// GetCandidateSiblingOfIntermediateMaster chooses the best sibling of a dead intermediate master
// to whom the IM's slaves can be moved.
func GetCandidateSiblingOfIntermediateMaster(intermediateMasterInstance *inst.Instance) (*inst.Instance, error) {

	siblings, err := inst.ReadSlaveInstances(&intermediateMasterInstance.MasterKey)
	if err != nil {
		return nil, err
	}
	if len(siblings) <= 1 {
		return nil, log.Errorf("topology_recovery: no siblings found for %+v", intermediateMasterInstance.Key)
	}

	sort.Sort(sort.Reverse(InstancesByCountSlaves(siblings)))

	// In the next series of steps we attempt to return a good replacement.
	// None of the below attempts is sure to pick a winning server. Perhaps picked server is not enough up-todate -- but
	// this has small likelihood in the general case, and, well, it's an attempt. It's a Plan A, but we have Plan B & C if this fails.

	// At first, we try to return an "is_candidate" server in same dc & env
	log.Infof("topology_recovery: searching for the best candidate sibling of dead intermediate master")
	for _, sibling := range siblings {
		sibling := sibling
		if isValidAsCandidateSiblingOfIntermediateMaster(intermediateMasterInstance, sibling) &&
			sibling.IsCandidate &&
			sibling.DataCenter == intermediateMasterInstance.DataCenter &&
			sibling.PhysicalEnvironment == intermediateMasterInstance.PhysicalEnvironment {
			log.Infof("topology_recovery: found %+v as the ideal candidate", sibling.Key)
			return sibling, nil
		}
	}
	// Go for something else in the same DC & ENV
	for _, sibling := range siblings {
		sibling := sibling
		if isValidAsCandidateSiblingOfIntermediateMaster(intermediateMasterInstance, sibling) &&
			sibling.DataCenter == intermediateMasterInstance.DataCenter &&
			sibling.PhysicalEnvironment == intermediateMasterInstance.PhysicalEnvironment {
			log.Infof("topology_recovery: found %+v as a replacement in same dc & environment", sibling.Key)
			return sibling, nil
		}
	}
	// Nothing in same DC & env, let's just go for some is_candidate
	for _, sibling := range siblings {
		sibling := sibling
		if isValidAsCandidateSiblingOfIntermediateMaster(intermediateMasterInstance, sibling) && sibling.IsCandidate {
			log.Infof("topology_recovery: found %+v as a good candidate", sibling.Key)
			return sibling, nil
		}
	}
	// Havent found an "is_candidate". Just whatever is valid.
	for _, sibling := range siblings {
		sibling := sibling
		if isValidAsCandidateSiblingOfIntermediateMaster(intermediateMasterInstance, sibling) {
			log.Infof("topology_recovery: found %+v as a replacement", sibling.Key)
			return sibling, nil
		}
	}
	return nil, log.Errorf("topology_recovery: cannot find candidate sibling of %+v", intermediateMasterInstance.Key)
}
// StopSlave stops replication on a given instance
func StopSlave(instanceKey *InstanceKey) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if !instance.IsSlave() {
		return instance, fmt.Errorf("instance is not a slave: %+v", instanceKey)
	}
	_, err = ExecInstanceNoPrepare(instanceKey, `stop slave`)
	if err != nil {
		// Patch; current MaxScale behavior for STOP SLAVE is to throw an error if slave already stopped.
		if instance.isMaxScale() && err.Error() == "Error 1199: Slave connection is not running" {
			err = nil
		}
	}
	if err != nil {

		return instance, log.Errore(err)
	}
	instance, err = ReadTopologyInstance(instanceKey)

	log.Infof("Stopped slave on %+v, Self:%+v, Exec:%+v", *instanceKey, instance.SelfBinlogCoordinates, instance.ExecBinlogCoordinates)
	return instance, err
}
// ResetSlave resets a slave, breaking the replication
func ResetSlave(instanceKey *InstanceKey) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if instance.SlaveRunning() {
		return instance, fmt.Errorf("Cannot reset slave on: %+v because slave is running", instanceKey)
	}

	if *config.RuntimeCLIFlags.Noop {
		return instance, fmt.Errorf("noop: aborting reset-slave operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	// MySQL's RESET SLAVE is done correctly; however SHOW SLAVE STATUS still returns old hostnames etc
	// and only resets till after next restart. This leads to orchestrator still thinking the instance replicates
	// from old host. We therefore forcibly modify the hostname.
	// RESET SLAVE ALL command solves this, but only as of 5.6.3
	_, err = ExecInstanceNoPrepare(instanceKey, `change master to master_host='_'`)
	if err != nil {
		return instance, log.Errore(err)
	}
	_, err = ExecInstanceNoPrepare(instanceKey, `reset slave /*!50603 all */`)
	if err != nil {
		return instance, log.Errore(err)
	}
	log.Infof("Reset slave %+v", instanceKey)

	instance, err = ReadTopologyInstance(instanceKey)
	return instance, err
}
// DetachSlave detaches a slave from replication; forcibly corrupting the binlog coordinates (though in such way
// that is reversible)
func DetachSlave(instanceKey *InstanceKey) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if instance.SlaveRunning() {
		return instance, fmt.Errorf("Cannot detach slave on: %+v because slave is running", instanceKey)
	}

	isDetached, _, _ := instance.ExecBinlogCoordinates.DetachedCoordinates()

	if isDetached {
		return instance, fmt.Errorf("Cannot (need not) detach slave on: %+v because slave is already detached", instanceKey)
	}

	if *config.RuntimeCLIFlags.Noop {
		return instance, fmt.Errorf("noop: aborting detach-slave operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	detachedCoordinates := BinlogCoordinates{LogFile: fmt.Sprintf("//%s:%d", instance.ExecBinlogCoordinates.LogFile, instance.ExecBinlogCoordinates.LogPos), LogPos: instance.ExecBinlogCoordinates.LogPos}
	// Encode the current coordinates within the log file name, in such way that replication is broken, but info can still be resurrected
	_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf(`change master to master_log_file='%s', master_log_pos=%d`, detachedCoordinates.LogFile, detachedCoordinates.LogPos))
	if err != nil {
		return instance, log.Errore(err)
	}

	log.Infof("Detach slave %+v", instanceKey)

	instance, err = ReadTopologyInstance(instanceKey)
	return instance, err
}
// ReattachSlave restores a detached slave back into replication
func ReattachSlave(instanceKey *InstanceKey) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if instance.SlaveRunning() {
		return instance, fmt.Errorf("Cannot (need not) reattach slave on: %+v because slave is running", instanceKey)
	}

	isDetached, detachedLogFile, detachedLogPos := instance.ExecBinlogCoordinates.DetachedCoordinates()

	if !isDetached {
		return instance, fmt.Errorf("Cannot reattach slave on: %+v because slave is not detached", instanceKey)
	}

	if *config.RuntimeCLIFlags.Noop {
		return instance, fmt.Errorf("noop: aborting reattach-slave operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf(`change master to master_log_file='%s', master_log_pos=%s`, detachedLogFile, detachedLogPos))
	if err != nil {
		return instance, log.Errore(err)
	}

	log.Infof("Reattach slave %+v", instanceKey)

