635 lines
22 KiB
ReStructuredText
635 lines
22 KiB
ReStructuredText
PEP: 684
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Title: A Per-Interpreter GIL
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Author: Eric Snow <ericsnowcurrently@gmail.com>
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Discussions-To: https://mail.python.org/archives/list/python-dev@python.org/thread/CF7B7FMACFYDAHU6NPBEVEY6TOSGICXU/
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Status: Draft
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 08-Mar-2022
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Python-Version: 3.11
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Post-History: `08-Mar-2022 <https://mail.python.org/archives/list/python-dev@python.org/thread/CF7B7FMACFYDAHU6NPBEVEY6TOSGICXU/>`__
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Resolution:
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.. XXX Split out an informational PEP with all the relevant info,
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based on the "Consolidating Runtime Global State" section?
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Abstract
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========
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Since Python 1.5 (1997), CPython users can run multiple interpreters
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in the same process. However, interpreters in the same process
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have always shared a significant
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amount of global state. This is a source of bugs, with a growing
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impact as more and more people use the feature. Furthermore,
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sufficient isolation would facilitate true multi-core parallelism,
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where interpreters no longer share the GIL. The changes outlined in
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this proposal will result in that level of interpreter isolation.
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High-Level Summary
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==================
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At a high level, this proposal changes CPython in the following ways:
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* stops sharing the GIL between interpreters, given sufficient isolation
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* adds several new interpreter config options for isolation settings
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* adds some public C-API for fine-grained control when creating interpreters
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* keeps incompatible extensions from causing problems
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The GIL
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-------
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The GIL protects concurrent access to most of CPython's runtime state.
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So all that GIL-protected global state must move to each interpreter
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before the GIL can.
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(In a handful of cases, other mechanisms can be used to ensure
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thread-safe sharing instead, such as locks or "immortal" objects.)
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CPython Runtime State
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---------------------
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Properly isolating interpreters requires that most of CPython's
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runtime state be stored in the ``PyInterpreterState`` struct. Currently,
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only a portion of it is; the rest is found either in global variables
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or in ``_PyRuntimeState``. Most of that will have to be moved.
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This directly coincides with an ongoing effort (of many years) to greatly
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reduce internal use of C global variables and consolidate the runtime
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state into ``_PyRuntimeState`` and ``PyInterpreterState``.
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(See `Consolidating Runtime Global State`_ below.) That project has
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`significant merit on its own <Benefits to Consolidation_>`_
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and has faced little controversy. So, while a per-interpreter GIL
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relies on the completion of that effort, that project should not be
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considered a part of this proposal--only a dependency.
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Other Isolation Considerations
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------------------------------
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CPython's interpreters must be strictly isolated from each other, with
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few exceptions. To a large extent they already are. Each interpreter
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has its own copy of all modules, classes, functions, and variables.
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The CPython C-API docs `explain further <caveats_>`_.
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.. _caveats: https://docs.python.org/3/c-api/init.html#bugs-and-caveats
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However, aside from what has already been mentioned (e.g. the GIL),
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there are a couple of ways in which interpreters still share some state.
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First of all, some process-global resources (e.g. memory,
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file descriptors, environment variables) are shared. There are no
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plans to change this.
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Second, some isolation is faulty due to bugs or implementations that
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did not take multiple interpreters into account. This includes
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CPython's runtime and the stdlib, as well as extension modules that
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rely on global variables. Bugs should be opened in these cases,
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as some already have been.
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Depending on Immortal Objects
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-----------------------------
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:pep:`683` introduces immortal objects as a CPython-internal feature.
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With immortal objects, we can share any otherwise immutable global
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objects between all interpreters. Consequently, this PEP does not
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need to address how to deal with the various objects
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`exposed in the public C-API <capi objects_>`_.
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It also simplifies the question of what to do about the builtin
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static types. (See `Global Objects`_ below.)
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Both issues have alternate solutions, but everything is simpler with
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immortal objects. If PEP 683 is not accepted then this one will be
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updated with the alternatives. This lets us reduce noise in this
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proposal.
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Motivation
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==========
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The fundamental problem we're solving here is a lack of true multi-core
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parallelism (for Python code) in the CPython runtime. The GIL is the
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cause. While it usually isn't a problem in practice, at the very least
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it makes Python's multi-core story murky, which makes the GIL
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a consistent distraction.
