#include "genesis/simple-fun.h"
#include "genesis/cons.h"
-
-
static void run_deferred_handler(struct interrupt_data *data, void *v_context);
#ifndef LISP_FEATURE_WIN32
static void store_signal_data_for_later (struct interrupt_data *data,
void *handler, int signal,
siginfo_t *info,
os_context_t *context);
-boolean interrupt_maybe_gc_int(int signal, siginfo_t *info, void *v_context);
+
+static void
+fill_current_sigmask(sigset_t *sigset)
+{
+ /* Get the current sigmask, by blocking the empty set. */
+ sigset_t empty;
+ sigemptyset(&empty);
+ thread_sigmask(SIG_BLOCK, &empty, sigset);
+}
void
sigaddset_deferrable(sigset_t *s)
{
sigaddset(s, SIGHUP);
sigaddset(s, SIGINT);
+ sigaddset(s, SIGTERM);
sigaddset(s, SIGQUIT);
sigaddset(s, SIGPIPE);
sigaddset(s, SIGALRM);
sigaddset(s, SIGTSTP);
sigaddset(s, SIGCHLD);
sigaddset(s, SIGIO);
+#ifndef LISP_FEATURE_HPUX
sigaddset(s, SIGXCPU);
sigaddset(s, SIGXFSZ);
+#endif
sigaddset(s, SIGVTALRM);
sigaddset(s, SIGPROF);
sigaddset(s, SIGWINCH);
}
/* initialized in interrupt_init */
-static sigset_t deferrable_sigset;
-static sigset_t blockable_sigset;
+sigset_t deferrable_sigset;
+sigset_t blockable_sigset;
#endif
void
-check_blockables_blocked_or_lose()
+check_deferrables_blocked_in_sigset_or_lose(sigset_t *sigset)
{
-#ifndef LISP_FEATURE_WIN32
+#if !defined(LISP_FEATURE_WIN32)
+ int i;
+ for(i = 1; i < NSIG; i++) {
+ if (sigismember(&deferrable_sigset, i) && !sigismember(sigset, i))
+ lose("deferrable signal %d not blocked\n",i);
+ }
+#endif
+}
+
+void
+check_deferrables_blocked_or_lose(void)
+{
+#if !defined(LISP_FEATURE_WIN32)
+ sigset_t current;
+ fill_current_sigmask(¤t);
+ check_deferrables_blocked_in_sigset_or_lose(¤t);
+#endif
+}
+
+void
+check_blockables_blocked_or_lose(void)
+{
+#if !defined(LISP_FEATURE_WIN32)
/* Get the current sigmask, by blocking the empty set. */
sigset_t empty,current;
int i;
#endif
}
+void
+unblock_gc_signals(void)
+{
+#ifdef LISP_FEATURE_SB_THREAD
+ sigset_t new;
+ sigemptyset(&new);
+#if defined(SIG_RESUME_FROM_GC)
+ sigaddset(&new,SIG_RESUME_FROM_GC);
+#endif
+ sigaddset(&new,SIG_STOP_FOR_GC);
+ thread_sigmask(SIG_UNBLOCK,&new,0);
+#endif
+}
+
inline static void
check_interrupts_enabled_or_lose(os_context_t *context)
{
struct thread *thread=arch_os_get_current_thread();
if (SymbolValue(INTERRUPTS_ENABLED,thread) == NIL)
lose("interrupts not enabled\n");
- if (
-#if !defined(LISP_FEATURE_X86) && !defined(LISP_FEATURE_X86_64)
- (!foreign_function_call_active) &&
-#endif
- arch_pseudo_atomic_atomic(context))
+ if (arch_pseudo_atomic_atomic(context))
lose ("in pseudo atomic section\n");
}
#endif
}
+void
+block_deferrable_signals(void)
+{
+#ifndef LISP_FEATURE_WIN32
+ thread_sigmask(SIG_BLOCK, &deferrable_sigset, 0);
+#endif
+}
+
\f
/*
* utility routines used by various signal handlers
dynamic_space_free_pointer =
(lispobj *)(unsigned long)
(*os_context_register_addr(context, reg_ALLOC));
- /* fprintf(stderr,"dynamic_space_free_pointer: %p\n", dynamic_space_free_pointer); */
-#if defined(LISP_FEATURE_ALPHA)
+/* fprintf(stderr,"dynamic_space_free_pointer: %p\n", */
+/* dynamic_space_free_pointer); */
+#if defined(LISP_FEATURE_ALPHA) || defined(LISP_FEATURE_MIPS)
if ((long)dynamic_space_free_pointer & 1) {
lose("dead in fake_foreign_function_call, context = %x\n", context);
}
#endif
+/* why doesnt PPC and SPARC do something like this: */
+#if defined(LISP_FEATURE_HPPA)
+ if ((long)dynamic_space_free_pointer & 4) {
