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LZ4 Frame Format Description
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============================
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### Notices
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Copyright (c) 2013-2015 Yann Collet
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Permission is granted to copy and distribute this document
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for any purpose and without charge,
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including translations into other languages
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and incorporation into compilations,
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provided that the copyright notice and this notice are preserved,
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and that any substantive changes or deletions from the original
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are clearly marked.
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Distribution of this document is unlimited.
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### Version
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1.6.1 (30/01/2018)
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Introduction
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------------
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The purpose of this document is to define a lossless compressed data format,
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that is independent of CPU type, operating system,
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file system and character set, suitable for
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File compression, Pipe and streaming compression
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using the [LZ4 algorithm](http://www.lz4.org).
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The data can be produced or consumed,
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even for an arbitrarily long sequentially presented input data stream,
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using only an a priori bounded amount of intermediate storage,
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and hence can be used in data communications.
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The format uses the LZ4 compression method,
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and optional [xxHash-32 checksum method](https://github.com/Cyan4973/xxHash),
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for detection of data corruption.
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The data format defined by this specification
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does not attempt to allow random access to compressed data.
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This specification is intended for use by implementers of software
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to compress data into LZ4 format and/or decompress data from LZ4 format.
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The text of the specification assumes a basic background in programming
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at the level of bits and other primitive data representations.
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Unless otherwise indicated below,
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a compliant compressor must produce data sets
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that conform to the specifications presented here.
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It doesn’t need to support all options though.
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A compliant decompressor must be able to decompress
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at least one working set of parameters
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that conforms to the specifications presented here.
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It may also ignore checksums.
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Whenever it does not support a specific parameter within the compressed stream,
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it must produce a non-ambiguous error code
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and associated error message explaining which parameter is unsupported.
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General Structure of LZ4 Frame format
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-------------------------------------
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| MagicNb | F. Descriptor | Block | (...) | EndMark | C. Checksum |
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|:-------:|:-------------:| ----- | ----- | ------- | ----------- |
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| 4 bytes | 3-15 bytes | | | 4 bytes | 0-4 bytes |
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__Magic Number__
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4 Bytes, Little endian format.
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Value : 0x184D2204
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__Frame Descriptor__
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3 to 15 Bytes, to be detailed in its own paragraph,
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as it is the most important part of the spec.
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The combined __Magic Number__ and __Frame Descriptor__ fields are sometimes
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called ___LZ4 Frame Header___. Its size varies between 7 and 19 bytes.
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__Data Blocks__
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To be detailed in its own paragraph.
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That’s where compressed data is stored.
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__EndMark__
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The flow of blocks ends when the last data block has a size of “0”.
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The size is expressed as a 32-bits value.
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__Content Checksum__
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Content Checksum verify that the full content has been decoded correctly.
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The content checksum is the result
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of [xxh32() hash function](https://github.com/Cyan4973/xxHash)
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digesting the original (decoded) data as input, and a seed of zero.
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Content checksum is only present when its associated flag
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is set in the frame descriptor.
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Content Checksum validates the result,
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that all blocks were fully transmitted in the correct order and without error,
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and also that the encoding/decoding process itself generated no distortion.
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Its usage is recommended.
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The combined __EndMark__ and __Content Checksum__ fields might sometimes be
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referred to as ___LZ4 Frame Footer___. Its size varies between 4 and 8 bytes.
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__Frame Concatenation__
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In some circumstances, it may be preferable to append multiple frames,
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for example in order to add new data to an existing compressed file
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without re-framing it.
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In such case, each frame has its own set of descriptor flags.
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Each frame is considered independent.
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The only relation between frames is their sequential order.
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The ability to decode multiple concatenated frames
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within a single stream or file
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is left outside of this specification.
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As an example, the reference lz4 command line utility behavior is
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to decode all concatenated frames in their sequential order.
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Frame Descriptor
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----------------
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| FLG | BD | (Content Size) | (Dictionary ID) | HC |
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| ------- | ------- |:--------------:|:---------------:| ------- |
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| 1 byte | 1 byte | 0 - 8 bytes | 0 - 4 bytes | 1 byte |
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The descriptor uses a minimum of 3 bytes,
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and up to 15 bytes depending on optional parameters.