	instance, err = ReadTopologyInstance(instanceKey)
	return instance, err
}
Exemple #6
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// read reads configuration from given file, or silently skips if the file does not exist.
// If the file does exist, then it is expected to be in valid JSON format or the function bails out.
func read(file_name string) (*Configuration, error) {
	file, err := os.Open(file_name)
	if err == nil {
		decoder := json.NewDecoder(file)
		err := decoder.Decode(Config)
		if err == nil {
			log.Infof("Read config: %s", file_name)
		} else {
			log.Fatal("Cannot read config file:", file_name, err)
		}
		postReadAdjustments()
	}
	return Config, err
}
// FlushBinaryLogsTo attempts to 'PURGE BINARY LOGS' until given binary log is reached
func PurgeBinaryLogsTo(instanceKey *InstanceKey, logFile string) (*Instance, error) {
	if *config.RuntimeCLIFlags.Noop {
		return nil, fmt.Errorf("noop: aborting purge-binary-logs operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	_, err := ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("purge binary logs to '%s'", logFile))
	if err != nil {
		return nil, log.Errore(err)
	}

	log.Infof("purge-binary-logs to=%+v on %+v", logFile, *instanceKey)
	AuditOperation("purge-binary-logs", instanceKey, "success")

	return ReadTopologyInstance(instanceKey)
}
// MasterPosWait issues a MASTER_POS_WAIT() an given instance according to given coordinates.
func MasterPosWait(instanceKey *InstanceKey, binlogCoordinates *BinlogCoordinates) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	_, err = ExecInstance(instanceKey, `select master_pos_wait(?, ?)`, binlogCoordinates.LogFile, binlogCoordinates.LogPos)
	if err != nil {
		return instance, log.Errore(err)
	}
	log.Infof("Instance %+v has reached coordinates: %+v", instanceKey, binlogCoordinates)

	instance, err = ReadTopologyInstance(instanceKey)
	return instance, err
}
// StopSlaveNicely stops a slave such that SQL_thread and IO_thread are aligned (i.e.
// SQL_thread consumes all relay log entries)
// It will actually START the sql_thread even if the slave is completely stopped.
func StopSlaveNicely(instanceKey *InstanceKey, timeout time.Duration) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if !instance.IsSlave() {
		return instance, fmt.Errorf("instance is not a slave: %+v", instanceKey)
	}

	_, err = ExecInstanceNoPrepare(instanceKey, `stop slave io_thread`)
	_, err = ExecInstanceNoPrepare(instanceKey, `start slave sql_thread`)

	if instance.SQLDelay == 0 {
		// Otherwise we don't bother.
		startTime := time.Now()
		for upToDate := false; !upToDate; {
			if timeout > 0 && time.Since(startTime) >= timeout {
				// timeout
				return nil, log.Errorf("StopSlaveNicely timeout on %+v", *instanceKey)
			}
			instance, err = ReadTopologyInstance(instanceKey)
			if err != nil {
				return instance, log.Errore(err)
			}

			if instance.SQLThreadUpToDate() {
				upToDate = true
			} else {
				time.Sleep(sqlThreadPollDuration)
			}
		}
	}
	_, err = ExecInstanceNoPrepare(instanceKey, `stop slave`)
	if err != nil {
		// Patch; current MaxScale behavior for STOP SLAVE is to throw an error if slave already stopped.
		if instance.isMaxScale() && err.Error() == "Error 1199: Slave connection is not running" {
			err = nil
		}
	}
	if err != nil {
		return instance, log.Errore(err)
	}

	instance, err = ReadTopologyInstance(instanceKey)
	log.Infof("Stopped slave nicely on %+v, Self:%+v, Exec:%+v", *instanceKey, instance.SelfBinlogCoordinates, instance.ExecBinlogCoordinates)
	return instance, err
}
Exemple #10
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// If a mysql port is available, try to discover against it
func DiscoverAgentInstance(hostname string, port int) error {
	agent, err := GetAgent(hostname)
	if err != nil {
		log.Errorf("Couldn't get agent for %s: %v", hostname, err)
		return err
	}

	instanceKey := agent.GetInstance()
	instance, err := inst.ReadTopologyInstance(instanceKey)
	if err != nil {
		log.Errorf("Failed to read topology for %v", instanceKey)
		return err
	}
	log.Infof("Discovered Agent Instance: %v", instance.Key)
	return nil
}
// StartSlaveUntilMasterCoordinates issuesa START SLAVE UNTIL... statement on given instance
func StartSlaveUntilMasterCoordinates(instanceKey *InstanceKey, masterCoordinates *BinlogCoordinates) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if !instance.IsSlave() {
		return instance, fmt.Errorf("instance is not a slave: %+v", instanceKey)
	}
	if instance.SlaveRunning() {
		return instance, fmt.Errorf("slave already running: %+v", instanceKey)
	}

	log.Infof("Will start slave on %+v until coordinates: %+v", instanceKey, masterCoordinates)

	// MariaDB has a bug: a CHANGE MASTER TO statement does not work properly with prepared statement... :P
	// See https://mariadb.atlassian.net/browse/MDEV-7640
	// This is the reason for ExecInstanceNoPrepare
	_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("start slave until master_log_file='%s', master_log_pos=%d",
		masterCoordinates.LogFile, masterCoordinates.LogPos))
	if err != nil {
		return instance, log.Errore(err)
	}

	for upToDate := false; !upToDate; {
		instance, err = ReadTopologyInstance(instanceKey)
		if err != nil {
			return instance, log.Errore(err)
		}

		switch {
		case instance.ExecBinlogCoordinates.SmallerThan(masterCoordinates):
			time.Sleep(sqlThreadPollDuration)
		case instance.ExecBinlogCoordinates.Equals(masterCoordinates):
			upToDate = true
		case masterCoordinates.SmallerThan(&instance.ExecBinlogCoordinates):
			return instance, fmt.Errorf("Start SLAVE UNTIL is past coordinates: %+v", instanceKey)
		}
	}

	instance, err = StopSlave(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	return instance, err
}
// FlushBinaryLogs attempts a 'FLUSH BINARY LOGS' statement on the given instance.
func FlushBinaryLogs(instanceKey *InstanceKey, count int) (*Instance, error) {
	if *config.RuntimeCLIFlags.Noop {
		return nil, fmt.Errorf("noop: aborting flush-binary-logs operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	for i := 0; i < count; i++ {
		_, err := ExecInstance(instanceKey, `flush binary logs`)
		if err != nil {
			return nil, log.Errore(err)
		}
	}

	log.Infof("flush-binary-logs count=%+v on %+v", count, *instanceKey)
	AuditOperation("flush-binary-logs", instanceKey, "success")

	return ReadTopologyInstance(instanceKey)
}
// executeProcesses executes a list of processes
func executeProcesses(processes []string, description string, topologyRecovery *TopologyRecovery, failOnError bool) error {
	var err error
	for _, command := range processes {
		command := replaceCommandPlaceholders(command, topologyRecovery)

		if cmdErr := os.CommandRun(command); cmdErr == nil {
			log.Infof("Executed %s command: %s", description, command)
		} else {
			if err == nil {
				// Note first error
				err = cmdErr
			}
			log.Errorf("Failed to execute %s command: %s", description, command)
			if failOnError {
				return err
			}
		}
	}
	return err
}
// SetReadOnly sets or clears the instance's global read_only variable
func SetReadOnly(instanceKey *InstanceKey, readOnly bool) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if *config.RuntimeCLIFlags.Noop {
		return instance, fmt.Errorf("noop: aborting set-read-only operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	_, err = ExecInstance(instanceKey, fmt.Sprintf("set global read_only = %t", readOnly))
	if err != nil {
		return instance, log.Errore(err)
	}
	instance, err = ReadTopologyInstance(instanceKey)

	log.Infof("instance %+v read_only: %t", instanceKey, readOnly)
	AuditOperation("read-only", instanceKey, fmt.Sprintf("set as %t", readOnly))

	return instance, err
}
// StartSlave starts replication on a given instance
func StartSlave(instanceKey *InstanceKey) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if !instance.IsSlave() {
		return instance, fmt.Errorf("instance is not a slave: %+v", instanceKey)
	}

