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PEP:439
Title:Inclusion of implicit pip bootstrap in Python installation
Version:c6b8eae33b69
Last-Modified:2013-08-30 23:20:37 +1000 (Fri, 30 Aug 2013)
Author:Richard Jones <richard at python.org>
BDFL-Delegate:Nick Coghlan <ncoghlan@gmail.com>
Discussions-To:<distutils-sig at python.org>
Status:Rejected
Type:Standards Track
Content-Type:text/x-rst
Created:18-Mar-2013
Python-Version:3.4
Post-History:19-Mar-2013
Resolution:http://mail.python.org/pipermail/distutils-sig/2013-August/022527.html

Abstract

This PEP proposes the inclusion of a pip boostrap executable in the Python installation to simplify the use of 3rd-party modules by Python users.

This PEP does not propose to include the pip implementation in the Python standard library. Nor does it propose to implement any package management or installation mechanisms beyond those provided by PEP 427 ("The Wheel Binary Package Format 1.0") and TODO distlib PEP.

PEP Rejection

This PEP has been rejected in favour of a more explicit mechanism that should achieve the same end result in a more reliable fashion. The more explicit bootstrapping mechanism is described in PEP 453.

Rationale

Currently the user story for installing 3rd-party Python modules is not as simple as it could be. It requires that all 3rd-party modules inform the user of how to install the installer, typically via a link to the installer. That link may be out of date or the steps required to perform the install of the installer may be enough of a roadblock to prevent the user from further progress.

Large Python projects which emphasise a low barrier to entry have shied away from depending on third party packages because of the introduction of this potential stumbling block for new users.

With the inclusion of the package installer command in the standard Python installation the barrier to installing additional software is considerably reduced. It is hoped that this will therefore increase the likelihood that Python projects will reuse third party software.

The Python community also has an issue of complexity around the current bootstrap procedure for pip and setuptools. They all have their own bootstrap download file with slightly different usages and even refer to each other in some cases. Having a single bootstrap which is common amongst them all, with a simple usage, would be far preferable.

It is also hoped that this is reduces the number of proposals to include more and more software in the Python standard library, and therefore that more popular Python software is more easily upgradeable beyond requiring Python installation upgrades.

Proposal

The bootstrap will install the pip implementation, setuptools by downloading their installation files from PyPI.

This proposal affects two components of packaging: the pip bootstrap and, thanks to easier package installation, modifications to publishing packages.

The core of this proposal is that the user experience of using pip should not require the user to install pip.

The pip bootstrap

The Python installation includes an executable called "pip3" (see PEP 394 for naming rationale etc.) that attempts to import pip machinery. If it can then the pip command proceeds as normal. If it cannot it will bootstrap pip by downloading the pip implementation and setuptools wheel files. Hereafter the installation of the "pip implementation" will imply installation of setuptools and virtualenv. Once installed, the pip command proceeds as normal. Once the bootstrap process is complete the "pip3" command is no longer the bootstrap but rather the full pip command.

A boostrap is used in the place of a the full pip code so that we don't have to bundle pip and also pip is upgradeable outside of the regular Python upgrade timeframe and processes.

To avoid issues with sudo we will have the bootstrap default to installing the pip implementation to the per-user site-packages directory defined in PEP 370 and implemented in Python 2.6/3.0. Since we avoid installing to the system Python we also avoid conflicting with any other packaging system (on Linux systems, for example.) If the user is inside a virtual environment [1] then the pip implementation will be installed into that virtual environment.

The bootstrap process will proceed as follows:

  1. The user system has Python (3.4+) installed. In the "scripts" directory of the Python installation there is the bootstrap script called "pip3".
  2. The user will invoke a pip command, typically "pip3 install <package>", for example "pip3 install Django".
  3. The boostrap script will attempt to import the pip implementation. If this succeeds, the pip command is processed normally. Stop.
  4. On failing to import the pip implementation the bootstrap notifies the user that it needs to "install pip". It will ask the user whether it should install pip as a system-wide site-packages or as a user-only package. This choice will also be present as a command-line option to pip so non-interactive use is possible.
  5. The bootstrap will and contact PyPI to obtain the latest download wheel file (see PEP 427.)
  6. Upon downloading the file it is installed using "python setup.py install".
  7. The pip tool may now import the pip implementation and continues to process the requested user command normally.

