ref: e4191b8d11ae31efe758abfa5b48bf0b99c912a4
dir: /sys/src/9/mt7688/trap.c/
/* * traps, exceptions, faults and interrupts on ar7161 */ #include "u.h" #include "tos.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "ureg.h" #include "io.h" #include "../port/error.h" int intr(Ureg*); void kernfault(Ureg*, int); void noted(Ureg*, ulong); void rfnote(Ureg**); char *excname[] = { "trap: external interrupt", "trap: TLB modification (store to unwritable)", "trap: TLB miss (load or fetch)", "trap: TLB miss (store)", "trap: address error (load or fetch)", "trap: address error (store)", "trap: bus error (fetch)", "trap: bus error (data load or store)", "trap: system call", "breakpoint", "trap: reserved instruction", "trap: coprocessor unusable", "trap: arithmetic overflow", "trap: TRAP exception", "trap: VCE (instruction)", "trap: floating-point exception", "trap: coprocessor 2 implementation-specific", /* used as sys call for debugger */ "trap: corextend unusable", "trap: precise coprocessor 2 exception", "trap: TLB read-inhibit", "trap: TLB execute-inhibit", "trap: undefined 21", "trap: undefined 22", "trap: WATCH exception", "trap: machine checkcore", "trap: undefined 25", "trap: undefined 26", "trap: undefined 27", "trap: undefined 28", "trap: undefined 29", "trap: cache error", "trap: VCE (data)", }; char *fpcause[] = { "inexact operation", "underflow", "overflow", "division by zero", "invalid operation", }; char *fpexcname(Ureg*, ulong, char*, uint); #define FPEXPMASK (0x3f<<12) /* Floating exception bits in fcr31 */ struct { char *name; uint off; } regname[] = { "STATUS", offsetof(Ureg, status), "PC", offsetof(Ureg, pc), "SP", offsetof(Ureg, sp), "CAUSE",offsetof(Ureg, cause), "BADADDR", offsetof(Ureg, badvaddr), "TLBVIRT", offsetof(Ureg, tlbvirt), "HI", offsetof(Ureg, hi), "LO", offsetof(Ureg, lo), "R31", offsetof(Ureg, r31), "R30", offsetof(Ureg, r30), "R28", offsetof(Ureg, r28), "R27", offsetof(Ureg, r27), "R26", offsetof(Ureg, r26), "R25", offsetof(Ureg, r25), "R24", offsetof(Ureg, r24), "R23", offsetof(Ureg, r23), "R22", offsetof(Ureg, r22), "R21", offsetof(Ureg, r21), "R20", offsetof(Ureg, r20), "R19", offsetof(Ureg, r19), "R18", offsetof(Ureg, r18), "R17", offsetof(Ureg, r17), "R16", offsetof(Ureg, r16), "R15", offsetof(Ureg, r15), "R14", offsetof(Ureg, r14), "R13", offsetof(Ureg, r13), "R12", offsetof(Ureg, r12), "R11", offsetof(Ureg, r11), "R10", offsetof(Ureg, r10), "R9", offsetof(Ureg, r9), "R8", offsetof(Ureg, r8), "R7", offsetof(Ureg, r7), "R6", offsetof(Ureg, r6), "R5", offsetof(Ureg, r5), "R4", offsetof(Ureg, r4), "R3", offsetof(Ureg, r3), "R2", offsetof(Ureg, r2), "R1", offsetof(Ureg, r1), }; void kvce(Ureg *ur, int ecode) { char c; Pte **p; Page **pg; Segment *s; ulong addr, soff; c = 'D'; if(ecode == CVCEI) c = 'I'; print("Trap: VCE%c: addr=%#lux\n", c, ur->badvaddr); if(up && !(ur->badvaddr & KSEGM)) { addr = ur->badvaddr; s = seg(up, addr, 0); if(s == nil){ print("kvce: no seg for %#lux\n", addr); for(;;); } addr &= ~(BY2PG-1); soff = addr - s->base; p = &s->map[soff/PTEMAPMEM]; if(*p){ pg = &(*p)->pages[(soff&(PTEMAPMEM-1))/BY2PG]; if(*pg) print("kvce: pa=%#lux, va=%#lux\n", (*pg)->pa, (*pg)->va); else print("kvce: no *pg\n"); }else print("kvce: no *p\n"); } } void trap(Ureg *ur) { int ecode, clockintr, user, cop, x, fpchk; ulong fpfcr31; char buf[2*ERRMAX], buf1[ERRMAX], *fpexcep; static int dumps; if (up && (char *)(ur) - ((char *)up - KSTACK) < 1024 && dumps++ == 0) { iprint("trap: proc %ld kernel stack getting full\n", up->pid); dumpregs(ur); dumpstack(); for(;;); } if (up == nil && (char *)(ur) - (char *)m->stack < 1024 && dumps++ == 