	_, err = ExecInstanceNoPrepare(instanceKey, `start slave`)
	if err != nil {
		return instance, log.Errore(err)
	}
	log.Infof("Started slave on %+v", instanceKey)
	if config.Config.SlaveStartPostWaitMilliseconds > 0 {
		time.Sleep(time.Duration(config.Config.SlaveStartPostWaitMilliseconds) * time.Millisecond)
	}

	instance, err = ReadTopologyInstance(instanceKey)
	return instance, err
}
Exemple #16
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// ContinuousAgentsPoll starts an asynchronuous infinite process where agents are
// periodically investigated and their status captured, and long since unseen agents are
// purged and forgotten.
func ContinuousAgentsPoll() {
	log.Infof("Starting continuous agents poll")

	go discoverSeededAgents()

	tick := time.Tick(time.Duration(config.Config.DiscoveryPollSeconds) * time.Second)
	caretakingTick := time.Tick(time.Hour)
	for range tick {
		agentsHosts, _ := agent.ReadOutdatedAgentsHosts()
		log.Debugf("outdated agents hosts: %+v", agentsHosts)
		for _, hostname := range agentsHosts {
			go pollAgent(hostname)
		}
		// See if we should also forget agents (lower frequency)
		select {
		case <-caretakingTick:
			agent.ForgetLongUnseenAgents()
			agent.FailStaleSeeds()
		default:
		}
	}
}
// ResetMaster issues a RESET MASTER statement on given instance. Use with extreme care!
func ResetMaster(instanceKey *InstanceKey) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if instance.SlaveRunning() {
		return instance, fmt.Errorf("Cannot reset master on: %+v because slave is running", instanceKey)
	}

	if *config.RuntimeCLIFlags.Noop {
		return instance, fmt.Errorf("noop: aborting reset-master operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	_, err = ExecInstanceNoPrepare(instanceKey, `reset master`)
	if err != nil {
		return instance, log.Errore(err)
	}
	log.Infof("Reset master %+v", instanceKey)

	instance, err = ReadTopologyInstance(instanceKey)
	return instance, err
}
// KillQuery stops replication on a given instance
func KillQuery(instanceKey *InstanceKey, process int64) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if *config.RuntimeCLIFlags.Noop {
		return instance, fmt.Errorf("noop: aborting kill-query operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	_, err = ExecInstance(instanceKey, fmt.Sprintf(`kill query %d`, process))
	if err != nil {
		return instance, log.Errore(err)
	}

	instance, err = ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	log.Infof("Killed query on %+v", *instanceKey)
	AuditOperation("kill-query", instanceKey, fmt.Sprintf("Killed query %d", process))
	return instance, err
}
// replacePromotedSlaveWithCandidate is called after an intermediate master has died and been replaced by some promotedSlave.
// But, is there an even better slave to promote?
// if candidateInstanceKey is given, then it is forced to be promoted over the promotedSlave
// Otherwise, search for the best to promote!
func replacePromotedSlaveWithCandidate(deadInstanceKey *inst.InstanceKey, promotedSlave *inst.Instance, candidateInstanceKey *inst.InstanceKey) (*inst.Instance, error) {
	candidateSlaves, _ := inst.ReadClusterCandidateInstances(promotedSlave.ClusterName)
	// So we've already promoted a slave.
	// However, can we improve on our choice? Are there any slaves marked with "is_candidate"?
	// Maybe we actually promoted such a slave. Does that mean we should keep it?
	// The current logic is:
	// - 1. we prefer to promote a "is_candidate" which is in the same DC & env as the dead intermediate master (or do nothing if the promtoed slave is such one)
	// - 2. we prefer to promote a "is_candidate" which is in the same DC & env as the promoted slave (or do nothing if the promtoed slave is such one)
	// - 3. keep to current choice
	log.Infof("topology_recovery: checking if should replace promoted slave with a better candidate")
	if candidateInstanceKey == nil {
		if deadInstance, _, err := inst.ReadInstance(deadInstanceKey); err == nil && deadInstance != nil {
			for _, candidateSlave := range candidateSlaves {
				if promotedSlave.Key.Equals(&candidateSlave.Key) &&
					promotedSlave.DataCenter == deadInstance.DataCenter &&
					promotedSlave.PhysicalEnvironment == deadInstance.PhysicalEnvironment {
					// Seems like we promoted a candidate in the same DC & ENV as dead IM! Ideal! We're happy!
					log.Infof("topology_recovery: promoted slave %+v is the ideal candidate", promotedSlave.Key)
					return promotedSlave, nil
				}
			}
		}
	}
	// We didn't pick the ideal candidate; let's see if we can replace with a candidate from same DC and ENV
	if candidateInstanceKey == nil {
		// Try a candidate slave that is in same DC & env as the dead instance
		if deadInstance, _, err := inst.ReadInstance(deadInstanceKey); err == nil && deadInstance != nil {
			for _, candidateSlave := range candidateSlaves {
				if candidateSlave.DataCenter == deadInstance.DataCenter &&
					candidateSlave.PhysicalEnvironment == deadInstance.PhysicalEnvironment &&
					candidateSlave.MasterKey.Equals(&promotedSlave.Key) {
					// This would make a great candidate
					candidateInstanceKey = &candidateSlave.Key
					log.Debugf("topology_recovery: no candidate was offered for %+v but orchestrator picks %+v as candidate replacement, based on being in same DC & env as failed instance", promotedSlave.Key, candidateSlave.Key)
				}
			}
		}
	}
	if candidateInstanceKey == nil {
		// We cannot find a candidate in same DC and ENV as dead master
		for _, candidateSlave := range candidateSlaves {
			if promotedSlave.Key.Equals(&candidateSlave.Key) {
				// Seems like we promoted a candidate slave (though not in same DC and ENV as dead master). Good enough.
				// No further action required.
				log.Infof("topology_recovery: promoted slave %+v is a good candidate", promotedSlave.Key)
				return promotedSlave, nil
			}
		}
	}
	// Still nothing?
	if candidateInstanceKey == nil {
		// Try a candidate slave that is in same DC & env as the promoted slave (our promoted slave is not an "is_candidate")
		for _, candidateSlave := range candidateSlaves {
			if promotedSlave.DataCenter == candidateSlave.DataCenter &&
				promotedSlave.PhysicalEnvironment == candidateSlave.PhysicalEnvironment &&
				candidateSlave.MasterKey.Equals(&promotedSlave.Key) {
				// OK, better than nothing
				candidateInstanceKey = &candidateSlave.Key
				log.Debugf("topology_recovery: no candidate was offered for %+v but orchestrator picks %+v as candidate replacement, based on being in same DC & env as promoted instance", promotedSlave.Key, candidateSlave.Key)
			}
		}
	}

	// So do we have a candidate?
	if candidateInstanceKey == nil {
		// Found nothing. Stick with promoted slave
		return promotedSlave, nil
	}
	if promotedSlave.Key.Equals(candidateInstanceKey) {
		// Sanity. It IS the candidate, nothing to promote...
		return promotedSlave, nil
	}

