1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
|
# Copyright 2002 Ben Escoto
#
# This file is part of rdiff-backup.
#
# rdiff-backup is free software; you can redistribute it and/or modify
# under the terms of the GNU General Public License as published by the
# Free Software Foundation; either version 2 of the License, or (at your
# option) any later version.
#
# rdiff-backup is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with rdiff-backup; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
# USA
"""Store and retrieve metadata in destination directory
The plan is to store metadata information for all files in the
destination directory in a special metadata file. There are two
reasons for this:
1) The filesystem of the mirror directory may not be able to handle
types of metadata that the source filesystem can. For instance,
rdiff-backup may not have root access on the destination side, so
cannot set uid/gid. Or the source side may have ACLs and the
destination side doesn't.
Hopefully every file system can store binary data. Storing
metadata separately allows us to back up anything (ok, maybe
strange filenames are still a problem).
2) Metadata can be more quickly read from a file than it can by
traversing the mirror directory over and over again. In many
cases most of rdiff-backup's time is spent compaing metadata (like
file size and modtime), trying to find differences. Reading this
data sequentially from a file is significantly less taxing than
listing directories and statting files all over the mirror
directory.
The metadata is stored in a text file, which is a bunch of records
concatenated together. Each record has the format:
File <filename>
<field_name1> <value>
<field_name2> <value>
...
Where the lines are separated by newlines. See the code below for the
field names and values.
"""
from __future__ import generators
import re, gzip, os, binascii
import log, Globals, rpath, Time, robust, increment, static, rorpiter
class ParsingError(Exception):
"""This is raised when bad or unparsable data is received"""
pass
def carbonfile2string(cfile):
"""Convert CarbonFile data to a string suitable for storing."""
if not cfile: return "None"
retvalparts = []
retvalparts.append('creator:%s' % binascii.hexlify(cfile['creator']))
retvalparts.append('type:%s' % binascii.hexlify(cfile['type']))
retvalparts.append('location:%d,%d' % cfile['location'])
retvalparts.append('flags:%d' % cfile['flags'])
try: retvalparts.append('createDate:%d' % cfile['createDate'])
except KeyError: log.Log("Writing pre-1.1.6 style metadata, without creation date", 9)
return '|'.join(retvalparts)
def string2carbonfile(data):
"""Re-constitute CarbonFile data from a string stored by
carbonfile2string."""
retval = {}
for component in data.split('|'):
key, value = component.split(':')
if key == 'creator':
retval['creator'] = binascii.unhexlify(value)
elif key == 'type':
retval['type'] = binascii.unhexlify(value)
elif key == 'location':
a, b = value.split(',')
retval['location'] = (int(a), int(b))
elif key == 'flags':
retval['flags'] = int(value)
elif key == 'createDate':
retval['createDate'] = int(value)
return retval
def RORP2Record(rorpath):
"""From RORPath, return text record of file's metadata"""
str_list = ["File %s\n" % quote_path(rorpath.get_indexpath())]
# Store file type, e.g. "dev", "reg", or "sym", and type-specific data
type = rorpath.gettype()
if type is None: type = "None"
str_list.append(" Type %s\n" % type)
if type == "reg":
str_list.append(" Size %s\n" % rorpath.getsize())
# If there is a resource fork, save it.
if rorpath.has_resource_fork():
if not rorpath.get_resource_fork(): rf = "None"
else: rf = binascii.hexlify(rorpath.get_resource_fork())
str_list.append(" ResourceFork %s\n" % (rf,))
