Exemple #1
0
func createDiscoveryGateway(hc discovery.HealthCheck, topoServer topo.Server, serv topo.SrvTopoServer, cell string, retryCount int) Gateway {
	dg := &discoveryGateway{
		hc:                hc,
		tsc:               discovery.NewTabletStatsCache(hc, cell),
		topoServer:        topoServer,
		srvTopoServer:     serv,
		localCell:         cell,
		retryCount:        retryCount,
		tabletsWatchers:   make([]*discovery.TopologyWatcher, 0, 1),
		statusAggregators: make(map[string]*TabletStatusAggregator),
	}
	log.Infof("loading tablets for cells: %v", *cellsToWatch)
	for _, c := range strings.Split(*cellsToWatch, ",") {
		if c == "" {
			continue
		}
		var tr discovery.TabletRecorder = dg.hc
		if len(tabletFilters) > 0 {
			fbs, err := discovery.NewFilterByShard(dg.hc, tabletFilters)
			if err != nil {
				log.Fatalf("Cannot parse tablet_filters parameter: %v", err)
			}
			tr = fbs
		}

		ctw := discovery.NewCellTabletsWatcher(dg.topoServer, tr, c, *refreshInterval, *topoReadConcurrency)
		dg.tabletsWatchers = append(dg.tabletsWatchers, ctw)
	}
	return dg
}
Exemple #2
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// newBinlogPlayerController instantiates a new BinlogPlayerController.
// Use Start() and Stop() to start and stop it.
// Once stopped, you should call Close() to stop and free resources e.g. the
// healthcheck instance.
func newBinlogPlayerController(ts topo.Server, vtClientFactory func() binlogplayer.VtClient, mysqld mysqlctl.MysqlDaemon, cell string, keyRange *topodatapb.KeyRange, sourceShard *topodatapb.Shard_SourceShard, dbName string) *BinlogPlayerController {
	healthCheck := discovery.NewHealthCheck(*binlogplayer.BinlogPlayerConnTimeout, *healthcheckRetryDelay, *healthCheckTimeout)
	return &BinlogPlayerController{
		ts:                ts,
		vtClientFactory:   vtClientFactory,
		mysqld:            mysqld,
		cell:              cell,
		keyRange:          keyRange,
		dbName:            dbName,
		sourceShard:       sourceShard,
		binlogPlayerStats: binlogplayer.NewStats(),
		// Note: healthCheck and shardReplicationWatcher remain active independent
		// of whether the BinlogPlayerController is Start()'d or Stop()'d.
		// Use Close() after Stop() to finally close them and free their resources.
		healthCheck:             healthCheck,
		tabletStatsCache:        discovery.NewTabletStatsCache(healthCheck, cell),
		shardReplicationWatcher: discovery.NewShardReplicationWatcher(ts, healthCheck, cell, sourceShard.Keyspace, sourceShard.Shard, *healthCheckTopologyRefresh, discovery.DefaultTopoReadConcurrency),
	}
}
Exemple #3
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// FindHealthyRdonlyTablet returns a random healthy RDONLY tablet.
// Since we don't want to use them all, we require at least
// minHealthyRdonlyTablets servers to be healthy.
// May block up to -wait_for_healthy_rdonly_tablets_timeout.
func FindHealthyRdonlyTablet(ctx context.Context, wr *wrangler.Wrangler, tsc *discovery.TabletStatsCache, cell, keyspace, shard string, minHealthyRdonlyTablets int) (*topodatapb.TabletAlias, error) {
	if tsc == nil {
		// No healthcheck instance provided. Create one.
		healthCheck := discovery.NewHealthCheck(*remoteActionsTimeout, *healthcheckRetryDelay, *healthCheckTimeout)
		tsc = discovery.NewTabletStatsCache(healthCheck, cell)
		watcher := discovery.NewShardReplicationWatcher(wr.TopoServer(), healthCheck, cell, keyspace, shard, *healthCheckTopologyRefresh, discovery.DefaultTopoReadConcurrency)
		defer watcher.Stop()
		defer healthCheck.Close()
	}

	healthyTablets, err := waitForHealthyRdonlyTablets(ctx, wr, tsc, cell, keyspace, shard, minHealthyRdonlyTablets, *waitForHealthyTabletsTimeout)
	if err != nil {
		return nil, err
	}

