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obsolete: add a `commonversion` function...
Pierre-Yves David -
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1 1 # obsolete.py - obsolete markers handling
2 2 #
3 3 # Copyright 2012 Pierre-Yves David <pierre-yves.david@ens-lyon.org>
4 4 # Logilab SA <contact@logilab.fr>
5 5 #
6 6 # This software may be used and distributed according to the terms of the
7 7 # GNU General Public License version 2 or any later version.
8 8
9 9 """Obsolete marker handling
10 10
11 11 An obsolete marker maps an old changeset to a list of new
12 12 changesets. If the list of new changesets is empty, the old changeset
13 13 is said to be "killed". Otherwise, the old changeset is being
14 14 "replaced" by the new changesets.
15 15
16 16 Obsolete markers can be used to record and distribute changeset graph
17 17 transformations performed by history rewrite operations, and help
18 18 building new tools to reconcile conflicting rewrite actions. To
19 19 facilitate conflict resolution, markers include various annotations
20 20 besides old and news changeset identifiers, such as creation date or
21 21 author name.
22 22
23 23 The old obsoleted changeset is called a "precursor" and possible
24 24 replacements are called "successors". Markers that used changeset X as
25 25 a precursor are called "successor markers of X" because they hold
26 26 information about the successors of X. Markers that use changeset Y as
27 27 a successors are call "precursor markers of Y" because they hold
28 28 information about the precursors of Y.
29 29
30 30 Examples:
31 31
32 32 - When changeset A is replaced by changeset A', one marker is stored:
33 33
34 34 (A, (A',))
35 35
36 36 - When changesets A and B are folded into a new changeset C, two markers are
37 37 stored:
38 38
39 39 (A, (C,)) and (B, (C,))
40 40
41 41 - When changeset A is simply "pruned" from the graph, a marker is created:
42 42
43 43 (A, ())
44 44
45 45 - When changeset A is split into B and C, a single marker are used:
46 46
47 47 (A, (C, C))
48 48
49 49 We use a single marker to distinguish the "split" case from the "divergence"
50 50 case. If two independent operations rewrite the same changeset A in to A' and
51 51 A'', we have an error case: divergent rewriting. We can detect it because
52 52 two markers will be created independently:
53 53
54 54 (A, (B,)) and (A, (C,))
55 55
56 56 Format
57 57 ------
58 58
59 59 Markers are stored in an append-only file stored in
60 60 '.hg/store/obsstore'.
61 61
62 62 The file starts with a version header:
63 63
64 64 - 1 unsigned byte: version number, starting at zero.
65 65
66 66
67 67 The header is followed by the markers. Each marker is made of:
68 68
69 69 - 1 unsigned byte: number of new changesets "N", can be zero.
70 70
71 71 - 1 unsigned 32-bits integer: metadata size "M" in bytes.
72 72
73 73 - 1 byte: a bit field. It is reserved for flags used in common
74 74 obsolete marker operations, to avoid repeated decoding of metadata
75 75 entries.
76 76
77 77 - 20 bytes: obsoleted changeset identifier.
78 78
79 79 - N*20 bytes: new changesets identifiers.
80 80
81 81 - M bytes: metadata as a sequence of nul-terminated strings. Each
82 82 string contains a key and a value, separated by a colon ':', without
83 83 additional encoding. Keys cannot contain '\0' or ':' and values
84 84 cannot contain '\0'.
85 85
86 86 """
87 87 import struct
88 88 import util, base85, node
89 89 import phases
90 90 from i18n import _
91 91
92 92 _pack = struct.pack
93 93 _unpack = struct.unpack
94 94
95 95 _SEEK_END = 2 # os.SEEK_END was introduced in Python 2.5
96 96
97 97 # the obsolete feature is not mature enough to be enabled by default.
98 98 # you have to rely on third party extension extension to enable this.
99 99 _enabled = False
100 100
101 101 # data used for parsing and writing
102 102 _fm0version = 0
103 103 _fm0fixed = '>BIB20s'
104 104 _fm0node = '20s'
105 105 _fm0fsize = struct.calcsize(_fm0fixed)
106 106 _fm0fnodesize = struct.calcsize(_fm0node)
107 107
108 108 ### obsolescence marker flag
109 109
110 110 ## bumpedfix flag
111 111 #
112 112 # When a changeset A' succeed to a changeset A which became public, we call A'
113 113 # "bumped" because it's a successors of a public changesets
114 114 #
115 115 # o A' (bumped)
116 116 # |`:
117 117 # | o A
118 118 # |/
119 119 # o Z
120 120 #
121 121 # The way to solve this situation is to create a new changeset Ad as children
122 122 # of A. This changeset have the same content than A'. So the diff from A to A'
123 123 # is the same than the diff from A to Ad. Ad is marked as a successors of A'
124 124 #
125 125 # o Ad
126 126 # |`:
127 127 # | x A'
128 128 # |'|
129 129 # o | A
130 130 # |/
131 131 # o Z
132 132 #
133 133 # But by transitivity Ad is also a successors of A. To avoid having Ad marked
134 134 # as bumped too, we add the `bumpedfix` flag to the marker. <A', (Ad,)>.