0) { iprint("trap: cpu%d kernel stack getting full\n", m->machno); dumpregs(ur); dumpstack(); for(;;); } user = kenter(ur); if (ur->cause & TS) panic("trap: tlb shutdown"); ecode = (ur->cause>>2)&EXCMASK; fpchk = 0; clockintr = 0; switch(ecode){ case CINT: clockintr = intr(ur); break; case CFPE: panic("FP exception but no FPU"); /* no fpu on 24KEc */ break; case CTLBM: case CTLBL: case CTLBS: if(up == nil || !user && (ur->badvaddr & KSEGM) == KSEG3) { kfault(ur); break; } x = up->insyscall; up->insyscall = 1; spllo(); faultmips(ur, user, ecode); up->insyscall = x; break; case CVCEI: case CVCED: kvce(ur, ecode); goto Default; case CWATCH: if(!user) panic("watchpoint trap from kernel mode pc=%#p", ur->pc); fpwatch(ur); break; case CCPU: cop = (ur->cause>>28)&3; if(user && up && cop == 1) { if(up->fpstate & FPillegal) { /* someone used floating point in a note handler */ postnote(up, 1, "sys: floating point in note handler", NDebug); break; } /* no fpu, so we can only emulate fp ins'ns */ if (fpuemu(ur) < 0) postnote(up, 1, "sys: fp instruction not emulated", NDebug); else fpchk = 1; break; } /* Fallthrough */ Default: default: if(user) { spllo(); snprint(buf, sizeof buf, "sys: %s", excname[ecode]); postnote(up, 1, buf, NDebug); break; } if (ecode == CADREL || ecode == CADRES) iprint("kernel addr exception for va %#p pid %#ld %s\n", ur->badvaddr, (up? up->pid: 0), (up? up->text: "")); print("cpu%d: kernel %s pc=%#lux\n", m->machno, excname[ecode], ur->pc); dumpregs(ur); dumpstack(); if(m->machno == 0) spllo(); exit(1); } if(fpchk) { fpfcr31 = up->fpsave->fpstatus; if((fpfcr31>>12) & ((fpfcr31>>7)|0x20) & 0x3f) { spllo(); fpexcep = fpexcname(ur, fpfcr31, buf1, sizeof buf1); snprint(buf, sizeof buf, "sys: fp: %s", fpexcep); postnote(up, 1, buf, NDebug); } } splhi(); /* delaysched set because we held a lock or because our quantum ended */ if(up && up->delaysched && clockintr){ sched(); splhi(); } if(user){ notify(ur); /* replicate fpstate to ureg status */ // if(up->fpstate != FPactive) // ur->status &= ~CU1; kexit(ur); } } char* fpexcname(Ureg *ur, ulong fcr31, char *buf, uint size) { int i; char *s; ulong fppc; fppc = ur->pc; if(ur->cause & BD) /* branch delay */ fppc += 4; s = 0; if(fcr31 & (1<<17)) s = "unimplemented operation"; else{ fcr31 >>= 7; /* trap enable bits */ fcr31 &= (fcr31>>5); /* anded with exceptions */ for(i=0; i<5; i++) if(fcr31 & (1<<i)) s = fpcause[i]; } if(s == 0) return "no floating point exception"; snprint(buf, size, "%s fppc=%#lux", s, fppc); return buf; } static void getpcsp(ulong *pc, ulong *sp) { *pc = getcallerpc(&pc); *sp = (ulong)&pc-4; } void callwithureg(void (*fn)(Ureg*)) { Ureg ureg; memset(&ureg, 0, sizeof ureg); getpcsp((ulong*)&ureg.pc, (ulong*)&ureg.sp); ureg.r31 = getcallerpc(&fn); fn(&ureg); } static void _dumpstack(Ureg *ureg) { ulong l, v, top, i; extern ulong etext; iprint("ktrace /kernel/path %.8lux %.8lux %.8lux\n", ureg->pc, ureg->sp, ureg->r31); if(up == nil) top = (ulong)MACHADDR + MACHSIZE; else top = (ulong)up; i = 0; for(l=ureg->sp; l < top; l += BY2WD) { v = *(ulong*)l; if(KTZERO < v && v < (ulong)&etext) { iprint("%.8lux=%.8lux ", l, v); if((++i%4) == 0){ print("\n"); delay(200); } } } print("\n"); } void dumpstack(void) { callwithureg(_dumpstack); } static ulong R(Ureg *ur, int i) { uchar *s; s = (uchar*)ur; return *(ulong*)(s + regname[i].off); } void dumpregs(Ureg *ur) { int i; if(up) iprint("registers for %s %lud\n", up->text, up->pid); else iprint("registers for kernel\n"); for(i = 0; i < nelem(regname); i += 2) iprint("%s\t%#.8lux\t%s\t%#.8lux\n", regname[i].name, R(ur, i), regname[i+1].name, R(ur, i+1)); }