// Copyright 2015 PingCAP, Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package codec import ( "bytes" "fmt" "hash" "hash/crc32" "hash/fnv" "math" "testing" "time" "github.com/pingcap/tidb/pkg/errctx" "github.com/pingcap/tidb/pkg/parser/mysql" "github.com/pingcap/tidb/pkg/parser/terror" "github.com/pingcap/tidb/pkg/planner/cascades/base" "github.com/pingcap/tidb/pkg/types" "github.com/pingcap/tidb/pkg/util/chunk" "github.com/pingcap/tidb/pkg/util/collate" "github.com/stretchr/testify/require" ) func TestCodecKey(t *testing.T) { table := []struct { Input []types.Datum Expect []types.Datum }{ { types.MakeDatums(int64(1)), types.MakeDatums(int64(1)), }, { types.MakeDatums(float32(1), float64(3.15), []byte("123"), "123"), types.MakeDatums(float64(1), float64(3.15), []byte("123"), []byte("123")), }, { types.MakeDatums(uint64(1), float64(3.15), []byte("123"), int64(-1)), types.MakeDatums(uint64(1), float64(3.15), []byte("123"), int64(-1)), }, { types.MakeDatums(true, false), types.MakeDatums(int64(1), int64(0)), }, { types.MakeDatums(nil), types.MakeDatums(nil), }, { types.MakeDatums(types.NewBinaryLiteralFromUint(100, -1), types.NewBinaryLiteralFromUint(100, 4)), types.MakeDatums(uint64(100), uint64(100)), }, { types.MakeDatums(types.Enum{Name: "a", Value: 1}, types.Set{Name: "a", Value: 1}), types.MakeDatums(uint64(1), uint64(1)), }, } typeCtx := types.DefaultStmtNoWarningContext.WithLocation(time.Local) for i, datums := range table { comment := fmt.Sprintf("%d %v", i, datums) b, err := EncodeKey(typeCtx.Location(), nil, datums.Input...) require.NoError(t, err, comment) args, err := Decode(b, 1) require.NoError(t, err, comment) require.Equal(t, datums.Expect, args, comment) b, err = EncodeValue(typeCtx.Location(), nil, datums.Input...) require.NoError(t, err, comment) size, err := estimateValuesSize(typeCtx, datums.Input) require.NoError(t, err, comment) require.Len(t, b, size, comment) args, err = Decode(b, 1) require.NoError(t, err, comment) require.Equal(t, datums.Expect, args, comment) } var raw types.Datum raw.SetRaw([]byte("raw")) _, err := EncodeKey(typeCtx.Location(), nil, raw) require.Error(t, err) } func estimateValuesSize(typeCtx types.Context, vals []types.Datum) (int, error) { size := 0 for _, val := range vals { length, err := EstimateValueSize(typeCtx, val) if err != nil { return 0, err } size += length } return size, nil } func TestCodecKeyCompare(t *testing.T) { table := []struct { Left []types.Datum Right []types.Datum Expect int }{ { types.MakeDatums(1), types.MakeDatums(1), 0, }, { types.MakeDatums(-1), types.MakeDatums(1), -1, }, { types.MakeDatums(3.15), types.MakeDatums(3.12), 1, }, { types.MakeDatums("abc"), types.MakeDatums("abcd"), -1, }, { types.MakeDatums("abcdefgh"), types.MakeDatums("abcdefghi"), -1, }, { types.MakeDatums(1, "abc"), types.MakeDatums(1, "abcd"), -1, }, { types.MakeDatums(1, "abc", "def"), types.MakeDatums(1, "abcd", "af"), -1, }, { types.MakeDatums(3.12, "ebc", "def"), types.MakeDatums(2.12, "abcd", "af"), 1, }, { types.MakeDatums([]byte{0x01, 0x00}, []byte{0xFF}), types.MakeDatums([]byte{0x01, 0x00, 0xFF}), -1, }, { types.MakeDatums([]byte{0x01}, uint64(0xFFFFFFFFFFFFFFF)), types.MakeDatums([]byte{0x01, 0x10}, 0), -1, }, { types.MakeDatums(0), types.MakeDatums(nil), 1, }, { types.MakeDatums([]byte{0x00}), types.MakeDatums(nil), 1, }, { types.MakeDatums(math.SmallestNonzeroFloat64), types.MakeDatums(nil), 1, }, { types.MakeDatums(int64(math.MinInt64)), types.MakeDatums(nil), 1, }, { types.MakeDatums(1, int64(math.MinInt64), nil), types.MakeDatums(1, nil, uint64(math.MaxUint64)), 1, }, { types.MakeDatums(1, []byte{}, nil), types.MakeDatums(1, nil, 123), 1, }, { types.MakeDatums(parseTime(t, "2011-11-11 00:00:00"), 1), types.MakeDatums(parseTime(t, "2011-11-11 00:00:00"), 0), 1, }, { types.MakeDatums(parseDuration(t, "00:00:00"), 1), types.MakeDatums(parseDuration(t, "00:00:01"), 0), -1, }, { []types.Datum{types.MinNotNullDatum()}, []types.Datum{types.MaxValueDatum()}, -1, }, } for _, datums := range table { b1, err := EncodeKey(time.Local, nil, datums.Left...) require.NoError(t, err) b2, err := EncodeKey(time.Local, nil, datums.Right...) require.NoError(t, err) comparedRes := bytes.Compare(b1, b2) require.Equalf(t, datums.Expect, comparedRes, "%v - %v - %v - %v - %v", datums.Left, datums.Right, b1, b2, datums.Expect) } } func TestNumberCodec(t *testing.T) { tblInt64 := []int64{ math.MinInt64, math.MinInt32, math.MinInt16, math.MinInt8, 0, math.MaxInt8, math.MaxInt16, math.MaxInt32, math.MaxInt64, 1<<47 - 1, -1 << 47, 1<<23 - 