# If there is Carbon data, save it.
if rorpath.has_carbonfile():
cfile = carbonfile2string(rorpath.get_carbonfile())
str_list.append(" CarbonFile %s\n" % (cfile,))
# If file is hardlinked, add that information
if Globals.preserve_hardlinks != 0:
numlinks = rorpath.getnumlinks()
if numlinks > 1:
str_list.append(" NumHardLinks %s\n" % numlinks)
str_list.append(" Inode %s\n" % rorpath.getinode())
str_list.append(" DeviceLoc %s\n" % rorpath.getdevloc())
# Save any hashes, if available
if rorpath.has_sha1():
str_list.append(' SHA1Digest %s\n' % rorpath.get_sha1())
elif type == "None": return "".join(str_list)
elif type == "dir" or type == "sock" or type == "fifo": pass
elif type == "sym":
str_list.append(" SymData %s\n" % quote_path(rorpath.readlink()))
elif type == "dev":
major, minor = rorpath.getdevnums()
if rorpath.isblkdev(): devchar = "b"
else:
assert rorpath.ischardev()
devchar = "c"
str_list.append(" DeviceNum %s %s %s\n" % (devchar, major, minor))
# Store time information
if type != 'sym' and type != 'dev':
str_list.append(" ModTime %s\n" % rorpath.getmtime())
# Add user, group, and permission information
uid, gid = rorpath.getuidgid()
str_list.append(" Uid %s\n" % uid)
str_list.append(" Uname %s\n" % (rorpath.getuname() or ":"))
str_list.append(" Gid %s\n" % gid)
str_list.append(" Gname %s\n" % (rorpath.getgname() or ":"))
str_list.append(" Permissions %s\n" % rorpath.getperms())
# Add long filename information
if rorpath.has_alt_mirror_name():
str_list.append(" AlternateMirrorName %s\n" %
(rorpath.get_alt_mirror_name(),))
elif rorpath.has_alt_inc_name():
str_list.append(" AlternateIncrementName %s\n" %
(rorpath.get_alt_inc_name(),))
return "".join(str_list)
line_parsing_regexp = re.compile("^ *([A-Za-z0-9]+) (.+)$", re.M)
def Record2RORP(record_string):
"""Given record_string, return RORPath
For speed reasons, write the RORPath data dictionary directly
instead of calling rorpath functions. Profiling has shown this to
be a time critical function.
"""
data_dict = {}
for field, data in line_parsing_regexp.findall(record_string):
if field == "File": index = quoted_filename_to_index(data)
elif field == "Type":
if data == "None": data_dict['type'] = None
else: data_dict['type'] = data
elif field == "Size": data_dict['size'] = long(data)
elif field == "ResourceFork":
if data == "None": data_dict['resourcefork'] = ""
else: data_dict['resourcefork'] = binascii.unhexlify(data)
elif field == "CarbonFile":
if data == "None": data_dict['carbonfile'] = None
else: data_dict['carbonfile'] = string2carbonfile(data)
elif field == "SHA1Digest": data_dict['sha1'] = data
elif field == "NumHardLinks": data_dict['nlink'] = int(data)
elif field == "Inode": data_dict['inode'] = long(data)
elif field == "DeviceLoc": data_dict['devloc'] = long(data)
elif field == "SymData": data_dict['linkname'] = unquote_path(data)
elif field == "DeviceNum":
devchar, major_str, minor_str = data.split(" ")
data_dict['devnums'] = (devchar, int(major_str), int(minor_str))
elif field == "ModTime": data_dict['mtime'] = long(data)
elif field == "Uid": data_dict['uid'] = int(data)
elif field == "Gid": data_dict['gid'] = int(data)
elif field == "Uname":
if data == ":" or data == 'None': data_dict['uname'] = None
else: data_dict['uname'] = data
elif field == "Gname":
if data == ':' or data == 'None': data_dict['gname'] = None
else: data_dict['gname'] = data
elif field == "Permissions": data_dict['perms'] = int(data)
elif field == "AlternateMirrorName": data_dict['mirrorname'] = data
elif field == "AlternateIncrementName": data_dict['incname'] = data
else: log.Log("Unknown field in line '%s %s'" % (field, data), 2)
return rpath.RORPath(index, data_dict)
chars_to_quote = re.compile("\\n|\\\\")
def quote_path(path_string):
"""Return quoted verson of path_string
Because newlines are used to separate fields in a record, they are
replaced with \n. Backslashes become \\ and everything else is
left the way it is.
