зеркало из https://github.com/github/ruby.git
664 строки
21 KiB
C
664 строки
21 KiB
C
/**********************************************************************
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scheduler.c
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$Author$
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Copyright (C) 2020 Samuel Grant Dawson Williams
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**********************************************************************/
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#include "vm_core.h"
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#include "ruby/fiber/scheduler.h"
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#include "ruby/io.h"
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#include "ruby/io/buffer.h"
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#include "internal/thread.h"
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static ID id_close;
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static ID id_scheduler_close;
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static ID id_block;
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static ID id_unblock;
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static ID id_timeout_after;
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static ID id_kernel_sleep;
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static ID id_process_wait;
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static ID id_io_read, id_io_pread;
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static ID id_io_write, id_io_pwrite;
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static ID id_io_wait;
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static ID id_io_select;
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static ID id_io_close;
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static ID id_address_resolve;
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static ID id_fiber_schedule;
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/*
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* Document-class: Fiber::Scheduler
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*
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* This is not an existing class, but documentation of the interface that Scheduler
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* object should comply to in order to be used as argument to Fiber.scheduler and handle non-blocking
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* fibers. See also the "Non-blocking fibers" section in Fiber class docs for explanations
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* of some concepts.
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*
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* Scheduler's behavior and usage are expected to be as follows:
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*
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* * When the execution in the non-blocking Fiber reaches some blocking operation (like
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* sleep, wait for a process, or a non-ready I/O), it calls some of the scheduler's
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* hook methods, listed below.
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* * Scheduler somehow registers what the current fiber is waiting on, and yields control
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* to other fibers with Fiber.yield (so the fiber would be suspended while expecting its
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* wait to end, and other fibers in the same thread can perform)
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* * At the end of the current thread execution, the scheduler's method #scheduler_close is called
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* * The scheduler runs into a wait loop, checking all the blocked fibers (which it has
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* registered on hook calls) and resuming them when the awaited resource is ready
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* (e.g. I/O ready or sleep time elapsed).
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*
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* This way concurrent execution will be achieved transparently for every
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* individual Fiber's code.
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*
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* Scheduler implementations are provided by gems, like
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* Async[https://github.com/socketry/async].
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*
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* Hook methods are:
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*
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* * #io_wait, #io_read, #io_write, #io_pread, #io_pwrite, and #io_select, #io_close
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* * #process_wait
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* * #kernel_sleep
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* * #timeout_after
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* * #address_resolve
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* * #block and #unblock
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* * (the list is expanded as Ruby developers make more methods having non-blocking calls)
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*
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* When not specified otherwise, the hook implementations are mandatory: if they are not
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* implemented, the methods trying to call hook will fail. To provide backward compatibility,
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* in the future hooks will be optional (if they are not implemented, due to the scheduler
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* being created for the older Ruby version, the code which needs this hook will not fail,
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* and will just behave in a blocking fashion).
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*
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* It is also strongly recommended that the scheduler implements the #fiber method, which is
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* delegated to by Fiber.schedule.
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*
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* Sample _toy_ implementation of the scheduler can be found in Ruby's code, in
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* <tt>test/fiber/scheduler.rb</tt>
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*
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*/
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void
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Init_Fiber_Scheduler(void)
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{
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id_close = rb_intern_const("close");
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id_scheduler_close = rb_intern_const("scheduler_close");
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id_block = rb_intern_const("block");
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id_unblock = rb_intern_const("unblock");
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id_timeout_after = rb_intern_const("timeout_after");
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id_kernel_sleep = rb_intern_const("kernel_sleep");
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id_process_wait = rb_intern_const("process_wait");
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id_io_read = rb_intern_const("io_read");
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id_io_pread = rb_intern_const("io_pread");
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id_io_write = rb_intern_const("io_write");
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id_io_pwrite = rb_intern_const("io_pwrite");
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id_io_wait = rb_intern_const("io_wait");
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id_io_select = rb_intern_const("io_select");
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id_io_close = rb_intern_const("io_close");
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id_address_resolve = rb_intern_const("address_resolve");
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id_fiber_schedule = rb_intern_const("fiber");
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#if 0 /* for RDoc */
