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freebsd-dev/lib/libkse/thread/thr_sig.c
Daniel Eischen c418675341 Make pthread_kill() know about temporary signal handlers installed 
by sigwait().  This prevents a signal from being sent to the process
when there are no application installed signal handlers.

Correct a typo in sigwait (foo -> foo[i]).
2000-10-25 11:46:07 +00:00

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/*
* Copyright (c) 1995-1998 John Birrell <jb@cimlogic.com.au>
* 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 John Birrell.
* 4. Neither the name of the author nor the names of any co-contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY JOHN BIRRELL AND CONTRIBUTORS ``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 THE AUTHOR OR CONTRIBUTORS 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.
*
* $FreeBSD$
*/
#include <sys/param.h>
#include <sys/types.h>
#include <sys/signalvar.h>
#include <signal.h>
#include <fcntl.h>
#include <unistd.h>
#include <setjmp.h>
#include <errno.h>
#ifdef _THREAD_SAFE
#include <pthread.h>
#include "pthread_private.h"
/* Prototypes: */
static void thread_sig_add(pthread_t pthread, int sig, int has_args);
static void thread_sig_check_state(pthread_t pthread, int sig);
static pthread_t thread_sig_find(int sig);
static void thread_sig_handle_special(int sig);
static void thread_sig_savecontext(pthread_t pthread, ucontext_t *ucp);
static void thread_sigframe_add(pthread_t thread, int sig);
static void thread_sigframe_leave(pthread_t thread, int frame);
static void thread_sigframe_restore(pthread_t thread, struct pthread_signal_frame *psf);
static void thread_sigframe_save(pthread_t thread, struct pthread_signal_frame *psf);
/* #define DEBUG_SIGNAL */
#ifdef DEBUG_SIGNAL
#define DBG_MSG stdout_debug
#else
#define DBG_MSG(x...)
#endif
#if defined(_PTHREADS_INVARIANTS)
#define SIG_SET_ACTIVE() _sig_in_handler = 1
#define SIG_SET_INACTIVE() _sig_in_handler = 0
#else
#define SIG_SET_ACTIVE()
#define SIG_SET_INACTIVE()
#endif
void
_thread_sig_handler(int sig, siginfo_t *info, ucontext_t *ucp)
{
pthread_t pthread;
int current_frame;
char c;
if (ucp == NULL)
PANIC("Thread signal handler received null context");
DBG_MSG("Got signal %d, current thread %p\n", sig, _thread_run);
/* Check if an interval timer signal: */
if (sig == _SCHED_SIGNAL) {
/* Update the scheduling clock: */
gettimeofday((struct timeval *)&_sched_tod, NULL);
_sched_ticks++;
if (_thread_kern_in_sched != 0) {
/*
* The scheduler is already running; ignore this
* signal.
*/
}
/*
* Check if the scheduler interrupt has come when
* the currently running thread has deferred thread
* signals.
*/
else if (_thread_run->sig_defer_count > 0)
_thread_run->yield_on_sig_undefer = 1;
else {
/*
* Save the context of the currently running thread:
*/
thread_sig_savecontext(_thread_run, ucp);
/*
* Schedule the next thread. This function is not
* expected to return because it will do a longjmp
* instead.
*/
_thread_kern_sched(ucp);
/*
* This point should not be reached, so abort the
* process:
*/
PANIC("Returned to signal function from scheduler");
}
}
/*
* Check if the kernel has been interrupted while the scheduler
* is accessing the scheduling queues or if there is a currently
* running thread that has deferred signals.
*/
else if ((_thread_kern_in_sched != 0) ||
(_thread_run->sig_defer_count > 0)) {
/* Cast the signal number to a character variable: */
c = sig;
/*
* Write the signal number to the kernel pipe so that it will
* be ready to read when this signal handler returns.
*/
if (_queue_signals != 0) {
_thread_sys_write(_thread_kern_pipe[1], &c, 1);
DBG_MSG("Got signal %d, queueing to kernel pipe\n", sig);
}
if (_thread_sigq[sig - 1].blocked == 0) {
DBG_MSG("Got signal %d, adding to _thread_sigq\n", sig);
/*
* Do not block this signal; it will be blocked
* when the pending signals are run down.
*/
/* _thread_sigq[sig - 1].blocked = 1; */
/*
* Queue the signal, saving siginfo and sigcontext
* (ucontext).
*
* XXX - Do we need to copy siginfo and ucp?
