ref: 059b863fab96cf3ba65e74ad67221eec6cbcbe0c
dir: /sys/src/9/cycv/mmu.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" void mmuinit(void) { m->l1.pa = ttbget(); m->l1.va = KADDR(m->l1.pa); memset((uchar*)TMAPL2(m->machno), 0, TMAPL2SZ); m->l1.va[L1X(TMAP)] = PADDR(TMAPL2(m->machno)) | L1PT; incref(&m->l1); } void l1switch(L1 *p, int flush) { assert(!islo()); ttbput(p->pa); if(flush){ if(++m->asid == 0) flushtlb(); setasid(m->asid); } } static L1 * l1alloc(void) { L1 *p; int s; s = splhi(); p = m->l1free; if(p != nil){ m->l1free = p->next; p->next = nil; m->nfree--; splx(s); return p; } splx(s); p = smalloc(sizeof(L1)); for(;;){ p->va = mallocalign(L1SZ, L1SZ, 0, 0); if(p->va != nil) break; if(!waserror()){ resrcwait("no memory for L1 table"); poperror(); } } p->pa = PADDR(p->va); memmove(p->va, m->l1.va, L1SZ); return p; } static void l1free(L1 *l1) { if(islo()) panic("l1free: islo"); if(m->nfree >= 40){ free(l1->va); free(l1); }else{ l1->next = m->l1free; m->l1free = l1; m->nfree++; } } static void upallocl1(void) { L1 *p; int s; if(up->l1 != nil) return; p = l1alloc(); s = splhi(); if(up->l1 != nil) panic("upalloc1: up->l1 != nil"); up->l1 = p; l1switch(p, 1); splx(s); } static void l2free(Proc *proc) { ulong *t; Page *p, **l; if(proc->l1 == nil || proc->mmuused == nil) return; l = &proc->mmuused; for(p = *l; p != nil; p = p->next){ t = proc->l1->va + p->daddr; *t++ = 0; *t++ = 0; *t++ = 0; *t = 0; l = &p->next; } proc->l1->va[L1X(TMAP)] = 0; *l = proc->mmufree; proc->mmufree = proc->mmuused; proc->mmuused = 0; } void mmuswitch(Proc *p) { if(p->newtlb){ p->newtlb = 0; l2free(p); } if(p->l1 != nil) l1switch(p->l1, 1); else l1switch(&m->l1, 1); } void putmmu(uintptr va, uintptr pa, Page *pg) { Page *p; ulong *e; ulong *l2; ulong old; uintptr l2p; int s; if(up->l1 == nil) upallocl1(); e = &up->l1->va[L1RX(va)]; if((*e & 3) == 0){ p = up->mmufree; if(p != nil) up->mmufree = p->next; else p = newpage(0, 0, 0); p->daddr = L1RX(va); p->next = up->mmuused; up->mmuused = p; s = splhi(); l2p = p->pa; l2 = tmpmap(l2p); memset(l2, 0, BY2PG); coherence(); e[0] = p->pa | L1PT; e[1] = e[0] + L2SZ; e[2] = e[1] + L2SZ; e[3] = e[2] + L2SZ; coherence(); }else{ s = splhi(); l2p = *e & ~(BY2PG - 1); l2 = tmpmap(l2p); } e = &l2[L2RX(va)]; old = *e; *e = pa | L2VALID | L2USER | L2LOCAL; tmpunmap(l2); if((old & L2VALID) != 0) flushpg((void *) va); if(needtxtflush(pg)){ cleandse((void *) va, (void *) (va + BY2PG)); invalise((void *) va, (void *) (va + BY2PG)); donetxtflush(pg); } splx(s); } void checkmmu(uintptr, uintptr) { } void flushmmu(void) { int s; s = splhi(); up->newtlb = 1; mmuswitch(up); splx(s); } void mmurelease(Proc *proc) { Page *p; l1switch(&m->l1, 0); if((p = proc->kmaptable) != nil){ if(p->ref != 1) panic("mmurelease: kmap ref %ld", p->ref); if(proc->l1 == nil) panic("mmurelease: no l1"); if(proc->nkmap) panic("mmurelease: nkmap %d", proc->nkmap); if(PPN(proc->l1->va[L1X(KMAP)]) != p->pa) panic("mmurelease: bad kmap l2 %#.8lux kmap %#.8lux", proc->l1->va[L1X(KMAP)], p->pa); proc->l1->va[L1X(KMAP)] = 0; p->next = proc->mmufree; proc->mmufree = p; proc->kmaptable = nil; } if(proc->l1 != nil){ l2free(proc); l1free(proc->l1); proc->l1 = nil; } freepages(proc->mmufree, nil, 