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1.1 ! root 1: /* ! 2: * Copyright (c) 1982, 1986 Regents of the University of California. ! 3: * All rights reserved. The Berkeley software License Agreement ! 4: * specifies the terms and conditions for redistribution. ! 5: * ! 6: * @(#)vmmac.h 7.1 (Berkeley) 6/4/86 ! 7: */ ! 8: ! 9: /* ! 10: * Virtual memory related conversion macros ! 11: */ ! 12: ! 13: /* Core clicks to number of pages of page tables needed to map that much */ ! 14: #define ctopt(x) (((x)+NPTEPG-1)/NPTEPG) ! 15: ! 16: #ifdef vax ! 17: /* Virtual page numbers to text|data|stack segment page numbers and back */ ! 18: #define vtotp(p, v) ((int)(v)) ! 19: #define vtodp(p, v) ((int)((v) - stoc(ctos((p)->p_tsize)))) ! 20: #define vtosp(p, v) ((int)(BTOPUSRSTACK - 1 - (v))) ! 21: #define tptov(p, i) ((unsigned)(i)) ! 22: #define dptov(p, i) ((unsigned)(stoc(ctos((p)->p_tsize)) + (i))) ! 23: #define sptov(p, i) ((unsigned)(BTOPUSRSTACK - 1 - (i))) ! 24: ! 25: /* Tell whether virtual page numbers are in text|data|stack segment */ ! 26: #define isassv(p, v) ((v) >= BTOPUSRSTACK - (p)->p_ssize) ! 27: #define isatsv(p, v) ((v) < (p)->p_tsize) ! 28: #define isadsv(p, v) ((v) >= stoc(ctos((p)->p_tsize)) && \ ! 29: (v) < (p)->p_tsize + (p)->p_dsize) ! 30: #else ! 31: /* Virtual page numbers to text|data|stack segment page numbers and back */ ! 32: #define vtotp(p, v) ((int)(v)-LOWPAGES) ! 33: #define vtodp(p, v) ((int)((v) - stoc(ctos((p)->p_tsize)) - LOWPAGES)) ! 34: #define vtosp(p, v) ((int)(BTOPUSRSTACK - 1 - (v))) ! 35: #define tptov(p, i) ((unsigned)(i) + LOWPAGES) ! 36: #define dptov(p, i) ((unsigned)(stoc(ctos((p)->p_tsize)) + (i) + LOWPAGES)) ! 37: #define sptov(p, i) ((unsigned)(BTOPUSRSTACK - 1 - (i))) ! 38: ! 39: /* Tell whether virtual page numbers are in text|data|stack segment */ ! 40: #define isassv(p, v) ((v) >= BTOPUSRSTACK - (p)->p_ssize) ! 41: #define isatsv(p, v) (((v) - LOWPAGES) < (p)->p_tsize) ! 42: #define isadsv(p, v) (((v) - LOWPAGES) >= stoc(ctos((p)->p_tsize)) && \ ! 43: !isassv(p, v)) ! 44: #endif ! 45: ! 46: /* Tell whether pte's are text|data|stack */ ! 47: #define isaspte(p, pte) ((pte) > sptopte(p, (p)->p_ssize)) ! 48: #define isatpte(p, pte) ((pte) < dptopte(p, 0)) ! 49: #define isadpte(p, pte) (!isaspte(p, pte) && !isatpte(p, pte)) ! 50: ! 51: /* Text|data|stack pte's to segment page numbers and back */ ! 52: #define ptetotp(p, pte) ((pte) - (p)->p_p0br) ! 53: #define ptetodp(p, pte) (((pte) - (p)->p_p0br) - (p)->p_tsize) ! 54: #define ptetosp(p, pte) (((p)->p_addr - (pte)) - 1) ! 55: ! 56: #define tptopte(p, i) ((p)->p_p0br + (i)) ! 57: #define dptopte(p, i) ((p)->p_p0br + ((p)->p_tsize + (i))) ! 58: #define sptopte(p, i) ((p)->p_addr - (1 + (i))) ! 59: ! 60: /* Convert a virtual page number to a pte address. */ ! 61: #define vtopte(p, v) \ ! 62: (((v) < (p)->p_tsize + (p)->p_dsize) ? ((p)->p_p0br + (v)) : \ ! 63: ((p)->p_addr - (BTOPUSRSTACK - (v)))) ! 64: #ifdef notdef ! 65: struct pte *vtopte(); ! 66: #endif ! 67: ! 68: /* Bytes to pages without rounding, and back */ ! 