/* ==== signal.c ============================================================ * Copyright (c) 1993, 1994 by Chris Provenzano, proven@mit.edu * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Chris Provenzano. * 4. The name of Chris Provenzano may not be used to endorse or promote * products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY CHRIS PROVENZANO ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL CHRIS PROVENZANO BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * Description : Queue functions. * * 1.00 93/07/21 proven * -Started coding this file. */ #ifndef lint static const char rcsid[] = "$Id: signal.c,v 1.3 1994/02/07 22:04:29 proven Exp $ $provenid: signal.c,v 1.18 1994/02/07 02:19:28 proven Exp $"; #endif #include #include /* * Time which select in fd_kern_wait() will sleep. * If there are no threads to run we sleep for an hour or until * we get an interrupt or an fd thats awakens. To make sure we * don't miss an interrupt this variable gets reset too zero in * sig_handler_real(). */ struct timeval __fd_kern_wait_timeout = { 0, 0 }; /* * Global for user-kernel lock, and blocked signals */ static volatile sigset_t sig_to_tryagain; static volatile sigset_t sig_to_process; static volatile int kernel_lock = 0; static volatile int sig_count = 0; static void sig_handler(int signal); static void set_thread_timer(); void sig_prevent(void); void sig_resume(void); /* ========================================================================== * context_switch() * * This routine saves the current state of the running thread gets * the next thread to run and restores it's state. To allow different * processors to work with this routine, I allow the machdep_restore_state() * to either return or have it return from machdep_save_state with a value * other than 0, this is for implementations which use setjmp/longjmp. */ static void context_switch() { struct pthread **current, *next, *last; semaphore *lock; int count; /* save state of current thread */ if (machdep_save_state()) { return; } last = pthread_run; if (pthread_run = pthread_queue_deq(&pthread_current_queue)) { /* restore state of new current thread */ machdep_restore_state(); return; } /* Poll all the kernel fds */ fd_kern_poll(); context_switch_reschedule:; /* * Go through the reschedule list once, this is the only place * that goes through the queue without using the queue routines. * * But first delete the current queue. */ pthread_queue_init(&pthread_current_queue); current = &(pthread_link_list); count = 0; while (*current) { switch((*current)->state) { case PS_RUNNING: pthread_queue_enq(&pthread_current_queue, *current); current = &((*current)->pll); count++; break; case PS_DEAD: /* Cleanup thread, unless we're using the stack */ if (((*current)->flags & PF_DETACHED) && (*current != last)) { next = (*current)->pll; lock = &((*current)->lock); if (SEMAPHORE_TEST_AND_SET(lock)) { /* Couldn't cleanup this time, try again later */ current = &((*current)->pll); } else { if (!((*current)->attr.stackaddr_attr)) { free (machdep_pthread_cleanup(&((*current)->machdep_data))); } free (*current); *current = next; } } else { current = &((*current)->pll); } break; default: /* Should be on a different queue. Ignore. */ current = &((*current)->pll); count++; break; } } /* Are there any threads to run */ if (pthread_run = pthread_queue_deq(&pthread_current_queue)) { /* restore state of new current thread */ machdep_restore_state(); return; } /* Are there any threads at all */ if (count) { /* * Do a wait, timeout is set to a hour unless we get an interrupt * before the select in wich case it polls and returns. */ fd_kern_wait(); /* Check for interrupts, but ignore SIGVTALR */ sigdelset(&sig_to_process, SIGVTALRM); if (sig_to_process) { /* Process interrupts */ sig_handler(0); } goto context_switch_reschedule; } exit(0); } /* ========================================================================== * sig_handler_pause() * * Wait until a signal is sent to the process. */ void sig_handler_pause() { sigset_t sig_to_block, sig_to_pause; sigfillset(&sig_to_block); sigemptyset(&sig_to_pause); sigprocmask(SIG_BLOCK, &sig_to_block, NULL); if (!sig_to_process) { sigsuspend(&sig_to_pause); } sigprocmask(SIG_UNBLOCK, &sig_to_block, NULL); } /* ========================================================================== * context_switch_done() * * This routine does all the things that are necessary after a context_switch() * calls the machdep_restore_state(). DO NOT put this in the context_switch() * routine because sometimes the machdep_restore_state() doesn't return * to context_switch() but instead ends up in machdep_thread_start() or * some such routine, which will need to call this routine and * sig_check_and_resume(). */ void