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Rev | Author | Line No. | Line |
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3264 | decky | 1 | #!/usr/bin/env python |
2 | # |
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3 | # Copyright (c) 2008 Martin Decky |
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4 | # All rights reserved. |
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5 | # |
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6 | # Redistribution and use in source and binary forms, with or without |
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7 | # modification, are permitted provided that the following conditions |
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8 | # are met: |
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9 | # |
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10 | # - Redistributions of source code must retain the above copyright |
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11 | # notice, this list of conditions and the following disclaimer. |
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12 | # - Redistributions in binary form must reproduce the above copyright |
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13 | # notice, this list of conditions and the following disclaimer in the |
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14 | # documentation and/or other materials provided with the distribution. |
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15 | # - The name of the author may not be used to endorse or promote products |
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16 | # derived from this software without specific prior written permission. |
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17 | # |
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18 | # THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
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19 | # IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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20 | # OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
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21 | # IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
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22 | # INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
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23 | # NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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24 | # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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25 | # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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26 | # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
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27 | # THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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28 | # |
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29 | """ |
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30 | FAT creator |
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31 | """ |
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32 | |||
33 | import sys |
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34 | import os |
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35 | import random |
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36 | import xstruct |
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3535 | svoboda | 37 | import array |
3264 | decky | 38 | |
3535 | svoboda | 39 | def align_up(size, alignment): |
40 | "Return size aligned up to alignment" |
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41 | |||
42 | if (size % alignment == 0): |
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43 | return size |
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44 | |||
45 | return (((size / alignment) + 1) * alignment) |
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46 | |||
47 | def subtree_size(root, cluster_size, dirent_size): |
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48 | "Recursive directory walk and calculate size" |
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49 | |||
50 | size = 0 |
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51 | files = 2 |
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52 | |||
53 | for name in os.listdir(root): |
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54 | canon = os.path.join(root, name) |
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55 | |||
56 | if (os.path.isfile(canon)): |
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57 | size += align_up(os.path.getsize(canon), cluster_size) |
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58 | files += 1 |
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59 | |||
60 | if (os.path.isdir(canon)): |
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61 | size += subtree_size(canon, cluster_size, dirent_size) |
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62 | files += 1 |
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63 | |||
64 | return size + align_up(files * dirent_size, cluster_size) |
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65 | |||
66 | def root_entries(root): |
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67 | "Return number of root directory entries" |
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68 | |||
69 | return len(os.listdir(root)) |
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70 | |||
71 | def write_file(path, outf, cluster_size, data_start, fat, reserved_clusters): |
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72 | "Store the contents of a file" |
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73 | |||
74 | size = os.path.getsize(path) |
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75 | prev = -1 |
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76 | first = 0 |
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77 | |||
78 | inf = file(path, "r") |
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79 | rd = 0; |
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80 | while (rd < size): |
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81 | empty_cluster = fat.index(0) |
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82 | fat[empty_cluster] = 0xffff |
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83 | |||
84 | if (prev != -1): |
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85 | fat[prev] = empty_cluster |
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86 | else: |
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87 | first = empty_cluster |
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88 | |||
