cat 1990/0925/gnot/mmu.c

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1990/0925/gnot/mmu.c (diff list | history)

gnot/mmu.c on 1990/03091
1990/03091
#include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h"

1990/06021
struct { Lock; int init; KMap *free; KMap arena[4*1024*1024/BY2PG]; /* kernel mmu maps up to 4MB */ }kmapalloc;

1990/0921
void putxmmu(ulong tlbvirt, ulong tlbphys, int pid) { if(pid != u->p->pid) panic("putxmmu %ld %ld\n", pid, u->p->pid); if(tlbvirt&KZERO) panic("putmmu"); tlbphys |= VTAG(tlbvirt)<<24; UMAP[(tlbvirt&0x003FE000L)>>2] = tlbphys; }

1990/03091
/* * Called splhi, not in Running state */ void mapstack(Proc *p) { ulong tlbvirt, tlbphys;

1990/0921
ulong i;

1990/03091
if(p->upage->va != (USERADDR|(p->pid&0xFFFF))) panic("mapstack %d 0x%lux 0x%lux", p->pid, p->upage->pa, p->upage->va); tlbvirt = USERADDR; tlbphys = PPN(p->upage->pa) | PTEVALID | PTEKERNEL; putkmmu(tlbvirt, tlbphys); flushmmu(); u = (User*)USERADDR;

1990/0921

1990/0925
/* * preload the MMU with the last (up to) NMMU user entries * previously faulted into it for this process. */

1990/0921
if(u->mc.next >= NMMU){ u->mc.next &= NMMU - 1; for(i = u->mc.next; i < NMMU; i++) putxmmu(u->mc.mmu[i].va, u->mc.mmu[i].pa, u->mc.mmu[i].pid); } for(i = 0; i < u->mc.next; i++)

1990/0925
putxmmu(u->mc.mmu[i].va, u->mc.mmu[i].pa, u->mc.mmu[i].pid);

1990/03091
} void putkmmu(ulong tlbvirt, ulong tlbphys) { if(!(tlbvirt&KZERO)) panic("putkmmu"); tlbvirt &= ~KZERO; KMAP[(tlbvirt&0x003FE000L)>>2] = tlbphys; } void putmmu(ulong tlbvirt, ulong tlbphys) { if(tlbvirt&KZERO) panic("putmmu");

1990/0921
if(u){ MMU *mp; mp = &(u->mc.mmu[u->mc.next&(NMMU-1)]); mp->pa = tlbphys; mp->va = tlbvirt; mp->pid = u->p->pid; u->mc.next++;

1990/0925
}

1990/03091
tlbphys |= VTAG(tlbvirt)<<24; UMAP[(tlbvirt&0x003FE000L)>>2] = tlbphys; } void flushmmu(void) { flushcpucache(); *PARAM &= ~TLBFLUSH_; *PARAM |= TLBFLUSH_;

1990/0921
} void

1990/0925
clearmmucache(void)

1990/0921
{ if(u == 0) panic("flushmmucache"); u->mc.next = 0;

1990/06021
} void kmapinit(void) { KMap *k; int i, e; if(kmapalloc.init == 0){ k = &kmapalloc.arena[0];

1990/0709
k->va = KZERO|(4*1024*1024-256*1024-BY2PG);

1990/06021
k->next = 0; kmapalloc.free = k; kmapalloc.init = 1; return; } e = (4*1024*1024 - 256*1024)/BY2PG; /* screen lives at top 256K */ i = (((ulong)ialloc(0, 0))&~KZERO)/BY2PG;

1990/0709
print("%lud free map registers\n", e-i);

1990/06021
kmapalloc.free = 0; for(k=&kmapalloc.arena[i]; i<e; i++,k++){ k->va = i*BY2PG|KZERO; kunmap(k); } } KMap* kmap(Page *pg) { KMap *k; lock(&kmapalloc); k = kmapalloc.free;

1990/0709
if(k == 0){ dumpstack();

1990/06021
panic("kmap");

1990/0709
}

1990/06021
kmapalloc.free = k->next; unlock(&kmapalloc); k->pa = pg->pa; putkmmu(k->va, PPN(k->pa) | PTEVALID | PTEKERNEL); return k; } void kunmap(KMap *k) { k->pa = 0; lock(&kmapalloc); k->next = kmapalloc.free; kmapalloc.free = k; putkmmu(k->va, INVALIDPTE); unlock(&kmapalloc);

