ref: d916a4c3823f55227ffae35738c2497256e307b5
dir: /os/mpc/trap.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "ureg.h" #include "io.h" #include "../port/error.h" enum { Maxhandler= MaxVector /* max number of interrupt handlers */ }; typedef struct Handler Handler; struct Handler { void (*r)(Ureg*, void*); void *arg; char name[KNAMELEN]; Handler *next; ulong nintr; ulong ticks; int maxtick; }; struct { Handler *ivec[MaxVector]; Handler h[Maxhandler]; int free; Handler* freelist; } halloc; Instr BREAK = 0x7fe00008; int (*breakhandler)(Ureg*, Proc*); void kernfault(Ureg*, int); char *excname[] = { "reserved 0", "system reset", "machine check", "data access", "instruction access", "external interrupt", "alignment", "program exception", "floating-point unavailable", "decrementer", "i/o controller interface error", "reserved B", "system call", "trace trap", "floating point assist", "reserved F", "software emulation", "ITLB miss", "DTLB miss", "ITLB error", "DTLB error", "reserved 15", "reserved 16", "reserved 17", "reserved 18", "reserved 19", "reserved 1A", "reserved 1B", "data breakpoint", "instruction breakpoint", "peripheral breakpoint", "development port", /* the following are made up on a program exception */ "floating point exception", /* 20: FPEXC */ "illegal instruction", /* 21 */ "privileged instruction", /* 22 */ "trap", /* 23 */ "illegal operation", /* 24 */ "breakpoint", /* 25 */ }; char *fpcause[] = { "inexact operation", "division by zero", "underflow", "overflow", "invalid operation", }; char *fpexcname(Ureg*, ulong, char*); #define FPEXPMASK 0xfff80300 /* Floating exception bits in fpscr */ char *regname[]={ "CAUSE", "SRR1", "PC", "GOK", "LR", "CR", "XER", "CTR", "R0", "R1", "R2", "R3", "R4", "R5", "R6", "R7", "R8", "R9", "R10", "R11", "R12", "R13", "R14", "R15", "R16", "R17", "R18", "R19", "R20", "R21", "R22", "R23", "R24", "R25", "R26", "R27", "R28", "R29", "R30", "R31", }; void sethvec(int v, void (*r)(void)) { ulong *vp, pa, o; vp = (ulong*)KADDR(v); vp[0] = 0x7c1043a6; /* MOVW R0, SPR(SPRG0) */ vp[1] = 0x7c0802a6; /* MOVW LR, R0 */ vp[2] = 0x7c1243a6; /* MOVW R0, SPR(SPRG2) */ pa = PADDR(r); o = pa >> 25; if(o != 0 && o != 0x7F){ /* a branch too far: running from ROM */ vp[3] = (15<<26)|(pa>>16); /* MOVW $r&~0xFFFF, R0 */ vp[4] = (24<<26)|(pa&0xFFFF); /* OR $r&0xFFFF, R0 */ vp[5] = 0x7c0803a6; /* MOVW R0, LR */ vp[6] = 0x4e800021; /* BL (LR) */ }else vp[3] = (18<<26)|(pa&0x3FFFFFC)|3; /* bla */ dcflush(vp, 8*sizeof(ulong)); } void sethvec2(int v, void (*r)(void)) { ulong *vp; vp = (ulong*)KADDR(v); vp[0] = (18<<26)|((ulong)r&~KSEGM)|2; /* ba */ dcflush(vp, sizeof(*vp)); } void trap(Ureg *ur) { int ecode, s; ulong w; char buf[ERRMAX]; ecode = ur->cause >> 8; if(ecode < 0 || ecode >= 0x1F) ecode = 0x1F; switch(ecode){ case CDEC: clockintr(ur); preemption(1); break; case CMCHECK: case CDSI: case CISI: case CIMISS: case CDMISS: case CITLBE: case CDTLBE: faultpower(ur); break; case CEMU: if(up == nil) goto Default; if((ulong)(ur+1) != ur->r1) panic("fp emu stack"); spllo(); if(waserror()){ if(up->type == Interp) disfault(ur, up->env->errstr); panic("%s", up->env->errstr); } if(fpipower(ur) == 0){ splhi(); poperror(); print("pc=#%lux op=#%8.8lux\n", ur->pc, *(ulong*)ur->pc); goto Default; } poperror(); break; case CPROG: if(ur->status & (1<<19)) { ecode = 0x20; w = ur->pc; if(ur->status & (1<<16)) w += 4; if(*(ulong*)w == 0x7fe00008){ /* tw 31,0,0 */ if(breakhandler){ s = (*breakhandler)(ur, up); if(s == BrkSched){ if(up){ up->preempted = 0; sched(); splhi(); } }else if(s == BrkNoSched){ if(up){ up->preempted = 1; /* stop it being preempted until next instruction */ up->dbgreg = 0; } } break; } ecode = 0x1D; /* breakpoint */ } } if(ur->status & (1<<18)) ecode = 0x21; if(ur->status & (1<<17)) ecode = 0x22; /* FALL THROUGH */ Default: default: if(up && up->type == Interp) { spllo(); snprint(buf, sizeof buf, "sys: trap: %s pc=0x%lux", excname[ecode], ur->pc); error(buf); break; } print("kernel %s pc=0x%lux\n", excname[ecode], ur->pc); dumpregs(ur); dumpstack(); if(m->machno == 0) spllo(); exit(1); } splhi(); } void spurious(Ureg *ur, void *a) { USED(a); print("SPURIOUS interrupt pc=0x%lux cause=0x%lux\n", ur->pc, ur->cause); panic("bad interrupt"); } #define LEV(n) (((n)<<1)|1) #define IRQ(n) (((n)<<1)|0) Lock veclock; void trapinit(void) { int i; IMM *io; io = m->iomem; io->simask = 0; /* mask all */ io->siel = ~0; /* edge sensitive, wake on all */ io->cicr = 0; /* disable CPM interrupts */ io->cipr = ~0; /* clear all interrupts */ io->cimr = 0; /* mask all events */ io->cicr = (0xE1<<16)|(CPIClevel<<13)|(0x1F<<8); io->cicr |= 1 << 7; /* enable */ io->tbscrk = KEEP_ALIVE_KEY; io->tbscr = 1; /* TBE */ io->simask |= 1<<(31-LEV(CPIClevel)); /* CPM's level */ io->tbk = KEEP_ALIVE_KEY; eieio(); putdec(~0); /* * set all exceptions to trap */ for(i = 0x0; i < 0x3000; i += 0x100) sethvec(i, trapvec); sethvec(CEI<<8, intrvec); //sethvec2(CIMISS<<8, itlbmiss); //sethvec2(CDMISS<<8, dtlbmiss); } void intrenable(int v, void (*r)(Ureg*, void*), void *arg, int, char *name) { Handler *h; IMM *io; v -= VectorPIC; if(v < 0 || v >= nelem(halloc.ivec)) panic("intrenable(%d)", v+VectorPIC); ilock(&veclock); if((h = halloc.freelist) == nil){ if(halloc.free >= Maxhandler){ iunlock(&veclock); panic("out of interrupt handlers"); } h = &halloc.h[halloc.free++]; }else halloc.freelist = h->next; h->r = r; h->arg = arg; strncpy(h->name, name, KNAMELEN-1); h->name[KNAMELEN-1] = 0; h->next = halloc.ivec[v]; halloc.ivec[v] = h; /* * enable corresponding interrupt in SIU/CPM */ eieio(); io = m->iomem; if(v >= VectorCPIC){ v -= VectorCPIC; io->cimr |= 1<<(v&0x1F); } else if(v >= VectorIRQ) io->simask |= 1<<(31-IRQ(v&7)); else io->simask |= 1<<(31-LEV(v)); eieio(); iunlock(&veclock); } static void irqdisable(int v) { IMM *io; io = m->iomem; if(v >= VectorCPIC){ v -= VectorCPIC; io->cimr &= ~(1<<(v&0x1F)); } else if(v >= VectorIRQ) io->simask &= ~(1<<(31-IRQ(v&7))); else io->simask &= ~(1<<(31-LEV(v))); } void intrdisable(int v, void (*r)(Ureg*, void*), void *arg, int, char *name) { Handler *h, **hp; v -= VectorPIC; if(v < 0 || v >= nelem(halloc.ivec)) panic("intrenable(%d)", v+VectorPIC); ilock(&veclock); for(hp = &halloc.ivec[v]; (h = *hp) != nil; hp = &h->next) if(h->r == r && h->arg == arg && strcmp(h->name, name) == 0){ *hp = h->next; h->next = halloc.freelist; halloc.freelist = h; break; } if(halloc.ivec[v] == nil) irqdisable(v); iunlock(&veclock); } /* * called directly by l.s:/intrvec. on a multiprocessor we'd need to lock veclock. */ void intr(Ureg *ur) { int b, v; IMM *io; Handler *h; long t0; Proc *oup; ur->cause &= ~0xff; io = m->iomem; b = io->sivec>>2; v = b>>1; if(b & 1) { if(v == CPIClevel){ io->civr = 1; eieio(); v = VectorCPIC+(io->civr>>11); } }else{ v += VectorIRQ; if(io->siel & (1<<(31-b))){ io->sipend |= 1<<(31-b); eieio(); } } ur->cause |= v; h = halloc.ivec[v]; if(h == nil){ iprint("unknown interrupt %d pc=0x%lux\n", v, ur->pc); irqdisable(v); return; } /* * call the interrupt handlers */ oup = up; up = nil; /* no process at interrupt level */ do { h->nintr++; t0 = getdec(); (*h->r)(ur, h->arg); t0 -= getdec(); h->ticks += t0; if(h->maxtick < t0) h->maxtick = t0; h = h->next; } while(h != nil); if(v >= VectorCPIC) io->cisr |= 1<<(v-VectorCPIC); eieio(); up = oup; preemption(0); } int intrstats(char *buf, int bsize) { Handler *h; int i, n; n = 0; for(i=0; i<nelem(halloc.ivec) && n < bsize; i++) if((h = halloc.ivec[i]) != nil && h->nintr) n += snprint(buf+n, bsize-n, "%3d %lud %lud %ud\n", i, h->nintr, h->ticks, h->maxtick); return n; } char* fpexcname(Ureg *ur, ulong fpscr, char *buf) { int i; char *s; ulong fppc; fppc = ur->pc; s = 0; fpscr >>= 3; /* trap enable bits */ fpscr &= (fpscr>>22); /* anded with exceptions */ for(i=0; i<5; i++) if(fpscr & (1<<i)) s = fpcause[i]; if(s == 0) return "no floating point exception"; sprint(buf, "%s fppc=0x%lux", s, fppc); return buf; } #define KERNPC(x) (KTZERO<(ulong)(x)&&(ulong)(x)<(ulong)etext) void kernfault(Ureg *ur, int code) { Label l; print("panic: kfault %s dar=0x%lux\n", excname[code], getdar()); print("u=0x%lux status=0x%lux pc=0x%lux sp=0x%lux\n", up, ur->status, ur->pc, ur->sp); dumpregs(ur); l.sp = ur->sp; l.pc = ur->pc; dumpstack(); setpri(PriBackground); /* Let the debugger in */ for(;;) sched(); } void dumpstack(void) { ulong l, v; int i; if(up == 0) return; i = 0; for(l=(ulong)&l; l<(ulong)(up->kstack+KSTACK); l+=4){ v = *(ulong*)l; if(KTZERO < v && v < (ulong)etext){ print("%lux=%lux, ", l, v); if(i++ == 4){ print("\n"); i = 0; } } } } void dumpregs(Ureg *ur) { int i; ulong *l; if(up) { print("registers for %s %ld\n", up->text, up->pid); if(ur->usp < (ulong)up->kstack || ur->usp > (ulong)up->kstack+KSTACK) print("invalid stack ptr\n"); } else print("registers for kernel\n"); l = &ur->cause; for(i=0; i<sizeof regname/sizeof(char*); i+=2, l+=2) print("%s\t%.8lux\t%s\t%.8lux\n", regname[i], l[0], regname[i+1], l[1]); } static void linkproc(void) { spllo(); (*up->kpfun)(up->arg); pexit("", 0); } void kprocchild(Proc *p, void (*func)(void*), void *arg) { p->sched.pc = (ulong)linkproc; p->sched.sp = (ulong)p->kstack+KSTACK; p->kpfun = func; p->arg = arg; } void setpanic(void) { consoleprint = 1; } void dumplongs(char*, ulong*, int) { }