m[alert]
	if !found {
		s = &AlertStatus{
			SilencedBy:  []string{},
			InhibitedBy: []string{},
		}
		m.m[alert] = s
	}

	s.State = AlertStateActive
	s.SilencedBy = []string{}
	s.InhibitedBy = []string{}
}

// Status returns the AlertStatus for the given Fingerprint.
func (m *memMarker) Status(alert model.Fingerprint) AlertStatus {
	m.mtx.RLock()
	defer m.mtx.RUnlock()

	s, found := m.m[alert]
	if !found {
		s = &AlertStatus{
			State:       AlertStateUnprocessed,
			SilencedBy:  []string{},
			InhibitedBy: []string{},
		}
	}
	return *s
}

// Delete deletes the given Fingerprint from the internal cache.
func (m *memMarker) Delete(alert model.Fingerprint) {
	m.mtx.Lock()
	defer m.mtx.Unlock()

	delete(m.m, alert)
}

// Unprocessed returns whether the alert for the given Fingerprint is in the
// Unprocessed state.
func (m *memMarker) Unprocessed(alert model.Fingerprint) bool {
	return m.Status(alert).State == AlertStateUnprocessed
}

// Active returns whether the alert for the given Fingerprint is in the Active
// state.
func (m *memMarker) Active(alert model.Fingerprint) bool {
	return m.Status(alert).State == AlertStateActive
}

// Inhibited returns whether the alert for the given Fingerprint is in the
// Inhibited state and any associated alert IDs.
func (m *memMarker) Inhibited(alert model.Fingerprint) ([]string, bool) {
	s := m.Status(alert)
	return s.InhibitedBy,
		s.State == AlertStateSuppressed && len(s.InhibitedBy) > 0
}

// Silenced returns whether the alert for the given Fingerprint is in the
// Silenced state and any associated silence IDs.
func (m *memMarker) Silenced(alert model.Fingerprint) ([]string, bool) {
	s := m.Status(alert)
	return s.SilencedBy,
		s.State == AlertStateSuppressed && len(s.SilencedBy) > 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
}

// AlertSlice is a sortable slice of Alerts.
type AlertSlice []*Alert

func (as AlertSlice) Less(i, j int) bool {
	// Look at labels.job, then labels.instance.
	for _, overrideKey := range [...]model.LabelName{"job", "instance"} {
		iVal, iOk := as[i].Labels[overrideKey]
		jVal, jOk := as[j].Labels[overrideKey]
		if !iOk && !jOk {
			continue
		}
		if !iOk {
			return false
		}
		if !jOk {
			return true
		}
		if iVal != jVal {
			return iVal < jVal
		}
	}
	return as[i].Labels.Before(as[j].Labels)
}
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.
type Silence struct {
	// A unique identifier across all connected instances.
	ID string `json:"id"`
	// A set of matchers determining if a label set is affect
	// by the silence.
	Matchers Matchers `json:"matchers"`

	// Time range of the silence.
	//
	// * StartsAt must not be before creation time
	// * EndsAt must be after StartsAt
	// * Deleting a silence means to set EndsAt to now
	// * Time range must not be modified in different ways
	//
	// TODO(fabxc): this may potentially be extended by
	// creation and update timestamps.
	StartsAt time.Time `json:"startsAt"`
	EndsAt   time.Time `json:"endsAt"`

	// The last time the silence was updated.
	UpdatedAt time.Time `json:"updatedAt"`

	// Information about who created the silence for which reason.
	CreatedBy string `json:"createdBy"`
	Comment   string `json:"comment,omitempty"`

	// timeFunc provides the time against which to evaluate
	// the silence. Used for test injection.
	now func() time.Time

	Status SilenceStatus `json:"status"`
}

// Expired return if the silence is expired
// meaning that both StartsAt and EndsAt are equal
func (s *Silence) Expired() bool {
	return s.StartsAt.Equal(s.EndsAt)
}

type SilenceStatus struct {
	State SilenceState `json:"state"`
}

type SilenceState string

const (
	SilenceStateExpired SilenceState = "expired"
	SilenceStateActive  SilenceState = "active"
	SilenceStatePending SilenceState = "pending"
)

func CalcSilenceState(start, end time.Time) SilenceState {
	current := time.Now()
	if current.Before(start) {
		return SilenceStatePending
	}
	if current.Before(end) {
		return SilenceStateActive
	}
	return SilenceStateExpired
}