	// random server in the list is what we want
	index := rand.Intn(len(healthyTablets))
	return healthyTablets[index].Tablet.Alias, nil
}
// findTargets phase:
// - find one rdonly in the source shard
// - mark it as 'worker' pointing back to us
// - get the aliases of all the targets
func (vscw *VerticalSplitCloneWorker) findTargets(ctx context.Context) error {
	vscw.setState(WorkerStateFindTargets)

	// find an appropriate tablet in the source shard
	var err error
	vscw.sourceAlias, err = FindWorkerTablet(ctx, vscw.wr, vscw.cleaner, nil /* tsc */, vscw.cell, vscw.sourceKeyspace, "0", vscw.minHealthyRdonlyTablets)
	if err != nil {
		return fmt.Errorf("FindWorkerTablet() failed for %v/%v/0: %v", vscw.cell, vscw.sourceKeyspace, err)
	}
	vscw.wr.Logger().Infof("Using tablet %v as the source", topoproto.TabletAliasString(vscw.sourceAlias))

	// get the tablet info for it
	shortCtx, cancel := context.WithTimeout(ctx, *remoteActionsTimeout)
	ti, err := vscw.wr.TopoServer().GetTablet(shortCtx, vscw.sourceAlias)
	cancel()
	if err != nil {
		return fmt.Errorf("cannot read tablet %v: %v", topoproto.TabletAliasString(vscw.sourceAlias), err)
	}
	vscw.sourceTablet = ti.Tablet

	// stop replication on it
	shortCtx, cancel = context.WithTimeout(ctx, *remoteActionsTimeout)
	err = vscw.wr.TabletManagerClient().StopSlave(shortCtx, vscw.sourceTablet)
	cancel()
	if err != nil {
		return fmt.Errorf("cannot stop replication on tablet %v", topoproto.TabletAliasString(vscw.sourceAlias))
	}

	wrangler.RecordStartSlaveAction(vscw.cleaner, vscw.sourceTablet)

	// Initialize healthcheck and add destination shards to it.
	vscw.healthCheck = discovery.NewHealthCheck(*remoteActionsTimeout, *healthcheckRetryDelay, *healthCheckTimeout)
	vscw.tsc = discovery.NewTabletStatsCache(vscw.healthCheck, vscw.cell)
	watcher := discovery.NewShardReplicationWatcher(vscw.wr.TopoServer(), vscw.healthCheck,
		vscw.cell, vscw.destinationKeyspace, vscw.destinationShard,
		*healthCheckTopologyRefresh, discovery.DefaultTopoReadConcurrency)
	vscw.destinationShardWatchers = append(vscw.destinationShardWatchers, watcher)

	// Make sure we find a master for each destination shard and log it.
	vscw.wr.Logger().Infof("Finding a MASTER tablet for each destination shard...")
	waitCtx, waitCancel := context.WithTimeout(ctx, *waitForHealthyTabletsTimeout)
	defer waitCancel()
	if err := vscw.tsc.WaitForTablets(waitCtx, vscw.cell, vscw.destinationKeyspace, vscw.destinationShard, []topodatapb.TabletType{topodatapb.TabletType_MASTER}); err != nil {
		return fmt.Errorf("cannot find MASTER tablet for destination shard for %v/%v (in cell: %v): %v", vscw.destinationKeyspace, vscw.destinationShard, vscw.cell, err)
	}
	masters := vscw.tsc.GetHealthyTabletStats(vscw.destinationKeyspace, vscw.destinationShard, topodatapb.TabletType_MASTER)
	if len(masters) == 0 {
		return fmt.Errorf("cannot find MASTER tablet for destination shard for %v/%v (in cell: %v) in HealthCheck: empty TabletStats list", vscw.destinationKeyspace, vscw.destinationShard, vscw.cell)
	}
	master := masters[0]

	// Get the MySQL database name of the tablet.
	keyspaceAndShard := topoproto.KeyspaceShardString(vscw.destinationKeyspace, vscw.destinationShard)
	vscw.destinationDbNames[keyspaceAndShard] = topoproto.TabletDbName(master.Tablet)

	// TODO(mberlin): Verify on the destination master that the
	// _vt.blp_checkpoint table has the latest schema.

	vscw.wr.Logger().Infof("Using tablet %v as destination master for %v/%v", topoproto.TabletAliasString(master.Tablet.Alias), vscw.destinationKeyspace, vscw.destinationShard)
	vscw.wr.Logger().Infof("NOTE: The used master of a destination shard might change over the course of the copy e.g. due to a reparent. The HealthCheck module will track and log master changes and any error message will always refer the actually used master address.")