135 135 # This flag mean that the successors express the changes between the public and
136 136 # bumped version and fix the situation, breaking the transitivity of
137 137 # "bumped" here.
138 138 bumpedfix = 1
139 139
140 140 def _readmarkers(data):
141 141 """Read and enumerate markers from raw data"""
142 142 off = 0
143 143 diskversion = _unpack('>B', data[off:off + 1])[0]
144 144 off += 1
145 145 if diskversion not in formats:
146 146 raise util.Abort(_('parsing obsolete marker: unknown version %r')
147 147 % diskversion)
148 148 return diskversion, formats[diskversion][0](data, off)
149 149
150 150 def encodemarkers(markers, addheader=False, version=_fm0version):
151 151 # Kept separate from flushmarkers(), it will be reused for
152 152 # markers exchange.
153 153 encodeone = formats[version][1]
154 154 if addheader:
155 155 yield _pack('>B', _fm0version)
156 156 for marker in markers:
157 157 yield encodeone(marker)
158 158
159 159 def _fm0readmarkers(data, off=0):
160 160 # Loop on markers
161 161 l = len(data)
162 162 while off + _fm0fsize <= l:
163 163 # read fixed part
164 164 cur = data[off:off + _fm0fsize]
165 165 off += _fm0fsize
166 166 nbsuc, mdsize, flags, pre = _unpack(_fm0fixed, cur)
167 167 # read replacement
168 168 sucs = ()
169 169 if nbsuc:
170 170 s = (_fm0fnodesize * nbsuc)
171 171 cur = data[off:off + s]
172 172 sucs = _unpack(_fm0node * nbsuc, cur)
173 173 off += s
174 174 # read metadata
175 175 # (metadata will be decoded on demand)
176 176 metadata = data[off:off + mdsize]
177 177 if len(metadata) != mdsize:
178 178 raise util.Abort(_('parsing obsolete marker: metadata is too '
179 179 'short, %d bytes expected, got %d')
180 180 % (mdsize, len(metadata)))
181 181 off += mdsize
182 182 meta = decodemeta(metadata)
183 183 try:
184 184 when, offset = decodemeta(metadata).pop('date', '0 0').split(' ')
185 185 date = float(when), int(offset)
186 186 except ValueError:
187 187 date = (0., 0)
188 188 parents = None
189 189 if 'p2' in meta:
190 190 parents = (meta.pop('p1', None), meta.pop('p2', None))
191 191 elif 'p1' in meta:
192 192 parents = (meta.pop('p1', None),)
193 193 elif 'p0' in meta:
194 194 parents = ()
195 195 if parents is not None:
196 196 try:
197 197 parents = tuple(node.bin(p) for p in parents)
198 198 # if parent content is not a nodeid, drop the data
199 199 for p in parents:
200 200 if len(p) != 20:
201 201 parents = None
202 202 break
203 203 except TypeError:
204 204 # if content cannot be translated to nodeid drop the data.
205 205 parents = None
206 206
207 207 metadata = encodemeta(meta)
208 208
209 209 yield (pre, sucs, flags, metadata, date, parents)
210 210
211 211 def _fm0encodeonemarker(marker):
212 212 pre, sucs, flags, metadata, date, parents = marker
213 213 metadata = decodemeta(metadata)
214 214 metadata['date'] = '%d %i' % date
215 215 if parents is not None:
216 216 if not parents:
217 217 # mark that we explicitly recorded no parents
218 218 metadata['p0'] = ''
219 219 for i, p in enumerate(parents):
220 220 metadata['p%i' % (i + 1)] = node.hex(p)
221 221 metadata = encodemeta(metadata)
222 222 nbsuc = len(sucs)
223 223 format = _fm0fixed + (_fm0node * nbsuc)
224 224 data = [nbsuc, len(metadata), flags, pre]
225 225 data.extend(sucs)
226 226 return _pack(format, *data) + metadata
227 227
228 228 # mapping to read/write various marker formats
229 229 # <version> -> (decoder, encoder)
230 230 formats = {0: (_fm0readmarkers, _fm0encodeonemarker)}
231 231
232 232 def encodemeta(meta):
233 233 """Return encoded metadata string to string mapping.
234 234
235 235 Assume no ':' in key and no '\0' in both key and value."""
236 236 for key, value in meta.iteritems():
237 237 if ':' in key or '\0' in key:
238 238 raise ValueError("':' and '\0' are forbidden in metadata key'")
239 239 if '\0' in value:
240 240 raise ValueError("':' is forbidden in metadata value'")
241 241 return '\0'.join(['%s:%s' % (k, meta[k]) for k in sorted(meta)])
242 242
243 243 def decodemeta(data):
244 244 """Return string to string dictionary from encoded version."""
