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pytype: add the couple annotations for pytype to understands the lrunode...
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1 1 # util.py - Mercurial utility functions and platform specific implementations
2 2 #
3 3 # Copyright 2005 K. Thananchayan <thananck@yahoo.com>
4 4 # Copyright 2005-2007 Olivia Mackall <olivia@selenic.com>
5 5 # Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com>
6 6 #
7 7 # This software may be used and distributed according to the terms of the
8 8 # GNU General Public License version 2 or any later version.
9 9
10 10 """Mercurial utility functions and platform specific implementations.
11 11
12 12 This contains helper routines that are independent of the SCM core and
13 13 hide platform-specific details from the core.
14 14 """
15 15
16 16
17 17 import abc
18 18 import collections
19 19 import contextlib
20 20 import errno
21 21 import gc
22 22 import hashlib
23 23 import io
24 24 import itertools
25 25 import locale
26 26 import mmap
27 27 import os
28 28 import pickle # provides util.pickle symbol
29 29 import re as remod
30 30 import shutil
31 31 import stat
32 32 import sys
33 33 import time
34 34 import traceback
35 35 import warnings
36 36
37 37 from typing import (
38 38 Iterable,
39 39 Iterator,
40 40 List,
41 41 Optional,
42 42 Tuple,
43 43 )
44 44
45 45 from .node import hex
46 46 from .thirdparty import attr
47 47 from .pycompat import (
48 48 open,
49 49 )
50 50 from hgdemandimport import tracing
51 51 from . import (
52 52 encoding,
53 53 error,
54 54 i18n,
55 55 policy,
56 56 pycompat,
57 57 urllibcompat,
58 58 )
59 59 from .utils import (
60 60 compression,
61 61 hashutil,
62 62 procutil,
63 63 stringutil,
64 64 )
65 65
66 66 # keeps pyflakes happy
67 67 assert [
68 68 Iterable,
69 69 Iterator,
70 70 List,
71 71 Optional,
72 72 Tuple,
73 73 ]
74 74
75 75
76 76 base85 = policy.importmod('base85')
77 77 osutil = policy.importmod('osutil')
78 78
79 79 b85decode = base85.b85decode
80 80 b85encode = base85.b85encode
81 81
82 82 cookielib = pycompat.cookielib
83 83 httplib = pycompat.httplib
84 84 safehasattr = pycompat.safehasattr
85 85 socketserver = pycompat.socketserver
86 86 bytesio = io.BytesIO
87 87 # TODO deprecate stringio name, as it is a lie on Python 3.
88 88 stringio = bytesio
89 89 xmlrpclib = pycompat.xmlrpclib
90 90
91 91 httpserver = urllibcompat.httpserver
92 92 urlerr = urllibcompat.urlerr
93 93 urlreq = urllibcompat.urlreq
94 94
95 95 # workaround for win32mbcs
96 96 _filenamebytestr = pycompat.bytestr
97 97
98 98 if pycompat.iswindows:
99 99 from . import windows as platform
100 100 else:
101 101 from . import posix as platform
102 102
103 103 _ = i18n._
104 104
105 105 abspath = platform.abspath
106 106 bindunixsocket = platform.bindunixsocket
107 107 cachestat = platform.cachestat
108 108 checkexec = platform.checkexec
109 109 checklink = platform.checklink
110 110 copymode = platform.copymode
111 111 expandglobs = platform.expandglobs
112 112 getfsmountpoint = platform.getfsmountpoint
113 113 getfstype = platform.getfstype
114 114 get_password = platform.get_password
115 115 groupmembers = platform.groupmembers
116 116 groupname = platform.groupname
117 117 isexec = platform.isexec
118 118 isowner = platform.isowner
119 119 listdir = osutil.listdir
120 120 localpath = platform.localpath
121 121 lookupreg = platform.lookupreg
122 122 makedir = platform.makedir
123 123 nlinks = platform.nlinks
124 124 normpath = platform.normpath
125 125 normcase = platform.normcase
126 126 normcasespec = platform.normcasespec
127 127 normcasefallback = platform.normcasefallback
128 128 openhardlinks = platform.openhardlinks
129 129 oslink = platform.oslink
130 130 parsepatchoutput = platform.parsepatchoutput
131 131 pconvert = platform.pconvert
132 132 poll = platform.poll
133 133 posixfile = platform.posixfile
134 134 readlink = platform.readlink
135 135 rename = platform.rename
136 136 removedirs = platform.removedirs
137 137 samedevice = platform.samedevice
138 138 samefile = platform.samefile
139 139 samestat = platform.samestat
140 140 setflags = platform.setflags
141 141 split = platform.split
142 142 statfiles = getattr(osutil, 'statfiles', platform.statfiles)
143 143 statisexec = platform.statisexec
144 144 statislink = platform.statislink
145 145 umask = platform.umask
146 146 unlink = platform.unlink
147 147 username = platform.username
148 148
149 149
150 150 def setumask(val: int) -> None:
151 151 '''updates the umask. used by chg server'''
152 152 if pycompat.iswindows:
153 153 return
154 154 os.umask(val)
155 155 global umask
156 156 platform.umask = umask = val & 0o777
157 157
158 158
159 159 # small compat layer
160 160 compengines = compression.compengines
161 161 SERVERROLE = compression.SERVERROLE
162 162 CLIENTROLE = compression.CLIENTROLE
163 163
164 164 # Python compatibility
165 165
166 166 _notset = object()
167 167
168 168
169 169 def bitsfrom(container):
170 170 bits = 0
171 171 for bit in container:
172 172 bits |= bit
173 173 return bits
174 174
175 175
176 176 # python 2.6 still have deprecation warning enabled by default. We do not want
177 177 # to display anything to standard user so detect if we are running test and
178 178 # only use python deprecation warning in this case.
179 179 _dowarn = bool(encoding.environ.get(b'HGEMITWARNINGS'))
180 180 if _dowarn:
181 181 # explicitly unfilter our warning for python 2.7
182 182 #
183 183 # The option of setting PYTHONWARNINGS in the test runner was investigated.
184 184 # However, module name set through PYTHONWARNINGS was exactly matched, so
185 185 # we cannot set 'mercurial' and have it match eg: 'mercurial.scmutil'. This
186 186 # makes the whole PYTHONWARNINGS thing useless for our usecase.
187 187 warnings.filterwarnings('default', '', DeprecationWarning, 'mercurial')
188 188 warnings.filterwarnings('default', '', DeprecationWarning, 'hgext')
189 189 warnings.filterwarnings('default', '', DeprecationWarning, 'hgext3rd')
190 190 if _dowarn:
191 191 # silence warning emitted by passing user string to re.sub()
192 192 warnings.filterwarnings(
193 193 'ignore', 'bad escape', DeprecationWarning, 'mercurial'
194 194 )
195 195 warnings.filterwarnings(
196 196 'ignore', 'invalid escape sequence', DeprecationWarning, 'mercurial'
197 197 )
198 198 # TODO: reinvent imp.is_frozen()
199 199 warnings.filterwarnings(
200 200 'ignore',
201 201 'the imp module is deprecated',
202 202 DeprecationWarning,
203 203 'mercurial',
204 204 )
205 205
206 206
207 207 def nouideprecwarn(msg, version, stacklevel=1):
208 208 """Issue an python native deprecation warning
209 209
210 210 This is a noop outside of tests, use 'ui.deprecwarn' when possible.
211 211 """
212 212 if _dowarn:
213 213 msg += (
214 214 b"\n(compatibility will be dropped after Mercurial-%s,"
215 215 b" update your code.)"
216 216 ) % version
217 217 warnings.warn(pycompat.sysstr(msg), DeprecationWarning, stacklevel + 1)
218 218 # on python 3 with chg, we will need to explicitly flush the output
219 219 sys.stderr.flush()
220 220
221 221
222 222 DIGESTS = {
223 223 b'md5': hashlib.md5,
224 224 b'sha1': hashutil.sha1,
225 225 b'sha512': hashlib.sha512,
226 226 }
227 227 # List of digest types from strongest to weakest
228 228 DIGESTS_BY_STRENGTH = [b'sha512', b'sha1', b'md5']
229 229
230 230 for k in DIGESTS_BY_STRENGTH:
231 231 assert k in DIGESTS
232 232
233 233
234 234 class digester:
235 235 """helper to compute digests.
236 236
237 237 This helper can be used to compute one or more digests given their name.
238 238
239 239 >>> d = digester([b'md5', b'sha1'])
240 240 >>> d.update(b'foo')
241 241 >>> [k for k in sorted(d)]
242 242 ['md5', 'sha1']
243 243 >>> d[b'md5']
244 244 'acbd18db4cc2f85cedef654fccc4a4d8'
245 245 >>> d[b'sha1']
246 246 '0beec7b5ea3f0fdbc95d0dd47f3c5bc275da8a33'
247 247 >>> digester.preferred([b'md5', b'sha1'])
248 248 'sha1'
249 249 """
250 250
251 251 def __init__(self, digests, s=b''):
252 252 self._hashes = {}
253 253 for k in digests:
254 254 if k not in DIGESTS:
255 255 raise error.Abort(_(b'unknown digest type: %s') % k)
256 256 self._hashes[k] = DIGESTS[k]()
257 257 if s:
258 258 self.update(s)
259 259
260 260 def update(self, data):
261 261 for h in self._hashes.values():
262 262 h.update(data)
263 263
264 264 def __getitem__(self, key):
265 265 if key not in DIGESTS:
266 266 raise error.Abort(_(b'unknown digest type: %s') % k)
267 267 return hex(self._hashes[key].digest())
268 268
269 269 def __iter__(self):
270 270 return iter(self._hashes)
271 271
272 272 @staticmethod
273 273 def preferred(supported):
274 274 """returns the strongest digest type in both supported and DIGESTS."""
275 275
276 276 for k in DIGESTS_BY_STRENGTH:
277 277 if k in supported:
278 278 return k
279 279 return None
280 280
281 281
282 282 class digestchecker:
283 283 """file handle wrapper that additionally checks content against a given
284 284 size and digests.
285 285
286 286 d = digestchecker(fh, size, {'md5': '...'})
287 287
288 288 When multiple digests are given, all of them are validated.
289 289 """
290 290
291 291 def __init__(self, fh, size, digests):
292 292 self._fh = fh
293 293 self._size = size
294 294 self._got = 0
295 295 self._digests = dict(digests)
296 296 self._digester = digester(self._digests.keys())
297 297
298 298 def read(self, length=-1):
299 299 content = self._fh.read(length)
300 300 self._digester.update(content)
301 301 self._got += len(content)
302 302 return content
303 303
304 304 def validate(self):
305 305 if self._size != self._got:
306 306 raise error.Abort(
307 307 _(b'size mismatch: expected %d, got %d')
308 308 % (self._size, self._got)
309 309 )
310 310 for k, v in self._digests.items():
311 311 if v != self._digester[k]:
312 312 # i18n: first parameter is a digest name
313 313 raise error.Abort(
314 314 _(b'%s mismatch: expected %s, got %s')
315 315 % (k, v, self._digester[k])
316 316 )
317 317
318 318
319 319 try:
320 320 buffer = buffer # pytype: disable=name-error
321 321 except NameError:
322 322
323 323 def buffer(sliceable, offset=0, length=None):
324 324 if length is not None:
325 325 return memoryview(sliceable)[offset : offset + length]
326 326 return memoryview(sliceable)[offset:]
327 327
328 328
329 329 _chunksize = 4096
330 330
331 331
332 332 class bufferedinputpipe:
333 333 """a manually buffered input pipe
334 334
335 335 Python will not let us use buffered IO and lazy reading with 'polling' at
336 336 the same time. We cannot probe the buffer state and select will not detect
337 337 that data are ready to read if they are already buffered.
338 338
339 339 This class let us work around that by implementing its own buffering
340 340 (allowing efficient readline) while offering a way to know if the buffer is
341 341 empty from the output (allowing collaboration of the buffer with polling).
342 342
343 343 This class lives in the 'util' module because it makes use of the 'os'
344 344 module from the python stdlib.
345 345 """
346 346
347 347 def __new__(cls, fh):
348 348 # If we receive a fileobjectproxy, we need to use a variation of this
349 349 # class that notifies observers about activity.
350 350 if isinstance(fh, fileobjectproxy):
351 351 cls = observedbufferedinputpipe
352 352
353 353 return super(bufferedinputpipe, cls).__new__(cls)
354 354
355 355 def __init__(self, input):
356 356 self._input = input
357 357 self._buffer = []
358 358 self._eof = False
359 359 self._lenbuf = 0
360 360
361 361 @property
362 362 def hasbuffer(self):
363 363 """True is any data is currently buffered
364 364
365 365 This will be used externally a pre-step for polling IO. If there is
366 366 already data then no polling should be set in place."""
367 367 return bool(self._buffer)
368 368
369 369 @property
370 370 def closed(self):
371 371 return self._input.closed
372 372
373 373 def fileno(self):
374 374 return self._input.fileno()
375 375
376 376 def close(self):
377 377 return self._input.close()
378 378
379 379 def read(self, size):
380 380 while (not self._eof) and (self._lenbuf < size):
381 381 self._fillbuffer()
382 382 return self._frombuffer(size)
383 383
384 384 def unbufferedread(self, size):
385 385 if not self._eof and self._lenbuf == 0:
386 386 self._fillbuffer(max(size, _chunksize))
387 387 return self._frombuffer(min(self._lenbuf, size))
388 388
389 389 def readline(self, *args, **kwargs):
390 390 if len(self._buffer) > 1:
391 391 # this should not happen because both read and readline end with a
392 392 # _frombuffer call that collapse it.
393 393 self._buffer = [b''.join(self._buffer)]
394 394 self._lenbuf = len(self._buffer[0])
395 395 lfi = -1
396 396 if self._buffer:
397 397 lfi = self._buffer[-1].find(b'\n')
398 398 while (not self._eof) and lfi < 0:
399 399 self._fillbuffer()
400 400 if self._buffer:
401 401 lfi = self._buffer[-1].find(b'\n')
402 402 size = lfi + 1
403 403 if lfi < 0: # end of file
404 404 size = self._lenbuf
405 405 elif len(self._buffer) > 1:
406 406 # we need to take previous chunks into account
407 407 size += self._lenbuf - len(self._buffer[-1])
408 408 return self._frombuffer(size)
409 409
410 410 def _frombuffer(self, size):
411 411 """return at most 'size' data from the buffer
412 412
413 413 The data are removed from the buffer."""
414 414 if size == 0 or not self._buffer:
415 415 return b''
416 416 buf = self._buffer[0]
417 417 if len(self._buffer) > 1:
418 418 buf = b''.join(self._buffer)
419 419
420 420 data = buf[:size]
421 421 buf = buf[len(data) :]
422 422 if buf:
423 423 self._buffer = [buf]
424 424 self._lenbuf = len(buf)
425 425 else:
426 426 self._buffer = []
427 427 self._lenbuf = 0
428 428 return data
429 429
430 430 def _fillbuffer(self, size=_chunksize):
431 431 """read data to the buffer"""
432 432 data = os.read(self._input.fileno(), size)
433 433 if not data:
434 434 self._eof = True
435 435 else:
436 436 self._lenbuf += len(data)
437 437 self._buffer.append(data)
438 438
439 439 return data
440 440
441 441
442 442 def mmapread(fp, size=None):
443 443 if size == 0:
444 444 # size of 0 to mmap.mmap() means "all data"
445 445 # rather than "zero bytes", so special case that.
446 446 return b''
447 447 elif size is None:
448 448 size = 0
449 449 fd = getattr(fp, 'fileno', lambda: fp)()
450 450 try:
451 451 return mmap.mmap(fd, size, access=mmap.ACCESS_READ)
452 452 except ValueError:
453 453 # Empty files cannot be mmapped, but mmapread should still work. Check
454 454 # if the file is empty, and if so, return an empty buffer.
