// checkBlpPositionList will ask the BinlogPlayerMap for its BlpPositionList,
// and check it contains one entry with the right data.
func checkBlpPositionList(t *testing.T, bpm *BinlogPlayerMap, vtClientSyncChannel chan *binlogplayer.VtClientMock) {
// ask for BlpPositionList, make sure we got what we expect
go func() {
vtcm := binlogplayer.NewVtClientMock()
vtcm.Result = &sqltypes.Result{
Fields: nil,
RowsAffected: 1,
InsertID: 0,
Rows: [][]sqltypes.Value{
{
sqltypes.MakeString([]byte("MariaDB/0-1-1235")),
sqltypes.MakeString([]byte("")),
},
},
}
vtClientSyncChannel <- vtcm
}()
bpl, err := bpm.BlpPositionList()
if err != nil {
t.Errorf("BlpPositionList failed: %v", err)
return
}
if len(bpl) != 1 ||
bpl[0].Uid != 1 ||
bpl[0].Position != "MariaDB/0-1-1235" {
t.Errorf("unexpected BlpPositionList: %v", bpl)
}
}
// addGeneratedRows will add from-to generated rows. The rows (their primary
// key) will be in the range [from, to).
func (sq *testQueryService) addGeneratedRows(from, to int) {
var rows [][]sqltypes.Value
// ksids has keyspace ids which are covered by the shard key ranges -40 and 40-80.
ksids := []uint64{0x2000000000000000, 0x6000000000000000}
for id := from; id < to; id++ {
// Only return the rows which are covered by this shard.
shardIndex := id % 2
if sq.shardCount == 1 || shardIndex == sq.shardIndex {
idValue, _ := sqltypes.BuildValue(int64(id))
row := []sqltypes.Value{
idValue,
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", id))),
}
if !sq.omitKeyspaceID {
row = append(row, sqltypes.MakeString([]byte(fmt.Sprintf("%v", ksids[shardIndex]))))
}
rows = append(rows, row)
}
}
if sq.rows == nil {
sq.rows = rows
} else {
sq.rows = append(sq.rows, rows...)
}
}
func echoQueryResult(vals map[string]interface{}) *sqltypes.Result {
qr := &sqltypes.Result{}
var row []sqltypes.Value
// The first two returned fields are always a field with a MySQL NULL value,
// and another field with a zero-length string.
// Client tests can use this to check that they correctly distinguish the two.
qr.Fields = append(qr.Fields, &querypb.Field{Name: "null", Type: sqltypes.VarBinary})
row = append(row, sqltypes.NULL)
qr.Fields = append(qr.Fields, &querypb.Field{Name: "emptyString", Type: sqltypes.VarBinary})
row = append(row, sqltypes.MakeString([]byte("")))
for k, v := range vals {
qr.Fields = append(qr.Fields, &querypb.Field{Name: k, Type: sqltypes.VarBinary})
val := reflect.ValueOf(v)
if val.Kind() == reflect.Map {
row = append(row, sqltypes.MakeString(printSortedMap(val)))
continue
}
row = append(row, sqltypes.MakeString([]byte(fmt.Sprintf("%v", v))))
}
qr.Rows = [][]sqltypes.Value{row}
return qr
}
func (sq *sqlDifferTabletServer) StreamExecute(ctx context.Context, target *pb.Target, query *proto.Query, sendReply func(reply *mproto.QueryResult) error) error {
sq.t.Logf("SqlDifferTabletServer: got query: %v", *query)
// Send the headers
if err := sendReply(&mproto.QueryResult{
Fields: []mproto.Field{
mproto.Field{
Name: "id",
Type: mproto.VT_LONGLONG,
},
mproto.Field{
Name: "msg",
Type: mproto.VT_VARCHAR,
},
},
}); err != nil {
return err
}
// Send the values
for i := 0; i < 1000; i++ {
if err := sendReply(&mproto.QueryResult{
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
},
},
}); err != nil {
return err
}
}
return nil
}
func TestRowsToProto3(t *testing.T) {
rows := [][]sqltypes.Value{{
sqltypes.MakeString([]byte("aa")),
sqltypes.NULL,
sqltypes.MakeString([]byte("12")),
}, {
sqltypes.MakeString([]byte("bb")),
sqltypes.NULL,
sqltypes.NULL,
}}
p3 := RowsToProto3(rows)
want := []*query.Row{
&query.Row{
Lengths: []int64{2, -1, 2},
Values: []byte("aa12"),
},
&query.Row{
Lengths: []int64{2, -1, -1},
Values: []byte("bb"),
},
}
if !reflect.DeepEqual(p3, want) {
t.Errorf("P3: %v, want %v", p3, want)
}
reverse := Proto3ToRows(p3)
if !reflect.DeepEqual(reverse, rows) {
t.Errorf("reverse: \n%#v, want \n%#v", reverse, rows)
}
}
// sourceRdonlyFactory fakes out the MIN, MAX query on the primary key.
