open-consul/vendor/github.com/SAP/go-hdb/internal/protocol/lob.go
2018-06-25 12:26:10 -07:00

508 lines
10 KiB
Go

/*
Copyright 2014 SAP SE
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 protocol
import (
"fmt"
"io"
"math"
"unicode/utf8"
"golang.org/x/text/transform"
"github.com/SAP/go-hdb/internal/bufio"
"github.com/SAP/go-hdb/internal/unicode"
"github.com/SAP/go-hdb/internal/unicode/cesu8"
)
const (
locatorIDSize = 8
writeLobRequestHeaderSize = 21
readLobRequestSize = 24
)
// variable (unit testing)
//var lobChunkSize = 1 << 14 //TODO: check size
var lobChunkSize int32 = 4096 //TODO: check size
//lob options
type lobOptions int8
const (
loNullindicator lobOptions = 0x01
loDataincluded lobOptions = 0x02
loLastdata lobOptions = 0x04
)
var lobOptionsText = map[lobOptions]string{
loNullindicator: "null indicator",
loDataincluded: "data included",
loLastdata: "last data",
}
func (k lobOptions) String() string {
t := make([]string, 0, len(lobOptionsText))
for option, text := range lobOptionsText {
if (k & option) != 0 {
t = append(t, text)
}
}
return fmt.Sprintf("%v", t)
}
type locatorID uint64 // byte[locatorIdSize]
// write lob reply
type writeLobReply struct {
ids []locatorID
numArg int
}
func (r *writeLobReply) String() string {
return fmt.Sprintf("write lob reply: %v", r.ids)
}
func (r *writeLobReply) kind() partKind {
return pkWriteLobReply
}
func (r *writeLobReply) setNumArg(numArg int) {
r.numArg = numArg
}
func (r *writeLobReply) read(rd *bufio.Reader) error {
//resize ids
if r.ids == nil || cap(r.ids) < r.numArg {
r.ids = make([]locatorID, r.numArg)
} else {
r.ids = r.ids[:r.numArg]
}
for i := 0; i < r.numArg; i++ {
r.ids[i] = locatorID(rd.ReadUint64())
}
return rd.GetError()
}
//write lob request
type writeLobRequest struct {
lobPrmFields []*ParameterField
}
func (r *writeLobRequest) kind() partKind {
return pkWriteLobRequest
}
func (r *writeLobRequest) size() (int, error) {
// TODO: check size limit
size := 0
for _, prmField := range r.lobPrmFields {
cr := prmField.chunkReader
if cr.done() {
continue
}
if err := cr.fill(); err != nil {
return 0, err
}
size += writeLobRequestHeaderSize
size += cr.size()
}
return size, nil
}
func (r *writeLobRequest) numArg() int {
n := 0
for _, prmField := range r.lobPrmFields {
cr := prmField.chunkReader
if !cr.done() {
n++
}
}
return n
}
func (r *writeLobRequest) write(wr *bufio.Writer) error {
for _, prmField := range r.lobPrmFields {
cr := prmField.chunkReader
if !cr.done() {
wr.WriteUint64(uint64(prmField.lobLocatorID))
opt := int8(0x02) // data included
if cr.eof() {
opt |= 0x04 // last data
}
wr.WriteInt8(opt)
wr.WriteInt64(-1) //offset (-1 := append)
wr.WriteInt32(int32(cr.size())) // size
wr.Write(cr.bytes())
}
}
return nil
}
//read lob request
type readLobRequest struct {
w lobChunkWriter
}
func (r *readLobRequest) kind() partKind {
return pkReadLobRequest
}
func (r *readLobRequest) size() (int, error) {
return readLobRequestSize, nil
}
func (r *readLobRequest) numArg() int {
return 1
}
func (r *readLobRequest) write(wr *bufio.Writer) error {
wr.WriteUint64(uint64(r.w.id()))
readOfs, readLen := r.w.readOfsLen()
wr.WriteInt64(readOfs + 1) //1-based
wr.WriteInt32(readLen)
wr.WriteZeroes(4)
return nil
}
// read lob reply
// - seems like readLobreply gives only an result for one lob - even if more then one is requested
// --> read single lobs
type readLobReply struct {
w lobChunkWriter
}
func (r *readLobReply) kind() partKind {
return pkReadLobReply
}
func (r *readLobReply) setNumArg(numArg int) {
if numArg != 1 {
panic("numArg == 1 expected")
}
}
func (r *readLobReply) read(rd *bufio.Reader) error {
id := rd.ReadUint64()
if r.w.id() != locatorID(id) {
return fmt.Errorf("internal error: invalid lob locator %d - expected %d", id, r.w.id())
}
opt := rd.ReadInt8()
chunkLen := rd.ReadInt32()
rd.Skip(3)
eof := (lobOptions(opt) & loLastdata) != 0
if err := r.w.write(rd, int(chunkLen), eof); err != nil {
return err
}
return rd.GetError()
}
// lobChunkReader reads lob field io.Reader in chunks for writing to db.
