// intentSpans collects the spans of the intents to be resolved for the // transaction. It does not create copies, so the caller must not alter the // returned data. func (tm *txnMetadata) intentSpans() []roachpb.Span { intents := make([]roachpb.Span, 0, tm.keys.Len()) for _, o := range tm.keys.GetOverlaps(roachpb.KeyMin, roachpb.KeyMax) { intent := roachpb.Span{ Key: o.Key.Start().(roachpb.Key), } if endKey := o.Key.End().(roachpb.Key); !intent.Key.IsPrev(endKey) { intent.EndKey = endKey } intents = append(intents, intent) } return intents }
// collectIntentSpans collects the spans of the intents to be resolved for the // transaction. It does not create copies, so the caller must not alter the // returned data. Usually called with txnMeta.keys. func collectIntentSpans(keys interval.RangeGroup) []roachpb.Span { intents := make([]roachpb.Span, 0, keys.Len()) if err := keys.ForEach(func(r interval.Range) error { sp := roachpb.Span{ Key: roachpb.Key(r.Start), } if endKey := roachpb.Key(r.End); !sp.Key.IsPrev(endKey) { sp.EndKey = endKey } intents = append(intents, sp) return nil }); err != nil { panic(err) } return intents }
func TestTableReader(t *testing.T) { defer leaktest.AfterTest(t)() _, sqlDB, kvDB, cleanup := sqlutils.SetupServer(t) defer cleanup() // Create a table where each row is: // // | a | b | sum | s | // |-----------------------------------------------------------------| // | rowId/10 | rowId%10 | rowId/10 + rowId%10 | IntToEnglish(rowId) | aFn := func(row int) parser.Datum { return parser.NewDInt(parser.DInt(row / 10)) } bFn := func(row int) parser.Datum { return parser.NewDInt(parser.DInt(row % 10)) } sumFn := func(row int) parser.Datum { return parser.NewDInt(parser.DInt(row/10 + row%10)) } sqlutils.CreateTable(t, sqlDB, "t", "a INT, b INT, sum INT, s STRING, PRIMARY KEY (a,b), INDEX bs (b,s)", 99, sqlutils.ToRowFn(aFn, bFn, sumFn, sqlutils.RowEnglishFn)) td := sqlbase.GetTableDescriptor(kvDB, "test", "t") makeIndexSpan := func(start, end int) TableReaderSpan { var span roachpb.Span prefix := roachpb.Key(sqlbase.MakeIndexKeyPrefix(td.ID, td.Indexes[0].ID)) span.Key = append(prefix, encoding.EncodeVarintAscending(nil, int64(start))...) span.EndKey = append(span.EndKey, prefix...) span.EndKey = append(span.EndKey, encoding.EncodeVarintAscending(nil, int64(end))...) return TableReaderSpan{Span: span} } testCases := []struct { spec TableReaderSpec expected string }{ { spec: TableReaderSpec{ Filter: Expression{Expr: "$2 < 5 AND $1 != 3"}, // sum < 5 && b != 3 OutputColumns: []uint32{0, 1}, }, expected: "[[0 1] [0 2] [0 4] [1 0] [1 1] [1 2] [2 0] [2 1] [2 2] [3 0] [3 1] [4 0]]", }, { spec: TableReaderSpec{ Filter: Expression{Expr: "$2 < 5 AND $1 != 3"}, OutputColumns: []uint32{3}, // s HardLimit: 4, }, expected: "[['one'] ['two'] ['four'] ['one-zero']]", }, { spec: TableReaderSpec{ IndexIdx: 1, Reverse: true, Spans: []TableReaderSpan{makeIndexSpan(4, 6)}, Filter: Expression{Expr: "$0 < 3"}, // sum < 8 OutputColumns: []uint32{0, 1}, SoftLimit: 1, }, expected: "[[2 5] [1 5] [0 5] [2 4] [1 4] [0 4]]", }, } for _, c := range testCases { ts := c.spec ts.Table = *td txn := client.NewTxn(context.Background(), *kvDB) out := &RowBuffer{} tr, err := newTableReader(&ts, txn, out, &parser.EvalContext{}) if err != nil { t.Fatal(err) } tr.Run(nil) if out.err != nil { t.Fatal(out.err) } if !out.closed { t.Fatalf("output RowReceiver not closed") } if result := out.rows.String(); result != c.expected { t.Errorf("invalid results: %s, expected %s'", result, c.expected) } } }