245 245 d = {}
246 246 for l in data.split('\0'):
247 247 if l:
248 248 key, value = l.split(':')
249 249 d[key] = value
250 250 return d
251 251
252 252 class marker(object):
253 253 """Wrap obsolete marker raw data"""
254 254
255 255 def __init__(self, repo, data):
256 256 # the repo argument will be used to create changectx in later version
257 257 self._repo = repo
258 258 self._data = data
259 259 self._decodedmeta = None
260 260
261 261 def __hash__(self):
262 262 return hash(self._data)
263 263
264 264 def __eq__(self, other):
265 265 if type(other) != type(self):
266 266 return False
267 267 return self._data == other._data
268 268
269 269 def precnode(self):
270 270 """Precursor changeset node identifier"""
271 271 return self._data[0]
272 272
273 273 def succnodes(self):
274 274 """List of successor changesets node identifiers"""
275 275 return self._data[1]
276 276
277 277 def parentnodes(self):
278 278 """Parents of the precursors (None if not recorded)"""
279 279 return self._data[5]
280 280
281 281 def metadata(self):
282 282 """Decoded metadata dictionary"""
283 283 if self._decodedmeta is None:
284 284 self._decodedmeta = decodemeta(self._data[3])
285 285 return self._decodedmeta
286 286
287 287 def date(self):
288 288 """Creation date as (unixtime, offset)"""
289 289 return self._data[4]
290 290
291 291 def flags(self):
292 292 """The flags field of the marker"""
293 293 return self._data[2]
294 294
295 295 class obsstore(object):
296 296 """Store obsolete markers
297 297
298 298 Markers can be accessed with two mappings:
299 299 - precursors[x] -> set(markers on precursors edges of x)
300 300 - successors[x] -> set(markers on successors edges of x)
301 301 - children[x] -> set(markers on precursors edges of children(x)
302 302 """
303 303
304 304 fields = ('prec', 'succs', 'flag', 'meta', 'date', 'parents')
305 305 # prec: nodeid, precursor changesets
306 306 # succs: tuple of nodeid, successor changesets (0-N length)
307 307 # flag: integer, flag field carrying modifier for the markers (see doc)
308 308 # meta: binary blob, encoded metadata dictionary
309 309 # date: (float, int) tuple, date of marker creation
310 310 # parents: (tuple of nodeid) or None, parents of precursors
311 311 # None is used when no data has been recorded
312 312
313 313 def __init__(self, sopener):
314 314 # caches for various obsolescence related cache
315 315 self.caches = {}
316 316 self._all = []
317 317 self.precursors = {}
318 318 self.successors = {}
319 319 self.children = {}
320 320 self.sopener = sopener
321 321 data = sopener.tryread('obsstore')
322 322 self._version = _fm0version
323 323 if data:
324 324 self._version, markers = _readmarkers(data)
325 325 self._load(markers)
326 326
327 327 def __iter__(self):
328 328 return iter(self._all)
329 329
330 330 def __len__(self):
331 331 return len(self._all)
332 332
333 333 def __nonzero__(self):
334 334 return bool(self._all)
335 335
336 336 def create(self, transaction, prec, succs=(), flag=0, parents=None,
337 337 date=None, metadata=None):
338 338 """obsolete: add a new obsolete marker
339 339
340 340 * ensuring it is hashable
341 341 * check mandatory metadata
342 342 * encode metadata
343 343
344 344 If you are a human writing code creating marker you want to use the
345 345 `createmarkers` function in this module instead.
346 346
347 347 return True if a new marker have been added, False if the markers
348 348 already existed (no op).
349 349 """
350 350 if metadata is None:
351 351 metadata = {}
352 352 if date is None:
353 353 if 'date' in metadata:
354 354 # as a courtesy for out-of-tree extensions
355 355 date = util.parsedate(metadata.pop('date'))
356 356 else:
357 357 date = util.makedate()
358 358 if len(prec) != 20:
359 359 raise ValueError(prec)
360 360 for succ in succs:
361 361 if len(succ) != 20:
362 362 raise ValueError(succ)
363 363 if prec in succs:
364 364 raise ValueError(_('in-marker cycle with %s') % node.hex(prec))
365 365 marker = (str(prec), tuple(succs), int(flag), encodemeta(metadata),
366 366 date, parents)
367 367 return bool(self.add(transaction, [marker]))
368 368
369 369 def add(self, transaction, markers):
370 370 """Add new markers to the store
371 371
372 372 Take care of filtering duplicate.
373 373 Return the number of new marker."""
374 374 if not _enabled:
375 375 raise util.Abort('obsolete feature is not enabled on this repo')
376 376 known = set(self._all)
377 377 new = []
378 378 for m in markers:
379 379 if m not in known:
380 380 known.add(m)
381 381 new.append(m)
382 382 if new:
383 383 f = self.sopener('obsstore', 'ab')
384 384 try:
385 385 # Whether the file's current position is at the begin or at
386 386 # the end after opening a file for appending is implementation
387 387 # defined. So we must seek to the end before calling tell(),
388 388 # or we may get a zero offset for non-zero sized files on
389 389 # some platforms (issue3543).
