4.3BSD-Reno/src/sys/sys/vmmac.h
/*
* Copyright (c) 1982, 1986 Regents of the University of California.
* All rights reserved. The Berkeley software License Agreement
* specifies the terms and conditions for redistribution.
*
* @(#)vmmac.h 7.6 (Berkeley) 7/2/90
*/
/*
* Virtual memory related conversion macros
*/
/* Core clicks to number of pages of page tables needed to map that much */
#define ctopt(x) (((x)+NPTEPG-1)/NPTEPG)
#if defined(vax) || defined(tahoe)
/* Virtual page numbers to text|data|stack segment page numbers and back */
#define vtotp(p, v) ((int)(v))
#define vtodp(p, v) ((int)((v) - stoc(ctos((p)->p_tsize))))
#define vtosp(p, v) ((int)(BTOPUSRSTACK - 1 - (v)))
#define tptov(p, i) ((unsigned)(i))
#define dptov(p, i) ((unsigned)(stoc(ctos((p)->p_tsize)) + (i)))
#define sptov(p, i) ((unsigned)(BTOPUSRSTACK - 1 - (i)))
/* Tell whether virtual page numbers are in text|data|stack segment */
#define isassv(p, v) ((v) >= BTOPUSRSTACK - (p)->p_ssize)
#define isatsv(p, v) ((v) < (p)->p_tsize)
#define isadsv(p, v) ((v) >= stoc(ctos((p)->p_tsize)) && \
(v) < (p)->p_tsize + (p)->p_dsize + (p)->p_mmsize)
#else
/* Virtual page numbers to text|data|stack segment page numbers and back */
#define vtotp(p, v) ((int)(v)-LOWPAGES)
#define vtodp(p, v) ((int)((v) - stoc(ctos((p)->p_tsize)) - LOWPAGES))
#define vtosp(p, v) ((int)(BTOPUSRSTACK - 1 - (v)))
#define tptov(p, i) ((unsigned)(i) + LOWPAGES)
#define dptov(p, i) ((unsigned)(stoc(ctos((p)->p_tsize)) + (i) + LOWPAGES))
#define sptov(p, i) ((unsigned)(BTOPUSRSTACK - 1 - (i)))
/* Tell whether virtual page numbers are in text|data|stack segment */
#define isassv(p, v) ((v) >= BTOPUSRSTACK - (p)->p_ssize)
#define isatsv(p, v) (((v) - LOWPAGES) < (p)->p_tsize)
#define isadsv(p, v) (((v) - LOWPAGES) >= stoc(ctos((p)->p_tsize)) && \
(v) < LOWPAGES + (p)->p_tsize + (p)->p_dsize + (p)->p_mmsize)
#endif
/* Tell whether pte's are text|data|stack */
#define isaspte(p, pte) ((pte) > sptopte(p, (p)->p_ssize))
#define isatpte(p, pte) ((pte) < dptopte(p, 0))
#define isadpte(p, pte) (!isaspte(p, pte) && !isatpte(p, pte))
/* Text|data|stack pte's to segment page numbers and back */
#define ptetotp(p, pte) ((pte) - (p)->p_p0br)
#define ptetodp(p, pte) (((pte) - (p)->p_p0br) - (p)->p_tsize)
#define ptetosp(p, pte) (((p)->p_addr - (pte)) - 1)
#define tptopte(p, i) ((p)->p_p0br + (i))
#define dptopte(p, i) ((p)->p_p0br + ((p)->p_tsize + (i)))
#define sptopte(p, i) ((p)->p_addr - (1 + (i)))
/* Convert a virtual page number to a pte address. */
#define vtopte(p, v) \
(((v) < LOWPAGES + (p)->p_tsize + (p)->p_dsize + (p)->p_mmsize) ? \
((p)->p_p0br + (v)) : ((p)->p_addr - (BTOPUSRSTACK - (v))))
/* Bytes to pages without rounding, and back */
#define btop(x) (((unsigned)(x)) >> PGSHIFT)
#define ptob(x) ((caddr_t)((x) << PGSHIFT))
/* Turn virtual addresses into kernel map indices */
#define kmxtob(a) (usrpt + (a) * NPTEPG)
#define btokmx(b) (((b) - usrpt) / NPTEPG)
/* User area address and pcb bases */
#define uaddr(p) (&((p)->p_p0br[(p)->p_szpt * NPTEPG - HIGHPAGES]))
#if defined(vax) || defined(tahoe)
