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tablecodec.go
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tablecodec.go
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// Copyright 2016 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,
// See the License for the specific language governing permissions and
// limitations under the License.
package tablecodec
import (
"bytes"
"encoding/binary"
"fmt"
"math"
"time"
"github.com/juju/errors"
"github.com/pingcap/tidb/kv"
"github.com/pingcap/tidb/mysql"
"github.com/pingcap/tidb/sessionctx/stmtctx"
"github.com/pingcap/tidb/terror"
"github.com/pingcap/tidb/types"
"github.com/pingcap/tidb/util/codec"
)
var (
errInvalidKey = terror.ClassXEval.New(codeInvalidKey, "invalid key")
errInvalidRecordKey = terror.ClassXEval.New(codeInvalidRecordKey, "invalid record key")
errInvalidIndexKey = terror.ClassXEval.New(codeInvalidIndexKey, "invalid index key")
errInvalidColumnCount = terror.ClassXEval.New(codeInvalidColumnCount, "invalid column count")
)
var (
tablePrefix = []byte{'t'}
recordPrefixSep = []byte("_r")
indexPrefixSep = []byte("_i")
)
const (
idLen = 8
prefixLen = 1 + idLen /*tableID*/ + 2
recordRowKeyLen = prefixLen + idLen /*handle*/
)
// TableSplitKeyLen is the length of key 't{table_id}' which is used for table split.
const TableSplitKeyLen = 1 + idLen
// TablePrefix returns table's prefix 't'.
func TablePrefix() []byte {
return tablePrefix
}
// EncodeRowKey encodes the table id and record handle into a kv.Key
func EncodeRowKey(tableID int64, encodedHandle []byte) kv.Key {
buf := make([]byte, 0, recordRowKeyLen)
buf = appendTableRecordPrefix(buf, tableID)
buf = append(buf, encodedHandle...)
return buf
}
// EncodeRowKeyWithHandle encodes the table id, row handle into a kv.Key
func EncodeRowKeyWithHandle(tableID int64, handle int64) kv.Key {
buf := make([]byte, 0, recordRowKeyLen)
buf = appendTableRecordPrefix(buf, tableID)
buf = codec.EncodeInt(buf, handle)
return buf
}
// CutRowKeyPrefix cuts the row key prefix.
func CutRowKeyPrefix(key kv.Key) []byte {
return key[prefixLen:]
}
// EncodeRecordKey encodes the recordPrefix, row handle into a kv.Key.
func EncodeRecordKey(recordPrefix kv.Key, h int64) kv.Key {
buf := make([]byte, 0, len(recordPrefix)+idLen)
buf = append(buf, recordPrefix...)
buf = codec.EncodeInt(buf, h)
return buf
}
// DecodeRecordKey decodes the key and gets the tableID, handle.
func DecodeRecordKey(key kv.Key) (tableID int64, handle int64, err error) {
k := key
if !key.HasPrefix(tablePrefix) {
return 0, 0, errInvalidRecordKey.Gen("invalid record key - %q", k)
}
key = key[len(tablePrefix):]
key, tableID, err = codec.DecodeInt(key)
if err != nil {
return 0, 0, errors.Trace(err)
}
if !key.HasPrefix(recordPrefixSep) {
return 0, 0, errInvalidRecordKey.Gen("invalid record key - %q", k)
}
key = key[len(recordPrefixSep):]
key, handle, err = codec.DecodeInt(key)
if err != nil {
return 0, 0, errors.Trace(err)
}
return
}
// DecodeIndexKey decodes the key and gets the tableID, indexID, indexValues.
func DecodeIndexKey(key kv.Key) (tableID int64, indexID int64, indexValues []string, err error) {
k := key
tableID, indexID, isRecord, err := DecodeKeyHead(key)
if err != nil {
return 0, 0, nil, errors.Trace(err)
}
if isRecord {
return 0, 0, nil, errInvalidIndexKey.Gen("invalid index key - %q", k)
}
key = key[prefixLen+idLen:]
for len(key) > 0 {
// FIXME: Without the schema information, we can only decode the raw kind of
// the column. For instance, MysqlTime is internally saved as uint64.
