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ReStructuredText
1094 lines
54 KiB
ReStructuredText
PEP: 668
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Title: Graceful cooperation between external and Python package managers
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Author: Geoffrey Thomas <geofft@ldpreload.com>,
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Matthias Klose <doko@ubuntu.com>,
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Filipe Laíns <lains@riseup.net>,
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Donald Stufft <donald@stufft.io>,
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Tzu-Ping Chung <uranusjr@gmail.com>,
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Stefano Rivera <stefanor@debian.org>,
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Elana Hashman <ehashman@debian.org>,
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Pradyun Gedam <pradyunsg@gmail.com>
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Discussions-To: https://discuss.python.org/t/graceful-cooperation-between-external-and-python-package-managers-pep-668/10302
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Status: Draft
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Type: Informational
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Content-Type: text/x-rst
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Created: 18-May-2021
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Post-History: 28-May-2021
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Abstract
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========
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A long-standing practical problem for Python users has been conflicts
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between OS package managers and Python-specific package management
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tools like pip. These conflicts include both Python-level API
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incompatibilities and conflicts over file ownership.
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Historically, Python-specific package management tools have defaulted
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to installing packages into an implicit global context. With the
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standardization and popularity of virtual environments, a better
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solution for most (but not all) use cases is to use Python-specific
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package management tools only within a virtual environment.
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This PEP proposes a mechanism for a Python installation to communicate
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to tools like pip that its global package installation context is
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managed by some means external to Python, such as an OS package
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manager. It specifies that Python-specific package management tools
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should neither install nor remove packages into the interpreter's
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global context, by default, and should instead guide the end user
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towards using a virtual environment.
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It also standardizes an interpretation of the ``sysconfig`` schemes so
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that, if a Python-specific package manager is about to install a
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package in an interpreter-wide context, it can do so in a manner that
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will avoid conflicting with the external package manager and reduces
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the risk of breaking software shipped by the external package manager.
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Terminology
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===========
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A few terms used in this PEP have multiple meanings in the contexts
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that it spans. For clarity, this PEP uses the following terms in
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specific ways:
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distro
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Short for "distribution," a collection of various sorts of
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software, ideally designed to work properly together, including
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(in contexts relevant to this document) the Python interpreter
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itself, software written in Python, and software written in other
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languages. That is, this is the sense used in phrases such as
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"Linux distro" or "Berkeley Software Distribution."
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A distro can be an operating system (OS) of its own, such as
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Debian, Fedora, or FreeBSD. It can also be an overlay distribution
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that installs on top of an existing OS, such as Homebrew or
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MacPorts.
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This document uses the short term "distro," because the term
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"distribution" has another meaning in Python packaging contexts: a
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source or binary distribution package of a single piece of Python
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language software, that is, in the sense of
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``setuptools.dist.Distribution`` or "sdist". To avoid confusion,
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this document does not use the plain term "distribution" at all.
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In the Python packaging sense, it uses the full phrase
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"distribution package" or just "package" (see below).
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The provider of a distro - the team or company that collects and
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publishes the software and makes any needed modifications - is its
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**distributor**.
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package
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A unit of software that can be installed and used within Python.
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That is, this refers to what Python-specific packaging tools tend
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to call a "`distribution package`_" or simply a "distribution";
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the colloquial abbreviation "package" is used in the sense of the
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Python Package Index.
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.. _`distribution package`: https://packaging.python.org/glossary/#term-Distribution-Package
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This document does not use "package" in the sense of an importable
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name that contains Python modules, though in many cases, a
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distribution package consists of a single importable package of
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the same name.
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This document generally does not use the term "package" to refer
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to units of installation by a distro's package manager (such as
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``.deb`` or ``.rpm`` files). When needed, it uses phrasing such as
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"a distro's package." (Again, in many cases, a Python package is
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shipped inside a distro's package named something like ``python-``
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plus the Python package name.)
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Python-specific package manager
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A tool for installing, upgrading, and/or removing Python packages
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in a manner that conforms to Python packaging standards (such as
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PEP 376 and PEP 427). The most popular Python-specific package
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manager is pip [#pip]_; other examples include the old Easy
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Install command [#easy-install]_ as well as direct usage of a
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``setup.py`` command.
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(Conda [#conda]_ is a bit of a special case, as the ``conda``
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command can install much more than just Python packages, making it
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more like a distro package manager in some senses. Since the
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``conda`` command generally only operates on Conda-created
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environments, most of the concerns in this document do not apply
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to ``conda`` when acting as a Python-specific package manager.)
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distro package manager
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A tool for installing, upgrading, and/or removing a distro's
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packages in an installed instance of that distro, which is capable
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of installing Python packages as well as non-Python packages, and
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therefore generally has its own database of installed software
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unrelated to PEP 376. Examples include ``apt``, ``dpkg``, ``dnf``,
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``rpm``, ``pacman``, and ``brew``. The salient feature is that if
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a package was installed by a distro package manager, removing or
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upgrading it in a way that would satisfy a Python-specific package
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manager will generally leave a distro package manager in an
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inconsistent state.
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This document also uses phrases like "external package manager" or
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"system's package manager" to refer to a distro package manager in
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certain contexts.
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shadow
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To shadow an installed Python package is to cause some other
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package to be preferred for imports without removing any files
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from the shadowed package. This requires multiple entries on
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``sys.path``: if package A 2.0 installs module ``a.py`` in one
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``sys.path`` entry, and package A 1.0 installs module ``a.py`` in
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a later ``sys.path`` entry, then ``import a`` returns the module
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from the former, and we say that A 2.0 shadows A 1.0.
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Motivation
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==========
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Thanks to Python's immense popularity, software distros (by which we
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mean Linux and other OS distros as well as overlay distros like
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Homebrew and MacPorts) generally ship Python for two purposes: as a
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software package to be used in its own right by end users, and as a
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language dependency for other software in the distro.
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For example, Fedora and Debian (and their downstream distros, as well
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as many others) ship a ``/usr/bin/python3`` binary which provides the
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``python3`` command available to end users as well as the
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``#!/usr/bin/python3`` shebang for Python-language software included
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in the distro. Because there are no official binary releases of Python
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for Linux/UNIX, almost all Python end users on these OSes use the
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Python interpreter built and shipped with their distro.
