libthr/thread/thr_sig.c

bb535300SJeff Roberson/*
df2cf821SDavid Xu * Copyright (c) 2005, David Xu <davidxu@freebsd.org>
bb535300SJeff Roberson * All rights reserved.
bb535300SJeff Roberson *
bb535300SJeff Roberson * Redistribution and use in source and binary forms, with or without
bb535300SJeff Roberson * modification, are permitted provided that the following conditions
bb535300SJeff Roberson * are met:
bb535300SJeff Roberson * 1. Redistributions of source code must retain the above copyright
df2cf821SDavid Xu *    notice unmodified, this list of conditions, and the following
df2cf821SDavid Xu *    disclaimer.
bb535300SJeff Roberson * 2. Redistributions in binary form must reproduce the above copyright
bb535300SJeff Roberson *    notice, this list of conditions and the following disclaimer in the
bb535300SJeff Roberson *    documentation and/or other materials provided with the distribution.
bb535300SJeff Roberson *
df2cf821SDavid Xu * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
df2cf821SDavid Xu * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
df2cf821SDavid Xu * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
df2cf821SDavid Xu * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
df2cf821SDavid Xu * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
df2cf821SDavid Xu * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
df2cf821SDavid Xu * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
df2cf821SDavid Xu * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
df2cf821SDavid Xu * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
df2cf821SDavid Xu * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
bb535300SJeff Roberson *
bb535300SJeff Roberson * $FreeBSD$
bb535300SJeff Roberson */
bb535300SJeff Roberson
37a6356bSDavid Xu#include "namespace.h"
bb535300SJeff Roberson#include <sys/param.h>
bb535300SJeff Roberson#include <sys/types.h>
bb535300SJeff Roberson#include <sys/signalvar.h>
bb535300SJeff Roberson#include <signal.h>
a091d823SDavid Xu#include <errno.h>
10280ca6SKonstantin Belousov#include <stdlib.h>
a091d823SDavid Xu#include <string.h>
bb535300SJeff Roberson#include <pthread.h>
37a6356bSDavid Xu#include "un-namespace.h"
02c3c858SDavid Xu#include "libc_private.h"
89552201SMike Makonnen
bb535300SJeff Roberson#include "thr_private.h"
bb535300SJeff Roberson
bb535300SJeff Roberson/* #define DEBUG_SIGNAL */
bb535300SJeff Roberson#ifdef DEBUG_SIGNAL
bb535300SJeff Roberson#define DBG_MSG		stdout_debug
bb535300SJeff Roberson#else
bb535300SJeff Roberson#define DBG_MSG(x...)
bb535300SJeff Roberson#endif
bb535300SJeff Roberson
02c3c858SDavid Xustruct usigaction {
02c3c858SDavid Xu	struct sigaction sigact;
02c3c858SDavid Xu	struct urwlock   lock;
02c3c858SDavid Xu};
02c3c858SDavid Xu
02c3c858SDavid Xustatic struct usigaction _thr_sigact[_SIG_MAXSIG];
02c3c858SDavid Xu
02c3c858SDavid Xustatic void thr_sighandler(int, siginfo_t *, void *);
02c3c858SDavid Xustatic void handle_signal(struct sigaction *, int, siginfo_t *, ucontext_t *);
02c3c858SDavid Xustatic void check_deferred_signal(struct pthread *);
02c3c858SDavid Xustatic void check_suspend(struct pthread *);
02c3c858SDavid Xustatic void check_cancel(struct pthread *curthread, ucontext_t *ucp);
02c3c858SDavid Xu
05c3a5eaSDavid Xuint	___pause(void);
05c3a5eaSDavid Xuint	_raise(int);
37a6356bSDavid Xuint	__sigtimedwait(const sigset_t *set, siginfo_t *info,
37a6356bSDavid Xu	const struct timespec * timeout);
922d56f9SDavid Xuint	_sigtimedwait(const sigset_t *set, siginfo_t *info,
922d56f9SDavid Xu	const struct timespec * timeout);
37a6356bSDavid Xuint	__sigwaitinfo(const sigset_t *set, siginfo_t *info);
922d56f9SDavid Xuint	_sigwaitinfo(const sigset_t *set, siginfo_t *info);
83c9e089SDavid Xuint	___sigwait(const sigset_t *set, int *sig);
922d56f9SDavid Xuint	_sigwait(const sigset_t *set, int *sig);
922d56f9SDavid Xuint	__sigsuspend(const sigset_t *sigmask);
02c3c858SDavid Xuint	_sigaction(int, const struct sigaction *, struct sigaction *);
5cf22195SDavid Xuint	_setcontext(const ucontext_t *);
5cf22195SDavid Xuint	_swapcontext(ucontext_t *, const ucontext_t *);
37a6356bSDavid Xu
02c3c858SDavid Xustatic const sigset_t _thr_deferset={{
02c3c858SDavid Xu	0xffffffff & ~(_SIG_BIT(SIGBUS)|_SIG_BIT(SIGILL)|_SIG_BIT(SIGFPE)|
02c3c858SDavid Xu	_SIG_BIT(SIGSEGV)|_SIG_BIT(SIGTRAP)|_SIG_BIT(SIGSYS)),
02c3c858SDavid Xu	0xffffffff,
02c3c858SDavid Xu	0xffffffff,
02c3c858SDavid Xu	0xffffffff}};
02c3c858SDavid Xu
02c3c858SDavid Xustatic const sigset_t _thr_maskset={{
02c3c858SDavid Xu	0xffffffff,
02c3c858SDavid Xu	0xffffffff,
02c3c858SDavid Xu	0xffffffff,
02c3c858SDavid Xu	0xffffffff}};
02c3c858SDavid Xu
02c3c858SDavid Xuvoid
02c3c858SDavid Xu_thr_signal_block(struct pthread *curthread)
02c3c858SDavid Xu{
02c3c858SDavid Xu
