package sql import ( "database/sql" "errors" "fmt" "log" "strconv" "strings" "time" "github.com/TwiN/gatus/v4/core" "github.com/TwiN/gatus/v4/storage/store/common" "github.com/TwiN/gatus/v4/storage/store/common/paging" "github.com/TwiN/gatus/v4/util" _ "github.com/lib/pq" _ "modernc.org/sqlite" ) ////////////////////////////////////////////////////////////////////////////////////////////////// // Note that only exported functions in this file may create, commit, or rollback a transaction // ////////////////////////////////////////////////////////////////////////////////////////////////// const ( // arraySeparator is the separator used to separate multiple strings in a single column. // It's a dirty hack, but it's only used for persisting errors, and since this data will likely only ever be used // for aesthetic purposes, I deemed it wasn't worth the performance impact of yet another one-to-many table. arraySeparator = "|~|" uptimeCleanUpThreshold = 10 * 24 * time.Hour // Maximum uptime age before triggering a clean up eventsCleanUpThreshold = common.MaximumNumberOfEvents + 10 // Maximum number of events before triggering a clean up resultsCleanUpThreshold = common.MaximumNumberOfResults + 10 // Maximum number of results before triggering a clean up uptimeRetention = 7 * 24 * time.Hour ) var ( // ErrPathNotSpecified is the error returned when the path parameter passed in NewStore is blank ErrPathNotSpecified = errors.New("path cannot be empty") // ErrDatabaseDriverNotSpecified is the error returned when the driver parameter passed in NewStore is blank ErrDatabaseDriverNotSpecified = errors.New("database driver cannot be empty") errNoRowsReturned = errors.New("expected a row to be returned, but none was") ) // Store that leverages a database type Store struct { driver, path string db *sql.DB } // NewStore initializes the database and creates the schema if it doesn't already exist in the path specified func NewStore(driver, path string) (*Store, error) { if len(driver) == 0 { return nil, ErrDatabaseDriverNotSpecified } if len(path) == 0 { return nil, ErrPathNotSpecified } store := &Store{driver: driver, path: path} var err error if store.db, err = sql.Open(driver, path); err != nil { return nil, err } if err := store.db.Ping(); err != nil { return nil, err } if driver == "sqlite" { _, _ = store.db.Exec("PRAGMA foreign_keys=ON") _, _ = store.db.Exec("PRAGMA journal_mode=WAL") _, _ = store.db.Exec("PRAGMA synchronous=NORMAL") // Prevents driver from running into "database is locked" errors // This is because we're using WAL to improve performance store.db.SetMaxOpenConns(1) } if err = store.createSchema(); err != nil { _ = store.db.Close() return nil, err } return store, nil } // createSchema creates the schema required to perform all database operations. func (s *Store) createSchema() error { if s.driver == "sqlite" { return s.createSQLiteSchema() } return s.createPostgresSchema() } // 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) { tx, err := s.db.Begin() if err != nil { return nil, err } keys, err := s.getAllEndpointKeys(tx) if err != nil { _ = tx.Rollback() return nil, err } endpointStatuses := make([]*core.EndpointStatus, 0, len(keys)) for _, key := range keys { endpointStatus, err := s.getEndpointStatusByKey(tx, key, params) if err != nil { continue } endpointStatuses = append(endpointStatuses, endpointStatus) } if err = tx.Commit(); err != nil { _ = tx.Rollback() } return endpointStatuses, err } // 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) { tx, err := s.db.Begin() if err != nil { return nil, err } endpointStatus, err := s.getEndpointStatusByKey(tx, key, params) if err != nil { _ = tx.Rollback() return nil, err } if err = tx.Commit(); err != nil { _ = tx.Rollback() } return endpointStatus, err } // 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 } tx, err := s.db.Begin() if err != nil { return 0, err } endpointID, _, _, err := s.getEndpointIDGroupAndNameByKey(tx, key) if err != nil { _ = tx.Rollback() return 0, err } uptime, _, err := s.getEndpointUptime(tx, endpointID, from, to) if err != nil { _ = tx.Rollback() return 0, err } if err = tx.Commit(); err != nil { _ = tx.Rollback() } return uptime, 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 } tx, err := s.db.Begin() if err != nil { return 0, err } endpointID, _, _, err := s.getEndpointIDGroupAndNameByKey(tx, key) if err != nil { _ = tx.Rollback() return 0, err } averageResponseTime, err := s.getEndpointAverageResponseTime(tx, endpointID, from, to) if err != nil { _ = tx.Rollback() return 0, err } if err = tx.Commit(); err != nil { _ = tx.Rollback() } return averageResponseTime, 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 } tx, err := s.db.Begin() if err != nil { return nil, err } endpointID, _, _, err := s.getEndpointIDGroupAndNameByKey(tx, key) if err != nil { _ = tx.Rollback() return nil, err } hourlyAverageResponseTimes, err := s.getEndpointHourlyAverageResponseTimes(tx, endpointID, from, to) if err != nil { _ = tx.Rollback() return nil, err } if err = tx.Commit(); err != nil { _ = tx.Rollback() } 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 { tx, err := s.db.Begin() if err != nil { return err } endpointID, err := s.getEndpointID(tx, endpoint) if err != nil { if err == common.ErrEndpointNotFound { // Endpoint doesn't exist in the database, insert it if endpointID, err = s.insertEndpoint(tx, endpoint); err != nil { _ = tx.Rollback() log.Printf("[sql][Insert] Failed to create endpoint with group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) return err } } else { _ = tx.Rollback() log.Printf("[sql][Insert] Failed to retrieve id of endpoint with group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) return err } } // First, we need to check if we need to insert a new event. // // A new event must be added if either of the following cases happen: // 1. There is only 1 event. The total number of events for a endpoint can only be 1 if the only existing event is // of type EventStart, in which case we will have to create a new event of type EventHealthy or EventUnhealthy // based on result.Success. // 2. The lastResult.Success != result.Success. This implies that the endpoint went from healthy to unhealthy or // vice-versa, in which case we will have to create a new event of type EventHealthy or EventUnhealthy // based on result.Success. numberOfEvents, err := s.getNumberOfEventsByEndpointID(tx, endpointID) if err != nil { // Silently fail log.Printf("[sql][Insert] Failed to retrieve total number of events for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } if numberOfEvents == 0 { // There's no events yet, which means we need to add the EventStart and the first healthy/unhealthy event err = s.insertEndpointEvent(tx, endpointID, &core.Event{ Type: core.EventStart, Timestamp: result.Timestamp.Add(-50 * time.Millisecond), }) if err != nil { // Silently fail log.Printf("[sql][Insert] Failed to insert event=%s for group=%s; endpoint=%s: %s", core.EventStart, endpoint.Group, endpoint.Name, err.Error()) } event := core.NewEventFromResult(result) if err = s.insertEndpointEvent(tx, endpointID, event); err != nil { // Silently fail log.Printf("[sql][Insert] Failed to insert event=%s for group=%s; endpoint=%s: %s", event.Type, endpoint.Group, endpoint.Name, err.Error()) } } else { // Get the success value of the previous result var lastResultSuccess bool if lastResultSuccess, err = s.getLastEndpointResultSuccessValue(tx, endpointID); err != nil { log.Printf("[sql][Insert] Failed to retrieve outcome of previous result for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } else { // If we managed to retrieve the outcome of the previous result, we'll compare it with the new result. // If the final outcome (success or failure) of the previous and the new result aren't the same, it means // that the endpoint either went from Healthy to Unhealthy or Unhealthy -> Healthy, therefore, we'll add // an event to mark the change in state if