// 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. // +build darwin dragonfly freebsd linux netbsd openbsd #include "runtime.h" #include "defs_GOOS_GOARCH.h" #include "os_GOOS.h" #include "signal_GOOS_GOARCH.h" #include "signals_GOOS.h" void runtime·dumpregs(Siginfo *info, void *ctxt) { USED(info); USED(ctxt); runtime·printf("trap %x\n", SIG_TRAP(info, ctxt)); runtime·printf("error %x\n", SIG_ERROR(info, ctxt)); runtime·printf("oldmask %x\n", SIG_OLDMASK(info, ctxt)); runtime·printf("r0 %x\n", SIG_R0(info, ctxt)); runtime·printf("r1 %x\n", SIG_R1(info, ctxt)); runtime·printf("r2 %x\n", SIG_R2(info, ctxt)); runtime·printf("r3 %x\n", SIG_R3(info, ctxt)); runtime·printf("r4 %x\n", SIG_R4(info, ctxt)); runtime·printf("r5 %x\n", SIG_R5(info, ctxt)); runtime·printf("r6 %x\n", SIG_R6(info, ctxt)); runtime·printf("r7 %x\n", SIG_R7(info, ctxt)); runtime·printf("r8 %x\n", SIG_R8(info, ctxt)); runtime·printf("r9 %x\n", SIG_R9(info, ctxt)); runtime·printf("r10 %x\n", SIG_R10(info, ctxt)); runtime·printf("fp %x\n", SIG_FP(info, ctxt)); runtime·printf("ip %x\n", SIG_IP(info, ctxt)); runtime·printf("sp %x\n", SIG_SP(info, ctxt)); runtime·printf("lr %x\n", SIG_LR(info, ctxt)); runtime·printf("pc %x\n", SIG_PC(info, ctxt)); runtime·printf("cpsr %x\n", SIG_CPSR(info, ctxt)); runtime·printf("fault %x\n", SIG_FAULT(info, ctxt)); } void runtime·sighandler(int32 sig, Siginfo *info, void *ctxt, G *gp) { SigTab *t; bool crash; if(sig == SIGPROF) { runtime·sigprof((uint8*)SIG_PC(info, ctxt), (uint8*)SIG_SP(info, ctxt), (uint8*)SIG_LR(info, ctxt), gp); return; } t = &runtime·sigtab[sig]; if(SIG_CODE0(info, ctxt) != SI_USER && (t->flags & SigPanic)) { if(gp == nil || gp == m->g0) goto Throw; // 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 = SIG_CODE0(info, ctxt); gp->sigcode1 = SIG_FAULT(info, ctxt); gp->sigpc = SIG_PC(info, ctxt); // We arrange lr, and pc to pretend the panicking // function calls sigpanic directly. // Always save LR to stack so that panics in leaf // functions are correctly handled. This smashes // the stack frame but we're not going back there // anyway. SIG_SP(info, ctxt) -= 4; *(uint32*)SIG_SP(info, ctxt) = SIG_LR(info, ctxt); // Don't bother saving PC if it's zero, which is // probably a call to a nil func: the old link register // is more useful in the stack trace. if(gp->sigpc != 0) SIG_LR(info, ctxt) = gp->sigpc; // In case we are panicking from external C code SIG_R10(info, ctxt) = (uintptr)gp; SIG_R9(info, ctxt) = (uintptr)m; SIG_PC(info, ctxt) = (uintptr)runtime·sigpanic; return; } if(SIG_CODE0(info, ctxt) == SI_USER || (t->flags & SigNotify)) if(runtime·sigsend(sig)) return; if(t->flags & SigKill) runtime·exit(2); if(!(t->flags & SigThrow)) return; Throw: m->throwing = 1; m->caughtsig = gp; 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", SIG_PC(info, ctxt)); if(m->lockedg != nil && m->ncgo > 0 && gp == m->g0) { runtime·printf("signal arrived during cgo execution\n"); gp = m->lockedg; } runtime·printf("\n"); if(runtime·gotraceback(&crash)){ runtime·traceback(SIG_PC(info, ctxt), SIG_SP(info, ctxt), SIG_LR(info, ctxt), gp); runtime·tracebackothers(gp); runtime·printf("\n"); runtime·dumpregs(info, ctxt); } if(crash) runtime·crash(); runtime·exit(2); }