Draft of New Python Packaging Guidelines
by Petr Viktorin
Hello!
Below is a draft of new Packaging Guidelines! It's full of unfinished
areas (marked with XXX), but it's ready for scrutiny.
A possibly updated version is on
https://hackmd.io/XzJe-sHUQvWK7cSrEH_aKg?view
Generally, for rules marked **SHOULD** we know of cases where they
should be broken; for things marked **MUST** we don't.
We have tried to only take the Good Existing Things™ (macros, practices)
and revise the rest without thinking about the past much. Some used
technology is unfortunately not compatible with current EPELs, but we
have considered Fedora 31+. Using the current Python guidelines will
still be an option for people who target EPEL 6/7/8.
The main controversial idea (of many) is synchronizing Fedora's names
(a.k.a. `python3dist(...)`, a.k.a. `name` in `setup.py`) with the Python
Package Index (PyPI, pypi.org), which has by now become the de-facto
canonical namespace for freely redistributable Python packages.
We believe that this will help both Fedora and the greater Python
ecosystem, but there will definitely be some growing pains.
Most of Fedora Python packages already are on PyPI, but more than 250
are missing. There is software developed within Fedora (e.g. pagure,
fedpkg, rust2rpm); projects that aren't primarily Python packages (e.g.
perf, ceph, xen, setroubleshoot, iotop); and others.
A full list is attached. The names have been temporarily blocked on PyPI
to keep trolls from taking them while this is discussed.
Over at the Python Discourse we are discussing how to properly handle
these; once that discussion is settled they should be unblocked:
https://discuss.python.org/t/pypi-as-a-project-repository-vs-name-registr...
Another general idea is that package metadata should be kept upstream;
the spec file should duplicate as little of it as possible. Any
adjustments should be done with upstreamable patches.
The draft lives on hackmd.io, which we found easy to collaborate with.
If you have an account there, we can add you. If you'd like to
collaborate some other way, let us know.
Petr and Miro
-----------------------
Current draft for inline comments:
> [IMPORTANT]
> This is a DRAFT; it is not in effect yet.
# Python Packaging Guidelines (draft)
> [IMPORTANT]
> This is a *beta* version of the Python Packaging Guidelines and the
associated RPM macros.
> Packagers that opt in to following this version **MUST** be prepared
to change their packages frequently when the guidelines or macros are
updated.
> These packagers **SHOULD** join [Python SIG mailing
list](https://lists.fedoraproject.org/archives/list/python-devel@lists.fe...
and monitor/start conversations there.
These Guidelines represent a major rewrite and paradigm shift, and not
all packages are updated to reflect this.
Older guidelines are still being kept up to date, and existing packages
**MAY** use them instead of this document:
* 201x-era Python packaging guidelines (for packages that use e.g.
`%py3_install` or `setup.py install`)
* Python 2 appendix (for e.g. `%py2_install`) (requires FESCo exception)
> [NOTE]
> These guidelines only support Fedora 31+. For older releases (such as
in EPEL 8), consult the older guidelines (XXX link).
The two "Distro-wide guidelines" below apply to all software in Fedora
that uses Python at build- or run-time.
These rest of the Guidelines apply to packages that ship code that *can*
be imported in Python.
Specifically, that is all packages that install files under
`/usr/lib*/python*/`.
Except for the two "Distro-wide guidelines", these Guidelines do not
apply to simple one-file scripts or utilities, especially if these are
included with software not written in Python.
However, if an application (e.g. CLI tool, script or GUI app) needs a
more complex Python library, the library **SHOULD** be packaged as an
importable library under these guidelines.
A major goal for Python packaging in Fedora is to *harmonize with the
wider Python ecosystem*, that is, the [Python Packaging
Authority](https://pypa.io) (PyPA) standards and the [Python Package
Index](https://pypi.org) (PyPI).
Packagers **SHOULD** be prepared to get involved with upstream projects
to establish best practices as outlined here. We wish to improve both
Fedora and the wider Python ecosystem.
> [NOTE]
> Fedora's Python SIG not only develops these guidelines, but it's also
involved in PyPA standards and Python packaging best practices. Check
out [the wiki](https://fedoraproject.org/wiki/SIGs/Python) or [mailing
list](https://lists.fedoraproject.org/archives/list/python-devel@lists.fe...
if you need help or wish to help out.
## Distro-wide guidelines
### BuildRequire python3-devel
**Every** package that uses Python (at runtime and/or build time),
and/or installs Python modules **MUST** explicitly include
`BuildRequires: python3-devel` in its `.spec` file, even if Python is
not actually invoked during build time.
If the package uses an alternate Python interpreter instead of `python3`
(e.g. `pypy`, `jython`, `python27`), it **MAY** instead require the
coresponding `*-devel` package.
The `*-devel` package brings in relevant RPM macros. It may also enable
automated or manual checks: for example, Python maintainers use this
requirement to list packages that use Python in some way and might be
affected by planned changes.
### Mandatory macros
The following macros **MUST** be used where applicable.
The expansions in parentheses are provided only as reference/examples.
The macros are defined for you in all supported Fedora and EPEL versions.
* `%{python3}` (`/usr/bin/python3`)
The Python interpreter.
For example, this macro should be used for invoking Python from a
`spec` file script, passed to `configure` scripts to select a Python
executable, or used as `%{python3} -m pytest` to run a Python-based tool.
> XXX: Use shebang opts for shebang; document pathfix macro. Document
cases where you don't want this.
* `%{python3_version}` (e.g. `3.9`)
Version of the Python interpreter.
* `%{python3_version_nodots}` (e.g. `39`)
Version of the Python interpreter without the dot.
* `%{python3_sitelib}` (e.g. `/usr/lib/python3.9/site-packages`)
Where pure-Python modules are installed.
* `%{python3_sitearch}` (e.g. `/usr/lib64/python3.9/site-packages`)
Where Python3 extension modules (native code, e.g. compiled from C)
are installed.
The rest of this document uses these macros, along with `%{_bindir}`
(`/usr/bin/`), instead of the raw path names.
## Python implementation support
Fedora primarily targets *CPython*, the reference implementation of the
Python language. We generally use “Python” to mean CPython.
Alternate implementations like `pypy` are available, but currently lack
comprehensive tooling and guidelines. When targetting these, there are
no hard rules (except the general Fedora packaging guidelines). But
please try to abide by the *spirit* of these guidelines. When in doubt,
consider consulting the Python SIG.
## Python version support
Fedora packages **MUST NOT** depend on other versions of the CPython
interpreter than the current `python3`.
In Fedora, Python libraries are packaged for a single version of Python,
called `python3`. For example, in Fedora 32, `python3` is Python 3.8.
In the past, there were multiple Python stacks, e.g. `python3.7` and
`python2.7`, installable together on the same machine. That is also the
case in some projects that build *on top* of Fedora, like RHEL, EPEL and
CentOS. Fedora might re-introduce parallell-installable stacks in the
future (for example if a switch to a new Python version needs a
transition period, or if enough interested maintainers somehow appear).
> XXX dots in package names!
