// TestNewRestartableResultReader tests the correct error handling e.g.
// if the connection to a tablet fails due to a canceled context.
func TestNewRestartableResultReader(t *testing.T) {
wantErr := errors.New("restartable_result_reader_test.go: context canceled")
tabletconn.RegisterDialer("fake_dialer", func(tablet *topodatapb.Tablet, timeout time.Duration) (tabletconn.TabletConn, error) {
return nil, wantErr
})
protocol := flag.CommandLine.Lookup("tablet_protocol").Value.String()
flag.Set("tablet_protocol", "fake_dialer")
// Restore the previous flag value after the test.
defer flag.Set("tablet_protocol", protocol)
// Create dependencies e.g. a "singleTabletProvider" instance.
ts := zktestserver.New(t, []string{"cell1"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient())
alias := &topodatapb.TabletAlias{
Cell: "cell1",
Uid: 1,
}
tablet := &topodatapb.Tablet{
Keyspace: "ks1",
Shard: "-80",
Alias: alias,
}
ctx := context.Background()
if err := ts.CreateTablet(ctx, tablet); err != nil {
t.Fatalf("CreateTablet failed: %v", err)
}
tp := newSingleTabletProvider(ctx, ts, alias)
_, err := NewRestartableResultReader(ctx, wr.Logger(), tp, nil /* td */, chunk{}, false)
if err == nil || !strings.Contains(err.Error(), wantErr.Error()) {
t.Fatalf("NewRestartableResultReader() should have failed because the context is canceled: %v", err)
}
}
// ExecuteVtctlCommand is the server side method that will execute the query,
// and stream the results.
func (s *VtctlServer) ExecuteVtctlCommand(context context.Context, query *gorpcproto.ExecuteVtctlCommandArgs, sendReply func(interface{}) error) error {
// create a logger, send the result back to the caller
logger := logutil.NewChannelLogger(10)
wg := sync.WaitGroup{}
wg.Add(1)
go func() {
for e := range logger {
// Note we don't interrupt the loop here, as
// we still need to flush and finish the
// command, even if the channel to the client
// has been broken. We'll just keep logging the lines.
if err := sendReply(&e); err != nil {
log.Warningf("Cannot send vtctl log line: %v", e)
}
}
wg.Done()
}()
// create the wrangler
wr := wrangler.New(logger, s.ts, query.ActionTimeout, query.LockTimeout)
// execute the command, wait for it to finish if required
actionPath, err := vtctl.RunCommand(wr, query.Args)
if err == nil && actionPath != "" {
err = wr.WaitForCompletion(actionPath)
}
// close the log channel, and wait for them all to be sent
close(logger)
wg.Wait()
return err
}
func (ar *ActionRepository) ApplyTabletAction(actionName string, tabletAlias topo.TabletAlias, r *http.Request) *ActionResult {
result := &ActionResult{Name: actionName, Parameters: tabletAlias.String()}
action, ok := ar.tabletActions[actionName]
if !ok {
result.error("Unknown tablet action")
return result
}
// check the role
if action.role != "" {
if err := acl.CheckAccessHTTP(r, action.role); err != nil {
result.error("Access denied")
return result
}
}
// run the action
wr := wrangler.New(logutil.NewConsoleLogger(), ar.ts, wrangler.DefaultActionTimeout, actionnode.DefaultLockTimeout)
output, err := action.method(wr, tabletAlias, r)
if err != nil {
result.error(err.Error())
return result
}
result.Output = output
return result
}
// ExecuteVtctlCommand is part of the pb.VtctlServer interface
func (s *VtctlServer) ExecuteVtctlCommand(args *pb.ExecuteVtctlCommandRequest, stream pbs.Vtctl_ExecuteVtctlCommandServer) (err error) {
defer servenv.HandlePanic("vtctl", &err)
// create a logger, send the result back to the caller
logstream := logutil.NewChannelLogger(10)
logger := logutil.NewTeeLogger(logstream, logutil.NewConsoleLogger())
// send logs to the caller
wg := sync.WaitGroup{}
wg.Add(1)
go func() {
for e := range logstream {
// Note we don't interrupt the loop here, as
// we still need to flush and finish the
// command, even if the channel to the client
// has been broken. We'll just keep trying.
stream.Send(&pb.ExecuteVtctlCommandResponse{
Event: logutil.LoggerEventToProto(&e),
})
}
wg.Done()
}()
// create the wrangler
wr := wrangler.New(logger, s.ts, tmclient.NewTabletManagerClient(), time.Duration(args.LockTimeout))
// execute the command
err = vtctl.RunCommand(stream.Context(), wr, args.Args)
// close the log channel, and wait for them all to be sent
close(logstream)
wg.Wait()
return err
}
// ApplyTabletAction applies the provided action to the tablet.
