func (wr *Wrangler) emergencyReparentShardLocked(ctx context.Context, ev *events.Reparent, keyspace, shard string, masterElectTabletAlias *pb.TabletAlias, waitSlaveTimeout time.Duration) error {
shardInfo, err := wr.ts.GetShard(ctx, keyspace, shard)
if err != nil {
return err
}
ev.ShardInfo = *shardInfo
event.DispatchUpdate(ev, "reading all tablets")
tabletMap, err := wr.ts.GetTabletMapForShard(ctx, keyspace, shard)
if err != nil {
return err
}
// Check corner cases we're going to depend on
masterElectTabletInfo, ok := tabletMap[*masterElectTabletAlias]
if !ok {
return fmt.Errorf("master-elect tablet %v is not in the shard", topoproto.TabletAliasString(masterElectTabletAlias))
}
ev.NewMaster = *masterElectTabletInfo.Tablet
if topoproto.TabletAliasEqual(shardInfo.MasterAlias, masterElectTabletAlias) {
return fmt.Errorf("master-elect tablet %v is already the master", topoproto.TabletAliasString(masterElectTabletAlias))
}
// Deal with the old master: try to remote-scrap it, if it's
// truely dead we force-scrap it. Remove it from our map in any case.
if shardInfo.HasMaster() {
scrapOldMaster := true
oldMasterTabletInfo, ok := tabletMap[*shardInfo.MasterAlias]
if ok {
delete(tabletMap, *shardInfo.MasterAlias)
} else {
oldMasterTabletInfo, err = wr.ts.GetTablet(ctx, shardInfo.MasterAlias)
if err != nil {
wr.logger.Warningf("cannot read old master tablet %v, won't touch it: %v", topoproto.TabletAliasString(shardInfo.MasterAlias), err)
scrapOldMaster = false
}
}
if scrapOldMaster {
ev.OldMaster = *oldMasterTabletInfo.Tablet
wr.logger.Infof("scrapping old master %v", topoproto.TabletAliasString(shardInfo.MasterAlias))
ctx, cancel := context.WithTimeout(ctx, waitSlaveTimeout)
defer cancel()
if err := wr.tmc.Scrap(ctx, oldMasterTabletInfo); err != nil {
wr.logger.Warningf("remote scrapping failed master failed, will force the scrap: %v", err)
if err := topotools.Scrap(ctx, wr.ts, shardInfo.MasterAlias, true); err != nil {
wr.logger.Warningf("old master topo scrapping failed, continuing anyway: %v", err)
}
}
}
}
// Stop replication on all slaves, get their current
// replication position
event.DispatchUpdate(ev, "stop replication on all slaves")
wg := sync.WaitGroup{}
mu := sync.Mutex{}
statusMap := make(map[pb.TabletAlias]myproto.ReplicationStatus)
for alias, tabletInfo := range tabletMap {
wg.Add(1)
go func(alias pb.TabletAlias, tabletInfo *topo.TabletInfo) {
defer wg.Done()
wr.logger.Infof("getting replication position from %v", topoproto.TabletAliasString(&alias))
ctx, cancel := context.WithTimeout(ctx, waitSlaveTimeout)
defer cancel()
rp, err := wr.TabletManagerClient().StopReplicationAndGetStatus(ctx, tabletInfo)
if err != nil {
wr.logger.Warningf("failed to get replication status from %v, ignoring tablet: %v", topoproto.TabletAliasString(&alias), err)
return
}
mu.Lock()
statusMap[alias] = rp
mu.Unlock()
}(alias, tabletInfo)
}
wg.Wait()
// Verify masterElect is alive and has the most advanced position
masterElectStatus, ok := statusMap[*masterElectTabletAlias]
if !ok {
return fmt.Errorf("couldn't get master elect %v replication position", topoproto.TabletAliasString(masterElectTabletAlias))
}
for alias, status := range statusMap {
if topoproto.TabletAliasEqual(&alias, masterElectTabletAlias) {
continue
}
if !masterElectStatus.Position.AtLeast(status.Position) {
return fmt.Errorf("tablet %v is more advanced than master elect tablet %v: %v > %v", topoproto.TabletAliasString(&alias), topoproto.TabletAliasString(masterElectTabletAlias), status.Position, masterElectStatus)
}
}
// Promote the masterElect
wr.logger.Infof("promote slave %v", topoproto.TabletAliasString(masterElectTabletAlias))
event.DispatchUpdate(ev, "promoting slave")
rp, err := wr.tmc.PromoteSlave(ctx, masterElectTabletInfo)
if err != nil {
return fmt.Errorf("master-elect tablet %v failed to be upgraded to master: %v", topoproto.TabletAliasString(masterElectTabletAlias), err)
}
// Reset replication on all slaves to point to the new master, and
// insert test row in the new master.