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__FLG byte__
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| BitNb | 7-6 | 5 | 4 | 3 | 2 | 1 | 0 |
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| ------- |-------|-------|----------|------|----------|----------|------|
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|FieldName|Version|B.Indep|B.Checksum|C.Size|C.Checksum|*Reserved*|DictID|
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__BD byte__
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| BitNb | 7 | 6-5-4 | 3-2-1-0 |
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| ------- | -------- | ------------- | -------- |
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|FieldName|*Reserved*| Block MaxSize |*Reserved*|
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In the tables, bit 7 is highest bit, while bit 0 is lowest.
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__Version Number__
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2-bits field, must be set to `01`.
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Any other value cannot be decoded by this version of the specification.
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Other version numbers will use different flag layouts.
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__Block Independence flag__
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If this flag is set to “1”, blocks are independent.
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If this flag is set to “0”, each block depends on previous ones
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(up to LZ4 window size, which is 64 KB).
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In such case, it’s necessary to decode all blocks in sequence.
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Block dependency improves compression ratio, especially for small blocks.
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On the other hand, it makes random access or multi-threaded decoding impossible.
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__Block checksum flag__
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If this flag is set, each data block will be followed by a 4-bytes checksum,
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calculated by using the xxHash-32 algorithm on the raw (compressed) data block.
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The intention is to detect data corruption (storage or transmission errors)
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immediately, before decoding.
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Block checksum usage is optional.
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__Content Size flag__
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If this flag is set, the uncompressed size of data included within the frame
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will be present as an 8 bytes unsigned little endian value, after the flags.
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Content Size usage is optional.
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__Content checksum flag__
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If this flag is set, a 32-bits content checksum will be appended
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after the EndMark.
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__Dictionary ID flag__
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If this flag is set, a 4-bytes Dict-ID field will be present,
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after the descriptor flags and the Content Size.
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__Block Maximum Size__
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This information is useful to help the decoder allocate memory.
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Size here refers to the original (uncompressed) data size.
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Block Maximum Size is one value among the following table :
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| 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 |
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| --- | --- | --- | --- | ----- | ------ | ---- | ---- |
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| N/A | N/A | N/A | N/A | 64 KB | 256 KB | 1 MB | 4 MB |
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The decoder may refuse to allocate block sizes above any system-specific size.
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Unused values may be used in a future revision of the spec.
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A decoder conformant with the current version of the spec
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is only able to decode block sizes defined in this spec.
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__Reserved bits__
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Value of reserved bits **must** be 0 (zero).
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Reserved bit might be used in a future version of the specification,
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typically enabling new optional features.
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When this happens, a decoder respecting the current specification version
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shall not be able to decode such a frame.
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__Content Size__
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This is the original (uncompressed) size.
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This information is optional, and only present if the associated flag is set.
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Content size is provided using unsigned 8 Bytes, for a maximum of 16 Exabytes.
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Format is Little endian.
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This value is informational, typically for display or memory allocation.
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It can be skipped by a decoder, or used to validate content correctness.
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__Dictionary ID__
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Dict-ID is only present if the associated flag is set.
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It's an unsigned 32-bits value, stored using little-endian convention.
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A dictionary is useful to compress short input sequences.
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The compressor can take advantage of the dictionary context
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to encode the input in a more compact manner.
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It works as a kind of “known prefix” which is used by
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both the compressor and the decompressor to “warm-up” reference tables.
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The decompressor can use Dict-ID identifier to determine
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which dictionary must be used to correctly decode data.
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The compressor and the decompressor must use exactly the same dictionary.
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It's presumed that the 32-bits dictID uniquely identifies a dictionary.
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Within a single frame, a single dictionary can be defined.
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When the frame descriptor defines independent blocks,
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each block will be initialized with the same dictionary.
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If the frame descriptor defines linked blocks,
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the dictionary will only be used once, at the beginning of the frame.
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__Header Checksum__
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One-byte checksum of combined descriptor fields, including optional ones.
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The value is the second byte of `xxh32()` : ` (xxh32()>>8) & 0xFF `
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using zero as a seed, and the full Frame Descriptor as an input
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(including optional fields when they are present).
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A wrong checksum indicates an error in the descriptor.
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Header checksum is informational and can be skipped.
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Data Blocks
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-----------
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| Block Size | data | (Block Checksum) |
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|:----------:| ------ |:----------------:|
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| 4 bytes | | 0 - 4 bytes |
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__Block Size__
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This field uses 4-bytes, format is little-endian.
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The highest bit is “1” if data in the block is uncompressed.
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The highest bit is “0” if data in the block is compressed by LZ4.
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All other bits give the size, in bytes, of the following data block.
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The size does not include the block checksum if present.
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Block Size shall never be larger than Block Maximum Size.
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Such a thing could potentially happen for non-compressible sources.
