ref: fb7dd4b3a868cb8987049c95bb32e6425a73c8b9
dir: /os/sa1110/trap.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "../port/error.h" #define waslo(sr) (!((sr) & (PsrDirq|PsrDfiq))) typedef struct Handler Handler; struct Handler { void (*r)(Ureg*, void*); void *a; int v; char name[KNAMELEN]; Handler *next; }; enum { MinGpioIRQbit = 11, NumGpioIRQbits = MaxGPIObit-MinGpioIRQbit+1, GpioIRQmask = ((1<<NumGpioIRQbits)-1)<<MinGpioIRQbit, }; static Handler irqvec[MaxIRQbit+1]; static Handler gpiovec[NumGpioIRQbits]; static Lock veclock; Instr BREAK = 0xE6BAD010; int (*breakhandler)(Ureg*, Proc*); int (*catchdbg)(Ureg *, uint); void (*idle)(void); void (*suspendcode)(void); extern void (*serwrite)(char *, int); /* * Interrupt sources not masked by splhi(): special * interrupt handlers (eg, profiler or watchdog), not allowed * to share regular kernel data structures. All interrupts are * masked by splfhi(), which should only be used sparingly. * splflo enables FIQ but no others. */ enum { IRQ_NONMASK = (1 << OSTimerbit(3)) | (1 << OSTimerbit(2)), }; void intrenable(int v, void (*f)(Ureg*, void*), void* a, int tbdf, char *name) { int x; GpioReg *g; Handler *ie; ilock(&veclock); switch(tbdf) { case BusGPIOfalling: case BusGPIOrising: case BusGPIOboth: if(v < 0 || v > MaxGPIObit) panic("intrenable: gpio source %d out of range", v); g = GPIOREG; switch(tbdf){ case BusGPIOfalling: g->gfer |= 1<<v; g->grer &= ~(1<<v); break; case BusGPIOrising: g->grer |= 1<<v; g->gfer &= ~(1<<v); break; case BusGPIOboth: g->grer |= 1<<v; g->gfer |= 1<<v; break; } g->gpdr &= ~(1<<v); if(v >= MinGpioIRQbit) { ie = &gpiovec[v-MinGpioIRQbit]; if(ie->r != nil) iprint("duplicate gpio irq: %d (%s)\n", v, ie->name); ie->r = f; ie->a = a; strncpy(ie->name, name, KNAMELEN-1); ie->name[KNAMELEN-1] = 0; iunlock(&veclock); return; } /*FALLTHROUGH for GPIO sources 0-10 */ case BUSUNKNOWN: case BusCPU: if(v < 0 || v > MaxIRQbit) panic("intrenable: irq source %d out of range", v); ie = &irqvec[v]; if(ie->r != nil) iprint("duplicate irq: %d (%s)\n", v, ie->name); ie->r = f; ie->a = a; strncpy(ie->name, name, KNAMELEN-1); ie->name[KNAMELEN-1] = 0; x = splfhi(); /* Enable the interrupt by setting the mask bit */ INTRREG->icmr |= 1 << v; splx(x); break; default: panic("intrenable: unknown irq bus %d", tbdf); } iunlock(&veclock); } void intrdisable(int v, void (*f)(Ureg*, void*), void* a, int tbdf, char *name) { int x; GpioReg *g; Handler *ie; ilock(&veclock); switch(tbdf) { case BusGPIOfalling: case BusGPIOrising: case BusGPIOboth: if(v < 0 || v > MaxGPIObit) panic("intrdisable: gpio source %d out of range", v); if(v >= MinGpioIRQbit) ie = &gpiovec[v-MinGpioIRQbit]; else ie = &irqvec[v]; if(ie->r != f || ie->a != a || strcmp(ie->name, name) != 0) break; ie->r = nil; if(v < MinGpioIRQbit){ x = splfhi(); INTRREG->icmr &= ~(1<<v); splx(x); } g = GPIOREG; switch(tbdf){ case BusGPIOfalling: g->gfer &= ~(1<<v); break; case BusGPIOrising: g->grer &= ~(1<<v); break; case BusGPIOboth: g->grer &= ~(1<<v); g->gfer &= ~(1<<v); break; } break; case BUSUNKNOWN: case BusCPU: if(v < 0 || v > MaxIRQbit) panic("intrdisable: irq source %d out of range", v); ie = &irqvec[v]; if(ie->r != f || ie->a != a || strcmp(ie->name, name) != 0) break; ie->r = nil; x = splfhi(); INTRREG->icmr &= ~(1<<v); splx(x); break; default: panic("intrdisable: unknown irq bus %d", tbdf); } iunlock(&veclock); } static void gpiointr(Ureg *ur, void*) { Handler *cur; ulong e; int i; e = GPIOREG->gedr & GpioIRQmask; GPIOREG->gedr = e; for(i = MinGpioIRQbit; i <= MaxGPIObit && e != 0; i++){ if(e & (1<<i)){ cur = &gpiovec[i-MinGpioIRQbit]; if(cur->r != nil){ cur->r(ur, cur->a); e &= ~(1<<i); } } } if(e != 0){ GPIOREG->gfer &= ~e; GPIOREG->grer &= ~e; iprint("spurious GPIO interrupt: %8.8lux\n", e); } } static void intrs(Ureg *ur, ulong ibits) { Handler *cur; int i, s; for(i=0; i<nelem(irqvec) && ibits; i++) if(ibits & (1<<i)){ cur = &irqvec[i]; if(cur->r != nil){ cur->r(ur, cur->a); ibits &= ~(1<<i); } } if(ibits != 0){ iprint("spurious irq interrupt: %8.8lux\n", ibits); s = splfhi(); INTRREG->icmr &= ~ibits; splx(s); } } /* * initialise R13 in each trap mode, at the start and after suspend reset. */ void trapstacks(void) { setr13(PsrMfiq, m->fiqstack+nelem(m->fiqstack)); setr13(PsrMirq, m->irqstack+nelem(m->irqstack)); setr13(PsrMabt, m->abtstack+nelem(m->abtstack)); setr13(PsrMund, m->undstack+nelem(m->undstack)); } void trapinit(void) { int v; IntrReg *intr = INTRREG; intr->icmr = 0; intr->iclr = IRQ_NONMASK; trapstacks(); for(v = 0; v < nelem(irqvec); v++) { irqvec[v].r = nil; irqvec[v].a = nil; irqvec[v].v = v; } for(v = 0; v < nelem(gpiovec); v++) { gpiovec[v].r = nil; gpiovec[v].a = nil; gpiovec[v].v = v+MinGpioIRQbit; } memmove(page0->vectors, vectors, sizeof(page0->vectors)); memmove(page0->vtable, vtable, sizeof(page0->vtable)); dcflush(page0, sizeof(*page0)); idle = xspanalloc(13*sizeof(ulong), CACHELINESZ, 0); memmove(idle, _idlemode, 13*sizeof(ulong)); dcflush(idle, 13*sizeof(ulong)); suspendcode = xspanalloc(16*sizeof(ulong), CACHELINESZ, 0); memmove(suspendcode, _suspendcode, 16*sizeof(ulong)); dcflush(suspendcode, 8*sizeof(ulong)); icflushall(); intrenable(MinGpioIRQbit, gpiointr, nil, BusCPU, "gpio"); } static char *trapnames[PsrMask+1] = { [ PsrMfiq ] "Fiq interrupt", [ PsrMirq ] "Mirq interrupt", [ PsrMsvc ] "SVC/SWI Exception", [ PsrMabt ] "Prefetch Abort/Data Abort", [ PsrMabt+1 ] "Data Abort", [ PsrMund ] "Undefined instruction", [ PsrMsys ] "Sys trap" }; static char * trapname(int psr) { char *s; s = trapnames[psr & PsrMask]; if(s == nil) s = "Undefined trap"; return s; } static void sys_trap_error(int type) { char errbuf[ERRMAX]; sprint(errbuf, "sys: trap: %s\n", trapname(type)); error(errbuf); } static void faultarm(Ureg *ureg, ulong