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revlog: fix check-code error
Matt Mackall -
r21752:e250a482 stable
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1 1 # revlog.py - storage back-end for mercurial
2 2 #
3 3 # Copyright 2005-2007 Matt Mackall <mpm@selenic.com>
4 4 #
5 5 # This software may be used and distributed according to the terms of the
6 6 # GNU General Public License version 2 or any later version.
7 7
8 8 """Storage back-end for Mercurial.
9 9
10 10 This provides efficient delta storage with O(1) retrieve and append
11 11 and O(changes) merge between branches.
12 12 """
13 13
14 14 # import stuff from node for others to import from revlog
15 15 from node import bin, hex, nullid, nullrev
16 16 from i18n import _
17 17 import ancestor, mdiff, parsers, error, util, templatefilters
18 18 import struct, zlib, errno
19 19
20 20 _pack = struct.pack
21 21 _unpack = struct.unpack
22 22 _compress = zlib.compress
23 23 _decompress = zlib.decompress
24 24 _sha = util.sha1
25 25
26 26 # revlog header flags
27 27 REVLOGV0 = 0
28 28 REVLOGNG = 1
29 29 REVLOGNGINLINEDATA = (1 << 16)
30 30 REVLOGGENERALDELTA = (1 << 17)
31 31 REVLOG_DEFAULT_FLAGS = REVLOGNGINLINEDATA
32 32 REVLOG_DEFAULT_FORMAT = REVLOGNG
33 33 REVLOG_DEFAULT_VERSION = REVLOG_DEFAULT_FORMAT | REVLOG_DEFAULT_FLAGS
34 34 REVLOGNG_FLAGS = REVLOGNGINLINEDATA | REVLOGGENERALDELTA
35 35
36 36 # revlog index flags
37 37 REVIDX_KNOWN_FLAGS = 0
38 38
39 39 # max size of revlog with inline data
40 40 _maxinline = 131072
41 41 _chunksize = 1048576
42 42
43 43 RevlogError = error.RevlogError
44 44 LookupError = error.LookupError
45 45
46 46 def getoffset(q):
47 47 return int(q >> 16)
48 48
49 49 def gettype(q):
50 50 return int(q & 0xFFFF)
51 51
52 52 def offset_type(offset, type):
53 53 return long(long(offset) << 16 | type)
54 54
55 55 nullhash = _sha(nullid)
56 56
57 57 def hash(text, p1, p2):
58 58 """generate a hash from the given text and its parent hashes
59 59
60 60 This hash combines both the current file contents and its history
61 61 in a manner that makes it easy to distinguish nodes with the same
62 62 content in the revision graph.
63 63 """
64 64 # As of now, if one of the parent node is null, p2 is null
65 65 if p2 == nullid:
66 66 # deep copy of a hash is faster than creating one
67 67 s = nullhash.copy()
68 68 s.update(p1)
69 69 else:
70 70 # none of the parent nodes are nullid
71 71 l = [p1, p2]
72 72 l.sort()
73 73 s = _sha(l[0])
74 74 s.update(l[1])
75 75 s.update(text)
76 76 return s.digest()
77 77
78 78 def decompress(bin):
79 79 """ decompress the given input """
80 80 if not bin:
81 81 return bin
82 82 t = bin[0]
83 83 if t == '\0':
84 84 return bin
85 85 if t == 'x':
86 86 try:
87 87 return _decompress(bin)
88 88 except zlib.error, e:
89 89 raise RevlogError(_("revlog decompress error: %s") % str(e))
90 90 if t == 'u':
91 91 return bin[1:]
92 92 raise RevlogError(_("unknown compression type %r") % t)
93 93
94 94 # index v0:
95 95 # 4 bytes: offset
96 96 # 4 bytes: compressed length
97 97 # 4 bytes: base rev
98 98 # 4 bytes: link rev
99 99 # 32 bytes: parent 1 nodeid
100 100 # 32 bytes: parent 2 nodeid
101 101 # 32 bytes: nodeid
102 102 indexformatv0 = ">4l20s20s20s"
103 103 v0shaoffset = 56
104 104
105 105 class revlogoldio(object):
106 106 def __init__(self):
107 107 self.size = struct.calcsize(indexformatv0)
108 108
109 109 def parseindex(self, data, inline):
110 110 s = self.size
111 111 index = []
112 112 nodemap = {nullid: nullrev}
113 113 n = off = 0
114 114 l = len(data)
115 115 while off + s <= l:
116 116 cur = data[off:off + s]
117 117 off += s
118 118 e = _unpack(indexformatv0, cur)
119 119 # transform to revlogv1 format
120 120 e2 = (offset_type(e[0], 0), e[1], -1, e[2], e[3],
121 121 nodemap.get(e[4], nullrev), nodemap.get(e[5], nullrev), e[6])
122 122 index.append(e2)
123 123 nodemap[e[6]] = n
124 124 n += 1
125 125
126 126 # add the magic null revision at -1
127 127 index.append((0, 0, 0, -1, -1, -1, -1, nullid))
128 128
129 129 return index, nodemap, None
130 130
131 131 def packentry(self, entry, node, version, rev):
132 132 if gettype(entry[0]):
133 133 raise RevlogError(_("index entry flags need RevlogNG"))
134 134 e2 = (getoffset(entry[0]), entry[1], entry[3], entry[4],
135 135 node(entry[5]), node(entry[6]), entry[7])
136 136 return _pack(indexformatv0, *e2)
137 137
138 138 # index ng:
139 139 # 6 bytes: offset
140 140 # 2 bytes: flags
141 141 # 4 bytes: compressed length
142 142 # 4 bytes: uncompressed length
143 143 # 4 bytes: base rev
144 144 # 4 bytes: link rev
145 145 # 4 bytes: parent 1 rev
146 146 # 4 bytes: parent 2 rev
147 147 # 32 bytes: nodeid
148 148 indexformatng = ">Qiiiiii20s12x"
149 149 ngshaoffset = 32
150 150 versionformat = ">I"
151 151
152 152 class revlogio(object):
153 153 def __init__(self):
154 154 self.size = struct.calcsize(indexformatng)
155 155
156 156 def parseindex(self, data, inline):
157 157 # call the C implementation to parse the index data
158 158 index, cache = parsers.parse_index2(data, inline)
159 159 return index, getattr(index, 'nodemap', None), cache
160 160
161 161 def packentry(self, entry, node, version, rev):
162 162 p = _pack(indexformatng, *entry)
163 163 if rev == 0:
164 164 p = _pack(versionformat, version) + p[4:]
165 165 return p
166 166
167 167 class revlog(object):
168 168 """
169 169 the underlying revision storage object
170 170
171 171 A revlog consists of two parts, an index and the revision data.
172 172
173 173 The index is a file with a fixed record size containing
174 174 information on each revision, including its nodeid (hash), the
175 175 nodeids of its parents, the position and offset of its data within
176 176 the data file, and the revision it's based on. Finally, each entry
177 177 contains a linkrev entry that can serve as a pointer to external
178 178 data.