	// Try and promote suggested candidate, if applicable and possible
	log.Debugf("topology_recovery: promoted instance %+v is not the suggested candidate %+v. Will see what can be done", promotedSlave.Key, *candidateInstanceKey)

	candidateInstance, _, err := inst.ReadInstance(candidateInstanceKey)
	if err != nil {
		return promotedSlave, log.Errore(err)
	}

	if candidateInstance.MasterKey.Equals(&promotedSlave.Key) {
		log.Debugf("topology_recovery: suggested candidate %+v is slave of promoted instance %+v. Will try and enslave its master", *candidateInstanceKey, promotedSlave.Key)
		candidateInstance, err = inst.EnslaveMaster(&candidateInstance.Key)
		if err != nil {
			return promotedSlave, log.Errore(err)
		}
		log.Debugf("topology_recovery: success promoting %+v over %+v", *candidateInstanceKey, promotedSlave.Key)
		return candidateInstance, nil
	}

	log.Debugf("topology_recovery: could not manage to promoted suggested candidate %+v", *candidateInstanceKey)
	return promotedSlave, nil
}
Exemple #20
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// ContinuousDiscovery starts an asynchronuous infinite discovery process where instances are
// periodically investigated and their status captured, and long since unseen instances are
// purged and forgotten.
func ContinuousDiscovery() {
	if config.Config.DatabaselessMode__experimental {
		log.Fatal("Cannot execute continuous mode in databaseless mode")
	}

	log.Infof("Starting continuous discovery")
	inst.LoadHostnameResolveCache()
	go handleDiscoveryRequests()

	discoveryTick := time.Tick(time.Duration(config.Config.DiscoveryPollSeconds) * time.Second)
	caretakingTick := time.Tick(time.Minute)
	recoveryTick := time.Tick(time.Duration(config.Config.RecoveryPollSeconds) * time.Second)
	var snapshotTopologiesTick <-chan time.Time
	if config.Config.SnapshotTopologiesIntervalHours > 0 {
		snapshotTopologiesTick = time.Tick(time.Duration(config.Config.SnapshotTopologiesIntervalHours) * time.Hour)
	}

	go ometrics.InitGraphiteMetrics()
	go acceptSignals()

	if *config.RuntimeCLIFlags.GrabElection {
		process.GrabElection()
	}
	for {
		select {
		case <-discoveryTick:
			go func() {
				wasAlreadyElected := isElectedNode
				if isElectedNode, _ = process.AttemptElection(); isElectedNode {
					instanceKeys, _ := inst.ReadOutdatedInstanceKeys()
					log.Debugf("outdated keys: %+v", instanceKeys)
					for _, instanceKey := range instanceKeys {
						instanceKey := instanceKey
						go func() { discoveryInstanceKeys <- instanceKey }()
					}
					if !wasAlreadyElected {
						// Just turned to be leader!
						go process.RegisterNode("", "", false)
					}
				} else {
					log.Debugf("Not elected as active node; polling")
				}
			}()
		case <-caretakingTick:
			// Various periodic internal maintenance tasks
			go func() {
				if isElectedNode {
					go inst.ForgetLongUnseenInstances()
					go inst.ForgetUnseenInstancesDifferentlyResolved()
					go inst.ForgetExpiredHostnameResolves()
					go inst.DeleteInvalidHostnameResolves()
					go inst.ReviewUnseenInstances()
					go inst.InjectUnseenMasters()
					go inst.ResolveUnknownMasterHostnameResolves()
					go inst.UpdateClusterAliases()
					go inst.ExpireMaintenance()
					go inst.ExpireDowntime()
					go inst.ExpireCandidateInstances()
					go inst.ExpireHostnameUnresolve()
					go inst.ExpireClusterDomainName()
					go inst.ExpireAudit()
					go inst.ExpireMasterPositionEquivalence()
					go inst.FlushNontrivialResolveCacheToDatabase()
					go process.ExpireNodesHistory()
				}
				if !isElectedNode {
					// Take this opportunity to refresh yourself
					go inst.LoadHostnameResolveCache()
				}
				go inst.ReadClusterAliases()
			}()
		case <-recoveryTick:
			go func() {
				if isElectedNode {
					go ClearActiveFailureDetections()
					go ClearActiveRecoveries()
					go ExpireBlockedRecoveries()
					go AcknowledgeCrashedRecoveries()
					go inst.ExpireInstanceAnalysisChangelog()
					go CheckAndRecover(nil, nil, false)
				}
			}()
		case <-snapshotTopologiesTick:
			go func() {
				go inst.SnapshotTopologies()
			}()
		}
	}
}
// ChangeMasterTo changes the given instance's master according to given input.
func ChangeMasterTo(instanceKey *InstanceKey, masterKey *InstanceKey, masterBinlogCoordinates *BinlogCoordinates, skipUnresolve bool, gtidHint OperationGTIDHint) (*Instance, error) {
	instance, err := ReadTopologyInstance(instanceKey)
	if err != nil {
		return instance, log.Errore(err)
	}

	if instance.SlaveRunning() {
		return instance, fmt.Errorf("ChangeMasterTo: Cannot change master on: %+v because slave is running", *instanceKey)
	}
	log.Debugf("ChangeMasterTo: will attempt changing master on %+v to %+v, %+v", *instanceKey, *masterKey, *masterBinlogCoordinates)
	changeToMasterKey := masterKey
	if !skipUnresolve {
		unresolvedMasterKey, nameUnresolved, err := UnresolveHostname(masterKey)
		if err != nil {
			log.Debugf("ChangeMasterTo: aborting operation on %+v due to resolving error on %+v: %+v", *instanceKey, *masterKey, err)
			return instance, err
		}
		if nameUnresolved {
			log.Debugf("ChangeMasterTo: Unresolved %+v into %+v", *masterKey, unresolvedMasterKey)
		}
		changeToMasterKey = &unresolvedMasterKey
	}

	if *config.RuntimeCLIFlags.Noop {
		return instance, fmt.Errorf("noop: aborting CHANGE MASTER TO operation on %+v; signalling error but nothing went wrong.", *instanceKey)
	}

	originalMasterKey := instance.MasterKey
	originalExecBinlogCoordinates := instance.ExecBinlogCoordinates

	changedViaGTID := false
	if instance.UsingMariaDBGTID && gtidHint != GTIDHintDeny {
		// MariaDB has a bug: a CHANGE MASTER TO statement does not work properly with prepared statement... :P
		// See https://mariadb.atlassian.net/browse/MDEV-7640
		// This is the reason for ExecInstanceNoPrepare
		// Keep on using GTID
		_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("change master to master_host='%s', master_port=%d",
			changeToMasterKey.Hostname, changeToMasterKey.Port))
		changedViaGTID = true
	} else if instance.UsingMariaDBGTID && gtidHint == GTIDHintDeny {
		// Make sure to not use GTID
		_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("change master to master_host='%s', master_port=%d, master_log_file='%s', master_log_pos=%d, master_use_gtid=no",
			changeToMasterKey.Hostname, changeToMasterKey.Port, masterBinlogCoordinates.LogFile, masterBinlogCoordinates.LogPos))
	} else if instance.IsMariaDB() && gtidHint == GTIDHintForce {
		// Is MariaDB; not using GTID, turn into GTID
		_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("change master to master_host='%s', master_port=%d, master_use_gtid=slave_pos",
			changeToMasterKey.Hostname, changeToMasterKey.Port))
		changedViaGTID = true
	} else if instance.UsingOracleGTID && gtidHint != GTIDHintDeny {
		// Is Oracle; already uses GTID; keep using it.
		_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("change master to master_host='%s', master_port=%d",
			changeToMasterKey.Hostname, changeToMasterKey.Port))
		changedViaGTID = true
	} else if instance.UsingOracleGTID && gtidHint == GTIDHintDeny {
		// Is Oracle; already uses GTID
		_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("change master to master_host='%s', master_port=%d, master_log_file='%s', master_log_pos=%d, master_auto_position=0",
			changeToMasterKey.Hostname, changeToMasterKey.Port, masterBinlogCoordinates.LogFile, masterBinlogCoordinates.LogPos))
	} else if instance.SupportsOracleGTID && gtidHint == GTIDHintForce {
		// Is Oracle; not using GTID right now; turn into GTID
		_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("change master to master_host='%s', master_port=%d, master_auto_position=1",
			changeToMasterKey.Hostname, changeToMasterKey.Port))
		changedViaGTID = true
	} else {
		// Normal binlog file:pos
		_, err = ExecInstanceNoPrepare(instanceKey, fmt.Sprintf("change master to master_host='%s', master_port=%d, master_log_file='%s', master_log_pos=%d",
			changeToMasterKey.Hostname, changeToMasterKey.Port, masterBinlogCoordinates.LogFile, masterBinlogCoordinates.LogPos))
	}
	if err != nil {
		return instance, log.Errore(err)
	}
	WriteMasterPositionEquivalence(&originalMasterKey, &originalExecBinlogCoordinates, changeToMasterKey, masterBinlogCoordinates)