1, -1 << 23, 1<<33 - 1, -1 << 33, 1<<55 - 1, -1 << 55, 1, -1, } for _, intNum := range tblInt64 { b := EncodeInt(nil, intNum) _, v, err := DecodeInt(b) require.NoError(t, err) require.Equal(t, intNum, v) b = EncodeIntDesc(nil, intNum) _, v, err = DecodeIntDesc(b) require.NoError(t, err) require.Equal(t, intNum, v) b = EncodeVarint(nil, intNum) _, v, err = DecodeVarint(b) require.NoError(t, err) require.Equal(t, intNum, v) b = EncodeComparableVarint(nil, intNum) _, v, err = DecodeComparableVarint(b) require.NoError(t, err) require.Equal(t, intNum, v) } tblUint64 := []uint64{ 0, math.MaxUint8, math.MaxUint16, math.MaxUint32, math.MaxUint64, 1<<24 - 1, 1<<48 - 1, 1<<56 - 1, 1, math.MaxInt16, math.MaxInt8, math.MaxInt32, math.MaxInt64, } for _, uintNum := range tblUint64 { b := EncodeUint(nil, uintNum) _, v, err := DecodeUint(b) require.NoError(t, err) require.Equal(t, uintNum, v) b = EncodeUintDesc(nil, uintNum) _, v, err = DecodeUintDesc(b) require.NoError(t, err) require.Equal(t, uintNum, v) b = EncodeUvarint(nil, uintNum) _, v, err = DecodeUvarint(b) require.NoError(t, err) require.Equal(t, uintNum, v) b = EncodeComparableUvarint(nil, uintNum) _, v, err = DecodeComparableUvarint(b) require.NoError(t, err) require.Equal(t, uintNum, v) } var b []byte b = EncodeComparableVarint(b, -1) b = EncodeComparableUvarint(b, 1) b = EncodeComparableVarint(b, 2) b, i, err := DecodeComparableVarint(b) require.NoError(t, err) require.Equal(t, int64(-1), i) b, u, err := DecodeComparableUvarint(b) require.NoError(t, err) require.Equal(t, uint64(1), u) _, i, err = DecodeComparableVarint(b) require.NoError(t, err) require.Equal(t, int64(2), i) } func TestNumberOrder(t *testing.T) { tblInt64 := []struct { Arg1 int64 Arg2 int64 Ret int }{ {-1, 1, -1}, {math.MaxInt64, math.MinInt64, 1}, {math.MaxInt64, math.MaxInt32, 1}, {math.MinInt32, math.MaxInt16, -1}, {math.MinInt64, math.MaxInt8, -1}, {0, math.MaxInt8, -1}, {math.MinInt8, 0, -1}, {math.MinInt16, math.MaxInt16, -1}, {1, -1, 1}, {1, 0, 1}, {-1, 0, -1}, {0, 0, 0}, {math.MaxInt16, math.MaxInt16, 0}, } for _, intNums := range tblInt64 { b1 := EncodeInt(nil, intNums.Arg1) b2 := EncodeInt(nil, intNums.Arg2) require.Equal(t, intNums.Ret, bytes.Compare(b1, b2)) b1 = EncodeIntDesc(nil, intNums.Arg1) b2 = EncodeIntDesc(nil, intNums.Arg2) require.Equal(t, -intNums.Ret, bytes.Compare(b1, b2)) b1 = EncodeComparableVarint(nil, intNums.Arg1) b2 = EncodeComparableVarint(nil, intNums.Arg2) require.Equal(t, intNums.Ret, bytes.Compare(b1, b2)) } tblUint64 := []struct { Arg1 uint64 Arg2 uint64 Ret int }{ {0, 0, 0}, {1, 0, 1}, {0, 1, -1}, {math.MaxInt8, math.MaxInt16, -1}, {math.MaxUint32, math.MaxInt32, 1}, {math.MaxUint8, math.MaxInt8, 1}, {math.MaxUint16, math.MaxInt32, -1}, {math.MaxUint64, math.MaxInt64, 1}, {math.MaxInt64, math.MaxUint32, 1}, {math.MaxUint64, 0, 1}, {0, math.MaxUint64, -1}, } for _, uintNums := range tblUint64 { b1 := EncodeUint(nil, uintNums.Arg1) b2 := EncodeUint(nil, uintNums.Arg2) require.Equal(t, uintNums.Ret, bytes.Compare(b1, b2)) b1 = EncodeUintDesc(nil, uintNums.Arg1) b2 = EncodeUintDesc(nil, uintNums.Arg2) require.Equal(t, -uintNums.Ret, bytes.Compare(b1, b2)) b1 = EncodeComparableUvarint(nil, uintNums.Arg1) b2 = EncodeComparableUvarint(nil, uintNums.Arg2) require.Equal(t, uintNums.Ret, bytes.Compare(b1, b2)) } } func TestFloatCodec(t *testing.T) { tblFloat := []float64{ -1, 0, 1, math.MaxFloat64, math.MaxFloat32, math.SmallestNonzeroFloat32, math.SmallestNonzeroFloat64, math.Inf(-1), math.Inf(1), } for _, floatNum := range tblFloat { b := EncodeFloat(nil, floatNum) _, v, err := DecodeFloat(b) require.NoError(t, err) require.Equal(t, floatNum, v) b = EncodeFloatDesc(nil, floatNum) _, v, err = DecodeFloatDesc(b) require.NoError(t, err) require.Equal(t, floatNum, v) } tblCmp := []struct { Arg1 float64 Arg2 float64 Ret int }{ {1, -1, 1}, {1, 0, 1}, {0, -1, 1}, {0, 0, 0}, {math.MaxFloat64, 1, 1}, {math.MaxFloat32, math.MaxFloat64, -1}, {math.MaxFloat64, 0, 1}, {math.MaxFloat64, math.SmallestNonzeroFloat64, 1}, {math.Inf(-1), 0, -1}, {math.Inf(1), 0, 1}, {math.Inf(-1), math.Inf(1), -1}, } for _, floatNums := range tblCmp { b1 := EncodeFloat(nil, floatNums.Arg1) b2 := EncodeFloat(nil, floatNums.Arg2) ret := bytes.Compare(b1, b2) require.Equal(t, floatNums.Ret, ret) b1 = EncodeFloatDesc(nil, floatNums.Arg1) b2 = EncodeFloatDesc(nil, floatNums.Arg2) ret = bytes.Compare(b1, b2) require.Equal(t, -floatNums.Ret, ret) } } func TestBytes(t *testing.T) { tblBytes := [][]byte{ {}, {0x00, 0x01}, {0xff, 0xff}, {0x01, 0x00}, []byte("abc"), []byte("hello