179 179
180 180 The revision data itself is a linear collection of data chunks.
181 181 Each chunk represents a revision and is usually represented as a
182 182 delta against the previous chunk. To bound lookup time, runs of
183 183 deltas are limited to about 2 times the length of the original
184 184 version data. This makes retrieval of a version proportional to
185 185 its size, or O(1) relative to the number of revisions.
186 186
187 187 Both pieces of the revlog are written to in an append-only
188 188 fashion, which means we never need to rewrite a file to insert or
189 189 remove data, and can use some simple techniques to avoid the need
190 190 for locking while reading.
191 191 """
192 192 def __init__(self, opener, indexfile):
193 193 """
194 194 create a revlog object
195 195
196 196 opener is a function that abstracts the file opening operation
197 197 and can be used to implement COW semantics or the like.
198 198 """
199 199 self.indexfile = indexfile
200 200 self.datafile = indexfile[:-2] + ".d"
201 201 self.opener = opener
202 202 self._cache = None
203 203 self._basecache = None
204 204 self._chunkcache = (0, '')
205 205 self._chunkcachesize = 65536
206 206 self.index = []
207 207 self._pcache = {}
208 208 self._nodecache = {nullid: nullrev}
209 209 self._nodepos = None
210 210
211 211 v = REVLOG_DEFAULT_VERSION
212 212 opts = getattr(opener, 'options', None)
213 213 if opts is not None:
214 214 if 'revlogv1' in opts:
215 215 if 'generaldelta' in opts:
216 216 v |= REVLOGGENERALDELTA
217 217 else:
218 218 v = 0
219 219 if 'chunkcachesize' in opts:
220 220 self._chunkcachesize = opts['chunkcachesize']
221 221
222 222 if self._chunkcachesize <= 0:
223 223 raise RevlogError(_('revlog chunk cache size %r is not greater '
224 224 'than 0') % self._chunkcachesize)
225 225 elif self._chunkcachesize & (self._chunkcachesize - 1):
226 226 raise RevlogError(_('revlog chunk cache size %r is not a power '
227 227 'of 2') % self._chunkcachesize)
228 228
229 229 i = ''
230 230 self._initempty = True
231 231 try:
232 232 f = self.opener(self.indexfile)
233 233 i = f.read()
234 234 f.close()
235 235 if len(i) > 0:
236 236 v = struct.unpack(versionformat, i[:4])[0]
237 237 self._initempty = False
238 238 except IOError, inst:
239 239 if inst.errno != errno.ENOENT:
240 240 raise
241 241
242 242 self.version = v
243 243 self._inline = v & REVLOGNGINLINEDATA
244 244 self._generaldelta = v & REVLOGGENERALDELTA
245 245 flags = v & ~0xFFFF
246 246 fmt = v & 0xFFFF
247 247 if fmt == REVLOGV0 and flags:
248 248 raise RevlogError(_("index %s unknown flags %#04x for format v0")
249 249 % (self.indexfile, flags >> 16))
250 250 elif fmt == REVLOGNG and flags & ~REVLOGNG_FLAGS:
251 251 raise RevlogError(_("index %s unknown flags %#04x for revlogng")
252 252 % (self.indexfile, flags >> 16))
253 253 elif fmt > REVLOGNG:
254 254 raise RevlogError(_("index %s unknown format %d")
255 255 % (self.indexfile, fmt))
256 256
257 257 self._io = revlogio()
258 258 if self.version == REVLOGV0:
259 259 self._io = revlogoldio()
260 260 try:
261 261 d = self._io.parseindex(i, self._inline)
262 262 except (ValueError, IndexError):
263 263 raise RevlogError(_("index %s is corrupted") % (self.indexfile))
264 264 self.index, nodemap, self._chunkcache = d
265 265 if nodemap is not None:
266 266 self.nodemap = self._nodecache = nodemap
267 267 if not self._chunkcache:
268 268 self._chunkclear()
269 269
270 270 def tip(self):
271 271 return self.node(len(self.index) - 2)
272 272 def __len__(self):
273 273 return len(self.index) - 1
274 274 def __iter__(self):
275 275 return iter(xrange(len(self)))
276 276 def revs(self, start=0, stop=None):
277 277 """iterate over all rev in this revlog (from start to stop)"""
278 278 step = 1
279 279 if stop is not None:
280 280 if start > stop:
281 281 step = -1
282 282 stop += step
283 283 else:
284 284 stop = len(self)
285 285 return xrange(start, stop, step)
286 286
287 287 @util.propertycache
288 288 def nodemap(self):
289 289 self.rev(self.node(0))
290 290 return self._nodecache
291 291
292 292 def hasnode(self, node):
293 293 try:
294 294 self.rev(node)
295 295 return True
296 296 except KeyError:
297 297 return False
298 298
299 299 def clearcaches(self):
300 300 try:
301 301 self._nodecache.clearcaches()
302 302 except AttributeError:
303 303 self._nodecache = {nullid: nullrev}
304 304 self._nodepos = None
305 305
306 306 def rev(self, node):
307 307 try:
308 308 return self._nodecache[node]
309 309 except RevlogError:
310 310 # parsers.c radix tree lookup failed
311 311 raise LookupError(node, self.indexfile, _('no node'))
312 312 except KeyError:
313 313 # pure python cache lookup failed
314 314 n = self._nodecache
315 315 i = self.index
316 316 p = self._nodepos
317 317 if p is None:
318 318 p = len(i) - 2
319 319 for r in xrange(p, -1, -1):
320 320 v = i[r][7]
321 321 n[v] = r
322 322 if v == node:
323 323 self._nodepos = r - 1
324 324 return r
325 325 raise LookupError(node, self.indexfile, _('no node'))
326 326
327 327 def node(self, rev):
328 328 return self.index[rev][7]
329 329 def linkrev(self, rev):
330 330 return self.index[rev][4]
331 331 def parents(self, node):
332 332 i = self.index
333 333 d = i[self.rev(node)]
334 334 return i[d[5]][7], i[d[6]][7] # map revisions to nodes inline
335 335 def parentrevs(self, rev):
336 336 return self.index[rev][5:7]
337 337 def start(self, rev):
338 338 return int(self.index[rev][0] >> 16)
339 339 def end(self, rev):
340 340 return self.start(rev) + self.length(rev)
341 341 def length(self, rev):
342 342 return self.index[rev][1]
343 343 def chainbase(self, rev):
344 344 index = self.index
345 345 base = index[rev][3]
346 346 while base != rev:
347 347 rev = base
348 348 base = index[rev][3]
349 349 return base
350 350 def flags(self, rev):
351 351 return self.index[rev][0] & 0xFFFF
352 352 def rawsize(self, rev):
353 353 """return the length of the uncompressed text for a given revision"""
354 354 l = self.index[rev][2]
355 355 if l >= 0:
356 356 return l
357 357
358 358 t = self.revision(self.node(rev))
359 359 return len(t)
360 360 size = rawsize
361 361
362 362 def ancestors(self, revs, stoprev=0, inclusive=False):
363 363 """Generate the ancestors of 'revs' in reverse topological order.