455 455 if os.fstat(fd).st_size == 0:
456 456 return b''
457 457 raise
458 458
459 459
460 460 class fileobjectproxy:
461 461 """A proxy around file objects that tells a watcher when events occur.
462 462
463 463 This type is intended to only be used for testing purposes. Think hard
464 464 before using it in important code.
465 465 """
466 466
467 467 __slots__ = (
468 468 '_orig',
469 469 '_observer',
470 470 )
471 471
472 472 def __init__(self, fh, observer):
473 473 object.__setattr__(self, '_orig', fh)
474 474 object.__setattr__(self, '_observer', observer)
475 475
476 476 def __getattribute__(self, name):
477 477 ours = {
478 478 '_observer',
479 479 # IOBase
480 480 'close',
481 481 # closed if a property
482 482 'fileno',
483 483 'flush',
484 484 'isatty',
485 485 'readable',
486 486 'readline',
487 487 'readlines',
488 488 'seek',
489 489 'seekable',
490 490 'tell',
491 491 'truncate',
492 492 'writable',
493 493 'writelines',
494 494 # RawIOBase
495 495 'read',
496 496 'readall',
497 497 'readinto',
498 498 'write',
499 499 # BufferedIOBase
500 500 # raw is a property
501 501 'detach',
502 502 # read defined above
503 503 'read1',
504 504 # readinto defined above
505 505 # write defined above
506 506 }
507 507
508 508 # We only observe some methods.
509 509 if name in ours:
510 510 return object.__getattribute__(self, name)
511 511
512 512 return getattr(object.__getattribute__(self, '_orig'), name)
513 513
514 514 def __nonzero__(self):
515 515 return bool(object.__getattribute__(self, '_orig'))
516 516
517 517 __bool__ = __nonzero__
518 518
519 519 def __delattr__(self, name):
520 520 return delattr(object.__getattribute__(self, '_orig'), name)
521 521
522 522 def __setattr__(self, name, value):
523 523 return setattr(object.__getattribute__(self, '_orig'), name, value)
524 524
525 525 def __iter__(self):
526 526 return object.__getattribute__(self, '_orig').__iter__()
527 527
528 528 def _observedcall(self, name, *args, **kwargs):
529 529 # Call the original object.
530 530 orig = object.__getattribute__(self, '_orig')
531 531 res = getattr(orig, name)(*args, **kwargs)
532 532
533 533 # Call a method on the observer of the same name with arguments
534 534 # so it can react, log, etc.
535 535 observer = object.__getattribute__(self, '_observer')
536 536 fn = getattr(observer, name, None)
537 537 if fn:
538 538 fn(res, *args, **kwargs)
539 539
540 540 return res
541 541
542 542 def close(self, *args, **kwargs):
543 543 return object.__getattribute__(self, '_observedcall')(
544 544 'close', *args, **kwargs
545 545 )
546 546
547 547 def fileno(self, *args, **kwargs):
548 548 return object.__getattribute__(self, '_observedcall')(
549 549 'fileno', *args, **kwargs
550 550 )
551 551
552 552 def flush(self, *args, **kwargs):
553 553 return object.__getattribute__(self, '_observedcall')(
554 554 'flush', *args, **kwargs
555 555 )
556 556
557 557 def isatty(self, *args, **kwargs):
558 558 return object.__getattribute__(self, '_observedcall')(
559 559 'isatty', *args, **kwargs
560 560 )
561 561
562 562 def readable(self, *args, **kwargs):
563 563 return object.__getattribute__(self, '_observedcall')(
564 564 'readable', *args, **kwargs
565 565 )
566 566
567 567 def readline(self, *args, **kwargs):
568 568 return object.__getattribute__(self, '_observedcall')(
569 569 'readline', *args, **kwargs
570 570 )
571 571
572 572 def readlines(self, *args, **kwargs):
573 573 return object.__getattribute__(self, '_observedcall')(
574 574 'readlines', *args, **kwargs
575 575 )
576 576
577 577 def seek(self, *args, **kwargs):
578 578 return object.__getattribute__(self, '_observedcall')(
579 579 'seek', *args, **kwargs
580 580 )
581 581
582 582 def seekable(self, *args, **kwargs):
583 583 return object.__getattribute__(self, '_observedcall')(
584 584 'seekable', *args, **kwargs
585 585 )
586 586
587 587 def tell(self, *args, **kwargs):
588 588 return object.__getattribute__(self, '_observedcall')(
589 589 'tell', *args, **kwargs
590 590 )
591 591
592 592 def truncate(self, *args, **kwargs):
593 593 return object.__getattribute__(self, '_observedcall')(
594 594 'truncate', *args, **kwargs
595 595 )
596 596
597 597 def writable(self, *args, **kwargs):
598 598 return object.__getattribute__(self, '_observedcall')(
599 599 'writable', *args, **kwargs
600 600 )
601 601
602 602 def writelines(self, *args, **kwargs):
603 603 return object.__getattribute__(self, '_observedcall')(
604 604 'writelines', *args, **kwargs
605 605 )
606 606
607 607 def read(self, *args, **kwargs):
608 608 return object.__getattribute__(self, '_observedcall')(
609 609 'read', *args, **kwargs
610 610 )
611 611
612 612 def readall(self, *args, **kwargs):
613 613 return object.__getattribute__(self, '_observedcall')(
614 614 'readall', *args, **kwargs
615 615 )
616 616
617 617 def readinto(self, *args, **kwargs):
618 618 return object.__getattribute__(self, '_observedcall')(
619 619 'readinto', *args, **kwargs
620 620 )
621 621
622 622 def write(self, *args, **kwargs):
623 623 return object.__getattribute__(self, '_observedcall')(
624 624 'write', *args, **kwargs
625 625 )
626 626
627 627 def detach(self, *args, **kwargs):
628 628 return object.__getattribute__(self, '_observedcall')(
629 629 'detach', *args, **kwargs
630 630 )
631 631
632 632 def read1(self, *args, **kwargs):
633 633 return object.__getattribute__(self, '_observedcall')(
634 634 'read1', *args, **kwargs
635 635 )
636 636
637 637
638 638 class observedbufferedinputpipe(bufferedinputpipe):
639 639 """A variation of bufferedinputpipe that is aware of fileobjectproxy.
640 640
641 641 ``bufferedinputpipe`` makes low-level calls to ``os.read()`` that
642 642 bypass ``fileobjectproxy``. Because of this, we need to make
643 643 ``bufferedinputpipe`` aware of these operations.
644 644
645 645 This variation of ``bufferedinputpipe`` can notify observers about
646 646 ``os.read()`` events. It also re-publishes other events, such as
647 647 ``read()`` and ``readline()``.
648 648 """
649 649
650 650 def _fillbuffer(self, size=_chunksize):
651 651 res = super(observedbufferedinputpipe, self)._fillbuffer(size=size)
652 652
653 653 fn = getattr(self._input._observer, 'osread', None)
654 654 if fn:
655 655 fn(res, size)
656 656
657 657 return res
658 658
659 659 # We use different observer methods because the operation isn't
660 660 # performed on the actual file object but on us.
661 661 def read(self, size):
662 662 res = super(observedbufferedinputpipe, self).read(size)
663 663
664 664 fn = getattr(self._input._observer, 'bufferedread', None)
665 665 if fn:
666 666 fn(res, size)
667 667
668 668 return res
669 669
670 670 def readline(self, *args, **kwargs):
671 671 res = super(observedbufferedinputpipe, self).readline(*args, **kwargs)
672 672
673 673 fn = getattr(self._input._observer, 'bufferedreadline', None)
674 674 if fn:
675 675 fn(res)
676 676
677 677 return res
678 678
679 679
680 680 PROXIED_SOCKET_METHODS = {
681 681 'makefile',
682 682 'recv',
683 683 'recvfrom',
684 684 'recvfrom_into',
685 685 'recv_into',
686 686 'send',
687 687 'sendall',
688 688 'sendto',
689 689 'setblocking',
690 690 'settimeout',
691 691 'gettimeout',
692 692 'setsockopt',
693 693 }
694 694
695 695
696 696 class socketproxy:
697 697 """A proxy around a socket that tells a watcher when events occur.
698 698
699 699 This is like ``fileobjectproxy`` except for sockets.
700 700
701 701 This type is intended to only be used for testing purposes. Think hard
702 702 before using it in important code.
703 703 """
704 704
705 705 __slots__ = (
706 706 '_orig',
707 707 '_observer',
708 708 )
709 709
710 710 def __init__(self, sock, observer):
711 711 object.__setattr__(self, '_orig', sock)
712 712 object.__setattr__(self, '_observer', observer)
713 713
714 714 def __getattribute__(self, name):
715 715 if name in PROXIED_SOCKET_METHODS:
716 716 return object.__getattribute__(self, name)
717 717
718 718 return getattr(object.__getattribute__(self, '_orig'), name)
719 719
720 720 def __delattr__(self, name):
721 721 return delattr(object.__getattribute__(self, '_orig'), name)
722 722
723 723 def __setattr__(self, name, value):
724 724 return setattr(object.__getattribute__(self, '_orig'), name, value)
725 725
726 726 def __nonzero__(self):
727 727 return bool(object.__getattribute__(self, '_orig'))
728 728
729 729 __bool__ = __nonzero__
730 730
731 731 def _observedcall(self, name, *args, **kwargs):
732 732 # Call the original object.
733 733 orig = object.__getattribute__(self, '_orig')
734 734 res = getattr(orig, name)(*args, **kwargs)
735 735
736 736 # Call a method on the observer of the same name with arguments
737 737 # so it can react, log, etc.
738 738 observer = object.__getattribute__(self, '_observer')
739 739 fn = getattr(observer, name, None)
740 740 if fn:
741 741 fn(res, *args, **kwargs)
742 742
743 743 return res
744 744
745 745 def makefile(self, *args, **kwargs):
746 746 res = object.__getattribute__(self, '_observedcall')(
747 747 'makefile', *args, **kwargs
748 748 )
749 749
750 750 # The file object may be used for I/O. So we turn it into a
751 751 # proxy using our observer.
752 752 observer = object.__getattribute__(self, '_observer')
753 753 return makeloggingfileobject(
754 754 observer.fh,
755 755 res,
756 756 observer.name,
757 757 reads=observer.reads,
758 758 writes=observer.writes,
759 759 logdata=observer.logdata,
760 760 logdataapis=observer.logdataapis,
761 761 )
762 762
763 763 def recv(self, *args, **kwargs):
764 764 return object.__getattribute__(self, '_observedcall')(
765 765 'recv', *args, **kwargs
766 766 )
767 767
768 768 def recvfrom(self, *args, **kwargs):
769 769 return object.__getattribute__(self, '_observedcall')(
770 770 'recvfrom', *args, **kwargs
771 771 )
772 772
773 773 def recvfrom_into(self, *args, **kwargs):
774 774 return object.__getattribute__(self, '_observedcall')(
775 775 'recvfrom_into', *args, **kwargs
776 776 )
777 777
778 778 def recv_into(self, *args, **kwargs):
779 779 return object.__getattribute__(self, '_observedcall')(
780 780 'recv_info', *args, **kwargs
781 781 )
782 782
783 783 def send(self, *args, **kwargs):
784 784 return object.__getattribute__(self, '_observedcall')(
785 785 'send', *args, **kwargs
786 786 )
787 787
788 788 def sendall(self, *args, **kwargs):
789 789 return object.__getattribute__(self, '_observedcall')(
790 790 'sendall', *args, **kwargs
791 791 )
792 792
793 793 def sendto(self, *args, **kwargs):
794 794 return object.__getattribute__(self, '_observedcall')(
795 795 'sendto', *args, **kwargs
796 796 )
797 797
798 798 def setblocking(self, *args, **kwargs):
799 799 return object.__getattribute__(self, '_observedcall')(
800 800 'setblocking', *args, **kwargs
801 801 )
802 802
803 803 def settimeout(self, *args, **kwargs):
804 804 return object.__getattribute__(self, '_observedcall')(
805 805 'settimeout', *args, **kwargs
806 806 )
807 807
808 808 def gettimeout(self, *args, **kwargs):
809 809 return object.__getattribute__(self, '_observedcall')(
810 810 'gettimeout', *args, **kwargs
811 811 )
812 812
813 813 def setsockopt(self, *args, **kwargs):
814 814 return object.__getattribute__(self, '_observedcall')(
815 815 'setsockopt', *args, **kwargs
816 816 )
817 817
818 818
819 819 class baseproxyobserver:
820 820 def __init__(self, fh, name, logdata, logdataapis):
821 821 self.fh = fh
822 822 self.name = name
823 823 self.logdata = logdata
824 824 self.logdataapis = logdataapis
825 825
826 826 def _writedata(self, data):
827 827 if not self.logdata:
828 828 if self.logdataapis:
829 829 self.fh.write(b'\n')
830 830 self.fh.flush()
831 831 return
832 832
833 833 # Simple case writes all data on a single line.
834 834 if b'\n' not in data:
835 835 if self.logdataapis:
836 836 self.fh.write(b': %s\n' % stringutil.escapestr(data))
837 837 else:
838 838 self.fh.write(
839 839 b'%s> %s\n' % (self.name, stringutil.escapestr(data))
840 840 )
841 841 self.fh.flush()
842 842 return
843 843
844 844 # Data with newlines is written to multiple lines.
845 845 if self.logdataapis:
846 846 self.fh.write(b':\n')
847 847
848 848 lines = data.splitlines(True)
849 849 for line in lines:
850 850 self.fh.write(
851 851 b'%s> %s\n' % (self.name, stringutil.escapestr(line))
852 852 )
853 853 self.fh.flush()
854 854
855 855
856 856 class fileobjectobserver(baseproxyobserver):
857 857 """Logs file object activity."""
858 858
859 859 def __init__(
860 860 self, fh, name, reads=True, writes=True, logdata=False, logdataapis=True
861 861 ):
862 862 super(fileobjectobserver, self).__init__(fh, name, logdata, logdataapis)
863 863 self.reads = reads
864 864 self.writes = writes
865 865
866 866 def read(self, res, size=-1):
867 867 if not self.reads:
868 868 return
869 869 # Python 3 can return None from reads at EOF instead of empty strings.
870 870 if res is None:
871 871 res = b''
872 872
873 873 if size == -1 and res == b'':
874 874 # Suppress pointless read(-1) calls that return
875 875 # nothing. These happen _a lot_ on Python 3, and there
876 876 # doesn't seem to be a better workaround to have matching
877 877 # Python 2 and 3 behavior. :(
878 878 return
879 879
880 880 if self.logdataapis:
881 881 self.fh.write(b'%s> read(%d) -> %d' % (self.name, size, len(res)))
882 882
883 883 self._writedata(res)
884 884
885 885 def readline(self, res, limit=-1):
886 886 if not self.reads:
887 887 return
888 888
889 889 if self.logdataapis:
890 890 self.fh.write(b'%s> readline() -> %d' % (self.name, len(res)))
891 891
892 892 self._writedata(res)
893 893
894 894 def readinto(self, res, dest):
895 895 if not self.reads:
896 896 return
897 897
898 898 if self.logdataapis:
899 899 self.fh.write(
900 900 b'%s> readinto(%d) -> %r' % (self.name, len(dest), res)
901 901 )
902 902
903 903 data = dest[0:res] if res is not None else b''
904 904
905 905 # _writedata() uses "in" operator and is confused by memoryview because
906 906 # characters are ints on Python 3.