	log.Infof("ChangeMasterTo: Changed master on %+v to: %+v, %+v. GTID: %+v", *instanceKey, masterKey, masterBinlogCoordinates, changedViaGTID)

	instance, err = ReadTopologyInstance(instanceKey)
	return instance, err
}
Exemple #22
0
// Cli initiates a command line interface, executing requested command.
func Cli(command string, strict bool, instance string, destination string, owner string, reason string, duration string, pattern string, clusterAlias string, pool string, hostnameFlag string) {
	if instance != "" && !strings.Contains(instance, ":") {
		instance = fmt.Sprintf("%s:%d", instance, config.Config.DefaultInstancePort)
	}
	instanceKey, err := inst.ParseInstanceKey(instance)
	if err != nil {
		instanceKey = nil
	}
	rawInstanceKey, err := inst.NewRawInstanceKey(instance)
	if err != nil {
		rawInstanceKey = nil
	}

	if destination != "" && !strings.Contains(destination, ":") {
		destination = fmt.Sprintf("%s:%d", destination, config.Config.DefaultInstancePort)
	}
	destinationKey, err := inst.ParseInstanceKey(destination)
	if err != nil {
		destinationKey = nil
	}

	if hostname, err := os.Hostname(); err == nil {
		thisInstanceKey = &inst.InstanceKey{Hostname: hostname, Port: int(config.Config.DefaultInstancePort)}
	}
	postponedFunctionsContainer := inst.NewPostponedFunctionsContainer()

	if len(owner) == 0 {
		// get os username as owner
		usr, err := user.Current()
		if err != nil {
			log.Fatale(err)
		}
		owner = usr.Username
	}
	inst.SetMaintenanceOwner(owner)

	skipDatabaseCommands := false
	switch command {
	case "reset-internal-db-deployment":
		skipDatabaseCommands = true
	case "help":
		skipDatabaseCommands = true
	}

	if !skipDatabaseCommands {
		process.ContinuousRegistration(string(process.OrchestratorExecutionCliMode), command)
	}
	// begin commands
	switch command {
	// smart mode
	case registerCliCommand("relocate", "Smart relocation", `Relocate a slave beneath another instance`), registerCliCommand("relocate-below", "Smart relocation", `Synonym to 'relocate', will be deprecated`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination:", destination)
			}
			_, err := inst.RelocateBelow(instanceKey, destinationKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), destinationKey.DisplayString()))
		}
	case registerCliCommand("relocate-slaves", "Smart relocation", `Relocates all or part of the slaves of a given instance under another instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination:", destination)
			}
			slaves, _, err, errs := inst.RelocateSlaves(instanceKey, destinationKey, pattern)
			if err != nil {
				log.Fatale(err)
			} else {
				for _, e := range errs {
					log.Errore(e)
				}
				for _, slave := range slaves {
					fmt.Println(slave.Key.DisplayString())
				}
			}
		}
	case registerCliCommand("regroup-slaves", "Smart relocation", `Given an instance, pick one of its slave and make it local master of its siblings`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			lostSlaves, equalSlaves, aheadSlaves, promotedSlave, err := inst.RegroupSlaves(instanceKey, false, func(candidateSlave *inst.Instance) { fmt.Println(candidateSlave.Key.DisplayString()) }, postponedFunctionsContainer)
			postponedFunctionsContainer.InvokePostponed()
			if promotedSlave == nil {
				log.Fatalf("Could not regroup slaves of %+v; error: %+v", *instanceKey, err)
			}
			fmt.Println(fmt.Sprintf("%s lost: %d, trivial: %d, pseudo-gtid: %d",
				promotedSlave.Key.DisplayString(), len(lostSlaves), len(equalSlaves), len(aheadSlaves)))
			if err != nil {
				log.Fatale(err)
			}
		}
		// General replication commands
		// move, binlog file:pos
	case registerCliCommand("move-up", "Classic file:pos relocation", `Move a slave one level up the topology`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			instance, err := inst.MoveUp(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), instance.MasterKey.DisplayString()))
		}
	case registerCliCommand("move-up-slaves", "Classic file:pos relocation", `Moves slaves of the given instance one level up the topology`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			movedSlaves, _, err, errs := inst.MoveUpSlaves(instanceKey, pattern)
			if err != nil {
				log.Fatale(err)
			} else {
				for _, e := range errs {
					log.Errore(e)
				}
				for _, slave := range movedSlaves {
					fmt.Println(slave.Key.DisplayString())
				}
			}
		}
	case registerCliCommand("move-below", "Classic file:pos relocation", `Moves a slave beneath its sibling. Both slaves must be actively replicating from same master.`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination/sibling:", destination)
			}
			_, err := inst.MoveBelow(instanceKey, destinationKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), destinationKey.DisplayString()))
		}
	case registerCliCommand("move-equivalent", "Classic file:pos relocation", `Moves a slave beneath another server, based on previously recorded "equivalence coordinates"`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination:", destination)
			}
			_, err := inst.MoveEquivalent(instanceKey, destinationKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), destinationKey.DisplayString()))
		}
	case registerCliCommand("repoint", "Classic file:pos relocation", `Make the given instance replicate from another instance without changing the binglog coordinates. Use with care`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			// destinationKey can be null, in which case the instance repoints to its existing master
			instance, err := inst.Repoint(instanceKey, destinationKey, inst.GTIDHintNeutral)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), instance.MasterKey.DisplayString()))
		}
	case registerCliCommand("repoint-slaves", "Classic file:pos relocation", `Repoint all slaves of given instance to replicate back from the instance. Use with care`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			repointedSlaves, err, errs := inst.RepointSlavesTo(instanceKey, pattern, destinationKey)
			if err != nil {
				log.Fatale(err)
			} else {
				for _, e := range errs {
					log.Errore(e)
				}
				for _, slave := range repointedSlaves {
					fmt.Println(fmt.Sprintf("%s<%s", slave.Key.DisplayString(), instanceKey.DisplayString()))
				}
			}
		}
	case registerCliCommand("enslave-siblings", "Classic file:pos relocation", `Turn all siblings of a slave into its sub-slaves.`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}
			_, _, err := inst.EnslaveSiblings(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("enslave-master", "Classic file:pos relocation", `Turn an instance into a master of its own master; essentially switch the two.`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}
			_, err := inst.EnslaveMaster(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("make-co-master", "Classic file:pos relocation", `Create a master-master replication. Given instance is a slave which replicates directly from a master.`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.MakeCoMaster(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("get-candidate-slave", "Classic file:pos relocation", `Information command suggesting the most up-to-date slave of a given instance that is good for promotion`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			instance, _, _, _, err := inst.GetCandidateSlave(instanceKey, false)
			if err != nil {
				log.Fatale(err)
			} else {
				fmt.Println(instance.Key.DisplayString())
			}
		}
	case registerCliCommand("regroup-slaves-bls", "Binlog server relocation", `Regroup Binlog Server slaves of a given instance`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			_, promotedBinlogServer, err := inst.RegroupSlavesBinlogServers(instanceKey, false)
			if promotedBinlogServer == nil {
				log.Fatalf("Could not regroup binlog server slaves of %+v; error: %+v", *instanceKey, err)
			}
			fmt.Println(promotedBinlogServer.Key.DisplayString())
			if err != nil {
				log.Fatale(err)
			}
		}
	// move, GTID
	case registerCliCommand("move-gtid", "GTID relocation", `Move a slave beneath another instance.`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination:", destination)
			}
			_, err := inst.MoveBelowGTID(instanceKey, destinationKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), destinationKey.DisplayString()))
		}
	case registerCliCommand("move-slaves-gtid", "GTID relocation", `Moves all slaves of a given instance under another (destination) instance using GTID`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination:", destination)
			}
			movedSlaves, _, err, errs := inst.MoveSlavesGTID(instanceKey, destinationKey, pattern)
			if err != nil {
				log.Fatale(err)
			} else {
				for _, e := range errs {
					log.Errore(e)
				}
				for _, slave := range movedSlaves {
					fmt.Println(slave.Key.DisplayString())
				}
			}
		}
	case registerCliCommand("regroup-slaves-gtid", "GTID relocation", `Given an instance, pick one of its slave and make it local master of its siblings, using GTID.`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			lostSlaves, movedSlaves, promotedSlave, err := inst.RegroupSlavesGTID(instanceKey, false, func(candidateSlave *inst.Instance) { fmt.Println(candidateSlave.Key.DisplayString()) })
			if promotedSlave == nil {
				log.Fatalf("Could not regroup slaves of %+v; error: %+v", *instanceKey, err)
			}
			fmt.Println(fmt.Sprintf("%s lost: %d, moved: %d",
				promotedSlave.Key.DisplayString(), len(lostSlaves), len(movedSlaves)))
			if err != nil {
				log.Fatale(err)
			}
		}
		// Pseudo-GTID
	case registerCliCommand("match", "Pseudo-GTID relocation", `Matches a slave beneath another (destination) instance using Pseudo-GTID`),
		registerCliCommand("match-below", "Pseudo-GTID relocation", `Synonym to 'match', will be deprecated`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination:", destination)
			}
			_, _, err := inst.MatchBelow(instanceKey, destinationKey, true)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), destinationKey.DisplayString()))
		}
	case registerCliCommand("match-up", "Pseudo-GTID relocation", `Transport the slave one level up the hierarchy, making it child of its grandparent, using Pseudo-GTID`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			instance, _, err := inst.MatchUp(instanceKey, true)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), instance.MasterKey.DisplayString()))
		}
	case registerCliCommand("rematch", "Pseudo-GTID relocation", `Reconnect a slave onto its master, via PSeudo-GTID.`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			instance, _, err := inst.RematchSlave(instanceKey, true)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%s<%s", instanceKey.DisplayString(), instance.MasterKey.DisplayString()))
		}
	case registerCliCommand("match-slaves", "Pseudo-GTID relocation", `Matches all slaves of a given instance under another (destination) instance using Pseudo-GTID`),
		registerCliCommand("multi-match-slaves", "Pseudo-GTID relocation", `Synonym to 'match-slaves', will be deprecated`):
		{
			// Move all slaves of "instance" beneath "destination"
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}
			if destinationKey == nil {
				log.Fatal("Cannot deduce destination:", destination)
			}