364 364 Does not generate revs lower than stoprev.
365 365
366 366 See the documentation for ancestor.lazyancestors for more details."""
367 367
368 368 return ancestor.lazyancestors(self, revs, stoprev=stoprev,
369 369 inclusive=inclusive)
370 370
371 371 def descendants(self, revs):
372 372 """Generate the descendants of 'revs' in revision order.
373 373
374 374 Yield a sequence of revision numbers starting with a child of
375 375 some rev in revs, i.e., each revision is *not* considered a
376 376 descendant of itself. Results are ordered by revision number (a
377 377 topological sort)."""
378 378 first = min(revs)
379 379 if first == nullrev:
380 380 for i in self:
381 381 yield i
382 382 return
383 383
384 384 seen = set(revs)
385 385 for i in self.revs(start=first + 1):
386 386 for x in self.parentrevs(i):
387 387 if x != nullrev and x in seen:
388 388 seen.add(i)
389 389 yield i
390 390 break
391 391
392 392 def findcommonmissing(self, common=None, heads=None):
393 393 """Return a tuple of the ancestors of common and the ancestors of heads
394 394 that are not ancestors of common. In revset terminology, we return the
395 395 tuple:
396 396
397 397 ::common, (::heads) - (::common)
398 398
399 399 The list is sorted by revision number, meaning it is
400 400 topologically sorted.
401 401
402 402 'heads' and 'common' are both lists of node IDs. If heads is
403 403 not supplied, uses all of the revlog's heads. If common is not
404 404 supplied, uses nullid."""
405 405 if common is None:
406 406 common = [nullid]
407 407 if heads is None:
408 408 heads = self.heads()
409 409
410 410 common = [self.rev(n) for n in common]
411 411 heads = [self.rev(n) for n in heads]
412 412
413 413 # we want the ancestors, but inclusive
414 414 class lazyset(object):
415 415 def __init__(self, lazyvalues):
416 416 self.addedvalues = set()
417 417 self.lazyvalues = lazyvalues
418 418
419 419 def __contains__(self, value):
420 420 return value in self.addedvalues or value in self.lazyvalues
421 421
422 422 def __iter__(self):
423 423 added = self.addedvalues
424 424 for r in added:
425 425 yield r
426 426 for r in self.lazyvalues:
427 427 if not r in added:
428 428 yield r
429 429
430 430 def add(self, value):
431 431 self.addedvalues.add(value)
432 432
433 433 def update(self, values):
434 434 self.addedvalues.update(values)
435 435
436 436 has = lazyset(self.ancestors(common))
437 437 has.add(nullrev)
438 438 has.update(common)
439 439
440 440 # take all ancestors from heads that aren't in has
441 441 missing = set()
442 442 visit = util.deque(r for r in heads if r not in has)
443 443 while visit:
444 444 r = visit.popleft()
445 445 if r in missing:
446 446 continue
447 447 else:
448 448 missing.add(r)
449 449 for p in self.parentrevs(r):
450 450 if p not in has:
451 451 visit.append(p)
452 452 missing = list(missing)
453 453 missing.sort()
454 454 return has, [self.node(r) for r in missing]
455 455
456 456 def findmissingrevs(self, common=None, heads=None):
457 457 """Return the revision numbers of the ancestors of heads that
458 458 are not ancestors of common.
459 459
460 460 More specifically, return a list of revision numbers corresponding to
461 461 nodes N such that every N satisfies the following constraints:
462 462
463 463 1. N is an ancestor of some node in 'heads'
464 464 2. N is not an ancestor of any node in 'common'
465 465
466 466 The list is sorted by revision number, meaning it is
467 467 topologically sorted.
468 468
469 469 'heads' and 'common' are both lists of revision numbers. If heads is
470 470 not supplied, uses all of the revlog's heads. If common is not
471 471 supplied, uses nullid."""
472 472 if common is None:
473 473 common = [nullrev]
474 474 if heads is None:
475 475 heads = self.headrevs()
476 476
477 477 return ancestor.missingancestors(heads, common, self.parentrevs)
478 478
479 479 def findmissing(self, common=None, heads=None):
480 480 """Return the ancestors of heads that are not ancestors of common.
481 481
482 482 More specifically, return a list of nodes N such that every N
483 483 satisfies the following constraints:
484 484
485 485 1. N is an ancestor of some node in 'heads'
486 486 2. N is not an ancestor of any node in 'common'
487 487
488 488 The list is sorted by revision number, meaning it is
489 489 topologically sorted.
490 490
491 491 'heads' and 'common' are both lists of node IDs. If heads is
492 492 not supplied, uses all of the revlog's heads. If common is not
493 493 supplied, uses nullid."""
494 494 if common is None:
495 495 common = [nullid]
496 496 if heads is None:
497 497 heads = self.heads()
498 498
499 499 common = [self.rev(n) for n in common]
500 500 heads = [self.rev(n) for n in heads]
501 501
502 502 return [self.node(r) for r in
503 503 ancestor.missingancestors(heads, common, self.parentrevs)]
504 504
505 505 def nodesbetween(self, roots=None, heads=None):
506 506 """Return a topological path from 'roots' to 'heads'.
507 507
508 508 Return a tuple (nodes, outroots, outheads) where 'nodes' is a
509 509 topologically sorted list of all nodes N that satisfy both of
510 510 these constraints:
511 511
512 512 1. N is a descendant of some node in 'roots'
513 513 2. N is an ancestor of some node in 'heads'
514 514
515 515 Every node is considered to be both a descendant and an ancestor
516 516 of itself, so every reachable node in 'roots' and 'heads' will be
517 517 included in 'nodes'.
518 518
519 519 'outroots' is the list of reachable nodes in 'roots', i.e., the
520 520 subset of 'roots' that is returned in 'nodes'. Likewise,
521 521 'outheads' is the subset of 'heads' that is also in 'nodes'.
522 522
523 523 'roots' and 'heads' are both lists of node IDs. If 'roots' is
524 524 unspecified, uses nullid as the only root. If 'heads' is
525 525 unspecified, uses list of all of the revlog's heads."""
526 526 nonodes = ([], [], [])
527 527 if roots is not None:
528 528 roots = list(roots)
529 529 if not roots:
530 530 return nonodes
531 531 lowestrev = min([self.rev(n) for n in roots])
532 532 else:
533 533 roots = [nullid] # Everybody's a descendant of nullid
534 534 lowestrev = nullrev
535 535 if (lowestrev == nullrev) and (heads is None):
536 536 # We want _all_ the nodes!
537 537 return ([self.node(r) for r in self], [nullid], list(self.heads()))
538 538 if heads is None:
539 539 # All nodes are ancestors, so the latest ancestor is the last
540 540 # node.
541 541 highestrev = len(self) - 1
542 542 # Set ancestors to None to signal that every node is an ancestor.
