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signoz/pkg/query-service/rules/maintenance.go

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chore: scheduled maintenance query-service impl (#4834)
2024-05-31 17:43:13 +05:30
package rules
import (
"database/sql/driver"
"encoding/json"
"time"
"github.com/pkg/errors"
"go.uber.org/zap"
)
var (
ErrMissingName = errors.New("missing name")
ErrMissingSchedule = errors.New("missing schedule")
ErrMissingTimezone = errors.New("missing timezone")
ErrMissingRepeatType = errors.New("missing repeat type")
ErrMissingDuration = errors.New("missing duration")
)
type PlannedMaintenance struct {
Id int64 `json:"id" db:"id"`
Name string `json:"name" db:"name"`
Description string `json:"description" db:"description"`
Schedule *Schedule `json:"schedule" db:"schedule"`
AlertIds *AlertIds `json:"alertIds" db:"alert_ids"`
CreatedAt time.Time `json:"createdAt" db:"created_at"`
CreatedBy string `json:"createdBy" db:"created_by"`
UpdatedAt time.Time `json:"updatedAt" db:"updated_at"`
UpdatedBy string `json:"updatedBy" db:"updated_by"`
Status string `json:"status"`
Kind string `json:"kind"`
}
type AlertIds []string
func (a *AlertIds) Scan(src interface{}) error {
if data, ok := src.([]byte); ok {
return json.Unmarshal(data, a)
}
return nil
}
func (a *AlertIds) Value() (driver.Value, error) {
return json.Marshal(a)
}
type Schedule struct {
Timezone string `json:"timezone"`
StartTime time.Time `json:"startTime,omitempty"`
EndTime time.Time `json:"endTime,omitempty"`
Recurrence *Recurrence `json:"recurrence"`
}
func (s *Schedule) Scan(src interface{}) error {
if data, ok := src.([]byte); ok {
return json.Unmarshal(data, s)
}
return nil
}
func (s *Schedule) Value() (driver.Value, error) {
return json.Marshal(s)
}
type RepeatType string
const (
RepeatTypeDaily RepeatType = "daily"
RepeatTypeWeekly RepeatType = "weekly"
RepeatTypeMonthly RepeatType = "monthly"
)
type RepeatOn string
const (
RepeatOnSunday RepeatOn = "sunday"
RepeatOnMonday RepeatOn = "monday"
RepeatOnTuesday RepeatOn = "tuesday"
RepeatOnWednesday RepeatOn = "wednesday"
RepeatOnThursday RepeatOn = "thursday"
RepeatOnFriday RepeatOn = "friday"
RepeatOnSaturday RepeatOn = "saturday"
)
fix: handle maintenance windows that cross day boundaries (#7494)
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var RepeatOnAllMap = map[RepeatOn]time.Weekday{
RepeatOnSunday: time.Sunday,
RepeatOnMonday: time.Monday,
RepeatOnTuesday: time.Tuesday,
RepeatOnWednesday: time.Wednesday,
RepeatOnThursday: time.Thursday,
RepeatOnFriday: time.Friday,
RepeatOnSaturday: time.Saturday,
}
chore: scheduled maintenance query-service impl (#4834)
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type Recurrence struct {
StartTime time.Time `json:"startTime"`
EndTime *time.Time `json:"endTime,omitempty"`
Duration Duration `json:"duration"`
RepeatType RepeatType `json:"repeatType"`
RepeatOn []RepeatOn `json:"repeatOn"`
}
func (r *Recurrence) Scan(src interface{}) error {
if data, ok := src.([]byte); ok {
return json.Unmarshal(data, r)
}
return nil
}
func (r *Recurrence) Value() (driver.Value, error) {
return json.Marshal(r)
}
func (s Schedule) MarshalJSON() ([]byte, error) {
loc, err := time.LoadLocation(s.Timezone)
if err != nil {
return nil, err
}
var startTime, endTime time.Time
if !s.StartTime.IsZero() {
startTime = time.Date(s.StartTime.Year(), s.StartTime.Month(), s.StartTime.Day(), s.StartTime.Hour(), s.StartTime.Minute(), s.StartTime.Second(), s.StartTime.Nanosecond(), loc)
}
if !s.EndTime.IsZero() {
endTime = time.Date(s.EndTime.Year(), s.EndTime.Month(), s.EndTime.Day(), s.EndTime.Hour(), s.EndTime.Minute(), s.EndTime.Second(), s.EndTime.Nanosecond(), loc)
}
var recurrence *Recurrence
if s.Recurrence != nil {
recStartTime := time.Date(s.Recurrence.StartTime.Year(), s.Recurrence.StartTime.Month(), s.Recurrence.StartTime.Day(), s.Recurrence.StartTime.Hour(), s.Recurrence.StartTime.Minute(), s.Recurrence.StartTime.Second(), s.Recurrence.StartTime.Nanosecond(), loc)
var recEndTime *time.Time
if s.Recurrence.EndTime != nil {
end := time.Date(s.Recurrence.EndTime.Year(), s.Recurrence.EndTime.Month(), s.Recurrence.EndTime.Day(), s.Recurrence.EndTime.Hour(), s.Recurrence.EndTime.Minute(), s.Recurrence.EndTime.Second(), s.Recurrence.EndTime.Nanosecond(), loc)
recEndTime = &end
}
recurrence = &Recurrence{