"""
def replacement_func(match_obj):
"""This is called on the match obj of any char that needs quoting"""
char = match_obj.group(0)
if char == "\n": return "\\n"
elif char == "\\": return "\\\\"
assert 0, "Bad char %s needs quoting" % char
return chars_to_quote.sub(replacement_func, path_string)
def unquote_path(quoted_string):
"""Reverse what was done by quote_path"""
def replacement_func(match_obj):
"""Unquote match obj of two character sequence"""
two_chars = match_obj.group(0)
if two_chars == "\\n": return "\n"
elif two_chars == "\\\\": return "\\"
log.Log("Warning, unknown quoted sequence %s found" % two_chars, 2)
return two_chars
return re.sub("\\\\n|\\\\\\\\", replacement_func, quoted_string)
def quoted_filename_to_index(quoted_filename):
"""Return tuple index given quoted filename"""
if quoted_filename == '.': return ()
else: return tuple(unquote_path(quoted_filename).split('/'))
class FlatExtractor:
"""Controls iterating objects from flat file"""
# Set this in subclass. record_boundary_regexp should match
# beginning of next record. The first group should start at the
# beginning of the record. The second group should contain the
# (possibly quoted) filename.
record_boundary_regexp = None
# Set in subclass to function that converts text record to object
record_to_object = None
def __init__(self, fileobj):
self.fileobj = fileobj # holds file object we are reading from
self.buf = "" # holds the next part of the file
self.at_end = 0 # True if we are at the end of the file
self.blocksize = 32 * 1024
def get_next_pos(self):
"""Return position of next record in buffer, or end pos if none"""
while 1:
m = self.record_boundary_regexp.search(self.buf, 1)
if m: return m.start(1)
else: # add next block to the buffer, loop again
newbuf = self.fileobj.read(self.blocksize)
if not newbuf:
self.at_end = 1
return len(self.buf)
else: self.buf += newbuf
def iterate(self):
"""Return iterator that yields all objects with records"""
for record in self.iterate_records():
try: yield self.record_to_object(record)
except (ParsingError, ValueError), e:
if self.at_end: break # Ignore whitespace/bad records at end
log.Log("Error parsing flat file: %s" % (e,), 2)
def iterate_records(self):
"""Yield all text records in order"""
while 1:
next_pos = self.get_next_pos()
if self.at_end:
if next_pos: yield self.buf[:next_pos]
break
yield self.buf[:next_pos]
self.buf = self.buf[next_pos:]
assert not self.fileobj.close()
def skip_to_index(self, index):
"""Scan through the file, set buffer to beginning of index record
Here we make sure that the buffer always ends in a newline, so
we will not be splitting lines in half.
"""
assert not self.buf or self.buf.endswith("\n")
while 1:
self.buf = self.fileobj.read(self.blocksize)
self.buf += self.fileobj.readline()
if not self.buf:
self.at_end = 1
return
while 1:
m = self.record_boundary_regexp.search(self.buf)
if not m: break
cur_index = self.filename_to_index(m.group(2))
if cur_index >= index:
self.buf = self.buf[m.start(1):]
return
else: self.buf = self.buf[m.end(1):]
def iterate_starting_with(self, index):
"""Iterate objects whose index starts with given index"""
self.skip_to_index(index)
if self.at_end: return
while 1:
next_pos = self.get_next_pos()
try: obj = self.record_to_object(self.buf[:next_pos])
except (ParsingError, ValueError), e:
log.Log("Error parsing metadata file: %s" % (e,), 2)
else:
if obj.index[:len(index)] != index: break
yield obj
if self.at_end: break
self.buf = self.buf[next_pos:]
assert not self.fileobj.close()
def filename_to_index(self, filename):
"""Translate filename, possibly quoted, into an index tuple
The filename is the first group matched by
regexp_boundary_regexp.
"""
assert 0 # subclass
class RorpExtractor(FlatExtractor):
"""Iterate rorps from metadata file"""
record_boundary_regexp = re.compile("(?:\\n|^)(File (.*?))\\n")
record_to_object = staticmethod(Record2RORP)
filename_to_index = staticmethod(quoted_filename_to_index)
class FlatFile:
"""Manage a flat (probably text) file containing info on various files
This is used for metadata information, and possibly EAs and ACLs.