func (ar *ActionRepository) ApplyTabletAction(ctx context.Context, actionName string, tabletAlias *topodatapb.TabletAlias, r *http.Request) *ActionResult {
result := &ActionResult{
Name: actionName,
Parameters: topoproto.TabletAliasString(tabletAlias),
}
action, ok := ar.tabletActions[actionName]
if !ok {
result.error("Unknown tablet action")
return result
}
// check the role
if action.role != "" {
if err := acl.CheckAccessHTTP(r, action.role); err != nil {
result.error("Access denied")
return result
}
}
// run the action
ctx, cancel := context.WithTimeout(ctx, *actionTimeout)
wr := wrangler.New(logutil.NewConsoleLogger(), ar.ts, tmclient.NewTabletManagerClient())
output, err := action.method(ctx, wr, tabletAlias, r)
cancel()
if err != nil {
result.error(err.Error())
return result
}
result.Output = output
return result
}
// TestEmergencyReparentShardMasterElectNotBest tries to emergency reparent
// to a host that is not the latest in replication position.
func TestEmergencyReparentShardMasterElectNotBest(t *testing.T) {
ctx := context.Background()
ts := zktopo.NewTestServer(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient(), time.Second)
// Create a master, a couple good slaves
oldMaster := NewFakeTablet(t, wr, "cell1", 0, topo.TYPE_MASTER)
newMaster := NewFakeTablet(t, wr, "cell1", 1, topo.TYPE_REPLICA)
moreAdvancedSlave := NewFakeTablet(t, wr, "cell1", 2, topo.TYPE_REPLICA)
// new master
newMaster.FakeMysqlDaemon.Replicating = true
newMaster.FakeMysqlDaemon.CurrentMasterPosition = myproto.ReplicationPosition{
GTIDSet: myproto.MariadbGTID{
Domain: 2,
Server: 123,
Sequence: 456,
},
}
newMaster.FakeMysqlDaemon.ExpectedExecuteSuperQueryList = []string{
"STOP SLAVE",
}
newMaster.StartActionLoop(t, wr)
defer newMaster.StopActionLoop(t)
// old master, will be scrapped
oldMaster.StartActionLoop(t, wr)
defer oldMaster.StopActionLoop(t)
// more advanced slave
moreAdvancedSlave.FakeMysqlDaemon.Replicating = true
moreAdvancedSlave.FakeMysqlDaemon.CurrentMasterPosition = myproto.ReplicationPosition{
GTIDSet: myproto.MariadbGTID{
Domain: 2,
Server: 123,
Sequence: 457,
},
}
moreAdvancedSlave.FakeMysqlDaemon.ExpectedExecuteSuperQueryList = []string{
"STOP SLAVE",
}
moreAdvancedSlave.StartActionLoop(t, wr)
defer moreAdvancedSlave.StopActionLoop(t)
// run EmergencyReparentShard
if err := wr.EmergencyReparentShard(ctx, newMaster.Tablet.Keyspace, newMaster.Tablet.Shard, newMaster.Tablet.Alias, 10*time.Second); err == nil || !strings.Contains(err.Error(), "is more advanced than master elect tablet") {
t.Fatalf("EmergencyReparentShard returned the wrong error: %v", err)
}
// check what was run
if err := newMaster.FakeMysqlDaemon.CheckSuperQueryList(); err != nil {
t.Fatalf("newMaster.FakeMysqlDaemon.CheckSuperQueryList failed: %v", err)
}
if err := oldMaster.FakeMysqlDaemon.CheckSuperQueryList(); err != nil {
t.Fatalf("oldMaster.FakeMysqlDaemon.CheckSuperQueryList failed: %v", err)
}
if err := moreAdvancedSlave.FakeMysqlDaemon.CheckSuperQueryList(); err != nil {
t.Fatalf("moreAdvancedSlave.FakeMysqlDaemon.CheckSuperQueryList failed: %v", err)
}
}
func TestSchemaManagerExecutorFail(t *testing.T) {
sql := "create table test_table (pk int)"
controller := newFakeController([]string{sql}, false, false, false)
fakeTmc := newFakeTabletManagerClient()
fakeTmc.AddSchemaChange(sql, &tabletmanagerdatapb.SchemaChangeResult{
BeforeSchema: &tabletmanagerdatapb.SchemaDefinition{},
AfterSchema: &tabletmanagerdatapb.SchemaDefinition{
DatabaseSchema: "CREATE DATABASE `{{.DatabaseName}}` /*!40100 DEFAULT CHARACTER SET utf8 */",
TableDefinitions: []*tabletmanagerdatapb.TableDefinition{
{
Name: "test_table",
Schema: sql,
Type: tmutils.TableBaseTable,
},
},
},
})
fakeTmc.AddSchemaDefinition("vt_test_keyspace", &tabletmanagerdatapb.SchemaDefinition{})
fakeTmc.EnableExecuteFetchAsDbaError = true
wr := wrangler.New(logutil.NewConsoleLogger(), newFakeTopo(), fakeTmc)
executor := NewTabletExecutor(wr, testWaitSlaveTimeout)
ctx := context.Background()
err := Run(ctx, controller, executor)
if err == nil {
t.Fatalf("schema change should fail")
}
}
func TestTabletExternallyReparentedFailedOldMaster(t *testing.T) {
tabletmanager.SetReparentFlags(time.Minute /* finalizeTimeout */)
ctx := context.Background()
ts := zktopo.NewTestServer(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient(), time.Second)
// Create an old master, a new master, and a good slave.