*/
_thread_sigq[sig - 1].signo = sig;
if (info != NULL)
memcpy(&_thread_sigq[sig - 1].siginfo, info,
sizeof(*info));
memcpy(&_thread_sigq[sig - 1].uc, ucp, sizeof(*ucp));
/* Indicate that there are queued signals: */
_thread_sigq[sig - 1].pending = 1;
_sigq_check_reqd = 1;
}
/* These signals need special handling: */
else if (sig == SIGCHLD || sig == SIGTSTP ||
sig == SIGTTIN || sig == SIGTTOU) {
_thread_sigq[sig - 1].pending = 1;
_thread_sigq[sig - 1].signo = sig;
_sigq_check_reqd = 1;
}
else
DBG_MSG("Got signal %d, ignored.\n", sig);
}
/*
* The signal handlers should have been installed so that they
* cannot be interrupted by other signals.
*/
else if (_thread_sigq[sig - 1].blocked == 0) {
/* The signal is not blocked; handle the signal: */
current_frame = _thread_run->sigframe_count;
/*
* Ignore subsequent occurrences of this signal
* until the current signal is handled:
*/
_thread_sigq[sig - 1].blocked = 1;
/* This signal will be handled; clear the pending flag: */
_thread_sigq[sig - 1].pending = 0;
/*
* Save siginfo and sigcontext (ucontext).
*
* XXX - Do we need to copy siginfo and ucp?
*/
_thread_sigq[sig - 1].signo = sig;
if (info != NULL)
memcpy(&_thread_sigq[sig - 1].siginfo, info,
sizeof(*info));
memcpy(&_thread_sigq[sig - 1].uc, ucp, sizeof(*ucp));
SIG_SET_ACTIVE();
/* Handle special signals: */
thread_sig_handle_special(sig);
if ((pthread = thread_sig_find(sig)) != NULL) {
DBG_MSG("Got signal %d, adding frame to thread %p\n",
sig, pthread);
/*
* A thread was found that can handle the signal.
* Save the context of the currently running thread
* so that we can switch to another thread without
* losing track of where the current thread left off.
* This also applies if the current thread is the
* thread to be signaled.
*/
thread_sig_savecontext(_thread_run, ucp);
/* Setup the target thread to receive the signal: */
thread_sig_add(pthread, sig, /*has_args*/ 1);
/* Take a peek at the next ready to run thread: */
pthread = PTHREAD_PRIOQ_FIRST();
DBG_MSG("Finished adding frame, head of prio list %p\n",
pthread);
}
else
DBG_MSG("No thread to handle signal %d\n", sig);
SIG_SET_INACTIVE();
/*
* Switch to a different context if the currently running
* thread takes a signal, or if another thread takes a
* signal and the currently running thread is not in a
* signal handler.
*/
if ((_thread_run->sigframe_count > current_frame) ||
((pthread != NULL) &&
(pthread->active_priority > _thread_run->active_priority))) {
/* Enter the kernel scheduler: */
DBG_MSG("Entering scheduler from signal handler\n");
_thread_kern_sched(ucp);
}
}
else {
SIG_SET_ACTIVE();
thread_sig_handle_special(sig);
SIG_SET_INACTIVE();
}
}
static void
thread_sig_savecontext(pthread_t pthread, ucontext_t *ucp)
{
struct pthread_signal_frame *psf;
psf = _thread_run->curframe;
memcpy(&psf->ctx.uc, ucp, sizeof(*ucp));
/* XXX - Save FP registers too? */
FP_SAVE_UC(&psf->ctx.uc);
/* Mark the context saved as a ucontext: */
psf->ctxtype = CTX_UC;
}
/*
* Find a thread that can handle the signal.
*/
pthread_t
thread_sig_find(int sig)
{
int handler_installed;
pthread_t pthread, pthread_next;
pthread_t suspended_thread, signaled_thread;
DBG_MSG("Looking for thread to handle signal %d\n", sig);
/* Check if the signal requires a dump of thread information: */
if (sig == SIGINFO)
/* Dump thread information to file: */
_thread_dump_info();
/* Check if an interval timer signal: */
else if (sig == _SCHED_SIGNAL) {
/*
* This shouldn't ever occur (should this panic?).
*/
} else {
/*
* Enter a loop to look for threads that have the signal
* unmasked. POSIX specifies that a thread in a sigwait
* will get the signal over any other threads. Second
* preference will be threads in in a sigsuspend. Third
* preference will be the current thread. If none of the
* above, then the signal is delivered to the first thread
* that is found. Note that if a custom handler is not
* installed, the signal only affects threads in sigwait.