The main read interface is as an iterator. The storage format is
a flat, probably compressed file, so random access is not
recommended.
"""
rp, fileobj, mode = None, None, None
_buffering_on = 1 # Buffering may be useful because gzip writes are slow
_record_buffer, _max_buffer_size = None, 100
_extractor = FlatExtractor # Override to class that iterates objects
_object_to_record = None # Set to function converting object to record
_prefix = None # Set to required prefix
def __init__(self, rp_base, mode, check_path = 1, compress = 1,
callback = None):
"""Open rp (or rp+'.gz') for reading ('r') or writing ('w')
If callback is available, it will be called on the rp upon
closing (because the rp may not be known in advance).
"""
self.mode = mode
self.callback = callback
self._record_buffer = []
if check_path:
assert (rp_base.isincfile() and
rp_base.getincbase_str() == self._prefix), rp_base
compress = 1
if mode == 'r':
self.rp = rp_base
self.fileobj = self.rp.open("rb", compress)
else:
assert mode == 'w'
if not check_path: rp_base.isincfile()
if compress and not rp_base.isinccompressed():
def callback(rp): self.rp = rp
self.fileobj = rpath.MaybeGzip(rp_base, callback)
else:
self.rp = rp_base
assert not self.rp.lstat(), self.rp
self.fileobj = self.rp.open("wb", compress = compress)
def write_record(self, record):
"""Write a (text) record into the file"""
if self._buffering_on:
self._record_buffer.append(record)
if len(self._record_buffer) >= self._max_buffer_size:
self.fileobj.write("".join(self._record_buffer))
self._record_buffer = []
else: self.fileobj.write(record)
def write_object(self, object):
"""Convert one object to record and write to file"""
self.write_record(self._object_to_record(object))
def get_objects(self, restrict_index = None):
"""Return iterator of objects records from file rp"""
if not restrict_index: return self._extractor(self.fileobj).iterate()
extractor = self._extractor(self.fileobj)
return extractor.iterate_starting_with(restrict_index)
def get_records(self):
"""Return iterator of text records"""
return self._extractor(self.fileobj).iterate_records()
def close(self):
"""Close file, for when any writing is done"""
assert self.fileobj, "File already closed"
if self._buffering_on and self._record_buffer:
self.fileobj.write("".join(self._record_buffer))
self._record_buffer = []
result = self.fileobj.close()
self.fileobj = None
self.rp.fsync_with_dir()
self.rp.setdata()
if self.callback: self.callback(self.rp)
return result
class MetadataFile(FlatFile):
"""Store/retrieve metadata from mirror_metadata as rorps"""
_prefix = "mirror_metadata"
_extractor = RorpExtractor
_object_to_record = staticmethod(RORP2Record)
class CombinedWriter:
"""Used for simultaneously writting metadata, eas, and acls"""
def __init__(self, metawriter, eawriter, aclwriter):
self.metawriter = metawriter
self.eawriter, self.aclwriter = eawriter, aclwriter # these can be None
def write_object(self, rorp):
"""Write information in rorp to all the writers"""
self.metawriter.write_object(rorp)
if self.eawriter and not rorp.get_ea().empty():
self.eawriter.write_object(rorp.get_ea())
if self.aclwriter and not rorp.get_acl().is_basic():
self.aclwriter.write_object(rorp.get_acl())
def close(self):
self.metawriter.close()
if self.eawriter: self.eawriter.close()
if self.aclwriter: self.aclwriter.close()
class Manager:
"""Read/Combine/Write metadata files by time"""
meta_prefix = 'mirror_metadata'
acl_prefix = 'access_control_lists'
ea_prefix = 'extended_attributes'
def __init__(self):
"""Set listing of rdiff-backup-data dir"""
self.rplist = []
self.timerpmap, self.prefixmap = {}, {}
for filename in Globals.rbdir.listdir():
rp = Globals.rbdir.append(filename)
if rp.isincfile(): self.add_incrp(rp)
def add_incrp(self, rp):
"""Add rp to list of inc rps in the rbdir"""
assert rp.isincfile(), rp