543 543 ancestors = None
544 544 # Set heads to an empty dictionary for later discovery of heads
545 545 heads = {}
546 546 else:
547 547 heads = list(heads)
548 548 if not heads:
549 549 return nonodes
550 550 ancestors = set()
551 551 # Turn heads into a dictionary so we can remove 'fake' heads.
552 552 # Also, later we will be using it to filter out the heads we can't
553 553 # find from roots.
554 554 heads = dict.fromkeys(heads, False)
555 555 # Start at the top and keep marking parents until we're done.
556 556 nodestotag = set(heads)
557 557 # Remember where the top was so we can use it as a limit later.
558 558 highestrev = max([self.rev(n) for n in nodestotag])
559 559 while nodestotag:
560 560 # grab a node to tag
561 561 n = nodestotag.pop()
562 562 # Never tag nullid
563 563 if n == nullid:
564 564 continue
565 565 # A node's revision number represents its place in a
566 566 # topologically sorted list of nodes.
567 567 r = self.rev(n)
568 568 if r >= lowestrev:
569 569 if n not in ancestors:
570 570 # If we are possibly a descendant of one of the roots
571 571 # and we haven't already been marked as an ancestor
572 572 ancestors.add(n) # Mark as ancestor
573 573 # Add non-nullid parents to list of nodes to tag.
574 574 nodestotag.update([p for p in self.parents(n) if
575 575 p != nullid])
576 576 elif n in heads: # We've seen it before, is it a fake head?
577 577 # So it is, real heads should not be the ancestors of
578 578 # any other heads.
579 579 heads.pop(n)
580 580 if not ancestors:
581 581 return nonodes
582 582 # Now that we have our set of ancestors, we want to remove any
583 583 # roots that are not ancestors.
584 584
585 585 # If one of the roots was nullid, everything is included anyway.
586 586 if lowestrev > nullrev:
587 587 # But, since we weren't, let's recompute the lowest rev to not
588 588 # include roots that aren't ancestors.
589 589
590 590 # Filter out roots that aren't ancestors of heads
591 591 roots = [n for n in roots if n in ancestors]
592 592 # Recompute the lowest revision
593 593 if roots:
594 594 lowestrev = min([self.rev(n) for n in roots])
595 595 else:
596 596 # No more roots? Return empty list
597 597 return nonodes
598 598 else:
599 599 # We are descending from nullid, and don't need to care about
600 600 # any other roots.
601 601 lowestrev = nullrev
602 602 roots = [nullid]
603 603 # Transform our roots list into a set.
604 604 descendants = set(roots)
605 605 # Also, keep the original roots so we can filter out roots that aren't
606 606 # 'real' roots (i.e. are descended from other roots).
607 607 roots = descendants.copy()
608 608 # Our topologically sorted list of output nodes.
609 609 orderedout = []
610 610 # Don't start at nullid since we don't want nullid in our output list,
611 611 # and if nullid shows up in descendants, empty parents will look like
612 612 # they're descendants.
613 613 for r in self.revs(start=max(lowestrev, 0), stop=highestrev + 1):
614 614 n = self.node(r)
615 615 isdescendant = False
616 616 if lowestrev == nullrev: # Everybody is a descendant of nullid
617 617 isdescendant = True
618 618 elif n in descendants:
619 619 # n is already a descendant
620 620 isdescendant = True
621 621 # This check only needs to be done here because all the roots
622 622 # will start being marked is descendants before the loop.
623 623 if n in roots:
624 624 # If n was a root, check if it's a 'real' root.
625 625 p = tuple(self.parents(n))
626 626 # If any of its parents are descendants, it's not a root.
627 627 if (p[0] in descendants) or (p[1] in descendants):
628 628 roots.remove(n)
629 629 else:
630 630 p = tuple(self.parents(n))
631 631 # A node is a descendant if either of its parents are
632 632 # descendants. (We seeded the dependents list with the roots
633 633 # up there, remember?)
634 634 if (p[0] in descendants) or (p[1] in descendants):
635 635 descendants.add(n)
636 636 isdescendant = True
637 637 if isdescendant and ((ancestors is None) or (n in ancestors)):
638 638 # Only include nodes that are both descendants and ancestors.
639 639 orderedout.append(n)
640 640 if (ancestors is not None) and (n in heads):
641 641 # We're trying to figure out which heads are reachable
642 642 # from roots.
643 643 # Mark this head as having been reached
644 644 heads[n] = True
645 645 elif ancestors is None:
646 646 # Otherwise, we're trying to discover the heads.
647 647 # Assume this is a head because if it isn't, the next step
648 648 # will eventually remove it.
649 649 heads[n] = True
650 650 # But, obviously its parents aren't.
651 651 for p in self.parents(n):
652 652 heads.pop(p, None)
653 653 heads = [n for n, flag in heads.iteritems() if flag]
654 654 roots = list(roots)
655 655 assert orderedout
656 656 assert roots
657 657 assert heads
658 658 return (orderedout, roots, heads)
659 659
660 660 def headrevs(self):
661 661 try:
662 662 return self.index.headrevs()
663 663 except AttributeError:
664 664 return self._headrevs()
665 665
666 666 def _headrevs(self):
667 667 count = len(self)
668 668 if not count:
669 669 return [nullrev]
670 670 # we won't iter over filtered rev so nobody is a head at start
671 671 ishead = [0] * (count + 1)
672 672 index = self.index
673 673 for r in self:
674 674 ishead[r] = 1 # I may be an head
675 675 e = index[r]
676 676 ishead[e[5]] = ishead[e[6]] = 0 # my parent are not
677 677 return [r for r, val in enumerate(ishead) if val]
678 678
679 679 def heads(self, start=None, stop=None):
680 680 """return the list of all nodes that have no children
681 681
682 682 if start is specified, only heads that are descendants of
683 683 start will be returned
684 684 if stop is specified, it will consider all the revs from stop
685 685 as if they had no children
686 686 """
687 687 if start is None and stop is None:
688 688 if not len(self):
689 689 return [nullid]
690 690 return [self.node(r) for r in self.headrevs()]
691 691
692 692 if start is None:
693 693 start = nullid
694 694 if stop is None:
695 695 stop = []
696 696 stoprevs = set([self.rev(n) for n in stop])
697 697 startrev = self.rev(start)
698 698 reachable = set((startrev,))
699 699 heads = set((startrev,))
700 700
701 701 parentrevs = self.parentrevs
702 702 for r in self.revs(start=startrev + 1):
703 703 for p in parentrevs(r):
704 704 if p in reachable:
705 705 if r not in stoprevs:
706 706 reachable.add(r)
707 707 heads.add(r)
