src/pkg/runtime/signal_darwin_amd64.c - go - Git at Google

 // Copyright 2009 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 #include "runtime.h"
 #include "defs_GOOS_GOARCH.h"
 #include "os_GOOS.h"
 #include "signals_GOOS.h"

 void
 runtime·dumpregs(Regs64 *r)
 {
 	runtime·printf("rax     %X\n", r->rax);
 	runtime·printf("rbx     %X\n", r->rbx);
 	runtime·printf("rcx     %X\n", r->rcx);
 	runtime·printf("rdx     %X\n", r->rdx);
 	runtime·printf("rdi     %X\n", r->rdi);
 	runtime·printf("rsi     %X\n", r->rsi);
 	runtime·printf("rbp     %X\n", r->rbp);
 	runtime·printf("rsp     %X\n", r->rsp);
 	runtime·printf("r8      %X\n", r->r8 );
 	runtime·printf("r9      %X\n", r->r9 );
 	runtime·printf("r10     %X\n", r->r10);
 	runtime·printf("r11     %X\n", r->r11);
 	runtime·printf("r12     %X\n", r->r12);
 	runtime·printf("r13     %X\n", r->r13);
 	runtime·printf("r14     %X\n", r->r14);
 	runtime·printf("r15     %X\n", r->r15);
 	runtime·printf("rip     %X\n", r->rip);
 	runtime·printf("rflags  %X\n", r->rflags);
 	runtime·printf("cs      %X\n", r->cs);
 	runtime·printf("fs      %X\n", r->fs);
 	runtime·printf("gs      %X\n", r->gs);
 }

 void
 runtime·sighandler(int32 sig, Siginfo *info, void *context, G *gp)
 {
 	Ucontext *uc;
 	Mcontext64 *mc;
 	Regs64 *r;
 	uintptr *sp;
 	byte *pc;
 	SigTab *t;

 	uc = context;
 	mc = uc->uc_mcontext;
 	r = &mc->ss;

 	if(sig == SIGPROF) {
 		if(gp != m->g0 && gp != m->gsignal)
 			runtime·sigprof((uint8*)r->rip, (uint8*)r->rsp, nil, gp);
 		return;
 	}

 	t = &runtime·sigtab[sig];
 	if(info->si_code != SI_USER && (t->flags & SigPanic)) {
 		if(gp == nil)
 			goto Throw;
 		// Work around Leopard bug that doesn't set FPE_INTDIV.
 		// Look at instruction to see if it is a divide.
 		// Not necessary in Snow Leopard (si_code will be != 0).
 		if(sig == SIGFPE && info->si_code == 0) {
 			pc = (byte*)r->rip;
 			if((pc[0]&0xF0) == 0x40)	// 64-bit REX prefix
 				pc++;
 			else if(pc[0] == 0x66)	// 16-bit instruction prefix
 				pc++;
 			if(pc[0] == 0xF6 || pc[0] == 0xF7)
 				info->si_code = FPE_INTDIV;
 		}

 		// Make it look like a call to the signal func.
 		// Have to pass arguments out of band since
 		// augmenting the stack frame would break
 		// the unwinding code.
 		gp->sig = sig;
 		gp->sigcode0 = info->si_code;
 		gp->sigcode1 = (uintptr)info->si_addr;
 		gp->sigpc = r->rip;

 		// Only push runtime·sigpanic if r->rip != 0.
 		// If r->rip == 0, probably panicked because of a
 		// call to a nil func.  Not pushing that onto sp will
 		// make the trace look like a call to runtime·sigpanic instead.
 		// (Otherwise the trace will end at runtime·sigpanic and we
 		// won't get to see who faulted.)
 		if(r->rip != 0) {
 			sp = (uintptr*)r->rsp;
 			*--sp = r->rip;
 			r->rsp = (uintptr)sp;
 		}
 		r->rip = (uintptr)runtime·sigpanic;
 		return;
 	}

 	if(info->si_code == SI_USER || (t->flags & SigNotify))
 		if(runtime·sigsend(sig))
 			return;
 	if(t->flags & SigKill)
 		runtime·exit(2);
 	if(!(t->flags & SigThrow))
 		return;

 Throw:
 	runtime·startpanic();

 	if(sig < 0 || sig >= NSIG){
 		runtime·printf("Signal %d\n", sig);
 	}else{
 		runtime·printf("%s\n", runtime·sigtab[sig].name);
 	}

 	runtime·printf("pc: %X\n", r->rip);
 	runtime·printf("\n");

 	if(runtime·gotraceback()){
 		runtime·traceback((void*)r->rip, (void*)r->rsp, 0, gp);
 		runtime·tracebackothers(gp);
 		runtime·dumpregs(r);
 	}

 	runtime·exit(2);
 }

 void
 runtime·signalstack(byte *p, int32 n)
 {
 	StackT st;

 	st.ss_sp = p;
 	st.ss_size = n;
 	st.ss_flags = 0;
 	runtime·sigaltstack(&st, nil);
 }

 void
 runtime·setsig(int32 i, void (*fn)(int32, Siginfo*, void*, G*), bool restart)
 {
 	Sigaction sa;