			matchedSlaves, _, err, errs := inst.MultiMatchSlaves(instanceKey, destinationKey, pattern)
			if err != nil {
				log.Fatale(err)
			} else {
				for _, e := range errs {
					log.Errore(e)
				}
				for _, slave := range matchedSlaves {
					fmt.Println(slave.Key.DisplayString())
				}
			}
		}
	case registerCliCommand("match-up-slaves", "Pseudo-GTID relocation", `Matches slaves of the given instance one level up the topology, making them siblings of given instance, using Pseudo-GTID`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			matchedSlaves, _, err, errs := inst.MatchUpSlaves(instanceKey, pattern)
			if err != nil {
				log.Fatale(err)
			} else {
				for _, e := range errs {
					log.Errore(e)
				}
				for _, slave := range matchedSlaves {
					fmt.Println(slave.Key.DisplayString())
				}
			}
		}
	case registerCliCommand("regroup-slaves-pgtid", "Pseudo-GTID relocation", `Given an instance, pick one of its slave and make it local master of its siblings, using Pseudo-GTID.`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			lostSlaves, equalSlaves, aheadSlaves, promotedSlave, err := inst.RegroupSlavesPseudoGTID(instanceKey, false, func(candidateSlave *inst.Instance) { fmt.Println(candidateSlave.Key.DisplayString()) }, postponedFunctionsContainer)
			postponedFunctionsContainer.InvokePostponed()
			if promotedSlave == nil {
				log.Fatalf("Could not regroup slaves of %+v; error: %+v", *instanceKey, err)
			}
			fmt.Println(fmt.Sprintf("%s lost: %d, trivial: %d, pseudo-gtid: %d",
				promotedSlave.Key.DisplayString(), len(lostSlaves), len(equalSlaves), len(aheadSlaves)))
			if err != nil {
				log.Fatale(err)
			}
		}
		// General replication commands
	case registerCliCommand("enable-gtid", "Replication, general", `If possible, turn on GTID replication`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.EnableGTID(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("disable-gtid", "Replication, general", `Turn off GTID replication, back to file:pos replication`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.DisableGTID(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("reset-master-gtid-remove-own-uuid", "Replication, general", `Reset master on instance, remove GTID entries generated by instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.ResetMasterGTIDOperation(instanceKey, true, "")
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("skip-query", "Replication, general", `Skip a single statement on a slave; either when running with GTID or without`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.SkipQuery(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("stop-slave", "Replication, general", `Issue a STOP SLAVE on an instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.StopSlave(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("start-slave", "Replication, general", `Issue a START SLAVE on an instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.StartSlave(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("restart-slave", "Replication, general", `STOP and START SLAVE on an instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.RestartSlave(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("reset-slave", "Replication, general", `Issues a RESET SLAVE command; use with care`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.ResetSlaveOperation(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("detach-slave", "Replication, general", `Stops replication and modifies binlog position into an impossible, yet reversible, value.`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.DetachSlaveOperation(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("reattach-slave", "Replication, general", `Undo a detach-slave operation`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.ReattachSlaveOperation(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("detach-slave-master-host", "Replication, general", `Stops replication and modifies Master_Host into an impossible, yet reversible, value.`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}
			_, err := inst.DetachSlaveMasterHost(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("reattach-slave-master-host", "Replication, general", `Undo a detach-slave-master-host operation`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}
			_, err := inst.ReattachSlaveMasterHost(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("master-pos-wait", "Replication, general", `Wait until slave reaches given replication coordinates (--binlog=file:pos)`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unresolved instance")
			}
			instance, err := inst.ReadTopologyInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			if instance == nil {
				log.Fatalf("Instance not found: %+v", *instanceKey)
			}
			var binlogCoordinates *inst.BinlogCoordinates

			if binlogCoordinates, err = inst.ParseBinlogCoordinates(*config.RuntimeCLIFlags.BinlogFile); err != nil {
				log.Fatalf("Expecing --binlog argument as file:pos")
			}
			_, err = inst.MasterPosWait(instanceKey, binlogCoordinates)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
		// Pool
	case registerCliCommand("set-read-only", "Instance", `Turn an instance read-only, via SET GLOBAL read_only := 1`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.SetReadOnly(instanceKey, true)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("set-writeable", "Instance", `Turn an instance writeable, via SET GLOBAL read_only := 0`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			_, err := inst.SetReadOnly(instanceKey, false)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
		// Binary log operations
	case registerCliCommand("flush-binary-logs", "Binary logs", `Flush binary logs on an instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			var err error
			if *config.RuntimeCLIFlags.BinlogFile == "" {
				_, err = inst.FlushBinaryLogs(instanceKey, 1)
			} else {
				_, err = inst.FlushBinaryLogsTo(instanceKey, *config.RuntimeCLIFlags.BinlogFile)
			}
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("purge-binary-logs", "Binary logs", `Purge binary logs of an instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			var err error
			if *config.RuntimeCLIFlags.BinlogFile == "" {
				log.Fatal("expecting --binlog value")
			}

