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Feature #20351

closed

Optionally extract common GC routines into a DSO

Added by eightbitraptor (Matt V-H) 8 months ago. Updated 7 months ago.

Status:
Closed
Assignee:
-
Target version:
-
[ruby-core:117263]

Description

UPDATE: Based on feedback on the original PR (thank you @katei (Yuta Saito) and @nobu (Nobuyoshi Nakada)) we have
changed our approach to this project.

An updated PR can be found here: [GH #10456]


Github PR#10302

NOTE: This proposal does not change the default build of Ruby, and therefore
should NOT cause performance degradation for Ruby built in the usual way

Our long term goal is to standardise Ruby's GC interface, allowing alternative
GC implementations to be used. This will be acheived by optionally building
Ruby's GC as a shared object; enabling it to be replaced at runtime using using
LD_LIBRARY_PATH. eg:

LD_LIBRARY_PATH=/custom_gc_location ruby script.rb

This ticket proposes the first step towards this goal. A new experimental build
option, --enable-shared-gc, that will compile and link a module into the built
ruby binary as a shared object - miniruby will remain statically linked to
the existing GC in all cases.

Similar methods of replacing functionality relied on by Ruby have
precedent. jemalloc uses LD_PRELOAD to replace glibc provided malloc and
free at runtime. Although this project will be the first time a technique such
as this has been used to replace core Ruby functionality.

This flag will be marked as experimental & disabled by default.

The PR linked from this ticket implements the new build flag, along with the
absolute minimum code required to test it's implementation (a single debug
function).

The implementation of the new build flag is based on the existing implementation
of --enable-shared and behaves as follows:

  • --enable-shared --enable-shared-gc

    This will build both libruby and librubygc as shared objects. ruby will
    link dynamically to both libruby and librubygc.

  • --disable-shared --enable-shared-gc

    This will build librubygc as a shared object, and build libruby as a
    static object. libruby will link dynamically to librubygc and ruby will
    be statically linked to libruby.

  • --disable-shared-gc

    This will be the default, and when this case is true the build behaviour
    will be exactly the same as it is currently. ie. the existing Ruby GC will be
    built and linked statically into either ruby or libruby.so depending on
    the state of --enable-shared.

We are aware that there will be a small performance penalty from moving the GC
logic into a shared object, but this is an opt-in configuration turned on at
build time intended to be used by experienced users.

Still, we anticipate that, even with this configuration turned on, this penalty
will be negligible compared the the benefit that being able to use high
performance GC algorithms will provide.

This performance penalty is also the reason that this feature will be disabled
by default
. There will be no performance impact for anyone compiling Ruby in
the usual manner, without explicitly enabling this feature.

We have discussed this proposal with @matz (Yukihiro Matsumoto) who has approved our work on this
project - having a clear abstraction between the VM and the GC will enable us to
iterate faster on improvements to Ruby's existing GC.

Motivation

In the long term we want to provide the ability to override the current Ruby GC
implementation in order to:

  • Experiment with modern high-performance GC implementations, such as Immix, G1,
    LXR etc.
  • Easily split-test changes to the GC, or the GC tuning, in production without
    having to rebuild Ruby
  • Easily use debug builds of the GC to help identify production problems and
    bottlenecks without having to rebuild Ruby
  • Encourage the academic memory management research community to consider Ruby
    for their research (the current work on MMTk & Ruby is a good example of
    this).

Future work

The initial implementation of the shared GC module in this PR is deliberately
small, and exists only for testing the build system integration.

The next steps are to identify boundaries between the GC and the VM and begin to
extract common functionality into this GC wrapper module to serve as the
foundation of our GC interface.

Who's working on this

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