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bundle2: implement generic part payload decoder...
Gregory Szorc -
r35110:8aa43ff9 default
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1 1 # bundle2.py - generic container format to transmit arbitrary data.
2 2 #
3 3 # Copyright 2013 Facebook, Inc.
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 """Handling of the new bundle2 format
8 8
9 9 The goal of bundle2 is to act as an atomically packet to transmit a set of
10 10 payloads in an application agnostic way. It consist in a sequence of "parts"
11 11 that will be handed to and processed by the application layer.
12 12
13 13
14 14 General format architecture
15 15 ===========================
16 16
17 17 The format is architectured as follow
18 18
19 19 - magic string
20 20 - stream level parameters
21 21 - payload parts (any number)
22 22 - end of stream marker.
23 23
24 24 the Binary format
25 25 ============================
26 26
27 27 All numbers are unsigned and big-endian.
28 28
29 29 stream level parameters
30 30 ------------------------
31 31
32 32 Binary format is as follow
33 33
34 34 :params size: int32
35 35
36 36 The total number of Bytes used by the parameters
37 37
38 38 :params value: arbitrary number of Bytes
39 39
40 40 A blob of `params size` containing the serialized version of all stream level
41 41 parameters.
42 42
43 43 The blob contains a space separated list of parameters. Parameters with value
44 44 are stored in the form `<name>=<value>`. Both name and value are urlquoted.
45 45
46 46 Empty name are obviously forbidden.
47 47
48 48 Name MUST start with a letter. If this first letter is lower case, the
49 49 parameter is advisory and can be safely ignored. However when the first
50 50 letter is capital, the parameter is mandatory and the bundling process MUST
51 51 stop if he is not able to proceed it.
52 52
53 53 Stream parameters use a simple textual format for two main reasons:
54 54
55 55 - Stream level parameters should remain simple and we want to discourage any
56 56 crazy usage.
57 57 - Textual data allow easy human inspection of a bundle2 header in case of
58 58 troubles.
59 59
60 60 Any Applicative level options MUST go into a bundle2 part instead.
61 61
62 62 Payload part
63 63 ------------------------
64 64
65 65 Binary format is as follow
66 66
67 67 :header size: int32
68 68
69 69 The total number of Bytes used by the part header. When the header is empty
70 70 (size = 0) this is interpreted as the end of stream marker.
71 71
72 72 :header:
73 73
74 74 The header defines how to interpret the part. It contains two piece of
75 75 data: the part type, and the part parameters.
76 76
77 77 The part type is used to route an application level handler, that can
78 78 interpret payload.
79 79
80 80 Part parameters are passed to the application level handler. They are
81 81 meant to convey information that will help the application level object to
82 82 interpret the part payload.
83 83
84 84 The binary format of the header is has follow
85 85
86 86 :typesize: (one byte)
87 87
88 88 :parttype: alphanumerical part name (restricted to [a-zA-Z0-9_:-]*)
89 89
90 90 :partid: A 32bits integer (unique in the bundle) that can be used to refer
91 91 to this part.
92 92
93 93 :parameters:
94 94
95 95 Part's parameter may have arbitrary content, the binary structure is::
96 96
97 97 <mandatory-count><advisory-count><param-sizes><param-data>
98 98
99 99 :mandatory-count: 1 byte, number of mandatory parameters
100 100
101 101 :advisory-count: 1 byte, number of advisory parameters
102 102
103 103 :param-sizes:
104 104
105 105 N couple of bytes, where N is the total number of parameters. Each
106 106 couple contains (<size-of-key>, <size-of-value) for one parameter.
107 107
108 108 :param-data:
109 109
110 110 A blob of bytes from which each parameter key and value can be
111 111 retrieved using the list of size couples stored in the previous
112 112 field.
113 113
114 114 Mandatory parameters comes first, then the advisory ones.
115 115
116 116 Each parameter's key MUST be unique within the part.
117 117
118 118 :payload:
119 119
120 120 payload is a series of `<chunksize><chunkdata>`.
121 121
122 122 `chunksize` is an int32, `chunkdata` are plain bytes (as much as
123 123 `chunksize` says)` The payload part is concluded by a zero size chunk.
124 124
125 125 The current implementation always produces either zero or one chunk.
126 126 This is an implementation limitation that will ultimately be lifted.
127 127
128 128 `chunksize` can be negative to trigger special case processing. No such
129 129 processing is in place yet.
130 130
131 131 Bundle processing
132 132 ============================
133 133
134 134 Each part is processed in order using a "part handler". Handler are registered
135 135 for a certain part type.
136 136
137 137 The matching of a part to its handler is case insensitive. The case of the
138 138 part type is used to know if a part is mandatory or advisory. If the Part type
139 139 contains any uppercase char it is considered mandatory. When no handler is
140 140 known for a Mandatory part, the process is aborted and an exception is raised.
141 141 If the part is advisory and no handler is known, the part is ignored. When the
142 142 process is aborted, the full bundle is still read from the stream to keep the
143 143 channel usable. But none of the part read from an abort are processed. In the
144 144 future, dropping the stream may become an option for channel we do not care to
145 145 preserve.
146 146 """
147 147
148 148 from __future__ import absolute_import, division
149 149
150 150 import errno
151 151 import os
152 152 import re
153 153 import string
154 154 import struct
155 155 import sys
156 156
157 157 from .i18n import _
158 158 from . import (
159 159 changegroup,
160 160 error,
161 161 node as nodemod,
162 162 obsolete,
163 163 phases,
164 164 pushkey,
165 165 pycompat,
166 166 tags,
167 167 url,
168 168 util,
169 169 )
170 170
171 171 urlerr = util.urlerr
172 172 urlreq = util.urlreq
173 173
174 174 _pack = struct.pack
175 175 _unpack = struct.unpack
176 176
177 177 _fstreamparamsize = '>i'
178 178 _fpartheadersize = '>i'
179 179 _fparttypesize = '>B'
180 180 _fpartid = '>I'
181 181 _fpayloadsize = '>i'
182 182 _fpartparamcount = '>BB'
183 183
184 184 preferedchunksize = 4096
185 185
186 186 _parttypeforbidden = re.compile('[^a-zA-Z0-9_:-]')
187 187
188 188 def outdebug(ui, message):
189 189 """debug regarding output stream (bundling)"""
190 190 if ui.configbool('devel', 'bundle2.debug'):
191 191 ui.debug('bundle2-output: %s\n' % message)
192 192
193 193 def indebug(ui, message):
194 194 """debug on input stream (unbundling)"""
195 195 if ui.configbool('devel', 'bundle2.debug'):
196 196 ui.debug('bundle2-input: %s\n' % message)
197 197
198 198 def validateparttype(parttype):
199 199 """raise ValueError if a parttype contains invalid character"""
200 200 if _parttypeforbidden.search(parttype):
201 201 raise ValueError(parttype)
202 202
203 203 def _makefpartparamsizes(nbparams):
204 204 """return a struct format to read part parameter sizes
205 205
206 206 The number parameters is variable so we need to build that format
207 207 dynamically.
208 208 """
209 209 return '>'+('BB'*nbparams)
210 210
211 211 parthandlermapping = {}
212 212
213 213 def parthandler(parttype, params=()):
214 214 """decorator that register a function as a bundle2 part handler
215 215
216 216 eg::
217 217
218 218 @parthandler('myparttype', ('mandatory', 'param', 'handled'))
219 219 def myparttypehandler(...):
220 220 '''process a part of type "my part".'''
221 221 ...
222 222 """
223 223 validateparttype(parttype)
224 224 def _decorator(func):
225 225 lparttype = parttype.lower() # enforce lower case matching.
226 226 assert lparttype not in parthandlermapping
227 227 parthandlermapping[lparttype] = func
228 228 func.params = frozenset(params)
229 229 return func
230 230 return _decorator
231 231
232 232 class unbundlerecords(object):
233 233 """keep record of what happens during and unbundle
234 234
235 235 New records are added using `records.add('cat', obj)`. Where 'cat' is a
236 236 category of record and obj is an arbitrary object.
237 237
238 238 `records['cat']` will return all entries of this category 'cat'.
239 239
240 240 Iterating on the object itself will yield `('category', obj)` tuples
241 241 for all entries.
242 242
243 243 All iterations happens in chronological order.
244 244 """
245 245
246 246 def __init__(self):
247 247 self._categories = {}
248 248 self._sequences = []
249 249 self._replies = {}
250 250
251 251 def add(self, category, entry, inreplyto=None):
252 252 """add a new record of a given category.
253 253
254 254 The entry can then be retrieved in the list returned by
255 255 self['category']."""
256 256 self._categories.setdefault(category, []).append(entry)
257 257 self._sequences.append((category, entry))
258 258 if inreplyto is not None:
259 259 self.getreplies(inreplyto).add(category, entry)
260 260
261 261 def getreplies(self, partid):
262 262 """get the records that are replies to a specific part"""
263 263 return self._replies.setdefault(partid, unbundlerecords())
264 264
265 265 def __getitem__(self, cat):
266 266 return tuple(self._categories.get(cat, ()))
267 267
268 268 def __iter__(self):
269 269 return iter(self._sequences)
270 270
271 271 def __len__(self):
272 272 return len(self._sequences)
273 273
274 274 def __nonzero__(self):
275 275 return bool(self._sequences)
276 276
277 277 __bool__ = __nonzero__
278 278
279 279 class bundleoperation(object):
280 280 """an object that represents a single bundling process
281 281
282 282 Its purpose is to carry unbundle-related objects and states.
283 283
284 284 A new object should be created at the beginning of each bundle processing.
285 285 The object is to be returned by the processing function.
286 286
287 287 The object has very little content now it will ultimately contain:
288 288 * an access to the repo the bundle is applied to,
289 289 * a ui object,
290 290 * a way to retrieve a transaction to add changes to the repo,
291 291 * a way to record the result of processing each part,
292 292 * a way to construct a bundle response when applicable.
293 293 """
294 294
295 295 def __init__(self, repo, transactiongetter, captureoutput=True):
296 296 self.repo = repo
297 297 self.ui = repo.ui
298 298 self.records = unbundlerecords()
299 299 self.reply = None
300 300 self.captureoutput = captureoutput
301 301 self.hookargs = {}
302 302 self._gettransaction = transactiongetter
303 303
304 304 def gettransaction(self):
305 305 transaction = self._gettransaction()
306 306
307 307 if self.hookargs:
308 308 # the ones added to the transaction supercede those added
309 309 # to the operation.
310 310 self.hookargs.update(transaction.hookargs)
311 311 transaction.hookargs = self.hookargs
312 312
313 313 # mark the hookargs as flushed. further attempts to add to
314 314 # hookargs will result in an abort.
