x86_xpmap.c revision 1.12.4.7
1 1.12.4.7 jym /* $NetBSD: x86_xpmap.c,v 1.12.4.7 2009/11/01 21:43:28 jym Exp $ */ 2 1.2 bouyer 3 1.2 bouyer /* 4 1.2 bouyer * Copyright (c) 2006 Mathieu Ropert <mro (at) adviseo.fr> 5 1.2 bouyer * 6 1.2 bouyer * Permission to use, copy, modify, and distribute this software for any 7 1.2 bouyer * purpose with or without fee is hereby granted, provided that the above 8 1.2 bouyer * copyright notice and this permission notice appear in all copies. 9 1.2 bouyer * 10 1.2 bouyer * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 11 1.2 bouyer * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 12 1.2 bouyer * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 13 1.2 bouyer * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 14 1.2 bouyer * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 15 1.2 bouyer * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 16 1.2 bouyer * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 17 1.2 bouyer */ 18 1.2 bouyer 19 1.2 bouyer /* 20 1.2 bouyer * Copyright (c) 2006, 2007 Manuel Bouyer. 21 1.2 bouyer * 22 1.2 bouyer * Redistribution and use in source and binary forms, with or without 23 1.2 bouyer * modification, are permitted provided that the following conditions 24 1.2 bouyer * are met: 25 1.2 bouyer * 1. Redistributions of source code must retain the above copyright 26 1.2 bouyer * notice, this list of conditions and the following disclaimer. 27 1.2 bouyer * 2. Redistributions in binary form must reproduce the above copyright 28 1.2 bouyer * notice, this list of conditions and the following disclaimer in the 29 1.2 bouyer * documentation and/or other materials provided with the distribution. 30 1.2 bouyer * 31 1.2 bouyer * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 32 1.2 bouyer * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 33 1.2 bouyer * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 34 1.2 bouyer * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 35 1.2 bouyer * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 36 1.2 bouyer * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 37 1.2 bouyer * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 38 1.2 bouyer * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 39 1.2 bouyer * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 40 1.2 bouyer * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 41 1.2 bouyer * 42 1.2 bouyer */ 43 1.2 bouyer 44 1.2 bouyer /* 45 1.2 bouyer * 46 1.2 bouyer * Copyright (c) 2004 Christian Limpach. 47 1.2 bouyer * All rights reserved. 48 1.2 bouyer * 49 1.2 bouyer * Redistribution and use in source and binary forms, with or without 50 1.2 bouyer * modification, are permitted provided that the following conditions 51 1.2 bouyer * are met: 52 1.2 bouyer * 1. Redistributions of source code must retain the above copyright 53 1.2 bouyer * notice, this list of conditions and the following disclaimer. 54 1.2 bouyer * 2. Redistributions in binary form must reproduce the above copyright 55 1.2 bouyer * notice, this list of conditions and the following disclaimer in the 56 1.2 bouyer * documentation and/or other materials provided with the distribution. 57 1.2 bouyer * 58 1.2 bouyer * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 59 1.2 bouyer * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 60 1.2 bouyer * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 61 1.2 bouyer * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 62 1.2 bouyer * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 63 1.2 bouyer * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 64 1.2 bouyer * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 65 1.2 bouyer * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 66 1.2 bouyer * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 67 1.2 bouyer * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 68 1.2 bouyer */ 69 1.2 bouyer 70 1.2 bouyer 71 1.2 bouyer #include <sys/cdefs.h> 72 1.12.4.7 jym __KERNEL_RCSID(0, "$NetBSD: x86_xpmap.c,v 1.12.4.7 2009/11/01 21:43:28 jym Exp $"); 73 1.2 bouyer 74 1.2 bouyer #include "opt_xen.h" 75 1.4 bouyer #include "opt_ddb.h" 76 1.4 bouyer #include "ksyms.h" 77 1.2 bouyer 78 1.2 bouyer #include <sys/param.h> 79 1.2 bouyer #include <sys/systm.h> 80 1.2 bouyer 81 1.2 bouyer #include <uvm/uvm.h> 82 1.2 bouyer 83 1.2 bouyer #include <machine/pmap.h> 84 1.2 bouyer #include <machine/gdt.h> 85 1.2 bouyer #include <xen/xenfunc.h> 86 1.2 bouyer 87 1.2 bouyer #include <dev/isa/isareg.h> 88 1.2 bouyer #include <machine/isa_machdep.h> 89 1.2 bouyer 90 1.2 bouyer #undef XENDEBUG 91 1.2 bouyer /* #define XENDEBUG_SYNC */ 92 1.2 bouyer /* #define XENDEBUG_LOW */ 93 1.2 bouyer 94 1.2 bouyer #ifdef XENDEBUG 95 1.2 bouyer #define XENPRINTF(x) printf x 96 1.2 bouyer #define XENPRINTK(x) printk x 97 1.2 bouyer #define XENPRINTK2(x) /* printk x */ 98 1.2 bouyer 99 1.2 bouyer static char XBUF[256]; 100 1.2 bouyer #else 101 1.2 bouyer #define XENPRINTF(x) 102 1.2 bouyer #define XENPRINTK(x) 103 1.2 bouyer #define XENPRINTK2(x) 104 1.2 bouyer #endif 105 1.2 bouyer #define PRINTF(x) printf x 106 1.2 bouyer #define PRINTK(x) printk x 107 1.2 bouyer 108 1.4 bouyer /* on x86_64 kernel runs in ring 3 */ 109 1.4 bouyer #ifdef __x86_64__ 110 1.4 bouyer #define PG_k PG_u 111 1.4 bouyer #else 112 1.4 bouyer #define PG_k 0 113 1.4 bouyer #endif 114 1.4 bouyer 115 1.2 bouyer volatile shared_info_t *HYPERVISOR_shared_info; 116 1.11 jym /* Xen requires the start_info struct to be page aligned */ 117 1.11 jym union start_info_union start_info_union __aligned(PAGE_SIZE); 118 1.6 bouyer unsigned long *xpmap_phys_to_machine_mapping; 119 1.2 bouyer 120 1.2 bouyer void xen_failsafe_handler(void); 121 1.2 bouyer 122 1.2 bouyer #define HYPERVISOR_mmu_update_self(req, count, success_count) \ 123 1.2 bouyer HYPERVISOR_mmu_update((req), (count), (success_count), DOMID_SELF) 124 1.2 bouyer 125 1.2 bouyer void 126 1.2 bouyer xen_failsafe_handler(void) 127 1.2 bouyer { 128 1.2 bouyer 129 1.2 bouyer panic("xen_failsafe_handler called!\n"); 130 1.2 bouyer } 131 1.2 bouyer 132 1.2 bouyer 133 1.2 bouyer void 134 1.2 bouyer xen_set_ldt(vaddr_t base, uint32_t entries) 135 1.2 bouyer { 136 1.2 bouyer vaddr_t va; 137 1.2 bouyer vaddr_t end; 138 1.4 bouyer pt_entry_t *ptp; 139 1.2 bouyer int s; 140 1.2 bouyer 141 1.2 bouyer #ifdef __x86_64__ 142 1.2 bouyer end = base + (entries << 3); 143 1.2 bouyer #else 144 1.2 bouyer end = base + entries * sizeof(union descriptor); 145 1.2 bouyer #endif 146 1.2 bouyer 147 1.2 bouyer for (va = base; va < end; va += PAGE_SIZE) { 148 1.2 bouyer KASSERT(va >= VM_MIN_KERNEL_ADDRESS); 149 1.2 bouyer ptp = kvtopte(va); 150 1.5 bouyer XENPRINTF(("xen_set_ldt %p %d %p\n", (void *)base, 151 1.5 bouyer entries, ptp)); 152 1.4 bouyer pmap_pte_clearbits(ptp, PG_RW); 153 1.2 bouyer } 154 1.2 bouyer s = splvm(); 155 1.2 bouyer xpq_queue_set_ldt(base, entries); 156 1.2 bouyer xpq_flush_queue(); 157 1.2 bouyer splx(s); 158 1.2 bouyer } 159 1.2 bouyer 160 1.2 bouyer #ifdef XENDEBUG 161 1.2 bouyer void xpq_debug_dump(void); 162 1.2 bouyer #endif 163 1.2 bouyer 164 1.2 bouyer #define XPQUEUE_SIZE 2048 165 1.2 bouyer static mmu_update_t xpq_queue[XPQUEUE_SIZE]; 166 1.2 bouyer static int xpq_idx = 0; 167 1.2 bouyer 168 1.2 bouyer void 169 1.8 cegger xpq_flush_queue(void) 170 1.2 bouyer { 171 1.2 bouyer int i, ok; 172 1.2 bouyer 173 1.2 bouyer XENPRINTK2(("flush queue %p entries %d\n", xpq_queue, xpq_idx)); 174 1.2 bouyer for (i = 0; i < xpq_idx; i++) 175 1.6 bouyer XENPRINTK2(("%d: %p %08" PRIx64 "\n", i, 176 1.8 cegger (uint64_t)xpq_queue[i].ptr, (uint64_t)xpq_queue[i].val)); 177 1.2 bouyer if (xpq_idx != 0 && 178 1.2 bouyer HYPERVISOR_mmu_update_self(xpq_queue, xpq_idx, &ok) < 0) { 179 1.2 bouyer printf("xpq_flush_queue: %d entries \n", xpq_idx); 180 1.2 bouyer for (i = 0; i < xpq_idx; i++) 181 1.3 bouyer printf("0x%016" PRIx64 ": 0x%016" PRIx64 "\n", 182 1.8 cegger (uint64_t)xpq_queue[i].ptr, 183 1.8 cegger (uint64_t)xpq_queue[i].val); 184 1.2 bouyer panic("HYPERVISOR_mmu_update failed\n"); 185 1.2 bouyer } 186 1.2 bouyer xpq_idx = 0; 187 1.2 bouyer } 188 1.2 bouyer 189 1.2 bouyer static inline void 190 1.2 bouyer xpq_increment_idx(void) 191 1.2 bouyer { 192 1.2 bouyer 193 1.2 bouyer xpq_idx++; 194 1.2 bouyer if (__predict_false(xpq_idx == XPQUEUE_SIZE)) 195 1.2 bouyer xpq_flush_queue(); 196 1.2 bouyer } 197 1.2 bouyer 198 1.2 bouyer void 199 1.2 bouyer xpq_queue_machphys_update(paddr_t ma, paddr_t pa) 200 1.2 bouyer { 201 1.6 bouyer XENPRINTK2(("xpq_queue_machphys_update ma=0x%" PRIx64 " pa=0x%" PRIx64 202 1.6 bouyer "\n", (int64_t)ma, (int64_t)pa)); 203 1.2 bouyer xpq_queue[xpq_idx].ptr = ma | MMU_MACHPHYS_UPDATE; 204 1.2 bouyer xpq_queue[xpq_idx].val = (pa - XPMAP_OFFSET) >> PAGE_SHIFT; 205 1.2 bouyer xpq_increment_idx(); 206 1.2 bouyer #ifdef XENDEBUG_SYNC 207 1.2 bouyer xpq_flush_queue(); 208 1.2 bouyer #endif 209 1.2 bouyer } 210 1.2 bouyer 211 1.2 bouyer void 212 1.6 bouyer xpq_queue_pte_update(paddr_t ptr, pt_entry_t val) 213 1.2 bouyer { 214 1.2 bouyer 215 1.6 bouyer KASSERT((ptr & 3) == 0); 216 1.2 bouyer xpq_queue[xpq_idx].ptr = (paddr_t)ptr | MMU_NORMAL_PT_UPDATE; 217 1.2 bouyer xpq_queue[xpq_idx].val = val; 218 1.2 bouyer xpq_increment_idx(); 219 1.2 bouyer #ifdef