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|
/*
* Copyright (c) 1994 by Xerox Corporation. All rights reserved.
* Copyright (c) 1996 by Silicon Graphics. All rights reserved.
* Copyright (c) 1998 by Fergus Henderson. All rights reserved.
* Copyright (c) 2000-2009 by Hewlett-Packard Development Company.
* All rights reserved.
*
* THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
* OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
*
* Permission is hereby granted to use or copy this program
* for any purpose, provided the above notices are retained on all copies.
* Permission to modify the code and to distribute modified code is granted,
* provided the above notices are retained, and a notice that the code was
* modified is included with the above copyright notice.
*/
#include "private/pthread_support.h"
#if defined(GC_PTHREADS) && !defined(GC_WIN32_THREADS) && \
!defined(GC_DARWIN_THREADS)
#ifdef NACL
#include <unistd.h>
#include <sys/time.h>
STATIC int GC_nacl_num_gc_threads = 0;
STATIC __thread int GC_nacl_thread_idx = -1;
STATIC int GC_nacl_park_threads_now = 0;
STATIC pthread_t GC_nacl_thread_parker = -1;
GC_INNER __thread GC_thread GC_nacl_gc_thread_self = NULL;
int GC_nacl_thread_parked[MAX_NACL_GC_THREADS];
int GC_nacl_thread_used[MAX_NACL_GC_THREADS];
#elif !defined(GC_OPENBSD_THREADS)
#include <signal.h>
#include <semaphore.h>
#include <errno.h>
#include <unistd.h>
#include "atomic_ops.h"
/* It's safe to call original pthread_sigmask() here. */
#undef pthread_sigmask
#ifdef DEBUG_THREADS
# ifndef NSIG
# if defined(MAXSIG)
# define NSIG (MAXSIG+1)
# elif defined(_NSIG)
# define NSIG _NSIG
# elif defined(__SIGRTMAX)
# define NSIG (__SIGRTMAX+1)
# else
--> please fix it
# endif
# endif /* NSIG */
void GC_print_sig_mask(void)
{
sigset_t blocked;
int i;
if (pthread_sigmask(SIG_BLOCK, NULL, &blocked) != 0)
ABORT("pthread_sigmask failed");
GC_printf("Blocked: ");
for (i = 1; i < NSIG; i++) {
if (sigismember(&blocked, i))
GC_printf("%d ", i);
}
GC_printf("\n");
}
#endif /* DEBUG_THREADS */
/* Remove the signals that we want to allow in thread stopping */
/* handler from a set. */
STATIC void GC_remove_allowed_signals(sigset_t *set)
{
if (sigdelset(set, SIGINT) != 0
|| sigdelset(set, SIGQUIT) != 0
|| sigdelset(set, SIGABRT) != 0
|| sigdelset(set, SIGTERM) != 0) {
ABORT("sigdelset() failed");
}
# ifdef MPROTECT_VDB
/* Handlers write to the thread structure, which is in the heap, */
/* and hence can trigger a protection fault. */
if (sigdelset(set, SIGSEGV) != 0
# ifdef SIGBUS
|| sigdelset(set, SIGBUS) != 0
# endif
) {
ABORT("sigdelset() failed");
}
# endif
}
static sigset_t suspend_handler_mask;
STATIC volatile AO_t GC_stop_count = 0;
/* Incremented at the beginning of GC_stop_world. */
STATIC volatile AO_t GC_world_is_stopped = FALSE;
/* FALSE ==> it is safe for threads to restart, i.e. */
/* they will see another suspend signal before they */
/* are expected to stop (unless they have voluntarily */
/* stopped). */
#ifdef GC_OSF1_THREADS
STATIC GC_bool GC_retry_signals = TRUE;
#else
STATIC GC_bool GC_retry_signals = FALSE;
#endif
/*
* We use signals to stop threads during GC.
*
* Suspended threads wait in signal handler for SIG_THR_RESTART.
* That's more portable than semaphores or condition variables.