*/
suspended_thread = NULL;
if ((_thread_run != &_thread_kern_thread) &&
!sigismember(&_thread_run->sigmask, sig))
signaled_thread = _thread_run;
else
signaled_thread = NULL;
if ((_thread_sigact[sig - 1].sa_handler == SIG_IGN) ||
(_thread_sigact[sig - 1].sa_handler == SIG_DFL))
handler_installed = 0;
else
handler_installed = 1;
for (pthread = TAILQ_FIRST(&_waitingq);
pthread != NULL; pthread = pthread_next) {
/*
* Grab the next thread before possibly destroying
* the link entry.
*/
pthread_next = TAILQ_NEXT(pthread, pqe);
if ((pthread->state == PS_SIGWAIT) &&
sigismember(pthread->data.sigwait, sig)) {
/* Change the state of the thread to run: */
PTHREAD_NEW_STATE(pthread,PS_RUNNING);
/*
* A signal handler is not invoked for threads
* in sigwait. Clear the blocked and pending
* flags.
*/
_thread_sigq[sig - 1].blocked = 0;
_thread_sigq[sig - 1].pending = 0;
/* Return the signal number: */
pthread->signo = sig;
/*
* POSIX doesn't doesn't specify which thread
* will get the signal if there are multiple
* waiters, so we give it to the first thread
* we find.
*
* Do not attempt to deliver this signal
* to other threads and do not add the signal
* to the process pending set.
*/
return (NULL);
}
else if ((handler_installed != 0) &&
!sigismember(&pthread->sigmask, sig)) {
if (pthread->state == PS_SIGSUSPEND) {
if (suspended_thread == NULL)
suspended_thread = pthread;
} else if (signaled_thread == NULL)
signaled_thread = pthread;
}
}
/*
* Only perform wakeups and signal delivery if there is a
* custom handler installed:
*/
if (handler_installed == 0) {
/*
* There is no handler installed. Unblock the
* signal so that if a handler _is_ installed, any
* subsequent signals can be handled.
*/
_thread_sigq[sig - 1].blocked = 0;
} else {
/*
* If we didn't find a thread in the waiting queue,
* check the all threads queue:
*/
if (suspended_thread == NULL &&
signaled_thread == NULL) {
/*
* Enter a loop to look for other threads
* capable of receiving the signal:
*/
TAILQ_FOREACH(pthread, &_thread_list, tle) {
if (!sigismember(&pthread->sigmask,
sig)) {
signaled_thread = pthread;
break;
}
}
}
if (suspended_thread == NULL &&
signaled_thread == NULL)
/*
* Add it to the set of signals pending
* on the process:
*/
sigaddset(&_process_sigpending, sig);
else {
/*
* We only deliver the signal to one thread;
* give preference to the suspended thread:
*/
if (suspended_thread != NULL)
pthread = suspended_thread;
else
pthread = signaled_thread;
return (pthread);
}
}
}
/* Returns nothing. */
return (NULL);
}
void
_thread_sig_check_pending(pthread_t pthread)
{
sigset_t sigset;
int i;
/*
* Check if there are pending signals for the running
* thread or process that aren't blocked:
*/
sigset = pthread->sigpend;
SIGSETOR(sigset, _process_sigpending);
SIGSETNAND(sigset, pthread->sigmask);
if (SIGNOTEMPTY(sigset)) {
for (i = 1; i < NSIG; i++) {
if (sigismember(&sigset, i) != 0) {
if (sigismember(&pthread->sigpend, i) != 0)
thread_sig_add(pthread, i,
/*has_args*/ 0);
else {
thread_sig_add(pthread, i,
/*has_args*/ 1);
sigdelset(&_process_sigpending, i);
}
}
}
}
}
/*
* This can only be called from the kernel scheduler. It assumes that
* all thread contexts are saved and that a signal frame can safely be
* added to any user thread.
*/
void
_thread_sig_handle_pending(void)
{
pthread_t pthread;
int i, sig;
PTHREAD_ASSERT(_thread_kern_in_sched != 0,
"_thread_sig_handle_pending called from outside kernel schedule");
/*
* Check the array of pending signals:
*/
for (i = 0; i < NSIG; i++) {
if (_thread_sigq[i].pending != 0) {
/* This signal is no longer pending. */
_thread_sigq[i].pending = 0;
sig = _thread_sigq[i].signo;
/* Some signals need special handling: */
thread_sig_handle_special(sig);
if (_thread_sigq[i].blocked == 0) {
/*
* Block future signals until this one
* is handled:
*/
_thread_sigq[i].blocked = 1;
if ((pthread = thread_sig_find(sig)) != NULL) {
/*
* Setup the target thread to receive
* the signal:
*/
thread_sig_add(pthread, sig,
/*has_args*/ 1);
}
}
}
}
}
static void
thread_sig_handle_special(int sig)
{
pthread_t pthread, pthread_next;
int i;
switch (sig) {
case SIGCHLD:
/*
* Go through the file list and set all files
* to non-blocking again in case the child
* set some of them to block. Sigh.