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The ``python3`` executable available to the users of the distro and
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the ``python3`` executable available as a dependency for other
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software in the distro are typically the same binary. This means that
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if an end user installs a Python package using a tool like ``pip``
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outside the context of a virtual environment, that package is visible
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to Python-language software shipped by the distro. If the
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newly-installed package (or one of its dependencies) is a newer,
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backwards-incompatible version of a package that was installed through
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the distro, it may break software shipped by the distro.
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This may pose a critical problem for the integrity of distros, which
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often have package-management tools that are themselves written in
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Python. For example, it's possible to unintentionally break Fedora's
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``dnf`` command with a ``pip install`` command, making it hard to
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recover.
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This applies both to system-wide installs (``sudo pip install``) as
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well as user home directory installs (``pip install --user``), since
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packages in either location show up on the ``sys.path`` of
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``/usr/bin/python3``.
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There is a worse problem with system-wide installs: if you attempt to
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recover from this situation with ``sudo pip uninstall``, you may end
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up removing packages that are shipped by the system's package manager.
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In fact, this can even happen if you simply upgrade a package - pip
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will try to remove the old version of the package, as shipped by the
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OS. At this point it may not be possible to recover the system to a
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consistent state using just the software remaining on the system.
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Over the past many years, a consensus has emerged that the best way to
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install Python libraries or applications (when not using a distro's
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package) is to use a virtual environment. This approach was
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popularized by the PyPA `virtualenv`_ project, and a simple version of
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that approach is now available in the Python standard library as
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``venv``. Installing a Python package into a virtualenv prevents it
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from being visible to the unqualified ``/usr/bin/python3`` interpreter
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and prevents breaking system software.
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.. _virtualenv: https://virtualenv.pypa.io/en/latest/
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In some cases, however, it's useful and intentional to install a
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Python package from outside of the distro that influences the behavior
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of distro-shipped commands. This is common in the case of software
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like Sphinx or Ansible which have a mechanism for writing
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Python-language extensions. A user may want to use their distro's
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version of the base software (for reasons of paid support or security
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updates) but install a small extension from PyPI, and they'd want that
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extension to be importable by the software in their base system.
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While this continues to carry the risk of installing a newer version
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of a dependency than the operating system expects or otherwise
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negatively affecting the behavior of an application, it does not need
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to carry the risk of removing files from the operating system. A tool
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like pip should be able to install packages in some directory on the
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default ``sys.path``, if specifically requested, without deleting
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files owned by the system's package manager.
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Therefore, this PEP proposes two things.
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First, it proposes **a way for distributors of a Python interpreter to
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mark that interpreter as having its packages managed by means external
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to Python**, such that Python-specific tools like pip should not
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change the installed packages in the interpreter's global ``sys.path``
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in any way (add, upgrade/downgrade, or remove) unless specifically
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overridden. It also provides a means for the distributor to indicate
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how to use a virtual environment as an alternative.
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This is an opt-in mechanism: by default, the Python interpreter
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compiled from upstream sources will not be so marked, and so running
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``pip install`` with a self-compiled interpreter, or with a distro
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that has not explicitly marked its interpreter, will work as it always
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has worked.
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Second, it sets the rule that when installing packages to an
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interpreter's global context (either to an unmarked interpreter, or if
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overriding the marking), **Python-specific package managers should
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modify or delete files only within the directories of the sysconfig
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scheme in which they would create files**. This permits a distributor
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of a Python interpreter to set up two directories, one for its own
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managed packages, and one for unmanaged packages installed by the end
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user, and ensure that installing unmanaged packages will not delete
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(or overwrite) files owned by the external package manager.
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Rationale
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=========
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As described in detail in the next section, the first behavior change
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involves creating a marker file named ``EXTERNALLY-MANAGED``, whose
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presence indicates that non-virtual-environment package installations
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are managed by some means external to Python, such as a distro's
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package manager. This file is specified to live in the ``stdlib``
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directory in the default ``sysconfig`` scheme, which marks the
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interpreter / installation as a whole, not a particular location on
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``sys.path``. The reason for this is that, as identified above, there
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are two related problems that risk breaking an externally-managed
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Python: you can install an incompatible new version of a package
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system-wide (e.g., with ``sudo pip install``), and you can install one
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in your user account alone, but in a location that is on the standard
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Python command's ``sys.path`` (e.g., with ``pip install --user``). If
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the marker file were in the system-wide ``site-packages`` directory,
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it would not clearly apply to the second case. The `Alternatives`_
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section has further discussion of possible locations.
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The second behavior change takes advantage of the existing
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``sysconfig`` setup in distros that have already encountered this
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class of problem, and specifically addresses the problem of a
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Python-specific package manager deleting or overwriting files that are
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owned by an external package manager.
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Use cases
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---------
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The changed behavior in this PEP is intended to "do the right thing"
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for as many use cases as possible. In this section, we consider the
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changes specified by this PEP for several representative use cases /
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contexts. Specifically, we ask about the two behaviors that could be
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changed by this PEP:
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1. Will a Python-specific installer tool like ``pip install`` permit
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installations by default, after implementation of this PEP?
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2. If you do run such a tool, should it be willing to delete packages
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shipped by the external (non-Python-specific) package manager for
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that context, such as a distro package manager?
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(For simplicity, this section discusses pip as the Python-specific
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installer tool, though the analysis should apply equally to any other
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Python-specific package management tool.)
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This table summarizes the use cases discussed in detail below:
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==== ================================= =========================== ===================================================
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Case Description ``pip install`` permitted Deleting externally-installed packages permitted
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==== ================================= =========================== ===================================================
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1 Unpatched CPython Currently yes; stays yes Currently yes; stays yes
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2 Distro ``/usr/bin/python3`` Currently yes; becomes no Currently yes (except on Debian); becomes no
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(assuming the distro
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adds a marker file)
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3 Distro Python in venv Currently yes; stays yes There are no externally-installed packages
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4 Distro Python in venv Currently yes; stays yes Currently no; stays no
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with ``--system-site-packages``
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5 Distro Python in Docker Currently yes; stays yes Currently yes; becomes no
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(assuming the Docker image
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removes the marker file)
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6 Conda environment Currently yes; stays yes Currently yes; stays yes
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7 Dev-facing distro Currently yes; becomes no Currently often yes; becomes no
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(assuming they add a (assuming they configure ``sysconfig`` as needed)
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marker file)
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8 Distro building packages Currently yes; can stay yes Currently yes; becomes no
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9 ``PYTHONHOME`` copied from Currently yes; becomes no Currently yes; becomes no
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a distro Python stdlib
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10 ``PYTHONHOME`` copied from Currently yes; stays yes Currently yes; stays yes
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upstream Python stdlib
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==== ================================= =========================== ===================================================
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In more detail, the use cases above are:
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1. A standard unpatched CPython, without any special configuration of
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or patches to ``sysconfig`` and without a marker file. This PEP
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does not change its behavior.