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rb_cFiberScheduler = rb_define_class_under(rb_cFiber, "Scheduler", rb_cObject);
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rb_define_method(rb_cFiberScheduler, "close", rb_fiber_scheduler_close, 0);
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rb_define_method(rb_cFiberScheduler, "process_wait", rb_fiber_scheduler_process_wait, 2);
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rb_define_method(rb_cFiberScheduler, "io_wait", rb_fiber_scheduler_io_wait, 3);
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rb_define_method(rb_cFiberScheduler, "io_read", rb_fiber_scheduler_io_read, 4);
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rb_define_method(rb_cFiberScheduler, "io_write", rb_fiber_scheduler_io_write, 4);
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rb_define_method(rb_cFiberScheduler, "io_pread", rb_fiber_scheduler_io_pread, 5);
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rb_define_method(rb_cFiberScheduler, "io_pwrite", rb_fiber_scheduler_io_pwrite, 5);
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rb_define_method(rb_cFiberScheduler, "io_select", rb_fiber_scheduler_io_select, 4);
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rb_define_method(rb_cFiberScheduler, "kernel_sleep", rb_fiber_scheduler_kernel_sleep, 1);
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rb_define_method(rb_cFiberScheduler, "address_resolve", rb_fiber_scheduler_address_resolve, 1);
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rb_define_method(rb_cFiberScheduler, "timeout_after", rb_fiber_scheduler_timeout_after, 3);
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rb_define_method(rb_cFiberScheduler, "block", rb_fiber_scheduler_block, 2);
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rb_define_method(rb_cFiberScheduler, "unblock", rb_fiber_scheduler_unblock, 2);
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rb_define_method(rb_cFiberScheduler, "fiber", rb_fiber_scheduler, -2);
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#endif
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}
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VALUE
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rb_fiber_scheduler_get(void)
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{
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VM_ASSERT(ruby_thread_has_gvl_p());
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rb_thread_t *thread = GET_THREAD();
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VM_ASSERT(thread);
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return thread->scheduler;
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}
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static void
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verify_interface(VALUE scheduler)
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{
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if (!rb_respond_to(scheduler, id_block)) {
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rb_raise(rb_eArgError, "Scheduler must implement #block");
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}
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if (!rb_respond_to(scheduler, id_unblock)) {
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rb_raise(rb_eArgError, "Scheduler must implement #unblock");
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}
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if (!rb_respond_to(scheduler, id_kernel_sleep)) {
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rb_raise(rb_eArgError, "Scheduler must implement #kernel_sleep");
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}
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if (!rb_respond_to(scheduler, id_io_wait)) {
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rb_raise(rb_eArgError, "Scheduler must implement #io_wait");
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}
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}
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VALUE
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rb_fiber_scheduler_set(VALUE scheduler)
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{
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VM_ASSERT(ruby_thread_has_gvl_p());
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rb_thread_t *thread = GET_THREAD();
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VM_ASSERT(thread);
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if (scheduler != Qnil) {
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verify_interface(scheduler);
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}
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// We invoke Scheduler#close when setting it to something else, to ensure
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// the previous scheduler runs to completion before changing the scheduler.
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// That way, we do not need to consider interactions, e.g., of a Fiber from
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// the previous scheduler with the new scheduler.
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if (thread->scheduler != Qnil) {
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rb_fiber_scheduler_close(thread->scheduler);
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}
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thread->scheduler = scheduler;
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return thread->scheduler;
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}
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static VALUE
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rb_fiber_scheduler_current_for_threadptr(rb_thread_t *thread)
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{
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VM_ASSERT(thread);
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if (thread->blocking == 0) {
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return thread->scheduler;
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}
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else {
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return Qnil;
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}
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}
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VALUE
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rb_fiber_scheduler_current(void)
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{
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return rb_fiber_scheduler_current_for_threadptr(GET_THREAD());
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}
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VALUE rb_fiber_scheduler_current_for_thread(VALUE thread)
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{
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return rb_fiber_scheduler_current_for_threadptr(rb_thread_ptr(thread));
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}
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/*
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*
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* Document-method: Fiber::Scheduler#close
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*
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* Called when the current thread exits. The scheduler is expected to implement this
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* method in order to allow all waiting fibers to finalize their execution.
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*
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* The suggested pattern is to implement the main event loop in the #close method.
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*
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*/
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VALUE
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rb_fiber_scheduler_close(VALUE scheduler)
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{
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VM_ASSERT(ruby_thread_has_gvl_p());
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VALUE result;
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// The reason for calling `scheduler_close` before calling `close` is for
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// legacy schedulers which implement `close` and expect the user to call
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// it. Subsequently, that method would call `Fiber.set_scheduler(nil)`
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// which should call `scheduler_close`. If it were to call `close`, it
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// would create an infinite loop.