type lobChunkReader interface {
fill() error
size() int
bytes() []byte
eof() bool
done() bool
}
func newLobChunkReader(isCharBased bool, r io.Reader) lobChunkReader {
if isCharBased {
return &charLobChunkReader{r: r}
}
return &binaryLobChunkReader{r: r}
}
// binaryLobChunkReader (byte based chunks).
type binaryLobChunkReader struct {
r io.Reader
_size int
_eof bool
_done bool
b []byte
}
func (l *binaryLobChunkReader) eof() bool { return l._eof }
func (l *binaryLobChunkReader) done() bool { return l._done }
func (l *binaryLobChunkReader) size() int { return l._size }
func (l *binaryLobChunkReader) bytes() []byte {
l._done = l._eof
return l.b[:l._size]
}
func (l *binaryLobChunkReader) fill() error {
if l._eof {
return io.EOF
}
var err error
l.b = resizeBuffer(l.b, int(lobChunkSize))
l._size, err = l.r.Read(l.b)
if err != nil && err != io.EOF {
return err
}
l._eof = err == io.EOF
return nil
}
// charLobChunkReader (cesu8 character based chunks).
type charLobChunkReader struct {
r io.Reader
_size int
_eof bool
_done bool
b []byte
c []byte
ofs int
}
func (l *charLobChunkReader) eof() bool { return l._eof }
func (l *charLobChunkReader) done() bool { return l._done }
func (l *charLobChunkReader) size() int { return l._size }
func (l *charLobChunkReader) bytes() []byte {
l._done = l._eof
return l.b[:l._size]
}
func (l *charLobChunkReader) fill() error {
if l._eof {
return io.EOF
}
l.c = resizeBuffer(l.c, int(lobChunkSize)+l.ofs)
n, err := l.r.Read(l.c[l.ofs:])
size := n + l.ofs
if err != nil && err != io.EOF {
return err
}
l._eof = err == io.EOF
if l._eof && size == 0 {
l._size = 0
return nil
}
l.b = resizeBuffer(l.b, cesu8.Size(l.c[:size])) // last rune might be incomplete, so size is one greater than needed
nDst, nSrc, err := unicode.Utf8ToCesu8Transformer.Transform(l.b, l.c[:size], l._eof)
if err != nil && err != transform.ErrShortSrc {
return err
}
if l._eof && err == transform.ErrShortSrc {
return unicode.ErrInvalidUtf8
}
l._size = nDst
l.ofs = size - nSrc
if l.ofs > 0 {
copy(l.c, l.c[nSrc:size]) // copy rest to buffer beginn
}
return nil
}
// lobChunkWriter reads db lob chunks and writes them into lob field io.Writer.
type lobChunkWriter interface {
SetWriter(w io.Writer) error // gets called by driver.Lob.Scan
id() locatorID
write(rd *bufio.Reader, size int, eof bool) error
readOfsLen() (int64, int32)
eof() bool
}
func newLobChunkWriter(isCharBased bool, s *Session, id locatorID, charLen, byteLen int64) lobChunkWriter {
if isCharBased {
return &charLobChunkWriter{s: s, _id: id, charLen: charLen, byteLen: byteLen}
}
return &binaryLobChunkWriter{s: s, _id: id, charLen: charLen, byteLen: byteLen}
}
// binaryLobChunkWriter (byte based lobs).