390 390 f.seek(0, _SEEK_END)
391 391 offset = f.tell()
392 392 transaction.add('obsstore', offset)
393 393 # offset == 0: new file - add the version header
394 394 for bytes in encodemarkers(new, offset == 0, self._version):
395 395 f.write(bytes)
396 396 finally:
397 397 # XXX: f.close() == filecache invalidation == obsstore rebuilt.
398 398 # call 'filecacheentry.refresh()' here
399 399 f.close()
400 400 self._load(new)
401 401 # new marker *may* have changed several set. invalidate the cache.
402 402 self.caches.clear()
403 403 # records the number of new markers for the transaction hooks
404 404 previous = int(transaction.hookargs.get('new_obsmarkers', '0'))
405 405 transaction.hookargs['new_obsmarkers'] = str(previous + len(new))
406 406 return len(new)
407 407
408 408 def mergemarkers(self, transaction, data):
409 409 """merge a binary stream of markers inside the obsstore
410 410
411 411 Returns the number of new markers added."""
412 412 version, markers = _readmarkers(data)
413 413 return self.add(transaction, markers)
414 414
415 415 def _load(self, markers):
416 416 for mark in markers:
417 417 self._all.append(mark)
418 418 pre, sucs = mark[:2]
419 419 self.successors.setdefault(pre, set()).add(mark)
420 420 for suc in sucs:
421 421 self.precursors.setdefault(suc, set()).add(mark)
422 422 parents = mark[5]
423 423 if parents is not None:
424 424 for p in parents:
425 425 self.children.setdefault(p, set()).add(mark)
426 426 if node.nullid in self.precursors:
427 427 raise util.Abort(_('bad obsolescence marker detected: '
428 428 'invalid successors nullid'))
429 429 def relevantmarkers(self, nodes):
430 430 """return a set of all obsolescence markers relevant to a set of nodes.
431 431
432 432 "relevant" to a set of nodes mean:
433 433
434 434 - marker that use this changeset as successor
435 435 - prune marker of direct children on this changeset
436 436 - recursive application of the two rules on precursors of these markers
437 437
438 438 It is a set so you cannot rely on order."""
439 439
440 440 pendingnodes = set(nodes)
441 441 seenmarkers = set()
442 442 seennodes = set(pendingnodes)
443 443 precursorsmarkers = self.precursors
444 444 children = self.children
445 445 while pendingnodes:
446 446 direct = set()
447 447 for current in pendingnodes:
448 448 direct.update(precursorsmarkers.get(current, ()))
449 449 pruned = [m for m in children.get(current, ()) if not m[1]]
450 450 direct.update(pruned)
451 451 direct -= seenmarkers
452 452 pendingnodes = set([m[0] for m in direct])
453 453 seenmarkers |= direct
454 454 pendingnodes -= seennodes
455 455 seennodes |= pendingnodes
456 456 return seenmarkers
457 457
458 def commonversion(versions):
459 """Return the newest version listed in both versions and our local formats.
460
461 Returns None if no common version exists.
462 """
463 versions.sort(reverse=True)
464 # search for highest version known on both side
465 for v in versions:
466 if v in formats:
467 return v
468 return None
458 469
459 470 # arbitrary picked to fit into 8K limit from HTTP server
460 471 # you have to take in account:
461 472 # - the version header
462 473 # - the base85 encoding
463 474 _maxpayload = 5300
464 475
465 476 def _pushkeyescape(markers):
466 477 """encode markers into a dict suitable for pushkey exchange
467 478
468 479 - binary data is base85 encoded
469 480 - split in chunks smaller than 5300 bytes"""
470 481 keys = {}
471 482 parts = []
472 483 currentlen = _maxpayload * 2 # ensure we create a new part
473 484 for marker in markers:
474 485 nextdata = _fm0encodeonemarker(marker)
475 486 if (len(nextdata) + currentlen > _maxpayload):
476 487 currentpart = []
477 488 currentlen = 0
478 489 parts.append(currentpart)
479 490 currentpart.append(nextdata)
480 491 currentlen += len(nextdata)
481 492 for idx, part in enumerate(reversed(parts)):
482 493 data = ''.join([_pack('>B', _fm0version)] + part)
483 494 keys['dump%i' % idx] = base85.b85encode(data)
484 495 return keys
485 496
486 497 def listmarkers(repo):
487 498 """List markers over pushkey"""
488 499 if not repo.obsstore:
489 500 return {}
490 501 return _pushkeyescape(repo.obsstore)
491 502
492 503 def pushmarker(repo, key, old, new):
493 504 """Push markers over pushkey"""
494 505 if not key.startswith('dump'):
495 506 repo.ui.warn(_('unknown key: %r') % key)
496 507 return 0
497 508 if old:
498 509 repo.ui.warn(_('unexpected old value for %r') % key)
499 510 return 0
500 511 data = base85.b85decode(new)
501 512 lock = repo.lock()
502 513 try:
