pmap.h revision 1.112
1 1.112 ad /* $NetBSD: pmap.h,v 1.112 2020/03/14 14:05:44 ad Exp $ */ 2 1.2 yamt 3 1.2 yamt /* 4 1.2 yamt * Copyright (c) 1997 Charles D. Cranor and Washington University. 5 1.2 yamt * All rights reserved. 6 1.2 yamt * 7 1.2 yamt * Redistribution and use in source and binary forms, with or without 8 1.2 yamt * modification, are permitted provided that the following conditions 9 1.2 yamt * are met: 10 1.2 yamt * 1. Redistributions of source code must retain the above copyright 11 1.2 yamt * notice, this list of conditions and the following disclaimer. 12 1.2 yamt * 2. Redistributions in binary form must reproduce the above copyright 13 1.2 yamt * notice, this list of conditions and the following disclaimer in the 14 1.2 yamt * documentation and/or other materials provided with the distribution. 15 1.2 yamt * 16 1.2 yamt * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.2 yamt * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.2 yamt * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.2 yamt * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.2 yamt * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 21 1.2 yamt * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 1.2 yamt * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 1.2 yamt * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 1.2 yamt * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 25 1.2 yamt * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 1.2 yamt */ 27 1.2 yamt 28 1.2 yamt /* 29 1.2 yamt * Copyright (c) 2001 Wasabi Systems, Inc. 30 1.2 yamt * All rights reserved. 31 1.2 yamt * 32 1.2 yamt * Written by Frank van der Linden for Wasabi Systems, Inc. 33 1.2 yamt * 34 1.2 yamt * Redistribution and use in source and binary forms, with or without 35 1.2 yamt * modification, are permitted provided that the following conditions 36 1.2 yamt * are met: 37 1.2 yamt * 1. Redistributions of source code must retain the above copyright 38 1.2 yamt * notice, this list of conditions and the following disclaimer. 39 1.2 yamt * 2. Redistributions in binary form must reproduce the above copyright 40 1.2 yamt * notice, this list of conditions and the following disclaimer in the 41 1.2 yamt * documentation and/or other materials provided with the distribution. 42 1.2 yamt * 3. All advertising materials mentioning features or use of this software 43 1.2 yamt * must display the following acknowledgement: 44 1.2 yamt * This product includes software developed for the NetBSD Project by 45 1.2 yamt * Wasabi Systems, Inc. 46 1.2 yamt * 4. The name of Wasabi Systems, Inc. may not be used to endorse 47 1.2 yamt * or promote products derived from this software without specific prior 48 1.2 yamt * written permission. 49 1.2 yamt * 50 1.2 yamt * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 51 1.2 yamt * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 52 1.2 yamt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 53 1.2 yamt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 54 1.2 yamt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 55 1.2 yamt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 56 1.2 yamt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 57 1.2 yamt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 58 1.2 yamt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 59 1.2 yamt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 60 1.2 yamt * POSSIBILITY OF SUCH DAMAGE. 