oldMaster := NewFakeTablet(t, wr, "cell1", 0, topo.TYPE_MASTER)
newMaster := NewFakeTablet(t, wr, "cell1", 1, topo.TYPE_REPLICA)
goodSlave := NewFakeTablet(t, wr, "cell1", 2, topo.TYPE_REPLICA)
// Reparent to a replica, and pretend the old master is not responding.
// On the elected master, we will respond to
// TabletActionSlaveWasPromoted
newMaster.StartActionLoop(t, wr)
defer newMaster.StopActionLoop(t)
// On the old master, we will only get a
// TabletActionSlaveWasRestarted call, let's just not
// respond to it at all
// On the good slave, we will respond to
// TabletActionSlaveWasRestarted.
goodSlave.StartActionLoop(t, wr)
defer goodSlave.StopActionLoop(t)
// The reparent should work as expected here
t.Logf("TabletExternallyReparented(new master) expecting success")
tmc := tmclient.NewTabletManagerClient()
ti, err := ts.GetTablet(ctx, newMaster.Tablet.Alias)
if err != nil {
t.Fatalf("GetTablet failed: %v", err)
}
waitID := makeWaitID()
if err := tmc.TabletExternallyReparented(context.Background(), ti, waitID); err != nil {
t.Fatalf("TabletExternallyReparented(replica) failed: %v", err)
}
waitForExternalReparent(t, waitID)
// Now double-check the serving graph is good.
// Should only have one good replica left.
addrs, _, err := ts.GetEndPoints(ctx, "cell1", "test_keyspace", "0", topo.TYPE_REPLICA)
if err != nil {
t.Fatalf("GetEndPoints failed at the end: %v", err)
}
if len(addrs.Entries) != 1 {
t.Fatalf("GetEndPoints has too many entries: %v", addrs)
}
// check the old master was converted to spare
tablet, err := ts.GetTablet(ctx, oldMaster.Tablet.Alias)
if err != nil {
t.Fatalf("GetTablet(%v) failed: %v", oldMaster.Tablet.Alias, err)
}
if tablet.Type != topo.TYPE_SPARE {
t.Fatalf("old master should be spare but is: %v", tablet.Type)
}
}
// ApplyShardAction applies the provided action to the shard.
func (ar *ActionRepository) ApplyShardAction(ctx context.Context, actionName, keyspace, shard string, r *http.Request) *ActionResult {
// if the shard name contains a '-', we assume it's the
// name for a ranged based shard, so we lower case it.
if strings.Contains(shard, "-") {
shard = strings.ToLower(shard)
}
result := &ActionResult{Name: actionName, Parameters: keyspace + "/" + shard}
action, ok := ar.shardActions[actionName]
if !ok {
result.error("Unknown shard action")
return result
}
ctx, cancel := context.WithTimeout(ctx, *actionTimeout)
wr := wrangler.New(logutil.NewConsoleLogger(), ar.ts, tmclient.NewTabletManagerClient())
output, err := action(ctx, wr, keyspace, shard, r)
cancel()
if err != nil {
result.error(err.Error())
return result
}
result.Output = output
return result
}
// ExecuteVtctlCommand is the server side method that will execute the query,
// and stream the results.
func (s *VtctlServer) ExecuteVtctlCommand(context context.Context, query *gorpcproto.ExecuteVtctlCommandArgs, sendReply func(interface{}) error) error {
// create a logger, send the result back to the caller
logstream := logutil.NewChannelLogger(10)
logger := logutil.NewTeeLogger(logstream, logutil.NewConsoleLogger())
// send logs to the caller
wg := sync.WaitGroup{}
wg.Add(1)
go func() {
for e := range logstream {
// Note we don't interrupt the loop here, as
// we still need to flush and finish the
// command, even if the channel to the client
// has been broken. We'll just keep trying.