02c3c858SDavid Xu	if (curthread->sigblock > 0) {
02c3c858SDavid Xu		curthread->sigblock++;
02c3c858SDavid Xu		return;
02c3c858SDavid Xu	}
02c3c858SDavid Xu	__sys_sigprocmask(SIG_BLOCK, &_thr_maskset, &curthread->sigmask);
02c3c858SDavid Xu	curthread->sigblock++;
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xuvoid
02c3c858SDavid Xu_thr_signal_unblock(struct pthread *curthread)
02c3c858SDavid Xu{
02c3c858SDavid Xu	if (--curthread->sigblock == 0)
02c3c858SDavid Xu		__sys_sigprocmask(SIG_SETMASK, &curthread->sigmask, NULL);
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xuint
02c3c858SDavid Xu_thr_send_sig(struct pthread *thread, int sig)
02c3c858SDavid Xu{
02c3c858SDavid Xu	return thr_kill(thread->tid, sig);
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xustatic inline void
5cf22195SDavid Xuremove_thr_signals(sigset_t *set)
5cf22195SDavid Xu{
5cf22195SDavid Xu	if (SIGISMEMBER(*set, SIGCANCEL))
5cf22195SDavid Xu		SIGDELSET(*set, SIGCANCEL);
5cf22195SDavid Xu}
5cf22195SDavid Xu
5cf22195SDavid Xustatic const sigset_t *
5cf22195SDavid Xuthr_remove_thr_signals(const sigset_t *set, sigset_t *newset)
5cf22195SDavid Xu{
5cf22195SDavid Xu	*newset = *set;
02c3c858SDavid Xu	remove_thr_signals(newset);
02c3c858SDavid Xu	return (newset);
5cf22195SDavid Xu}
6fdfcacbSDavid Xu
a091d823SDavid Xustatic void
37a6356bSDavid Xusigcancel_handler(int sig __unused,
02c3c858SDavid Xu	siginfo_t *info __unused, ucontext_t *ucp)
a091d823SDavid Xu{
a091d823SDavid Xu	struct pthread *curthread = _get_curthread();
02c3c858SDavid Xu	int err;
a091d823SDavid Xu
02c3c858SDavid Xu	if (THR_IN_CRITICAL(curthread))
02c3c858SDavid Xu		return;
02c3c858SDavid Xu	err = errno;
02c3c858SDavid Xu	check_suspend(curthread);
02c3c858SDavid Xu	check_cancel(curthread, ucp);
02c3c858SDavid Xu	errno = err;
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xutypedef void (*ohandler)(int sig, int code,
02c3c858SDavid Xu	struct sigcontext *scp, char *addr, __sighandler_t *catcher);
02c3c858SDavid Xu
02c3c858SDavid Xu/*
02c3c858SDavid Xu * The signal handler wrapper is entered with all signal masked.
02c3c858SDavid Xu */
02c3c858SDavid Xustatic void
02c3c858SDavid Xuthr_sighandler(int sig, siginfo_t *info, void *_ucp)
02c3c858SDavid Xu{
02c3c858SDavid Xu	struct pthread *curthread = _get_curthread();
02c3c858SDavid Xu	ucontext_t *ucp = _ucp;
02c3c858SDavid Xu	struct sigaction act;
02c3c858SDavid Xu	int err;
02c3c858SDavid Xu
02c3c858SDavid Xu	err = errno;
02c3c858SDavid Xu	_thr_rwl_rdlock(&_thr_sigact[sig-1].lock);
02c3c858SDavid Xu	act = _thr_sigact[sig-1].sigact;
02c3c858SDavid Xu	_thr_rwl_unlock(&_thr_sigact[sig-1].lock);
02c3c858SDavid Xu	errno = err;
02c3c858SDavid Xu
02c3c858SDavid Xu	/*
02c3c858SDavid Xu	 * if a thread is in critical region, for example it holds low level locks,
02c3c858SDavid Xu	 * try to defer the signal processing, however if the signal is synchronous
02c3c858SDavid Xu	 * signal, it means a bad thing has happened, this is a programming error,
02c3c858SDavid Xu	 * resuming fault point can not help anything (normally causes deadloop),
02c3c858SDavid Xu	 * so here we let user code handle it immediately.
02c3c858SDavid Xu	 */
02c3c858SDavid Xu	if (THR_IN_CRITICAL(curthread) && SIGISMEMBER(_thr_deferset, sig)) {
02c3c858SDavid Xu		memcpy(&curthread->deferred_sigact, &act, sizeof(struct sigaction));
02c3c858SDavid Xu		memcpy(&curthread->deferred_siginfo, info, sizeof(siginfo_t));
02c3c858SDavid Xu		curthread->deferred_sigmask = ucp->uc_sigmask;
02c3c858SDavid Xu		/* mask all signals, we will restore it later. */
02c3c858SDavid Xu		ucp->uc_sigmask = _thr_deferset;
02c3c858SDavid Xu		return;
02c3c858SDavid Xu	}
02c3c858SDavid Xu
02c3c858SDavid Xu	handle_signal(&act, sig, info, ucp);
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xustatic void
02c3c858SDavid Xuhandle_signal(struct sigaction *actp, int sig, siginfo_t *info, ucontext_t *ucp)
02c3c858SDavid Xu{
02c3c858SDavid Xu	struct pthread *curthread = _get_curthread();
02c3c858SDavid Xu	ucontext_t uc2;
02c3c858SDavid Xu	__siginfohandler_t *sigfunc;
02c3c858SDavid Xu	int cancel_point;
02c3c858SDavid Xu	int cancel_async;
02c3c858SDavid Xu	int cancel_enable;
02c3c858SDavid Xu	int in_sigsuspend;
02c3c858SDavid Xu	int err;
02c3c858SDavid Xu
02c3c858SDavid Xu	/* add previous level mask */
02c3c858SDavid Xu	SIGSETOR(actp->sa_mask, ucp->uc_sigmask);
02c3c858SDavid Xu
02c3c858SDavid Xu	/* add this signal's mask */
02c3c858SDavid Xu	if (!(actp->sa_flags & SA_NODEFER))
02c3c858SDavid Xu		SIGADDSET(actp->sa_mask, sig);
02c3c858SDavid Xu
02c3c858SDavid Xu	in_sigsuspend = curthread->in_sigsuspend;
02c3c858SDavid Xu	curthread->in_sigsuspend = 0;
02c3c858SDavid Xu
02c3c858SDavid Xu	/*
02c3c858SDavid Xu	 * if thread is in deferred cancellation mode, disable cancellation
02c3c858SDavid Xu	 * in signal handler.