61 1.2 yamt */ 62 1.2 yamt 63 1.2 yamt /* 64 1.2 yamt * pmap.h: see pmap.c for the history of this pmap module. 65 1.2 yamt */ 66 1.2 yamt 67 1.2 yamt #ifndef _X86_PMAP_H_ 68 1.2 yamt #define _X86_PMAP_H_ 69 1.2 yamt 70 1.2 yamt /* 71 1.2 yamt * pl*_pi: index in the ptp page for a pde mapping a VA. 72 1.2 yamt * (pl*_i below is the index in the virtual array of all pdes per level) 73 1.2 yamt */ 74 1.2 yamt #define pl1_pi(VA) (((VA_SIGN_POS(VA)) & L1_MASK) >> L1_SHIFT) 75 1.2 yamt #define pl2_pi(VA) (((VA_SIGN_POS(VA)) & L2_MASK) >> L2_SHIFT) 76 1.2 yamt #define pl3_pi(VA) (((VA_SIGN_POS(VA)) & L3_MASK) >> L3_SHIFT) 77 1.2 yamt #define pl4_pi(VA) (((VA_SIGN_POS(VA)) & L4_MASK) >> L4_SHIFT) 78 1.91 maxv #define pl_pi(va, lvl) \ 79 1.91 maxv (((VA_SIGN_POS(va)) & ptp_masks[(lvl)-1]) >> ptp_shifts[(lvl)-1]) 80 1.2 yamt 81 1.2 yamt /* 82 1.2 yamt * pl*_i: generate index into pde/pte arrays in virtual space 83 1.37 yamt * 84 1.37 yamt * pl_i(va, X) == plX_i(va) <= pl_i_roundup(va, X) 85 1.2 yamt */ 86 1.2 yamt #define pl1_i(VA) (((VA_SIGN_POS(VA)) & L1_FRAME) >> L1_SHIFT) 87 1.2 yamt #define pl2_i(VA) (((VA_SIGN_POS(VA)) & L2_FRAME) >> L2_SHIFT) 88 1.2 yamt #define pl3_i(VA) (((VA_SIGN_POS(VA)) & L3_FRAME) >> L3_SHIFT) 89 1.2 yamt #define pl4_i(VA) (((VA_SIGN_POS(VA)) & L4_FRAME) >> L4_SHIFT) 90 1.2 yamt #define pl_i(va, lvl) \ 91 1.90 maxv (((VA_SIGN_POS(va)) & ptp_frames[(lvl)-1]) >> ptp_shifts[(lvl)-1]) 92 1.2 yamt 93 1.90 maxv #define pl_i_roundup(va, lvl) pl_i((va)+ ~ptp_frames[(lvl)-1], (lvl)) 94 1.2 yamt 95 1.2 yamt /* 96 1.2 yamt * PTP macros: 97 1.2 yamt * a PTP's index is the PD index of the PDE that points to it 98 1.2 yamt * a PTP's offset is the byte-offset in the PTE space that this PTP is at 99 1.2 yamt * a PTP's VA is the first VA mapped by that PTP 100 1.2 yamt */ 101 1.2 yamt 102 1.2 yamt #define ptp_va2o(va, lvl) (pl_i(va, (lvl)+1) * PAGE_SIZE) 103 1.2 yamt 104 1.29 jym /* size of a PDP: usually one page, except for PAE */ 105 1.12 bouyer #ifdef PAE 106 1.12 bouyer #define PDP_SIZE 4 107 1.12 bouyer #else 108 1.12 bouyer #define PDP_SIZE 1 109 1.12 bouyer #endif 110 1.12 bouyer 111 1.12 bouyer 112 1.2 yamt #if defined(_KERNEL) 113 1.52 rmind #include <sys/kcpuset.h> 114 1.110 ad #include <sys/rwlock.h> 115 1.94 maxv #include <x86/pmap_pv.h> 116 1.57 skrll #include <uvm/pmap/pmap_pvt.h> 117 1.52 rmind 118 1.98 maxv #define PATENTRY(n, type) (type << ((n) * 8)) 119 1.98 maxv #define PAT_UC 0x0ULL 120 1.98 maxv #define PAT_WC 0x1ULL 121 1.98 maxv #define PAT_WT 0x4ULL 122 1.98 maxv #define PAT_WP 0x5ULL 123 1.98 maxv #define PAT_WB 0x6ULL 124 1.98 maxv #define PAT_UCMINUS 0x7ULL 125 1.98 maxv 126 1.71 maxv #define BTSEG_NONE 0 127 1.71 maxv #define BTSEG_TEXT 1 128 1.71 maxv #define BTSEG_RODATA 2 129 1.71 maxv #define BTSEG_DATA 3 130 1.71 maxv #define BTSPACE_NSEGS 64 131 1.71 maxv 132 