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result = rb_check_funcall(scheduler, id_scheduler_close, 0, NULL);
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if (!UNDEF_P(result)) return result;
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result = rb_check_funcall(scheduler, id_close, 0, NULL);
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if (!UNDEF_P(result)) return result;
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return Qnil;
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}
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VALUE
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rb_fiber_scheduler_make_timeout(struct timeval *timeout)
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{
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if (timeout) {
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return rb_float_new((double)timeout->tv_sec + (0.000001f * timeout->tv_usec));
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}
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return Qnil;
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}
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/*
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* Document-method: Fiber::Scheduler#kernel_sleep
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* call-seq: kernel_sleep(duration = nil)
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*
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* Invoked by Kernel#sleep and Mutex#sleep and is expected to provide
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* an implementation of sleeping in a non-blocking way. Implementation might
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* register the current fiber in some list of "which fiber wait until what
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* moment", call Fiber.yield to pass control, and then in #close resume
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* the fibers whose wait period has elapsed.
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*
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*/
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VALUE
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rb_fiber_scheduler_kernel_sleep(VALUE scheduler, VALUE timeout)
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{
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return rb_funcall(scheduler, id_kernel_sleep, 1, timeout);
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}
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VALUE
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rb_fiber_scheduler_kernel_sleepv(VALUE scheduler, int argc, VALUE * argv)
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{
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return rb_funcallv(scheduler, id_kernel_sleep, argc, argv);
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}
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#if 0
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/*
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* Document-method: Fiber::Scheduler#timeout_after
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* call-seq: timeout_after(duration, exception_class, *exception_arguments, &block) -> result of block
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*
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* Invoked by Timeout.timeout to execute the given +block+ within the given
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* +duration+. It can also be invoked directly by the scheduler or user code.
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*
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* Attempt to limit the execution time of a given +block+ to the given
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* +duration+ if possible. When a non-blocking operation causes the +block+'s
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* execution time to exceed the specified +duration+, that non-blocking
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* operation should be interrupted by raising the specified +exception_class+
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* constructed with the given +exception_arguments+.
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*
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* General execution timeouts are often considered risky. This implementation
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* will only interrupt non-blocking operations. This is by design because it's
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* expected that non-blocking operations can fail for a variety of
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* unpredictable reasons, so applications should already be robust in handling
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* these conditions and by implication timeouts.
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*
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* However, as a result of this design, if the +block+ does not invoke any
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* non-blocking operations, it will be impossible to interrupt it. If you
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* desire to provide predictable points for timeouts, consider adding
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* +sleep(0)+.
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*
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* If the block is executed successfully, its result will be returned.
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*
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* The exception will typically be raised using Fiber#raise.
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*/
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VALUE
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rb_fiber_scheduler_timeout_after(VALUE scheduler, VALUE timeout, VALUE exception, VALUE message)
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{
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VALUE arguments[] = {
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timeout, exception, message
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};
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return rb_check_funcall(scheduler, id_timeout_after, 3, arguments);
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}
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VALUE
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rb_fiber_scheduler_timeout_afterv(VALUE scheduler, int argc, VALUE * argv)
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{
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return rb_check_funcall(scheduler, id_timeout_after, argc, argv);
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}
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#endif
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/*
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* Document-method: Fiber::Scheduler#process_wait
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* call-seq: process_wait(pid, flags)
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*
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* Invoked by Process::Status.wait in order to wait for a specified process.
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* See that method description for arguments description.
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*
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* Suggested minimal implementation:
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*
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* Thread.new do
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* Process::Status.wait(pid, flags)
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* end.value
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*
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* This hook is optional: if it is not present in the current scheduler,
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* Process::Status.wait will behave as a blocking method.
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*
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* Expected to return a Process::Status instance.
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*/
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VALUE
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rb_fiber_scheduler_process_wait(VALUE scheduler, rb_pid_t pid, int flags)
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{
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VALUE arguments[] = {
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PIDT2NUM(pid), RB_INT2NUM(flags)
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};
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return rb_check_funcall(scheduler, id_process_wait, 2, arguments);
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}
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/*
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* Document-method: Fiber::Scheduler#block
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* call-seq: block(blocker, timeout = nil)
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*
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* Invoked by methods like Thread.join, and by Mutex, to signify that current
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* Fiber is blocked until further notice (e.g. #unblock) or until +timeout+ has
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* elapsed.