+ lose("dead in fake_foreign_function_call, context = %x, d_s_f_p = %x\n", context, dynamic_space_free_pointer);
+ }
+#endif
#endif
#ifdef reg_BSP
current_binding_stack_pointer =
thread->interrupt_contexts[context_index] = context;
- /* no longer in Lisp now */
+#ifdef FOREIGN_FUNCTION_CALL_FLAG
foreign_function_call_active = 1;
+#endif
}
/* blocks all blockable signals. If you are calling from a signal handler,
/* Block all blockable signals. */
block_blockable_signals();
- /* going back into Lisp */
+#ifdef FOREIGN_FUNCTION_CALL_FLAG
foreign_function_call_active = 0;
+#endif
/* Undo dynamic binding of FREE_INTERRUPT_CONTEXT_INDEX */
unbind(thread);
| (*os_context_register_addr(context, reg_ALLOC)
& LOWTAG_MASK);
/*
- ((unsigned long)(*os_context_register_addr(context, reg_ALLOC)) & ~LOWTAG_MASK)
+ ((unsigned long)(*os_context_register_addr(context, reg_ALLOC))
+ & ~LOWTAG_MASK)
| ((unsigned long) dynamic_space_free_pointer & LOWTAG_MASK);
*/
#endif
/* a handler for the signal caused by execution of a trap opcode
* signalling an internal error */
void
-interrupt_internal_error(int signal, siginfo_t *info, os_context_t *context,
- boolean continuable)
+interrupt_internal_error(os_context_t *context, boolean continuable)
{
lispobj context_sap;
* confused, we have a chance to determine what's going on. */
describe_internal_error(context);
#endif
- funcall2(SymbolFunction(INTERNAL_ERROR), context_sap,
+ funcall2(StaticSymbolFunction(INTERNAL_ERROR), context_sap,
continuable ? T : NIL);
undo_fake_foreign_function_call(context); /* blocks signals again */
void
interrupt_handle_pending(os_context_t *context)
{
+ /* There are three ways we can get here. First, if an interrupt
+ * occurs within pseudo-atomic, it will be deferred, and we'll
+ * trap to here at the end of the pseudo-atomic block. Second, if
+ * the GC (in alloc()) decides that a GC is required, it will set
+ * *GC-PENDING* and pseudo-atomic-interrupted if not *GC-INHIBIT*,
+ * and alloc() is always called from within pseudo-atomic, and
+ * thus we end up here again. Third, when calling GC-ON or at the
+ * end of a WITHOUT-GCING, MAYBE-HANDLE-PENDING-GC will trap to
+ * here if there is a pending GC. Fourth, ahem, at the end of
+ * WITHOUT-INTERRUPTS (bar complications with nesting). */
+
+ /* Win32 only needs to handle the GC cases (for now?) */
+
struct thread *thread;
- struct interrupt_data *data;
+
+ if (arch_pseudo_atomic_atomic(context)) {
+ lose("Handling pending interrupt in pseduo atomic.");
+ }
+
+ thread = arch_os_get_current_thread();
FSHOW_SIGNAL((stderr, "/entering interrupt_handle_pending\n"));
check_blockables_blocked_or_lose();
- thread=arch_os_get_current_thread();
- data=thread->interrupt_data;
/* If pseudo_atomic_interrupted is set then the interrupt is going
* to be handled now, ergo it's safe to clear it. */
if (SymbolValue(GC_INHIBIT,thread)==NIL) {
#ifdef LISP_FEATURE_SB_THREAD
if (SymbolValue(STOP_FOR_GC_PENDING,thread) != NIL) {
- /* another thread has already initiated a gc, this attempt
- * might as well be cancelled */
- SetSymbolValue(GC_PENDING,NIL,thread);
- SetSymbolValue(STOP_FOR_GC_PENDING,NIL,thread);
+ /* STOP_FOR_GC_PENDING and GC_PENDING are cleared by
+ * the signal handler if it actually stops us. */
sig_stop_for_gc_handler(SIG_STOP_FOR_GC,NULL,context);
} else
#endif
/* GC_PENDING is cleared in SUB-GC, or if another thread
* is doing a gc already we will get a SIG_STOP_FOR_GC and
