pte.h revision 1.2
1 1.2 matt /* $NetBSD: pte.h,v 1.2 2011/01/18 01:02:54 matt Exp $ */ 2 1.1 matt /*- 3 1.2 matt * Copyright (c) 2010, 2011 The NetBSD Foundation, Inc. 4 1.1 matt * All rights reserved. 5 1.1 matt * 6 1.1 matt * This code is derived from software contributed to The NetBSD Foundation 7 1.2 matt * by Raytheon BBN Technologies Corp and Defense Advanced Research Projects 8 1.2 matt * Agency and which was developed by Matt Thomas of 3am Software Foundry. 9 1.2 matt * 10 1.2 matt * This material is based upon work supported by the Defense Advanced Research 11 1.2 matt * Projects Agency and Space and Naval Warfare Systems Center, Pacific, under 12 1.2 matt * Contract No. N66001-09-C-2073. 13 1.2 matt * Approved for Public Release, Distribution Unlimited 14 1.1 matt * 15 1.1 matt * Redistribution and use in source and binary forms, with or without 16 1.1 matt * modification, are permitted provided that the following conditions 17 1.1 matt * are met: 18 1.1 matt * 1. Redistributions of source code must retain the above copyright 19 1.1 matt * notice, this list of conditions and the following disclaimer. 20 1.1 matt * 2. Redistributions in binary form must reproduce the above copyright 21 1.1 matt * notice, this list of conditions and the following disclaimer in the 22 1.1 matt * documentation and/or other materials provided with the distribution. 23 1.1 matt * 24 1.1 matt * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 25 1.1 matt * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 26 1.1 matt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 27 1.1 matt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 28 1.1 matt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 29 1.1 matt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 30 1.1 matt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 31 1.1 matt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 32 1.1 matt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 33 1.1 matt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 34 1.1 matt * POSSIBILITY OF SUCH DAMAGE. 35 1.1 matt */ 36 1.1 matt 37 1.1 matt #ifndef _POWERPC_BOOKE_PTE_H_ 38 1.1 matt #define _POWERPC_BOOKE_PTE_H_ 39 1.1 matt 40 1.1 matt #ifndef _LOCORE 41 1.1 matt typedef __uint32_t pt_entry_t; 42 1.1 matt #endif 43 1.1 matt 44 1.2 matt #include <powerpc/booke/spr.h> 45 1.2 matt 46 1.1 matt /* 47 1.1 matt * The PTE format is software and must be translated into the various portions 48 1.1 matt * X W R are separted by single bits so that they can map to the MAS2 bits 49 1.1 matt * UX/UW/UR or SX/SW/SR by a mask and a shift. 50 1.1 matt */ 51 1.2 matt #define PTE_IO (PTE_I|PTE_G|PTE_xW|PTE_xR) 52 1.2 matt #define PTE_DEFAULT (PTE_M|PTE_xX|PTE_xW|PTE_xR) 53 1.2 matt #define PTE_MAS3_MASK (MAS3_RPN|MAS3_U2|MAS3_U0) 54 1.1 matt #define PTE_MAS2_MASK (MAS2_WIMGE) 55 1.1 matt #define PTE_RPN_MASK MAS3_RPN /* MAS3[RPN] */ 56 1.1 matt #define PTE_RWX_MASK (PTE_xX|PTE_xW|PTE_xR) 57 1.1 matt #define PTE_WIRED (MAS3_U0 << 2) /* page is wired (PTE only) */ 58 1.1 matt #define PTE_xX (MAS3_U0 << 1) /* MAS2[UX] | MAS2[SX] */ 59 1.1 matt #define PTE_UNSYNCED