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twin-gatus/storage/store/memory/memory.go

200 lines
6.7 KiB
Go

package memory
import (
"encoding/gob"
"sort"
"sync"
"time"
"github.com/TwiN/gatus/v3/core"
"github.com/TwiN/gatus/v3/storage/store/common"
"github.com/TwiN/gatus/v3/storage/store/common/paging"
"github.com/TwiN/gatus/v3/util"
"github.com/TwiN/gocache/v2"
)
func init() {
gob.Register(&core.EndpointStatus{})
gob.Register(&core.HourlyUptimeStatistics{})
gob.Register(&core.Uptime{})
gob.Register(&core.Result{})
gob.Register(&core.Event{})
}
// Store that leverages gocache
type Store struct {
sync.RWMutex
cache *gocache.Cache
}
// NewStore creates a new store using gocache.Cache
//
// This store holds everything in memory, and if the file parameter is not blank,
// supports eventual persistence.
func NewStore(file string) (*Store, error) {
store := &Store{
cache: gocache.NewCache().WithMaxSize(gocache.NoMaxSize),
}
return store, nil
}
// GetAllEndpointStatuses returns all monitored core.EndpointStatus
// with a subset of core.Result defined by the page and pageSize parameters
func (s *Store) GetAllEndpointStatuses(params *paging.EndpointStatusParams) ([]*core.EndpointStatus, error) {
endpointStatuses := s.cache.GetAll()
pagedEndpointStatuses := make([]*core.EndpointStatus, 0, len(endpointStatuses))
for _, v := range endpointStatuses {
pagedEndpointStatuses = append(pagedEndpointStatuses, ShallowCopyEndpointStatus(v.(*core.EndpointStatus), params))
}
sort.Slice(pagedEndpointStatuses, func(i, j int) bool {
return pagedEndpointStatuses[i].Key < pagedEndpointStatuses[j].Key
})
return pagedEndpointStatuses, nil
}
// GetEndpointStatus returns the endpoint status for a given endpoint name in the given group
func (s *Store) GetEndpointStatus(groupName, endpointName string, params *paging.EndpointStatusParams) (*core.EndpointStatus, error) {
return s.GetEndpointStatusByKey(util.ConvertGroupAndEndpointNameToKey(groupName, endpointName), params)
}
// GetEndpointStatusByKey returns the endpoint status for a given key
func (s *Store) GetEndpointStatusByKey(key string, params *paging.EndpointStatusParams) (*core.EndpointStatus, error) {
endpointStatus := s.cache.GetValue(key)
if endpointStatus == nil {
return nil, common.ErrEndpointNotFound
}
return ShallowCopyEndpointStatus(endpointStatus.(*core.EndpointStatus), params), nil
}
// GetUptimeByKey returns the uptime percentage during a time range
func (s *Store) GetUptimeByKey(key string, from, to time.Time) (float64, error) {
if from.After(to) {
return 0, common.ErrInvalidTimeRange
}
endpointStatus := s.cache.GetValue(key)
if endpointStatus == nil || endpointStatus.(*core.EndpointStatus).Uptime == nil {
return 0, common.ErrEndpointNotFound
}
successfulExecutions := uint64(0)
totalExecutions := uint64(0)
current := from
for to.Sub(current) >= 0 {
hourlyUnixTimestamp := current.Truncate(time.Hour).Unix()
hourlyStats := endpointStatus.(*core.EndpointStatus).Uptime.HourlyStatistics[hourlyUnixTimestamp]
if hourlyStats == nil || hourlyStats.TotalExecutions == 0 {
current = current.Add(time.Hour)
continue
}
successfulExecutions += hourlyStats.SuccessfulExecutions
totalExecutions += hourlyStats.TotalExecutions
current = current.Add(time.Hour)
}
if totalExecutions == 0 {
return 0, nil
}
return float64(successfulExecutions) / float64(totalExecutions), nil