func TestTableReader(t *testing.T) { defer leaktest.AfterTest(t)() _, sqlDB, kvDB, cleanup := sqlutils.SetupServer(t) defer cleanup() if _, err := sqlDB.Exec(` CREATE DATABASE test; CREATE TABLE test.t (a INT PRIMARY KEY, b INT, c INT, d INT, INDEX bc (b, c)); INSERT INTO test.t VALUES (1, 10, 11, 12), (2, 20, 21, 22), (3, 30, 31, 32); INSERT INTO test.t VALUES (4, 60, 61, 62), (5, 50, 51, 52), (6, 40, 41, 42); `); err != nil { t.Fatal(err) } td := sqlbase.GetTableDescriptor(kvDB, "test", "t") ts := TableReaderSpec{ Table: *td, IndexIdx: 0, Reverse: false, Spans: nil, Filter: Expression{Expr: "$2 != 21"}, // c != 21 OutputColumns: []uint32{0, 3}, // a, d } txn := client.NewTxn(context.Background(), *kvDB) out := &testingReceiver{} tr, err := newTableReader(&ts, txn, out, parser.EvalContext{}) if err != nil { t.Fatal(err) } tr.run() if out.err != nil { t.Fatal(out.err) } if !out.closed { t.Fatalf("output rowReceiver not closed") } expected := "[[1 12] [3 32] [4 62] [5 52] [6 42]]" if fmt.Sprintf("%s", out.rows) != expected { t.Errorf("invalid results: %s, expected %s'", out.rows, expected) } // Read using the bc index var span roachpb.Span span.Key = roachpb.Key(sqlbase.MakeIndexKeyPrefix(td.ID, td.Indexes[0].ID)) span.EndKey = append(span.Key, encoding.EncodeVarintAscending(nil, 50)...) ts = TableReaderSpec{ Table: *td, IndexIdx: 1, Reverse: true, Spans: []TableReaderSpan{{Span: span}}, Filter: Expression{Expr: "$1 != 30"}, // b != 30 OutputColumns: []uint32{0, 2}, // a, c } out = &testingReceiver{} tr, err = newTableReader(&ts, txn, out, parser.EvalContext{}) if err != nil { t.Fatal(err) } tr.run() if out.err != nil { t.Fatal(out.err) } if !out.closed { t.Fatalf("output rowReceiver not closed") } expected = "[[6 41] [2 21] [1 11]]" if fmt.Sprintf("%s", out.rows) != expected { t.Errorf("invalid results: %s, expected %s'", out.rows, expected) } }
func TestClusterFlow(t *testing.T) { defer leaktest.AfterTest(t)() const numRows = 100 args := base.TestClusterArgs{ReplicationMode: base.ReplicationManual} tc := serverutils.StartTestCluster(t, 3, args) defer tc.Stopper().Stop() sumDigitsFn := func(row int) parser.Datum { sum := 0 for row > 0 { sum += row % 10 row /= 10 } return parser.NewDInt(parser.DInt(sum)) } sqlutils.CreateTable(t, tc.ServerConn(0), "t", "num INT PRIMARY KEY, digitsum INT, numstr STRING, INDEX s (digitsum)", numRows, sqlutils.ToRowFn(sqlutils.RowIdxFn, sumDigitsFn, sqlutils.RowEnglishFn)) kvDB := tc.Server(0).KVClient().