* (We do use sem_post from a signal handler, but that should be portable.)
*
* The thread suspension signal SIG_SUSPEND is now defined in gc_priv.h.
* Note that we can't just stop a thread; we need it to save its stack
* pointer(s) and acknowledge.
*/
#ifndef SIG_THR_RESTART
# if defined(GC_HPUX_THREADS) || defined(GC_OSF1_THREADS) \
|| defined(GC_NETBSD_THREADS)
# ifdef _SIGRTMIN
# define SIG_THR_RESTART _SIGRTMIN + 5
# else
# define SIG_THR_RESTART SIGRTMIN + 5
# endif
# else
# define SIG_THR_RESTART SIGXCPU
# endif
#endif
#ifdef GC_EXPLICIT_SIGNALS_UNBLOCK
/* Some targets (eg., Solaris) might require this to be called when */
/* doing thread registering from the thread destructor. */
GC_INNER void GC_unblock_gc_signals(void)
{
sigset_t set;
sigemptyset(&set);
sigaddset(&set, SIG_SUSPEND);
sigaddset(&set, SIG_THR_RESTART);
if (pthread_sigmask(SIG_UNBLOCK, &set, NULL) != 0)
ABORT("pthread_sigmask failed");
}
#endif /* GC_EXPLICIT_SIGNALS_UNBLOCK */
STATIC sem_t GC_suspend_ack_sem;
#ifdef GC_NETBSD_THREADS
# define GC_NETBSD_THREADS_WORKAROUND
/* It seems to be necessary to wait until threads have restarted. */
/* But it is unclear why that is the case. */
STATIC sem_t GC_restart_ack_sem;
#endif
STATIC void GC_suspend_handler_inner(ptr_t sig_arg, void *context);
#ifdef SA_SIGINFO
/*ARGSUSED*/
STATIC void GC_suspend_handler(int sig, siginfo_t *info, void *context)
#else
STATIC void GC_suspend_handler(int sig)
#endif
{
# if defined(IA64) || defined(HP_PA) || defined(M68K)
int old_errno = errno;
GC_with_callee_saves_pushed(GC_suspend_handler_inner, (ptr_t)(word)sig);
errno = old_errno;
# else
/* We believe that in all other cases the full context is already */
/* in the signal handler frame. */
int old_errno = errno;
# ifndef SA_SIGINFO
void *context = 0;
# endif
GC_suspend_handler_inner((ptr_t)(word)sig, context);
errno = old_errno;
# endif
}
/*ARGSUSED*/
STATIC void GC_suspend_handler_inner(ptr_t sig_arg, void *context)
{
pthread_t self = pthread_self();
GC_thread me;
IF_CANCEL(int cancel_state;)
AO_t my_stop_count = AO_load(&GC_stop_count);
if ((signed_word)sig_arg != SIG_SUSPEND)
ABORT("Bad signal in suspend_handler");
DISABLE_CANCEL(cancel_state);
/* pthread_setcancelstate is not defined to be async-signal-safe. */
/* But the glibc version appears to be in the absence of */
/* asynchronous cancellation. And since this signal handler */
/* to block on sigsuspend, which is both async-signal-safe */
/* and a cancellation point, there seems to be no obvious way */
/* out of it. In fact, it looks to me like an async-signal-safe */
/* cancellation point is inherently a problem, unless there is */
/* some way to disable cancellation in the handler. */
# ifdef DEBUG_THREADS
GC_log_printf("Suspending 0x%x\n", (unsigned)self);
# endif
me = GC_lookup_thread(self);
/* The lookup here is safe, since I'm doing this on behalf */
/* of a thread which holds the allocation lock in order */