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Such a CPython should (regardless of this PEP) not be installed in
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a way that that overlaps any distro-installed Python on the same
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system. For instance, on an OS that ships Python in ``/usr/bin``,
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you should not install a custom CPython built with ``./configure
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--prefix=/usr``, or it will overwrite some files from the distro
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and the distro will eventually overwrite some files from your
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installation. Instead, your installation should be in a separate
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directory (perhaps ``/usr/local``, ``/opt``, or your home
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directory).
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Therefore, we can assume that such a CPython has its own ``stdlib``
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directory and its own ``sysconfig`` schemes that do not overlap any
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distro-installed Python. So any OS-installed packages are not
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visible or relevant here.
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If there is a concept of "externally-installed" packages in this
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case, it's something outside the OS and generally managed by
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whoever built and installed this CPython. Because the installer
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chose not to add a marker file or modify ``sysconfig`` schemes,
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they're choosing the current behavior, and ``pip install`` can
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remove any packages available in this CPython.
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2. A distro's ``/usr/bin/python3``, either when running ``pip
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install`` as root or ``pip install --user``, following our
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`Recommendations for distros`_.
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These recommendations include shipping a marker file in the
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``stdlib`` directory, to prevent ``pip install`` by default, and
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placing distro-shipped packages in a location other than the
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default ``sysconfig`` scheme, so that ``pip`` as root does not
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write to that location.
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Many distros (including Debian, Fedora, and their derivatives) are
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already doing the latter.
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On Debian and derivatives, ``pip install`` does not currently
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delete distro-installed packages, because Debian carries a `patch
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to pip to prevent this`__. So, for those distros, this PEP is not a
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behavior change; it simply standardizes that behavior in a way that
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is no longer Debian-specific and can be included into upstream pip.
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.. __: https://sources.debian.org/src/python-pip/20.3.4-2/debian/patches/hands-off-system-packages.patch/
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(We have seen user reports of externally-installed packages being
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deleted on Debian or a derivative. We suspect this is because the
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user has previously run ``sudo pip install --upgrade pip`` and
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therefore now has a version of ``/usr/bin/pip`` without the Debian
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patch; standardizing this behavior in upstream package installers
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would address this problem.)
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3. A distro Python when used inside a virtual environment (either from
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``venv`` or ``virtualenv``).
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Inside a virtual environment, all packages are owned by that
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environment. Even when ``pip``, ``setuptools``, etc. are installed
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into the environment, they are and should be managed by tools
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specific to that environment; they are not system-managed.
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4. A distro Python when used inside a virtual environment with
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``--system-site-packages``. This is like the previous case, but
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worth calling out explicitly, because anything on the global
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``sys.path`` is visible.
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Currently, the answer to "Will ``pip` delete externally-installed
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packages`` is no, because pip has a special case for running in a
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virtual environment and attempting to delete packages outside it.
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After this PEP, the answer remains no, but the reasoning becomes
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more general: system site packages will be outside any of the
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``sysconfig`` schemes used for package management in the
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environment.
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5. A distro Python when used in a single-application container image
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(e.g., a Docker container). In this use case, the risk of breaking
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system software is lower, since generally only a single application
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runs in the container, and the impact is lower, since you can
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rebuild the container and you don't have to struggle to recover a
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running machine. There are also a large number of existing
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Dockerfiles with an unqualified ``RUN pip install ...`` statement,
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etc., and it would be good not to break those. So, builders of base
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container images may want to ensure that the marker file is not
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present, even if the underlying OS ships one by default.
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There is a small behavior change: currently, ``pip`` run as root
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will delete externally-installed packages, but after this PEP it
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will not. We don't propose a way to override this. However, since
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the base image is generally minimal, there shouldn't be much of a
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use case for simply uninstalling packages (especially without using
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the distro's own tools). The common case is when pip wants to
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upgrade a package, which previously would have deleted the old
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version (except on Debian). After this change, the old version will
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still be on disk, but pip will still *shadow* externally-installed
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packages, and we believe this to be sufficient for this not to be a
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breaking change in practice - a Python ``import`` statement will
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still get you the newly-installed package.
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If it becomes necessary to have a way to do this, we suggest that
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the distro should document a way for the installer tool to access
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the ``sysconfig`` scheme used by the distro itself. See the
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`Recommendations for distros`_ section for more discussion.
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It is the view of the authors of this PEP that it's still a good
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idea to use virtual environments with distro-installed Python
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interpreters, even in single-application container images. Even
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though they run a single *application*, that application may run
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commands from the OS that are implemented in Python, and if you've
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installed or upgraded the distro-shipped Python packages using
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Python-specific tools, those commands may break.
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6. Conda specifically supports the use of non-``conda`` tools like pip
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to install software not available in the Conda repositories. In
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this context, Conda acts as the external package manager / distro
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and pip as the Python-specific one.
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In some sense, this is similar to the first case, since Conda
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provides its own installation of the Python interpreter.
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We don't believe this PEP requires any changes to Conda, and
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versions of pip that have implemented the changes in this PEP will
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continue to behave as they currently do inside Conda environments.
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(That said, it may be worth considering whether to use separate
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``sysconfig`` schemes for pip-installed and Conda-installed
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software, for the same reasons it's a good idea for other distros.)
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7. By a "developer-facing distro," we mean a specific type of distro
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where direct users of Python or other languages in the distro are
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expected or encouraged to make changes to the distro itself if they
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|
wish to add libraries. Common examples include private "monorepos"
|
|
at software development companies, where a single repository builds
|
|
both third-party and in-house software, and the direct users of the
|
|
distro's Python interpreter are generally software developers
|
|
writing said in-house software. User-level package managers like
|
|
Nixpkgs_ may also count, because they encourage users of Nix who
|
|
are Python developers to `package their software for Nix`__.
|
|
|
|
In these cases, the distro may want to respond to an attempted
|
|
``pip install`` with guidance encouraging use of the distro's own
|
|
facilities for adding new packages, along with a link to
|
|
documentation.
|
|
|
|
If the distro supports/encourages creating a virtual environment
|
|
from the distro's Python interpreter, there may also be custom
|
|
instructions for how to properly set up a virtual environment (as
|
|
for example Nixpkgs does).
