#include <u.h>
#include <libc.h>
#include <bio.h>
#include <mach.h>
#define Extern extern
#include "mips.h"
extern ulong textbase;
ulong
ifetch(ulong addr)
{
uchar *va;
if(addr&3) {
Bprint(bioout, "Address error (I-fetch) vaddr %.8lux\n", addr);
longjmp(errjmp, 0);
}
if(icache.on)
updateicache(addr);
iprof[(addr-textbase)/PROFGRAN]++;
va = vaddr(addr);
va += addr&(BY2PG-1);
return va[0]<<24 | va[1]<<16 | va[2]<<8 | va[3];
}
ulong
getmem_4(ulong addr)
{
ulong val;
int i;
val = 0;
for(i = 0; i < 4; i++)
val = val<<8 | getmem_b(addr++);
return val;
}
ulong
getmem_2(ulong addr)
{
ulong val;
val = getmem_b(addr);
val = val<<8 | getmem_b(addr+1);
return val;
}
ulong
getmem_w(ulong addr)
{
uchar *va;
if(addr&3) {
Bprint(bioout, "Address error (Load) vaddr %.8lux\n", addr);
longjmp(errjmp, 0);
}
if(membpt)
brkchk(addr, Read);
va = vaddr(addr);
va += addr&(BY2PG-1);
return va[0]<<24 | va[1]<<16 | va[2]<<8 | va[3];;
}
ushort
getmem_h(ulong addr)
{
uchar *va;
if(addr&1) {
Bprint(bioout, "Address error (Load) vaddr %.8lux\n", addr);
longjmp(errjmp, 0);
}
if(membpt)
brkchk(addr, Read);
va = vaddr(addr);
va += addr&(BY2PG-1);
return va[0]<<8 | va[1];
}
uchar
getmem_b(ulong addr)
{
uchar *va;
if(membpt)
brkchk(addr, Read);
va = vaddr(addr);
va += addr&(BY2PG-1);
return va[0];
}
void
putmem_w(ulong addr, ulong data)
{
uchar *va;
if(addr&3) {
Bprint(bioout, "Address error (Store) vaddr %.8lux\n", addr);
longjmp(errjmp, 0);
}
va = vaddr(addr);
va += addr&(BY2PG-1);
va[0] = data>>24;
va[1] = data>>16;
va[2] = data>>8;
va[3] = data;
if(membpt)
brkchk(addr, Write);
}
void
putmem_b(ulong addr, uchar data)
{
uchar *va;
va = vaddr(addr);
va += addr&(BY2PG-1);
va[0] = data;
if(membpt)
brkchk(addr, Write);
}
void
putmem_h(ulong addr, short data)
{
uchar *va;
if(addr&1) {
Bprint(bioout, "Address error (Store) vaddr %.8lux\n", addr);
longjmp(errjmp, 0);
}
va = vaddr(addr);
va += addr&(BY2PG-1);
va[0] = data>>8;
va[1] = data;
if(membpt)
brkchk(addr, Write);
}
char *
memio(char *mb, ulong mem, int size, int dir)
{
int i;
char *buf, c;
if(mb == 0)
mb = emalloc(size);
buf = mb;
switch(dir) {
default:
fatal(0, "memio");
case MemRead:
while(size--)
*mb++ = getmem_b(mem++);
break;
case MemReadstring:
for(;;) {
if(size-- == 0) {
Bprint(bioout, "memio: user/kernel copy too long for mipsim\n");
longjmp(errjmp, 0);
}
c = getmem_b(mem++);
*mb++ = c;
if(c == '\0')
break;
}
break;
case MemWrite:
for(i = 0; i < size; i++)
putmem_b(mem++, *mb++);
break;
}
return buf;
}
void
dotlb(ulong vaddr)
{
ulong *l, *e;
vaddr &= ~(BY2PG-1);
e = &tlb.tlbent[tlb.tlbsize];
for(l = tlb.tlbent; l < e; l++)
if(*l == vaddr) {
tlb.hit++;
return;
}
tlb.miss++;
tlb.tlbent[lnrand(tlb.tlbsize)] = vaddr;
}
void*
vaddr1(ulong addr)
{
Segment *s, *es;
int off, foff, l, n;
uchar **p, *a;
if(tlb.on)
dotlb(addr);
es = &memory.seg[Nseg];
for(s = memory.seg; s < es; s++) {
if(addr >= s->base && addr < s->end) {
s->refs++;
off = (addr-s->base)/BY2PG;
p = &s->table[off];
if(*p)
return *p;
s->rss++;
switch(s->type) {
default:
fatal(0, "vaddr");
case Text:
*p = emalloc(BY2PG);
if(seek(text, s->fileoff+(off*BY2PG), 0) < 0)
fatal(1, "vaddr text seek");
if(read(text, *p, BY2PG) < 0)
fatal(1, "vaddr text read");
return *p;
case Data:
*p = emalloc(BY2PG);
foff = s->fileoff+(off*BY2PG);
if(seek(text, foff, 0) < 0)
fatal(1, "vaddr text seek");
n = read(text, *p, BY2PG);
if(n < 0)
fatal(1, "vaddr text read");
if(foff + n > s->fileend) {
l = BY2PG - (s->fileend-foff);
a = *p+(s->fileend-foff);
memset(a, 0, l);
}
return *p;
case Bss:
case Stack:
*p = emalloc(BY2PG);
return *p;
}
}
}
return 0;
}
void*
vaddr(ulong addr)
{
void *v;
v = vaddr1(addr);
if(v == 0) {
Bprint(bioout, "User TLB miss vaddr 0x%.8lux\n", addr);
longjmp(errjmp, 0);
}
return v;
}
int
badvaddr(ulong addr, int n)
{
void *v;
if(addr & (n-1))
return 1;
v = vaddr1(addr);
if(v == 0)
return 1;
return 0;
}
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