// Go through all the tablets:
// - new master: populate the reparent journal
// - everybody else: reparent to new master, wait for row
event.DispatchUpdate(ev, "reparenting all tablets")
now := time.Now().UnixNano()
wgMaster := sync.WaitGroup{}
wgSlaves := sync.WaitGroup{}
rec := concurrency.AllErrorRecorder{}
var masterErr error
for alias, tabletInfo := range tabletMap {
if topoproto.TabletAliasEqual(&alias, masterElectTabletAlias) {
wgMaster.Add(1)
go func(alias pb.TabletAlias, tabletInfo *topo.TabletInfo) {
defer wgMaster.Done()
wr.logger.Infof("populating reparent journal on new master %v", topoproto.TabletAliasString(&alias))
masterErr = wr.TabletManagerClient().PopulateReparentJournal(ctx, tabletInfo, now, emergencyReparentShardOperation, &alias, rp)
}(alias, tabletInfo)
} else {
wgSlaves.Add(1)
go func(alias pb.TabletAlias, tabletInfo *topo.TabletInfo) {
defer wgSlaves.Done()
wr.logger.Infof("setting new master on slave %v", topoproto.TabletAliasString(&alias))
forceStartSlave := false
if status, ok := statusMap[alias]; ok {
forceStartSlave = status.SlaveIORunning || status.SlaveSQLRunning
}
if err := wr.TabletManagerClient().SetMaster(ctx, tabletInfo, masterElectTabletAlias, now, forceStartSlave); err != nil {
rec.RecordError(fmt.Errorf("Tablet %v SetMaster failed: %v", topoproto.TabletAliasString(&alias), err))
}
}(alias, tabletInfo)
}
}
// After the master is done, we can update the shard record
// (note with semi-sync, it also means at least one slave is done)
wgMaster.Wait()
if masterErr != nil {
wgSlaves.Wait()
return fmt.Errorf("failed to PopulateReparentJournal on master: %v", masterErr)
}
wr.logger.Infof("updating shard record with new master %v", topoproto.TabletAliasString(masterElectTabletAlias))
shardInfo.MasterAlias = masterElectTabletAlias
if err := wr.ts.UpdateShard(ctx, shardInfo); err != nil {
wgSlaves.Wait()
return fmt.Errorf("failed to update shard master record: %v", err)
}
// Wait for the slaves to complete. If some of them fail, we
// will rebuild the shard serving graph anyway
wgSlaves.Wait()
if err := rec.Error(); err != nil {
wr.Logger().Errorf("Some slaves failed to reparent: %v", err)
return err
}
// Then we rebuild the entire serving graph for the shard,
// to account for all changes.
wr.logger.Infof("rebuilding shard graph")
event.DispatchUpdate(ev, "rebuilding shard serving graph")
_, err = wr.RebuildShardGraph(ctx, keyspace, shard, nil)
return err
}
// finalizeTabletExternallyReparented performs slow, synchronized reconciliation
// tasks that ensure topology is self-consistent, and then marks the reparent as
// finished by updating the global shard record.
