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3 |
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4 |
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5 |
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6 |
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7 | Network Working Group P. Deutsch
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8 | Request for Comments: 1950 Aladdin Enterprises
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9 | Category: Informational J-L. Gailly
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10 | Info-ZIP
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11 | May 1996
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12 |
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13 |
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14 | ZLIB Compressed Data Format Specification version 3.3
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15 |
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16 | Status of This Memo
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17 |
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18 | This memo provides information for the Internet community. This memo
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19 | does not specify an Internet standard of any kind. Distribution of
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20 | this memo is unlimited.
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21 |
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22 | IESG Note:
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23 |
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24 | The IESG takes no position on the validity of any Intellectual
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25 | Property Rights statements contained in this document.
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26 |
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27 | Notices
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28 |
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29 | Copyright (c) 1996 L. Peter Deutsch and Jean-Loup Gailly
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30 |
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31 | Permission is granted to copy and distribute this document for any
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32 | purpose and without charge, including translations into other
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33 | languages and incorporation into compilations, provided that the
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34 | copyright notice and this notice are preserved, and that any
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35 | substantive changes or deletions from the original are clearly
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36 | marked.
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37 |
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38 | A pointer to the latest version of this and related documentation in
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39 | HTML format can be found at the URL
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40 | <ftp://ftp.uu.net/graphics/png/documents/zlib/zdoc-index.html>.
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41 |
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42 | Abstract
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43 |
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44 | This specification defines a lossless compressed data format. The
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45 | data can be produced or consumed, even for an arbitrarily long
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46 | sequentially presented input data stream, using only an a priori
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47 | bounded amount of intermediate storage. The format presently uses
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48 | the DEFLATE compression method but can be easily extended to use
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49 | other compression methods. It can be implemented readily in a manner
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50 | not covered by patents. This specification also defines the ADLER-32
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51 | checksum (an extension and improvement of the Fletcher checksum),
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52 | used for detection of data corruption, and provides an algorithm for
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53 | computing it.
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54 |
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55 |
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56 |
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57 |
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58 | Deutsch & Gailly Informational [Page 1]
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59 | |
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60 |
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61 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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62 |
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63 |
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64 | Table of Contents
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65 |
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66 | 1. Introduction ................................................... 2
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67 | 1.1. Purpose ................................................... 2
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68 | 1.2. Intended audience ......................................... 3
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69 | 1.3. Scope ..................................................... 3
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70 | 1.4. Compliance ................................................ 3
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71 | 1.5. Definitions of terms and conventions used ................ 3
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72 | 1.6. Changes from previous versions ............................ 3
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73 | 2. Detailed specification ......................................... 3
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74 | 2.1. Overall conventions ....................................... 3
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75 | 2.2. Data format ............................................... 4
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76 | 2.3. Compliance ................................................ 7
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77 | 3. References ..................................................... 7
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78 | 4. Source code .................................................... 8
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79 | 5. Security Considerations ........................................ 8
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80 | 6. Acknowledgements ............................................... 8
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81 | 7. Authors' Addresses ............................................. 8
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82 | 8. Appendix: Rationale ............................................ 9
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83 | 9. Appendix: Sample code ..........................................10
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84 |
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85 | 1. Introduction
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86 |
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87 | 1.1. Purpose
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88 |
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89 | The purpose of this specification is to define a lossless
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90 | compressed data format that:
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91 |
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92 | * Is independent of CPU type, operating system, file system,
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93 | and character set, and hence can be used for interchange;
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94 |
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95 | * Can be produced or consumed, even for an arbitrarily long
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96 | sequentially presented input data stream, using only an a
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97 | priori bounded amount of intermediate storage, and hence can
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98 | be used in data communications or similar structures such as
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99 | Unix filters;
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100 |
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101 | * Can use a number of different compression methods;
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102 |
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103 | * Can be implemented readily in a manner not covered by
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104 | patents, and hence can be practiced freely.
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105 |
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106 | The data format defined by this specification does not attempt to
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107 | allow random access to compressed data.
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108 |
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109 |
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110 |
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111 |
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112 |
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113 |
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114 |
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115 | Deutsch & Gailly Informational [Page 2]
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116 | |
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117 |
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118 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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119 |
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120 |
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121 | 1.2. Intended audience
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122 |
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123 | This specification is intended for use by implementors of software
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124 | to compress data into zlib format and/or decompress data from zlib
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125 | format.
