/** * 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. */ // Collection of monitors to create synchronicity package realis import ( "time" "github.com/paypal/gorealis/gen-go/apache/aurora" "github.com/paypal/gorealis/response" "github.com/pkg/errors" ) type Monitor struct { Client Realis } // Polls the scheduler every certain amount of time to see if the update has succeeded func (m *Monitor) JobUpdate(updateKey aurora.JobUpdateKey, interval int, timeout int) (bool, error) { status, err := m.JobUpdateStatus(updateKey, map[aurora.JobUpdateStatus]bool{ aurora.JobUpdateStatus_ROLLED_FORWARD: true, aurora.JobUpdateStatus_ROLLED_BACK: true, aurora.JobUpdateStatus_ABORTED: true, aurora.JobUpdateStatus_ERROR: true, aurora.JobUpdateStatus_FAILED: true, }, time.Duration(interval)*time.Second, time.Duration(timeout)*time.Second) if err != nil { return false, err } m.Client.RealisConfig().logger.Printf("job update status: %v\n", status) // Rolled forward is the only state in which an update has been successfully updated // if we encounter an inactive state and it is not at rolled forward, update failed switch status { case aurora.JobUpdateStatus_ROLLED_FORWARD: return true, nil case aurora.JobUpdateStatus_ROLLED_BACK, aurora.JobUpdateStatus_ABORTED, aurora.JobUpdateStatus_ERROR, aurora.JobUpdateStatus_FAILED: return false, errors.Errorf("bad terminal state for update: %v", status) default: return false, errors.Errorf("unexpected update state: %v", status) } } func (m *Monitor) JobUpdateStatus(updateKey aurora.JobUpdateKey, desiredStatuses map[aurora.JobUpdateStatus]bool, interval time.Duration, timeout time.Duration) (aurora.JobUpdateStatus, error) { updateQ := aurora.JobUpdateQuery{ Key: &updateKey, Limit: 1, } ticker := time.NewTicker(interval) defer ticker.Stop() timer := time.NewTimer(timeout) defer timer.Stop() var cliErr error var respDetail *aurora.Response for { select { case <-ticker.C: respDetail, cliErr = m.Client.JobUpdateDetails(updateQ) if cliErr != nil { return aurora.JobUpdateStatus(-1), cliErr } updateDetail := response.JobUpdateDetails(respDetail) if len(updateDetail) == 0 { m.Client.RealisConfig().logger.Println("No update found") return aurora.JobUpdateStatus(-1), errors.New("No update found for " + updateKey.String()) } status := updateDetail[0].Update.Summary.State.Status if _, ok := desiredStatuses[status]; ok { return status, nil } case <-timer.C: return aurora.JobUpdateStatus(-1), newTimedoutError(errors.New("job update monitor timed out")) } } } // Monitor a Job until all instances enter one of the LIVE_STATES func (m *Monitor) Instances(key *aurora.JobKey, instances int32, interval, timeout int) (bool, error) { return m.ScheduleStatus(key, instances, LiveStates, interval, timeout) } // Monitor a Job until all instances enter a desired status. // Defaults sets of desired statuses provided by the thrift API include: // ACTIVE_STATES, SLAVE_ASSIGNED_STATES, LIVE_STATES, and TERMINAL_STATES func (m *Monitor) ScheduleStatus(key *aurora.JobKey, instanceCount int32, desiredStatuses map[aurora.ScheduleStatus]bool, interval, timeout int) (bool, error) { ticker := time.NewTicker(time.Second * time.Duration(interval)) defer ticker.Stop() timer := time.NewTimer(time.Second * time.Duration(timeout)) defer timer.Stop() wantedStatuses := make([]aurora.ScheduleStatus, 0) for status := range desiredStatuses { wantedStatuses = append(wantedStatuses, status) } for { select { case <-ticker.C: // Query Aurora for the state of the job key ever interval instCount, cliErr := m.Client.GetInstanceIds(key, wantedStatuses) if cliErr != nil { return false, errors.Wrap(cliErr, "Unable to communicate with Aurora") } if len(instCount) == int(instanceCount) { return true, nil } case <-timer.C: // If the timer runs out, return a timeout error to user return false, newTimedoutError(errors.New("schedule status monitor timed out")) } } } // Monitor host status until all hosts match the status provided. Returns a map where the value is true if the host // is in one of the desired mode(s) or false if it is not as of the time when the monitor exited. func (m *Monitor) HostMaintenance(hosts []string, modes []aurora.MaintenanceMode, interval, timeout int) (map[string]bool, error) { // Transform modes to monitor for into a set for easy lookup desiredMode := make(map[aurora.MaintenanceMode]struct{}) for _, mode := range modes { desiredMode[mode] = struct{}{} } // Turn slice into a host set to eliminate duplicates. // We also can't use a simple count because multiple modes means we can have multiple matches for a single host. // I.e. host A transitions from ACTIVE to DRAINING to DRAINED while monitored remainingHosts := make(map[string]struct{}) for _, host := range hosts { remainingHosts[host] = struct{}{} } hostResult := make(map[string]bool) ticker := time.NewTicker(time.Second * time.Duration(interval)) defer ticker.Stop() timer := time.NewTimer(time.Second * time.Duration(timeout)) defer timer.Stop() for { select { case <-ticker.C: // Client call has multiple retries internally _, result, err := m.Client.MaintenanceStatus(hosts...) if err != nil { // Error is either a payload error or a severe connection error for host := range remainingHosts { hostResult[host] = false } return hostResult, errors.Wrap(err, "client error in monitor") } for _, status := range result.GetStatuses() { if _, ok := desiredMode[status.GetMode()]; ok { hostResult[status.GetHost()] = true delete(remainingHosts, status.GetHost()) if len(remainingHosts) == 0 { return hostResult, nil } } } case <-timer.C: for host := range remainingHosts { hostResult[host] = false } return hostResult, newTimedoutError(errors.New("host maintenance monitor timed out")) } } }