02c3c858SDavid Xu	 * if user signal handler calls a cancellation point function, e.g,
02c3c858SDavid Xu	 * it calls write() to write data to file, because write() is a
02c3c858SDavid Xu	 * cancellation point, the thread is immediately cancelled if
02c3c858SDavid Xu	 * cancellation is pending, to avoid this problem while thread is in
02c3c858SDavid Xu	 * deferring mode, cancellation is temporarily disabled.
02c3c858SDavid Xu	 */
02c3c858SDavid Xu	cancel_point = curthread->cancel_point;
02c3c858SDavid Xu	cancel_async = curthread->cancel_async;
02c3c858SDavid Xu	cancel_enable = curthread->cancel_enable;
02c3c858SDavid Xu	curthread->cancel_point = 0;
02c3c858SDavid Xu	if (!cancel_async)
02c3c858SDavid Xu		curthread->cancel_enable = 0;
02c3c858SDavid Xu
02c3c858SDavid Xu	/* restore correct mask before calling user handler */
02c3c858SDavid Xu	__sys_sigprocmask(SIG_SETMASK, &actp->sa_mask, NULL);
02c3c858SDavid Xu
02c3c858SDavid Xu	sigfunc = actp->sa_sigaction;
02c3c858SDavid Xu
02c3c858SDavid Xu	/*
02c3c858SDavid Xu	 * We have already reset cancellation point flags, so if user's code
02c3c858SDavid Xu	 * longjmp()s out of its signal handler, wish its jmpbuf was set
02c3c858SDavid Xu	 * outside of a cancellation point, in most cases, this would be
02c3c858SDavid Xu	 * true. however, ther is no way to save cancel_enable in jmpbuf,
02c3c858SDavid Xu	 * so after setjmps() returns once more, the user code may need to
02c3c858SDavid Xu	 * re-set cancel_enable flag by calling pthread_setcancelstate().
02c3c858SDavid Xu	 */
02c3c858SDavid Xu	if ((actp->sa_flags & SA_SIGINFO) != 0)
02c3c858SDavid Xu		(*(sigfunc))(sig, info, ucp);
02c3c858SDavid Xu	else {
02c3c858SDavid Xu		((ohandler)(*sigfunc))(
02c3c858SDavid Xu			sig, info->si_code, (struct sigcontext *)ucp,
02c3c858SDavid Xu			info->si_addr, (__sighandler_t *)sigfunc);
02c3c858SDavid Xu	}
02c3c858SDavid Xu	err = errno;
02c3c858SDavid Xu
02c3c858SDavid Xu	curthread->in_sigsuspend = in_sigsuspend;
02c3c858SDavid Xu	curthread->cancel_point = cancel_point;
02c3c858SDavid Xu	curthread->cancel_enable = cancel_enable;
02c3c858SDavid Xu
02c3c858SDavid Xu	memcpy(&uc2, ucp, sizeof(uc2));
02c3c858SDavid Xu	SIGDELSET(uc2.uc_sigmask, SIGCANCEL);
02c3c858SDavid Xu
02c3c858SDavid Xu	/* reschedule cancellation */
02c3c858SDavid Xu	check_cancel(curthread, &uc2);
02c3c858SDavid Xu	errno = err;
02c3c858SDavid Xu	__sys_sigreturn(&uc2);
bc414752SDavid Xu}
bc414752SDavid Xu
bc414752SDavid Xuvoid
bc414752SDavid Xu_thr_ast(struct pthread *curthread)
bc414752SDavid Xu{
635f917aSDavid Xu
02c3c858SDavid Xu	if (!THR_IN_CRITICAL(curthread)) {
02c3c858SDavid Xu		check_deferred_signal(curthread);
02c3c858SDavid Xu		check_suspend(curthread);
02c3c858SDavid Xu		check_cancel(curthread, NULL);
02c3c858SDavid Xu	}
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xu/* reschedule cancellation */
02c3c858SDavid Xustatic void
02c3c858SDavid Xucheck_cancel(struct pthread *curthread, ucontext_t *ucp)
02c3c858SDavid Xu{
02c3c858SDavid Xu
81f3e99cSDavid Xu	if (__predict_true(!curthread->cancel_pending ||
81f3e99cSDavid Xu	    !curthread->cancel_enable || curthread->no_cancel))
635f917aSDavid Xu		return;
635f917aSDavid Xu
635f917aSDavid Xu	/*
635f917aSDavid Xu 	 * Otherwise, we are in defer mode, and we are at
635f917aSDavid Xu	 * cancel point, tell kernel to not block the current
635f917aSDavid Xu	 * thread on next cancelable system call.