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*
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* +blocker+ is what we are waiting on, informational only (for debugging and
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* logging). There are no guarantee about its value.
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*
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* Expected to return boolean, specifying whether the blocking operation was
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* successful or not.
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*/
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VALUE
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rb_fiber_scheduler_block(VALUE scheduler, VALUE blocker, VALUE timeout)
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{
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return rb_funcall(scheduler, id_block, 2, blocker, timeout);
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}
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/*
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* Document-method: Fiber::Scheduler#unblock
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* call-seq: unblock(blocker, fiber)
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*
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* Invoked to wake up Fiber previously blocked with #block (for example, Mutex#lock
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* calls #block and Mutex#unlock calls #unblock). The scheduler should use
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* the +fiber+ parameter to understand which fiber is unblocked.
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*
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* +blocker+ is what was awaited for, but it is informational only (for debugging
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* and logging), and it is not guaranteed to be the same value as the +blocker+ for
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* #block.
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*
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*/
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VALUE
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rb_fiber_scheduler_unblock(VALUE scheduler, VALUE blocker, VALUE fiber)
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{
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VM_ASSERT(rb_obj_is_fiber(fiber));
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return rb_funcall(scheduler, id_unblock, 2, blocker, fiber);
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}
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/*
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* Document-method: Fiber::Scheduler#io_wait
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* call-seq: io_wait(io, events, timeout)
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*
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* Invoked by IO#wait, IO#wait_readable, IO#wait_writable to ask whether the
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* specified descriptor is ready for specified events within
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* the specified +timeout+.
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*
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* +events+ is a bit mask of <tt>IO::READABLE</tt>, <tt>IO::WRITABLE</tt>, and
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* <tt>IO::PRIORITY</tt>.
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*
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* Suggested implementation should register which Fiber is waiting for which
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* resources and immediately calling Fiber.yield to pass control to other
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* fibers. Then, in the #close method, the scheduler might dispatch all the
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* I/O resources to fibers waiting for it.
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*
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* Expected to return the subset of events that are ready immediately.
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*
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*/
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VALUE
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rb_fiber_scheduler_io_wait(VALUE scheduler, VALUE io, VALUE events, VALUE timeout)
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{
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return rb_funcall(scheduler, id_io_wait, 3, io, events, timeout);
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}
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VALUE
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rb_fiber_scheduler_io_wait_readable(VALUE scheduler, VALUE io)
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{
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return rb_fiber_scheduler_io_wait(scheduler, io, RB_UINT2NUM(RUBY_IO_READABLE), rb_io_timeout(io));
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}
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VALUE
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rb_fiber_scheduler_io_wait_writable(VALUE scheduler, VALUE io)
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{
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return rb_fiber_scheduler_io_wait(scheduler, io, RB_UINT2NUM(RUBY_IO_WRITABLE), rb_io_timeout(io));
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}
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/*
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* Document-method: Fiber::Scheduler#io_select
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* call-seq: io_select(readables, writables, exceptables, timeout)
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*
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* Invoked by IO.select to ask whether the specified descriptors are ready for
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* specified events within the specified +timeout+.
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*
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* Expected to return the 3-tuple of Array of IOs that are ready.
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*
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*/
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VALUE rb_fiber_scheduler_io_select(VALUE scheduler, VALUE readables, VALUE writables, VALUE exceptables, VALUE timeout)
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{
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VALUE arguments[] = {
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readables, writables, exceptables, timeout
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};
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return rb_fiber_scheduler_io_selectv(scheduler, 4, arguments);
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}
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VALUE rb_fiber_scheduler_io_selectv(VALUE scheduler, int argc, VALUE *argv)
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{
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// I wondered about extracting argv, and checking if there is only a single
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// IO instance, and instead calling `io_wait`. However, it would require a
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// decent amount of work and it would be hard to preserve the exact
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// semantics of IO.select.
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return rb_check_funcall(scheduler, id_io_select, argc, argv);
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}
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/*
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* Document-method: Fiber::Scheduler#io_read
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* call-seq: io_read(io, buffer, minimum_length) -> read length or -errno
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*
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* Invoked by IO#read or IO#Buffer.read to read +length+ bytes from +io+ into a
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* specified +buffer+ (see IO::Buffer).
