ruby.git - The Ruby Programming Language

Age	Commit message (Collapse)	Author
2024-05-30	merge revision(s) ↵	Takashi Kokubun
	055613fd868a8c94e43893f8c58a00cdd2a81f6d,127d7a35df10ee2bc99f44b888972b2c5361d84f,e2a9b87126d59e4766479a7aa12cf7a648f46506: [Backport #20447] Fix pointer incompatiblity Since the subsecond part is discarded, WIDEVAL to VALUE conversion is needed. Some functions are not used when `THREAD_MODEL=none` `rb_thread_sched_destroy` is not used now at all
2023-10-13	fix `native_thread_destroy()` timing	Koichi Sasada
	With M:N thread scheduler, the native thread (NT) related resources should be freed when the NT is no longer needed. So the calling `native_thread_destroy()` at the end of `is will be freed when `thread_cleanup_func()` (at the end of Ruby thread) is not correct timing. Call it when the corresponding Ruby thread is collected.
2023-10-12	M:N thread scheduler for Ractors	Koichi Sasada
	This patch introduce M:N thread scheduler for Ractor system. In general, M:N thread scheduler employs N native threads (OS threads) to manage M user-level threads (Ruby threads in this case). On the Ruby interpreter, 1 native thread is provided for 1 Ractor and all Ruby threads are managed by the native thread. From Ruby 1.9, the interpreter uses 1:1 thread scheduler which means 1 Ruby thread has 1 native thread. M:N scheduler change this strategy. Because of compatibility issue (and stableness issue of the implementation) main Ractor doesn't use M:N scheduler on default. On the other words, threads on the main Ractor will be managed with 1:1 thread scheduler. There are additional settings by environment variables: `RUBY_MN_THREADS=1` enables M:N thread scheduler on the main ractor. Note that non-main ractors use the M:N scheduler without this configuration. With this configuration, single ractor applications run threads on M:1 thread scheduler (green threads, user-level threads). `RUBY_MAX_CPU=n` specifies maximum number of native threads for M:N scheduler (default: 8). This patch will be reverted soon if non-easy issues are found. [Bug #19842]
2023-06-30	Compile disabled code for thread cache always	Nobuyoshi Nakada

2023-03-31	pass `th` to `thread_sched_to_waiting()`	Koichi Sasada
	for future extension Notes: Merged: https://github.com/ruby/ruby/pull/7639
2023-03-06	TestThreadInstrumentation: emit the EXIT event sooner	Jean Boussier
	``` 1) Failure: TestThreadInstrumentation#test_thread_instrumentation [/tmp/ruby/src/trunk-repeat20-asserts/test/-ext-/thread/test_instrumentation_api.rb:33]: Call counters[4]: [3, 4, 4, 4, 0]. Expected 0 to be > 0. ``` We fire the EXIT hook after the call to `thread_sched_to_dead` which mean another thread might be running before the `EXIT` hook have been executed. Notes: Merged: https://github.com/ruby/ruby/pull/7249
2022-11-06	[wasm] Scan machine stack based on `ec->machine.stack_{start,end}`	Yuta Saito
	fiber machine stack is placed outside of C stack allocated by wasm-ld, so highest stack address recorded by `rb_wasm_record_stack_base` is invalid when running on non-main fiber. Therefore, we should scan `stack_{start,end}` which always point a valid stack range in any context. Notes: Merged: https://github.com/ruby/ruby/pull/6679
2022-07-13	GVL Instrumentation: remove the EXITED count assertion	Jean Boussier
	It's very flaky for some unknown reason. Something we have an extra EXITED event. I suspect some other test is causing this. Notes: Merged: https://github.com/ruby/ruby/pull/6133
2022-06-17	GVL Instrumentation API: add STARTED and EXITED events	Jean Boussier
	[Feature #18339] After experimenting with the initial version of the API I figured there is a need for an exit event to cleanup instrumentation data. e.g. if you record data in a {thread_id -> data} table, you need to free associated data when a thread goes away. Notes: Merged: https://github.com/ruby/ruby/pull/6029
2022-05-24	remove `DEBUG_OUT()` macro	Koichi Sasada
	This macro is no longer used ([GH-5933]). Notes: Merged: https://github.com/ruby/ruby/pull/5935
2022-05-24	remove `NON_SCALAR_THREAD_ID` support	Koichi Sasada
	`NON_SCALAR_THREAD_ID` shows `pthread_t` is non-scalar (non-pointer) and only s390x is known platform. However, the supporting code is very complex and it is only used for deubg print information. So this patch removes the support of `NON_SCALAR_THREAD_ID` and make the code simple. Notes: Merged: https://github.com/ruby/ruby/pull/5933
2022-04-23	introduce struct `rb_native_thread`	Koichi Sasada
	`rb_thread_t` contained `native_thread_data_t` to represent thread implementation dependent data. This patch separates them and rename it `rb_native_thread` and point it from `rb_thraed_t`. Now, 1 Ruby thread (`rb_thread_t`) has 1 native thread (`rb_native_thread`). Notes: Merged: https://github.com/ruby/ruby/pull/5836
2022-04-22	rename thread internal naming	Koichi Sasada
	Now GVL is not process Global so this patch try to use another words. * `rb_global_vm_lock_t` -> `struct rb_thread_sched` * `gvl->owner` -> `sched->running` * `gvl->waitq` -> `sched->readyq` * `rb_gvl_init` -> `rb_thread_sched_init` * `gvl_destroy` -> `rb_thread_sched_destroy` * `gvl_acquire` -> `thread_sched_to_running` # waiting -> ready -> running * `gvl_release` -> `thread_sched_to_waiting` # running -> waiting * `gvl_yield` -> `thread_sched_yield` * `GVL_UNLOCK_BEGIN` -> `THREAD_BLOCKING_BEGIN` * `GVL_UNLOCK_END` -> `THREAD_BLOCKING_END` * removed * `rb_ractor_gvl` * `rb_vm_gvl_destroy` (not used) There are GVL functions such as `rb_thread_call_without_gvl()` yet but I don't have good name to replace them. Maybe GVL stands for "Greate Valuable Lock" or something like that. Notes: Merged: https://github.com/ruby/ruby/pull/5814
2022-01-19	[wasm] add no thread variant for freestanding environment	Yuta Saito
	This implementation does nothing around preemptive context switching because there is no native thread. Notes: Merged: https://github.com/ruby/ruby/pull/5407