MAS3_U0 /* page needs isync */ 60 1.1 matt #define PTE_xW MAS3_U1 /* MAS2[UW] | MAS2[SW] */ 61 1.1 matt #define PTE_UNMODIFIED MAS3_U2 /* page is unmodified */ 62 1.1 matt #define PTE_xR MAS3_U3 /* MAS2[UR] | MAS2[SR] */ 63 1.2 matt #define PTE_RWX_SHIFT 6 64 1.2 matt #define PTE_UNUSED 0x00000020 65 1.1 matt #define PTE_WIMGE_MASK MAS2_WIMGE 66 1.2 matt #define PTE_WIG (PTE_W|PTE_I|PTE_G) 67 1.1 matt #define PTE_W MAS2_W /* Write-through */ 68 1.1 matt #define PTE_I MAS2_I /* cache-Inhibited */ 69 1.1 matt #define PTE_M MAS2_M /* Memory coherence */ 70 1.1 matt #define PTE_G MAS2_G /* Guarded */ 71 1.1 matt #define PTE_E MAS2_E /* [Little] Endian */ 72 1.1 matt 73 1.2 matt #ifndef _LOCORE 74 1.2 matt #ifdef _KERNEL 75 1.2 matt 76 1.2 matt static inline bool 77 1.2 matt pte_cached_p(pt_entry_t pt_entry) 78 1.2 matt { 79 1.2 matt return (pt_entry & PTE_I) == 0; 80 1.2 matt } 81 1.2 matt 82 1.2 matt static inline bool 83 1.2 matt pte_modified_p(pt_entry_t pt_entry) 84 1.2 matt { 85 1.2 matt return (pt_entry & (PTE_UNMODIFIED|PTE_xW)) == PTE_xW; 86 1.2 matt } 87 1.2 matt 88 1.2 matt static inline bool 89 1.2 matt pte_valid_p(pt_entry_t pt_entry) 90 1.2 matt { 91 1.2 matt return pt_entry != 0; 92 1.2 matt } 93 1.2 matt 94 1.2 matt static inline bool 95 1.2 matt pte_exec_p(pt_entry_t pt_entry) 96 1.2 matt { 97 1.2 matt return (pt_entry & PTE_xX) != 0; 98 1.2 matt } 99 1.2 matt 100 1.2 matt static inline bool 101 1.2 matt pte_deferred_exec_p(pt_entry_t pt_entry) 102 1.2 matt { 103 1.2 matt //return (pt_entry & (PTE_xX|PTE_UNSYNCED)) == (PTE_xX|PTE_UNSYNCED); 104 1.2 matt return (pt_entry & PTE_UNSYNCED) == PTE_UNSYNCED; 105 1.2 matt } 106 1.2 matt 107 1.2 matt static inline bool 108 1.2 matt pte_wired_p(pt_entry_t pt_entry) 109 1.2 matt { 110 1.2 matt return (pt_entry & PTE_WIRED) != 0; 111 1.2 matt } 112 1.2 matt 113 1.2 matt static inline pt_entry_t 114 1.2 matt pte_nv_entry(bool kernel) 115 1.2 matt { 116 1.2 matt return 0; 117 1.2 matt } 118 1.2 matt 119 1.2 matt static inline paddr_t 120 1.2 matt pte_to_paddr(pt_entry_t pt_entry) 121 1.2 matt { 122 1.2 matt return (paddr_t)(pt_entry & PTE_RPN_MASK); 123 1.2 matt } 124 1.2 matt 125 1.2 matt static inline pt_entry_t 126 1.2 matt pte_iouncached_bits(void) 127 1.2 matt { 128 1.2 matt return PTE_W|PTE_I|PTE_G; 129 1.2 matt } 130 1.2 matt 131 1.2 matt static inline pt_entry_t 132 1.2 matt pte_ionocached_bits(void) 133 1.2 matt { 134 1.2 matt return PTE_WIG; 135 1.2 matt } 136 1.2 matt 137 1.2 matt static inline pt_entry_t 138 1.2 matt pte_iocached_bits(void) 139 1.2 matt { 140 1.2 matt return PTE_G; 141 1.2 matt } 142 1.2 matt 143 1.2 matt static inline pt_entry_t 144 1.2 matt pte_nocached_bits(void) 145 1.2 matt { 146 1.2 matt return PTE_M|PTE_I; 147 1.2 matt } 148 1.2 matt 149 1.2 matt static inline pt_entry_t 150 1.2 matt pte_cached_bits(void) 151 1.2 matt { 152 1.2 matt return PTE_M; 153 1.2 matt } 154 1.2 matt 155 1.2 matt static inline pt_entry_t 156 1.2 matt pte_cached_change(pt_entry_t pt_entry, bool cached) 157 1.2 matt { 158 1.2 matt return (pt_entry & ~PTE_I) | (cached ? 