self.rplist.append(rp)
time = rp.getinctime()
if self.timerpmap.has_key(time):
self.timerpmap[time].append(rp)
else: self.timerpmap[time] = [rp]
incbase = rp.getincbase_str()
if self.prefixmap.has_key(incbase): self.prefixmap[incbase].append(rp)
else: self.prefixmap[incbase] = [rp]
def _iter_helper(self, prefix, flatfileclass, time, restrict_index):
"""Used below to find the right kind of file by time"""
if not self.timerpmap.has_key(time): return None
for rp in self.timerpmap[time]:
if rp.getincbase_str() == prefix:
return flatfileclass(rp, 'r').get_objects(restrict_index)
return None
def get_meta_at_time(self, time, restrict_index):
"""Return iter of metadata rorps at given time (or None)"""
return self._iter_helper(self.meta_prefix, MetadataFile,
time, restrict_index)
def get_eas_at_time(self, time, restrict_index):
"""Return Extended Attributes iter at given time (or None)"""
return self._iter_helper(self.ea_prefix,
eas_acls.ExtendedAttributesFile, time, restrict_index)
def get_acls_at_time(self, time, restrict_index):
"""Return ACLs iter at given time from recordfile (or None)"""
return self._iter_helper(self.acl_prefix,
eas_acls.AccessControlListFile, time, restrict_index)
def GetAtTime(self, time, restrict_index = None):
"""Return combined metadata iter with ea/acl info if necessary"""
cur_iter = self.get_meta_at_time(time, restrict_index)
if not cur_iter:
log.Log("Warning, could not find mirror_metadata file.\n"
"Metadata will be read from filesystem instead.", 2)
return None
if Globals.acls_active:
acl_iter = self.get_acls_at_time(time, restrict_index)
if not acl_iter:
log.Log("Warning: Access Control List file not found", 2)
acl_iter = iter([])
cur_iter = eas_acls.join_acl_iter(cur_iter, acl_iter)
if Globals.eas_active:
ea_iter = self.get_eas_at_time(time, restrict_index)
if not ea_iter:
log.Log("Warning: Extended Attributes file not found", 2)
ea_iter = iter([])
cur_iter = eas_acls.join_ea_iter(cur_iter, ea_iter)
return cur_iter
def _writer_helper(self, prefix, flatfileclass, typestr, time):
"""Used in the get_xx_writer functions, returns a writer class"""
if time is None: timestr = Time.curtimestr
else: timestr = Time.timetostring(time)
filename = '%s.%s.%s' % (prefix, timestr, typestr)
rp = Globals.rbdir.append(filename)
assert not rp.lstat(), "File %s already exists!" % (rp.path,)
assert rp.isincfile()
return flatfileclass(rp, 'w', callback = self.add_incrp)
def get_meta_writer(self, typestr, time):
"""Return MetadataFile object opened for writing at given time"""
return self._writer_helper(self.meta_prefix, MetadataFile,
typestr, time)
def get_ea_writer(self, typestr, time):
"""Return ExtendedAttributesFile opened for writing"""
return self._writer_helper(self.ea_prefix,
eas_acls.ExtendedAttributesFile, typestr, time)
def get_acl_writer(self, typestr, time):
"""Return AccessControlListFile opened for writing"""
return self._writer_helper(self.acl_prefix,
eas_acls.AccessControlListFile, typestr, time)
def GetWriter(self, typestr = 'snapshot', time = None):
"""Get a writer object that can write meta and possibly acls/eas"""
metawriter = self.get_meta_writer(typestr, time)
if not Globals.eas_active and not Globals.acls_active:
return metawriter # no need for a CombinedWriter
if Globals.eas_active: ea_writer = self.get_ea_writer(typestr, time)
else: ea_writer = None
if Globals.acls_active: acl_writer = self.get_acl_writer(typestr, time)
else: acl_writer = None
return CombinedWriter(metawriter, ea_writer, acl_writer)
class PatchDiffMan(Manager):
"""Contains functions for patching and diffing metadata
To save space, we can record a full list of only the most recent
metadata, using the normal rdiff-backup reverse increment
strategy. Instead of using librsync to compute diffs, though, we
use our own technique so that the diff files are still
hand-editable.
