~bzr-pqm/bzr/bzr.dev

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
============================================
Merge Directive format 2 and Bundle format 4
============================================

:Date: 2007-06-21

Motivation
----------
Merge Directive format 2 represents a request to perform a certain merge.  It
provides access to all the data necessary to perform that merge, by including
a branch URL or a bundle payload.  It typically will include a preview of
what applying the patch would do.

Bundle Format 4 is designed to be a compact format for storing revision
metadata that can be generated quickly and installed into a repository
efficiently.  It is not intended to be human-readable.

Note
----
These two formats, taken together, can be viewed as the successor of Bundle
format 0.9, so their specifications are combined.  It is expected that in the
future, bundle and merge-directive formats will vary independently.


Bundle Format Name
------------------
This is the fourth bundle format to see public use.  Previous versions were
0.7, 0.8, and 0.9.  Only 0.7's version number was aligned with a Bazaar
release.


Dependencies
------------
- Container format 1
- Multiparent diffs
- Bencode
- Patch-RIO


Description
-----------
Merge Directives fulfil the role previous bundle formats had of requesting a
merge to be performed, but are a more flexible way of doing so.  With the
introduction of these two formats, there is a clear split between "directive",
which is a request to merge (and therefore signable), and "bundle", which is
just data.

Merge Directive format 2 may provide a patch preview of the change being
requested.  If a preview is supplied, the receiving client will verify that
the actual change matches the preview.

Merge Directive format 2 also includes a testament hash, to ensure that if a
branch is used, the branch cannot be subverted to cause the wrong changes to be
applied.

Bundle format 4 is designed to trade human-readability for speed and
compactness.  It does not contain a human-readable "prelude" patch.

Merge Directive 2 Contents
--------------------------
This format consists of three sections, in the following order.


Patch-RIO command section
~~~~~~~~~~~~~~~~~~~~~~~~~
This section is identical to the corresponding section in Format 1 merge
directives, except as noted below.  It is mandatory.  It is terminated by a
line reading ``#`` that is not preceeded by a line ending with ``\``.

In order to support cherry-picking and patch comparison, this format adds a new
piece of information, the ``base_revision_id``.  This is a suggested base
revision for merging.  It may be supplied by the user.  If not, it is
calculated using the standard merge base algorithm, with the ``revision_id``
and target branch's ``last_revision`` as its inputs.

When merging, clients should use the ``base_revision_id`` when it is not
already present in the ancestry of the ``last_revision`` of the target branch.
If it is already present, clients should calculate a merge base in the normal
way.


Patch preview section
~~~~~~~~~~~~~~~~~~~~~
This section is optional.  It begins with the line ``# Begin patch``.  It is
terminated by the end-of-file or by the beginning of a bundle section.

Its contents are a unified diff, as per the ``bzr diff`` command.  The FROM
revision is the ``base_revision_id`` specified in the Patch-RIO section.


Bundle section
~~~~~~~~~~~~~~
This section is optional, but if it is not supplied, a source_branch must be
supplied.  It begins with the line ``# Begin bundle``, and is terminated by the
end-of-file.

The contents are a base-64 encoded bundle.  This may be any bundle format, but
formats 4+ are strongly recommended.  The base revision is the newest revision
in the source branch which is an ancestor of all revisions not present in
target which are ancestors of revision_id.

This base revision may or may not be the same as the ``base_revision_id``.  In
particular, the ``base_revision_id`` may specify a cherry-pick, but all the
ancestors of the ``base_revision_id`` should be installed in the target
repository before performing such a merge.


Bundle 4 Contents
-----------------
Bazaar revision bundles  begin with a format marker that reads
``# Bazaar revision bundle v4`` in plaintext.  The remainder of the file is a
``Bazaar pack format 1`` container.  The container is compressed using bzip2.

Putting the format marker in plaintext ensures that old clients will give good
diagnostics, but renders the file unreadable by standard bzip2 utilities.

Serialization
~~~~~~~~~~~~~
Format 4 records revision and inventory records in their repository
serialization format.  This minimizes translation and compression costs
in the common case, where the sender and receiver use the same serialization
format for their repository. Steps have been taken to ensure a faithful
conversion when serialization formats are mismatched.


Bundle Records
~~~~~~~~~~~~~~
The bundle format creates a single bundle-level record out of two container
records.  The first container record contains metainfo as a Bencoded dict.  The
second container record contains the body.

The bundle record name is associated with the metainfo record.  The body record
is anonymous.


Record metainfo
~~~~~~~~~~~~~~~

:record_kind: The storage strategy of the record.  May be ``fulltext`` (the
    record body contains the full text of the value), ``mpdiff`` (the record
    body contains a multi-parent diff of the value), or ``header`` (no record
    body).
:parents: Used in fulltext and mpdiff records.  The revisions that should be
    noted as parents of this revision in the repository.  For mpdiffs, this is
    also the list of build-parents.
:sha1: Used in mpdiff records.  The sha-1 hash of the full-text value.