remain, d, e := codec.DecodeOne(key)
if e != nil {
return 0, 0, nil, errInvalidIndexKey.Gen("invalid index key - %q %v", k, e)
}
indexValues = append(indexValues, fmt.Sprintf("%d-%v", d.Kind(), d.GetValue()))
key = remain
}
return
}
// DecodeKeyHead decodes the key's head and gets the tableID, indexID. isRecordKey is true when is a record key.
func DecodeKeyHead(key kv.Key) (tableID int64, indexID int64, isRecordKey bool, err error) {
isRecordKey = false
k := key
if !key.HasPrefix(tablePrefix) {
err = errInvalidKey.Gen("invalid key - %q", k)
return
}
key = key[len(tablePrefix):]
key, tableID, err = codec.DecodeInt(key)
if err != nil {
err = errors.Trace(err)
return
}
if key.HasPrefix(recordPrefixSep) {
isRecordKey = true
return
}
if !key.HasPrefix(indexPrefixSep) {
err = errInvalidKey.Gen("invalid key - %q", k)
return
}
key = key[len(indexPrefixSep):]
key, indexID, err = codec.DecodeInt(key)
if err != nil {
err = errors.Trace(err)
return
}
return
}
// DecodeTableID decodes the table ID of the key, if the key is not table key, returns 0.
func DecodeTableID(key kv.Key) int64 {
if !key.HasPrefix(tablePrefix) {
return 0
}
key = key[len(tablePrefix):]
_, tableID, err := codec.DecodeInt(key)
// TODO: return error.
terror.Log(errors.Trace(err))
return tableID
}
// DecodeRowKey decodes the key and gets the handle.
func DecodeRowKey(key kv.Key) (int64, error) {
_, handle, err := DecodeRecordKey(key)
return handle, errors.Trace(err)
}
// EncodeValue encodes a go value to bytes.
func EncodeValue(sc *stmtctx.StatementContext, raw types.Datum) ([]byte, error) {
var v types.Datum
err := flatten(sc, raw, &v)
if err != nil {
return nil, errors.Trace(err)
}
b, err := codec.EncodeValue(sc, nil, v)
return b, errors.Trace(err)
}
// EncodeRow encode row data and column ids into a slice of byte.
// Row layout: colID1, value1, colID2, value2, .....
// valBuf and values pass by caller, for reducing EncodeRow allocates tempory bufs. If you pass valBuf and values as nil,
// EncodeRow will allocate it.
func EncodeRow(sc *stmtctx.StatementContext, row []types.Datum, colIDs []int64, valBuf []byte, values []types.Datum) ([]byte, error) {
if len(row) != len(colIDs) {
return nil, errors.Errorf("EncodeRow error: data and columnID count not match %d vs %d", len(row), len(colIDs))
}
valBuf = valBuf[:0]
if values == nil {
values = make([]types.Datum, len(row)*2)
}
for i, c := range row {
id := colIDs[i]
values[2*i].SetInt64(id)
err := flatten(sc, c, &values[2*i+1])
if err != nil {
return nil, errors.Trace(err)
}
}
if len(values) == 0 {
// We could not set nil value into kv.
return []byte{codec.NilFlag}, nil
}
return codec.EncodeValue(sc, valBuf, values...)
}
func flatten(sc *stmtctx.StatementContext, data types.Datum, ret *types.Datum) error {
switch data.Kind() {
case types.KindMysqlTime:
// for mysql datetime, timestamp and date type
t := data.GetMysqlTime()
if t.Type == mysql.TypeTimestamp && sc.TimeZone != time.UTC {
err := t.ConvertTimeZone(sc.TimeZone, time.UTC)
if err != nil {
return errors.Trace(err)
}
}
v, err := t.ToPackedUint()
ret.SetUint64(v)
return errors.Trace(err)
case types.KindMysqlDuration:
// for mysql time type
ret.SetInt64(int64(data.GetMysqlDuration().Duration))
return nil
case types.KindMysqlEnum:
ret.SetUint64(data.GetMysqlEnum().Value)
return nil
case types.KindMysqlSet:
ret.SetUint64(data.GetMysqlSet().Value)
return nil
case types.KindBinaryLiteral, types.KindMysqlBit:
// We don't need to handle errors here since the literal is ensured to be able to store in uint64 in convertToMysqlBit.