1.69 maxv struct bootspace { 133 1.70 maxv struct { 134 1.70 maxv vaddr_t va; 135 1.70 maxv paddr_t pa; 136 1.70 maxv size_t sz; 137 1.70 maxv } head; 138 1.70 maxv 139 1.69 maxv /* Kernel segments. */ 140 1.69 maxv struct { 141 1.71 maxv int type; 142 1.69 maxv vaddr_t va; 143 1.69 maxv paddr_t pa; 144 1.69 maxv size_t sz; 145 1.71 maxv } segs[BTSPACE_NSEGS]; 146 1.69 maxv 147 1.69 maxv /* 148 1.69 maxv * The area used by the early kernel bootstrap. It contains the kernel 149 1.69 maxv * symbols, the preloaded modules, the bootstrap tables, and the ISA I/O 150 1.69 maxv * mem. 151 1.69 maxv */ 152 1.69 maxv struct { 153 1.69 maxv vaddr_t va; 154 1.69 maxv paddr_t pa; 155 1.69 maxv size_t sz; 156 1.69 maxv } boot; 157 1.69 maxv 158 1.69 maxv /* A magic VA usable by the bootstrap code. */ 159 1.69 maxv vaddr_t spareva; 160 1.69 maxv 161 1.69 maxv /* Virtual address of the page directory. */ 162 1.69 maxv vaddr_t pdir; 163 1.69 maxv 164 1.80 maxv /* Area dedicated to kernel modules (amd64 only). */ 165 1.80 maxv vaddr_t smodule; 166 1.69 maxv vaddr_t emodule; 167 1.69 maxv }; 168 1.69 maxv 169 1.92 maxv #define SLAREA_USER 0 170 1.92 maxv #define SLAREA_PTE 1 171 1.92 maxv #define SLAREA_MAIN 2 172 1.92 maxv #define SLAREA_PCPU 3 173 1.92 maxv #define SLAREA_DMAP 4 174 1.92 maxv #define SLAREA_HYPV 5 175 1.92 maxv #define SLAREA_ASAN 6 176 1.105 maxv #define SLAREA_MSAN 7 177 1.105 maxv #define SLAREA_KERN 8 178 1.105 maxv #define SLSPACE_NAREAS 9 179 1.81 maxv 180 1.81 maxv struct slotspace { 181 1.81 maxv struct { 182 1.81 maxv size_t sslot; /* start slot */ 183 1.81 maxv size_t nslot; /* # of slots */ 184 1.81 maxv bool active; /* area is active */ 185 1.81 maxv } area[SLSPACE_NAREAS]; 186 1.81 maxv }; 187 1.81 maxv 188 1.83 maxv extern struct slotspace slotspace; 189 1.83 maxv 190 1.73 maxv #ifndef MAXGDTSIZ 191 1.73 maxv #define MAXGDTSIZ 65536 /* XXX */ 192 1.73 maxv #endif 193 1.73 maxv 194 1.73 maxv struct pcpu_entry { 195 1.73 maxv uint8_t gdt[MAXGDTSIZ]; 196 1.102 maxv uint8_t ldt[MAXGDTSIZ]; 197 1.73 maxv uint8_t tss[PAGE_SIZE]; 198 1.74 maxv uint8_t ist0[PAGE_SIZE]; 199 1.73 maxv uint8_t ist1[PAGE_SIZE]; 200 1.73 maxv uint8_t ist2[PAGE_SIZE]; 201 1.77 maxv uint8_t ist3[PAGE_SIZE]; 202 1.75 maxv uint8_t rsp0[2 * PAGE_SIZE]; 203 1.73 maxv } __packed; 204 1.73 maxv 205 1.73 maxv struct pcpu_area { 206 1.75 maxv #ifdef SVS 207 1.75 maxv uint8_t utls[PAGE_SIZE]; 208 1.75 maxv #endif 209 1.73 maxv uint8_t idt[PAGE_SIZE]; 210 1.73 maxv uint8_t ldt[PAGE_SIZE]; 211 1.73 maxv struct pcpu_entry ent[MAXCPUS]; 212 1.73 maxv } __packed; 213 1.73 maxv 214 1.73 maxv extern struct pcpu_area *pcpuarea; 215 1.73 maxv 216 1.101 maxv #define PMAP_PCID_KERN 0 217 1.101 maxv #define PMAP_PCID_USER 1 218 1.101 maxv 219 1.2 yamt /* 220 1.2 yamt * pmap data structures: see pmap.c for details of locking. 