context_switch_done() { sigdelset(&sig_to_process, SIGVTALRM); set_thread_timer(); } /* ========================================================================== * set_thread_timer() * * Assums kernel is locked. */ static void set_thread_timer() { static int last_sched_attr = SCHED_RR; switch (pthread_run->attr.sched_attr) { case SCHED_RR: machdep_set_thread_timer(&(pthread_run->machdep_data)); break; case SCHED_FIFO: if (last_sched_attr != SCHED_FIFO) { machdep_unset_thread_timer(); } break; case SCHED_IO: if ((last_sched_attr != SCHED_IO) && (!sig_count)) { machdep_set_thread_timer(&(pthread_run->machdep_data)); } break; default: machdep_set_thread_timer(&(pthread_run->machdep_data)); break; } last_sched_attr = pthread_run->attr.sched_attr; } /* ========================================================================== * sig_handler() * * Assumes the kernel is locked. */ static void sig_handler(int sig) { /* * First check for old signals, do one pass through and don't * check any twice. */ if (sig_to_tryagain) { if (sigismember(&sig_to_tryagain, SIGALRM)) { switch (sleep_wakeup()) { case 1: /* Do the default action, no threads were sleeping */ case OK: /* Woke up a sleeping thread */ sigdelset(&sig_to_tryagain, SIGALRM); break; case NOTOK: /* Couldn't get appropriate locks, try again later */ break; } } else { PANIC(); } } /* * NOW, process signal that just came in, plus any pending on the * signal mask. All of these must be resolved. */ sig_handler_top:; switch(sig) { case 0: break; case SIGVTALRM: if (sig_count) { sigset_t sigall; sig_count = 0; /* Unblock all signals */ sigemptyset(&sigall); sigprocmask(SIG_SETMASK, &sigall, NULL); } context_switch(); context_switch_done(); break; case SIGALRM: sigdelset(&sig_to_process, SIGALRM); switch (sleep_wakeup()) { case 1: /* Do the default action, no threads were sleeping */ case OK: /* Woke up a sleeping thread */ break; case NOTOK: /* Couldn't get appropriate locks, try again later */ sigaddset(&sig_to_tryagain, SIGALRM); break; } break; default: PANIC(); } /* Determine if there are any other signals */ if (sig_to_process) { for (sig = 1; sig <= SIGMAX; sig++) { if (sigismember(&sig_to_process, sig)) { /* goto sig_handler_top */ goto sig_handler_top; } } } } /* ========================================================================== * sig_handler_real() * * On a multi-processor this would need to use the test and set instruction * otherwise the following will work. */ void sig_handler_real(int sig) { if (kernel_lock) { __fd_kern_wait_timeout.tv_sec = 0; sigaddset(&sig_to_process, sig); return; } sig_prevent(); sig_count++; sig_handler(sig); sig_resume(); } /* ========================================================================== * sig_handler_fake() */ void sig_handler_fake(int sig) { if (kernel_lock) { /* Currently this should be impossible */ PANIC(); } sig_prevent(); sig_handler(sig); sig_resume(); } /* ========================================================================== * reschedule() * * This routine assumes that the caller is the current pthread, pthread_run * and that it has a lock on itself and that it wants to reschedule itself. */ void reschedule(enum pthread_state state) { semaphore *plock; if (kernel_lock) { /* Currently this should be impossible */ PANIC(); } sig_prevent(); pthread_run->state = state; SEMAPHORE_RESET((plock = &(pthread_run->lock))); sig_handler(SIGVTALRM); sig_resume(); } /* ========================================================================== * sig_prevent() */ void sig_prevent(void) { kernel_lock++; } /* ========================================================================== * sig_resume() */ void sig_resume() { kernel_lock--; } /* ========================================================================== * sig_check_and_resume() */ void sig_check_and_resume() { /* Some routine name that is yet to be determined. */ /* Only bother if we are truely unlocking the kernel */ while (!(--kernel_lock)) { /* Assume sigset_t is not a struct or union */ if (sig_to_process) { kernel_lock++; sig_handler(0); } else { break; } } } /* ========================================================================== * sig_init() * * SIGVTALRM (NOT POSIX) needed for thread timeslice timeouts. * Since it's not POSIX I will replace it with a * virtual timer for threads. * SIGALRM (IS POSIX) so some special handling will be * necessary to fake SIGALRM signals */ void sig_init(void) { int sig_to_init[] = { SIGVTALRM, SIGALRM, 0 }; #if defined(SA_RESTART) struct sigaction act; #endif int i; #if defined(SA_RESTART) act.sa_handler = sig_handler_real; sigemptyset(&(act.sa_mask)); act.sa_flags = SA_RESTART; #endif /* Initialize only the necessary signals */ for (i = 0; sig_to_init[i]; i++) { #if defined(SA_RESTART) if (sigaction(sig_to_init[i], &act, NULL)) { #else if (signal(sig_to_init[i], sig_handler_real)) { #endif PANIC(); } } }