world"), } for _, bytesDatum := range tblBytes { b := EncodeBytes(nil, bytesDatum) _, v, err := DecodeBytes(b, nil) require.NoError(t, err) require.Equalf(t, bytesDatum, v, "%v - %v - %v", bytesDatum, b, v) b = EncodeBytesDesc(nil, bytesDatum) _, v, err = DecodeBytesDesc(b, nil) require.NoError(t, err) require.Equalf(t, bytesDatum, v, "%v - %v - %v", bytesDatum, b, v) b = EncodeCompactBytes(nil, bytesDatum) _, v, err = DecodeCompactBytes(b) require.NoError(t, err) require.Equal(t, bytesDatum, v, "%v - %v - %v", bytesDatum, b, v) } tblCmp := []struct { Arg1 []byte Arg2 []byte Ret int }{ {[]byte{}, []byte{0x00}, -1}, {[]byte{0x00}, []byte{0x00}, 0}, {[]byte{0xFF}, []byte{0x00}, 1}, {[]byte{0xFF}, []byte{0xFF, 0x00}, -1}, {[]byte("a"), []byte("b"), -1}, {[]byte("a"), []byte{0x00}, 1}, {[]byte{0x00}, []byte{0x01}, -1}, {[]byte{0x00, 0x01}, []byte{0x00, 0x00}, 1}, {[]byte{0x00, 0x00, 0x00}, []byte{0x00, 0x00}, 1}, {[]byte{0x00, 0x00, 0x00}, []byte{0x00, 0x00}, 1}, {[]byte{0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, []byte{0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, -1}, {[]byte{0x01, 0x02, 0x03, 0x00}, []byte{0x01, 0x02, 0x03}, 1}, {[]byte{0x01, 0x03, 0x03, 0x04}, []byte{0x01, 0x03, 0x03, 0x05}, -1}, {[]byte{0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07}, []byte{0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08}, -1}, {[]byte{0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09}, []byte{0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08}, 1}, {[]byte{0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x00}, []byte{0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08}, 1}, } for _, bytesData := range tblCmp { b1 := EncodeBytes(nil, bytesData.Arg1) b2 := EncodeBytes(nil, bytesData.Arg2) ret := bytes.Compare(b1, b2) require.Equal(t, bytesData.Ret, ret) b1 = EncodeBytesDesc(nil, bytesData.Arg1) b2 = EncodeBytesDesc(nil, bytesData.Arg2) ret = bytes.Compare(b1, b2) require.Equal(t, -bytesData.Ret, ret) } } func parseTime(t *testing.T, s string) types.Time { m, err := types.ParseTime(types.DefaultStmtNoWarningContext, s, mysql.TypeDatetime, types.DefaultFsp) require.NoError(t, err) return m } func parseDuration(t *testing.T, s string) types.Duration { m, _, err := types.ParseDuration(types.DefaultStmtNoWarningContext, s, types.DefaultFsp) require.NoError(t, err) return m } func TestTime(t *testing.T) { tbl := []string{ "2011-01-01 00:00:00", "2011-01-01 00:00:00", "0001-01-01 00:00:00", } for _, timeDatum := range tbl { m := types.NewDatum(parseTime(t, timeDatum)) b, err := EncodeKey(time.Local, nil, m) require.NoError(t, err) v, err := Decode(b, 1) require.NoError(t, err) var rawTime types.Time rawTime.SetType(mysql.TypeDatetime) err = rawTime.FromPackedUint(v[0].GetUint64()) require.NoError(t, err) require.Equal(t, m, types.NewDatum(rawTime)) } tblCmp := []struct { Arg1 string Arg2 string Ret int }{ {"2011-10-10 00:00:00", "2000-12-12 11:11:11", 1}, {"2000-10-10 00:00:00", "2001-10-10 00:00:00", -1}, {"2000-10-10 00:00:00", "2000-10-10 00:00:00", 0}, } for _, timeData := range tblCmp { m1 := types.NewDatum(parseTime(t, timeData.Arg1)) m2 := types.NewDatum(parseTime(t, timeData.Arg2)) b1, err := EncodeKey(time.Local, nil, m1) require.NoError(t, err) b2, err := EncodeKey(time.Local, nil, m2) require.NoError(t, err) ret := bytes.Compare(b1, b2) require.Equal(t, timeData.Ret, ret) } } func TestDuration(t *testing.T) { tbl := []string{ "11:11:11", "00:00:00", "1 11:11:11", } for _, duration := range tbl { m := parseDuration(t, duration) b, err := EncodeKey(time.Local, nil, types.NewDatum(m)) require.NoError(t, err) v, err := Decode(b, 1) require.NoError(t, err) m.Fsp = types.MaxFsp require.Equal(t, types.MakeDatums(m), v) } tblCmp := []struct { Arg1 string Arg2 string Ret int }{ {"20:00:00", "11:11:11", 1}, {"00:00:00", "00:00:01", -1}, {"00:00:00", "00:00:00", 0}, } for _, durations := range tblCmp { m1 := parseDuration(t, durations.Arg1) m2 := parseDuration(t, durations.Arg2) b1, err := EncodeKey(time.Local, nil, types.NewDatum(m1)) require.NoError(t, err) b2, err := EncodeKey(time.Local, nil, types.NewDatum(m2)) require.NoError(t, err) ret := bytes.Compare(b1, b2) require.Equal(t, durations.Ret, ret) } } func TestDecimal(t *testing.T) { tbl := []string{ "1234.00", "1234", "12.34", "12.340", "0.1234", "0.0", "0", "-0.0", "-0.0000", "-1234.00", "-1234", "-12.34", "-12.340", "-0.1234", } typeCtx := types.DefaultStmtNoWarningContext.WithLocation(time.Local) for _, decimalNum := range tbl { dec := new(types.MyDecimal) err := dec.FromString([]byte(decimalNum)) require.NoError(t, err) b, err := EncodeKey(typeCtx.Location(), nil, types.NewDatum(dec)) require.NoError(t, err) v, err := Decode(b, 1) require.NoError(t, err) require.Len(t, v, 1) vv := v[0].GetMysqlDecimal() require.Equal(t, 0, vv.Compare(dec)) } tblCmp := []struct { Arg1 any Arg2 any Ret int }{ // Test for float type decimal. {"1234", "123400", -1}, {"12340", "123400", -1}, {"1234", "1234.5", -1}, {"1234", "1234.0000", 0}, {"1234", "12.34", 1}, {"12.34", "12.35", -1}, {"0.12", "0.1234", -1}, {"0.1234", "12.3400", -1}, {"0.1234", "0.1235", -1}, {"0.123400", "12.34", -1}, {"12.34000", "12.34", 0}, {"0.01234", "0.01235", -1}, {"0.1234", "0", 1}, {"0.0000", "0", 0}, {"0.0001", "0", 1}, {"0.0001", "0.0000", 1}, {"0", "-0.0000", 0}, {"-0.0001", "0", -1}, {"-0.1234", "0", -1}, {"-0.1234", "-0.12", -1}, {"-0.12", "-0.1234", 1}, {"-0.12", "-0.1200", 0}, {"-0.1234", "0.1234", -1}, {"-1.234", "-12.34", 1}, {"-0.1234", "-12.34", 1}, {"-12.34", "1234", -1}, {"-12.34", "-12.35", 1}, {"-0.01234", "-0.01235", 1}, {"-1234", "-123400", 1}, {"-12340", "-123400", 1}, // Test for int type decimal. {int64(-1), int64(1), -1}, {int64(math.MaxInt64), int64(math.MinInt64), 1}, {int64(math.MaxInt64), int64(math.MaxInt32), 1}, {int64(math.MinInt32), int64(math.MaxInt16), -1}, {int64(math.MinInt64), int64(math.MaxInt8), -1}, {int64(0), int64(math.MaxInt8), -1}, {int64(math.MinInt8), int64(0), -1}, {int64(math.MinInt16), int64(math.MaxInt16), -1}, {int64(1), int64(-1), 1}, {int64(1), int64(0), 1}, {int64(-1), int64(0), -1}, {int64(0), int64(0), 0}, {int64(math.MaxInt16), int64(math.MaxInt16), 0}, // Test for uint type decimal. {uint64(0), uint64(0), 0}, {uint64(1), uint64(0), 1}, {uint64(0), uint64(1), -1}, {uint64(math.MaxInt8), uint64(math.MaxInt16), -1}, {uint64(math.MaxUint32), uint64(math.MaxInt32), 1}, {uint64(math.MaxUint8), uint64(math.MaxInt8), 1}, {uint64(math.MaxUint16), uint64(math.MaxInt32), -1}, {uint64(math.MaxUint64), uint64(math.MaxInt64), 1}, {uint64(math.MaxInt64), uint64(math.MaxUint32), 1}, {uint64(math.MaxUint64), uint64(0), 1}, {uint64(0), uint64(math.MaxUint64), -1}, } for _, decimalNums := range tblCmp { d1 := types.NewDatum(decimalNums.Arg1) dec1, err := d1.ToDecimal(typeCtx) require.NoError(t, err) d1.SetMysqlDecimal(dec1) d2 := types.NewDatum(decimalNums.Arg2) dec2, err := d2.ToDecimal(typeCtx) require.NoError(t, err) d2.SetMysqlDecimal(dec2) d1.SetLength(30) d1.SetFrac(6) d2.SetLength(30) d2.SetFrac(6) b1, err := EncodeKey(typeCtx.Location(), nil, d1) require.NoError(t, err) b2, err := EncodeKey(typeCtx.Location(), nil, d2) require.NoError(t, err) ret := bytes.Compare(b1, b2) require.Equalf(t, decimalNums.Ret, ret, "%v %x %x", decimalNums, b1, b2) b1, err = EncodeValue(typeCtx.Location(), b1[:0], d1) require.NoError(t, err) size, err := EstimateValueSize(typeCtx, d1) require.NoError(t, err) require.Len(t, b1, size) } floats := []float64{-123.45, -123.40, -23.45, -1.43, -0.93, -0.4333, -0.068, -0.0099, 0, 0.001, 0.0012, 0.12, 1.2, 1.23, 123.3, 2424.242424} decs := make([][]byte, 0, len(floats)) for i := range floats { dec := types.NewDecFromFloatForTest(floats[i]) var d types.Datum d.SetLength(20) d.SetFrac(6) d.SetMysqlDecimal(dec) b, err := EncodeDecimal(nil, d.GetMysqlDecimal(), d.Length(), d.Frac()) require.NoError(t, err) decs = append(decs, b) size, err := EstimateValueSize(typeCtx, d) require.NoError(t, err) // size - 1 because the flag occupy 1 bit. require.Len(t, b, size-1) } for i := range len(decs) - 1 { cmpRes := bytes.Compare(decs[i], decs[i+1]) require.LessOrEqual(t, cmpRes, 0) } d := types.NewDecFromStringForTest("-123.123456789") _, err := EncodeDecimal(nil, d, 20, 5) require.Truef(t, terror.ErrorEqual(err, types.ErrTruncated), "err %v", err) _, err = EncodeDecimal(nil, d, 12, 10) require.Truef(t, terror.ErrorEqual(err, types.ErrOverflow), "err %v", err) errCtx := errctx.StrictNoWarningContext.WithErrGroupLevel(errctx.ErrGroupTruncate, errctx.LevelIgnore) decimalDatum := types.NewDatum(d) decimalDatum.SetLength(20) decimalDatum.SetFrac(5) _, err = EncodeValue(typeCtx.Location(), nil, decimalDatum) err = errCtx.HandleError(err) require.NoError(t, err) errCtx = errctx.StrictNoWarningContext.WithErrGroupLevel(errctx.ErrGroupTruncate, errctx.LevelWarn) decimalDatum.SetLength(12) decimalDatum.SetFrac(10) _, err = EncodeValue(typeCtx.Location(), nil, decimalDatum) err = errCtx.HandleError(err) require.NoError(t, err) } func TestJSON(t *testing.T) { tbl := []string{ "1234.00", `{"a": "b"}`, } originalDatums := make([]types.Datum, 