/* to stop the world. Thus concurrent modification of the */
/* data structure is impossible. */
if (me -> stop_info.last_stop_count == my_stop_count) {
/* Duplicate signal. OK if we are retrying. */
if (!GC_retry_signals) {
WARN("Duplicate suspend signal in thread %p\n", self);
}
RESTORE_CANCEL(cancel_state);
return;
}
# ifdef SPARC
me -> stop_info.stack_ptr = GC_save_regs_in_stack();
# else
me -> stop_info.stack_ptr = (ptr_t)(&me);
# endif
# ifdef IA64
me -> backing_store_ptr = GC_save_regs_in_stack();
# endif
/* Tell the thread that wants to stop the world that this */
/* thread has been stopped. Note that sem_post() is */
/* the only async-signal-safe primitive in LinuxThreads. */
sem_post(&GC_suspend_ack_sem);
me -> stop_info.last_stop_count = my_stop_count;
/* Wait until that thread tells us to restart by sending */
/* this thread a SIG_THR_RESTART signal. */
/* SIG_THR_RESTART should be masked at this point. Thus */
/* there is no race. */
/* We do not continue until we receive a SIG_THR_RESTART, */
/* but we do not take that as authoritative. (We may be */
/* accidentally restarted by one of the user signals we */
/* don't block.) After we receive the signal, we use a */
/* primitive and expensive mechanism to wait until it's */
/* really safe to proceed. Under normal circumstances, */
/* this code should not be executed. */
do {
sigsuspend (&suspend_handler_mask);
} while (AO_load_acquire(&GC_world_is_stopped)
&& AO_load(&GC_stop_count) == my_stop_count);
/* If the RESTART signal gets lost, we can still lose. That should */
/* be less likely than losing the SUSPEND signal, since we don't do */
/* much between the sem_post and sigsuspend. */
/* We'd need more handshaking to work around that. */
/* Simply dropping the sigsuspend call should be safe, but is */
/* unlikely to be efficient. */
# ifdef DEBUG_THREADS
GC_log_printf("Continuing 0x%x\n", (unsigned)self);
# endif
RESTORE_CANCEL(cancel_state);
}
STATIC void GC_restart_handler(int sig)
{
if (sig != SIG_THR_RESTART) ABORT("Bad signal in suspend_handler");
# ifdef GC_NETBSD_THREADS_WORKAROUND
sem_post(&GC_restart_ack_sem);
# endif
/*
** Note: even if we don't do anything useful here,
** it would still be necessary to have a signal handler,
** rather than ignoring the signals, otherwise
** the signals will not be delivered at all, and
** will thus not interrupt the sigsuspend() above.
*/
# ifdef DEBUG_THREADS
GC_log_printf("In GC_restart_handler for 0x%x\n",
(unsigned)pthread_self());
# endif
}
#endif /* !GC_OPENBSD_THREADS && !NACL */
#ifdef IA64
# define IF_IA64(x) x
#else
# define IF_IA64(x)
#endif
/* We hold allocation lock. Should do exactly the right thing if the */
/* world is stopped. Should not fail if it isn't. */
GC_INNER void GC_push_all_stacks(void)
{
GC_bool found_me = FALSE;
size_t nthreads = 0;
int i;
GC_thread p;
ptr_t lo, hi;
/* On IA64, we also need to scan the register backing store. */
IF_IA64(ptr_t bs_lo; ptr_t bs_hi;)