Fedora does include alternate interpreter versions, e.g. `python2.7` or
`python3.5`, but these are meant only for developers that need to test
upstream code. Bug and security fixes for these interpreters only cover
this use case.
Packages such as `pip` or `tox`, which enable setting up isolated
environments and installing third-party packages into them, **MAY**, as
an exception to the rule above, use these interpreters as long as this
is coordinated with the maintainers of the relevant Python interpreter.
## BuildRequire pyproject-rpm-macros
While these guidelines are in Beta, each Python package **MUST** have
`BuildRequires: pyproject-rpm-macros` to access the beta macros.
(When we go out of Beta, listing the dependency won't be necessary:
we'll make `python3-devel` require it.)
## Naming
Python packages have several different names, which should be kept in
sync but will sometimes differ for historical or practical reasons. They
are:
* the Fedora *source package name* (or *component name*, `%{name}`),
* the Fedora *built RPM name*,
* the *project name* used on *PyPI* or by *pip*, and
* the *importable module name* used in Python (a single package may have
multiple importable modules).
Some examples (both good and worse):
| Fedora component | Built RPM | Project name | Importable
module |
| ----------------- | ------------------ | -------------- |
-------------------- |
| `python-requests` | `python3-requests` | `requests` | `requests`
|
| `PyYAML` | `python3-pyyaml` | `pyyaml` | `yaml`
|
| `python-ldap` | `python3-ldap` | `python-ldap` | `ldap`,
`ldif`, etc. |
| `python-pillow` | `python3-pillow` | `pillow` | `PIL`
|
Elsewhere in this text, the metavariables `SRPMNAME`, `RPMNAME`,
`PROJECTNAME`, `MODNAME` refer to these names, respectively.
### Canonical project name
Most of these names are case-sensitive machine-friendly identifiers, but
the *project name* has human-friendly semantics: it is case-insensitive
and treats some sets of characters (like `._-`) specially.
For automated use, it needs to be
[normalized](https://www.python.org/dev/peps/pep-0503/#normalized-names)
to a canonical format used by Python tools and services such as
setuptools, pip and PyPI.
The `%{py_dist_name}` macro implements this normalization.
Elsewhere in this text, the metavariable `DISTNAME` refers to the
canonical form of the project name.
> XXX
> ```spec
> # XXX specfile
> %py_set_name Django
> -> %distname django
> -> %pojectname Django
> ```
>
> XXX rewrite: It is customary to define the macro `%{distname}` as the
canonical project name and use it throughout the `spec` file. Some
helper macros use `%{distname}` for this purpose by default.
>
> XXX in some places, the "original project name" must be used -- e.g.
`%pypi_source` and `%autosetup` need `Django`, not `django`.
> XXX The following sections should supersede the [Python section on
the Naming
guidelines](https://docs.fedoraproject.org/en-US/packaging-guidelines/Nam....
### Library naming
A built (i.e. non-SRPM) package for a *Python library* **MUST** be named
with the `python3-` prefix.
A source package containing primarily a *Python library* **MUST** be
named with the prefix `python-`.
The Fedora package's name **SHOULD** contain the *canonical project
name*. If possible, the project name **SHOULD** be the same as the name
of the main importable module, with underscores (`_`) replaced by dashes
(`-`).
A *Python library* is a package meant to be imported in Python, such as
with `import requests`.
Tools like *Ansible* or *IDLE*, whose code is importable but not
primarily meant to be imported, are not considered libraries in this
sense, so this section does not apply for them.
(See the [general Libraries and Applications
guidelines](https://docs.fedoraproject.org/en-US/packaging-guidelines/#_l...
for details.)
If the importable module name and the project name do not match, users
frequently end up confused. In this case, packagers *should* ensure that
upstream is aware of the problem and (especially for new packages where
renaming is feasible) strive to get the package renamed. The Python SIG
is available for assistance.
The Fedora package name should be formed by taking the *project name*
and prepending `python-` if it does not already start with `python-`.
This may leads to conflicts (e.g. between
[bugzilla](https://pypi.org/project/bugzilla/) and
[python-bugzilla](https://pypi.org/project/python-bugzilla/)). In that
case, ensure upstream is aware of the potentially confusing naming and
apply best judgment.
### Application naming
Packages that primarily provide executables **SHOULD** be named
according to the general Fedora guidelines (e.g. `ansible`).
Consider adding a virtual provide according to Library naming above
(e.g. `python3-PROJECTNAME`), if it would help users find the package.
## Files to include
### Source files and bytecode cache
Packages **MUST** include the source file (`*.py`) **AND** the bytecode
cache (`*.pyc`) for each pure-Python module.
The cache files are found in a `__pycache__` directory and have an
interpreter-dependent suffix like `.cpython-39.pyc`.
The cache is not necessary to run the software, but if it is not found,
Python will try to create it. If this succeeds, the file is not tracked
by RPM and it will linger on the system after uninstallation. If it does
not succeed, users can get spurious SELinux AVC denials in the logs.
Normally, byte compilation (generating the cache files) is done for you
by the `brp-python-bytecompile` script (XXX link to BRP guidelines),
which runs automatically after the `%install` section of the spec file
has been processed. It byte compiles any `.py` files that it finds in
`%{python3_sitelib}` or `%{python3_sitearch}`.
You must include these files of your package (i.e. in the `%files` section).
If the code is in a subdirectory (importable package), include the
entire directory:
```
%files
%{python3_sitelib}/foo/
```
Adding the trailing slash is best practice for directories.
However, this cannot be used for top-level scripts (those directly in
e.g. `%{python3_sitelib}`), because both `%{python3_sitelib}` and
`%{python3_sitelib}/__pycache__/` are owned by Python itself.
Here, the `%pycached` macro can help. It expands to the given `*.py`
source file and its corresponding cache file(s). For example:
```
%files
%pycached %{python3_sitelib}/foo.py
```
expands roughly to:
```
%files
%{python3_sitelib}/foo.py
%{python3_sitelib}/__pycache__/foo.cpython-3X{,.opt-?}.pyc
```
#### Manual byte compilation
If you need to bytecompile stuff outside of
`%{python3_sitelib}`/`%{python3_sitearch}`, use the `%py_byte_compile`
macro.
For more details on `%py_byte_compile` and on the internals of bytecode
compilation, please see the
[appendix](https://docs.fedoraproject.org/en-US/packaging-guidelines/Pytho....
> XXX: Copy the section from appendix here
### Dist-info metadata
Each Python package **MUST** include *Package Distribution Metadata*
conforming to [PyPA
specifications](https://packaging.python.org/specifications/)
(specifically, [Recording installed
distributons](https://packaging.python.org/specifications/recording-insta...).
This applies to libraries (e.g. `python-requests`) as well as tools
(e.g. `ansible`).
> XXX what with splitting into subpackages? 1) dist-info always
installed, 2) dist-info installed trough a metapackage?
> * Ideally, do the split upstream
> * Consider package split between library & tool (see poetry, fedpkg)
>
> e.g.
> When software is split into several subpackages, it is OK to only
ship metadata in one built RPM.