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Isolated interpreters are also an effective mechanism to support
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certain concurrency models. :pep:`554` discusses this in more detail.
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Indirect Benefits
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-----------------
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Most of the effort needed for a per-interpreter GIL has benefits that
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make those tasks worth doing anyway:
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* makes multiple-interpreter behavior more reliable
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* has led to fixes for long-standing runtime bugs that otherwise
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hadn't been prioritized
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* has been exposing (and inspiring fixes for) previously unknown runtime bugs
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* has driven cleaner runtime initialization (:pep:`432`, :pep:`587`)
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* has driven cleaner and more complete runtime finalization
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* led to structural layering of the C-API (e.g. ``Include/internal``)
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* also see `Benefits to Consolidation`_ below
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Furthermore, much of that work benefits other CPython-related projects:
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* performance improvements ("faster-cpython")
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* pre-fork application deployment (e.g. Instagram)
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* extension module isolation (see :pep:`630`, etc.)
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* embedding CPython
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Existing Use of Multiple Interpreters
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-------------------------------------
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The C-API for multiple interpreters has been used for many years.
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However, until relatively recently the feature wasn't widely known,
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nor extensively used (with the exception of mod_wsgi).
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In the last few years use of multiple interpreters has been increasing.
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Here are some of the public projects using the feature currently:
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* `mod_wsgi <https://github.com/GrahamDumpleton/mod_wsgi>`_
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* `OpenStack Ceph <https://github.com/ceph/ceph/pull/14971>`_
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* `JEP <https://github.com/ninia/jep>`_
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* `Kodi <https://github.com/xbmc/xbmc>`_
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Note that, with :pep:`554`, multiple interpreter usage would likely
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grow significantly (via Python code rather than the C-API).
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PEP 554
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-------
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:pep:`554` is strictly about providing a minimal stdlib module
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to give users access to multiple interpreters from Python code.
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In fact, it specifically avoids proposing any changes related to
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the GIL. Consider, however, that users of that module would benefit
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from a per-interpreter GIL, which makes PEP 554 more appealing.
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Rationale
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=========
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During initial investigations in 2014, a variety of possible solutions
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for multi-core Python were explored, but each had its drawbacks
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without simple solutions:
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* the existing practice of releasing the GIL in extension modules
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* doesn't help with Python code
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* other Python implementations (e.g. Jython, IronPython)
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* CPython dominates the community
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* remove the GIL (e.g. gilectomy, "no-gil")
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* too much technical risk (at the time)
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* Trent Nelson's "PyParallel" project
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* incomplete; Windows-only at the time
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* ``multiprocessing``
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* too much work to make it effective enough;
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high penalties in some situations (at large scale, Windows)
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* other parallelism tools (e.g. dask, ray, MPI)
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* not a fit for the stdlib
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* give up on multi-core (e.g. async, do nothing)
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* this can only end in tears
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Even in 2014, it was fairly clear that a solution using isolated
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interpreters did not have a high level of technical risk and that
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most of the work was worth doing anyway.
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(The downside was the volume of work to be done.)
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Specification
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=============
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As `summarized above <High-Level Summary_>`__, this proposal involves the
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following changes, in the order they must happen:
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1. `consolidate global runtime state <Consolidating Runtime Global State_>`_
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(including objects) into ``_PyRuntimeState``
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2. move nearly all of the state down into ``PyInterpreterState``
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3. finally, move the GIL down into ``PyInterpreterState``
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4. everything else
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* add to the public C-API
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* implement restrictions in ``ExtensionFileLoader``
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* work with popular extension maintainers to help
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with multi-interpreter support
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Per-Interpreter State
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---------------------
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The following runtime state will be moved to ``PyInterpreterState``:
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* all global objects that are not safely shareable (fully immutable)
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* the GIL
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* mutable, currently protected by the GIL
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* mutable, currently protected by some other per-interpreter lock
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* mutable, may be used independently in different interpreters
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* all other mutable (or effectively mutable) state
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not otherwise excluded below
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Furthermore, a number of parts of the global state have already been
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moved to the interpreter, such as GC, warnings, and atexit hooks.