pthread_t self = pthread_self();
word total_size = 0;
if (!GC_thr_initialized) GC_thr_init();
# ifdef DEBUG_THREADS
GC_log_printf("Pushing stacks from thread 0x%x\n", (unsigned)self);
# endif
for (i = 0; i < THREAD_TABLE_SZ; i++) {
for (p = GC_threads[i]; p != 0; p = p -> next) {
if (p -> flags & FINISHED) continue;
++nthreads;
if (THREAD_EQUAL(p -> id, self)) {
GC_ASSERT(!p->thread_blocked);
# ifdef SPARC
lo = (ptr_t)GC_save_regs_in_stack();
# else
lo = GC_approx_sp();
# endif
found_me = TRUE;
IF_IA64(bs_hi = (ptr_t)GC_save_regs_in_stack();)
} else {
lo = p -> stop_info.stack_ptr;
IF_IA64(bs_hi = p -> backing_store_ptr;)
}
if ((p -> flags & MAIN_THREAD) == 0) {
hi = p -> stack_end;
IF_IA64(bs_lo = p -> backing_store_end);
} else {
/* The original stack. */
hi = GC_stackbottom;
IF_IA64(bs_lo = BACKING_STORE_BASE;)
}
# ifdef DEBUG_THREADS
GC_log_printf("Stack for thread 0x%x = [%p,%p)\n",
(unsigned)(p -> id), lo, hi);
# endif
if (0 == lo) ABORT("GC_push_all_stacks: sp not set!");
GC_push_all_stack_sections(lo, hi, p -> traced_stack_sect);
# ifdef STACK_GROWS_UP
total_size += lo - hi;
# else
total_size += hi - lo; /* lo <= hi */
# endif
# ifdef NACL
/* Push reg_storage as roots, this will cover the reg context. */
GC_push_all_stack((ptr_t)p -> stop_info.reg_storage,
(ptr_t)(p -> stop_info.reg_storage + NACL_GC_REG_STORAGE_SIZE));
total_size += NACL_GC_REG_STORAGE_SIZE * sizeof(ptr_t);
# endif
# ifdef IA64
# ifdef DEBUG_THREADS
GC_log_printf("Reg stack for thread 0x%x = [%p,%p)\n",
(unsigned)p -> id, bs_lo, bs_hi);
# endif
/* FIXME: This (if p->id==self) may add an unbounded number of */
/* entries, and hence overflow the mark stack, which is bad. */
GC_push_all_register_sections(bs_lo, bs_hi,
THREAD_EQUAL(p -> id, self),
p -> traced_stack_sect);
total_size += bs_hi - bs_lo; /* bs_lo <= bs_hi */
# endif
}
}
if (GC_print_stats == VERBOSE) {
GC_log_printf("Pushed %d thread stacks\n", (int)nthreads);
}
if (!found_me && !GC_in_thread_creation)
ABORT("Collecting from unknown thread");
GC_total_stacksize = total_size;
}
#ifdef DEBUG_THREADS
/* There seems to be a very rare thread stopping problem. To help us */
/* debug that, we save the ids of the stopping thread. */
pthread_t GC_stopping_thread;
int GC_stopping_pid = 0;
#endif
#ifdef PLATFORM_ANDROID
extern int tkill(pid_t tid, int sig); /* from sys/linux-unistd.h */
static int android_thread_kill(pid_t tid, int sig)
{
int ret;
int old_errno = errno;
ret = tkill(tid, sig);
if (ret < 0) {
ret = errno;
errno = old_errno;
}
return ret;
}
#endif /* PLATFORM_ANDROID */
/* We hold the allocation lock. Suspend all threads that might */
/* still be running. Return the number of suspend signals that */
/* were sent. */
STATIC int GC_suspend_all(void)
{
int n_live_threads = 0;
int i;
# ifndef NACL
GC_thread p;
# ifndef GC_OPENBSD_THREADS
int result;
# endif
pthread_t self = pthread_self();
# ifdef DEBUG_THREADS
GC_stopping_thread = self;
GC_stopping_pid = getpid();