|
|
|
|
.. _Nixpkgs: https://github.com/NixOS/nixpkgs
|
|
|
|
.. __: https://nixos.wiki/wiki/Python
|
|
|
|
8. When building distro Python packages for a distro Python (case 2),
|
|
it may be useful to have ``pip install`` be usable as part of the
|
|
distro's package build process. (Consider, for instance, building a
|
|
``python-xyz`` RPM by using ``pip install .`` inside an sdist /
|
|
source tarball for ``xyz``.) The distro may also want to use a more
|
|
targeted but still Python-specific installation tool such as
|
|
installer_.
|
|
|
|
.. _installer: https://installer.rtfd.io/
|
|
|
|
For this case, the build process will need to find some way to
|
|
suppress the marker file to allow ``pip install`` to work, and will
|
|
probably need to point the Python-specific tool at the distro's
|
|
``sysconfig`` scheme instead of the shipped default. See the
|
|
`Recommendations for distros`_ section for more discussion on how
|
|
to implement this.
|
|
|
|
As a result of this PEP, pip will no longer be able to remove
|
|
packages already on the system. However, this behavior change is
|
|
fine because a package build process should not (and generally
|
|
cannot) include instructions to delete some other files on the
|
|
system; it can only package up its own files.
|
|
|
|
9. A distro Python used with ``PYTHONHOME`` to set up an alternative
|
|
Python environment (as opposed to a virtual environment), where
|
|
``PYTHONHOME`` is set to some directory copied directly from the
|
|
distro Python (e.g., ``cp -a /usr/lib/python3.x pyhome/lib``).
|
|
|
|
Assuming there are no modifications, then the behavior is just like
|
|
the underlying distro Python (case 2). So there are behavior
|
|
changes - you can no longer ``pip install`` by default, and if you
|
|
override it, it will no longer delete externally-installed packages
|
|
(i.e., Python packages that were copied from the OS and live in the
|
|
OS-managed ``sys.path`` entry).
|
|
|
|
This behavior change seems to be defensible, in that if your
|
|
``PYTHONHOME`` is a straight copy of the distro's Python, it should
|
|
behave like the distro's Python.
|
|
|
|
10. A distro Python (or any Python interpreter) used with a
|
|
``PYTHONHOME`` taken from a compatible unmodified upstream Python.
|
|
|
|
Because the behavior changes in this PEP are keyed off of files in
|
|
the standard library (the marker file in ``stdlib`` and the
|
|
behavior of the ``sysconfig`` module), the behavior is just like
|
|
an unmodified upstream CPython (case 1).
|
|
|
|
Specification
|
|
=============
|
|
|
|
Marking an interpreter as using an external package manager
|
|
-----------------------------------------------------------
|
|
|
|
Before a Python-specific package installer (that is, a tool such as
|
|
pip - not an external tool such as apt) installs a package into a
|
|
certain Python context, it should make the following checks by
|
|
default:
|
|
|
|
1. Is it running outside of a virtual environment? It can determine
|
|
this by whether ``sys.prefix == sys.base_prefix`` (but see
|
|
`Backwards Compatibility`_).
|
|
|
|
2. Is there an ``EXTERNALLY-MANAGED`` file in the directory identified
|
|
by ``sysconfig.get_path("stdlib",
|
|
sysconfig.get_default_scheme())``?
|
|
|
|
If both of these conditions are true, the installer should exit with
|
|
an error message indicating that package installation into this Python
|
|
interpreter's directory are disabled outside of a virtual environment.
|
|
|
|
The installer should have a way for the user to override these rules,
|
|
such as a command-line flag ``--break-system-packages``. This option
|
|
should not be enabled by default and should carry some connotation
|
|
that its use is risky.
|
|
|
|
The ``EXTERNALLY-MANAGED`` file is an INI-style metadata file intended
|
|
to be parsable by the standard library configparser_ module. If the
|
|
file can be parsed by
|
|
``configparser.ConfigParser(interpolation=None)`` using the UTF-8
|
|
encoding, and it contains a section ``[externally-managed]``, then the
|
|
installer should look for an error message specified in the file and
|
|
output it as part of its error. If the first element of the tuple
|
|
returned by ``locale.getlocale(locale.LC_MESSAGES)``, i.e., the
|
|
language code, is not ``None``, it should look for the error message
|
|
as the value of a key named ``Error-`` followed by the language code.
|
|
If that key does not exist, and if the language code contains
|
|
underscore or hyphen, it should look for a key named ``Error-``
|
|
followed by the portion of the language code before the underscore or
|
|
hyphen. If it cannot find either of those, or if the language code is
|
|
``None``, it should look for a key simply named ``Error``.
|
|
|
|
.. _configparser: https://docs.python.org/3/library/configparser.html
|
|
|
|
If the installer cannot find an error message in the file (either
|
|
because the file cannot be parsed or because no suitable error key
|
|
exists), then the installer should just use a pre-defined error
|
|
message of its own, which should suggest that the user create a
|
|
virtual environment to install packages.
|
|
|
|
Software distributors who have a non-Python-specific package manager
|
|
that manages libraries in the ``sys.path`` of their Python package
|
|
should, in general, ship a ``EXTERNALLY-MANAGED`` file in their
|
|
standard library directory. For instance, Debian may ship a file in
|
|
``/usr/lib/python3.9/EXTERNALLY-MANAGED`` consisting of something like
|
|
|
|
::
|
|
|
|
[externally-managed]
|
|
Error=To install Python packages system-wide, try apt install
|
|
python3-xyz, where xyz is the package you are trying to
|
|
install.
|
|
|
|
If you wish to install a non-Debian-packaged Python package,
|
|
create a virtual environment using python3 -m venv path/to/venv.
|
|
Then use path/to/venv/bin/python and path/to/venv/bin/pip. Make
|
|
sure you have python3-full installed.
|
|
|
|
If you wish to install a non-Debian packaged Python application,
|
|
it may be easiest to use pipx install xyz, which will manage a
|
|
virtual environment for you. Make sure you have pipx installed.
|
|
|
|
See /usr/share/doc/python3.9/README.venv for more information.
|
|
|
|
which provides useful and distro-relevant information
|
|
to a user trying to install a package. Optionally,
|
|
translations can be provided in the same file:
|
|
|
|
::
|
|
|
|
Error-de_DE=Wenn ist das Nunstück git und Slotermeyer?
|
|
|
|
Ja! Beiherhund das Oder die Virtualenvironment gersput!