sendReply(&e)
}
wg.Done()
}()
// create the wrangler
wr := wrangler.New(logger, s.ts, query.ActionTimeout, query.LockTimeout)
// execute the command
err := vtctl.RunCommand(wr, query.Args)
// close the log channel, and wait for them all to be sent
close(logstream)
wg.Wait()
return err
}
func main() {
flag.Parse()
args := flag.Args()
installSignalHandlers()
servenv.Init()
defer servenv.Close()
ts := topo.GetServer()
defer topo.CloseServers()
// the logger will be replaced when we start a job
wr = wrangler.New(logutil.NewConsoleLogger(), ts, 30*time.Second, 30*time.Second)
if len(args) == 0 {
// interactive mode, initialize the web UI to chose a command
initInteractiveMode()
} else {
// single command mode, just runs it
runCommand(args)
}
initStatusHandling()
servenv.RunDefault()
}
// TestInitMasterShardChecks makes sure the safety checks work
func TestInitMasterShardChecks(t *testing.T) {
ctx := context.Background()
db := fakesqldb.Register()
ts := zktestserver.New(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient())
master := NewFakeTablet(t, wr, "cell1", 0, topodatapb.TabletType_MASTER, db)
// InitShardMaster with an unknown tablet
if err := wr.InitShardMaster(ctx, master.Tablet.Keyspace, master.Tablet.Shard, &topodatapb.TabletAlias{
Cell: master.Tablet.Alias.Cell,
Uid: master.Tablet.Alias.Uid + 1,
}, false /*force*/, 10*time.Second); err == nil || !strings.Contains(err.Error(), "is not in the shard") {
t.Errorf("InitShardMaster with unknown alias returned wrong error: %v", err)
}
// InitShardMaster with two masters in the shard, no force flag
// (master2 needs to run InitTablet with -force, as it is the second
// master in the same shard)
master2 := NewFakeTablet(t, wr, "cell1", 1, topodatapb.TabletType_MASTER, db, ForceInitTablet())
if err := wr.InitShardMaster(ctx, master2.Tablet.Keyspace, master2.Tablet.Shard, master2.Tablet.Alias, false /*force*/, 10*time.Second); err == nil || !strings.Contains(err.Error(), "is not the only master in the shard") {
t.Errorf("InitShardMaster with two masters returned wrong error: %v", err)
}
// InitShardMaster where the new master fails (use force flag
// as we have 2 masters). We force the failure by making the
// SQL commands executed on the master unexpected by the test fixture
master.StartActionLoop(t, wr)
defer master.StopActionLoop(t)
master2.StartActionLoop(t, wr)
defer master2.StopActionLoop(t)
if err := wr.InitShardMaster(ctx, master.Tablet.Keyspace, master.Tablet.Shard, master.Tablet.Alias, true /*force*/, 10*time.Second); err == nil || !strings.Contains(err.Error(), "unexpected extra query") {
t.Errorf("InitShardMaster with new master failing in new master InitMaster returned wrong error: %v", err)
}
}
func TestShardExternallyReparentedFailedOldMaster(t *testing.T) {
ts := zktopo.NewTestServer(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, time.Minute, time.Second)
// Create an old master, a new master, two good slaves
oldMaster := NewFakeTablet(t, wr, "cell1", 0, topo.TYPE_MASTER)
newMaster := NewFakeTablet(t, wr, "cell1", 1, topo.TYPE_REPLICA,
TabletParent(oldMaster.Tablet.Alias))
goodSlave := NewFakeTablet(t, wr, "cell1", 2, topo.TYPE_REPLICA,
TabletParent(oldMaster.Tablet.Alias))
// Reparent to a replica, and pretend the old master is not responding
// On the elected master, we will respond to
// TABLET_ACTION_SLAVE_WAS_PROMOTED
newMaster.FakeMysqlDaemon.MasterAddr = ""
newMaster.StartActionLoop(t, wr)
defer newMaster.StopActionLoop(t)
// On the old master, we will only get a
// TABLET_ACTION_SLAVE_WAS_RESTARTED call, let's just not
// respond to it at all
// On the good slave, we will respond to
// TABLET_ACTION_SLAVE_WAS_RESTARTED.
goodSlave.FakeMysqlDaemon.MasterAddr = newMaster.Tablet.MysqlIpAddr()
goodSlave.StartActionLoop(t, wr)
defer goodSlave.StopActionLoop(t)
// The reparent should work as expected here
t.Logf("ShardExternallyReparented(new master) expecting success")
if err := wr.ShardExternallyReparented("test_keyspace", "0", newMaster.Tablet.Alias); err != nil {
t.Fatalf("ShardExternallyReparented(replica) failed: %v", err)
}
// Now double-check the serving graph is good.
// Should only have one good replica left.
addrs, err := ts.GetEndPoints("cell1", "test_keyspace", "0", topo.TYPE_REPLICA)
if err != nil {
t.Fatalf("GetEndPoints failed at the end: %v", err)
}
if len(addrs.Entries) != 1 {
t.Fatalf("GetEndPoints has too many entries: %v", addrs)
}
// check the old master was converted to spare
tablet, err := ts.GetTablet(oldMaster.Tablet.Alias)
if err != nil {
t.Fatalf("GetTablet(%v) failed: %v", oldMaster.Tablet.Alias, err)
}
if tablet.Type != topo.TYPE_SPARE {
t.Fatalf("old master should be spare but is: %v", tablet.Type)
}
if tablet.Parent != newMaster.Tablet.Alias {
t.Fatalf("old master has the wrong master, got %v expected %v", tablet.Parent, newMaster.Tablet.Alias)
}
}
// New creates a topology fixture.