val, err := data.GetBinaryLiteral().ToInt(sc)
if err != nil {
return errors.Trace(err)
}
ret.SetUint64(val)
return nil
default:
*ret = data
return nil
}
}
// DecodeColumnValue decodes data to a Datum according to the column info.
func DecodeColumnValue(data []byte, ft *types.FieldType, loc *time.Location) (types.Datum, error) {
_, d, err := codec.DecodeOne(data)
if err != nil {
return types.Datum{}, errors.Trace(err)
}
colDatum, err := unflatten(d, ft, loc)
if err != nil {
return types.Datum{}, errors.Trace(err)
}
return colDatum, nil
}
// DecodeRowWithMap decodes a byte slice into datums with a existing row map.
// Row layout: colID1, value1, colID2, value2, .....
func DecodeRowWithMap(b []byte, cols map[int64]*types.FieldType, loc *time.Location, row map[int64]types.Datum) (map[int64]types.Datum, error) {
if row == nil {
row = make(map[int64]types.Datum, len(cols))
}
if b == nil {
return nil, nil
}
if len(b) == 1 && b[0] == codec.NilFlag {
return nil, nil
}
cnt := 0
var (
data []byte
err error
)
for len(b) > 0 {
// Get col id.
data, b, err = codec.CutOne(b)
if err != nil {
return nil, errors.Trace(err)
}
_, cid, err := codec.DecodeOne(data)
if err != nil {
return nil, errors.Trace(err)
}
// Get col value.
data, b, err = codec.CutOne(b)
if err != nil {
return nil, errors.Trace(err)
}
id := cid.GetInt64()
ft, ok := cols[id]
if ok {
_, v, err := codec.DecodeOne(data)
if err != nil {
return nil, errors.Trace(err)
}
v, err = unflatten(v, ft, loc)
if err != nil {
return nil, errors.Trace(err)
}
row[id] = v
cnt++
if cnt == len(cols) {
// Get enough data.
break
}
}
}
return row, nil
}
// DecodeRow decodes a byte slice into datums.
// Row layout: colID1, value1, colID2, value2, .....
func DecodeRow(b []byte, cols map[int64]*types.FieldType, loc *time.Location) (map[int64]types.Datum, error) {
return DecodeRowWithMap(b, cols, loc, nil)
}
// CutRowNew cuts encoded row into byte slices and return columns' byte slice.
// Row layout: colID1, value1, colID2, value2, .....
func CutRowNew(data []byte, colIDs map[int64]int) ([][]byte, error) {
if data == nil {
return nil, nil
}
if len(data) == 1 && data[0] == codec.NilFlag {
return nil, nil
}
var (
cnt int
b []byte
err error
)
row := make([][]byte, len(colIDs))
for len(data) > 0 && cnt < len(colIDs) {
// Get col id.
b, data, err = codec.CutOne(data)
if err != nil {
return nil, errors.Trace(err)
}
_, cid, err := codec.DecodeOne(b)
if err != nil {
return nil, errors.Trace(err)
}
// Get col value.
b, data, err = codec.CutOne(data)
if err != nil {
return nil, errors.Trace(err)
}
id := cid.GetInt64()
offset, ok := colIDs[id]
if ok {
row[offset] = b
cnt++
}
}
return row, nil
}
// UnflattenDatums converts raw datums to column datums.
func UnflattenDatums(datums []types.Datum, fts []*types.FieldType, loc *time.Location) ([]types.Datum, error) {
for i, datum := range datums {
ft := fts[i]
uDatum, err := unflatten(datum, ft, loc)
if err != nil {
return datums, errors.Trace(err)
}
datums[i] = uDatum
}
return datums, nil
}
// unflatten converts a raw datum to a column datum.
