mirror of
https://github.com/pocoproject/poco.git
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1637 lines
57 KiB
Plaintext
1637 lines
57 KiB
Plaintext
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[Info-ZIP note, 970311: this file is based on PKWARE's appnote.txt of
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15 February 1996. It has been unofficially corrected and extended by
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Info-ZIP without explicit permission by PKWARE. Although Info-ZIP
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believes the information to be accurate and complete, it is provided
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under a disclaimer similar to the PKWARE disclaimer below, differing
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only in the substitution of "Info-ZIP" for "PKWARE". In other words,
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use this information at your own risk, but we think it's correct. As
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of PKZIPW 2.50, two new incompatibilities have been introduced by PKWARE;
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they are noted below. Note that the NTFS "conflict" is currently not
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real; PKZIPW 2.50 actually tags NTFS files as having come from a FAT
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file system, too.]
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Disclaimer
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----------
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Although PKWARE will attempt to supply current and accurate
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information relating to its file formats, algorithms, and the
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subject programs, the possibility of error can not be eliminated.
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PKWARE therefore expressly disclaims any warranty that the
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information contained in the associated materials relating to the
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subject programs and/or the format of the files created or
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accessed by the subject programs and/or the algorithms used by
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the subject programs, or any other matter, is current, correct or
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accurate as delivered. Any risk of damage due to any possible
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inaccurate information is assumed by the user of the information.
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Furthermore, the information relating to the subject programs
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and/or the file formats created or accessed by the subject
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programs and/or the algorithms used by the subject programs is
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subject to change without notice.
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General Format of a ZIP file
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----------------------------
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Files stored in arbitrary order. Large zipfiles can span multiple
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diskette media.
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Overall zipfile format:
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[local file header + file data + data_descriptor] . . .
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[central directory] end of central directory record
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A. Local file header:
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local file header signature 4 bytes (0x04034b50)
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version needed to extract 2 bytes
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general purpose bit flag 2 bytes
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compression method 2 bytes
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last mod file time 2 bytes
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last mod file date 2 bytes
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crc-32 4 bytes
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compressed size 4 bytes
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uncompressed size 4 bytes
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filename length 2 bytes
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extra field length 2 bytes
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filename (variable size)
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extra field (variable size)
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B. Data descriptor:
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data descriptor signature 4 bytes (0x08074b50)
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crc-32 4 bytes
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compressed size 4 bytes
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uncompressed size 4 bytes
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This descriptor exists only if bit 3 of the general
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purpose bit flag is set (see below). It is byte aligned
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and immediately follows the last byte of compressed data.
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This descriptor is used only when it was not possible to
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seek in the output zip file, e.g., when the output zip file
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was standard output or a non seekable device.
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C. Central directory structure:
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[file header] . . . end of central dir record
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File header:
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central file header signature 4 bytes (0x02014b50)
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version made by 2 bytes
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version needed to extract 2 bytes
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general purpose bit flag 2 bytes
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compression method 2 bytes
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last mod file time 2 bytes
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last mod file date 2 bytes
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crc-32 4 bytes
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compressed size 4 bytes
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uncompressed size 4 bytes
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filename length 2 bytes
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extra field length 2 bytes
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file comment length 2 bytes
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disk number start 2 bytes
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internal file attributes 2 bytes
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external file attributes 4 bytes
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relative offset of local header 4 bytes
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filename (variable size)
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extra field (variable size)
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file comment (variable size)
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End of central dir record:
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end of central dir signature 4 bytes (0x06054b50)
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number of this disk 2 bytes
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number of the disk with the
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start of the central directory 2 bytes
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total number of entries in
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the central dir on this disk 2 bytes
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total number of entries in
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the central dir 2 bytes
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size of the central directory 4 bytes
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offset of start of central
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directory with respect to
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the starting disk number 4 bytes
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zipfile comment length 2 bytes
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zipfile comment (variable size)
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D. Explanation of fields:
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version made by (2 bytes)
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The upper byte indicates the host system (OS) for the
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file. Software can use this information to determine
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the line record format for text files etc. The current
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mappings are:
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0 - FAT file system (DOS, OS/2, NT) + PKZIPW 2.50 VFAT, NTFS
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1 - Amiga
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2 - VMS (VAX or Alpha AXP)
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3 - Unix
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4 - VM/CMS
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5 - Atari
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6 - HPFS file system (OS/2, NT 3.x)
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7 - Macintosh
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8 - Z-System
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9 - CP/M
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10 - TOPS-20 [supposedly PKZIPW 2.50 NTFS]
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11 - NTFS file system (NT)
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12 - SMS/QDOS
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13 - Acorn RISC OS
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14 - VFAT file system (Win95, NT)
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15 - MVS
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16 - BeOS (BeBox or PowerMac)
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17 - Tandem
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18 thru 255 - unused
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The lower byte indicates the version number of the
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software used to encode the file. The value/10
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indicates the major version number, and the value
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mod 10 is the minor version number.
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version needed to extract (2 bytes)
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The minimum software version needed to extract the
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file, mapped as above.
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general purpose bit flag: (2 bytes)
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bit 0: If set, indicates that the file is encrypted.
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(For Method 6 - Imploding)
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bit 1: If the compression method used was type 6,
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Imploding, then this bit, if set, indicates
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an 8K sliding dictionary was used. If clear,
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then a 4K sliding dictionary was used.
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bit 2: If the compression method used was type 6,
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Imploding, then this bit, if set, indicates
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an 3 Shannon-Fano trees were used to encode the
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sliding dictionary output. If clear, then 2
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Shannon-Fano trees were used.
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(For Method 8 - Deflating)
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bit 2 bit 1
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0 0 Normal (-en) compression option was used.
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0 1 Maximum (-ex) compression option was used.
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1 0 Fast (-ef) compression option was used.
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1 1 Super Fast (-es) compression option was used.
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Note: Bits 1 and 2 are undefined if the compression
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method is any other.
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(For method 8)
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bit 3: If this bit is set, the fields crc-32, compressed size
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and uncompressed size are set to zero in the local
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header. The correct values are put in the data descriptor
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immediately following the compressed data.
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The upper three bits are reserved and used internally
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by the software when processing the zipfile. The
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remaining bits are unused.
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compression method: (2 bytes)
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(see accompanying documentation for algorithm
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descriptions)
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0 - The file is stored (no compression)
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1 - The file is Shrunk
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2 - The file is Reduced with compression factor 1
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3 - The file is Reduced with compression factor 2
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4 - The file is Reduced with compression factor 3
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5 - The file is Reduced with compression factor 4
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6 - The file is Imploded
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7 - Reserved for Tokenizing compression algorithm
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8 - The file is Deflated
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9 - Reserved for enhanced Deflating
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10 - PKWARE Date Compression Library Imploding
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date and time fields: (2 bytes each)
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The date and time are encoded in standard MS-DOS format.
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If input came from standard input, the date and time are
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those at which compression was started for this data.
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CRC-32: (4 bytes)
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The CRC-32 algorithm was generously contributed by
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David Schwaderer and can be found in his excellent
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book "C Programmers Guide to NetBIOS" published by
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Howard W. Sams & Co. Inc. The 'magic number' for
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the CRC is 0xdebb20e3. The proper CRC pre and post
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conditioning is used, meaning that the CRC register
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is pre-conditioned with all ones (a starting value
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of 0xffffffff) and the value is post-conditioned by
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taking the one's complement of the CRC residual.
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If bit 3 of the general purpose flag is set, this
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field is set to zero in the local header and the correct
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value is put in the data descriptor and in the central
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directory.
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compressed size: (4 bytes)
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uncompressed size: (4 bytes)
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The size of the file compressed and uncompressed,
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respectively. If bit 3 of the general purpose bit flag
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is set, these fields are set to zero in the local header
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and the correct values are put in the data descriptor and
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in the central directory.
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filename length: (2 bytes)
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extra field length: (2 bytes)
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file comment length: (2 bytes)
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The length of the filename, extra field, and comment
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fields respectively. The combined length of any
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directory record and these three fields should not
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generally exceed 65,535 bytes. If input came from
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standard input, the filename is set to "-" (length one).
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disk number start: (2 bytes)
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The number of the disk on which this file begins.
