PEP 385 – Migrating from Subversion to Mercurial
- Author:
- Dirkjan Ochtman <dirkjan at ochtman.nl>, Antoine Pitrou <solipsis at pitrou.net>, Georg Brandl <georg at python.org>
- Status:
- Final
- Type:
- Process
- Created:
- 25-May-2009
Table of Contents
Motivation
After having decided to switch to the Mercurial DVCS, the actual migration still has to be performed. In the case of an important piece of infrastructure like the version control system for a large, distributed project like Python, this is a significant effort. This PEP is an attempt to describe the steps that must be taken for further discussion. It’s somewhat similar to PEP 347, which discussed the migration to SVN.
To make the most of hg, we would like to make a high-fidelity conversion, such that (a) as much of the svn metadata as possible is retained, and (b) all metadata is converted to formats that are common in Mercurial. This way, tools written for Mercurial can be optimally used. In order to do this, we want to use the hgsubversion software to do an initial conversion. This hg extension is focused on providing high-quality conversion from Subversion to Mercurial for use in two-way correspondence, meaning it doesn’t throw away as much available metadata as other solutions.
Such a conversion also seems like a good time to reconsider the contents of the repository and determine if some things are still valuable. In this spirit, the following sections also propose discarding some of the older metadata.
Timeline
The current schedule for conversion milestones:
- 2011-02-24: availability of a test repo at hg.python.org
Test commits will be allowed (and encouraged) from all committers to the Subversion repository. The test repository and all test commits will be removed once the final conversion is done. The server-side hooks will be installed for the test repository, in order to test buildbot, diff-email and whitespace checking integration.
- 2011-03-05: final conversion (tentative)
Commits to the Subversion branches now maintained in Mercurial will be blocked. Developers should refrain from pushing to the Mercurial repositories until all infrastructure is ensured to work after their switch over to the new repository.
Transition plan
Branch strategy
Mercurial has two basic ways of using branches: cloned branches, where each branch is kept in a separate repository, and named branches, where each revision keeps metadata to note on which branch it belongs. The former makes it easier to distinguish branches, at the expense of requiring more disk space on the client. The latter makes it a little easier to switch between branches, but all branch names are a persistent part of history. [1]
Differences between named branches and cloned branches:
- Tags in a different (maintenance) clone aren’t available in the local clone
- Clones with named branches will be larger, since they contain more data
We propose to use named branches for release branches and adopt cloned branches for feature branches.
History management
In order to minimize the loss of information due to the conversion, we propose to provide several repositories as a conversion result:
- A repository trimmed to the mainline trunk (and py3k), as well as
past and present maintenance branches – this is called the
“working” repo and is where development continues. This repository has
all the history needed for development work, including annotating
source files with changes back up to 1990 and other common history-digging
operations.
The
default
branch in that repo is what is known aspy3k
in Subversion, while the Subversion trunk lives on with the branch namelegacy-trunk
; however in Mercurial this branch will be closed. Release branches are named after their major.minor version, e.g.3.2
. - A repository with the full, unedited conversion of the Subversion repository (actually, its /python subdirectory) – this is called the “historic” or “archive” repo and will be offered as a read-only resource. [2]
- One more repository per active feature branch; “active” means that
at least one core developer asks for the branch to be provided. Each
such repository will contain both the feature branch and all ancestor
changesets from mainline (coming from
trunk
and/orpy3k
in SVN).
Since all branches are present in the historic repo, they can later be extracted as separate repositories at any time should it prove to be necessary.
The final revision map between SVN revision numbers, Mercurial changesets
and SVN branch names will be made available in a file stored in the Misc
directory. Its format is as following:
[...]
88483 e65daae6cf4499a0863cb7645109a4798c28d83e issue10276-snowleopard
88484 835cb57abffeceaff0d85c2a3aa0625458dd3e31 py3k
88485 d880f9d8492f597a030772c7485a34aadb6c4ece release32-maint
88486 0c431b8c22f5dbeb591414c154acb7890c1809df py3k
88487 82cda1f21396bbd10db8083ea20146d296cb630b release32-maint
88488 8174d00d07972d6f109ed57efca8273a4d59302c release27-maint
[...]
Generating .hgignore
The .hgignore file can be used in Mercurial repositories to help ignore files that are not eligible for version control. It does this by employing several possible forms of pattern matching. The current Python repository already includes a rudimentary .hgignore file to help with using the hg mirrors.
