ref: 8043614f797a269cfc9772998a3a1d46c139a1b7
dir: /sys/src/9/omap4/mmu.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "arm.h" char iopages[NIOPAGES / 8]; Lock iopagelock; uchar *periph; static int isfree(int i) { return (iopages[i / 8] & (1 << (i % 8))) == 0; } static void freeio(int i) { iopages[i / 8] &= ~(1 << (i % 8)); } static int getiopages(int n) { int i, j; lock(&iopagelock); for(i = 0; i <= NIOPAGES - n; i++){ for(j = 0; j < n; j++) if(!isfree(i + j)) goto next; for(j = 0; j < n; j++) iopages[(i + j) / 8] |= (1 << ((i + j) % 8)); unlock(&iopagelock); return i; next: ; } panic("out of i/o pages"); return 0; } static void putiopages(int i, int n) { lock(&iopagelock); while(n--) freeio(i++); unlock(&iopagelock); } void * vmap(ulong phys, ulong length) { ulong virt, off, *l2; off = phys % BY2PG; length = (ROUNDUP(phys + length, BY2PG) - ROUNDDN(phys, BY2PG)) / BY2PG; if(length == 0) return nil; phys = ROUNDDN(phys, BY2PG); virt = getiopages(length); l2 = KADDR(IOPT); l2 += virt; while(length--){ *l2++ = phys | L2AP(Krw) | Small | PTEIO; phys += BY2PG; } flushtlb(); return (void *) (IZERO + BY2PG * virt + off); } void vunmap(void *virt, ulong length) { ulong v, *l2; if((ulong)virt < IZERO || (ulong)virt >= IZERO + NIOPAGES * BY2PG) panic("vunmap: virt=%p", virt); v = (ROUNDDN((ulong) virt, BY2PG) - IZERO) / BY2PG; length = (ROUNDUP(((ulong) virt) + length, BY2PG) - ROUNDDN((ulong) virt, BY2PG)) / BY2PG; if(length == 0) return; l2 = KADDR(IOPT); l2 += v; lock(&iopagelock); while(length--){ *l2++ = 0; freeio(v++); } unlock(&iopagelock); flushtlb(); } void markidle(int n) { setgpio(7 + m->machno, !n); } void mmuinit(void) { ulong *l1, l2, *pl2; int i, n; extern ulong *uart; l1 = KADDR(L1PT); l2 = IOPT; n = NIOPAGES / 256; memset(KADDR(l2), 0, n * L2SIZ); for(i = 0; i < n; i++){ l1[(IZERO / MiB) + i] = l2 | Coarse; l2 += L2SIZ; } uart = vmap((ulong) uart, BY2PG); periph = vmap(0x48240000, 2 * BY2PG); memset(l1, 0, sizeof(ulong) * (IZERO / MiB)); l1[4095] = PRIVL2 | Coarse; pl2 = KADDR(PRIVL2); for(i = 0; i < 240; i++) pl2[i] = (0x8FF00000 + i * BY2PG) | L2AP(Krw) | Small | Cached | Buffered; pl2[240] = PHYSVECTORS | L2AP(Krw) | Small | Cached | Buffered; pl2[241] = FIRSTMACH | L2AP(Krw) | Small | Cached | Buffered; flushtlb(); m = (Mach *) MACHADDR; } void mmuswitch(Proc *p) { ulong *l1; l1 = KADDR(L1PT); memmove(l1, p->l1, sizeof p->l1); flushtlb(); } void putmmu(uintptr va, uintptr pa, Page *) { ulong *l1a, *l1b, *l2; int l1o, l2o; l1o = va / MiB; l2o = (va % MiB) / BY2PG; l1a = KADDR(L1PT); l1b = up->l1; if(l1a[l1o] == 0){ if((pa & PTEVALID) == 0) return; l2 = xspanalloc(L2SIZ, L2SIZ, 0); l1a[l1o] = l1b[l1o] = PADDR(l2) | Coarse; } else l2 = KADDR(ROUNDDN(l1a[l1o], L2SIZ)); l2 += l2o; if((pa & PTEVALID) == 0){ *l2 = 0; flushtlb(); return; } *l2 = ROUNDDN(pa, BY2PG) | Small; if((pa & PTEWRITE) == 0) *l2 |= L2AP(Uro); else *l2 |= L2AP(Urw); if((pa & PTEUNCACHED) == 0) *l2 |= Buffered | Cached; flushtlb(); } void flushmmu(void) { int s, i; ulong p; ulong *l1; l1 = KADDR(L1PT); s = splhi(); for(i = 0; i < nelem(up->l1); i++){ p = l1[i]; if(p & Small) free(KADDR(ROUNDDN(p, BY2PG))); } memset(up->l1, 0, sizeof up->l1); memset(l1, 0, sizeof up->l1); flushtlb(); splx(s); } void mmurelease(Proc *p) { int i; ulong pg; if(p == up){ flushmmu(); return; } for(i = 0; i < nelem(p->l1); i++){ pg = p->l1[i]; if(pg & Small) free(KADDR(ROUNDDN(pg, BY2PG))); } memset(p->l1, 0, sizeof p->l1); } void countpagerefs() { panic("countpagerefs"); } void* KADDR(ulong pa) { if(pa < (ulong)PHYSDRAM || pa > (ulong)(PHYSDRAM + VECTORS - KZERO)) panic("kaddr: pa=%#.8lux, pc=%p", pa, getcallerpc(&pa)); return (void*)(pa + KZERO - PHYSDRAM); } ulong paddr(void* v) { ulong va; va = (ulong) v; if(va < KZERO) panic("paddr: v=%p", v); return va - KZERO + PHYSDRAM; } ulong cankaddr(ulong arg) { if(arg < PHYSDRAM || arg > (ulong)(PHYSDRAM + VECTORS - KZERO)) return 0; return PHYSDRAM - KZERO - arg; }