ceph-csi/vendor/github.com/pierrec/lz4/lz4.go
Niels de Vos 91774fc936 rebase: vendor dependencies for Vault API
Uses github.com/libopenstorage/secrets to communicate with Vault. This
removes the need for maintaining our own limited Vault APIs.

By adding the new dependency, several other packages got updated in the
process. Unused indirect dependencies have been removed from go.mod.

Signed-off-by: Niels de Vos <ndevos@redhat.com>
2020-11-29 04:03:59 +00:00

114 lines
3.9 KiB
Go

// Package lz4 implements reading and writing lz4 compressed data (a frame),
// as specified in http://fastcompression.blogspot.fr/2013/04/lz4-streaming-format-final.html.
//
// Although the block level compression and decompression functions are exposed and are fully compatible
// with the lz4 block format definition, they are low level and should not be used directly.
// For a complete description of an lz4 compressed block, see:
// http://fastcompression.blogspot.fr/2011/05/lz4-explained.html
//
// See https://github.com/Cyan4973/lz4 for the reference C implementation.
//
package lz4
import "math/bits"
import "sync"
const (
// Extension is the LZ4 frame file name extension
Extension = ".lz4"
// Version is the LZ4 frame format version
Version = 1
frameMagic uint32 = 0x184D2204
frameSkipMagic uint32 = 0x184D2A50
// The following constants are used to setup the compression algorithm.
minMatch = 4 // the minimum size of the match sequence size (4 bytes)
winSizeLog = 16 // LZ4 64Kb window size limit
winSize = 1 << winSizeLog
winMask = winSize - 1 // 64Kb window of previous data for dependent blocks
compressedBlockFlag = 1 << 31
compressedBlockMask = compressedBlockFlag - 1
// hashLog determines the size of the hash table used to quickly find a previous match position.
// Its value influences the compression speed and memory usage, the lower the faster,
// but at the expense of the compression ratio.
// 16 seems to be the best compromise for fast compression.
hashLog = 16
htSize = 1 << hashLog
mfLimit = 10 + minMatch // The last match cannot start within the last 14 bytes.
)
// map the block max size id with its value in bytes: 64Kb, 256Kb, 1Mb and 4Mb.
const (
blockSize64K = 1 << (16 + 2*iota)
blockSize256K
blockSize1M
blockSize4M
)
var (
// Keep a pool of buffers for each valid block sizes.
bsMapValue = [...]*sync.Pool{
newBufferPool(2 * blockSize64K),
newBufferPool(2 * blockSize256K),
newBufferPool(2 * blockSize1M),
newBufferPool(2 * blockSize4M),
}
)
// newBufferPool returns a pool for buffers of the given size.
func newBufferPool(size int) *sync.Pool {
return &sync.Pool{
New: func() interface{} {
return make([]byte, size)
},
}
}
// getBuffer returns a buffer to its pool.
func getBuffer(size int) []byte {
idx := blockSizeValueToIndex(size) - 4
return bsMapValue[idx].Get().([]byte)
}
// putBuffer returns a buffer to its pool.
func putBuffer(size int, buf []byte) {
if cap(buf) > 0 {
idx := blockSizeValueToIndex(size) - 4
bsMapValue[idx].Put(buf[:cap(buf)])
}
}
func blockSizeIndexToValue(i byte) int {
return 1 << (16 + 2*uint(i))
}
func isValidBlockSize(size int) bool {
const blockSizeMask = blockSize64K | blockSize256K | blockSize1M | blockSize4M
return size&blockSizeMask > 0 && bits.OnesCount(uint(size)) == 1
}
func blockSizeValueToIndex(size int) byte {
return 4 + byte(bits.TrailingZeros(uint(size)>>16)/2)
}
// Header describes the various flags that can be set on a Writer or obtained from a Reader.
// The default values match those of the LZ4 frame format definition
// (http://fastcompression.blogspot.com/2013/04/lz4-streaming-format-final.html).
//
// NB. in a Reader, in case of concatenated frames, the Header values may change between Read() calls.
// It is the caller's responsibility to check them if necessary.
type Header struct {
BlockChecksum bool // Compressed blocks checksum flag.
NoChecksum bool // Frame checksum flag.
BlockMaxSize int // Size of the uncompressed data block (one of [64KB, 256KB, 1MB, 4MB]). Default=4MB.
Size uint64 // Frame total size. It is _not_ computed by the Writer.
CompressionLevel int // Compression level (higher is better, use 0 for fastest compression).
done bool // Header processed flag (Read or Write and checked).
}
func (h *Header) Reset() {
h.done = false
}