907 907 if isinstance(data, memoryview):
908 908 data = data.tobytes()
909 909
910 910 self._writedata(data)
911 911
912 912 def write(self, res, data):
913 913 if not self.writes:
914 914 return
915 915
916 916 # Python 2 returns None from some write() calls. Python 3 (reasonably)
917 917 # returns the integer bytes written.
918 918 if res is None and data:
919 919 res = len(data)
920 920
921 921 if self.logdataapis:
922 922 self.fh.write(b'%s> write(%d) -> %r' % (self.name, len(data), res))
923 923
924 924 self._writedata(data)
925 925
926 926 def flush(self, res):
927 927 if not self.writes:
928 928 return
929 929
930 930 self.fh.write(b'%s> flush() -> %r\n' % (self.name, res))
931 931
932 932 # For observedbufferedinputpipe.
933 933 def bufferedread(self, res, size):
934 934 if not self.reads:
935 935 return
936 936
937 937 if self.logdataapis:
938 938 self.fh.write(
939 939 b'%s> bufferedread(%d) -> %d' % (self.name, size, len(res))
940 940 )
941 941
942 942 self._writedata(res)
943 943
944 944 def bufferedreadline(self, res):
945 945 if not self.reads:
946 946 return
947 947
948 948 if self.logdataapis:
949 949 self.fh.write(
950 950 b'%s> bufferedreadline() -> %d' % (self.name, len(res))
951 951 )
952 952
953 953 self._writedata(res)
954 954
955 955
956 956 def makeloggingfileobject(
957 957 logh, fh, name, reads=True, writes=True, logdata=False, logdataapis=True
958 958 ):
959 959 """Turn a file object into a logging file object."""
960 960
961 961 observer = fileobjectobserver(
962 962 logh,
963 963 name,
964 964 reads=reads,
965 965 writes=writes,
966 966 logdata=logdata,
967 967 logdataapis=logdataapis,
968 968 )
969 969 return fileobjectproxy(fh, observer)
970 970
971 971
972 972 class socketobserver(baseproxyobserver):
973 973 """Logs socket activity."""
974 974
975 975 def __init__(
976 976 self,
977 977 fh,
978 978 name,
979 979 reads=True,
980 980 writes=True,
981 981 states=True,
982 982 logdata=False,
983 983 logdataapis=True,
984 984 ):
985 985 super(socketobserver, self).__init__(fh, name, logdata, logdataapis)
986 986 self.reads = reads
987 987 self.writes = writes
988 988 self.states = states
989 989
990 990 def makefile(self, res, mode=None, bufsize=None):
991 991 if not self.states:
992 992 return
993 993
994 994 self.fh.write(b'%s> makefile(%r, %r)\n' % (self.name, mode, bufsize))
995 995
996 996 def recv(self, res, size, flags=0):
997 997 if not self.reads:
998 998 return
999 999
1000 1000 if self.logdataapis:
1001 1001 self.fh.write(
1002 1002 b'%s> recv(%d, %d) -> %d' % (self.name, size, flags, len(res))
1003 1003 )
1004 1004 self._writedata(res)
1005 1005
1006 1006 def recvfrom(self, res, size, flags=0):
1007 1007 if not self.reads:
1008 1008 return
1009 1009
1010 1010 if self.logdataapis:
1011 1011 self.fh.write(
1012 1012 b'%s> recvfrom(%d, %d) -> %d'
1013 1013 % (self.name, size, flags, len(res[0]))
1014 1014 )
1015 1015
1016 1016 self._writedata(res[0])
1017 1017
1018 1018 def recvfrom_into(self, res, buf, size, flags=0):
1019 1019 if not self.reads:
1020 1020 return
1021 1021
1022 1022 if self.logdataapis:
1023 1023 self.fh.write(
1024 1024 b'%s> recvfrom_into(%d, %d) -> %d'
1025 1025 % (self.name, size, flags, res[0])
1026 1026 )
1027 1027
1028 1028 self._writedata(buf[0 : res[0]])
1029 1029
1030 1030 def recv_into(self, res, buf, size=0, flags=0):
1031 1031 if not self.reads:
1032 1032 return
1033 1033
1034 1034 if self.logdataapis:
1035 1035 self.fh.write(
1036 1036 b'%s> recv_into(%d, %d) -> %d' % (self.name, size, flags, res)
1037 1037 )
1038 1038
1039 1039 self._writedata(buf[0:res])
1040 1040
1041 1041 def send(self, res, data, flags=0):
1042 1042 if not self.writes:
1043 1043 return
1044 1044
1045 1045 self.fh.write(
1046 1046 b'%s> send(%d, %d) -> %d' % (self.name, len(data), flags, len(res))
1047 1047 )
1048 1048 self._writedata(data)
1049 1049
1050 1050 def sendall(self, res, data, flags=0):
1051 1051 if not self.writes:
1052 1052 return
1053 1053
1054 1054 if self.logdataapis:
1055 1055 # Returns None on success. So don't bother reporting return value.
1056 1056 self.fh.write(
1057 1057 b'%s> sendall(%d, %d)' % (self.name, len(data), flags)
1058 1058 )
1059 1059
1060 1060 self._writedata(data)
1061 1061
1062 1062 def sendto(self, res, data, flagsoraddress, address=None):
1063 1063 if not self.writes:
1064 1064 return
1065 1065
1066 1066 if address:
1067 1067 flags = flagsoraddress
1068 1068 else:
1069 1069 flags = 0
1070 1070
1071 1071 if self.logdataapis:
1072 1072 self.fh.write(
1073 1073 b'%s> sendto(%d, %d, %r) -> %d'
1074 1074 % (self.name, len(data), flags, address, res)
1075 1075 )
1076 1076
1077 1077 self._writedata(data)
1078 1078
1079 1079 def setblocking(self, res, flag):
1080 1080 if not self.states:
1081 1081 return
1082 1082
1083 1083 self.fh.write(b'%s> setblocking(%r)\n' % (self.name, flag))
1084 1084
1085 1085 def settimeout(self, res, value):
1086 1086 if not self.states:
1087 1087 return
1088 1088
1089 1089 self.fh.write(b'%s> settimeout(%r)\n' % (self.name, value))
1090 1090
1091 1091 def gettimeout(self, res):
1092 1092 if not self.states:
1093 1093 return
1094 1094
1095 1095 self.fh.write(b'%s> gettimeout() -> %f\n' % (self.name, res))
1096 1096
1097 1097 def setsockopt(self, res, level, optname, value):
1098 1098 if not self.states:
1099 1099 return
1100 1100
1101 1101 self.fh.write(
1102 1102 b'%s> setsockopt(%r, %r, %r) -> %r\n'
1103 1103 % (self.name, level, optname, value, res)
1104 1104 )
1105 1105
1106 1106
1107 1107 def makeloggingsocket(
1108 1108 logh,
1109 1109 fh,
1110 1110 name,
1111 1111 reads=True,
1112 1112 writes=True,
1113 1113 states=True,
1114 1114 logdata=False,
1115 1115 logdataapis=True,
1116 1116 ):
1117 1117 """Turn a socket into a logging socket."""
1118 1118
1119 1119 observer = socketobserver(
1120 1120 logh,
1121 1121 name,
1122 1122 reads=reads,
1123 1123 writes=writes,
1124 1124 states=states,
1125 1125 logdata=logdata,
1126 1126 logdataapis=logdataapis,
1127 1127 )
1128 1128 return socketproxy(fh, observer)
1129 1129
1130 1130
1131 1131 def version():
1132 1132 """Return version information if available."""
1133 1133 try:
1134 1134 from . import __version__
1135 1135
1136 1136 return __version__.version
1137 1137 except ImportError:
1138 1138 return b'unknown'
1139 1139
1140 1140
1141 1141 def versiontuple(v=None, n=4):
1142 1142 """Parses a Mercurial version string into an N-tuple.
1143 1143
1144 1144 The version string to be parsed is specified with the ``v`` argument.
1145 1145 If it isn't defined, the current Mercurial version string will be parsed.
1146 1146
1147 1147 ``n`` can be 2, 3, or 4. Here is how some version strings map to
1148 1148 returned values:
1149 1149
1150 1150 >>> v = b'3.6.1+190-df9b73d2d444'
1151 1151 >>> versiontuple(v, 2)
1152 1152 (3, 6)
1153 1153 >>> versiontuple(v, 3)
1154 1154 (3, 6, 1)
1155 1155 >>> versiontuple(v, 4)
1156 1156 (3, 6, 1, '190-df9b73d2d444')
1157 1157
1158 1158 >>> versiontuple(b'3.6.1+190-df9b73d2d444+20151118')
1159 1159 (3, 6, 1, '190-df9b73d2d444+20151118')
1160 1160
1161 1161 >>> v = b'3.6'
1162 1162 >>> versiontuple(v, 2)
1163 1163 (3, 6)
1164 1164 >>> versiontuple(v, 3)
1165 1165 (3, 6, None)
1166 1166 >>> versiontuple(v, 4)
1167 1167 (3, 6, None, None)
1168 1168
1169 1169 >>> v = b'3.9-rc'
1170 1170 >>> versiontuple(v, 2)
1171 1171 (3, 9)
1172 1172 >>> versiontuple(v, 3)
1173 1173 (3, 9, None)
1174 1174 >>> versiontuple(v, 4)
1175 1175 (3, 9, None, 'rc')
1176 1176
1177 1177 >>> v = b'3.9-rc+2-02a8fea4289b'
1178 1178 >>> versiontuple(v, 2)
1179 1179 (3, 9)
1180 1180 >>> versiontuple(v, 3)
1181 1181 (3, 9, None)
1182 1182 >>> versiontuple(v, 4)
1183 1183 (3, 9, None, 'rc+2-02a8fea4289b')
1184 1184
1185 1185 >>> versiontuple(b'4.6rc0')
1186 1186 (4, 6, None, 'rc0')
1187 1187 >>> versiontuple(b'4.6rc0+12-425d55e54f98')
1188 1188 (4, 6, None, 'rc0+12-425d55e54f98')
1189 1189 >>> versiontuple(b'.1.2.3')
1190 1190 (None, None, None, '.1.2.3')
1191 1191 >>> versiontuple(b'12.34..5')
1192 1192 (12, 34, None, '..5')
1193 1193 >>> versiontuple(b'1.2.3.4.5.6')
1194 1194 (1, 2, 3, '.4.5.6')
1195 1195 """
1196 1196 if not v:
1197 1197 v = version()
1198 1198 m = remod.match(br'(\d+(?:\.\d+){,2})[+-]?(.*)', v)
1199 1199 if not m:
1200 1200 vparts, extra = b'', v
1201 1201 elif m.group(2):
1202 1202 vparts, extra = m.groups()
1203 1203 else:
1204 1204 vparts, extra = m.group(1), None
1205 1205
1206 1206 assert vparts is not None # help pytype
1207 1207
1208 1208 vints = []
1209 1209 for i in vparts.split(b'.'):
1210 1210 try:
1211 1211 vints.append(int(i))
1212 1212 except ValueError:
1213 1213 break
1214 1214 # (3, 6) -> (3, 6, None)
1215 1215 while len(vints) < 3:
1216 1216 vints.append(None)
1217 1217
1218 1218 if n == 2:
1219 1219 return (vints[0], vints[1])
1220 1220 if n == 3:
1221 1221 return (vints[0], vints[1], vints[2])
1222 1222 if n == 4:
1223 1223 return (vints[0], vints[1], vints[2], extra)
1224 1224
1225 1225 raise error.ProgrammingError(b"invalid version part request: %d" % n)
1226 1226
1227 1227
1228 1228 def cachefunc(func):
1229 1229 '''cache the result of function calls'''
1230 1230 # XXX doesn't handle keywords args
1231 1231 if func.__code__.co_argcount == 0:
1232 1232 listcache = []
1233 1233
1234 1234 def f():
1235 1235 if len(listcache) == 0:
1236 1236 listcache.append(func())
1237 1237 return listcache[0]
1238 1238
1239 1239 return f
1240 1240 cache = {}
1241 1241 if func.__code__.co_argcount == 1:
1242 1242 # we gain a small amount of time because
1243 1243 # we don't need to pack/unpack the list
1244 1244 def f(arg):
1245 1245 if arg not in cache:
1246 1246 cache[arg] = func(arg)
1247 1247 return cache[arg]
1248 1248
1249 1249 else:
1250 1250
1251 1251 def f(*args):
1252 1252 if args not in cache:
1253 1253 cache[args] = func(*args)
1254 1254 return cache[args]
1255 1255
1256 1256 return f
1257 1257
1258 1258
1259 1259 class cow:
1260 1260 """helper class to make copy-on-write easier
1261 1261
1262 1262 Call preparewrite before doing any writes.
1263 1263 """
1264 1264
1265 1265 def preparewrite(self):
1266 1266 """call this before writes, return self or a copied new object"""
1267 1267 if getattr(self, '_copied', 0):
1268 1268 self._copied -= 1
1269 1269 # Function cow.__init__ expects 1 arg(s), got 2 [wrong-arg-count]
1270 1270 return self.__class__(self) # pytype: disable=wrong-arg-count
1271 1271 return self
1272 1272
1273 1273 def copy(self):
1274 1274 """always do a cheap copy"""
1275 1275 self._copied = getattr(self, '_copied', 0) + 1
1276 1276 return self
1277 1277
1278 1278
1279 1279 class sortdict(collections.OrderedDict):
1280 1280 """a simple sorted dictionary
1281 1281
1282 1282 >>> d1 = sortdict([(b'a', 0), (b'b', 1)])
1283 1283 >>> d2 = d1.copy()
1284 1284 >>> list(d2.items())
1285 1285 [('a', 0), ('b', 1)]
1286 1286 >>> d2.update([(b'a', 2)])
1287 1287 >>> list(d2.keys()) # should still be in last-set order
1288 1288 ['b', 'a']
1289 1289 >>> d1.insert(1, b'a.5', 0.5)
1290 1290 >>> list(d1.items())
1291 1291 [('a', 0), ('a.5', 0.5), ('b', 1)]
1292 1292 """
1293 1293
1294 1294 def __setitem__(self, key, value):
1295 1295 if key in self:
1296 1296 del self[key]
1297 1297 super(sortdict, self).__setitem__(key, value)
1298 1298
1299 1299 if pycompat.ispypy:
1300 1300 # __setitem__() isn't called as of PyPy 5.8.0
1301 1301 def update(self, src, **f):
1302 1302 if isinstance(src, dict):
1303 1303 src = src.items()
1304 1304 for k, v in src:
1305 1305 self[k] = v
1306 1306 for k in f:
1307 1307 self[k] = f[k]
1308 1308
1309 1309 def insert(self, position, key, value):
1310 1310 for (i, (k, v)) in enumerate(list(self.items())):
1311 1311 if i == position:
1312 1312 self[key] = value
1313 1313 if i >= position:
1314 1314 del self[k]
1315 1315 self[k] = v
1316 1316
1317 1317
1318 1318 class cowdict(cow, dict):
1319 1319 """copy-on-write dict
1320 1320
1321 1321 Be sure to call d = d.preparewrite() before writing to d.
1322 1322
1323 1323 >>> a = cowdict()
1324 1324 >>> a is a.preparewrite()
1325 1325 True
1326 1326 >>> b = a.copy()
1327 1327 >>> b is a
1328 1328 True
1329 1329 >>> c = b.copy()
1330 1330 >>> c is a
1331 1331 True
1332 1332 >>> a = a.preparewrite()
1333 1333 >>> b is a
1334 1334 False
1335 1335 >>> a is a.preparewrite()
1336 1336 True
1337 1337 >>> c = c.preparewrite()
1338 1338 >>> b is c
1339 1339 False
1340 1340 >>> b is b.preparewrite()
1341 1341 True
1342 1342 """
1343 1343
1344 1344
1345 1345 class cowsortdict(cow, sortdict):
1346 1346 """copy-on-write sortdict
1347 1347
1348 1348 Be sure to call d = d.preparewrite() before writing to d.