// (This query is used to calculate the split points for reading a table
// using multiple threads.)
func sourceRdonlyFactory(t *testing.T, dbAndTableName string, min, max int) func() (dbconnpool.PoolConnection, error) {
f := NewFakePoolConnectionQuery(t, "sourceRdonly")
f.addExpectedExecuteFetch(ExpectedExecuteFetch{
Query: fmt.Sprintf("SELECT MIN(id), MAX(id) FROM %s", dbAndTableName),
QueryResult: &sqltypes.Result{
Fields: []*querypb.Field{
{
Name: "min",
Type: sqltypes.Int64,
},
{
Name: "max",
Type: sqltypes.Int64,
},
},
Rows: [][]sqltypes.Value{
{
sqltypes.MakeString([]byte(strconv.Itoa(min))),
sqltypes.MakeString([]byte(strconv.Itoa(max))),
},
},
},
})
f.enableInfinite()
return f.getFactory()
}
// checkBlpPositionList will ask the BinlogPlayerMap for its BlpPositionList,
// and check it contains one entry with the right data.
func checkBlpPositionList(t *testing.T, bpm *BinlogPlayerMap, vtClientSyncChannel chan *binlogplayer.VtClientMock) {
// ask for BlpPositionList, make sure we got what we expect
go func() {
vtcm := binlogplayer.NewVtClientMock()
vtcm.Result = &mproto.QueryResult{
Fields: nil,
RowsAffected: 1,
InsertId: 0,
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte("MariaDB/0-1-1235")),
sqltypes.MakeString([]byte("")),
},
},
}
vtClientSyncChannel <- vtcm
}()
bpl, err := bpm.BlpPositionList()
if err != nil {
t.Errorf("BlpPositionList failed: %v", err)
return
}
if len(bpl.Entries) != 1 ||
bpl.Entries[0].Uid != 1 ||
bpl.Entries[0].Position.GTIDSet.(myproto.MariadbGTID).Domain != 0 ||
bpl.Entries[0].Position.GTIDSet.(myproto.MariadbGTID).Server != 1 ||
bpl.Entries[0].Position.GTIDSet.(myproto.MariadbGTID).Sequence != 1235 {
t.Errorf("unexpected BlpPositionList: %v", bpl)
}
}
// on the source rdonly guy, should only have one query to find min & max
func SourceRdonlyFactory(t *testing.T) func() (dbconnpool.PoolConnection, error) {
return func() (dbconnpool.PoolConnection, error) {
return &FakePoolConnection{
t: t,
ExpectedExecuteFetch: []ExpectedExecuteFetch{
ExpectedExecuteFetch{
Query: "SELECT MIN(id), MAX(id) FROM vt_ks.table1",
QueryResult: &mproto.QueryResult{
Fields: []mproto.Field{
mproto.Field{
Name: "min",
Type: mproto.VT_LONGLONG,
},
mproto.Field{
Name: "max",
Type: mproto.VT_LONGLONG,
},
},
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte("100")),
sqltypes.MakeString([]byte("200")),
},
},
},
},
},
}, nil
}
}
// on the source rdonly guy, should only have one query to find min & max
func VerticalSourceRdonlyFactory(t *testing.T) func() (dbconnpool.PoolConnection, error) {
return func() (dbconnpool.PoolConnection, error) {
return &VerticalFakePoolConnection{
t: t,
ExpectedExecuteFetch: []ExpectedExecuteFetch{
ExpectedExecuteFetch{
Query: "SELECT MIN(id), MAX(id) FROM vt_source_ks.moving1",
QueryResult: &sqltypes.Result{
Fields: []*querypb.Field{
&querypb.Field{
Name: "min",
Type: sqltypes.Int64,
},
&querypb.Field{
Name: "max",
Type: sqltypes.Int64,
},
},
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte("100")),
sqltypes.MakeString([]byte("200")),
},
},
},
},
},
}, nil
}
}
func TestInvalidRowsProto(t *testing.T) {
p3 := []*query.Row{
&query.Row{
Lengths: []int64{3, 5, -1, 6},
Values: []byte("aa12"),
},
}
rows := Proto3ToRows(p3)