503 514 tr = repo.transaction('pushkey: obsolete markers')
504 515 try:
505 516 repo.obsstore.mergemarkers(tr, data)
506 517 tr.close()
507 518 return 1
508 519 finally:
509 520 tr.release()
510 521 finally:
511 522 lock.release()
512 523
513 524 def getmarkers(repo, nodes=None):
514 525 """returns markers known in a repository
515 526
516 527 If <nodes> is specified, only markers "relevant" to those nodes are are
517 528 returned"""
518 529 if nodes is None:
519 530 rawmarkers = repo.obsstore
520 531 else:
521 532 rawmarkers = repo.obsstore.relevantmarkers(nodes)
522 533
523 534 for markerdata in rawmarkers:
524 535 yield marker(repo, markerdata)
525 536
526 537 def relevantmarkers(repo, node):
527 538 """all obsolete markers relevant to some revision"""
528 539 for markerdata in repo.obsstore.relevantmarkers(node):
529 540 yield marker(repo, markerdata)
530 541
531 542
532 543 def precursormarkers(ctx):
533 544 """obsolete marker marking this changeset as a successors"""
534 545 for data in ctx._repo.obsstore.precursors.get(ctx.node(), ()):
535 546 yield marker(ctx._repo, data)
536 547
537 548 def successormarkers(ctx):
538 549 """obsolete marker making this changeset obsolete"""
539 550 for data in ctx._repo.obsstore.successors.get(ctx.node(), ()):
540 551 yield marker(ctx._repo, data)
541 552
542 553 def allsuccessors(obsstore, nodes, ignoreflags=0):
543 554 """Yield node for every successor of <nodes>.
544 555
545 556 Some successors may be unknown locally.
546 557
547 558 This is a linear yield unsuited to detecting split changesets. It includes
548 559 initial nodes too."""
549 560 remaining = set(nodes)
550 561 seen = set(remaining)
551 562 while remaining:
552 563 current = remaining.pop()
553 564 yield current
554 565 for mark in obsstore.successors.get(current, ()):
555 566 # ignore marker flagged with specified flag
556 567 if mark[2] & ignoreflags:
557 568 continue
558 569 for suc in mark[1]:
559 570 if suc not in seen:
560 571 seen.add(suc)
561 572 remaining.add(suc)
562 573
563 574 def allprecursors(obsstore, nodes, ignoreflags=0):
564 575 """Yield node for every precursors of <nodes>.
565 576
566 577 Some precursors may be unknown locally.
567 578
568 579 This is a linear yield unsuited to detecting folded changesets. It includes
569 580 initial nodes too."""
570 581
571 582 remaining = set(nodes)
572 583 seen = set(remaining)
573 584 while remaining:
574 585 current = remaining.pop()
575 586 yield current
576 587 for mark in obsstore.precursors.get(current, ()):
577 588 # ignore marker flagged with specified flag
578 589 if mark[2] & ignoreflags:
579 590 continue
580 591 suc = mark[0]
581 592 if suc not in seen:
582 593 seen.add(suc)
583 594 remaining.add(suc)
584 595
585 596 def foreground(repo, nodes):
586 597 """return all nodes in the "foreground" of other node
587 598
588 599 The foreground of a revision is anything reachable using parent -> children
589 600 or precursor -> successor relation. It is very similar to "descendant" but
590 601 augmented with obsolescence information.
591 602
592 603 Beware that possible obsolescence cycle may result if complex situation.
593 604 """
594 605 repo = repo.unfiltered()
595 606 foreground = set(repo.set('%ln::', nodes))
596 607 if repo.obsstore:
597 608 # We only need this complicated logic if there is obsolescence
598 609 # XXX will probably deserve an optimised revset.
599 610 nm = repo.changelog.nodemap
600 611 plen = -1
601 612 # compute the whole set of successors or descendants
602 613 while len(foreground) != plen:
603 614 plen = len(foreground)
604 615 succs = set(c.node() for c in foreground)
605 616 mutable = [c.node() for c in foreground if c.mutable()]
606 617 succs.update(allsuccessors(repo.obsstore, mutable))
607 618 known = (n for n in succs if n in nm)
608 619 foreground = set(repo.set('%ln::', known))
609 620 return set(c.node() for c in foreground)
610 621
611 622
612 623 def successorssets(repo, initialnode, cache=None):
613 624 """Return all set of successors of initial nodes
614 625
615 626 The successors set of a changeset A are a group of revisions that succeed
616 627 A. It succeeds A as a consistent whole, each revision being only a partial
617 628 replacement. The successors set contains non-obsolete changesets only.
618 629
619 630 This function returns the full list of successor sets which is why it
620 631 returns a list of tuples and not just a single tuple. Each tuple is a valid
621 632 successors set. Not that (A,) may be a valid successors set for changeset A
622 633 (see below).