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internal file attributes: (2 bytes)
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The lowest bit of this field indicates, if set, that
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the file is apparently an ASCII or text file. If not
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set, that the file apparently contains binary data.
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The remaining bits are unused in version 1.0.
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external file attributes: (4 bytes)
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The mapping of the external attributes is
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host-system dependent (see 'version made by'). For
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MS-DOS, the low order byte is the MS-DOS directory
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attribute byte. If input came from standard input, this
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field is set to zero.
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relative offset of local header: (4 bytes)
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This is the offset from the start of the first disk on
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which this file appears, to where the local header should
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be found.
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filename: (Variable)
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The name of the file, with optional relative path.
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The path stored should not contain a drive or
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device letter, or a leading slash. All slashes
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should be forward slashes '/' as opposed to
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backwards slashes '\' for compatibility with Amiga
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and Unix file systems etc. If input came from standard
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input, the file name is set to "-" (without the quotes).
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extra field: (Variable)
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This is for future expansion. If additional information
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needs to be stored in the future, it should be stored
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here. Earlier versions of the software can then safely
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skip this file, and find the next file or header. This
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field will be 0 length in version 1.0.
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In order to allow different programs and different types
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of information to be stored in the 'extra' field in .ZIP
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files, the following structure should be used for all
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programs storing data in this field:
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header1+data1 + header2+data2 . . .
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Each header should consist of:
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Header ID - 2 bytes
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Data Size - 2 bytes
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Note: all fields stored in Intel low-byte/high-byte order.
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The Header ID field indicates the type of data that is in
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the following data block.
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Header ID's of 0 thru 31 are reserved for use by PKWARE.
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The remaining ID's can be used by third party vendors for
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proprietary usage.
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The current Header ID mappings are:
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0x0007 AV Info
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0x0009 OS/2 extended attributes
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0x000c PKWARE VAX/VMS
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0x000d reserved for Unix
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0x07c8 Info-ZIP Macintosh
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0x2605 ZipIt Macintosh
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0x4341 Acorn/SparkFS (David Pilling)
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0x4453 Windows NT security descriptor (binary ACL)
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0x4704 VM/CMS
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0x470f MVS
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0x4b46 FWKCS MD5 (third party, see below)
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0x4c41 OS/2 access control list (text ACL)
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0x4d49 Info-ZIP VMS (VAX or Alpha)
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0x5356 AOS/VS (binary ACL)
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0x5455 extended timestamp
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0x5855 Info-ZIP Unix (original; also OS/2, NT, etc.)
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0x6542 BeOS (BeBox, PowerMac, etc.)
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0x756e ASi Unix
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0x7855 Info-ZIP Unix (new)
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0xfb4a SMS/QDOS
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The Data Size field indicates the size of the following
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data block. Programs can use this value to skip to the
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next header block, passing over any data blocks that are
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not of interest.
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Note: As stated above, the size of the entire .ZIP file
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header, including the filename, comment, and extra
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field should not exceed 64K in size.
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In case two different programs should appropriate the same
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Header ID value, it is strongly recommended that each
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program place a unique signature of at least two bytes in
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size (and preferably 4 bytes or bigger) at the start of
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each data area. Every program should verify that its
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unique signature is present, in addition to the Header ID
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value being correct, before assuming that it is a block of
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known type.
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In the following descriptions, note that "Short" means two bytes
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and "Long" means four bytes, regardless of their native sizes.
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-OS/2 Extended Attributes Extra Field:
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====================================
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The following is the layout of the OS/2 extended attributes "extra"
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block. (Last Revision 960922)
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Note: all fields stored in Intel low-byte/high-byte order.
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Local-header version:
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Value Size Description
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----- ---- -----------
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(OS/2) 0x0009 Short tag for this extra block type
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TSize Short total data size for this block
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BSize Long uncompressed EA data size
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CType Short compression type
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EACRC Long CRC value for uncompressed EA data
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(var.) variable compressed EA data
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Central-header version:
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Value Size Description
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----- ---- -----------
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(OS/2) 0x0009 Short tag for this extra block type
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TSize Short total data size for this block
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BSize Long size of uncompressed local EA data
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The value of CType is interpreted according to the "compression
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method" section above; i.e., 0 for stored, 8 for deflated, etc.
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The OS/2 extended attribute structure (FEA2LIST) is compressed and
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then stored in its entirety within this structure. There will only
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ever be one block of data in the variable-length field.
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-OS/2 Access Control List Extra Field:
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====================================
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The following is the layout of the OS/2 ACL extra block.
|
||
|
(Last Revision 960922)
|
||
|
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|
Local-header version:
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||
|
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||
|
Value Size Description
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----- ---- -----------
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(ACL) 0x4c41 Short tag for this extra block type
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TSize Short total data size for this block
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BSize Long uncompressed ACL data size
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||
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CType Short compression type
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EACRC Long CRC value for uncompressed ACL data
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(var.) variable compressed ACL data
|
||
|
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|
Central-header version:
|
||
|
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||
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Value Size Description
|
||
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----- ---- -----------
|
||
|
(ACL) 0x4c41 Short tag for this extra block type
|
||
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TSize Short total data size for this block
|
||
|
BSize Long size of uncompressed local ACL data
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||
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|
The value of CType is interpreted according to the "compression
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|
method" section above; i.e., 0 for stored, 8 for deflated, etc.
|
||
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||
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The uncompressed ACL data consist of a text header of the form
|
||
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"ACL1:%hX,%hd\n", where the first field is the OS/2 ACCINFO acc_attr
|
||
|
member and the second is acc_count, followed by acc_count strings
|
||
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of the form "%s,%hx\n", where the first field is acl_ugname (user
|
||
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group name) and the second acl_access. This block type will be
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||
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extended for other operating systems as needed.
|
||
|
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||
|
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||
|
-Windows NT Security Descriptor Extra Field:
|
||
|
==========================================
|
||
|
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||
|
The following is the layout of the NT Security Descriptor (another
|
||
|
type of ACL) extra block. (Last Revision 960922)
|
||
|
|
||
|
Local-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(SD) 0x4453 Short tag for this extra block type
|
||
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TSize Short total data size for this block
|
||
|
BSize Long uncompressed SD data size
|
||
|
Version Byte version of uncompressed SD data format
|
||
|
CType Short compression type
|
||
|
EACRC Long CRC value for uncompressed SD data
|
||
|
(var.) variable compressed SD data
|
||
|
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||
|
Central-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(SD) 0x4453 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
BSize Long size of uncompressed local SD data
|
||
|
Version Byte version of uncompressed SD data format
|
||
|
|
||
|
The value of CType is interpreted according to the "compression
|
||
|
method" section above; i.e., 0 for stored, 8 for deflated, etc.
|
||
|
Version specifies how the compressed data are to be interpreted
|
||
|
and allows for future expansion of this extra field type. Currently
|
||
|
only version 0 is defined.
|
||
|
|
||
|
For version 0, the compressed data are to be interpreted as a single
|
||
|
valid Windows NT SECURITY_DESCRIPTOR data structure, in self-relative
|
||
|
format.
|
||
|
|
||
|
|
||
|
-PKWARE VAX/VMS Extra Field:
|
||
|
==========================
|
||
|
|
||
|
The following is the layout of PKWARE's VAX/VMS attributes "extra"
|
||
|
block. (Last Revision 12/17/91)
|
||
|
|
||
|
Note: all fields stored in Intel low-byte/high-byte order.
