If we are during heap traversal, we don't want to call rb_gc_impl_mark_weak.
This commit moves that check from rb_gc_impl_mark_weak to rb_gc_mark_weak.
Allow objects that are not of type `RTypedData` to use the default
free function, as `RTYPEDDATA_EMBEDDED_P` can return a false positive
when casting non-`RTypedData` objects.
Using gc_impl.h inside of gc/gc.h will cause gc/gc.h to use the functions
in gc/default.c when builing with shared GC support because gc/gc.h is
included into gc.c before the rb_gc_impl functions are overridden by the
preprocessor.
gc.c mistakenly defined GC_ASSERT as blank, which caused it to be a
no-op. This caused all assertions in gc.c and gc/default.c to not do
anything. This commit fixes it by moving the definition of GC_ASSERT
to gc/gc.h.
YJIT currently uses the YJIT root object to mark objects during GC and
update references during compaction. This object otherwise serves no
purpose.
This commit changes it YJIT to be step when marking the GC root. This
saves some memory from being allocated from the system and the GC.
We discovered that having gc.o and gc_impl.o in separate translation
units diminishes codegen quality with GCC 11 on x86-64. This commit
solves that problem by including default/gc.c into gc.c, letting the
optimizer have visibility into the body of functions again in builds
not using link-time optimization, which are common.
This effectively restores things to the way they were before
[Feature #20470] from the optimizer's perspective while maintaining the
ability to build gc/default.c as a DSO.
There were a few functions duplicated across gc.c and gc/default.c.
Extract them and put them into gc/gc.h.
This feature provides a new method `GC.config` that configures internal
GC configuration variables provided by an individual GC implementation.
Implemented in this PR is the option `full_mark`: a boolean value that
will determine whether the Ruby GC is allowed to run a major collection
while the process is running.
It has the following semantics
This feature configures Ruby's GC to only run minor GC's. It's designed
to give users relying on Out of Band GC complete control over when a
major GC is run. Configuring `full_mark: false` does two main things:
* Never runs a Major GC. When the heap runs out of space during a minor
and when a major would traditionally be run, instead we allocate more
heap pages, and mark objspace as needing a major GC.
* Don't increment object ages. We don't promote objects during GC, this
will cause every object to be scanned on every minor. This is an
intentional trade-off between minor GC's doing more work every time,
and potentially promoting objects that will then never be GC'd.
The intention behind not aging objects is that users of this feature
should use a preforking web server, or some other method of pre-warming
the oldgen (like Nakayoshi fork)before disabling Majors. That way most
objects that are going to be old will have already been promoted.
This will interleave major and minor GC collections in exactly the same
what that the Ruby GC runs in versions previously to this. This is the
default behaviour.
* This new method has the following extra semantics:
- `GC.config` with no arguments returns a hash of the keys of the
currently configured GC
- `GC.config` with a key pair (eg. `GC.config(full_mark: true)` sets
the matching config key to the corresponding value and returns the
entire known config hash, including the new values. If the key does
not exist, `nil` is returned
* When a minor GC is run, Ruby sets an internal status flag to determine
whether the next GC will be a major or a minor. When `full_mark:
false` this flag is ignored and every GC will be a minor.
This status flag can be accessed at
`GC.latest_gc_info(:needs_major_by)`. Any value other than `nil` means
that the next collection would have been a major.
Thus it's possible to use this feature to check at a predetermined
time, whether a major GC is necessary and run one if it is. eg. After
a request has finished processing.
```ruby
if GC.latest_gc_info(:needs_major_by)
GC.start(full_mark: true)
end
```
[Feature #20443]
This feature is no longer possible under current design; now that our GC
is pluggable, we cannot assume what was achieved by this compiler flag
is always possble by the dynamically-loaded GC implementation.
Since dln.c is replaced with dmydln.c for miniruby, we cannot load shared
GC for miniruby. This means that many tests do not have the shared GC
loaded and many tests fail because of the warning that emits in miniruby.
This commit changes shared GC to directly use dlopen for loading the
shared GC.
This commit changes the external GC API to use `--with-shared-gc=DIR` at
configure time with a directory of the external GC and uses
`RUBY_GC_LIBRARY` environment variable to load the external GC at
runtime.
Peter Zhu
Nobuyoshi Nakada
Jonathan Calvert
Alan Wu
Matt Valentine-House
卜部昌平