|
|
|
|
In certain contexts, such as single-application container images that
|
|
aren't updated after creation, a distributor may choose not to ship an
|
|
``EXTERNALLY-MANAGED`` file, so that users can install whatever they
|
|
like (as they can today) without having to manually override this
|
|
rule.
|
|
|
|
Writing to only the target ``sysconfig`` scheme
|
|
-----------------------------------------------
|
|
|
|
Usually, a Python package installer installs to directories in a
|
|
scheme returned by the ``sysconfig`` standard library package.
|
|
Ordinarily, this is the scheme returned by
|
|
``sysconfig.get_default_scheme()``, but based on configuration (e.g.
|
|
``pip install --user``), it may use a different scheme.
|
|
|
|
Whenever the installer is installing to a ``sysconfig`` scheme, this
|
|
PEP specifies that the installer should never modify or delete files
|
|
outside of that scheme. For instance, if it's upgrading a package, and
|
|
the package is already installed in a directory outside that scheme
|
|
(perhaps in a directory from another scheme), it should leave the
|
|
existing files alone.
|
|
|
|
If the installer does end up shadowing an existing installation during
|
|
an upgrade, we recommend that it produces a warning at the end of its
|
|
run.
|
|
|
|
If the installer is installing to a location outside of a
|
|
``sysconfig`` scheme (e.g., ``pip install --target``), then this
|
|
subsection does not apply.
|
|
|
|
Recommendations for distros
|
|
===========================
|
|
|
|
This section is non-normative. It provides best practices we believe
|
|
distros should follow unless they have a specific reason otherwise.
|
|
|
|
Mark the installation as externally managed
|
|
-------------------------------------------
|
|
|
|
Distros should create an ``EXTERNALLY-MANAGED`` file in their
|
|
``stdlib`` directory.
|
|
|
|
Guide users towards virtual environments
|
|
----------------------------------------
|
|
|
|
The file should contain a useful and distro-relevant error message
|
|
indicating both how to install system-wide packages via the distro's
|
|
package manager and how to set up a virtual environment. If your
|
|
distro is often used by users in a state where the ``python3`` command
|
|
is available (and especially where ``pip`` or ``get-pip`` is
|
|
available) but ``python3 -m venv`` does not work, the message should
|
|
indicate clearly how to make ``python3 -m venv`` work properly.
|
|
|
|
Consider packaging pipx_, a tool for installing Python-language
|
|
applications, and suggesting it in the error. pipx automatically
|
|
creates a virtual environment for that application alone, which is a
|
|
much better default for end users who want to install some
|
|
Python-language software (which isn't available in the distro) but are
|
|
not themselves Python users. Packaging pipx in the distro avoids the
|
|
irony of instructing users to ``pip install --user
|
|
--break-system-packages pipx`` to *avoid* breaking system packages.
|
|
Consider arranging things so your distro's package / environment for
|
|
Python for end users (e.g., ``python3`` on Fedora or ``python3-full``
|
|
on Debian) depends on pipx.
|
|
|
|
.. _pipx: https://github.com/pypa/pipx
|
|
|
|
Remove the marker file in container images
|
|
------------------------------------------
|
|
|
|
Distros that produce official images for single-application containers
|
|
(e.g., Docker container images) should remove the
|
|
``EXTERNALLY-MANAGED`` file, preferably in a way that makes it not
|
|
come back if a user of that image installs package updates inside
|
|
their image (think ``RUN apt-get dist-upgrade``). On dpkg-based
|
|
systems, using ``dpkg-divert --local`` to persistently rename the file
|
|
would work. On other systems, there may need to be some configuration
|
|
flag available to a post-install script to re-remove the
|
|
``EXTERNALLY-MANAGED`` file.
|
|
|
|
Create separate distro and local directories
|
|
--------------------------------------------
|
|
|
|
Distros should place two separate paths on the system interpreter's
|
|
``sys.path``, one for distro-installed packages and one for packages
|
|
installed by the local system administrator, and configure
|
|
``sysconfig.get_default_scheme()`` to point at the latter path. This
|
|
ensures that tools like pip will not modify distro-installed packages.
|
|
The path for the local system administrator should come before the
|
|
distro path on ``sys.path`` so that local installs take preference
|
|
over distro packages.
|
|
|
|
For example, Fedora and Debian (and their derivatives) both implement
|
|
this split by using ``/usr/local`` for locally-installed packages and
|
|
``/usr`` for distro-installed packages. Fedora uses
|
|
``/usr/local/lib/python3.x/site-packages`` vs.
|
|
``/usr/lib/python3.x/site-packages``. (Debian uses
|
|
``/usr/local/lib/python3/dist-packages`` vs.
|
|
``/usr/lib/python3/dist-packages`` as an additional layer of
|
|
separation from a locally-compiled Python interpreter: if you build
|
|
and install upstream CPython in ``/usr/local/bin``, it will look at
|
|
``/usr/local/lib/python3/site-packages``, and Debian wishes to make
|
|
sure that packages installed via the locally-built interpreter don't
|
|
show up on ``sys.path`` for the distro interpreter.)
|
|
|
|
Note that the ``/usr/local`` vs. ``/usr`` split is analogous to how
|
|
the ``PATH`` environment variable typically includes
|
|
``/usr/local/bin:/usr/bin`` and non-distro software installs to
|
|
``/usr/local`` by default. This split is `recommended by the
|
|
Filesystem Hierarchy Standard`__.
|
|
|
|
.. __: https://refspecs.linuxfoundation.org/FHS_3.0/fhs/ch04s09.html
|
|
|
|
There are two ways you could do this. One is, if you are building and
|
|
packaging Python libraries directly (e.g., your packaging helpers
|
|
unpack a PEP 517-built wheel or call ``setup.py install``), arrange
|
|
for those tools to use a directory that is not in a ``sysconfig``
|
|
scheme but is still on ``sys.path``.
|
|
|
|
The other is to arrange for the default ``sysconfig`` scheme to change
|
|
when running inside a package build versus when running on an
|
|
installed system. The ``sysconfig`` customization hooks from
|
|
bpo-43976_ should make this easy: make your packaging tool set an
|
|
environment variable or some other detectable configuration, and
|
|
define a ``get_preferred_schemes`` function to return a different
|
|
scheme when called from inside a package build. Then you can use ``pip
|
|
install`` as part of your distro packaging.
