When interrupt behavior is configured for all possible exceptions using
'Exception', there's no need to iterate the pending exception's
ancestors for hash lookups.
More significantly, by storing the catch-all timing symbol directly in
the mask stack, we can skip allocating the hash we would otherwise need.
If the supplied hash is already frozen and compare-by-identity, we can
use it directly (still checking its contents are valid symbols), without
making a new copy.
According to the C99 specification section 7.20.3.2 paragraph 2:
> If ptr is a null pointer, no action occurs.
So we do not need to check that the pointer is a null pointer.
Because a thread calling IO#close now blocks in a native condvar wait,
it's possible for there to be _no_ threads left to actually handle
incoming signals/ubf calls/etc.
This manifested as failing tests on Solaris 10 (SPARC), because:
* One thread called IO#close, which sent a SIGVTALRM to the other
thread to interrupt it, and then waited on the condvar to be notified
that the reading thread was done.
* One thread was calling IO#read, but it hadn't yet reached the actual
call to select(2) when the SIGVTALRM arrived, so it never unblocked
itself.
This results in a deadlock.
The fix is to use a real Ruby mutex for the close lock; that way, the
closing thread goes into sigwait-sleep and can keep trying to interrupt
the select(2) thread.
See the discussion in: https://github.com/ruby/ruby/pull/7865/
When one thread is closing a file descriptor whilst another thread is
concurrently reading it, we need to wait for the reading thread to be
done with it to prevent a potential EBADF (or, worse, file descriptor
reuse).
At the moment, that is done by keeping a list of threads still using the
file descriptor in io_close_fptr. It then continually calls
rb_thread_schedule() in fptr_finalize_flush until said list is empty.
That busy-looping seems to behave rather poorly on some OS's,
particulary FreeBSD. It can cause the TestIO#test_race_gets_and_close
test to fail (even with its very long 200 second timeout) because the
closing thread starves out the using thread.
To fix that, I introduce the concept of struct rb_io_close_wait_list; a
list of threads still using a file descriptor that we want to close. We
call `rb_notify_fd_close` to let the thread scheduler know we're closing
a FD, which fills the list with threads. Then, we call
rb_notify_fd_close_wait which will block the thread until all of the
still-using threads are done.
This is implemented with a condition variable sleep, so no busy-looping
is required.
This patch fixes a potential busy-loop in the thread scheduler. If there
are two threads, the main thread (where Ruby signal handlers must run)
and a sleeping thread, it is possible for the following sequence of
events to occur:
* The sleeping thread is in native_sleep -> sigwait_sleep A signal
* arives, kicking this thread out of rb_sigwait_sleep The sleeping
* thread calls THREAD_BLOCKING_END and eventually
thread_sched_to_running_common
* the sleeping thread writes into the sigwait_fd pipe by calling
rb_thread_wakeup_timer_thread
* the sleeping thread re-loops around in native_sleep() because
the desired sleep time has not actually yet expired
* that calls rb_sigwait_sleep again the ppoll() in rb_sigwait_sleep
* immediately returns because
of the byte written into the sigwait_fd by
rb_thread_wakeup_timer_thread
* that wakes the thread up again and kicks the whole cycle off again.
Such a loop can only be broken by the main thread waking up and handling
the signal, such that ubf_threads_empty() below becomes true again;
however this loop can actually keep things so busy (and cause so much
contention on the main thread's interrupt_lock) that the main thread
doesn't deal with the signal for many seconds. This seems particuarly
likely on FreeBSD 13.
(the cycle can also be broken by the sleeping thread finally elapsing
its desired sleep time).
The fix for _this_ loop is to only wakeup the timer thrad in
thread_sched_to_running_common if the current thread is not itself the
sigwait thread.
An almost identical loop also happens in the same circumstances because
the call to check_signals_nogvl (through sigwait_timeout) in
rb_sigwait_sleep returns true if there is any pending signal for the
main thread to handle. That then causes rb_sigwait_sleep to skip over
sleeping entirely.
This is unnescessary and counterproductive, I believe; if the main
thread needs to be woken up that is done inline in check_signals_nogvl
anyway.