* that will clear it. */
- interrupt_maybe_gc_int(0,NULL,context);
+ maybe_gc(context);
}
check_blockables_blocked_or_lose();
}
+#ifndef LISP_FEATURE_WIN32
/* we may be here only to do the gc stuff, if interrupts are
* enabled run the pending handler */
- if (!((SymbolValue(INTERRUPTS_ENABLED,thread) == NIL) ||
- (
-#if !defined(LISP_FEATURE_X86) && !defined(LISP_FEATURE_X86_64)
- (!foreign_function_call_active) &&
-#endif
- arch_pseudo_atomic_atomic(context)))) {
+ if (SymbolValue(INTERRUPTS_ENABLED,thread) != NIL) {
+ struct interrupt_data *data = thread->interrupt_data;
/* There may be no pending handler, because it was only a gc
* that had to be executed or because pseudo atomic triggered
* twice for a single interrupt. For the interested reader,
* that may happen if an interrupt hits after the interrupted
- * flag is cleared but before pseduo-atomic is set and a
+ * flag is cleared but before pseudo-atomic is set and a
* pseudo atomic is interrupted in that interrupt. */
if (data->pending_handler) {
* to WITHOUT-INTERRUPTS, then INTERRUPT_PENDING is already
* NIL, because maybe_defer_handler sets
* PSEUDO_ATOMIC_INTERRUPTED only if interrupts are enabled.*/
- SetSymbolValue(INTERRUPT_PENDING, NIL,thread);
+ SetSymbolValue(INTERRUPT_PENDING, NIL, thread);
-#ifndef LISP_FEATURE_WIN32
/* restore the saved signal mask from the original signal (the
* one that interrupted us during the critical section) into the
* os_context for the signal we're currently in the handler for.
sigcopyset(os_context_sigmask_addr(context), &data->pending_mask);
sigemptyset(&data->pending_mask);
-#endif
/* This will break on sparc linux: the deferred handler really wants
* to be called with a void_context */
run_deferred_handler(data,(void *)context);
}
}
+#endif
}
\f
/*
*/
void
-interrupt_handle_now(int signal, siginfo_t *info, void *void_context)
+interrupt_handle_now(int signal, siginfo_t *info, os_context_t *context)
{
- os_context_t *context = (os_context_t*)void_context;
-#if !defined(LISP_FEATURE_X86) && !defined(LISP_FEATURE_X86_64)
+#ifdef FOREIGN_FUNCTION_CALL_FLAG
boolean were_in_lisp;
#endif
union interrupt_handler handler;
check_blockables_blocked_or_lose();
-
#ifndef LISP_FEATURE_WIN32
if (sigismember(&deferrable_sigset,signal))
check_interrupts_enabled_or_lose(context);
os_restore_fp_control(context);
#endif
-
handler = interrupt_handlers[signal];
if (ARE_SAME_HANDLER(handler.c, SIG_IGN)) {
return;
}
-#if !defined(LISP_FEATURE_X86) && !defined(LISP_FEATURE_X86_64)
+#ifdef FOREIGN_FUNCTION_CALL_FLAG
were_in_lisp = !foreign_function_call_active;
if (were_in_lisp)
#endif
/* Allow signals again. */
thread_sigmask(SIG_SETMASK, os_context_sigmask_addr(context), 0);
#endif
-
- (*handler.c)(signal, info, void_context);
+ (*handler.c)(signal, info, context);
}
-#if !defined(LISP_FEATURE_X86) && !defined(LISP_FEATURE_X86_64)
+#ifdef FOREIGN_FUNCTION_CALL_FLAG
if (were_in_lisp)
#endif
{
* already; we're just doing the Lisp-level processing now that we
* put off then */
static void
-run_deferred_handler(struct interrupt_data *data, void *v_context) {
+run_deferred_handler(struct interrupt_data *data, void *v_context)
+{
/* The pending_handler may enable interrupts and then another
* interrupt may hit, overwrite interrupt_data, so reset the
* pending handler before calling it. Trust the handler to finish
* with the siginfo before enabling interrupts. */
void (*pending_handler) (int, siginfo_t*, void*)=data->pending_handler;