	return nil
}
// findTargets phase:
// - find one rdonly in the source shard
// - mark it as 'worker' pointing back to us
// - get the aliases of all the targets
func (scw *LegacySplitCloneWorker) findTargets(ctx context.Context) error {
	scw.setState(WorkerStateFindTargets)
	var err error

	// find an appropriate tablet in the source shards
	scw.sourceAliases = make([]*topodatapb.TabletAlias, len(scw.sourceShards))
	for i, si := range scw.sourceShards {
		scw.sourceAliases[i], err = FindWorkerTablet(ctx, scw.wr, scw.cleaner, scw.tsc, scw.cell, si.Keyspace(), si.ShardName(), scw.minHealthyRdonlyTablets)
		if err != nil {
			return fmt.Errorf("FindWorkerTablet() failed for %v/%v/%v: %v", scw.cell, si.Keyspace(), si.ShardName(), err)
		}
		scw.wr.Logger().Infof("Using tablet %v as source for %v/%v", topoproto.TabletAliasString(scw.sourceAliases[i]), si.Keyspace(), si.ShardName())
	}

	// get the tablet info for them, and stop their replication
	scw.sourceTablets = make([]*topodatapb.Tablet, len(scw.sourceAliases))
	for i, alias := range scw.sourceAliases {
		shortCtx, cancel := context.WithTimeout(ctx, *remoteActionsTimeout)
		ti, err := scw.wr.TopoServer().GetTablet(shortCtx, alias)
		cancel()
		if err != nil {
			return fmt.Errorf("cannot read tablet %v: %v", topoproto.TabletAliasString(alias), err)
		}
		scw.sourceTablets[i] = ti.Tablet

		shortCtx, cancel = context.WithTimeout(ctx, *remoteActionsTimeout)
		err = scw.wr.TabletManagerClient().StopSlave(shortCtx, scw.sourceTablets[i])
		cancel()
		if err != nil {
			return fmt.Errorf("cannot stop replication on tablet %v", topoproto.TabletAliasString(alias))
		}

		wrangler.RecordStartSlaveAction(scw.cleaner, scw.sourceTablets[i])
	}

	// Initialize healthcheck and add destination shards to it.
	scw.healthCheck = discovery.NewHealthCheck(*remoteActionsTimeout, *healthcheckRetryDelay, *healthCheckTimeout)
	scw.tsc = discovery.NewTabletStatsCache(scw.healthCheck, scw.cell)
	for _, si := range scw.destinationShards {
		watcher := discovery.NewShardReplicationWatcher(scw.wr.TopoServer(), scw.healthCheck,
			scw.cell, si.Keyspace(), si.ShardName(),
			*healthCheckTopologyRefresh, discovery.DefaultTopoReadConcurrency)
		scw.destinationShardWatchers = append(scw.destinationShardWatchers, watcher)
	}

	// Make sure we find a master for each destination shard and log it.
	scw.wr.Logger().Infof("Finding a MASTER tablet for each destination shard...")
	for _, si := range scw.destinationShards {
		waitCtx, waitCancel := context.WithTimeout(ctx, 10*time.Second)
		defer waitCancel()
		if err := scw.tsc.WaitForTablets(waitCtx, scw.cell, si.Keyspace(), si.ShardName(), []topodatapb.TabletType{topodatapb.TabletType_MASTER}); err != nil {
			return fmt.Errorf("cannot find MASTER tablet for destination shard for %v/%v: %v", si.Keyspace(), si.ShardName(), err)
		}
		masters := scw.tsc.GetHealthyTabletStats(si.Keyspace(), si.ShardName(), topodatapb.TabletType_MASTER)
		if len(masters) == 0 {
			return fmt.Errorf("cannot find MASTER tablet for destination shard for %v/%v in HealthCheck: empty TabletStats list", si.Keyspace(), si.ShardName())
		}
		master := masters[0]

		// Get the MySQL database name of the tablet.
		shortCtx, cancel := context.WithTimeout(ctx, *remoteActionsTimeout)
		ti, err := scw.wr.TopoServer().GetTablet(shortCtx, master.Tablet.Alias)
		cancel()
		if err != nil {
			return fmt.Errorf("cannot get the TabletInfo for destination master (%v) to find out its db name: %v", topoproto.TabletAliasString(master.Tablet.Alias), err)
		}
		keyspaceAndShard := topoproto.KeyspaceShardString(si.Keyspace(), si.ShardName())
		scw.destinationDbNames[keyspaceAndShard] = ti.DbName()

		// TODO(mberlin): Verify on the destination master that the
		// _vt.blp_checkpoint table has the latest schema.

		scw.wr.Logger().Infof("Using tablet %v as destination master for %v/%v", topoproto.TabletAliasString(master.Tablet.Alias), si.Keyspace(), si.ShardName())
	}
	scw.wr.Logger().Infof("NOTE: The used master of a destination shard might change over the course of the copy e.g. due to a reparent. The HealthCheck module will track and log master changes and any error message will always refer the actually used master address.")