The metadata takes the form of a `dist-info` directory installed in
`%{python3_sitelib}` or `%{python3_sitearch}`, and contains information
that tools like
[`importlib.metadata`](https://docs.python.org/3/library/importlib.metadata.html)
use to introspect installed libraries.
> XXX example %files with manual dist-info entry
Note that some older tools instead put metadata in an `egg-info`
directory, or even a single file.
This won't happen if you use the `%pyproject_wheel` macro.
If your package uses a build system that generates an `egg-info`
directory or file, please contact Python SIG.
> XXX We need a better solution before we go out of beta.
As an exception, the Python standard library **MAY** ship without this
metadata.
### Explicit lists
Packagers **SHOULD NOT** simply glob everything under a shared directory.
In particular, the following **SHOULD NOT** be used:
* `%{python3_sitelib}/*`
* `%{python3_sitearch}/*`
* `%{python_sitelib}/*`
* `%{python_sitearch}/*`
* `%{_bindir}/*`
* `%pyproject_save_files *`
* `%pyproject_save_files +bindir`
This rule serves as a check against common mistakes which are otherwise
hard to detect. It does limit some possibilities for automation.
The most common mistake this rule prevents is installing a test suite
system-wide as an importable module named `test`, which would then
conflict with other such packages.
## PyPI parity
Every Python package in Fedora **SHOULD** also be available on [the
Python Package Index](https://pypi.org) (PyPI).
The command `pip install PROJECTNAME` **MUST** install the same package
(possibly in a different version), install nothing, or fail with a
reasonable error message.
If this is not the case, the packager **MUST** contact upstream about
this. The goal is to get the project name registered or blocked on PyPI,
or to otherwise ensure the rule is followed.
> XXX Note that project names that were in Fedora but not on PyPI when
these guidelines were proposed are *blocked* as we discuss how they
should be handled.
> This prevents potential trolls, but also legitimate owners, from
taking them.
This is necessary to protect users, avoid confusion, and enable
automation as Fedora and upstream ecosystems grow more integrated.
As always, specific exceptions can be granted by FPC (XXX link
exceptions rules).
> XXX Write an automated check for this.
## Provides and requirements
### Provides for importable modules
For any module intended to be used in Python 3 with `import MODNAME`,
the package that includes it **SHOULD** provide `python3-MODNAME`, with
underscores (`_`) replaced by dashes (`-`).
This is of course always the case if the package is named
`python3-MODNAME`. If the subpackage has some other name, then add
`%py_provides python3-MODNAME` explicitly. See the following section to
learn about `%py_provides`.
### Automatic unversioned provides
For any `FOO`, a package that provides `python3-FOO` **SHOULD** use
`%py_provides` or an automatic generator to also provide `python-FOO`.
The provide **SHOULD NOT** be added manually: if the generator or macro
is not used, the provide shall not be added at all.
On Fedora 33+, this is done automatically for package names by a
generator. The generator can be disabled by undefining
`%__pythonname_provides`.
The following macro invocation will provide both `python3-FOO` and
`python-FOO`:
%py_provides python3-FOO
> XXX: finalize `%py_provides`
Using the generator or macro is important, because the specific form of
the provide may change in the future.
### Machine-readable provides
Every Python package **MUST** provide `python3dist(DISTNAME)` **and**
`python3.Xdist(DISTNAME)`, where `X` is the minor version of the
interpreter and `DISTNAME` is the *canonical project name* corresponding
to the *dist-info metadata*, for example `python3.9dist(requests)`.
(XXX: add links to previous sections)
This is generated automatically from the dist-info metadata.
The provide **SHOULD NOT** be added manually: if the generator fails to
add it, the metadata **MUST** be fixed.
If necessary, the automatic generator can be disabled by undefining
`%__pythondist_provides`.
These *Provides* are used for automatically generated *Requires*.
### Dependencies
As mentioned above, each Python package **MUST** explicitly BuildRequire
`python3-devel`.
Packages **MUST NOT** have dependencies (either build-time or runtime)
with the unversioned prefix `python-` if the corresponding `python3-`
dependency can be used instead.
Packages **SHOULD NOT** have explicit dependencies (either build-time or
runtime) with a minor-version prefix such as `python3.8-` or
`python3.8dist(`. Such dependencies **SHOULD** instead be automatically
generated or a macro should be used to get the version.
Packages **SHOULD NOT** have an explicit runtime dependency on `python3`.
Instead of depending on `python3`, packges have an automatic dependency
on `python(abi) = 3.X` when they install files to `%{python3_sitelib}`
or `%{python3_sitearch}`, or they have an automatic dependency on
`/usr/bin/python3` if they have executable Python scripts, or they have
an automatic dependency on `libpython3.X.so.1.0()` if they embed Python.
These rules help ensure a smooth upgrade path when `python3` is updated
in new versions of Fedora.
### Automatically generated dependencies
Packages **MUST** use the automatic Python run-time dependency generator.
Packages **SHOULD** use the opt-in build-dependency generator if possible.
Any necessary changes **MUST** be done by patches or modifying the
source (e.g. with `sed`), rather than disabling the generator. The
resulting change **SHOULD** be offered to upstream. As an exception,
[filtering](https://docs.fedoraproject.org/en-US/packaging-guidelines/Auto...
**MAY** be used for temporary workarounds and bootstrapping.
Dependencies covered by the generators **SHOULD NOT** be repeated in the
`.spec` file. (For example, if the generator finds a `requests`
dependency, then `Requires: python3-requests` is redundant.)
The automatically generated requirements are in the form
`python3.Xdist(DISTNAME)`, potentially augmented with version
requirements or combined together with [rich
dependencies](https://rpm.org/user_doc/boolean_dependencies.html).
Note that the generators only cover Python packages. Other dependencies,
often C libraries like `openssl-devel`, must be specified in the `.spec`
file manually.
> XXX When implemented, this goes here: Alternatively, upstream Python
packages may list non-Python dependencies in the
`[tool.fedora.requires]`/`[tool.fedora.buildrequires]` section of
`pyproject.toml`. This is non-standard and only recommended for
Fedora-related packages.
Where the requirements are specified in the source depends on each
project's build system and preferences. Common locations are
`pyproject.toml`, `setup.py`, `setup.cfg`, `config.toml`.
#### Run-time dependency generator
The automatic runtime dependency generator uses package metadata (as
recorded in installed `*.dist-info` directories) to determine what the
package depends on.
In an emergency, you can opt-out from running the requires generator by
adding `%{?python_disable_dependency_generator}` to the package
(usually, just before the main package’s `%description`).
#### Build-time dependency generator
The opt-in (but strongly recommended) build-time dependency generator
gathers information from [`pyproject.toml` build-system
information](https://www.python.org/dev/peps/pep-0517/#source-trees)
(with fallback to `setuptools`) plus a standardized [build-system
hook](https://www.python.org/dev/peps/pep-0517/#get-requires-for-build-wh...
to gather further requirements. See `%pyproject_buildrequires` (XXX
link) for more details.
### Test dependencies
See the *Tests* section. (XXX link.)
### Extras
> XXX No story here so far.