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(VMS) 0x000c Short Tag for this "extra" block type
|
||
|
TSize Short Total Data Size for this block
|
||
|
CRC Long 32-bit CRC for remainder of the block
|
||
|
Tag1 Short VMS attribute tag value #1
|
||
|
Size1 Short Size of attribute #1, in bytes
|
||
|
(var.) Size1 Attribute #1 data
|
||
|
.
|
||
|
.
|
||
|
.
|
||
|
TagN Short VMS attribute tage value #N
|
||
|
SizeN Short Size of attribute #N, in bytes
|
||
|
(var.) SizeN Attribute #N data
|
||
|
|
||
|
Rules:
|
||
|
|
||
|
1. There will be one or more of attributes present, which will
|
||
|
each be preceded by the above TagX & SizeX values. These
|
||
|
values are identical to the ATR$C_XXXX and ATR$S_XXXX constants
|
||
|
which are defined in ATR.H under VMS C. Neither of these values
|
||
|
will ever be zero.
|
||
|
|
||
|
2. No word alignment or padding is performed.
|
||
|
|
||
|
3. A well-behaved PKZIP/VMS program should never produce more than
|
||
|
one sub-block with the same TagX value. Also, there will never
|
||
|
be more than one "extra" block of type 0x000c in a particular
|
||
|
directory record.
|
||
|
|
||
|
|
||
|
-Info-ZIP VMS Extra Field:
|
||
|
========================
|
||
|
|
||
|
The following is the layout of Info-ZIP's VMS attributes extra
|
||
|
block for VAX or Alpha AXP. The local-header and central-header
|
||
|
versions are identical. (Last Revision 960922)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(VMS2) 0x4d49 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
ID Long block ID
|
||
|
Flags Short info bytes
|
||
|
BSize Short uncompressed block size
|
||
|
Reserved Long (reserved)
|
||
|
(var.) variable compressed VMS file-attributes block
|
||
|
|
||
|
The block ID is one of the following unterminated strings:
|
||
|
|
||
|
"VFAB" struct FAB
|
||
|
"VALL" struct XABALL
|
||
|
"VFHC" struct XABFHC
|
||
|
"VDAT" struct XABDAT
|
||
|
"VRDT" struct XABRDT
|
||
|
"VPRO" struct XABPRO
|
||
|
"VKEY" struct XABKEY
|
||
|
"VMSV" version (e.g., "V6.1"; truncated at hyphen)
|
||
|
"VNAM" reserved
|
||
|
|
||
|
The lower three bits of Flags indicate the compression method. The
|
||
|
currently defined methods are:
|
||
|
|
||
|
0 stored (not compressed)
|
||
|
1 simple "RLE"
|
||
|
2 deflated
|
||
|
|
||
|
The "RLE" method simply replaces zero-valued bytes with zero-valued
|
||
|
bits and non-zero-valued bytes with a "1" bit followed by the byte
|
||
|
value.
|
||
|
|
||
|
The variable-length compressed data contains only the data corre-
|
||
|
sponding to the indicated structure or string. Typically multiple
|
||
|
VMS2 extra fields are present (each with a unique block type).
|
||
|
|
||
|
|
||
|
-Info-ZIP Macintosh Extra Field:
|
||
|
==============================
|
||
|
|
||
|
The following is the layout of the (old) Info-ZIP resource-fork extra
|
||
|
block for Macintosh. The local-header and central-header versions
|
||
|
are identical. (Last Revision 960922)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Mac) 0x07c8 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
"JLEE" beLong extra-field signature
|
||
|
FInfo 16 bytes Macintosh FInfo structure
|
||
|
CrDat beLong HParamBlockRec fileParam.ioFlCrDat
|
||
|
MdDat beLong HParamBlockRec fileParam.ioFlMdDat
|
||
|
Flags beLong info bits
|
||
|
DirID beLong HParamBlockRec fileParam.ioDirID
|
||
|
VolName 28 bytes volume name (optional)
|
||
|
|
||
|
All fields but the first two are in native Macintosh format
|
||
|
(big-endian Motorola order, not little-endian Intel). The least
|
||
|
significant bit of Flags is 1 if the file is a data fork, 0 other-
|
||
|
wise. In addition, if this extra field is present, the filename
|
||
|
has an extra 'd' or 'r' appended to indicate data fork or resource
|
||
|
fork. The 28-byte VolName field may be omitted.
|
||
|
|
||
|
|
||
|
-ZipIt Macintosh Extra Field:
|
||
|
===========================
|
||
|
|
||
|
The following is the layout of the ZipIt extra block for Macintosh.
|
||
|
The local-header and central-header versions are identical.
|
||
|
(Last Revision 970130)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Mac2) 0x2605 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
"ZPIT" beLong extra-field signature
|
||
|
FnLen Byte length of FileName
|
||
|
FileName variable full Macintosh filename
|
||
|
FileType beLong four-byte Mac file type string
|
||
|
Creator beLong four-byte Mac creator string
|
||
|
|
||
|
|
||
|
-Acorn SparkFS Extra Field:
|
||
|
=========================
|
||
|
|
||
|
The following is the layout of David Pilling's SparkFS extra block
|
||
|
for Acorn RISC OS. The local-header and central-header versions are
|
||
|
identical. (Last Revision 960922)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Acorn) 0x4341 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
"ARC0" Long extra-field signature
|
||
|
LoadAddr Long load address or file type
|
||
|
ExecAddr Long exec address
|
||
|
Attr Long file permissions
|
||
|
Zero Long reserved; always zero
|
||
|
|
||
|
The following bits of Attr are associated with the given file
|
||
|
permissions:
|
||
|
|
||
|
bit 0 user-writable ('W')
|
||
|
bit 1 user-readable ('R')
|
||
|
bit 2 reserved
|
||
|
bit 3 locked ('L')
|
||
|
bit 4 publicly writable ('w')
|
||
|
bit 5 publicly readable ('r')
|
||
|
bit 6 reserved
|
||
|
bit 7 reserved
|
||
|
|
||
|
|
||
|
-VM/CMS Extra Field:
|
||
|
==================
|
||
|
|
||
|
The following is the layout of the file-attributes extra block for
|
||
|
VM/CMS. The local-header and central-header versions are
|
||
|
identical. (Last Revision 960922)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(VM/CMS) 0x4704 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
flData variable file attributes data
|
||
|
|
||
|
flData is an uncompressed fldata_t struct.
|
||
|
|
||
|
|
||
|
-MVS Extra Field:
|
||
|
===============
|
||
|
|
||
|
The following is the layout of the file-attributes extra block for
|
||
|
MVS. The local-header and central-header versions are identical.
|
||
|
(Last Revision 960922)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(MVS) 0x470f Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
flData variable file attributes data
|
||
|
|
||
|
flData is an uncompressed fldata_t struct.
|
||
|
|
||
|
|
||
|
-Extended Timestamp Extra Field:
|
||
|
==============================
|
||
|
|
||
|
The following is the layout of the extended-timestamp extra block.
|
||
|
(Last Revision 970118)
|
||
|
|
||
|
Local-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(time) 0x5455 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
Flags Byte info bits
|
||
|
(ModTime) Long time of last modification (UTC/GMT)
|
||
|
(AcTime) Long time of last access (UTC/GMT)
|
||
|
(CrTime) Long time of original creation (UTC/GMT)
|
||
|
|
||
|
Central-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(time) 0x5455 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
Flags Byte info bits (refers to local header!)
|
||
|
(ModTime) Long time of last modification (UTC/GMT)
|
||
|
|
||
|
The central-header extra field contains the modification time only,
|
||
|
or no timestamp at all. TSize is used to flag its presence or
|
||
|
absence. But note:
|
||
|
|
||
|
If "Flags" indicates that Modtime is present in the local header
|
||
|
field, it MUST be present in the central header field, too!
|
||
|
This correspondence is required because the modification time
|
||
|
value may be used to support trans-timezone freshening and
|
||
|
updating operations with zip archives.
|
||
|
|
||
|
The time values are in standard Unix signed-long format, indicating
|
||
|
the number of seconds since 1 January 1970 00:00:00. The times
|
||
|
are relative to Coordinated Universal Time (UTC), also sometimes
|
||
|
referred to as Greenwich Mean Time (GMT). To convert to local time,
|
||
|
the software must know the local timezone offset from UTC/GMT.
|
||
|
|
||
|
The lower three bits of Flags in both headers indicate which time-
|
||
|
stamps are present in the LOCAL extra field:
|
||
|
|
||
|
bit 0 if set, modification time is present
|
||
|
bit 1 if set, access time is present
|
||
|
bit 2 if set, creation time is present
|
||
|
bits 3-7 reserved for additional timestamps; not set
|
||
|
|
||
|
Those times that are present will appear in the order indicated, but
|
||
|
any combination of times may be omitted. (Creation time may be
|
||
|
present without access time, for example.) TSize should equal
|
||
|
(1 + 4*(number of set bits in Flags)), as the block is currently
|
||
|
defined. Other timestamps may be added in the future.