want := [][]sqltypes.Value{{
sqltypes.MakeString([]byte("aa1")),
sqltypes.NULL,
sqltypes.NULL,
sqltypes.NULL,
}}
if !reflect.DeepEqual(rows, want) {
t.Errorf("reverse: \n%#v, want \n%#v", rows, want)
}
p3 = []*query.Row{
&query.Row{
Lengths: []int64{2, -2, 2},
Values: []byte("aa12"),
},
}
rows = Proto3ToRows(p3)
want = [][]sqltypes.Value{{
sqltypes.MakeString([]byte("aa")),
sqltypes.NULL,
sqltypes.MakeString([]byte("12")),
}}
if !reflect.DeepEqual(rows, want) {
t.Errorf("reverse: \n%#v, want \n%#v", rows, want)
}
}
func createTestTableBaseShowTable(tableName string) []sqltypes.Value {
return []sqltypes.Value{
sqltypes.MakeString([]byte(tableName)),
sqltypes.MakeString([]byte("USER TABLE")),
sqltypes.MakeString([]byte("1427325875")),
sqltypes.MakeString([]byte("")),
}
}
func TestMiscTypes(t *testing.T) {
client := framework.NewClient()
defer client.Execute("delete from vitess_misc", nil)
_, err := client.Execute(
"insert into vitess_misc values(:id, :b, :d, :dt, :t)",
map[string]interface{}{
"id": 1,
"b": "\x01",
"d": "2012-01-01",
"dt": "2012-01-01 15:45:45",
"t": "15:45:45",
},
)
if err != nil {
t.Error(err)
return
}
qr, err := client.Execute("select * from vitess_misc where id = 1", nil)
if err != nil {
t.Error(err)
return
}
want := sqltypes.Result{
Fields: []*querypb.Field{
{
Name: "id",
Type: sqltypes.Int32,
}, {
Name: "b",
Type: sqltypes.Bit,
}, {
Name: "d",
Type: sqltypes.Date,
}, {
Name: "dt",
Type: sqltypes.Datetime,
}, {
Name: "t",
Type: sqltypes.Time,
},
},
RowsAffected: 1,
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeNumeric([]byte("1")),
sqltypes.MakeString([]byte("\x01")),
sqltypes.MakeString([]byte("2012-01-01")),
sqltypes.MakeString([]byte("2012-01-01 15:45:45")),
sqltypes.MakeString([]byte("15:45:45")),
},
},
}
if !reflect.DeepEqual(*qr, want) {
t.Errorf("Execute: \n%#v, want \n%#v", *qr, want)
}
}
func (sq *testQueryService) StreamExecute(ctx context.Context, target *querypb.Target, sql string, bindVariables map[string]interface{}, sessionID int64, sendReply func(reply *sqltypes.Result) error) error {
// Custom parsing of the query we expect
min := 100
max := 200
var err error
parts := strings.Split(sql, " ")
for _, part := range parts {
if strings.HasPrefix(part, "id>=") {
min, err = strconv.Atoi(part[4:])
if err != nil {
return err
}
} else if strings.HasPrefix(part, "id<") {
max, err = strconv.Atoi(part[3:])
}
}
sq.t.Logf("testQueryService: got query: %v with min %v max %v", sql, min, max)
// Send the headers
if err := sendReply(&sqltypes.Result{
Fields: []*querypb.Field{
{
Name: "id",
Type: sqltypes.Int64,
},
{
Name: "msg",
Type: sqltypes.VarChar,
},
{
Name: "keyspace_id",
Type: sqltypes.Int64,
},
},
}); err != nil {
return err
}
// Send the values
ksids := []uint64{0x2000000000000000, 0x6000000000000000}
for i := min; i < max; i++ {
if err := sendReply(&sqltypes.Result{
Rows: [][]sqltypes.Value{
{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("%v", ksids[i%2]))),
},
},
}); err != nil {
return err
}
}
// SELECT id, msg, keyspace_id FROM table1 WHERE id>=180 AND id<190 ORDER BY id
return nil
}
func (sq *testQueryService) StreamExecute(ctx context.Context, query *proto.Query, sendReply func(reply *mproto.QueryResult) error) error {