 	runtime·memclr((byte*)&sa, sizeof sa);
 	sa.sa_flags = SA_SIGINFO|SA_ONSTACK;
 	if(restart)
 		sa.sa_flags |= SA_RESTART;
 	sa.sa_mask = ~0ULL;
 	sa.sa_tramp = runtime·sigtramp;	// runtime·sigtramp's job is to call into real handler
 	*(uintptr*)sa.__sigaction_u = (uintptr)fn;
 	runtime·sigaction(i, &sa, nil);
 }
	// Copyright 2009 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	#include "runtime.h"
	#include "defs_GOOS_GOARCH.h"
	#include "os_GOOS.h"
	#include "signals_GOOS.h"

	void
	runtime·dumpregs(Regs64 *r)
	{
	runtime·printf("rax %X\n", r->rax);
	runtime·printf("rbx %X\n", r->rbx);
	runtime·printf("rcx %X\n", r->rcx);
	runtime·printf("rdx %X\n", r->rdx);
	runtime·printf("rdi %X\n", r->rdi);
	runtime·printf("rsi %X\n", r->rsi);
	runtime·printf("rbp %X\n", r->rbp);
	runtime·printf("rsp %X\n", r->rsp);
	runtime·printf("r8 %X\n", r->r8 );
	runtime·printf("r9 %X\n", r->r9 );
	runtime·printf("r10 %X\n", r->r10);
	runtime·printf("r11 %X\n", r->r11);
	runtime·printf("r12 %X\n", r->r12);
	runtime·printf("r13 %X\n", r->r13);
	runtime·printf("r14 %X\n", r->r14);
	runtime·printf("r15 %X\n", r->r15);
	runtime·printf("rip %X\n", r->rip);
	runtime·printf("rflags %X\n", r->rflags);
	runtime·printf("cs %X\n", r->cs);
	runtime·printf("fs %X\n", r->fs);
	runtime·printf("gs %X\n", r->gs);
	}

	void
	runtime·sighandler(int32 sig, Siginfo info, void context, G *gp)
	{
	Ucontext *uc;
	Mcontext64 *mc;
	Regs64 *r;
	uintptr *sp;
	byte *pc;
	SigTab *t;

	uc = context;
	mc = uc->uc_mcontext;
	r = &mc->ss;

	if(sig == SIGPROF) {
	if(gp != m->g0 && gp != m->gsignal)
	runtime·sigprof((uint8)r->rip, (uint8)r->rsp, nil, gp);
	return;
	}

	t = &runtime·sigtab[sig];
	if(info->si_code != SI_USER && (t->flags & SigPanic)) {
	if(gp == nil)
	goto Throw;
	// Work around Leopard bug that doesn't set FPE_INTDIV.
	// Look at instruction to see if it is a divide.
	// Not necessary in Snow Leopard (si_code will be != 0).
	if(sig == SIGFPE && info->si_code == 0) {
	pc = (byte*)r->rip;
	if((pc[0]&0xF0) == 0x40) // 64-bit REX prefix
	pc++;
	else if(pc[0] == 0x66) // 16-bit instruction prefix
	pc++;
	if(pc[0] == 0xF6 \|\| pc[0] == 0xF7)
	info->si_code = FPE_INTDIV;
	}

	// Make it look like a call to the signal func.
	// Have to pass arguments out of band since
	// augmenting the stack frame would break
	// the unwinding code.
	gp->sig = sig;
	gp->sigcode0 = info->si_code;
	gp->sigcode1 = (uintptr)info->si_addr;
	gp->sigpc = r->rip;

	// Only push runtime·sigpanic if r->rip != 0.
	// If r->rip == 0, probably panicked because of a
	// call to a nil func. Not pushing that onto sp will
	// make the trace look like a call to runtime·sigpanic instead.
	// (Otherwise the trace will end at runtime·sigpanic and we
	// won't get to see who faulted.)
	if(r->rip != 0) {
	sp = (uintptr*)r->rsp;
	*--sp = r->rip;
	r->rsp = (uintptr)sp;
	}
	r->rip = (uintptr)runtime·sigpanic;
	return;
	}

	if(info->si_code == SI_USER \|\| (t->flags & SigNotify))
	if(runtime·sigsend(sig))
	return;
	if(t->flags & SigKill)
	runtime·exit(2);
	if(!(t->flags & SigThrow))
	return;

	Throw:
	runtime·startpanic();

	if(sig < 0 \|\| sig >= NSIG){
	runtime·printf("Signal %d\n", sig);
	}else{
	runtime·printf("%s\n", runtime·sigtab[sig].name);
	}

	runtime·printf("pc: %X\n", r->rip);
	runtime·printf("\n");

	if(runtime·gotraceback()){
	runtime·traceback((void)r->rip, (void)r->rsp, 0, gp);
	runtime·tracebackothers(gp);
	runtime·dumpregs(r);
	}

	runtime·exit(2);
	}

	void
	runtime·signalstack(byte *p, int32 n)
	{
	StackT st;

	st.ss_sp = p;
	st.ss_size = n;
	st.ss_flags = 0;
	runtime·sigaltstack(&st, nil);
	}

	void
	runtime·setsig(int32 i, void (fn)(int32, Siginfo, void, G), bool restart)
	{
	Sigaction sa;

	runtime·memclr((byte*)&sa, sizeof sa);
	sa.sa_flags = SA_SIGINFO\|SA_ONSTACK;
	if(restart)
	sa.sa_flags \|= SA_RESTART;
	sa.sa_mask = ~0ULL;
	sa.sa_tramp = runtime·sigtramp; // runtime·sigtramp's job is to call into real handler
	(uintptr)sa.__sigaction_u = (uintptr)fn;
	runtime·sigaction(i, &sa, nil);
	}