#include "kgio.h" #include "my_fileno.h" static ID id_wait_rd, id_wait_wr; #if defined(HAVE_RB_TIME_INTERVAL) && defined(HAVE_RB_WAIT_FOR_SINGLE_FD) static int kgio_timedwait(VALUE self, VALUE timeout, int write_p) { struct timeval tv = rb_time_interval(timeout); int events = write_p ? RB_WAITFD_OUT : RB_WAITFD_IN; return rb_wait_for_single_fd(my_fileno(self), events, &tv); } #else /* ! (HAVE_RB_TIME_INTERVAL && HAVE_RB_WAIT_FOR_SINGLE_FD) */ static int kgio_timedwait(VALUE self, VALUE timeout, int write_p) { VALUE argv[4]; VALUE set = rb_ary_new3(1, self); argv[0] = write_p ? Qnil : set; argv[1] = write_p ? set : Qnil; argv[2] = Qnil; argv[3] = timeout; set = rb_funcall2(rb_cIO, rb_intern("select"), 4, argv); return NIL_P(set) ? 0 : 1; } #endif /* ! (HAVE_RB_TIME_INTERVAL && HAVE_RB_WAIT_FOR_SINGLE_FD) */ static int kgio_wait(int argc, VALUE *argv, VALUE self, int write_p) { int fd; VALUE timeout; if (rb_scan_args(argc, argv, "01", &timeout) == 1 && !NIL_P(timeout)) return kgio_timedwait(self, timeout, write_p); fd = my_fileno(self); errno = EAGAIN; write_p ? rb_io_wait_writable(fd) : rb_io_wait_readable(fd); return 1; } /* * call-seq: * * io.kgio_wait_readable -> IO * io.kgio_wait_readable(timeout) -> IO or nil * * Blocks the running Thread indefinitely until the IO object is readable * or if +timeout+ expires. If +timeout+ is specified and expires, +nil+ * is returned. * * This method is automatically called (without timeout argument) by default * whenever kgio_read needs to block on input. * * Users of alternative threading/fiber libraries are * encouraged to override this method in their subclasses or modules to * work with their threading/blocking methods. */ static VALUE kgio_wait_readable(int argc, VALUE *argv, VALUE self) { int r = kgio_wait(argc, argv, self, 0); if (r < 0) rb_sys_fail("kgio_wait_readable"); return r == 0 ? Qnil : self; } /* * call-seq: * * io.kgio_wait_writeable -> IO * io.kgio_wait_writable(timeout) -> IO or nil * * Blocks the running Thread indefinitely until the IO object is writable * or if +timeout+ expires. If +timeout+ is specified and expires, +nil+ * is returned. * * This method is automatically called (without timeout argument) by default * whenever kgio_write needs to block on output. * * Users of alternative threading/fiber libraries are * encouraged to override this method in their subclasses or modules to * work with their threading/blocking methods. */ static VALUE kgio_wait_writable(int argc, VALUE *argv, VALUE self) { int r = kgio_wait(argc, argv, self, 1); if (r < 0) rb_sys_fail("kgio_wait_writable"); return r == 0 ? Qnil : self; } VALUE kgio_call_wait_writable(VALUE io) { return rb_funcall(io, id_wait_wr, 0, 0); } VALUE kgio_call_wait_readable(VALUE io) { return rb_funcall(io, id_wait_rd, 0, 0); } void init_kgio_wait(void) { VALUE mKgio = rb_define_module("Kgio"); /* * Document-module: Kgio::DefaultWaiters * * This module contains default kgio_wait_readable and * kgio_wait_writable methods that block indefinitely (in a * thread-safe manner) until an IO object is read or writable. * This module is included in the Kgio::PipeMethods and * Kgio::SocketMethods modules used by all bundled IO-derived * objects. */ VALUE mWaiters = rb_define_module_under(mKgio, "DefaultWaiters"); id_wait_rd = rb_intern("kgio_wait_readable"); id_wait_wr = rb_intern("kgio_wait_writable"); rb_define_method(mWaiters, "kgio_wait_readable", kgio_wait_readable, -1); rb_define_method(mWaiters, "kgio_wait_writable", kgio_wait_writable, -1); }