}
// GetAverageResponseTimeByKey returns the average response time in milliseconds (value) during a time range
func (s *Store) GetAverageResponseTimeByKey(key string, from, to time.Time) (int, error) {
if from.After(to) {
return 0, common.ErrInvalidTimeRange
}
endpointStatus := s.cache.GetValue(key)
if endpointStatus == nil || endpointStatus.(*core.EndpointStatus).Uptime == nil {
return 0, common.ErrEndpointNotFound
}
current := from
var totalExecutions, totalResponseTime uint64
for to.Sub(current) >= 0 {
hourlyUnixTimestamp := current.Truncate(time.Hour).Unix()
hourlyStats := endpointStatus.(*core.EndpointStatus).Uptime.HourlyStatistics[hourlyUnixTimestamp]
if hourlyStats == nil || hourlyStats.TotalExecutions == 0 {
current = current.Add(time.Hour)
continue
}
totalExecutions += hourlyStats.TotalExecutions
totalResponseTime += hourlyStats.TotalExecutionsResponseTime
current = current.Add(time.Hour)
}
if totalExecutions == 0 {
return 0, nil
}
return int(float64(totalResponseTime) / float64(totalExecutions)), nil
}
// GetHourlyAverageResponseTimeByKey returns a map of hourly (key) average response time in milliseconds (value) during a time range
func (s *Store) GetHourlyAverageResponseTimeByKey(key string, from, to time.Time) (map[int64]int, error) {
if from.After(to) {
return nil, common.ErrInvalidTimeRange
}
endpointStatus := s.cache.GetValue(key)
if endpointStatus == nil || endpointStatus.(*core.EndpointStatus).Uptime == nil {
return nil, common.ErrEndpointNotFound
}
hourlyAverageResponseTimes := make(map[int64]int)
current := from
for to.Sub(current) >= 0 {
hourlyUnixTimestamp := current.Truncate(time.Hour).Unix()
hourlyStats := endpointStatus.(*core.EndpointStatus).Uptime.HourlyStatistics[hourlyUnixTimestamp]
if hourlyStats == nil || hourlyStats.TotalExecutions == 0 {
current = current.Add(time.Hour)
continue
}
hourlyAverageResponseTimes[hourlyUnixTimestamp] = int(float64(hourlyStats.TotalExecutionsResponseTime) / float64(hourlyStats.TotalExecutions))
current = current.Add(time.Hour)
}
return hourlyAverageResponseTimes, nil
}
// Insert adds the observed result for the specified endpoint into the store
func (s *Store) Insert(endpoint *core.Endpoint, result *core.Result) error {
key := endpoint.Key()
s.Lock()
status, exists := s.cache.Get(key)
if !exists {
status = core.NewEndpointStatus(endpoint.Group, endpoint.Name)
status.(*core.EndpointStatus).Events = append(status.(*core.EndpointStatus).Events, &core.Event{
Type: core.EventStart,
Timestamp: time.Now(),
})
}
AddResult(status.(*core.EndpointStatus), result)
s.cache.Set(key, status)
s.Unlock()
return nil
}
// DeleteAllEndpointStatusesNotInKeys removes all EndpointStatus that are not within the keys provided
func (s *Store) DeleteAllEndpointStatusesNotInKeys(keys []string) int {
var keysToDelete []string
for _, existingKey := range s.cache.GetKeysByPattern("*", 0) {
shouldDelete := true
for _, key := range keys {
if existingKey == key {
shouldDelete = false
break
}
}
if shouldDelete {
keysToDelete = append(keysToDelete, existingKey)
}
}
return s.cache.DeleteAll(keysToDelete)
}
// Clear deletes everything from the store
func (s *Store) Clear() {
s.cache.Clear()
}
// Save persists the cache to the store file
func (s *Store) Save() error {
return nil
}
// Close does nothing, because there's nothing to close
func (s *Store) Close() {
return
}