func New(t *testing.T, logger logutil.Logger, ts topo.Server, cells []string) *Fixture {
wr := wrangler.New(logger, ts, 1*time.Second, 1*time.Second)
return &Fixture{
T: t,
Topo: ts,
Wrangler: wr,
done: make(chan struct{}, 1),
tablets: make(map[int]*tabletPack),
}
}
func TestSchemaManagerExecutorExecuteFail(t *testing.T) {
controller := newFakeController(
[]string{"create table test_table (pk int);"}, false, false, false)
wr := wrangler.New(logutil.NewConsoleLogger(), newFakeTopo(), newFakeTabletManagerClient())
executor := NewTabletExecutor(wr, testWaitSlaveTimeout)
ctx := context.Background()
err := Run(ctx, controller, executor)
if err == nil {
t.Fatalf("run schema change should fail due to executor.Execute fail")
}
}
func TestTabletExecutorOpenWithEmptyMasterAlias(t *testing.T) {
ft := newFakeTopo()
ft.Impl.(*fakeTopo).WithEmptyMasterAlias = true
wr := wrangler.New(logutil.NewConsoleLogger(), ft, newFakeTabletManagerClient())
executor := NewTabletExecutor(wr, testWaitSlaveTimeout)
ctx := context.Background()
if err := executor.Open(ctx, "test_keyspace"); err == nil {
t.Fatalf("executor.Open() = nil, want error")
}
executor.Close()
}
func main() {
defer exit.RecoverAll()
defer logutil.Flush()
flag.Parse()
args := flag.Args()
if len(args) == 0 {
flag.Usage()
exit.Return(1)
}
action := args[0]
installSignalHandlers()
startMsg := fmt.Sprintf("USER=%v SUDO_USER=%v %v", os.Getenv("USER"), os.Getenv("SUDO_USER"), strings.Join(os.Args, " "))
if syslogger, err := syslog.New(syslog.LOG_INFO, "vtctl "); err == nil {
syslogger.Info(startMsg)
} else {
log.Warningf("cannot connect to syslog: %v", err)
}
topoServer := topo.GetServer()
defer topo.CloseServers()
wr := wrangler.New(logutil.NewConsoleLogger(), topoServer, *waitTime, *lockWaitTimeout)
actionPath, err := vtctl.RunCommand(wr, args)
switch err {
case vtctl.ErrUnknownCommand:
flag.Usage()
exit.Return(1)
case nil:
// keep going
default:
log.Errorf("action failed: %v %v", action, err)
exit.Return(255)
}
if actionPath != "" {
if *noWaitForAction {
fmt.Println(actionPath)
} else {
err := wr.WaitForCompletion(actionPath)
if err != nil {
log.Error(err.Error())
exit.Return(255)
} else {
log.Infof("action completed: %v", actionPath)
}
}
}
}
func TestTabletData(t *testing.T) {
db := fakesqldb.Register()
ts := zktestserver.New(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient())
if err := ts.CreateKeyspace(context.Background(), "ks", &topodatapb.Keyspace{
ShardingColumnName: "keyspace_id",
ShardingColumnType: topodatapb.KeyspaceIdType_UINT64,
}); err != nil {
t.Fatalf("CreateKeyspace failed: %v", err)
}
tablet1 := testlib.NewFakeTablet(t, wr, "cell1", 0, topodatapb.TabletType_MASTER, db, testlib.TabletKeyspaceShard(t, "ks", "-80"))
tablet1.StartActionLoop(t, wr)
defer tablet1.StopActionLoop(t)
shsq := newStreamHealthTabletServer(t)
grpcqueryservice.Register(tablet1.RPCServer, shsq)
thc := newTabletHealthCache(ts)
stats := &querypb.RealtimeStats{
HealthError: "testHealthError",
SecondsBehindMaster: 72,
CpuUsage: 1.1,
}
// Keep broadcasting until the first result goes through.
stop := make(chan struct{})
go func() {
for {
select {
case <-stop:
return
default:
shsq.BroadcastHealth(42, stats)
}
}
}()
// Start streaming and wait for the first result.
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
result, err := thc.Get(ctx, tablet1.Tablet.Alias)
cancel()
close(stop)
if err != nil {
t.Fatalf("thc.Get failed: %v", err)
}
if got, want := result.RealtimeStats, stats; !proto.Equal(got, want) {
t.Errorf("RealtimeStats = %#v, want %#v", got, want)
}
}
// New creates a topology fixture.
func New(t *testing.T, cells []string) *Fixture {
ts := zktopo.NewTestServer(t, cells)
wr := wrangler.New(logutil.NewConsoleLogger(), ts, 1*time.Second, 1*time.Second)
return &Fixture{
T: t,
Topo: ts,
Wrangler: wr,
done: make(chan struct{}, 1),
tablets: make(map[int]*tabletPack),
}
}
func TestTabletExternallyReparentedFailedOldMaster(t *testing.T) {
tabletmanager.SetReparentFlags(time.Minute /* finalizeTimeout */)
ctx := context.Background()
db := fakesqldb.Register()
ts := zktestserver.New(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient())
// Create an old master, a new master, and a good slave.
oldMaster := NewFakeTablet(t, wr, "cell1", 0, topodatapb.TabletType_MASTER, db)
newMaster := NewFakeTablet(t, wr, "cell1", 1, topodatapb.TabletType_REPLICA, db)
goodSlave := NewFakeTablet(t, wr, "cell1", 2, topodatapb.TabletType_REPLICA, db)
// Reparent to a replica, and pretend the old master is not responding.