221 1.2 yamt */ 222 1.2 yamt 223 1.2 yamt /* 224 1.2 yamt * we maintain a list of all non-kernel pmaps 225 1.2 yamt */ 226 1.2 yamt 227 1.2 yamt LIST_HEAD(pmap_head, pmap); /* struct pmap_head: head of a pmap list */ 228 1.2 yamt 229 1.2 yamt /* 230 1.43 jym * linked list of all non-kernel pmaps 231 1.43 jym */ 232 1.43 jym extern struct pmap_head pmaps; 233 1.43 jym extern kmutex_t pmaps_lock; /* protects pmaps */ 234 1.43 jym 235 1.43 jym /* 236 1.108 ad * pool_cache(9) that pmaps are allocated from 237 1.46 jym */ 238 1.108 ad extern struct pool_cache pmap_cache; 239 1.46 jym 240 1.46 jym /* 241 1.2 yamt * the pmap structure 242 1.2 yamt * 243 1.39 rmind * note that the pm_obj contains the lock pointer, the reference count, 244 1.2 yamt * page list, and number of PTPs within the pmap. 245 1.2 yamt * 246 1.39 rmind * pm_lock is the same as the lock for vm object 0. Changes to 247 1.2 yamt * the other objects may only be made if that lock has been taken 248 1.2 yamt * (the other object locks are only used when uvm_pagealloc is called) 249 1.2 yamt */ 250 1.2 yamt 251 1.2 yamt struct pmap { 252 1.108 ad struct uvm_object pm_obj[PTP_LEVELS-1];/* objects for lvl >= 1) */ 253 1.108 ad LIST_ENTRY(pmap) pm_list; /* list of all pmaps */ 254 1.108 ad pd_entry_t *pm_pdir; /* VA of PD */ 255 1.33 jym paddr_t pm_pdirpa[PDP_SIZE]; /* PA of PDs (read-only after create) */ 256 1.2 yamt struct vm_page *pm_ptphint[PTP_LEVELS-1]; 257 1.2 yamt /* pointer to a PTP in our pmap */ 258 1.108 ad struct pmap_statistics pm_stats; /* pmap stats */ 259 1.2 yamt 260 1.2 yamt #if !defined(__x86_64__) 261 1.2 yamt vaddr_t pm_hiexec; /* highest executable mapping */ 262 1.2 yamt #endif /* !defined(__x86_64__) */ 263 1.109 ad struct lwp *pm_remove_all; /* who's emptying the pmap */ 264 1.2 yamt 265 1.2 yamt union descriptor *pm_ldt; /* user-set LDT */ 266 1.22 ad size_t pm_ldt_len; /* size of LDT in bytes */ 267 1.2 yamt int pm_ldt_sel; /* LDT selector */ 268 1.52 rmind kcpuset_t *pm_cpus; /* mask of CPUs using pmap */ 269 1.52 rmind kcpuset_t *pm_kernel_cpus; /* mask of CPUs using kernel part 270 1.2 yamt of pmap */ 271 1.52 rmind kcpuset_t *pm_xen_ptp_cpus; /* mask of CPUs which have this pmap's 272 1.50 bouyer ptp mapped */ 273 1.39 rmind uint64_t pm_ncsw; /* for assertions */ 274 1.109 ad LIST_HEAD(,vm_page) pm_gc_ptp; /* PTPs queued for free */ 275 1.89 maxv 276 1.89 maxv /* Used by NVMM. */ 277 1.93 maxv int (*pm_enter)(struct pmap *, vaddr_t, paddr_t, vm_prot_t, u_int); 278 1.95 maxv bool (*pm_extract)(struct pmap *, vaddr_t, paddr_t *); 279 1.93 maxv void (*pm_remove)(struct pmap *, vaddr_t, vaddr_t); 280 1.95 maxv int (*pm_sync_pv)(struct vm_page *, vaddr_t, paddr_t, int, uint8_t *, 281 1.95 maxv pt_entry_t *); 282 1.95 maxv void (*pm_pp_remove_ent)(struct pmap *, struct vm_page *, pt_entry_t, 283 1.95 maxv vaddr_t); 284 1.95 maxv void (*pm_write_protect)(struct pmap *, vaddr_t, vaddr_t, vm_prot_t); 285 1.95 maxv void (*pm_unwire)(struct pmap *, vaddr_t); 286 1.95 maxv 287 1.89 maxv void (*pm_tlb_flush)(struct pmap *); 288 1.89 maxv void *pm_data; 289 1.108 ad 290 1.108 ad kmutex_t pm_lock /* locks for pm_objs */ 291 1.108 ad __aligned(64); /* give lock own cache line */ 292 1.110 ad krwlock_t pm_dummy_lock; /* ugly hack for abusing uvm_object */ 293 1.2 yamt }; 294 1.2 yamt 295 1.33 jym /* macro to access pm_pdirpa slots */ 296 1.12 bouyer #ifdef PAE 297 1.12 bouyer #define pmap_pdirpa(pmap, index) \ 298 1.12 bouyer ((pmap)->pm_pdirpa[l2tol3(index)] + l2tol2(index) * sizeof(pd_entry_t)) 299 1.12 bouyer #else 300 1.12 bouyer #define pmap_pdirpa(pmap, index) \ 301 1.33 jym ((pmap)->pm_pdirpa[0] + (index) * sizeof(pd_entry_t)) 302 1.12 bouyer #endif 303 1.12 bouyer 304 1.2 yamt /* 305 1.28 cegger * MD flags that we use for pmap_enter and pmap_kenter_pa: 306 1.23 cegger */ 307 1.23 cegger 308 1.23 cegger /* 309 1.2 yamt * global kernel variables 310 1.2 yamt */ 311 1.2 yamt 312 1.32 jym /* 313 1.32 jym * PDPpaddr is the physical address of the kernel's PDP. 314 1.32 jym * - i386 non-PAE and amd64: PDPpaddr corresponds directly to the %cr3 315 1.32 jym * value associated to the kernel process, proc0. 316 1.33 jym * - i386 PAE: it still represents the PA of the kernel's PDP (L2). Due to 317 1.33 jym * the L3 PD, it cannot be considered as the equivalent of a %cr3 any more. 318 1.32 jym * - Xen: it corresponds to the PFN of the kernel's PDP. 319 1.32 jym */ 320 1.2 yamt extern u_long PDPpaddr; 321 1.2 yamt 322 1.103 maxv extern pd_entry_t pmap_pg_g; /* do we support PTE_G? */ 323 1.103 maxv extern pd_entry_t pmap_pg_nx; /* do we support PTE_NX? */ 324 1.68 ozaki extern int pmap_largepages; 325 1.2 yamt extern long nkptp[PTP_LEVELS]; 326 1.2 yamt 327 1.2 yamt /* 328 1.2 yamt * macros 329 1.2 yamt */ 330 1.2 yamt 331 1.2 yamt #define pmap_resident_count(pmap) ((pmap)->pm_stats.resident_count) 332 1.2 yamt #define pmap_wired_count(pmap) ((pmap)->pm_stats.wired_count) 333 1.2 yamt 334 1.104 maxv #define pmap_clear_modify(pg) pmap_clear_attrs(pg, PP_ATTRS_D) 335 1.104 maxv #define pmap_clear_reference(pg) pmap_clear_attrs(pg, PP_ATTRS_A) 336 1.55 christos #define pmap_copy(DP,SP,D,L,S) __USE(L) 337 1.104 maxv #define pmap_is_modified(pg) pmap_test_attrs(pg, PP_ATTRS_D) 338 1.104 maxv #define pmap_is_referenced(pg) pmap_test_attrs(pg, PP_ATTRS_A) 339 1.2 yamt #define pmap_move(DP,SP,D,L,S) 340 1.35 jmcneill #define pmap_phys_address(ppn) (x86_ptob(ppn) & ~X86_MMAP_FLAG_MASK) 341 1.35 jmcneill #define pmap_mmap_flags(ppn) x86_mmap_flags(ppn) 342 1.99 maxv #define pmap_valid_entry(E) ((E) & PTE_P) /* is PDE or PTE valid? */ 343 1.2 yamt 344 1.35 jmcneill #if defined(__x86_64__) || defined(PAE) 345 1.35 jmcneill #define X86_MMAP_FLAG_SHIFT (64 - PGSHIFT) 346 1.35 jmcneill #else 347 1.35 jmcneill #define X86_MMAP_FLAG_SHIFT (32 - PGSHIFT) 348 1.35 jmcneill #endif 349 1.35 jmcneill 350 1.35 jmcneill #define X86_MMAP_FLAG_MASK 0xf 351 1.35 jmcneill #define X86_MMAP_FLAG_PREFETCH 0x1 352 1.2 yamt 353 1.2 yamt /* 354 1.2 yamt * prototypes 355 1.2 yamt */ 356 1.2 yamt 357 1.2 yamt void pmap_activate(struct lwp *); 358 1.2 yamt void pmap_bootstrap(vaddr_t); 359 1.2 yamt bool pmap_clear_attrs(struct vm_page *, unsigned); 360 1.56 riastrad bool pmap_pv_clear_attrs(paddr_t, unsigned); 361 1.2 yamt void pmap_deactivate(struct lwp *); 362 1.56 riastrad void pmap_page_remove(struct vm_page *); 363 1.56 riastrad void pmap_pv_remove(paddr_t); 364 1.2 yamt void pmap_remove(struct pmap *, vaddr_t, vaddr_t); 365 1.2 yamt bool pmap_test_attrs(struct vm_page *, unsigned); 366 1.2 yamt void pmap_write_protect(struct pmap *, vaddr_t, vaddr_t, vm_prot_t); 367 1.2 yamt