315 315 self.hookargs = None
316 316
317 317 return transaction
318 318
319 319 def addhookargs(self, hookargs):
320 320 if self.hookargs is None:
321 321 raise error.ProgrammingError('attempted to add hookargs to '
322 322 'operation after transaction started')
323 323 self.hookargs.update(hookargs)
324 324
325 325 class TransactionUnavailable(RuntimeError):
326 326 pass
327 327
328 328 def _notransaction():
329 329 """default method to get a transaction while processing a bundle
330 330
331 331 Raise an exception to highlight the fact that no transaction was expected
332 332 to be created"""
333 333 raise TransactionUnavailable()
334 334
335 335 def applybundle(repo, unbundler, tr, source=None, url=None, **kwargs):
336 336 # transform me into unbundler.apply() as soon as the freeze is lifted
337 337 if isinstance(unbundler, unbundle20):
338 338 tr.hookargs['bundle2'] = '1'
339 339 if source is not None and 'source' not in tr.hookargs:
340 340 tr.hookargs['source'] = source
341 341 if url is not None and 'url' not in tr.hookargs:
342 342 tr.hookargs['url'] = url
343 343 return processbundle(repo, unbundler, lambda: tr)
344 344 else:
345 345 # the transactiongetter won't be used, but we might as well set it
346 346 op = bundleoperation(repo, lambda: tr)
347 347 _processchangegroup(op, unbundler, tr, source, url, **kwargs)
348 348 return op
349 349
350 350 class partiterator(object):
351 351 def __init__(self, repo, op, unbundler):
352 352 self.repo = repo
353 353 self.op = op
354 354 self.unbundler = unbundler
355 355 self.iterator = None
356 356 self.count = 0
357 357 self.current = None
358 358
359 359 def __enter__(self):
360 360 def func():
361 361 itr = enumerate(self.unbundler.iterparts())
362 362 for count, p in itr:
363 363 self.count = count
364 364 self.current = p
365 365 yield p
366 366 p.seek(0, os.SEEK_END)
367 367 self.current = None
368 368 self.iterator = func()
369 369 return self.iterator
370 370
371 371 def __exit__(self, type, exc, tb):
372 372 if not self.iterator:
373 373 return
374 374
375 375 # Only gracefully abort in a normal exception situation. User aborts
376 376 # like Ctrl+C throw a KeyboardInterrupt which is not a base Exception,
377 377 # and should not gracefully cleanup.
378 378 if isinstance(exc, Exception):
379 379 # Any exceptions seeking to the end of the bundle at this point are
380 380 # almost certainly related to the underlying stream being bad.
381 381 # And, chances are that the exception we're handling is related to
382 382 # getting in that bad state. So, we swallow the seeking error and
383 383 # re-raise the original error.
384 384 seekerror = False
385 385 try:
386 386 if self.current:
387 387 # consume the part content to not corrupt the stream.
388 388 self.current.seek(0, os.SEEK_END)
389 389
390 390 for part in self.iterator:
391 391 # consume the bundle content
392 392 part.seek(0, os.SEEK_END)
393 393 except Exception:
394 394 seekerror = True
395 395
396 396 # Small hack to let caller code distinguish exceptions from bundle2
397 397 # processing from processing the old format. This is mostly needed
398 398 # to handle different return codes to unbundle according to the type
399 399 # of bundle. We should probably clean up or drop this return code
400 400 # craziness in a future version.
401 401 exc.duringunbundle2 = True
402 402 salvaged = []
403 403 replycaps = None
404 404 if self.op.reply is not None:
405 405 salvaged = self.op.reply.salvageoutput()
406 406 replycaps = self.op.reply.capabilities
407 407 exc._replycaps = replycaps
408 408 exc._bundle2salvagedoutput = salvaged
409 409
410 410 # Re-raising from a variable loses the original stack. So only use
411 411 # that form if we need to.
412 412 if seekerror:
413 413 raise exc
414 414
415 415 self.repo.ui.debug('bundle2-input-bundle: %i parts total\n' %
416 416 self.count)
417 417
418 418 def processbundle(repo, unbundler, transactiongetter=None, op=None):
419 419 """This function process a bundle, apply effect to/from a repo
420 420
421 421 It iterates over each part then searches for and uses the proper handling
422 422 code to process the part. Parts are processed in order.
423 423
424 424 Unknown Mandatory part will abort the process.
425 425
426 426 It is temporarily possible to provide a prebuilt bundleoperation to the
427 427 function. This is used to ensure output is properly propagated in case of
428 428 an error during the unbundling. This output capturing part will likely be
429 429 reworked and this ability will probably go away in the process.
430 430 """
431 431 if op is None:
432 432 if transactiongetter is None:
433 433 transactiongetter = _notransaction
434 434 op = bundleoperation(repo, transactiongetter)
435 435 # todo:
436 436 # - replace this is a init function soon.
437 437 # - exception catching
438 438 unbundler.params
439 439 if repo.ui.debugflag:
440 440 msg = ['bundle2-input-bundle:']
441 441 if unbundler.params:
442 442 msg.append(' %i params' % len(unbundler.params))
443 443 if op._gettransaction is None or op._gettransaction is _notransaction:
444 444 msg.append(' no-transaction')
445 445 else:
446 446 msg.append(' with-transaction')
447 447 msg.append('\n')
448 448 repo.ui.debug(''.join(msg))
449 449
450 450 processparts(repo, op, unbundler)
451 451
452 452 return op
453 453
454 454 def processparts(repo, op, unbundler):
455 455 with partiterator(repo, op, unbundler) as parts:
456 456 for part in parts:
457 457 _processpart(op, part)
458 458
459 459 def _processchangegroup(op, cg, tr, source, url, **kwargs):
460 460 ret = cg.apply(op.repo, tr, source, url, **kwargs)
461 461 op.records.add('changegroup', {
462 462 'return': ret,
463 463 })
464 464 return ret
465 465
466 466 def _gethandler(op, part):
467 467 status = 'unknown' # used by debug output
468 468 try:
469 469 handler = parthandlermapping.get(part.type)
470 470 if handler is None:
471 471 status = 'unsupported-type'
472 472 raise error.BundleUnknownFeatureError(parttype=part.type)
473 473 indebug(op.ui, 'found a handler for part %s' % part.type)
474 474 unknownparams = part.mandatorykeys - handler.params
475 475 if unknownparams:
476 476 unknownparams = list(unknownparams)
477 477 unknownparams.sort()
478 478 status = 'unsupported-params (%s)' % ', '.join(unknownparams)
479 479 raise error.BundleUnknownFeatureError(parttype=part.type,
480 480 params=unknownparams)
481 481 status = 'supported'
482 482 except error.BundleUnknownFeatureError as exc:
483 483 if part.mandatory: # mandatory parts
484 484 raise
485 485 indebug(op.ui, 'ignoring unsupported advisory part %s' % exc)
486 486 return # skip to part processing
487 487 finally:
488 488 if op.ui.debugflag:
489 489 msg = ['bundle2-input-part: "%s"' % part.type]
490 490 if not part.mandatory:
491 491 msg.append(' (advisory)')
492 492 nbmp = len(part.mandatorykeys)
493 493 nbap = len(part.params) - nbmp
494 494 if nbmp or nbap:
495 495 msg.append(' (params:')
496 496 if nbmp:
497 497 msg.append(' %i mandatory' % nbmp)
498 498 if nbap:
499 499 msg.append(' %i advisory' % nbmp)
500 500 msg.append(')')
501 501 msg.append(' %s\n' % status)
502 502 op.ui.debug(''.join(msg))
503 503
504 504 return handler
505 505
506 506 def _processpart(op, part):
507 507 """process a single part from a bundle
508 508
509 509 The part is guaranteed to have been fully consumed when the function exits
510 510 (even if an exception is raised)."""
511 511 handler = _gethandler(op, part)
512 512 if handler is None:
513 513 return
514 514
515 515 # handler is called outside the above try block so that we don't
516 516 # risk catching KeyErrors from anything other than the
517 517 # parthandlermapping lookup (any KeyError raised by handler()
518 518 # itself represents a defect of a different variety).
519 519 output = None
520 520 if op.captureoutput and op.reply is not None:
521 521 op.ui.pushbuffer(error=True, subproc=True)
522 522 output = ''
523 523 try:
524 524 handler(op, part)
525 525 finally:
526 526 if output is not None:
527 527 output = op.ui.popbuffer()
528 528 if output:
529 529 outpart = op.reply.newpart('output', data=output,
530 530 mandatory=False)
531 531 outpart.addparam(
532 532 'in-reply-to', pycompat.bytestr(part.id), mandatory=False)
533 533
534 534 def decodecaps(blob):
535 535 """decode a bundle2 caps bytes blob into a dictionary
536 536
537 537 The blob is a list of capabilities (one per line)
538 538 Capabilities may have values using a line of the form::
539 539
540 540 capability=value1,value2,value3
541 541
542 542 The values are always a list."""
543 543 caps = {}
544 544 for line in blob.splitlines():
545 545 if not line:
546 546 continue
547 547 if '=' not in line:
548 548 key, vals = line, ()
549 549 else:
550 550 key, vals = line.split('=', 1)
551 551 vals = vals.split(',')
552 552 key = urlreq.unquote(key)
553 553 vals = [urlreq.unquote(v) for v in vals]
554 554 caps[key] = vals
555 555 return caps
556 556
557 557 def encodecaps(caps):
558 558 """encode a bundle2 caps dictionary into a bytes blob"""
559 559 chunks = []
560 560 for ca in sorted(caps):
561 561 vals = caps[ca]
562 562 ca = urlreq.quote(ca)
563 563 vals = [urlreq.quote(v) for v in vals]
564 564 if vals:
565 565 ca = "%s=%s" % (ca, ','.join(vals))
566 566 chunks.append(ca)
567 567 return '\n'.join(chunks)
568 568
569 569 bundletypes = {
570 570 "": ("", 'UN'), # only when using unbundle on ssh and old http servers
571 571 # since the unification ssh accepts a header but there
572 572 # is no capability signaling it.
573 573 "HG20": (), # special-cased below
574 574 "HG10UN": ("HG10UN", 'UN'),
575 575 "HG10BZ": ("HG10", 'BZ'),
576 576 "HG10GZ": ("HG10GZ", 'GZ'),
577 577 }
578 578
579 579 # hgweb uses this list to communicate its preferred type
580 580 bundlepriority = ['HG10GZ', 'HG10BZ', 'HG10UN']
581 581
582 582 class bundle20(object):
583 583 """represent an outgoing bundle2 container
584 584
585 585 Use the `addparam` method to add stream level parameter. and `newpart` to
586 586 populate it. Then call `getchunks` to retrieve all the binary chunks of
587 587 data that compose the bundle2 container."""
