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3264 decky 1 
#!/usr/bin/env python
2 
#
3 
# Copyright (c) 2008 Martin Decky
4 
# All rights reserved.
5 
#
6 
# Redistribution and use in source and binary forms, with or without
7 
# modification, are permitted provided that the following conditions
8 
# are met:
9 
#
10 
# - Redistributions of source code must retain the above copyright
11 
#   notice, this list of conditions and the following disclaimer.
12 
# - Redistributions in binary form must reproduce the above copyright
13 
#   notice, this list of conditions and the following disclaimer in the
14 
#   documentation and/or other materials provided with the distribution.
15 
# - The name of the author may not be used to endorse or promote products
16 
#   derived from this software without specific prior written permission.
17 
#
18 
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
19 
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
20 
# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
21 
# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
22 
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
23 
# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
24 
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
25 
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26 
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
27 
# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28 
#
29 
"""
30 
FAT creator
31 
"""
32 
 
33 
import sys
34 
import os
35 
import random
36 
import xstruct
3535 svoboda 37 
import array
3264 decky 38 
 
3561 svoboda 39 
exclude_names = set(['.svn'])
40 
 
3535 svoboda 41 
def align_up(size, alignment):
42 
    "Return size aligned up to alignment"
43 
 
44 
    if (size % alignment == 0):
45 
        return size
46 
 
47 
    return (((size / alignment) + 1) * alignment)
48 
 
49 
def subtree_size(root, cluster_size, dirent_size):
50 
    "Recursive directory walk and calculate size"
51 
 
52 
    size = 0
53 
    files = 2
54 
 
55 
    for name in os.listdir(root):
56 
        canon = os.path.join(root, name)
57 
 
3561 svoboda 58 
        if (os.path.isfile(canon) and (not name in exclude_names)):
3535 svoboda 59 
            size += align_up(os.path.getsize(canon), cluster_size)
60 
            files += 1
61 
 
3561 svoboda 62 
        if (os.path.isdir(canon) and (not name in exclude_names)):
3535 svoboda 63 
            size += subtree_size(canon, cluster_size, dirent_size)
64 
            files += 1
65 
 
66 
    return size + align_up(files * dirent_size, cluster_size)
67 
 
68 
def root_entries(root):
69 
    "Return number of root directory entries"
70 
 
71 
    return len(os.listdir(root))
72 
 
73 
def write_file(path, outf, cluster_size, data_start, fat, reserved_clusters):
74 
    "Store the contents of a file"
75 
 
76 
    size = os.path.getsize(path)
77 
    prev = -1
78 
    first = 0
79 
 
80 
    inf = file(path, "r")
81 
    rd = 0;
82 
    while (rd < size):
83 
        empty_cluster = fat.index(0)
84 
        fat[empty_cluster] = 0xffff
85 
 
86 
        if (prev != -1):
87 
            fat[prev] = empty_cluster
88 
        else:
89 
            first = empty_cluster
90 
 
91 
        prev = empty_cluster
92 
 
93 
        data = inf.read(cluster_size);
94 
        outf.seek(data_start + (empty_cluster - reserved_clusters) * cluster_size)
95 
        outf.write(data)
96 
        rd += len(data)
97 
    inf.close()
98 
 
99 
    return first, size
100 
 
101 
def write_directory(directory, outf, cluster_size, data_start, fat, reserved_clusters, dirent_size, empty_cluster):
102 
    "Store the contents of a directory"
103 
 
104 
    length = len(directory)
105 
    size = length * dirent_size
106 
    prev = -1
107 
    first = 0
108 
 
109 
    i = 0
110 
    rd = 0;
111 
    while (rd < size):
112 
        if (prev != -1):
113 
            empty_cluster = fat.index(0)
114 
            fat[empty_cluster] = 0xffff
115 
            fat[prev] = empty_cluster
116 
        else:
117 
            first = empty_cluster
118 
 
119 
        prev = empty_cluster
120 
 
121 
        data = ''
122 
        data_len = 0
123 
        while ((i < length) and (data_len < cluster_size)):
124 
            if (i == 0):
125 
                directory[i].cluster = empty_cluster
126 
 
127 
            data += directory[i].pack()
128 
            data_len += dirent_size
129 
            i += 1
130 
 
131 
        outf.seek(data_start + (empty_cluster - reserved_clusters) * cluster_size)
132 
        outf.write(data)
133 
        rd += len(data)
134 
 