|
||
|
|
||
|
|
||
|
-Info-ZIP Unix Extra Field (type 1):
|
||
|
==================================
|
||
|
|
||
|
The following is the layout of the old Info-ZIP extra block for
|
||
|
Unix. It has been replaced by the extended-timestamp extra block
|
||
|
(0x5455) and the Unix type 2 extra block (0x7855).
|
||
|
(Last Revision 970118)
|
||
|
|
||
|
Local-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Unix1) 0x5855 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
ModTime Long time of last modification (UTC/GMT)
|
||
|
AcTime Long time of last access (UTC/GMT)
|
||
|
UID Short Unix user ID
|
||
|
GID Short Unix group ID
|
||
|
|
||
|
Central-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Unix1) 0x5855 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
ModTime Long time of last modification (GMT/UTC)
|
||
|
AcTime Long time of last access (GMT/UTC)
|
||
|
|
||
|
The file modification and access times are in standard Unix signed-
|
||
|
long format, indicating the number of seconds since 1 January 1970
|
||
|
00:00:00. The times are relative to Coordinated Universal Time
|
||
|
(UTC), also sometimes referred to as Greenwich Mean Time (GMT). To
|
||
|
convert to local time, the software must know the local timezone
|
||
|
offset from UTC/GMT. The modification time may be used by non-Unix
|
||
|
systems to support inter-timezone freshening and updating of zip
|
||
|
archives.
|
||
|
|
||
|
The local-header extra block may optionally contain UID and GID
|
||
|
info for the file. The local-header TSize value is the only
|
||
|
indication of this. Note that Unix UIDs and GIDs are usually
|
||
|
specific to a particular machine, and they generally require root
|
||
|
access to restore.
|
||
|
|
||
|
This extra field type is obsolete, but it has been in use since
|
||
|
mid-1994. Therefore future archiving software should continue to
|
||
|
support it. Some guidelines:
|
||
|
|
||
|
An archive member should either contain the old "Unix1"
|
||
|
extra field block or the new extra field types "time" and/or
|
||
|
"Unix2".
|
||
|
|
||
|
If both the old "Unix1" block type and one or both of the new
|
||
|
block types "time" and "Unix2" are found, the "Unix1" block
|
||
|
should be considered invalid and ignored.
|
||
|
|
||
|
Unarchiving software should recognize both old and new extra
|
||
|
field block types, but the info from new types overrides the
|
||
|
old "Unix1" field.
|
||
|
|
||
|
Archiving software should recognize "Unix1" extra fields for
|
||
|
timestamp comparison but never create it for updated, freshened
|
||
|
or new archive members. When copying existing members to a new
|
||
|
archive, any "Unix1" extra field blocks should be converted to
|
||
|
the new "time" and/or "Unix2" types.
|
||
|
|
||
|
|
||
|
-Info-ZIP Unix Extra Field (type 2):
|
||
|
==================================
|
||
|
|
||
|
The following is the layout of the new Info-ZIP extra block for
|
||
|
Unix. (Last Revision 960922)
|
||
|
|
||
|
Local-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Unix2) 0x7855 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
UID Short Unix user ID
|
||
|
GID Short Unix group ID
|
||
|
|
||
|
Central-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Unix2) 0x7855 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
|
||
|
The data size of the central-header version is zero; it is used
|
||
|
solely as a flag that UID/GID info is present in the local-header
|
||
|
extra field. If additional fields are ever added to the local
|
||
|
version, the central version may be extended to indicate this.
|
||
|
|
||
|
Note that Unix UIDs and GIDs are usually specific to a particular
|
||
|
machine, and they generally require root access to restore.
|
||
|
|
||
|
|
||
|
-ASi Unix Extra Field:
|
||
|
====================
|
||
|
|
||
|
The following is the layout of the ASi extra block for Unix. The
|
||
|
local-header and central-header versions are identical.
|
||
|
(Last Revision 960916)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(Unix3) 0x756e Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
CRC Long CRC-32 of the remaining data
|
||
|
Mode Short file permissions
|
||
|
SizDev Long symlink'd size OR major/minor dev num
|
||
|
UID Short user ID
|
||
|
GID Short group ID
|
||
|
(var.) variable symbolic link filename
|
||
|
|
||
|
Mode is the standard Unix st_mode field from struct stat, containing
|
||
|
user/group/other permissions, setuid/setgid and symlink info, etc.
|
||
|
|
||
|
If Mode indicates that this file is a symbolic link, SizDev is the
|
||
|
size of the file to which the link points. Otherwise, if the file
|
||
|
is a device, SizDev contains the standard Unix st_rdev field from
|
||
|
struct stat (includes the major and minor numbers of the device).
|
||
|
SizDev is undefined in other cases.
|
||
|
|
||
|
If Mode indicates that the file is a symbolic link, the final field
|
||
|
will be the name of the file to which the link points. The file-
|
||
|
name length can be inferred from TSize.
|
||
|
|
||
|
[Note that TSize may incorrectly refer to the data size not counting
|
||
|
the CRC; i.e., it may be four bytes too small.]
|
||
|
|
||
|
|
||
|
-BeOS Extra Field:
|
||
|
================
|
||
|
|
||
|
The following is the layout of the file-attributes extra block for
|
||
|
BeOS. (Last Revision 970311)
|
||
|
|
||
|
Local-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(BeOS) 0x6542 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
Type Long file type
|
||
|
Creator Long file creator
|
||
|
|
||
|
Type and Creator are "longtext" in native BeOS code (that is, un-
|
||
|
signed longs that are typically readable as 4-byte text strings).
|
||
|
This will change during the filesystem rewrite for BeOS DR9 (expected
|
||
|
in spring 1997), probably as follows:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(BeOS) 0x6542 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
BSize Long uncompressed file attribute data size
|
||
|
CType Short compression type
|
||
|
CRC Long CRC value for uncompressed file attribs
|
||
|
Attribs variable compressed file attribute data
|
||
|
|
||
|
The local extra block is similar to OS/2's since OS/2 EAs are similar
|
||
|
to the file attributes planned for BeOS 1.1DR9, but the implementation
|
||
|
will be different.
|
||
|
|
||
|
Central-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(BeOS) 0x6542 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
BSize Long size of local EF block data
|
||
|
|
||
|
|
||
|
-SMS/QDOS Extra Field:
|
||
|
====================
|
||
|
|
||
|
The following is the layout of the file-attributes extra block for
|
||
|
SMS/QDOS. The local-header and central-header versions are identical.
|
||
|
(Last Revision 960929)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(QDOS) 0xfb4a Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
LongID Long extra-field signature
|
||
|
(ExtraID) Long additional signature/flag bytes
|
||
|
QDirect 64 bytes qdirect structure
|
||
|
|
||
|
LongID may be "QZHD" or "QDOS". In the latter case, ExtraID will
|
||
|
be present. Its first three bytes are "02\0"; the last byte is
|
||
|
currently undefined.
|
||
|
|
||
|
QDirect contains the file's uncompressed directory info (qdirect
|
||
|
struct). Its elements are in native (big-endian) format:
|
||
|
|
||
|
d_length beLong file length
|
||
|
d_access byte file access type
|
||
|
d_type byte file type
|
||
|
d_datalen beLong data length
|
||
|
d_reserved beLong unused
|
||
|
d_szname beShort size of filename
|
||
|
d_name 36 bytes filename
|
||
|
d_update beLong time of last update
|
||
|
d_refdate beLong file version number
|
||
|
d_backup beLong time of last backup (archive date)
|
||
|
|
||
|
|
||
|
-AOS/VS Extra Field:
|
||
|
==================
|
||
|
|
||
|
The following is the layout of the extra block for Data General
|
||
|
AOS/VS. The local-header and central-header versions are identical.
