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Fixed #23079 -- Added data loss issues to those that will be backported to LTS.

This commit is contained in:
Tim Graham 2014-07-29 09:23:03 -04:00
parent b012122d30
commit e46801f13d
1 changed files with 17 additions and 39 deletions
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56
docs/internals/release-process.txt
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@ -19,9 +19,9 @@ Since version 1.0, Django's release numbering works as follows:
* ``C`` is the *minor version* number, which is incremented for bug and
security fixes. A new minor release will be 100% backwards-compatible with
the previous minor release. The only exception is when a security issue
can't be fixed without breaking backwards-compatibility. If this happens,
the release notes will provide detailed upgrade instructions.
the previous minor release. The only exception is when a security or data loss
issue can't be fixed without breaking backwards-compatibility. If this
happens, the release notes will provide detailed upgrade instructions.
* Before a new major release, we'll make alpha, beta, and release candidate
releases. These are of the form ``A.B alpha/beta/rc N``, which means the
@ -67,8 +67,9 @@ security purposes, please see :doc:`our security policies <security>`.
fix security issues.
These releases will be 100% compatible with the associated major release,
unless this is impossible for security reasons. So the answer to "should I
upgrade to the latest minor release?" will always be "yes."
unless this is impossible for security reasons or to prevent data loss.
So the answer to "should I upgrade to the latest minor release?" will always
be "yes."
.. _backwards-compatibility-policy:
@ -87,7 +88,7 @@ varying levels:
* Security issues.
* Data-loss bugs.
* Data loss bugs.
* Crashing bugs.
@ -97,11 +98,8 @@ varying levels:
for bugs that would have prevented a release in the first place (release
blockers).
* Security fixes will be applied to the current master, the previous two major
releases, and the current :ref:`LTS release <lts-releases>`.
* Committers may choose to backport bugfixes at their own discretion,
provided they do not introduce backwards incompatibilities.
* Security fixes and data loss bugs will be applied to the current master, the
last two major releases, and the current :ref:`LTS release <lts-releases>`.
* Documentation fixes generally will be more freely backported to the last
release branch. That's because it's highly advantageous to have the docs for
@ -116,12 +114,13 @@ Django 1.6 and 1.7. At this point in time:
* Critical bug fixes will be applied to the ``stable/1.6.x`` branch, and
released as 1.6.1, 1.6.2, etc.
* Security fixes will be applied to ``master``, to the ``stable/1.6.x``
branch, and to the ``stable/1.5.x`` branch. They will trigger the release of
``1.6.1``, ``1.5.1``, etc.
* Security fixes and bug fixes for data loss issues will be applied to
``master`` and to the ``stable/1.6.x``, ``stable/1.5.x``, and
``stable/1.4.x`` (LTS) branches. They will trigger the release of ``1.6.1``,
``1.5.1``, ``1.4.1``, etc.
* Documentation fixes will be applied to master, and, if easily backported, to
the ``1.6.x`` branch. Bugfixes may also be backported.
the ``1.6.x`` branch.
.. _lts-releases:
@ -129,9 +128,9 @@ Long-term support (LTS) releases
================================
Additionally, the Django team will occasionally designate certain releases
to be "Long-term support" (LTS) releases. LTS releases will get security fixes
applied for a guaranteed period of time, typically 3+ years, regardless of
the pace of releases afterwards.
to be "Long-term support" (LTS) releases. LTS releases will get security and
data loss fixes applied for a guaranteed period of time, typically 3+ years,
regardless of the pace of releases afterwards.
The follow releases have been designated for long-term support:
@ -220,24 +219,3 @@ bugfixes. Critical bugs fixed on master must *also* be fixed on the bugfix
branch; this means that commits need to cleanly separate bug fixes from feature
additions. The developer who commits a fix to master will be responsible for
also applying the fix to the current bugfix branch.
How this all fits together
--------------------------
Let's look at a hypothetical example for how this all first together. Imagine,
if you will, a point about halfway between 1.5 and 1.6. At this point,
development will be happening in a bunch of places:
* On master, development towards 1.6 proceeds with small additions, bugs
fixes, etc. being checked in daily.
* On the branch ``stable/1.5.x``, fixes for critical bugs found in
the 1.5 release are checked in as needed. At some point, this branch will
be released as "1.5.1", "1.5.2", etc.
* On the branch ``stable/1.4.x``, security fixes are made if
needed and released as "1.4.2", "1.4.3", etc.
* Development of major features is done in branches in forks of the main
repository. These branches will be merged into ``master`` before "1.6
alpha 1".