1349 1349 """
1350 1350
1351 1351
1352 1352 class transactional: # pytype: disable=ignored-metaclass
1353 1353 """Base class for making a transactional type into a context manager."""
1354 1354
1355 1355 __metaclass__ = abc.ABCMeta
1356 1356
1357 1357 @abc.abstractmethod
1358 1358 def close(self):
1359 1359 """Successfully closes the transaction."""
1360 1360
1361 1361 @abc.abstractmethod
1362 1362 def release(self):
1363 1363 """Marks the end of the transaction.
1364 1364
1365 1365 If the transaction has not been closed, it will be aborted.
1366 1366 """
1367 1367
1368 1368 def __enter__(self):
1369 1369 return self
1370 1370
1371 1371 def __exit__(self, exc_type, exc_val, exc_tb):
1372 1372 try:
1373 1373 if exc_type is None:
1374 1374 self.close()
1375 1375 finally:
1376 1376 self.release()
1377 1377
1378 1378
1379 1379 @contextlib.contextmanager
1380 1380 def acceptintervention(tr=None):
1381 1381 """A context manager that closes the transaction on InterventionRequired
1382 1382
1383 1383 If no transaction was provided, this simply runs the body and returns
1384 1384 """
1385 1385 if not tr:
1386 1386 yield
1387 1387 return
1388 1388 try:
1389 1389 yield
1390 1390 tr.close()
1391 1391 except error.InterventionRequired:
1392 1392 tr.close()
1393 1393 raise
1394 1394 finally:
1395 1395 tr.release()
1396 1396
1397 1397
1398 1398 @contextlib.contextmanager
1399 1399 def nullcontextmanager(enter_result=None):
1400 1400 yield enter_result
1401 1401
1402 1402
1403 1403 class _lrucachenode:
1404 1404 """A node in a doubly linked list.
1405 1405
1406 1406 Holds a reference to nodes on either side as well as a key-value
1407 1407 pair for the dictionary entry.
1408 1408 """
1409 1409
1410 1410 __slots__ = ('next', 'prev', 'key', 'value', 'cost')
1411 1411
1412 1412 def __init__(self):
1413 1413 self.next = self
1414 1414 self.prev = self
1415 1415
1416 1416 self.key = _notset
1417 1417 self.value = None
1418 1418 self.cost = 0
1419 1419
1420 1420 def markempty(self):
1421 1421 """Mark the node as emptied."""
1422 1422 self.key = _notset
1423 1423 self.value = None
1424 1424 self.cost = 0
1425 1425
1426 1426
1427 1427 class lrucachedict:
1428 1428 """Dict that caches most recent accesses and sets.
1429 1429
1430 1430 The dict consists of an actual backing dict - indexed by original
1431 1431 key - and a doubly linked circular list defining the order of entries in
1432 1432 the cache.
1433 1433
1434 1434 The head node is the newest entry in the cache. If the cache is full,
1435 1435 we recycle head.prev and make it the new head. Cache accesses result in
1436 1436 the node being moved to before the existing head and being marked as the
1437 1437 new head node.
1438 1438
1439 1439 Items in the cache can be inserted with an optional "cost" value. This is
1440 1440 simply an integer that is specified by the caller. The cache can be queried
1441 1441 for the total cost of all items presently in the cache.
1442 1442
1443 1443 The cache can also define a maximum cost. If a cache insertion would
1444 1444 cause the total cost of the cache to go beyond the maximum cost limit,
1445 1445 nodes will be evicted to make room for the new code. This can be used
1446 1446 to e.g. set a max memory limit and associate an estimated bytes size
1447 1447 cost to each item in the cache. By default, no maximum cost is enforced.
1448 1448 """
1449 1449
1450 1450 def __init__(self, max, maxcost=0):
1451 1451 self._cache = {}
1452 1452
1453 1453 self._head = _lrucachenode()
1454 1454 self._size = 1
1455 1455 self.capacity = max
1456 1456 self.totalcost = 0
1457 1457 self.maxcost = maxcost
1458 1458
1459 1459 def __len__(self):
1460 1460 return len(self._cache)
1461 1461
1462 1462 def __contains__(self, k):
1463 1463 return k in self._cache
1464 1464
1465 1465 def __iter__(self):
1466 1466 # We don't have to iterate in cache order, but why not.
1467 1467 n = self._head
1468 1468 for i in range(len(self._cache)):
1469 1469 yield n.key
1470 1470 n = n.next
1471 1471
1472 1472 def __getitem__(self, k):
1473 1473 node = self._cache[k]
1474 1474 self._movetohead(node)
1475 1475 return node.value
1476 1476
1477 1477 def insert(self, k, v, cost=0):
1478 1478 """Insert a new item in the cache with optional cost value."""
1479 1479 node = self._cache.get(k)
1480 1480 # Replace existing value and mark as newest.
1481 1481 if node is not None:
1482 1482 self.totalcost -= node.cost
1483 1483 node.value = v
1484 1484 node.cost = cost
1485 1485 self.totalcost += cost
1486 1486 self._movetohead(node)
1487 1487
1488 1488 if self.maxcost:
1489 1489 self._enforcecostlimit()
1490 1490
1491 1491 return
1492 1492
1493 1493 if self._size < self.capacity:
1494 1494 node = self._addcapacity()
1495 1495 else:
1496 1496 # Grab the last/oldest item.
1497 1497 node = self._head.prev
1498 1498
1499 1499 # At capacity. Kill the old entry.
1500 1500 if node.key is not _notset:
1501 1501 self.totalcost -= node.cost
1502 1502 del self._cache[node.key]
1503 1503
1504 1504 node.key = k
1505 1505 node.value = v
1506 1506 node.cost = cost
1507 1507 self.totalcost += cost
1508 1508 self._cache[k] = node
1509 1509 # And mark it as newest entry. No need to adjust order since it
1510 1510 # is already self._head.prev.
1511 1511 self._head = node
1512 1512
1513 1513 if self.maxcost:
1514 1514 self._enforcecostlimit()
1515 1515
1516 1516 def __setitem__(self, k, v):
1517 1517 self.insert(k, v)
1518 1518
1519 1519 def __delitem__(self, k):
1520 1520 self.pop(k)
1521 1521
1522 1522 def pop(self, k, default=_notset):
1523 1523 try:
1524 1524 node = self._cache.pop(k)
1525 1525 except KeyError:
1526 1526 if default is _notset:
1527 1527 raise
1528 1528 return default
1529 1529
1530 assert node is not None # help pytype
1531 1530 value = node.value
1532 1531 self.totalcost -= node.cost
1533 1532 node.markempty()
1534 1533
1535 1534 # Temporarily mark as newest item before re-adjusting head to make
1536 1535 # this node the oldest item.
1537 1536 self._movetohead(node)
1538 1537 self._head = node.next
1539 1538
1540 1539 return value
1541 1540
1542 1541 # Additional dict methods.
1543 1542
1544 1543 def get(self, k, default=None):
1545 1544 try:
1546 1545 return self.__getitem__(k)
1547 1546 except KeyError:
1548 1547 return default
1549 1548
1550 1549 def peek(self, k, default=_notset):
1551 1550 """Get the specified item without moving it to the head
1552 1551
1553 1552 Unlike get(), this doesn't mutate the internal state. But be aware
1554 1553 that it doesn't mean peek() is thread safe.
1555 1554 """
1556 1555 try:
1557 1556 node = self._cache[k]
1558 assert node is not None # help pytype
1559 1557 return node.value
1560 1558 except KeyError:
1561 1559 if default is _notset:
1562 1560 raise
1563 1561 return default
1564 1562
1565 1563 def clear(self):
1566 1564 n = self._head
1567 1565 while n.key is not _notset:
1568 1566 self.totalcost -= n.cost
1569 1567 n.markempty()
1570 1568 n = n.next
1571 1569
1572 1570 self._cache.clear()
1573 1571
1574 1572 def copy(self, capacity=None, maxcost=0):
1575 1573 """Create a new cache as a copy of the current one.
1576 1574
1577 1575 By default, the new cache has the same capacity as the existing one.
1578 1576 But, the cache capacity can be changed as part of performing the
1579 1577 copy.
1580 1578
1581 1579 Items in the copy have an insertion/access order matching this
1582 1580 instance.
1583 1581 """
1584 1582
1585 1583 capacity = capacity or self.capacity
1586 1584 maxcost = maxcost or self.maxcost
1587 1585 result = lrucachedict(capacity, maxcost=maxcost)
1588 1586
1589 1587 # We copy entries by iterating in oldest-to-newest order so the copy
1590 1588 # has the correct ordering.
1591 1589
1592 1590 # Find the first non-empty entry.
1593 1591 n = self._head.prev
1594 1592 while n.key is _notset and n is not self._head:
1595 1593 n = n.prev
1596 1594
1597 1595 # We could potentially skip the first N items when decreasing capacity.
1598 1596 # But let's keep it simple unless it is a performance problem.
1599 1597 for i in range(len(self._cache)):
1600 1598 result.insert(n.key, n.value, cost=n.cost)
1601 1599 n = n.prev
1602 1600
1603 1601 return result
1604 1602
1605 1603 def popoldest(self):
1606 1604 """Remove the oldest item from the cache.
1607 1605
1608 1606 Returns the (key, value) describing the removed cache entry.
1609 1607 """
1610 1608 if not self._cache:
1611 1609 return
1612 1610
1613 1611 # Walk the linked list backwards starting at tail node until we hit
1614 1612 # a non-empty node.
1615 1613 n = self._head.prev
1616 1614
1617 assert n is not None # help pytype
1618
1619 1615 while n.key is _notset:
1620 1616 n = n.prev
1621 1617
1622 assert n is not None # help pytype
1623
1624 1618 key, value = n.key, n.value
1625 1619
1626 1620 # And remove it from the cache and mark it as empty.
1627 1621 del self._cache[n.key]
1628 1622 self.totalcost -= n.cost
1629 1623 n.markempty()
1630 1624
1631 1625 return key, value
1632 1626
1633 def _movetohead(self, node):
1627 def _movetohead(self, node: _lrucachenode):
1634 1628 """Mark a node as the newest, making it the new head.
1635 1629
1636 1630 When a node is accessed, it becomes the freshest entry in the LRU
1637 1631 list, which is denoted by self._head.
1638 1632
1639 1633 Visually, let's make ``N`` the new head node (* denotes head):
1640 1634
1641 1635 previous/oldest <-> head <-> next/next newest
1642 1636
1643 1637 ----<->--- A* ---<->-----
1644 1638 | |
1645 1639 E <-> D <-> N <-> C <-> B
1646 1640
1647 1641 To:
1648 1642
1649 1643 ----<->--- N* ---<->-----
1650 1644 | |
1651 1645 E <-> D <-> C <-> B <-> A
1652 1646
1653 1647 This requires the following moves:
1654 1648
1655 1649 C.next = D (node.prev.next = node.next)
1656 1650 D.prev = C (node.next.prev = node.prev)
1657 1651 E.next = N (head.prev.next = node)
1658 1652 N.prev = E (node.prev = head.prev)
1659 1653 N.next = A (node.next = head)
1660 1654 A.prev = N (head.prev = node)
1661 1655 """
1662 1656 head = self._head
1663 1657 # C.next = D
1664 1658 node.prev.next = node.next
1665 1659 # D.prev = C
1666 1660 node.next.prev = node.prev
1667 1661 # N.prev = E
1668 1662 node.prev = head.prev
1669 1663 # N.next = A
1670 1664 # It is tempting to do just "head" here, however if node is
1671 1665 # adjacent to head, this will do bad things.
1672 1666 node.next = head.prev.next
1673 1667 # E.next = N
1674 1668 node.next.prev = node
1675 1669 # A.prev = N
1676 1670 node.prev.next = node
1677 1671
1678 1672 self._head = node
1679 1673
1680 def _addcapacity(self):
1674 def _addcapacity(self) -> _lrucachenode:
1681 1675 """Add a node to the circular linked list.
1682 1676
1683 1677 The new node is inserted before the head node.
1684 1678 """
1685 1679 head = self._head
1686 1680 node = _lrucachenode()
1687 1681 head.prev.next = node
1688 1682 node.prev = head.prev
1689 1683 node.next = head
1690 1684 head.prev = node
1691 1685 self._size += 1
1692 1686 return node
1693 1687
1694 1688 def _enforcecostlimit(self):
1695 1689 # This should run after an insertion. It should only be called if total
1696 1690 # cost limits are being enforced.
1697 1691 # The most recently inserted node is never evicted.
1698 1692 if len(self) <= 1 or self.totalcost <= self.maxcost:
1699 1693 return
1700 1694
1701 1695 # This is logically equivalent to calling popoldest() until we
1702 1696 # free up enough cost. We don't do that since popoldest() needs
1703 1697 # to walk the linked list and doing this in a loop would be
1704 1698 # quadratic. So we find the first non-empty node and then
1705 1699 # walk nodes until we free up enough capacity.
1706 1700 #
1707 1701 # If we only removed the minimum number of nodes to free enough
1708 1702 # cost at insert time, chances are high that the next insert would
1709 1703 # also require pruning. This would effectively constitute quadratic
1710 1704 # behavior for insert-heavy workloads. To mitigate this, we set a
1711 1705 # target cost that is a percentage of the max cost. This will tend
1712 1706 # to free more nodes when the high water mark is reached, which
1713 1707 # lowers the chances of needing to prune on the subsequent insert.
1714 1708 targetcost = int(self.maxcost * 0.75)
1715 1709
1716 1710 n = self._head.prev
1717 1711 while n.key is _notset:
1718 1712 n = n.prev
1719 1713
1720 1714 while len(self) > 1 and self.totalcost > targetcost:
1721 1715 del self._cache[n.key]
1722 1716 self.totalcost -= n.cost
1723 1717 n.markempty()
1724 1718 n = n.prev
1725 1719
1726 1720
1727 1721 def lrucachefunc(func):
1728 1722 '''cache most recent results of function calls'''
1729 1723 cache = {}
1730 1724 order = collections.deque()
1731 1725 if func.__code__.co_argcount == 1:
1732 1726
1733 1727 def f(arg):
1734 1728 if arg not in cache:
1735 1729 if len(cache) > 20:
1736 1730 del cache[order.popleft()]
1737 1731 cache[arg] = func(arg)
1738 1732 else:
1739 1733 order.remove(arg)
1740 1734 order.append(arg)
1741 1735 return cache[arg]
1742 1736
1743 1737 else:
1744 1738
1745 1739 def f(*args):
1746 1740 if args not in cache:
1747 1741 if len(cache) > 20:
1748 1742 del cache[order.popleft()]
1749 1743 cache[args] = func(*args)
1750 1744 else:
1751 1745 order.remove(args)
1752 1746 order.append(args)
1753 1747 return cache[args]
1754 1748
1755 1749 return f
1756 1750
1757 1751
1758 1752 class propertycache:
1759 1753 def __init__(self, func):
1760 1754 self.func = func
1761 1755 self.name = func.__name__
1762 1756
1763 1757 def __get__(self, obj, type=None):
1764 1758 result = self.func(obj)
1765 1759 self.cachevalue(obj, result)
1766 1760 return result
1767 1761
1768 1762 def cachevalue(self, obj, value):
1769 1763 # __dict__ assignment required to bypass __setattr__ (eg: repoview)
1770 1764 obj.__dict__[self.name] = value
1771 1765
1772 1766
1773 1767 def clearcachedproperty(obj, prop):
1774 1768 '''clear a cached property value, if one has been set'''
1775 1769 prop = pycompat.sysstr(prop)
1776 1770 if prop in obj.__dict__:
1777 1771 del obj.__dict__[prop]
1778 1772
1779 1773
1780 1774 def increasingchunks(source, min=1024, max=65536):
1781 1775 """return no less than min bytes per chunk while data remains,
1782 1776 doubling min after each chunk until it reaches max"""
1783 1777
1784 1778 def log2(x):
1785 1779 if not x:
1786 1780 return 0
1787 1781 i = 0
1788 1782 while x:
1789 1783 x >>= 1
1790 1784 i += 1
1791 1785 return i - 1
1792 1786
1793 1787 buf = []
1794 1788 blen = 0
1795 1789 for chunk in source:
1796 1790 buf.append(chunk)
1797 1791 blen += len(chunk)
1798 1792 if blen >= min:
1799 1793 if min < max:
1800 1794 min = min << 1
1801 1795 nmin = 1 << log2(blen)
1802 1796 if nmin > min:
1803 1797 min = nmin
1804 1798 if min > max:
1805 1799 min = max
1806 1800 yield b''.join(buf)
1807 1801 blen = 0
1808 1802 buf = []
1809 1803 if buf:
1810 1804 yield b''.join(buf)
1811 1805
1812 1806
1813 1807 def always(fn):
1814 1808 return True
1815 1809
1816 1810
1817 1811 def never(fn):
1818 1812 return False
1819 1813
1820 1814
1821 1815 def nogc(func):
1822 1816 """disable garbage collector
1823 1817
1824 1818 Python's garbage collector triggers a GC each time a certain number of
1825 1819 container objects (the number being defined by gc.get_threshold()) are
1826 1820 allocated even when marked not to be tracked by the collector. Tracking has
1827 1821 no effect on when GCs are triggered, only on what objects the GC looks
1828 1822 into. As a workaround, disable GC while building complex (huge)
1829 1823 containers.