89 | prev = empty_cluster |
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90 | |||
91 | data = inf.read(cluster_size); |
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92 | outf.seek(data_start + (empty_cluster - reserved_clusters) * cluster_size) |
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93 | outf.write(data) |
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94 | rd += len(data) |
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95 | inf.close() |
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96 | |||
97 | return first, size |
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98 | |||
99 | def write_directory(directory, outf, cluster_size, data_start, fat, reserved_clusters, dirent_size, empty_cluster): |
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100 | "Store the contents of a directory" |
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101 | |||
102 | length = len(directory) |
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103 | size = length * dirent_size |
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104 | prev = -1 |
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105 | first = 0 |
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106 | |||
107 | i = 0 |
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108 | rd = 0; |
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109 | while (rd < size): |
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110 | if (prev != -1): |
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111 | empty_cluster = fat.index(0) |
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112 | fat[empty_cluster] = 0xffff |
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113 | fat[prev] = empty_cluster |
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114 | else: |
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115 | first = empty_cluster |
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116 | |||
117 | prev = empty_cluster |
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118 | |||
119 | data = '' |
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120 | data_len = 0 |
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121 | while ((i < length) and (data_len < cluster_size)): |
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122 | if (i == 0): |
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123 | directory[i].cluster = empty_cluster |
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124 | |||
125 | data += directory[i].pack() |
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126 | data_len += dirent_size |
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127 | i += 1 |
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128 | |||
129 | outf.seek(data_start + (empty_cluster - reserved_clusters) * cluster_size) |
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130 | outf.write(data) |
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131 | rd += len(data) |
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132 | |||
133 | return first, size |
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134 | |||
135 | DIR_ENTRY = """little: |
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136 | char name[8] /* file name */ |
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137 | char ext[3] /* file extension */ |
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138 | uint8_t attr /* file attributes */ |
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139 | padding[1] /* reserved for NT */ |
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140 | uint8_t ctime_fine /* create time (fine resolution) */ |
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141 | uint16_t ctime /* create time */ |
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142 | uint16_t cdate /* create date */ |
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143 | uint16_t adate /* access date */ |
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144 | padding[2] /* EA-index */ |
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145 | uint16_t mtime /* modification time */ |
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146 | uint16_t mdate /* modification date */ |
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147 | uint16_t cluster /* first cluster */ |
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148 | uint32_t size /* file size */ |
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149 | """ |
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150 | |||
151 | DOT_DIR_ENTRY = """little: |
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152 | uint8_t signature /* 0x2e signature */ |
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153 | char name[7] /* empty */ |
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154 | char ext[3] /* empty */ |
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155 | uint8_t attr /* file attributes */ |
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156 | padding[1] /* reserved for NT */ |
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157 | uint8_t ctime_fine /* create time (fine resolution) */ |
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158 | uint16_t ctime /* create time */ |
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159 | uint16_t cdate /* create date */ |
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160 | uint16_t adate /* access date */ |
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161 | padding[2] /* EA-index */ |
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162 | uint16_t mtime /* modification time */ |
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163 | uint16_t mdate /* modification date */ |
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164 | uint16_t cluster /* first cluster */ |
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165 | uint32_t size /* file size */ |
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166 | """ |
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167 | |||
168 | DOTDOT_DIR_ENTRY = """little: |
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169 | uint8_t signature[2] /* 0x2e signature */ |
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170 | char name[6] /* empty */ |
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171 | char ext[3] /* empty */ |
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172 | uint8_t attr /* file attributes */ |
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173 | padding[1] /* reserved for NT */ |
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174 | uint8_t ctime_fine /* create time (fine resolution) */ |
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175 | uint16_t ctime /* create time */ |