708 708 if p in heads and p not in stoprevs:
709 709 heads.remove(p)
710 710
711 711 return [self.node(r) for r in heads]
712 712
713 713 def children(self, node):
714 714 """find the children of a given node"""
715 715 c = []
716 716 p = self.rev(node)
717 717 for r in self.revs(start=p + 1):
718 718 prevs = [pr for pr in self.parentrevs(r) if pr != nullrev]
719 719 if prevs:
720 720 for pr in prevs:
721 721 if pr == p:
722 722 c.append(self.node(r))
723 723 elif p == nullrev:
724 724 c.append(self.node(r))
725 725 return c
726 726
727 727 def descendant(self, start, end):
728 728 if start == nullrev:
729 729 return True
730 730 for i in self.descendants([start]):
731 731 if i == end:
732 732 return True
733 733 elif i > end:
734 734 break
735 735 return False
736 736
737 737 def commonancestorsheads(self, a, b):
738 738 """calculate all the heads of the common ancestors of nodes a and b"""
739 739 a, b = self.rev(a), self.rev(b)
740 740 try:
741 741 ancs = self.index.commonancestorsheads(a, b)
742 742 except (AttributeError, OverflowError): # C implementation failed
743 743 ancs = ancestor.commonancestorsheads(self.parentrevs, a, b)
744 744 return map(self.node, ancs)
745 745
746 746 def ancestor(self, a, b):
747 747 """calculate the least common ancestor of nodes a and b"""
748 748
749 749 a, b = self.rev(a), self.rev(b)
750 750 try:
751 751 ancs = self.index.ancestors(a, b)
752 752 except (AttributeError, OverflowError):
753 753 ancs = ancestor.ancestors(self.parentrevs, a, b)
754 754 if ancs:
755 755 # choose a consistent winner when there's a tie
756 756 return min(map(self.node, ancs))
757 757 return nullid
758 758
759 759 def _match(self, id):
760 760 if isinstance(id, int):
761 761 # rev
762 762 return self.node(id)
763 763 if len(id) == 20:
764 764 # possibly a binary node
765 765 # odds of a binary node being all hex in ASCII are 1 in 10**25
766 766 try:
767 767 node = id
768 768 self.rev(node) # quick search the index
769 769 return node
770 770 except LookupError:
771 771 pass # may be partial hex id
772 772 try:
773 773 # str(rev)
774 774 rev = int(id)
775 775 if str(rev) != id:
776 776 raise ValueError
777 777 if rev < 0:
778 778 rev = len(self) + rev
779 779 if rev < 0 or rev >= len(self):
780 780 raise ValueError
781 781 return self.node(rev)
782 782 except (ValueError, OverflowError):
783 783 pass
784 784 if len(id) == 40:
785 785 try:
786 786 # a full hex nodeid?
787 787 node = bin(id)
788 788 self.rev(node)
789 789 return node
790 790 except (TypeError, LookupError):
791 791 pass
792 792
793 793 def _partialmatch(self, id):
794 794 try:
795 795 n = self.index.partialmatch(id)
796 796 if n and self.hasnode(n):
797 797 return n
798 798 return None
799 799 except RevlogError:
800 800 # parsers.c radix tree lookup gave multiple matches
801 801 # fall through to slow path that filters hidden revisions
802 802 pass
803 803 except (AttributeError, ValueError):
804 804 # we are pure python, or key was too short to search radix tree
805 805 pass
806 806
807 807 if id in self._pcache:
808 808 return self._pcache[id]
809 809
810 810 if len(id) < 40:
811 811 try:
812 812 # hex(node)[:...]
813 813 l = len(id) // 2 # grab an even number of digits
814 814 prefix = bin(id[:l * 2])
815 815 nl = [e[7] for e in self.index if e[7].startswith(prefix)]
816 816 nl = [n for n in nl if hex(n).startswith(id) and
817 817 self.hasnode(n)]
818 818 if len(nl) > 0:
819 819 if len(nl) == 1:
820 820 self._pcache[id] = nl[0]
821 821 return nl[0]
822 822 raise LookupError(id, self.indexfile,
823 823 _('ambiguous identifier'))
824 824 return None
825 825 except TypeError:
826 826 pass
827 827
828 828 def lookup(self, id):
829 829 """locate a node based on:
830 830 - revision number or str(revision number)
831 831 - nodeid or subset of hex nodeid
832 832 """
833 833 n = self._match(id)
834 834 if n is not None:
835 835 return n
836 836 n = self._partialmatch(id)
837 837 if n:
838 838 return n
839 839
840 840 raise LookupError(id, self.indexfile, _('no match found'))
841 841
842 842 def cmp(self, node, text):
843 843 """compare text with a given file revision
844 844
845 845 returns True if text is different than what is stored.
846 846 """
847 847 p1, p2 = self.parents(node)
848 848 return hash(text, p1, p2) != node
849 849
850 850 def _addchunk(self, offset, data):
851 851 o, d = self._chunkcache
852 852 # try to add to existing cache
853 853 if o + len(d) == offset and len(d) + len(data) < _chunksize:
854 854 self._chunkcache = o, d + data
855 855 else:
856 856 self._chunkcache = offset, data
857 857
858 858 def _loadchunk(self, offset, length):
859 859 if self._inline:
860 860 df = self.opener(self.indexfile)
861 861 else:
862 862 df = self.opener(self.datafile)
863 863
864 864 # Cache data both forward and backward around the requested
865 865 # data, in a fixed size window. This helps speed up operations
866 866 # involving reading the revlog backwards.
867 867 cachesize = self._chunkcachesize
868 868 realoffset = offset & ~(cachesize - 1)
869 869 reallength = (((offset + length + cachesize) & ~(cachesize - 1))
870 870 - realoffset)
871 871 df.seek(realoffset)
872 872 d = df.read(reallength)
873 873 df.close()
874 874 self._addchunk(realoffset, d)
875 875 if offset != realoffset or reallength != length:
876 876 return util.buffer(d, offset - realoffset, length)
877 877 return d
878 878
879 879 def _getchunk(self, offset, length):
880 880 o, d = self._chunkcache
881 881 l = len(d)
882 882
883 883 # is it in the cache?
884 884 cachestart = offset - o
885 885 cacheend = cachestart + length
886 886 if cachestart >= 0 and cacheend <= l:
887 887 if cachestart == 0 and cacheend == l:
888 888 return d # avoid a copy
889 889 return util.buffer(d, cachestart, cacheend - cachestart)
890 890
891 891 return self._loadchunk(offset, length)
892 892
893 893 def _chunkraw(self, startrev, endrev):
894 894 start = self.start(startrev)
895 895 end = self.end(endrev)
896 896 if self._inline:
897 897 start += (startrev + 1) * self._io.size
898 898 end += (endrev + 1) * self._io.size
899 899 length = end - start
900 900 return self._getchunk(start, length)
901 901
902 902 def _chunk(self, rev):
903 903 return decompress(self._chunkraw(rev, rev))
904 904
905 905 def _chunks(self, revs):
906 906 '''faster version of [self._chunk(rev) for rev in revs]
907 907
908 908 Assumes that revs is in ascending order.'''