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The following state will not be moved:
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* global objects that are safely shareable, if any
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* immutable, often ``const``
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* treated as immutable
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* related to CPython's ``main()`` execution
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* related to the REPL
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* set during runtime init, then treated as immutable
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* mutable, protected by some global lock
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* mutable, atomic
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Note that currently the allocators (see ``Objects/obmalloc.c``) are shared
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between all interpreters, protected by the GIL. They will need to move
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to each interpreter (or a global lock will be needed). This is the
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highest risk part of the work to isolate interpreters and may require
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more than just moving fields down from ``_PyRuntimeState``. Some of
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the complexity is reduced if CPython switches to a thread-safe
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allocator like mimalloc.
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.. _proposed capi:
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C-API
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-----
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The following private API will be made public:
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* ``_PyInterpreterConfig``
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* ``_Py_NewInterpreter()`` (as ``Py_NewInterpreterEx()``)
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The following fields will be added to ``PyInterpreterConfig``:
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* ``own_gil`` - (bool) create a new interpreter lock
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(instead of sharing with the main interpreter)
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* ``strict_extensions`` - fail import in this interpreter for
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incompatible extensions (see `Restricting Extension Modules`_)
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Restricting Extension Modules
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-----------------------------
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Extension modules have many of the same problems as the runtime when
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state is stored in global variables. :pep:`630` covers all the details
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of what extensions must do to support isolation, and thus safely run in
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multiple interpreters at once. This includes dealing with their globals.
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Extension modules that do not implement isolation will only run in
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the main interpreter. In all other interpreters, the import will
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raise ``ImportError``. This will be done through
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``importlib._bootstrap_external.ExtensionFileLoader``.
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We will work with popular extensions to help them support use in
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multiple interpreters. This may involve adding to CPython's public C-API,
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which we will address on a case-by-case basis.
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Extension Module Compatibility
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''''''''''''''''''''''''''''''
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As noted in `Extension Modules`_, many extensions work fine in multiple
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interpreters without needing any changes. The import system will still
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fail if such a module doesn't explicitly indicate support. At first,
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not many extension modules will, so this is a potential source
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of frustration.
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We will address this by adding a context manager to temporarily disable
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the check on multiple interpreter support:
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``importlib.util.allow_all_extensions()``.
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Documentation
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-------------
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The "Sub-interpreter support" section of ``Doc/c-api/init.rst`` will be
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updated with the added API.
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Impact
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======
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Backwards Compatibility
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-----------------------
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No behavior or APIs are intended to change due to this proposal,
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with one exception noted in `the next section <Extension Modules_>`_.
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The existing C-API for managing interpreters will preserve its current
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behavior, with new behavior exposed through new API. No other API
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or runtime behavior is meant to change, including compatibility with
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the stable ABI.
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See `Objects Exposed in the C-API`_ below for related discussion.
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Extension Modules
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'''''''''''''''''
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Currently the most common usage of Python, by far, is with the main
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interpreter running by itself. This proposal has zero impact on
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extension modules in that scenario. Likewise, for better or worse,
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there is no change in behavior under multiple interpreters created
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using the existing ``Py_NewInterpreter()``.
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Keep in mind that some extensions already break when used in multiple
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interpreters, due to keeping module state in global variables. They
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may crash or, worse, experience inconsistent behavior. That was part
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of the motivation for :pep:`630` and friends, so this is not a new
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situation nor a consequence of this proposal.
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In contrast, when the `proposed API <proposed capi_>`_ is used to
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create multiple interpreters, the default behavior will change for
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some extensions. In that case, importing an extension will fail
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(outside the main interpreter) if it doesn't indicate support for
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multiple interpreters. For extensions that already break in
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multiple interpreters, this will be an improvement.
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Now we get to the break in compatibility mentioned above. Some
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extensions are safe under multiple interpreters, even though they
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haven't indicated that. Unfortunately, there is no reliable way for
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the import system to infer that such an extension is safe, so
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importing them will still fail. This case is addressed in
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`Extension Module Compatibility`_ below.
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Extension Module Maintainers
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----------------------------
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One related consideration is that a per-interpreter GIL will likely
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drive increased use of multiple interpreters, particularly if :pep:`554`
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is accepted. Some maintainers of large extension modules have expressed
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concern about the increased burden they anticipate due to increased
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use of multiple interpreters.
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Specifically, enabling support for multiple interpreters will require
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substantial work for some extension modules. To add that support,
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the maintainer(s) of such a module (often volunteers) would have to
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set aside their normal priorities and interests to focus on
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compatibility (see :pep:`630`).
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Of course, extension maintainers are free to not add support for use
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in multiple interpreters. However, users will increasingly demand
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such support, especially if the feature grows
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in popularity.