*/
for (i = 0; i < _thread_dtablesize; i++) {
/* Check if this file is used: */
if (_thread_fd_table[i] != NULL) {
/*
* Set the file descriptor to non-blocking:
*/
_thread_sys_fcntl(i, F_SETFL,
_thread_fd_table[i]->flags | O_NONBLOCK);
}
}
/*
* Enter a loop to wake up all threads waiting
* for a process to complete:
*/
for (pthread = TAILQ_FIRST(&_waitingq);
pthread != NULL; pthread = pthread_next) {
/*
* Grab the next thread before possibly
* destroying the link entry:
*/
pthread_next = TAILQ_NEXT(pthread, pqe);
/*
* If this thread is waiting for a child
* process to complete, wake it up:
*/
if (pthread->state == PS_WAIT_WAIT) {
/* Make the thread runnable: */
PTHREAD_NEW_STATE(pthread,PS_RUNNING);
/* Return the signal number: */
pthread->signo = sig;
}
}
break;
/*
* POSIX says that pending SIGCONT signals are
* discarded when one of these signals occurs.
*/
case SIGTSTP:
case SIGTTIN:
case SIGTTOU:
/*
* Enter a loop to discard pending SIGCONT
* signals:
*/
TAILQ_FOREACH(pthread, &_thread_list, tle) {
sigdelset(&pthread->sigpend, SIGCONT);
}
break;
default:
break;
}
}
/*
* Perform thread specific actions in response to a signal.
* This function is only called if there is a handler installed
* for the signal, and if the target thread has the signal
* unmasked.
*/
static void
thread_sig_add(pthread_t pthread, int sig, int has_args)
{
int restart, frame;
int block_signals = 0;
int suppress_handler = 0;
restart = _thread_sigact[sig - 1].sa_flags & SA_RESTART;
/*
* Process according to thread state:
*/
switch (pthread->state) {
/*
* States which do not change when a signal is trapped:
*/
case PS_DEAD:
case PS_DEADLOCK:
case PS_STATE_MAX:
case PS_SIGTHREAD:
/*
* You can't call a signal handler for threads in these
* states.
*/
suppress_handler = 1;
break;
/*
* States which do not need any cleanup handling when signals
* occur:
*/
case PS_RUNNING:
/*
* Remove the thread from the queue before changing its
* priority:
*/
if ((pthread->flags & PTHREAD_FLAGS_IN_PRIOQ) != 0)
PTHREAD_PRIOQ_REMOVE(pthread);
break;
case PS_SUSPENDED:
break;
case PS_SPINBLOCK:
/* Remove the thread from the workq and waitq: */
PTHREAD_WORKQ_REMOVE(pthread);
PTHREAD_WAITQ_REMOVE(pthread);
/* Make the thread runnable: */
PTHREAD_SET_STATE(pthread, PS_RUNNING);
break;
case PS_SIGWAIT:
/* The signal handler is not called for threads in SIGWAIT. */
suppress_handler = 1;
/* Wake up the thread if the signal is blocked. */
if (sigismember(pthread->data.sigwait, sig)) {
/* Change the state of the thread to run: */
PTHREAD_NEW_STATE(pthread, PS_RUNNING);
/* Return the signal number: */
pthread->signo = sig;
} else
/* Increment the pending signal count. */
sigaddset(&pthread->sigpend, sig);
break;
/*
* The wait state is a special case due to the handling of
* SIGCHLD signals.
*/
case PS_WAIT_WAIT:
if (sig == SIGCHLD) {
/* Change the state of the thread to run: */
PTHREAD_WAITQ_REMOVE(pthread);
PTHREAD_SET_STATE(pthread, PS_RUNNING);
/* Return the signal number: */
pthread->signo = sig;
}
else {
/*
* Mark the thread as interrupted only if the
* restart flag is not set on the signal action:
*/
if (restart == 0)
pthread->interrupted = 1;
PTHREAD_WAITQ_REMOVE(pthread);
PTHREAD_SET_STATE(pthread, PS_RUNNING);
}
break;
/*
* States which cannot be interrupted but still require the
* signal handler to run:
*/
case PS_COND_WAIT:
case PS_JOIN:
case PS_MUTEX_WAIT:
/*
* Remove the thread from the wait queue. It will
* be added back to the wait queue once all signal
* handlers have been invoked.
