When a forked process was started in a thread, this would result in a
double-free during the child process exit.
RUBY_FREE_AT_EXIT=1 ./miniruby -e 'Thread.new { fork { } }.join; Process.waitpid'
This is because the main thread in the forked process was not the
initial VM thread, and the new thread's stack was freed as part of
objectspace iteration.
This change also allows rb_threadptr_root_fiber_release to run without
EC being available.
when the RUBY_FREE_ON_SHUTDOWN environment variable is set, manually free memory at shutdown.
Co-authored-by: Nobuyoshi Nakada <nobu@ruby-lang.org>
Co-authored-by: Peter Zhu <peter@peterzhu.ca>
* YJIT: Cancel on-stack jit_return on invalidation
Co-authored-by: Alan Wu <alansi.xingwu@shopify.com>
* Use RUBY_VM_CONTROL_FRAME_STACK_OVERFLOW_P
---------
Co-authored-by: Alan Wu <alansi.xingwu@shopify.com>
Contrary to my initial assumption, rb_threadptr_root_fiber_setup() is
called for each Ractor, not just once at boot. I changed the place to
call rb_jit_cont_init() to avoid calling it multiple times.
This solves multiple problems.
First, RB_VM_LOCK_ENTER/LEAVE is a barrier. We could at least use the
_NO_BARRIER variant.
Second, this doesn't need to interfere with GC or other GVL users when
multiple Ractors are used. This needs to be used in very few places, so
the benefit of fine-grained locking would outweigh its small maintenance
cost.
Third, it fixes a crash for YJIT. Because YJIT is never disabled until a
process exits unlike MJIT that finishes earlier, we could call jit_cont_free
when EC no longer exists, which crashes RB_VM_LOCK_ENTER.
rb_ary_tmp_new suggests that the array is temporary in some way, but
that's not true, it just creates an array that's hidden and not on the
transient heap. This commit renames it to rb_ary_hidden_new.
This commit prevents the stack from being marked twice: once via the
Fiber, and once via the Thread. It introduces an assertion to assert
that the ec on the thread is the same as the ec on the Fiber being
marked via the thread.
... by assigning a dummy value to the allocated stack.
http://rubyci.s3.amazonaws.com/arch/ruby-master/log/20220613T000004Z.log.html.gz
```
cont.c: In function ‘cont_restore_0.constprop’:
cont.c:1489:28: warning: ‘*sp’ may be used uninitialized [-Wmaybe-uninitialized]
1489 | space[0] = *sp;
| ^~~
```
Also it adds some comments about the hack of dummy stack allocation.
Use ISEQ_BODY macro to get the rb_iseq_constant_body of the ISeq. Using
this macro will make it easier for us to change the allocation strategy
of rb_iseq_constant_body when using Variable Width Allocation.