635f917aSDavid Xu	 *
02c3c858SDavid Xu	 * There are three cases we should call thr_wake() to
02c3c858SDavid Xu	 * turn on TDP_WAKEUP or send SIGCANCEL in kernel:
635f917aSDavid Xu	 * 1) we are going to call a cancelable system call,
635f917aSDavid Xu	 *    non-zero cancel_point means we are already in
635f917aSDavid Xu	 *    cancelable state, next system call is cancelable.
635f917aSDavid Xu	 * 2) because _thr_ast() may be called by
635f917aSDavid Xu	 *    THR_CRITICAL_LEAVE() which is used by rtld rwlock
635f917aSDavid Xu	 *    and any libthr internal locks, when rtld rwlock
635f917aSDavid Xu	 *    is used, it is mostly caused my an unresolved PLT.
635f917aSDavid Xu	 *    those routines may clear the TDP_WAKEUP flag by
635f917aSDavid Xu	 *    invoking some system calls, in those cases, we
635f917aSDavid Xu	 *    also should reenable the flag.
02c3c858SDavid Xu	 * 3) thread is in sigsuspend(), and the syscall insists
02c3c858SDavid Xu	 *    on getting a signal before it agrees to return.
635f917aSDavid Xu 	 */
635f917aSDavid Xu	if (curthread->cancel_point) {
02c3c858SDavid Xu		if (curthread->in_sigsuspend && ucp) {
02c3c858SDavid Xu			SIGADDSET(ucp->uc_sigmask, SIGCANCEL);
02c3c858SDavid Xu			curthread->unblock_sigcancel = 1;
02c3c858SDavid Xu			_thr_send_sig(curthread, SIGCANCEL);
02c3c858SDavid Xu		} else
635f917aSDavid Xu			thr_wake(curthread->tid);
81f3e99cSDavid Xu	} else if (curthread->cancel_async) {
81f3e99cSDavid Xu		/*
81f3e99cSDavid Xu		 * asynchronous cancellation mode, act upon
81f3e99cSDavid Xu		 * immediately.
81f3e99cSDavid Xu		 */
81f3e99cSDavid Xu		_pthread_exit_mask(PTHREAD_CANCELED,
81f3e99cSDavid Xu		    ucp? &ucp->uc_sigmask : NULL);
635f917aSDavid Xu	}
635f917aSDavid Xu}
635f917aSDavid Xu
02c3c858SDavid Xustatic void
02c3c858SDavid Xucheck_deferred_signal(struct pthread *curthread)
02c3c858SDavid Xu{
10280ca6SKonstantin Belousov	ucontext_t *uc;
02c3c858SDavid Xu	struct sigaction act;
02c3c858SDavid Xu	siginfo_t info;
02c3c858SDavid Xu
02c3c858SDavid Xu	if (__predict_true(curthread->deferred_siginfo.si_signo == 0))
02c3c858SDavid Xu		return;
10280ca6SKonstantin Belousov
10280ca6SKonstantin Belousov#if defined(__amd64__) || defined(__i386__)
10280ca6SKonstantin Belousov	uc = alloca(__getcontextx_size());
10280ca6SKonstantin Belousov	__fillcontextx((char *)uc);
10280ca6SKonstantin Belousov#else
10280ca6SKonstantin Belousov	ucontext_t ucv;
10280ca6SKonstantin Belousov	uc = &ucv;
10280ca6SKonstantin Belousov	getcontext(uc);
10280ca6SKonstantin Belousov#endif
65a6aaf1SDavid Xu	if (curthread->deferred_siginfo.si_signo != 0) {
02c3c858SDavid Xu		act = curthread->deferred_sigact;
10280ca6SKonstantin Belousov		uc->uc_sigmask = curthread->deferred_sigmask;
02c3c858SDavid Xu		memcpy(&info, &curthread->deferred_siginfo, sizeof(siginfo_t));
02c3c858SDavid Xu		/* remove signal */
02c3c858SDavid Xu		curthread->deferred_siginfo.si_signo = 0;
02c3c858SDavid Xu		if (act.sa_flags & SA_RESETHAND) {
02c3c858SDavid Xu			struct sigaction tact;
02c3c858SDavid Xu
02c3c858SDavid Xu			tact = act;
02c3c858SDavid Xu			tact.sa_handler = SIG_DFL;
02c3c858SDavid Xu			_sigaction(info.si_signo, &tact, NULL);
02c3c858SDavid Xu		}
10280ca6SKonstantin Belousov		handle_signal(&act, info.si_signo, &info, uc);
02c3c858SDavid Xu	}
a091d823SDavid Xu}
a091d823SDavid Xu
02c3c858SDavid Xustatic void
02c3c858SDavid Xucheck_suspend(struct pthread *curthread)
a091d823SDavid Xu{
8d6a11a0SDavid Xu	uint32_t cycle;
02c3c858SDavid Xu
02c3c858SDavid Xu	if (__predict_true((curthread->flags &
02c3c858SDavid Xu		(THR_FLAGS_NEED_SUSPEND | THR_FLAGS_SUSPENDED))
02c3c858SDavid Xu		!= THR_FLAGS_NEED_SUSPEND))
02c3c858SDavid Xu		return;
a7b84c65SDavid Xu	if (curthread == _single_thread)
a7b84c65SDavid Xu		return;
2ea1f90aSDavid Xu	if (curthread->force_exit)
2ea1f90aSDavid Xu		return;
2ea1f90aSDavid Xu
bc414752SDavid Xu	/*
bc414752SDavid Xu	 * Blocks SIGCANCEL which other threads must send.