# endif
for (i = 0; i < THREAD_TABLE_SZ; i++) {
for (p = GC_threads[i]; p != 0; p = p -> next) {
if (!THREAD_EQUAL(p -> id, self)) {
if (p -> flags & FINISHED) continue;
if (p -> thread_blocked) /* Will wait */ continue;
# ifndef GC_OPENBSD_THREADS
if (p -> stop_info.last_stop_count == GC_stop_count) continue;
n_live_threads++;
# endif
# ifdef DEBUG_THREADS
GC_log_printf("Sending suspend signal to 0x%x\n",
(unsigned)(p -> id));
# endif
# ifdef GC_OPENBSD_THREADS
if (pthread_suspend_np(p -> id) != 0)
ABORT("pthread_suspend_np failed");
/* This will only work for userland pthreads. It will */
/* fail badly on rthreads. Perhaps we should consider */
/* a pthread_sp_np() function that returns the stack */
/* pointer for a suspended thread and implement in both */
/* pthreads and rthreads. */
p -> stop_info.stack_ptr =
*(ptr_t *)((char *)p -> id + UTHREAD_SP_OFFSET);
# else
# ifndef PLATFORM_ANDROID
result = pthread_kill(p -> id, SIG_SUSPEND);
# else
result = android_thread_kill(p -> kernel_id, SIG_SUSPEND);
# endif
switch(result) {
case ESRCH:
/* Not really there anymore. Possible? */
n_live_threads--;
break;
case 0:
break;
default:
ABORT("pthread_kill failed");
}
# endif
}
}
}
# else /* NACL */
# ifndef NACL_PARK_WAIT_NANOSECONDS
# define NACL_PARK_WAIT_NANOSECONDS (100 * 1000)
# endif
# ifdef DEBUG_THREADS
GC_log_printf("pthread_stop_world: num_threads %d\n",
GC_nacl_num_gc_threads - 1);
# endif
GC_nacl_thread_parker = pthread_self();
GC_nacl_park_threads_now = 1;
# ifdef DEBUG_THREADS
GC_stopping_thread = GC_nacl_thread_parker;
GC_stopping_pid = getpid();
# endif
while (1) {
int num_threads_parked = 0;
struct timespec ts;
int num_used = 0;
/* Check the 'parked' flag for each thread the GC knows about. */
for (i = 0; i < MAX_NACL_GC_THREADS
&& num_used < GC_nacl_num_gc_threads; i++) {
if (GC_nacl_thread_used[i] == 1) {
num_used++;
if (GC_nacl_thread_parked[i] == 1) {
num_threads_parked++;
}
}
}
/* -1 for the current thread. */
if (num_threads_parked >= GC_nacl_num_gc_threads - 1)
break;
ts.tv_sec = 0;
ts.tv_nsec = NACL_PARK_WAIT_NANOSECONDS;
# ifdef DEBUG_THREADS
GC_log_printf("Sleep waiting for %d threads to park...\n",
GC_nacl_num_gc_threads - num_threads_parked - 1);
# endif
/* This requires _POSIX_TIMERS feature. */
nanosleep(&ts, 0);
}
# endif /* NACL */
return n_live_threads;
}
GC_INNER void GC_stop_world(void)
{
# if !defined(GC_OPENBSD_THREADS) && !defined(NACL)
int i;
int n_live_threads;
int code;
# endif
GC_ASSERT(I_HOLD_LOCK());
# ifdef DEBUG_THREADS
GC_log_printf("Stopping the world from 0x%x\n", (unsigned)pthread_self());
# endif
/* Make sure all free list construction has stopped before we start. */
/* No new construction can start, since free list construction is */
/* required to acquire and release the GC lock before it starts, */
/* and we have the lock. */
# ifdef PARALLEL_MARK
if (GC_parallel) {
GC_acquire_mark_lock();
GC_ASSERT(GC_fl_builder_count == 0);