func unflatten(datum types.Datum, ft *types.FieldType, loc *time.Location) (types.Datum, error) {
if datum.IsNull() {
return datum, nil
}
switch ft.Tp {
case mysql.TypeFloat:
datum.SetFloat32(float32(datum.GetFloat64()))
return datum, nil
case mysql.TypeTiny, mysql.TypeShort, mysql.TypeYear, mysql.TypeInt24,
mysql.TypeLong, mysql.TypeLonglong, mysql.TypeDouble, mysql.TypeTinyBlob,
mysql.TypeMediumBlob, mysql.TypeBlob, mysql.TypeLongBlob, mysql.TypeVarchar,
mysql.TypeString:
return datum, nil
case mysql.TypeDate, mysql.TypeDatetime, mysql.TypeTimestamp:
var t types.Time
t.Type = ft.Tp
t.Fsp = ft.Decimal
var err error
err = t.FromPackedUint(datum.GetUint64())
if err != nil {
return datum, errors.Trace(err)
}
if ft.Tp == mysql.TypeTimestamp && !t.IsZero() {
err = t.ConvertTimeZone(time.UTC, loc)
if err != nil {
return datum, errors.Trace(err)
}
}
datum.SetMysqlTime(t)
return datum, nil
case mysql.TypeDuration: //duration should read fsp from column meta data
dur := types.Duration{Duration: time.Duration(datum.GetInt64()), Fsp: ft.Decimal}
datum.SetValue(dur)
return datum, nil
case mysql.TypeEnum:
// ignore error deliberately, to read empty enum value.
enum, err := types.ParseEnumValue(ft.Elems, datum.GetUint64())
if err != nil {
enum = types.Enum{}
}
datum.SetValue(enum)
return datum, nil
case mysql.TypeSet:
set, err := types.ParseSetValue(ft.Elems, datum.GetUint64())
if err != nil {
return datum, errors.Trace(err)
}
datum.SetValue(set)
return datum, nil
case mysql.TypeBit:
val := datum.GetUint64()
byteSize := (ft.Flen + 7) >> 3
datum.SetMysqlBit(types.NewBinaryLiteralFromUint(val, byteSize))
}
return datum, nil
}
// EncodeIndexSeekKey encodes an index value to kv.Key.
func EncodeIndexSeekKey(tableID int64, idxID int64, encodedValue []byte) kv.Key {
key := make([]byte, 0, prefixLen+len(encodedValue))
key = appendTableIndexPrefix(key, tableID)
key = codec.EncodeInt(key, idxID)
key = append(key, encodedValue...)
return key
}
// CutIndexKey cuts encoded index key into colIDs to bytes slices map.
// The returned value b is the remaining bytes of the key which would be empty if it is unique index or handle data
// if it is non-unique index.
func CutIndexKey(key kv.Key, colIDs []int64) (values map[int64][]byte, b []byte, err error) {
b = key[prefixLen+idLen:]
values = make(map[int64][]byte)
for _, id := range colIDs {
var val []byte
val, b, err = codec.CutOne(b)
if err != nil {
return nil, nil, errors.Trace(err)
}
values[id] = val
}
return
}
// CutIndexPrefix cuts the index prefix.
func CutIndexPrefix(key kv.Key) []byte {
return key[prefixLen+idLen:]
}
// CutIndexKeyNew cuts encoded index key into colIDs to bytes slices.