588 588
589 589 _magicstring = 'HG20'
590 590
591 591 def __init__(self, ui, capabilities=()):
592 592 self.ui = ui
593 593 self._params = []
594 594 self._parts = []
595 595 self.capabilities = dict(capabilities)
596 596 self._compengine = util.compengines.forbundletype('UN')
597 597 self._compopts = None
598 598
599 599 def setcompression(self, alg, compopts=None):
600 600 """setup core part compression to <alg>"""
601 601 if alg in (None, 'UN'):
602 602 return
603 603 assert not any(n.lower() == 'compression' for n, v in self._params)
604 604 self.addparam('Compression', alg)
605 605 self._compengine = util.compengines.forbundletype(alg)
606 606 self._compopts = compopts
607 607
608 608 @property
609 609 def nbparts(self):
610 610 """total number of parts added to the bundler"""
611 611 return len(self._parts)
612 612
613 613 # methods used to defines the bundle2 content
614 614 def addparam(self, name, value=None):
615 615 """add a stream level parameter"""
616 616 if not name:
617 617 raise ValueError(r'empty parameter name')
618 618 if name[0:1] not in pycompat.bytestr(string.ascii_letters):
619 619 raise ValueError(r'non letter first character: %s' % name)
620 620 self._params.append((name, value))
621 621
622 622 def addpart(self, part):
623 623 """add a new part to the bundle2 container
624 624
625 625 Parts contains the actual applicative payload."""
626 626 assert part.id is None
627 627 part.id = len(self._parts) # very cheap counter
628 628 self._parts.append(part)
629 629
630 630 def newpart(self, typeid, *args, **kwargs):
631 631 """create a new part and add it to the containers
632 632
633 633 As the part is directly added to the containers. For now, this means
634 634 that any failure to properly initialize the part after calling
635 635 ``newpart`` should result in a failure of the whole bundling process.
636 636
637 637 You can still fall back to manually create and add if you need better
638 638 control."""
639 639 part = bundlepart(typeid, *args, **kwargs)
640 640 self.addpart(part)
641 641 return part
642 642
643 643 # methods used to generate the bundle2 stream
644 644 def getchunks(self):
645 645 if self.ui.debugflag:
646 646 msg = ['bundle2-output-bundle: "%s",' % self._magicstring]
647 647 if self._params:
648 648 msg.append(' (%i params)' % len(self._params))
649 649 msg.append(' %i parts total\n' % len(self._parts))
650 650 self.ui.debug(''.join(msg))
651 651 outdebug(self.ui, 'start emission of %s stream' % self._magicstring)
652 652 yield self._magicstring
653 653 param = self._paramchunk()
654 654 outdebug(self.ui, 'bundle parameter: %s' % param)
655 655 yield _pack(_fstreamparamsize, len(param))
656 656 if param:
657 657 yield param
658 658 for chunk in self._compengine.compressstream(self._getcorechunk(),
659 659 self._compopts):
660 660 yield chunk
661 661
662 662 def _paramchunk(self):
663 663 """return a encoded version of all stream parameters"""
664 664 blocks = []
665 665 for par, value in self._params:
666 666 par = urlreq.quote(par)
667 667 if value is not None:
668 668 value = urlreq.quote(value)
669 669 par = '%s=%s' % (par, value)
670 670 blocks.append(par)
671 671 return ' '.join(blocks)
672 672
673 673 def _getcorechunk(self):
674 674 """yield chunk for the core part of the bundle
675 675
676 676 (all but headers and parameters)"""
677 677 outdebug(self.ui, 'start of parts')
678 678 for part in self._parts:
679 679 outdebug(self.ui, 'bundle part: "%s"' % part.type)
680 680 for chunk in part.getchunks(ui=self.ui):
681 681 yield chunk
682 682 outdebug(self.ui, 'end of bundle')
683 683 yield _pack(_fpartheadersize, 0)
684 684
685 685
686 686 def salvageoutput(self):
687 687 """return a list with a copy of all output parts in the bundle
688 688
689 689 This is meant to be used during error handling to make sure we preserve
690 690 server output"""
691 691 salvaged = []
692 692 for part in self._parts:
693 693 if part.type.startswith('output'):
694 694 salvaged.append(part.copy())
695 695 return salvaged
696 696
697 697
698 698 class unpackermixin(object):
699 699 """A mixin to extract bytes and struct data from a stream"""
700 700
701 701 def __init__(self, fp):
702 702 self._fp = fp
703 703
704 704 def _unpack(self, format):
705 705 """unpack this struct format from the stream
706 706
707 707 This method is meant for internal usage by the bundle2 protocol only.
708 708 They directly manipulate the low level stream including bundle2 level
709 709 instruction.
710 710
711 711 Do not use it to implement higher-level logic or methods."""
712 712 data = self._readexact(struct.calcsize(format))
713 713 return _unpack(format, data)
714 714
715 715 def _readexact(self, size):
716 716 """read exactly <size> bytes from the stream
717 717
718 718 This method is meant for internal usage by the bundle2 protocol only.
719 719 They directly manipulate the low level stream including bundle2 level
720 720 instruction.
721 721
722 722 Do not use it to implement higher-level logic or methods."""
723 723 return changegroup.readexactly(self._fp, size)
724 724
725 725 def getunbundler(ui, fp, magicstring=None):
726 726 """return a valid unbundler object for a given magicstring"""
727 727 if magicstring is None:
728 728 magicstring = changegroup.readexactly(fp, 4)
729 729 magic, version = magicstring[0:2], magicstring[2:4]
730 730 if magic != 'HG':
731 731 ui.debug(
732 732 "error: invalid magic: %r (version %r), should be 'HG'\n"
733 733 % (magic, version))
734 734 raise error.Abort(_('not a Mercurial bundle'))
735 735 unbundlerclass = formatmap.get(version)
736 736 if unbundlerclass is None:
737 737 raise error.Abort(_('unknown bundle version %s') % version)
738 738 unbundler = unbundlerclass(ui, fp)
739 739 indebug(ui, 'start processing of %s stream' % magicstring)
740 740 return unbundler
741 741
742 742 class unbundle20(unpackermixin):
743 743 """interpret a bundle2 stream
744 744
745 745 This class is fed with a binary stream and yields parts through its
746 746 `iterparts` methods."""
747 747
748 748 _magicstring = 'HG20'
749 749
750 750 def __init__(self, ui, fp):
751 751 """If header is specified, we do not read it out of the stream."""
752 752 self.ui = ui
753 753 self._compengine = util.compengines.forbundletype('UN')
754 754 self._compressed = None
755 755 super(unbundle20, self).__init__(fp)
756 756
757 757 @util.propertycache
758 758 def params(self):
759 759 """dictionary of stream level parameters"""
760 760 indebug(self.ui, 'reading bundle2 stream parameters')
761 761 params = {}
762 762 paramssize = self._unpack(_fstreamparamsize)[0]
763 763 if paramssize < 0:
764 764 raise error.BundleValueError('negative bundle param size: %i'
765 765 % paramssize)
766 766 if paramssize:
767 767 params = self._readexact(paramssize)
768 768 params = self._processallparams(params)
769 769 return params
770 770
771 771 def _processallparams(self, paramsblock):
772 772 """"""
773 773 params = util.sortdict()
774 774 for p in paramsblock.split(' '):
775 775 p = p.split('=', 1)
776 776 p = [urlreq.unquote(i) for i in p]
777 777 if len(p) < 2:
778 778 p.append(None)
779 779 self._processparam(*p)
780 780 params[p[0]] = p[1]
781 781 return params
782 782
783 783
784 784 def _processparam(self, name, value):
785 785 """process a parameter, applying its effect if needed
786 786
787 787 Parameter starting with a lower case letter are advisory and will be
788 788 ignored when unknown. Those starting with an upper case letter are
789 789 mandatory and will this function will raise a KeyError when unknown.
790 790
791 791 Note: no option are currently supported. Any input will be either
792 792 ignored or failing.
793 793 """
794 794 if not name:
795 795 raise ValueError(r'empty parameter name')
796 796 if name[0:1] not in pycompat.bytestr(string.ascii_letters):
797 797 raise ValueError(r'non letter first character: %s' % name)
798 798 try:
799 799 handler = b2streamparamsmap[name.lower()]
800 800 except KeyError:
801 801 if name[0:1].islower():
802 802 indebug(self.ui, "ignoring unknown parameter %s" % name)
803 803 else:
804 804 raise error.BundleUnknownFeatureError(params=(name,))
805 805 else:
806 806 handler(self, name, value)
807 807
808 808 def _forwardchunks(self):
809 809 """utility to transfer a bundle2 as binary
810 810
811 811 This is made necessary by the fact the 'getbundle' command over 'ssh'
812 812 have no way to know then the reply end, relying on the bundle to be
813 813 interpreted to know its end. This is terrible and we are sorry, but we
814 814 needed to move forward to get general delta enabled.
815 815 """
816 816 yield self._magicstring
817 817 assert 'params' not in vars(self)
818 818 paramssize = self._unpack(_fstreamparamsize)[0]
819 819 if paramssize < 0:
820 820 raise error.BundleValueError('negative bundle param size: %i'
821 821 % paramssize)
822 822 yield _pack(_fstreamparamsize, paramssize)
823 823 if paramssize:
824 824 params = self._readexact(paramssize)
825 825 self._processallparams(params)
826 826 yield params
827 827 assert self._compengine.bundletype == 'UN'
828 828 # From there, payload might need to be decompressed
829 829 self._fp = self._compengine.decompressorreader(self._fp)
830 830 emptycount = 0
831 831 while emptycount < 2:
832 832 # so we can brainlessly loop
833 833 assert _fpartheadersize == _fpayloadsize
834 834 size = self._unpack(_fpartheadersize)[0]
835 835 yield _pack(_fpartheadersize, size)
836 836 if size:
837 837 emptycount = 0
838 838 else:
839 839 emptycount += 1
840 840 continue
841 841 if size == flaginterrupt:
842 842 continue
843 843 elif size < 0:
844 844 raise error.BundleValueError('negative chunk size: %i')
845 845 yield self._readexact(size)
846 846
847 847
848 848 def iterparts(self):
849 849 """yield all parts contained in the stream"""
850 850 # make sure param have been loaded
851 851 self.params
852 852 # From there, payload need to be decompressed
853 853 self._fp = self._compengine.decompressorreader(self._fp)
854 854 indebug(self.ui, 'start extraction of bundle2 parts')
855 855 headerblock = self._readpartheader()
856 856 while headerblock is not None:
857 857 part = seekableunbundlepart(self.ui, headerblock, self._fp)
858 858 yield part
859 859 # Seek to the end of the part to force it's consumption so the next
860 860 # part can be read. But then seek back to the beginning so the
861 861 # code consuming this generator has a part that starts at 0.