623 634
624 635 In most cases, a changeset A will have a single element (e.g. the changeset
625 636 A is replaced by A') in its successors set. Though, it is also common for a
626 637 changeset A to have no elements in its successor set (e.g. the changeset
627 638 has been pruned). Therefore, the returned list of successors sets will be
628 639 [(A',)] or [], respectively.
629 640
630 641 When a changeset A is split into A' and B', however, it will result in a
631 642 successors set containing more than a single element, i.e. [(A',B')].
632 643 Divergent changesets will result in multiple successors sets, i.e. [(A',),
633 644 (A'')].
634 645
635 646 If a changeset A is not obsolete, then it will conceptually have no
636 647 successors set. To distinguish this from a pruned changeset, the successor
637 648 set will only contain itself, i.e. [(A,)].
638 649
639 650 Finally, successors unknown locally are considered to be pruned (obsoleted
640 651 without any successors).
641 652
642 653 The optional `cache` parameter is a dictionary that may contain precomputed
643 654 successors sets. It is meant to reuse the computation of a previous call to
644 655 `successorssets` when multiple calls are made at the same time. The cache
645 656 dictionary is updated in place. The caller is responsible for its live
646 657 spawn. Code that makes multiple calls to `successorssets` *must* use this
647 658 cache mechanism or suffer terrible performances.
648 659
649 660 """
650 661
651 662 succmarkers = repo.obsstore.successors
652 663
653 664 # Stack of nodes we search successors sets for
654 665 toproceed = [initialnode]
655 666 # set version of above list for fast loop detection
656 667 # element added to "toproceed" must be added here
657 668 stackedset = set(toproceed)
658 669 if cache is None:
659 670 cache = {}
660 671
661 672 # This while loop is the flattened version of a recursive search for
662 673 # successors sets
663 674 #
664 675 # def successorssets(x):
665 676 # successors = directsuccessors(x)
666 677 # ss = [[]]
667 678 # for succ in directsuccessors(x):
668 679 # # product as in itertools cartesian product
669 680 # ss = product(ss, successorssets(succ))
670 681 # return ss
671 682 #
672 683 # But we can not use plain recursive calls here:
673 684 # - that would blow the python call stack
674 685 # - obsolescence markers may have cycles, we need to handle them.
675 686 #
676 687 # The `toproceed` list act as our call stack. Every node we search
677 688 # successors set for are stacked there.
678 689 #
679 690 # The `stackedset` is set version of this stack used to check if a node is
680 691 # already stacked. This check is used to detect cycles and prevent infinite
681 692 # loop.
682 693 #
683 694 # successors set of all nodes are stored in the `cache` dictionary.
684 695 #
685 696 # After this while loop ends we use the cache to return the successors sets
686 697 # for the node requested by the caller.
687 698 while toproceed:
688 699 # Every iteration tries to compute the successors sets of the topmost
689 700 # node of the stack: CURRENT.
690 701 #
691 702 # There are four possible outcomes:
692 703 #
693 704 # 1) We already know the successors sets of CURRENT:
694 705 # -> mission accomplished, pop it from the stack.
695 706 # 2) Node is not obsolete:
696 707 # -> the node is its own successors sets. Add it to the cache.
697 708 # 3) We do not know successors set of direct successors of CURRENT:
698 709 # -> We add those successors to the stack.
699 710 # 4) We know successors sets of all direct successors of CURRENT:
700 711 # -> We can compute CURRENT successors set and add it to the
701 712 # cache.
702 713 #
703 714 current = toproceed[-1]
704 715 if current in cache:
705 716 # case (1): We already know the successors sets
706 717 stackedset.remove(toproceed.pop())
707 718 elif current not in succmarkers:
708 719 # case (2): The node is not obsolete.
709 720 if current in repo:
710 721 # We have a valid last successors.
711 722 cache[current] = [(current,)]
712 723 else:
713 724 # Final obsolete version is unknown locally.
714 725 # Do not count that as a valid successors
715 726 cache[current] = []
716 727 else:
717 728 # cases (3) and (4)
718 729 #
719 730 # We proceed in two phases. Phase 1 aims to distinguish case (3)
720 731 # from case (4):
721 732 #
722 733 # For each direct successors of CURRENT, we check whether its
723 734 # successors sets are known. If they are not, we stack the
724 735 # unknown node and proceed to the next iteration of the while
725 736 # loop. (case 3)
726 737 #
727 738 # During this step, we may detect obsolescence cycles: a node
728 739 # with unknown successors sets but already in the call stack.
729 740 # In such a situation, we arbitrary set the successors sets of
730 741 # the node to nothing (node pruned) to break the cycle.
731 742 #
732 743 # If no break was encountered we proceed to phase 2.
733 744 #
734 745 # Phase 2 computes successors sets of CURRENT (case 4); see details
735 746 # in phase 2 itself.
736 747 #
737 748 # Note the two levels of iteration in each phase.
738 749 # - The first one handles obsolescence markers using CURRENT as
739 750 # precursor (successors markers of CURRENT).
740 751 #
741 752 # Having multiple entry here means divergence.