1830 1824
1831 1825 This garbage collector issue have been fixed in 2.7. But it still affect
1832 1826 CPython's performance.
1833 1827 """
1834 1828
1835 1829 def wrapper(*args, **kwargs):
1836 1830 gcenabled = gc.isenabled()
1837 1831 gc.disable()
1838 1832 try:
1839 1833 return func(*args, **kwargs)
1840 1834 finally:
1841 1835 if gcenabled:
1842 1836 gc.enable()
1843 1837
1844 1838 return wrapper
1845 1839
1846 1840
1847 1841 if pycompat.ispypy:
1848 1842 # PyPy runs slower with gc disabled
1849 1843 nogc = lambda x: x
1850 1844
1851 1845
1852 1846 def pathto(root: bytes, n1: bytes, n2: bytes) -> bytes:
1853 1847 """return the relative path from one place to another.
1854 1848 root should use os.sep to separate directories
1855 1849 n1 should use os.sep to separate directories
1856 1850 n2 should use "/" to separate directories
1857 1851 returns an os.sep-separated path.
1858 1852
1859 1853 If n1 is a relative path, it's assumed it's
1860 1854 relative to root.
1861 1855 n2 should always be relative to root.
1862 1856 """
1863 1857 if not n1:
1864 1858 return localpath(n2)
1865 1859 if os.path.isabs(n1):
1866 1860 if os.path.splitdrive(root)[0] != os.path.splitdrive(n1)[0]:
1867 1861 return os.path.join(root, localpath(n2))
1868 1862 n2 = b'/'.join((pconvert(root), n2))
1869 1863 a, b = splitpath(n1), n2.split(b'/')
1870 1864 a.reverse()
1871 1865 b.reverse()
1872 1866 while a and b and a[-1] == b[-1]:
1873 1867 a.pop()
1874 1868 b.pop()
1875 1869 b.reverse()
1876 1870 return pycompat.ossep.join(([b'..'] * len(a)) + b) or b'.'
1877 1871
1878 1872
1879 1873 def checksignature(func, depth=1):
1880 1874 '''wrap a function with code to check for calling errors'''
1881 1875
1882 1876 def check(*args, **kwargs):
1883 1877 try:
1884 1878 return func(*args, **kwargs)
1885 1879 except TypeError:
1886 1880 if len(traceback.extract_tb(sys.exc_info()[2])) == depth:
1887 1881 raise error.SignatureError
1888 1882 raise
1889 1883
1890 1884 return check
1891 1885
1892 1886
1893 1887 # a whilelist of known filesystems where hardlink works reliably
1894 1888 _hardlinkfswhitelist = {
1895 1889 b'apfs',
1896 1890 b'btrfs',
1897 1891 b'ext2',
1898 1892 b'ext3',
1899 1893 b'ext4',
1900 1894 b'hfs',
1901 1895 b'jfs',
1902 1896 b'NTFS',
1903 1897 b'reiserfs',
1904 1898 b'tmpfs',
1905 1899 b'ufs',
1906 1900 b'xfs',
1907 1901 b'zfs',
1908 1902 }
1909 1903
1910 1904
1911 1905 def copyfile(
1912 1906 src,
1913 1907 dest,
1914 1908 hardlink=False,
1915 1909 copystat=False,
1916 1910 checkambig=False,
1917 1911 nb_bytes=None,
1918 1912 no_hardlink_cb=None,
1919 1913 check_fs_hardlink=True,
1920 1914 ):
1921 1915 """copy a file, preserving mode and optionally other stat info like
1922 1916 atime/mtime
1923 1917
1924 1918 checkambig argument is used with filestat, and is useful only if
1925 1919 destination file is guarded by any lock (e.g. repo.lock or
1926 1920 repo.wlock).
1927 1921
1928 1922 copystat and checkambig should be exclusive.
1929 1923
1930 1924 nb_bytes: if set only copy the first `nb_bytes` of the source file.
1931 1925 """
1932 1926 assert not (copystat and checkambig)
1933 1927 oldstat = None
1934 1928 if os.path.lexists(dest):
1935 1929 if checkambig:
1936 1930 oldstat = checkambig and filestat.frompath(dest)
1937 1931 unlink(dest)
1938 1932 if hardlink and check_fs_hardlink:
1939 1933 # Hardlinks are problematic on CIFS (issue4546), do not allow hardlinks
1940 1934 # unless we are confident that dest is on a whitelisted filesystem.
1941 1935 try:
1942 1936 fstype = getfstype(os.path.dirname(dest))
1943 1937 except OSError:
1944 1938 fstype = None
1945 1939 if fstype not in _hardlinkfswhitelist:
1946 1940 if no_hardlink_cb is not None:
1947 1941 no_hardlink_cb()
1948 1942 hardlink = False
1949 1943 if hardlink:
1950 1944 try:
1951 1945 oslink(src, dest)
1952 1946 if nb_bytes is not None:
1953 1947 m = "the `nb_bytes` argument is incompatible with `hardlink`"
1954 1948 raise error.ProgrammingError(m)
1955 1949 return
1956 1950 except (IOError, OSError) as exc:
1957 1951 if exc.errno != errno.EEXIST and no_hardlink_cb is not None:
1958 1952 no_hardlink_cb()
1959 1953 # fall back to normal copy
1960 1954 if os.path.islink(src):
1961 1955 os.symlink(os.readlink(src), dest)
1962 1956 # copytime is ignored for symlinks, but in general copytime isn't needed
1963 1957 # for them anyway
1964 1958 if nb_bytes is not None:
1965 1959 m = "cannot use `nb_bytes` on a symlink"
1966 1960 raise error.ProgrammingError(m)
1967 1961 else:
1968 1962 try:
1969 1963 shutil.copyfile(src, dest)
1970 1964 if copystat:
1971 1965 # copystat also copies mode
1972 1966 shutil.copystat(src, dest)
1973 1967 else:
1974 1968 shutil.copymode(src, dest)
1975 1969 if oldstat and oldstat.stat:
1976 1970 newstat = filestat.frompath(dest)
1977 1971 if newstat.isambig(oldstat):
1978 1972 # stat of copied file is ambiguous to original one
1979 1973 advanced = (
1980 1974 oldstat.stat[stat.ST_MTIME] + 1
1981 1975 ) & 0x7FFFFFFF
1982 1976 os.utime(dest, (advanced, advanced))
1983 1977 # We could do something smarter using `copy_file_range` call or similar
1984 1978 if nb_bytes is not None:
1985 1979 with open(dest, mode='r+') as f:
1986 1980 f.truncate(nb_bytes)
1987 1981 except shutil.Error as inst:
1988 1982 raise error.Abort(stringutil.forcebytestr(inst))
1989 1983
1990 1984
1991 1985 def copyfiles(src, dst, hardlink=None, progress=None):
1992 1986 """Copy a directory tree using hardlinks if possible."""
1993 1987 num = 0
1994 1988
1995 1989 def settopic():
1996 1990 if progress:
1997 1991 progress.topic = _(b'linking') if hardlink else _(b'copying')
1998 1992
1999 1993 if os.path.isdir(src):
2000 1994 if hardlink is None:
2001 1995 hardlink = (
2002 1996 os.stat(src).st_dev == os.stat(os.path.dirname(dst)).st_dev
2003 1997 )
2004 1998 settopic()
2005 1999 os.mkdir(dst)
2006 2000 for name, kind in listdir(src):
2007 2001 srcname = os.path.join(src, name)
2008 2002 dstname = os.path.join(dst, name)
2009 2003 hardlink, n = copyfiles(srcname, dstname, hardlink, progress)
2010 2004 num += n
2011 2005 else:
2012 2006 if hardlink is None:
2013 2007 hardlink = (
2014 2008 os.stat(os.path.dirname(src)).st_dev
2015 2009 == os.stat(os.path.dirname(dst)).st_dev
2016 2010 )
2017 2011 settopic()
2018 2012
2019 2013 if hardlink:
2020 2014 try:
2021 2015 oslink(src, dst)
2022 2016 except (IOError, OSError) as exc:
2023 2017 if exc.errno != errno.EEXIST:
2024 2018 hardlink = False
2025 2019 # XXX maybe try to relink if the file exist ?
2026 2020 shutil.copy(src, dst)
2027 2021 else:
2028 2022 shutil.copy(src, dst)
2029 2023 num += 1
2030 2024 if progress:
2031 2025 progress.increment()
2032 2026
2033 2027 return hardlink, num
2034 2028
2035 2029
2036 2030 _winreservednames = {
2037 2031 b'con',
2038 2032 b'prn',
2039 2033 b'aux',
2040 2034 b'nul',
2041 2035 b'com1',
2042 2036 b'com2',
2043 2037 b'com3',
2044 2038 b'com4',
2045 2039 b'com5',
2046 2040 b'com6',
2047 2041 b'com7',
2048 2042 b'com8',
2049 2043 b'com9',
2050 2044 b'lpt1',
2051 2045 b'lpt2',
2052 2046 b'lpt3',
2053 2047 b'lpt4',
2054 2048 b'lpt5',
2055 2049 b'lpt6',
2056 2050 b'lpt7',
2057 2051 b'lpt8',
2058 2052 b'lpt9',
2059 2053 }
2060 2054 _winreservedchars = b':*?"<>|'
2061 2055
2062 2056
2063 2057 def checkwinfilename(path: bytes) -> Optional[bytes]:
2064 2058 r"""Check that the base-relative path is a valid filename on Windows.
2065 2059 Returns None if the path is ok, or a UI string describing the problem.
2066 2060
2067 2061 >>> checkwinfilename(b"just/a/normal/path")
2068 2062 >>> checkwinfilename(b"foo/bar/con.xml")
2069 2063 "filename contains 'con', which is reserved on Windows"
2070 2064 >>> checkwinfilename(b"foo/con.xml/bar")
2071 2065 "filename contains 'con', which is reserved on Windows"
2072 2066 >>> checkwinfilename(b"foo/bar/xml.con")
2073 2067 >>> checkwinfilename(b"foo/bar/AUX/bla.txt")
2074 2068 "filename contains 'AUX', which is reserved on Windows"
2075 2069 >>> checkwinfilename(b"foo/bar/bla:.txt")
2076 2070 "filename contains ':', which is reserved on Windows"
2077 2071 >>> checkwinfilename(b"foo/bar/b\07la.txt")
2078 2072 "filename contains '\\x07', which is invalid on Windows"
2079 2073 >>> checkwinfilename(b"foo/bar/bla ")
2080 2074 "filename ends with ' ', which is not allowed on Windows"
2081 2075 >>> checkwinfilename(b"../bar")
2082 2076 >>> checkwinfilename(b"foo\\")
2083 2077 "filename ends with '\\', which is invalid on Windows"
2084 2078 >>> checkwinfilename(b"foo\\/bar")
2085 2079 "directory name ends with '\\', which is invalid on Windows"
2086 2080 """
2087 2081 if path.endswith(b'\\'):
2088 2082 return _(b"filename ends with '\\', which is invalid on Windows")
2089 2083 if b'\\/' in path:
2090 2084 return _(b"directory name ends with '\\', which is invalid on Windows")
2091 2085 for n in path.replace(b'\\', b'/').split(b'/'):
2092 2086 if not n:
2093 2087 continue
2094 2088 for c in _filenamebytestr(n):
2095 2089 if c in _winreservedchars:
2096 2090 return (
2097 2091 _(
2098 2092 b"filename contains '%s', which is reserved "
2099 2093 b"on Windows"
2100 2094 )
2101 2095 % c
2102 2096 )
2103 2097 if ord(c) <= 31:
2104 2098 return _(
2105 2099 b"filename contains '%s', which is invalid on Windows"
2106 2100 ) % stringutil.escapestr(c)
2107 2101 base = n.split(b'.')[0]
2108 2102 if base and base.lower() in _winreservednames:
2109 2103 return (
2110 2104 _(b"filename contains '%s', which is reserved on Windows")
2111 2105 % base
2112 2106 )
2113 2107 t = n[-1:]
2114 2108 if t in b'. ' and n not in b'..':
2115 2109 return (
2116 2110 _(
2117 2111 b"filename ends with '%s', which is not allowed "
2118 2112 b"on Windows"
2119 2113 )
2120 2114 % t
2121 2115 )
2122 2116
2123 2117
2124 2118 timer = getattr(time, "perf_counter", None)
2125 2119
2126 2120 if pycompat.iswindows:
2127 2121 checkosfilename = checkwinfilename
2128 2122 if not timer:
2129 2123 timer = time.clock # pytype: disable=module-attr
2130 2124 else:
2131 2125 # mercurial.windows doesn't have platform.checkosfilename
2132 2126 checkosfilename = platform.checkosfilename # pytype: disable=module-attr
2133 2127 if not timer:
2134 2128 timer = time.time
2135 2129
2136 2130
2137 2131 def makelock(info, pathname):
2138 2132 """Create a lock file atomically if possible
2139 2133
2140 2134 This may leave a stale lock file if symlink isn't supported and signal
2141 2135 interrupt is enabled.
2142 2136 """
2143 2137 try:
2144 2138 return os.symlink(info, pathname)
2145 2139 except OSError as why:
2146 2140 if why.errno == errno.EEXIST:
2147 2141 raise
2148 2142 except AttributeError: # no symlink in os
2149 2143 pass
2150 2144
2151 2145 flags = os.O_CREAT | os.O_WRONLY | os.O_EXCL | getattr(os, 'O_BINARY', 0)
2152 2146 ld = os.open(pathname, flags)
2153 2147 os.write(ld, info)
2154 2148 os.close(ld)
2155 2149
2156 2150
2157 2151 def readlock(pathname: bytes) -> bytes:
2158 2152 try:
2159 2153 return readlink(pathname)
2160 2154 except OSError as why:
2161 2155 if why.errno not in (errno.EINVAL, errno.ENOSYS):
2162 2156 raise
2163 2157 except AttributeError: # no symlink in os
2164 2158 pass
2165 2159 with posixfile(pathname, b'rb') as fp:
2166 2160 return fp.read()
2167 2161
2168 2162
2169 2163 def fstat(fp):
2170 2164 '''stat file object that may not have fileno method.'''