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*
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* The +minimum_length+ argument is the "minimum length to be read". If the IO
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* buffer size is 8KiB, but the +length+ is +1024+ (1KiB), up to 8KiB might be
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* read, but at least 1KiB will be. Generally, the only case where less data
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* than +length+ will be read is if there is an error reading the data.
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*
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* Specifying a +length+ of 0 is valid and means try reading at least once and
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* return any available data.
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*
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* Suggested implementation should try to read from +io+ in a non-blocking
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* manner and call #io_wait if the +io+ is not ready (which will yield control
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* to other fibers).
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*
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* See IO::Buffer for an interface available to return data.
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*
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* Expected to return number of bytes read, or, in case of an error,
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* <tt>-errno</tt> (negated number corresponding to system's error code).
|
|
*
|
|
* The method should be considered _experimental_.
|
|
*/
|
|
VALUE
|
|
rb_fiber_scheduler_io_read(VALUE scheduler, VALUE io, VALUE buffer, size_t length, size_t offset)
|
|
{
|
|
VALUE arguments[] = {
|
|
io, buffer, SIZET2NUM(length), SIZET2NUM(offset)
|
|
};
|
|
|
|
return rb_check_funcall(scheduler, id_io_read, 4, arguments);
|
|
}
|
|
|
|
|
|
/*
|
|
* Document-method: Fiber::Scheduler#io_read
|
|
* call-seq: io_pread(io, buffer, from, length, offset) -> read length or -errno
|
|
*
|
|
* Invoked by IO::Buffer#pread. See that method for description of arguments.
|
|
*
|
|
*/
|
|
VALUE
|
|
rb_fiber_scheduler_io_pread(VALUE scheduler, VALUE io, rb_off_t from, VALUE buffer, size_t length, size_t offset)
|
|
{
|
|
VALUE arguments[] = {
|
|
io, buffer, OFFT2NUM(from), SIZET2NUM(length), SIZET2NUM(offset)
|
|
};
|
|
|
|
return rb_check_funcall(scheduler, id_io_pread, 5, arguments);
|
|
}
|
|
|
|
/*
|
|
* Document-method: Scheduler#io_write
|
|
* call-seq: io_write(io, buffer, minimum_length) -> written length or -errno
|
|
*
|
|
* Invoked by IO#write or IO::Buffer#write to write +length+ bytes to +io+ from
|
|
* from a specified +buffer+ (see IO::Buffer).
|
|
*
|
|
* The +minimum_length+ argument is the "minimum length to be written". If the
|
|
* IO buffer size is 8KiB, but the +length+ specified is 1024 (1KiB), at most
|
|
* 8KiB will be written, but at least 1KiB will be. Generally, the only case
|
|
* where less data than +minimum_length+ will be written is if there is an
|
|
* error writing the data.
|
|
*
|
|
* Specifying a +length+ of 0 is valid and means try writing at least once, as
|
|
* much data as possible.
|
|
*
|
|
* Suggested implementation should try to write to +io+ in a non-blocking
|
|
* manner and call #io_wait if the +io+ is not ready (which will yield control
|
|
* to other fibers).
|
|
*
|
|
* See IO::Buffer for an interface available to get data from buffer
|
|
* efficiently.
|
|
*
|
|
* Expected to return number of bytes written, or, in case of an error,
|
|
* <tt>-errno</tt> (negated number corresponding to system's error code).
|
|
*
|
|
* The method should be considered _experimental_.
|
|
*/
|
|
VALUE
|
|
rb_fiber_scheduler_io_write(VALUE scheduler, VALUE io, VALUE buffer, size_t length, size_t offset)
|
|
{
|
|
VALUE arguments[] = {
|
|
io, buffer, SIZET2NUM(length), SIZET2NUM(offset)
|
|
};
|
|
|
|
return rb_check_funcall(scheduler, id_io_write, 4, arguments);
|
|
}
|
|
|
|
/*
|
|
* Document-method: Fiber::Scheduler#io_pwrite
|
|
* call-seq: io_pwrite(io, buffer, from, length, offset) -> written length or -errno
|
|
*
|
|
* Invoked by IO::Buffer#pwrite. See that method for description of arguments.
