package coordinator_test import ( "bytes" "errors" "io" "os" "reflect" "regexp" "testing" "time" "github.com/davecgh/go-spew/spew" "github.com/influxdata/influxdb/coordinator" "github.com/influxdata/influxdb/influxql" "github.com/influxdata/influxdb/internal" "github.com/influxdata/influxdb/models" "github.com/influxdata/influxdb/services/meta" "github.com/influxdata/influxdb/tsdb" "github.com/uber-go/zap" ) const ( // DefaultDatabase is the default database name used in tests. DefaultDatabase = "db0" // DefaultRetentionPolicy is the default retention policy name used in tests. DefaultRetentionPolicy = "rp0" ) // Ensure query executor can execute a simple SELECT statement. func TestQueryExecutor_ExecuteQuery_SelectStatement(t *testing.T) { e := DefaultQueryExecutor() // The meta client should return a single shard owned by the local node. e.MetaClient.ShardGroupsByTimeRangeFn = func(database, policy string, min, max time.Time) (a []meta.ShardGroupInfo, err error) { return []meta.ShardGroupInfo{ {ID: 1, Shards: []meta.ShardInfo{ {ID: 100, Owners: []meta.ShardOwner{{NodeID: 0}}}, }}, }, nil } // The TSDB store should return an IteratorCreator for shard. // This IteratorCreator returns a single iterator with "value" in the aux fields. e.TSDBStore.ShardGroupFn = func(ids []uint64) tsdb.ShardGroup { if !reflect.DeepEqual(ids, []uint64{100}) { t.Fatalf("unexpected shard ids: %v", ids) } var sh MockShard sh.CreateIteratorFn = func(m string, opt influxql.IteratorOptions) (influxql.Iterator, error) { return &FloatIterator{Points: []influxql.FloatPoint{ {Name: "cpu", Time: int64(0 * time.Second), Aux: []interface{}{float64(100)}}, {Name: "cpu", Time: int64(1 * time.Second), Aux: []interface{}{float64(200)}}, }}, nil } sh.FieldDimensionsFn = func(measurements []string) (fields map[string]influxql.DataType, dimensions map[string]struct{}, err error) { if !reflect.DeepEqual(measurements, []string{"cpu"}) { t.Fatalf("unexpected source: %#v", measurements) } return map[string]influxql.DataType{"value": influxql.Float}, nil, nil } return &sh } // Verify all results from the query. if a := ReadAllResults(e.ExecuteQuery(`SELECT * FROM cpu`, "db0", 0)); !reflect.DeepEqual(a, []*influxql.Result{ { StatementID: 0, Series: []*models.Row{{ Name: "cpu", Columns: []string{"time", "value"}, Values: [][]interface{}{ {time.Unix(0, 0).UTC(), float64(100)}, {time.Unix(1, 0).UTC(), float64(200)}, }, }}, }, }) { t.Fatalf("unexpected results: %s", spew.Sdump(a)) } } // Ensure query executor can enforce a maximum bucket selection count. func TestQueryExecutor_ExecuteQuery_MaxSelectBucketsN(t *testing.T) { e := DefaultQueryExecutor() e.StatementExecutor.MaxSelectBucketsN = 3 // The meta client should return a single shards on the local node. e.MetaClient.ShardGroupsByTimeRangeFn = func(database, policy string, min, max time.Time) (a []meta.ShardGroupInfo, err error) { return []meta.ShardGroupInfo{ {ID: 1, Shards: []meta.ShardInfo{ {ID: 100, Owners: []meta.ShardOwner{{NodeID: 0}}}, }}, }, nil } e.TSDBStore.ShardGroupFn = func(ids []uint64) tsdb.ShardGroup { if !reflect.DeepEqual(ids, []uint64{100}) { t.Fatalf("unexpected shard ids: %v", ids) } var sh MockShard sh.CreateIteratorFn = func(m string, opt influxql.IteratorOptions) (influxql.Iterator, error) { return &FloatIterator{ Points: []influxql.FloatPoint{{Name: "cpu", Time: int64(0 * time.Second), Aux: []interface{}{float64(100)}}}, }, nil } sh.FieldDimensionsFn = func(measurements []string) (fields map[string]influxql.DataType, dimensions map[string]struct{}, err error) { if !reflect.DeepEqual(measurements, []string{"cpu"}) { t.Fatalf("unexpected source: %#v", measurements) } return map[string]influxql.DataType{"value": influxql.Float}, nil, nil } return &sh } // Verify all results from the query. if a := ReadAllResults(e.ExecuteQuery(`SELECT count(value) FROM cpu WHERE time >= '2000-01-01T00:00:05Z' AND time < '2000-01-01T00:00:35Z' GROUP BY time(10s)`, "db0", 0)); !reflect.DeepEqual(a, []*influxql.Result{ { StatementID: 0, Err: errors.New("max-select-buckets limit exceeded: (4/3)"), }, }) { t.Fatalf("unexpected results: %s", spew.Sdump(a)) } } func TestStatementExecutor_NormalizeDropSeries(t *testing.T) { q, err := influxql.ParseQuery("DROP SERIES FROM cpu") if err != nil { t.Fatalf("unexpected error parsing query: %v", err) } stmt := q.Statements[0].(*influxql.DropSeriesStatement) s := &coordinator.StatementExecutor{ MetaClient: &internal.MetaClientMock{ DatabaseFn: func(name string) *meta.DatabaseInfo { t.Fatal("meta client should not be called") return nil }, }, } if err := s.NormalizeStatement(stmt, "foo"); err != nil { t.Fatalf("unexpected error normalizing statement: %v", err) } m := stmt.Sources[0].(*influxql.Measurement) if m.Database != "" { t.Fatalf("database rewritten when not supposed to: %v", m.Database) } if m.RetentionPolicy != "" { t.Fatalf("database rewritten when not supposed to: %v", m.RetentionPolicy) } if exp, got := "DROP SERIES FROM cpu", q.String(); exp != got { t.Fatalf("generated query does match parsed: exp %v, got %v", exp, got) } } func TestStatementExecutor_NormalizeDeleteSeries(t *testing.T) { q, err := influxql.ParseQuery("DELETE FROM cpu") if err != nil { t.Fatalf("unexpected error parsing query: %v", err) } stmt := q.Statements[0].(*influxql.DeleteSeriesStatement) s := &coordinator.StatementExecutor{ MetaClient: &internal.MetaClientMock{ DatabaseFn: func(name string) *meta.DatabaseInfo { t.Fatal("meta client should not be called") return nil }, }, } if err := s.NormalizeStatement(stmt, "foo"); err != nil { t.Fatalf("unexpected error normalizing statement: %v", err) } m := stmt.Sources[0].(*influxql.Measurement) if m.Database != "" { t.Fatalf("database rewritten when not supposed to: %v", m.Database) } if m.RetentionPolicy != "" { t.Fatalf("database rewritten when not supposed to: %v", m.RetentionPolicy) } if exp, got := "DELETE FROM cpu", q.String(); exp != got { t.Fatalf("generated query does match parsed: exp %v, got %v", exp, got) } } type mockAuthorizer struct { AuthorizeDatabaseFn func(influxql.Privilege, string) bool } func (a *mockAuthorizer) AuthorizeDatabase(p influxql.Privilege, name string) bool { return a.AuthorizeDatabaseFn(p, name) } func (m *mockAuthorizer) AuthorizeQuery(database string, query *influxql.Query) error { panic("fail") } func (m *mockAuthorizer) AuthorizeSeriesRead(database string, measurement []byte, tags models.Tags) bool { panic("fail") } func (m *mockAuthorizer) AuthorizeSeriesWrite(database string, measurement []byte, tags models.Tags) bool { panic("fail") } func TestQueryExecutor_ExecuteQuery_ShowDatabases(t *testing.T) { qe := influxql.NewQueryExecutor() qe.StatementExecutor = &coordinator.StatementExecutor{ MetaClient: &internal.MetaClientMock{ DatabasesFn: func() []meta.DatabaseInfo { return []meta.DatabaseInfo{ {Name: "db1"}, {Name: "db2"}, {Name: "db3"}, {Name: "db4"}, } }, }, } opt := influxql.ExecutionOptions{ Authorizer: &mockAuthorizer{ AuthorizeDatabaseFn: func(p influxql.Privilege, name string) bool { return name == "db2" || name == "db4" }, }, } q, err := influxql.ParseQuery("SHOW DATABASES") if err != nil { t.Fatal(err) } results := ReadAllResults(qe.ExecuteQuery(q, opt, make(chan struct{}))) exp := []*influxql.Result{ { StatementID: 0, Series: []*models.Row{{ Name: "databases", Columns: []string{"name"}, Values: [][]interface{}{ {"db2"}, {"db4"}, }, }}, }, } if !reflect.DeepEqual(results, exp) { t.Fatalf("unexpected results: exp %s, got %s", spew.Sdump(exp), spew.Sdump(results)) } } // QueryExecutor is a test wrapper for coordinator.QueryExecutor. type QueryExecutor struct { *influxql.QueryExecutor MetaClient MetaClient TSDBStore TSDBStore StatementExecutor *coordinator.StatementExecutor LogOutput bytes.Buffer } // NewQueryExecutor returns a new instance of QueryExecutor. // This query executor always has a node id of 0. func NewQueryExecutor() *QueryExecutor { e := &QueryExecutor{ QueryExecutor: influxql.NewQueryExecutor(), } e.StatementExecutor = &coordinator.StatementExecutor{ MetaClient: &e.MetaClient, TSDBStore: &e.TSDBStore, ShardMapper: &coordinator.LocalShardMapper{ MetaClient: &e.MetaClient, TSDBStore: &e.TSDBStore, }, } e.QueryExecutor.StatementExecutor = e.StatementExecutor var out io.Writer = &e.LogOutput if testing.Verbose() { out = io.MultiWriter(out, os.Stderr) } e.QueryExecutor.WithLogger(zap.New( zap.NewTextEncoder(), zap.Output(zap.AddSync(out)), )) return e } // DefaultQueryExecutor returns a QueryExecutor with a database (db0) and retention policy (rp0). func DefaultQueryExecutor() *QueryExecutor { e := NewQueryExecutor() e.MetaClient.DatabaseFn = DefaultMetaClientDatabaseFn return e } // ExecuteQuery parses query and executes against the database. func (e *QueryExecutor) ExecuteQuery(query, database string, chunkSize int) <-chan *influxql.Result { return e.QueryExecutor.ExecuteQuery(MustParseQuery(query), influxql.ExecutionOptions{ Database: database, ChunkSize: chunkSize, }, make(chan struct{})) } // TSDBStore is a mockable implementation of coordinator.TSDBStore. type TSDBStore struct { CreateShardFn func(database, policy string, shardID uint64, enabled bool) error WriteToShardFn func(shardID uint64, points []models.Point) error RestoreShardFn func(id uint64, r io.Reader) error BackupShardFn func(id uint64, since time.Time, w io.Writer) error DeleteDatabaseFn func(name string) error DeleteMeasurementFn func(database, name string) error DeleteRetentionPolicyFn func(database, name string) error DeleteShardFn func(id uint64) error DeleteSeriesFn func(database string, sources []influxql.Source, condition influxql.Expr) error ShardGroupFn func(ids []uint64) tsdb.ShardGroup } func (s *TSDBStore) CreateShard(database, policy string, shardID uint64, enabled bool) error { if s.CreateShardFn == nil { return nil } return s.CreateShardFn(database, policy, shardID, enabled) } func (s *TSDBStore) WriteToShard(shardID uint64, points []models.Point) error { return s.WriteToShardFn(shardID, points) } func (s *TSDBStore) RestoreShard(id uint64, r io.Reader) error { return s.RestoreShardFn(id, r) } func (s *TSDBStore) BackupShard(id