862 862 part.seek(0, os.SEEK_END)
863 863 part.seek(0, os.SEEK_SET)
864 864 headerblock = self._readpartheader()
865 865 indebug(self.ui, 'end of bundle2 stream')
866 866
867 867 def _readpartheader(self):
868 868 """reads a part header size and return the bytes blob
869 869
870 870 returns None if empty"""
871 871 headersize = self._unpack(_fpartheadersize)[0]
872 872 if headersize < 0:
873 873 raise error.BundleValueError('negative part header size: %i'
874 874 % headersize)
875 875 indebug(self.ui, 'part header size: %i' % headersize)
876 876 if headersize:
877 877 return self._readexact(headersize)
878 878 return None
879 879
880 880 def compressed(self):
881 881 self.params # load params
882 882 return self._compressed
883 883
884 884 def close(self):
885 885 """close underlying file"""
886 886 if util.safehasattr(self._fp, 'close'):
887 887 return self._fp.close()
888 888
889 889 formatmap = {'20': unbundle20}
890 890
891 891 b2streamparamsmap = {}
892 892
893 893 def b2streamparamhandler(name):
894 894 """register a handler for a stream level parameter"""
895 895 def decorator(func):
896 896 assert name not in formatmap
897 897 b2streamparamsmap[name] = func
898 898 return func
899 899 return decorator
900 900
901 901 @b2streamparamhandler('compression')
902 902 def processcompression(unbundler, param, value):
903 903 """read compression parameter and install payload decompression"""
904 904 if value not in util.compengines.supportedbundletypes:
905 905 raise error.BundleUnknownFeatureError(params=(param,),
906 906 values=(value,))
907 907 unbundler._compengine = util.compengines.forbundletype(value)
908 908 if value is not None:
909 909 unbundler._compressed = True
910 910
911 911 class bundlepart(object):
912 912 """A bundle2 part contains application level payload
913 913
914 914 The part `type` is used to route the part to the application level
915 915 handler.
916 916
917 917 The part payload is contained in ``part.data``. It could be raw bytes or a
918 918 generator of byte chunks.
919 919
920 920 You can add parameters to the part using the ``addparam`` method.
921 921 Parameters can be either mandatory (default) or advisory. Remote side
922 922 should be able to safely ignore the advisory ones.
923 923
924 924 Both data and parameters cannot be modified after the generation has begun.
925 925 """
926 926
927 927 def __init__(self, parttype, mandatoryparams=(), advisoryparams=(),
928 928 data='', mandatory=True):
929 929 validateparttype(parttype)
930 930 self.id = None
931 931 self.type = parttype
932 932 self._data = data
933 933 self._mandatoryparams = list(mandatoryparams)
934 934 self._advisoryparams = list(advisoryparams)
935 935 # checking for duplicated entries
936 936 self._seenparams = set()
937 937 for pname, __ in self._mandatoryparams + self._advisoryparams:
938 938 if pname in self._seenparams:
939 939 raise error.ProgrammingError('duplicated params: %s' % pname)
940 940 self._seenparams.add(pname)
941 941 # status of the part's generation:
942 942 # - None: not started,
943 943 # - False: currently generated,
944 944 # - True: generation done.
945 945 self._generated = None
946 946 self.mandatory = mandatory
947 947
948 948 def __repr__(self):
949 949 cls = "%s.%s" % (self.__class__.__module__, self.__class__.__name__)
950 950 return ('<%s object at %x; id: %s; type: %s; mandatory: %s>'
951 951 % (cls, id(self), self.id, self.type, self.mandatory))
952 952
953 953 def copy(self):
954 954 """return a copy of the part
955 955
956 956 The new part have the very same content but no partid assigned yet.
957 957 Parts with generated data cannot be copied."""
958 958 assert not util.safehasattr(self.data, 'next')
959 959 return self.__class__(self.type, self._mandatoryparams,
960 960 self._advisoryparams, self._data, self.mandatory)
961 961
962 962 # methods used to defines the part content
963 963 @property
964 964 def data(self):
965 965 return self._data
966 966
967 967 @data.setter
968 968 def data(self, data):
969 969 if self._generated is not None:
970 970 raise error.ReadOnlyPartError('part is being generated')
971 971 self._data = data
972 972
973 973 @property
974 974 def mandatoryparams(self):
975 975 # make it an immutable tuple to force people through ``addparam``
976 976 return tuple(self._mandatoryparams)
977 977
978 978 @property
979 979 def advisoryparams(self):
980 980 # make it an immutable tuple to force people through ``addparam``
981 981 return tuple(self._advisoryparams)
982 982
983 983 def addparam(self, name, value='', mandatory=True):
984 984 """add a parameter to the part
985 985
986 986 If 'mandatory' is set to True, the remote handler must claim support
987 987 for this parameter or the unbundling will be aborted.
988 988
989 989 The 'name' and 'value' cannot exceed 255 bytes each.
990 990 """
991 991 if self._generated is not None:
992 992 raise error.ReadOnlyPartError('part is being generated')
993 993 if name in self._seenparams:
994 994 raise ValueError('duplicated params: %s' % name)
995 995 self._seenparams.add(name)
996 996 params = self._advisoryparams
997 997 if mandatory:
998 998 params = self._mandatoryparams
999 999 params.append((name, value))
1000 1000
1001 1001 # methods used to generates the bundle2 stream
1002 1002 def getchunks(self, ui):
1003 1003 if self._generated is not None:
1004 1004 raise error.ProgrammingError('part can only be consumed once')
1005 1005 self._generated = False
1006 1006
1007 1007 if ui.debugflag:
1008 1008 msg = ['bundle2-output-part: "%s"' % self.type]
1009 1009 if not self.mandatory:
1010 1010 msg.append(' (advisory)')
1011 1011 nbmp = len(self.mandatoryparams)
1012 1012 nbap = len(self.advisoryparams)
1013 1013 if nbmp or nbap:
1014 1014 msg.append(' (params:')
1015 1015 if nbmp:
1016 1016 msg.append(' %i mandatory' % nbmp)
1017 1017 if nbap:
1018 1018 msg.append(' %i advisory' % nbmp)
1019 1019 msg.append(')')
1020 1020 if not self.data:
1021 1021 msg.append(' empty payload')
1022 1022 elif (util.safehasattr(self.data, 'next')
1023 1023 or util.safehasattr(self.data, '__next__')):
1024 1024 msg.append(' streamed payload')
1025 1025 else:
1026 1026 msg.append(' %i bytes payload' % len(self.data))
1027 1027 msg.append('\n')
1028 1028 ui.debug(''.join(msg))
1029 1029
1030 1030 #### header
1031 1031 if self.mandatory:
1032 1032 parttype = self.type.upper()
1033 1033 else:
1034 1034 parttype = self.type.lower()
1035 1035 outdebug(ui, 'part %s: "%s"' % (pycompat.bytestr(self.id), parttype))
1036 1036 ## parttype
1037 1037 header = [_pack(_fparttypesize, len(parttype)),
1038 1038 parttype, _pack(_fpartid, self.id),
1039 1039 ]
1040 1040 ## parameters
1041 1041 # count
1042 1042 manpar = self.mandatoryparams
1043 1043 advpar = self.advisoryparams
1044 1044 header.append(_pack(_fpartparamcount, len(manpar), len(advpar)))
1045 1045 # size
1046 1046 parsizes = []
1047 1047 for key, value in manpar:
1048 1048 parsizes.append(len(key))
1049 1049 parsizes.append(len(value))
1050 1050 for key, value in advpar:
1051 1051 parsizes.append(len(key))
1052 1052 parsizes.append(len(value))
1053 1053 paramsizes = _pack(_makefpartparamsizes(len(parsizes) // 2), *parsizes)
1054 1054 header.append(paramsizes)
1055 1055 # key, value
1056 1056 for key, value in manpar:
1057 1057 header.append(key)
1058 1058 header.append(value)
1059 1059 for key, value in advpar:
1060 1060 header.append(key)
1061 1061 header.append(value)
1062 1062 ## finalize header
1063 1063 try:
1064 1064 headerchunk = ''.join(header)
1065 1065 except TypeError:
1066 1066 raise TypeError(r'Found a non-bytes trying to '
1067 1067 r'build bundle part header: %r' % header)
1068 1068 outdebug(ui, 'header chunk size: %i' % len(headerchunk))
1069 1069 yield _pack(_fpartheadersize, len(headerchunk))
1070 1070 yield headerchunk
1071 1071 ## payload
1072 1072 try:
1073 1073 for chunk in self._payloadchunks():
1074 1074 outdebug(ui, 'payload chunk size: %i' % len(chunk))
1075 1075 yield _pack(_fpayloadsize, len(chunk))
1076 1076 yield chunk
1077 1077 except GeneratorExit:
1078 1078 # GeneratorExit means that nobody is listening for our
1079 1079 # results anyway, so just bail quickly rather than trying
1080 1080 # to produce an error part.
1081 1081 ui.debug('bundle2-generatorexit\n')
1082 1082 raise
1083 1083 except BaseException as exc:
1084 1084 bexc = util.forcebytestr(exc)
1085 1085 # backup exception data for later
1086 1086 ui.debug('bundle2-input-stream-interrupt: encoding exception %s'
1087 1087 % bexc)
1088 1088 tb = sys.exc_info()[2]
1089 1089 msg = 'unexpected error: %s' % bexc
1090 1090 interpart = bundlepart('error:abort', [('message', msg)],
1091 1091 mandatory=False)
1092 1092 interpart.id = 0
1093 1093 yield _pack(_fpayloadsize, -1)
1094 1094 for chunk in interpart.getchunks(ui=ui):
1095 1095 yield chunk
1096 1096 outdebug(ui, 'closing payload chunk')
1097 1097 # abort current part payload
1098 1098 yield _pack(_fpayloadsize, 0)
1099 1099 pycompat.raisewithtb(exc, tb)
1100 1100 # end of payload
1101 1101 outdebug(ui, 'closing payload chunk')
1102 1102 yield _pack(_fpayloadsize, 0)
1103 1103 self._generated = True
1104 1104
1105 1105 def _payloadchunks(self):
1106 1106 """yield chunks of a the part payload
1107 1107
1108 1108 Exists to handle the different methods to provide data to a part."""
1109 1109 # we only support fixed size data now.
1110 1110 # This will be improved in the future.
1111 1111 if (util.safehasattr(self.data, 'next')
1112 1112 or util.safehasattr(self.data, '__next__')):
1113 1113 buff = util.chunkbuffer(self.data)
1114 1114 chunk = buff.read(preferedchunksize)
1115 1115 while chunk:
1116 1116 yield chunk
1117 1117 chunk = buff.read(preferedchunksize)
1118 1118 elif len(self.data):
1119 1119 yield self.data
1120 1120
1121 1121
1122 1122 flaginterrupt = -1
1123 1123
1124 1124 class interrupthandler(unpackermixin):
1125 1125 """read one part and process it with restricted capability
1126 1126
1127 1127 This allows to transmit exception raised on the producer size during part
1128 1128 iteration while the consumer is reading a part.