|
|
|
|
.. _bpo-43976: https://bugs.python.org/issue43976
|
|
|
|
We propose adding a ``--scheme=...`` option to instruct pip to run
|
|
against a specific scheme. (See `Implementation Notes`_ below for how
|
|
pip currently determines schemes.) Once that's available, for local
|
|
testing and possibly for actual packaging, you would be able to run
|
|
something like ``pip install --scheme=posix_distro`` to explicitly
|
|
install a package into your distro's location (bypassing
|
|
``get_preferred_schemes``). One could also, if absolutely needed, use
|
|
``pip uninstall --scheme=posix_distro`` to use pip to remove packages
|
|
from the system-managed directory, which addresses the (hopefully
|
|
theoretical) regression in use case 5 in Rationale_.
|
|
|
|
To install packages with pip, you would also need to either suppress
|
|
the ``EXTERNALLY-MANAGED`` marker file to allow pip to run or to
|
|
override it on the command line. You may want to use the same means
|
|
for suppressing the marker file in build chroots as you do in
|
|
container images.
|
|
|
|
The advantage of setting these up to be automatic (suppressing the
|
|
marker file in your build environment and having
|
|
``get_preferred_schemes`` automatically return your distro's scheme)
|
|
is that an unadorned ``pip install`` will work inside a package build,
|
|
which generally means that an unmodified upstream build script that
|
|
happens to internally call ``pip install`` will do the right thing.
|
|
You can, of course, just ensure that your packaging process always
|
|
calls ``pip install --scheme=posix_distro --break-system-packages``,
|
|
which would work too.
|
|
|
|
The best approach here depends a lot on your distro's conventions and
|
|
mechanisms for packaging.
|
|
|
|
Similarly, the ``sysconfig`` paths that are not for importable Python
|
|
code - that is, ``include``, ``platinclude``, ``scripts``, and
|
|
``data`` - should also have two variants, one for use by
|
|
distro-packaged software and one for use for locally-installed
|
|
software, and the distro should be set up such that both are usable.
|
|
For instance, a typical FHS-compliant distro will use
|
|
``/usr/local/include`` for the default scheme's ``include`` and
|
|
``/usr/include`` for distro-packaged headers and place both on the
|
|
compiler's search path, and it will use ``/usr/local/bin`` for the
|
|
default scheme's ``scripts`` and ``/usr/bin`` for distro-packaged
|
|
entry points and place both on ``$PATH``.
|
|
|
|
Backwards Compatibility
|
|
=======================
|
|
|
|
All of these mechanisms are proposed for new distro releases and new
|
|
versions of tools like pip only.
|
|
|
|
In particular, we strongly recommend that distros with a concept of
|
|
major versions only add the marker file or change ``sysconfig``
|
|
schemes in a new major version; otherwise there is a risk that, on an
|
|
existing system, software installed via a Python-specific package
|
|
manager now becomes unmanageable (without an override option). For a
|
|
rolling-release distro, if possible, only add the marker file or
|
|
change ``sysconfig`` schemes in a new Python minor version.
|
|
|
|
One particular backwards-compatibility difficulty for package
|
|
installation tools is likely to be managing environments created by
|
|
old versions of ``virtualenv`` which have the latest version of the
|
|
tool installed. A "virtual environment" now has a fairly precise
|
|
definition: it uses the ``pyvenv.cfg`` mechanism, which causes
|
|
``sys.base_prefix != sys.prefix``. It is possible, however, that a
|
|
user may have an old virtual environment created by an older version
|
|
of ``virtualenv``; as of this writing, pip supports Python 3.6
|
|
onwards, which is in turn supported by ``virtualenv`` 15.1.0 onwards,
|
|
so this scenario is possible. In older versions of ``virtualenv``, the
|
|
mechanism is instead to set a new attribute, ``sys.real_prefix``, and
|
|
it does not use the standard library support for virtual environments,
|
|
so ``sys.base_prefix`` is the same as ``sys.prefix``. So the logic for
|
|
robustly detecting a virtual environment is something like::
|
|
|
|
def is_virtual_environment():
|
|
return sys.base_prefix != sys.prefix or hasattr(sys, "real_prefix")
|
|
|
|
Security Implications
|
|
=====================
|
|
|
|
The purpose of this feature is not to implement a security boundary;
|
|
it is to discourage well-intended changes from unexpectedly breaking a
|
|
user's environment. That is to say, the reason this PEP restricts
|
|
``pip install`` outside a virtual environment is not that it's a
|
|
security risk to be able to do so; it's that "There should be one--
|
|
and preferably only one --obvious way to do it," and that way should
|
|
be using a virtual environment. ``pip install`` outside a virtual
|
|
environment is rather too obvious for what is almost always the wrong
|
|
way to do it.
|
|
|
|
If there is a case where a user should not be able to ``sudo pip
|
|
install`` or ``pip install --user`` and add files to ``sys.path`` *for
|
|
security reasons*, that needs to be implemented either via access
|
|
control rules on what files the user can write to or an explicitly
|
|
secured ``sys.path`` for the program in question. Neither of the
|
|
mechanisms in this PEP should be interpreted as a way to address such
|
|
a scenario.
|
|
|
|
For those reasons, an attempted install with a marker file present is
|
|
not a security incident, and there is no need to raise an auditing
|
|
event for it. If the calling user legitimately has access to ``sudo
|
|
pip install`` or ``pip install --user``, they can accomplish the same
|
|
installation entirely outside of Python; if they do not legitimately
|
|
have such access, that's a problem outside the scope of this PEP.
|
|
|
|
The marker file itself is located in the standard library directory,
|
|
which is a trusted location (i.e., anyone who can write to the marker
|
|
file used by a particular installer could, presumably, run arbitrary
|
|
code inside the installer). Therefore, there is generally no need to
|
|
filter out terminal escape sequences or other potentially-malicious
|
|
content in the error message.
|
|
|
|
Alternatives
|
|
==============
|
|
|
|
There are a number of similar proposals we considered that this PEP
|
|
rejects or defers, largely to preserve the behavior in the
|
|
case-by-case analysis in Rationale_.
|
|
|
|
Marker file
|
|
-----------
|
|
|
|
Should the marker file be in ``sys.path``, marking a particular
|
|
directory as not to be written to by a Python-specific package
|
|
manager? This would help with the second problem addressed by this PEP
|
|
(not overwriting deleting distro-owned files) but not the first
|
|
(incompatible installs). A directory-specific marker in
|
|
``/usr/lib/python3.x/site-packages`` would not discourage
|
|
installations into either ``/usr/local/lib/python3.x/site-packages``
|
|
or ``~/.local/lib/python3.x/site-packages``, both of which are on
|
|
``sys.path`` for ``/usr/bin/python3``. In other words, the marker file
|
|
should not be interpreted as marking a single *directory* as
|
|
externally managed (even though it happens to be in a directory on
|
|
``sys.path``); it marks the entire *Python installation* as externally
|
|
managed.
