ref: 5ef10e16427a4312f9a19a4710dbdbe32fb88963
dir: /sys/src/9/port/page.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" Palloc palloc; void pageinit(void) { int color, i, j; Page *p; Pallocmem *pm; vlong m, v, u; if(palloc.pages == nil){ ulong np; np = 0; for(i=0; i<nelem(palloc.mem); i++){ pm = &palloc.mem[i]; np += pm->npage; } palloc.pages = xalloc(np*sizeof(Page)); if(palloc.pages == nil) panic("pageinit"); } color = 0; palloc.head = nil; p = palloc.pages; for(i=0; i<nelem(palloc.mem); i++){ pm = &palloc.mem[i]; for(j=0; j<pm->npage; j++){ memset(p, 0, sizeof *p); p->pa = pm->base+j*BY2PG; if(cankaddr(p->pa) && (KADDR(p->pa) == nil || KADDR(p->pa) == (void*)-BY2PG)) continue; p->color = color; color = (color+1)%NCOLOR; pagechainhead(p); p++; } } palloc.user = p - palloc.pages; u = palloc.user*BY2PG; v = u + conf.nswap*BY2PG; /* Paging numbers */ swapalloc.highwater = (palloc.user*5)/100; swapalloc.headroom = swapalloc.highwater + (swapalloc.highwater/4); m = 0; for(i=0; i<nelem(conf.mem); i++) if(conf.mem[i].npage) m += conf.mem[i].npage*BY2PG; m += PGROUND(end - (char*)KTZERO); print("%lldM memory: ", (m+1024*1024-1)/(1024*1024)); print("%lldM kernel data, ", (m-u+1024*1024-1)/(1024*1024)); print("%lldM user, ", u/(1024*1024)); print("%lldM swap\n", v/(1024*1024)); } void pagechainhead(Page *p) { p->next = palloc.head; palloc.head = p; palloc.freecount++; } void pagechaindone(void) { if(palloc.pwait[0].p != nil && wakeup(&palloc.pwait[0]) != nil) return; if(palloc.pwait[1].p != nil) wakeup(&palloc.pwait[1]); } static void freepages(Page *head, Page *tail, ulong np) { lock(&palloc); tail->next = palloc.head; palloc.head = head; palloc.freecount += np; pagechaindone(); unlock(&palloc); } ulong pagereclaim(Image *i, ulong pages) { Page **h, **l, **x, *p; Page *fh, *ft; ulong np; if(pages == 0) return 0; lock(i); if(i->pgref == 0){ unlock(i); return 0; } incref(i); np = 0; fh = ft = nil; for(h = i->pghash; h < &i->pghash[PGHSIZE]; h++){ l = h; x = nil; for(p = *l; p != nil; p = p->next){ if(p->ref == 0) x = l; l = &p->next; } if(x == nil) continue; p = *x; *x = p->next; p->next = nil; p->image = nil; p->daddr = ~0; i->pgref--; decref(i); if(fh == nil) fh = p; else ft->next = p; ft = p; if(++np >= pages) break; } unlock(i); putimage(i); if(np > 0) freepages(fh, ft, np); return np; } static int ispages(void*) { return palloc.freecount > swapalloc.highwater || up->noswap && palloc.freecount > 0; } Page* newpage(int clear, Segment **s, uintptr va) { Page *p, **l; KMap *k; int color; lock(&palloc); while(!ispages(nil)){ unlock(&palloc); if(s != nil) qunlock(*s); if(!waserror()){ Rendezq *q; q = &palloc.pwait[!up->noswap]; eqlock(q); if(!waserror()){ kickpager(); sleep(q, ispages, nil); poperror(); } qunlock(q); poperror(); } /* * If called from fault and we lost the segment from * underneath don't waste time allocating and freeing * a page. Fault will call newpage again when it has * reacquired the segment locks */ if(s != nil){ *s = nil; return nil; } lock(&palloc); } /* First try for our colour */ color = getpgcolor(va); l = &palloc.head; for(p = *l; p != nil; p = p->next){ if(p->color == color) break; l = &p->next; } if(p == nil) { l = &palloc.head; p = *l; } *l = p->next; p->next = nil; palloc.freecount--; unlock(&palloc); p->ref = 1; p->va = va; p->modref = 0; p->txtflush = 0; if(clear) { k = kmap(p); memset((void*)VA(k), 0, BY2PG); kunmap(k); } return p; } void putpage(Page *p) { if(onswap(p)) { putswap(p); return; } if(p->image != nil) { decref(p); return; } if(decref(p) == 0) freepages(p, p, 1); } void copypage(Page *f, Page *t) { KMap *ks, *kd; ks = kmap(f); kd = kmap(t); memmove((void*)VA(kd), (void*)VA(ks), BY2PG); kunmap(ks); kunmap(kd); } void cachepage(Page *p, Image *i) { Page **h; lock(i); p->image = i; h = &PGHASH(i, p->daddr); p->next = *h; *h = p; incref(i); i->pgref++; unlock(i); } void uncachepage(Page *p) { Page **l, *x; Image *i; i = p->image; if(i == nil) return; lock(i); if(p->image != i){ unlock(i); return; } l = &PGHASH(i, p->daddr); for(x = *l; x != nil; x = x->next) { if(x == p){ *l = p->next; p->next = nil; p->image = nil; p->daddr = ~0; i->pgref--; unlock(i); putimage(i); return; } l = &x->next; } unlock(i); } Page* lookpage(Image *i, uintptr daddr) { Page *p, **h, **l; lock(i); l = h = &PGHASH(i, daddr); for(p = *l; p != nil; p = p->next){ if(p->daddr == daddr){ *l = p->next; p->next = *h; *h = p; incref(p); unlock(i); return p; } l = &p->next; } unlock(i); return nil; } void cachedel(Image *i, uintptr daddr) { Page *p; while((p = lookpage(i, daddr)) != nil){ uncachepage(p); putpage(p); } } Pte* ptecpy(Pte *old) { Pte *new; Page **src, **dst; new = ptealloc(); dst = &new->pages[old->first-old->pages]; new->first = dst; for(src = old->first; src <= old->last; src++, dst++) if(*src != nil) { if(onswap(*src)) dupswap(*src); else incref(*src); new->last = dst; *dst = *src; } return new; } Pte* ptealloc(void) { Pte *new; new = smalloc(sizeof(Pte)); new->first = &new->pages[PTEPERTAB]; new->last = new->pages; return new; } void freepte(Segment *s, Pte *p) { Page **pg, **pe; pg = p->first; pe = p->last; switch(s->type&SG_TYPE) { case SG_PHYSICAL: while(pg <= pe){ if(*pg != nil && decref(*pg) == 0) free(*pg); pg++; } break; default: while(pg <= pe){ if(*pg != nil) putpage(*pg); pg++; } } free(p); } ulong pagenumber(Page *p) { return p-palloc.pages; } void checkpagerefs(void) { int s; ulong i, np, nwrong; ulong *ref; np = palloc.user; ref = malloc(np*sizeof ref[0]); if(ref == nil){ print("checkpagerefs: out of memory\n"); return; } /* * This may not be exact if there are other processes * holding refs to pages on their stacks. The hope is * that if you run it on a quiescent system it will still * be useful. */ s = splhi(); lock(&palloc); countpagerefs(ref, 0); portcountpagerefs(ref, 0); nwrong = 0; for(i=0; i<np; i++){ if(palloc.pages[i].ref != ref[i]){ iprint("page %#p ref %ld actual %lud\n", palloc.pages[i].pa, palloc.pages[i].ref, ref[i]); ref[i] = 1; nwrong++; }else ref[i] = 0; } countpagerefs(ref, 1); portcountpagerefs(ref, 1); iprint("%lud mistakes found\n", nwrong); unlock(&palloc); splx(s); free(ref); } void portcountpagerefs(ulong *ref, int print) { ulong i, j, k, ns, n; Page **pg, *entry; Proc *p; Pte *pte; Segment *s; /* * Pages in segments. s->mark avoids double-counting. */ n = 0; ns = 0; for(i=0; i<conf.nproc; i++){ p = proctab(i); for(j=0; j<NSEG; j++){ s = p->seg[j]; if(s != nil) s->mark = 0; } } for(i=0; i<conf.nproc; i++){ p = proctab(i); for(j=0; j<NSEG; j++){ s = p->seg[j]; if(s == nil || s->mark++) continue; if((s->type&SG_TYPE) == SG_PHYSICAL) continue; ns++; for(k=0; k<s->mapsize; k++){ pte = s->map[k]; if(pte == nil) continue; for(pg = pte->first; pg <= pte->last; pg++){ entry = *pg; if(pagedout(entry)) continue; if(print){ if(ref[pagenumber(entry)]) iprint("page %#p in segment %#p\n", entry->pa, s); continue; } if(ref[pagenumber(entry)]++ == 0) n++; } } } } if(!print){ iprint("%lud pages in %lud segments\n", n, ns); for(i=0; i<conf.nproc; i++){ p = proctab(i); for(j=0; j<NSEG; j++){ s = p->seg[j]; if(s == nil) continue; if(s->ref != s->mark){ iprint("segment %#p (used by proc %lud pid %lud) has bad ref count %lud actual %lud\n", s, i, p->pid, s->ref, s->mark); } } } } }