0, len(tbl)) for _, jsonDatum := range tbl { var d types.Datum j, err := types.ParseBinaryJSONFromString(jsonDatum) require.NoError(t, err) d.SetMysqlJSON(j) originalDatums = append(originalDatums, d) } buf := make([]byte, 0, 4096) buf, err := encode(nil, buf, originalDatums, false) require.NoError(t, err) decodedDatums, err := Decode(buf, 2) require.NoError(t, err) for i := range decodedDatums { lhs := originalDatums[i].GetMysqlJSON().String() rhs := decodedDatums[i].GetMysqlJSON().String() require.Equal(t, lhs, rhs) } } func TestCut(t *testing.T) { table := []struct { Input []types.Datum Expect []types.Datum }{ { types.MakeDatums(int64(1)), types.MakeDatums(int64(1)), }, { types.MakeDatums(float32(1), float64(3.15), []byte("123"), "123"), types.MakeDatums(float64(1), float64(3.15), []byte("123"), []byte("123")), }, { types.MakeDatums(uint64(1), float64(3.15), []byte("123"), int64(-1)), types.MakeDatums(uint64(1), float64(3.15), []byte("123"), int64(-1)), }, { types.MakeDatums(true, false), types.MakeDatums(int64(1), int64(0)), }, { types.MakeDatums(nil), types.MakeDatums(nil), }, { types.MakeDatums(types.NewBinaryLiteralFromUint(100, -1), types.NewBinaryLiteralFromUint(100, 4)), types.MakeDatums(uint64(100), uint64(100)), }, { types.MakeDatums(types.Enum{Name: "a", Value: 1}, types.Set{Name: "a", Value: 1}), types.MakeDatums(uint64(1), uint64(1)), }, { types.MakeDatums(float32(1), float64(3.15), []byte("123456789012345")), types.MakeDatums(float64(1), float64(3.15), []byte("123456789012345")), }, { types.MakeDatums(types.NewDecFromInt(0), types.NewDecFromFloatForTest(-1.3)), types.MakeDatums(types.NewDecFromInt(0), types.NewDecFromFloatForTest(-1.3)), }, { types.MakeDatums(types.CreateBinaryJSON("abc")), types.MakeDatums(types.CreateBinaryJSON("abc")), }, { types.MakeDatums(types.CreateBinaryJSON(types.Opaque{TypeCode: mysql.TypeString, Buf: []byte("abc")})), types.MakeDatums(types.CreateBinaryJSON(types.Opaque{TypeCode: mysql.TypeString, Buf: []byte("abc")})), }, } for i, datums := range table { b, err := EncodeKey(time.Local, nil, datums.Input...) require.NoErrorf(t, err, "%d %v", i, datums) var d []byte for j, e := range datums.Expect { d, b, err = CutOne(b) require.NoError(t, err) require.NotNil(t, d) ed, err1 := EncodeKey(time.Local, nil, e) require.NoError(t, err1) require.Equalf(t, ed, d, "%d:%d %#v", i, j, e) } require.Len(t, b, 0) } for i, datums := range table { b, err := EncodeValue(time.Local, nil, datums.Input...) require.NoErrorf(t, err, "%d %v", i, datums) var d []byte for j, e := range datums.Expect { d, b, err = CutOne(b) require.NoError(t, err) require.NotNil(t, d) ed, err1 := EncodeValue(time.Local, nil, e) require.NoError(t, err1) require.Equalf(t, ed, d, "%d:%d %#v", i, j, e) } require.Len(t, b, 0) } input := 42 b, err := EncodeValue(time.Local, nil, types.NewDatum(input)) require.NoError(t, err) rem, n, err := CutColumnID(b) require.NoError(t, err) require.Len(t, rem, 0) require.Equal(t, int64(input), n) } func TestCutOneError(t *testing.T) { var b []byte _, _, err := CutOne(b) require.Error(t, err) require.EqualError(t, err, "invalid encoded key") b = []byte{4 /* codec.uintFlag */, 0, 0, 0} _, _, err = CutOne(b) require.Error(t, err) require.Regexp(t, "^invalid encoded key", err.Error()) } func TestSetRawValues(t *testing.T) { datums := types.MakeDatums(1, "abc", 1.1, []byte("def")) rowData, err := EncodeValue(time.Local, nil, datums...) require.NoError(t, err) values := make([]types.Datum, 4) err = SetRawValues(rowData, values) require.NoError(t, err) for i, rawVal := range values { require.IsType(t, types.KindRaw, rawVal.Kind()) encoded, encodedErr := EncodeValue(time.Local, nil, datums[i]) require.NoError(t, encodedErr) require.Equal(t, rawVal.GetBytes(), encoded) } } func TestDecodeOneToChunk(t *testing.T) { typeCtx := types.DefaultStmtNoWarningContext.WithLocation(time.Local) datums, tps := datumsForTest() rowCount := 3 chk := chunkForTest(t, typeCtx.Location(), datums, tps, rowCount) for colIdx, tp := range tps { for rowIdx := range rowCount { got := chk.GetRow(rowIdx).GetDatum(colIdx, tp) expect := datums[colIdx] if got.IsNull() { require.True(t, expect.IsNull()) } else { if got.Kind() != types.KindMysqlDecimal { cmp, err := got.Compare(typeCtx, &expect, collate.GetCollator(tp.GetCollate())) require.NoError(t, err) require.Equalf(t, 0, cmp, "expect: %v, got %v", expect, got) } else { require.Equal(t, expect.GetString(), got.GetString(), "expect: %v, got %v", expect, got) } } } } } func TestHashGroup(t *testing.T) { tp := types.NewFieldType(mysql.TypeNewDecimal) tps := []*types.FieldType{tp} chk1 := chunk.New(tps, 3, 3) chk1.Reset() chk1.Column(0).AppendMyDecimal(types.NewDecFromStringForTest("-123.123456789")) chk1.Column(0).AppendMyDecimal(types.NewDecFromStringForTest("-123.123456789")) chk1.Column(0).AppendMyDecimal(types.NewDecFromStringForTest("-123.123456789")) buf1 := make([][]byte, 3) tp1 := tp tp1.SetFlen(20) tp1.SetDecimal(5) buf, err := HashGroupKey(time.Local, 3, chk1.Column(0), buf1, tp1) require.Error(t, err) require.Len(t, buf, 3) tp2 := tp tp2.SetFlen(12) tp2.SetDecimal(10) buf, err = HashGroupKey(time.Local, 3, chk1.Column(0), buf1, tp2) require.Error(t, err) require.Len(t, buf, 3) } func datumsForTest() ([]types.Datum, []*types.FieldType) { decType := types.NewFieldType(mysql.TypeNewDecimal) decType.SetDecimal(2) _tp1 := types.NewFieldType(mysql.TypeEnum) _tp1.SetElems([]string{"a"}) _tp2 := types.NewFieldType(mysql.TypeSet) _tp2.SetElems([]string{"a"}) _tp3 := types.NewFieldType(mysql.TypeSet) _tp3.SetElems([]string{"a", "b", "c", "d", "e", "f"}) _tp4 := types.NewFieldType(mysql.TypeBit) _tp4.SetFlen(8) table := []struct { value any tp *types.FieldType }{ {nil, types.NewFieldType(mysql.TypeNull)}, {nil, types.NewFieldType(mysql.TypeLonglong)}, {nil, types.NewFieldType(mysql.TypeFloat)}, {nil, types.NewFieldType(mysql.TypeDate)}, {nil, types.NewFieldType(mysql.TypeDuration)}, {nil, types.NewFieldType(mysql.TypeNewDecimal)}, {nil, types.NewFieldType(mysql.TypeEnum)}, {nil, types.NewFieldType(mysql.TypeSet)}, {nil, types.NewFieldType(mysql.TypeBit)}, {nil, types.NewFieldType(mysql.TypeJSON)}, {nil, types.NewFieldType(mysql.TypeVarchar)}, {nil, types.NewFieldType(mysql.TypeDouble)}, {int64(1), types.NewFieldType(mysql.TypeTiny)}, {int64(1), types.NewFieldType(mysql.TypeShort)}, {int64(1), types.NewFieldType(mysql.TypeInt24)}, {int64(1), types.NewFieldType(mysql.TypeLong)}, {int64(-1), types.NewFieldType(mysql.TypeLong)}, {int64(1), types.NewFieldType(mysql.TypeLonglong)}, {uint64(1), types.NewFieldType(mysql.TypeLonglong)}, {float32(1), types.NewFieldType(mysql.TypeFloat)}, {float64(1), types.NewFieldType(mysql.TypeDouble)}, {types.NewDecFromInt(1), types.NewFieldType(mysql.TypeNewDecimal)}, {types.NewDecFromStringForTest("1.123"), decType}, {"abc", types.NewFieldType(mysql.TypeString)}, {"def", types.NewFieldType(mysql.TypeVarchar)}, {"ghi", types.NewFieldType(mysql.TypeVarString)}, {[]byte("abc"), types.NewFieldType(mysql.TypeBlob)}, {[]byte("abc"), types.NewFieldType(mysql.TypeTinyBlob)}, {[]byte("abc"), types.NewFieldType(mysql.TypeMediumBlob)}, {[]byte("abc"), types.NewFieldType(mysql.TypeLongBlob)}, {types.CurrentTime(mysql.TypeDatetime), types.NewFieldType(mysql.TypeDatetime)}, {types.CurrentTime(mysql.TypeDate), types.NewFieldType(mysql.TypeDate)}, {types.NewTime(types.FromGoTime(time.Now()), mysql.TypeTimestamp, types.DefaultFsp), types.NewFieldType(mysql.TypeTimestamp)}, {types.Duration{Duration: time.Second, Fsp: 1}, types.NewFieldType(mysql.TypeDuration)}, {types.Enum{Name: "a", Value: 1}, _tp1}, {types.Set{Name: "a", Value: 1}, _tp2}, {types.Set{Name: "f", Value: 32}, _tp3}, {types.BinaryLiteral{100}, _tp4}, {types.CreateBinaryJSON("abc"), types.NewFieldType(mysql.TypeJSON)}, {int64(1), types.NewFieldType(mysql.TypeYear)}, } datums := make([]types.Datum, 0, len(table)+2) tps := make([]*types.FieldType, 0, len(table)+2) for _, t := range table { tps = append(tps, t.tp) d := types.NewDatum(t.value) datums = append(datums, d) } return datums, tps } func chunkForTest(t *testing.T, tz *time.Location, datums []types.Datum, tps []*types.FieldType, rowCount int) *chunk.Chunk { decoder := NewDecoder(chunk.New(tps, 32, 32), tz) for range rowCount { encoded, err := EncodeValue(tz, nil, datums...) require.NoError(t, err) decoder.buf = make([]byte, 0, len(encoded)) for colIdx, tp := range tps { encoded, err = decoder.DecodeOne(encoded, colIdx, tp) require.NoError(t, err) } } return decoder.chk } func TestDecodeRange(t *testing.T) { _, _, err := DecodeRange(nil, 0, nil, nil) require.Error(t, err) datums := types.MakeDatums(1, "abc", 1.1, []byte("def")) rowData, err := EncodeValue(time.UTC, nil, datums...) require.NoError(t, err) datums1, _, err := DecodeRange(rowData, len(datums), nil, nil) require.NoError(t, err) for i, datum := range datums1 { cmp, err := datum.Compare(types.DefaultStmtNoWarningContext, &datums[i], collate.GetBinaryCollator()) require.NoError(t, err) require.Equal(t, 0, cmp) } for _, b := range []byte{NilFlag, bytesFlag, maxFlag, maxFlag + 1} { newData := append(rowData, b) _, _, err := DecodeRange(newData, len(datums)+1, nil, nil) require.NoError(t, err) } } func testHashChunkRowEqual(t *testing.T, a, b any, equal bool) { typeCtx := types.DefaultStmtNoWarningContext.WithLocation(time.Local) buf1 := make([]byte, 1) buf2 := make([]byte, 1) tp1 := new(types.FieldType) types.DefaultTypeForValue(a, tp1, mysql.DefaultCharset, mysql.DefaultCollationName) chk1 := chunk.New([]*types.FieldType{tp1}, 1, 1) d := types.Datum{} d.SetValue(a, tp1) chk1.AppendDatum(0, &d) tp2 := new(types.FieldType) types.DefaultTypeForValue(b, tp2, mysql.DefaultCharset, mysql.DefaultCollationName) chk2 := chunk.New([]*types.FieldType{tp2}, 1, 1) d = types.Datum{} d.SetValue(b, tp2) chk2.AppendDatum(0, &d) h := crc32.NewIEEE() err1 := HashChunkRow(typeCtx, h, chk1.GetRow(0), []*types.FieldType{tp1}, []int{0}, buf1) sum1 := h.Sum32() h.Reset() err2 := HashChunkRow(typeCtx, h, chk2.GetRow(0), []*types.FieldType{tp2}, []int{0}, buf2) sum2 := h.Sum32() require.NoError(t, err1) require.NoError(t, err2) if equal { require.Equal(t, sum2, sum1) } else { require.NotEqual(t, sum2, sum1) } e, err := EqualChunkRow(typeCtx, chk1.GetRow(0), []*types.FieldType{tp1}, []int{0}, chk2.GetRow(0), []*types.FieldType{tp2}, []int{0}) require.NoError(t, err) if equal { require.True(t, e) } else { require.False(t, e) } } func TestHashChunkRow(t *testing.T) { typeCtx := types.DefaultStmtNoWarningContext.WithLocation(time.Local) buf := make([]byte, 1) datums, tps := datumsForTest() chk := chunkForTest(t, typeCtx.Location(), datums, tps, 1) colIdx := make([]int, len(tps)) for i := range tps { colIdx[i] = i } h := crc32.NewIEEE() err1 := HashChunkRow(typeCtx, h, chk.GetRow(0), tps, colIdx, buf) sum1 := h.Sum32() h.Reset() err2 := HashChunkRow(typeCtx, h, chk.GetRow(0), tps, colIdx, buf) sum2 := h.Sum32() require.NoError(t, err1) require.NoError(t, err2) require.Equal(t, sum2, sum1) e, err := EqualChunkRow(typeCtx, chk.GetRow(0), tps, colIdx, chk.GetRow(0), tps, colIdx) require.NoError(t, err) require.True(t, e) testHashChunkRowEqual(t, nil, nil, true) testHashChunkRowEqual(t, uint64(1), int64(1), true) testHashChunkRowEqual(t, uint64(18446744073709551615), int64(-1), false) dec1 := types.NewDecFromStringForTest("1.1") dec2 := types.NewDecFromStringForTest("01.100") testHashChunkRowEqual(t, dec1, dec2, true) dec1 = types.NewDecFromStringForTest("1.1") dec2 = types.NewDecFromStringForTest("01.200") testHashChunkRowEqual(t, dec1, dec2, false) testHashChunkRowEqual(t, float32(1.0), float64(1.0), true) testHashChunkRowEqual(t, float32(1.0), float64(1.1), false) testHashChunkRowEqual(t, "x", []byte("x"), true) testHashChunkRowEqual(t, "x", []byte("y"), false) testHashChunkRowEqual(t, types.CreateBinaryJSON(int64(1)), types.CreateBinaryJSON(float64(1.0)), true) testHashChunkRowEqual(t, types.CreateBinaryJSON(uint64(math.MaxUint64)), types.CreateBinaryJSON(float64(math.MaxUint64)), false) testHashChunkRowEqual(t, types.CreateBinaryJSON(int64(math.MinInt64)), types.CreateBinaryJSON(float64(math.MinInt64)), true) } func TestValueSizeOfSignedInt(t *testing.T) { testCase := []int64{64, 8192, 1048576, 134217728, 17179869184, 2199023255552, 281474976710656, 36028797018963968, 4611686018427387904} var b []byte for _, v := range testCase { b := encodeSignedInt(b[:0], v-10, false) require.Equal(t, valueSizeOfSignedInt(v-10), len(b)) b = encodeSignedInt(b[:0], v, false) require.Equal(t, valueSizeOfSignedInt(v), len(b)) b = encodeSignedInt(b[:0], v+10, false) require.Equal(t, valueSizeOfSignedInt(v+10), len(b)) // Test for negative value. b = encodeSignedInt(b[:0], 0-v, false) require.Equal(t, valueSizeOfSignedInt(0-v), len(b)) b = encodeSignedInt(b[:0], 0-v+10, false) require.Equal(t, valueSizeOfSignedInt(0-v+10), len(b)) b = encodeSignedInt(b[:0], 0-v-10, false) require.Equal(t, valueSizeOfSignedInt(0-v-10), len(b)) } } func TestValueSizeOfUnsignedInt(t *testing.T) { testCase := []uint64{128, 16384, 2097152, 268435456, 34359738368, 4398046511104, 562949953421312, 72057594037927936, 9223372036854775808} var b []byte for _, v := range testCase { b := encodeUnsignedInt(b[:0], v-10, false) require.Equal(t, valueSizeOfUnsignedInt(v-10), len(b)) b = encodeUnsignedInt(b[:0], v, false) require.Equal(t, valueSizeOfUnsignedInt(v), len(b)) b = encodeUnsignedInt(b[:0], v+10, false) require.Equal(t, valueSizeOfUnsignedInt(v+10), len(b)) } } func TestHashChunkColumns(t *testing.T) { typeCtx := types.DefaultStmtNoWarningContext.WithLocation(time.Local) buf := make([]byte, 1) datums, tps := datumsForTest() chk := chunkForTest(t, typeCtx.Location(), datums, tps, 