|
||
|
(Last Revision 961125)
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(AOSVS) 0x5356 Short tag for this extra block type
|
||
|
TSize Short total data size for this block
|
||
|
"FCI\0" Long extra-field signature
|
||
|
Version Byte version of AOS/VS extra block (10 = 1.0)
|
||
|
Fstat variable fstat packet
|
||
|
AclBuf variable raw ACL data ($MXACL bytes)
|
||
|
|
||
|
Fstat contains the file's uncompressed fstat packet, which is one of
|
||
|
the following:
|
||
|
|
||
|
normal fstat packet (P_FSTAT struct)
|
||
|
DIR/CPD fstat packet (P_FSTAT_DIR struct)
|
||
|
unit (device) fstat packet (P_FSTAT_UNIT struct)
|
||
|
IPC file fstat packet (P_FSTAT_IPC struct)
|
||
|
|
||
|
AclBuf contains the raw ACL data; its length is $MXACL.
|
||
|
|
||
|
|
||
|
-FWKCS MD5 Extra Field:
|
||
|
=====================
|
||
|
|
||
|
The following is the layout of the optional extra block used by the
|
||
|
FWKCS utility. There is no local-header version; the following
|
||
|
applies only to the central header. (Last Revision 961207)
|
||
|
|
||
|
Central-header version:
|
||
|
|
||
|
Value Size Description
|
||
|
----- ---- -----------
|
||
|
(MD5) 0x4b46 Short tag for this extra block type
|
||
|
TSize Short total data size for this block (19)
|
||
|
"MD5" 3 bytes extra-field signature
|
||
|
MD5hash 16 bytes 128-bit MD5 hash of uncompressed data
|
||
|
|
||
|
The MD5 hash in this extra block is used to automatically identify
|
||
|
files independent of their filenames; it is an an enhanced contents-
|
||
|
signature. Adding or removing this block should preserve the PKWARE
|
||
|
AV (Authenticity Verification) signature.
|
||
|
|
||
|
``The MD5 algorithm is being placed in the public domain for review
|
||
|
and possible adoption as a standard.'' (Ron Rivest, MIT Laboratory
|
||
|
for Computer Science and RSA Data Security, Inc., April 1992, RFC
|
||
|
1321, 11.76-77). FWKCS is a trademark of Frederick W. Kantor.
|
||
|
|
||
|
|
||
|
|
||
|
file comment: (Variable)
|
||
|
|
||
|
The comment for this file.
|
||
|
|
||
|
number of this disk: (2 bytes)
|
||
|
|
||
|
The number of this disk, which contains central
|
||
|
directory end record.
|
||
|
|
||
|
number of the disk with the start of the central directory: (2 bytes)
|
||
|
|
||
|
The number of the disk on which the central
|
||
|
directory starts.
|
||
|
|
||
|
total number of entries in the central dir on this disk: (2 bytes)
|
||
|
|
||
|
The number of central directory entries on this disk.
|
||
|
|
||
|
total number of entries in the central dir: (2 bytes)
|
||
|
|
||
|
The total number of files in the zipfile.
|
||
|
|
||
|
|
||
|
size of the central directory: (4 bytes)
|
||
|
|
||
|
The size (in bytes) of the entire central directory.
|
||
|
|
||
|
offset of start of central directory with respect to
|
||
|
the starting disk number: (4 bytes)
|
||
|
|
||
|
Offset of the start of the central direcory on the
|
||
|
disk on which the central directory starts.
|
||
|
|
||
|
zipfile comment length: (2 bytes)
|
||
|
|
||
|
The length of the comment for this zipfile.
|
||
|
|
||
|
zipfile comment: (Variable)
|
||
|
|
||
|
The comment for this zipfile.
|
||
|
|
||
|
|
||
|
D. General notes:
|
||
|
|
||
|
1) All fields unless otherwise noted are unsigned and stored
|
||
|
in Intel low-byte:high-byte, low-word:high-word order.
|
||
|
|
||
|
2) String fields are not null terminated, since the
|
||
|
length is given explicitly.
|
||
|
|
||
|
3) Local headers should not span disk boundries. Also, even
|
||
|
though the central directory can span disk boundries, no
|
||
|
single record in the central directory should be split
|
||
|
across disks.
|
||
|
|
||
|
4) The entries in the central directory may not necessarily
|
||
|
be in the same order that files appear in the zipfile.
|
||
|
|
||
|
UnShrinking - Method 1
|
||
|
----------------------
|
||
|
|
||
|
Shrinking is a Dynamic Ziv-Lempel-Welch compression algorithm
|
||
|
with partial clearing. The initial code size is 9 bits, and
|
||
|
the maximum code size is 13 bits. Shrinking differs from
|
||
|
conventional Dynamic Ziv-Lempel-Welch implementations in several
|
||
|
respects:
|
||
|
|
||
|
1) The code size is controlled by the compressor, and is not
|
||
|
automatically increased when codes larger than the current
|
||
|
code size are created (but not necessarily used). When
|
||
|
the decompressor encounters the code sequence 256
|
||
|
(decimal) followed by 1, it should increase the code size
|
||
|
read from the input stream to the next bit size. No
|
||
|
blocking of the codes is performed, so the next code at
|
||
|
the increased size should be read from the input stream
|
||
|
immediately after where the previous code at the smaller
|
||
|
bit size was read. Again, the decompressor should not
|
||
|
increase the code size used until the sequence 256,1 is
|
||
|
encountered.
|
||
|
|
||
|
2) When the table becomes full, total clearing is not
|
||
|
performed. Rather, when the compresser emits the code
|
||
|
sequence 256,2 (decimal), the decompressor should clear
|
||
|
all leaf nodes from the Ziv-Lempel tree, and continue to
|
||
|
use the current code size. The nodes that are cleared
|
||
|
from the Ziv-Lempel tree are then re-used, with the lowest
|
||
|
code value re-used first, and the highest code value
|
||
|
re-used last. The compressor can emit the sequence 256,2
|
||
|
at any time.
|
||
|
|
||
|
|
||
|
|
||
|
Expanding - Methods 2-5
|
||
|
-----------------------
|
||
|
|
||
|
The Reducing algorithm is actually a combination of two
|
||
|
distinct algorithms. The first algorithm compresses repeated
|
||
|
byte sequences, and the second algorithm takes the compressed
|
||
|
stream from the first algorithm and applies a probabilistic
|
||
|
compression method.
|
||
|
|
||
|
The probabilistic compression stores an array of 'follower
|
||
|
sets' S(j), for j=0 to 255, corresponding to each possible
|
||
|
ASCII character. Each set contains between 0 and 32
|
||
|
characters, to be denoted as S(j)[0],...,S(j)[m], where m<32.
|
||
|
The sets are stored at the beginning of the data area for a
|
||
|
Reduced file, in reverse order, with S(255) first, and S(0)
|
||
|
last.
|
||
|
|
||
|
The sets are encoded as { N(j), S(j)[0],...,S(j)[N(j)-1] },
|
||
|
where N(j) is the size of set S(j). N(j) can be 0, in which
|
||
|
case the follower set for S(j) is empty. Each N(j) value is
|
||
|
encoded in 6 bits, followed by N(j) eight bit character values
|
||
|
corresponding to S(j)[0] to S(j)[N(j)-1] respectively. If
|
||
|
N(j) is 0, then no values for S(j) are stored, and the value
|
||
|
for N(j-1) immediately follows.
|
||
|
|
||
|
Immediately after the follower sets, is the compressed data
|
||
|
stream. The compressed data stream can be interpreted for the
|
||
|
probabilistic decompression as follows:
|
||
|
|
||
|
|
||
|
let Last-Character <- 0.
|
||
|
loop until done
|
||
|
if the follower set S(Last-Character) is empty then
|
||
|
read 8 bits from the input stream, and copy this
|
||
|
value to the output stream.
|
||
|
otherwise if the follower set S(Last-Character) is non-empty then
|
||
|
read 1 bit from the input stream.
|
||
|
if this bit is not zero then
|
||
|
read 8 bits from the input stream, and copy this
|
||
|
value to the output stream.
|
||
|
otherwise if this bit is zero then
|
||
|
read B(N(Last-Character)) bits from the input
|
||
|
stream, and assign this value to I.
|
||
|
Copy the value of S(Last-Character)[I] to the
|
||
|
output stream.
|
||
|
|
||
|
assign the last value placed on the output stream to
|
||
|
Last-Character.
|
||
|
end loop
|
||
|
|
||
|
|
||
|
B(N(j)) is defined as the minimal number of bits required to
|
||
|
encode the value N(j)-1.
