cpufunc.h revision 1.41
1 1.41 msaitoh /* $NetBSD: cpufunc.h,v 1.41 2020/06/15 09:09:23 msaitoh Exp $ */ 2 1.1 ad 3 1.25 maxv /* 4 1.25 maxv * Copyright (c) 1998, 2007, 2019 The NetBSD Foundation, Inc. 5 1.1 ad * All rights reserved. 6 1.1 ad * 7 1.1 ad * This code is derived from software contributed to The NetBSD Foundation 8 1.2 ad * by Charles M. Hannum, and by Andrew Doran. 9 1.1 ad * 10 1.1 ad * Redistribution and use in source and binary forms, with or without 11 1.1 ad * modification, are permitted provided that the following conditions 12 1.1 ad * are met: 13 1.1 ad * 1. Redistributions of source code must retain the above copyright 14 1.1 ad * notice, this list of conditions and the following disclaimer. 15 1.1 ad * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 ad * notice, this list of conditions and the following disclaimer in the 17 1.1 ad * documentation and/or other materials provided with the distribution. 18 1.1 ad * 19 1.1 ad * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 ad * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 ad * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 ad * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 ad * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 ad * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 ad * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 ad * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 ad * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 ad * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 ad * POSSIBILITY OF SUCH DAMAGE. 30 1.1 ad */ 31 1.1 ad 32 1.1 ad #ifndef _X86_CPUFUNC_H_ 33 1.1 ad #define _X86_CPUFUNC_H_ 34 1.1 ad 35 1.1 ad /* 36 1.1 ad * Functions to provide access to x86-specific instructions. 37 1.1 ad */ 38 1.1 ad 39 1.1 ad #include <sys/cdefs.h> 40 1.1 ad #include <sys/types.h> 41 1.1 ad 42 1.1 ad #include <machine/segments.h> 43 1.1 ad #include <machine/specialreg.h> 44 1.1 ad 45 1.1 ad #ifdef _KERNEL 46 1.28 bouyer #if defined(_KERNEL_OPT) 47 1.28 bouyer #include "opt_xen.h" 48 1.28 bouyer #endif 49 1.1 ad 50 1.26 maxv static inline void 51 1.26 maxv x86_pause(void) 52 1.26 maxv { 53 1.32 christos __asm volatile ("pause"); 54 1.26 maxv } 55 1.26 maxv 56 1.1 ad void x86_lfence(void); 57 1.1 ad void x86_sfence(void); 58 1.1 ad void x86_mfence(void); 59 1.1 ad void x86_flush(void); 60 1.25 maxv void x86_hlt(void); 61 1.25 maxv void x86_stihlt(void); 62 1.25 maxv void tlbflush(void); 63 1.25 maxv void tlbflushg(void); 64 1.25 maxv void invlpg(vaddr_t); 65 1.25 maxv void wbinvd(void); 66 1.25 maxv void breakpoint(void); 67 1.26 maxv 68 1.31 maxv #define INVPCID_ADDRESS 0 69 1.31 maxv #define INVPCID_CONTEXT 1 70 1.31 maxv #define INVPCID_ALL 2 71 1.31 maxv #define INVPCID_ALL_NONGLOBAL 3 72 1.31 maxv 73 1.31 maxv static inline void 74 1.31 maxv invpcid(register_t op, uint64_t pcid, vaddr_t va) 75 1.31 maxv { 76 1.31 maxv struct { 77 1.31 maxv uint64_t pcid; 78 1.31 maxv uint64_t addr; 79 1.31 maxv } desc = { 80 1.31 maxv .pcid = pcid, 81 1.31 maxv .addr = va 82 1.31 maxv }; 83 1.31 maxv 84 1.32 christos __asm volatile ( 85 1.31 maxv "invpcid %[desc],%[op]" 86 1.31 maxv : 87 1.31 maxv : [desc] "m" (desc), [op] "r" (op) 88 1.31 maxv : "memory" 89 1.31 maxv ); 90 1.31 maxv } 91 1.31 maxv 92 1.41 msaitoh extern uint64_t (*rdtsc)(void); 93 1.26 maxv 94 1.41 msaitoh #define _SERIALIZE_lfence __asm volatile ("lfence") 95 1.41 msaitoh #define _SERIALIZE_mfence __asm volatile ("mfence") 96 1.41 msaitoh #define _SERIALIZE_cpuid __asm volatile ("xor %%eax, %%eax;cpuid" ::: \ 97 1.41 msaitoh "eax", "ebx", "ecx", "edx"); 98 1.41 msaitoh 99 1.41 msaitoh #define RDTSCFUNC(fence) \ 100 1.41 msaitoh static inline uint64_t \ 101 1.41 msaitoh rdtsc_##fence(void) \ 102 1.41 msaitoh { \ 103 1.41 msaitoh uint32_t low, high; \ 104 1.41 msaitoh \ 105 1.41 msaitoh _SERIALIZE_##fence; \ 106 1.41 msaitoh __asm volatile ( \ 107 1.41 msaitoh "rdtsc" \ 108 1.41 msaitoh : "=a" (low), "=d" (high) \ 109 1.41 msaitoh : \ 110 1.41 msaitoh ); \ 111 1.41 msaitoh \ 112 1.41 msaitoh return (low | ((uint64_t)high << 32)); \ 113 1.41 msaitoh } 114 1.41 msaitoh 115 1.41 msaitoh RDTSCFUNC(lfence) 116 1.41 msaitoh RDTSCFUNC(mfence) 117 1.41 msaitoh RDTSCFUNC(cpuid) 118 1.41 msaitoh 119 1.41 msaitoh #undef _SERIALIZE_LFENCE 120 1.41 msaitoh #undef _SERIALIZE_MFENCE 121 1.41 msaitoh #undef _SERIALIZE_CPUID 122 1.26 maxv 123 1.26 maxv 124 1.38 bouyer #ifndef XENPV 125 1.39 maxv struct x86_hotpatch_source { 126 1.39 maxv uint8_t *saddr; 127 1.39 maxv uint8_t *eaddr; 128 1.39 maxv }; 129 1.39 maxv 130 1.39 maxv struct x86_hotpatch_descriptor { 131 1.39 maxv uint8_t name; 132 1.39 maxv uint8_t nsrc; 133 1.39 maxv const struct x86_hotpatch_source *srcs[]; 134 1.39 maxv }; 135 1.39 maxv 136 1.39 maxv void x86_hotpatch(uint8_t, uint8_t); 137 1.9 ad void x86_patch(bool); 138 1.10 cegger #endif 139 1.25 maxv 140 1.25 maxv void x86_monitor(const void *, uint32_t, uint32_t); 141 1.25 maxv void x86_mwait(uint32_t, uint32_t); 142 1.33 maxv 143 1.33 maxv static inline void 144 1.33 maxv x86_cpuid2(uint32_t eax, uint32_t ecx, uint32_t *regs) 145 1.33 maxv { 146 1.33 maxv uint32_t ebx, edx; 147 1.33 maxv 148 1.33 maxv __asm volatile ( 149 1.33 maxv "cpuid" 150 1.33 maxv : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx) 151 1.33 maxv : "a" (eax), "c" (ecx) 