// Custom parsing of the query we expect
min := 100
max := 200
var err error
parts := strings.Split(query.Sql, " ")
for _, part := range parts {
if strings.HasPrefix(part, "id>=") {
min, err = strconv.Atoi(part[4:])
if err != nil {
return err
}
} else if strings.HasPrefix(part, "id<") {
max, err = strconv.Atoi(part[3:])
}
}
sq.t.Logf("testQueryService: got query: %v with min %v max %v", *query, min, max)
// Send the headers
if err := sendReply(&mproto.QueryResult{
Fields: []mproto.Field{
mproto.Field{
Name: "id",
Type: mproto.VT_LONGLONG,
},
mproto.Field{
Name: "msg",
Type: mproto.VT_VARCHAR,
},
mproto.Field{
Name: "keyspace_id",
Type: mproto.VT_LONGLONG,
},
},
}); err != nil {
return err
}
// Send the values
ksids := []uint64{0x2000000000000000, 0x6000000000000000}
for i := min; i < max; i++ {
if err := sendReply(&mproto.QueryResult{
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("%v", ksids[i%2]))),
},
},
}); err != nil {
return err
}
}
// SELECT id, msg, keyspace_id FROM table1 WHERE id>=180 AND id<190 ORDER BY id
return nil
}
func (sq *sourceTabletServer) StreamExecute(ctx context.Context, target *querypb.Target, sql string, bindVariables map[string]interface{}, options *querypb.ExecuteOptions, sendReply func(reply *sqltypes.Result) error) error {
if strings.Contains(sql, sq.excludedTable) {
sq.t.Errorf("Split Diff operation on source should skip the excluded table: %v query: %v", sq.excludedTable, sql)
}
// we test for a keyspace_id where clause, except for v3
if !sq.v3 {
if hasKeyspace := strings.Contains(sql, "WHERE `keyspace_id` < 0x4000000000000000"); hasKeyspace != true {
sq.t.Errorf("Sql query on source should contain a keyspace_id WHERE clause; query received: %v", sql)
}
}
sq.t.Logf("sourceTabletServer: got query: %v", sql)
// Send the headers
if err := sendReply(&sqltypes.Result{
Fields: []*querypb.Field{
{
Name: "id",
Type: sqltypes.Int64,
},
{
Name: "msg",
Type: sqltypes.VarChar,
},
{
Name: "keyspace_id",
Type: sqltypes.Int64,
},
},
}); err != nil {
return err
}
// Send the values
ksids := []uint64{0x2000000000000000, 0x6000000000000000}
for i := 0; i < 100; i++ {
if !sq.v3 && i%2 == 1 {
// for v2, filtering is done at SQL layer
continue
}
if err := sendReply(&sqltypes.Result{
Rows: [][]sqltypes.Value{
{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("%v", ksids[i%2]))),
},
},
}); err != nil {
return err
}
}
return nil
}
func createTestTableUpdatedStats(tableName string) []sqltypes.Value {
return []sqltypes.Value{
sqltypes.MakeString([]byte(tableName)),
sqltypes.MakeString([]byte("USER TABLE")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("0")),
sqltypes.MakeString([]byte("")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("4")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("5")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("6")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("7")),
}
}
func TestSqlQuerySplitQueryInvalidMinMax(t *testing.T) {
db := setUpSqlQueryTest()
testUtils := newTestUtils()
pkMinMaxQuery := "SELECT MIN(pk), MAX(pk) FROM test_table"
pkMinMaxQueryResp := &mproto.QueryResult{
Fields: []mproto.Field{
mproto.Field{Name: "pk", Type: mproto.VT_LONG},
},
RowsAffected: 1,