> XXX Note:
[python-django-storages](https://src.fedoraproject.org/rpms/python-django-...,
`drf-yasg` etc. do `%python_provide python3-%{srcname}+%{distname}` and
`python3dist(%{srcname}/%{extraname})` XXX
`python3dist(%{srcname}[%{extraname}])`
## Interpreter invocation
### Shebangs
Shebangs lines to invoke Python **SHOULD** be `#!%{python3}
-%{py3_shebang_flags}` and it **MAY** include extra flags.
> XXX define py3_shebang_flags
If the default flags from `%{py3_shebang_flags}` are not desirable,
packages **SHOULD** explicitly redefine the macro to remove them.
Using `#!%{python3}` (`#!/usr/bin/python3`) rather than e.g.
`#!/usr/bin/env python` ensures that the system-wide Python interpreter
is used to run the code, even if the user modifies `$PATH` (e.g. by
activating a virtual environment).
By default, `-%{py3_shebang_flags}` expands to `-s`, which means *don't
add user site directory to `sys.path`*. That ensures user-installed
Python packages (e.g. by `pip install --user`) don't interfere with the
RPM installed software. Sometimes, `pip`-installed content is desirable,
such as with plugins. Redefining `%{py3_shebang_flags}` to not include
`s`, rather than not using the macro at all, ensures that existing or
future automation won't add the flag.
The `%pyproject_install` macro automatically changes all Python shebangs
in `%{buildroot}%{_bindir}/*` to use `%{python3}` and add
`%{py3_shebang_flags}` to the existing flags. If you're not using the
macro or you need to change a shebang in a different directory, you can
use the `pathfix.py` command as follows:
```
pathfix.py -n -p -k -i %{python3} -a %{py3_shebang_flags} SCRIPTNAME …
```
> XXX Ouch! Macroize this? Hell yes!
>
> `%py3_shebang_fix <paths>` -- also rename `%{py3_shebang_flags}`
(doesn't include dash)
>
> can be used in `%prep` or `%install`
where:
* `-n` disables ceating backups
* `-p` preserves timestamps
* `-k` keeps existing flags
* `-i` specifies the new interpreter
### Invokable Python modules
Every executable `TOOL` for which the current version of Python matters
**SHOULD** also be invokable by `python3 -m TOOL`.
If the software doesn't provide this functionality, packagers **SHOULD**
ask the upstream to add it.
This applies to tools that modify the current Python environment (like
installing or querying packages), use Python for configuration, or use
Python to run plugins.
It does not apply to tools like GIMP or Bash which support plugins in
multiple languages and/or have other means to specify the interpreter.
For example, `pip` can be invoked as `python3 -m pip`.
This allows users to accurately specify the Python version used to run
the software. This convention works across different environments that
might not always set `$PATH` or install scripts consistently.
## Using Cython
Tightening the general Fedora policy, packages **MUST NOT** use files
pre-generated by Cython. These **MUST** be deleted in `%prep` and
regenerated during the build.
As an exception, these sources **MAY** be used temporarily to prevent
build time circular dependencies by following the
[bootstrapping](https://docs.fedoraproject.org/en-US/packaging-guidelines/...
guidelines.
Generated files (the ones that must be deleted) have a generic `.c` or
`.cpp` extension.
Cython source files (which should stay) usually have the `.pyx` or
`.pxd` extension.
Cython is a popular tool for writing extension modules for Python. If
compiles a Python-like language to C, which is then fed to the C compiler.
Historically, Cython was hard to use upstream as a build-time
dependency. Many projects include pre-generated C files in source
distribution to avoid users from needing to install the tool.
Cython uses CPython's fast-changing internal API for performance
reasons. For a new release of Python, Cython generally needs to be
updated and the C files regenerated. In Fedora, this is frequently
needed before upstreams release re-generated sources (e.g. for Alpha
versins of Python).
Since we do not have a problem with build-time dependencies, we always
want to run the Cython step.
> XXX example spec snippet
## Tests
### Running tests
If a test suite exists, it **MUST** be run in the `%check` section
and/or in Fedora CI.
You **MAY** exclude specific failing tests.
You **MUST NOT** disable the entire testsuite or ignore the result to
solve a build failure.
As an exception, you **MAY** disable tests with an appropriate `%if`
conditional (e.g. bcond) when
[bootstrapping](https://docs.fedoraproject.org/en-US/packaging-guidelines/....
A popular testing tool, and one which is well integrated in Fedora, is
`tox`. Upstream, it is commonly used to test against multiple Python
versions. In a Fedora package, BuildRequire test dependencies (see *Test
dependencies* below) and run `tox` with:
```
%tox
```
This sets up the environment (`$PATH`, `$PYTHONPATH`,
`$TOX_TESTENV_PASSENV`) and instructs `tox` to use the current
environment rather than create new ones.
For more options, see *Build macros* (XXX link to section).
When upstream doesn't use `tox`, the tests need to be run directly
depending on upstream choice of a test runner. A popular runner is
`pytest`, which can be run against the package to be installed using:
```
export PATH=%{buildroot}%{_bindir}
export
PYTHONPATH=%{buildroot}%{python3_sitearch}:%{buildroot}%{python3_sitelib}
/usr/bin/pytest # XXX `%{python} -m pytest` doesn't work :( -- sees PWD
```
> XXX Do we want a macro for that? We do, because not all projects have
tox.
>
> Define %__pytest or %_pytest %pytest_command - /usr/bin/pytest
>
> Define %pytest (see above snippet) (not parametric)
Use positional arguments to specify test directory, and `-k` to select
tests (e.g. `-k "not network"` may deselect all network-related tests).
### Test dependencies
One part of the Python packaging ecosystem that is still not
standardized is specifying test dependencies (and development
dependencies in general).
The best practice to specify tests is using an extra (XXX link to
section above, which should be fleshed out) like `[test]` or `[dev]`. In
this case, upstream's instructions to install test dependencies might
look like `pip install -e.[test]`.
Projects using `tox` usually specify test dependencies in a
`tox`-specific format: a
[requires](https://tox.readthedocs.io/en/latest/config.html#conf-requires)
key in the configuration.
Both forms are handled by the `%pyproject_buildrequires` macro, see below.
If upstream does not use either form, list test dependencies as manual
*BuildRequires* in the `spec` file.
### Linters
In `%check`, packages **SHOULD NOT** run “linters”: code style checkers,
test coverage checkers and other tools that check code quality rather
than functionality.
Tools like `black`, `pylint`, `flake8`, or `mypy` are often
“opinionated” and their “opinions” change frequently enough that they
are nuisance in Fedora, where the linter is not pinned to an exact version.
Furthermore, some of these tools take a long time to adapt to new Python
versions, preventing early testing with Aplha and Beta releases of Python.
And they are just not needed: wrongly formatted code is not important
enough for the Fedora packager to bug the upstream about it.
Making such an issue break a package build is entirely unreasonable.
Linters *do* make sense in upstream CI. But not in Fedora.
If a linter is used, disable it and remove the dependency on it. If that
is not easy, talk to upstream about making it easy (for example with a
configuration option or a separate `tox` environment).