StartTime: recStartTime,
EndTime: recEndTime,
Duration: s.Recurrence.Duration,
RepeatType: s.Recurrence.RepeatType,
RepeatOn: s.Recurrence.RepeatOn,
}
}
return json.Marshal(&struct {
Timezone string `json:"timezone"`
StartTime string `json:"startTime"`
EndTime string `json:"endTime"`
Recurrence *Recurrence `json:"recurrence,omitempty"`
}{
Timezone: s.Timezone,
StartTime: startTime.Format(time.RFC3339),
EndTime: endTime.Format(time.RFC3339),
Recurrence: recurrence,
})
}
func (s *Schedule) UnmarshalJSON(data []byte) error {
aux := &struct {
Timezone string `json:"timezone"`
StartTime string `json:"startTime"`
EndTime string `json:"endTime"`
Recurrence *Recurrence `json:"recurrence,omitempty"`
}{}
if err := json.Unmarshal(data, aux); err != nil {
return err
}
loc, err := time.LoadLocation(aux.Timezone)
if err != nil {
return err
}
var startTime time.Time
if aux.StartTime != "" {
startTime, err = time.Parse(time.RFC3339, aux.StartTime)
if err != nil {
return err
}
s.StartTime = time.Date(startTime.Year(), startTime.Month(), startTime.Day(), startTime.Hour(), startTime.Minute(), startTime.Second(), startTime.Nanosecond(), loc)
}
var endTime time.Time
if aux.EndTime != "" {
endTime, err = time.Parse(time.RFC3339, aux.EndTime)
if err != nil {
return err
}
s.EndTime = time.Date(endTime.Year(), endTime.Month(), endTime.Day(), endTime.Hour(), endTime.Minute(), endTime.Second(), endTime.Nanosecond(), loc)
}
s.Timezone = aux.Timezone
if aux.Recurrence != nil {
recStartTime, err := time.Parse(time.RFC3339, aux.Recurrence.StartTime.Format(time.RFC3339))
if err != nil {
return err
}
var recEndTime *time.Time
if aux.Recurrence.EndTime != nil {
end, err := time.Parse(time.RFC3339, aux.Recurrence.EndTime.Format(time.RFC3339))
if err != nil {
return err
}
endConverted := time.Date(end.Year(), end.Month(), end.Day(), end.Hour(), end.Minute(), end.Second(), end.Nanosecond(), loc)
recEndTime = &endConverted
}
s.Recurrence = &Recurrence{
StartTime: time.Date(recStartTime.Year(), recStartTime.Month(), recStartTime.Day(), recStartTime.Hour(), recStartTime.Minute(), recStartTime.Second(), recStartTime.Nanosecond(), loc),
EndTime: recEndTime,
Duration: aux.Recurrence.Duration,
RepeatType: aux.Recurrence.RepeatType,
RepeatOn: aux.Recurrence.RepeatOn,
}
}
return nil
}
func (m *PlannedMaintenance) shouldSkip(ruleID string, now time.Time) bool {
fix: handle maintenance windows that cross day boundaries (#7494)
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// Check if the alert ID is in the maintenance window
chore: scheduled maintenance query-service impl (#4834)
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found := false
if m.AlertIds != nil {
for _, alertID := range *m.AlertIds {
if alertID == ruleID {
found = true
break
}
}
}
// If no alert ids, then skip all alerts
if m.AlertIds == nil || len(*m.AlertIds) == 0 {
found = true
}
fix: handle maintenance windows that cross day boundaries (#7494)
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if !found {
return false
}
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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zap.L().Info("alert found in maintenance", zap.String("alert", ruleID), zap.String("maintenance", m.Name))
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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// If alert is found, we check if it should be skipped based on the schedule
loc, err := time.LoadLocation(m.Schedule.Timezone)
if err != nil {
zap.L().Error("Error loading location", zap.String("timezone", m.Schedule.Timezone), zap.Error(err))
return false
}
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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currentTime := now.In(loc)
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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// fixed schedule
if !m.Schedule.StartTime.IsZero() && !m.Schedule.EndTime.IsZero() {
zap.L().Info("checking fixed schedule",
zap.String("rule", ruleID),
zap.String("maintenance", m.Name),
zap.Time("currentTime", currentTime),
zap.Time("startTime", m.Schedule.StartTime),
zap.Time("endTime", m.Schedule.EndTime))
startTime := m.Schedule.StartTime.In(loc)
endTime := m.Schedule.EndTime.In(loc)
if currentTime.Equal(startTime) || currentTime.Equal(endTime) ||
(currentTime.After(startTime) && currentTime.Before(endTime)) {