// The returned value b is the remaining bytes of the key which would be empty if it is unique index or handle data
// if it is non-unique index.
func CutIndexKeyNew(key kv.Key, length int) (values [][]byte, b []byte, err error) {
b = key[prefixLen+idLen:]
values = make([][]byte, 0, length)
for i := 0; i < length; i++ {
var val []byte
val, b, err = codec.CutOne(b)
if err != nil {
return nil, nil, errors.Trace(err)
}
values = append(values, val)
}
return
}
// EncodeTableIndexPrefix encodes index prefix with tableID and idxID.
func EncodeTableIndexPrefix(tableID, idxID int64) kv.Key {
key := make([]byte, 0, prefixLen)
key = appendTableIndexPrefix(key, tableID)
key = codec.EncodeInt(key, idxID)
return key
}
// EncodeTablePrefix encodes table prefix with table ID.
func EncodeTablePrefix(tableID int64) kv.Key {
var key kv.Key
key = append(key, tablePrefix...)
key = codec.EncodeInt(key, tableID)
return key
}
// appendTableRecordPrefix appends table record prefix "t[tableID]_r".
func appendTableRecordPrefix(buf []byte, tableID int64) []byte {
buf = append(buf, tablePrefix...)
buf = codec.EncodeInt(buf, tableID)
buf = append(buf, recordPrefixSep...)
return buf
}
// appendTableIndexPrefix appends table index prefix "t[tableID]_i".
func appendTableIndexPrefix(buf []byte, tableID int64) []byte {
buf = append(buf, tablePrefix...)
buf = codec.EncodeInt(buf, tableID)
buf = append(buf, indexPrefixSep...)
return buf
}
// ReplaceRecordKeyTableID replace the tableID in the recordKey buf.
func ReplaceRecordKeyTableID(buf []byte, tableID int64) []byte {
if len(buf) < len(tablePrefix)+8 {
return buf
}
u := codec.EncodeIntToCmpUint(tableID)
binary.BigEndian.PutUint64(buf[len(tablePrefix):], u)
return buf
}
// GenTableRecordPrefix composes record prefix with tableID: "t[tableID]_r".
func GenTableRecordPrefix(tableID int64) kv.Key {
buf := make([]byte, 0, len(tablePrefix)+8+len(recordPrefixSep))
return appendTableRecordPrefix(buf, tableID)
}
// GenTableIndexPrefix composes index prefix with tableID: "t[tableID]_i".
func GenTableIndexPrefix(tableID int64) kv.Key {
buf := make([]byte, 0, len(tablePrefix)+8+len(indexPrefixSep))
return appendTableIndexPrefix(buf, tableID)
}
// GenTablePrefix composes table record and index prefix: "t[tableID]".
func GenTablePrefix(tableID int64) kv.Key {
buf := make([]byte, 0, len(tablePrefix)+8)
buf = append(buf, tablePrefix...)
buf = codec.EncodeInt(buf, tableID)
return buf
}
// TruncateToRowKeyLen truncates the key to row key length if the key is longer than row key.
func TruncateToRowKeyLen(key kv.Key) kv.Key {
if len(key) > recordRowKeyLen {
return key[:recordRowKeyLen]
}
return key
}
// GetTableHandleKeyRange returns table handle's key range with tableID.
func GetTableHandleKeyRange(tableID int64) (startKey, endKey []byte) {
startKey = EncodeRowKeyWithHandle(tableID, math.MinInt64)
endKey = EncodeRowKeyWithHandle(tableID, math.MaxInt64)
return
}
// GetTableIndexKeyRange returns table index's key range with tableID and indexID.
func GetTableIndexKeyRange(tableID, indexID int64) (startKey, endKey []byte) {
startKey = EncodeIndexSeekKey(tableID, indexID, nil)
endKey = EncodeIndexSeekKey(tableID, indexID, []byte{255})
return
}
type keyRangeSorter struct {
ranges []kv.KeyRange
}
func (r *keyRangeSorter) Len() int {
return len(r.ranges)
}
func (r *keyRangeSorter) Less(i, j int) bool {
a := r.ranges[i]
b := r.ranges[j]
cmp := bytes.Compare(a.StartKey, b.StartKey)
return cmp < 0
}
func (r *keyRangeSorter) Swap(i, j int) {
r.ranges[i], r.ranges[j] = r.ranges[j], r.ranges[i]
}
const (
codeInvalidRecordKey = 4
codeInvalidColumnCount = 5
codeInvalidKey = 6
codeInvalidIndexKey = 7
)