Bundle record naming
~~~~~~~~~~~~~~~~~~~~~
All bundle records have a single name, which is associated with the metainfo
container record.  Records are named according to the body's content-kind,
revision-id, and file-id.

Content-kind may be one of:

:file: a version of a user file
:inventory: the tree inventory
:revision: the revision metadata for a revision
:signature: the revision signature for a revision

Names are constructed like so: ``content-kind/revision-id/file-id``.  Values
are iterpreted left-to-right, so if two values are present, they are
content-kind and revision-id.
A record has a file-id if-and-only-if it is a file record.
Info records have no revision or file-id.
Inventory, revision and signature all have content-kind and revision-id, but
no file-id.

Layout
~~~~~~
The first record is an info/header record.

The subsequent records are mpdiff file records.  The are ordered first by file
id, then in topological order by revision-id.

The next records are mpdiff inventory records.  They are topologically sorted.

The next records are revision and signature fulltexts.  They are interleaved
and topologically sorted.

Info record
~~~~~~~~~~~
The info record has type ``header``.  It has no revision_id or file_id.
Its metadata contains:

:serializer: A string describing the serialization format used for inventory
    and revision data.  May be ``xml5``, ``xml6`` or ``xml7``.
:supports_rich_root: 1 if the source repository supports rich roots,
    0 otherwise.


Implementation notes
~~~~~~~~~~~~~~~~~~~~
- knit deltas contain almost enough information to extract the original
  SequenceMatcher.get_matching_blocks() call used to produce them.  Combining
  that information with the relevant fulltexts allows us to avoid performing
  sequence matching on any fulltexts for which we have deltas.

- MultiParent deltas contain ``get_matching_blocks`` output almost verbatim,
  but if there is more than one parent, the information about the leftmost
  parent may be incomplete.  However, for single-parent multiparent diffs, we
  can extract the ``SequenceMatcher.get_matching_blocks`` output, and therefore
  ``the SequenceMatcher.get_opcodes`` output used to create knit deltas.


Installing data across serialization mismatches
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
In practice, there cannot be revision serialization mismatches, because the
serialization of revisions has been consistent in serializations 5-7

If there is a mismatch in inventory serialization formats, the receiver can

  1. extract the inventory objects for the parents
  2. serialize them using the bundle serialize
  3. apply the mpdiff
  4. calculate the fulltext sha1
  5. compare the calculated sha1 to the expected sha1
  6. deserialize using the bundle serializer
  7. serialize using the repository serializer
  8. add to the repository

This is much slower, of course.  But since the since the fulltext is verified
at step 5, it should be just as safe as any other conversion.

Model differences
~~~~~~~~~~~~~~~~~

Note that there may be model differences requiring additional changes.  These
differences are described by the "supports_rich_root" value in the info record.

A subset of xml6 and xml7 records are compatible with xml5 (i.e. those that
were converted from xml5 originally).

When installing from a bundle whose serializer supports tree references to a
repository that does not support tree references, clients should halt if they
encounter a record containing a tree reference.

When installing from a supports_rich_root bundle to a repository that does not
support rich roots, clients should halt if they encounter an inventory record
whose root directory revision-id does not match the inventory revision id.

When installing from a bundle that does not support rich roots to a repository
that does, additional knits should be added for the root directory, with a
revision for each inventory revision.

Validating preview patches
~~~~~~~~~~~~~~~~~~~~~~~~~~
When applying a merge directive that includes a preview, clients should
verify that the preview matches the changes requested by the merge directive.

In order to do this, the client should generate a diff from the
``base_revision_id`` to the ``revision_id``.  This diff should be compared
against the preview patch, making allowances for the fact that whitespace
munging may have occurred.

One form of whitespace munging that has been observed is line-ending
conversion.  Certain mail clients such as Evolution do not respect the
line-endings of text attachments.  Since line-ending conversion is unlikely to
alter the meaning of a patch, it seems safe to ignore line endings when
comparing the preview patch.

Another form of whitespace munging that has been observed is
trailing-whitespace stripping.  Again, it seems unlikely that stripping
trailing whitespace could alter the meaning of a patch.  Such a distinction
is also invisible to readers, so ignoring it does not create a new threat.  So
it seems reasonable to ignore trailing whitespace when comparing the patches.

Other mungings are possible, but it is recommended not to implement support
for them until they have been observed.  Each of these changes makes the
comparison more approximate, and the more approximate it becomes, the easier it
is to provide a preview patch that does not match the requested changes.