135 
    return first, size
136 
 
137 
DIR_ENTRY = """little:
138 
    char name[8]               /* file name */
139 
    char ext[3]                /* file extension */
140 
    uint8_t attr               /* file attributes */
4389 svoboda 141 
    uint8_t lcase              /* file name case (NT extension) */
3535 svoboda 142 
    uint8_t ctime_fine         /* create time (fine resolution) */
143 
    uint16_t ctime             /* create time */
144 
    uint16_t cdate             /* create date */
145 
    uint16_t adate             /* access date */
146 
    padding[2]                 /* EA-index */
147 
    uint16_t mtime             /* modification time */
148 
    uint16_t mdate             /* modification date */
149 
    uint16_t cluster           /* first cluster */
150 
    uint32_t size              /* file size */
151 
"""
152 
 
153 
DOT_DIR_ENTRY = """little:
154 
    uint8_t signature          /* 0x2e signature */
155 
    char name[7]               /* empty */
156 
    char ext[3]                /* empty */
157 
    uint8_t attr               /* file attributes */
158 
    padding[1]                 /* reserved for NT */
159 
    uint8_t ctime_fine         /* create time (fine resolution) */
160 
    uint16_t ctime             /* create time */
161 
    uint16_t cdate             /* create date */
162 
    uint16_t adate             /* access date */
163 
    padding[2]                 /* EA-index */
164 
    uint16_t mtime             /* modification time */
165 
    uint16_t mdate             /* modification date */
166 
    uint16_t cluster           /* first cluster */
167 
    uint32_t size              /* file size */
168 
"""
169 
 
170 
DOTDOT_DIR_ENTRY = """little:
171 
    uint8_t signature[2]       /* 0x2e signature */
172 
    char name[6]               /* empty */
173 
    char ext[3]                /* empty */
174 
    uint8_t attr               /* file attributes */
175 
    padding[1]                 /* reserved for NT */
176 
    uint8_t ctime_fine         /* create time (fine resolution) */
177 
    uint16_t ctime             /* create time */
178 
    uint16_t cdate             /* create date */
179 
    uint16_t adate             /* access date */
180 
    padding[2]                 /* EA-index */
181 
    uint16_t mtime             /* modification time */
182 
    uint16_t mdate             /* modification date */
183 
    uint16_t cluster           /* first cluster */
184 
    uint32_t size              /* file size */
185 
"""
186 
 
187 
def mangle_fname(name):
188 
    # FIXME: filter illegal characters
189 
    parts = name.split('.')
190 
 
191 
    if (len(parts) > 0):
192 
        fname = parts[0]
193 
    else:
194 
        fname = ''
195 
 
196 
    return (fname + '          ').upper()[0:8]
197 
 
198 
def mangle_ext(name):
199 
    # FIXME: filter illegal characters
200 
    parts = name.split('.')
201 
 
202 
    if (len(parts) > 1):
203 
        ext = parts[1]
204 
    else:
205 
        ext = ''
206 
 
207 
    return (ext + '   ').upper()[0:3]
208 
 
209 
def create_dirent(name, directory, cluster, size):
210 
    dir_entry = xstruct.create(DIR_ENTRY)
211 
 
212 
    dir_entry.name = mangle_fname(name)
213 
    dir_entry.ext = mangle_ext(name)
214 
 
215 
    if (directory):
216 
        dir_entry.attr = 0x30
217 
    else:
218 
        dir_entry.attr = 0x20
219 
 
4389 svoboda 220 
    dir_entry.lcase = 0x18
3535 svoboda 221 
    dir_entry.ctime_fine = 0 # FIXME
222 
    dir_entry.ctime = 0 # FIXME
223 
    dir_entry.cdate = 0 # FIXME
224 
    dir_entry.adate = 0 # FIXME
225 
    dir_entry.mtime = 0 # FIXME
226 
    dir_entry.mdate = 0 # FIXME
227 
    dir_entry.cluster = cluster
228 
 
229 
    if (directory):
230 
        dir_entry.size = 0
231 
    else:
232 
        dir_entry.size = size
233 
 
234 
    return dir_entry
235 
 
236 
def create_dot_dirent(empty_cluster):
237 
    dir_entry = xstruct.create(DOT_DIR_ENTRY)
238 
 
239 
    dir_entry.signature = 0x2e
240 
    dir_entry.name = '       '
241 
    dir_entry.ext = '   '
242 
    dir_entry.attr = 0x10
243 
 
244 
    dir_entry.ctime_fine = 0 # FIXME
245 
    dir_entry.ctime = 0 # FIXME
246 
    dir_entry.cdate = 0 # FIXME
247 
    dir_entry.adate = 0 # FIXME
248 
    dir_entry.mtime = 0 # FIXME
249 
    dir_entry.mdate = 0 # FIXME
250 
    dir_entry.cluster = empty_cluster
251 
    dir_entry.size = 0
252 
 