152 1.33 maxv ); 153 1.33 maxv 154 1.33 maxv regs[0] = eax; 155 1.33 maxv regs[1] = ebx; 156 1.33 maxv regs[2] = ecx; 157 1.33 maxv regs[3] = edx; 158 1.33 maxv } 159 1.33 maxv #define x86_cpuid(a,b) x86_cpuid2((a), 0, (b)) 160 1.25 maxv 161 1.25 maxv /* -------------------------------------------------------------------------- */ 162 1.25 maxv 163 1.1 ad void lidt(struct region_descriptor *); 164 1.1 ad void lldt(u_short); 165 1.1 ad void ltr(u_short); 166 1.25 maxv 167 1.27 maxv static inline uint16_t 168 1.27 maxv x86_getss(void) 169 1.27 maxv { 170 1.27 maxv uint16_t val; 171 1.27 maxv 172 1.32 christos __asm volatile ( 173 1.27 maxv "mov %%ss,%[val]" 174 1.27 maxv : [val] "=r" (val) 175 1.27 maxv : 176 1.27 maxv ); 177 1.27 maxv return val; 178 1.27 maxv } 179 1.27 maxv 180 1.27 maxv static inline void 181 1.27 maxv setds(uint16_t val) 182 1.27 maxv { 183 1.32 christos __asm volatile ( 184 1.27 maxv "mov %[val],%%ds" 185 1.27 maxv : 186 1.27 maxv : [val] "r" (val) 187 1.27 maxv ); 188 1.27 maxv } 189 1.27 maxv 190 1.27 maxv static inline void 191 1.27 maxv setes(uint16_t val) 192 1.27 maxv { 193 1.32 christos __asm volatile ( 194 1.27 maxv "mov %[val],%%es" 195 1.27 maxv : 196 1.27 maxv : [val] "r" (val) 197 1.27 maxv ); 198 1.27 maxv } 199 1.27 maxv 200 1.27 maxv static inline void 201 1.27 maxv setfs(uint16_t val) 202 1.27 maxv { 203 1.32 christos __asm volatile ( 204 1.27 maxv "mov %[val],%%fs" 205 1.27 maxv : 206 1.27 maxv : [val] "r" (val) 207 1.27 maxv ); 208 1.27 maxv } 209 1.27 maxv 210 1.25 maxv void setusergs(int); 211 1.25 maxv 212 1.25 maxv /* -------------------------------------------------------------------------- */ 213 1.17 dsl 214 1.27 maxv #define FUNC_CR(crnum) \ 215 1.27 maxv static inline void lcr##crnum(register_t val) \ 216 1.27 maxv { \ 217 1.32 christos __asm volatile ( \ 218 1.27 maxv "mov %[val],%%cr" #crnum \ 219 1.27 maxv : \ 220 1.27 maxv : [val] "r" (val) \ 221 1.33 maxv : "memory" \ 222 1.27 maxv ); \ 223 1.27 maxv } \ 224 1.27 maxv static inline register_t rcr##crnum(void) \ 225 1.27 maxv { \ 226 1.27 maxv register_t val; \ 227 1.32 christos __asm volatile ( \ 228 1.27 maxv "mov %%cr" #crnum ",%[val]" \ 229 1.27 maxv : [val] "=r" (val) \ 230 1.27 maxv : \ 231 1.27 maxv ); \ 232 1.27 maxv return val; \ 233 1.27 maxv } 234 1.27 maxv 235 1.27 maxv #define PROTO_CR(crnum) \ 236 1.27 maxv void lcr##crnum(register_t); \ 237 1.27 maxv register_t rcr##crnum(void); 238 1.27 maxv 239 1.27 maxv #ifndef XENPV 240 1.27 maxv FUNC_CR(0) 241 1.27 maxv FUNC_CR(2) 242 1.27 maxv FUNC_CR(3) 243 1.27 maxv #else 244 1.27 maxv PROTO_CR(0) 245 1.27 maxv PROTO_CR(2) 246 1.27 maxv PROTO_CR(3) 247 1.27 maxv #endif 