2171 2165 try:
2172 2166 return os.fstat(fp.fileno())
2173 2167 except AttributeError:
2174 2168 return os.stat(fp.name)
2175 2169
2176 2170
2177 2171 # File system features
2178 2172
2179 2173
2180 2174 def fscasesensitive(path: bytes) -> bool:
2181 2175 """
2182 2176 Return true if the given path is on a case-sensitive filesystem
2183 2177
2184 2178 Requires a path (like /foo/.hg) ending with a foldable final
2185 2179 directory component.
2186 2180 """
2187 2181 s1 = os.lstat(path)
2188 2182 d, b = os.path.split(path)
2189 2183 b2 = b.upper()
2190 2184 if b == b2:
2191 2185 b2 = b.lower()
2192 2186 if b == b2:
2193 2187 return True # no evidence against case sensitivity
2194 2188 p2 = os.path.join(d, b2)
2195 2189 try:
2196 2190 s2 = os.lstat(p2)
2197 2191 if s2 == s1:
2198 2192 return False
2199 2193 return True
2200 2194 except OSError:
2201 2195 return True
2202 2196
2203 2197
2204 2198 _re2_input = lambda x: x
2205 2199 try:
2206 2200 import re2 # pytype: disable=import-error
2207 2201
2208 2202 _re2 = None
2209 2203 except ImportError:
2210 2204 _re2 = False
2211 2205
2212 2206
2213 2207 def has_re2():
2214 2208 """return True is re2 is available, False otherwise"""
2215 2209 if _re2 is None:
2216 2210 _re._checkre2()
2217 2211 return _re2
2218 2212
2219 2213
2220 2214 class _re:
2221 2215 @staticmethod
2222 2216 def _checkre2():
2223 2217 global _re2
2224 2218 global _re2_input
2225 2219 if _re2 is not None:
2226 2220 # we already have the answer
2227 2221 return
2228 2222
2229 2223 check_pattern = br'\[([^\[]+)\]'
2230 2224 check_input = b'[ui]'
2231 2225 try:
2232 2226 # check if match works, see issue3964
2233 2227 _re2 = bool(re2.match(check_pattern, check_input))
2234 2228 except ImportError:
2235 2229 _re2 = False
2236 2230 except TypeError:
2237 2231 # the `pyre-2` project provides a re2 module that accept bytes
2238 2232 # the `fb-re2` project provides a re2 module that acccept sysstr
2239 2233 check_pattern = pycompat.sysstr(check_pattern)
2240 2234 check_input = pycompat.sysstr(check_input)
2241 2235 _re2 = bool(re2.match(check_pattern, check_input))
2242 2236 _re2_input = pycompat.sysstr
2243 2237
2244 2238 def compile(self, pat, flags=0):
2245 2239 """Compile a regular expression, using re2 if possible
2246 2240
2247 2241 For best performance, use only re2-compatible regexp features. The
2248 2242 only flags from the re module that are re2-compatible are
2249 2243 IGNORECASE and MULTILINE."""
2250 2244 if _re2 is None:
2251 2245 self._checkre2()
2252 2246 if _re2 and (flags & ~(remod.IGNORECASE | remod.MULTILINE)) == 0:
2253 2247 if flags & remod.IGNORECASE:
2254 2248 pat = b'(?i)' + pat
2255 2249 if flags & remod.MULTILINE:
2256 2250 pat = b'(?m)' + pat
2257 2251 try:
2258 2252 return re2.compile(_re2_input(pat))
2259 2253 except re2.error:
2260 2254 pass
2261 2255 return remod.compile(pat, flags)
2262 2256
2263 2257 @propertycache
2264 2258 def escape(self):
2265 2259 """Return the version of escape corresponding to self.compile.
2266 2260
2267 2261 This is imperfect because whether re2 or re is used for a particular
2268 2262 function depends on the flags, etc, but it's the best we can do.
2269 2263 """
2270 2264 global _re2
2271 2265 if _re2 is None:
2272 2266 self._checkre2()
2273 2267 if _re2:
2274 2268 return re2.escape
2275 2269 else:
2276 2270 return remod.escape
2277 2271
2278 2272
2279 2273 re = _re()
2280 2274
2281 2275 _fspathcache = {}
2282 2276
2283 2277
2284 2278 def fspath(name: bytes, root: bytes) -> bytes:
2285 2279 """Get name in the case stored in the filesystem
2286 2280
2287 2281 The name should be relative to root, and be normcase-ed for efficiency.
2288 2282
2289 2283 Note that this function is unnecessary, and should not be
2290 2284 called, for case-sensitive filesystems (simply because it's expensive).
2291 2285
2292 2286 The root should be normcase-ed, too.
2293 2287 """
2294 2288
2295 2289 def _makefspathcacheentry(dir):
2296 2290 return {normcase(n): n for n in os.listdir(dir)}
2297 2291
2298 2292 seps = pycompat.ossep
2299 2293 if pycompat.osaltsep:
2300 2294 seps = seps + pycompat.osaltsep
2301 2295 # Protect backslashes. This gets silly very quickly.
2302 2296 seps.replace(b'\\', b'\\\\')
2303 2297 pattern = remod.compile(br'([^%s]+)|([%s]+)' % (seps, seps))
2304 2298 dir = os.path.normpath(root)
2305 2299 result = []
2306 2300 for part, sep in pattern.findall(name):
2307 2301 if sep:
2308 2302 result.append(sep)
2309 2303 continue
2310 2304
2311 2305 if dir not in _fspathcache:
2312 2306 _fspathcache[dir] = _makefspathcacheentry(dir)
2313 2307 contents = _fspathcache[dir]
2314 2308
2315 2309 found = contents.get(part)
2316 2310 if not found:
2317 2311 # retry "once per directory" per "dirstate.walk" which
2318 2312 # may take place for each patches of "hg qpush", for example
2319 2313 _fspathcache[dir] = contents = _makefspathcacheentry(dir)
2320 2314 found = contents.get(part)
2321 2315
2322 2316 result.append(found or part)
2323 2317 dir = os.path.join(dir, part)
2324 2318
2325 2319 return b''.join(result)
2326 2320
2327 2321
2328 2322 def checknlink(testfile: bytes) -> bool:
2329 2323 '''check whether hardlink count reporting works properly'''
2330 2324
2331 2325 # testfile may be open, so we need a separate file for checking to
2332 2326 # work around issue2543 (or testfile may get lost on Samba shares)
2333 2327 f1, f2, fp = None, None, None
2334 2328 try:
2335 2329 fd, f1 = pycompat.mkstemp(
2336 2330 prefix=b'.%s-' % os.path.basename(testfile),
2337 2331 suffix=b'1~',
2338 2332 dir=os.path.dirname(testfile),
2339 2333 )
2340 2334 os.close(fd)
2341 2335 f2 = b'%s2~' % f1[:-2]
2342 2336
2343 2337 oslink(f1, f2)
2344 2338 # nlinks() may behave differently for files on Windows shares if
2345 2339 # the file is open.
2346 2340 fp = posixfile(f2)
2347 2341 return nlinks(f2) > 1
2348 2342 except OSError:
2349 2343 return False
2350 2344 finally:
2351 2345 if fp is not None:
2352 2346 fp.close()
2353 2347 for f in (f1, f2):
2354 2348 try:
2355 2349 if f is not None:
2356 2350 os.unlink(f)
2357 2351 except OSError:
2358 2352 pass
2359 2353
2360 2354
2361 2355 def endswithsep(path: bytes) -> bool:
2362 2356 '''Check path ends with os.sep or os.altsep.'''
2363 2357 return bool( # help pytype
2364 2358 path.endswith(pycompat.ossep)
2365 2359 or pycompat.osaltsep
2366 2360 and path.endswith(pycompat.osaltsep)
2367 2361 )
2368 2362
2369 2363
2370 2364 def splitpath(path: bytes) -> List[bytes]:
2371 2365 """Split path by os.sep.
2372 2366 Note that this function does not use os.altsep because this is
2373 2367 an alternative of simple "xxx.split(os.sep)".
2374 2368 It is recommended to use os.path.normpath() before using this
2375 2369 function if need."""
2376 2370 return path.split(pycompat.ossep)
2377 2371
2378 2372
2379 2373 def mktempcopy(name, emptyok=False, createmode=None, enforcewritable=False):
2380 2374 """Create a temporary file with the same contents from name
2381 2375
2382 2376 The permission bits are copied from the original file.
2383 2377
2384 2378 If the temporary file is going to be truncated immediately, you
2385 2379 can use emptyok=True as an optimization.
2386 2380
2387 2381 Returns the name of the temporary file.
2388 2382 """
2389 2383 d, fn = os.path.split(name)
2390 2384 fd, temp = pycompat.mkstemp(prefix=b'.%s-' % fn, suffix=b'~', dir=d)
2391 2385 os.close(fd)
2392 2386 # Temporary files are created with mode 0600, which is usually not
2393 2387 # what we want. If the original file already exists, just copy
2394 2388 # its mode. Otherwise, manually obey umask.
2395 2389 copymode(name, temp, createmode, enforcewritable)
2396 2390
2397 2391 if emptyok:
2398 2392 return temp
2399 2393 try:
2400 2394 try:
2401 2395 ifp = posixfile(name, b"rb")
2402 2396 except IOError as inst:
2403 2397 if inst.errno == errno.ENOENT:
2404 2398 return temp
2405 2399 if not getattr(inst, 'filename', None):
2406 2400 inst.filename = name
2407 2401 raise
2408 2402 ofp = posixfile(temp, b"wb")
2409 2403 for chunk in filechunkiter(ifp):
2410 2404 ofp.write(chunk)
2411 2405 ifp.close()
2412 2406 ofp.close()
2413 2407 except: # re-raises
2414 2408 try:
2415 2409 os.unlink(temp)
2416 2410 except OSError:
2417 2411 pass
2418 2412 raise
2419 2413 return temp
2420 2414
2421 2415
2422 2416 class filestat:
2423 2417 """help to exactly detect change of a file
2424 2418
2425 2419 'stat' attribute is result of 'os.stat()' if specified 'path'
2426 2420 exists. Otherwise, it is None. This can avoid preparative
2427 2421 'exists()' examination on client side of this class.
2428 2422 """
2429 2423
2430 2424 def __init__(self, stat):
2431 2425 self.stat = stat
2432 2426
2433 2427 @classmethod
2434 2428 def frompath(cls, path):
2435 2429 try:
2436 2430 stat = os.stat(path)
2437 2431 except FileNotFoundError:
2438 2432 stat = None
2439 2433 return cls(stat)
2440 2434
2441 2435 @classmethod
2442 2436 def fromfp(cls, fp):
2443 2437 stat = os.fstat(fp.fileno())
2444 2438 return cls(stat)
2445 2439
2446 2440 __hash__ = object.__hash__
2447 2441
2448 2442 def __eq__(self, old):
2449 2443 try:
2450 2444 # if ambiguity between stat of new and old file is
2451 2445 # avoided, comparison of size, ctime and mtime is enough
2452 2446 # to exactly detect change of a file regardless of platform
2453 2447 return (
2454 2448 self.stat.st_size == old.stat.st_size
2455 2449 and self.stat[stat.ST_CTIME] == old.stat[stat.ST_CTIME]
2456 2450 and self.stat[stat.ST_MTIME] == old.stat[stat.ST_MTIME]
2457 2451 )
2458 2452 except AttributeError:
2459 2453 pass
2460 2454 try:
2461 2455 return self.stat is None and old.stat is None
2462 2456 except AttributeError:
2463 2457 return False
2464 2458
2465 2459 def isambig(self, old):
2466 2460 """Examine whether new (= self) stat is ambiguous against old one
2467 2461
2468 2462 "S[N]" below means stat of a file at N-th change:
2469 2463
2470 2464 - S[n-1].ctime < S[n].ctime: can detect change of a file
2471 2465 - S[n-1].ctime == S[n].ctime
2472 2466 - S[n-1].ctime < S[n].mtime: means natural advancing (*1)
2473 2467 - S[n-1].ctime == S[n].mtime: is ambiguous (*2)
2474 2468 - S[n-1].ctime > S[n].mtime: never occurs naturally (don't care)
2475 2469 - S[n-1].ctime > S[n].ctime: never occurs naturally (don't care)
2476 2470
2477 2471 Case (*2) above means that a file was changed twice or more at
2478 2472 same time in sec (= S[n-1].ctime), and comparison of timestamp
2479 2473 is ambiguous.
2480 2474
2481 2475 Base idea to avoid such ambiguity is "advance mtime 1 sec, if
2482 2476 timestamp is ambiguous".
2483 2477
2484 2478 But advancing mtime only in case (*2) doesn't work as
2485 2479 expected, because naturally advanced S[n].mtime in case (*1)
2486 2480 might be equal to manually advanced S[n-1 or earlier].mtime.
2487 2481
2488 2482 Therefore, all "S[n-1].ctime == S[n].ctime" cases should be
2489 2483 treated as ambiguous regardless of mtime, to avoid overlooking
2490 2484 by confliction between such mtime.
2491 2485
2492 2486 Advancing mtime "if isambig(oldstat)" ensures "S[n-1].mtime !=
2493 2487 S[n].mtime", even if size of a file isn't changed.
2494 2488 """
2495 2489 try:
2496 2490 return self.stat[stat.ST_CTIME] == old.stat[stat.ST_CTIME]
2497 2491 except AttributeError:
2498 2492 return False
2499 2493
2500 2494 def avoidambig(self, path, old):
2501 2495 """Change file stat of specified path to avoid ambiguity
2502 2496
2503 2497 'old' should be previous filestat of 'path'.
2504 2498
2505 2499 This skips avoiding ambiguity, if a process doesn't have
2506 2500 appropriate privileges for 'path'. This returns False in this
2507 2501 case.
2508 2502
2509 2503 Otherwise, this returns True, as "ambiguity is avoided".
2510 2504 """
2511 2505 advanced = (old.stat[stat.ST_MTIME] + 1) & 0x7FFFFFFF
2512 2506 try:
2513 2507 os.utime(path, (advanced, advanced))
2514 2508 except PermissionError:
2515 2509 # utime() on the file created by another user causes EPERM,
2516 2510 # if a process doesn't have appropriate privileges
2517 2511 return False
2518 2512 return True
2519 2513
2520 2514 def __ne__(self, other):
2521 2515 return not self == other
2522 2516
2523 2517
2524 2518 class atomictempfile:
2525 2519 """writable file object that atomically updates a file
2526 2520
2527 2521 All writes will go to a temporary copy of the original file. Call
2528 2522 close() when you are done writing, and atomictempfile will rename
2529 2523 the temporary copy to the original name, making the changes
2530 2524 visible. If the object is destroyed without being closed, all your
2531 2525 writes are discarded.
2532 2526
2533 2527 checkambig argument of constructor is used with filestat, and is
2534 2528 useful only if target file is guarded by any lock (e.g. repo.lock
2535 2529 or repo.wlock).