0); proc->mmufree = nil; } uintptr paddr(void *v) { if((uintptr)v >= PERIPH) return (uintptr)v; if((uintptr)v >= KZERO) return (uintptr)v-KZERO; panic("paddr: va=%#p pc=%#p", v, getcallerpc(&v)); return 0; } void * kaddr(uintptr u) { if(u >= (uintptr)PERIPH) return (void *)u; if(u < (uintptr)-KZERO) return (void *)(u + KZERO); panic("kaddr: pa=%#p pc=%#p", u, getcallerpc(&u)); return nil; } uintptr cankaddr(uintptr u) { if(u >= (uintptr)PERIPH) return -u; if(u < (uintptr)-KZERO) return PERIPH-KZERO - u; return 0; } KMap * kmap(Page *page) { ulong *e, *v; int i, s; if(cankaddr(page->pa)) return (KMap*)KADDR(page->pa); if(up == nil) panic("kmap: up=0 pc=%#.8lux", getcallerpc(&page)); if(up->l1 == nil) upallocl1(); if(up->nkmap < 0) panic("kmap %lud %s: nkmap=%d", up->pid, up->text, up->nkmap); up->nkmap++; e = &up->l1->va[L1X(KMAP)]; if((*e & 3) == 0){ if(up->kmaptable != nil) panic("kmaptable != nil"); up->kmaptable = newpage(0, 0, 0); s = splhi(); v = tmpmap(up->kmaptable->pa); memset(v, 0, BY2PG); v[0] = page->pa | L2KERRW | L2VALID | L2CACHED | L2LOCAL; v[NKMAP] = up->kmaptable->pa | L2KERRW | L2VALID | L2CACHED | L2LOCAL; tmpunmap(v); splx(s); *e = up->kmaptable->pa | L1PT; coherence(); return (KMap *) KMAP; } if(up->kmaptable == nil) panic("kmaptable == nil"); e = (ulong *) (KMAP + NKMAP * BY2PG); for(i = 0; i < NKMAP; i++) if((e[i] & 3) == 0){ e[i] = page->pa | L2KERRW | L2VALID | L2CACHED | L2LOCAL; coherence(); return (KMap *) (KMAP + i * BY2PG); } panic("out of kmap"); return nil; } void kunmap(KMap *arg) { uintptr va; ulong *e; va = (uintptr) arg; if(va >= KZERO) return; if(up->l1 == nil || (up->l1->va[L1X(KMAP)] & 3) == 0) panic("kunmap: no kmaps"); if(va < KMAP || va >= KMAP + NKMAP * BY2PG) panic("kunmap: bad address %#.8lux pc=%#p", va, getcallerpc(&arg)); e = (ulong *) (KMAP + NKMAP * BY2PG) + L2X(va); if((*e & 3) == 0) panic("kunmap: not mapped %#.8lux pc=%#p", va, getcallerpc(&arg)); up->nkmap--; if(up->nkmap < 0) panic("kunmap %lud %s: nkmap=%d", up->pid, up->text, up->nkmap); *e = 0; coherence(); flushpg((void *) va); } void * tmpmap(ulong pa) { ulong *u, *ub, *ue; if(islo()) panic("tmpmap: islow %#p", getcallerpc(&pa)); if(cankaddr(pa)) return KADDR(pa); ub = (ulong *) TMAPL2(m->machno); ue = ub + NL2; for(u = ub; u < ue; u++) if((*u & 3) == 0){ *u = pa | L2VALID | L2CACHED | L2KERRW; assert(m->l1.va[L1X(TMAP)] != 0); if(up != nil && up->l1 != nil) up->l1->va[L1X(TMAP)] = m->l1.va[L1X(TMAP)]; coherence(); return (void *) ((u - ub) * BY2PG + TMAP); } panic("tmpmap: full (pa=%#.8lux)", pa); return nil; } void tmpunmap(void *v) { ulong *u; if(v >= (void*) KZERO) return; if(v < (void*)TMAP || v >= (void*)(TMAP + TMAPSZ)) panic("tmpunmap: invalid address (va=%#.8lux)", (uintptr) v); u = (ulong *) TMAPL2(m->machno) + L2X(v); if((*u & 3) == 0) panic("tmpunmap: double unmap (va=%#.8lux)", (uintptr) v); *u = 0; coherence(); flushpg(v); } void * ucalloc(ulong len) { static Lock l; static uchar *free = nil; uchar *va; if(len == 0) panic("ucalloc: len == 0"); ilock(&l); if(free == nil) free = (uchar*)-BY2PG; len = PGROUND(len); free -= len; if(free < (uchar*)OCRAM) panic("ucalloc: out of uncached memory"); va = free; iunlock(&l); invaldse(va, va + len); return (void *) va; }