See https://bugs.ruby-lang.org/issues/19680
because of 9720f5ac89http://rubyci.s3.amazonaws.com/solaris11-sunc/ruby-master/log/20230403T130011Z.fail.html.gz
```
1) Failure:
TestThread#test_signal_at_join [/export/home/chkbuild/chkbuild-sunc/tmp/build/20230403T130011Z/ruby/test/ruby/test_thread.rb:1488]:
Exception raised:
<#<fatal:"No live threads left. Deadlock?\n1 threads, 1 sleeps current:0x00891288 main thread:0x00891288\n* #<Thread:0xfef89a18 sleep_forever>\n rb_thread_t:0x00891288 native:0x00000001 int:0\n \n">>
Backtrace:
-:30:in `join'
-:30:in `block (3 levels) in <main>'
-:21:in `times'
-:21:in `block (2 levels) in <main>'.
```
The mechanism:
* Main thread (M) calls `Thread#join`
* M: calls `sleep_forever()`
* M: set `th->status = THREAD_STOPPED_FOREVER`
* M: do `checkints`
* M: handle a trap handler with `th->status = THREAD_RUNNABLE`
* M: thread switch at the end of the trap handler
* Another thread (T) will process `Thread#kill` by M.
* T: `rb_threadptr_join_list_wakeup()` at the end of T tris to wakeup M,
but M's state is runnable because M is handling trap handler and
just ignore the waking up and terminate T$a
* T: switch to M.
* M: after the trap handler, reset `th->status = THREAD_STOPPED_FOREVER`
and check deadlock -> Deadlock because only M is living.
To avoid such situation, add new sleep flags `SLEEP_ALLOW_SPURIOUS`
and `SLEEP_NO_CHECKINTS` to skip any check ints.
BTW this is instentional to leave second `vm_check_ints_blocking()`
without checking `SLEEP_NO_CHECKINTS` because `SLEEP_ALLOW_SPURIOUS`
should be specified with `SLEEP_NO_CHECKINTS` and skipping this
checkints can skip any interrupts.
* Revert "Remove special handling of `SIGCHLD`. (#7482)"
This reverts commit 44a0711eab.
* Revert "Remove prototypes for functions that are no longer used. (#7497)"
This reverts commit 4dce12bead.
* Revert "Remove SIGCHLD `waidpid`. (#7476)"
This reverts commit 1658e7d966.
* Fix change to rjit variable name.
It's possible (but very rare) to have a race condition between setting
`mutex->fiber = NULL` and `thread_mutex_remove(th, mutex)` which results
in the following bug:
```
[BUG] invalid keeping_mutexes: Attempt to unlock a mutex which is not locked
```
Fixes <https://bugs.ruby-lang.org/issues/19480>.
```
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.
[Bug #19415]
If multiple threads attemps to load the same file concurrently
it's not a circular dependency issue.
So we check that the existing ThreadShield is owner by the current
fiber before warning about circular dependencies.
[Bug #19415]
If multiple threads attemps to load the same file concurrently
it's not a circular dependency issue.
So we check that the existing ThreadShield is owner by the current
fiber before warning about circular dependencies.
First, rb_mjit_fork should call rb_thread_atfork to stop threads after
fork in the child process. Unfortunately, we cannot use rb_fork_ruby to
prevent this kind of mistakes because MJIT needs special handling of
waiting_pid and mjit_pause/resume.
Second, mjit_waitpid_finished should be checked regardless of
trap_interrupt. It doesn't seem like the flag is not set when SIGCHLD is
handled for an MJIT child process.
GCC warns of empty format strings, perhaps because they have no
effects in printf() and there are better ways than sprintf().
However, ruby_debug_log() adds informations other than the format,
this warning is not the case.
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.
`rb_thread_wait_for_single_fd` needs to mutate the `waiting_fds` list
that is stored on the VM. We need to delete the FD from the list before
returning, and deleting from the list requires a VM lock (because the
list is a global).
[Bug #18816] [ruby-core:108771]
Co-Authored-By: Alan Wu <alanwu@ruby-lang.org>
Matthew Draper
Peter Zhu
Nobuyoshi Nakada
Samuel Williams
KJ Tsanaktsidis
git
KJ Tsanaktsidis
Koichi Sasada
Matt Valentine-House
Takashi Kokubun
Jean Boussier
Jean byroot Boussier
S-H-GAMELINKS
Yusuke Endoh
Jean Boussier
Aaron Patterson