1129 1129
1130 1130 Part processed in this manner only have access to a ui object,"""
1131 1131
1132 1132 def __init__(self, ui, fp):
1133 1133 super(interrupthandler, self).__init__(fp)
1134 1134 self.ui = ui
1135 1135
1136 1136 def _readpartheader(self):
1137 1137 """reads a part header size and return the bytes blob
1138 1138
1139 1139 returns None if empty"""
1140 1140 headersize = self._unpack(_fpartheadersize)[0]
1141 1141 if headersize < 0:
1142 1142 raise error.BundleValueError('negative part header size: %i'
1143 1143 % headersize)
1144 1144 indebug(self.ui, 'part header size: %i\n' % headersize)
1145 1145 if headersize:
1146 1146 return self._readexact(headersize)
1147 1147 return None
1148 1148
1149 1149 def __call__(self):
1150 1150
1151 1151 self.ui.debug('bundle2-input-stream-interrupt:'
1152 1152 ' opening out of band context\n')
1153 1153 indebug(self.ui, 'bundle2 stream interruption, looking for a part.')
1154 1154 headerblock = self._readpartheader()
1155 1155 if headerblock is None:
1156 1156 indebug(self.ui, 'no part found during interruption.')
1157 1157 return
1158 1158 part = seekableunbundlepart(self.ui, headerblock, self._fp)
1159 1159 op = interruptoperation(self.ui)
1160 1160 hardabort = False
1161 1161 try:
1162 1162 _processpart(op, part)
1163 1163 except (SystemExit, KeyboardInterrupt):
1164 1164 hardabort = True
1165 1165 raise
1166 1166 finally:
1167 1167 if not hardabort:
1168 1168 part.seek(0, os.SEEK_END)
1169 1169 self.ui.debug('bundle2-input-stream-interrupt:'
1170 1170 ' closing out of band context\n')
1171 1171
1172 1172 class interruptoperation(object):
1173 1173 """A limited operation to be use by part handler during interruption
1174 1174
1175 1175 It only have access to an ui object.
1176 1176 """
1177 1177
1178 1178 def __init__(self, ui):
1179 1179 self.ui = ui
1180 1180 self.reply = None
1181 1181 self.captureoutput = False
1182 1182
1183 1183 @property
1184 1184 def repo(self):
1185 1185 raise error.ProgrammingError('no repo access from stream interruption')
1186 1186
1187 1187 def gettransaction(self):
1188 1188 raise TransactionUnavailable('no repo access from stream interruption')
1189 1189
1190 def decodepayloadchunks(ui, fh):
1191 """Reads bundle2 part payload data into chunks.
1192
1193 Part payload data consists of framed chunks. This function takes
1194 a file handle and emits those chunks.
1195 """
1196 headersize = struct.calcsize(_fpayloadsize)
1197 readexactly = changegroup.readexactly
1198
1199 chunksize = _unpack(_fpayloadsize, readexactly(fh, headersize))[0]
1200 indebug(ui, 'payload chunk size: %i' % chunksize)
1201
1202 while chunksize:
1203 if chunksize >= 0:
1204 yield readexactly(fh, chunksize)
1205 elif chunksize == flaginterrupt:
1206 # Interrupt "signal" detected. The regular stream is interrupted
1207 # and a bundle2 part follows. Consume it.
1208 interrupthandler(ui, fh)()
1209 else:
1210 raise error.BundleValueError(
1211 'negative payload chunk size: %s' % chunksize)
1212
1213 chunksize = _unpack(_fpayloadsize, readexactly(fh, headersize))[0]
1214 indebug(ui, 'payload chunk size: %i' % chunksize)
1215
1190 1216 class unbundlepart(unpackermixin):
1191 1217 """a bundle part read from a bundle"""
1192 1218
1193 1219 def __init__(self, ui, header, fp):
1194 1220 super(unbundlepart, self).__init__(fp)
1195 1221 self._seekable = (util.safehasattr(fp, 'seek') and
1196 1222 util.safehasattr(fp, 'tell'))
1197 1223 self.ui = ui
1198 1224 # unbundle state attr
1199 1225 self._headerdata = header
1200 1226 self._headeroffset = 0
1201 1227 self._initialized = False
1202 1228 self.consumed = False
1203 1229 # part data
1204 1230 self.id = None
1205 1231 self.type = None
1206 1232 self.mandatoryparams = None
1207 1233 self.advisoryparams = None
1208 1234 self.params = None
1209 1235 self.mandatorykeys = ()
1210 1236 self._readheader()
1211 1237 self._mandatory = None
1212 1238 self._pos = 0
1213 1239
1214 1240 def _fromheader(self, size):
1215 1241 """return the next <size> byte from the header"""
1216 1242 offset = self._headeroffset
1217 1243 data = self._headerdata[offset:(offset + size)]
1218 1244 self._headeroffset = offset + size
1219 1245 return data
1220 1246
1221 1247 def _unpackheader(self, format):
1222 1248 """read given format from header
1223 1249
1224 1250 This automatically compute the size of the format to read."""
1225 1251 data = self._fromheader(struct.calcsize(format))
1226 1252 return _unpack(format, data)
1227 1253
1228 1254 def _initparams(self, mandatoryparams, advisoryparams):
1229 1255 """internal function to setup all logic related parameters"""
1230 1256 # make it read only to prevent people touching it by mistake.
1231 1257 self.mandatoryparams = tuple(mandatoryparams)
1232 1258 self.advisoryparams = tuple(advisoryparams)
1233 1259 # user friendly UI
1234 1260 self.params = util.sortdict(self.mandatoryparams)
1235 1261 self.params.update(self.advisoryparams)
1236 1262 self.mandatorykeys = frozenset(p[0] for p in mandatoryparams)
1237 1263
1238 1264 def _readheader(self):
1239 1265 """read the header and setup the object"""
1240 1266 typesize = self._unpackheader(_fparttypesize)[0]
1241 1267 self.type = self._fromheader(typesize)
1242 1268 indebug(self.ui, 'part type: "%s"' % self.type)
1243 1269 self.id = self._unpackheader(_fpartid)[0]
1244 1270 indebug(self.ui, 'part id: "%s"' % pycompat.bytestr(self.id))
1245 1271 # extract mandatory bit from type
1246 1272 self.mandatory = (self.type != self.type.lower())
1247 1273 self.type = self.type.lower()
1248 1274 ## reading parameters
1249 1275 # param count
1250 1276 mancount, advcount = self._unpackheader(_fpartparamcount)
1251 1277 indebug(self.ui, 'part parameters: %i' % (mancount + advcount))
1252 1278 # param size
1253 1279 fparamsizes = _makefpartparamsizes(mancount + advcount)
1254 1280 paramsizes = self._unpackheader(fparamsizes)
1255 1281 # make it a list of couple again
1256 1282 paramsizes = list(zip(paramsizes[::2], paramsizes[1::2]))
1257 1283 # split mandatory from advisory
1258 1284 mansizes = paramsizes[:mancount]
1259 1285 advsizes = paramsizes[mancount:]
1260 1286 # retrieve param value
1261 1287 manparams = []
1262 1288 for key, value in mansizes:
1263 1289 manparams.append((self._fromheader(key), self._fromheader(value)))
1264 1290 advparams = []
1265 1291 for key, value in advsizes:
1266 1292 advparams.append((self._fromheader(key), self._fromheader(value)))
1267 1293 self._initparams(manparams, advparams)
1268 1294 ## part payload
1269 1295 self._payloadstream = util.chunkbuffer(self._payloadchunks())
1270 1296 # we read the data, tell it
1271 1297 self._initialized = True
1272 1298
1299 def _payloadchunks(self):
1300 """Generator of decoded chunks in the payload."""
1301 return decodepayloadchunks(self.ui, self._fp)
1302
1273 1303 def read(self, size=None):
1274 1304 """read payload data"""
1275 1305 if not self._initialized:
1276 1306 self._readheader()
1277 1307 if size is None:
1278 1308 data = self._payloadstream.read()
1279 1309 else:
1280 1310 data = self._payloadstream.read(size)
1281 1311 self._pos += len(data)
1282 1312 if size is None or len(data) < size:
1283 1313 if not self.consumed and self._pos:
1284 1314 self.ui.debug('bundle2-input-part: total payload size %i\n'
1285 1315 % self._pos)
1286 1316 self.consumed = True
1287 1317 return data
1288 1318
1289 1319 class seekableunbundlepart(unbundlepart):
1290 1320 """A bundle2 part in a bundle that is seekable.
1291 1321
1292 1322 Regular ``unbundlepart`` instances can only be read once. This class
1293 1323 extends ``unbundlepart`` to enable bi-directional seeking within the
1294 1324 part.
1295 1325
1296 1326 Bundle2 part data consists of framed chunks. Offsets when seeking
1297 1327 refer to the decoded data, not the offsets in the underlying bundle2
1298 1328 stream.
1299 1329
1300 1330 To facilitate quickly seeking within the decoded data, instances of this
1301 1331 class maintain a mapping between offsets in the underlying stream and
1302 1332 the decoded payload. This mapping will consume memory in proportion
1303 1333 to the number of chunks within the payload (which almost certainly
1304 1334 increases in proportion with the size of the part).
1305 1335 """
1306 1336 def __init__(self, ui, header, fp):
1307 1337 # (payload, file) offsets for chunk starts.
1308 1338 self._chunkindex = []
1309 1339
1310 1340 super(seekableunbundlepart, self).__init__(ui, header, fp)
1311 1341
1312 1342 def _payloadchunks(self, chunknum=0):
1313 1343 '''seek to specified chunk and start yielding data'''
1314 1344 if len(self._chunkindex) == 0:
1315 1345 assert chunknum == 0, 'Must start with chunk 0'
1316 1346 self._chunkindex.append((0, self._tellfp()))
1317 1347 else:
1318 1348 assert chunknum < len(self._chunkindex), \
1319 1349 'Unknown chunk %d' % chunknum
1320 1350 self._seekfp(self._chunkindex[chunknum][1])
1321 1351
1322 1352 pos = self._chunkindex[chunknum][0]
1323 payloadsize = self._unpack(_fpayloadsize)[0]
1324 indebug(self.ui, 'payload chunk size: %i' % payloadsize)
1325 while payloadsize:
1326 if payloadsize == flaginterrupt:
1327 # interruption detection, the handler will now read a
1328 # single part and process it.