	// Set up the throttler for each destination shard.
	for _, si := range scw.destinationShards {
		keyspaceAndShard := topoproto.KeyspaceShardString(si.Keyspace(), si.ShardName())
		t, err := throttler.NewThrottler(
			keyspaceAndShard, "transactions", scw.destinationWriterCount, scw.maxTPS, throttler.ReplicationLagModuleDisabled)
		if err != nil {
			return fmt.Errorf("cannot instantiate throttler: %v", err)
		}
		scw.destinationThrottlers[keyspaceAndShard] = t
	}

	return nil
}
Exemple #6
0
// init phase:
// - read the destination keyspace, make sure it has 'servedFrom' values
func (scw *SplitCloneWorker) init(ctx context.Context) error {
	scw.setState(WorkerStateInit)
	var err error

	// read the keyspace and validate it
	shortCtx, cancel := context.WithTimeout(ctx, *remoteActionsTimeout)
	scw.keyspaceInfo, err = scw.wr.TopoServer().GetKeyspace(shortCtx, scw.keyspace)
	cancel()
	if err != nil {
		return fmt.Errorf("cannot read keyspace %v: %v", scw.keyspace, err)
	}

	// find the OverlappingShards in the keyspace
	shortCtx, cancel = context.WithTimeout(ctx, *remoteActionsTimeout)
	osList, err := topotools.FindOverlappingShards(shortCtx, scw.wr.TopoServer(), scw.keyspace)
	cancel()
	if err != nil {
		return fmt.Errorf("cannot FindOverlappingShards in %v: %v", scw.keyspace, err)
	}

	// find the shard we mentioned in there, if any
	os := topotools.OverlappingShardsForShard(osList, scw.shard)
	if os == nil {
		return fmt.Errorf("the specified shard %v/%v is not in any overlapping shard", scw.keyspace, scw.shard)
	}
	scw.wr.Logger().Infof("Found overlapping shards: %+v\n", os)

	// one side should have served types, the other one none,
	// figure out wich is which, then double check them all
	if len(os.Left[0].ServedTypes) > 0 {
		scw.sourceShards = os.Left
		scw.destinationShards = os.Right
	} else {
		scw.sourceShards = os.Right
		scw.destinationShards = os.Left
	}

	// Verify that filtered replication is not already enabled.
	for _, si := range scw.destinationShards {
		if len(si.SourceShards) > 0 {
			return fmt.Errorf("destination shard %v/%v has filtered replication already enabled from a previous resharding (ShardInfo is set)."+
				" This requires manual intervention e.g. use vtctl SourceShardDelete to remove it",
				si.Keyspace(), si.ShardName())
		}
	}

	// validate all serving types
	servingTypes := []topodatapb.TabletType{topodatapb.TabletType_MASTER, topodatapb.TabletType_REPLICA, topodatapb.TabletType_RDONLY}
	for _, st := range servingTypes {
		for _, si := range scw.sourceShards {
			if si.GetServedType(st) == nil {
				return fmt.Errorf("source shard %v/%v is not serving type %v", si.Keyspace(), si.ShardName(), st)
			}
		}
	}
	for _, si := range scw.destinationShards {
		if len(si.ServedTypes) > 0 {
			return fmt.Errorf("destination shard %v/%v is serving some types", si.Keyspace(), si.ShardName())
		}
	}

	// read the vschema if needed
	var keyspaceSchema *vindexes.KeyspaceSchema
	if *useV3ReshardingMode {
		kschema, err := scw.wr.TopoServer().GetVSchema(ctx, scw.keyspace)
		if err != nil {
			return fmt.Errorf("cannot load VSchema for keyspace %v: %v", scw.keyspace, err)
		}
		if kschema == nil {
			return fmt.Errorf("no VSchema for keyspace %v", scw.keyspace)
		}

		keyspaceSchema, err = vindexes.BuildKeyspaceSchema(kschema, scw.keyspace)
		if err != nil {
			return fmt.Errorf("cannot build vschema for keyspace %v: %v", scw.keyspace, err)
		}
		scw.keyspaceSchema = keyspaceSchema
	}