*/
PTHREAD_WAITQ_REMOVE(pthread);
break;
/*
* States which are interruptible but may need to be removed
* from queues before any signal handler is called.
*
* XXX - We may not need to handle this condition, but will
* mark it as a potential problem.
*/
case PS_FDLR_WAIT:
case PS_FDLW_WAIT:
case PS_FILE_WAIT:
if (restart == 0)
pthread->interrupted = 1;
/*
* Remove the thread from the wait queue. Our
* signal handler hook will remove this thread
* from the fd or file queue before invoking
* the actual handler.
*/
PTHREAD_WAITQ_REMOVE(pthread);
/*
* To ensure the thread is removed from the fd and file
* queues before any other signal interrupts it, set the
* signal mask to block all signals. As soon as the thread
* is removed from the queue the signal mask will be
* restored.
*/
block_signals = 1;
break;
/*
* States which are interruptible:
*/
case PS_FDR_WAIT:
case PS_FDW_WAIT:
if (restart == 0) {
/*
* Flag the operation as interrupted and
* set the state to running:
*/
pthread->interrupted = 1;
PTHREAD_SET_STATE(pthread, PS_RUNNING);
}
PTHREAD_WORKQ_REMOVE(pthread);
PTHREAD_WAITQ_REMOVE(pthread);
break;
case PS_POLL_WAIT:
case PS_SELECT_WAIT:
case PS_SLEEP_WAIT:
/*
* Unmasked signals always cause poll, select, and sleep
* to terminate early, regardless of SA_RESTART:
*/
pthread->interrupted = 1;
/* Remove threads in poll and select from the workq: */
if ((pthread->flags & PTHREAD_FLAGS_IN_WORKQ) != 0)
PTHREAD_WORKQ_REMOVE(pthread);
PTHREAD_WAITQ_REMOVE(pthread);
PTHREAD_SET_STATE(pthread, PS_RUNNING);
break;
case PS_SIGSUSPEND:
PTHREAD_WAITQ_REMOVE(pthread);
PTHREAD_SET_STATE(pthread, PS_RUNNING);
break;
}
if (suppress_handler == 0) {
/*
* Save the current state of the thread and add a
* new signal frame.
*/
frame = pthread->sigframe_count;
thread_sigframe_save(pthread, pthread->curframe);
thread_sigframe_add(pthread, sig);
pthread->sigframes[frame + 1]->sig_has_args = has_args;
SIGSETOR(pthread->sigmask, _thread_sigact[sig - 1].sa_mask);
if (block_signals != 0) {
/* Save the signal mask and block all signals: */
pthread->sigframes[frame + 1]->saved_state.psd_sigmask =
pthread->sigmask;
sigfillset(&pthread->sigmask);
}
/* Make sure the thread is runnable: */
if (pthread->state != PS_RUNNING)
PTHREAD_SET_STATE(pthread, PS_RUNNING);
/*
* The thread should be removed from all scheduling
* queues at this point. Raise the priority and place
* the thread in the run queue.
*/
pthread->active_priority |= PTHREAD_SIGNAL_PRIORITY;
if (pthread != _thread_run)
PTHREAD_PRIOQ_INSERT_TAIL(pthread);
}
}
static void
thread_sig_check_state(pthread_t pthread, int sig)
{
/*
* Process according to thread state:
*/
switch (pthread->state) {
/*
* States which do not change when a signal is trapped:
*/
case PS_DEAD:
case PS_DEADLOCK:
case PS_STATE_MAX:
case PS_SIGTHREAD:
case PS_RUNNING:
case PS_SUSPENDED:
case PS_SPINBLOCK:
case PS_COND_WAIT:
case PS_JOIN:
case PS_MUTEX_WAIT:
break;
case PS_SIGWAIT:
/* Wake up the thread if the signal is blocked. */
if (sigismember(pthread->data.sigwait, sig)) {
/* Change the state of the thread to run: */
PTHREAD_NEW_STATE(pthread, PS_RUNNING);
/* Return the signal number: */
pthread->signo = sig;
} else
/* Increment the pending signal count. */
sigaddset(&pthread->sigpend, sig);
break;
/*
* The wait state is a special case due to the handling of
* SIGCHLD signals.
