mirror of
https://github.com/ceph/ceph-csi.git
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262 lines
7.8 KiB
Go
262 lines
7.8 KiB
Go
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// Copyright 2020+ Klaus Post. All rights reserved.
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// License information can be found in the LICENSE file.
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package zstd
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import (
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"encoding/binary"
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"errors"
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"io"
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)
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// HeaderMaxSize is the maximum size of a Frame and Block Header.
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// If less is sent to Header.Decode it *may* still contain enough information.
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const HeaderMaxSize = 14 + 3
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// Header contains information about the first frame and block within that.
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type Header struct {
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// SingleSegment specifies whether the data is to be decompressed into a
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// single contiguous memory segment.
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// It implies that WindowSize is invalid and that FrameContentSize is valid.
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SingleSegment bool
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// WindowSize is the window of data to keep while decoding.
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// Will only be set if SingleSegment is false.
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WindowSize uint64
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// Dictionary ID.
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// If 0, no dictionary.
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DictionaryID uint32
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// HasFCS specifies whether FrameContentSize has a valid value.
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HasFCS bool
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// FrameContentSize is the expected uncompressed size of the entire frame.
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FrameContentSize uint64
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// Skippable will be true if the frame is meant to be skipped.
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// This implies that FirstBlock.OK is false.
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Skippable bool
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// SkippableID is the user-specific ID for the skippable frame.
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// Valid values are between 0 to 15, inclusive.
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SkippableID int
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// SkippableSize is the length of the user data to skip following
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// the header.
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SkippableSize uint32
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// HeaderSize is the raw size of the frame header.
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//
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// For normal frames, it includes the size of the magic number and
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// the size of the header (per section 3.1.1.1).
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// It does not include the size for any data blocks (section 3.1.1.2) nor
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// the size for the trailing content checksum.
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//
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// For skippable frames, this counts the size of the magic number
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// along with the size of the size field of the payload.
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// It does not include the size of the skippable payload itself.
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// The total frame size is the HeaderSize plus the SkippableSize.
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HeaderSize int
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// First block information.
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FirstBlock struct {
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// OK will be set if first block could be decoded.
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OK bool
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// Is this the last block of a frame?
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Last bool
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// Is the data compressed?
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// If true CompressedSize will be populated.
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// Unfortunately DecompressedSize cannot be determined
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// without decoding the blocks.
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Compressed bool
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// DecompressedSize is the expected decompressed size of the block.
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// Will be 0 if it cannot be determined.
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DecompressedSize int
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// CompressedSize of the data in the block.
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// Does not include the block header.
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// Will be equal to DecompressedSize if not Compressed.
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CompressedSize int
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}
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// If set there is a checksum present for the block content.
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// The checksum field at the end is always 4 bytes long.
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HasCheckSum bool
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}
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// Decode the header from the beginning of the stream.
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// This will decode the frame header and the first block header if enough bytes are provided.
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// It is recommended to provide at least HeaderMaxSize bytes.
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// If the frame header cannot be read an error will be returned.
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// If there isn't enough input, io.ErrUnexpectedEOF is returned.
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// The FirstBlock.OK will indicate if enough information was available to decode the first block header.
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func (h *Header) Decode(in []byte) error {
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_, err := h.DecodeAndStrip(in)
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return err
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}
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// DecodeAndStrip will decode the header from the beginning of the stream
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// and on success return the remaining bytes.
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// This will decode the frame header and the first block header if enough bytes are provided.
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// It is recommended to provide at least HeaderMaxSize bytes.
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// If the frame header cannot be read an error will be returned.
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// If there isn't enough input, io.ErrUnexpectedEOF is returned.
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// The FirstBlock.OK will indicate if enough information was available to decode the first block header.