// On the elected master, we will respond to
// TabletActionSlaveWasPromoted
newMaster.StartActionLoop(t, wr)
defer newMaster.StopActionLoop(t)
// On the old master, we will only get a
// TabletActionSlaveWasRestarted call, let's just not
// respond to it at all
// On the good slave, we will respond to
// TabletActionSlaveWasRestarted.
goodSlave.StartActionLoop(t, wr)
defer goodSlave.StopActionLoop(t)
// The reparent should work as expected here
t.Logf("TabletExternallyReparented(new master) expecting success")
tmc := tmclient.NewTabletManagerClient()
ti, err := ts.GetTablet(ctx, newMaster.Tablet.Alias)
if err != nil {
t.Fatalf("GetTablet failed: %v", err)
}
waitID := makeWaitID()
if err := tmc.TabletExternallyReparented(context.Background(), ti.Tablet, waitID); err != nil {
t.Fatalf("TabletExternallyReparented(replica) failed: %v", err)
}
waitForExternalReparent(t, waitID)
// check the old master was converted to replica
tablet, err := ts.GetTablet(ctx, oldMaster.Tablet.Alias)
if err != nil {
t.Fatalf("GetTablet(%v) failed: %v", oldMaster.Tablet.Alias, err)
}
if tablet.Type != topodatapb.TabletType_REPLICA {
t.Fatalf("old master should be spare but is: %v", tablet.Type)
}
}
// New creates a topology fixture.
func New(t *testing.T, cells []string) *Fixture {
ts := zktopo.NewTestServer(t, cells)
wr := wrangler.New(ts, 1*time.Second, 1*time.Second)
wr.UseRPCs = false
return &Fixture{
T: t,
Topo: ts,
Wrangler: wr,
done: make(chan struct{}, 1),
tablets: make(map[int]*tabletPack),
}
}
func TestReparentTablet(t *testing.T) {
ctx := context.Background()
db := fakesqldb.Register()
ts := zktestserver.New(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient())
// create shard and tablets
if err := ts.CreateShard(ctx, "test_keyspace", "0"); err != nil {
t.Fatalf("CreateShard failed: %v", err)
}
master := NewFakeTablet(t, wr, "cell1", 1, topodatapb.TabletType_MASTER, db)
slave := NewFakeTablet(t, wr, "cell1", 2, topodatapb.TabletType_REPLICA, db)
// mark the master inside the shard
si, err := ts.GetShard(ctx, "test_keyspace", "0")
if err != nil {
t.Fatalf("GetShard failed: %v", err)
}
si.MasterAlias = master.Tablet.Alias
if err := ts.UpdateShard(ctx, si); err != nil {
t.Fatalf("UpdateShard failed: %v", err)
}
// master action loop (to initialize host and port)
master.StartActionLoop(t, wr)
defer master.StopActionLoop(t)
// slave loop
slave.FakeMysqlDaemon.SetMasterCommandsInput = fmt.Sprintf("%v:%v", master.Tablet.Hostname, master.Tablet.PortMap["mysql"])
slave.FakeMysqlDaemon.SetMasterCommandsResult = []string{"set master cmd 1"}
slave.FakeMysqlDaemon.ExpectedExecuteSuperQueryList = []string{
"set master cmd 1",
}
slave.StartActionLoop(t, wr)
defer slave.StopActionLoop(t)
// run ReparentTablet
if err := wr.ReparentTablet(ctx, slave.Tablet.Alias); err != nil {
t.Fatalf("ReparentTablet failed: %v", err)
}
// check what was run
if err := slave.FakeMysqlDaemon.CheckSuperQueryList(); err != nil {
t.Fatalf("slave.FakeMysqlDaemon.CheckSuperQueryList failed: %v", err)
}
checkSemiSyncEnabled(t, false, true, slave)
}
// TestTabletExternallyReparentedWithDifferentMysqlPort makes sure
// that if mysql is restarted on the master-elect tablet and has a different
// port, we pick it up correctly.
func TestTabletExternallyReparentedWithDifferentMysqlPort(t *testing.T) {
tabletmanager.SetReparentFlags(time.Minute /* finalizeTimeout */)
ctx := context.Background()
db := fakesqldb.Register()
ts := zktopo.NewTestServer(t, []string{"cell1"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient(), time.Second)
// Create an old master, a new master, two good slaves, one bad slave
oldMaster := NewFakeTablet(t, wr, "cell1", 0, pb.TabletType_MASTER, db)
newMaster := NewFakeTablet(t, wr, "cell1", 1, pb.TabletType_REPLICA, db)
goodSlave := NewFakeTablet(t, wr, "cell1", 2, pb.TabletType_REPLICA, db)
// Now we're restarting mysql on a different port, 3301->3303
// but without updating the Tablet record in topology.