*/
case PS_WAIT_WAIT:
if (sig == SIGCHLD) {
/*
* Remove the thread from the wait queue and
* make it runnable:
*/
PTHREAD_NEW_STATE(pthread, PS_RUNNING);
/* Return the signal number: */
pthread->signo = sig;
}
break;
case PS_FDLR_WAIT:
case PS_FDLW_WAIT:
case PS_SIGSUSPEND:
case PS_SLEEP_WAIT:
/*
* Remove the thread from the wait queue and make it
* runnable:
*/
PTHREAD_NEW_STATE(pthread, PS_RUNNING);
/* Flag the operation as interrupted: */
pthread->interrupted = 1;
break;
/*
* These states are additionally in the work queue:
*/
case PS_FDR_WAIT:
case PS_FDW_WAIT:
case PS_FILE_WAIT:
case PS_POLL_WAIT:
case PS_SELECT_WAIT:
/*
* Remove the thread from the wait and work queues, and
* make it runnable:
*/
PTHREAD_WORKQ_REMOVE(pthread);
PTHREAD_NEW_STATE(pthread, PS_RUNNING);
/* Flag the operation as interrupted: */
pthread->interrupted = 1;
break;
}
}
/*
* Send a signal to a specific thread (ala pthread_kill):
*/
void
_thread_sig_send(pthread_t pthread, int sig)
{
/* Check for signals whose actions are SIG_DFL: */
if (_thread_sigact[sig - 1].sa_handler == SIG_DFL) {
/*
* Check to see if a temporary signal handler is
* installed for sigwaiters:
*/
if (_thread_dfl_count[sig] == 0)
/*
* Deliver the signal to the process if a handler
* is not installed:
*/
kill(getpid(), sig);
/*
* Assuming we're still running after the above kill(),
* make any necessary state changes to the thread:
*/
thread_sig_check_state(pthread, sig);
}
/*
* Check that the signal is not being ignored:
*/
else if (_thread_sigact[sig - 1].sa_handler != SIG_IGN) {
if (pthread->state == PS_SIGWAIT &&
sigismember(pthread->data.sigwait, sig)) {
/* Change the state of the thread to run: */
PTHREAD_NEW_STATE(pthread, PS_RUNNING);
/* Return the signal number: */
pthread->signo = sig;
} else if (pthread == _thread_run) {
/* Add the signal to the pending set: */
sigaddset(&pthread->sigpend, sig);
if (!sigismember(&pthread->sigmask, sig)) {
/*
* Call the kernel scheduler which will safely
* install a signal frame for this thread:
*/
_thread_kern_sched_sig();
}
} else if (!sigismember(&pthread->sigmask, sig)) {
/* Protect the scheduling queues: */
_thread_kern_sig_defer();
/*
* Perform any state changes due to signal
* arrival:
*/
thread_sig_add(pthread, sig, /* has args */ 0);
/* Unprotect the scheduling queues: */
_thread_kern_sig_undefer();
} else {
/* Increment the pending signal count. */
sigaddset(&pthread->sigpend,sig);
}
}
}
/*
* User thread signal handler wrapper.
*
* thread - current running thread
*/
void
_thread_sig_wrapper(void)
{
void (*sigfunc)(int, siginfo_t *, void *);
struct pthread_signal_frame *psf;
pthread_t thread;
int dead = 0;
int i, sig, has_args;
int frame, dst_frame;
thread = _thread_run;
/* Get the current frame and state: */
frame = thread->sigframe_count;
PTHREAD_ASSERT(frame > 0, "Invalid signal frame in signal handler");
psf = thread->curframe;
/* Check the threads previous state: */
if (psf->saved_state.psd_state != PS_RUNNING) {
/*
* Do a little cleanup handling for those threads in
* queues before calling the signal handler. Signals
* for these threads are temporarily blocked until
* after cleanup handling.
*/
switch (psf->saved_state.psd_state) {
case PS_FDLR_WAIT:
case PS_FDLW_WAIT:
_fd_lock_backout(thread);
psf->saved_state.psd_state = PS_RUNNING;
/* Reenable signals: */
thread->sigmask = psf->saved_state.psd_sigmask;
break;
case PS_FILE_WAIT:
_flockfile_backout(thread);
psf->saved_state.psd_state = PS_RUNNING;
/* Reenable signals: */
thread->sigmask = psf->saved_state.psd_sigmask;
break;
default:
break;
}
}
/*
* Unless the thread exits or longjmps out of the signal handler,
* return to the previous frame:
*/
dst_frame = frame - 1;
/*
* Check that a custom handler is installed and if the signal
* is not blocked:
*/
sigfunc = _thread_sigact[psf->signo - 1].sa_sigaction;
if (((__sighandler_t *)sigfunc != SIG_DFL) &&
((__sighandler_t *)sigfunc != SIG_IGN)) {
/*
* The signal jump buffer is allocated off the stack.