- os_context_t *context = arch_os_get_context(&v_context);
data->pending_handler=0;
(*pending_handler)(data->pending_signal,&(data->pending_info), v_context);
store_signal_data_for_later(data,handler,signal,info,context);
SetSymbolValue(INTERRUPT_PENDING, T,thread);
FSHOW_SIGNAL((stderr,
- "/maybe_defer_handler(%x,%d),thread=%lu: deferred\n",
- (unsigned int)handler,signal,
- (unsigned long)thread->os_thread));
+ "/maybe_defer_handler(%x,%d): deferred\n",
+ (unsigned int)handler,signal));
return 1;
}
- /* a slightly confusing test. arch_pseudo_atomic_atomic() doesn't
+ /* a slightly confusing test. arch_pseudo_atomic_atomic() doesn't
* actually use its argument for anything on x86, so this branch
* may succeed even when context is null (gencgc alloc()) */
- if (
-#if !defined(LISP_FEATURE_X86) && !defined(LISP_FEATURE_X86_64)
- /* FIXME: this foreign_function_call_active test is dubious at
- * best. If a foreign call is made in a pseudo atomic section
- * (?) or more likely a pseudo atomic section is in a foreign
- * call then an interrupt is executed immediately. Maybe it
- * has to do with C code not maintaining pseudo atomic
- * properly. MG - 2005-08-10 */
- (!foreign_function_call_active) &&
-#endif
- arch_pseudo_atomic_atomic(context)) {
+ if (arch_pseudo_atomic_atomic(context)) {
store_signal_data_for_later(data,handler,signal,info,context);
arch_set_pseudo_atomic_interrupted(context);
FSHOW_SIGNAL((stderr,
- "/maybe_defer_handler(%x,%d),thread=%lu: deferred(PA)\n",
- (unsigned int)handler,signal,
- (unsigned long)thread->os_thread));
+ "/maybe_defer_handler(%x,%d): deferred(PA)\n",
+ (unsigned int)handler,signal));
return 1;
}
FSHOW_SIGNAL((stderr,
- "/maybe_defer_handler(%x,%d),thread=%lu: not deferred\n",
- (unsigned int)handler,signal,
- (unsigned long)thread->os_thread));
+ "/maybe_defer_handler(%x,%d): not deferred\n",
+ (unsigned int)handler,signal));
return 0;
}
if(info)
memcpy(&(data->pending_info), info, sizeof(siginfo_t));
- FSHOW_SIGNAL((stderr, "/store_signal_data_for_later: signal: %d\n", signal));
+ FSHOW_SIGNAL((stderr, "/store_signal_data_for_later: signal: %d\n",
+ signal));
if(context) {
/* the signal mask in the context (from before we were
maybe_now_maybe_later(int signal, siginfo_t *info, void *void_context)
{
os_context_t *context = arch_os_get_context(&void_context);
-
- struct thread *thread;
- struct interrupt_data *data;
-
- thread=arch_os_get_current_thread();
- data=thread->interrupt_data;
+ struct thread *thread = arch_os_get_current_thread();
+ struct interrupt_data *data = thread->interrupt_data;
#if defined(LISP_FEATURE_LINUX) || defined(RESTORE_FP_CONTROL_FROM_CONTEXT)
os_restore_fp_control(context);
#endif
- if(maybe_defer_handler(interrupt_handle_now,data,signal,info,context))
- return;
- interrupt_handle_now(signal, info, context);
-#ifdef LISP_FEATURE_DARWIN
- /* Work around G5 bug */
- DARWIN_FIX_CONTEXT(context);
-#endif
+ if(!maybe_defer_handler(interrupt_handle_now,data,signal,info,context))
+ interrupt_handle_now(signal, info, context);
}
static void
-low_level_interrupt_handle_now(int signal, siginfo_t *info, void *void_context)
+low_level_interrupt_handle_now(int signal, siginfo_t *info,
+ os_context_t *context)
{
- os_context_t *context = (os_context_t*)void_context;
-
-#if defined(LISP_FEATURE_LINUX) || defined(RESTORE_FP_CONTROL_FROM_CONTEXT)
- os_restore_fp_control(context);
-#endif
-