909 909 if not revs:
910 910 return []
911 911 start = self.start
912 912 length = self.length
913 913 inline = self._inline
914 914 iosize = self._io.size
915 915 buffer = util.buffer
916 916
917 917 l = []
918 918 ladd = l.append
919 919
920 920 # preload the cache
921 921 try:
922 while 1:
922 while True:
923 923 # ensure that the cache doesn't change out from under us
924 924 _cache = self._chunkcache
925 925 self._chunkraw(revs[0], revs[-1])
926 926 if _cache == self._chunkcache:
927 927 break
928 928 offset, data = _cache
929 929 except OverflowError:
930 930 # issue4215 - we can't cache a run of chunks greater than
931 931 # 2G on Windows
932 932 return [self._chunk(rev) for rev in revs]
933 933
934 934 for rev in revs:
935 935 chunkstart = start(rev)
936 936 if inline:
937 937 chunkstart += (rev + 1) * iosize
938 938 chunklength = length(rev)
939 939 ladd(decompress(buffer(data, chunkstart - offset, chunklength)))
940 940
941 941 return l
942 942
943 943 def _chunkclear(self):
944 944 self._chunkcache = (0, '')
945 945
946 946 def deltaparent(self, rev):
947 947 """return deltaparent of the given revision"""
948 948 base = self.index[rev][3]
949 949 if base == rev:
950 950 return nullrev
951 951 elif self._generaldelta:
952 952 return base
953 953 else:
954 954 return rev - 1
955 955
956 956 def revdiff(self, rev1, rev2):
957 957 """return or calculate a delta between two revisions"""
958 958 if rev1 != nullrev and self.deltaparent(rev2) == rev1:
959 959 return str(self._chunk(rev2))
960 960
961 961 return mdiff.textdiff(self.revision(rev1),
962 962 self.revision(rev2))
963 963
964 964 def revision(self, nodeorrev):
965 965 """return an uncompressed revision of a given node or revision
966 966 number.
967 967 """
968 968 if isinstance(nodeorrev, int):
969 969 rev = nodeorrev
970 970 node = self.node(rev)
971 971 else:
972 972 node = nodeorrev
973 973 rev = None
974 974
975 975 _cache = self._cache # grab local copy of cache to avoid thread race
976 976 cachedrev = None
977 977 if node == nullid:
978 978 return ""
979 979 if _cache:
980 980 if _cache[0] == node:
981 981 return _cache[2]
982 982 cachedrev = _cache[1]
983 983
984 984 # look up what we need to read
985 985 text = None
986 986 if rev is None:
987 987 rev = self.rev(node)
988 988
989 989 # check rev flags
990 990 if self.flags(rev) & ~REVIDX_KNOWN_FLAGS:
991 991 raise RevlogError(_('incompatible revision flag %x') %
992 992 (self.flags(rev) & ~REVIDX_KNOWN_FLAGS))
993 993
994 994 # build delta chain
995 995 chain = []
996 996 index = self.index # for performance
997 997 generaldelta = self._generaldelta
998 998 iterrev = rev
999 999 e = index[iterrev]
1000 1000 while iterrev != e[3] and iterrev != cachedrev:
1001 1001 chain.append(iterrev)
1002 1002 if generaldelta:
1003 1003 iterrev = e[3]
1004 1004 else:
1005 1005 iterrev -= 1
1006 1006 e = index[iterrev]
1007 1007
1008 1008 if iterrev == cachedrev:
1009 1009 # cache hit
1010 1010 text = _cache[2]
1011 1011 else:
1012 1012 chain.append(iterrev)
1013 1013 chain.reverse()
1014 1014
1015 1015 # drop cache to save memory
1016 1016 self._cache = None
1017 1017
1018 1018 bins = self._chunks(chain)
1019 1019 if text is None:
1020 1020 text = str(bins[0])
1021 1021 bins = bins[1:]
1022 1022
1023 1023 text = mdiff.patches(text, bins)
1024 1024
1025 1025 text = self._checkhash(text, node, rev)
1026 1026
1027 1027 self._cache = (node, rev, text)
1028 1028 return text
1029 1029
1030 1030 def _checkhash(self, text, node, rev):
1031 1031 p1, p2 = self.parents(node)
1032 1032 self.checkhash(text, p1, p2, node, rev)
1033 1033 return text
1034 1034
1035 1035 def checkhash(self, text, p1, p2, node, rev=None):
1036 1036 if node != hash(text, p1, p2):
1037 1037 revornode = rev
1038 1038 if revornode is None:
1039 1039 revornode = templatefilters.short(hex(node))
1040 1040 raise RevlogError(_("integrity check failed on %s:%s")
1041 1041 % (self.indexfile, revornode))
1042 1042
1043 1043 def checkinlinesize(self, tr, fp=None):
1044 1044 if not self._inline or (self.start(-2) + self.length(-2)) < _maxinline:
1045 1045 return
1046 1046
1047 1047 trinfo = tr.find(self.indexfile)
1048 1048 if trinfo is None:
1049 1049 raise RevlogError(_("%s not found in the transaction")
1050 1050 % self.indexfile)
1051 1051
1052 1052 trindex = trinfo[2]
1053 1053 dataoff = self.start(trindex)
1054 1054
1055 1055 tr.add(self.datafile, dataoff)
1056 1056
1057 1057 if fp:
1058 1058 fp.flush()
1059 1059 fp.close()
1060 1060
1061 1061 df = self.opener(self.datafile, 'w')
1062 1062 try:
1063 1063 for r in self:
1064 1064 df.write(self._chunkraw(r, r))
1065 1065 finally:
1066 1066 df.close()
1067 1067
1068 1068 fp = self.opener(self.indexfile, 'w', atomictemp=True)
1069 1069 self.version &= ~(REVLOGNGINLINEDATA)
1070 1070 self._inline = False
1071 1071 for i in self:
1072 1072 e = self._io.packentry(self.index[i], self.node, self.version, i)
1073 1073 fp.write(e)
1074 1074
1075 1075 # if we don't call close, the temp file will never replace the
1076 1076 # real index
1077 1077 fp.close()
1078 1078
1079 1079 tr.replace(self.indexfile, trindex * self._io.size)
1080 1080 self._chunkclear()
1081 1081
1082 1082 def addrevision(self, text, transaction, link, p1, p2, cachedelta=None,
1083 1083 node=None):
1084 1084 """add a revision to the log
1085 1085
1086 1086 text - the revision data to add
1087 1087 transaction - the transaction object used for rollback
1088 1088 link - the linkrev data to add
1089 1089 p1, p2 - the parent nodeids of the revision
1090 1090 cachedelta - an optional precomputed delta
1091 1091 node - nodeid of revision; typically node is not specified, and it is
1092 1092 computed by default as hash(text, p1, p2), however subclasses might
1093 1093 use different hashing method (and override checkhash() in such case)
1094 1094 """
1095 1095 if link == nullrev:
1096 1096 raise RevlogError(_("attempted to add linkrev -1 to %s")
1097 1097 % self.indexfile)
1098 1098 node = node or hash(text, p1, p2)
1099 1099 if node in self.nodemap:
1100 1100 return node
1101 1101
1102 1102 dfh = None
1103 1103 if not self._inline:
1104 1104 dfh = self.opener(self.datafile, "a")
1105 1105 ifh = self.opener(self.indexfile, "a+")
1106 1106 try:
1107 1107 return self._addrevision(node, text, transaction, link, p1, p2,
1108 1108 cachedelta, ifh, dfh)
1109 1109 finally:
1110 1110 if dfh:
1111 1111 dfh.close()
1112 1112 ifh.close()
1113 1113
1114 1114 def compress(self, text):
1115 1115 """ generate a possibly-compressed representation of text """
1116 1116 if not text:
1117 1117 return ("", text)
1118 1118 l = len(text)
1119 1119 bin = None
1120 1120 if l < 44:
1121 1121 pass
1122 1122 elif l > 1000000:
1123 1123 # zlib makes an internal copy, thus doubling memory usage for
1124 1124 # large files, so lets do this in pieces
1125 1125 z = zlib.compressobj()
1126 1126 p = []
1127 1127 pos = 0
1128 1128 while pos < l:
1129 1129 pos2 = pos + 2**20
1130 1130 p.append(z.compress(text[pos:pos2]))
1131 1131 pos = pos2
1132 1132 p.append(z.flush())
1133 1133 if sum(map(len, p)) < l:
1134 1134 bin = "".join(p)
1135 1135 else:
1136 1136 bin = _compress(text)
1137 1137 if bin is None or len(bin) > l:
1138 1138 if text[0] == '\0':
1139 1139 return ("", text)
1140 1140 return ('u', text)
1141 1141 return ("", bin)
1142 1142
1143 1143 def _addrevision(self, node, text, transaction, link, p1, p2,
1144 1144 cachedelta, ifh, dfh):
1145 1145 """internal function to add revisions to the log
1146 1146
1147 1147 see addrevision for argument descriptions.