func (agent *ActionAgent) finalizeTabletExternallyReparented(ctx context.Context, si *topo.ShardInfo, ev *events.Reparent) (err error) {
var wg sync.WaitGroup
var errs concurrency.AllErrorRecorder
oldMasterAlias := si.MasterAlias
// Update the tablet records and serving graph for the old and new master concurrently.
event.DispatchUpdate(ev, "updating old and new master tablet records")
log.Infof("finalizeTabletExternallyReparented: updating tablet records")
wg.Add(1)
go func() {
defer wg.Done()
// Update our own record to master.
updatedTablet, err := agent.TopoServer.UpdateTabletFields(ctx, agent.TabletAlias,
func(tablet *topodatapb.Tablet) error {
tablet.Type = topodatapb.TabletType_MASTER
tablet.HealthMap = nil
return nil
})
if err != nil {
errs.RecordError(err)
return
}
// Update the serving graph for the tablet.
if updatedTablet != nil {
errs.RecordError(
topotools.UpdateTabletEndpoints(ctx, agent.TopoServer, updatedTablet))
}
}()
if !topoproto.TabletAliasIsZero(oldMasterAlias) {
wg.Add(1)
go func() {
// Forcibly demote the old master in topology, since we can't rely on the
// old master to be up to change its own record.
oldMasterTablet, err := agent.TopoServer.UpdateTabletFields(ctx, oldMasterAlias,
func(tablet *topodatapb.Tablet) error {
tablet.Type = topodatapb.TabletType_SPARE
return nil
})
if err != nil {
errs.RecordError(err)
wg.Done()
return
}
// We now know more about the old master, so add it to event data.
ev.OldMaster = *oldMasterTablet
// Update the serving graph.
errs.RecordError(
topotools.UpdateTabletEndpoints(ctx, agent.TopoServer, oldMasterTablet))
wg.Done()
// Tell the old master to re-read its tablet record and change its state.
// We don't need to wait for it.
tmc := tmclient.NewTabletManagerClient()
tmc.RefreshState(ctx, topo.NewTabletInfo(oldMasterTablet, -1))
}()
}
tablet := agent.Tablet()
// Wait for the tablet records to be updated. At that point, any rebuild will
// see the new master, so we're ready to mark the reparent as done in the
// global shard record.
wg.Wait()
if errs.HasErrors() {
return errs.Error()
}
// Update the master field in the global shard record. We don't use a lock
// here anymore. The lock was only to ensure that the global shard record
// didn't get modified between the time when we read it and the time when we
// write it back. Now we use an update loop pattern to do that instead.
event.DispatchUpdate(ev, "updating global shard record")
log.Infof("finalizeTabletExternallyReparented: updating global shard record")
si, err = agent.TopoServer.UpdateShardFields(ctx, tablet.Keyspace, tablet.Shard, func(shard *topodatapb.Shard) error {
shard.MasterAlias = tablet.Alias
return nil
})
if err != nil {
return err
}
// We already took care of updating the serving graph for the old and new masters.
// All that's left now is in case of a cross-cell reparent, we need to update the
// master cell setting in the SrvShard records of all cells.