Rows: [][]sqltypes.Value{
// this make SplitQueryFail
[]sqltypes.Value{
sqltypes.MakeString([]byte("invalid")),
sqltypes.MakeString([]byte("invalid")),
},
},
}
db.AddQuery(pkMinMaxQuery, pkMinMaxQueryResp)
config := testUtils.newQueryServiceConfig()
sqlQuery := NewSqlQuery(config)
dbconfigs := testUtils.newDBConfigs()
err := sqlQuery.allowQueries(nil, &dbconfigs, []SchemaOverride{}, testUtils.newMysqld(&dbconfigs))
if err != nil {
t.Fatalf("allowQueries failed: %v", err)
}
defer sqlQuery.disallowQueries()
ctx := context.Background()
query := proto.SplitQueryRequest{
Query: proto.BoundQuery{
Sql: "select * from test_table where count > :count",
BindVariables: nil,
},
SplitCount: 10,
SessionID: sqlQuery.sessionID,
}
reply := proto.SplitQueryResult{
Queries: []proto.QuerySplit{
proto.QuerySplit{
Query: proto.BoundQuery{
Sql: "",
BindVariables: nil,
},
RowCount: 10,
},
},
}
if err := sqlQuery.SplitQuery(ctx, nil, &query, &reply); err == nil {
t.Fatalf("SqlQuery.SplitQuery should fail")
}
}
func (sq *destinationTabletServer) StreamExecute(ctx context.Context, target *querypb.Target, sql string, bindVariables map[string]interface{}, options *querypb.ExecuteOptions, sendReply func(reply *sqltypes.Result) error) error {
if strings.Contains(sql, sq.excludedTable) {
sq.t.Errorf("Split Diff operation on destination should skip the excluded table: %v query: %v", sq.excludedTable, sql)
}
if hasKeyspace := strings.Contains(sql, "WHERE `keyspace_id`"); hasKeyspace == true {
sq.t.Errorf("Sql query on destination should not contain a keyspace_id WHERE clause; query received: %v", sql)
}
sq.t.Logf("destinationTabletServer: got query: %v", sql)
// Send the headers
if err := sendReply(&sqltypes.Result{
Fields: []*querypb.Field{
{
Name: "id",
Type: sqltypes.Int64,
},
{
Name: "msg",
Type: sqltypes.VarChar,
},
{
Name: "keyspace_id",
Type: sqltypes.Int64,
},
},
}); err != nil {
return err
}
// Send the values
ksids := []uint64{0x2000000000000000, 0x6000000000000000}
for i := 0; i < 100; i++ {
// skip the out-of-range values
if i%2 == 1 {
continue
}
if err := sendReply(&sqltypes.Result{
Rows: [][]sqltypes.Value{
{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("%v", ksids[i%2]))),
},
},
}); err != nil {
return err
}
}
return nil
}
func createTestTableBaseShowTable(tableName string) []sqltypes.Value {
return []sqltypes.Value{
sqltypes.MakeString([]byte(tableName)),
sqltypes.MakeString([]byte("USER TABLE")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("1427325875")),
sqltypes.MakeString([]byte("")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("1")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("2")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("3")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("4")),
sqltypes.MakeTrusted(sqltypes.Int32, []byte("5")),
}
}
func (sq *sourceSqlQuery) StreamExecute(ctx context.Context, target *pb.Target, query *proto.Query, sendReply func(reply *mproto.QueryResult) error) error {
if strings.Contains(query.Sql, sq.excludedTable) {
sq.t.Errorf("Split Diff operation on source should skip the excluded table: %v query: %v", sq.excludedTable, query.Sql)
}
// we test for a keyspace_id where clause, except for on views.