|
||
|
|
||
|
|
||
|
The decompressed stream from above can then be expanded to
|
||
|
re-create the original file as follows:
|
||
|
|
||
|
|
||
|
let State <- 0.
|
||
|
|
||
|
loop until done
|
||
|
read 8 bits from the input stream into C.
|
||
|
case State of
|
||
|
0: if C is not equal to DLE (144 decimal) then
|
||
|
copy C to the output stream.
|
||
|
otherwise if C is equal to DLE then
|
||
|
let State <- 1.
|
||
|
|
||
|
1: if C is non-zero then
|
||
|
let V <- C.
|
||
|
let Len <- L(V)
|
||
|
let State <- F(Len).
|
||
|
otherwise if C is zero then
|
||
|
copy the value 144 (decimal) to the output stream.
|
||
|
let State <- 0
|
||
|
|
||
|
2: let Len <- Len + C
|
||
|
let State <- 3.
|
||
|
|
||
|
3: move backwards D(V,C) bytes in the output stream
|
||
|
(if this position is before the start of the output
|
||
|
stream, then assume that all the data before the
|
||
|
start of the output stream is filled with zeros).
|
||
|
copy Len+3 bytes from this position to the output stream.
|
||
|
let State <- 0.
|
||
|
end case
|
||
|
end loop
|
||
|
|
||
|
|
||
|
The functions F,L, and D are dependent on the 'compression
|
||
|
factor', 1 through 4, and are defined as follows:
|
||
|
|
||
|
For compression factor 1:
|
||
|
L(X) equals the lower 7 bits of X.
|
||
|
F(X) equals 2 if X equals 127 otherwise F(X) equals 3.
|
||
|
D(X,Y) equals the (upper 1 bit of X) * 256 + Y + 1.
|
||
|
For compression factor 2:
|
||
|
L(X) equals the lower 6 bits of X.
|
||
|
F(X) equals 2 if X equals 63 otherwise F(X) equals 3.
|
||
|
D(X,Y) equals the (upper 2 bits of X) * 256 + Y + 1.
|
||
|
For compression factor 3:
|
||
|
L(X) equals the lower 5 bits of X.
|
||
|
F(X) equals 2 if X equals 31 otherwise F(X) equals 3.
|
||
|
D(X,Y) equals the (upper 3 bits of X) * 256 + Y + 1.
|
||
|
For compression factor 4:
|
||
|
L(X) equals the lower 4 bits of X.
|
||
|
F(X) equals 2 if X equals 15 otherwise F(X) equals 3.
|
||
|
D(X,Y) equals the (upper 4 bits of X) * 256 + Y + 1.
|
||
|
|
||
|
|
||
|
Imploding - Method 6
|
||
|
--------------------
|
||
|
|
||
|
The Imploding algorithm is actually a combination of two distinct
|
||
|
algorithms. The first algorithm compresses repeated byte
|
||
|
sequences using a sliding dictionary. The second algorithm is
|
||
|
used to compress the encoding of the sliding dictionary ouput,
|
||
|
using multiple Shannon-Fano trees.
|
||
|
|
||
|
The Imploding algorithm can use a 4K or 8K sliding dictionary
|
||
|
size. The dictionary size used can be determined by bit 1 in the
|
||
|
general purpose flag word; a 0 bit indicates a 4K dictionary
|
||
|
while a 1 bit indicates an 8K dictionary.
|
||
|
|
||
|
The Shannon-Fano trees are stored at the start of the compressed
|
||
|
file. The number of trees stored is defined by bit 2 in the
|
||
|
general purpose flag word; a 0 bit indicates two trees stored, a
|
||
|
1 bit indicates three trees are stored. If 3 trees are stored,
|
||
|
the first Shannon-Fano tree represents the encoding of the
|
||
|
Literal characters, the second tree represents the encoding of
|
||
|
the Length information, the third represents the encoding of the
|
||
|
Distance information. When 2 Shannon-Fano trees are stored, the
|
||
|
Length tree is stored first, followed by the Distance tree.
|
||
|
|
||
|
The Literal Shannon-Fano tree, if present is used to represent
|
||
|
the entire ASCII character set, and contains 256 values. This
|
||
|
tree is used to compress any data not compressed by the sliding
|
||
|
dictionary algorithm. When this tree is present, the Minimum
|
||
|
Match Length for the sliding dictionary is 3. If this tree is
|
||
|
not present, the Minimum Match Length is 2.
|
||
|
|
||
|
The Length Shannon-Fano tree is used to compress the Length part
|
||
|
of the (length,distance) pairs from the sliding dictionary
|
||
|
output. The Length tree contains 64 values, ranging from the
|
||
|
Minimum Match Length, to 63 plus the Minimum Match Length.
|
||
|
|
||
|
The Distance Shannon-Fano tree is used to compress the Distance
|
||
|
part of the (length,distance) pairs from the sliding dictionary
|
||
|
output. The Distance tree contains 64 values, ranging from 0 to
|
||
|
63, representing the upper 6 bits of the distance value. The
|
||
|
distance values themselves will be between 0 and the sliding
|
||
|
dictionary size, either 4K or 8K.
|
||
|
|
||
|
The Shannon-Fano trees themselves are stored in a compressed
|
||
|
format. The first byte of the tree data represents the number of
|
||
|
bytes of data representing the (compressed) Shannon-Fano tree
|
||
|
minus 1. The remaining bytes represent the Shannon-Fano tree
|
||
|
data encoded as:
|
||
|
|
||
|
High 4 bits: Number of values at this bit length + 1. (1 - 16)
|
||
|
Low 4 bits: Bit Length needed to represent value + 1. (1 - 16)
|
||
|
|
||
|
The Shannon-Fano codes can be constructed from the bit lengths
|
||
|
using the following algorithm:
|
||
|
|
||
|
1) Sort the Bit Lengths in ascending order, while retaining the
|
||
|
order of the original lengths stored in the file.
|
||
|
|
||
|
2) Generate the Shannon-Fano trees:
|
||
|
|
||
|
Code <- 0
|
||
|
CodeIncrement <- 0
|
||
|
LastBitLength <- 0
|
||
|
i <- number of Shannon-Fano codes - 1 (either 255 or 63)
|
||
|
|
||
|
loop while i >= 0
|
||
|
Code = Code + CodeIncrement
|
||
|
if BitLength(i) <> LastBitLength then
|
||
|
LastBitLength=BitLength(i)
|
||
|
CodeIncrement = 1 shifted left (16 - LastBitLength)
|
||
|
ShannonCode(i) = Code
|
||
|
i <- i - 1
|
||
|
end loop
|
||
|
|
||
|
|
||
|
3) Reverse the order of all the bits in the above ShannonCode()
|
||
|
vector, so that the most significant bit becomes the least
|
||
|
significant bit. For example, the value 0x1234 (hex) would
|
||
|
become 0x2C48 (hex).
|
||
|
|
||
|
4) Restore the order of Shannon-Fano codes as originally stored
|
||
|
within the file.
|
||
|
|
||
|
Example:
|
||
|
|
||
|
This example will show the encoding of a Shannon-Fano tree
|
||
|
of size 8. Notice that the actual Shannon-Fano trees used
|
||
|
for Imploding are either 64 or 256 entries in size.