if oldMasterAlias == nil || oldMasterAlias.Cell != tablet.Alias.Cell {
event.DispatchUpdate(ev, "rebuilding shard serving graph")
log.Infof("finalizeTabletExternallyReparented: updating SrvShard in all cells for cross-cell reparent")
if err := topotools.UpdateAllSrvShards(ctx, agent.TopoServer, si); err != nil {
return err
}
}
event.DispatchUpdate(ev, "finished")
return nil
}
func (wr *Wrangler) plannedReparentShardLocked(ctx context.Context, ev *events.Reparent, keyspace, shard string, masterElectTabletAlias *pb.TabletAlias, waitSlaveTimeout time.Duration) error {
shardInfo, err := wr.ts.GetShard(ctx, keyspace, shard)
if err != nil {
return err
}
ev.ShardInfo = *shardInfo
event.DispatchUpdate(ev, "reading tablet map")
tabletMap, err := wr.ts.GetTabletMapForShard(ctx, keyspace, shard)
if err != nil {
return err
}
// Check corner cases we're going to depend on
masterElectTabletInfo, ok := tabletMap[*masterElectTabletAlias]
if !ok {
return fmt.Errorf("master-elect tablet %v is not in the shard", topoproto.TabletAliasString(masterElectTabletAlias))
}
ev.NewMaster = *masterElectTabletInfo.Tablet
if topoproto.TabletAliasEqual(shardInfo.MasterAlias, masterElectTabletAlias) {
return fmt.Errorf("master-elect tablet %v is already the master", topoproto.TabletAliasString(masterElectTabletAlias))
}
oldMasterTabletInfo, ok := tabletMap[*shardInfo.MasterAlias]
if !ok {
return fmt.Errorf("old master tablet %v is not in the shard", topoproto.TabletAliasString(shardInfo.MasterAlias))
}
ev.OldMaster = *oldMasterTabletInfo.Tablet
// Demote the current master, get its replication position
wr.logger.Infof("demote current master %v", shardInfo.MasterAlias)
event.DispatchUpdate(ev, "demoting old master")
rp, err := wr.tmc.DemoteMaster(ctx, oldMasterTabletInfo)
if err != nil {
return fmt.Errorf("old master tablet %v DemoteMaster failed: %v", topoproto.TabletAliasString(shardInfo.MasterAlias), err)
}
// Wait on the master-elect tablet until it reaches that position,
// then promote it
wr.logger.Infof("promote slave %v", topoproto.TabletAliasString(masterElectTabletAlias))
event.DispatchUpdate(ev, "promoting slave")
rp, err = wr.tmc.PromoteSlaveWhenCaughtUp(ctx, masterElectTabletInfo, rp)
if err != nil {
return fmt.Errorf("master-elect tablet %v failed to catch up with replication or be upgraded to master: %v", topoproto.TabletAliasString(masterElectTabletAlias), err)
}
// Go through all the tablets:
// - new master: populate the reparent journal
// - everybody else: reparent to new master, wait for row
event.DispatchUpdate(ev, "reparenting all tablets")
now := time.Now().UnixNano()
wgMaster := sync.WaitGroup{}
wgSlaves := sync.WaitGroup{}
rec := concurrency.AllErrorRecorder{}
var masterErr error
for alias, tabletInfo := range tabletMap {
if topoproto.TabletAliasEqual(&alias, masterElectTabletAlias) {
wgMaster.Add(1)
go func(alias pb.TabletAlias, tabletInfo *topo.TabletInfo) {
defer wgMaster.Done()
wr.logger.Infof("populating reparent journal on new master %v", topoproto.TabletAliasString(&alias))
masterErr = wr.TabletManagerClient().PopulateReparentJournal(ctx, tabletInfo, now, plannedReparentShardOperation, &alias, rp)
}(alias, tabletInfo)
} else {
wgSlaves.Add(1)
go func(alias pb.TabletAlias, tabletInfo *topo.TabletInfo) {
defer wgSlaves.Done()
wr.logger.Infof("setting new master on slave %v", topoproto.TabletAliasString(&alias))
// also restart replication on old master
forceStartSlave := topoproto.TabletAliasEqual(&alias, oldMasterTabletInfo.Alias)
if err := wr.TabletManagerClient().SetMaster(ctx, tabletInfo, masterElectTabletAlias, now, forceStartSlave); err != nil {
rec.RecordError(fmt.Errorf("Tablet %v SetMaster failed: %v", topoproto.TabletAliasString(&alias), err))
return
}
}(alias, tabletInfo)
}
}
// After the master is done, we can update the shard record
// (note with semi-sync, it also means at least one slave is done)
wgMaster.Wait()
if masterErr != nil {
wgSlaves.Wait()
return fmt.Errorf("failed to PopulateReparentJournal on master: %v", masterErr)
}
wr.logger.Infof("updating shard record with new master %v", masterElectTabletAlias)
shardInfo.MasterAlias = masterElectTabletAlias
if err := wr.ts.UpdateShard(ctx, shardInfo); err != nil {
wgSlaves.Wait()
return fmt.Errorf("failed to update shard master record: %v", err)
}
// Wait for the slaves to complete. If some of them fail, we
// will rebuild the shard serving graph anyway
wgSlaves.Wait()
if err := rec.Error(); err != nil {
wr.Logger().Errorf("Some slaves failed to reparent: %v", err)
return err
}
// Then we rebuild the entire serving graph for the shard,
// to account for all changes.