+ /* No FP control fixage needed, caller has done that. */
check_blockables_blocked_or_lose();
check_interrupts_enabled_or_lose(context);
- interrupt_low_level_handlers[signal](signal, info, void_context);
-#ifdef LISP_FEATURE_DARWIN
- /* Work around G5 bug */
- DARWIN_FIX_CONTEXT(context);
-#endif
+ (*interrupt_low_level_handlers[signal])(signal, info, context);
+ /* No Darwin context fixage needed, caller does that. */
}
static void
low_level_maybe_now_maybe_later(int signal, siginfo_t *info, void *void_context)
{
os_context_t *context = arch_os_get_context(&void_context);
- struct thread *thread;
- struct interrupt_data *data;
-
- thread=arch_os_get_current_thread();
- data=thread->interrupt_data;
+ struct thread *thread = arch_os_get_current_thread();
+ struct interrupt_data *data = thread->interrupt_data;
#if defined(LISP_FEATURE_LINUX) || defined(RESTORE_FP_CONTROL_FROM_CONTEXT)
os_restore_fp_control(context);
#endif
- if(maybe_defer_handler(low_level_interrupt_handle_now,data,
- signal,info,context))
- return;
- low_level_interrupt_handle_now(signal, info, context);
-#ifdef LISP_FEATURE_DARWIN
- /* Work around G5 bug */
- DARWIN_FIX_CONTEXT(context);
-#endif
+ if(!maybe_defer_handler(low_level_interrupt_handle_now,data,
+ signal,info,context))
+ low_level_interrupt_handle_now(signal, info, context);
}
#endif
struct thread *thread=arch_os_get_current_thread();
sigset_t ss;
- if ((arch_pseudo_atomic_atomic(context) ||
- SymbolValue(GC_INHIBIT,thread) != NIL)) {
+ if (arch_pseudo_atomic_atomic(context)) {
SetSymbolValue(STOP_FOR_GC_PENDING,T,thread);
- if (SymbolValue(GC_INHIBIT,thread) == NIL)
- arch_set_pseudo_atomic_interrupted(context);
- FSHOW_SIGNAL((stderr,"thread=%lu sig_stop_for_gc deferred\n",
- thread->os_thread));
- } else {
- /* need the context stored so it can have registers scavenged */
- fake_foreign_function_call(context);
+ arch_set_pseudo_atomic_interrupted(context);
+ FSHOW_SIGNAL((stderr, "sig_stop_for_gc deferred (PA)\n"));
+ return;
+ }
+ else if (SymbolValue(GC_INHIBIT,thread) != NIL) {
+ SetSymbolValue(STOP_FOR_GC_PENDING,T,thread);
+ FSHOW_SIGNAL((stderr, "sig_stop_for_gc deferred (*GC-INHIBIT*)\n"));
+ return;
+ }
- sigfillset(&ss); /* Block everything. */
- thread_sigmask(SIG_BLOCK,&ss,0);
+ /* Not PA and GC not inhibited -- we can stop now. */
- if(thread->state!=STATE_RUNNING) {
- lose("sig_stop_for_gc_handler: wrong thread state: %ld\n",
- fixnum_value(thread->state));
- }
- thread->state=STATE_SUSPENDED;
- FSHOW_SIGNAL((stderr,"thread=%lu suspended\n",thread->os_thread));
+ /* need the context stored so it can have registers scavenged */
+ fake_foreign_function_call(context);
+
+ /* Block everything. */
+ sigfillset(&ss);
+ thread_sigmask(SIG_BLOCK,&ss,0);
+
+ /* Not pending anymore. */
+ SetSymbolValue(GC_PENDING,NIL,thread);
+ SetSymbolValue(STOP_FOR_GC_PENDING,NIL,thread);
+
+ if(thread->state!=STATE_RUNNING) {
+ lose("sig_stop_for_gc_handler: wrong thread state: %ld\n",
+ fixnum_value(thread->state));
+ }
+
+ thread->state=STATE_SUSPENDED;
+ FSHOW_SIGNAL((stderr,"suspended\n"));
+ sigemptyset(&ss);
#if defined(SIG_RESUME_FROM_GC)
- sigemptyset(&ss); sigaddset(&ss,SIG_RESUME_FROM_GC);
+ sigaddset(&ss,SIG_RESUME_FROM_GC);
#else
- sigemptyset(&ss); sigaddset(&ss,SIG_STOP_FOR_GC);
+ sigaddset(&ss,SIG_STOP_FOR_GC);
#endif
- /* It is possible to get SIGCONT (and probably other
- * non-blockable signals) here. */
+ /* It is possible to get SIGCONT (and probably other non-blockable