69: #define btop(x) (((unsigned)(x)) >> PGSHIFT) ! 70: #define ptob(x) ((caddr_t)((x) << PGSHIFT)) ! 71: ! 72: /* Turn virtual addresses into kernel map indices */ ! 73: #define kmxtob(a) (usrpt + (a) * NPTEPG) ! 74: #define btokmx(b) (((b) - usrpt) / NPTEPG) ! 75: ! 76: /* User area address and pcb bases */ ! 77: #define uaddr(p) (&((p)->p_p0br[(p)->p_szpt * NPTEPG - UPAGES])) ! 78: #ifdef vax ! 79: #define pcbb(p) ((p)->p_addr[0].pg_pfnum) ! 80: #endif ! 81: ! 82: /* Average new into old with aging factor time */ ! 83: #define ave(smooth, cnt, time) \ ! 84: smooth = ((time - 1) * (smooth) + (cnt)) / (time) ! 85: ! 86: /* Abstract machine dependent operations */ ! 87: #ifdef vax ! 88: #define setp0br(x) (u.u_pcb.pcb_p0br = (x), mtpr(P0BR, x)) ! 89: #define setp0lr(x) (u.u_pcb.pcb_p0lr = \ ! 90: (x) | (u.u_pcb.pcb_p0lr & AST_CLR), \ ! 91: mtpr(P0LR, x)) ! 92: #define setp1br(x) (u.u_pcb.pcb_p1br = (x), mtpr(P1BR, x)) ! 93: #define setp1lr(x) (u.u_pcb.pcb_p1lr = (x), mtpr(P1LR, x)) ! 94: #define initp1br(x) ((x) - P1PAGES) ! 95: #endif ! 96: ! 97: #define outofmem() wakeup((caddr_t)&proc[2]); ! 98: ! 99: /* ! 100: * Page clustering macros. ! 101: * ! 102: * dirtycl(pte) is the page cluster dirty? ! 103: * anycl(pte,fld) does any pte in the cluster has fld set? ! 104: * zapcl(pte,fld) = val set all fields fld in the cluster to val ! 105: * distcl(pte) distribute high bits to cluster; note that ! 106: * distcl copies everything but pg_pfnum, ! 107: * INCLUDING pg_m!!! ! 108: * ! 109: * In all cases, pte must be the low pte in the cluster, even if ! 110: * the segment grows backwards (e.g. the stack). ! 111: */ ! 112: #define H(pte) ((struct hpte *)(pte)) ! 113: ! 114: #if CLSIZE==1 ! 115: #define dirtycl(pte) dirty(pte) ! 116: #define anycl(pte,fld) ((pte)->fld) ! 117: #define zapcl(pte,fld) (pte)->fld ! 118: #define distcl(pte) ! 119: #endif ! 120: ! 121: #if CLSIZE==2 ! 122: #define dirtycl(pte) (dirty(pte) || dirty((pte)+1)) ! 123: #define anycl(pte,fld) ((pte)->fld || (((pte)+1)->fld)) ! 124: #define zapcl(pte,fld) (pte)[1].fld = (pte)[0].fld ! 125: #endif ! 126: ! 127: #if CLSIZE==4 ! 128: #define dirtycl(pte) \ ! 129: (dirty(pte) || dirty((pte)+1) || dirty((pte)+2) || dirty((pte)+3)) ! 130: #define anycl(pte,fld) \ ! 131: ((pte)->fld || (((pte)+1)->fld) || (((pte)+2)->fld) || (((pte)+3)->fld)) ! 132: #define zapcl(pte,fld) \ ! 133: (pte)[3].fld = (pte)[2].fld = (pte)[1].fld = (pte)[0].fld ! 134: #endif ! 135: ! 136: #ifndef distcl ! 137: #define distcl(pte) zapcl(H(pte),pg_high) ! 138: #endif ! 139: ! 140: /* ! 141: * Lock a page frame. ! 142: */ ! 143: #define MLOCK(c) { \ ! 144: while ((c)->c_lock) { \ ! 145: (c)->c_want = 1; \ ! 146: sleep((caddr_t)(c), PSWP+1); \ ! 147: } \ ! 148: (c)->c_lock = 1; \ ! 149: } ! 150: /* ! 151: * Unlock a page frame. ! 152: */ ! 153: #define MUNLOCK(c) { \ ! 154: if (c->c_want) { \ ! 155: wakeup((caddr_t)c); \ ! 156: c->c_want = 0; \ ! 157: } \ ! 158: c->c_lock = 0; \ ! 159: }
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