1329 interrupthandler(self.ui, self._fp)()
1330 elif payloadsize < 0:
1331 msg = 'negative payload chunk size: %i' % payloadsize
1332 raise error.BundleValueError(msg)
1333 else:
1334 result = self._readexact(payloadsize)
1335 chunknum += 1
1336 pos += payloadsize
1337 if chunknum == len(self._chunkindex):
1338 self._chunkindex.append((pos, self._tellfp()))
1339 yield result
1340 payloadsize = self._unpack(_fpayloadsize)[0]
1341 indebug(self.ui, 'payload chunk size: %i' % payloadsize)
1353
1354 for chunk in decodepayloadchunks(self.ui, self._fp):
1355 chunknum += 1
1356 pos += len(chunk)
1357 if chunknum == len(self._chunkindex):
1358 self._chunkindex.append((pos, self._tellfp()))
1359
1360 yield chunk
1342 1361
1343 1362 def _findchunk(self, pos):
1344 1363 '''for a given payload position, return a chunk number and offset'''
1345 1364 for chunk, (ppos, fpos) in enumerate(self._chunkindex):
1346 1365 if ppos == pos:
1347 1366 return chunk, 0
1348 1367 elif ppos > pos:
1349 1368 return chunk - 1, pos - self._chunkindex[chunk - 1][0]
1350 1369 raise ValueError('Unknown chunk')
1351 1370
1352 1371 def tell(self):
1353 1372 return self._pos
1354 1373
1355 1374 def seek(self, offset, whence=os.SEEK_SET):
1356 1375 if whence == os.SEEK_SET:
1357 1376 newpos = offset
1358 1377 elif whence == os.SEEK_CUR:
1359 1378 newpos = self._pos + offset
1360 1379 elif whence == os.SEEK_END:
1361 1380 if not self.consumed:
1362 1381 self.read()
1363 1382 newpos = self._chunkindex[-1][0] - offset
1364 1383 else:
1365 1384 raise ValueError('Unknown whence value: %r' % (whence,))
1366 1385
1367 1386 if newpos > self._chunkindex[-1][0] and not self.consumed:
1368 1387 self.read()
1369 1388 if not 0 <= newpos <= self._chunkindex[-1][0]:
1370 1389 raise ValueError('Offset out of range')
1371 1390
1372 1391 if self._pos != newpos:
1373 1392 chunk, internaloffset = self._findchunk(newpos)
1374 1393 self._payloadstream = util.chunkbuffer(self._payloadchunks(chunk))
1375 1394 adjust = self.read(internaloffset)
1376 1395 if len(adjust) != internaloffset:
1377 1396 raise error.Abort(_('Seek failed\n'))
1378 1397 self._pos = newpos
1379 1398
1380 1399 def _seekfp(self, offset, whence=0):
1381 1400 """move the underlying file pointer
1382 1401
1383 1402 This method is meant for internal usage by the bundle2 protocol only.
1384 1403 They directly manipulate the low level stream including bundle2 level
1385 1404 instruction.
1386 1405
1387 1406 Do not use it to implement higher-level logic or methods."""
1388 1407 if self._seekable:
1389 1408 return self._fp.seek(offset, whence)
1390 1409 else:
1391 1410 raise NotImplementedError(_('File pointer is not seekable'))
1392 1411
1393 1412 def _tellfp(self):
1394 1413 """return the file offset, or None if file is not seekable
1395 1414
1396 1415 This method is meant for internal usage by the bundle2 protocol only.
1397 1416 They directly manipulate the low level stream including bundle2 level
1398 1417 instruction.
1399 1418
1400 1419 Do not use it to implement higher-level logic or methods."""
1401 1420 if self._seekable:
1402 1421 try:
1403 1422 return self._fp.tell()
1404 1423 except IOError as e:
1405 1424 if e.errno == errno.ESPIPE:
1406 1425 self._seekable = False
1407 1426 else:
1408 1427 raise
1409 1428 return None
1410 1429
1411 1430 # These are only the static capabilities.
1412 1431 # Check the 'getrepocaps' function for the rest.
1413 1432 capabilities = {'HG20': (),
1414 1433 'error': ('abort', 'unsupportedcontent', 'pushraced',
1415 1434 'pushkey'),
1416 1435 'listkeys': (),
1417 1436 'pushkey': (),
1418 1437 'digests': tuple(sorted(util.DIGESTS.keys())),
1419 1438 'remote-changegroup': ('http', 'https'),
1420 1439 'hgtagsfnodes': (),
1421 1440 'phases': ('heads',),
1422 1441 }
1423 1442
1424 1443 def getrepocaps(repo, allowpushback=False):
1425 1444 """return the bundle2 capabilities for a given repo
1426 1445
1427 1446 Exists to allow extensions (like evolution) to mutate the capabilities.
1428 1447 """
1429 1448 caps = capabilities.copy()
1430 1449 caps['changegroup'] = tuple(sorted(
1431 1450 changegroup.supportedincomingversions(repo)))
1432 1451 if obsolete.isenabled(repo, obsolete.exchangeopt):
1433 1452 supportedformat = tuple('V%i' % v for v in obsolete.formats)
1434 1453 caps['obsmarkers'] = supportedformat
1435 1454 if allowpushback:
1436 1455 caps['pushback'] = ()
1437 1456 cpmode = repo.ui.config('server', 'concurrent-push-mode')
1438 1457 if cpmode == 'check-related':
1439 1458 caps['checkheads'] = ('related',)
1440 1459 if 'phases' in repo.ui.configlist('devel', 'legacy.exchange'):
1441 1460 caps.pop('phases')
1442 1461 return caps
1443 1462
1444 1463 def bundle2caps(remote):
1445 1464 """return the bundle capabilities of a peer as dict"""
1446 1465 raw = remote.capable('bundle2')
1447 1466 if not raw and raw != '':
1448 1467 return {}
1449 1468 capsblob = urlreq.unquote(remote.capable('bundle2'))
1450 1469 return decodecaps(capsblob)
1451 1470
1452 1471 def obsmarkersversion(caps):
1453 1472 """extract the list of supported obsmarkers versions from a bundle2caps dict
1454 1473 """
1455 1474 obscaps = caps.get('obsmarkers', ())
1456 1475 return [int(c[1:]) for c in obscaps if c.startswith('V')]
1457 1476
1458 1477 def writenewbundle(ui, repo, source, filename, bundletype, outgoing, opts,
1459 1478 vfs=None, compression=None, compopts=None):
1460 1479 if bundletype.startswith('HG10'):
1461 1480 cg = changegroup.makechangegroup(repo, outgoing, '01', source)
1462 1481 return writebundle(ui, cg, filename, bundletype, vfs=vfs,
1463 1482 compression=compression, compopts=compopts)
1464 1483 elif not bundletype.startswith('HG20'):
1465 1484 raise error.ProgrammingError('unknown bundle type: %s' % bundletype)
1466 1485
1467 1486 caps = {}
1468 1487 if 'obsolescence' in opts:
1469 1488 caps['obsmarkers'] = ('V1',)
1470 1489 bundle = bundle20(ui, caps)
1471 1490 bundle.setcompression(compression, compopts)
1472 1491 _addpartsfromopts(ui, repo, bundle, source, outgoing, opts)
1473 1492 chunkiter = bundle.getchunks()
1474 1493
1475 1494 return changegroup.writechunks(ui, chunkiter, filename, vfs=vfs)
1476 1495
1477 1496 def _addpartsfromopts(ui, repo, bundler, source, outgoing, opts):
1478 1497 # We should eventually reconcile this logic with the one behind
1479 1498 # 'exchange.getbundle2partsgenerator'.
1480 1499 #
1481 1500 # The type of input from 'getbundle' and 'writenewbundle' are a bit
1482 1501 # different right now. So we keep them separated for now for the sake of
1483 1502 # simplicity.
1484 1503
1485 1504 # we always want a changegroup in such bundle
1486 1505 cgversion = opts.get('cg.version')
1487 1506 if cgversion is None:
1488 1507 cgversion = changegroup.safeversion(repo)
1489 1508 cg = changegroup.makechangegroup(repo, outgoing, cgversion, source)
1490 1509 part = bundler.newpart('changegroup', data=cg.getchunks())
1491 1510 part.addparam('version', cg.version)
1492 1511 if 'clcount' in cg.extras:
1493 1512 part.addparam('nbchanges', '%d' % cg.extras['clcount'],
1494 1513 mandatory=False)
1495 1514 if opts.get('phases') and repo.revs('%ln and secret()',
1496 1515 outgoing.missingheads):
1497 1516 part.addparam('targetphase', '%d' % phases.secret, mandatory=False)
1498 1517
1499 1518 addparttagsfnodescache(repo, bundler, outgoing)
1500 1519
1501 1520 if opts.get('obsolescence', False):
1502 1521 obsmarkers = repo.obsstore.relevantmarkers(outgoing.missing)
1503 1522 buildobsmarkerspart(bundler, obsmarkers)
1504 1523
1505 1524 if opts.get('phases', False):
1506 1525 headsbyphase = phases.subsetphaseheads(repo, outgoing.missing)
1507 1526 phasedata = phases.binaryencode(headsbyphase)
1508 1527 bundler.newpart('phase-heads', data=phasedata)
1509 1528
1510 1529 def addparttagsfnodescache(repo, bundler, outgoing):
1511 1530 # we include the tags fnode cache for the bundle changeset
1512 1531 # (as an optional parts)
1513 1532 cache = tags.hgtagsfnodescache(repo.unfiltered())
1514 1533 chunks = []
1515 1534
1516 1535 # .hgtags fnodes are only relevant for head changesets. While we could
1517 1536 # transfer values for all known nodes, there will likely be little to
1518 1537 # no benefit.
1519 1538 #
1520 1539 # We don't bother using a generator to produce output data because
1521 1540 # a) we only have 40 bytes per head and even esoteric numbers of heads
1522 1541 # consume little memory (1M heads is 40MB) b) we don't want to send the
1523 1542 # part if we don't have entries and knowing if we have entries requires
1524 1543 # cache lookups.
1525 1544 for node in outgoing.missingheads:
1526 1545 # Don't compute missing, as this may slow down serving.
1527 1546 fnode = cache.getfnode(node, computemissing=False)
1528 1547 if fnode is not None:
1529 1548 chunks.extend([node, fnode])
1530 1549
1531 1550 if chunks:
1532 1551 bundler.newpart('hgtagsfnodes', data=''.join(chunks))
1533 1552
1534 1553 def buildobsmarkerspart(bundler, markers):
1535 1554 """add an obsmarker part to the bundler with <markers>
1536 1555
1537 1556 No part is created if markers is empty.
1538 1557 Raises ValueError if the bundler doesn't support any known obsmarker format.