2536 2530 """
2537 2531
2538 2532 def __init__(self, name, mode=b'w+b', createmode=None, checkambig=False):
2539 2533 self.__name = name # permanent name
2540 2534 self._tempname = mktempcopy(
2541 2535 name,
2542 2536 emptyok=(b'w' in mode),
2543 2537 createmode=createmode,
2544 2538 enforcewritable=(b'w' in mode),
2545 2539 )
2546 2540
2547 2541 self._fp = posixfile(self._tempname, mode)
2548 2542 self._checkambig = checkambig
2549 2543
2550 2544 # delegated methods
2551 2545 self.read = self._fp.read
2552 2546 self.write = self._fp.write
2553 2547 self.writelines = self._fp.writelines
2554 2548 self.seek = self._fp.seek
2555 2549 self.tell = self._fp.tell
2556 2550 self.fileno = self._fp.fileno
2557 2551
2558 2552 def close(self):
2559 2553 if not self._fp.closed:
2560 2554 self._fp.close()
2561 2555 filename = localpath(self.__name)
2562 2556 oldstat = self._checkambig and filestat.frompath(filename)
2563 2557 if oldstat and oldstat.stat:
2564 2558 rename(self._tempname, filename)
2565 2559 newstat = filestat.frompath(filename)
2566 2560 if newstat.isambig(oldstat):
2567 2561 # stat of changed file is ambiguous to original one
2568 2562 advanced = (oldstat.stat[stat.ST_MTIME] + 1) & 0x7FFFFFFF
2569 2563 os.utime(filename, (advanced, advanced))
2570 2564 else:
2571 2565 rename(self._tempname, filename)
2572 2566
2573 2567 def discard(self):
2574 2568 if not self._fp.closed:
2575 2569 try:
2576 2570 os.unlink(self._tempname)
2577 2571 except OSError:
2578 2572 pass
2579 2573 self._fp.close()
2580 2574
2581 2575 def __del__(self):
2582 2576 if hasattr(self, '_fp'): # constructor actually did something
2583 2577 self.discard()
2584 2578
2585 2579 def __enter__(self):
2586 2580 return self
2587 2581
2588 2582 def __exit__(self, exctype, excvalue, traceback):
2589 2583 if exctype is not None:
2590 2584 self.discard()
2591 2585 else:
2592 2586 self.close()
2593 2587
2594 2588
2595 2589 def tryrmdir(f):
2596 2590 try:
2597 2591 removedirs(f)
2598 2592 except OSError as e:
2599 2593 if e.errno != errno.ENOENT and e.errno != errno.ENOTEMPTY:
2600 2594 raise
2601 2595
2602 2596
2603 2597 def unlinkpath(
2604 2598 f: bytes, ignoremissing: bool = False, rmdir: bool = True
2605 2599 ) -> None:
2606 2600 """unlink and remove the directory if it is empty"""
2607 2601 if ignoremissing:
2608 2602 tryunlink(f)
2609 2603 else:
2610 2604 unlink(f)
2611 2605 if rmdir:
2612 2606 # try removing directories that might now be empty
2613 2607 try:
2614 2608 removedirs(os.path.dirname(f))
2615 2609 except OSError:
2616 2610 pass
2617 2611
2618 2612
2619 2613 def tryunlink(f: bytes) -> None:
2620 2614 """Attempt to remove a file, ignoring FileNotFoundError."""
2621 2615 try:
2622 2616 unlink(f)
2623 2617 except FileNotFoundError:
2624 2618 pass
2625 2619
2626 2620
2627 2621 def makedirs(
2628 2622 name: bytes, mode: Optional[int] = None, notindexed: bool = False
2629 2623 ) -> None:
2630 2624 """recursive directory creation with parent mode inheritance
2631 2625
2632 2626 Newly created directories are marked as "not to be indexed by
2633 2627 the content indexing service", if ``notindexed`` is specified
2634 2628 for "write" mode access.
2635 2629 """
2636 2630 try:
2637 2631 makedir(name, notindexed)
2638 2632 except OSError as err:
2639 2633 if err.errno == errno.EEXIST:
2640 2634 return
2641 2635 if err.errno != errno.ENOENT or not name:
2642 2636 raise
2643 2637 parent = os.path.dirname(abspath(name))
2644 2638 if parent == name:
2645 2639 raise
2646 2640 makedirs(parent, mode, notindexed)
2647 2641 try:
2648 2642 makedir(name, notindexed)
2649 2643 except OSError as err:
2650 2644 # Catch EEXIST to handle races
2651 2645 if err.errno == errno.EEXIST:
2652 2646 return
2653 2647 raise
2654 2648 if mode is not None:
2655 2649 os.chmod(name, mode)
2656 2650
2657 2651
2658 2652 def readfile(path: bytes) -> bytes:
2659 2653 with open(path, b'rb') as fp:
2660 2654 return fp.read()
2661 2655
2662 2656
2663 2657 def writefile(path: bytes, text: bytes) -> None:
2664 2658 with open(path, b'wb') as fp:
2665 2659 fp.write(text)
2666 2660
2667 2661
2668 2662 def appendfile(path: bytes, text: bytes) -> None:
2669 2663 with open(path, b'ab') as fp:
2670 2664 fp.write(text)
2671 2665
2672 2666
2673 2667 class chunkbuffer:
2674 2668 """Allow arbitrary sized chunks of data to be efficiently read from an
2675 2669 iterator over chunks of arbitrary size."""
2676 2670
2677 2671 def __init__(self, in_iter):
2678 2672 """in_iter is the iterator that's iterating over the input chunks."""
2679 2673
2680 2674 def splitbig(chunks):
2681 2675 for chunk in chunks:
2682 2676 if len(chunk) > 2 ** 20:
2683 2677 pos = 0
2684 2678 while pos < len(chunk):
2685 2679 end = pos + 2 ** 18
2686 2680 yield chunk[pos:end]
2687 2681 pos = end
2688 2682 else:
2689 2683 yield chunk
2690 2684
2691 2685 self.iter = splitbig(in_iter)
2692 2686 self._queue = collections.deque()
2693 2687 self._chunkoffset = 0
2694 2688
2695 2689 def read(self, l=None):
2696 2690 """Read L bytes of data from the iterator of chunks of data.
2697 2691 Returns less than L bytes if the iterator runs dry.
2698 2692
2699 2693 If size parameter is omitted, read everything"""
2700 2694 if l is None:
2701 2695 return b''.join(self.iter)
2702 2696
2703 2697 left = l
2704 2698 buf = []
2705 2699 queue = self._queue
2706 2700 while left > 0:
2707 2701 # refill the queue
2708 2702 if not queue:
2709 2703 target = 2 ** 18
2710 2704 for chunk in self.iter:
2711 2705 queue.append(chunk)
2712 2706 target -= len(chunk)
2713 2707 if target <= 0:
2714 2708 break
2715 2709 if not queue:
2716 2710 break
2717 2711
2718 2712 # The easy way to do this would be to queue.popleft(), modify the
2719 2713 # chunk (if necessary), then queue.appendleft(). However, for cases
2720 2714 # where we read partial chunk content, this incurs 2 dequeue
2721 2715 # mutations and creates a new str for the remaining chunk in the
2722 2716 # queue. Our code below avoids this overhead.
2723 2717
2724 2718 chunk = queue[0]
2725 2719 chunkl = len(chunk)
2726 2720 offset = self._chunkoffset
2727 2721
2728 2722 # Use full chunk.
2729 2723 if offset == 0 and left >= chunkl:
2730 2724 left -= chunkl
2731 2725 queue.popleft()
2732 2726 buf.append(chunk)
2733 2727 # self._chunkoffset remains at 0.
2734 2728 continue
2735 2729
2736 2730 chunkremaining = chunkl - offset
2737 2731
2738 2732 # Use all of unconsumed part of chunk.
2739 2733 if left >= chunkremaining:
2740 2734 left -= chunkremaining
2741 2735 queue.popleft()
2742 2736 # offset == 0 is enabled by block above, so this won't merely
2743 2737 # copy via ``chunk[0:]``.
2744 2738 buf.append(chunk[offset:])
2745 2739 self._chunkoffset = 0
2746 2740
2747 2741 # Partial chunk needed.
2748 2742 else:
2749 2743 buf.append(chunk[offset : offset + left])
2750 2744 self._chunkoffset += left
2751 2745 left -= chunkremaining
2752 2746
2753 2747 return b''.join(buf)
2754 2748
2755 2749
2756 2750 def filechunkiter(f, size=131072, limit=None):
2757 2751 """Create a generator that produces the data in the file size
2758 2752 (default 131072) bytes at a time, up to optional limit (default is
2759 2753 to read all data). Chunks may be less than size bytes if the
2760 2754 chunk is the last chunk in the file, or the file is a socket or
2761 2755 some other type of file that sometimes reads less data than is
2762 2756 requested."""
2763 2757 assert size >= 0
2764 2758 assert limit is None or limit >= 0
2765 2759 while True:
2766 2760 if limit is None:
2767 2761 nbytes = size
2768 2762 else:
2769 2763 nbytes = min(limit, size)
2770 2764 s = nbytes and f.read(nbytes)
2771 2765 if not s:
2772 2766 break
2773 2767 if limit:
2774 2768 limit -= len(s)
2775 2769 yield s
2776 2770
2777 2771
2778 2772 class cappedreader:
2779 2773 """A file object proxy that allows reading up to N bytes.
2780 2774
2781 2775 Given a source file object, instances of this type allow reading up to
2782 2776 N bytes from that source file object. Attempts to read past the allowed
2783 2777 limit are treated as EOF.
2784 2778
2785 2779 It is assumed that I/O is not performed on the original file object
2786 2780 in addition to I/O that is performed by this instance. If there is,
2787 2781 state tracking will get out of sync and unexpected results will ensue.
2788 2782 """
2789 2783
2790 2784 def __init__(self, fh, limit):
2791 2785 """Allow reading up to <limit> bytes from <fh>."""
2792 2786 self._fh = fh
2793 2787 self._left = limit
2794 2788
2795 2789 def read(self, n=-1):
2796 2790 if not self._left:
2797 2791 return b''
2798 2792
2799 2793 if n < 0:
2800 2794 n = self._left
2801 2795
2802 2796 data = self._fh.read(min(n, self._left))
2803 2797 self._left -= len(data)
2804 2798 assert self._left >= 0
2805 2799
2806 2800 return data
2807 2801
2808 2802 def readinto(self, b):
2809 2803 res = self.read(len(b))
2810 2804 if res is None:
2811 2805 return None
2812 2806
2813 2807 b[0 : len(res)] = res
2814 2808 return len(res)
2815 2809
2816 2810
2817 2811 def unitcountfn(*unittable):
2818 2812 '''return a function that renders a readable count of some quantity'''
2819 2813
2820 2814 def go(count):
2821 2815 for multiplier, divisor, format in unittable:
2822 2816 if abs(count) >= divisor * multiplier:
2823 2817 return format % (count / float(divisor))
2824 2818 return unittable[-1][2] % count
2825 2819
2826 2820 return go
2827 2821
2828 2822
2829 2823 def processlinerange(fromline: int, toline: int) -> Tuple[int, int]:
2830 2824 """Check that linerange <fromline>:<toline> makes sense and return a
2831 2825 0-based range.
2832 2826
2833 2827 >>> processlinerange(10, 20)
2834 2828 (9, 20)
2835 2829 >>> processlinerange(2, 1)
2836 2830 Traceback (most recent call last):
2837 2831 ...
2838 2832 ParseError: line range must be positive
2839 2833 >>> processlinerange(0, 5)
2840 2834 Traceback (most recent call last):
2841 2835 ...
2842 2836 ParseError: fromline must be strictly positive
2843 2837 """
2844 2838 if toline - fromline < 0:
2845 2839 raise error.ParseError(_(b"line range must be positive"))
2846 2840 if fromline < 1:
2847 2841 raise error.ParseError(_(b"fromline must be strictly positive"))
2848 2842 return fromline - 1, toline
2849 2843
2850 2844
2851 2845 bytecount = unitcountfn(
2852 2846 (100, 1 << 30, _(b'%.0f GB')),
2853 2847 (10, 1 << 30, _(b'%.1f GB')),
2854 2848 (1, 1 << 30, _(b'%.2f GB')),
2855 2849 (100, 1 << 20, _(b'%.0f MB')),
2856 2850 (10, 1 << 20, _(b'%.1f MB')),
2857 2851 (1, 1 << 20, _(b'%.2f MB')),
2858 2852 (100, 1 << 10, _(b'%.0f KB')),
2859 2853 (10, 1 << 10, _(b'%.1f KB')),
2860 2854 (1, 1 << 10, _(b'%.2f KB')),
2861 2855 (1, 1, _(b'%.0f bytes')),
2862 2856 )
2863 2857
2864 2858
2865 2859 class transformingwriter:
2866 2860 """Writable file wrapper to transform data by function"""
2867 2861
2868 2862 def __init__(self, fp, encode):
2869 2863 self._fp = fp
2870 2864 self._encode = encode
2871 2865
2872 2866 def close(self):
2873 2867 self._fp.close()
2874 2868
2875 2869 def flush(self):
2876 2870 self._fp.flush()
2877 2871
2878 2872 def write(self, data):
2879 2873 return self._fp.write(self._encode(data))
2880 2874
2881 2875
2882 2876 # Matches a single EOL which can either be a CRLF where repeated CR
2883 2877 # are removed or a LF. We do not care about old Macintosh files, so a
2884 2878 # stray CR is an error.
2885 2879 _eolre = remod.compile(br'\r*\n')
2886 2880
2887 2881
2888 2882 def tolf(s: bytes) -> bytes:
2889 2883 return _eolre.sub(b'\n', s)
2890 2884
2891 2885
2892 2886 def tocrlf(s: bytes) -> bytes:
2893 2887 return _eolre.sub(b'\r\n', s)
2894 2888
2895 2889
2896 2890 def _crlfwriter(fp):
2897 2891 return transformingwriter(fp, tocrlf)
2898 2892
2899 2893
2900 2894 if pycompat.oslinesep == b'\r\n':
2901 2895 tonativeeol = tocrlf
2902 2896 fromnativeeol = tolf
2903 2897 nativeeolwriter = _crlfwriter
2904 2898 else:
2905 2899 tonativeeol = pycompat.identity
2906 2900 fromnativeeol = pycompat.identity
2907 2901 nativeeolwriter = pycompat.identity
2908 2902
2909 2903
2910 2904 # TODO delete since workaround variant for Python 2 no longer needed.
2911 2905 def iterfile(fp):
2912 2906 return fp
2913 2907
2914 2908
2915 2909 def iterlines(iterator: Iterable[bytes]) -> Iterator[bytes]:
2916 2910 for chunk in iterator:
2917 2911 for line in chunk.splitlines():
2918 2912 yield line
2919 2913
2920 2914
2921 2915 def expandpath(path: bytes) -> bytes:
2922 2916 return os.path.expanduser(os.path.expandvars(path))
2923 2917
2924 2918
2925 2919 def interpolate(prefix, mapping, s, fn=None, escape_prefix=False):
2926 2920 """Return the result of interpolating items in the mapping into string s.
2927 2921
2928 2922 prefix is a single character string, or a two character string with
2929 2923 a backslash as the first character if the prefix needs to be escaped in
2930 2924 a regular expression.
2931 2925
2932 2926 fn is an optional function that will be applied to the replacement text
2933 2927 just before replacement.
2934 2928
2935 2929 escape_prefix is an optional flag that allows using doubled prefix for
2936 2930 its escaping.