742 753 #
743 754 # - The second one handles successors defined in each marker.
744 755 #
745 756 # Having none means pruned node, multiple successors means split,
746 757 # single successors are standard replacement.
747 758 #
748 759 for mark in sorted(succmarkers[current]):
749 760 for suc in mark[1]:
750 761 if suc not in cache:
751 762 if suc in stackedset:
752 763 # cycle breaking
753 764 cache[suc] = []
754 765 else:
755 766 # case (3) If we have not computed successors sets
756 767 # of one of those successors we add it to the
757 768 # `toproceed` stack and stop all work for this
758 769 # iteration.
759 770 toproceed.append(suc)
760 771 stackedset.add(suc)
761 772 break
762 773 else:
763 774 continue
764 775 break
765 776 else:
766 777 # case (4): we know all successors sets of all direct
767 778 # successors
768 779 #
769 780 # Successors set contributed by each marker depends on the
770 781 # successors sets of all its "successors" node.
771 782 #
772 783 # Each different marker is a divergence in the obsolescence
773 784 # history. It contributes successors sets distinct from other
774 785 # markers.
775 786 #
776 787 # Within a marker, a successor may have divergent successors
777 788 # sets. In such a case, the marker will contribute multiple
778 789 # divergent successors sets. If multiple successors have
779 790 # divergent successors sets, a Cartesian product is used.
780 791 #
781 792 # At the end we post-process successors sets to remove
782 793 # duplicated entry and successors set that are strict subset of
783 794 # another one.
784 795 succssets = []
785 796 for mark in sorted(succmarkers[current]):
786 797 # successors sets contributed by this marker
787 798 markss = [[]]
788 799 for suc in mark[1]:
789 800 # cardinal product with previous successors
790 801 productresult = []
791 802 for prefix in markss:
792 803 for suffix in cache[suc]:
793 804 newss = list(prefix)
794 805 for part in suffix:
795 806 # do not duplicated entry in successors set
796 807 # first entry wins.
797 808 if part not in newss:
798 809 newss.append(part)
799 810 productresult.append(newss)
800 811 markss = productresult
801 812 succssets.extend(markss)
802 813 # remove duplicated and subset
803 814 seen = []
804 815 final = []
805 816 candidate = sorted(((set(s), s) for s in succssets if s),
806 817 key=lambda x: len(x[1]), reverse=True)
807 818 for setversion, listversion in candidate:
808 819 for seenset in seen:
809 820 if setversion.issubset(seenset):
810 821 break
811 822 else:
812 823 final.append(listversion)
813 824 seen.append(setversion)
814 825 final.reverse() # put small successors set first
815 826 cache[current] = final
816 827 return cache[initialnode]
817 828
818 829 def _knownrevs(repo, nodes):
819 830 """yield revision numbers of known nodes passed in parameters
820 831
821 832 Unknown revisions are silently ignored."""
822 833 torev = repo.changelog.nodemap.get
823 834 for n in nodes:
824 835 rev = torev(n)
825 836 if rev is not None:
826 837 yield rev
827 838
828 839 # mapping of 'set-name' -> <function to compute this set>
829 840 cachefuncs = {}
830 841 def cachefor(name):
831 842 """Decorator to register a function as computing the cache for a set"""
832 843 def decorator(func):
833 844 assert name not in cachefuncs
834 845 cachefuncs[name] = func
835 846 return func
836 847 return decorator
837 848
838 849 def getrevs(repo, name):
839 850 """Return the set of revision that belong to the <name> set
840 851
841 852 Such access may compute the set and cache it for future use"""
842 853 repo = repo.unfiltered()
843 854 if not repo.obsstore:
844 855 return ()
845 856 if name not in repo.obsstore.caches:
846 857 repo.obsstore.caches[name] = cachefuncs[name](repo)
847 858 return repo.obsstore.caches[name]
848 859
849 860 # To be simple we need to invalidate obsolescence cache when:
850 861 #
851 862 # - new changeset is added:
852 863 # - public phase is changed
853 864 # - obsolescence marker are added
854 865 # - strip is used a repo
855 866 def clearobscaches(repo):
856 867 """Remove all obsolescence related cache from a repo
857 868
858 869 This remove all cache in obsstore is the obsstore already exist on the
859 870 repo.