|
|
|
|
Another variant of the above: should the marker file be in
|
|
``sys.path``, where if it can be found in any directory in
|
|
``sys.path``, it marks the installation as externally managed? An
|
|
apparent advantage of this approach is that it automatically disables
|
|
itself in virtual environments. Unfortunately, This has the wrong
|
|
behavior with a ``--system-site-packages`` virtual environment, where
|
|
the system-wide ``sys.path`` is visible but package installations are
|
|
allowed. (It could work if the rule of exempting virtual environments
|
|
is preserved, but that seems to have no advantage over the current
|
|
scheme.)
|
|
|
|
Should the marker just be a new attribute of a ``sysconfig`` scheme?
|
|
There is some conceptual cleanliness to this, except that it's hard to
|
|
override. We want to make it easy for container images, package build
|
|
environments, etc. to suppress the marker file. A file that you can
|
|
remove is easy; code in ``sysconfig`` is much harder to modify.
|
|
|
|
Should the file be in ``/etc``? No, because again, it refers to a
|
|
specific Python installation. A user who installs their own Python may
|
|
well want to install packages within the global context of that
|
|
interpreter.
|
|
|
|
Should the configuration setting be in ``pip.conf`` or
|
|
``distutils.cfg``? Apart from the above objections about marking an
|
|
installation, this mechanism isn't specific to either of those tools.
|
|
(It seems reasonable for pip to *also* implement a configuration flag
|
|
for users to prevent themselves from performing accidental
|
|
non-virtual-environment installs in any Python installation, but that
|
|
is outside the scope of this PEP.)
|
|
|
|
Should the file be TOML? TOML is gaining popularity for packaging (see
|
|
e.g. PEP 517) but does not yet have an implementation in the standard
|
|
library. Strictly speaking, this isn't a blocker - distros need only
|
|
write the file, not read it, so they don't need a TOML library (the
|
|
file will probably be written by hand, regardless of format), and
|
|
packaging tools likely have a TOML reader already. However, the INI
|
|
format is currently used for various other forms of packaging metadata
|
|
(e.g., ``pydistutils.cfg`` and ``setup.cfg``), meets our needs, and is
|
|
parsable by the standard library, and the pip maintainers expressed a
|
|
preference to avoid using TOML for this yet.
|
|
|
|
Should the file be ``email.message``-style? While this format is also
|
|
used for packaging metadata (e.g. sdist and wheel metadata) and is
|
|
also parsable by the standard library, it doesn't handle multi-line
|
|
entries quite as clearly, and that is our primary use case.
|
|
|
|
Should the marker file be executable Python code that evaluates
|
|
whether installation should be allowed or not? Apart from the concerns
|
|
above about having the file in ``sys.path``, we have a concern that
|
|
making it executable is committing to too powerful of an API and risks
|
|
making behavior harder to understand. (Note that the
|
|
``get_default_scheme`` hook of bpo-43976_ is in fact executable, but
|
|
that code needs to be supplied when the interpreter builds; it isn't
|
|
intended to be supplied post-build.)
|
|
|
|
When overriding the marker, should a Python-specific package manager
|
|
be disallowed from shadowing a package installed by the external
|
|
package manager (i.e., installing modules of the same name)? This
|
|
would minimize the risk of breaking system software, but it's not
|
|
clear it's worth the additional user experience complexity. There are
|
|
legitimate use cases for shadowing system packages, and an additional
|
|
command-line option to permit it would be more confusing. Meanwhile,
|
|
not passing that option wouldn't eliminate the risk of breaking system
|
|
software, which may be relying on a ``try: import xyz`` failing,
|
|
finding a limited set of entry points, etc. Communicating this
|
|
distinction seems difficult. We think it's a good idea for
|
|
Python-specific package managers to print a warning if they shadow a
|
|
package, but we think it's not worth disabling it by default.
|
|
|
|
Why not use the ``INSTALLER`` file from PEP 376 to determine who
|
|
installed a package and whether it can be removed? First, it's
|
|
specific to a particular package (it's in the package's ``dist-info``
|
|
directory), so like some of the alternatives above, it doesn't provide
|
|
information on an entire environment and whether package installations
|
|
are permissible. PEP 627 also updates PEP 376 to prevent programmatic
|
|
use of ``INSTALLER``, specifying that the file is "to be used for
|
|
informational purposes only. [...] Our goal is supporting
|
|
interoperating tools, and basing any action on which tool happened to
|
|
install a package runs counter to that goal." Finally, as PEP 627
|
|
envisions, there are legitimate use cases for one tool knowing how to
|
|
handle packages installed by another tool; for instance, ``conda`` can
|
|
safely remove a package installed by ``pip`` into a Conda environment.
|
|
|
|
Why does the specification give no means for disabling package
|
|
installations inside a virtual environment? We can't see a
|
|
particularly strong use case for it (at least not one related to the
|
|
purposes of this PEP). If you need it, it's simple enough to ``pip
|
|
uninstall pip`` inside that environment, which should discourage at
|
|
least unintentional changes to the environment (and this specification
|
|
makes no provision to disable *intentional* changes, since after all
|
|
the marker file can be easily removed).
|
|
|
|
System Python
|
|
-------------
|
|
|
|
Shouldn't distro software just run with the distro ``site-packages``
|
|
directory alone on ``sys.path`` and ignore the local system
|
|
administrator's ``site-packages`` as well as the user-specific one?
|
|
This is a worthwhile idea, and various versions of it have been
|
|
circulating for a while under the name of "system Python" or "platform
|
|
Python" (with a separate "user Python" for end users writing Python or
|
|
installing Python software separate from the system). However, it's
|
|
much more involved of a change. First, it would be a
|
|
backwards-incompatible change. As mentioned in the Motivation_
|
|
section, there are valid use cases for running distro-installed Python
|
|
applications like Sphinx or Ansible with locally-installed Python
|
|
libraries available on their ``sys.path``. A wholesale switch to
|
|
ignoring local packages would break these use cases, and a distro
|
|
would have to make a case-by-case analysis of whether an application
|
|
ought to see locally-installed libraries or not.