248 1.27 maxv 249 1.27 maxv FUNC_CR(4) 250 1.27 maxv FUNC_CR(8) 251 1.27 maxv 252 1.27 maxv /* -------------------------------------------------------------------------- */ 253 1.27 maxv 254 1.27 maxv #define FUNC_DR(drnum) \ 255 1.27 maxv static inline void ldr##drnum(register_t val) \ 256 1.27 maxv { \ 257 1.32 christos __asm volatile ( \ 258 1.27 maxv "mov %[val],%%dr" #drnum \ 259 1.27 maxv : \ 260 1.27 maxv : [val] "r" (val) \ 261 1.27 maxv ); \ 262 1.27 maxv } \ 263 1.27 maxv static inline register_t rdr##drnum(void) \ 264 1.27 maxv { \ 265 1.27 maxv register_t val; \ 266 1.32 christos __asm volatile ( \ 267 1.27 maxv "mov %%dr" #drnum ",%[val]" \ 268 1.27 maxv : [val] "=r" (val) \ 269 1.27 maxv : \ 270 1.27 maxv ); \ 271 1.27 maxv return val; \ 272 1.27 maxv } 273 1.27 maxv 274 1.27 maxv #define PROTO_DR(drnum) \ 275 1.27 maxv register_t rdr##drnum(void); \ 276 1.27 maxv void ldr##drnum(register_t); 277 1.27 maxv 278 1.27 maxv #ifndef XENPV 279 1.27 maxv FUNC_DR(0) 280 1.27 maxv FUNC_DR(1) 281 1.27 maxv FUNC_DR(2) 282 1.27 maxv FUNC_DR(3) 283 1.27 maxv FUNC_DR(6) 284 1.27 maxv FUNC_DR(7) 285 1.27 maxv #else 286 1.27 maxv PROTO_DR(0) 287 1.27 maxv PROTO_DR(1) 288 1.27 maxv PROTO_DR(2) 289 1.27 maxv PROTO_DR(3) 290 1.27 maxv PROTO_DR(6) 291 1.27 maxv PROTO_DR(7) 292 1.27 maxv #endif 293 1.27 maxv 294 1.27 maxv /* -------------------------------------------------------------------------- */ 295 1.27 maxv 296 1.18 dsl union savefpu; 297 1.27 maxv 298 1.27 maxv static inline void 299 1.27 maxv fninit(void) 300 1.27 maxv { 301 1.35 maxv __asm volatile ("fninit" ::: "memory"); 302 1.27 maxv } 303 1.27 maxv 304 1.27 maxv static inline void 305 1.27 maxv fnclex(void) 306 1.27 maxv { 307 1.32 christos __asm volatile ("fnclex"); 308 1.27 maxv } 309 1.27 maxv 310 1.34 maxv static inline void 311 1.34 maxv fnstcw(uint16_t *val) 312 1.34 maxv { 313 1.34 maxv __asm volatile ( 314 1.34 maxv "fnstcw %[val]" 315 1.34 maxv : [val] "=m" (*val) 316 1.34 maxv : 317 1.34 maxv ); 318 1.34 maxv } 319 1.34 maxv 320 1.34 maxv static inline void 321 1.34 maxv fnstsw(uint16_t *val) 322 1.34 maxv { 323 1.34 maxv __asm volatile ( 324 1.34 maxv "fnstsw %[val]" 325 1.34 maxv : [val] "=m" (*val) 326 1.34 maxv : 327 1.34 maxv ); 328 1.34 maxv } 329 1.27 maxv 330 1.27 maxv static inline void 331 1.27 maxv clts(void) 332 1.27 maxv { 333 1.35 maxv __asm volatile ("clts" ::: "memory"); 334 1.27 maxv } 335 1.27 maxv 336 1.1 ad void stts(void); 337 1.25 maxv 338 1.34 maxv static inline void 339 1.34 maxv x86_stmxcsr(uint32_t *val) 340 1.34 maxv { 341 1.34 maxv __asm volatile ( 342 1.34 maxv "stmxcsr %[val]" 343 1.34 maxv : [val] "=m" (*val) 344 1.34 