ref: 1a55b8d1f0253b4d39b1972978b469a352f0f94b
dir: /sys/src/9/port/fault.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" static void faulterror(char *s, Chan *c) { char buf[ERRMAX]; if(c != nil) snprint(buf, sizeof buf, "sys: %s accessing %s: %s", s, chanpath(c), up->errstr); else snprint(buf, sizeof buf, "sys: %s", s); if(up->nerrlab) { if(up->kp == 0) postnote(up, 1, buf, NDebug); error(s); } pprint("suicide: %s\n", buf); pexit(s, 1); } static void pio(Segment *s, uintptr addr, uintptr soff, Page **p) { Page *new; KMap *k; Chan *c; int n, ask; char *kaddr; uintptr daddr; Page *loadrec; retry: loadrec = *p; if(loadrec == nil) { /* from a text/data image */ daddr = s->fstart+soff; new = lookpage(s->image, daddr); if(new != nil) { *p = new; return; } c = s->image->c; ask = BY2PG; if(soff >= s->flen) ask = 0; else if((soff+ask) > s->flen) ask = s->flen-soff; } else { /* from a swap image */ daddr = swapaddr(loadrec); new = lookpage(&swapimage, daddr); if(new != nil) { putswap(loadrec); *p = new; return; } c = swapimage.c; ask = BY2PG; } qunlock(s); new = newpage(0, 0, addr); k = kmap(new); kaddr = (char*)VA(k); while(waserror()) { if(strcmp(up->errstr, Eintr) == 0) continue; kunmap(k); putpage(new); faulterror(Eioload, c); } n = devtab[c->type]->read(c, kaddr, ask, daddr); if(n != ask) error(Eshort); if(ask < BY2PG) memset(kaddr+ask, 0, BY2PG-ask); poperror(); kunmap(k); qlock(s); if(loadrec == nil) { /* This is demand load */ /* * race, another proc may have gotten here first while * s was unlocked */ if(*p == nil) { /* * check page cache again after i/o to reduce double caching */ *p = lookpage(s->image, daddr); if(*p == nil) { incref(new); new->daddr = daddr; cachepage(new, s->image); *p = new; } } } else { /* This is paged out */ /* * race, another proc may have gotten here first * (and the pager may have run on that page) while * s was unlocked */ if(*p != loadrec) { if(!pagedout(*p)) { /* another process did it for me */ goto done; } else if(*p != nil) { /* another process and the pager got in */ putpage(new); goto retry; } else { /* another process segfreed the page */ incref(new); k = kmap(new); memset((void*)VA(k), 0, ask); kunmap(k); *p = new; goto done; } } incref(new); new->daddr = daddr; cachepage(new, &swapimage); *p = new; putswap(loadrec); } done: putpage(new); if(s->flushme) (*p)->txtflush = ~0; } static int fixfault(Segment *s, uintptr addr, int read) { int type; Pte **pte, *etp; uintptr soff, mmuphys; Page **pg, *old, *new; addr &= ~(BY2PG-1); soff = addr-s->base; pte = &s->map[soff/PTEMAPMEM]; if((etp = *pte) == nil) *pte = etp = ptealloc(); pg = &etp->pages[(soff&(PTEMAPMEM-1))/BY2PG]; if(pg < etp->first) etp->first = pg; if(pg > etp->last) etp->last = pg; type = s->type & SG_TYPE; switch(type) { default: panic("fault"); return -1; case SG_TEXT: /* Demand load */ if(pagedout(*pg)) pio(s, addr, soff, pg); mmuphys = PPN((*pg)->pa) | PTERONLY|PTEVALID; (*pg)->modref = PG_REF; break; case SG_BSS: case SG_SHARED: /* Zero fill on demand */ case SG_STACK: if(*pg == nil) { new = newpage(1, &s, addr); if(s == nil) return -1; *pg = new; } /* wet floor */ case SG_DATA: /* Demand load/pagein/copy on write */ if(pagedout(*pg)) pio(s, addr, soff, pg); /* * It's only possible to copy on write if * we're the only user of the segment. */ if(read && conf.copymode == 0 && s->ref == 1) { mmuphys = PPN((*pg)->pa)|PTERONLY|PTEVALID; (*pg)->modref |= PG_REF; break; } old = *pg; if(old->image == &swapimage && (old->ref + swapcount(old->daddr)) == 1) uncachepage(old); if(old->ref > 1 || old->image != nil) { new = newpage(0, &s, addr); if(s == nil) return -1; if(s->flushme) new->txtflush = ~0; *pg = new; copypage(old, *pg); putpage(old); } /* wet floor */ case SG_STICKY: /* Never paged out */ mmuphys = PPN((*pg)->pa) | PTEWRITE | PTEVALID; (*pg)->modref = PG_MOD|PG_REF; break; case SG_FIXED: /* Never paged out */ mmuphys = PPN((*pg)->pa) | PTEWRITE | PTEUNCACHED | PTEVALID; (*pg)->modref = PG_MOD|PG_REF; break; } qunlock(s); putmmu(addr, mmuphys, *pg); return 0; } static void mapphys(Segment *s, uintptr addr, int attr) { uintptr mmuphys; Page pg = {0}; addr &= ~(BY2PG-1); pg.ref = 1; pg.va = addr; pg.pa = s->pseg->pa+(addr-s->base); mmuphys = PPN(pg.pa) | PTEVALID; if((attr & SG_RONLY) == 0) mmuphys |= PTEWRITE; if((attr & SG_CACHED) == 0) mmuphys |= PTEUNCACHED; qunlock(s); putmmu(addr, mmuphys, &pg); } int fault(uintptr addr, int read) { Segment *s; char *sps; int pnd, attr; if(up == nil) panic("fault: nil up"); if(up->nlocks){ Lock *l = up->lastlock; print("fault: nlocks %d, proc %lud %s, addr %#p, lock %#p, lpc %#p\n", up->nlocks, up->pid, up->text, addr, l, l ? l->pc : 0); } pnd = up->notepending; sps = up->psstate; up->psstate = "Fault"; m->pfault++; for(;;) { spllo(); s = seg(up, addr, 1); /* leaves s locked if seg != nil */ if(s == nil) { up->psstate = sps; return -1; } attr = s->type; if((attr & SG_TYPE) == SG_PHYSICAL) attr |= s->pseg->attr; if((attr & SG_FAULT) != 0 || !read && (attr & SG_RONLY) != 0) { qunlock(s); up->psstate = sps; if(up->kp && up->nerrlab) /* for segio */ error(Eio); return -1; } if((attr & SG_TYPE) == SG_PHYSICAL){ mapphys(s, addr, attr); break; } if(fixfault(s, addr, read) == 0) break; splhi(); switch(up->procctl){ case Proc_exitme: case Proc_exitbig: procctl(); } } up->psstate = sps; up->notepending |= pnd; return 0; } /* * Called only in a system call */ int okaddr(uintptr addr, ulong len, int write) { Segment *s; if((long)len >= 0 && len <= -addr) { for(;;) { s = seg(up, addr, 0); if(s == nil || (write && (s->type&SG_RONLY))) break; if(addr+len > s->top) { len -= s->top - addr; addr = s->top; continue; } return 1; } } return 0; } void validaddr(uintptr addr, ulong len, int write) { if(!okaddr(addr, len, write)){ pprint("suicide: invalid address %#p/%lud in sys call pc=%#p\n", addr, len, userpc()); postnote(up, 1, "sys: bad address in syscall", NDebug); error(Ebadarg); } } /* * &s[0] is known to be a valid address. */ void* vmemchr(void *s, int c, ulong n) { uintptr a; ulong m; void *t; a = (uintptr)s; for(;;){ m = BY2PG - (a & (BY2PG-1)); if(n <= m) break; /* spans pages; handle this page */ t = memchr((void*)a, c, m); if(t != nil) return t; a += m; n -= m; if(a < KZERO) validaddr(a, 1, 0); } /* fits in one page */ return memchr((void*)a, c, n); } Segment* seg(Proc *p, uintptr addr, int dolock) { Segment **s, **et, *n; et = &p->seg[NSEG]; for(s = p->seg; s < et; s++) { if((n = *s) == nil) continue; if(addr >= n->base && addr < n->top) { if(dolock == 0) return n; qlock(n); if(addr >= n->base && addr < n->top) return n; qunlock(n); } } return nil; } extern void checkmmu(uintptr, uintptr); void checkpages(void) { uintptr addr, off; Pte *p; Page *pg; Segment **sp, **ep, *s; if(up == nil) return; for(sp=up->seg, ep=&up->seg[NSEG]; sp<ep; sp++){ if((s = *sp) == nil) continue; qlock(s); for(addr=s->base; addr<s->top; addr+=BY2PG){ off = addr - s->base; if((p = s->map[off/PTEMAPMEM]) == nil) continue; pg = p->pages[(off&(PTEMAPMEM-1))/BY2PG]; if(pagedout(pg)) continue; checkmmu(addr, pg->pa); } qunlock(s); } }