/* We should have previously waited for it to become zero. */
}
# endif /* PARALLEL_MARK */
# if defined(GC_OPENBSD_THREADS) || defined(NACL)
(void)GC_suspend_all();
# else
AO_store(&GC_stop_count, GC_stop_count+1);
/* Only concurrent reads are possible. */
AO_store_release(&GC_world_is_stopped, TRUE);
n_live_threads = GC_suspend_all();
if (GC_retry_signals) {
unsigned long wait_usecs = 0; /* Total wait since retry. */
# define WAIT_UNIT 3000
# define RETRY_INTERVAL 100000
for (;;) {
int ack_count;
sem_getvalue(&GC_suspend_ack_sem, &ack_count);
if (ack_count == n_live_threads) break;
if (wait_usecs > RETRY_INTERVAL) {
int newly_sent = GC_suspend_all();
if (GC_print_stats) {
GC_log_printf("Resent %d signals after timeout\n", newly_sent);
}
sem_getvalue(&GC_suspend_ack_sem, &ack_count);
if (newly_sent < n_live_threads - ack_count) {
WARN("Lost some threads during GC_stop_world?!\n",0);
n_live_threads = ack_count + newly_sent;
}
wait_usecs = 0;
}
usleep(WAIT_UNIT);
wait_usecs += WAIT_UNIT;
}
}
for (i = 0; i < n_live_threads; i++) {
retry:
if (0 != (code = sem_wait(&GC_suspend_ack_sem))) {
/* On Linux, sem_wait is documented to always return zero. */
/* But the documentation appears to be incorrect. */
if (errno == EINTR) {
/* Seems to happen with some versions of gdb. */
goto retry;
}
ABORT("sem_wait for handler failed");
}
}
# endif
# ifdef PARALLEL_MARK
if (GC_parallel)
GC_release_mark_lock();
# endif
# ifdef DEBUG_THREADS
GC_log_printf("World stopped from 0x%x\n", (unsigned)pthread_self());
GC_stopping_thread = 0;
# endif
}
#ifdef NACL
# if defined(__x86_64__)
# define NACL_STORE_REGS() \
do { \
__asm__ __volatile__ ("push %rbx"); \
__asm__ __volatile__ ("push %rbp"); \
__asm__ __volatile__ ("push %r12"); \
__asm__ __volatile__ ("push %r13"); \
__asm__ __volatile__ ("push %r14"); \
__asm__ __volatile__ ("push %r15"); \
__asm__ __volatile__ ("mov %%esp, %0" \
: "=m" (GC_nacl_gc_thread_self->stop_info.stack_ptr)); \
BCOPY(GC_nacl_gc_thread_self->stop_info.stack_ptr, \
GC_nacl_gc_thread_self->stop_info.reg_storage, \
NACL_GC_REG_STORAGE_SIZE * sizeof(ptr_t)); \
__asm__ __volatile__ ("naclasp $48, %r15"); \
} while (0)
# elif defined(__i386__)
# define NACL_STORE_REGS() \
do { \
__asm__ __volatile__ ("push %ebx"); \
__asm__ __volatile__ ("push %ebp"); \
__asm__ __volatile__ ("push %esi"); \
__asm__ __volatile__ ("push %edi"); \
__asm__ __volatile__ ("mov %%esp, %0" \
: "=m" (GC_nacl_gc_thread_self->stop_info.stack_ptr)); \
BCOPY(GC_nacl_gc_thread_self->stop_info.stack_ptr, \
GC_nacl_gc_thread_self->stop_info.reg_storage, \
NACL_GC_REG_STORAGE_SIZE * sizeof(ptr_t));\
__asm__ __volatile__ ("add $16, %esp"); \
} while (0)
# else
# error FIXME for non-amd64/x86 NaCl
# endif
GC_API_OSCALL void nacl_pre_syscall_hook(void)
{
int local_dummy = 0;
if (GC_nacl_thread_idx != -1) {
NACL_STORE_REGS();
GC_nacl_gc_thread_self->stop_info.stack_ptr = (ptr_t)(&local_dummy);
GC_nacl_thread_parked[GC_nacl_thread_idx] = 1;
