#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "io.h"
/*
* We have one page table per processor.
*
* Different processes are distinguished via the VSID field in
* the segment registers. As flushing the entire page table is an
* expensive operation, we implement an aging algorithm for
* mmu pids, with a background kproc to purge stale pids en mass.
*
* This needs modifications to run on a multiprocessor.
*/
static ulong ptabsize; /* number of bytes in page table */
static ulong ptabmask; /* hash mask */
/*
* VSID is 24 bits. 3 are required to distinguish segments in user
* space (kernel space only uses the BATs). pid 0 is reserved.
* The top 2 bits of the pid are used as a `color' for the background
* pid reclaimation algorithm.
*/
enum {
PIDBASE = 1,
PIDBITS = 21,
COLBITS = 2,
PIDMAX = ((1<<PIDBITS)-1),
COLMASK = ((1<<COLBITS)-1),
};
#define VSID(pid, i) (((pid)<<3)|i)
#define PIDCOLOR(pid) ((pid)>>(PIDBITS-COLBITS))
#define PTECOL(color) PTE0(1, VSID(((color)<<(PIDBITS-COLBITS)), 0), 0, 0)
void
mmuinit(void)
{
int lhash, mem;
extern ulong memsize; /* passed in from ROM monitor */
if(ptabsize == 0) {
/* heuristically size the hash table */
lhash = 10;
mem = (1<<23);
while(mem < memsize) {
lhash++;
mem <<= 1;
}
ptabsize = (1<<(lhash+6));
ptabmask = (1<<lhash)-1;
}
m->ptabbase = (ulong)xspanalloc(ptabsize, 0, ptabsize);
putsdr1(PADDR(m->ptabbase) | (ptabmask>>10));
m->mmupid = PIDBASE;
m->sweepcolor = 0;
m->trigcolor = COLMASK;
}
static int
work(void*)
{
return PIDCOLOR(m->mmupid) == m->trigcolor;
}
void
mmusweep(void*)
{
Proc *p;
int i, x, sweepcolor;
ulong *ptab, *ptabend, ptecol;
for(;;) {
if(PIDCOLOR(m->mmupid) != m->trigcolor)
sleep(&m->sweepr, work, nil);
sweepcolor = m->sweepcolor;
x = splhi();
p = proctab(0);
for(i = 0; i < conf.nproc; i++, p++)
if(PIDCOLOR(p->mmupid) == sweepcolor)
p->mmupid = 0;
splx(x);
ptab = (ulong*)m->ptabbase;
ptabend = (ulong*)(m->ptabbase+ptabsize);
ptecol = PTECOL(sweepcolor);
while(ptab < ptabend) {
if((*ptab & PTECOL(3)) == ptecol)
*ptab = 0;
ptab += 2;
}
tlbflushall();
m->sweepcolor = (sweepcolor+1) & COLMASK;
m->trigcolor = (m->trigcolor+1) & COLMASK;
}
}
int
newmmupid(void)
{
int pid, newcolor;
pid = m->mmupid++;
if(m->mmupid > PIDMAX)
m->mmupid = PIDBASE;
newcolor = PIDCOLOR(m->mmupid);
if(newcolor != PIDCOLOR(pid)) {
if(newcolor == m->sweepcolor) {
/* desperation time. can't block here. punt to fault/putmmu */
print("newmmupid: %uld: no free mmu pids\n", up->pid);
if(m->mmupid == PIDBASE)
m->mmupid = PIDMAX;
else
m->mmupid--;
pid = 0;
}
else if(newcolor == m->trigcolor)
wakeup(&m->sweepr);
}
up->mmupid = pid;
return pid;
}
void
flushmmu(void)
{
int x;
x = splhi();
up->newtlb = 1;
mmuswitch(up);
splx(x);
}
/*
* called with splhi
*/
void
mmuswitch(Proc *p)
{
int i, mp;
if(p->kp) {
for(i = 0; i < 8; i++)
putsr(i<<28, 0);
return;
}
if(p->newtlb) {
p->mmupid = 0;
p->newtlb = 0;
}
mp = p->mmupid;
if(mp == 0)
mp = newmmupid();
for(i = 0; i < 8; i++)
putsr(i<<28, VSID(mp, i)|BIT(1)|BIT(2));
}
void
mmurelease(Proc* p)
{
p->mmupid = 0;
}
void
putmmu(ulong va, ulong pa, Page *pg)
{
int mp;
char *ctl;
ulong *p, *ep, *q, pteg;
ulong vsid, ptehi, x, hash;
/*
* If mmupid is 0, mmuswitch/newmmupid was unable to assign us
* a pid, hence we faulted. Keep calling sched() until the mmusweep
* proc catches up, and we are able to get a pid.
*/
while((mp = up->mmupid) == 0)
sched();
vsid = VSID(mp, va>>28);
hash = (vsid ^ (va>>12)&0xffff) & ptabmask;
ptehi = PTE0(1, vsid, 0, va);
pteg = m->ptabbase + BY2PTEG*hash;
p = (ulong*)pteg;
ep = (ulong*)(pteg+BY2PTEG);
q = nil;
tlbflush(va);
while(p < ep) {
x = p[0];
if(x == ptehi) {
q = p;
break;
}
if(q == nil && (x & BIT(0)) == 0)
q = p;
p += 2;
}
if(q == nil) {
q = (ulong*)(pteg+m->slotgen);
m->slotgen = (m->slotgen + BY2PTE) & (BY2PTEG-1);
}
q[0] = ptehi;
q[1] = pa;
sync();
ctl = &pg->cachectl[m->machno];
switch(*ctl) {
case PG_NEWCOL:
default:
panic("putmmu: %d\n", *ctl);
break;
case PG_NOFLUSH:
break;
case PG_TXTFLUSH:
dcflush((void*)pg->va, BY2PG);
icflush((void*)pg->va, BY2PG);
*ctl = PG_NOFLUSH;
break;
}
}
void
checkmmu(ulong, ulong)
{
}
void
countpagerefs(ulong*, int)
{
}
/*
* Return the number of bytes that can be accessed via KADDR(pa).
* If pa is not a valid argument to KADDR, return 0.
*/
ulong
cankaddr(ulong pa)
{
ulong kzero;
kzero = -KZERO;
if(pa >= kzero)
return 0;
return kzero - pa;
}
|