1148 1148 invariants:
1149 1149 - text is optional (can be None); if not set, cachedelta must be set.
1150 1150 if both are set, they must correspond to each other.
1151 1151 """
1152 1152 btext = [text]
1153 1153 def buildtext():
1154 1154 if btext[0] is not None:
1155 1155 return btext[0]
1156 1156 # flush any pending writes here so we can read it in revision
1157 1157 if dfh:
1158 1158 dfh.flush()
1159 1159 ifh.flush()
1160 1160 basetext = self.revision(self.node(cachedelta[0]))
1161 1161 btext[0] = mdiff.patch(basetext, cachedelta[1])
1162 1162 self.checkhash(btext[0], p1, p2, node)
1163 1163 return btext[0]
1164 1164
1165 1165 def builddelta(rev):
1166 1166 # can we use the cached delta?
1167 1167 if cachedelta and cachedelta[0] == rev:
1168 1168 delta = cachedelta[1]
1169 1169 else:
1170 1170 t = buildtext()
1171 1171 ptext = self.revision(self.node(rev))
1172 1172 delta = mdiff.textdiff(ptext, t)
1173 1173 data = self.compress(delta)
1174 1174 l = len(data[1]) + len(data[0])
1175 1175 if basecache[0] == rev:
1176 1176 chainbase = basecache[1]
1177 1177 else:
1178 1178 chainbase = self.chainbase(rev)
1179 1179 dist = l + offset - self.start(chainbase)
1180 1180 if self._generaldelta:
1181 1181 base = rev
1182 1182 else:
1183 1183 base = chainbase
1184 1184 return dist, l, data, base, chainbase
1185 1185
1186 1186 curr = len(self)
1187 1187 prev = curr - 1
1188 1188 base = chainbase = curr
1189 1189 offset = self.end(prev)
1190 1190 flags = 0
1191 1191 d = None
1192 1192 if self._basecache is None:
1193 1193 self._basecache = (prev, self.chainbase(prev))
1194 1194 basecache = self._basecache
1195 1195 p1r, p2r = self.rev(p1), self.rev(p2)
1196 1196
1197 1197 # should we try to build a delta?
1198 1198 if prev != nullrev:
1199 1199 if self._generaldelta:
1200 1200 if p1r >= basecache[1]:
1201 1201 d = builddelta(p1r)
1202 1202 elif p2r >= basecache[1]:
1203 1203 d = builddelta(p2r)
1204 1204 else:
1205 1205 d = builddelta(prev)
1206 1206 else:
1207 1207 d = builddelta(prev)
1208 1208 dist, l, data, base, chainbase = d
1209 1209
1210 1210 # full versions are inserted when the needed deltas
1211 1211 # become comparable to the uncompressed text
1212 1212 if text is None:
1213 1213 textlen = mdiff.patchedsize(self.rawsize(cachedelta[0]),
1214 1214 cachedelta[1])
1215 1215 else:
1216 1216 textlen = len(text)
1217 1217 if d is None or dist > textlen * 2:
1218 1218 text = buildtext()
1219 1219 data = self.compress(text)
1220 1220 l = len(data[1]) + len(data[0])
1221 1221 base = chainbase = curr
1222 1222
1223 1223 e = (offset_type(offset, flags), l, textlen,
1224 1224 base, link, p1r, p2r, node)
1225 1225 self.index.insert(-1, e)
1226 1226 self.nodemap[node] = curr
1227 1227
1228 1228 entry = self._io.packentry(e, self.node, self.version, curr)
1229 1229 self._writeentry(transaction, ifh, dfh, entry, data, link, offset)
1230 1230
1231 1231 if type(text) == str: # only accept immutable objects
1232 1232 self._cache = (node, curr, text)
1233 1233 self._basecache = (curr, chainbase)
1234 1234 return node
1235 1235
1236 1236 def _writeentry(self, transaction, ifh, dfh, entry, data, link, offset):
1237 1237 curr = len(self) - 1
1238 1238 if not self._inline:
1239 1239 transaction.add(self.datafile, offset)
1240 1240 transaction.add(self.indexfile, curr * len(entry))
1241 1241 if data[0]:
1242 1242 dfh.write(data[0])
1243 1243 dfh.write(data[1])
1244 1244 dfh.flush()
1245 1245 ifh.write(entry)
1246 1246 else:
1247 1247 offset += curr * self._io.size
1248 1248 transaction.add(self.indexfile, offset, curr)
1249 1249 ifh.write(entry)
1250 1250 ifh.write(data[0])
1251 1251 ifh.write(data[1])
1252 1252 self.checkinlinesize(transaction, ifh)
1253 1253
1254 1254 def addgroup(self, bundle, linkmapper, transaction):
1255 1255 """
1256 1256 add a delta group
1257 1257
1258 1258 given a set of deltas, add them to the revision log. the
1259 1259 first delta is against its parent, which should be in our
1260 1260 log, the rest are against the previous delta.