uint64, since time.Time, w io.Writer) error { return s.BackupShardFn(id, since, w) } func (s *TSDBStore) DeleteDatabase(name string) error { return s.DeleteDatabaseFn(name) } func (s *TSDBStore) DeleteMeasurement(database, name string) error { return s.DeleteMeasurementFn(database, name) } func (s *TSDBStore) DeleteRetentionPolicy(database, name string) error { return s.DeleteRetentionPolicyFn(database, name) } func (s *TSDBStore) DeleteShard(id uint64) error { return s.DeleteShardFn(id) } func (s *TSDBStore) DeleteSeries(database string, sources []influxql.Source, condition influxql.Expr) error { return s.DeleteSeriesFn(database, sources, condition) } func (s *TSDBStore) ShardGroup(ids []uint64) tsdb.ShardGroup { return s.ShardGroupFn(ids) } func (s *TSDBStore) Measurements(database string, cond influxql.Expr) ([]string, error) { return nil, nil } func (s *TSDBStore) MeasurementNames(database string, cond influxql.Expr) ([][]byte, error) { return nil, nil } func (s *TSDBStore) TagValues(database string, cond influxql.Expr) ([]tsdb.TagValues, error) { return nil, nil } type MockShard struct { Measurements []string FieldDimensionsFn func(measurements []string) (fields map[string]influxql.DataType, dimensions map[string]struct{}, err error) CreateIteratorFn func(m string, opt influxql.IteratorOptions) (influxql.Iterator, error) ExpandSourcesFn func(sources influxql.Sources) (influxql.Sources, error) } func (sh *MockShard) MeasurementsByRegex(re *regexp.Regexp) []string { names := make([]string, 0, len(sh.Measurements)) for _, name := range sh.Measurements { if re.MatchString(name) { names = append(names, name) } } return names } func (sh *MockShard) FieldDimensions(measurements []string) (fields map[string]influxql.DataType, dimensions map[string]struct{}, err error) { return sh.FieldDimensionsFn(measurements) } func (sh *MockShard) MapType(measurement, field string) influxql.DataType { f, d, err := sh.FieldDimensions([]string{measurement}) if err != nil { return influxql.Unknown } if typ, ok := f[field]; ok { return typ } else if _, ok := d[field]; ok { return influxql.Tag } return influxql.Unknown } func (sh *MockShard) CreateIterator(measurement string, opt influxql.IteratorOptions) (influxql.Iterator, error) { return sh.CreateIteratorFn(measurement, opt) } func (sh *MockShard) ExpandSources(sources influxql.Sources) (influxql.Sources, error) { return sh.ExpandSourcesFn(sources) } // MustParseQuery parses s into a query. Panic on error. func MustParseQuery(s string) *influxql.Query { q, err := influxql.ParseQuery(s) if err != nil { panic(err) } return q } // ReadAllResults reads all results from c and returns as a slice. func ReadAllResults(c <-chan *influxql.Result) []*influxql.Result { var a []*influxql.Result for result := range c { a = append(a, result) } return a } // FloatIterator is a represents an iterator that reads from a slice. type FloatIterator struct { Points []influxql.FloatPoint stats influxql.IteratorStats } func (itr *FloatIterator) Stats() influxql.IteratorStats { return itr.stats } func (itr *FloatIterator) Close() error { return nil } // Next returns the next value and shifts it off the beginning of the points slice. func (itr *FloatIterator) Next() (*influxql.FloatPoint, error) { if len(itr.Points) == 0 { return nil, nil } v := &itr.Points[0] itr.Points = itr.Points[1:] return v, nil }