lastResultSuccess != result.Success { event := core.NewEventFromResult(result) if err = s.insertEndpointEvent(tx, endpointID, event); err != nil { // Silently fail log.Printf("[sql][Insert] Failed to insert event=%s for group=%s; endpoint=%s: %s", event.Type, endpoint.Group, endpoint.Name, err.Error()) } } } // Clean up old events if there's more than twice the maximum number of events // This lets us both keep the table clean without impacting performance too much // (since we're only deleting MaximumNumberOfEvents at a time instead of 1) if numberOfEvents > eventsCleanUpThreshold { if err = s.deleteOldEndpointEvents(tx, endpointID); err != nil { log.Printf("[sql][Insert] Failed to delete old events for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } } } // Second, we need to insert the result. if err = s.insertEndpointResult(tx, endpointID, result); err != nil { log.Printf("[sql][Insert] Failed to insert result for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) _ = tx.Rollback() // If we can't insert the result, we'll rollback now since there's no point continuing return err } // Clean up old results numberOfResults, err := s.getNumberOfResultsByEndpointID(tx, endpointID) if err != nil { log.Printf("[sql][Insert] Failed to retrieve total number of results for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } else { if numberOfResults > resultsCleanUpThreshold { if err = s.deleteOldEndpointResults(tx, endpointID); err != nil { log.Printf("[sql][Insert] Failed to delete old results for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } } } // Finally, we need to insert the uptime data. // Because the uptime data significantly outlives the results, we can't rely on the results for determining the uptime if err = s.updateEndpointUptime(tx, endpointID, result); err != nil { log.Printf("[sql][Insert] Failed to update uptime for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } // Clean up old uptime entries ageOfOldestUptimeEntry, err := s.getAgeOfOldestEndpointUptimeEntry(tx, endpointID) if err != nil { log.Printf("[sql][Insert] Failed to retrieve oldest endpoint uptime entry for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } else { if ageOfOldestUptimeEntry > uptimeCleanUpThreshold { if err = s.deleteOldUptimeEntries(tx, endpointID, time.Now().Add(-(uptimeRetention + time.Hour))); err != nil { log.Printf("[sql][Insert] Failed to delete old uptime entries for group=%s; endpoint=%s: %s", endpoint.Group, endpoint.Name, err.Error()) } } } if err = tx.Commit(); err != nil { _ = tx.Rollback() } return err } // DeleteAllEndpointStatusesNotInKeys removes all rows owned by an endpoint whose key is not within the keys provided func (s *Store) DeleteAllEndpointStatusesNotInKeys(keys []string) int { var err error var result sql.Result if len(keys) == 0 { // Delete everything result, err = s.db.Exec("DELETE FROM endpoints") } else { args := make([]interface{}, 0, len(keys)) query := "DELETE FROM endpoints WHERE endpoint_key NOT IN (" for i := range keys { query += fmt.Sprintf("$%d,", i+1) args = append(args, keys[i]) } query = query[:len(query)-1] + ")" // Remove the last comma and add the closing parenthesis result, err = s.db.Exec(query, args...) } if err != nil { log.Printf("[sql][DeleteAllEndpointStatusesNotInKeys] Failed to delete rows that do not belong to any of keys=%v: %s", keys, err.Error()) return 0 } rowsAffects, _ := result.RowsAffected() return int(rowsAffects) } // Clear deletes everything from the store func (s *Store) Clear() { _, _ = s.db.Exec("DELETE FROM endpoints") } // Save does nothing, because this store is immediately persistent. func (s *Store) Save() error { return nil } // Close the database handle func (s *Store) Close() { _ = s.db.Close() } // insertEndpoint inserts an endpoint in the store and returns the generated id of said endpoint func (s *Store) insertEndpoint(tx *sql.Tx, endpoint *core.Endpoint) (int64, error) { //log.Printf("[sql][insertEndpoint] Inserting endpoint with