1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
|
"""distutils.command.bdist_wininst
Implements the Distutils 'bdist_wininst' command: create a windows installer
exe-program."""
# created 2000/06/02, Thomas Heller
__revision__ = "$Id$"
import sys, os, string
from distutils.core import Command
from distutils.util import get_platform
from distutils.dir_util import create_tree, remove_tree
from distutils.errors import *
class bdist_wininst (Command):
description = "create an executable installer for MS Windows"
user_options = [('bdist-dir=', None,
"temporary directory for creating the distribution"),
('keep-temp', 'k',
"keep the pseudo-installation tree around after " +
"creating the distribution archive"),
('target-version=', 'v',
"require a specific python version" +
" on the target system"),
('no-target-compile', 'c',
"do not compile .py to .pyc on the target system"),
('no-target-optimize', 'o',
"do not compile .py to .pyo (optimized)"
"on the target system"),
('dist-dir=', 'd',
"directory to put final built distributions in"),
('bitmap=', 'b',
"bitmap to use for the installer instead of python-powered logo"),
('title=', 't',
"title to display on the installer background instead of default"),
('skip-build', None,
"skip rebuilding everything (for testing/debugging)"),
('install-script=', None,
"installation script to be run after installation"
" or before deinstallation"),
]
boolean_options = ['keep-temp']
def initialize_options (self):
self.bdist_dir = None
self.keep_temp = 0
self.no_target_compile = 0
self.no_target_optimize = 0
self.target_version = None
self.dist_dir = None
self.bitmap = None
self.title = None
self.skip_build = 0
self.install_script = None
# initialize_options()
def finalize_options (self):
if self.bdist_dir is None:
bdist_base = self.get_finalized_command('bdist').bdist_base
self.bdist_dir = os.path.join(bdist_base, 'wininst')
if not self.target_version:
self.target_version = ""
if self.distribution.has_ext_modules():
short_version = sys.version[:3]
if self.target_version and self.target_version != short_version:
raise DistutilsOptionError, \
"target version can only be" + short_version
self.target_version = short_version
self.set_undefined_options('bdist', ('dist_dir', 'dist_dir'))
if self.install_script and \
self.install_script not in self.distribution.scripts:
raise DistutilsOptionError, \
"install_script '%s' not found in scripts" % self.install_script
# finalize_options()
def run (self):
if (sys.platform != "win32" and
(self.distribution.has_ext_modules() or
self.distribution.has_c_libraries())):
raise DistutilsPlatformError \
("distribution contains extensions and/or C libraries; "
"must be compiled on a Windows 32 platform")
if not self.skip_build:
self.run_command('build')
install = self.reinitialize_command('install')
install.root = self.bdist_dir
install.skip_build = self.skip_build
install_lib = self.reinitialize_command('install_lib')
# we do not want to include pyc or pyo files
install_lib.compile = 0
install_lib.optimize = 0
# Use a custom scheme for the zip-file, because we have to decide
# at installation time which scheme to use.
for key in ('purelib', 'platlib', 'headers', 'scripts', 'data'):
value = string.upper(key)
if key == 'headers':
value = value + '/Include/$dist_name'
setattr(install,
'install_' + key,
value)
self.announce("installing to %s" % self.bdist_dir)
install.ensure_finalized()
# avoid warning of 'install_lib' about installing
# into a directory not in sys.path
sys.path.insert(0, os.path.join(self.bdist_dir, 'PURELIB'))
install.run()
del sys.path[0]
# And make an archive relative to the root of the
# pseudo-installation tree.
from tempfile import mktemp
archive_basename = mktemp()
fullname = self.distribution.get_fullname()
arcname = self.make_archive(archive_basename, "zip",
root_dir=self.bdist_dir)
# create an exe containing the zip-file
self.create_exe(arcname, fullname, self.bitmap)
# remove the zip-file again
self.announce("removing temporary file '%s'" % arcname)
os.remove(arcname)
if not self.keep_temp:
remove_tree(self.bdist_dir, self.verbose, self.dry_run)
# run()
def get_inidata (self):