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func (h *Header) DecodeAndStrip(in []byte) (remain []byte, err error) {
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*h = Header{}
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if len(in) < 4 {
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return nil, io.ErrUnexpectedEOF
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}
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h.HeaderSize += 4
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b, in := in[:4], in[4:]
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if string(b) != frameMagic {
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if string(b[1:4]) != skippableFrameMagic || b[0]&0xf0 != 0x50 {
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return nil, ErrMagicMismatch
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}
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if len(in) < 4 {
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return nil, io.ErrUnexpectedEOF
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}
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h.HeaderSize += 4
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h.Skippable = true
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h.SkippableID = int(b[0] & 0xf)
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h.SkippableSize = binary.LittleEndian.Uint32(in)
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return in[4:], nil
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}
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// Read Window_Descriptor
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// https://github.com/facebook/zstd/blob/dev/doc/zstd_compression_format.md#window_descriptor
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if len(in) < 1 {
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return nil, io.ErrUnexpectedEOF
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}
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fhd, in := in[0], in[1:]
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h.HeaderSize++
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h.SingleSegment = fhd&(1<<5) != 0
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h.HasCheckSum = fhd&(1<<2) != 0
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if fhd&(1<<3) != 0 {
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return nil, errors.New("reserved bit set on frame header")
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}
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if !h.SingleSegment {
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if len(in) < 1 {
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return nil, io.ErrUnexpectedEOF
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}
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var wd byte
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wd, in = in[0], in[1:]
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h.HeaderSize++
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windowLog := 10 + (wd >> 3)
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windowBase := uint64(1) << windowLog
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windowAdd := (windowBase / 8) * uint64(wd&0x7)
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h.WindowSize = windowBase + windowAdd
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}
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// Read Dictionary_ID
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// https://github.com/facebook/zstd/blob/dev/doc/zstd_compression_format.md#dictionary_id
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if size := fhd & 3; size != 0 {
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if size == 3 {
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size = 4
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}
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if len(in) < int(size) {
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return nil, io.ErrUnexpectedEOF
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}
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b, in = in[:size], in[size:]
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h.HeaderSize += int(size)
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switch len(b) {
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case 1:
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h.DictionaryID = uint32(b[0])
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case 2:
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h.DictionaryID = uint32(b[0]) | (uint32(b[1]) << 8)
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case 4:
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h.DictionaryID = uint32(b[0]) | (uint32(b[1]) << 8) | (uint32(b[2]) << 16) | (uint32(b[3]) << 24)
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}
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}
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// Read Frame_Content_Size
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// https://github.com/facebook/zstd/blob/dev/doc/zstd_compression_format.md#frame_content_size
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var fcsSize int
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v := fhd >> 6
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switch v {
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case 0:
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if h.SingleSegment {
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fcsSize = 1
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}
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default:
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fcsSize = 1 << v
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}
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if fcsSize > 0 {
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h.HasFCS = true
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if len(in) < fcsSize {
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return nil, io.ErrUnexpectedEOF
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}
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b, in = in[:fcsSize], in[fcsSize:]
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h.HeaderSize += int(fcsSize)
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switch len(b) {
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case 1:
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h.FrameContentSize = uint64(b[0])
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case 2:
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// When FCS_Field_Size is 2, the offset of 256 is added.
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h.FrameContentSize = uint64(b[0]) | (uint64(b[1]) << 8) + 256
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case 4:
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h.FrameContentSize = uint64(b[0]) | (uint64(b[1]) << 8) | (uint64(b[2]) << 16) | (uint64(b[3]) << 24)
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case 8:
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d1 := uint32(b[0]) | (uint32(b[1]) << 8) | (uint32(b[2]) << 16) | (uint32(b[3]) << 24)
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d2 := uint32(b[4]) | (uint32(b[5]) << 8) | (uint32(b[6]) << 16) | (uint32(b[7]) << 24)
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h.FrameContentSize = uint64(d1) | (uint64(d2) << 32)
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}
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}
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// Frame Header done, we will not fail from now on.
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if len(in) < 3 {
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return in, nil
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}
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tmp := in[:3]
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bh := uint32(tmp[0]) | (uint32(tmp[1]) << 8) | (uint32(tmp[2]) << 16)
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h.FirstBlock.Last = bh&1 != 0
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blockType := blockType((bh >> 1) & 3)
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// find size.
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cSize := int(bh >> 3)
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switch blockType {
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case blockTypeReserved:
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return in, nil
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case blockTypeRLE:
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h.FirstBlock.Compressed = true
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h.FirstBlock.DecompressedSize = cSize
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h.FirstBlock.CompressedSize = 1
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case blockTypeCompressed:
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h.FirstBlock.Compressed = true
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h.FirstBlock.CompressedSize = cSize
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case blockTypeRaw:
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h.FirstBlock.DecompressedSize = cSize
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h.FirstBlock.CompressedSize = cSize
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default:
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panic("Invalid block type")
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}
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h.FirstBlock.OK = true
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return in, nil
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}
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// AppendTo will append the encoded header to the dst slice.
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// There is no error checking performed on the header values.
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func (h *Header) AppendTo(dst []byte) ([]byte, error) {
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if h.Skippable {
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magic := [4]byte{0x50, 0x2a, 0x4d, 0x18}
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magic[0] |= byte(h.SkippableID & 0xf)
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dst = append(dst, magic[:]...)
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f := h.SkippableSize
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return append(dst, uint8(f), uint8(f>>8), uint8(f>>16), uint8(f>>24)), nil
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}
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f := frameHeader{
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ContentSize: h.FrameContentSize,
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WindowSize: uint32(h.WindowSize),
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SingleSegment: h.SingleSegment,
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Checksum: h.HasCheckSum,
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DictID: h.DictionaryID,
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}
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return f.appendTo(dst), nil
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}
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