+ * signals) here. */
#ifdef SIG_RESUME_FROM_GC
- {
- int sigret;
- do { sigwait(&ss, &sigret); }
- while (sigret != SIG_RESUME_FROM_GC);
- }
+ {
+ int sigret;
+ do { sigwait(&ss, &sigret); }
+ while (sigret != SIG_RESUME_FROM_GC);
+ }
#else
- while (sigwaitinfo(&ss,0) != SIG_STOP_FOR_GC);
+ while (sigwaitinfo(&ss,0) != SIG_STOP_FOR_GC);
#endif
- FSHOW_SIGNAL((stderr,"thread=%lu resumed\n",thread->os_thread));
- if(thread->state!=STATE_RUNNING) {
- lose("sig_stop_for_gc_handler: wrong thread state on wakeup: %ld\n",
- fixnum_value(thread->state));
- }
-
- undo_fake_foreign_function_call(context);
+ FSHOW_SIGNAL((stderr,"resumed\n"));
+ if(thread->state!=STATE_RUNNING) {
+ lose("sig_stop_for_gc_handler: wrong thread state on wakeup: %ld\n",
+ fixnum_value(thread->state));
}
+
+ undo_fake_foreign_function_call(context);
}
#endif
interrupt_handle_now_handler(int signal, siginfo_t *info, void *void_context)
{
os_context_t *context = arch_os_get_context(&void_context);
- interrupt_handle_now(signal, info, context);
-#ifdef LISP_FEATURE_DARWIN
- DARWIN_FIX_CONTEXT(context);
+#if defined(LISP_FEATURE_LINUX) || defined(RESTORE_FP_CONTROL_FROM_CONTEXT)
+ os_restore_fp_control(context);
+#ifndef LISP_FEATURE_WIN32
+ if ((signal == SIGILL) || (signal == SIGBUS)
+#ifndef LISP_FEATURE_LINUX
+ || (signal == SIGEMT)
#endif
-}
-
-/*
- * stuff to detect and handle hitting the GC trigger
- */
-
-#ifndef LISP_FEATURE_GENCGC
-/* since GENCGC has its own way to record trigger */
-static boolean
-gc_trigger_hit(int signal, siginfo_t *info, os_context_t *context)
-{
- if (current_auto_gc_trigger == NULL)
- return 0;
- else{
- void *badaddr=arch_get_bad_addr(signal,info,context);
- return (badaddr >= (void *)current_auto_gc_trigger &&
- badaddr <((void *)current_dynamic_space + DYNAMIC_SPACE_SIZE));
- }
-}
+ )
+ corruption_warning_and_maybe_lose("Signal %d recieved", signal);
#endif
+#endif
+ interrupt_handle_now(signal, info, context);
+}
/* manipulate the signal context and stack such that when the handler
* returns, it will call function instead of whatever it was doing
*(register_save_area + 7) = *os_context_register_addr(context,reg_EAX);
*(register_save_area + 8) = *context_eflags_addr(context);
- *os_context_pc_addr(context) = call_into_lisp_tramp;
- *os_context_register_addr(context,reg_ECX) = register_save_area;
+ *os_context_pc_addr(context) =
+ (os_context_register_t) call_into_lisp_tramp;
+ *os_context_register_addr(context,reg_ECX) =
+ (os_context_register_t) register_save_area;
#else
/* return address for call_into_lisp: */
#elif defined(LISP_FEATURE_X86_64)
u64 *sp=(u64 *)*os_context_register_addr(context,reg_RSP);
+
/* return address for call_into_lisp: */
*(sp-18) = (u64)post_signal_tramp;
*os_context_register_addr(context,reg_CODE) =
(os_context_register_t)(fun + FUN_POINTER_LOWTAG);
#endif
+ FSHOW((stderr, "/arranged return to Lisp function (0x%lx)\n",
+ (long)function));
}
#ifdef LISP_FEATURE_SB_THREAD
{
os_context_t *context = (os_context_t*)arch_os_get_context(&v_context);
+ FSHOW_SIGNAL((stderr,"/interrupt_thread_handler\n"));
+ check_blockables_blocked_or_lose();
+
/* let the handler enable interrupts again when it sees fit */
sigaddset_deferrable(os_context_sigmask_addr(context));
- arrange_return_to_lisp_function(context, SymbolFunction(RUN_INTERRUPTION));
+ arrange_return_to_lisp_function(context,
+ StaticSymbolFunction(RUN_INTERRUPTION));
}
#endif
* functions and variables.