2937 2931 """
2938 2932 fn = fn or (lambda s: s)
2939 2933 patterns = b'|'.join(mapping.keys())
2940 2934 if escape_prefix:
2941 2935 patterns += b'|' + prefix
2942 2936 if len(prefix) > 1:
2943 2937 prefix_char = prefix[1:]
2944 2938 else:
2945 2939 prefix_char = prefix
2946 2940 mapping[prefix_char] = prefix_char
2947 2941 r = remod.compile(br'%s(%s)' % (prefix, patterns))
2948 2942 return r.sub(lambda x: fn(mapping[x.group()[1:]]), s)
2949 2943
2950 2944
2951 2945 timecount = unitcountfn(
2952 2946 (1, 1e3, _(b'%.0f s')),
2953 2947 (100, 1, _(b'%.1f s')),
2954 2948 (10, 1, _(b'%.2f s')),
2955 2949 (1, 1, _(b'%.3f s')),
2956 2950 (100, 0.001, _(b'%.1f ms')),
2957 2951 (10, 0.001, _(b'%.2f ms')),
2958 2952 (1, 0.001, _(b'%.3f ms')),
2959 2953 (100, 0.000001, _(b'%.1f us')),
2960 2954 (10, 0.000001, _(b'%.2f us')),
2961 2955 (1, 0.000001, _(b'%.3f us')),
2962 2956 (100, 0.000000001, _(b'%.1f ns')),
2963 2957 (10, 0.000000001, _(b'%.2f ns')),
2964 2958 (1, 0.000000001, _(b'%.3f ns')),
2965 2959 )
2966 2960
2967 2961
2968 2962 @attr.s
2969 2963 class timedcmstats:
2970 2964 """Stats information produced by the timedcm context manager on entering."""
2971 2965
2972 2966 # the starting value of the timer as a float (meaning and resulution is
2973 2967 # platform dependent, see util.timer)
2974 2968 start = attr.ib(default=attr.Factory(lambda: timer()))
2975 2969 # the number of seconds as a floating point value; starts at 0, updated when
2976 2970 # the context is exited.
2977 2971 elapsed = attr.ib(default=0)
2978 2972 # the number of nested timedcm context managers.
2979 2973 level = attr.ib(default=1)
2980 2974
2981 2975 def __bytes__(self):
2982 2976 return timecount(self.elapsed) if self.elapsed else b'<unknown>'
2983 2977
2984 2978 __str__ = encoding.strmethod(__bytes__)
2985 2979
2986 2980
2987 2981 @contextlib.contextmanager
2988 2982 def timedcm(whencefmt, *whenceargs):
2989 2983 """A context manager that produces timing information for a given context.
2990 2984
2991 2985 On entering a timedcmstats instance is produced.
2992 2986
2993 2987 This context manager is reentrant.
2994 2988
2995 2989 """
2996 2990 # track nested context managers
2997 2991 timedcm._nested += 1
2998 2992 timing_stats = timedcmstats(level=timedcm._nested)
2999 2993 try:
3000 2994 with tracing.log(whencefmt, *whenceargs):
3001 2995 yield timing_stats
3002 2996 finally:
3003 2997 timing_stats.elapsed = timer() - timing_stats.start
3004 2998 timedcm._nested -= 1
3005 2999
3006 3000
3007 3001 timedcm._nested = 0
3008 3002
3009 3003
3010 3004 def timed(func):
3011 3005 """Report the execution time of a function call to stderr.
3012 3006
3013 3007 During development, use as a decorator when you need to measure
3014 3008 the cost of a function, e.g. as follows:
3015 3009
3016 3010 @util.timed
3017 3011 def foo(a, b, c):
3018 3012 pass
3019 3013 """
3020 3014
3021 3015 def wrapper(*args, **kwargs):
3022 3016 with timedcm(pycompat.bytestr(func.__name__)) as time_stats:
3023 3017 result = func(*args, **kwargs)
3024 3018 stderr = procutil.stderr
3025 3019 stderr.write(
3026 3020 b'%s%s: %s\n'
3027 3021 % (
3028 3022 b' ' * time_stats.level * 2,
3029 3023 pycompat.bytestr(func.__name__),
3030 3024 time_stats,
3031 3025 )
3032 3026 )
3033 3027 return result
3034 3028
3035 3029 return wrapper
3036 3030
3037 3031
3038 3032 _sizeunits = (
3039 3033 (b'm', 2 ** 20),
3040 3034 (b'k', 2 ** 10),
3041 3035 (b'g', 2 ** 30),
3042 3036 (b'kb', 2 ** 10),
3043 3037 (b'mb', 2 ** 20),
3044 3038 (b'gb', 2 ** 30),
3045 3039 (b'b', 1),
3046 3040 )
3047 3041
3048 3042
3049 3043 def sizetoint(s: bytes) -> int:
3050 3044 """Convert a space specifier to a byte count.
3051 3045
3052 3046 >>> sizetoint(b'30')
3053 3047 30
3054 3048 >>> sizetoint(b'2.2kb')
3055 3049 2252
3056 3050 >>> sizetoint(b'6M')
3057 3051 6291456
3058 3052 """
3059 3053 t = s.strip().lower()
3060 3054 try:
3061 3055 for k, u in _sizeunits:
3062 3056 if t.endswith(k):
3063 3057 return int(float(t[: -len(k)]) * u)
3064 3058 return int(t)
3065 3059 except ValueError:
3066 3060 raise error.ParseError(_(b"couldn't parse size: %s") % s)
3067 3061
3068 3062
3069 3063 class hooks:
3070 3064 """A collection of hook functions that can be used to extend a
3071 3065 function's behavior. Hooks are called in lexicographic order,
3072 3066 based on the names of their sources."""
3073 3067
3074 3068 def __init__(self):
3075 3069 self._hooks = []
3076 3070
3077 3071 def add(self, source, hook):
3078 3072 self._hooks.append((source, hook))
3079 3073
3080 3074 def __call__(self, *args):
3081 3075 self._hooks.sort(key=lambda x: x[0])
3082 3076 results = []
3083 3077 for source, hook in self._hooks:
3084 3078 results.append(hook(*args))
3085 3079 return results
3086 3080
3087 3081
3088 3082 def getstackframes(skip=0, line=b' %-*s in %s\n', fileline=b'%s:%d', depth=0):
3089 3083 """Yields lines for a nicely formatted stacktrace.
3090 3084 Skips the 'skip' last entries, then return the last 'depth' entries.
3091 3085 Each file+linenumber is formatted according to fileline.
3092 3086 Each line is formatted according to line.
3093 3087 If line is None, it yields:
3094 3088 length of longest filepath+line number,
3095 3089 filepath+linenumber,
3096 3090 function
3097 3091
3098 3092 Not be used in production code but very convenient while developing.
3099 3093 """
3100 3094 entries = [
3101 3095 (fileline % (pycompat.sysbytes(fn), ln), pycompat.sysbytes(func))
3102 3096 for fn, ln, func, _text in traceback.extract_stack()[: -skip - 1]
3103 3097 ][-depth:]
3104 3098 if entries:
3105 3099 fnmax = max(len(entry[0]) for entry in entries)
3106 3100 for fnln, func in entries:
3107 3101 if line is None:
3108 3102 yield (fnmax, fnln, func)
3109 3103 else:
3110 3104 yield line % (fnmax, fnln, func)
3111 3105
3112 3106
3113 3107 def debugstacktrace(
3114 3108 msg=b'stacktrace',
3115 3109 skip=0,
3116 3110 f=procutil.stderr,
3117 3111 otherf=procutil.stdout,
3118 3112 depth=0,
3119 3113 prefix=b'',
3120 3114 ):
3121 3115 """Writes a message to f (stderr) with a nicely formatted stacktrace.
3122 3116 Skips the 'skip' entries closest to the call, then show 'depth' entries.
3123 3117 By default it will flush stdout first.
3124 3118 It can be used everywhere and intentionally does not require an ui object.
3125 3119 Not be used in production code but very convenient while developing.
3126 3120 """
3127 3121 if otherf:
3128 3122 otherf.flush()
3129 3123 f.write(b'%s%s at:\n' % (prefix, msg.rstrip()))
3130 3124 for line in getstackframes(skip + 1, depth=depth):
3131 3125 f.write(prefix + line)
3132 3126 f.flush()
3133 3127
3134 3128
3135 3129 # convenient shortcut
3136 3130 dst = debugstacktrace
3137 3131
3138 3132
3139 3133 def safename(f, tag, ctx, others=None):
3140 3134 """
3141 3135 Generate a name that it is safe to rename f to in the given context.
3142 3136
3143 3137 f: filename to rename
3144 3138 tag: a string tag that will be included in the new name
3145 3139 ctx: a context, in which the new name must not exist
3146 3140 others: a set of other filenames that the new name must not be in
3147 3141
3148 3142 Returns a file name of the form oldname~tag[~number] which does not exist
3149 3143 in the provided context and is not in the set of other names.
3150 3144 """
3151 3145 if others is None:
3152 3146 others = set()
3153 3147
3154 3148 fn = b'%s~%s' % (f, tag)
3155 3149 if fn not in ctx and fn not in others:
3156 3150 return fn
3157 3151 for n in itertools.count(1):
3158 3152 fn = b'%s~%s~%s' % (f, tag, n)
3159 3153 if fn not in ctx and fn not in others:
3160 3154 return fn
3161 3155
3162 3156
3163 3157 def readexactly(stream, n):
3164 3158 '''read n bytes from stream.read and abort if less was available'''
3165 3159 s = stream.read(n)
3166 3160 if len(s) < n:
3167 3161 raise error.Abort(
3168 3162 _(b"stream ended unexpectedly (got %d bytes, expected %d)")
3169 3163 % (len(s), n)
3170 3164 )
3171 3165 return s
3172 3166
3173 3167
3174 3168 def uvarintencode(value):
3175 3169 """Encode an unsigned integer value to a varint.
3176 3170
3177 3171 A varint is a variable length integer of 1 or more bytes. Each byte
3178 3172 except the last has the most significant bit set. The lower 7 bits of
3179 3173 each byte store the 2's complement representation, least significant group
3180 3174 first.
3181 3175
3182 3176 >>> uvarintencode(0)
3183 3177 '\\x00'
3184 3178 >>> uvarintencode(1)
3185 3179 '\\x01'
3186 3180 >>> uvarintencode(127)
3187 3181 '\\x7f'
3188 3182 >>> uvarintencode(1337)
3189 3183 '\\xb9\\n'
3190 3184 >>> uvarintencode(65536)
3191 3185 '\\x80\\x80\\x04'
3192 3186 >>> uvarintencode(-1)
3193 3187 Traceback (most recent call last):
3194 3188 ...
3195 3189 ProgrammingError: negative value for uvarint: -1
3196 3190 """
3197 3191 if value < 0:
3198 3192 raise error.ProgrammingError(b'negative value for uvarint: %d' % value)
3199 3193 bits = value & 0x7F
3200 3194 value >>= 7
3201 3195 bytes = []
3202 3196 while value:
3203 3197 bytes.append(pycompat.bytechr(0x80 | bits))
3204 3198 bits = value & 0x7F
3205 3199 value >>= 7
3206 3200 bytes.append(pycompat.bytechr(bits))
3207 3201
3208 3202 return b''.join(bytes)
3209 3203
3210 3204
3211 3205 def uvarintdecodestream(fh):
3212 3206 """Decode an unsigned variable length integer from a stream.
3213 3207
3214 3208 The passed argument is anything that has a ``.read(N)`` method.
3215 3209
3216 3210 >>> from io import BytesIO
3217 3211 >>> uvarintdecodestream(BytesIO(b'\\x00'))
3218 3212 0
3219 3213 >>> uvarintdecodestream(BytesIO(b'\\x01'))
3220 3214 1
3221 3215 >>> uvarintdecodestream(BytesIO(b'\\x7f'))
3222 3216 127
3223 3217 >>> uvarintdecodestream(BytesIO(b'\\xb9\\n'))
3224 3218 1337
3225 3219 >>> uvarintdecodestream(BytesIO(b'\\x80\\x80\\x04'))
3226 3220 65536
3227 3221 >>> uvarintdecodestream(BytesIO(b'\\x80'))
3228 3222 Traceback (most recent call last):
3229 3223 ...
3230 3224 Abort: stream ended unexpectedly (got 0 bytes, expected 1)
3231 3225 """
3232 3226 result = 0
3233 3227 shift = 0
3234 3228 while True:
3235 3229 byte = ord(readexactly(fh, 1))
3236 3230 result |= (byte & 0x7F) << shift
3237 3231 if not (byte & 0x80):
3238 3232 return result
3239 3233 shift += 7
3240 3234
3241 3235
3242 3236 # Passing the '' locale means that the locale should be set according to the
3243 3237 # user settings (environment variables).
3244 3238 # Python sometimes avoids setting the global locale settings. When interfacing
3245 3239 # with C code (e.g. the curses module or the Subversion bindings), the global
3246 3240 # locale settings must be initialized correctly. Python 2 does not initialize
3247 3241 # the global locale settings on interpreter startup. Python 3 sometimes
3248 3242 # initializes LC_CTYPE, but not consistently at least on Windows. Therefore we
3249 3243 # explicitly initialize it to get consistent behavior if it's not already
3250 3244 # initialized. Since CPython commit 177d921c8c03d30daa32994362023f777624b10d,
3251 3245 # LC_CTYPE is always initialized. If we require Python 3.8+, we should re-check
3252 3246 # if we can remove this code.
3253 3247 @contextlib.contextmanager
3254 3248 def with_lc_ctype():
3255 3249 oldloc = locale.setlocale(locale.LC_CTYPE, None)
3256 3250 if oldloc == 'C':
3257 3251 try:
3258 3252 try:
3259 3253 locale.setlocale(locale.LC_CTYPE, '')
3260 3254 except locale.Error:
3261 3255 # The likely case is that the locale from the environment
3262 3256 # variables is unknown.
3263 3257 pass
3264 3258 yield
3265 3259 finally:
3266 3260 locale.setlocale(locale.LC_CTYPE, oldloc)
3267 3261 else:
3268 3262 yield
3269 3263
3270 3264
3271 3265 def _estimatememory() -> Optional[int]:
3272 3266 """Provide an estimate for the available system memory in Bytes.
3273 3267
3274 3268 If no estimate can be provided on the platform, returns None.
3275 3269 """
3276 3270 if pycompat.sysplatform.startswith(b'win'):
3277 3271 # On Windows, use the GlobalMemoryStatusEx kernel function directly.
3278 3272 from ctypes import c_long as DWORD, c_ulonglong as DWORDLONG
3279 3273 from ctypes.wintypes import ( # pytype: disable=import-error
3280 3274 Structure,
3281 3275 byref,
3282 3276 sizeof,
3283 3277 windll,
3284 3278 )
3285 3279
3286 3280 class MEMORYSTATUSEX(Structure):
3287 3281 _fields_ = [
3288 3282 ('dwLength', DWORD),
3289 3283 ('dwMemoryLoad', DWORD),
3290 3284 ('ullTotalPhys', DWORDLONG),
3291 3285 ('ullAvailPhys', DWORDLONG),
3292 3286 ('ullTotalPageFile', DWORDLONG),
3293 3287 ('ullAvailPageFile', DWORDLONG),
3294 3288 ('ullTotalVirtual', DWORDLONG),
3295 3289 ('ullAvailVirtual', DWORDLONG),
3296 3290 ('ullExtendedVirtual', DWORDLONG),
3297 3291 ]
3298 3292
3299 3293 x = MEMORYSTATUSEX()
3300 3294 x.dwLength = sizeof(x)
3301 3295 windll.kernel32.GlobalMemoryStatusEx(byref(x))
3302 3296 return x.ullAvailPhys
3303 3297
3304 3298 # On newer Unix-like systems and Mac OSX, the sysconf interface
3305 3299 # can be used. _SC_PAGE_SIZE is part of POSIX; _SC_PHYS_PAGES
3306 3300 # seems to be implemented on most systems.
3307 3301 try:
3308 3302 pagesize = os.sysconf(os.sysconf_names['SC_PAGE_SIZE'])
3309 3303 pages = os.sysconf(os.sysconf_names['SC_PHYS_PAGES'])
3310 3304 return pagesize * pages
3311 3305 except OSError: # sysconf can fail
3312 3306 pass
3313 3307 except KeyError: # unknown parameter
3314 3308 pass
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