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In such a case, such data block shall be passed using uncompressed format.
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__Data__
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Where the actual data to decode stands.
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It might be compressed or not, depending on previous field indications.
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When compressed, the data must respect the [LZ4 block format specification](https://github.com/lz4/lz4/blob/master/doc/lz4_Block_format.md).
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Note that the block is not necessarily full.
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Uncompressed size of data can be any size, up to "Block Maximum Size”,
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so it may contain less data than the maximum block size.
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__Block checksum__
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Only present if the associated flag is set.
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This is a 4-bytes checksum value, in little endian format,
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calculated by using the xxHash-32 algorithm on the raw (undecoded) data block,
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and a seed of zero.
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The intention is to detect data corruption (storage or transmission errors)
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before decoding.
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Block checksum is cumulative with Content checksum.
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Skippable Frames
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----------------
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| Magic Number | Frame Size | User Data |
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|:------------:|:----------:| --------- |
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| 4 bytes | 4 bytes | |
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Skippable frames allow the integration of user-defined data
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into a flow of concatenated frames.
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Its design is pretty straightforward,
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with the sole objective to allow the decoder to quickly skip
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over user-defined data and continue decoding.
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For the purpose of facilitating identification,
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it is discouraged to start a flow of concatenated frames with a skippable frame.
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If there is a need to start such a flow with some user data
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encapsulated into a skippable frame,
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it’s recommended to start with a zero-byte LZ4 frame
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followed by a skippable frame.
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This will make it easier for file type identifiers.
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__Magic Number__
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4 Bytes, Little endian format.
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Value : 0x184D2A5X, which means any value from 0x184D2A50 to 0x184D2A5F.
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All 16 values are valid to identify a skippable frame.
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__Frame Size__
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This is the size, in bytes, of the following User Data
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(without including the magic number nor the size field itself).
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4 Bytes, Little endian format, unsigned 32-bits.
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This means User Data can’t be bigger than (2^32-1) Bytes.
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__User Data__
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User Data can be anything. Data will just be skipped by the decoder.
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Legacy frame
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------------
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The Legacy frame format was defined into the initial versions of “LZ4Demo”.
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Newer compressors should not use this format anymore, as it is too restrictive.
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Main characteristics of the legacy format :
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- Fixed block size : 8 MB.
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- All blocks must be completely filled, except the last one.
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- All blocks are always compressed, even when compression is detrimental.
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- The last block is detected either because
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it is followed by the “EOF” (End of File) mark,
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or because it is followed by a known Frame Magic Number.
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- No checksum
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- Convention is Little endian
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| MagicNb | B.CSize | CData | B.CSize | CData | (...) | EndMark |
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| ------- | ------- | ----- | ------- | ----- | ------- | ------- |
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| 4 bytes | 4 bytes | CSize | 4 bytes | CSize | x times | EOF |
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__Magic Number__
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4 Bytes, Little endian format.
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Value : 0x184C2102
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__Block Compressed Size__
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This is the size, in bytes, of the following compressed data block.
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4 Bytes, Little endian format.
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__Data__
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Where the actual compressed data stands.
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Data is always compressed, even when compression is detrimental.
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__EndMark__
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End of legacy frame is implicit only.
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It must be followed by a standard EOF (End Of File) signal,
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wether it is a file or a stream.
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Alternatively, if the frame is followed by a valid Frame Magic Number,
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it is considered completed.
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This policy makes it possible to concatenate legacy frames.
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Any other value will be interpreted as a block size,
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and trigger an error if it does not fit within acceptable range.
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Version changes
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---------------
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1.6.1 : introduced terms "LZ4 Frame Header" and "LZ4 Frame Footer"
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1.6.0 : restored Dictionary ID field in Frame header
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1.5.1 : changed document format to MarkDown
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1.5 : removed Dictionary ID from specification
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1.4.1 : changed wording from “stream” to “frame”
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1.4 : added skippable streams, re-added stream checksum
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1.3 : modified header checksum
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1.2 : reduced choice of “block size”, to postpone decision on “dynamic size of BlockSize Field”.
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1.1 : optional fields are now part of the descriptor
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1.0 : changed “block size” specification, adding a compressed/uncompressed flag
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0.9 : reduced scale of “block maximum size” table
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0.8 : removed : high compression flag
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0.7 : removed : stream checksum
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0.6 : settled : stream size uses 8 bytes, endian convention is little endian
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0.5: added copyright notice
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0.4 : changed format to Google Doc compatible OpenDocument
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