group=%s and name=%s", endpoint.Group, endpoint.Name) var id int64 err := tx.QueryRow( "INSERT INTO endpoints (endpoint_key, endpoint_name, endpoint_group) VALUES ($1, $2, $3) RETURNING endpoint_id", endpoint.Key(), endpoint.Name, endpoint.Group, ).Scan(&id) if err != nil { return 0, err } return id, nil } // insertEndpointEvent inserts en event in the store func (s *Store) insertEndpointEvent(tx *sql.Tx, endpointID int64, event *core.Event) error { _, err := tx.Exec( "INSERT INTO endpoint_events (endpoint_id, event_type, event_timestamp) VALUES ($1, $2, $3)", endpointID, event.Type, event.Timestamp.UTC(), ) if err != nil { return err } return nil } // insertEndpointResult inserts a result in the store func (s *Store) insertEndpointResult(tx *sql.Tx, endpointID int64, result *core.Result) error { var endpointResultID int64 err := tx.QueryRow( ` INSERT INTO endpoint_results (endpoint_id, success, errors, connected, status, dns_rcode, certificate_expiration, hostname, ip, duration, timestamp) VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10, $11) RETURNING endpoint_result_id `, endpointID, result.Success, strings.Join(result.Errors, arraySeparator), result.Connected, result.HTTPStatus, result.DNSRCode, result.CertificateExpiration, result.Hostname, result.IP, result.Duration, result.Timestamp.UTC(), ).Scan(&endpointResultID) if err != nil { return err } return s.insertConditionResults(tx, endpointResultID, result.ConditionResults) } func (s *Store) insertConditionResults(tx *sql.Tx, endpointResultID int64, conditionResults []*core.ConditionResult) error { var err error for _, cr := range conditionResults { _, err = tx.Exec("INSERT INTO endpoint_result_conditions (endpoint_result_id, condition, success) VALUES ($1, $2, $3)", endpointResultID, cr.Condition, cr.Success, ) if err != nil { return err } } return nil } func (s *Store) updateEndpointUptime(tx *sql.Tx, endpointID int64, result *core.Result) error { unixTimestampFlooredAtHour := result.Timestamp.Truncate(time.Hour).Unix() var successfulExecutions int if result.Success { successfulExecutions = 1 } _, err := tx.Exec( ` INSERT INTO endpoint_uptimes (endpoint_id, hour_unix_timestamp, total_executions, successful_executions, total_response_time) VALUES ($1, $2, $3, $4, $5) ON CONFLICT(endpoint_id, hour_unix_timestamp) DO UPDATE SET total_executions = excluded.total_executions + endpoint_uptimes.total_executions, successful_executions = excluded.successful_executions + endpoint_uptimes.successful_executions, total_response_time = excluded.total_response_time + endpoint_uptimes.total_response_time `, endpointID, unixTimestampFlooredAtHour, 1, successfulExecutions, result.Duration.Milliseconds(), ) return err } func (s *Store) getAllEndpointKeys(tx *sql.Tx) (keys []string, err error) { rows, err := tx.Query("SELECT endpoint_key FROM endpoints ORDER BY endpoint_key") if err != nil { return nil, err } for rows.Next() { var key string _ = rows.Scan(&key) keys = append(keys, key) } return } func (s *Store) getEndpointStatusByKey(tx *sql.Tx, key string, parameters *paging.EndpointStatusParams) (*core.EndpointStatus, error) { endpointID, group, endpointName, err := s.getEndpointIDGroupAndNameByKey(tx, key) if err != nil { return nil, err } endpointStatus := core.NewEndpointStatus(group, endpointName) if parameters.EventsPageSize > 0 { if endpointStatus.Events, err = s.getEndpointEventsByEndpointID(tx, endpointID, parameters.EventsPage, parameters.EventsPageSize); err != nil { log.Printf("[sql][getEndpointStatusByKey] Failed to retrieve events for key=%s: %s", key, err.Error()) } } if parameters.ResultsPageSize > 0 { if endpointStatus.Results, err = s.getEndpointResultsByEndpointID(tx, endpointID, parameters.ResultsPage, parameters.ResultsPageSize); err != nil { log.Printf("[sql][getEndpointStatusByKey] Failed to retrieve results for key=%s: %s", key, err.Error()) } } return endpointStatus, nil } func (s *Store) getEndpointIDGroupAndNameByKey(tx *sql.Tx, key string) (id