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176 | uint16_t cdate /* create date */ |
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177 | uint16_t adate /* access date */ |
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178 | padding[2] /* EA-index */ |
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179 | uint16_t mtime /* modification time */ |
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180 | uint16_t mdate /* modification date */ |
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181 | uint16_t cluster /* first cluster */ |
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182 | uint32_t size /* file size */ |
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183 | """ |
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184 | |||
185 | def mangle_fname(name): |
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186 | # FIXME: filter illegal characters |
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187 | parts = name.split('.') |
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188 | |||
189 | if (len(parts) > 0): |
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190 | fname = parts[0] |
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191 | else: |
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192 | fname = '' |
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193 | |||
194 | return (fname + ' ').upper()[0:8] |
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195 | |||
196 | def mangle_ext(name): |
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197 | # FIXME: filter illegal characters |
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198 | parts = name.split('.') |
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199 | |||
200 | if (len(parts) > 1): |
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201 | ext = parts[1] |
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202 | else: |
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203 | ext = '' |
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204 | |||
205 | return (ext + ' ').upper()[0:3] |
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206 | |||
207 | def create_dirent(name, directory, cluster, size): |
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208 | dir_entry = xstruct.create(DIR_ENTRY) |
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209 | |||
210 | dir_entry.name = mangle_fname(name) |
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211 | dir_entry.ext = mangle_ext(name) |
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212 | |||
213 | if (directory): |
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214 | dir_entry.attr = 0x30 |
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215 | else: |
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216 | dir_entry.attr = 0x20 |
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217 | |||
218 | dir_entry.ctime_fine = 0 # FIXME |
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219 | dir_entry.ctime = 0 # FIXME |
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220 | dir_entry.cdate = 0 # FIXME |
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221 | dir_entry.adate = 0 # FIXME |
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222 | dir_entry.mtime = 0 # FIXME |
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223 | dir_entry.mdate = 0 # FIXME |
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224 | dir_entry.cluster = cluster |
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225 | |||
226 | if (directory): |
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227 | dir_entry.size = 0 |
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228 | else: |
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229 | dir_entry.size = size |
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230 | |||
231 | return dir_entry |
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232 | |||
233 | def create_dot_dirent(empty_cluster): |
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234 | dir_entry = xstruct.create(DOT_DIR_ENTRY) |
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235 | |||
236 | dir_entry.signature = 0x2e |
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237 | dir_entry.name = ' ' |
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238 | dir_entry.ext = ' ' |
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239 | dir_entry.attr = 0x10 |
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240 | |||
241 | dir_entry.ctime_fine = 0 # FIXME |
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242 | dir_entry.ctime = 0 # FIXME |
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243 | dir_entry.cdate = 0 # FIXME |
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244 | dir_entry.adate = 0 # FIXME |
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245 | dir_entry.mtime = 0 # FIXME |
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246 | dir_entry.mdate = 0 # FIXME |
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247 | dir_entry.cluster = empty_cluster |
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248 | dir_entry.size = 0 |
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249 | |||
250 | return dir_entry |
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251 | |||
252 | def create_dotdot_dirent(parent_cluster): |
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253 | dir_entry = xstruct.create(DOTDOT_DIR_ENTRY) |
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254 | |||
255 | dir_entry.signature = [0x2e, 0x2e] |
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256 | dir_entry.name = ' ' |
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257 | dir_entry.ext = ' ' |
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258 | dir_entry.attr = 0x10 |
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259 | |||
260 | dir_entry.ctime_fine = 0 # FIXME |
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261 | dir_entry.ctime = 0 # FIXME |
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262 | dir_entry.cdate = 0 # FIXME |
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263 | dir_entry.adate = 0 # FIXME |
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264 | dir_entry.mtime = 0 # FIXME |
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265 | dir_entry.mdate = 0 # FIXME |
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266 | dir_entry.cluster = parent_cluster |
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267 | dir_entry.size = 0 |
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268 | |||
269 | return dir_entry |
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270 | |||
271 | def recursion(head, root, outf, cluster_size, root_start, data_start, fat, reserved_clusters, dirent_size, parent_cluster): |