|
||
|
|
||
|
Example: 0x02, 0x42, 0x01, 0x13
|
||
|
|
||
|
The first byte indicates 3 values in this table. Decoding the
|
||
|
bytes:
|
||
|
0x42 = 5 codes of 3 bits long
|
||
|
0x01 = 1 code of 2 bits long
|
||
|
0x13 = 2 codes of 4 bits long
|
||
|
|
||
|
This would generate the original bit length array of:
|
||
|
(3, 3, 3, 3, 3, 2, 4, 4)
|
||
|
|
||
|
There are 8 codes in this table for the values 0 thru 7. Using the
|
||
|
algorithm to obtain the Shannon-Fano codes produces:
|
||
|
|
||
|
Reversed Order Original
|
||
|
Val Sorted Constructed Code Value Restored Length
|
||
|
--- ------ ----------------- -------- -------- ------
|
||
|
0: 2 1100000000000000 11 101 3
|
||
|
1: 3 1010000000000000 101 001 3
|
||
|
2: 3 1000000000000000 001 110 3
|
||
|
3: 3 0110000000000000 110 010 3
|
||
|
4: 3 0100000000000000 010 100 3
|
||
|
5: 3 0010000000000000 100 11 2
|
||
|
6: 4 0001000000000000 1000 1000 4
|
||
|
7: 4 0000000000000000 0000 0000 4
|
||
|
|
||
|
|
||
|
The values in the Val, Order Restored and Original Length columns
|
||
|
now represent the Shannon-Fano encoding tree that can be used for
|
||
|
decoding the Shannon-Fano encoded data. How to parse the
|
||
|
variable length Shannon-Fano values from the data stream is beyond the
|
||
|
scope of this document. (See the references listed at the end of
|
||
|
this document for more information.) However, traditional decoding
|
||
|
schemes used for Huffman variable length decoding, such as the
|
||
|
Greenlaw algorithm, can be succesfully applied.
|
||
|
|
||
|
The compressed data stream begins immediately after the
|
||
|
compressed Shannon-Fano data. The compressed data stream can be
|
||
|
interpreted as follows:
|
||
|
|
||
|
loop until done
|
||
|
read 1 bit from input stream.
|
||
|
|
||
|
if this bit is non-zero then (encoded data is literal data)
|
||
|
if Literal Shannon-Fano tree is present
|
||
|
read and decode character using Literal Shannon-Fano tree.
|
||
|
otherwise
|
||
|
read 8 bits from input stream.
|
||
|
copy character to the output stream.
|
||
|
otherwise (encoded data is sliding dictionary match)
|
||
|
if 8K dictionary size
|
||
|
read 7 bits for offset Distance (lower 7 bits of offset).
|
||
|
otherwise
|
||
|
read 6 bits for offset Distance (lower 6 bits of offset).
|
||
|
|
||
|
using the Distance Shannon-Fano tree, read and decode the
|
||
|
upper 6 bits of the Distance value.
|
||
|
|
||
|
using the Length Shannon-Fano tree, read and decode
|
||
|
the Length value.
|
||
|
|
||
|
Length <- Length + Minimum Match Length
|
||
|
|
||
|
if Length = 63 + Minimum Match Length
|
||
|
read 8 bits from the input stream,
|
||
|
add this value to Length.
|
||
|
|
||
|
move backwards Distance+1 bytes in the output stream, and
|
||
|
copy Length characters from this position to the output
|
||
|
stream. (if this position is before the start of the output
|
||
|
stream, then assume that all the data before the start of
|
||
|
the output stream is filled with zeros).
|
||
|
end loop
|
||
|
|
||
|
Tokenizing - Method 7
|
||
|
--------------------
|
||
|
|
||
|
This method is not used by PKZIP.
|
||
|
|
||
|
Deflating - Method 8
|
||
|
-----------------
|
||
|
|
||
|
The Deflate algorithm is similar to the Implode algorithm using
|
||
|
a sliding dictionary of up to 32K with secondary compression
|
||
|
from Huffman/Shannon-Fano codes.
|
||
|
|
||
|
The compressed data is stored in blocks with a header describing
|
||
|
the block and the Huffman codes used in the data block. The header
|
||
|
format is as follows:
|
||
|
|
||
|
Bit 0: Last Block bit This bit is set to 1 if this is the last
|
||
|
compressed block in the data.
|
||
|
Bits 1-2: Block type
|
||
|
00 (0) - Block is stored - All stored data is byte aligned.
|
||
|
Skip bits until next byte, then next word = block length,
|
||
|
followed by the ones compliment of the block length word.
|
||
|
Remaining data in block is the stored data.
|
||
|
|
||
|
01 (1) - Use fixed Huffman codes for literal and distance codes.
|
||
|
Lit Code Bits Dist Code Bits
|
||
|
--------- ---- --------- ----
|
||
|
0 - 143 8 0 - 31 5
|
||
|
144 - 255 9
|
||
|
256 - 279 7
|
||
|
280 - 287 8
|
||
|
|
||
|
Literal codes 286-287 and distance codes 30-31 are never
|
||
|
used but participate in the huffman construction.
|
||
|
|
||
|
10 (2) - Dynamic Huffman codes. (See expanding Huffman codes)
|
||
|
|
||
|
11 (3) - Reserved - Flag a "Error in compressed data" if seen.
|
||
|
|
||
|
Expanding Huffman Codes
|
||
|
-----------------------
|
||
|
If the data block is stored with dynamic Huffman codes, the Huffman
|
||
|
codes are sent in the following compressed format:
|
||
|
|
||
|
5 Bits: # of Literal codes sent - 257 (257 - 286)
|
||
|
All other codes are never sent.
|
||
|
5 Bits: # of Dist codes - 1 (1 - 32)
|
||
|
4 Bits: # of Bit Length codes - 4 (4 - 19)
|
||
|
|
||
|
The Huffman codes are sent as bit lengths and the codes are built as
|
||
|
described in the implode algorithm. The bit lengths themselves are
|
||
|
compressed with Huffman codes. There are 19 bit length codes:
|
||
|
|
||
|
0 - 15: Represent bit lengths of 0 - 15
|
||
|
16: Copy the previous bit length 3 - 6 times.
|
||
|
The next 2 bits indicate repeat length (0 = 3, ... ,3 = 6)
|
||
|
Example: Codes 8, 16 (+2 bits 11), 16 (+2 bits 10) will
|
||
|
expand to 12 bit lengths of 8 (1 + 6 + 5)
|
||
|
17: Repeat a bit length of 0 for 3 - 10 times. (3 bits of length)
|
||
|
18: Repeat a bit length of 0 for 11 - 138 times (7 bits of length)
|
||
|
|
||
|
The lengths of the bit length codes are sent packed 3 bits per value
|
||
|
(0 - 7) in the following order:
|
||
|
|
||
|
16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15
|
||
|
|
||
|
The Huffman codes should be built as described in the Implode algorithm
|
||
|
except codes are assigned starting at the shortest bit length, i.e. the
|
||
|
shortest code should be all 0's rather than all 1's. Also, codes with
|
||
|
a bit length of zero do not participate in the tree construction. The
|
||
|
codes are then used to decode the bit lengths for the literal and distance
|
||
|
tables.
|
||
|
|
||
|
The bit lengths for the literal tables are sent first with the number
|
||
|
of entries sent described by the 5 bits sent earlier. There are up
|
||
|
to 286 literal characters; the first 256 represent the respective 8
|
||
|
bit character, code 256 represents the End-Of-Block code, the remaining
|
||
|
29 codes represent copy lengths of 3 thru 258. There are up to 30
|
||
|
distance codes representing distances from 1 thru 32k as described
|
||
|
below.
|
||
|
|
||
|
Length Codes
|
||
|
------------
|
||
|
Extra Extra Extra Extra
|
||
|
Code Bits Length Code Bits Lengths Code Bits Lengths Code Bits Length(s)
|
||
|
---- ---- ------ ---- ---- ------- ---- ---- ------- ---- ---- ---------
|
||
|
257 0 3 265 1 11,12 273 3 35-42 281 5 131-162
|
||
|
258 0 4 266 1 13,14 274 3 43-50 282 5 163-194
|
||
|
259 0 5 267 1 15,16 275 3 51-58 283 5 195-226
|
||
|
260 0 6 268 1 17,18 276 3 59-66 284 5 227-257
|
||
|
261 0 7 269 2 19-22 277 4 67-82 285 0 258
|
||
|
262 0 8 270 2 23-26 278 4 83-98
|
||
|
263 0 9 271 2 27-30 279 4 99-114
|
||
|
264 0 10 272 2 31-34 280 4 115-130
|
||
|
|
||
|
Distance Codes
|
||
|
--------------
|
||
|
Extra Extra Extra Extra
|
||
|
Code Bits Dist Code Bits Dist Code Bits Distance Code Bits Distance
|
||
|
---- ---- ---- ---- ---- ------ ---- ---- -------- ---- ---- --------
|
||
|
0 0 1 8 3 17-24 16 7 257-384 24 11 4097-6144
|
||
|
1 0 2 9 3 25-32 17 7 385-512 25 11 6145-8192
|
||
|
2 0 3 10 4 33-48 18 8 513-768 26 12 8193-12288
|
||
|
3 0 4 11 4 49-64 19 8 769-1024 27 12 12289-16384
|
||
|
4 1 5,6 12 5 65-96 20 9 1025-1536 28 13 16385-24576
|
||
|
5 1 7,8 13 5 97-128 21 9 1537-2048 29 13 24577-32768
|
||
|
6 2 9-12 14 6 129-192 22 10 2049-3072
|
||
|
7 2 13-16 15 6 193-256 23 10 3073-4096
|
||
|
|
||
|
The compressed data stream begins immediately after the
|
||
|
compressed header data. The compressed data stream can be
|
||
|
interpreted as follows:
|
||
|
|
||
|
do
|
||
|
read header from input stream.