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126 |
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127 | The text of the specification assumes a basic background in
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128 | programming at the level of bits and other primitive data
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129 | representations.
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130 |
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131 | 1.3. Scope
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132 |
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133 | The specification specifies a compressed data format that can be
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134 | used for in-memory compression of a sequence of arbitrary bytes.
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135 |
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136 | 1.4. Compliance
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137 |
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138 | Unless otherwise indicated below, a compliant decompressor must be
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139 | able to accept and decompress any data set that conforms to all
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140 | the specifications presented here; a compliant compressor must
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141 | produce data sets that conform to all the specifications presented
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142 | here.
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143 |
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144 | 1.5. Definitions of terms and conventions used
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145 |
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146 | byte: 8 bits stored or transmitted as a unit (same as an octet).
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147 | (For this specification, a byte is exactly 8 bits, even on
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148 | machines which store a character on a number of bits different
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149 | from 8.) See below, for the numbering of bits within a byte.
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150 |
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151 | 1.6. Changes from previous versions
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152 |
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153 | Version 3.1 was the first public release of this specification.
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154 | In version 3.2, some terminology was changed and the Adler-32
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155 | sample code was rewritten for clarity. In version 3.3, the
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156 | support for a preset dictionary was introduced, and the
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157 | specification was converted to RFC style.
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158 |
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159 | 2. Detailed specification
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160 |
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161 | 2.1. Overall conventions
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162 |
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163 | In the diagrams below, a box like this:
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164 |
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165 | +---+
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166 | | | <-- the vertical bars might be missing
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167 | +---+
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168 |
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169 |
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170 |
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171 |
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172 | Deutsch & Gailly Informational [Page 3]
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173 | |
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174 |
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175 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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176 |
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177 |
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178 | represents one byte; a box like this:
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179 |
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180 | +==============+
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181 | | |
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182 | +==============+
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183 |
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184 | represents a variable number of bytes.
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185 |
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186 | Bytes stored within a computer do not have a "bit order", since
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187 | they are always treated as a unit. However, a byte considered as
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188 | an integer between 0 and 255 does have a most- and least-
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189 | significant bit, and since we write numbers with the most-
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190 | significant digit on the left, we also write bytes with the most-
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191 | significant bit on the left. In the diagrams below, we number the
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192 | bits of a byte so that bit 0 is the least-significant bit, i.e.,
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193 | the bits are numbered:
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194 |
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195 | +--------+
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196 | |76543210|
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197 | +--------+
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198 |
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199 | Within a computer, a number may occupy multiple bytes. All
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200 | multi-byte numbers in the format described here are stored with
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201 | the MOST-significant byte first (at the lower memory address).
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202 | For example, the decimal number 520 is stored as:
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203 |
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204 | 0 1
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205 | +--------+--------+
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206 | |00000010|00001000|
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207 | +--------+--------+
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208 | ^ ^
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209 | | |
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210 | | + less significant byte = 8
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211 | + more significant byte = 2 x 256
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212 |
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213 | 2.2. Data format
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214 |
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215 | A zlib stream has the following structure:
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216 |
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217 | 0 1
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218 | +---+---+
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219 | |CMF|FLG| (more-->)
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220 | +---+---+
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221 |
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222 |
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223 |
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224 |
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225 |
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226 |
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227 |
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228 |
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229 | Deutsch & Gailly Informational [Page 4]
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230 | |
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231 |
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232 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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233 |
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234 |
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235 | (if FLG.FDICT set)
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236 |
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237 | 0 1 2 3
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238 | +---+---+---+---+
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239 | | DICTID | (more-->)
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240 | +---+---+---+---+
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241 |
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242 | +=====================+---+---+---+---+
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243 | |...compressed data...| ADLER32 |
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244 | +=====================+---+---+---+---+
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245 |
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246 | Any data which may appear after ADLER32 are not part of the zlib
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247 | stream.
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248 |
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249 | CMF (Compression Method and flags)
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250 | This byte is divided into a 4-bit compression method and a 4-
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251 | bit information field depending on the compression method.