return true
chore: scheduled maintenance query-service impl (#4834)
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}
fix: handle maintenance windows that cross day boundaries (#7494)
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}
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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// recurring schedule
if m.Schedule.Recurrence != nil {
start := m.Schedule.Recurrence.StartTime
duration := time.Duration(m.Schedule.Recurrence.Duration)
zap.L().Info("checking recurring schedule base info",
zap.String("rule", ruleID),
zap.String("maintenance", m.Name),
zap.Time("startTime", start),
zap.Duration("duration", duration))
// Make sure the recurrence has started
if currentTime.Before(start.In(loc)) {
zap.L().Info("current time is before recurrence start time",
zap.String("rule", ruleID),
zap.String("maintenance", m.Name))
return false
}
// Check if recurrence has expired
if m.Schedule.Recurrence.EndTime != nil {
endTime := *m.Schedule.Recurrence.EndTime
if !endTime.IsZero() && currentTime.After(endTime.In(loc)) {
zap.L().Info("current time is after recurrence end time",
zap.String("rule", ruleID),
zap.String("maintenance", m.Name))
chore: scheduled maintenance query-service impl (#4834)
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return false
}
fix: handle maintenance windows that cross day boundaries (#7494)
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}
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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switch m.Schedule.Recurrence.RepeatType {
case RepeatTypeDaily:
return m.checkDaily(currentTime, m.Schedule.Recurrence, loc)
case RepeatTypeWeekly:
return m.checkWeekly(currentTime, m.Schedule.Recurrence, loc)
case RepeatTypeMonthly:
return m.checkMonthly(currentTime, m.Schedule.Recurrence, loc)
}
}
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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return false
}
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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// checkDaily rebases the recurrence start to today (or yesterday if needed)
// and returns true if currentTime is within [candidate, candidate+Duration].
func (m *PlannedMaintenance) checkDaily(currentTime time.Time, rec *Recurrence, loc *time.Location) bool {
candidate := time.Date(
currentTime.Year(), currentTime.Month(), currentTime.Day(),
rec.StartTime.Hour(), rec.StartTime.Minute(), 0, 0,
loc,
)
if candidate.After(currentTime) {
candidate = candidate.AddDate(0, 0, -1)
}
return currentTime.Sub(candidate) <= time.Duration(rec.Duration)
}
chore: scheduled maintenance query-service impl (#4834)
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fix: handle maintenance windows that cross day boundaries (#7494)
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// checkWeekly finds the most recent allowed occurrence by rebasing the recurrences
// time-of-day onto the allowed weekday. It does this for each allowed day and returns true
// if the current time falls within the candidate window.
func (m *PlannedMaintenance) checkWeekly(currentTime time.Time, rec *Recurrence, loc *time.Location) bool {
// If no days specified, treat as every day (like daily).
if len(rec.RepeatOn) == 0 {
return m.checkDaily(currentTime, rec, loc)
}
for _, day := range rec.RepeatOn {
allowedDay, ok := RepeatOnAllMap[day]
if !ok {
continue // skip invalid days
}
// Compute the day difference: allowedDay - current weekday.
delta := int(allowedDay) - int(currentTime.Weekday())
// Build a candidate occurrence by rebasing today's date to the allowed weekday.
candidate := time.Date(
currentTime.Year(), currentTime.Month(), currentTime.Day(),
rec.StartTime.Hour(), rec.StartTime.Minute(), 0, 0,
loc,
).AddDate(0, 0, delta)
// If the candidate is in the future, subtract 7 days.
if candidate.After(currentTime) {
candidate = candidate.AddDate(0, 0, -7)
}
if currentTime.Sub(candidate) <= time.Duration(rec.Duration) {
return true
chore: scheduled maintenance query-service impl (#4834)
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}
}
return false
}
fix: handle maintenance windows that cross day boundaries (#7494)
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// checkMonthly rebases the candidate occurrence using the recurrence's day-of-month.