*/
void
-undefined_alien_function() {
- funcall0(SymbolFunction(UNDEFINED_ALIEN_FUNCTION_ERROR));
+undefined_alien_function(void)
+{
+ funcall0(StaticSymbolFunction(UNDEFINED_ALIEN_FUNCTION_ERROR));
}
boolean
* protection so the error handler has some headroom, protect the
* previous page so that we can catch returns from the guard page
* and restore it. */
+ corruption_warning_and_maybe_lose("Control stack exhausted");
protect_control_stack_guard_page(0);
protect_control_stack_return_guard_page(1);
arrange_return_to_lisp_function
- (context, SymbolFunction(CONTROL_STACK_EXHAUSTED_ERROR));
+ (context, StaticSymbolFunction(CONTROL_STACK_EXHAUSTED_ERROR));
return 1;
}
else if(addr >= CONTROL_STACK_RETURN_GUARD_PAGE(th) &&
else if (addr >= undefined_alien_address &&
addr < undefined_alien_address + os_vm_page_size) {
arrange_return_to_lisp_function
- (context, SymbolFunction(UNDEFINED_ALIEN_VARIABLE_ERROR));
+ (context, StaticSymbolFunction(UNDEFINED_ALIEN_VARIABLE_ERROR));
return 1;
}
else return 0;
}
-
-#ifndef LISP_FEATURE_GENCGC
-/* This function gets called from the SIGSEGV (for e.g. Linux, NetBSD, &
- * OpenBSD) or SIGBUS (for e.g. FreeBSD) handler. Here we check
- * whether the signal was due to treading on the mprotect()ed zone -
- * and if so, arrange for a GC to happen. */
-extern unsigned long bytes_consed_between_gcs; /* gc-common.c */
-
-boolean
-interrupt_maybe_gc(int signal, siginfo_t *info, void *void_context)
-{
- os_context_t *context=(os_context_t *) void_context;
-
- if(!foreign_function_call_active && gc_trigger_hit(signal, info, context)){
- struct thread *thread=arch_os_get_current_thread();
- clear_auto_gc_trigger();
- /* Don't flood the system with interrupts if the need to gc is
- * already noted. This can happen for example when SUB-GC
- * allocates or after a gc triggered in a WITHOUT-GCING. */
- if (SymbolValue(GC_PENDING,thread) == NIL) {
- if (SymbolValue(GC_INHIBIT,thread) == NIL) {
- if (arch_pseudo_atomic_atomic(context)) {
- /* set things up so that GC happens when we finish
- * the PA section */
- SetSymbolValue(GC_PENDING,T,thread);
- arch_set_pseudo_atomic_interrupted(context);
- } else {
- interrupt_maybe_gc_int(signal,info,void_context);
- }
- } else {
- SetSymbolValue(GC_PENDING,T,thread);
- }
- }
- return 1;
- }
- return 0;
-}
-
-#endif
-
-/* this is also used by gencgc, in alloc() */
-boolean
-interrupt_maybe_gc_int(int signal, siginfo_t *info, void *void_context)
-{
- os_context_t *context=(os_context_t *) void_context;
-#ifndef LISP_FEATURE_WIN32
- struct thread *thread=arch_os_get_current_thread();
-#endif
-
- fake_foreign_function_call(context);
-
- /* SUB-GC may return without GCing if *GC-INHIBIT* is set, in
- * which case we will be running with no gc trigger barrier
- * thing for a while. But it shouldn't be long until the end
- * of WITHOUT-GCING.
- *
- * FIXME: It would be good to protect the end of dynamic space
- * and signal a storage condition from there.
- */
-
- /* Restore the signal mask from the interrupted context before
- * calling into Lisp if interrupts are enabled. Why not always?
- *
- * Suppose there is a WITHOUT-INTERRUPTS block far, far out. If an
- * interrupt hits while in SUB-GC, it is deferred and the
- * os_context_sigmask of that interrupt is set to block further
- * deferrable interrupts (until the first one is
- * handled). Unfortunately, that context refers to this place and
- * when we return from here the signals will not be blocked.
- *
- * A kludgy alternative is to propagate the sigmask change to the
- * outer context.