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272 | "Recursive directory walk" |
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273 | |||
274 | directory = [] |
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275 | |||
276 | if (not head): |
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277 | # Directory cluster preallocation |
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278 | empty_cluster = fat.index(0) |
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279 | fat[empty_cluster] = 0xffff |
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280 | |||
281 | directory.append(create_dot_dirent(empty_cluster)) |
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282 | directory.append(create_dotdot_dirent(parent_cluster)) |
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283 | else: |
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284 | empty_cluster = 0 |
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285 | |||
286 | for name in os.listdir(root): |
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287 | canon = os.path.join(root, name) |
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288 | |||
289 | if (os.path.isfile(canon)): |
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290 | rv = write_file(canon, outf, cluster_size, data_start, fat, reserved_clusters) |
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291 | directory.append(create_dirent(name, False, rv[0], rv[1])) |
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292 | |||
293 | if (os.path.isdir(canon)): |
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294 | rv = recursion(False, canon, outf, cluster_size, root_start, data_start, fat, reserved_clusters, dirent_size, empty_cluster) |
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295 | directory.append(create_dirent(name, True, rv[0], rv[1])) |
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296 | |||
297 | if (head): |
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298 | outf.seek(root_start) |
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299 | for dir_entry in directory: |
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300 | outf.write(dir_entry.pack()) |
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301 | else: |
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302 | return write_directory(directory, outf, cluster_size, data_start, fat, reserved_clusters, dirent_size, empty_cluster) |
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303 | |||
3264 | decky | 304 | BOOT_SECTOR = """little: |
305 | uint8_t jmp[3] /* jump instruction */ |
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306 | char oem[8] /* OEM string */ |
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307 | uint16_t sector /* bytes per sector */ |
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308 | uint8_t cluster /* sectors per cluster */ |
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309 | uint16_t reserved /* reserved sectors */ |
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310 | uint8_t fats /* number of FATs */ |
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311 | uint16_t rootdir /* root directory entries */ |
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312 | uint16_t sectors /* total number of sectors */ |
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313 | uint8_t descriptor /* media descriptor */ |
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314 | uint16_t fat_sectors /* sectors per single FAT */ |
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315 | uint16_t track_sectors /* sectors per track */ |
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316 | uint16_t heads /* number of heads */ |
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317 | uint32_t hidden /* hidden sectors */ |
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318 | uint32_t sectors_big /* total number of sectors (if sectors == 0) */ |
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319 | |||
320 | /* Extended BIOS Parameter Block */ |
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321 | uint8_t drive /* physical drive number */ |
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322 | padding[1] /* reserved (current head) */ |
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323 | uint8_t extboot_signature /* extended boot signature */ |
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324 | uint32_t serial /* serial number */ |
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325 | char label[11] /* volume label */ |
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326 | char fstype[8] /* filesystem type */ |
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327 | padding[448] /* boot code */ |
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328 | uint8_t boot_signature[2] /* boot signature */ |
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329 | """ |
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330 | |||
3535 | svoboda | 331 | EMPTY_SECTOR = """little: |
332 | padding[512] /* empty sector data */ |
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333 | """ |
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334 | |||
335 | FAT_ENTRY = """little: |
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336 | uint16_t next /* FAT16 entry */ |
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337 | """ |
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338 | |||
3264 | decky | 339 | def usage(prname): |
340 | "Print usage syntax" |
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341 | print prname + " <PATH> <IMAGE>" |
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342 | |||
343 | def main(): |
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344 | if (len(sys.argv) < 3): |
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345 | usage(sys.argv[0]) |
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346 | return |
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347 | |||
348 | path = os.path.abspath(sys.argv[1]) |
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349 | if (not os.path.isdir(path)): |
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350 | print "<PATH> must be a directory" |
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351 | return |
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352 | |||
3535 | svoboda | 353 | fat16_clusters = 4096 |
354 | min_cluster_size = 1024 |
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355 | |||
356 | sector_size = 512 |
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357 | cluster_size = 4096 |
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358 | dirent_size = 32 |