(*client.DB) desc := sqlbase.GetTableDescriptor(kvDB, "test", "t") makeIndexSpan := func(start, end int) TableReaderSpan { var span roachpb.Span prefix := roachpb.Key(sqlbase.MakeIndexKeyPrefix(desc, desc.Indexes[0].ID)) span.Key = append(prefix, encoding.EncodeVarintAscending(nil, int64(start))...) span.EndKey = append(span.EndKey, prefix...) span.EndKey = append(span.EndKey, encoding.EncodeVarintAscending(nil, int64(end))...) return TableReaderSpan{Span: span} } // Set up table readers on three hosts feeding data into a join reader on // the third host. This is a basic test for the distributed flow // infrastructure, including local and remote streams. // // Note that the ranges won't necessarily be local to the table readers, but // that doesn't matter for the purposes of this test. tr1 := TableReaderSpec{ Table: *desc, IndexIdx: 1, OutputColumns: []uint32{0, 1}, Spans: []TableReaderSpan{makeIndexSpan(0, 8)}, } tr2 := TableReaderSpec{ Table: *desc, IndexIdx: 1, OutputColumns: []uint32{0, 1}, Spans: []TableReaderSpan{makeIndexSpan(8, 12)}, } tr3 := TableReaderSpec{ Table: *desc, IndexIdx: 1, OutputColumns: []uint32{0, 1}, Spans: []TableReaderSpan{makeIndexSpan(12, 100)}, } jr := JoinReaderSpec{ Table: *desc, OutputColumns: []uint32{2}, } txn := client.NewTxn(context.Background(), *kvDB) fid := FlowID{uuid.MakeV4()} req1 := &SetupFlowRequest{Txn: txn.Proto} req1.Flow = FlowSpec{ FlowID: fid, Processors: []ProcessorSpec{{ Core: ProcessorCoreUnion{TableReader: &tr1}, Output: []OutputRouterSpec{{ Type: OutputRouterSpec_MIRROR, Streams: []StreamEndpointSpec{ {Mailbox: &MailboxSpec{StreamID: 0, TargetAddr: tc.Server(2).ServingAddr()}}, }, }}, }}, } req2 := &SetupFlowRequest{Txn: txn.Proto} req2.Flow = FlowSpec{ FlowID: fid, Processors: []ProcessorSpec{{ Core: ProcessorCoreUnion{TableReader: &tr2}, Output: []OutputRouterSpec{{ Type: OutputRouterSpec_MIRROR, Streams: []StreamEndpointSpec{ {Mailbox: &MailboxSpec{StreamID: 1, TargetAddr: tc.Server(2).ServingAddr()}}, }, }}, }}, } req3 := &SetupFlowRequest{Txn: txn.Proto} req3.Flow = FlowSpec{ FlowID: fid, Processors: []ProcessorSpec{ { Core: ProcessorCoreUnion{TableReader: &tr3}, Output: []OutputRouterSpec{{ Type: OutputRouterSpec_MIRROR, Streams: []StreamEndpointSpec{ {LocalStreamID: LocalStreamID(0)}, }, }}, }, { Input: []InputSyncSpec{{ Type: InputSyncSpec_ORDERED, Ordering: Ordering{Columns: []Ordering_Column{{1, Ordering_Column_ASC}}}, Streams: []StreamEndpointSpec{ {Mailbox: &MailboxSpec{StreamID: 0}}, {Mailbox: &MailboxSpec{StreamID: 1}}, {LocalStreamID: LocalStreamID(0)}, }, }}, Core: ProcessorCoreUnion{JoinReader: &jr}, Output: []OutputRouterSpec{{ Type: OutputRouterSpec_MIRROR, Streams: []StreamEndpointSpec{{Mailbox: &MailboxSpec{SimpleResponse: true}}}, }}}, }, } var clients []DistSQLClient for i := 0; i < 3; i++ { s := tc.Server(i) conn, err := s.RPCContext().GRPCDial(s.ServingAddr()) if err != nil { t.Fatal(err) } clients = append(clients, NewDistSQLClient(conn)) } ctx := context.Background() if log.V(1) { log.Infof(ctx, "Setting up flow on 0") } if resp, err := clients[0].SetupFlow(context.Background(), req1); err != nil { t.Fatal(err) } else if resp.Error != nil { t.Fatal(resp.Error) } if log.V(1) { log.Infof(ctx, "Setting