1261 1261 """
1262 1262
1263 1263 # track the base of the current delta log
1264 1264 content = []
1265 1265 node = None
1266 1266
1267 1267 r = len(self)
1268 1268 end = 0
1269 1269 if r:
1270 1270 end = self.end(r - 1)
1271 1271 ifh = self.opener(self.indexfile, "a+")
1272 1272 isize = r * self._io.size
1273 1273 if self._inline:
1274 1274 transaction.add(self.indexfile, end + isize, r)
1275 1275 dfh = None
1276 1276 else:
1277 1277 transaction.add(self.indexfile, isize, r)
1278 1278 transaction.add(self.datafile, end)
1279 1279 dfh = self.opener(self.datafile, "a")
1280 1280
1281 1281 try:
1282 1282 # loop through our set of deltas
1283 1283 chain = None
1284 1284 while True:
1285 1285 chunkdata = bundle.deltachunk(chain)
1286 1286 if not chunkdata:
1287 1287 break
1288 1288 node = chunkdata['node']
1289 1289 p1 = chunkdata['p1']
1290 1290 p2 = chunkdata['p2']
1291 1291 cs = chunkdata['cs']
1292 1292 deltabase = chunkdata['deltabase']
1293 1293 delta = chunkdata['delta']
1294 1294
1295 1295 content.append(node)
1296 1296
1297 1297 link = linkmapper(cs)
1298 1298 if node in self.nodemap:
1299 1299 # this can happen if two branches make the same change
1300 1300 chain = node
1301 1301 continue
1302 1302
1303 1303 for p in (p1, p2):
1304 1304 if p not in self.nodemap:
1305 1305 raise LookupError(p, self.indexfile,
1306 1306 _('unknown parent'))
1307 1307
1308 1308 if deltabase not in self.nodemap:
1309 1309 raise LookupError(deltabase, self.indexfile,
1310 1310 _('unknown delta base'))
1311 1311
1312 1312 baserev = self.rev(deltabase)
1313 1313 chain = self._addrevision(node, None, transaction, link,
1314 1314 p1, p2, (baserev, delta), ifh, dfh)
1315 1315 if not dfh and not self._inline:
1316 1316 # addrevision switched from inline to conventional
1317 1317 # reopen the index
1318 1318 ifh.close()
1319 1319 dfh = self.opener(self.datafile, "a")
1320 1320 ifh = self.opener(self.indexfile, "a")
1321 1321 finally:
1322 1322 if dfh:
1323 1323 dfh.close()
1324 1324 ifh.close()
1325 1325
1326 1326 return content
1327 1327
1328 1328 def getstrippoint(self, minlink):
1329 1329 """find the minimum rev that must be stripped to strip the linkrev
1330 1330
1331 1331 Returns a tuple containing the minimum rev and a set of all revs that
1332 1332 have linkrevs that will be broken by this strip.
1333 1333 """
1334 1334 brokenrevs = set()
1335 1335 strippoint = len(self)
1336 1336
1337 1337 heads = {}
1338 1338 futurelargelinkrevs = set()
1339 1339 for head in self.headrevs():
1340 1340 headlinkrev = self.linkrev(head)
1341 1341 heads[head] = headlinkrev
1342 1342 if headlinkrev >= minlink:
1343 1343 futurelargelinkrevs.add(headlinkrev)
1344 1344
1345 1345 # This algorithm involves walking down the rev graph, starting at the
1346 1346 # heads. Since the revs are topologically sorted according to linkrev,
1347 1347 # once all head linkrevs are below the minlink, we know there are
1348 1348 # no more revs that could have a linkrev greater than minlink.
1349 1349 # So we can stop walking.
1350 1350 while futurelargelinkrevs:
1351 1351 strippoint -= 1
1352 1352 linkrev = heads.pop(strippoint)
1353 1353
1354 1354 if linkrev < minlink:
1355 1355 brokenrevs.add(strippoint)
1356 1356 else:
1357 1357 futurelargelinkrevs.remove(linkrev)
1358 1358
1359 1359 for p in self.parentrevs(strippoint):
1360 1360 if p != nullrev:
1361 1361 plinkrev = self.linkrev(p)
1362 1362 heads[p] = plinkrev
1363 1363 if plinkrev >= minlink:
1364 1364 futurelargelinkrevs.add(plinkrev)
1365 1365
1366 1366 return strippoint, brokenrevs
1367 1367
1368 1368 def strip(self, minlink, transaction):
1369 1369 """truncate the revlog on the first revision with a linkrev >= minlink
1370 1370
1371 1371 This function is called when we're stripping revision minlink and
1372 1372 its descendants from the repository.
1373 1373
1374 1374 We have to remove all revisions with linkrev >= minlink, because
1375 1375 the equivalent changelog revisions will be renumbered after the
1376 1376 strip.
1377 1377
1378 1378 So we truncate the revlog on the first of these revisions, and
1379 1379 trust that the caller has saved the revisions that shouldn't be
1380 1380 removed and that it'll re-add them after this truncation.
1381 1381 """
1382 1382 if len(self) == 0:
1383 1383 return
1384 1384
1385 1385 rev, _ = self.getstrippoint(minlink)
1386 1386 if rev == len(self):
1387 1387 return
1388 1388
1389 1389 # first truncate the files on disk
1390 1390 end = self.start(rev)
1391 1391 if not self._inline:
1392 1392 transaction.add(self.datafile, end)
1393 1393 end = rev * self._io.size
1394 1394 else:
1395 1395 end += rev * self._io.size
1396 1396
1397 1397 transaction.add(self.indexfile, end)
1398 1398
1399 1399 # then reset internal state in memory to forget those revisions
1400 1400 self._cache = None
1401 1401 self._chunkclear()
1402 1402 for x in xrange(rev, len(self)):
1403 1403 del self.nodemap[self.node(x)]
1404 1404
1405 1405 del self.index[rev:-1]
1406 1406
1407 1407 def checksize(self):
1408 1408 expected = 0
1409 1409 if len(self):
1410 1410 expected = max(0, self.end(len(self) - 1))
1411 1411
1412 1412 try:
1413 1413 f = self.opener(self.datafile)
1414 1414 f.seek(0, 2)
1415 1415 actual = f.tell()
1416 1416 f.close()
1417 1417 dd = actual - expected
1418 1418 except IOError, inst:
1419 1419 if inst.errno != errno.ENOENT:
1420 1420 raise
1421 1421 dd = 0
1422 1422
1423 1423 try:
1424 1424 f = self.opener(self.indexfile)
1425 1425 f.seek(0, 2)
1426 1426 actual = f.tell()
1427 1427 f.close()
1428 1428 s = self._io.size
1429 1429 i = max(0, actual // s)
1430 1430 di = actual - (i * s)
1431 1431 if self._inline:
1432 1432 databytes = 0
1433 1433 for r in self:
1434 1434 databytes += max(0, self.length(r))
1435 1435 dd = 0
1436 1436 di = actual - len(self) * s - databytes
1437 1437 except IOError, inst:
1438 1438 if inst.errno != errno.ENOENT:
1439 1439 raise
1440 1440 di = 0
1441 1441
1442 1442 return (dd, di)
1443 1443
1444 1444 def files(self):
1445 1445 res = [self.indexfile]
1446 1446 if not self._inline:
1447 1447 res.append(self.datafile)
1448 1448 return res
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