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Either way, the situation can be stressful for maintainers of such
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extensions, particularly when they are doing the work in their spare
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time. The concerns they have expressed are understandable, and we address
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the partial solution in `Restricting Extension Modules`_ below.
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Alternate Python Implementations
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--------------------------------
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Other Python implementation are not required to provide support for
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multiple interpreters in the same process (though some do already).
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Security Implications
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---------------------
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There is no known impact to security with this proposal.
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Maintainability
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---------------
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On the one hand, this proposal has already motivated a number of
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improvements that make CPython *more* maintainable. That is expected
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to continue. On the other hand, the underlying work has already
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exposed various pre-existing defects in the runtime that have had
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to be fixed. That is also expected to continue as multiple interpreters
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receive more use. Otherwise, there shouldn't be a significant impact
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on maintainability, so the net effect should be positive.
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Performance
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-----------
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The work to consolidate globals has already provided a number of
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improvements to CPython's performance, both speeding it up and using
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less memory, and this should continue. Performance benefits to a
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per-interpreter GIL have not been explored. At the very least, it is
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not expected to make CPython slower (as long as interpreters are
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sufficiently isolated).
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How to Teach This
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=================
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This is an advanced feature for users of the C-API. There is no
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expectation that this will be taught.
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That said, if it were taught then it would boil down to the following:
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In addition to Py_NewInterpreter(), you can use Py_NewInterpreterEx()
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to create an interpreter. The config you pass it indicates how you
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want that interpreter to behave.
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Reference Implementation
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========================
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<TBD>
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Open Issues
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===========
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* What are the risks/hurdles involved with moving the allocators?
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* Is ``allow_all_extensions`` the best name for the context manager?
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Deferred Functionality
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======================
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* ``PyInterpreterConfig`` option to always run the interpreter in a new thread
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* ``PyInterpreterConfig`` option to assign a "main" thread to the interpreter
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and only run in that thread
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Rejected Ideas
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==============
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<TBD>
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Extra Context
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=============
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Sharing Global Objects
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----------------------
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We are sharing some global objects between interpreters.
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This is an implementation detail and relates more to
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`globals consolidation <Consolidating Runtime Global State>`_
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than to this proposal, but it is a significant enough detail
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to explain here.
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The alternative is to share no objects between interpreters, ever.
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To accomplish that, we'd have to sort out the fate of all our static
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types, as well as deal with compatibility issues for the many objects
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`exposed in the public C-API <capi objects_>`_.
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That approach introduces a meaningful amount of extra complexity
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and higher risk, though prototyping has demonstrated valid solutions.
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Also, it would likely result in a performance penalty.
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`Immortal objects <Depending on Immortal Objects_>`_ allow us to
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share the otherwise immutable global objects. That way we avoid
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the extra costs.
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.. _capi objects:
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Objects Exposed in the C-API
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''''''''''''''''''''''''''''
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The C-API (including the limited API) exposes all the builtin types,
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including the builtin exceptions, as well as the builtin singletons.
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The exceptions are exposed as ``PyObject *`` but the rest are exposed
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as the static values rather than pointers. This was one of the few
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non-trivial problems we had to solve for per-interpreter GIL.
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With immortal objects this is a non-issue.
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Consolidating Runtime Global State
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----------------------------------
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As noted in `CPython Runtime State`_ above, there is an active effort
|
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(separate from this PEP) to consolidate CPython's global state into the
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``_PyRuntimeState`` struct. Nearly all the work involves moving that
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state from global variables. The project is particularly relevant to
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this proposal, so below is some extra detail.
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Benefits to Consolidation
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'''''''''''''''''''''''''
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Consolidating the globals has a variety of benefits:
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* greatly reduces the number of C globals (best practice for C code)
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* the move draws attention to runtime state that is unstable or broken
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* encourages more consistency in how runtime state is used
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* makes multiple-interpreter behavior more reliable
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* leads to fixes for long-standing runtime bugs that otherwise
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haven't been prioritized
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* exposes (and inspires fixes for) previously unknown runtime bugs
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* facilitates cleaner runtime initialization and finalization
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* makes it easier to discover/identify CPython's runtime state
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* makes it easier to statically allocate runtime state in a consistent way
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* better memory locality for runtime state
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* structural layering of the C-API (e.g. ``Include/internal``)
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Furthermore, much of that work benefits other CPython-related projects:
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* performance improvements ("faster-cpython")
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* pre-fork application deployment (e.g. Instagram)
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* extension module isolation (see :pep:`630`, etc.)