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252 |
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253 | bits 0 to 3 CM Compression method
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254 | bits 4 to 7 CINFO Compression info
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255 |
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256 | CM (Compression method)
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257 | This identifies the compression method used in the file. CM = 8
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258 | denotes the "deflate" compression method with a window size up
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259 | to 32K. This is the method used by gzip and PNG (see
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260 | references [1] and [2] in Chapter 3, below, for the reference
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261 | documents). CM = 15 is reserved. It might be used in a future
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262 | version of this specification to indicate the presence of an
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263 | extra field before the compressed data.
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264 |
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265 | CINFO (Compression info)
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266 | For CM = 8, CINFO is the base-2 logarithm of the LZ77 window
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267 | size, minus eight (CINFO=7 indicates a 32K window size). Values
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268 | of CINFO above 7 are not allowed in this version of the
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269 | specification. CINFO is not defined in this specification for
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270 | CM not equal to 8.
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271 |
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272 | FLG (FLaGs)
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273 | This flag byte is divided as follows:
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274 |
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275 | bits 0 to 4 FCHECK (check bits for CMF and FLG)
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276 | bit 5 FDICT (preset dictionary)
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277 | bits 6 to 7 FLEVEL (compression level)
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278 |
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279 | The FCHECK value must be such that CMF and FLG, when viewed as
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280 | a 16-bit unsigned integer stored in MSB order (CMF*256 + FLG),
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281 | is a multiple of 31.
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282 |
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283 |
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284 |
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285 |
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286 | Deutsch & Gailly Informational [Page 5]
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287 | |
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288 |
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289 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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290 |
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291 |
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292 | FDICT (Preset dictionary)
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293 | If FDICT is set, a DICT dictionary identifier is present
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294 | immediately after the FLG byte. The dictionary is a sequence of
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295 | bytes which are initially fed to the compressor without
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296 | producing any compressed output. DICT is the Adler-32 checksum
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297 | of this sequence of bytes (see the definition of ADLER32
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298 | below). The decompressor can use this identifier to determine
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299 | which dictionary has been used by the compressor.
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300 |
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301 | FLEVEL (Compression level)
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302 | These flags are available for use by specific compression
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303 | methods. The "deflate" method (CM = 8) sets these flags as
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304 | follows:
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305 |
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306 | 0 - compressor used fastest algorithm
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307 | 1 - compressor used fast algorithm
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308 | 2 - compressor used default algorithm
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309 | 3 - compressor used maximum compression, slowest algorithm
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310 |
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311 | The information in FLEVEL is not needed for decompression; it
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312 | is there to indicate if recompression might be worthwhile.
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313 |
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314 | compressed data
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315 | For compression method 8, the compressed data is stored in the
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316 | deflate compressed data format as described in the document
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317 | "DEFLATE Compressed Data Format Specification" by L. Peter
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318 | Deutsch. (See reference [3] in Chapter 3, below)
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319 |
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320 | Other compressed data formats are not specified in this version
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321 | of the zlib specification.
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322 |
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323 | ADLER32 (Adler-32 checksum)
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324 | This contains a checksum value of the uncompressed data
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325 | (excluding any dictionary data) computed according to Adler-32
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326 | algorithm. This algorithm is a 32-bit extension and improvement
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327 | of the Fletcher algorithm, used in the ITU-T X.224 / ISO 8073
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328 | standard. See references [4] and [5] in Chapter 3, below)
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329 |
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330 | Adler-32 is composed of two sums accumulated per byte: s1 is
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331 | the sum of all bytes, s2 is the sum of all s1 values. Both sums
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332 | are done modulo 65521. s1 is initialized to 1, s2 to zero. The
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333 | Adler-32 checksum is stored as s2*65536 + s1 in most-
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334 | significant-byte first (network) order.
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335 |
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336 |
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337 |
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338 |
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339 |
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340 |
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341 |
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342 |
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343 | Deutsch & Gailly Informational [Page 6]
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344 | |
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345 |
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346 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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347 |
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348 |
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349 | 2.3. Compliance
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350 |
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351 | A compliant compressor must produce streams with correct CMF, FLG
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352 | and ADLER32, but need not support preset dictionaries. When the
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353 | zlib data format is used as part of another standard data format,
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354 | the compressor may use only preset dictionaries that are specified
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355 | by this other data format. If this other format does not use the
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356 | preset dictionary feature, the compressor must not set the FDICT
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357 | flag.
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358 |
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359 | A compliant decompressor must check CMF, FLG, and ADLER32, and
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360 | provide an error indication if any of these have incorrect values.