0 : PTE_I); 159 1.2 matt } 160 1.2 matt 161 1.2 matt static inline pt_entry_t 162 1.2 matt pte_wired_entry(void) 163 1.2 matt { 164 1.2 matt return PTE_WIRED; 165 1.2 matt } 166 1.2 matt 167 1.2 matt static inline pt_entry_t 168 1.2 matt pte_prot_nowrite(pt_entry_t pt_entry) 169 1.2 matt { 170 1.2 matt return pt_entry & ~(PTE_xW|PTE_UNMODIFIED); 171 1.2 matt } 172 1.2 matt 173 1.2 matt static inline pt_entry_t 174 1.2 matt pte_prot_downgrade(pt_entry_t pt_entry, vm_prot_t newprot) 175 1.2 matt { 176 1.2 matt pt_entry &= ~(PTE_xW|PTE_UNMODIFIED); 177 1.2 matt if ((newprot & VM_PROT_EXECUTE) == 0) 178 1.2 matt pt_entry &= ~(PTE_xX|PTE_UNSYNCED); 179 1.2 matt return pt_entry; 180 1.2 matt } 181 1.2 matt 182 1.2 matt static inline pt_entry_t 183 1.2 matt pte_prot_bits(struct vm_page *pg, vm_prot_t prot) 184 1.2 matt { 185 1.2 matt KASSERT(prot & VM_PROT_READ); 186 1.2 matt pt_entry_t pt_entry = PTE_xR; 187 1.2 matt if (prot & VM_PROT_EXECUTE) { 188 1.2 matt #if 0 189 1.2 matt pt_entry |= PTE_xX; 190 1.2 matt if (pg != NULL && !VM_PAGE_MD_EXECPAGE_P(pg)) 191 1.2 matt pt_entry |= PTE_UNSYNCED; 192 1.2 matt #elif 1 193 1.2 matt if (pg != NULL && !VM_PAGE_MD_EXECPAGE_P(pg)) 194 1.2 matt pt_entry |= PTE_UNSYNCED; 195 1.2 matt else 196 1.2 matt pt_entry |= PTE_xX; 197 1.2 matt #else 198 1.2 matt pt_entry |= PTE_UNSYNCED; 199 1.2 matt #endif 200 1.2 matt } 201 1.2 matt if (prot & VM_PROT_WRITE) { 202 1.2 matt pt_entry |= PTE_xW; 203 1.2 matt if (pg != NULL && !VM_PAGE_MD_MODIFIED_P(pg)) 204 1.2 matt pt_entry |= PTE_UNMODIFIED; 205 1.2 matt } 206 1.2 matt return pt_entry; 207 1.2 matt } 208 1.2 matt 209 1.2 matt static inline pt_entry_t 210 1.2 matt pte_flag_bits(struct vm_page *pg, int flags) 211 1.2 matt { 212 1.2 matt if (__predict_false(flags & PMAP_MD_NOCACHE)) { 213 1.2 matt if (__predict_true(pg != NULL)) { 214 1.2 matt return pte_nocached_bits(); 215 1.2 matt } else { 216 1.2 matt return pte_ionocached_bits(); 217 1.2 matt } 218 1.2 matt } else { 219 1.2 matt if (__predict_false(pg != NULL)) { 220 1.2 matt return pte_cached_bits(); 221 1.2 matt } else { 222 1.2 matt return pte_iocached_bits(); 223 1.2 matt } 224 1.2 matt } 225 1.2 matt } 226 1.2 matt 227 1.2 matt static inline pt_entry_t 228 1.2 matt pte_make_enter(paddr_t pa, struct vm_page *pg, vm_prot_t prot, 229 1.2 matt int flags, bool kernel) 230 1.2 matt { 231 1.2 matt pt_entry_t pt_entry = (pt_entry_t) pa & PTE_RPN_MASK; 232 1.2 matt 233 1.2 matt pt_entry |= pte_flag_bits(pg, flags); 234 1.2 matt pt_entry |= pte_prot_bits(pg, prot); 235 1.2 matt 236 1.2 matt return pt_entry; 237 1.2 matt } 238 1.2 matt 239 1.2 matt static inline pt_entry_t 240 1.2 matt pte_make_kenter_pa(paddr_t pa, struct vm_page *pg, vm_prot_t prot, 241 1.2 matt int flags) 242 1.2 matt { 243 1.2 matt pt_entry_t pt_entry = (pt_entry_t) pa & PTE_RPN_MASK; 244 1.2 matt 245 1.2 matt pt_entry |= pte_flag_bits(pg, flags); 246 1.2 matt pt_entry |= pte_prot_bits(NULL, prot); /* pretend unmanaged */ 247 1.2 matt 248 1.2 matt return pt_entry; 249 1.2 matt } 250 1.2 matt #endif /* _KERNEL */ 251 1.2 matt #endif /* !_LOCORE */ 252 1.2 matt 253 1.1 matt #endif /* !_POWERPC_BOOKE_PTE_H_ */ 254
Indexes created Mon Sep 29 21:09:56 GMT 2025