253 
    return dir_entry
254 
 
255 
def create_dotdot_dirent(parent_cluster):
256 
    dir_entry = xstruct.create(DOTDOT_DIR_ENTRY)
257 
 
258 
    dir_entry.signature = [0x2e, 0x2e]
259 
    dir_entry.name = '      '
260 
    dir_entry.ext = '   '
261 
    dir_entry.attr = 0x10
262 
 
263 
    dir_entry.ctime_fine = 0 # FIXME
264 
    dir_entry.ctime = 0 # FIXME
265 
    dir_entry.cdate = 0 # FIXME
266 
    dir_entry.adate = 0 # FIXME
267 
    dir_entry.mtime = 0 # FIXME
268 
    dir_entry.mdate = 0 # FIXME
269 
    dir_entry.cluster = parent_cluster
270 
    dir_entry.size = 0
271 
 
272 
    return dir_entry
273 
 
274 
def recursion(head, root, outf, cluster_size, root_start, data_start, fat, reserved_clusters, dirent_size, parent_cluster):
275 
    "Recursive directory walk"
276 
 
277 
    directory = []
278 
 
279 
    if (not head):
280 
        # Directory cluster preallocation
281 
        empty_cluster = fat.index(0)
282 
        fat[empty_cluster] = 0xffff
283 
 
284 
        directory.append(create_dot_dirent(empty_cluster))
285 
        directory.append(create_dotdot_dirent(parent_cluster))
286 
    else:
287 
        empty_cluster = 0
288 
 
289 
    for name in os.listdir(root):
290 
        canon = os.path.join(root, name)
291 
 
3561 svoboda 292 
        if (os.path.isfile(canon) and (not name in exclude_names)):
3535 svoboda 293 
            rv = write_file(canon, outf, cluster_size, data_start, fat, reserved_clusters)
294 
            directory.append(create_dirent(name, False, rv[0], rv[1]))
295 
 
3561 svoboda 296 
        if (os.path.isdir(canon) and (not name in exclude_names)):
3535 svoboda 297 
            rv = recursion(False, canon, outf, cluster_size, root_start, data_start, fat, reserved_clusters, dirent_size, empty_cluster)
298 
            directory.append(create_dirent(name, True, rv[0], rv[1]))
299 
 
300 
    if (head):
301 
        outf.seek(root_start)
302 
        for dir_entry in directory:
303 
            outf.write(dir_entry.pack())
304 
    else:
305 
        return write_directory(directory, outf, cluster_size, data_start, fat, reserved_clusters, dirent_size, empty_cluster)
306 
 
3264 decky 307 
BOOT_SECTOR = """little:
308 
    uint8_t jmp[3]             /* jump instruction */
309 
    char oem[8]                /* OEM string */
310 
    uint16_t sector            /* bytes per sector */
311 
    uint8_t cluster            /* sectors per cluster */
312 
    uint16_t reserved          /* reserved sectors */
313 
    uint8_t fats               /* number of FATs */
314 
    uint16_t rootdir           /* root directory entries */
315 
    uint16_t sectors           /* total number of sectors */
316 
    uint8_t descriptor         /* media descriptor */
317 
    uint16_t fat_sectors       /* sectors per single FAT */
318 
    uint16_t track_sectors     /* sectors per track */
319 
    uint16_t heads             /* number of heads */
320 
    uint32_t hidden            /* hidden sectors */
321 
    uint32_t sectors_big       /* total number of sectors (if sectors == 0) */
322 
 
323 
    /* Extended BIOS Parameter Block */
324 
    uint8_t drive              /* physical drive number */
325 
    padding[1]                 /* reserved (current head) */
326 
    uint8_t extboot_signature  /* extended boot signature */
327 
    uint32_t serial            /* serial number */
328 
    char label[11]             /* volume label */
329 
    char fstype[8]             /* filesystem type */
330 
    padding[448]               /* boot code */
331 
    uint8_t boot_signature[2]  /* boot signature */
332 
"""
333 
 
3535 svoboda 334 
EMPTY_SECTOR = """little:
335 
    padding[512]               /* empty sector data */
336 
"""
337 
 
338 
FAT_ENTRY = """little:
339 
    uint16_t next              /* FAT16 entry */
340 
"""
341 
 
3264 decky 342 
def usage(prname):
343 
    "Print usage syntax"
344 
    print prname + " <PATH> <IMAGE>"
345 
 
346 
def main():
347 
    if (len(sys.argv) < 3):
348 
        usage(sys.argv[0])
349 
        return
350 
 