up flow on 1") } if resp, err := clients[1].SetupFlow(context.Background(), req2); err != nil { t.Fatal(err) } else if resp.Error != nil { t.Fatal(resp.Error) } if log.V(1) { log.Infof(ctx, "Running flow on 2") } stream, err := clients[2].RunSimpleFlow(context.Background(), req3) if err != nil { t.Fatal(err) } var decoder StreamDecoder var rows sqlbase.EncDatumRows for { msg, err := stream.Recv() if err != nil { if err == io.EOF { break } t.Fatal(err) } err = decoder.AddMessage(msg) if err != nil { t.Fatal(err) } rows = testGetDecodedRows(t, &decoder, rows) } if done, trailerErr := decoder.IsDone(); !done { t.Fatal("stream not done") } else if trailerErr != nil { t.Fatal("error in the stream trailer:", trailerErr) } // The result should be all the numbers in string form, ordered by the // digit sum (and then by number). var results []string for sum := 1; sum <= 50; sum++ { for i := 1; i <= numRows; i++ { if int(*sumDigitsFn(i).(*parser.DInt)) == sum { results = append(results, fmt.Sprintf("['%s']", sqlutils.IntToEnglish(i))) } } } expected := strings.Join(results, " ") expected = "[" + expected + "]" if rowStr := rows.String(); rowStr != expected { t.Errorf("Result: %s\n Expected: %s\n", rowStr, expected) } }
func TestTableReader(t *testing.T) { defer leaktest.AfterTest(t)() ctx, _ := createTestServerContext() server, sqlDB, kvDB := setupWithContext(t, ctx) defer cleanup(server, sqlDB) if _, err := sqlDB.Exec(` CREATE DATABASE test; CREATE TABLE test.t (a INT PRIMARY KEY, b INT, c INT, d INT, INDEX bc (b, c)); INSERT INTO test.t VALUES (1, 10, 11, 12), (2, 20, 21, 22), (3, 30, 31, 32); INSERT INTO test.t VALUES (4, 60, 61, 62), (5, 50, 51, 52), (6, 40, 41, 42); `); err != nil { t.Fatal(err) } td := getTableDescriptor(kvDB, "test", "t") ts := sql.TableReaderSpec{ Table: *td, IndexIdx: 0, Reverse: false, Spans: nil, Filter: sql.Expression{Expr: "$2 != 21"}, // c != 21 OutputColumns: []uint32{0, 3}, // a, d } txn := client.NewTxn(context.Background(), *kvDB) tr, err := sql.NewTableReader(&ts, txn, parser.EvalContext{}) if err != nil { t.Fatal(err) } pErr := tr.Run() if pErr != nil { t.Fatal(pErr) } // TODO(radu): currently the table reader just prints out stuff; when it // will output results we will be able to verify them. // Expected output: // RESULT: 1 <skipped> 11 12 // RESULT: 3 <skipped> 31 32 // RESULT: 4 <skipped> 61 62 // RESULT: 5 <skipped> 51 52 // RESULT: 6 <skipped> 41 42 // Read using the bc index var span roachpb.Span span.Key = roachpb.Key(sqlbase.MakeIndexKeyPrefix(td.ID, td.Indexes[0].ID)) span.EndKey = append(span.Key, encoding.EncodeVarintAscending(nil, 50)...) ts = sql.TableReaderSpec{ Table: *td, IndexIdx: 1, Reverse: true, Spans: []sql.TableReaderSpan{{Span: span}}, Filter: sql.Expression{Expr: "$1 != 30"}, // b != 30 OutputColumns: []uint32{0, 1}, // a, c } tr, err = sql.NewTableReader(&ts, txn, parser.EvalContext{}) if err != nil { t.Fatal(err) } pErr = tr.Run() if pErr != nil { t.Fatal(pErr) } // Expected output: // RESULT: 6 40 41 <skipped> // RESULT: 2 20 21 <skipped> // RESULT: 1 10 11 <skipped> }