far) { char buf[ERRMAX]; sprint(buf, "sys: trap: fault pc=%8.8lux addr=0x%lux", (ulong)ureg->pc, far); if(0){ iprint("%s\n", buf); dumpregs(ureg); } if(far == ~0) disfault(ureg, "dereference of nil"); disfault(ureg, buf); } /* * All traps come here. It might be slightly slower to have all traps call trap * rather than directly vectoring the handler. * However, this avoids a lot of code duplication and possible bugs. * trap is called splfhi(). */ void trap(Ureg* ureg) { ulong far, fsr; int rem, t, itype; Proc *oup; if(up != nil) rem = ((char*)ureg)-up->kstack; else rem = ((char*)ureg)-(char*)m->stack; if(ureg->type != PsrMfiq && rem < 256) panic("trap %d bytes remaining (%s), up=#%8.8lux ureg=#%8.8lux pc=#%8.8ux", rem, up?up->text:"", up, ureg, ureg->pc); /* * All interrupts/exceptions should be resumed at ureg->pc-4, * except for Data Abort which resumes at ureg->pc-8. */ itype = ureg->type; if(itype == PsrMabt+1) ureg->pc -= 8; else ureg->pc -= 4; ureg->sp = (ulong)(ureg+1); if(itype == PsrMfiq){ /* fast interrupt (eg, profiler) */ oup = up; up = nil; intrs(ureg, INTRREG->icfp); up = oup; return; } /* All other traps */ if(ureg->psr & PsrDfiq) panic("FIQ disabled"); if(up){ up->pc = ureg->pc; up->dbgreg = ureg; } switch(itype) { case PsrMirq: t = m->ticks; /* CPU time per proc */ up = nil; /* no process at interrupt level */ splflo(); /* allow fast interrupts */ intrs(ureg, INTRREG->icip); up = m->proc; preemption(m->ticks - t); break; case PsrMund: /* Undefined instruction */ if(*(ulong*)ureg->pc == BREAK && breakhandler) { int s; Proc *p; p = up; /* if(!waslo(ureg->psr) || ureg->pc >= (ulong)splhi && ureg->pc < (ulong)islo) p = 0; */ s = breakhandler(ureg, p); if(s == BrkSched) { p->preempted = 0; sched(); } else if(s == BrkNoSched) { p->preempted = 1; /* stop it being preempted until next instruction */ if(up) up->dbgreg = 0; return; } break; } if(up == nil) goto faultpanic; spllo(); if(waserror()) { if(waslo(ureg->psr) && up->type == Interp) disfault(ureg, up->env->errstr); setpanic(); dumpregs(ureg); panic("%s", up->env->errstr); } if(!fpiarm(ureg)) { dumpregs(ureg); sys_trap_error(ureg->type); } poperror(); break; case PsrMsvc: /* Jump through 0 or SWI */ if(waslo(ureg->psr) && up && up->type == Interp) { spllo(); dumpregs(ureg); sys_trap_error(ureg->type); } setpanic(); dumpregs(ureg); panic("SVC/SWI exception"); break; case PsrMabt: /* Prefetch abort */ if(catchdbg && catchdbg(ureg, 0)) break; /* FALL THROUGH */ case PsrMabt+1: /* Data abort */ fsr = mmugetfsr(); far = mmugetfar(); if(fsr & (1<<9)) { mmuputfsr(fsr & ~(1<<9)); if(catchdbg && catchdbg(ureg, fsr)) break; print("Debug/"); } if(waslo(ureg->psr) && up && up->type == Interp) { spllo(); faultarm(ureg, far); } print("Data Abort: FSR %8.8luX FAR %8.8luX\n", fsr, far); /* FALL THROUGH */ default: /* ??? */ faultpanic: setpanic(); dumpregs(ureg); panic("exception %uX %s\n", ureg->type, trapname(ureg->type)); break; } splhi(); if(up) up->dbgreg = 0; /* becomes invalid after return from trap */ } void setpanic(void) { if(breakhandler != 0) /* don't mess up debugger */ return; INTRREG->icmr = 0; spllo(); consoleprint = 1; serwrite = uartputs; } int isvalid_wa(void *v) { return (ulong)v >= KZERO && (ulong)v < conf.topofmem && !