bc414752SDavid Xu	 */
a091d823SDavid Xu	_thr_signal_block(curthread);
bc414752SDavid Xu
bc414752SDavid Xu	/*
bc414752SDavid Xu	 * Increase critical_count, here we don't use THR_LOCK/UNLOCK
bc414752SDavid Xu	 * because we are leaf code, we don't want to recursively call
bc414752SDavid Xu	 * ourself.
bc414752SDavid Xu	 */
bc414752SDavid Xu	curthread->critical_count++;
bddd24cdSDavid Xu	THR_UMUTEX_LOCK(curthread, &(curthread)->lock);
bc414752SDavid Xu	while ((curthread->flags & (THR_FLAGS_NEED_SUSPEND |
bc414752SDavid Xu		THR_FLAGS_SUSPENDED)) == THR_FLAGS_NEED_SUSPEND) {
bc414752SDavid Xu		curthread->cycle++;
a091d823SDavid Xu		cycle = curthread->cycle;
bc414752SDavid Xu
bc414752SDavid Xu		/* Wake the thread suspending us. */
8d6a11a0SDavid Xu		_thr_umtx_wake(&curthread->cycle, INT_MAX, 0);
bc414752SDavid Xu
bc414752SDavid Xu		/*
bc414752SDavid Xu		 * if we are from pthread_exit, we don't want to
bc414752SDavid Xu		 * suspend, just go and die.
bc414752SDavid Xu		 */
bc414752SDavid Xu		if (curthread->state == PS_DEAD)
bc414752SDavid Xu			break;
bc414752SDavid Xu		curthread->flags |= THR_FLAGS_SUSPENDED;
bddd24cdSDavid Xu		THR_UMUTEX_UNLOCK(curthread, &(curthread)->lock);
8d6a11a0SDavid Xu		_thr_umtx_wait_uint(&curthread->cycle, cycle, NULL, 0);
bddd24cdSDavid Xu		THR_UMUTEX_LOCK(curthread, &(curthread)->lock);
a091d823SDavid Xu		curthread->flags &= ~THR_FLAGS_SUSPENDED;
a091d823SDavid Xu	}
bddd24cdSDavid Xu	THR_UMUTEX_UNLOCK(curthread, &(curthread)->lock);
bc414752SDavid Xu	curthread->critical_count--;
bc414752SDavid Xu
a091d823SDavid Xu	_thr_signal_unblock(curthread);
a091d823SDavid Xu}
a091d823SDavid Xu
a091d823SDavid Xuvoid
a091d823SDavid Xu_thr_signal_init(void)
a091d823SDavid Xu{
a091d823SDavid Xu	struct sigaction act;
a091d823SDavid Xu
02c3c858SDavid Xu	/* Install SIGCANCEL handler. */
02c3c858SDavid Xu	SIGFILLSET(act.sa_mask);
02c3c858SDavid Xu	act.sa_flags = SA_SIGINFO;
a091d823SDavid Xu	act.sa_sigaction = (__siginfohandler_t *)&sigcancel_handler;
a091d823SDavid Xu	__sys_sigaction(SIGCANCEL, &act, NULL);
02c3c858SDavid Xu
02c3c858SDavid Xu	/* Unblock SIGCANCEL */
02c3c858SDavid Xu	SIGEMPTYSET(act.sa_mask);
02c3c858SDavid Xu	SIGADDSET(act.sa_mask, SIGCANCEL);
02c3c858SDavid Xu	__sys_sigprocmask(SIG_UNBLOCK, &act.sa_mask, NULL);
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xuvoid
02c3c858SDavid Xu_thr_sigact_unload(struct dl_phdr_info *phdr_info)
02c3c858SDavid Xu{
cb4a1047SDavid Xu#if 0
21a9296fSDavid Xu	struct pthread *curthread = _get_curthread();
02c3c858SDavid Xu	struct urwlock *rwlp;
02c3c858SDavid Xu	struct sigaction *actp;
02c3c858SDavid Xu	struct sigaction kact;
02c3c858SDavid Xu	void (*handler)(int);
02c3c858SDavid Xu	int sig;
02c3c858SDavid Xu
21a9296fSDavid Xu	_thr_signal_block(curthread);
cb4a1047SDavid Xu	for (sig = 1; sig <= _SIG_MAXSIG; sig++) {
cb4a1047SDavid Xu		actp = &_thr_sigact[sig-1].sigact;
02c3c858SDavid Xuretry:
02c3c858SDavid Xu		handler = actp->sa_handler;
02c3c858SDavid Xu		if (handler != SIG_DFL && handler != SIG_IGN &&
02c3c858SDavid Xu		    __elf_phdr_match_addr(phdr_info, handler)) {
cb4a1047SDavid Xu			rwlp = &_thr_sigact[sig-1].lock;
02c3c858SDavid Xu			_thr_rwl_wrlock(rwlp);
02c3c858SDavid Xu			if (handler != actp->sa_handler) {
02c3c858SDavid Xu				_thr_rwl_unlock(rwlp);
02c3c858SDavid Xu				goto retry;
02c3c858SDavid Xu			}
02c3c858SDavid Xu			actp->sa_handler = SIG_DFL;