* If the signal handler tries to [_][sig]longjmp() or
* setcontext(), our wrapped versions of these routines
* will copy the user supplied jump buffer or context
* to the destination signal frame, set the destination
* signal frame in psf->dst_frame, and _longjmp() back
* to here.
*/
jmp_buf jb;
/*
* Set up the context for abnormal returns out of signal
* handlers.
*/
psf->sig_jb = &jb;
if (_setjmp(jb) == 0) {
DBG_MSG("_thread_sig_wrapper: Entering frame %d, "
"stack 0x%lx\n", frame, GET_STACK_JB(jb));
/*
* Invalidate the destination frame before calling
* the signal handler.
*/
psf->dst_frame = -1;
/*
* Dispatch the signal via the custom signal
* handler:
*/
if (psf->sig_has_args == 0)
(*(sigfunc))(psf->signo, NULL, NULL);
else if ((_thread_sigact[psf->signo - 1].sa_flags &
SA_SIGINFO) != 0)
(*(sigfunc))(psf->signo,
&_thread_sigq[psf->signo - 1].siginfo,
&_thread_sigq[psf->signo - 1].uc);
else
(*(sigfunc))(psf->signo,
(siginfo_t *)_thread_sigq[psf->signo - 1].siginfo.si_code,
&_thread_sigq[psf->signo - 1].uc);
}
else {
/*
* The return from _setjmp() should only be non-zero
* when the signal handler wants to xxxlongjmp() or
* setcontext() to a different context, or if the
* thread has exited (via pthread_exit).
*/
/*
* Grab a copy of the destination frame before it
* gets clobbered after unwinding.
*/
dst_frame = psf->dst_frame;
DBG_MSG("Abnormal exit from handler for signal %d, "
"frame %d\n", psf->signo, frame);
/* Has the thread exited? */
if ((dead = thread->flags & PTHREAD_EXITING) != 0)
/* When exiting, unwind to frame 0. */
dst_frame = 0;
else if ((dst_frame < 0) || (dst_frame > frame))
PANIC("Attempt to unwind to invalid "
"signal frame");
/* Unwind to the target frame: */
for (i = frame; i > dst_frame; i--) {
DBG_MSG("Leaving frame %d, signal %d\n", i,
thread->sigframes[i]->signo);
/* Leave the current signal frame: */
thread_sigframe_leave(thread, i);
/*
* Save whatever is needed out of the state
* data; as soon as the frame count is
* is decremented, another signal can arrive
* and corrupt this view of the state data.
*/
sig = thread->sigframes[i]->signo;
has_args = thread->sigframes[i]->sig_has_args;
/*
* We're done with this signal frame:
*/
thread->curframe = thread->sigframes[i - 1];
thread->sigframe_count = i - 1;
/*
* Only unblock the signal if it was a
* process signal as opposed to a signal
* generated by pthread_kill().
*/
if (has_args != 0)
_thread_sigq[sig - 1].blocked = 0;
}
}
}
/*
* Call the kernel scheduler to schedule the next
* thread.
*/
if (dead == 0) {
/* Restore the threads state: */
thread_sigframe_restore(thread, thread->sigframes[dst_frame]);
_thread_kern_sched_frame(dst_frame);
}
else {
PTHREAD_ASSERT(dst_frame == 0,
"Invalid signal frame for dead thread");
/* Perform any necessary cleanup before exiting. */
thread_sigframe_leave(thread, 0);
/* This should never return: */
_thread_exit_finish();
PANIC("Return from _thread_exit_finish in signal wrapper");
}
}
static void
thread_sigframe_add(pthread_t thread, int sig)
{
unsigned long stackp = 0;
/* Get the top of the threads stack: */
switch (thread->curframe->ctxtype) {
case CTX_JB:
case CTX_JB_NOSIG:
stackp = GET_STACK_JB(thread->curframe->ctx.jb);
break;
case CTX_SJB:
stackp = GET_STACK_SJB(thread->curframe->ctx.sigjb);
break;
case CTX_UC:
stackp = GET_STACK_UC(&thread->curframe->ctx.uc);
break;
default:
PANIC("Invalid thread context type");
break;
}
/*
* Leave a little space on the stack and round down to the
* nearest aligned word:
*/
stackp -= sizeof(double);
stackp &= ~0x3UL;
/* Allocate room on top of the stack for a new signal frame: */
stackp -= sizeof(struct pthread_signal_frame);
/* Set up the new frame: */
thread->sigframe_count++;
thread->sigframes[thread->sigframe_count] =
(struct pthread_signal_frame *) stackp;
thread->curframe = thread->sigframes[thread->sigframe_count];
thread->curframe->stackp = stackp;
thread->curframe->ctxtype = CTX_JB_NOSIG;
thread->curframe->longjmp_val = 1;
thread->curframe->signo = sig;
/*
* Set up the context:
*/
_setjmp(thread->curframe->ctx.jb);
SET_STACK_JB(thread->curframe->ctx.jb, stackp);
SET_RETURN_ADDR_JB(thread->curframe->ctx.jb, _thread_sig_wrapper);
}
/*
* Locate the signal frame from the specified stack pointer.