Users may be running in an environment which cannot access the public Internet and are relying solely on a local package repository. They would use the "-i" (Base URL of Python Package Index) argument to the "pip3 install" command. This simply overrides the default index URL pointing to PyPI.

Some users may have no Internet access suitable for fetching the pip implementation file. These users can manually download and install the setuptools and pip tar files. Adding specific support for this use-case is unnecessary.

The download of the pip implementation install file will be performed securely. The transport from pypi.python.org will be done over HTTPS with the CA certificate check performed. This facility will be present in Python 3.4+ using Operating System certificates (see PEP XXXX).

Beyond those arguments controlling index location and download options, the "pip3" boostrap command may support further standard pip options for verbosity, quietness and logging.

The "pip3" command will support two new command-line options that are used in the boostrapping, and otherwise ignored. They control where the pip implementation is installed:

--bootstrap Install to the user's packages directory. The name of this option is chosen to promote it as the preferred installation option.
--bootstrap-to-system
 Install to the system site-packages directory.

These command-line options will also need to be implemented, but otherwise ignored, in the pip implementation.

Consideration should be given to defaulting pip to install packages to the user's packages directory if pip is installed in that location.

The "--no-install" option to the "pip3" command will not affect the bootstrapping process.

Modifications to publishing packages

An additional new Python package is proposed, "pypublish", which will be a tool for publishing packages to PyPI. It would replace the current "python setup.py register" and "python setup.py upload" distutils commands. Again because of the measured Python release cycle and extensive existing Python installations these commands are difficult to bugfix and extend. Additionally it is desired that the "register" and "upload" commands be able to be performed over HTTPS with certificate validation. Since shipping CA certificate keychains with Python is not really feasible (updating the keychain is quite difficult to manage) it is desirable that those commands, and the accompanying keychain, be made installable and upgradeable outside of Python itself.

The existing distutils mechanisms for package registration and upload would remain, though with a deprecation warning.

Implementation

The changes to pip required by this PEP are being tracked in that project's issue tracker [2]. Most notably, the addition of --bootstrap and --bootstrap- to-system to the pip command-line.

It would be preferable that the pip and setuptools projects distribute a wheel format download.

The required code for this implementation is the "pip3" command described above. The additional pypublish can be developed outside of the scope of this PEP's work.

Finally, it would be desirable that "pip3" be ported to Python 2.6+ to allow the single command to replace existing pip, setuptools and virtualenv (which would be added to the bootstrap) bootstrap scripts. Having that bootstrap included in a future Python 2.7 release would also be highly desirable.

Risks

The key that is used to sign the pip implementation download might be compromised and this PEP currently proposes no mechanism for key revocation.

There is a Perl package installer also named "pip". It is quite rare and not commonly used. The Fedora variant of Linux has historically named Python's "pip" as "python-pip" and Perl's "pip" as "perl-pip". This policy has been altered[3] so that future and upgraded Fedora installations will use the name "pip" for Python's "pip". Existing (non-upgraded) installations will still have the old name for the Python "pip", though the potential for confusion is now much reduced.

References

[1]PEP 405, Python Virtual Environments http://www.python.org/dev/peps/pep-0405/
[2]pip issue tracking work needed for this PEP https://github.com/pypa/pip/issues/863
[3]Fedora's python-pip package does not provide /usr/bin/pip https://bugzilla.redhat.com/show_bug.cgi?id=958377

Acknowledgments

Nick Coghlan for his thoughts on the proposal and dealing with the Red Hat issue.

Jannis Leidel and Carl Meyer for their thoughts. Marcus Smith for feedback.

Marcela Mašláňová for resolving the Fedora issue.