// On the elected master, we will respond to
// TabletActionSlaveWasPromoted, so we need a MysqlDaemon
// that returns no master, and the new port (as returned by mysql)
newMaster.FakeMysqlDaemon.MysqlPort = 3303
newMaster.StartActionLoop(t, wr)
defer newMaster.StopActionLoop(t)
// On the old master, we will only respond to
// TabletActionSlaveWasRestarted and point to the new mysql port
oldMaster.StartActionLoop(t, wr)
defer oldMaster.StopActionLoop(t)
// On the good slaves, we will respond to
// TabletActionSlaveWasRestarted and point to the new mysql port
goodSlave.StartActionLoop(t, wr)
defer goodSlave.StopActionLoop(t)
// This tests the good case, where everything works as planned
t.Logf("TabletExternallyReparented(new master) expecting success")
tmc := tmclient.NewTabletManagerClient()
ti, err := ts.GetTablet(ctx, newMaster.Tablet.Alias)
if err != nil {
t.Fatalf("GetTablet failed: %v", err)
}
waitID := makeWaitID()
if err := tmc.TabletExternallyReparented(context.Background(), ti, waitID); err != nil {
t.Fatalf("TabletExternallyReparented(replica) failed: %v", err)
}
waitForExternalReparent(t, waitID)
}
func TestSchemaManagerRun(t *testing.T) {
sql := "create table test_table (pk int)"
controller := newFakeController(
[]string{sql}, false, false, false)
fakeTmc := newFakeTabletManagerClient()
fakeTmc.AddSchemaChange(sql, &tabletmanagerdatapb.SchemaChangeResult{
BeforeSchema: &tabletmanagerdatapb.SchemaDefinition{},
AfterSchema: &tabletmanagerdatapb.SchemaDefinition{
DatabaseSchema: "CREATE DATABASE `{{.DatabaseName}}` /*!40100 DEFAULT CHARACTER SET utf8 */",
TableDefinitions: []*tabletmanagerdatapb.TableDefinition{
{
Name: "test_table",
Schema: sql,
Type: tmutils.TableBaseTable,
},
},
},
})
fakeTmc.AddSchemaDefinition("vt_test_keyspace", &tabletmanagerdatapb.SchemaDefinition{})
wr := wrangler.New(logutil.NewConsoleLogger(), newFakeTopo(), fakeTmc)
executor := NewTabletExecutor(wr, testWaitSlaveTimeout)
ctx := context.Background()
err := Run(ctx, controller, executor)
if err != nil {
t.Fatalf("schema change should success but get error: %v", err)
}
if !controller.onReadSuccessTriggered {
t.Fatalf("OnReadSuccess should be called")
}
if controller.onReadFailTriggered {
t.Fatalf("OnReadFail should not be called")
}
if !controller.onValidationSuccessTriggered {
t.Fatalf("OnValidateSuccess should be called")
}
if controller.onValidationFailTriggered {
t.Fatalf("OnValidationFail should not be called")
}
if !controller.onExecutorCompleteTriggered {
t.Fatalf("OnExecutorComplete should be called")
}
}
func (ar *ActionRepository) ApplyKeyspaceAction(actionName, keyspace string, r *http.Request) *ActionResult {
result := &ActionResult{Name: actionName, Parameters: keyspace}
action, ok := ar.keyspaceActions[actionName]
if !ok {
result.error("Unknown keyspace action")
return result
}
wr := wrangler.New(logutil.NewConsoleLogger(), ar.ts, wrangler.DefaultActionTimeout, actionnode.DefaultLockTimeout)
output, err := action(wr, keyspace, r)
if err != nil {
result.error(err.Error())
return result
}
result.Output = output
return result
}
func main() {
defer exit.RecoverAll()
defer logutil.Flush()
flag.Parse()
args := flag.Args()
if len(args) == 0 {
flag.Usage()
exit.Return(1)
}
action := args[0]
startMsg := fmt.Sprintf("USER=%v SUDO_USER=%v %v", os.Getenv("USER"), os.Getenv("SUDO_USER"), strings.Join(os.Args, " "))
if syslogger, err := syslog.New(syslog.LOG_INFO, "vtctl "); err == nil {
syslogger.Info(startMsg)
} else {
log.Warningf("cannot connect to syslog: %v", err)
}
topoServer := topo.GetServer()
defer topo.CloseServers()
ctx, cancel := context.WithTimeout(context.Background(), *waitTime)
wr := wrangler.New(logutil.NewConsoleLogger(), topoServer, tmclient.NewTabletManagerClient(), *lockWaitTimeout)
installSignalHandlers(cancel)
for _, f := range initFuncs {
f()
}
err := vtctl.RunCommand(ctx, wr, args)
cancel()
switch err {
case vtctl.ErrUnknownCommand:
flag.Usage()
exit.Return(1)
case nil:
// keep going
default:
log.Errorf("action failed: %v %v", action, err)
exit.Return(255)
}
}
func TestVersion(t *testing.T) {
// We need to run this test with the /debug/vars version of the
// plugin.