|
|
|
|
Furthermore, `Fedora attempted this change and reverted it`_, finding,
|
|
ironically, that their implementation of the change `broke their
|
|
package manager`_. Given that experience, there are clearly details to
|
|
be worked out before distros can reliably implement that approach, and
|
|
a PEP recommending it would be premature.
|
|
|
|
.. _`Fedora attempted this change and reverted it`: https://lists.fedoraproject.org/archives/list/devel@lists.fedoraproject.org/thread/SEFUWW4XZBTVOAQ36XOJQ72PIICMFOSN/
|
|
.. _`broke their package manager`: https://bugzilla.redhat.com/show_bug.cgi?id=1483342
|
|
|
|
This PEP is intended to be a complete and self-contained change that
|
|
is independent of a distributor's decision for or against "system
|
|
Python" or similar proposals. It is not incompatible with a distro
|
|
implementing "system Python" in the future, and even though both
|
|
proposals address the same class of problems, there are still
|
|
arguments in favor of implementing something like "system Python" even
|
|
after implementing this PEP. At the same time, though, this PEP
|
|
specifically tries to make a more targeted and minimal change, such
|
|
that it can be implemented by distributors who don't expect to adopt
|
|
"system Python" (or don't expect to implement it immediately). The
|
|
changes in this PEP stand on their own merits and are not an
|
|
intermediate step for some future proposal. This PEP reduces (but does
|
|
not eliminate) the risk of breaking system software while minimizing
|
|
(but not completely avoiding) breaking changes, which should therefore
|
|
be much easier to implement than the full "system Python" idea, which
|
|
comes with the downsides mentioned above.
|
|
|
|
We expect that the guidance in this PEP - that users should use
|
|
virtual environments whenever possible and that distros should have
|
|
separate ``sys.path`` directories for distro-managed and
|
|
locally-managed modules - should make further experiments easier in
|
|
the future. These may include distributing wholly separate "system"
|
|
and "user" Python interpreters, running system software out of a
|
|
distro-owned virtual environment or ``PYTHONHOME`` (but shipping a
|
|
single interpreter), or modifying the entry points for certain
|
|
software (such as the distro's package manager) to use a ``sys.path``
|
|
that only sees distro-managed directories. Those ideas themselves,
|
|
however, remain outside the scope of this PEP.
|
|
|
|
Implementation Notes
|
|
====================
|
|
|
|
This section is non-normative and contains notes relevant to both the
|
|
specification and potential implementations.
|
|
|
|
Currently, pip does not directly expose a way to choose a target
|
|
``sysconfig`` scheme, but it has three ways of looking up schemes when
|
|
installing:
|
|
|
|
``pip install``
|
|
Calls ``sysconfig.get_default_scheme()``, which is usually (in
|
|
upstream CPython and most current distros) the same as
|
|
``get_preferred_scheme('prefix')``.
|
|
|
|
``pip install --prefix=/some/path``
|
|
Calls ``sysconfig.get_preferred_scheme('prefix')``.
|
|
|
|
``pip install --user``
|
|
Calls ``sysconfig.get_preferred_scheme('user')``.
|
|
|
|
Finally, ``pip install --target=/some/path`` writes directly to
|
|
``/some/path`` without looking up any schemes.
|
|
|
|
Debian currently carries a `patch to change the default install
|
|
location inside a virtual environment`__, using a few heuristics
|
|
(including checking for the ``VIRTUAL_ENV`` environment variable),
|
|
largely so that the directory used in a virtual environment remains
|
|
``site-packages`` and not ``dist-packages``. This does not
|
|
particularly affect this proposal, because the implementation of that
|
|
patch does not actually change the default ``sysconfig`` scheme, and
|
|
notably does not change the result of
|
|
``sysconfig.get_path("stdlib")``.
|
|
|
|
.. __: https://sources.debian.org/src/python3.7/3.7.3-2+deb10u3/debian/patches/distutils-install-layout.diff/
|
|
|
|
Fedora currently carries a `patch to change the default install
|
|
location when not running inside rpmbuild`__, which they use to
|
|
implement the two-system-wide-directories approach. This is
|
|
conceptually the sort of hook envisioned by bpo-43976_, except
|
|
implemented as a code patch to ``distutils`` instead of as a changed
|
|
``sysconfig`` scheme.
|
|
|
|
.. __: https://src.fedoraproject.org/rpms/python3.9/blob/f34/f/00251-change-user-install-location.patch
|
|
|
|
The implementation of ``is_virtual_environment`` above, as well as the
|
|
logic to load the ``EXTERNALLY-MANAGED`` file and find the error
|
|
message from it, may as well get added to the standard library
|
|
(``sys`` and ``sysconfig``, respectively), to centralize their
|
|
implementations, but they don't need to be added yet.
|
|
|
|
References
|
|
==========
|
|
|
|
For additional background on these problems and previous attempts to
|
|
solve them, see `Debian bug 771794`_ "pip silently removes/updates
|
|
system provided python packages` from 2014, Fedora's 2018 article
|
|
`Making sudo pip safe`_ about pointing ``sudo pip`` at /usr/local
|
|
(which acknowledges that the changes still do not make ``sudo pip``
|
|
completely safe), pip issues 5605_ ("Disable upgrades to existing
|
|
python modules which were not installed via pip") and 5722_ ("pip
|
|
should respect /usr/local") from 2018, and the post-PyCon US 2019
|
|
discussion thread `Playing nice with external package managers`_.
|
|
|
|
.. _`Debian bug 771794`: https://bugs.debian.org/771794
|
|
|
|
.. _`Making sudo pip safe`: https://fedoraproject.org/wiki/Changes/Making_sudo_pip_safe
|
|
|
|
.. _5605: https://github.com/pypa/pip/issues/5605
|
|
|
|
.. _5722: https://github.com/pypa/pip/issues/5722
|
|
|
|
.. _`Playing nice with external package managers`: https://discuss.python.org/t/playing-nice-with-external-package-managers/1968
|
|
|
|
.. [#pip] https://pip.pypa.io/en/stable/
|
|
|
|
.. [#easy-install] https://setuptools.readthedocs.io/en/latest/deprecated/easy_install.html
|
|
(Note that the ``easy_install`` command was removed in
|
|
setuptools version 52, released 23 January 2021.)
|
|
|
|
.. [#Conda] https://conda.io
|
|
|
|
Copyright
|
|
=========
|
|
|
|
This document is placed in the public domain or under the
|
|
CC0-1.0-Universal license, whichever is more permissive.
|