-
#ifdef LISP_FEATURE_SB_THREAD
#include <architecture/i386/table.h>
#include <i386/user_ldt.h>
#include <stdlib.h>
#include <stdio.h>
+#if __DARWIN_UNIX03
+#include <sys/_structs.h>
+#endif
+
+#if __DARWIN_UNIX03
+
+typedef struct __darwin_ucontext darwin_ucontext;
+typedef struct __darwin_mcontext64 darwin_mcontext;
+
+#define rip __rip
+#define rsp __rsp
+#define rbp __rbp
+#define rax __rax
+#define rbx __rbx
+#define rcx __rcx
+#define rdx __rdx
+#define rsi __rsi
+#define rdi __rdi
+#define r8 __r8
+#define r9 __r9
+#define faultvaddr __faultvaddr
+#define ss __ss
+#define es __es
+#define fs __fs
+
+#else
+
+typedef struct ucontext darwin_ucontext;
+typedef struct mcontext darwin_mcontext;
+
+#endif
+
#ifdef LISP_FEATURE_SB_THREAD
pthread_mutex_t mach_exception_lock = PTHREAD_MUTEX_INITIALIZER;
#endif
kern_return_t mach_thread_init(mach_port_t thread_exception_port);
-void sigill_handler(int signal, siginfo_t *siginfo, void *void_context);
-void sigtrap_handler(int signal, siginfo_t *siginfo, void *void_context);
-void memory_fault_handler(int signal, siginfo_t *siginfo, void *void_context);
+void sigill_handler(int signal, siginfo_t *siginfo, os_context_t *context);
+void sigtrap_handler(int signal, siginfo_t *siginfo, os_context_t *context);
+void memory_fault_handler(int signal, siginfo_t *siginfo,
+ os_context_t *context);
/* exc_server handles mach exception messages from the kernel and
* calls catch exception raise. We use the system-provided
/* This executes in the faulting thread as part of the signal
* emulation. It is passed a context with the uc_mcontext field
* pointing to a valid block of memory. */
-void build_fake_signal_context(struct ucontext *context,
+void build_fake_signal_context(darwin_ucontext *context,
x86_thread_state64_t *thread_state,
x86_float_state64_t *float_state) {
pthread_sigmask(0, NULL, &context->uc_sigmask);
* emulation. It is effectively the inverse operation from above. */
void update_thread_state_from_context(x86_thread_state64_t *thread_state,
x86_float_state64_t *float_state,
- struct ucontext *context) {
+ darwin_ucontext *context) {
*thread_state = context->uc_mcontext->ss;
*float_state = context->uc_mcontext->fs;
pthread_sigmask(SIG_SETMASK, &context->uc_sigmask, NULL);
* context (and regs just for symmetry).
*/
- struct ucontext *context;
- struct mcontext *regs;
+ darwin_ucontext *context;
+ darwin_mcontext *regs;
- context = (struct ucontext*) os_validate(0, sizeof(struct ucontext));
- regs = (struct mcontext*) os_validate(0, sizeof(struct mcontext));
+ context = (darwin_ucontext *) os_validate(0, sizeof(darwin_ucontext));
+ regs = (darwin_mcontext*) os_validate(0, sizeof(darwin_mcontext));
context->uc_mcontext = regs;
/* when BSD signals are fired, they mask they signals in sa_mask
build_fake_signal_context(context, thread_state, float_state);
- block_blockable_signals();
+ block_blockable_signals(0, 0);
handler(signal, siginfo, context);
update_thread_state_from_context(thread_state, float_state, context);
- os_invalidate((os_vm_address_t)context, sizeof(struct ucontext));
- os_invalidate((os_vm_address_t)regs, sizeof(struct mcontext));
+ os_invalidate((os_vm_address_t)context, sizeof(darwin_ucontext));
+ os_invalidate((os_vm_address_t)regs, sizeof(darwin_mcontext));
/* Trap to restore the signal context. */
asm volatile ("mov %0, %%rax; mov %1, %%rbx; .quad 0xffffffffffff0b0f"
#endif
void
-control_stack_exhausted_handler(int signal, siginfo_t *siginfo, void *void_context) {
- os_context_t *context = arch_os_get_context(&void_context);
-
+control_stack_exhausted_handler(int signal, siginfo_t *siginfo,
+ os_context_t *context) {
+ unblock_signals_in_context_and_maybe_warn(context);
arrange_return_to_lisp_function
- (context, SymbolFunction(CONTROL_STACK_EXHAUSTED_ERROR));
+ (context, StaticSymbolFunction(CONTROL_STACK_EXHAUSTED_ERROR));
}
void
-undefined_alien_handler(int signal, siginfo_t *siginfo, void *void_context) {
- os_context_t *context = arch_os_get_context(&void_context);
-
+undefined_alien_handler(int signal, siginfo_t *siginfo, os_context_t *context) {
arrange_return_to_lisp_function
- (context, SymbolFunction(UNDEFINED_ALIEN_VARIABLE_ERROR));
+ (context, StaticSymbolFunction(UNDEFINED_ALIEN_VARIABLE_ERROR));
}
kern_return_t
* 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. */
- protect_control_stack_guard_page_thread(0, th);
- protect_control_stack_return_guard_page_thread(1, th);
+ lower_thread_control_stack_guard_page(th);
backup_thread_state = thread_state;
open_stack_allocation(&thread_state);
+ /* Reserve a 256 byte zone for signal handlers
+ * to use on the interrupted thread stack.
+ */
+ stack_allocate(&thread_state, 256);
/* Save thread state */
target_thread_state =
* unprotect this one. This works even if we somehow missed
* the return-guard-page, and hit it on our way to new
* exhaustion instead. */
- protect_control_stack_guard_page_thread(1, th);
- protect_control_stack_return_guard_page_thread(0, th);
+ reset_thread_control_stack_guard_page(th);
}
else if (addr >= undefined_alien_address &&
addr < undefined_alien_address + os_vm_page_size) {
backup_thread_state = thread_state;
open_stack_allocation(&thread_state);
+ stack_allocate(&thread_state, 256);
/* Save thread state */
target_thread_state =
backup_thread_state = thread_state;
open_stack_allocation(&thread_state);
+ stack_allocate(&thread_state, 256);
/* Save thread state */
target_thread_state =
backup_thread_state = thread_state;
open_stack_allocation(&thread_state);
+ stack_allocate(&thread_state, 256);
/* Save thread state */
target_thread_state =
/* mach_msg_server should never return, but it should dispatch mach
* exceptions to our catch_exception_raise function
*/
- abort();
+ lose("mach_msg_server returned");
}
/* Sets up the thread that will listen for mach exceptions. note that