func LoadNeedleMap(file *os.File) (*NeedleMap, error) {
nm := NewNeedleMap(file)
bytes := make([]byte, 16*RowsToRead)
count, e := nm.indexFile.Read(bytes)
for count > 0 && e == nil {
for i := 0; i < count; i += 16 {
key := util.BytesToUint64(bytes[i : i+8])
offset := util.BytesToUint32(bytes[i+8 : i+12])
size := util.BytesToUint32(bytes[i+12 : i+16])
nm.fileCounter++
nm.fileByteCounter = nm.fileByteCounter + uint64(size)
if offset > 0 {
oldSize := nm.m.Set(Key(key), offset, size)
//log.Println("reading key", key, "offset", offset, "size", size, "oldSize", oldSize)
if oldSize > 0 {
nm.deletionCounter++
nm.deletionByteCounter = nm.deletionByteCounter + uint64(oldSize)
}
} else {
oldSize := nm.m.Delete(Key(key))
//log.Println("removing key", key, "offset", offset, "size", size, "oldSize", oldSize)
nm.deletionCounter++
nm.deletionByteCounter = nm.deletionByteCounter + uint64(oldSize)
}
}
count, e = nm.indexFile.Read(bytes)
}
return nm, e
}
func (n *Needle) readNeedleDataVersion2(bytes []byte) {
index, lenBytes := 0, len(bytes)
if index < lenBytes {
n.DataSize = util.BytesToUint32(bytes[index : index+4])
index = index + 4
n.Data = bytes[index : index+int(n.DataSize)]
index = index + int(n.DataSize)
n.Flags = bytes[index]
index = index + 1
}
if index < lenBytes && n.HasName() {
n.NameSize = uint8(bytes[index])
index = index + 1
n.Name = bytes[index : index+int(n.NameSize)]
index = index + int(n.NameSize)
}
if index < lenBytes && n.HasMime() {
n.MimeSize = uint8(bytes[index])
index = index + 1
n.Mime = bytes[index : index+int(n.MimeSize)]
index = index + int(n.MimeSize)
}
if index < lenBytes && n.HasLastModifiedDate() {
n.LastModified = util.BytesToUint64(bytes[index : index+LastModifiedBytesLength])
index = index + LastModifiedBytesLength
}
}
func (m cdbMap) Visit(visit func(NeedleValue) error) (err error) {
fh, err := os.Open(m.fn1)
if err != nil {
return fmt.Errorf("cannot open %s: %s", m.fn1, err)
}
defer fh.Close()
walk := func(elt cdb.Element) error {
if len(elt.Key) != 8 {
return nil
}
return visit(NeedleValue{Key: Key(util.BytesToUint64(elt.Key)),
Offset: util.BytesToUint32(elt.Data[:4]),
Size: util.BytesToUint32(elt.Data[4:8])})
}
if err = cdb.DumpMap(fh, walk); err != nil {
return err
}
if m.c2 == nil {
return nil
}
fh.Close()
if fh, err = os.Open(m.fn2); err != nil {
return fmt.Errorf("cannot open %s: %s", m.fn2, err)
}
return cdb.DumpMap(fh, walk)
}
// walks through the index file, calls fn function with each key, offset, size
// stops with the error returned by the fn function
func WalkIndexFile(r *os.File, fn func(key uint64, offset, size uint32) error) error {
var readerOffset int64
bytes := make([]byte, 16*RowsToRead)
count, e := r.ReadAt(bytes, readerOffset)
glog.V(3).Infoln("file", r.Name(), "readerOffset", readerOffset, "count", count, "e", e)
readerOffset += int64(count)
var (
key uint64
offset, size uint32
i int
)
for count > 0 && e == nil || e == io.EOF {
for i = 0; i+16 <= count; i += 16 {
key = util.BytesToUint64(bytes[i : i+8])
offset = util.BytesToUint32(bytes[i+8 : i+12])
size = util.BytesToUint32(bytes[i+12 : i+16])
if e = fn(key, offset, size); e != nil {
return e
}
}
if e == io.EOF {
return nil
}
count, e = r.ReadAt(bytes, readerOffset)
glog.V(3).Infoln("file", r.Name(), "readerOffset", readerOffset, "count", count, "e", e)
readerOffset += int64(count)
}
return e
}
// walks through the index file, calls fn function with each key, offset, size
// stops with the error returned by the fn function
func walkIndexFile(r io.Reader, fn func(key uint64, offset, size uint32) error) error {
br := bufio.NewReaderSize(r, 1024*1024)
bytes := make([]byte, 16*RowsToRead)
count, e := br.Read(bytes)
var (
key uint64
offset, size uint32
i int
)
for count > 0 && e == nil {
for i = 0; i+16 <= count; i += 16 {
key = util.BytesToUint64(bytes[i : i+8])
offset = util.BytesToUint32(bytes[i+8 : i+12])
size = util.BytesToUint32(bytes[i+12 : i+16])
if e = fn(key, offset, size); e != nil {
return e
}
}
if count%16 != 0 {
copy(bytes[:count-i], bytes[i:count])
i = count - i
count, e = br.Read(bytes[i:])
count += i
} else {
count, e = br.Read(bytes)
}
}
if e == io.EOF {
return nil
}
return e
}
func ParseKeyHash(key_hash_string string) (uint64, uint32) {
key_hash_bytes, khe := hex.DecodeString(key_hash_string)
key_hash_len := len(key_hash_bytes)
if khe != nil || key_hash_len <= 4 {
glog.V(0).Infoln("Invalid key_hash", key_hash_string, "length:", key_hash_len, "error", khe)
return 0, 0
}
key := util.BytesToUint64(key_hash_bytes[0 : key_hash_len-4])
hash := util.BytesToUint32(key_hash_bytes[key_hash_len-4 : key_hash_len])
return key, hash
}
func LoadNewNeedleMap(file *os.File) CompactMap {
m := NewCompactMap()
bytes := make([]byte, 16*1024)
count, e := file.Read(bytes)
if count > 0 {
fstat, _ := file.Stat()
log.Println("Loading index file", fstat.Name(), "size", fstat.Size())
}
for count > 0 && e == nil {
for i := 0; i < count; i += 16 {
key := util.BytesToUint64(bytes[i : i+8])
offset := util.BytesToUint32(bytes[i+8 : i+12])
size := util.BytesToUint32(bytes[i+12 : i+16])
if offset > 0 {
m.Set(Key(key), offset, size)
} else {
//delete(m, key)
}
}
count, e = file.Read(bytes)
}
return m
}
func (n *Needle) readNeedleHeader(bytes []byte) {
n.Cookie = util.BytesToUint32(bytes[0:4])
n.Id = util.BytesToUint64(bytes[4:12])
n.Size = util.BytesToUint32(bytes[12:NeedleHeaderSize])
}