((ulong)v & 3); } int isvalid_va(void *v) { return (ulong)v >= KZERO && (ulong)v < conf.topofmem; } void dumplongs(char *msg, ulong *v, int n) { int i, l; l = 0; iprint("%s at %.8p: ", msg, v); for(i=0; i<n; i++){ if(l >= 4){ iprint("\n %.8p: ", v); l = 0; } if(isvalid_va(v)){ iprint(" %.8lux", *v++); l++; }else{ iprint(" invalid"); break; } } iprint("\n"); } static void _dumpstack(Ureg *ureg) { ulong *v, *l; ulong inst; ulong *estack; int i; l = (ulong*)(ureg+1); if(!isvalid_wa(l)){ iprint("invalid ureg/stack: %.8p\n", l); return; } print("ktrace /kernel/path %.8ux %.8ux %.8ux\n", ureg->pc, ureg->sp, ureg->r14); if(up != nil && l >= (ulong*)up->kstack && l <= (ulong*)(up->kstack+KSTACK-4)) estack = (ulong*)(up->kstack+KSTACK); else if(l >= (ulong*)m->stack && l <= (ulong*)((ulong)m+BY2PG-4)) estack = (ulong*)((ulong)m+BY2PG-4); else{ iprint("unknown stack\n"); return; } i = 0; for(; l<estack; l++) { if(!isvalid_wa(l)) { iprint("invalid(%8.8p)", l); break; } v = (ulong*)*l; if(isvalid_wa(v)) { inst = v[-1]; if((inst & 0x0ff0f000) == 0x0280f000 && (*(v-2) & 0x0ffff000) == 0x028fe000 || (inst & 0x0f000000) == 0x0b000000) { iprint("%8.8p=%8.8lux ", l, v); i++; } } if(i == 4){ iprint("\n"); i = 0; } } if(i) print("\n"); } void dumpregs(Ureg* ureg) { print("TRAP: %s", trapname(ureg->type)); if((ureg->psr & PsrMask) != PsrMsvc) print(" in %s", trapname(ureg->psr)); print("\n"); print("PSR %8.8uX type %2.2uX PC %8.8uX LINK %8.8uX\n", ureg->psr, ureg->type, ureg->pc, ureg->link); print("R14 %8.8uX R13 %8.8uX R12 %8.8uX R11 %8.8uX R10 %8.8uX\n", ureg->r14, ureg->r13, ureg->r12, ureg->r11, ureg->r10); print("R9 %8.8uX R8 %8.8uX R7 %8.8uX R6 %8.8uX R5 %8.8uX\n", ureg->r9, ureg->r8, ureg->r7, ureg->r6, ureg->r5); print("R4 %8.8uX R3 %8.8uX R2 %8.8uX R1 %8.8uX R0 %8.8uX\n", ureg->r4, ureg->r3, ureg->r2, ureg->r1, ureg->r0); print("Stack is at: %8.8luX\n", ureg); print("PC %8.8lux LINK %8.8lux\n", (ulong)ureg->pc, (ulong)ureg->link); if(up) print("Process stack: %8.8lux-%8.8lux\n", up->kstack, up->kstack+KSTACK-4); else print("System stack: %8.8lux-%8.8lux\n", (ulong)(m+1), (ulong)m+BY2PG-4); dumplongs("stack", (ulong *)(ureg + 1), 16); _dumpstack(ureg); } /* * Fill in enough of Ureg to get a stack trace, and call a function. * Used by debugging interface rdb. */ void callwithureg(void (*fn)(Ureg*)) { Ureg ureg; ureg.pc = getcallerpc(&fn); ureg.sp = (ulong)&fn; ureg.r14 = 0; fn(&ureg); } void dumpstack(void) { callwithureg(_dumpstack); } void trapspecial(int (*f)(Ureg *, uint)) { catchdbg = f; }