void pmap_load(void); 368 1.6 jmcneill paddr_t pmap_init_tmp_pgtbl(paddr_t); 369 1.112 ad bool pmap_remove_all(struct pmap *); 370 1.60 maya void pmap_ldt_cleanup(struct lwp *); 371 1.22 ad void pmap_ldt_sync(struct pmap *); 372 1.53 chs void pmap_kremove_local(vaddr_t, vsize_t); 373 1.2 yamt 374 1.56 riastrad #define __HAVE_PMAP_PV_TRACK 1 375 1.56 riastrad void pmap_pv_init(void); 376 1.56 riastrad void pmap_pv_track(paddr_t, psize_t); 377 1.56 riastrad void pmap_pv_untrack(paddr_t, psize_t); 378 1.56 riastrad 379 1.30 dyoung void pmap_map_ptes(struct pmap *, struct pmap **, pd_entry_t **, 380 1.30 dyoung pd_entry_t * const **); 381 1.108 ad void pmap_unmap_ptes(struct pmap *, struct pmap *); 382 1.30 dyoung 383 1.100 maxv bool pmap_pdes_valid(vaddr_t, pd_entry_t * const *, pd_entry_t *, 384 1.100 maxv int *lastlvl); 385 1.30 dyoung 386 1.35 jmcneill u_int x86_mmap_flags(paddr_t); 387 1.35 jmcneill 388 1.40 tls bool pmap_is_curpmap(struct pmap *); 389 1.40 tls 390 1.97 maxv void pmap_ept_transform(struct pmap *); 391 1.97 maxv 392 1.62 maxv #ifndef __HAVE_DIRECT_MAP 393 1.62 maxv void pmap_vpage_cpu_init(struct cpu_info *); 394 1.62 maxv #endif 395 1.88 maxv vaddr_t slotspace_rand(int, size_t, size_t); 396 1.62 maxv 397 1.2 yamt vaddr_t reserve_dumppages(vaddr_t); /* XXX: not a pmap fn */ 398 1.2 yamt 399 1.39 rmind typedef enum tlbwhy { 400 1.39 rmind TLBSHOOT_APTE, 401 1.39 rmind TLBSHOOT_KENTER, 402 1.39 rmind TLBSHOOT_KREMOVE, 403 1.39 rmind TLBSHOOT_FREE_PTP1, 404 1.39 rmind TLBSHOOT_FREE_PTP2, 405 1.39 rmind TLBSHOOT_REMOVE_PTE, 406 1.39 rmind TLBSHOOT_REMOVE_PTES, 407 1.39 rmind TLBSHOOT_SYNC_PV1, 408 1.39 rmind TLBSHOOT_SYNC_PV2, 409 1.39 rmind TLBSHOOT_WRITE_PROTECT, 410 1.39 rmind TLBSHOOT_ENTER, 411 1.39 rmind TLBSHOOT_UPDATE, 412 1.39 rmind TLBSHOOT_BUS_DMA, 413 1.39 rmind TLBSHOOT_BUS_SPACE, 414 1.39 rmind TLBSHOOT__MAX, 415 1.39 rmind } tlbwhy_t; 416 1.39 rmind 417 1.39 rmind void pmap_tlb_init(void); 418 1.52 rmind void pmap_tlb_cpu_init(struct cpu_info *); 419 1.39 rmind void pmap_tlb_shootdown(pmap_t, vaddr_t, pt_entry_t, tlbwhy_t); 420 1.39 rmind void pmap_tlb_shootnow(void); 421 1.39 rmind void pmap_tlb_intr(void); 422 1.2 yamt 423 1.2 yamt #define PMAP_GROWKERNEL /* turn on pmap_growkernel interface */ 424 1.19 jmcneill #define PMAP_FORK /* turn on pmap_fork interface */ 425 1.2 yamt 426 1.2 yamt /* 427 1.2 yamt * Do idle page zero'ing uncached to avoid polluting the cache. 428 1.2 yamt */ 429 1.2 yamt bool pmap_pageidlezero(paddr_t); 430 1.2 yamt #define PMAP_PAGEIDLEZERO(pa) pmap_pageidlezero((pa)) 431 1.2 yamt 432 1.2 yamt /* 433 1.2 yamt * inline functions 434 1.2 yamt */ 435 1.2 yamt 436 1.2 yamt /* 437 1.2 yamt * pmap_update_pg: flush one page from the TLB (or flush the whole thing 438 1.2 yamt * if hardware doesn't support one-page flushing) 439 1.2 yamt */ 440 1.2 yamt 441 1.7 perry __inline static void __unused 442 1.2 yamt pmap_update_pg(vaddr_t va) 443 1.2 yamt { 444 1.4 ad invlpg(va); 445 1.2 yamt } 446 1.2 yamt 447 1.2 yamt /* 448 1.2 yamt * pmap_page_protect: change the protection of all recorded mappings 449 1.2 yamt * of a managed page 450 1.2 yamt * 451 1.2 yamt * => this function is a frontend for pmap_page_remove/pmap_clear_attrs 452 1.2 yamt * => we only have to worry about making the page more protected. 