// If the candidate for the current month is in the future, it uses the previous month.
func (m *PlannedMaintenance) checkMonthly(currentTime time.Time, rec *Recurrence, loc *time.Location) bool {
refDay := rec.StartTime.Day()
year, month, _ := currentTime.Date()
lastDay := time.Date(year, month+1, 0, 0, 0, 0, 0, loc).Day()
day := refDay
if refDay > lastDay {
day = lastDay
}
candidate := time.Date(year, month, day,
rec.StartTime.Hour(), rec.StartTime.Minute(), rec.StartTime.Second(), rec.StartTime.Nanosecond(),
loc,
)
if candidate.After(currentTime) {
// Use previous month.
candidate = candidate.AddDate(0, -1, 0)
y, m, _ := candidate.Date()
lastDayPrev := time.Date(y, m+1, 0, 0, 0, 0, 0, loc).Day()
if refDay > lastDayPrev {
candidate = time.Date(y, m, lastDayPrev,
rec.StartTime.Hour(), rec.StartTime.Minute(), rec.StartTime.Second(), rec.StartTime.Nanosecond(),
loc,
)
} else {
candidate = time.Date(y, m, refDay,
rec.StartTime.Hour(), rec.StartTime.Minute(), rec.StartTime.Second(), rec.StartTime.Nanosecond(),
loc,
)
}
}
return currentTime.Sub(candidate) <= time.Duration(rec.Duration)
}
chore: scheduled maintenance query-service impl (#4834)
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func (m *PlannedMaintenance) IsActive(now time.Time) bool {
ruleID := "maintenance"
if m.AlertIds != nil && len(*m.AlertIds) > 0 {
ruleID = (*m.AlertIds)[0]
}
return m.shouldSkip(ruleID, now)
}
func (m *PlannedMaintenance) IsUpcoming() bool {
fix: handle maintenance windows that cross day boundaries (#7494)
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loc, err := time.LoadLocation(m.Schedule.Timezone)
if err != nil {
// handle error appropriately, for example log and return false or fallback to UTC
zap.L().Error("Error loading timezone", zap.String("timezone", m.Schedule.Timezone), zap.Error(err))
return false
}
now := time.Now().In(loc)
chore: scheduled maintenance query-service impl (#4834)
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if !m.Schedule.StartTime.IsZero() && !m.Schedule.EndTime.IsZero() {
return now.Before(m.Schedule.StartTime)
}
if m.Schedule.Recurrence != nil {
return now.Before(m.Schedule.Recurrence.StartTime)
}
return false
}
func (m *PlannedMaintenance) IsRecurring() bool {
return m.Schedule.Recurrence != nil
}
func (m *PlannedMaintenance) Validate() error {
if m.Name == "" {
return ErrMissingName
}
if m.Schedule == nil {
return ErrMissingSchedule
}
if m.Schedule.Timezone == "" {
return ErrMissingTimezone
}
_, err := time.LoadLocation(m.Schedule.Timezone)
if err != nil {
return errors.New("invalid timezone")
}
if !m.Schedule.StartTime.IsZero() && !m.Schedule.EndTime.IsZero() {
if m.Schedule.StartTime.After(m.Schedule.EndTime) {
return errors.New("start time cannot be after end time")
}
}
if m.Schedule.Recurrence != nil {
if m.Schedule.Recurrence.RepeatType == "" {
return ErrMissingRepeatType
}
if m.Schedule.Recurrence.Duration == 0 {
return ErrMissingDuration
}
if m.Schedule.Recurrence.EndTime != nil && m.Schedule.Recurrence.EndTime.Before(m.Schedule.Recurrence.StartTime) {
return errors.New("end time cannot be before start time")
}
}
return nil
}
func (m PlannedMaintenance) MarshalJSON() ([]byte, error) {
now := time.Now().In(time.FixedZone(m.Schedule.Timezone, 0))
var status string
if m.IsActive(now) {
status = "active"
} else if m.IsUpcoming() {
status = "upcoming"
} else {
status = "expired"
}
var kind string
if !m.Schedule.StartTime.IsZero() && !m.Schedule.EndTime.IsZero() && m.Schedule.EndTime.After(m.Schedule.StartTime) {
kind = "fixed"
} else {
kind = "recurring"
}
return json.Marshal(struct {
Id int64 `json:"id" db:"id"`
Name string `json:"name" db:"name"`
Description string `json:"description" db:"description"`
Schedule *Schedule `json:"schedule" db:"schedule"`
AlertIds *AlertIds `json:"alertIds" db:"alert_ids"`
CreatedAt time.Time `json:"createdAt" db:"created_at"`
CreatedBy string `json:"createdBy" db:"created_by"`
UpdatedAt time.Time `json:"updatedAt" db:"updated_at"`
UpdatedBy string `json:"updatedBy" db:"updated_by"`
Status string `json:"status"`
Kind string `json:"kind"`
}{
Id: m.Id,
Name: m.Name,
Description: m.Description,
Schedule: m.Schedule,
AlertIds: m.AlertIds,
CreatedAt: m.CreatedAt,
CreatedBy: m.CreatedBy,
UpdatedAt: m.UpdatedAt,
UpdatedBy: m.UpdatedBy,
Status: status,
Kind: kind,
})
}
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