|
|
*
|
|
*/
|
|
VALUE
|
|
rb_fiber_scheduler_io_pwrite(VALUE scheduler, VALUE io, rb_off_t from, VALUE buffer, size_t length, size_t offset)
|
|
{
|
|
VALUE arguments[] = {
|
|
io, buffer, OFFT2NUM(from), SIZET2NUM(length), SIZET2NUM(offset)
|
|
};
|
|
|
|
return rb_check_funcall(scheduler, id_io_pwrite, 5, arguments);
|
|
}
|
|
|
|
VALUE
|
|
rb_fiber_scheduler_io_read_memory(VALUE scheduler, VALUE io, void *base, size_t size, size_t length)
|
|
{
|
|
VALUE buffer = rb_io_buffer_new(base, size, RB_IO_BUFFER_LOCKED);
|
|
|
|
VALUE result = rb_fiber_scheduler_io_read(scheduler, io, buffer, length, 0);
|
|
|
|
rb_io_buffer_unlock(buffer);
|
|
rb_io_buffer_free(buffer);
|
|
|
|
return result;
|
|
}
|
|
|
|
VALUE
|
|
rb_fiber_scheduler_io_write_memory(VALUE scheduler, VALUE io, const void *base, size_t size, size_t length)
|
|
{
|
|
VALUE buffer = rb_io_buffer_new((void*)base, size, RB_IO_BUFFER_LOCKED|RB_IO_BUFFER_READONLY);
|
|
|
|
VALUE result = rb_fiber_scheduler_io_write(scheduler, io, buffer, length, 0);
|
|
|
|
rb_io_buffer_unlock(buffer);
|
|
rb_io_buffer_free(buffer);
|
|
|
|
return result;
|
|
}
|
|
|
|
VALUE
|
|
rb_fiber_scheduler_io_close(VALUE scheduler, VALUE io)
|
|
{
|
|
VALUE arguments[] = {io};
|
|
|
|
return rb_check_funcall(scheduler, id_io_close, 1, arguments);
|
|
}
|
|
|
|
/*
|
|
* Document-method: Fiber::Scheduler#address_resolve
|
|
* call-seq: address_resolve(hostname) -> array_of_strings or nil
|
|
*
|
|
* Invoked by any method that performs a non-reverse DNS lookup. The most
|
|
* notable method is Addrinfo.getaddrinfo, but there are many other.
|
|
*
|
|
* The method is expected to return an array of strings corresponding to ip
|
|
* addresses the +hostname+ is resolved to, or +nil+ if it can not be resolved.
|
|
*
|
|
* Fairly exhaustive list of all possible call-sites:
|
|
*
|
|
* - Addrinfo.getaddrinfo
|
|
* - Addrinfo.tcp
|
|
* - Addrinfo.udp
|
|
* - Addrinfo.ip
|
|
* - Addrinfo.new
|
|
* - Addrinfo.marshal_load
|
|
* - SOCKSSocket.new
|
|
* - TCPServer.new
|
|
* - TCPSocket.new
|
|
* - IPSocket.getaddress
|
|
* - TCPSocket.gethostbyname
|
|
* - UDPSocket#connect
|
|
* - UDPSocket#bind
|
|
* - UDPSocket#send
|
|
* - Socket.getaddrinfo
|
|
* - Socket.gethostbyname
|
|
* - Socket.pack_sockaddr_in
|
|
* - Socket.sockaddr_in
|
|
* - Socket.unpack_sockaddr_in
|
|
*/
|
|
VALUE
|
|
rb_fiber_scheduler_address_resolve(VALUE scheduler, VALUE hostname)
|
|
{
|
|
VALUE arguments[] = {
|
|
hostname
|
|
};
|
|
|
|
return rb_check_funcall(scheduler, id_address_resolve, 1, arguments);
|
|
}
|
|
|
|
/*
|
|
* Document-method: Fiber::Scheduler#fiber
|
|
* call-seq: fiber(&block)
|
|
*
|
|
* Implementation of the Fiber.schedule. The method is <em>expected</em> to immediately
|
|
* run the given block of code in a separate non-blocking fiber, and to return that Fiber.
|
|
*
|
|
* Minimal suggested implementation is:
|
|
*
|
|
* def fiber(&block)
|
|
* fiber = Fiber.new(blocking: false, &block)
|
|
* fiber.resume
|
|
* fiber
|
|
* end
|
|
*/
|
|
VALUE
|
|
rb_fiber_scheduler_fiber(VALUE scheduler, int argc, VALUE *argv, int kw_splat)
|
|
{
|
|
return rb_funcall_passing_block_kw(scheduler, id_fiber_schedule, argc, argv, kw_splat);
|
|
}
|