			_, err = inst.PurgeBinaryLogsTo(instanceKey, *config.RuntimeCLIFlags.BinlogFile)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("last-pseudo-gtid", "Binary logs", `Find latest Pseudo-GTID entry in instance's binary logs`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unresolved instance")
			}
			instance, err := inst.ReadTopologyInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			if instance == nil {
				log.Fatalf("Instance not found: %+v", *instanceKey)
			}
			coordinates, text, err := inst.FindLastPseudoGTIDEntry(instance, instance.RelaylogCoordinates, nil, strict, nil)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%+v:%s", *coordinates, text))
		}
	case registerCliCommand("find-binlog-entry", "Binary logs", `Get binlog file:pos of entry given by --pattern (exact full match, not a regular expression) in a given instance`):
		{
			if pattern == "" {
				log.Fatal("No pattern given")
			}
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unresolved instance")
			}
			instance, err := inst.ReadTopologyInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			if instance == nil {
				log.Fatalf("Instance not found: %+v", *instanceKey)
			}
			coordinates, err := inst.SearchEntryInInstanceBinlogs(instance, pattern, false)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%+v", *coordinates))
		}
	case registerCliCommand("correlate-binlog-pos", "Binary logs", `Given an instance (-i) and binlog coordinates (--binlog=file:pos), find the correlated coordinates in another instance (-d)`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unresolved instance")
			}
			instance, err := inst.ReadTopologyInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			if instance == nil {
				log.Fatalf("Instance not found: %+v", *instanceKey)
			}
			if !instance.LogBinEnabled {
				log.Fatalf("Instance does not have binary logs: %+v", *instanceKey)
			}
			if destinationKey == nil {
				log.Fatal("Cannot deduce target instance:", destination)
			}
			otherInstance, err := inst.ReadTopologyInstance(destinationKey)
			if err != nil {
				log.Fatale(err)
			}
			if otherInstance == nil {
				log.Fatalf("Instance not found: %+v", *destinationKey)
			}
			var binlogCoordinates *inst.BinlogCoordinates
			if *config.RuntimeCLIFlags.BinlogFile == "" {
				binlogCoordinates = &instance.SelfBinlogCoordinates
			} else {
				if binlogCoordinates, err = inst.ParseBinlogCoordinates(*config.RuntimeCLIFlags.BinlogFile); err != nil {
					log.Fatalf("Expecing --binlog argument as file:pos")
				}
			}

			coordinates, _, err := inst.CorrelateBinlogCoordinates(instance, binlogCoordinates, otherInstance)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%+v", *coordinates))
		}
		// Pool
	case registerCliCommand("submit-pool-instances", "Pools", `Submit a pool name with a list of instances in that pool`):
		{
			if pool == "" {
				log.Fatal("Please submit --pool")
			}
			err := inst.ApplyPoolInstances(pool, instance)
			if err != nil {
				log.Fatale(err)
			}
		}
	case registerCliCommand("cluster-pool-instances", "Pools", `List all pools and their associated instances`):
		{
			clusterPoolInstances, err := inst.ReadAllClusterPoolInstances()
			if err != nil {
				log.Fatale(err)
			}
			for _, clusterPoolInstance := range clusterPoolInstances {
				fmt.Println(fmt.Sprintf("%s\t%s\t%s\t%s:%d", clusterPoolInstance.ClusterName, clusterPoolInstance.ClusterAlias, clusterPoolInstance.Pool, clusterPoolInstance.Hostname, clusterPoolInstance.Port))
			}
		}
		// Information
	case registerCliCommand("find", "Information", `Find instances whose hostname matches given regex pattern`):
		{
			if pattern == "" {
				log.Fatal("No pattern given")
			}
			instances, err := inst.FindInstances(pattern)
			if err != nil {
				log.Fatale(err)
			} else {
				for _, instance := range instances {
					fmt.Println(instance.Key.DisplayString())
				}
			}
		}
	case registerCliCommand("clusters", "Information", `List all clusters known to orchestrator`):
		{
			clusters, err := inst.ReadClusters()
			if err != nil {
				log.Fatale(err)
			} else {
				fmt.Println(strings.Join(clusters, "\n"))
			}
		}
	case registerCliCommand("topology", "Information", `Show an ascii-graph of a replication topology, given a member of that topology`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			output, err := inst.ASCIITopology(instanceKey, pattern)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(output)
		}
	case registerCliCommand("which-instance", "Information", `Output the fully-qualified hostname:port representation of the given instance, or error if unknown`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unable to get master: unresolved instance")
			}
			instance, _, err := inst.ReadInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			if instance == nil {
				log.Fatalf("Instance not found: %+v", *instanceKey)
			}
			fmt.Println(instance.Key.DisplayString())
		}
	case registerCliCommand("which-cluster", "Information", `Output the name of the cluster an instance belongs to, or error if unknown to orchestrator`):
		{
			clusterName := getClusterName(clusterAlias, instanceKey)
			fmt.Println(clusterName)
		}
	case registerCliCommand("which-cluster-instances", "Information", `Output the list of instances participating in same cluster as given instance`):
		{
			clusterName := getClusterName(clusterAlias, instanceKey)
			instances, err := inst.ReadClusterInstances(clusterName)
			if err != nil {
				log.Fatale(err)
			}
			for _, clusterInstance := range instances {
				fmt.Println(clusterInstance.Key.DisplayString())
			}
		}
	case registerCliCommand("which-cluster-osc-slaves", "Information", `Output a list of slaves in same cluster as given instance, that could serve as a pt-online-schema-change operation control slaves`):
		{
			clusterName := getClusterName(clusterAlias, instanceKey)
			instances, err := inst.GetClusterOSCSlaves(clusterName)
			if err != nil {
				log.Fatale(err)
			}
			for _, clusterInstance := range instances {
				fmt.Println(clusterInstance.Key.DisplayString())
			}
		}
	case registerCliCommand("which-master", "Information", `Output the fully-qualified hostname:port representation of a given instance's master`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unable to get master: unresolved instance")
			}
			instance, _, err := inst.ReadInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			if instance == nil {
				log.Fatalf("Instance not found: %+v", *instanceKey)
			}
			fmt.Println(instance.MasterKey.DisplayString())
		}
	case registerCliCommand("which-slaves", "Information", `Output the fully-qualified hostname:port list of slaves of a given instance`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unable to get slaves: unresolved instance")
			}
			slaves, err := inst.ReadSlaveInstances(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			for _, slave := range slaves {
				fmt.Println(slave.Key.DisplayString())
			}
		}
	case registerCliCommand("instance-status", "Information", `Output short status on a given instance`):
		{
			if instanceKey == nil {
				instanceKey = assignThisInstanceKey()
			}
			if instanceKey == nil {
				log.Fatalf("Unable to get status: unresolved instance")
			}
			instance, _, err := inst.ReadInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			if instance == nil {
				log.Fatalf("Instance not found: %+v", *instanceKey)
			}
			fmt.Println(instance.HumanReadableDescription())
		}
	case registerCliCommand("get-cluster-heuristic-lag", "Information", `For a given cluster (indicated by an instance or alias), output a heuristic "representative" lag of that cluster`):
		{
			clusterName := getClusterName(clusterAlias, instanceKey)
			lag, err := inst.GetClusterHeuristicLag(clusterName)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(lag)
		}
		// Instance management
	case registerCliCommand("discover", "Instance management", `Lookup an instance, investigate it`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			instance, err := inst.ReadTopologyInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instance.Key.DisplayString())
		}
	case registerCliCommand("forget", "Instance management", `Forget about an instance's existence`):
		{
			if rawInstanceKey == nil {
				rawInstanceKey = assignThisInstanceKey()
			}
			if rawInstanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}
			err := inst.ForgetInstance(rawInstanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(rawInstanceKey.DisplayString())
		}
	case registerCliCommand("begin-maintenance", "Instance management", `Request a maintenance lock on an instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if reason == "" {
				log.Fatal("--reason option required")
			}
			var durationSeconds int = 0
			if duration != "" {
				durationSeconds, err = util.SimpleTimeToSeconds(duration)
				if err != nil {
					log.Fatale(err)
				}
				if durationSeconds < 0 {
					log.Fatalf("Duration value must be non-negative. Given value: %d", durationSeconds)
				}
			}
			maintenanceKey, err := inst.BeginBoundedMaintenance(instanceKey, inst.GetMaintenanceOwner(), reason, uint(durationSeconds))
			if err == nil {
				log.Infof("Maintenance key: %+v", maintenanceKey)
				log.Infof("Maintenance duration: %d seconds", durationSeconds)
			}
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("end-maintenance", "Instance management", `Remove maintenance lock from an instance`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			err := inst.EndMaintenanceByInstanceKey(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("begin-downtime", "Instance management", `Mark an instance as downtimed`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			if reason == "" {
				log.Fatal("--reason option required")
			}
			var durationSeconds int = 0
			if duration != "" {
				durationSeconds, err = util.SimpleTimeToSeconds(duration)
				if err != nil {
					log.Fatale(err)
				}
				if durationSeconds < 0 {
					log.Fatalf("Duration value must be non-negative. Given value: %d", durationSeconds)
				}
			}
			err := inst.BeginDowntime(instanceKey, inst.GetMaintenanceOwner(), reason, uint(durationSeconds))
			if err == nil {
				log.Infof("Downtime duration: %d seconds", durationSeconds)
			} else {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("end-downtime", "Instance management", `Indicate an instance is no longer downtimed`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			err := inst.EndDowntime(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
		// Recovery & analysis
	case registerCliCommand("recover", "Recovery", `Do auto-recovery given a dead instance`), registerCliCommand("recover-lite", "Recovery", `Do auto-recovery given a dead instance. Orchestrator chooses the best course of actionwithout executing external processes`):
		{
			if instanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}