type binaryLobChunkWriter struct {
s *Session
_id locatorID
charLen int64
byteLen int64
readOfs int64
_eof bool
ofs int
wr io.Writer
b []byte
}
func (l *binaryLobChunkWriter) id() locatorID { return l._id }
func (l *binaryLobChunkWriter) eof() bool { return l._eof }
func (l *binaryLobChunkWriter) SetWriter(wr io.Writer) error {
l.wr = wr
if err := l.flush(); err != nil {
return err
}
return l.s.readLobStream(l)
}
func (l *binaryLobChunkWriter) write(rd *bufio.Reader, size int, eof bool) error {
l._eof = eof // store eof
if size == 0 {
return nil
}
l.b = resizeBuffer(l.b, size+l.ofs)
rd.ReadFull(l.b[l.ofs:])
if l.wr != nil {
return l.flush()
}
return nil
}
func (l *binaryLobChunkWriter) readOfsLen() (int64, int32) {
readLen := l.charLen - l.readOfs
if readLen > int64(math.MaxInt32) || readLen > int64(lobChunkSize) {
return l.readOfs, lobChunkSize
}
return l.readOfs, int32(readLen)
}
func (l *binaryLobChunkWriter) flush() error {
if _, err := l.wr.Write(l.b); err != nil {
return err
}
l.readOfs += int64(len(l.b))
return nil
}
type charLobChunkWriter struct {
s *Session
_id locatorID
charLen int64
byteLen int64
readOfs int64
_eof bool
ofs int
wr io.Writer
b []byte
}
func (l *charLobChunkWriter) id() locatorID { return l._id }
func (l *charLobChunkWriter) eof() bool { return l._eof }
func (l *charLobChunkWriter) SetWriter(wr io.Writer) error {
l.wr = wr
if err := l.flush(); err != nil {
return err
}
return l.s.readLobStream(l)
}
func (l *charLobChunkWriter) write(rd *bufio.Reader, size int, eof bool) error {
l._eof = eof // store eof
if size == 0 {
return nil
}
l.b = resizeBuffer(l.b, size+l.ofs)
rd.ReadFull(l.b[l.ofs:])
if l.wr != nil {
return l.flush()
}
return nil
}
func (l *charLobChunkWriter) readOfsLen() (int64, int32) {
readLen := l.charLen - l.readOfs
if readLen > int64(math.MaxInt32) || readLen > int64(lobChunkSize) {
return l.readOfs, lobChunkSize
}
return l.readOfs, int32(readLen)
}
func (l *charLobChunkWriter) flush() error {
nDst, nSrc, err := unicode.Cesu8ToUtf8Transformer.Transform(l.b, l.b, true) // inline cesu8 to utf8 transformation
if err != nil && err != transform.ErrShortSrc {
return err
}
if _, err := l.wr.Write(l.b[:nDst]); err != nil {
return err
}
l.ofs = len(l.b) - nSrc
if l.ofs != 0 && l.ofs != cesu8.CESUMax/2 { // assert remaining bytes
return unicode.ErrInvalidCesu8
}
l.readOfs += int64(l.runeCount(l.b[:nDst]))
if l.ofs != 0 {
l.readOfs++ // add half encoding
copy(l.b, l.b[nSrc:len(l.b)]) // move half encoding to buffer begin
}
return nil
}
// Caution: hdb counts 4 byte utf-8 encodings (cesu-8 6 bytes) as 2 (3 byte) chars
func (l *charLobChunkWriter) runeCount(b []byte) int {
numChars := 0
for len(b) > 0 {
_, size := utf8.DecodeRune(b)
b = b[size:]
numChars++
if size == utf8.UTFMax {
numChars++
}
}
return numChars
}
// helper
func resizeBuffer(b1 []byte, size int) []byte {
if b1 == nil || cap(b1) < size {
b2 := make([]byte, size)
copy(b2, b1) // !!!
return b2
}
return b1[:size]
}