if !strings.Contains(query.Sql, "view") {
if hasKeyspace := strings.Contains(query.Sql, "WHERE keyspace_id < 0x4000000000000000"); hasKeyspace != true {
sq.t.Errorf("Sql query on source should contain a keyspace_id WHERE clause; query received: %v", query.Sql)
}
}
sq.t.Logf("sourceSqlQuery: got query: %v", *query)
// Send the headers
if err := sendReply(&mproto.QueryResult{
Fields: []mproto.Field{
mproto.Field{
Name: "id",
Type: mproto.VT_LONGLONG,
},
mproto.Field{
Name: "msg",
Type: mproto.VT_VARCHAR,
},
mproto.Field{
Name: "keyspace_id",
Type: mproto.VT_LONGLONG,
},
},
}); err != nil {
return err
}
// Send the values
ksids := []uint64{0x2000000000000000, 0x6000000000000000}
for i := 0; i < 100; i++ {
if err := sendReply(&mproto.QueryResult{
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("%v", ksids[i%2]))),
},
},
}); err != nil {
return err
}
}
return nil
}
func BuildValue(bytes []byte, fieldType uint32) sqltypes.Value {
switch fieldType {
case C.MYSQL_TYPE_DECIMAL, C.MYSQL_TYPE_FLOAT, C.MYSQL_TYPE_DOUBLE, C.MYSQL_TYPE_NEWDECIMAL:
return sqltypes.MakeFractional(bytes)
case C.MYSQL_TYPE_TIMESTAMP:
return sqltypes.MakeString(bytes)
}
// The below condition represents the following list of values:
// C.MYSQL_TYPE_TINY, C.MYSQL_TYPE_SHORT, C.MYSQL_TYPE_LONG, C.MYSQL_TYPE_LONGLONG, C.MYSQL_TYPE_INT24, C.MYSQL_TYPE_YEAR:
if fieldType <= C.MYSQL_TYPE_INT24 || fieldType == C.MYSQL_TYPE_YEAR {
return sqltypes.MakeNumeric(bytes)
}
return sqltypes.MakeString(bytes)
}
func (sq *verticalTabletServer) StreamExecute(ctx context.Context, target *querypb.Target, sql string, bindVariables map[string]interface{}, sessionID int64, sendReply func(reply *sqltypes.Result) error) error {
// Custom parsing of the query we expect
min := 100
max := 200
var err error
parts := strings.Split(sql, " ")
for _, part := range parts {
if strings.HasPrefix(part, "id>=") {
min, err = strconv.Atoi(part[4:])
if err != nil {
return err
}
} else if strings.HasPrefix(part, "id<") {
max, err = strconv.Atoi(part[3:])
}
}
sq.t.Logf("verticalTabletServer: got query: %v with min %v max %v", sql, min, max)
// Send the headers
if err := sendReply(&sqltypes.Result{
Fields: []*querypb.Field{
{
Name: "id",
Type: sqltypes.Int64,
},
{
Name: "msg",
Type: sqltypes.VarChar,
},
},
}); err != nil {
return err
}
// Send the values
for i := min; i < max; i++ {
if err := sendReply(&sqltypes.Result{
Rows: [][]sqltypes.Value{
{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
},
},
}); err != nil {
return err
}
}
return nil
}
func (sq *verticalTabletServer) StreamExecute(ctx context.Context, target *pb.Target, query *proto.Query, sendReply func(reply *mproto.QueryResult) error) error {
// Custom parsing of the query we expect
min := 100
max := 200
var err error
parts := strings.Split(query.Sql, " ")
for _, part := range parts {
if strings.HasPrefix(part, "id>=") {
min, err = strconv.Atoi(part[4:])
if err != nil {
return err
}
} else if strings.HasPrefix(part, "id<") {
max, err = strconv.Atoi(part[3:])
}
}
sq.t.Logf("verticalTabletServer: got query: %v with min %v max %v", *query, min, max)
// Send the headers
if err := sendReply(&mproto.QueryResult{
Fields: []mproto.Field{
mproto.Field{
Name: "id",
Type: mproto.VT_LONGLONG,
},
mproto.Field{
Name: "msg",
Type: mproto.VT_VARCHAR,
},
},
}); err != nil {
return err
}
// Send the values
for i := min; i < max; i++ {
if err := sendReply(&mproto.QueryResult{