1539 1558 """
1540 1559 if not markers:
1541 1560 return None
1542 1561
1543 1562 remoteversions = obsmarkersversion(bundler.capabilities)
1544 1563 version = obsolete.commonversion(remoteversions)
1545 1564 if version is None:
1546 1565 raise ValueError('bundler does not support common obsmarker format')
1547 1566 stream = obsolete.encodemarkers(markers, True, version=version)
1548 1567 return bundler.newpart('obsmarkers', data=stream)
1549 1568
1550 1569 def writebundle(ui, cg, filename, bundletype, vfs=None, compression=None,
1551 1570 compopts=None):
1552 1571 """Write a bundle file and return its filename.
1553 1572
1554 1573 Existing files will not be overwritten.
1555 1574 If no filename is specified, a temporary file is created.
1556 1575 bz2 compression can be turned off.
1557 1576 The bundle file will be deleted in case of errors.
1558 1577 """
1559 1578
1560 1579 if bundletype == "HG20":
1561 1580 bundle = bundle20(ui)
1562 1581 bundle.setcompression(compression, compopts)
1563 1582 part = bundle.newpart('changegroup', data=cg.getchunks())
1564 1583 part.addparam('version', cg.version)
1565 1584 if 'clcount' in cg.extras:
1566 1585 part.addparam('nbchanges', '%d' % cg.extras['clcount'],
1567 1586 mandatory=False)
1568 1587 chunkiter = bundle.getchunks()
1569 1588 else:
1570 1589 # compression argument is only for the bundle2 case
1571 1590 assert compression is None
1572 1591 if cg.version != '01':
1573 1592 raise error.Abort(_('old bundle types only supports v1 '
1574 1593 'changegroups'))
1575 1594 header, comp = bundletypes[bundletype]
1576 1595 if comp not in util.compengines.supportedbundletypes:
1577 1596 raise error.Abort(_('unknown stream compression type: %s')
1578 1597 % comp)
1579 1598 compengine = util.compengines.forbundletype(comp)
1580 1599 def chunkiter():
1581 1600 yield header
1582 1601 for chunk in compengine.compressstream(cg.getchunks(), compopts):
1583 1602 yield chunk
1584 1603 chunkiter = chunkiter()
1585 1604
1586 1605 # parse the changegroup data, otherwise we will block
1587 1606 # in case of sshrepo because we don't know the end of the stream
1588 1607 return changegroup.writechunks(ui, chunkiter, filename, vfs=vfs)
1589 1608
1590 1609 def combinechangegroupresults(op):
1591 1610 """logic to combine 0 or more addchangegroup results into one"""
1592 1611 results = [r.get('return', 0)
1593 1612 for r in op.records['changegroup']]
1594 1613 changedheads = 0
1595 1614 result = 1
1596 1615 for ret in results:
1597 1616 # If any changegroup result is 0, return 0
1598 1617 if ret == 0:
1599 1618 result = 0
1600 1619 break
1601 1620 if ret < -1:
1602 1621 changedheads += ret + 1
1603 1622 elif ret > 1:
1604 1623 changedheads += ret - 1
1605 1624 if changedheads > 0:
1606 1625 result = 1 + changedheads
1607 1626 elif changedheads < 0:
1608 1627 result = -1 + changedheads
1609 1628 return result
1610 1629
1611 1630 @parthandler('changegroup', ('version', 'nbchanges', 'treemanifest',
1612 1631 'targetphase'))
1613 1632 def handlechangegroup(op, inpart):
1614 1633 """apply a changegroup part on the repo
1615 1634
1616 1635 This is a very early implementation that will massive rework before being
1617 1636 inflicted to any end-user.
1618 1637 """
1619 1638 tr = op.gettransaction()
1620 1639 unpackerversion = inpart.params.get('version', '01')
1621 1640 # We should raise an appropriate exception here
1622 1641 cg = changegroup.getunbundler(unpackerversion, inpart, None)
1623 1642 # the source and url passed here are overwritten by the one contained in
1624 1643 # the transaction.hookargs argument. So 'bundle2' is a placeholder
1625 1644 nbchangesets = None
1626 1645 if 'nbchanges' in inpart.params:
1627 1646 nbchangesets = int(inpart.params.get('nbchanges'))
1628 1647 if ('treemanifest' in inpart.params and
1629 1648 'treemanifest' not in op.repo.requirements):
1630 1649 if len(op.repo.changelog) != 0:
1631 1650 raise error.Abort(_(
1632 1651 "bundle contains tree manifests, but local repo is "
1633 1652 "non-empty and does not use tree manifests"))
1634 1653 op.repo.requirements.add('treemanifest')
1635 1654 op.repo._applyopenerreqs()
1636 1655 op.repo._writerequirements()
1637 1656 extrakwargs = {}
1638 1657 targetphase = inpart.params.get('targetphase')
1639 1658 if targetphase is not None:
1640 1659 extrakwargs['targetphase'] = int(targetphase)
1641 1660 ret = _processchangegroup(op, cg, tr, 'bundle2', 'bundle2',
1642 1661 expectedtotal=nbchangesets, **extrakwargs)
1643 1662 if op.reply is not None:
1644 1663 # This is definitely not the final form of this
1645 1664 # return. But one need to start somewhere.
1646 1665 part = op.reply.newpart('reply:changegroup', mandatory=False)
1647 1666 part.addparam(
1648 1667 'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
1649 1668 part.addparam('return', '%i' % ret, mandatory=False)
1650 1669 assert not inpart.read()
1651 1670
1652 1671 _remotechangegroupparams = tuple(['url', 'size', 'digests'] +
1653 1672 ['digest:%s' % k for k in util.DIGESTS.keys()])
1654 1673 @parthandler('remote-changegroup', _remotechangegroupparams)
1655 1674 def handleremotechangegroup(op, inpart):
1656 1675 """apply a bundle10 on the repo, given an url and validation information
1657 1676
1658 1677 All the information about the remote bundle to import are given as
1659 1678 parameters. The parameters include:
1660 1679 - url: the url to the bundle10.
1661 1680 - size: the bundle10 file size. It is used to validate what was
1662 1681 retrieved by the client matches the server knowledge about the bundle.
1663 1682 - digests: a space separated list of the digest types provided as
1664 1683 parameters.
1665 1684 - digest:<digest-type>: the hexadecimal representation of the digest with
1666 1685 that name. Like the size, it is used to validate what was retrieved by
1667 1686 the client matches what the server knows about the bundle.
1668 1687
1669 1688 When multiple digest types are given, all of them are checked.
1670 1689 """
1671 1690 try:
1672 1691 raw_url = inpart.params['url']
1673 1692 except KeyError:
1674 1693 raise error.Abort(_('remote-changegroup: missing "%s" param') % 'url')
1675 1694 parsed_url = util.url(raw_url)
1676 1695 if parsed_url.scheme not in capabilities['remote-changegroup']:
1677 1696 raise error.Abort(_('remote-changegroup does not support %s urls') %
1678 1697 parsed_url.scheme)
1679 1698
1680 1699 try:
1681 1700 size = int(inpart.params['size'])
1682 1701 except ValueError:
1683 1702 raise error.Abort(_('remote-changegroup: invalid value for param "%s"')
1684 1703 % 'size')
1685 1704 except KeyError:
1686 1705 raise error.Abort(_('remote-changegroup: missing "%s" param') % 'size')
1687 1706
1688 1707 digests = {}
1689 1708 for typ in inpart.params.get('digests', '').split():
1690 1709 param = 'digest:%s' % typ
1691 1710 try:
1692 1711 value = inpart.params[param]
1693 1712 except KeyError:
1694 1713 raise error.Abort(_('remote-changegroup: missing "%s" param') %
1695 1714 param)
1696 1715 digests[typ] = value
1697 1716
1698 1717 real_part = util.digestchecker(url.open(op.ui, raw_url), size, digests)
1699 1718
1700 1719 tr = op.gettransaction()
1701 1720 from . import exchange
1702 1721 cg = exchange.readbundle(op.repo.ui, real_part, raw_url)
1703 1722 if not isinstance(cg, changegroup.cg1unpacker):
1704 1723 raise error.Abort(_('%s: not a bundle version 1.0') %
1705 1724 util.hidepassword(raw_url))
1706 1725 ret = _processchangegroup(op, cg, tr, 'bundle2', 'bundle2')
1707 1726 if op.reply is not None:
1708 1727 # This is definitely not the final form of this
1709 1728 # return. But one need to start somewhere.
1710 1729 part = op.reply.newpart('reply:changegroup')
1711 1730 part.addparam(
1712 1731 'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
1713 1732 part.addparam('return', '%i' % ret, mandatory=False)
1714 1733 try:
1715 1734 real_part.validate()
1716 1735 except error.Abort as e:
1717 1736 raise error.Abort(_('bundle at %s is corrupted:\n%s') %
1718 1737 (util.hidepassword(raw_url), str(e)))
1719 1738 assert not inpart.read()
1720 1739
1721 1740 @parthandler('reply:changegroup', ('return', 'in-reply-to'))
1722 1741 def handlereplychangegroup(op, inpart):
1723 1742 ret = int(inpart.params['return'])
1724 1743 replyto = int(inpart.params['in-reply-to'])
1725 1744 op.records.add('changegroup', {'return': ret}, replyto)
1726 1745
1727 1746 @parthandler('check:heads')
1728 1747 def handlecheckheads(op, inpart):
1729 1748 """check that head of the repo did not change
1730 1749
1731 1750 This is used to detect a push race when using unbundle.
1732 1751 This replaces the "heads" argument of unbundle."""
1733 1752 h = inpart.read(20)
1734 1753 heads = []
1735 1754 while len(h) == 20:
1736 1755 heads.append(h)
1737 1756 h = inpart.read(20)
1738 1757 assert not h
1739 1758 # Trigger a transaction so that we are guaranteed to have the lock now.
1740 1759 if op.ui.configbool('experimental', 'bundle2lazylocking'):
1741 1760 op.gettransaction()
1742 1761 if sorted(heads) != sorted(op.repo.heads()):
1743 1762 raise error.PushRaced('repository changed while pushing - '
1744 1763 'please try again')
1745 1764
1746 1765 @parthandler('check:updated-heads')
1747 1766 def handlecheckupdatedheads(op, inpart):
1748 1767 """check for race on the heads touched by a push
1749 1768
1750 1769 This is similar to 'check:heads' but focus on the heads actually updated
1751 1770 during the push. If other activities happen on unrelated heads, it is
1752 1771 ignored.
1753 1772
1754 1773 This allow server with high traffic to avoid push contention as long as
1755 1774 unrelated parts of the graph are involved."""