maxv : 345 1.34 maxv ); 346 1.34 maxv } 347 1.34 maxv 348 1.34 maxv static inline void 349 1.34 maxv x86_ldmxcsr(uint32_t *val) 350 1.34 maxv { 351 1.34 maxv __asm volatile ( 352 1.34 maxv "ldmxcsr %[val]" 353 1.34 maxv : 354 1.34 maxv : [val] "m" (*val) 355 1.34 maxv ); 356 1.34 maxv } 357 1.34 maxv 358 1.16 dsl void fldummy(void); 359 1.18 dsl 360 1.26 maxv static inline uint64_t 361 1.26 maxv rdxcr(uint32_t xcr) 362 1.26 maxv { 363 1.26 maxv uint32_t low, high; 364 1.26 maxv 365 1.32 christos __asm volatile ( 366 1.26 maxv "xgetbv" 367 1.26 maxv : "=a" (low), "=d" (high) 368 1.26 maxv : "c" (xcr) 369 1.26 maxv ); 370 1.26 maxv 371 1.26 maxv return (low | ((uint64_t)high << 32)); 372 1.26 maxv } 373 1.26 maxv 374 1.26 maxv static inline void 375 1.26 maxv wrxcr(uint32_t xcr, uint64_t val) 376 1.26 maxv { 377 1.26 maxv uint32_t low, high; 378 1.26 maxv 379 1.26 maxv low = val; 380 1.26 maxv high = val >> 32; 381 1.32 christos __asm volatile ( 382 1.26 maxv "xsetbv" 383 1.26 maxv : 384 1.26 maxv : "a" (low), "d" (high), "c" (xcr) 385 1.26 maxv ); 386 1.26 maxv } 387 1.18 dsl 388 1.37 maxv static inline void 389 1.37 maxv fnsave(void *addr) 390 1.37 maxv { 391 1.37 maxv uint8_t *area = addr; 392 1.37 maxv 393 1.37 maxv __asm volatile ( 394 1.37 maxv "fnsave %[area]" 395 1.37 maxv : [area] "=m" (*area) 396 1.37 maxv : 397 1.37 maxv : "memory" 398 1.37 maxv ); 399 1.37 maxv } 400 1.34 maxv 401 1.37 maxv static inline void 402 1.40 riastrad frstor(const void *addr) 403 1.37 maxv { 404 1.37 maxv const uint8_t *area = addr; 405 1.37 maxv 406 1.37 maxv __asm volatile ( 407 1.37 maxv "frstor %[area]" 408 1.37 maxv : 409 1.37 maxv : [area] "m" (*area) 410 1.37 maxv : "memory" 411 1.37 maxv ); 412 1.37 maxv } 413 1.34 maxv 414 1.37 maxv static inline void 415 1.37 maxv fxsave(void *addr) 416 1.37 maxv { 417 1.37 maxv uint8_t *area = addr; 418 1.37 maxv 419 1.37 maxv __asm volatile ( 420 1.37 maxv "fxsave %[area]" 421 1.37 maxv : [area] "=m" (*area) 422 1.37 maxv : 423 1.37 maxv : "memory" 424 1.37 maxv ); 425 1.37 maxv } 426 1.37 maxv 427 1.37 maxv static inline void 428 1.40 riastrad fxrstor(const void *addr) 429 1.37 maxv { 430 1.37 maxv const uint8_t *area = addr; 431 1.37 maxv 432 1.37 maxv __asm volatile ( 433 1.37 maxv "fxrstor %[area]" 434 1.37 maxv : 435 1.37 maxv : [area] "m" (*area) 436 1.37 maxv : "memory" 437 1.37 maxv ); 438 1.37 maxv } 439 1.37 maxv 440 1.37 maxv static inline void 441 1.37 maxv xsave(void *addr, uint64_t mask) 442 1.37 maxv { 443 1.37 maxv uint8_t *area = addr; 444 1.37 maxv uint32_t low, high; 445 1.37 maxv 446 1.37 maxv low = mask; 447 1.37 maxv high = mask >> 32; 448 1.37 maxv __asm volatile ( 449 