}
}
GC_API_OSCALL void __nacl_suspend_thread_if_needed(void)
{
if (GC_nacl_park_threads_now) {
pthread_t self = pthread_self();
int local_dummy = 0;
/* Don't try to park the thread parker. */
if (GC_nacl_thread_parker == self)
return;
/* This can happen when a thread is created outside of the GC */
/* system (wthread mostly). */
if (GC_nacl_thread_idx < 0)
return;
/* If it was already 'parked', we're returning from a syscall, */
/* so don't bother storing registers again, the GC has a set. */
if (!GC_nacl_thread_parked[GC_nacl_thread_idx]) {
NACL_STORE_REGS();
GC_nacl_gc_thread_self->stop_info.stack_ptr = (ptr_t)(&local_dummy);
}
GC_nacl_thread_parked[GC_nacl_thread_idx] = 1;
while (GC_nacl_park_threads_now) {
/* Just spin. */
}
GC_nacl_thread_parked[GC_nacl_thread_idx] = 0;
/* Clear out the reg storage for next suspend. */
BZERO(GC_nacl_gc_thread_self->stop_info.reg_storage,
NACL_GC_REG_STORAGE_SIZE * sizeof(ptr_t));
}
}
GC_API_OSCALL void nacl_post_syscall_hook(void)
{
/* Calling __nacl_suspend_thread_if_needed right away should */
/* guarantee we don't mutate the GC set. */
__nacl_suspend_thread_if_needed();
if (GC_nacl_thread_idx != -1) {
GC_nacl_thread_parked[GC_nacl_thread_idx] = 0;
}
}
STATIC GC_bool GC_nacl_thread_parking_inited = FALSE;
STATIC pthread_mutex_t GC_nacl_thread_alloc_lock = PTHREAD_MUTEX_INITIALIZER;
GC_INNER void GC_nacl_initialize_gc_thread(void)
{
int i;
pthread_mutex_lock(&GC_nacl_thread_alloc_lock);
if (!GC_nacl_thread_parking_inited) {
BZERO(GC_nacl_thread_parked, sizeof(GC_nacl_thread_parked));
BZERO(GC_nacl_thread_used, sizeof(GC_nacl_thread_used));
GC_nacl_thread_parking_inited = TRUE;
}
GC_ASSERT(GC_nacl_num_gc_threads <= MAX_NACL_GC_THREADS);
for (i = 0; i < MAX_NACL_GC_THREADS; i++) {
if (GC_nacl_thread_used[i] == 0) {
GC_nacl_thread_used[i] = 1;
GC_nacl_thread_idx = i;
GC_nacl_num_gc_threads++;
break;
}
}
pthread_mutex_unlock(&GC_nacl_thread_alloc_lock);
}
GC_INNER void GC_nacl_shutdown_gc_thread(void)
{
pthread_mutex_lock(&GC_nacl_thread_alloc_lock);
GC_ASSERT(GC_nacl_thread_idx >= 0);
GC_ASSERT(GC_nacl_thread_idx < MAX_NACL_GC_THREADS);
GC_ASSERT(GC_nacl_thread_used[GC_nacl_thread_idx] != 0);
GC_nacl_thread_used[GC_nacl_thread_idx] = 0;
GC_nacl_thread_idx = -1;
GC_nacl_num_gc_threads--;
pthread_mutex_unlock(&GC_nacl_thread_alloc_lock);
}
#endif /* NACL */
/* Caller holds allocation lock, and has held it continuously since */
/* the world stopped. */
GC_INNER void GC_start_world(void)
{
# ifndef NACL
pthread_t self = pthread_self();
register int i;
register GC_thread p;
# ifndef GC_OPENBSD_THREADS
register int n_live_threads = 0;
register int result;
# endif
# ifdef GC_NETBSD_THREADS_WORKAROUND
int code;
# endif
# ifdef DEBUG_THREADS
GC_log_printf("World starting\n");
# endif
# ifndef GC_OPENBSD_THREADS
AO_store(&GC_world_is_stopped, FALSE);
# endif
for (i = 0; i < THREAD_TABLE_SZ; i++) {
for (p = GC_threads[i]; p != 0; p = p -> next) {