A mirror_metadata diff has the same format as a mirror_metadata
snapshot. If the record for an index is missing from the diff, it
indicates no change from the original. If it is present it
replaces the mirror_metadata entry, unless it has Type None, which
indicates the record should be deleted from the original.
"""
max_diff_chain = 9 # After this many diffs, make a new snapshot
def get_diffiter(self, new_iter, old_iter):
"""Iterate meta diffs of new_iter -> old_iter"""
for new_rorp, old_rorp in rorpiter.Collate2Iters(new_iter, old_iter):
if not old_rorp: yield rpath.RORPath(new_rorp.index)
elif not new_rorp or new_rorp.data != old_rorp.data:
# exact compare here, can't use == on rorps
yield old_rorp
def sorted_prefix_inclist(self, prefix, min_time = 0):
"""Return reverse sorted (by time) list of incs with given prefix"""
if not self.prefixmap.has_key(prefix): return []
sortlist = [(rp.getinctime(), rp) for rp in self.prefixmap[prefix]]
sortlist.sort()
sortlist.reverse()
return [rp for (time, rp) in sortlist if time >= min_time]
def check_needs_diff(self):
"""Check if we should diff, returns (new, old) rps, or (None, None)"""
inclist = self.sorted_prefix_inclist('mirror_metadata')
assert len(inclist) >= 1
if len(inclist) == 1: return (None, None)
newrp, oldrp = inclist[:2]
assert newrp.getinctype() == oldrp.getinctype() == 'snapshot'
chainlen = 1
for rp in inclist[2:]:
if rp.getinctype() != 'diff': break
chainlen += 1
if chainlen >= self.max_diff_chain: return (None, None)
return (newrp, oldrp)
def ConvertMetaToDiff(self):
"""Replace a mirror snapshot with a diff if it's appropriate"""
newrp, oldrp = self.check_needs_diff()
if not newrp: return
log.Log("Writing mirror_metadata diff", 6)
diff_writer = self.get_meta_writer('diff', oldrp.getinctime())
new_iter = MetadataFile(newrp, 'r').get_objects()
old_iter = MetadataFile(oldrp, 'r').get_objects()
for diff_rorp in self.get_diffiter(new_iter, old_iter):
diff_writer.write_object(diff_rorp)
diff_writer.close() # includes sync
oldrp.delete()
def get_meta_at_time(self, time, restrict_index):
"""Get metadata rorp iter, possibly by patching with diffs"""
meta_iters = [MetadataFile(rp, 'r').get_objects(restrict_index)
for rp in self.relevant_meta_incs(time)]
if not meta_iters: return None
if len(meta_iters) == 1: return meta_iters[0]
return self.iterate_patched_meta(meta_iters)
def relevant_meta_incs(self, time):
"""Return list [snapshotrp, diffrps ...] time sorted"""
inclist = self.sorted_prefix_inclist('mirror_metadata', min_time=time)
if not inclist: return inclist
assert inclist[-1].getinctime() == time, inclist[-1]
for i in range(len(inclist)-1, -1, -1):
if inclist[i].getinctype() == 'snapshot':
return inclist[i:]
assert 0, "Inclist %s contains no snapshots" % (inclist,)
def iterate_patched_meta(self, meta_iter_list):
"""Return an iter of metadata rorps by combining the given iters
The iters should be given as a list/tuple in reverse
chronological order. The earliest rorp in each iter will
supercede all the later ones.
"""
for meta_tuple in rorpiter.CollateIterators(*meta_iter_list):
for i in range(len(meta_tuple)-1, -1, -1):
if meta_tuple[i]:
if meta_tuple[i].lstat(): yield meta_tuple[i]
break # move to next index
else: assert 0, "No valid rorps"
ManagerObj = None # Set this later to Manager instance
def SetManager():
global ManagerObj
ManagerObj = PatchDiffMan()
return ManagerObj
import eas_acls # put at bottom to avoid python circularity bug
|