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
},
},
}); err != nil {
return err
}
}
return nil
}
func (sq *destinationTabletServer) StreamExecute(ctx context.Context, target *pbq.Target, query *proto.Query, sendReply func(reply *sqltypes.Result) error) error {
if strings.Contains(query.Sql, sq.excludedTable) {
sq.t.Errorf("Split Diff operation on destination should skip the excluded table: %v query: %v", sq.excludedTable, query.Sql)
}
if hasKeyspace := strings.Contains(query.Sql, "WHERE keyspace_id"); hasKeyspace == true {
sq.t.Errorf("Sql query on destination should not contain a keyspace_id WHERE clause; query received: %v", query.Sql)
}
sq.t.Logf("destinationTabletServer: got query: %v", *query)
// Send the headers
if err := sendReply(&sqltypes.Result{
Fields: []*pbq.Field{
&pbq.Field{
Name: "id",
Type: sqltypes.Int64,
},
&pbq.Field{
Name: "msg",
Type: sqltypes.VarChar,
},
&pbq.Field{
Name: "keyspace_id",
Type: sqltypes.Int64,
},
},
}); err != nil {
return err
}
// Send the values
ksids := []uint64{0x2000000000000000, 0x6000000000000000}
for i := 0; i < 100; i++ {
if err := sendReply(&sqltypes.Result{
Rows: [][]sqltypes.Value{
[]sqltypes.Value{
sqltypes.MakeString([]byte(fmt.Sprintf("%v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("Text for %v", i))),
sqltypes.MakeString([]byte(fmt.Sprintf("%v", ksids[i%2]))),
},
},
}); err != nil {
return err
}
}
return nil
}
func TestTabletServerStreamExecute(t *testing.T) {
db := setUpTabletServerTest()
testUtils := newTestUtils()
// sql that will be executed in this test
executeSQL := "select * from test_table limit 1000"
executeSQLResult := &sqltypes.Result{
RowsAffected: 1,
Rows: [][]sqltypes.Value{
{sqltypes.MakeString([]byte("row01"))},
},
}
db.AddQuery(executeSQL, executeSQLResult)
config := testUtils.newQueryServiceConfig()
tsv := NewTabletServer(config)
dbconfigs := testUtils.newDBConfigs(db)
target := querypb.Target{TabletType: topodatapb.TabletType_MASTER}
err := tsv.StartService(target, dbconfigs, testUtils.newMysqld(&dbconfigs))
if err != nil {
t.Fatalf("StartService failed: %v", err)
}
defer tsv.StopService()
ctx := context.Background()
sendReply := func(*sqltypes.Result) error { return nil }
if err := tsv.StreamExecute(ctx, &target, executeSQL, nil, sendReply); err != nil {
t.Fatalf("TabletServer.StreamExecute should success: %s, but get error: %v",
executeSQL, err)
}
}
// Proto3ToQueryResult converts a proto3 QueryResult to an internal data structure.
func Proto3ToQueryResult(qr *pbq.QueryResult) *QueryResult {
result := &QueryResult{
RowsAffected: qr.RowsAffected,
InsertId: qr.InsertId,
}
if len(qr.Fields) > 0 {
result.Fields = make([]Field, len(qr.Fields))
for i, f := range qr.Fields {
result.Fields[i].Name = f.Name
result.Fields[i].Type = int64(f.Type)
result.Fields[i].Flags = int64(f.Flags)
}
}
if len(qr.Rows) > 0 {
result.Rows = make([][]sqltypes.Value, len(qr.Rows))
for i, r := range qr.Rows {
result.Rows[i] = make([]sqltypes.Value, len(r.Values))
for j, c := range r.Values {
if c == nil {
result.Rows[i][j] = sqltypes.NULL
} else {
result.Rows[i][j] = sqltypes.MakeString(c)
}
}
}
}
return result
}
func TestDBConnStream(t *testing.T) {
db := fakesqldb.Register()
testUtils := newTestUtils()
sql := "select * from test_table limit 1000"
expectedResult := &mproto.QueryResult{
RowsAffected: 0,
Rows: [][]sqltypes.Value{
[]sqltypes.Value{sqltypes.MakeString([]byte("123"))},
},
}