*/
int
_thread_sigframe_find(pthread_t pthread, void *stackp)
{
int frame;
/*
* Find the destination of the target frame based on the
* given stack pointer.
*/
for (frame = pthread->sigframe_count; frame >= 0; frame--) {
if (stackp < (void *)pthread->sigframes[frame]->stackp)
break;
}
return (frame);
}
void
thread_sigframe_leave(pthread_t thread, int frame)
{
struct pthread_state_data *psd;
psd = &thread->sigframes[frame]->saved_state;
/*
* Perform any necessary cleanup for this signal frame:
*/
switch (psd->psd_state) {
case PS_DEAD:
case PS_DEADLOCK:
case PS_RUNNING:
case PS_SIGTHREAD:
case PS_STATE_MAX:
case PS_SUSPENDED:
break;
/*
* Threads in the following states need to be removed
* from queues.
*/
case PS_COND_WAIT:
_cond_wait_backout(thread);
if ((psd->psd_flags & PTHREAD_FLAGS_IN_WAITQ) != 0)
PTHREAD_WAITQ_REMOVE(thread);
break;
case PS_FDLR_WAIT:
case PS_FDLW_WAIT:
_fd_lock_backout(thread);
if ((psd->psd_flags & PTHREAD_FLAGS_IN_WAITQ) != 0)
PTHREAD_WAITQ_REMOVE(thread);
break;
case PS_FILE_WAIT:
_flockfile_backout(thread);
if ((psd->psd_flags & PTHREAD_FLAGS_IN_WAITQ) != 0)
PTHREAD_WAITQ_REMOVE(thread);
break;
case PS_JOIN:
_join_backout(thread);
if ((psd->psd_flags & PTHREAD_FLAGS_IN_WAITQ) != 0)
PTHREAD_WAITQ_REMOVE(thread);
break;
case PS_MUTEX_WAIT:
_mutex_lock_backout(thread);
if ((psd->psd_flags & PTHREAD_FLAGS_IN_WAITQ) != 0)
PTHREAD_WAITQ_REMOVE(thread);
break;
case PS_FDR_WAIT:
case PS_FDW_WAIT:
case PS_POLL_WAIT:
case PS_SELECT_WAIT:
case PS_SIGSUSPEND:
case PS_SIGWAIT:
case PS_SLEEP_WAIT:
case PS_SPINBLOCK:
case PS_WAIT_WAIT:
if ((psd->psd_flags & PTHREAD_FLAGS_IN_WAITQ) != 0) {
PTHREAD_WAITQ_REMOVE(thread);
if ((psd->psd_flags & PTHREAD_FLAGS_IN_WORKQ) != 0)
PTHREAD_WORKQ_REMOVE(thread);
}
break;
}
}
static void
thread_sigframe_restore(pthread_t thread, struct pthread_signal_frame *psf)
{
thread->interrupted = psf->saved_state.psd_interrupted;
thread->sigmask = psf->saved_state.psd_sigmask;
thread->state = psf->saved_state.psd_state;
thread->flags = psf->saved_state.psd_flags;
thread->wakeup_time = psf->saved_state.psd_wakeup_time;
thread->data = psf->saved_state.psd_wait_data;
}
static void
thread_sigframe_save(pthread_t thread, struct pthread_signal_frame *psf)
{
psf->saved_state.psd_interrupted = thread->interrupted;
psf->saved_state.psd_sigmask = thread->sigmask;
psf->saved_state.psd_state = thread->state;
psf->saved_state.psd_flags = thread->flags;
thread->flags &= PTHREAD_FLAGS_PRIVATE | PTHREAD_FLAGS_TRACE |
PTHREAD_FLAGS_IN_CONDQ | PTHREAD_FLAGS_IN_MUTEXQ |
PTHREAD_FLAGS_IN_JOINQ;
psf->saved_state.psd_wakeup_time = thread->wakeup_time;
psf->saved_state.psd_wait_data = thread->data;
}
#endif
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