wrangler.ResetDebugVarsGetVersion()
// Initialize our environment
db := fakesqldb.Register()
ts := zktopo.NewTestServer(t, []string{"cell1", "cell2"})
wr := wrangler.New(logutil.NewConsoleLogger(), ts, tmclient.NewTabletManagerClient(), time.Second)
vp := NewVtctlPipe(t, ts)
defer vp.Close()
// couple tablets is enough
sourceMaster := NewFakeTablet(t, wr, "cell1", 10, pb.TabletType_MASTER, db,
TabletKeyspaceShard(t, "source", "0"),
StartHTTPServer())
sourceReplica := NewFakeTablet(t, wr, "cell1", 11, pb.TabletType_REPLICA, db,
TabletKeyspaceShard(t, "source", "0"),
StartHTTPServer())
// sourceMaster loop
sourceMasterGitRev := "fake git rev"
sourceMaster.StartActionLoop(t, wr)
sourceMaster.HTTPServer.Handler.(*http.ServeMux).HandleFunc("/debug/vars", expvarHandler(&sourceMasterGitRev))
defer sourceMaster.StopActionLoop(t)
// sourceReplica loop
sourceReplicaGitRev := "fake git rev"
sourceReplica.StartActionLoop(t, wr)
sourceReplica.HTTPServer.Handler.(*http.ServeMux).HandleFunc("/debug/vars", expvarHandler(&sourceReplicaGitRev))
defer sourceReplica.StopActionLoop(t)
// test when versions are the same
if err := vp.Run([]string{"ValidateVersionKeyspace", sourceMaster.Tablet.Keyspace}); err != nil {
t.Fatalf("ValidateVersionKeyspace(same) failed: %v", err)
}
// test when versions are different
sourceReplicaGitRev = "different fake git rev"
if err := vp.Run([]string{"ValidateVersionKeyspace", sourceMaster.Tablet.Keyspace}); err == nil || !strings.Contains(err.Error(), "is different than slave") {
t.Fatalf("ValidateVersionKeyspace(different) returned an unexpected error: %v", err)
}
}
// ExecuteVtctlCommand is part of the vtctldatapb.VtctlServer interface
func (s *VtctlServer) ExecuteVtctlCommand(args *vtctldatapb.ExecuteVtctlCommandRequest, stream vtctlservicepb.Vtctl_ExecuteVtctlCommandServer) (err error) {
defer servenv.HandlePanic("vtctl", &err)
// create a logger, send the result back to the caller
logstream := logutil.NewCallbackLogger(func(e *logutilpb.Event) {
// If the client disconnects, we will just fail
// to send the log events, but won't interrupt
// the command.
stream.Send(&vtctldatapb.ExecuteVtctlCommandResponse{
Event: e,
})
})
logger := logutil.NewTeeLogger(logstream, logutil.NewConsoleLogger())
// create the wrangler
wr := wrangler.New(logger, s.ts, tmclient.NewTabletManagerClient())
// execute the command
return vtctl.RunCommand(stream.Context(), wr, args.Args)
}
func main() {
flag.Parse()
servenv.Init()
ts := topo.GetServer()
scheduler, err := janitor.New(*keyspace, *shard, ts, wrangler.New(ts, *actionTimeout, *lockTimeout), *sleepTime)
if err != nil {
log.Fatalf("janitor.New: %v", err)
}
if len(activeModules)+len(dryRunModules) < 1 {
log.Fatal("no modules to run specified")
}
scheduler.Enable(activeModules)
scheduler.EnableDryRun(dryRunModules)
go scheduler.Run()
servenv.Run()
}
// ApplyKeyspaceAction applies the provided action to the keyspace.
func (ar *ActionRepository) ApplyKeyspaceAction(ctx context.Context, actionName, keyspace string, r *http.Request) *ActionResult {
result := &ActionResult{Name: actionName, Parameters: keyspace}
action, ok := ar.keyspaceActions[actionName]
if !ok {
result.error("Unknown keyspace action")
return result
}
ctx, cancel := context.WithTimeout(ctx, *actionTimeout)
wr := wrangler.New(logutil.NewConsoleLogger(), ar.ts, tmclient.NewTabletManagerClient())
output, err := action(ctx, wr, keyspace, r)
cancel()
if err != nil {
result.error(err.Error())
return result
}
result.Output = output
return result
}