			recoveryAttempted, promotedInstanceKey, err := logic.CheckAndRecover(instanceKey, destinationKey, (command == "recover-lite"))
			if err != nil {
				log.Fatale(err)
			}
			if recoveryAttempted {
				if promotedInstanceKey == nil {
					log.Fatalf("Recovery attempted yet no slave promoted")
				}
				fmt.Println(promotedInstanceKey.DisplayString())
			}
		}
	case registerCliCommand("replication-analysis", "Recovery", `Request an analysis of potential crash incidents in all known topologies`):
		{
			analysis, err := inst.GetReplicationAnalysis("", false, false)
			if err != nil {
				log.Fatale(err)
			}
			for _, entry := range analysis {
				fmt.Println(fmt.Sprintf("%s (cluster %s): %s", entry.AnalyzedInstanceKey.DisplayString(), entry.ClusterDetails.ClusterName, entry.Analysis))
			}
		}
	case registerCliCommand("ack-cluster-recoveries", "Recovery", `Acknowledge recoveries for a given cluster; this unblocks pending future recoveries`):
		{
			if reason == "" {
				log.Fatal("--reason option required (comment your ack)")
			}
			clusterName := getClusterName(clusterAlias, instanceKey)
			countRecoveries, err := logic.AcknowledgeClusterRecoveries(clusterName, inst.GetMaintenanceOwner(), reason)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%d recoveries acknowldged", countRecoveries))
		}
	case registerCliCommand("ack-instance-recoveries", "Recovery", `Acknowledge recoveries for a given instance; this unblocks pending future recoveries`):
		{
			if reason == "" {
				log.Fatal("--reason option required (comment your ack)")
			}
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)

			countRecoveries, err := logic.AcknowledgeInstanceRecoveries(instanceKey, inst.GetMaintenanceOwner(), reason)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(fmt.Sprintf("%d recoveries acknowldged", countRecoveries))
		}
	// Instance meta
	case registerCliCommand("register-candidate", "Instance, meta", `Indicate that a specific instance is a preferred candidate for master promotion`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			err := inst.RegisterCandidateInstance(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("register-hostname-unresolve", "Instance, meta", `Assigns the given instance a virtual (aka "unresolved") name`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			err := inst.RegisterHostnameUnresolve(instanceKey, hostnameFlag)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
	case registerCliCommand("deregister-hostname-unresolve", "Instance, meta", `Explicitly deregister/dosassociate a hostname with an "unresolved" name`):
		{
			instanceKey = deduceInstanceKeyIfNeeded(instance, instanceKey)
			err := inst.DeregisterHostnameUnresolve(instanceKey)
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println(instanceKey.DisplayString())
		}
		// meta
	case registerCliCommand("snapshot-topologies", "Meta", `Take a snapshot of existing topologies.`):
		{
			err := inst.SnapshotTopologies()
			if err != nil {
				log.Fatale(err)
			}
		}
	case registerCliCommand("continuous", "Meta", `Enter continuous mode, and actively poll for instances, diagnose problems, do maintenance`):
		{
			logic.ContinuousDiscovery()
		}
	case registerCliCommand("resolve", "Meta", `Resolve given hostname`):
		{
			if rawInstanceKey == nil {
				log.Fatal("Cannot deduce instance:", instance)
			}
			if conn, err := net.Dial("tcp", rawInstanceKey.DisplayString()); err == nil {
				log.Debugf("tcp test is good; got connection %+v", conn)
				conn.Close()
			} else {
				log.Fatale(err)
			}
			if cname, err := inst.GetCNAME(rawInstanceKey.Hostname); err == nil {
				log.Debugf("GetCNAME() %+v, %+v", cname, err)
				rawInstanceKey.Hostname = cname
				fmt.Println(rawInstanceKey.DisplayString())
			} else {
				log.Fatale(err)
			}
		}
	case registerCliCommand("reset-hostname-resolve-cache", "Meta", `Clear the hostname resolve cache`):
		{
			err := inst.ResetHostnameResolveCache()
			if err != nil {
				log.Fatale(err)
			}
			fmt.Println("hostname resolve cache cleared")
		}
	case registerCliCommand("reset-internal-db-deployment", "Meta, internal", `Clear internal db deployment history, use if somehow corrupted internal deployment history`):
		{
			config.Config.SkipOrchestratorDatabaseUpdate = true
			db.ResetInternalDeployment()
			fmt.Println("Internal db deployment history reset. Next orchestrator execution will rebuild internal db structure (no data will be lost)")
		}
		// Help
	case "help":
		{
			fmt.Fprintf(os.Stderr, availableCommandsUsage())
		}
	default:
		log.Fatalf("Unknown command: \"%s\". %s", command, availableCommandsUsage())
	}
}