351 
    path = os.path.abspath(sys.argv[1])
352 
    if (not os.path.isdir(path)):
353 
        print "<PATH> must be a directory"
354 
        return
355 
 
3535 svoboda 356 
    fat16_clusters = 4096
357 
 
358 
    sector_size = 512
359 
    cluster_size = 4096
360 
    dirent_size = 32
361 
    fatent_size = 2
362 
    fat_count = 2
363 
    reserved_clusters = 2
364 
 
365 
    # Make sure the filesystem is large enought for FAT16
366 
    size = subtree_size(path, cluster_size, dirent_size) + reserved_clusters * cluster_size
367 
    while (size / cluster_size < fat16_clusters):
3561 svoboda 368 
        if (cluster_size > sector_size):
3535 svoboda 369 
            cluster_size /= 2
370 
            size = subtree_size(path, cluster_size, dirent_size) + reserved_clusters * cluster_size
371 
        else:
372 
            size = fat16_clusters * cluster_size + reserved_clusters * cluster_size
373 
 
374 
    root_size = align_up(root_entries(path) * dirent_size, cluster_size)
375 
 
376 
    fat_size = align_up(align_up(size, cluster_size) / cluster_size * fatent_size, sector_size)
377 
 
378 
    sectors = (cluster_size + fat_count * fat_size + root_size + size) / sector_size
379 
    root_start = cluster_size + fat_count * fat_size
380 
    data_start = root_start + root_size
381 
 
3264 decky 382 
    outf = file(sys.argv[2], "w")
383 
 
384 
    boot_sector = xstruct.create(BOOT_SECTOR)
385 
    boot_sector.jmp = [0xEB, 0x3C, 0x90]
386 
    boot_sector.oem = "MSDOS5.0"
3535 svoboda 387 
    boot_sector.sector = sector_size
388 
    boot_sector.cluster = cluster_size / sector_size
389 
    boot_sector.reserved = cluster_size / sector_size
390 
    boot_sector.fats = fat_count
391 
    boot_sector.rootdir = root_size / dirent_size
392 
    if (sectors <= 65535):
393 
        boot_sector.sectors = sectors
394 
    else:
395 
        boot_sector.sectors = 0
3264 decky 396 
    boot_sector.descriptor = 0xF8
3535 svoboda 397 
    boot_sector.fat_sectors = fat_size / sector_size
398 
    boot_sector.track_sectors = 63
399 
    boot_sector.heads = 6
3264 decky 400 
    boot_sector.hidden = 0
3535 svoboda 401 
    if (sectors > 65535):
402 
        boot_sector.sectors_big = sectors
403 
    else:
404 
        boot_sector.sectors_big = 0
3264 decky 405 
 
3535 svoboda 406 
    boot_sector.drive = 0x80
3264 decky 407 
    boot_sector.extboot_signature = 0x29
3535 svoboda 408 
    boot_sector.serial = random.randint(0, 0x7fffffff)
3264 decky 409 
    boot_sector.label = "HELENOS"
410 
    boot_sector.fstype = "FAT16   "
411 
    boot_sector.boot_signature = [0x55, 0xAA]
412 
 
413 
    outf.write(boot_sector.pack())
414 
 
3535 svoboda 415 
    empty_sector = xstruct.create(EMPTY_SECTOR)
416 
 
417 
    # Reserved sectors
418 
    for i in range(1, cluster_size / sector_size):
419 
        outf.write(empty_sector.pack())
420 
 
421 
    # FAT tables
422 
    for i in range(0, fat_count):
423 
        for j in range(0, fat_size / sector_size):
424 
            outf.write(empty_sector.pack())
425 
 
426 
    # Root directory
427 
    for i in range(0, root_size / sector_size):
428 
        outf.write(empty_sector.pack())
429 
 
430 
    # Data
431 
    for i in range(0, size / sector_size):
432 
        outf.write(empty_sector.pack())
433 
 
434 
    fat = array.array('L', [0] * (fat_size / fatent_size))
435 
    fat[0] = 0xfff8
436 
    fat[1] = 0xffff
437 
 
438 
    recursion(True, path, outf, cluster_size, root_start, data_start, fat, reserved_clusters, dirent_size, 0)
439 
 
440 
    # Store FAT
441 
    fat_entry = xstruct.create(FAT_ENTRY)
442 
    for i in range(0, fat_count):
443 
        outf.seek(cluster_size + i * fat_size)
444 
        for j in range(0, fat_size / fatent_size):
445 
            fat_entry.next = fat[j]
446 
            outf.write(fat_entry.pack())
447 
 
3264 decky 448 
    outf.close()
449 
 
450 
if __name__ == '__main__':
451 
    main()