|
||
|
|
||
|
if stored block
|
||
|
skip bits until byte aligned
|
||
|
read count and 1's compliment of count
|
||
|
copy count bytes data block
|
||
|
otherwise
|
||
|
loop until end of block code sent
|
||
|
decode literal character from input stream
|
||
|
if literal < 256
|
||
|
copy character to the output stream
|
||
|
otherwise
|
||
|
if literal = end of block
|
||
|
break from loop
|
||
|
otherwise
|
||
|
decode distance from input stream
|
||
|
|
||
|
move backwards distance bytes in the output stream, and
|
||
|
copy length characters from this position to the output
|
||
|
stream.
|
||
|
end loop
|
||
|
while not last block
|
||
|
|
||
|
if data descriptor exists
|
||
|
skip bits until byte aligned
|
||
|
read crc and sizes
|
||
|
endif
|
||
|
|
||
|
Decryption
|
||
|
----------
|
||
|
|
||
|
The encryption used in PKZIP was generously supplied by Roger
|
||
|
Schlafly. PKWARE is grateful to Mr. Schlafly for his expert
|
||
|
help and advice in the field of data encryption.
|
||
|
|
||
|
PKZIP encrypts the compressed data stream. Encrypted files must
|
||
|
be decrypted before they can be extracted.
|
||
|
|
||
|
Each encrypted file has an extra 12 bytes stored at the start of
|
||
|
the data area defining the encryption header for that file. The
|
||
|
encryption header is originally set to random values, and then
|
||
|
itself encrypted, using three, 32-bit keys. The key values are
|
||
|
initialized using the supplied encryption password. After each byte
|
||
|
is encrypted, the keys are then updated using pseudo-random number
|
||
|
generation techniques in combination with the same CRC-32 algorithm
|
||
|
used in PKZIP and described elsewhere in this document.
|
||
|
|
||
|
The following is the basic steps required to decrypt a file:
|
||
|
|
||
|
1) Initialize the three 32-bit keys with the password.
|
||
|
2) Read and decrypt the 12-byte encryption header, further
|
||
|
initializing the encryption keys.
|
||
|
3) Read and decrypt the compressed data stream using the
|
||
|
encryption keys.
|
||
|
|
||
|
|
||
|
Step 1 - Initializing the encryption keys
|
||
|
-----------------------------------------
|
||
|
|
||
|
Key(0) <- 305419896
|
||
|
Key(1) <- 591751049
|
||
|
Key(2) <- 878082192
|
||
|
|
||
|
loop for i <- 0 to length(password)-1
|
||
|
update_keys(password(i))
|
||
|
end loop
|
||
|
|
||
|
|
||
|
Where update_keys() is defined as:
|
||
|
|
||
|
|
||
|
update_keys(char):
|
||
|
Key(0) <- crc32(key(0),char)
|
||
|
Key(1) <- Key(1) + (Key(0) & 000000ffH)
|
||
|
Key(1) <- Key(1) * 134775813 + 1
|
||
|
Key(2) <- crc32(key(2),key(1) >> 24)
|
||
|
end update_keys
|
||
|
|
||
|
|
||
|
Where crc32(old_crc,char) is a routine that given a CRC value and a
|
||
|
character, returns an updated CRC value after applying the CRC-32
|
||
|
algorithm described elsewhere in this document.
|
||
|
|
||
|
|
||
|
Step 2 - Decrypting the encryption header
|
||
|
-----------------------------------------
|
||
|
|
||
|
The purpose of this step is to further initialize the encryption
|
||
|
keys, based on random data, to render a plaintext attack on the
|
||
|
data ineffective.
|
||
|
|
||
|
|
||
|
Read the 12-byte encryption header into Buffer, in locations
|
||
|
Buffer(0) thru Buffer(11).
|
||
|
|
||
|
loop for i <- 0 to 11
|
||
|
C <- buffer(i) ^ decrypt_byte()
|
||
|
update_keys(C)
|
||
|
buffer(i) <- C
|
||
|
end loop
|
||
|
|
||
|
|
||
|
Where decrypt_byte() is defined as:
|
||
|
|
||
|
|
||
|
unsigned char decrypt_byte()
|
||
|
local unsigned short temp
|
||
|
temp <- Key(2) | 2
|
||
|
decrypt_byte <- (temp * (temp ^ 1)) >> 8
|
||
|
end decrypt_byte
|
||
|
|
||
|
|
||
|
After the header is decrypted, the last 1 or 2 bytes in Buffer
|
||
|
should be the high-order word/byte of the CRC for the file being
|
||
|
decrypted, stored in Intel low-byte/high-byte order, or the high-order
|
||
|
byte of the file time if bit 3 of the general purpose bit flag is set.
|
||
|
Versions of PKZIP prior to 2.0 used a 2 byte CRC check; a 1 byte CRC check is
|
||
|
used on versions after 2.0. This can be used to test if the password
|
||
|
supplied is correct or not.
|
||
|
|
||
|
|
||
|
Step 3 - Decrypting the compressed data stream
|
||
|
----------------------------------------------
|
||
|
|
||
|
The compressed data stream can be decrypted as follows:
|
||
|
|
||
|
|
||
|
loop until done
|
||
|
read a charcter into C
|
||
|
Temp <- C ^ decrypt_byte()
|
||
|
update_keys(temp)
|
||
|
output Temp
|
||
|
end loop
|
||
|
|
||
|
|
||
|
In addition to the above mentioned contributors to PKZIP and PKUNZIP,
|
||
|
I would like to extend special thanks to Robert Mahoney for suggesting
|
||
|
the extension .ZIP for this software.
|
||
|
|
||
|
|
||
|
References:
|
||
|
|
||
|
Fiala, Edward R., and Greene, Daniel H., "Data compression with
|
||
|
finite windows", Communications of the ACM, Volume 32, Number 4,
|
||
|
April 1989, pages 490-505.
|
||
|
|
||
|
Held, Gilbert, "Data Compression, Techniques and Applications,
|
||
|
Hardware and Software Considerations",
|
||
|
John Wiley & Sons, 1987.
|
||
|
|
||
|
Huffman, D.A., "A method for the construction of minimum-redundancy
|
||
|
codes", Proceedings of the IRE, Volume 40, Number 9, September 1952,
|
||
|
pages 1098-1101.
|
||
|
|
||
|
Nelson, Mark, "LZW Data Compression", Dr. Dobbs Journal, Volume 14,
|
||
|
Number 10, October 1989, pages 29-37.
|
||
|
|
||
|
Nelson, Mark, "The Data Compression Book", M&T Books, 1991.
|
||
|
|
||
|
Storer, James A., "Data Compression, Methods and Theory",
|
||
|
Computer Science Press, 1988
|
||
|
|
||
|
Welch, Terry, "A Technique for High-Performance Data Compression",
|
||
|
IEEE Computer, Volume 17, Number 6, June 1984, pages 8-19.
|
||
|
|
||
|
Ziv, J. and Lempel, A., "A universal algorithm for sequential data
|
||
|
compression", Communications of the ACM, Volume 30, Number 6,
|
||
|
June 1987, pages 520-540.
|
||
|
|
||
|
Ziv, J. and Lempel, A., "Compression of individual sequences via
|
||
|
variable-rate coding", IEEE Transactions on Information Theory,
|
||
|
Volume 24, Number 5, September 1978, pages 530-536.
|