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359 | fatent_size = 2 |
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360 | fat_count = 2 |
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361 | reserved_clusters = 2 |
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362 | |||
363 | # Make sure the filesystem is large enought for FAT16 |
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364 | size = subtree_size(path, cluster_size, dirent_size) + reserved_clusters * cluster_size |
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365 | while (size / cluster_size < fat16_clusters): |
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366 | if (cluster_size > min_cluster_size): |
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367 | cluster_size /= 2 |
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368 | size = subtree_size(path, cluster_size, dirent_size) + reserved_clusters * cluster_size |
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369 | else: |
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370 | size = fat16_clusters * cluster_size + reserved_clusters * cluster_size |
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371 | |||
372 | root_size = align_up(root_entries(path) * dirent_size, cluster_size) |
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373 | |||
374 | fat_size = align_up(align_up(size, cluster_size) / cluster_size * fatent_size, sector_size) |
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375 | |||
376 | sectors = (cluster_size + fat_count * fat_size + root_size + size) / sector_size |
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377 | root_start = cluster_size + fat_count * fat_size |
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378 | data_start = root_start + root_size |
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379 | |||
3264 | decky | 380 | outf = file(sys.argv[2], "w") |
381 | |||
382 | boot_sector = xstruct.create(BOOT_SECTOR) |
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383 | boot_sector.jmp = [0xEB, 0x3C, 0x90] |
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384 | boot_sector.oem = "MSDOS5.0" |
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3535 | svoboda | 385 | boot_sector.sector = sector_size |
386 | boot_sector.cluster = cluster_size / sector_size |
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387 | boot_sector.reserved = cluster_size / sector_size |
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388 | boot_sector.fats = fat_count |
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389 | boot_sector.rootdir = root_size / dirent_size |
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390 | if (sectors <= 65535): |
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391 | boot_sector.sectors = sectors |
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392 | else: |
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393 | boot_sector.sectors = 0 |
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3264 | decky | 394 | boot_sector.descriptor = 0xF8 |
3535 | svoboda | 395 | boot_sector.fat_sectors = fat_size / sector_size |
396 | boot_sector.track_sectors = 63 |
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397 | boot_sector.heads = 6 |
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3264 | decky | 398 | boot_sector.hidden = 0 |
3535 | svoboda | 399 | if (sectors > 65535): |
400 | boot_sector.sectors_big = sectors |
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401 | else: |
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402 | boot_sector.sectors_big = 0 |
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3264 | decky | 403 | |
3535 | svoboda | 404 | boot_sector.drive = 0x80 |
3264 | decky | 405 | boot_sector.extboot_signature = 0x29 |
3535 | svoboda | 406 | boot_sector.serial = random.randint(0, 0x7fffffff) |
3264 | decky | 407 | boot_sector.label = "HELENOS" |
408 | boot_sector.fstype = "FAT16 " |
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409 | boot_sector.boot_signature = [0x55, 0xAA] |
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410 | |||
411 | outf.write(boot_sector.pack()) |
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412 | |||
3535 | svoboda | 413 | empty_sector = xstruct.create(EMPTY_SECTOR) |
414 | |||
415 | # Reserved sectors |
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416 | for i in range(1, cluster_size / sector_size): |
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417 | outf.write(empty_sector.pack()) |
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418 | |||
419 | # FAT tables |
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420 | for i in range(0, fat_count): |
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421 | for j in range(0, fat_size / sector_size): |
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422 | outf.write(empty_sector.pack()) |
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423 | |||
424 | # Root directory |
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425 | for i in range(0, root_size / sector_size): |
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426 | outf.write(empty_sector.pack()) |
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427 | |||
428 | # Data |
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429 | for i in range(0, size / sector_size): |
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430 | outf.write(empty_sector.pack()) |
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431 | |||
432 | fat = array.array('L', [0] * (fat_size / fatent_size)) |
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433 | fat[0] = 0xfff8 |
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434 | fat[1] = 0xffff |
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435 | |||
436 | recursion(True, path, outf, cluster_size, root_start, data_start, fat, reserved_clusters, dirent_size, 0) |
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437 | |||
438 | # Store FAT |
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439 | fat_entry = xstruct.create(FAT_ENTRY) |
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440 | for i in range(0, fat_count): |
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441 | outf.seek(cluster_size + i * fat_size) |
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442 | for j in range(0, fat_size / fatent_size): |
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443 | fat_entry.next = fat[j] |
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444 | outf.write(fat_entry.pack()) |
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445 | |||
3264 | decky | 446 | outf.close() |
447 | |||
448 | if __name__ == '__main__': |
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449 | main() |