453 1.2 yamt * unprotecting a page is done on-demand at fault time. 454 1.2 yamt */ 455 1.2 yamt 456 1.7 perry __inline static void __unused 457 1.2 yamt pmap_page_protect(struct vm_page *pg, vm_prot_t prot) 458 1.2 yamt { 459 1.2 yamt if ((prot & VM_PROT_WRITE) == 0) { 460 1.2 yamt if (prot & (VM_PROT_READ|VM_PROT_EXECUTE)) { 461 1.94 maxv (void)pmap_clear_attrs(pg, PP_ATTRS_W); 462 1.2 yamt } else { 463 1.2 yamt pmap_page_remove(pg); 464 1.2 yamt } 465 1.2 yamt } 466 1.2 yamt } 467 1.2 yamt 468 1.2 yamt /* 469 1.56 riastrad * pmap_pv_protect: change the protection of all recorded mappings 470 1.56 riastrad * of an unmanaged page 471 1.56 riastrad */ 472 1.56 riastrad 473 1.56 riastrad __inline static void __unused 474 1.56 riastrad pmap_pv_protect(paddr_t pa, vm_prot_t prot) 475 1.56 riastrad { 476 1.56 riastrad if ((prot & VM_PROT_WRITE) == 0) { 477 1.56 riastrad if (prot & (VM_PROT_READ|VM_PROT_EXECUTE)) { 478 1.94 maxv (void)pmap_pv_clear_attrs(pa, PP_ATTRS_W); 479 1.56 riastrad } else { 480 1.56 riastrad pmap_pv_remove(pa); 481 1.56 riastrad } 482 1.56 riastrad } 483 1.56 riastrad } 484 1.56 riastrad 485 1.56 riastrad /* 486 1.2 yamt * pmap_protect: change the protection of pages in a pmap 487 1.2 yamt * 488 1.2 yamt * => this function is a frontend for pmap_remove/pmap_write_protect 489 1.2 yamt * => we only have to worry about making the page more protected. 490 1.2 yamt * unprotecting a page is done on-demand at fault time. 491 1.2 yamt */ 492 1.2 yamt 493 1.7 perry __inline static void __unused 494 1.2 yamt pmap_protect(struct pmap *pmap, vaddr_t sva, vaddr_t eva, vm_prot_t prot) 495 1.2 yamt { 496 1.2 yamt if ((prot & VM_PROT_WRITE) == 0) { 497 1.2 yamt if (prot & (VM_PROT_READ|VM_PROT_EXECUTE)) { 498 1.2 yamt pmap_write_protect(pmap, sva, eva, prot); 499 1.2 yamt } else { 500 1.2 yamt pmap_remove(pmap, sva, eva); 501 1.2 yamt } 502 1.2 yamt } 503 1.2 yamt } 504 1.2 yamt 505 1.2 yamt /* 506 1.2 yamt * various address inlines 507 1.2 yamt * 508 1.2 yamt * vtopte: return a pointer to the PTE mapping a VA, works only for 509 1.2 yamt * user and PT addresses 510 1.2 yamt * 511 1.2 yamt * kvtopte: return a pointer to the PTE mapping a kernel VA 512 1.2 yamt */ 513 1.2 yamt 514 1.2 yamt #include <lib/libkern/libkern.h> 515 1.2 yamt 516 1.7 perry static __inline pt_entry_t * __unused 517 1.2 yamt vtopte(vaddr_t va) 518 1.2 yamt { 519 1.2 yamt 520 1.2 yamt KASSERT(va < VM_MIN_KERNEL_ADDRESS); 521 1.2 yamt 522 1.2 yamt return (PTE_BASE + pl1_i(va)); 523 1.2 yamt } 524 1.2 yamt 525 1.7 perry static __inline pt_entry_t * __unused 526 1.2 yamt kvtopte(vaddr_t va) 527 1.2 yamt { 528 1.2 yamt pd_entry_t *pde; 529 1.2 yamt 530 1.2 yamt KASSERT(va >= VM_MIN_KERNEL_ADDRESS); 531 1.2 yamt 532 1.2 yamt pde = L2_BASE + pl2_i(va); 533 1.103 maxv if (*pde & PTE_PS) 534 1.2 yamt return ((pt_entry_t *)pde); 535 1.2 yamt 536 1.2 yamt return (PTE_BASE + pl1_i(va)); 537 1.2 yamt } 538 1.2 yamt 539 1.2 yamt paddr_t vtophys(vaddr_t); 540 1.2 yamt vaddr_t