02c3c858SDavid Xu			actp->sa_flags = SA_SIGINFO;
02c3c858SDavid Xu			SIGEMPTYSET(actp->sa_mask);
02c3c858SDavid Xu			if (__sys_sigaction(sig, NULL, &kact) == 0 &&
02c3c858SDavid Xu				kact.sa_handler != SIG_DFL &&
02c3c858SDavid Xu				kact.sa_handler != SIG_IGN)
02c3c858SDavid Xu				__sys_sigaction(sig, actp, NULL);
02c3c858SDavid Xu			_thr_rwl_unlock(rwlp);
02c3c858SDavid Xu		}
02c3c858SDavid Xu	}
21a9296fSDavid Xu	_thr_signal_unblock(curthread);
cb4a1047SDavid Xu#endif
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xuvoid
02c3c858SDavid Xu_thr_signal_prefork(void)
02c3c858SDavid Xu{
02c3c858SDavid Xu	int i;
02c3c858SDavid Xu
91792417SJilles Tjoelker	for (i = 1; i <= _SIG_MAXSIG; ++i)
02c3c858SDavid Xu		_thr_rwl_rdlock(&_thr_sigact[i-1].lock);
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xuvoid
02c3c858SDavid Xu_thr_signal_postfork(void)
02c3c858SDavid Xu{
02c3c858SDavid Xu	int i;
02c3c858SDavid Xu
91792417SJilles Tjoelker	for (i = 1; i <= _SIG_MAXSIG; ++i)
02c3c858SDavid Xu		_thr_rwl_unlock(&_thr_sigact[i-1].lock);
02c3c858SDavid Xu}
02c3c858SDavid Xu
02c3c858SDavid Xuvoid
02c3c858SDavid Xu_thr_signal_postfork_child(void)
02c3c858SDavid Xu{
02c3c858SDavid Xu	int i;
02c3c858SDavid Xu
91792417SJilles Tjoelker	for (i = 1; i <= _SIG_MAXSIG; ++i)
02c3c858SDavid Xu		bzero(&_thr_sigact[i-1].lock, sizeof(struct urwlock));
a091d823SDavid Xu}
a091d823SDavid Xu
a091d823SDavid Xuvoid
a091d823SDavid Xu_thr_signal_deinit(void)
a091d823SDavid Xu{
a091d823SDavid Xu}
a091d823SDavid Xu
05c3a5eaSDavid Xu__weak_reference(___pause, pause);
05c3a5eaSDavid Xu
05c3a5eaSDavid Xuint
05c3a5eaSDavid Xu___pause(void)
05c3a5eaSDavid Xu{
02c3c858SDavid Xu	sigset_t oset;
05c3a5eaSDavid Xu
02c3c858SDavid Xu	if (_sigprocmask(SIG_BLOCK, NULL, &oset) == -1)
02c3c858SDavid Xu		return (-1);
02c3c858SDavid Xu	return (__sigsuspend(&oset));
05c3a5eaSDavid Xu}
05c3a5eaSDavid Xu
05c3a5eaSDavid Xu__weak_reference(_raise, raise);
05c3a5eaSDavid Xu
05c3a5eaSDavid Xuint
05c3a5eaSDavid Xu_raise(int sig)
05c3a5eaSDavid Xu{
02c3c858SDavid Xu	return _thr_send_sig(_get_curthread(), sig);
05c3a5eaSDavid Xu}
05c3a5eaSDavid Xu
a091d823SDavid Xu__weak_reference(_sigaction, sigaction);
a091d823SDavid Xu
a091d823SDavid Xuint
a091d823SDavid Xu_sigaction(int sig, const struct sigaction * act, struct sigaction * oact)
a091d823SDavid Xu{
02c3c858SDavid Xu	struct sigaction newact, oldact, oldact2;
02c3c858SDavid Xu	sigset_t oldset;
02c3c858SDavid Xu	int ret = 0, err = 0;
02c3c858SDavid Xu
b144e48bSKonstantin Belousov	if (!_SIG_VALID(sig) || sig == SIGCANCEL) {
a091d823SDavid Xu		errno = EINVAL;
a091d823SDavid Xu		return (-1);
a091d823SDavid Xu	}
a091d823SDavid Xu
02c3c858SDavid Xu	if (act)
02c3c858SDavid Xu		newact = *act;
02c3c858SDavid Xu
02c3c858SDavid Xu	__sys_sigprocmask(SIG_SETMASK, &_thr_maskset, &oldset);
02c3c858SDavid Xu	_thr_rwl_wrlock(&_thr_sigact[sig-1].lock);
02c3c858SDavid Xu
02c3c858SDavid Xu	if (act != NULL) {
02c3c858SDavid Xu		oldact2 = _thr_sigact[sig-1].sigact;
02c3c858SDavid Xu
02c3c858SDavid Xu 		/*
02c3c858SDavid Xu		 * if a new sig handler is SIG_DFL or SIG_IGN,
02c3c858SDavid Xu		 * don't remove old handler from _thr_sigact[],
02c3c858SDavid Xu		 * so deferred signals still can use the handlers,
02c3c858SDavid Xu		 * multiple threads invoking sigaction itself is
02c3c858SDavid Xu		 * a race condition, so it is not a problem.