1756 1775 h = inpart.read(20)
1757 1776 heads = []
1758 1777 while len(h) == 20:
1759 1778 heads.append(h)
1760 1779 h = inpart.read(20)
1761 1780 assert not h
1762 1781 # trigger a transaction so that we are guaranteed to have the lock now.
1763 1782 if op.ui.configbool('experimental', 'bundle2lazylocking'):
1764 1783 op.gettransaction()
1765 1784
1766 1785 currentheads = set()
1767 1786 for ls in op.repo.branchmap().itervalues():
1768 1787 currentheads.update(ls)
1769 1788
1770 1789 for h in heads:
1771 1790 if h not in currentheads:
1772 1791 raise error.PushRaced('repository changed while pushing - '
1773 1792 'please try again')
1774 1793
1775 1794 @parthandler('check:phases')
1776 1795 def handlecheckphases(op, inpart):
1777 1796 """check that phase boundaries of the repository did not change
1778 1797
1779 1798 This is used to detect a push race.
1780 1799 """
1781 1800 phasetonodes = phases.binarydecode(inpart)
1782 1801 unfi = op.repo.unfiltered()
1783 1802 cl = unfi.changelog
1784 1803 phasecache = unfi._phasecache
1785 1804 msg = ('repository changed while pushing - please try again '
1786 1805 '(%s is %s expected %s)')
1787 1806 for expectedphase, nodes in enumerate(phasetonodes):
1788 1807 for n in nodes:
1789 1808 actualphase = phasecache.phase(unfi, cl.rev(n))
1790 1809 if actualphase != expectedphase:
1791 1810 finalmsg = msg % (nodemod.short(n),
1792 1811 phases.phasenames[actualphase],
1793 1812 phases.phasenames[expectedphase])
1794 1813 raise error.PushRaced(finalmsg)
1795 1814
1796 1815 @parthandler('output')
1797 1816 def handleoutput(op, inpart):
1798 1817 """forward output captured on the server to the client"""
1799 1818 for line in inpart.read().splitlines():
1800 1819 op.ui.status(_('remote: %s\n') % line)
1801 1820
1802 1821 @parthandler('replycaps')
1803 1822 def handlereplycaps(op, inpart):
1804 1823 """Notify that a reply bundle should be created
1805 1824
1806 1825 The payload contains the capabilities information for the reply"""
1807 1826 caps = decodecaps(inpart.read())
1808 1827 if op.reply is None:
1809 1828 op.reply = bundle20(op.ui, caps)
1810 1829
1811 1830 class AbortFromPart(error.Abort):
1812 1831 """Sub-class of Abort that denotes an error from a bundle2 part."""
1813 1832
1814 1833 @parthandler('error:abort', ('message', 'hint'))
1815 1834 def handleerrorabort(op, inpart):
1816 1835 """Used to transmit abort error over the wire"""
1817 1836 raise AbortFromPart(inpart.params['message'],
1818 1837 hint=inpart.params.get('hint'))
1819 1838
1820 1839 @parthandler('error:pushkey', ('namespace', 'key', 'new', 'old', 'ret',
1821 1840 'in-reply-to'))
1822 1841 def handleerrorpushkey(op, inpart):
1823 1842 """Used to transmit failure of a mandatory pushkey over the wire"""
1824 1843 kwargs = {}
1825 1844 for name in ('namespace', 'key', 'new', 'old', 'ret'):
1826 1845 value = inpart.params.get(name)
1827 1846 if value is not None:
1828 1847 kwargs[name] = value
1829 1848 raise error.PushkeyFailed(inpart.params['in-reply-to'], **kwargs)
1830 1849
1831 1850 @parthandler('error:unsupportedcontent', ('parttype', 'params'))
1832 1851 def handleerrorunsupportedcontent(op, inpart):
1833 1852 """Used to transmit unknown content error over the wire"""
1834 1853 kwargs = {}
1835 1854 parttype = inpart.params.get('parttype')
1836 1855 if parttype is not None:
1837 1856 kwargs['parttype'] = parttype
1838 1857 params = inpart.params.get('params')
1839 1858 if params is not None:
1840 1859 kwargs['params'] = params.split('\0')
1841 1860
1842 1861 raise error.BundleUnknownFeatureError(**kwargs)
1843 1862
1844 1863 @parthandler('error:pushraced', ('message',))
1845 1864 def handleerrorpushraced(op, inpart):
1846 1865 """Used to transmit push race error over the wire"""
1847 1866 raise error.ResponseError(_('push failed:'), inpart.params['message'])
1848 1867
1849 1868 @parthandler('listkeys', ('namespace',))
1850 1869 def handlelistkeys(op, inpart):
1851 1870 """retrieve pushkey namespace content stored in a bundle2"""
1852 1871 namespace = inpart.params['namespace']
1853 1872 r = pushkey.decodekeys(inpart.read())
1854 1873 op.records.add('listkeys', (namespace, r))
1855 1874
1856 1875 @parthandler('pushkey', ('namespace', 'key', 'old', 'new'))
1857 1876 def handlepushkey(op, inpart):
1858 1877 """process a pushkey request"""
1859 1878 dec = pushkey.decode
1860 1879 namespace = dec(inpart.params['namespace'])
1861 1880 key = dec(inpart.params['key'])
1862 1881 old = dec(inpart.params['old'])
1863 1882 new = dec(inpart.params['new'])
1864 1883 # Grab the transaction to ensure that we have the lock before performing the
1865 1884 # pushkey.
1866 1885 if op.ui.configbool('experimental', 'bundle2lazylocking'):
1867 1886 op.gettransaction()
1868 1887 ret = op.repo.pushkey(namespace, key, old, new)
1869 1888 record = {'namespace': namespace,
1870 1889 'key': key,
1871 1890 'old': old,
1872 1891 'new': new}
1873 1892 op.records.add('pushkey', record)
1874 1893 if op.reply is not None:
1875 1894 rpart = op.reply.newpart('reply:pushkey')
1876 1895 rpart.addparam(
1877 1896 'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
1878 1897 rpart.addparam('return', '%i' % ret, mandatory=False)
1879 1898 if inpart.mandatory and not ret:
1880 1899 kwargs = {}
1881 1900 for key in ('namespace', 'key', 'new', 'old', 'ret'):
1882 1901 if key in inpart.params:
1883 1902 kwargs[key] = inpart.params[key]
1884 1903 raise error.PushkeyFailed(partid=str(inpart.id), **kwargs)
1885 1904
1886 1905 @parthandler('phase-heads')
1887 1906 def handlephases(op, inpart):
1888 1907 """apply phases from bundle part to repo"""
1889 1908 headsbyphase = phases.binarydecode(inpart)
1890 1909 phases.updatephases(op.repo.unfiltered(), op.gettransaction, headsbyphase)
1891 1910
1892 1911 @parthandler('reply:pushkey', ('return', 'in-reply-to'))
1893 1912 def handlepushkeyreply(op, inpart):
1894 1913 """retrieve the result of a pushkey request"""
1895 1914 ret = int(inpart.params['return'])
1896 1915 partid = int(inpart.params['in-reply-to'])
1897 1916 op.records.add('pushkey', {'return': ret}, partid)
1898 1917
1899 1918 @parthandler('obsmarkers')
1900 1919 def handleobsmarker(op, inpart):
1901 1920 """add a stream of obsmarkers to the repo"""
1902 1921 tr = op.gettransaction()
1903 1922 markerdata = inpart.read()
1904 1923 if op.ui.config('experimental', 'obsmarkers-exchange-debug'):
1905 1924 op.ui.write(('obsmarker-exchange: %i bytes received\n')
1906 1925 % len(markerdata))
1907 1926 # The mergemarkers call will crash if marker creation is not enabled.
1908 1927 # we want to avoid this if the part is advisory.
1909 1928 if not inpart.mandatory and op.repo.obsstore.readonly:
1910 1929 op.repo.ui.debug('ignoring obsolescence markers, feature not enabled')
1911 1930 return
1912 1931 new = op.repo.obsstore.mergemarkers(tr, markerdata)
1913 1932 op.repo.invalidatevolatilesets()
1914 1933 if new:
1915 1934 op.repo.ui.status(_('%i new obsolescence markers\n') % new)
1916 1935 op.records.add('obsmarkers', {'new': new})
1917 1936 if op.reply is not None:
1918 1937 rpart = op.reply.newpart('reply:obsmarkers')
1919 1938 rpart.addparam(
1920 1939 'in-reply-to', pycompat.bytestr(inpart.id), mandatory=False)
1921 1940 rpart.addparam('new', '%i' % new, mandatory=False)
1922 1941
1923 1942
1924 1943 @parthandler('reply:obsmarkers', ('new', 'in-reply-to'))
1925 1944 def handleobsmarkerreply(op, inpart):
1926 1945 """retrieve the result of a pushkey request"""
1927 1946 ret = int(inpart.params['new'])
1928 1947 partid = int(inpart.params['in-reply-to'])
1929 1948 op.records.add('obsmarkers', {'new': ret}, partid)
1930 1949
1931 1950 @parthandler('hgtagsfnodes')
1932 1951 def handlehgtagsfnodes(op, inpart):
1933 1952 """Applies .hgtags fnodes cache entries to the local repo.
1934 1953
1935 1954 Payload is pairs of 20 byte changeset nodes and filenodes.
1936 1955 """
1937 1956 # Grab the transaction so we ensure that we have the lock at this point.
1938 1957 if op.ui.configbool('experimental', 'bundle2lazylocking'):
1939 1958 op.gettransaction()
1940 1959 cache = tags.hgtagsfnodescache(op.repo.unfiltered())
1941 1960
1942 1961 count = 0
1943 1962 while True:
1944 1963 node = inpart.read(20)
1945 1964 fnode = inpart.read(20)
1946 1965 if len(node) < 20 or len(fnode) < 20:
1947 1966 op.ui.debug('ignoring incomplete received .hgtags fnodes data\n')
1948 1967 break
1949 1968 cache.setfnode(node, fnode)
1950 1969 count += 1
1951 1970
1952 1971 cache.write()
1953 1972 op.ui.debug('applied %i hgtags fnodes cache entries\n' % count)
1954 1973
1955 1974 @parthandler('pushvars')
1956 1975 def bundle2getvars(op, part):
1957 1976 '''unbundle a bundle2 containing shellvars on the server'''
1958 1977 # An option to disable unbundling on server-side for security reasons
1959 1978 if op.ui.configbool('push', 'pushvars.server'):
1960 1979 hookargs = {}
1961 1980 for key, value in part.advisoryparams:
1962 1981 key = key.upper()
1963 1982 # We want pushed variables to have USERVAR_ prepended so we know
1964 1983 # they came from the --pushvar flag.
1965 1984 key = "USERVAR_" + key
1966 1985 hookargs[key] = value
1967 1986 op.addhookargs(hookargs)
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