db.AddQuery(sql, expectedResult)
connPool := testUtils.newConnPool()
appParams := &sqldb.ConnParams{Engine: db.Name}
dbaParams := &sqldb.ConnParams{Engine: db.Name}
connPool.Open(appParams, dbaParams)
defer connPool.Close()
ctx, cancel := context.WithDeadline(context.Background(), time.Now().Add(10*time.Second))
defer cancel()
queryServiceStats := NewQueryServiceStats("", false)
dbConn, err := NewDBConn(connPool, appParams, dbaParams, queryServiceStats)
defer dbConn.Close()
var result mproto.QueryResult
err = dbConn.Stream(
ctx, sql, func(r *mproto.QueryResult) error {
result = *r
return nil
}, 10)
if err != nil {
t.Fatalf("should not get an error, err: %v", err)
}
testUtils.checkEqual(t, expectedResult, &result)
}
func TestQueryExecutorPlanPassSelectWithInATransaction(t *testing.T) {
db := setUpQueryExecutorTest()
testUtils := &testUtils{}
fields := []mproto.Field{
mproto.Field{Name: "addr", Type: mproto.VT_LONG},
}
query := "select addr from test_table where pk = 1 limit 1000"
expected := &mproto.QueryResult{
Fields: fields,
RowsAffected: 1,
Rows: [][]sqltypes.Value{
[]sqltypes.Value{sqltypes.MakeString([]byte("123"))},
},
}
db.AddQuery(query, expected)
db.AddQuery("select addr from test_table where 1 != 1", &mproto.QueryResult{
Fields: fields,
})
qre, sqlQuery := newTestQueryExecutor(
query, context.Background(), enableTx|enableStrict)
defer sqlQuery.disallowQueries()
defer testCommitHelper(t, sqlQuery, qre)
checkPlanID(t, planbuilder.PLAN_PASS_SELECT, qre.plan.PlanId)
testUtils.checkEqual(t, expected, qre.Execute())
}
func TestQueryExecutorPlanPassSelectWithInATransaction(t *testing.T) {
db := setUpQueryExecutorTest()
fields := []mproto.Field{
mproto.Field{Name: "addr", Type: mproto.VT_LONG},
}
query := "select addr from test_table where pk = 1 limit 1000"
want := &mproto.QueryResult{
Fields: fields,
RowsAffected: 1,
Rows: [][]sqltypes.Value{
[]sqltypes.Value{sqltypes.MakeString([]byte("123"))},
},
}
db.AddQuery(query, want)
db.AddQuery("select addr from test_table where 1 != 1", &mproto.QueryResult{
Fields: fields,
})
ctx := context.Background()
sqlQuery := newTestSQLQuery(ctx, enableStrict)
qre := newTestQueryExecutor(ctx, sqlQuery, query, newTransaction(sqlQuery))
defer sqlQuery.disallowQueries()
defer testCommitHelper(t, sqlQuery, qre)
checkPlanID(t, planbuilder.PLAN_PASS_SELECT, qre.plan.PlanId)
got, err := qre.Execute()
if err != nil {
t.Fatalf("qre.Execute() = %v, want nil", err)
}
if !reflect.DeepEqual(got, want) {
t.Fatalf("got: %v, want: %v", got, want)
}
}
func TestQueryExecutorPlanPassSelectWithInATransaction(t *testing.T) {
db := setUpQueryExecutorTest()
fields := []*querypb.Field{
{Name: "addr", Type: sqltypes.Int32},
}
query := "select addr from test_table where pk = 1 limit 1000"
want := &sqltypes.Result{
Fields: fields,
RowsAffected: 1,
Rows: [][]sqltypes.Value{
{sqltypes.MakeString([]byte("123"))},
},
}
db.AddQuery(query, want)
db.AddQuery("select addr from test_table where 1 != 1", &sqltypes.Result{
Fields: fields,
})
ctx := context.Background()
tsv := newTestTabletServer(ctx, enableStrict, db)
qre := newTestQueryExecutor(ctx, tsv, query, newTransaction(tsv))
defer tsv.StopService()
defer testCommitHelper(t, tsv, qre)
checkPlanID(t, planbuilder.PlanPassSelect, qre.plan.PlanID)
got, err := qre.Execute()
if err != nil {
t.Fatalf("qre.Execute() = %v, want nil", err)
}
if !reflect.DeepEqual(got, want) {
t.Fatalf("got: %v, want: %v", got, want)
}
}