For packages that contain such linters, use them at runtime or extend
them, you will usually need to run the linter in `%check`. Run it to
test functionality, not code quality of the packaged software.
## Source files from PyPI
Packages **MAY** use sources from PyPI.
However, packages **SHOULD NOT** use an archive that omits test suites,
licences and/or documentation present in other source archives.
For example, as of this writing `pip` provides a [source tarball
(“sdist”)](https://pypi.org/project/pip/#files) which omits the
relatively large `tests` and `docs` directories present in [the source
on GitHub](https://github.com/pypa/pip). In this case, the tarball from
GitHub should be used (XXX link to source URL guidelines).
When using sources from PyPI, you can use the `%pypi_source` macro to
generate the proper URL. See the *Macro reference* (XXX link directly to
macro) for details.
## Sample spec file
The following is a viable spec file for a hypothetical Python library
called `pello` that follows packaging best practices.
> XXX *Need to get `Pello` uploaded as real example and on GH under
fedora-python.
```
%py_set_name Pello
Name: python-%{distname}
Version: 1.2.3
Release: 1%{?dist}
Summary: Example Python library
License: MIT
URL: https://github.com/fedora-python/Pello
Source0: %{pypi_source}
BuildArch: noarch
BuildRequires: python3-devel
BuildRequires: pyproject-rpm-macros
%global _description %{expand:
A python module which provides a convenient example.
This description provides some details.}
%description %_description
%package -n python3-%{distname}
Summary: %{summary}
%description -n python3-%{distname} %_description
%prep
%autosetup -p1 -n %{projectname}-%{version}
%generate_buildrequires
%pyproject_buildrequires -t
%build
%pyproject_wheel
%install
%pyproject_install
# Here, "pello" is the name of the importable module.
# You may use %%{distname} here if it's the same.
%pyproject_save_files pello
%check
%tox
# Note that there is no %%files section for
# the unversioned python module, python-%%{distname}
%files -n python3-%{distname} -f %{pyproject_files}
%doc README.md
%license LICENSE
%{_bindir}/pello-greeting
```
## Macro Reference
See the *Mandatory macros* section above. (XXX link to section)
<!-- Keep order and examples the same as in Mandatory macros -->
* `%{python3}` (`/usr/bin/python3`)
* `%{python3_version}` (e.g. `3.9`)
* `%{python3_version_nodots}` (e.g. `39`)
* `%{python3_sitelib}` (e.g. `/usr/lib/python3.9/site-packages`)
* `%{python3_sitearch}` (e.g. `/usr/lib64/python3.9/site-packages`)
### Name macros
* `%py_set_name PROJECTNAME` (e.g. `%py_set_name Django`)
Sets `%{projectname}` to the given name, and `%{distname}` to the
canonical version of it. These macros can then be used throughout the
`spec` file.
See *Naming* for details and *Sample spec file* for examples. (XXX
link to sections)
* `%{projectname}` (e.g. `Django`)
Set by `%py_set_name` to the *project name* of the software.
* `%{distname}` (e.g. `django`)
Set by `%py_set_name` to the *canonical project name* of the software.
### Shebang macro
* `%{py3_shebang_flags}` (`s`)
Flags for `%{python3}` to use in shebangs.
Redefine this macro to use a different set of flags. See *Shebangs*
[XXX link section] for details.
### Convenience macros
* `%{pypi_source [PROJECTNAME [VERSION [EXT]]]}` (e.g.
`https://.../Django-3.0.5.tar.gz`)
Evaluates to the appropriate URL for source archive hosted on PyPI.
Accepts up to three optional arguments:
1. The name of the PyPI project. Defaults to `%srcname` if defined,
or to `%pypi_name` if defined, or to `%name` (the package name). [XXX
default to `%projectname`]
2. The version of the PyPI project. Defaults to `%version` (the
package version).
3. The file extension to use. Defaults to `tar.gz`.
In most cases it is not necessary to specify any arguments.
* `%{python3_platform}` (e.g. `linux-x86_64`)
The platform name. Used in some Python build systems.
### Build macros
These macros are most useful for packaging Python projects that use the
`pyproject.toml` file defined in [PEP
518](https://www.python.org/dev/peps/pep-0518/) and [PEP
517](https://www.python.org/dev/peps/pep-0517/), which specifies the
package's build dependencies (including the build system, such as
setuptools, flit or poetry).
If `pyproject.toml` is not found, the macros automatically fall backs to
using `setuptools` with configuration in `setup.cfg`/`setup.py`.
A full tutorial and discussion for the macros is available in the
macros' [README](https://src.fedoraproject.org/rpms/pyproject-rpm-macros/).
* `%pyproject_wheel`
Build the package. Commonly, this is the only macro needed in the
`%build` section.
This macro needs BuildRequires generated by `%pyproject_buildrequires`.
* `%pyproject_install`
Install the package built by `%pyproject_wheel`.
This macro needs BuildRequires generated by `%pyproject_buildrequires`.
* `%pyproject_buildrequires`
Generate BuildRequires for the package. Used in the
`%generate_buildrequires` section of the `spec` file. The macro has
these options:
* `-r`: Include build-time requirements (commonly needed for `%check`).
* `-x EXTRA`: Include dependencies given by the given *extra* (XXX
link). [XXX Multiple comma separated values cannot be given yet.]
* `-t`: Include dependencies for the default *tox* environment.
Implies `-r`.
* `-e ENV`: Include dependencies for the given *tox* environment, and
save the `ENV` name as `%{toxenv}`. Implies `-r`. Multiple comma
separated values can be given, for example:
%pyproject_buildrequires -e %{toxenv}-unit,%{toxenv}-integration
* `%pyproject_save_files MODNAME …`
Generate a list of files corresponding to the given importable
modules, and save it as `%{pyproject_files}`.
Note that README and licence files are not included.
Also, while the macro allows including executable files (using the
`+bindir` flag), this feature **MUST NOT** be used in Fedora.
The `MODNAME` may be a glob pattern, which should be specific to
your package. As mentioned in the *Explicit lists* section, expressions
like `%pyproject_save_files *` are not acceptable.
* `%{pyproject_files}`
Path of the file written by `%pyproject_save_files`, to be used as:
%files -n python3-%{distname} -f %{pyproject_files}
* `%tox`
Run tests using `tox`.
A different environment may be specified with `-e`, for example:
```
%check
%tox
%if %{with integration_test}
%tox -e %{toxenv}-integration
%endif
```
Flags for the `tox` command can be specified after `--`:
%tox -- --parallel 0
Additional arguments for the test runner may be specified after
another `--`:
%tox -- --parallel 0 -- --verbose tests/*
* `%{toxenv}`
The *tox* environment used by the `%tox` macro.
Can be overridden manually or with `%pyproject_buildrequires -t ENV`.
* `%{default_toxenv}` (e.g. `py39`)
The system-wide default value of `%{toxenv}`.
### Manual Generation
The following macros are available for cases where automatic generation
is turned off.
They can also be useful for handling files in non-standard locations
where the generators don't look.
* `%pycached MODNAME.py`
Given a Python file, lists the file and the files with its bytecode
cache. See *Source files and bytecode cache* for more information.