4) colIdx := make([]int, len(tps)) for i := range tps { colIdx[i] = i } hasNull := []bool{false, false, false} vecHash := []hash.Hash64{fnv.New64(), fnv.New64(), fnv.New64()} rowHash := []hash.Hash64{fnv.New64(), fnv.New64(), fnv.New64()} sel := make([]bool, len(datums)) for i := range 3 { sel[i] = true } // Test hash value of the first 12 `Null` columns for i := range 12 { require.True(t, chk.GetRow(0).IsNull(i)) err1 := HashChunkSelected(typeCtx, vecHash, chk, tps[i], i, buf, hasNull, sel, false) err2 := HashChunkRow(typeCtx, rowHash[0], chk.GetRow(0), tps[i:i+1], colIdx[i:i+1], buf) err3 := HashChunkRow(typeCtx, rowHash[1], chk.GetRow(1), tps[i:i+1], colIdx[i:i+1], buf) err4 := HashChunkRow(typeCtx, rowHash[2], chk.GetRow(2), tps[i:i+1], colIdx[i:i+1], buf) require.NoError(t, err1) require.NoError(t, err2) require.NoError(t, err3) require.NoError(t, err4) require.True(t, hasNull[0]) require.True(t, hasNull[1]) require.True(t, hasNull[2]) require.Equal(t, rowHash[0].Sum64(), vecHash[0].Sum64()) require.Equal(t, rowHash[1].Sum64(), vecHash[1].Sum64()) require.Equal(t, rowHash[2].Sum64(), vecHash[2].Sum64()) } // Test hash value of every single column that is not `Null` for i := 12; i < len(tps); i++ { hasNull = []bool{false, false, false} vecHash = []hash.Hash64{fnv.New64(), fnv.New64(), fnv.New64()} rowHash = []hash.Hash64{fnv.New64(), fnv.New64(), fnv.New64()} require.False(t, chk.GetRow(0).IsNull(i)) err1 := HashChunkSelected(typeCtx, vecHash, chk, tps[i], i, buf, hasNull, sel, false) err2 := HashChunkRow(typeCtx, rowHash[0], chk.GetRow(0), tps[i:i+1], colIdx[i:i+1], buf) err3 := HashChunkRow(typeCtx, rowHash[1], chk.GetRow(1), tps[i:i+1], colIdx[i:i+1], buf) err4 := HashChunkRow(typeCtx, rowHash[2], chk.GetRow(2), tps[i:i+1], colIdx[i:i+1], buf) require.NoError(t, err1) require.NoError(t, err2) require.NoError(t, err3) require.NoError(t, err4) require.False(t, hasNull[0]) require.False(t, hasNull[1]) require.False(t, hasNull[2]) require.Equal(t, rowHash[0].Sum64(), vecHash[0].Sum64()) require.Equal(t, rowHash[1].Sum64(), vecHash[1].Sum64()) require.Equal(t, rowHash[2].Sum64(), vecHash[2].Sum64()) } } func TestDatumHashEquals(t *testing.T) { now := time.Now() newDatumPtr := func(d types.Datum) *types.Datum { return &d } tests := []struct { d1 *types.Datum d2 *types.Datum }{ {newDatumPtr(types.NewIntDatum(1)), newDatumPtr(types.NewIntDatum(1))}, {newDatumPtr(types.NewUintDatum(1)), newDatumPtr(types.NewUintDatum(1))}, {newDatumPtr(types.NewFloat64Datum(1.1)), newDatumPtr(types.NewFloat64Datum(1.1))}, {newDatumPtr(types.NewStringDatum("abc")), newDatumPtr(types.NewStringDatum("abc"))}, {newDatumPtr(types.NewBytesDatum([]byte("abc"))), newDatumPtr(types.NewBytesDatum([]byte("abc")))}, {newDatumPtr(types.NewMysqlEnumDatum(types.Enum{Name: "a", Value: 1})), newDatumPtr(types.NewMysqlEnumDatum(types.Enum{Name: "a", Value: 1}))}, {newDatumPtr(types.NewMysqlSetDatum(types.Set{Name: "a", Value: 1}, "a")), newDatumPtr(types.NewMysqlSetDatum(types.Set{Name: "a", Value: 1}, "a"))}, {newDatumPtr(types.NewBinaryLiteralDatum([]byte{0x01})), newDatumPtr(types.NewBinaryLiteralDatum([]byte{0x01}))}, {newDatumPtr(types.NewMysqlBitDatum(types.NewBinaryLiteralFromUint(1, -1))), newDatumPtr(types.NewMysqlBitDatum(types.NewBinaryLiteralFromUint(1, -1)))}, {newDatumPtr(types.NewTimeDatum(types.NewTime(types.FromGoTime(now), mysql.TypeDatetime, 6))), newDatumPtr(types.NewTimeDatum(types.NewTime(types.FromGoTime(now), mysql.TypeDatetime, 6)))}, {newDatumPtr(types.NewDurationDatum(types.Duration{Duration: time.Second})), newDatumPtr(types.NewDurationDatum(types.Duration{Duration: time.Second}))}, {newDatumPtr(types.NewJSONDatum(types.CreateBinaryJSON("a"))), newDatumPtr(types.NewJSONDatum(types.CreateBinaryJSON("a")))}, {newDatumPtr(types.NewTimeDatum(types.NewTime(types.FromGoTime(now), mysql.TypeDatetime, 6))), newDatumPtr(types.NewTimeDatum(types.NewTime(types.FromGoTime(time.Now()), mysql.TypeDatetime, 6)))}, } hasher1 := base.NewHashEqualer() hasher2 := base.NewHashEqualer() for _, tt := range tests[:(len(tests) - 1)] { hasher1.Reset() hasher2.Reset() tt.d1.Hash64(hasher1) tt.d2.Hash64(hasher2) require.Equal(t, hasher1.Sum64(), hasher2.Sum64()) require.True(t, tt.d1.Equals(tt.d2)) } // the last test case is for the case that two datums are not equal hasher1.Reset() hasher2.Reset() tests[len(tests)-1].d1.Hash64(hasher1) tests[len(tests)-1].d2.Hash64(hasher2) require.NotEqual(t, hasher1.Sum64(), hasher2.Sum64()) require.False(t, tests[len(tests)-1].d1.Equals(tests[len(tests)-1].d2)) }