Since the current Python repository already includes a .hgignore file (for use with hg mirrors), we’ll just use that. Generating full history of the file was debated but deemed impractical (because it’s relatively hard with fairly little gain, since ignoring is less important for older revisions).
Repository size
A bare conversion result of the current Python repository weighs 1.9 GB; although this is smaller than the Subversion repository (2.7 GB) it is not feasible.
The size becomes more manageable by the trimming applied to the working repository, and by a process called “revlog reordering” that optimizes the layout of internal Mercurial storage very efficiently.
After all optimizations done, the size of the working repository is around 180 MB on disk. The amount of data transferred over the network when cloning is estimated to be around 80 MB.
Other repositories
There are a number of other projects hosted in svn.python.org’s “projects” repository. The “peps” directory will be converted along with the main Python one. Richard Tew has indicated that he’d like the Stackless repository to also be converted. What other projects in the svn.python.org repository should be converted?
There’s now an initial stab at converting the Jython repository. The current tip of hgsubversion unfortunately fails at some point. Pending investigation.
Other repositories that would like to converted to Mercurial can announce themselves to me after the main Python migration is done, and I’ll take care of their needs.
Infrastructure
hg-ssh
Developers should access the repositories through ssh, similar to the
current setup. Public keys can be used to grant people access to a
shared hg@ account. A hgwebdir instance also has been set up at
hg.python.org
for easy browsing and read-only access. It is
configured so that developers can trivially start new clones (for
longer-term features that profit from development in a separate
repository).
Also, direct creation of public repositories is allowed for core developers, although it is not yet decided which naming scheme will be enforced:
$ hg init ssh://hg@hg.python.org/sandbox/mywork
repo created, public URL is http://hg.python.org/sandbox/mywork
Hooks
A number of hooks is currently in use. The hg equivalents for these should be developed and deployed. The following hooks are being used:
- check whitespace: a hook to reject commits in case the whitespace doesn’t match the rules for the Python codebase. In a changegroup, only the tip is checked (this allows cleanup commits for changes pulled from third-party repos). We can also offer a whitespace hook for use with client-side repositories that people can use; it could either warn about whitespace issues and/or truncate trailing whitespace from changed lines.
- push mails: Emails will include diffs for each changeset pushed to the public repository, including the username which pushed the changesets (this is not necessarily the same as the author recorded in the changesets).
- buildbots: the python.org build master will be notified of each changeset
pushed to the
cpython
repository, and will trigger an appropriate build on every build slave for the branch in which the changeset occurs.
The hooks repository contains ports of these server-side hooks to Mercurial, as well as a couple additional ones:
- check branch heads: a hook to reject pushes which create a new head on an existing branch. The pusher then has to merge the excess heads and try pushing again.
- check branches: a hook to reject all changesets not on an allowed named branch. This hook’s whitelist will have to be updated when we want to create new maintenance branches.
- check line endings: a hook, based on the eol extension, to reject all changesets committing files with the wrong line endings. The commits then have to be stripped and redone, possibly with the eol extension enabled on the comitter’s computer.
One additional hook could be beneficial:
- check contributors: in the current setup, all changesets bear the username of committers, who must have signed the contributor agreement. We might want to use a hook to check if the committer is a contributor if we keep a list of registered contributors. Then, the hook might warn users that push a group of revisions containing changesets from unknown contributors.
End-of-line conversions
Discussion about the lack of end-of-line conversion support in
Mercurial, which was provided initially by the win32text extension,
led to the development of the new eol extension that supports a
versioned management of line-ending conventions on a file-by-file
basis, akin to Subversion’s svn:eol-style
properties. This
information is kept in a versioned file called .hgeol
, and such a
file has already been checked into the Subversion repository.
A hook also exists on the server side to reject any changeset introducing inconsistent newline data (see above).
hgwebdir
A more or less stock hgwebdir installation should be set up. We might want to come up with a style to match the Python website.
A small WSGI application has been written that can look up Subversion revisions and redirect to the appropriate hgweb page for the given changeset, regardless in which repository the converted revision ended up (since one big Subversion repository is converted into several Mercurial repositories). It can also look up Mercurial changesets by their hexadecimal ID.
roundup
By pointing Roundup to the URL of the lookup script mentioned above, links to SVN revisions will continue to work, and links to Mercurial changesets can be created as well, without having to give repository and changeset ID.