# Return data describing the installation.
lines = []
metadata = self.distribution.metadata
# Write the [metadata] section. Values are written with
# repr()[1:-1], so they do not contain unprintable characters, and
# are not surrounded by quote chars.
lines.append("[metadata]")
# 'info' will be displayed in the installer's dialog box,
# describing the items to be installed.
info = (metadata.long_description or '') + '\n'
for name in ["author", "author_email", "description", "maintainer",
"maintainer_email", "name", "url", "version"]:
data = getattr(metadata, name, "")
if data:
info = info + ("\n %s: %s" % \
(string.capitalize(name), data))
lines.append("%s=%s" % (name, repr(data)[1:-1]))
# The [setup] section contains entries controlling
# the installer runtime.
lines.append("\n[Setup]")
if self.install_script:
lines.append("install_script=%s" % self.install_script)
lines.append("info=%s" % repr(info)[1:-1])
lines.append("target_compile=%d" % (not self.no_target_compile))
lines.append("target_optimize=%d" % (not self.no_target_optimize))
if self.target_version:
lines.append("target_version=%s" % self.target_version)
title = self.title or self.distribution.get_fullname()
lines.append("title=%s" % repr(title)[1:-1])
import time
import distutils
build_info = "Build %s with distutils-%s" % \
(time.ctime(time.time()), distutils.__version__)
lines.append("build_info=%s" % build_info)
return string.join(lines, "\n")
# get_inidata()
def create_exe (self, arcname, fullname, bitmap=None):
import struct
self.mkpath(self.dist_dir)
cfgdata = self.get_inidata()
if self.target_version:
# if we create an installer for a specific python version,
# it's better to include this in the name
installer_name = os.path.join(self.dist_dir,
"%s.win32-py%s.exe" %
(fullname, self.target_version))
else:
installer_name = os.path.join(self.dist_dir,
"%s.win32.exe" % fullname)
self.announce("creating %s" % installer_name)
if bitmap:
bitmapdata = open(bitmap, "rb").read()
bitmaplen = len(bitmapdata)
else:
bitmaplen = 0
file = open(installer_name, "wb")
file.write(self.get_exe_bytes())
if bitmap:
file.write(bitmapdata)
file.write(cfgdata)
header = struct.pack("<iii",
0x1234567A, # tag
len(cfgdata), # length
bitmaplen, # number of bytes in bitmap
)
file.write(header)
file.write(open(arcname, "rb").read())
# create_exe()
def get_exe_bytes (self):
import base64
return base64.decodestring(EXEDATA)
# class bdist_wininst
if __name__ == '__main__':
# recreate EXEDATA from wininst.exe by rewriting this file
# If you want to do this at home, you should:
# - checkout the *distutils* source code
# (see also http://sourceforge.net/cvs/?group_id=5470)
# by doing:
# cvs -d:pserver:anonymous@cvs.python.sourceforge.net:/cvsroot/python login
# and
# cvs -z3 -d:pserver:anonymous@cvs.python.sourceforge.net:/cvsroot/python co distutils
# - Built wininst.exe from the MSVC project file distutils/misc/wininst.dsw
# - Execute this file (distutils/distutils/command/bdist_wininst.py)
import re, base64
moddata = open("bdist_wininst.py", "r").read()
exedata = open("../../misc/wininst.exe", "rb").read()
print "wininst.exe length is %d bytes" % len(exedata)
print "wininst.exe encoded length is %d bytes" % len(base64.encodestring(exedata))
exp = re.compile('EXE'+'DATA = """\\\\(\n.*)*\n"""', re.M)
data = exp.sub('EXE' + 'DATA = """\\\\\n%s"""' %
base64.encodestring(exedata), moddata)
open("bdist_wininst.py", "w").write(data)
print "bdist_wininst.py recreated"
EXEDATA = """\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"""
# --- EOF ---
|