1990/03091
}


`gnot/mmu.c on 1990/03091`
1990/03091		#include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h"
1990/06021		struct { Lock; int init; KMap free; KMap arena[410241024/BY2PG]; / kernel mmu maps up to 4MB */ }kmapalloc;
1990/0921		void putxmmu(ulong tlbvirt, ulong tlbphys, int pid) { if(pid != u->p->pid) panic("putxmmu %ld %ld\n", pid, u->p->pid); if(tlbvirt&KZERO) panic("putmmu"); tlbphys \|= VTAG(tlbvirt)<<24; UMAP[(tlbvirt&0x003FE000L)>>2] = tlbphys; }
1990/03091		/* * Called splhi, not in Running state / void mapstack(Proc p) { ulong tlbvirt, tlbphys;
1990/0921		ulong i;
1990/03091		if(p->upage->va != (USERADDR\|(p->pid&0xFFFF))) panic("mapstack %d 0x%lux 0x%lux", p->pid, p->upage->pa, p->upage->va); tlbvirt = USERADDR; tlbphys = PPN(p->upage->pa) \| PTEVALID \| PTEKERNEL; putkmmu(tlbvirt, tlbphys); flushmmu(); u = (User*)USERADDR;
1990/0921
1990/0925		/* * preload the MMU with the last (up to) NMMU user entries * previously faulted into it for this process. */
1990/0921		if(u->mc.next >= NMMU){ u->mc.next &= NMMU - 1; for(i = u->mc.next; i < NMMU; i++) putxmmu(u->mc.mmu[i].va, u->mc.mmu[i].pa, u->mc.mmu[i].pid); } for(i = 0; i < u->mc.next; i++)
1990/0925		putxmmu(u->mc.mmu[i].va, u->mc.mmu[i].pa, u->mc.mmu[i].pid);
1990/03091		} void putkmmu(ulong tlbvirt, ulong tlbphys) { if(!(tlbvirt&KZERO)) panic("putkmmu"); tlbvirt &= ~KZERO; KMAP[(tlbvirt&0x003FE000L)>>2] = tlbphys; } void putmmu(ulong tlbvirt, ulong tlbphys) { if(tlbvirt&KZERO) panic("putmmu");
1990/0921		if(u){ MMU *mp; mp = &(u->mc.mmu[u->mc.next&(NMMU-1)]); mp->pa = tlbphys; mp->va = tlbvirt; mp->pid = u->p->pid; u->mc.next++;
1990/0925		}
1990/03091		tlbphys \|= VTAG(tlbvirt)<<24; UMAP[(tlbvirt&0x003FE000L)>>2] = tlbphys; } void flushmmu(void) { flushcpucache(); PARAM &= ~TLBFLUSH_; PARAM \|= TLBFLUSH_;
1990/0921		} void
1990/0925		clearmmucache(void)
1990/0921		{ if(u == 0) panic("flushmmucache"); u->mc.next = 0;
1990/06021		} void kmapinit(void) { KMap *k; int i, e; if(kmapalloc.init == 0){ k = &kmapalloc.arena[0];
1990/0709		k->va = KZERO\|(410241024-256*1024-BY2PG);
1990/06021		k->next = 0; kmapalloc.free = k; kmapalloc.init = 1; return; } e = (410241024 - 2561024)/BY2PG; / screen lives at top 256K */ i = (((ulong)ialloc(0, 0))&~KZERO)/BY2PG;
1990/0709		print("%lud free map registers\n", e-i);
1990/06021		kmapalloc.free = 0; for(k=&kmapalloc.arena[i]; i<e; i++,k++){ k->va = iBY2PG\|KZERO; kunmap(k); } } KMap kmap(Page pg) { KMap k; lock(&kmapalloc); k = kmapalloc.free;
1990/0709		if(k == 0){ dumpstack();
1990/06021		panic("kmap");
1990/0709		}
1990/06021		kmapalloc.free = k->next; unlock(&kmapalloc); k->pa = pg->pa; putkmmu(k->va, PPN(k->pa) \| PTEVALID \| PTEKERNEL); return k; } void kunmap(KMap *k) { k->pa = 0; lock(&kmapalloc); k->next = kmapalloc.free; kmapalloc.free = k; putkmmu(k->va, INVALIDPTE); unlock(&kmapalloc);
1990/03091		}