860 871
861 872 (We could be smarter here given the exact event that trigger the cache
862 873 clearing)"""
863 874 # only clear cache is there is obsstore data in this repo
864 875 if 'obsstore' in repo._filecache:
865 876 repo.obsstore.caches.clear()
866 877
867 878 @cachefor('obsolete')
868 879 def _computeobsoleteset(repo):
869 880 """the set of obsolete revisions"""
870 881 obs = set()
871 882 getrev = repo.changelog.nodemap.get
872 883 getphase = repo._phasecache.phase
873 884 for n in repo.obsstore.successors:
874 885 rev = getrev(n)
875 886 if rev is not None and getphase(repo, rev):
876 887 obs.add(rev)
877 888 return obs
878 889
879 890 @cachefor('unstable')
880 891 def _computeunstableset(repo):
881 892 """the set of non obsolete revisions with obsolete parents"""
882 893 # revset is not efficient enough here
883 894 # we do (obsolete()::) - obsolete() by hand
884 895 obs = getrevs(repo, 'obsolete')
885 896 if not obs:
886 897 return set()
887 898 cl = repo.changelog
888 899 return set(r for r in cl.descendants(obs) if r not in obs)
889 900
890 901 @cachefor('suspended')
891 902 def _computesuspendedset(repo):
892 903 """the set of obsolete parents with non obsolete descendants"""
893 904 suspended = repo.changelog.ancestors(getrevs(repo, 'unstable'))
894 905 return set(r for r in getrevs(repo, 'obsolete') if r in suspended)
895 906
896 907 @cachefor('extinct')
897 908 def _computeextinctset(repo):
898 909 """the set of obsolete parents without non obsolete descendants"""
899 910 return getrevs(repo, 'obsolete') - getrevs(repo, 'suspended')
900 911
901 912
902 913 @cachefor('bumped')
903 914 def _computebumpedset(repo):
904 915 """the set of revs trying to obsolete public revisions"""
905 916 bumped = set()
906 917 # util function (avoid attribute lookup in the loop)
907 918 phase = repo._phasecache.phase # would be faster to grab the full list
908 919 public = phases.public
909 920 cl = repo.changelog
910 921 torev = cl.nodemap.get
911 922 obs = getrevs(repo, 'obsolete')
912 923 for rev in repo:
913 924 # We only evaluate mutable, non-obsolete revision
914 925 if (public < phase(repo, rev)) and (rev not in obs):
915 926 node = cl.node(rev)
916 927 # (future) A cache of precursors may worth if split is very common
917 928 for pnode in allprecursors(repo.obsstore, [node],
918 929 ignoreflags=bumpedfix):
919 930 prev = torev(pnode) # unfiltered! but so is phasecache
920 931 if (prev is not None) and (phase(repo, prev) <= public):
921 932 # we have a public precursors
922 933 bumped.add(rev)
923 934 break # Next draft!
924 935 return bumped
925 936
926 937 @cachefor('divergent')
927 938 def _computedivergentset(repo):
928 939 """the set of rev that compete to be the final successors of some revision.
929 940 """
930 941 divergent = set()
931 942 obsstore = repo.obsstore
932 943 newermap = {}
933 944 for ctx in repo.set('(not public()) - obsolete()'):
934 945 mark = obsstore.precursors.get(ctx.node(), ())
935 946 toprocess = set(mark)
936 947 while toprocess:
937 948 prec = toprocess.pop()[0]
938 949 if prec not in newermap:
939 950 successorssets(repo, prec, newermap)
940 951 newer = [n for n in newermap[prec] if n]
941 952 if len(newer) > 1:
942 953 divergent.add(ctx.rev())
943 954 break
944 955 toprocess.update(obsstore.precursors.get(prec, ()))
945 956 return divergent
946 957
947 958
948 959 def createmarkers(repo, relations, flag=0, date=None, metadata=None):
949 960 """Add obsolete markers between changesets in a repo
950 961
951 962 <relations> must be an iterable of (<old>, (<new>, ...)[,{metadata}])
952 963 tuple. `old` and `news` are changectx. metadata is an optional dictionary
953 964 containing metadata for this marker only. It is merged with the global
954 965 metadata specified through the `metadata` argument of this function,
955 966
956 967 Trying to obsolete a public changeset will raise an exception.
957 968
958 969 Current user and date are used except if specified otherwise in the
959 970 metadata attribute.
960 971
961 972 This function operates within a transaction of its own, but does
962 973 not take any lock on the repo.
963 974 """
964 975 # prepare metadata
965 976 if metadata is None:
966 977 metadata = {}
967 978 if 'user' not in metadata:
968 979 metadata['user'] = repo.ui.username()
969 980 tr = repo.transaction('add-obsolescence-marker')
970 981 try:
971 982 for rel in relations:
972 983 prec = rel[0]
973 984 sucs = rel[1]
974 985 localmetadata = metadata.copy()
975 986 if 2 < len(rel):
976 987 localmetadata.update(rel[2])
977 988
978 989 if not prec.mutable():
979 990 raise util.Abort("cannot obsolete immutable changeset: %s"
980 991 % prec)
981 992 nprec = prec.node()
982 993 nsucs = tuple(s.node() for s in sucs)
983 994 npare = None
984 995 if not nsucs:
985 996 npare = tuple(p.node() for p in prec.parents())
986 997 if nprec in nsucs:
987 998 raise util.Abort("changeset %s cannot obsolete itself" % prec)
988 999 repo.obsstore.create(tr, nprec, nsucs, flag, parents=npare,
989 1000 date=date, metadata=localmetadata)
990 1001 repo.filteredrevcache.clear()
991 1002 tr.close()
992 1003 finally:
993 1004 tr.release()
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