* `%{py_provides python3-MODNAME}`
> XXX
See *The `%python_provide` macro* for more details.
* `%{py_byte_compile INTERPRETER PATH}`
> XXX`%{python3_byte_compile PATH}` XXX?
Byte-compile a Python file into a `__pycache__/*.pyc`.
See [Manual byte
compilation](https://docs.fedoraproject.org/en-US/packaging-guidelines/Py...
in the Appendix for usage.
* `%{py_dist_name PROJECTNAME}`
Given a *project name* (e.g. `PyYAML`) it will convert it to the
canonical format (e.g. `pyyaml`). See *Canonical project name* for more
information.
* `%{py3_dist PROJECTNAME …}`
Given one or more *project names*, it will convert them to the
canonical format and evaluate to `python3dist(DISTNAME)`, which is
useful when listing dependencies. See *Machine-readable provides* for
more information.
### System Settings
The following macros can be redefined for special use cases. Most of
such cases are unacceptable in Fedora.
* `%{__python}` (`/usr/bin/python`)
Defining this macro changes the meaning of all “unversioned” Python
macros such as `%{python}` or `%{python_sitelib}`.
Don’t use these macros without redefining `%{__python}`.
* `%{__python3}` (`/usr/bin/python3`)
The python 3 interpreter. Redefining this macro changes all the
`%{python3...}` macros, e.g. `%{python3_sitelib}`.
* `%{python3_pkgversion}` (`3`)
Distro-wide Python version, i.e. the `3` in `python3`.
Projects that build on top of Fedora may define it to e.g. `3.9` to
try allowing multiple Python stacks installable in parallel.
### XXX Conditionals?
> XXX How to properly express: "if python_version >= 3.8"?
> The current way is comparing integers from %python3_version_nodots,
but that will break with 3.10/4.0 comparsion.
> Do a Lua macro that splits the versions and compares them?
> This looks more general, is there something in RPM we can use?
### Disabling automation
The following macros can turn off Python-specific automation.
Consider contacting the Python SIG if you need to do this.
* `%{?python_disable_dependency_generator}`
Disables the automatic dependency generator. See *Automatically
generated dependencies* for details.
* `%__pythonname_provides`
> XXX undefine to disable %python-provides generator
* `%__pythondist_requires`
> XXX undefine to disable %python3dist generator
### Deprecated Macros
The following macros are deprecated. See the *201x-era Python Packaging
guidelines* (XXX link) for how some of them were used.
* `%py3_build`
* `%py3_build_wheel`
* `%py3_build_egg`
* `%py3_install`
* `%py3_install_wheel`
* `%py3_install_egg`
* `%py3dir`
* `%py3_other_build`
* `%py3_other_install`
* `%python_provide` (without `s` at the end)
> XXX: `%pyX_build` breaks shebang when upstream already uses some
flags (https://bugzilla.redhat.com/show_bug.cgi?id=1335203) -- should we
document this in the old guidelines?
## Reviewer checklist
> After the guidelines are done, distill the **MUST**s/**SHOULD**s here.
> XXX: Do we need a checklist at all?
> How do we keep it updated (which hasn't happened in the last N years)
2 years, 3 months
Python 3.9 (not so) mini mass rebuilds and when they will/can happen
by Miro Hrončok
Hello.
Kevin and Smooge, you are CCed in case you have some concerns regarding the data
centre move.
Jitka and Zuzka, you are CCed because you plan mini mass rebuilds of your own
(Perl and Node.js).
Ben, you are CCed because I considered it a good idea.
Python 3.9.0b1 was released earlier this week and we are running test rebuilds
in Copr. Things are going suspiciously well so far, except for some critical
stuff -- but we have that covered for now.
Hopefully nobody decides to upgrade something major right now :P
If everything goes extremely well, I expect us to start rebuilding the initial
bootstrap sequence (438 srpms) in Koji side tag this week, the remaining
packages (2733) the next week. We expect some packages to fail (~200-300) and
merge the side tag, so it's not open too long. We can help firefight things if
this blocks anybody.
There are possible followup rebuilds in play for two particular reasons:
1) The ABI can change between beta releases of Python and all arched Python
packages (661) will need a rebuild.
This can happen (but doesn't have to) at:
- beta 2: 2020-06-08+
- beta 3: 2020-06-29+
- beta 4: 2020-07-20+
Source: https://www.python.org/dev/peps/pep-0596/#schedule
Anytime during the release cycle, the format (magic number) of bytecode cache
(.pyc files) can change. The problems with that are not rawhide-critical, but we
don't want to ship wrong bytecode cache in Fedora 33 GA. Hence we'll check the
numbers prior beta freeze (2020-08-25) and rebuild what's needed (can be
anything between 0 and 3000).
--
Miro Hrončok
--
Phone: +420777974800
IRC: mhroncok
3 years, 3 months
PSA: pytest 5 now finally available in rawhide
by Miro Hrončok
Hello,
the pytest package (python3-pytest) has been updated to 5.4.2.
In case it gives you trouble, you can pin an older version:
BuildRrequires: %{py3_dist pytest} < 5
Or:
BuildRrequires: python3dist(pytest) < 5
That will give you the python3-pytest4 package (4.6.10 now), not parallely
installable with python3-pytest.
Note that the python3-pytest4 package is deprecated, but no removal date has
been set. Likely, it will get orphaned or retired when no important packages
need it.
The pytest 4.6.x series is still being occasionally released, but:
https://docs.pytest.org/en/latest/py27-py34-deprecation.html#maintenance-...
"From now on, the core team will no longer actively backport patches, but the
4.6.x branch will continue to exist so the community itself can contribute patches."
Side note: The Fedora 31/32 python3-pytest package does not provide
python3-pytest4, hence I recommend not to BuildRequire python3-pytest4 directly
by name, but using python3dist(pytest) or %py3_dist as in the examples above.
--
Miro Hrončok
--
Phone: +420777974800
IRC: mhroncok
3 years, 3 months
Re: Help needed with Fedora Python Classroom Lab container image
by Clement Verna
On Wed, 27 May 2020 at 02:28, Adam Williamson <adamwill(a)fedoraproject.org>
wrote:
> On Wed, 2020-05-27 at 01:20 +0200, Miro Hrončok wrote:
> > Hello.
> >
> > There is a docker/podman container image part of the Fedora Python
> Classroom Lab:
> >
> > https://labs.fedoraproject.org/en/python-classroom
> >
> > I need help with two main issues:
> >
> >
> > 1) The container doesn't built for Fedora 32:
> >
> > https://koji.fedoraproject.org/koji/taskinfo?taskID=45001647
> >
> > But I get an error I don't understand (dnf exited with error, but I see
> no error
> > message).
