PEP: 656 Title: Platform Tag for Linux Distributions Using Musl Author: Tzu-ping Chung <uranusjr@gmail.com> Sponsor: Brett Cannon <brett@python.org> PEP-Delegate: TBD Discussions-To: https://discuss.python.org/t/7165 Status: Draft Type: Informational Content-Type: text/x-rst Created: 17-Mar-2021
This PEP proposes a new platfrom tag series musllinux
for binary Python package distributions for a Python installation that depends on musl on a Linux distribution. The tag works similarly to the "perennial manylinux" platform tags specified in 600
, but targeting platforms based on musl instead.
With the wide use of containers, distributions such as Alpine Linux [alpine], have been gaining more popularity than ever. Many of them based on musl [musl], a different libc implementation from glibc, and therefore cannot use the existing manylinux
platform tags. This means that Python package projects cannot deploy binary distributions on PyPI for them. Users of such projects demand build constraints from those projects, putting unnecessary burden on project maintainers.
According to the documentation, musl has a stable ABI, and maintains backwards compatibility [musl-compatibility] [compare-libcs], so a binary compiled against an earlier version of musl is guaranteed to run against a newer musl runtime [musl-compat-ml]. Therefore, we use a scheme similar to the glibc-version-based manylinux tags, but against musl versions instead of glibc.
Logic behind the new platform tag largely follows 600
("perennial manylinux"), and requires wheels using this tag make similar promises. Please refer to 600
for more details on rationale and reasoning behind the design.
The musllinux
platform tags only apply to Python interpreters dynamically linked against the musl libc and executed on the runtime shared library, on a Linux operating system. Statically linked interpreters or mixed builds with other libc implementations (such as glibc) are out of scope and not supported by platform tags defined in this document. Such interpreters should not claim compatibility with musllinux
platform tags.
Tags using the new scheme will take the form:
musllinux_${MUSLMAJOR}_${MUSLMINOR}_${ARCH}
This tag promises the wheel works on any mainstream Linux distribution that uses musl version ${MUSLMAJOR}.${MUSLMINOR}
, following the perennial design. All other system-level dependency requirements rely on the community's definition to the intentionally vague "mainstream" description introduced in 600
. A wheel may make use of newer system dependencies when all mainstream distributions using the specified musl version provide the dependency by default; once all mainstream distributions on the musl version ship a certain dependency version by default, users relying on older versions are automatically removed from the coverage of that musllinux
tag.
The musl version values can be obtained by executing the musl libc shared library the Python interpreter is currently running on, and parsing the output:
import re
import subprocess
def get_musl_major_minor(so: str) -> tuple[int, int] | None:
"""Detect musl runtime version.
Returns a two-tuple ``(major, minor)`` that indicates musl
library's version, or ``None`` if the given libc .so does not
output expected information.
The libc library should output something like this to stderr::
musl libc (x86_64)
Version 1.2.2
Dynamic Program Loader
"""
proc = subprocess.run([so], stderr=subprocess.PIPE, text=True)
lines = (line.strip() for line in proc.stderr.splitlines())
lines = [line for line in lines if line]
if len(lines) < 2 or lines[0][:4] != "musl":
return None
match = re.match(r"Version (\d+)\.(\d+)", lines[1])
if match:
return (int(match.group(1)), int(match.group(2)))
return None
There are currently two possible ways to find the musl library's location that a Python interpreter is running on, either with the system ldd
command [ldd], or by parsing the PT_INTERP
section's value from the executable's ELF header [elf].
Distributions using the tag make similar promises to those described in 600
, including:
- The distribution works on any mainstream Linux distributions with musl version
${MUSLMAJOR}.${MUSLMINOR}
or later. - The distribution's
${ARCH}
matches the return value ofsysconfig.get_platform()
on the host system, replacing period (.
) and hyphen (-
) characters with underscores (_
), as outlined in425
and427
.
Example values:
musllinux_1_1_x86_64 # musl 1.1 running on x86-64.
musllinux_1_2_aarch64 # musl 1.2 running on ARM 64-bit.
The value can be formatted with the following Python code:
import sysconfig
def format_musllinux(musl_version: tuple[int, int]) -> str:
os_name, sep, arch = sysconfig.get_platform().partition("-")
assert os_name == "linux" and sep, "Not a Linux"
arch = arch.replace(".", "_").replace("-", "_")
return f"musllinux_{musl_version[0]}_{musl_version[1]}_{arch}"
It is recommended for Python package repositories, including PyPI, to accept platform tags matching the following regular expression:
musllinux_([0-9]+)_([0-9]+)_([^.-]+)
Python package repositories may impose additional requirements to reject Wheels with known issues, including but not limited to:
- A
musllinux_1_1
wheel containing symbols only available in musl 1.2 or later. - Wheel that depends on external libraries not considered generally available to the intended audience of the package index.
- A platform tag claiming compatibility to a non-existent musl version (like
musllinux_9000_0
).
Such policies are ultimately up to individual package repositories. It is not the author's intention to impose restrictions to the maintainers.
There are no backwards compatibility concerns in this PEP.
Past experience on the manylinux
tag series shows this approach would be too costly time-wise. The author feels the "works well with others" rule both is more inclusive and works well enough in practice.
This document is placed in the public domain or under the CC0-1.0-Universal license, whichever is more permissive.
- alpine
- compare-libcs
- elf
- ldd
- musl
- musl-compat-ml
- musl-compatibility