if (!THREAD_EQUAL(p -> id, self)) {
if (p -> flags & FINISHED) continue;
if (p -> thread_blocked) continue;
# ifndef GC_OPENBSD_THREADS
n_live_threads++;
# endif
# ifdef DEBUG_THREADS
GC_log_printf("Sending restart signal to 0x%x\n",
(unsigned)(p -> id));
# endif
# ifdef GC_OPENBSD_THREADS
if (pthread_resume_np(p -> id) != 0)
ABORT("pthread_resume_np failed");
# else
# ifndef PLATFORM_ANDROID
result = pthread_kill(p -> id, SIG_THR_RESTART);
# else
result = android_thread_kill(p -> kernel_id, SIG_THR_RESTART);
# endif
switch(result) {
case ESRCH:
/* Not really there anymore. Possible? */
n_live_threads--;
break;
case 0:
break;
default:
ABORT("pthread_kill failed");
}
# endif
}
}
}
# ifdef GC_NETBSD_THREADS_WORKAROUND
for (i = 0; i < n_live_threads; i++) {
while (0 != (code = sem_wait(&GC_restart_ack_sem))) {
if (errno != EINTR) {
if (GC_print_stats)
GC_log_printf("sem_wait() returned %d\n", code);
ABORT("sem_wait() for restart handler failed");
}
}
}
# endif
# ifdef DEBUG_THREADS
GC_log_printf("World started\n");
# endif
# else /* NACL */
# ifdef DEBUG_THREADS
GC_log_printf("World starting...\n");
# endif
GC_nacl_park_threads_now = 0;
# endif
}
GC_INNER void GC_stop_init(void)
{
# if !defined(GC_OPENBSD_THREADS) && !defined(NACL)
struct sigaction act;
if (sem_init(&GC_suspend_ack_sem, GC_SEM_INIT_PSHARED, 0) != 0)
ABORT("sem_init failed");
# ifdef GC_NETBSD_THREADS_WORKAROUND
if (sem_init(&GC_restart_ack_sem, GC_SEM_INIT_PSHARED, 0) != 0)
ABORT("sem_init failed");
# endif
# ifdef SA_RESTART
act.sa_flags = SA_RESTART
# else
act.sa_flags = 0
# endif
# ifdef SA_SIGINFO
| SA_SIGINFO
# endif
;
if (sigfillset(&act.sa_mask) != 0) {
ABORT("sigfillset() failed");
}
# ifdef GC_RTEMS_PTHREADS
if(sigprocmask(SIG_UNBLOCK, &act.sa_mask, NULL) != 0) {
ABORT("rtems sigprocmask() failed");
}
# endif
GC_remove_allowed_signals(&act.sa_mask);
/* SIG_THR_RESTART is set in the resulting mask. */
/* It is unmasked by the handler when necessary. */
# ifdef SA_SIGINFO
act.sa_sigaction = GC_suspend_handler;
# else
act.sa_handler = GC_suspend_handler;
# endif
if (sigaction(SIG_SUSPEND, &act, NULL) != 0) {
ABORT("Cannot set SIG_SUSPEND handler");
}
# ifdef SA_SIGINFO
act.sa_flags &= ~ SA_SIGINFO;
# endif
act.sa_handler = GC_restart_handler;
if (sigaction(SIG_THR_RESTART, &act, NULL) != 0) {
ABORT("Cannot set SIG_THR_RESTART handler");
}
/* Initialize suspend_handler_mask. It excludes SIG_THR_RESTART. */
if (sigfillset(&suspend_handler_mask) != 0) ABORT("sigfillset() failed");
GC_remove_allowed_signals(&suspend_handler_mask);
if (sigdelset(&suspend_handler_mask, SIG_THR_RESTART) != 0)
ABORT("sigdelset() failed");
/* Check for GC_RETRY_SIGNALS. */
if (0 != GETENV("GC_RETRY_SIGNALS")) {
GC_retry_signals = TRUE;
}
if (0 != GETENV("GC_NO_RETRY_SIGNALS")) {
GC_retry_signals = FALSE;
}
if (GC_print_stats && GC_retry_signals) {
GC_log_printf("Will retry suspend signal if necessary\n");
}
# endif /* !GC_OPENBSD_THREADS && !NACL */
}
#endif
|