pmap_map(vaddr_t, paddr_t, paddr_t, vm_prot_t); 541 1.2 yamt void pmap_cpu_init_late(struct cpu_info *); 542 1.15 ad bool sse2_idlezero_page(void *); 543 1.2 yamt 544 1.96 cherry #ifdef XENPV 545 1.38 jym #include <sys/bitops.h> 546 1.38 jym 547 1.5 bouyer #define XPTE_MASK L1_FRAME 548 1.38 jym /* Selects the index of a PTE in (A)PTE_BASE */ 549 1.38 jym #define XPTE_SHIFT (L1_SHIFT - ilog2(sizeof(pt_entry_t))) 550 1.5 bouyer 551 1.5 bouyer /* PTE access inline fuctions */ 552 1.5 bouyer 553 1.5 bouyer /* 554 1.5 bouyer * Get the machine address of the pointed pte 555 1.5 bouyer * We use hardware MMU to get value so works only for levels 1-3 556 1.5 bouyer */ 557 1.5 bouyer 558 1.5 bouyer static __inline paddr_t 559 1.5 bouyer xpmap_ptetomach(pt_entry_t *pte) 560 1.5 bouyer { 561 1.5 bouyer pt_entry_t *up_pte; 562 1.5 bouyer vaddr_t va = (vaddr_t) pte; 563 1.5 bouyer 564 1.5 bouyer va = ((va & XPTE_MASK) >> XPTE_SHIFT) | (vaddr_t) PTE_BASE; 565 1.5 bouyer up_pte = (pt_entry_t *) va; 566 1.5 bouyer 567 1.103 maxv return (paddr_t) (((*up_pte) & PTE_FRAME) + (((vaddr_t) pte) & (~PTE_FRAME & ~VA_SIGN_MASK))); 568 1.5 bouyer } 569 1.5 bouyer 570 1.5 bouyer /* Xen helpers to change bits of a pte */ 571 1.5 bouyer #define XPMAP_UPDATE_DIRECT 1 /* Update direct map entry flags too */ 572 1.5 bouyer 573 1.30 dyoung paddr_t vtomach(vaddr_t); 574 1.30 dyoung #define vtomfn(va) (vtomach(va) >> PAGE_SHIFT) 575 1.96 cherry #endif /* XENPV */ 576 1.30 dyoung 577 1.5 bouyer /* pmap functions with machine addresses */ 578 1.27 cegger void pmap_kenter_ma(vaddr_t, paddr_t, vm_prot_t, u_int); 579 1.5 bouyer int pmap_enter_ma(struct pmap *, vaddr_t, paddr_t, paddr_t, 580 1.24 cegger vm_prot_t, u_int, int); 581 1.5 bouyer bool pmap_extract_ma(pmap_t, vaddr_t, paddr_t *); 582 1.20 bouyer 583 1.85 maxv paddr_t pmap_get_physpage(void); 584 1.85 maxv 585 1.2 yamt /* 586 1.2 yamt * Hooks for the pool allocator. 587 1.2 yamt */ 588 1.2 yamt #define POOL_VTOPHYS(va) vtophys((vaddr_t) (va)) 589 1.2 yamt 590 1.73 maxv #ifdef __HAVE_PCPU_AREA 591 1.73 maxv extern struct pcpu_area *pcpuarea; 592 1.84 maxv #define PDIR_SLOT_PCPU 510 593 1.73 maxv #define PMAP_PCPU_BASE (VA_SIGN_NEG((PDIR_SLOT_PCPU * NBPD_L4))) 594 1.73 maxv #endif 595 1.73 maxv 596 1.49 chs #ifdef __HAVE_DIRECT_MAP 597 1.49 chs 598 1.72 maxv extern vaddr_t pmap_direct_base; 599 1.72 maxv extern vaddr_t pmap_direct_end; 600 1.72 maxv 601 1.72 maxv #define PMAP_DIRECT_BASE pmap_direct_base 602 1.72 maxv #define PMAP_DIRECT_END pmap_direct_end 603 1.49 chs 604 1.49 chs #define PMAP_DIRECT_MAP(pa) ((vaddr_t)PMAP_DIRECT_BASE + (pa)) 605 1.49 chs #define PMAP_DIRECT_UNMAP(va) ((paddr_t)(va) - PMAP_DIRECT_BASE) 606 1.49 chs 607 1.49 chs /* 608 1.49 chs * Alternate mapping hooks for pool pages. 609 1.49 chs */ 610 1.49 chs #define PMAP_MAP_POOLPAGE(pa) PMAP_DIRECT_MAP((pa)) 611 1.49 chs #define PMAP_UNMAP_POOLPAGE(va) PMAP_DIRECT_UNMAP((va)) 612 1.49 chs 613 1.49 chs void pagezero(vaddr_t); 614 1.49 chs 615 1.49 chs #endif /* __HAVE_DIRECT_MAP */ 616 1.49 chs 617 1.2 yamt #endif /* _KERNEL */ 618 1.2 yamt 619 1.2 yamt #endif /* _X86_PMAP_H_ */ 620
Indexes created Tue Sep 23 14:10:03 GMT 2025