>
> Errors seem to be in x86_64.log:
>
> 2020-05-26 09:59:39,727 - atomic_reactor.util - DEBUG - Step 6/11 : RUN
> dnf -y --setopt=install_weak_deps=false --disablerepo rawhide-modular
> install "@python-classroom" nano openssh-clients vim-enhanced wget man
> && dnf clean all
> 2020-05-26 09:59:40,900 - atomic_reactor.util - DEBUG - ---> Running in
> 75ba910cc4cc
> 2020-05-26 09:59:42,917 - atomic_reactor.util - DEBUG - [91mNo repository
> match: rawhide-modular
> 2020-05-26 09:59:42,917 - atomic_reactor.util - DEBUG - [0m
> 2020-05-26 09:59:43,110 - atomic_reactor.util - DEBUG -
> atomic-reactor-koji-plugin-f32-container-candid 4.1 kB/s | 413 B 00:00
> 2020-05-26 09:59:43,289 - atomic_reactor.util - DEBUG - Fedora 32 openh264
> (From Cisco) - x86_64 34 kB/s | 5.1 kB 00:00
> 2020-05-26 09:59:43,542 - atomic_reactor.util - DEBUG - Fedora Modular 32
> - x86_64 20 MB/s | 4.9 MB 00:00
> 2020-05-26 09:59:44,455 - atomic_reactor.util - DEBUG - Fedora Modular 32
> - x86_64 - Updates 6.4 MB/s | 1.6 MB 00:00
> 2020-05-26 10:03:19,281 - atomic_reactor.util - DEBUG - Fedora 32 - x86_64
> - Updates 0.0 B/s | 0 B 03:34
> 2020-05-26 10:03:19,282 - atomic_reactor.util - DEBUG - [91mErrors during
> downloading metadata for repository 'updates':
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://mirrors.dotsrc.org/fedora-buffet/fedora/linux/updates/32/Everythin...
> [Failed to connect to mirrors.dotsrc.org port 80: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> https://mirror.lzu.edu.cn/fedora/updates/32/Everything/x86_64/repodata/re...
> [Failed to connect to mirror.lzu.edu.cn port 443: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://mirrors.ircam.fr/pub/fedora/linux/updates/32/Everything/x86_64/rep...
> [Failed to connect to mirrors.ircam.fr port 80: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://fedora.cu.be/linux/updates/32/Everything/x86_64/repodata/repomd.xml
> [Failed to connect to fedora.cu.be port 80: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://mirror.math.princeton.edu/pub/fedora/linux/updates/32/Everything/x...
> [Failed to connect to mirror.math.princeton.edu port 80: Connection
> refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://mirror.metrocast.net/fedora/linux/updates/32/Everything/x86_64/rep...
> [Failed to connect to mirror.metrocast.net port 80: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://mirrors.chroot.ro/fedora/linux/updates/32/Everything/x86_64/repoda...
> [Failed to connect to mirrors.chroot.ro port 80: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://mirror.init7.net/fedora/fedora/linux/updates/32/Everything/x86_64/...
> [Failed to connect to mirror.init7.net port 80: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://download-ib01.fedoraproject.org/pub/fedora/linux/updates/32/Everyt...
> [Failed to connect to download-ib01.fedoraproject.org port 80: Connection
> refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> https://pubmirror1.math.uh.edu/fedora-buffet/fedora/linux/updates/32/Ever...
> [Failed to connect to pubmirror1.math.uh.edu port 443: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> https://fedora.mirror.liteserver.nl/linux/updates/32/Everything/x86_64/re...
> [Failed to connect to fedora.mirror.liteserver.nl port 443: Connection
> refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> https://mirror.netcologne.de/fedora/linux/updates/32/Everything/x86_64/re...
> [Failed to connect to mirror.netcologne.de port 443: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> https://mirrors.lug.mtu.edu/fedora/linux/updates/32/Everything/x86_64/rep...
> [Failed to connect to mirrors.lug.mtu.edu port 443: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://mirrors.lug.mtu.edu/fedora/linux/updates/32/Everything/x86_64/repo...
> [Failed to connect to mirrors.lug.mtu.edu port 80: Connection refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> http://ftp-stud.hs-esslingen.de/pub/fedora/linux/updates/32/Everything/x8...
> [Failed to connect to ftp-stud.hs-esslingen.de port 80: Connection
> refused]
> 2020-05-26 10:03:19,283 - atomic_reactor.util - DEBUG - - Curl error (7):
> Couldn't connect to server for
> https://mirror.init7.net/fedora/fedora/linux/updates/32/Everything/x86_64...
> [Failed to connect to mirror.init7.net port 443: Connection refused]
>
> etc. etc.
>
> At first glance you'd think it's a network issue, but note it *did*
> successfully retrieve metadata for several other repos first. What I'd
> guess is that it works so long as it hits up a mirror within infra, but
> it seems to not be doing that and instead trying to connect to external
> mirrors, which presumably it's not allowed to route out to. The
> question I guess would be why it's getting an infra mirror for the
> other repos but apparently not for the updates repo. Not sure why that
> would be, off the top of my head.
>
So this happen if you are unlucky enough to try to build a container image
while the update repo is generated. It seems to happen quite often recently
(https://pagure.io/releng/issue/9435) but I honestly not sure how we can
improve the situation here :(.
> --
> Adam Williamson
> Fedora QA Community Monkey
> IRC: adamw | Twitter: AdamW_Fedora | XMPP: adamw AT happyassassin . net
> http://www.happyassassin.net
> _______________________________________________
> devel mailing list -- devel(a)lists.fedoraproject.org
> To unsubscribe send an email to devel-leave(a)lists.fedoraproject.org
> Fedora Code of Conduct:
> https://docs.fedoraproject.org/en-US/project/code-of-conduct/
> List Guidelines: https://fedoraproject.org/wiki/Mailing_list_guidelines
> List Archives:
> https://lists.fedoraproject.org/archives/list/devel@lists.fedoraproject.org
>
3 years, 3 months
Redesigning the %python_provide macro from scratch
by Miro Hrončok
Hello Python packagers.
After touching the %python_provide topic in:
https://lists.fedoraproject.org/archives/list/python-devel@lists.fedorapr...
I have realized several things I don't like about %python_provide:
1) It must be used conditionally (it is not defined in python-srpm-macros).
That means you always wrap it in %{?python_provide:...} in order to have a
"valid" specfile even when the macro is not yet defined (e.g. during SRPM
creation in Koji or on a packager's machine without python-rpm-macros installed).
2) You cannot use it with arbitrary versions. Suppose you package python3-foo
1.0 but you want to provide python3-bar 2.0 for some reason -- this is not very
common, but it happens. %python_provide only takes the "name" as an argument,
always using %{?epoch} %{version} and %{release}.
3) You need to both add a virtual provide + use the macro. Suppose you want to
provide python3-pkg_resources from python3-setuptools. Currently, you need to add:
Provides: python3-pkg_resources = %{version}-%{release}
%{?python_provide:%python_provide python3-pkg_resources}
4) When used with (sub)package name, it generates a duplicate dependency on
Fedora 33+ (and an rpmlint error).
5) It produces Obsoletes, but that might no longer be necessary nor desired.
6) Broken expectations about %_isa. It used to add %_isa provides based on wrong
data, it no longer does that (except on old releases and EPELs), can be used
manually with name%{?_isa}, but not on the old releases.
7) Undocuemnted error handling (e.g. the macro expands to nothing when used with
pypy-foo, but errors when used with foo).