- */
-#ifndef LISP_FEATURE_WIN32
- if(SymbolValue(INTERRUPTS_ENABLED,thread)!=NIL)
- thread_sigmask(SIG_SETMASK, os_context_sigmask_addr(context), 0);
-#ifdef LISP_FEATURE_SB_THREAD
- else {
- sigset_t new;
- sigemptyset(&new);
-#if defined(SIG_RESUME_FROM_GC)
- sigaddset(&new,SIG_RESUME_FROM_GC);
-#endif
- sigaddset(&new,SIG_STOP_FOR_GC);
- thread_sigmask(SIG_UNBLOCK,&new,0);
- }
-#endif
-#endif
- funcall0(SymbolFunction(SUB_GC));
-
- undo_fake_foreign_function_call(context);
- return 1;
-}
-
\f
/*
* noise to install handlers
sigset_t empty, current;
int i;
sigemptyset(&empty);
- sigprocmask(SIG_BLOCK, &empty, ¤t);
+ thread_sigmask(SIG_BLOCK, &empty, ¤t);
/* There should be exactly two blocked signals: the two we added
* to sa_mask when setting up the handler. NetBSD doesn't block
* the signal we're handling when SA_NODEFER is set; Linux before
}
static void
-see_if_sigaction_nodefer_works()
+see_if_sigaction_nodefer_works(void)
{
struct sigaction sa, old_sa;
{
sigset_t empty;
sigemptyset(&empty);
- sigprocmask(SIG_SETMASK, &empty, 0);
+ thread_sigmask(SIG_SETMASK, &empty, 0);
}
kill(getpid(), SA_NODEFER_TEST_KILL_SIGNAL);
while (sigaction_nodefer_works == -1);
void
undoably_install_low_level_interrupt_handler (int signal,
- void handler(int,
- siginfo_t*,
- void*))
+ interrupt_handler_t handler)
{
struct sigaction sa;
| (sigaction_nodefer_works ? SA_NODEFER : 0);
#ifdef LISP_FEATURE_C_STACK_IS_CONTROL_STACK
if((signal==SIG_MEMORY_FAULT)
-#ifdef SIG_MEMORY_FAULT2
- || (signal==SIG_MEMORY_FAULT2)
-#endif
#ifdef SIG_INTERRUPT_THREAD
|| (signal==SIG_INTERRUPT_THREAD)
#endif
#endif
}
+/* This must not go through lisp as it's allowed anytime, even when on
+ * the altstack. */
void
-interrupt_init()
+sigabrt_handler(int signal, siginfo_t *info, void *void_context)
+{
+ lose("SIGABRT received.\n");
+}
+
+void
+interrupt_init(void)
{
#ifndef LISP_FEATURE_WIN32
int i;
* 3-argument form is expected.) */
(void (*)(int, siginfo_t*, void*))SIG_DFL;
}
-
+ undoably_install_low_level_interrupt_handler(SIGABRT, sigabrt_handler);
SHOW("returning from interrupt_init()");
#endif
}
+
+#ifndef LISP_FEATURE_WIN32
+int
+siginfo_code(siginfo_t *info)
+{
+ return info->si_code;
+}
+os_vm_address_t current_memory_fault_address;
+
+void
+lisp_memory_fault_error(os_context_t *context, os_vm_address_t addr)
+{
+ /* FIXME: This is lossy: if we get another memory fault (eg. from
+ * another thread) before lisp has read this, we lose the information.
+ * However, since this is mostly informative, we'll live with that for
+ * now -- some address is better then no address in this case.
+ */
+ current_memory_fault_address = addr;
+ /* To allow debugging memory faults in signal handlers and such. */
+ corruption_warning_and_maybe_lose("Memory fault");
+ arrange_return_to_lisp_function(context,
+ StaticSymbolFunction(MEMORY_FAULT_ERROR));
+}
+#endif
+
+static void
+unhandled_trap_error(os_context_t *context)
+{
+ lispobj context_sap;
+ fake_foreign_function_call(context);
+ context_sap = alloc_sap(context);
+#ifndef LISP_FEATURE_WIN32
+ thread_sigmask(SIG_SETMASK, os_context_sigmask_addr(context), 0);
+#endif
+ funcall1(StaticSymbolFunction(UNHANDLED_TRAP_ERROR), context_sap);
+ lose("UNHANDLED-TRAP-ERROR fell through");
+}
+
+/* Common logic for trapping instructions. How we actually handle each
+ * case is highly architecture dependent, but the overall shape is
+ * this. */
+void
+handle_trap(os_context_t *context, int trap)
+{
+ switch(trap) {
+ case trap_PendingInterrupt:
+ FSHOW((stderr, "/<trap pending interrupt>\n"));
+ arch_skip_instruction(context);
+ interrupt_handle_pending(context);
+ break;
+ case trap_Error:
+ case trap_Cerror:
+ FSHOW((stderr, "/<trap error/cerror %d>\n", trap));
+ interrupt_internal_error(context, trap==trap_Cerror);
+ break;
+ case trap_Breakpoint:
+ arch_handle_breakpoint(context);
+ break;
+ case trap_FunEndBreakpoint:
+ arch_handle_fun_end_breakpoint(context);
+ break;
+#ifdef trap_AfterBreakpoint
+ case trap_AfterBreakpoint:
+ arch_handle_after_breakpoint(context);
+ break;
+#endif
+#ifdef trap_SingleStepAround
+ case trap_SingleStepAround:
+ case trap_SingleStepBefore:
+ arch_handle_single_step_trap(context, trap);
+ break;
+#endif
+ case trap_Halt:
+ fake_foreign_function_call(context);
+ lose("%%PRIMITIVE HALT called; the party is over.\n");
+ default:
+ unhandled_trap_error(context);
+ }
+}
+
projects / sbcl.git / blobdiff