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* embedding CPython
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Scale of Work
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'''''''''''''
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The number of global variables to be moved is large enough to matter,
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but most are Python objects that can be dealt with in large groups
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(like ``Py_IDENTIFIER``). In nearly all cases, moving these globals
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to the interpreter is highly mechanical. That doesn't require
|
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cleverness but instead requires someone to put in the time.
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State To Be Moved
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|
'''''''''''''''''
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The remaining global variables can be categorized as follows:
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* global objects
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* static types (incl. exception types)
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* non-static types (incl. heap types, structseq types)
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* singletons (static)
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|
* singletons (initialized once)
|
|
* cached objects
|
|
* non-objects
|
|
* will not (or unlikely to) change after init
|
|
* only used in the main thread
|
|
* initialized lazily
|
|
* pre-allocated buffers
|
|
* state
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|
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|
Those globals are spread between the core runtime, the builtin modules,
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|
and the stdlib extension modules.
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|
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For a breakdown of the remaining globals, run:
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|
.. code-block:: bash
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|
|
|
./python Tools/c-analyzer/table-file.py Tools/c-analyzer/cpython/globals-to-fix.tsv
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|
|
Already Completed Work
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|
''''''''''''''''''''''
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|
|
|
As mentioned, this work has been going on for many years. Here are some
|
|
of the things that have already been done:
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|
|
|
* cleanup of runtime initialization (see :pep:`432` / :pep:`587`)
|
|
* extension module isolation machinery (see :pep:`384` / :pep:`3121` / :pep:`489`)
|
|
* isolation for many builtin modules
|
|
* isolation for many stdlib extension modules
|
|
* addition of ``_PyRuntimeState``
|
|
* no more ``_Py_IDENTIFIER()``
|
|
* statically allocated:
|
|
|
|
* empty string
|
|
* string literals
|
|
* identifiers
|
|
* latin-1 strings
|
|
* length-1 bytes
|
|
* empty tuple
|
|
|
|
Tooling
|
|
'''''''
|
|
|
|
As already indicated, there are several tools to help identify the
|
|
globals and reason about them.
|
|
|
|
* ``Tools/c-analyzer/cpython/globals-to-fix.tsv`` - the list of remaining globals
|
|
* ``Tools/c-analyzer/c-analyzer.py``
|
|
* ``analyze`` - identify all the globals
|
|
* ``check`` - fail if there are any unsupported globals that aren't ignored
|
|
* ``Tools/c-analyzer/table-file.py`` - summarize the known globals
|
|
|
|
Also, the check for unsupported globals is incorporated into CI so that
|
|
no new globals are accidentally added.
|
|
|
|
Global Objects
|
|
''''''''''''''
|
|
|
|
Global objects that are safe to be shared (without a GIL) between
|
|
interpreters can stay on ``_PyRuntimeState``. Not only must the object
|
|
be effectively immutable (e.g. singletons, strings), but not even the
|
|
refcount can change for it to be safe. Immortality (:pep:`683`)
|
|
provides that. (The alternative is that no objects are shared, which
|
|
adds significant complexity to the solution, particularly for the
|
|
objects `exposed in the public C-API <capi objects_>`_.)
|
|
|
|
Builtin static types are a special case of global objects that will be
|
|
shared. They are effectively immutable except for one part:
|
|
``__subclasses__`` (AKA ``tp_subclasses``). We expect that nothing
|
|
else on a builtin type will change, even the content
|
|
of ``__dict__`` (AKA ``tp_dict``).
|
|
|
|
``__subclasses__`` for the builtin types will be dealt with by making
|
|
it a getter that does a lookup on the current ``PyInterpreterState``
|
|
for that type.
|
|
|
|
|
|
References
|
|
==========
|
|
|
|
Related:
|
|
|
|
* :pep:`384`
|
|
* :pep:`432`
|
|
* :pep:`489`
|
|
* :pep:`554`
|
|
* :pep:`573`
|
|
* :pep:`587`
|
|
* :pep:`630`
|
|
* :pep:`683`
|
|
* :pep:`3121`
|
|
|
|
|
|
Copyright
|
|
=========
|
|
|
|
This document is placed in the public domain or under the
|
|
CC0-1.0-Universal license, whichever is more permissive.
|