#define pcbb(p) ((p)->p_addr[0].pg_pfnum)
#endif
#if defined(hp300) || defined(i386)
#define pcbb(p) ((u_int)(p)->p_addr)
#endif
/* Page table size */
#if defined(vax) || defined(tahoe)
#define ptsize(p) \
(clrnd(ctopt((p)->p_tsize + (p)->p_dsize + (p)->p_mmsize + \
(p)->p_ssize + HIGHPAGES)))
#endif
#if defined(hp300) || defined(i386)
#define ptsize(p) \
(clrnd(ctopt((p)->p_tsize + (p)->p_dsize + (p)->p_mmsize)) + \
clrnd(ctopt((p)->p_ssize + HIGHPAGES)))
#endif
/* Average new into old with aging factor time */
#define ave(smooth, cnt, time) \
smooth = ((time - 1) * (smooth) + (cnt)) / (time)
/* Abstract machine dependent operations */
#if defined(vax)
#define setp0br(x) (u.u_pcb.pcb_p0br = (x), mtpr(P0BR, x))
#define setp0lr(x) (u.u_pcb.pcb_p0lr = \
(x) | (u.u_pcb.pcb_p0lr & AST_CLR), \
mtpr(P0LR, x))
#define setp1br(x) (u.u_pcb.pcb_p1br = (x), mtpr(P1BR, x))
#define setp1lr(x) (u.u_pcb.pcb_p1lr = (x), mtpr(P1LR, x))
#define initp1br(x) ((x) - P1PAGES)
#endif
#if defined(tahoe)
#define setp0br(x) (u.u_pcb.pcb_p0br = (x), mtpr(P0BR, x))
#define setp0lr(x) (u.u_pcb.pcb_p0lr = (x), mtpr(P0LR, x))
#define setp1br(x) (u.u_pcb.pcb_p1br = (x), mtpr(P1BR, x))
#define setp1lr(x) (u.u_pcb.pcb_p1lr = (x), mtpr(P1LR, x))
#define setp2br(x) (u.u_pcb.pcb_p2br = (x), mtpr(P2BR, x))
#define setp2lr(x) (u.u_pcb.pcb_p2lr = (x), mtpr(P2LR, x))
#define initp2br(x) ((x) - P2PAGES)
#endif
#if defined(hp300) || defined(i386)
#define setp0br(x) (u.u_pcb.pcb_p0br = (x))
#define setp1br(x) (u.u_pcb.pcb_p1br = (x))
#define setp0lr(x) setptlr(0, (int)(x))
#define setp1lr(x) setptlr(1, (int)(x))
#define initp1br(x) ((x) - P1PAGES)
#endif
#define outofmem() wakeup((caddr_t)&proc[2]);
/*
* Page clustering macros.
*
* dirtycl(pte) is the page cluster dirty?
* anycl(pte,fld) does any pte in the cluster has fld set?
* zapcl(pte,fld) = val set all fields fld in the cluster to val
* distcl(pte) distribute high bits to cluster; note that
* distcl copies everything but pg_pfnum,
* INCLUDING pg_m!!!
*
* In all cases, pte must be the low pte in the cluster, even if
* the segment grows backwards (e.g. the stack).
*/
#define H(pte) ((struct hpte *)(pte))
#if CLSIZE==1
#define dirtycl(pte) dirty(pte)
#define anycl(pte,fld) ((pte)->fld)
#define zapcl(pte,fld) (pte)->fld
#define distcl(pte)
#endif
#if CLSIZE==2
#define dirtycl(pte) (dirty(pte) || dirty((pte)+1))
#define anycl(pte,fld) ((pte)->fld || (((pte)+1)->fld))
#define zapcl(pte,fld) (pte)[1].fld = (pte)[0].fld
#endif
#if CLSIZE==4
#define dirtycl(pte) \
(dirty(pte) || dirty((pte)+1) || dirty((pte)+2) || dirty((pte)+3))
#define anycl(pte,fld) \
((pte)->fld || (((pte)+1)->fld) || (((pte)+2)->fld) || (((pte)+3)->fld))
#define zapcl(pte,fld) \
(pte)[3].fld = (pte)[2].fld = (pte)[1].fld = (pte)[0].fld
#endif
#ifndef distcl
#define distcl(pte) zapcl(H(pte),pg_high)
#endif
/*
* Lock a page frame.
*/
#define MLOCK(c) { \
while ((c)->c_lock) { \
(c)->c_want = 1; \
sleep((caddr_t)(c), PSWP+1); \
} \
(c)->c_lock = 1; \
}
/*
* Unlock a page frame.
*/
#define MUNLOCK(c) { \
if ((c)->c_want) { \
wakeup((caddr_t)(c)); \
(c)->c_want = 0; \
} \
(c)->c_lock = 0; \
}