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361 | A compliant decompressor must give an error indication if CM is
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362 | not one of the values defined in this specification (only the
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363 | value 8 is permitted in this version), since another value could
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364 | indicate the presence of new features that would cause subsequent
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365 | data to be interpreted incorrectly. A compliant decompressor must
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366 | give an error indication if FDICT is set and DICTID is not the
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367 | identifier of a known preset dictionary. A decompressor may
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368 | ignore FLEVEL and still be compliant. When the zlib data format
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369 | is being used as a part of another standard format, a compliant
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370 | decompressor must support all the preset dictionaries specified by
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371 | the other format. When the other format does not use the preset
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372 | dictionary feature, a compliant decompressor must reject any
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373 | stream in which the FDICT flag is set.
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374 |
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375 | 3. References
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376 |
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377 | [1] Deutsch, L.P.,"GZIP Compressed Data Format Specification",
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378 | available in ftp://ftp.uu.net/pub/archiving/zip/doc/
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379 |
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380 | [2] Thomas Boutell, "PNG (Portable Network Graphics) specification",
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381 | available in ftp://ftp.uu.net/graphics/png/documents/
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382 |
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383 | [3] Deutsch, L.P.,"DEFLATE Compressed Data Format Specification",
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384 | available in ftp://ftp.uu.net/pub/archiving/zip/doc/
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385 |
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386 | [4] Fletcher, J. G., "An Arithmetic Checksum for Serial
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387 | Transmissions," IEEE Transactions on Communications, Vol. COM-30,
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388 | No. 1, January 1982, pp. 247-252.
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389 |
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390 | [5] ITU-T Recommendation X.224, Annex D, "Checksum Algorithms,"
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391 | November, 1993, pp. 144, 145. (Available from
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392 | gopher://info.itu.ch). ITU-T X.244 is also the same as ISO 8073.
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393 |
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394 |
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395 |
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396 |
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397 |
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398 |
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399 |
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400 | Deutsch & Gailly Informational [Page 7]
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401 | |
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402 |
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403 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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404 |
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405 |
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406 | 4. Source code
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407 |
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408 | Source code for a C language implementation of a "zlib" compliant
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409 | library is available at ftp://ftp.uu.net/pub/archiving/zip/zlib/.
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410 |
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411 | 5. Security Considerations
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412 |
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413 | A decoder that fails to check the ADLER32 checksum value may be
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414 | subject to undetected data corruption.
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415 |
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416 | 6. Acknowledgements
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417 |
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418 | Trademarks cited in this document are the property of their
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419 | respective owners.
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420 |
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421 | Jean-Loup Gailly and Mark Adler designed the zlib format and wrote
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422 | the related software described in this specification. Glenn
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423 | Randers-Pehrson converted this document to RFC and HTML format.
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424 |
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425 | 7. Authors' Addresses
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426 |
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427 | L. Peter Deutsch
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428 | Aladdin Enterprises
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429 | 203 Santa Margarita Ave.
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430 | Menlo Park, CA 94025
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431 |
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432 | Phone: (415) 322-0103 (AM only)
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433 | FAX: (415) 322-1734
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434 | EMail: <[email protected]>
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435 |
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436 |
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437 | Jean-Loup Gailly
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438 |
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439 | EMail: <[email protected]>
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440 |
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441 | Questions about the technical content of this specification can be
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442 | sent by email to
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443 |
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444 | Jean-Loup Gailly <[email protected]> and
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445 | Mark Adler <[email protected]>
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446 |
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447 | Editorial comments on this specification can be sent by email to
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448 |
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449 | L. Peter Deutsch <[email protected]> and
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450 | Glenn Randers-Pehrson <[email protected]>
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451 |
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452 |
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453 |
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454 |
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455 |
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456 |
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457 | Deutsch & Gailly Informational [Page 8]
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458 | |
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459 |
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460 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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461 |
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462 |
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463 | 8. Appendix: Rationale
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464 |
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465 | 8.1. Preset dictionaries
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466 |
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467 | A preset dictionary is specially useful to compress short input
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468 | sequences. The compressor can take advantage of the dictionary
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469 | context to encode the input in a more compact manner. The
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470 | decompressor can be initialized with the appropriate context by
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471 | virtually decompressing a compressed version of the dictionary
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472 | without producing any output. However for certain compression
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473 | algorithms such as the deflate algorithm this operation can be
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474 | achieved without actually performing any decompression.