After migration
Where to get code
After migration, the hgwebdir will live at hg.python.org. This is an accepted standard for many organizations, and an easy parallel to svn.python.org. The working repo might live at http://hg.python.org/cpython/, for example, with the archive repo at http://hg.python.org/cpython-archive/. For write access, developers will have to use ssh, which could be ssh://hg@hg.python.org/cpython/.
code.python.org was also proposed as the hostname. We think that using the VCS name in the hostname is good because it prevents confusion: it should be clear that you can’t use svn or bzr for hg.python.org.
hgwebdir can already provide tarballs for every changeset. This obviates the need for daily snapshots; we can just point users to tip.tar.gz instead, meaning they will get the latest. If desired, we could even use buildbot results to point to the last good changeset.
Python-specific documentation
hg comes with good built-in documentation (available through hg help) and a wiki that’s full of useful information and recipes, not to mention a popular book (readable online).
In addition to that, the recently overhauled Python Developer’s Guide already has a branch with instructions for Mercurial instead of Subversion; an online build of this branch is also available.
Proposed workflow
We propose two workflows for the migration of patches between several branches.
For migration within 2.x or 3.x branches, we propose a patch always gets committed to the oldest branch where it applies first. Then, the resulting changeset can be merged using hg merge to all newer branches within that series (2.x or 3.x). If it does not apply as-is to the newer branch, hg revert can be used to easily revert to the new-branch-native head, patch in some alternative version of the patch (or none, if it’s not applicable), then commit the merge. The premise here is that all changesets from an older branch within the series are eventually merged to all newer branches within the series.
The upshot is that this provides for the most painless merging procedure. This means that in the general case, people have to think about the oldest branch to which the patch should be applied before actually applying it. Usually, that is one of only two branches: the latest maintenance branch and the trunk, except for security fixes applicable to older branches in security-fix-only mode.
For merging bug fixes from the 3.x to the 2.7 maintenance branch (2.6 and 2.5 are in security-fix-only mode and their maintenance will continue in the Subversion repository), changesets should be transplanted (not merged) in some other way. The transplant extension, import/export and bundle/unbundle work equally well here.
Choosing this approach allows 3.x not to carry all of the 2.x history-since-it-was-branched, meaning the clone is not as big and the merges not as complicated.
The future of Subversion
What happens to the Subversion repositories after the migration? Since the svn server contains a bunch of repositories, not just the CPython one, it will probably live on for a bit as not every project may want to migrate or it takes longer for other projects to migrate. To prevent people from staying behind, we may want to move migrated projects from the repository to a new, read-only repository with a new name.
Build identification
Python currently provides the sys.subversion tuple to allow Python code to find out exactly what version of Python it’s running against. The current version looks something like this:
- (‘CPython’, ‘tags/r262’, ‘71600’)
- (‘CPython’, ‘trunk’, ‘73128M’)
Another value is returned from Py_GetBuildInfo() in the C API, and available to Python code as part of sys.version:
- ‘r262:71600, Jun 2 2009, 09:58:33’
- ‘trunk:73128M, Jun 2 2009, 01:24:14’
I propose that the revision identifier will be the short version of hg’s revision hash, for example ‘dd3ebf81af43’, augmented with ‘+’ (instead of ‘M’) if the working directory from which it was built was modified. This mirrors the output of the hg id command, which is intended for this kind of usage. The sys.subversion value will also be renamed to sys.mercurial to reflect the change in VCS.
For the tag/branch identifier, I propose that hg will check for tags on the currently checked out revision, use the tag if there is one (‘tip’ doesn’t count), and uses the branch name otherwise. sys.subversion becomes
- (‘CPython’, ‘v2.6.2’, ‘dd3ebf81af43’)
- (‘CPython’, ‘default’, ‘af694c6a888c+’)
and the build info string becomes
- ‘v2.6.2:dd3ebf81af43, Jun 2 2009, 09:58:33’
- ‘default:af694c6a888c+, Jun 2 2009, 01:24:14’
This reflects that the default branch in hg is called ‘default’ instead of Subversion’s ‘trunk’, and reflects the proposed new tag format.
Mercurial also allows to find out the latest tag and the number of changesets separating the current changeset from that tag, allowing for a descriptive version string:
$ hg parent --template "{latesttag}+{latesttagdistance}-{node|short}\n"
v3.2+37-4b5d0d260e72
$ hg up 2.7
3316 files updated, 0 files merged, 379 files removed, 0 files unresolved
$ hg parent --template "{latesttag}+{latesttagdistance}-{node|short}\n"
v2.7.1+216-9619d21d8198
Footnotes
Copyright
This document has been placed in the public domain.
Source: https://github.com/python/peps/blob/main/pep-0385.txt
Last modified: 2022-01-21 11:03:51 GMT