02c3c858SDavid Xu		 */
02c3c858SDavid Xu		if (newact.sa_handler != SIG_DFL &&
02c3c858SDavid Xu		    newact.sa_handler != SIG_IGN) {
02c3c858SDavid Xu			_thr_sigact[sig-1].sigact = newact;
02c3c858SDavid Xu			remove_thr_signals(
02c3c858SDavid Xu				&_thr_sigact[sig-1].sigact.sa_mask);
02c3c858SDavid Xu			newact.sa_flags &= ~SA_NODEFER;
02c3c858SDavid Xu			newact.sa_flags |= SA_SIGINFO;
02c3c858SDavid Xu			newact.sa_sigaction = thr_sighandler;
02c3c858SDavid Xu			newact.sa_mask = _thr_maskset; /* mask all signals */
02c3c858SDavid Xu		}
02c3c858SDavid Xu		if ((ret = __sys_sigaction(sig, &newact, &oldact))) {
02c3c858SDavid Xu			err = errno;
02c3c858SDavid Xu			_thr_sigact[sig-1].sigact = oldact2;
02c3c858SDavid Xu		}
02c3c858SDavid Xu	} else if (oact != NULL) {
02c3c858SDavid Xu		ret = __sys_sigaction(sig, NULL, &oldact);
02c3c858SDavid Xu		err = errno;
02c3c858SDavid Xu	}
02c3c858SDavid Xu
02c3c858SDavid Xu	if (oldact.sa_handler != SIG_DFL &&
02c3c858SDavid Xu	    oldact.sa_handler != SIG_IGN) {
6ed79f06SDavid Xu		if (act != NULL)
6ed79f06SDavid Xu			oldact = oldact2;
6ed79f06SDavid Xu		else if (oact != NULL)
02c3c858SDavid Xu			oldact = _thr_sigact[sig-1].sigact;
02c3c858SDavid Xu	}
02c3c858SDavid Xu
02c3c858SDavid Xu	_thr_rwl_unlock(&_thr_sigact[sig-1].lock);
02c3c858SDavid Xu	__sys_sigprocmask(SIG_SETMASK, &oldset, NULL);
02c3c858SDavid Xu
02c3c858SDavid Xu	if (ret == 0) {
02c3c858SDavid Xu		if (oact != NULL)
02c3c858SDavid Xu			*oact = oldact;
02c3c858SDavid Xu	} else {
02c3c858SDavid Xu		errno = err;
02c3c858SDavid Xu	}
02c3c858SDavid Xu	return (ret);
a091d823SDavid Xu}
a091d823SDavid Xu
a091d823SDavid Xu__weak_reference(_sigprocmask, sigprocmask);
a091d823SDavid Xu
a091d823SDavid Xuint
a091d823SDavid Xu_sigprocmask(int how, const sigset_t *set, sigset_t *oset)
a091d823SDavid Xu{
a091d823SDavid Xu	const sigset_t *p = set;
a091d823SDavid Xu	sigset_t newset;
a091d823SDavid Xu
a091d823SDavid Xu	if (how != SIG_UNBLOCK) {
a091d823SDavid Xu		if (set != NULL) {
a091d823SDavid Xu			newset = *set;
a091d823SDavid Xu			SIGDELSET(newset, SIGCANCEL);
a091d823SDavid Xu			p = &newset;
a091d823SDavid Xu		}
a091d823SDavid Xu	}
a091d823SDavid Xu	return (__sys_sigprocmask(how, p, oset));
a091d823SDavid Xu}
a091d823SDavid Xu
bb535300SJeff Roberson__weak_reference(_pthread_sigmask, pthread_sigmask);
bb535300SJeff Roberson
bb535300SJeff Robersonint
bb535300SJeff Roberson_pthread_sigmask(int how, const sigset_t *set, sigset_t *oset)
bb535300SJeff Roberson{
a091d823SDavid Xu	if (_sigprocmask(how, set, oset))
a091d823SDavid Xu		return (errno);
a091d823SDavid Xu	return (0);
bb535300SJeff Roberson}
bb535300SJeff Roberson
05c3a5eaSDavid Xu__weak_reference(__sigsuspend, sigsuspend);
bb535300SJeff Roberson
bb535300SJeff Robersonint
a091d823SDavid Xu_sigsuspend(const sigset_t * set)
bb535300SJeff Roberson{
05c3a5eaSDavid Xu	sigset_t newset;
05c3a5eaSDavid Xu
82746ea5SDavid Xu	return (__sys_sigsuspend(thr_remove_thr_signals(set, &newset)));
05c3a5eaSDavid Xu}
05c3a5eaSDavid Xu
05c3a5eaSDavid Xuint
05c3a5eaSDavid Xu__sigsuspend(const sigset_t * set)
05c3a5eaSDavid Xu{
02c3c858SDavid Xu	struct pthread *curthread;
a091d823SDavid Xu	sigset_t newset;
02c3c858SDavid Xu	int ret, old;
bb535300SJeff Roberson
02c3c858SDavid Xu	curthread = _get_curthread();
02c3c858SDavid Xu
02c3c858SDavid Xu	old = curthread->in_sigsuspend;
02c3c858SDavid Xu	curthread->in_sigsuspend = 1;
f08e1bf6SDavid Xu	_thr_cancel_enter(curthread);
82746ea5SDavid Xu	ret = __sys_sigsuspend(thr_remove_thr_signals(set, &newset));
02c3c858SDavid Xu	_thr_cancel_leave(curthread, 1);
02c3c858SDavid Xu	curthread->in_sigsuspend = old;
02c3c858SDavid Xu	if (curthread->unblock_sigcancel) {
02c3c858SDavid Xu		curthread->unblock_sigcancel = 0;
02c3c858SDavid Xu		SIGEMPTYSET(newset);
02c3c858SDavid Xu		SIGADDSET(newset, SIGCANCEL);
02c3c858SDavid Xu		__sys_sigprocmask(SIG_UNBLOCK, &newset, NULL);
02c3c858SDavid Xu	}
0ad70ba9SMike Makonnen
a091d823SDavid Xu	return (ret);
a091d823SDavid Xu}
a091d823SDavid Xu
83c9e089SDavid Xu__weak_reference(___sigwait, sigwait);
a091d823SDavid Xu__weak_reference(__sigtimedwait, sigtimedwait);
a091d823SDavid Xu__weak_reference(__sigwaitinfo, sigwaitinfo);
a091d823SDavid Xu
a091d823SDavid Xuint
05c3a5eaSDavid Xu_sigtimedwait(const sigset_t *set, siginfo_t *info,
05c3a5eaSDavid Xu	const struct timespec * timeout)
05c3a5eaSDavid Xu{
05c3a5eaSDavid Xu	sigset_t newset;
05c3a5eaSDavid Xu
82746ea5SDavid Xu	return (__sys_sigtimedwait(thr_remove_thr_signals(set, &newset), info,
82746ea5SDavid Xu	    timeout));
05c3a5eaSDavid Xu}
05c3a5eaSDavid Xu
635f917aSDavid Xu/*
635f917aSDavid Xu * Cancellation behavior:
635f917aSDavid Xu *   Thread may be canceled at start, if thread got signal,
635f917aSDavid Xu *   it is not canceled.