wr.logger.Infof("rebuilding shard graph")
event.DispatchUpdate(ev, "rebuilding shard serving graph")
_, err = wr.RebuildShardGraph(ctx, keyspace, shard, nil)
return err
}
// finalizeTabletExternallyReparented performs slow, synchronized reconciliation
// tasks that ensure topology is self-consistent, and then marks the reparent as
// finished by updating the global shard record.
func (agent *ActionAgent) finalizeTabletExternallyReparented(ctx context.Context, si *topo.ShardInfo, ev *events.Reparent) (err error) {
var wg sync.WaitGroup
var errs concurrency.AllErrorRecorder
oldMasterAlias := si.MasterAlias
// Update the tablet records concurrently.
event.DispatchUpdate(ev, "updating old and new master tablet records")
log.Infof("finalizeTabletExternallyReparented: updating tablet records")
wg.Add(1)
go func() {
defer wg.Done()
// Update our own record to master.
_, err := agent.TopoServer.UpdateTabletFields(ctx, agent.TabletAlias,
func(tablet *topodatapb.Tablet) error {
tablet.Type = topodatapb.TabletType_MASTER
return nil
})
if err != nil {
errs.RecordError(err)
}
}()
if !topoproto.TabletAliasIsZero(oldMasterAlias) {
wg.Add(1)
go func() {
// Forcibly demote the old master in topology, since we can't rely on the
// old master to be up to change its own record.
oldMasterTablet, err := agent.TopoServer.UpdateTabletFields(ctx, oldMasterAlias,
func(tablet *topodatapb.Tablet) error {
tablet.Type = topodatapb.TabletType_REPLICA
return nil
})
if err != nil {
errs.RecordError(err)
wg.Done()
return
}
// We now know more about the old master, so add it to event data.
ev.OldMaster = *oldMasterTablet
wg.Done()
// Tell the old master to re-read its tablet record and change its state.
// We don't need to wait for it.
tmc := tmclient.NewTabletManagerClient()
tmc.RefreshState(ctx, oldMasterTablet)
}()
}
tablet := agent.Tablet()
// Wait for the tablet records to be updated. At that point, any rebuild will
// see the new master, so we're ready to mark the reparent as done in the
// global shard record.
wg.Wait()
if errs.HasErrors() {
return errs.Error()
}
// Update the master field in the global shard record. We don't use a lock
// here anymore. The lock was only to ensure that the global shard record
// didn't get modified between the time when we read it and the time when we
// write it back. Now we use an update loop pattern to do that instead.
event.DispatchUpdate(ev, "updating global shard record")
log.Infof("finalizeTabletExternallyReparented: updating global shard record if needed")
_, err = agent.TopoServer.UpdateShardFields(ctx, tablet.Keyspace, tablet.Shard, func(si *topo.ShardInfo) error {
if topoproto.TabletAliasEqual(si.MasterAlias, tablet.Alias) {
return topo.ErrNoUpdateNeeded
}
si.MasterAlias = tablet.Alias
return nil
})
if err != nil {
return err
}
event.DispatchUpdate(ev, "finished")
return nil
}