Hence, I was thinking (for the sake of backwards compatibility) to provide a new
mechanism to do this and preserve the old macro as is, deprecating it in Fedora
36-ish, actually maybe removing it once RHEL 9 goes EOL (or never, which is
basically the same from today's perspective).
The new macro should solve the problems from above, my current (quick, untested)
ideas are:
1) Define the macro in python-srpm-macros. No need to use it conditionally. We
can backport it to EPEL 8 and define a "stub" macro in EPEL 7 and 6. (An if we
start using the macro only after Fedora 30 goes EOL, we can make the macro
behave consistently across all Fedora versions.)
2) Accept version identifier as an optional argument, use %{?epoch} %{version}
and %{release} as default. (See for example %{pypi_source} on how this can be done.)
3) Make the macro also produce the provide for the given name and document that.
E.g. when you call it with python3-pkg_resources, it also provides
python3-pkg_resources (not only python-pkg_resources etc.).
4) Make it so that for given arguments, the macro will only expand to something
once per build. Hence when you use it with package name, the automatic provides
won't re-add the same provide again. This also means you cannot have 2 different
(sub)packages provide the same name-version-release, but that shall be very very
very uncommon need and can always be workarounded somehow if needed.
5) No obsoletes with the new macro. Packagers use manual obsoletes when desired.
6) Document clearly that there is no %{?_isa} (and there is no "backwards
compatibility" load to carry). When absolutely desired, packagers can call the
macro with %{name}%{?_isa}.
7) Support arbitrary names. Only provide the given name and nothing else if not
"recognized".
As a bonus, I think the current if-elif-elif-elif-elif code can be replaced with
lua patterns (imagine regex).
As always, this leaves us with the name problem, but I'd very much like to use
%python_provides (note the s). The only problem I see is that it is likely to be
mistaken for the old one, but IMHO it shouldn't really hurt that much.
Usage example:
%package -n python3-setuptools
%python_provides python3-pkg_resources
Resulting provides:
python3-setuptools = 46.6.6-6.fc33
python-setuptools = 46.6.6-6.fc33
python39-pkg_resources = 46.6.6-6.fc33
python3-pkg_resources = 46.6.6-6.fc33
python-pkg_resources = 46.6.6-6.fc33
python39-pkg_resources = 46.6.6-6.fc33
Another example:
%package -n python3-pillow
%python_provides python3-PIL 1.1.6-100
Resulting provides:
python3-pillow = 7.1.1-1.fc33
python-pillow = 7.1.1-1.fc33
python39-pillow = 7.1.1-1.fc33
python3-PIL = 1.1.6-100
python-PIL = 1.1.6-100
python39-PIL = 1.1.6-100
Dummy when used with package name:
%package -n python3-pip
%python_provides python3-pip
Provides:
python3-pip = 20.0.2-1.fc33
python-pip = 20.0.2-1.fc33
python39-pip = 20.0.2-1.fc33
(all of them only once)
Any name is OK:
%python_provides wroom 666
Provides:
wroom = 666
What do you think?
--
Miro Hrončok
--
Phone: +420777974800
IRC: mhroncok
3 years, 3 months
Re: Python 3.9 (not so) mini mass rebuilds and when they will/can
happen
by Miro Hrončok
On 21. 05. 20 19:26, Kevin Fenzi wrote:
>>> If everything goes extremely well, I expect us to start rebuilding the
>>> initial
>>> bootstrap sequence (438 srpms) in Koji side tag this week, the remaining
>>> packages (2733) the next week. We expect some packages to fail (~200-300)
>>> and
>>> merge the side tag, so it's not open too long. We can help firefight
>>> things if
>>> this blocks anybody.
>
> I'm a bit worried about the kojira issues you were seeing, but you
> should now be able to do newrepos to unblock there right? I'd appreciate
> it if you could gather info if you see it being slow to make newrepos
> so we can get the koji folks to fix it. :)
I have the newrepo powers now, yes.
I am also gathering the wait times, so I can dump them in the issue when done.
>>> There are possible followup rebuilds in play for two particular reasons:
>>>
>>> 1) The ABI can change between beta releases of Python and all arched
>>> Python
>>> packages (661) will need a rebuild.
>>>
>>> This can happen (but doesn't have to) at:
>>>
>>> - beta 2: 2020-06-08+
>>> - beta 3: 2020-06-29+
>>
>> I am going to say that anything during this time frame is going to be touch
>> and go. We have not gotten the new builders up yet and I do not know what
>> our build capacity will be.
>>
>> When we are saying builds will be slow, I have been assuming that we are
>> going to be running at 1/8th to 1/4 normal capacity. [AKA if you think
>> things are slow now.. multiply by 4 or 8]. However Kevin deals with the
>> builders a lot more so may have a better estimate. I would say that your
>> best bet for all of these would be in COPR during that time frame to get
>> timely results and then schedule rebuilds based on that.
>
> Yeah, so the week of 2020-06-08 is going to be our migration week.
> There WILL be outages of things as we move services to the new
> datacenter. Do you have any more idea of _when_ in that week things
> might happen? If it's early in the week, I can try and move koji later
> in the week and you can hopefully be done. If it's later in the week,
> you are going to be going to the new, lower capacity koji. Ideally this
> would be a week to avoid any important builds if you can. ;)
2020-06-08 is the target release date of Python 3.9.0b2. From experience, the
actual release will likely happen a bit later, so not early in the week.
We can hold the update until you give us a signal.
If beta1 won't be a "rawhide is on fire" situation and beta2 actually breaks the
ABI, we can run test rebuilds in copr and wait for beta3 with the actual Fedora
update. Will coordinate with you when that happens.
> The week of the 29th should also as smooge notes be lower capacity.
> It should churn through the builds fine, but it will take longer.
Longer is no problem. This can be done within couple hours normally (excluding
some outliers such as libreoffice and ceph), so even with lower capacity
shouldn't be a disaster.
>>> - beta 4: 2020-07-20+
>>>
>>
>> I am expecting we will be back to normal capacity around this time.
Thanks for the info.
--
Miro Hrončok
--
Phone: +420777974800
IRC: mhroncok
3 years, 4 months
Can we revert numpy 1.19?
by Miro Hrončok
Hello Gwyn,
we are about to start rebuilding in Koji for Python 3.9 this or next week.
In Copr, we built NumPy 1.19 rc1 from dist git and it causes some friction. I
wonder whether you'd be OK to revert the commits and wait until the rebuilt is
done? The new version was not built in rawhide yet.
Thanks,
--
Miro Hrončok
--
Phone: +420777974800
IRC: mhroncok
3 years, 4 months
Working with epel7 on Fedora
by Scott Talbert
Any good workarounds for working with epel7 Python packages on Fedora?
Mainly dealing with the fact that python3_pkgversion differs from Fedora
to EPEL7. Ie, when doing 'fedpkg mockbuild' the SRPM will be generated
with the wrong python3_pkgversion.
I tried this, but it didn't seem to work:
fedpkg --release epel7 srpm --define 'python3_pkgversion 36'
Thanks,
Scott
3 years, 4 months