	// Initialize healthcheck and add destination shards to it.
	scw.healthCheck = discovery.NewHealthCheck(*remoteActionsTimeout, *healthcheckRetryDelay, *healthCheckTimeout)
	scw.tsc = discovery.NewTabletStatsCache(scw.healthCheck, scw.cell)
	allShards := append(scw.sourceShards, scw.destinationShards...)
	for _, si := range allShards {
		watcher := discovery.NewShardReplicationWatcher(scw.wr.TopoServer(), scw.healthCheck,
			scw.cell, si.Keyspace(), si.ShardName(),
			*healthCheckTopologyRefresh, discovery.DefaultTopoReadConcurrency)
		scw.shardWatchers = append(scw.shardWatchers, watcher)
	}

	return nil
}
Exemple #7
0
func (wr *Wrangler) waitForDrainInCell(ctx context.Context, cell, keyspace, shard string, servedType topodatapb.TabletType,
	retryDelay, healthCheckTopologyRefresh, healthcheckRetryDelay, healthCheckTimeout, initialWait time.Duration) error {

	// Create the healthheck module, with a cache.
	hc := discovery.NewHealthCheck(healthCheckTimeout /* connectTimeout */, healthcheckRetryDelay, healthCheckTimeout)
	defer hc.Close()
	tsc := discovery.NewTabletStatsCache(hc, cell)

	// Create a tablet watcher.
	watcher := discovery.NewShardReplicationWatcher(wr.TopoServer(), hc, cell, keyspace, shard, healthCheckTopologyRefresh, discovery.DefaultTopoReadConcurrency)
	defer watcher.Stop()

	// Wait for at least one tablet.
	if err := tsc.WaitForTablets(ctx, cell, keyspace, shard, []topodatapb.TabletType{servedType}); err != nil {
		return fmt.Errorf("%v: error waiting for initial %v tablets for %v/%v: %v", cell, servedType, keyspace, shard, err)
	}

	wr.Logger().Infof("%v: Waiting for %.1f seconds to make sure that the discovery module retrieves healthcheck information from all tablets.",
		cell, initialWait.Seconds())
	// Wait at least for -initial_wait to elapse to make sure that we
	// see all healthy tablets. Otherwise, we might miss some tablets.
	// Note the default value for the parameter is set to the same
	// default as healthcheck timeout, and it's safe to wait not
	// longer for this because we would only miss slow tablets and
	// vtgate would not serve from such tablets anyway.
	time.Sleep(initialWait)

	// Now check the QPS rate of all tablets until the timeout expires.
	startTime := time.Now()
	for {
		// map key: tablet uid
		drainedHealthyTablets := make(map[uint32]*discovery.TabletStats)
		notDrainedHealtyTablets := make(map[uint32]*discovery.TabletStats)

		healthyTablets := tsc.GetHealthyTabletStats(keyspace, shard, servedType)
		for _, ts := range healthyTablets {
			if ts.Stats.Qps == 0.0 {
				drainedHealthyTablets[ts.Tablet.Alias.Uid] = &ts
			} else {
				notDrainedHealtyTablets[ts.Tablet.Alias.Uid] = &ts
			}
		}

		if len(drainedHealthyTablets) == len(healthyTablets) {
			wr.Logger().Infof("%v: All %d healthy tablets were drained after %.1f seconds (not counting %.1f seconds for the initial wait).",
				cell, len(healthyTablets), time.Now().Sub(startTime).Seconds(), healthCheckTimeout.Seconds())
			break
		}

		// Continue waiting, sleep in between.
		deadlineString := ""
		if d, ok := ctx.Deadline(); ok {
			deadlineString = fmt.Sprintf(" up to %.1f more seconds", d.Sub(time.Now()).Seconds())
		}
		wr.Logger().Infof("%v: Waiting%v for all healthy tablets to be drained (%d/%d done).",
			cell, deadlineString, len(drainedHealthyTablets), len(healthyTablets))

		timer := time.NewTimer(retryDelay)
		select {
		case <-ctx.Done():
			timer.Stop()

			var l []string
			for _, ts := range notDrainedHealtyTablets {
				l = append(l, formatTabletStats(ts))
			}
			return fmt.Errorf("%v: WaitForDrain failed for %v tablets in %v/%v. Only %d/%d tablets were drained. err: %v List of tablets which were not drained: %v",
				cell, servedType, keyspace, shard, len(drainedHealthyTablets), len(healthyTablets), ctx.Err(), strings.Join(l, ";"))
		case <-timer.C:
		}
	}

	return nil
}