XENDEBUG_SYNC 220 1.2 bouyer xpq_flush_queue(); 221 1.2 bouyer #endif 222 1.2 bouyer } 223 1.2 bouyer 224 1.2 bouyer void 225 1.2 bouyer xpq_queue_pt_switch(paddr_t pa) 226 1.2 bouyer { 227 1.2 bouyer struct mmuext_op op; 228 1.2 bouyer xpq_flush_queue(); 229 1.2 bouyer 230 1.6 bouyer XENPRINTK2(("xpq_queue_pt_switch: 0x%" PRIx64 " 0x%" PRIx64 "\n", 231 1.6 bouyer (int64_t)pa, (int64_t)pa)); 232 1.2 bouyer op.cmd = MMUEXT_NEW_BASEPTR; 233 1.2 bouyer op.arg1.mfn = pa >> PAGE_SHIFT; 234 1.2 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 235 1.2 bouyer panic("xpq_queue_pt_switch"); 236 1.2 bouyer } 237 1.2 bouyer 238 1.2 bouyer void 239 1.12.4.7 jym xpq_queue_pin_table(paddr_t pa, unsigned int level) 240 1.12.4.6 jym { 241 1.6 bouyer struct mmuext_op op; 242 1.6 bouyer xpq_flush_queue(); 243 1.6 bouyer 244 1.12.4.7 jym XENPRINTK2(("xpq_queue_pin_table: level %u %#"PRIx64"\n", 245 1.12.4.7 jym level, (int64_t)pa)); 246 1.12.4.5 jym 247 1.6 bouyer op.arg1.mfn = pa >> PAGE_SHIFT; 248 1.12.4.7 jym op.cmd = level; 249 1.6 bouyer 250 1.6 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 251 1.12.4.7 jym panic("xpq_queue_pin_table: level %u %#"PRIx64"\n", 252 1.12.4.7 jym level, (int64_t)pa); 253 1.6 bouyer } 254 1.6 bouyer 255 1.2 bouyer void 256 1.2 bouyer xpq_queue_unpin_table(paddr_t pa) 257 1.2 bouyer { 258 1.2 bouyer struct mmuext_op op; 259 1.2 bouyer xpq_flush_queue(); 260 1.2 bouyer 261 1.6 bouyer XENPRINTK2(("xpq_queue_unpin_table: 0x%" PRIx64 " 0x%" PRIx64 "\n", 262 1.6 bouyer (int64_t)pa, (int64_t)pa)); 263 1.2 bouyer op.arg1.mfn = pa >> PAGE_SHIFT; 264 1.2 bouyer op.cmd = MMUEXT_UNPIN_TABLE; 265 1.2 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 266 1.2 bouyer panic("xpq_queue_unpin_table"); 267 1.2 bouyer } 268 1.2 bouyer 269 1.2 bouyer void 270 1.2 bouyer xpq_queue_set_ldt(vaddr_t va, uint32_t entries) 271 1.2 bouyer { 272 1.2 bouyer struct mmuext_op op; 273 1.2 bouyer xpq_flush_queue(); 274 1.2 bouyer 275 1.2 bouyer XENPRINTK2(("xpq_queue_set_ldt\n")); 276 1.2 bouyer KASSERT(va == (va & ~PAGE_MASK)); 277 1.2 bouyer op.cmd = MMUEXT_SET_LDT; 278 1.2 bouyer op.arg1.linear_addr = va; 279 1.2 bouyer op.arg2.nr_ents = entries; 280 1.2 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 281 1.2 bouyer panic("xpq_queue_set_ldt"); 282 1.2 bouyer } 283 1.2 bouyer 284 1.2 bouyer void 285 1.8 cegger xpq_queue_tlb_flush(void) 286 1.2 bouyer { 287 1.2 bouyer struct mmuext_op op; 288 1.2 bouyer xpq_flush_queue(); 289 1.2 bouyer 290 1.2 bouyer XENPRINTK2(("xpq_queue_tlb_flush\n")); 291 1.2 bouyer op.cmd = MMUEXT_TLB_FLUSH_LOCAL; 292 1.2 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 293 1.2 bouyer panic("xpq_queue_tlb_flush"); 294 1.2 bouyer } 295 1.2 bouyer 296 1.2 bouyer void 297 1.8 cegger xpq_flush_cache(void) 298 1.2 bouyer { 299 1.2 bouyer struct mmuext_op op; 300 1.2 bouyer int s = splvm(); 301 1.2 bouyer xpq_flush_queue(); 302 1.2 bouyer 303 1.2 bouyer XENPRINTK2(("xpq_queue_flush_cache\n")); 304 1.2 bouyer op.cmd = MMUEXT_FLUSH_CACHE; 305 1.2 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 306 1.2 bouyer panic("xpq_flush_cache"); 307 1.2 bouyer splx(s); 308 1.2 bouyer } 309 1.2 bouyer 310 1.2 bouyer void 311 1.2 bouyer xpq_queue_invlpg(vaddr_t va) 312 1.2 bouyer { 313 1.2 bouyer struct mmuext_op op; 314 1.2 bouyer xpq_flush_queue(); 315 1.2 bouyer 316 1.2 bouyer XENPRINTK2(("xpq_queue_invlpg %p\n", (void *)va)); 317 1.2 bouyer op.cmd = MMUEXT_INVLPG_LOCAL; 318 1.2 bouyer op.arg1.linear_addr = (va & ~PAGE_MASK); 319 1.2 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 320 1.2 bouyer panic("xpq_queue_invlpg"); 321 1.2 bouyer } 322 1.2 bouyer 323 1.2 bouyer int 324 1.6 bouyer xpq_update_foreign(paddr_t ptr, pt_entry_t val, int dom) 325 1.2 bouyer { 326 1.2 bouyer mmu_update_t op; 327 1.2 bouyer int ok; 328 1.2 bouyer xpq_flush_queue(); 329 1.2 bouyer 330 1.6 bouyer op.ptr = ptr; 331 1.2 bouyer op.val = val; 332 1.2 bouyer if (HYPERVISOR_mmu_update(&op, 1, &ok, dom) < 0) 333 1.2 bouyer return EFAULT; 334 1.2 bouyer return (0); 335 1.2 bouyer } 336 1.2 bouyer 337 1.2 bouyer #ifdef XENDEBUG 338 1.2 bouyer void 339 1.8 cegger xpq_debug_dump(void) 340 1.2 bouyer { 341 1.2 bouyer int i; 342 1.2 bouyer 343 1.2 bouyer XENPRINTK2(("idx: %d\n", xpq_idx)); 344 1.2 bouyer for (i = 0; i < xpq_idx; i++) { 345 1.12.4.4 jym snprintf(XBUF, sizeof(XBUF), "%" PRIx64 " %08" PRIx64, 346 1.8 cegger (uint64_t)xpq_queue[i].ptr, (uint64_t)xpq_queue[i].val); 347 1.2 bouyer if (++i < xpq_idx) 348 1.12.4.4 jym snprintf(XBUF + strlen(XBUF), 349 1.12.4.4 jym sizeof(XBUF) - strlen(XBUF), 350 1.12.4.4 jym "%" PRIx64 " %08" PRIx64, 351 1.12.4.4 jym (uint64_t)xpq_queue[i].ptr, 352 1.12.4.4 jym (uint64_t)xpq_queue[i].val); 353 1.2 bouyer if (++i < xpq_idx) 354 1.12.4.4 jym snprintf(XBUF + strlen(XBUF), 355 1.12.4.4 jym sizeof(XBUF) - strlen(XBUF), 356 1.12.4.4 jym "%" PRIx64 " %08" PRIx64, 357 1.12.4.4 jym (uint64_t)xpq_queue[i].ptr, 358 1.12.4.4 jym (uint64_t)xpq_queue[i].val); 359 1.2 bouyer if (++i < xpq_idx) 360 1.12.4.4 jym snprintf(XBUF + strlen(XBUF), 361 1.12.4.4 jym sizeof(XBUF) - strlen(XBUF), 362 1.12.4.4 jym "%" PRIx64 " %08" PRIx64, 363 1.12.4.4 jym (uint64_t)xpq_queue[i].ptr, 364 1.12.4.4 jym (uint64_t)xpq_queue[i].val); 365 1.2 bouyer XENPRINTK2(("%d: %s\n", xpq_idx, XBUF)); 366 1.2 bouyer } 367 1.2 bouyer } 368 1.2 bouyer #endif 369 1.2 bouyer 370 1.2 bouyer 371 1.2 bouyer extern volatile struct xencons_interface *xencons_interface; /* XXX */ 372 1.2 bouyer extern struct xenstore_domain_interface *xenstore_interface; /* XXX */ 373 1.2 bouyer 374 1.2 bouyer static void xen_bt_set_readonly (vaddr_t); 375 1.2 bouyer static void xen_bootstrap_tables (vaddr_t, vaddr_t, int, int, int); 376 1.2 bouyer 377 1.2 bouyer /* How many PDEs ? */ 378 1.2 bouyer #if L2_SLOT_KERNBASE > 0 379 1.2 bouyer #define TABLE_L2_ENTRIES (2 * (NKL2_KIMG_ENTRIES + 1)) 380 1.2 bouyer #else 381 1.2 bouyer #define TABLE_L2_ENTRIES (NKL2_KIMG_ENTRIES + 1) 382 1.2 bouyer #endif 383 1.2 bouyer 384 1.2 bouyer /* 385 1.2 bouyer * Construct and switch to new pagetables 386 1.2 bouyer * first_avail is the first vaddr we can use after 387 1.2 bouyer * we get rid of Xen pagetables 388 1.2 bouyer */ 389 1.2 bouyer 390 1.2 bouyer vaddr_t xen_pmap_bootstrap (void); 391 1.2 bouyer 392 1.2 bouyer /* 393 1.2 bouyer * Function to get rid of Xen bootstrap tables 394 1.2 bouyer */ 395 1.2 bouyer 396 1.6 bouyer /* How many PDP do we need: */ 397 1.6 bouyer #ifdef PAE 398 1.6 bouyer /* 399 1.6 bouyer * For PAE, we consider a single contigous L2 "superpage" of 4 pages, 400 1.6 bouyer * all of them mapped by the L3 page. We also need a shadow page 401 1.6 bouyer * for L3[3]. 402 1.6 bouyer */ 403 1.6 bouyer static const int l2_4_count = 6; 404 1.6 bouyer #else 405 1.6 bouyer static const int l2_4_count = PTP_LEVELS - 1; 406 1.6 bouyer #endif 407 1.6 bouyer 408 1.2 bouyer vaddr_t 409 1.8 cegger xen_pmap_bootstrap(void) 410 1.2 bouyer { 411 1.4 bouyer int count, oldcount; 412 1.4 bouyer long mapsize; 413 1.2 bouyer vaddr_t bootstrap_tables, init_tables; 414 1.2 bouyer 415 1.6 bouyer xpmap_phys_to_machine_mapping = 416 1.6 bouyer (unsigned long *)xen_start_info.mfn_list; 417 1.2 bouyer init_tables = xen_start_info.pt_base; 418 1.2 bouyer __PRINTK(("xen_arch_pmap_bootstrap init_tables=0x%lx\n", init_tables)); 419 1.2 bouyer 420 1.2 bouyer /* Space after Xen boostrap tables should be free */ 421 1.2 bouyer bootstrap_tables = xen_start_info.pt_base + 422 1.2 bouyer (xen_start_info.nr_pt_frames * PAGE_SIZE); 423 1.2 bouyer 424 1.4 bouyer /* 425 1.4 bouyer * Calculate how many space we need 426 1.4 bouyer * first everything mapped before the Xen bootstrap tables 427 1.4 bouyer */ 428 1.4 bouyer mapsize = init_tables - KERNTEXTOFF; 429 1.4 bouyer /* after the tables we'll have: 430 1.4 bouyer * - UAREA 431 1.4 bouyer * - dummy user PGD (x86_64) 432 1.4 bouyer * - HYPERVISOR_shared_info 433 1.4 bouyer * - ISA I/O mem (if needed) 434 1.4 bouyer */ 435 1.4 bouyer mapsize += UPAGES * NBPG; 436 1.4 bouyer #ifdef __x86_64__ 437 1.4 bouyer mapsize += NBPG; 438 1.4 bouyer #endif 439 1.4 bouyer mapsize += NBPG; 440 1.2 bouyer 441 1.2 bouyer #ifdef DOM0OPS 442 1.10 cegger if (xendomain_is_dom0()) { 443 1.2 bouyer /* space for ISA I/O mem */ 444 1.4 bouyer mapsize += IOM_SIZE; 445 1.4 bouyer } 446 1.4 bouyer #endif 447 1.4 bouyer /* at this point mapsize doens't include the table size */ 448 1.4 bouyer 449 1.4 bouyer #ifdef __x86_64__ 450 1.4 bouyer count = TABLE_L2_ENTRIES; 451 1.4 bouyer #else 452 1.4 bouyer count = (mapsize + (NBPD_L2 -1)) >> L2_SHIFT; 453 1.4 bouyer #endif /* __x86_64__ */ 454 1.4 bouyer 455 1.4 bouyer /* now compute how many L2 pages we need exactly */ 456 1.4 bouyer XENPRINTK(("bootstrap_final mapsize 0x%lx count %d\n", mapsize, count)); 457 1.4 bouyer while (mapsize + (count + l2_4_count) * PAGE_SIZE + KERNTEXTOFF > 458 1.4 bouyer ((long)count << L2_SHIFT) + KERNBASE) { 459 1.4 bouyer count++; 460 1.2 bouyer } 461 1.4 bouyer #ifndef __x86_64__ 462 1.5 bouyer /* 463 1.5 bouyer * one more L2 page: we'll alocate several pages after kva_start 464 1.5 bouyer * in pmap_bootstrap() before pmap_growkernel(), which have not been 465 1.5 bouyer * counted here. It's not a big issue to allocate one more L2 as 466 1.5 bouyer * pmap_growkernel() will be called anyway. 