635f917aSDavid Xu */
05c3a5eaSDavid Xuint
a091d823SDavid Xu__sigtimedwait(const sigset_t *set, siginfo_t *info,
a091d823SDavid Xu	const struct timespec * timeout)
a091d823SDavid Xu{
a091d823SDavid Xu	struct pthread	*curthread = _get_curthread();
a091d823SDavid Xu	sigset_t newset;
a091d823SDavid Xu	int ret;
a091d823SDavid Xu
02c3c858SDavid Xu	_thr_cancel_enter(curthread);
82746ea5SDavid Xu	ret = __sys_sigtimedwait(thr_remove_thr_signals(set, &newset), info,
82746ea5SDavid Xu	    timeout);
02c3c858SDavid Xu	_thr_cancel_leave(curthread, (ret == -1));
a091d823SDavid Xu	return (ret);
a091d823SDavid Xu}
a091d823SDavid Xu
a091d823SDavid Xuint
05c3a5eaSDavid Xu_sigwaitinfo(const sigset_t *set, siginfo_t *info)
05c3a5eaSDavid Xu{
05c3a5eaSDavid Xu	sigset_t newset;
05c3a5eaSDavid Xu
82746ea5SDavid Xu	return (__sys_sigwaitinfo(thr_remove_thr_signals(set, &newset), info));
05c3a5eaSDavid Xu}
05c3a5eaSDavid Xu
635f917aSDavid Xu/*
635f917aSDavid Xu * Cancellation behavior:
635f917aSDavid Xu *   Thread may be canceled at start, if thread got signal,
635f917aSDavid Xu *   it is not canceled.
635f917aSDavid Xu */
05c3a5eaSDavid Xuint
a091d823SDavid Xu__sigwaitinfo(const sigset_t *set, siginfo_t *info)
a091d823SDavid Xu{
a091d823SDavid Xu	struct pthread	*curthread = _get_curthread();
a091d823SDavid Xu	sigset_t newset;
a091d823SDavid Xu	int ret;
a091d823SDavid Xu
02c3c858SDavid Xu	_thr_cancel_enter(curthread);
82746ea5SDavid Xu	ret = __sys_sigwaitinfo(thr_remove_thr_signals(set, &newset), info);
02c3c858SDavid Xu	_thr_cancel_leave(curthread, ret == -1);
a091d823SDavid Xu	return (ret);
a091d823SDavid Xu}
a091d823SDavid Xu
a091d823SDavid Xuint
05c3a5eaSDavid Xu_sigwait(const sigset_t *set, int *sig)
05c3a5eaSDavid Xu{
05c3a5eaSDavid Xu	sigset_t newset;
05c3a5eaSDavid Xu
82746ea5SDavid Xu	return (__sys_sigwait(thr_remove_thr_signals(set, &newset), sig));
05c3a5eaSDavid Xu}
05c3a5eaSDavid Xu
635f917aSDavid Xu/*
635f917aSDavid Xu * Cancellation behavior:
635f917aSDavid Xu *   Thread may be canceled at start, if thread got signal,
635f917aSDavid Xu *   it is not canceled.
635f917aSDavid Xu */
05c3a5eaSDavid Xuint
83c9e089SDavid Xu___sigwait(const sigset_t *set, int *sig)
a091d823SDavid Xu{
a091d823SDavid Xu	struct pthread	*curthread = _get_curthread();
a091d823SDavid Xu	sigset_t newset;
a091d823SDavid Xu	int ret;
a091d823SDavid Xu
83c9e089SDavid Xu	do {
02c3c858SDavid Xu		_thr_cancel_enter(curthread);
82746ea5SDavid Xu		ret = __sys_sigwait(thr_remove_thr_signals(set, &newset), sig);
02c3c858SDavid Xu		_thr_cancel_leave(curthread, (ret != 0));
83c9e089SDavid Xu	} while (ret == EINTR);
a091d823SDavid Xu	return (ret);
bb535300SJeff Roberson}
5cf22195SDavid Xu
5cf22195SDavid Xu__weak_reference(_setcontext, setcontext);
5cf22195SDavid Xuint
5cf22195SDavid Xu_setcontext(const ucontext_t *ucp)
5cf22195SDavid Xu{
5cf22195SDavid Xu	ucontext_t uc;
5cf22195SDavid Xu
5cf22195SDavid Xu	(void) memcpy(&uc, ucp, sizeof(uc));
5cf22195SDavid Xu	remove_thr_signals(&uc.uc_sigmask);
5cf22195SDavid Xu	return __sys_setcontext(&uc);
5cf22195SDavid Xu}
5cf22195SDavid Xu
*acad2b1eSDavid Xu__weak_reference(_swapcontext, swapcontext);
*acad2b1eSDavid Xuint
*acad2b1eSDavid Xu_swapcontext(ucontext_t *oucp, const ucontext_t *ucp)
*acad2b1eSDavid Xu{
*acad2b1eSDavid Xu	ucontext_t uc;
*acad2b1eSDavid Xu
*acad2b1eSDavid Xu	(void) memcpy(&uc, ucp, sizeof(uc));
*acad2b1eSDavid Xu	remove_thr_signals(&uc.uc_sigmask);
*acad2b1eSDavid Xu	return __sys_swapcontext(oucp, &uc);
*acad2b1eSDavid Xu}