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475 |
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476 | The compressor and the decompressor must use exactly the same
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477 | dictionary. The dictionary may be fixed or may be chosen among a
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478 | certain number of predefined dictionaries, according to the kind
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479 | of input data. The decompressor can determine which dictionary has
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480 | been chosen by the compressor by checking the dictionary
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481 | identifier. This document does not specify the contents of
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482 | predefined dictionaries, since the optimal dictionaries are
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483 | application specific. Standard data formats using this feature of
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484 | the zlib specification must precisely define the allowed
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485 | dictionaries.
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486 |
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487 | 8.2. The Adler-32 algorithm
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488 |
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489 | The Adler-32 algorithm is much faster than the CRC32 algorithm yet
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490 | still provides an extremely low probability of undetected errors.
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491 |
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492 | The modulo on unsigned long accumulators can be delayed for 5552
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493 | bytes, so the modulo operation time is negligible. If the bytes
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494 | are a, b, c, the second sum is 3a + 2b + c + 3, and so is position
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495 | and order sensitive, unlike the first sum, which is just a
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496 | checksum. That 65521 is prime is important to avoid a possible
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497 | large class of two-byte errors that leave the check unchanged.
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498 | (The Fletcher checksum uses 255, which is not prime and which also
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499 | makes the Fletcher check insensitive to single byte changes 0 <->
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500 | 255.)
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501 |
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502 | The sum s1 is initialized to 1 instead of zero to make the length
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503 | of the sequence part of s2, so that the length does not have to be
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504 | checked separately. (Any sequence of zeroes has a Fletcher
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505 | checksum of zero.)
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506 |
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507 |
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508 |
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509 |
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510 |
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511 |
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512 |
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513 |
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514 | Deutsch & Gailly Informational [Page 9]
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515 | |
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516 |
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517 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
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518 |
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519 |
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520 | 9. Appendix: Sample code
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521 |
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522 | The following C code computes the Adler-32 checksum of a data buffer.
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523 | It is written for clarity, not for speed. The sample code is in the
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524 | ANSI C programming language. Non C users may find it easier to read
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525 | with these hints:
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526 |
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527 | & Bitwise AND operator.
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528 | >> Bitwise right shift operator. When applied to an
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529 | unsigned quantity, as here, right shift inserts zero bit(s)
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530 | at the left.
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531 | << Bitwise left shift operator. Left shift inserts zero
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532 | bit(s) at the right.
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533 | ++ "n++" increments the variable n.
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534 | % modulo operator: a % b is the remainder of a divided by b.
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535 |
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536 | #define BASE 65521 /* largest prime smaller than 65536 */
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537 |
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538 | /*
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539 | Update a running Adler-32 checksum with the bytes buf[0..len-1]
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540 | and return the updated checksum. The Adler-32 checksum should be
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541 | initialized to 1.
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542 |
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543 | Usage example:
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544 |
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545 | unsigned long adler = 1L;
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546 |
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547 | while (read_buffer(buffer, length) != EOF) {
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548 | adler = update_adler32(adler, buffer, length);
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549 | }
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550 | if (adler != original_adler) error();
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551 | */
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552 | unsigned long update_adler32(unsigned long adler,
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553 | unsigned char *buf, int len)
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554 | {
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555 | unsigned long s1 = adler & 0xffff;
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556 | unsigned long s2 = (adler >> 16) & 0xffff;
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557 | int n;
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558 |
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559 | for (n = 0; n < len; n++) {
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560 | s1 = (s1 + buf[n]) % BASE;
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561 | s2 = (s2 + s1) % BASE;
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562 | }
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563 | return (s2 << 16) + s1;
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564 | }
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565 |
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566 | /* Return the adler32 of the bytes buf[0..len-1] */
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567 |
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568 |
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569 |
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570 |
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571 | Deutsch & Gailly Informational [Page 10]
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572 | |
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573 |
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574 | RFC 1950 ZLIB Compressed Data Format Specification May 1996
|
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575 |
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576 |
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577 | unsigned long adler32(unsigned char *buf, int len)
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578 | {
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579 | return update_adler32(1L, buf, len);
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580 | }
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581 |
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582 |
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583 |
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584 |
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585 |
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586 |
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622 |
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623 |
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624 |
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625 |
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626 |
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627 |
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628 | Deutsch & Gailly Informational [Page 11]
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629 | |
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630 |
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