467 1.5 bouyer */ 468 1.5 bouyer count++; 469 1.4 bouyer nkptp[1] = count; 470 1.2 bouyer #endif 471 1.2 bouyer 472 1.4 bouyer /* 473 1.4 bouyer * install bootstrap pages. We may need more L2 pages than will 474 1.4 bouyer * have the final table here, as it's installed after the final table 475 1.4 bouyer */ 476 1.4 bouyer oldcount = count; 477 1.4 bouyer 478 1.4 bouyer bootstrap_again: 479 1.4 bouyer XENPRINTK(("bootstrap_again oldcount %d\n", oldcount)); 480 1.2 bouyer /* 481 1.2 bouyer * Xen space we'll reclaim may not be enough for our new page tables, 482 1.2 bouyer * move bootstrap tables if necessary 483 1.2 bouyer */ 484 1.4 bouyer if (bootstrap_tables < init_tables + ((count + l2_4_count) * PAGE_SIZE)) 485 1.2 bouyer bootstrap_tables = init_tables + 486 1.4 bouyer ((count + l2_4_count) * PAGE_SIZE); 487 1.4 bouyer /* make sure we have enough to map the bootstrap_tables */ 488 1.4 bouyer if (bootstrap_tables + ((oldcount + l2_4_count) * PAGE_SIZE) > 489 1.4 bouyer ((long)oldcount << L2_SHIFT) + KERNBASE) { 490 1.4 bouyer oldcount++; 491 1.4 bouyer goto bootstrap_again; 492 1.4 bouyer } 493 1.2 bouyer 494 1.2 bouyer /* Create temporary tables */ 495 1.2 bouyer xen_bootstrap_tables(xen_start_info.pt_base, bootstrap_tables, 496 1.4 bouyer xen_start_info.nr_pt_frames, oldcount, 0); 497 1.2 bouyer 498 1.2 bouyer /* Create final tables */ 499 1.2 bouyer xen_bootstrap_tables(bootstrap_tables, init_tables, 500 1.4 bouyer oldcount + l2_4_count, count, 1); 501 1.2 bouyer 502 1.4 bouyer /* zero out free space after tables */ 503 1.4 bouyer memset((void *)(init_tables + ((count + l2_4_count) * PAGE_SIZE)), 0, 504 1.4 bouyer (UPAGES + 1) * NBPG); 505 1.4 bouyer return (init_tables + ((count + l2_4_count) * PAGE_SIZE)); 506 1.2 bouyer } 507 1.2 bouyer 508 1.2 bouyer 509 1.2 bouyer /* 510 1.2 bouyer * Build a new table and switch to it 511 1.2 bouyer * old_count is # of old tables (including PGD, PDTPE and PDE) 512 1.2 bouyer * new_count is # of new tables (PTE only) 513 1.2 bouyer * we assume areas don't overlap 514 1.2 bouyer */ 515 1.2 bouyer 516 1.2 bouyer 517 1.2 bouyer static void 518 1.2 bouyer xen_bootstrap_tables (vaddr_t old_pgd, vaddr_t new_pgd, 519 1.2 bouyer int old_count, int new_count, int final) 520 1.2 bouyer { 521 1.2 bouyer pd_entry_t *pdtpe, *pde, *pte; 522 1.2 bouyer pd_entry_t *cur_pgd, *bt_pgd; 523 1.6 bouyer paddr_t addr; 524 1.6 bouyer vaddr_t page, avail, text_end, map_end; 525 1.2 bouyer int i; 526 1.2 bouyer extern char __data_start; 527 1.2 bouyer 528 1.2 bouyer __PRINTK(("xen_bootstrap_tables(0x%lx, 0x%lx, %d, %d)\n", 529 1.2 bouyer old_pgd, new_pgd, old_count, new_count)); 530 1.2 bouyer text_end = ((vaddr_t)&__data_start) & ~PAGE_MASK; 531 1.2 bouyer /* 532 1.2 bouyer * size of R/W area after kernel text: 533 1.2 bouyer * xencons_interface (if present) 534 1.2 bouyer * xenstore_interface (if present) 535 1.6 bouyer * table pages (new_count + l2_4_count entries) 536 1.2 bouyer * extra mappings (only when final is true): 537 1.4 bouyer * UAREA 538 1.4 bouyer * dummy user PGD (x86_64 only)/gdt page (i386 only) 539 1.2 bouyer * HYPERVISOR_shared_info 540 1.2 bouyer * ISA I/O mem (if needed) 541 1.2 bouyer */ 542 1.6 bouyer map_end = new_pgd + ((new_count + l2_4_count) * NBPG); 543 1.2 bouyer if (final) { 544 1.4 bouyer map_end += (UPAGES + 1) * NBPG; 545 1.4 bouyer HYPERVISOR_shared_info = (shared_info_t *)map_end; 546 1.2 bouyer map_end += NBPG; 547 1.2 bouyer } 548 1.4 bouyer /* 549 1.4 bouyer * we always set atdevbase, as it's used by init386 to find the first 550 1.4 bouyer * available VA. map_end is updated only if we are dom0, so 551 1.4 bouyer * atdevbase -> atdevbase + IOM_SIZE will be mapped only in 552 1.4 bouyer * this case. 553 1.4 bouyer */ 554 1.4 bouyer if (final) 555 1.4 bouyer atdevbase = map_end; 556 1.2 bouyer #ifdef DOM0OPS 557 1.10 cegger if (final && xendomain_is_dom0()) { 558 1.2 bouyer /* ISA I/O mem */ 559 1.2 bouyer map_end += IOM_SIZE; 560 1.2 bouyer } 561 1.2 bouyer #endif /* DOM0OPS */ 562 1.2 bouyer 563 1.2 bouyer __PRINTK(("xen_bootstrap_tables text_end 0x%lx map_end 0x%lx\n", 564 1.2 bouyer text_end, map_end)); 565 1.12 cegger __PRINTK(("console 0x%lx ", xen_start_info.console.domU.mfn)); 566 1.7 bouyer __PRINTK(("xenstore 0x%lx\n", xen_start_info.store_mfn)); 567 1.2 bouyer 568 1.2 bouyer /* 569 1.2 bouyer * Create bootstrap page tables 570 1.2 bouyer * What we need: 571 1.2 bouyer * - a PGD (level 4) 572 1.2 bouyer * - a PDTPE (level 3) 573 1.2 bouyer * - a PDE (level2) 574 1.2 bouyer * - some PTEs (level 1) 575 1.2 bouyer */ 576 1.2 bouyer 577 1.2 bouyer cur_pgd = (pd_entry_t *) old_pgd; 578 1.2 bouyer bt_pgd = (pd_entry_t *) new_pgd; 579 1.2 bouyer memset (bt_pgd, 0, PAGE_SIZE); 580 1.2 bouyer avail = new_pgd + PAGE_SIZE; 581 1.4 bouyer #if PTP_LEVELS > 3 582 1.2 bouyer /* Install level 3 */ 583 1.2 bouyer pdtpe = (pd_entry_t *) avail; 584 1.2 bouyer memset (pdtpe, 0, PAGE_SIZE); 585 1.2 bouyer avail += PAGE_SIZE; 586 1.2 bouyer 587 1.6 bouyer addr = ((u_long) pdtpe) - KERNBASE; 588 1.2 bouyer bt_pgd[pl4_pi(KERNTEXTOFF)] = 589 1.4 bouyer xpmap_ptom_masked(addr) | PG_k | PG_RW | PG_V; 590 1.2 bouyer 591 1.6 bouyer __PRINTK(("L3 va 0x%lx pa 0x%" PRIx64 " entry 0x%" PRIx64 " -> L4[0x%x]\n", 592 1.8 cegger pdtpe, (uint64_t)addr, (uint64_t)bt_pgd[pl4_pi(KERNTEXTOFF)], 593 1.6 bouyer pl4_pi(KERNTEXTOFF))); 594 1.4 bouyer #else 595 1.4 bouyer pdtpe = bt_pgd; 596 1.4 bouyer #endif /* PTP_LEVELS > 3 */ 597 1.2 bouyer 598 1.4 bouyer #if PTP_LEVELS > 2 599 1.2 bouyer /* Level 2 */ 600 1.2 bouyer pde = (pd_entry_t *) avail; 601 1.2 bouyer memset(pde, 0, PAGE_SIZE); 602 1.2 bouyer avail += PAGE_SIZE; 603 1.2 bouyer 604 1.6 bouyer addr = ((u_long) pde) - KERNBASE; 605 1.2 bouyer pdtpe[pl3_pi(KERNTEXTOFF)] = 606 1.6 bouyer xpmap_ptom_masked(addr) | PG_k | PG_V | PG_RW; 607 1.6 bouyer __PRINTK(("L2 va 0x%lx pa 0x%" PRIx64 " entry 0x%" PRIx64 " -> L3[0x%x]\n", 608 1.6 bouyer pde, (int64_t)addr, (int64_t)pdtpe[pl3_pi(KERNTEXTOFF)], 609 1.6 bouyer pl3_pi(KERNTEXTOFF))); 610 1.6 bouyer #elif defined(PAE) 611 1.6 bouyer /* our PAE-style level 2: 5 contigous pages (4 L2 + 1 shadow) */ 612 1.6 bouyer pde = (pd_entry_t *) avail; 613 1.6 bouyer memset(pde, 0, PAGE_SIZE * 5); 614 1.6 bouyer avail += PAGE_SIZE * 5; 615 1.6 bouyer addr = ((u_long) pde) - KERNBASE; 616 1.6 bouyer /* 617 1.6 bouyer * enter L2 pages in the L3. 618 1.6 bouyer * The real L2 kernel PD will be the last one (so that 619 1.6 bouyer * pde[L2_SLOT_KERN] always point to the shadow). 620 1.6 bouyer */ 621 1.6 bouyer for (i = 0; i < 3; i++, addr += PAGE_SIZE) { 622 1.6 bouyer /* 623 1.6 bouyer * Xen doens't want R/W mappings in L3 entries, it'll add it 624 1.6 bouyer * itself. 625 1.6 bouyer */ 626 1.6 bouyer pdtpe[i] = xpmap_ptom_masked(addr) | PG_k | PG_V; 627 1.6 bouyer __PRINTK(("L2 va 0x%lx pa 0x%" PRIx64 " entry 0x%" PRIx64 628 1.6 bouyer " -> L3[0x%x]\n", (vaddr_t)pde + PAGE_SIZE * i, 629 1.6 bouyer (int64_t)addr, (int64_t)pdtpe[i], i)); 630 1.6 bouyer } 631 1.6 bouyer addr += PAGE_SIZE; 632 1.6 bouyer pdtpe[3] = xpmap_ptom_masked(addr) | PG_k | PG_V; 633 1.6 bouyer __PRINTK(("L2 va 0x%lx pa 0x%" PRIx64 " entry 0x%" PRIx64 634 1.6 bouyer " -> L3[0x%x]\n", (vaddr_t)pde + PAGE_SIZE * 4, 635 1.6 bouyer (int64_t)addr, (int64_t)pdtpe[3], 3)); 636 1.6 bouyer 637 1.6 bouyer #else /* PAE */ 638 1.4 bouyer pde = bt_pgd; 639 1.6 bouyer #endif /* PTP_LEVELS > 2 */ 640 1.2 bouyer 641 1.2 bouyer /* Level 1 */ 642 1.2 bouyer page = KERNTEXTOFF; 643 1.2 bouyer for (i = 0; i < new_count; i ++) { 644 1.6 bouyer vaddr_t cur_page = page; 645 1.2 bouyer 646 1.2 bouyer pte = (pd_entry_t *) avail; 647 1.2 bouyer avail += PAGE_SIZE; 648 1.2 bouyer 649 1.2 bouyer memset(pte, 0, PAGE_SIZE); 650 1.2 bouyer while (pl2_pi(page) == pl2_pi (cur_page)) { 651 1.2 bouyer if (page >= map_end) { 652 1.2 bouyer /* not mapped at all */ 653 1.2 bouyer pte[pl1_pi(page)] = 0; 654 1.2 bouyer page += PAGE_SIZE; 655 1.2 bouyer continue; 656 1.2 bouyer } 657 1.2 bouyer pte[pl1_pi(page)] = xpmap_ptom_masked(page - KERNBASE); 658 1.2 bouyer if (page == (vaddr_t)HYPERVISOR_shared_info) { 659 1.2 bouyer pte[pl1_pi(page)] = xen_start_info.shared_info; 660 1.2 bouyer __PRINTK(("HYPERVISOR_shared_info " 661 1.6 bouyer "va 0x%lx pte 0x%" PRIx64 "\n", 662 1.6 bouyer HYPERVISOR_shared_info, (int64_t)pte[pl1_pi(page)])); 663 1.2 bouyer } 664 1.7 bouyer if ((xpmap_ptom_masked(page - KERNBASE) >> PAGE_SHIFT) 665 1.12 cegger == xen_start_info.console.domU.mfn) { 666 1.2 bouyer xencons_interface = (void *)page; 667 1.12 cegger pte[pl1_pi(page)] = xen_start_info.console.domU.mfn; 668 1.6 bouyer pte[pl1_pi(page)] <<= PAGE_SHIFT; 669 1.2 bouyer __PRINTK(("xencons_interface " 670 1.6 bouyer "va 0x%lx pte 0x%" PRIx64 "\n", 671 1.6 bouyer xencons_interface, (int64_t)pte[pl1_pi(page)])); 672 1.2 bouyer } 673 1.7 bouyer if ((xpmap_ptom_masked(page - KERNBASE) >> PAGE_SHIFT) 674 1.7 bouyer == xen_start_info.store_mfn) { 675 1.2 bouyer xenstore_interface = (void *)page; 676 1.6 bouyer pte[pl1_pi(page)] = xen_start_info.store_mfn; 677 1.6 bouyer pte[pl1_pi(page)] <<= PAGE_SHIFT; 678 1.2 bouyer __PRINTK(("xenstore_interface " 679 1.6 bouyer "va 0x%lx pte 0x%" PRIx64 "\n", 680 1.6 bouyer xenstore_interface, (int64_t)pte[pl1_pi(page)])); 681 1.2 bouyer } 682 1.2 bouyer #ifdef DOM0OPS 683 1.2 bouyer if (page >= (vaddr_t)atdevbase && 684 1.2 bouyer page < (vaddr_t)atdevbase + IOM_SIZE) { 685 1.2 bouyer pte[pl1_pi(page)] = 686 1.2 bouyer IOM_BEGIN + (page - (vaddr_t)atdevbase); 687 1.2 bouyer } 688 1.2 bouyer #endif 689 1.4 bouyer pte[pl1_pi(page)] |= PG_k | PG_V; 690 1.2 bouyer if (page < text_end) { 691 1.2 bouyer /* map kernel text RO */ 692 1.2 bouyer pte[pl1_pi(page)] |= 0; 693 1.2 bouyer } else if (page >= old_pgd 694 1.2 bouyer && page < old_pgd + (old_count * PAGE_SIZE)) { 695 1.2 bouyer /* map old page tables RO */ 696 1.2 bouyer pte[pl1_pi(page)] |= 0; 697 1.2 bouyer } else if (page >= new_pgd && 698 1.6 bouyer page < new_pgd + ((new_count + l2_4_count) * PAGE_SIZE)) { 699 1.2 bouyer /* map new page tables RO */ 700 1.2 bouyer pte[pl1_pi(page)] |= 0; 701 1.2 bouyer } else { 702 1.2 bouyer /* map page RW */ 703 1.2 bouyer pte[pl1_pi(page)] |= PG_RW; 704 1.2 bouyer } 705 1.6 bouyer 706 1.9 tron if ((page >= old_pgd && page < old_pgd + (old_count * PAGE_SIZE)) 707 1.9 tron || page >= new_pgd) { 708 1.4 bouyer __PRINTK(("va 0x%lx pa 0x%lx " 709 1.6 bouyer "entry 0x%" PRIx64 " -> L1[0x%x]\n", 710 1.2 bouyer page, page - KERNBASE, 711 1.6 bouyer (int64_t)pte[pl1_pi(page)], pl1_pi(page))); 712 1.9 tron } 713 1.2 bouyer page += PAGE_SIZE; 714 1.2 bouyer } 715 1.2 bouyer 716 1.6 bouyer addr = ((u_long) pte) - KERNBASE; 717 1.2 bouyer pde[pl2_pi(cur_page)] = 718 1.4 bouyer xpmap_ptom_masked(addr) | PG_k | PG_RW | PG_V; 719 1.6 bouyer __PRINTK(("L1 va 0x%lx pa 0x%" PRIx64 " entry 0x%" PRIx64 720 1.6 bouyer " -> L2[0x%x]\n", pte, (int64_t)addr, 721 1.6 bouyer (int64_t)pde[pl2_pi(cur_page)], pl2_pi(cur_page))); 722 1.2 bouyer /* Mark readonly */ 723 1.2 bouyer xen_bt_set_readonly((vaddr_t) pte); 724 1.2 bouyer } 725 1.2 bouyer 726 1.2 bouyer /* Install recursive page tables mapping */ 727 1.6 bouyer #ifdef PAE 728 1.6 bouyer /* 729 1.6 bouyer * we need a shadow page for the kernel's L2 page 730 1.6 bouyer * The real L2 kernel PD will be the last one (so that 731 1.6 bouyer * pde[L2_SLOT_KERN] always point to the shadow. 732 1.6 bouyer */ 733 1.6 bouyer memcpy(&pde[L2_SLOT_KERN + NPDPG], &pde[L2_SLOT_KERN], PAGE_SIZE); 734 1.6 bouyer pmap_kl2pd = &pde[L2_SLOT_KERN + NPDPG]; 735 1.6 bouyer pmap_kl2paddr = (u_long)pmap_kl2pd - KERNBASE; 736 1.6 bouyer 737 1.6 bouyer /* 738 1.6 bouyer * We don't enter a recursive entry from the L3 PD. Instead, 739 1.6 bouyer * we enter the first 4 L2 pages, which includes the kernel's L2 740 1.6 bouyer * shadow. But we have to entrer the shadow after switching 741 1.6 bouyer * %cr3, or Xen will refcount some PTE with the wrong type. 742 1.6 bouyer */ 743 1.6 bouyer addr = (u_long)pde - KERNBASE; 744 1.6 bouyer for (i = 0; i < 3; i++, addr += PAGE_SIZE) { 745 1.6 bouyer pde[PDIR_SLOT_PTE + i] = xpmap_ptom_masked(addr) | PG_k | PG_V; 746 1.6 bouyer __PRINTK(("pde[%d] va 0x%lx pa 0x%lx entry 0x%" PRIx64 "\n", 747 1.6 bouyer (int)(PDIR_SLOT_PTE + i), pde + PAGE_SIZE * i, (long)addr, 748 1.6 bouyer (int64_t)pde[PDIR_SLOT_PTE + i])); 749 1.6 bouyer } 750 1.6 bouyer #if 0 751 1.6 bouyer addr += PAGE_SIZE; /* point to shadow L2 */ 752 1.6 bouyer pde[PDIR_SLOT_PTE + 3] = xpmap_ptom_masked(addr) | PG_k | PG_V; 753 1.6 bouyer __PRINTK(("pde[%d] va 0x%lx pa 0x%lx entry 0x%" PRIx64 "\n", 754 1.6 bouyer (int)(PDIR_SLOT_PTE + 3), pde + PAGE_SIZE * 4, (long)addr, 755 1.6 bouyer (int64_t)pde[PDIR_SLOT_PTE + 3])); 756 1.6 bouyer #endif 757 1.12.4.4 jym /* Mark tables RO, and pin the kernel's shadow as L2 */ 758 1.6 bouyer addr = (u_long)pde - KERNBASE; 759 1.6 bouyer for (i = 0; i < 5; i++, addr += PAGE_SIZE) { 760 1.6 bouyer xen_bt_set_readonly(((vaddr_t)pde) + PAGE_SIZE * i); 761 1.6 bouyer if (i == 2 || i == 3) 762 1.6 bouyer continue; 763 1.6 bouyer #if 0 764 1.6 bouyer __PRINTK(("pin L2 %d addr 0x%" PRIx64 "\n", i, (int64_t)addr)); 765 1.12.4.7 jym xpq_queue_pin_l2_table(xpmap_ptom_masked(addr)); 766 1.6 bouyer #endif 767 1.6 bouyer } 768 1.6 bouyer if (final) { 769 1.6 bouyer addr = (u_long)pde - KERNBASE + 3 * PAGE_SIZE; 770 1.6 bouyer __PRINTK(("pin L2 %d addr 0x%" PRIx64 "\n", 2, (int64_t)addr)); 771 1.12.4.7 jym xpq_queue_pin_l2_table(xpmap_ptom_masked(addr)); 772 1.6 bouyer } 773 1.6 bouyer #if 0 774 1.6 bouyer addr = (u_long)pde - KERNBASE + 2 * PAGE_SIZE; 775 1.6 bouyer __PRINTK(("pin L2 %d addr 0x%" PRIx64 "\n", 2, (int64_t)addr)); 776 1.12.4.7 jym xpq_queue_pin_l2_table(xpmap_ptom_masked(addr)); 777 1.6 bouyer #endif 778 1.6 bouyer #else /* PAE */ 779 1.6 bouyer /* recursive entry in higher-level PD */ 780 1.2 bouyer bt_pgd[PDIR_SLOT_PTE] = 781 1.4 bouyer xpmap_ptom_masked(new_pgd - KERNBASE) | PG_k | PG_V; 782 1.6 bouyer __PRINTK(("bt_pgd[PDIR_SLOT_PTE] va 0x%lx pa 0x%" PRIx64 783 1.6 bouyer " entry 0x%" PRIx64 "\n", new_pgd, (int64_t)new_pgd - KERNBASE, 784 1.6 bouyer (int64_t)bt_pgd[PDIR_SLOT_PTE])); 785 1.2 bouyer /* Mark tables RO */ 786 1.2 bouyer xen_bt_set_readonly((vaddr_t) pde); 787 1.6 bouyer #endif 788 1.6 bouyer #if PTP_LEVELS > 2 || defined(PAE) 789 1.2 bouyer xen_bt_set_readonly((vaddr_t) pdtpe); 790 1.4 bouyer #endif 791 1.4 bouyer #if PTP_LEVELS > 3 792 1.2 bouyer xen_bt_set_readonly(new_pgd); 793 1.4 bouyer #endif 794 1.2 bouyer /* Pin the PGD */ 795 1.12.4.4 jym __PRINTK(("pin PGD\n")); 796 1.6 bouyer #ifdef PAE 797 1.6 bouyer xpq_queue_pin_l3_table(xpmap_ptom_masked(new_pgd - KERNBASE)); 798 1.12.4.7 jym #elif defined(__x86_64__) 799 1.12.4.7 jym xpq_queue_pin_l4_table(xpmap_ptom_masked(new_pgd - KERNBASE)); 800 1.6 bouyer #else 801 1.12.4.7 jym xpq_queue_pin_l2_table(xpmap_ptom_masked(new_pgd - KERNBASE)); 802 1.6 bouyer #endif 803 1.4 bouyer #ifdef __i386__ 804 1.4 bouyer /* Save phys. addr of PDP, for libkvm. */ 805 1.6 bouyer PDPpaddr = (long)pde; 806 1.6 bouyer #ifdef PAE 807 1.6 bouyer /* also save the address of the L3 page */ 808 1.6 bouyer pmap_l3pd = pdtpe; 809 1.6 bouyer pmap_l3paddr = (new_pgd - KERNBASE); 810 1.6 bouyer #endif /* PAE */ 811 1.6 bouyer #endif /* i386 */ 812 1.2 bouyer /* Switch to new tables */ 813 1.12.4.4 jym __PRINTK(("switch to PGD\n")); 814 1.2 bouyer xpq_queue_pt_switch(xpmap_ptom_masked(new_pgd - KERNBASE)); 815 1.6 bouyer __PRINTK(("bt_pgd[PDIR_SLOT_PTE] now entry 0x%" PRIx64 "\n", 816 1.6 bouyer (int64_t)bt_pgd[PDIR_SLOT_PTE])); 817 1.6 bouyer #ifdef PAE 818 1.6 bouyer if (final) { 819 1.6 bouyer /* now enter kernel's PTE mappings */ 820 1.6 bouyer addr = (u_long)pde - KERNBASE + PAGE_SIZE * 3; 821 1.6 bouyer xpq_queue_pte_update( 822 1.6 bouyer xpmap_ptom(((vaddr_t)&pde[PDIR_SLOT_PTE + 3]) - KERNBASE), 823 1.6 bouyer xpmap_ptom_masked(addr) | PG_k | PG_V); 824 1.6 bouyer xpq_flush_queue(); 825 1.6 bouyer } 826 1.6 bouyer #endif 827 1.6 bouyer 828 1.6 bouyer 829 1.2 bouyer 830 1.2 bouyer /* Now we can safely reclaim space taken by old tables */ 831 1.2 bouyer 832 1.12.4.4 jym __PRINTK(("unpin old PGD\n")); 833 1.2 bouyer /* Unpin old PGD */ 834 1.2 bouyer xpq_queue_unpin_table(xpmap_ptom_masked(old_pgd - KERNBASE)); 835 1.2 bouyer /* Mark old tables RW */ 836 1.2 bouyer page = old_pgd; 837 1.2 bouyer addr = (paddr_t) pde[pl2_pi(page)] & PG_FRAME; 838 1.2 bouyer addr = xpmap_mtop(addr); 839 1.6 bouyer pte = (pd_entry_t *) ((u_long)addr + KERNBASE); 840 1.2 bouyer pte += pl1_pi(page); 841 1.6 bouyer __PRINTK(("*pde 0x%" PRIx64 " addr 0x%" PRIx64 " pte 0x%lx\n", 842 1.6 bouyer (int64_t)pde[pl2_pi(page)], (int64_t)addr, (long)pte)); 843 1.2 bouyer while (page < old_pgd + (old_count * PAGE_SIZE) && page < map_end) { 844 1.6 bouyer addr = xpmap_ptom(((u_long) pte) - KERNBASE); 845 1.6 bouyer XENPRINTK(("addr 0x%" PRIx64 " pte 0x%lx *pte 0x%" PRIx64 "\n", 846 1.6 bouyer (int64_t)addr, (long)pte, (int64_t)*pte)); 847 1.6 bouyer xpq_queue_pte_update(addr, *pte | PG_RW); 848 1.2 bouyer page += PAGE_SIZE; 849 1.2 bouyer /* 850 1.2 bouyer * Our ptes are contiguous 851 1.2 bouyer * so it's safe to just "++" here 852 1.2 bouyer */ 853 1.2 bouyer pte++; 854 1.2 bouyer } 855 1.2 bouyer xpq_flush_queue(); 856 1.2 bouyer } 857 1.2 bouyer 858 1.2 bouyer 859 1.2 bouyer /* 860 1.2 bouyer * Bootstrap helper functions 861 1.2 bouyer */ 862 1.2 bouyer 863 1.2 bouyer /* 864 1.2 bouyer * Mark a page readonly 865 1.2 bouyer * XXX: assuming vaddr = paddr + KERNBASE 866 1.2 bouyer */ 867 1.2 bouyer 868 1.2 bouyer static void 869 1.2 bouyer xen_bt_set_readonly (vaddr_t page) 870 1.2 bouyer { 871 1.2 bouyer pt_entry_t entry; 872 1.2 bouyer 873 1.2 bouyer entry = xpmap_ptom_masked(page - KERNBASE); 874 1.4 bouyer entry |= PG_k | PG_V; 875 1.2 bouyer 876 1.2 bouyer HYPERVISOR_update_va_mapping (page, entry, UVMF_INVLPG); 877 1.2 bouyer } 878 1.4 bouyer 879 1.4 bouyer #ifdef __x86_64__ 880 1.4 bouyer void 881 1.4 bouyer xen_set_user_pgd(paddr_t page) 882 1.4 bouyer { 883 1.4 bouyer struct mmuext_op op; 884 1.4 bouyer int s = splvm(); 885 1.4 bouyer 886 1.4 bouyer xpq_flush_queue(); 887 1.4 bouyer op.cmd = MMUEXT_NEW_USER_BASEPTR; 888 1.12.4.7 jym op.arg1.mfn = pfn_to_mfn(page >> PAGE_SHIFT); 889 1.4 bouyer if (HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF) < 0) 890 1.4 bouyer panic("xen_set_user_pgd: failed to install new user page" 891 1.4 bouyer " directory %lx", page); 892 1.4 bouyer splx(s); 893 1.4 bouyer } 894 1.4 bouyer #endif /* __x86_64__ */ 895
Indexes created Thu Oct 23 22:10:10 GMT 2025