int64, group, name string, err error) { err = tx.QueryRow( ` SELECT endpoint_id, endpoint_group, endpoint_name FROM endpoints WHERE endpoint_key = $1 LIMIT 1 `, key, ).Scan(&id, &group, &name) if err != nil { if err == sql.ErrNoRows { return 0, "", "", common.ErrEndpointNotFound } return 0, "", "", err } return } func (s *Store) getEndpointEventsByEndpointID(tx *sql.Tx, endpointID int64, page, pageSize int) (events []*core.Event, err error) { rows, err := tx.Query( ` SELECT event_type, event_timestamp FROM endpoint_events WHERE endpoint_id = $1 ORDER BY endpoint_event_id ASC LIMIT $2 OFFSET $3 `, endpointID, pageSize, (page-1)*pageSize, ) if err != nil { return nil, err } for rows.Next() { event := &core.Event{} _ = rows.Scan(&event.Type, &event.Timestamp) events = append(events, event) } return } func (s *Store) getEndpointResultsByEndpointID(tx *sql.Tx, endpointID int64, page, pageSize int) (results []*core.Result, err error) { rows, err := tx.Query( ` SELECT endpoint_result_id, success, errors, connected, status, dns_rcode, certificate_expiration, hostname, ip, duration, timestamp FROM endpoint_results WHERE endpoint_id = $1 ORDER BY endpoint_result_id DESC -- Normally, we'd sort by timestamp, but sorting by endpoint_result_id is faster LIMIT $2 OFFSET $3 `, endpointID, pageSize, (page-1)*pageSize, ) if err != nil { return nil, err } idResultMap := make(map[int64]*core.Result) for rows.Next() { result := &core.Result{} var id int64 var joinedErrors string _ = rows.Scan(&id, &result.Success, &joinedErrors, &result.Connected, &result.HTTPStatus, &result.DNSRCode, &result.CertificateExpiration, &result.Hostname, &result.IP, &result.Duration, &result.Timestamp) if len(joinedErrors) != 0 { result.Errors = strings.Split(joinedErrors, arraySeparator) } // This is faster than using a subselect results = append([]*core.Result{result}, results...) idResultMap[id] = result } if len(idResultMap) == 0 { // If there's no result, we'll just return an empty/nil slice return } // Get condition results args := make([]interface{}, 0, len(idResultMap)) query := `SELECT endpoint_result_id, condition, success FROM endpoint_result_conditions WHERE endpoint_result_id IN (` index := 1 for endpointResultID := range idResultMap { query += "$" + strconv.Itoa(index) + "," args = append(args, endpointResultID) index++ } query = query[:len(query)-1] + ")" rows, err = tx.Query(query, args...) if err != nil { return nil, err } defer rows.Close() // explicitly defer the close in case an error happens during the scan for rows.Next() { conditionResult := &core.ConditionResult{} var endpointResultID int64 if err = rows.Scan(&endpointResultID, &conditionResult.Condition, &conditionResult.Success); err != nil { return } idResultMap[endpointResultID].ConditionResults = append(idResultMap[endpointResultID].ConditionResults, conditionResult) } return } func (s *Store) getEndpointUptime(tx *sql.Tx, endpointID int64, from, to time.Time) (uptime float64, avgResponseTime time.Duration, err error) { rows, err := tx.Query( ` SELECT SUM(total_executions), SUM(successful_executions), SUM(total_response_time) FROM endpoint_uptimes WHERE endpoint_id = $1 AND hour_unix_timestamp >= $2 AND hour_unix_timestamp <= $3 `, endpointID, from.Unix(), to.Unix(), ) if err != nil { return 0, 0, err } var totalExecutions, totalSuccessfulExecutions, totalResponseTime int for rows.Next() { _ = rows.Scan(&totalExecutions, &totalSuccessfulExecutions, &totalResponseTime) } if totalExecutions > 0 { uptime = float64(totalSuccessfulExecutions) / float64(totalExecutions) avgResponseTime = time.Duration(float64(totalResponseTime)/float64(totalExecutions)) * time.Millisecond } return } func (s *Store) getEndpointAverageResponseTime(tx *sql.Tx, endpointID int64, from, to time.Time) (int, error) { rows, err := tx.Query( ` SELECT SUM(total_executions), SUM(total_response_time) FROM endpoint_uptimes WHERE endpoint_id = $1 AND total_executions > 0 AND hour_unix_timestamp >= $2 AND hour_unix_timestamp <= $3 `, endpointID, from.Unix(), to.Unix(), ) if err != nil { return 0, err } var totalExecutions, totalResponseTime int for rows.Next() { _ = rows.Scan(&totalExecutions, &totalResponseTime) } if totalExecutions == 0 { return 0, nil } return int(float64(totalResponseTime) / float64(totalExecutions)), nil } func (s *Store) getEndpointHourlyAverageResponseTimes(tx *sql.Tx, endpointID int64, from, to time.Time) (map[int64]int, error) { rows, err := tx.Query( ` SELECT hour_unix_timestamp, total_executions, total_response_time FROM endpoint_uptimes WHERE endpoint_id = $1 AND total_executions > 0 AND hour_unix_timestamp >= $2 AND hour_unix_timestamp <= $3 `, endpointID, from.Unix(), to.Unix(), ) if err != nil { return nil, err } var totalExecutions, totalResponseTime int var unixTimestampFlooredAtHour int64 hourlyAverageResponseTimes := make(map[int64]int) for rows.Next() { _ = rows.Scan(&unixTimestampFlooredAtHour, &totalExecutions, &totalResponseTime) hourlyAverageResponseTimes[unixTimestampFlooredAtHour] = int(float64(totalResponseTime) / float64(totalExecutions)) } return hourlyAverageResponseTimes, nil } func (s *Store) getEndpointID(tx *sql.Tx, endpoint *core.Endpoint) (int64, error) { var id int64 err := tx.QueryRow("SELECT endpoint_id FROM endpoints WHERE endpoint_key = $1", endpoint.Key()).Scan(&id) if err != nil { if err == sql.ErrNoRows { return 0, common.ErrEndpointNotFound } return 0, err } return id, nil } func (s *Store) getNumberOfEventsByEndpointID(tx *sql.Tx, endpointID int64) (int64, error) { var numberOfEvents int64 err := tx.QueryRow("SELECT COUNT(1) FROM endpoint_events WHERE endpoint_id = $1", endpointID).Scan(&numberOfEvents) return numberOfEvents, err } func (s *Store) getNumberOfResultsByEndpointID(tx *sql.Tx, endpointID int64) (int64, error) { var numberOfResults int64 err := tx.QueryRow("SELECT COUNT(1) FROM endpoint_results WHERE endpoint_id = $1", endpointID).Scan(&numberOfResults) return numberOfResults, err } func (s *Store) getAgeOfOldestEndpointUptimeEntry(tx *sql.Tx, endpointID int64) (time.Duration, error) { rows, err := tx.Query( ` SELECT hour_unix_timestamp FROM endpoint_uptimes WHERE endpoint_id = $1 ORDER BY hour_unix_timestamp LIMIT 1 `, endpointID, ) if err != nil { return 0, err } var oldestEndpointUptimeUnixTimestamp int64 var found bool for rows.Next() { _ = rows.Scan(&oldestEndpointUptimeUnixTimestamp) found = true } if !found { return 0, errNoRowsReturned } return time.Since(time.Unix(oldestEndpointUptimeUnixTimestamp, 0)), nil } func (s *Store) getLastEndpointResultSuccessValue(tx *sql.Tx, endpointID int64) (bool, error) { var success bool err := tx.QueryRow("SELECT success FROM endpoint_results WHERE endpoint_id = $1 ORDER BY endpoint_result_id DESC LIMIT 1", endpointID).Scan(&success) if err != nil { if err == sql.ErrNoRows { return false, errNoRowsReturned } return false, err } return success, nil } // deleteOldEndpointEvents deletes endpoint events that are no longer needed func (s *Store) deleteOldEndpointEvents(tx *sql.Tx, endpointID int64) error { _, err := tx.Exec( ` DELETE FROM endpoint_events WHERE endpoint_id = $1 AND endpoint_event_id NOT IN ( SELECT endpoint_event_id FROM endpoint_events WHERE endpoint_id = $1 ORDER BY endpoint_event_id DESC LIMIT $2 ) `, endpointID, common.MaximumNumberOfEvents, ) return err } // deleteOldEndpointResults deletes endpoint results that are no longer needed func (s *Store) deleteOldEndpointResults(tx *sql.Tx, endpointID int64) error { _, err := tx.Exec( ` DELETE FROM endpoint_results WHERE endpoint_id = $1 AND endpoint_result_id NOT IN ( SELECT endpoint_result_id FROM endpoint_results WHERE endpoint_id = $1 ORDER BY endpoint_result_id DESC LIMIT $2 ) `, endpointID, common.MaximumNumberOfResults, ) return err } func (s *Store) deleteOldUptimeEntries(tx *sql.Tx, endpointID int64, maxAge time.Time) error { _, err := tx.Exec("DELETE FROM endpoint_uptimes WHERE endpoint_id = $1 AND hour_unix_timestamp < $2", endpointID, maxAge.Unix()) return err }