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go/src/pkg/runtime/signal_openbsd_386.c

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runtime: add runtime support for openbsd 386 Add openbsd 386 runtime support, partially based on the existing freebsd 386 runtime. This requires change 4973043. R=golang-dev, rsc CC=golang-dev https://golang.org/cl/4951043
2011-08-29 08:42:16 -06:00
// 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"
runtime: make more build-friendly Collapse the arch,os-specific directories into the main directory by renaming xxx/foo.c to foo_xxx.c, and so on. There are no substantial edits here, except to the Makefile. The assumption is that the Go tool will #define GOOS_darwin and GOARCH_amd64 and will make any file named something like signals_darwin.h available as signals_GOOS.h during the build. This replaces what used to be done with -I$(GOOS). There is still work to be done to make runtime build with standard tools, but this is a big step. After this we will have to write a script to generate all the generated files so they can be checked in (instead of generated during the build). R=r, iant, r, lucio.dere CC=golang-dev https://golang.org/cl/5490053
2011-12-16 13:33:58 -07:00
#include "defs_GOOS_GOARCH.h"
#include "signals_GOOS.h"
#include "os_GOOS.h"
runtime: add runtime support for openbsd 386 Add openbsd 386 runtime support, partially based on the existing freebsd 386 runtime. This requires change 4973043. R=golang-dev, rsc CC=golang-dev https://golang.org/cl/4951043
2011-08-29 08:42:16 -06:00
extern void runtime·sigtramp(void);
typedef struct sigaction {
union {
void (*__sa_handler)(int32);
void (*__sa_sigaction)(int32, Siginfo*, void *);
} __sigaction_u; /* signal handler */
uint32 sa_mask; /* signal mask to apply */
int32 sa_flags; /* see signal options below */
} Sigaction;
void
runtime·dumpregs(Sigcontext *r)
{
runtime·printf("eax %x\n", r->sc_eax);
runtime·printf("ebx %x\n", r->sc_ebx);
runtime·printf("ecx %x\n", r->sc_ecx);
runtime·printf("edx %x\n", r->sc_edx);
runtime·printf("edi %x\n", r->sc_edi);
runtime·printf("esi %x\n", r->sc_esi);
runtime·printf("ebp %x\n", r->sc_ebp);
runtime·printf("esp %x\n", r->sc_esp);
runtime·printf("eip %x\n", r->sc_eip);
runtime·printf("eflags %x\n", r->sc_eflags);
runtime·printf("cs %x\n", r->sc_cs);
runtime·printf("fs %x\n", r->sc_fs);
runtime·printf("gs %x\n", r->sc_gs);
}
String
runtime·signame(int32 sig)
{
if(sig < 0 || sig >= NSIG)
return runtime·emptystring;
return runtime·gostringnocopy((byte*)runtime·sigtab[sig].name);
}
void
runtime·sighandler(int32 sig, Siginfo *info, void *context, G *gp)
{
Sigcontext *r = context;
uintptr *sp;
if(sig == SIGPROF) {
runtime·sigprof((uint8*)r->sc_eip, (uint8*)r->sc_esp, nil, gp);
return;
}
if(gp != nil && (runtime·sigtab[sig].flags & SigPanic)) {
// 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*)((byte*)info + 12); /* si_addr */
gp->sigpc = r->sc_eip;
// Only push runtime·sigpanic if r->sc_eip != 0.
// If r->sc_eip == 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->sc_eip != 0) {
sp = (uintptr*)r->sc_esp;
*--sp = r->sc_eip;
r->sc_esp = (uintptr)sp;
}
r->sc_eip = (uintptr)runtime·sigpanic;
return;
}
if(runtime·sigtab[sig].flags & SigQueue) {
if(runtime·sigsend(sig) || (runtime·sigtab[sig].flags & SigIgnore))
return;
runtime·exit(2); // SIGINT, SIGTERM, etc
}
if(runtime·panicking) // traceback already printed
runtime·exit(2);
runtime·panicking = 1;
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->sc_eip);
runtime·printf("\n");
if(runtime·gotraceback()){
runtime·traceback((void*)r->sc_eip, (void*)r->sc_esp, 0, gp);
runtime·tracebackothers(gp);
runtime·dumpregs(r);
}
runtime·exit(2);
}
// Called from kernel on signal stack, so no stack split.
#pragma textflag 7
void
runtime·sigignore(void)
{
}
void
runtime·signalstack(byte *p, int32 n)
{
Sigaltstack st;
st.ss_sp = (int8*)p;
st.ss_size = n;
st.ss_flags = 0;
runtime·sigaltstack(&st, nil);
}
static void
sigaction(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;
if (fn == runtime·sighandler)
fn = (void*)runtime·sigtramp;
sa.__sigaction_u.__sa_sigaction = (void*)fn;
runtime·sigaction(i, &sa, nil);
}
void
runtime·initsig(int32 queue)
{
int32 i;
void *fn;
runtime·siginit();
for(i = 0; i<NSIG; i++) {
if(runtime·sigtab[i].flags) {
if((runtime·sigtab[i].flags & SigQueue) != queue)
continue;
if(runtime·sigtab[i].flags & (SigCatch | SigQueue))
fn = runtime·sighandler;
else
fn = runtime·sigignore;
sigaction(i, fn, (runtime·sigtab[i].flags & SigRestart) != 0);
}
}
}
void
runtime·resetcpuprofiler(int32 hz)
{
Itimerval it;
runtime·memclr((byte*)&it, sizeof it);
if(hz == 0) {
runtime·setitimer(ITIMER_PROF, &it, nil);
sigaction(SIGPROF, SIG_IGN, true);
} else {
sigaction(SIGPROF, runtime·sighandler, true);
it.it_interval.tv_sec = 0;
it.it_interval.tv_usec = 1000000 / hz;
it.it_value = it.it_interval;
runtime·setitimer(ITIMER_PROF, &it, nil);
}
m->profilehz = hz;
}
void
os·sigpipe(void)
{
sigaction(SIGPIPE, SIG_DFL, false);
runtime·raisesigpipe();
}
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