1.37 maxv "xsave %[area]" 450 1.37 maxv : [area] "=m" (*area) 451 1.37 maxv : "a" (low), "d" (high) 452 1.37 maxv : "memory" 453 1.37 maxv ); 454 1.37 maxv } 455 1.37 maxv 456 1.37 maxv static inline void 457 1.37 maxv xsaveopt(void *addr, uint64_t mask) 458 1.37 maxv { 459 1.37 maxv uint8_t *area = addr; 460 1.37 maxv uint32_t low, high; 461 1.37 maxv 462 1.37 maxv low = mask; 463 1.37 maxv high = mask >> 32; 464 1.37 maxv __asm volatile ( 465 1.37 maxv "xsaveopt %[area]" 466 1.37 maxv : [area] "=m" (*area) 467 1.37 maxv : "a" (low), "d" (high) 468 1.37 maxv : "memory" 469 1.37 maxv ); 470 1.37 maxv } 471 1.37 maxv 472 1.37 maxv static inline void 473 1.40 riastrad xrstor(const void *addr, uint64_t mask) 474 1.37 maxv { 475 1.37 maxv const uint8_t *area = addr; 476 1.37 maxv uint32_t low, high; 477 1.37 maxv 478 1.37 maxv low = mask; 479 1.37 maxv high = mask >> 32; 480 1.37 maxv __asm volatile ( 481 1.37 maxv "xrstor %[area]" 482 1.37 maxv : 483 1.37 maxv : [area] "m" (*area), "a" (low), "d" (high) 484 1.37 maxv : "memory" 485 1.37 maxv ); 486 1.37 maxv } 487 1.18 dsl 488 1.25 maxv /* -------------------------------------------------------------------------- */ 489 1.1 ad 490 1.28 bouyer #ifdef XENPV 491 1.28 bouyer void x86_disable_intr(void); 492 1.28 bouyer void x86_enable_intr(void); 493 1.28 bouyer #else 494 1.27 maxv static inline void 495 1.27 maxv x86_disable_intr(void) 496 1.27 maxv { 497 1.33 maxv __asm volatile ("cli" ::: "memory"); 498 1.27 maxv } 499 1.27 maxv 500 1.27 maxv static inline void 501 1.27 maxv x86_enable_intr(void) 502 1.27 maxv { 503 1.33 maxv __asm volatile ("sti" ::: "memory"); 504 1.27 maxv } 505 1.28 bouyer #endif /* XENPV */ 506 1.27 maxv 507 1.1 ad /* Use read_psl, write_psl when saving and restoring interrupt state. */ 508 1.1 ad u_long x86_read_psl(void); 509 1.1 ad void x86_write_psl(u_long); 510 1.1 ad 511 1.1 ad /* Use read_flags, write_flags to adjust other members of %eflags. */ 512 1.1 ad u_long x86_read_flags(void); 513 1.1 ad void x86_write_flags(u_long); 514 1.1 ad 515 1.11 christos void x86_reset(void); 516 1.11 christos 517 1.25 maxv /* -------------------------------------------------------------------------- */ 518 1.25 maxv 519 1.1 ad /* 520 1.1 ad * Some of the undocumented AMD64 MSRs need a 'passcode' to access. 521 1.1 ad * See LinuxBIOSv2: src/cpu/amd/model_fxx/model_fxx_init.c 522 1.1 ad */ 523 1.1 ad #define OPTERON_MSR_PASSCODE 0x9c5a203aU 524 1.1 ad 525 1.26 maxv static inline uint64_t 526 1.26 maxv rdmsr(u_int msr) 527 1.26 maxv { 528 1.26 maxv uint32_t low, high; 529 1.26 maxv 530 1.32 christos __asm volatile ( 531 1.26 maxv "rdmsr" 532 1.26 maxv : "=a" (low), "=d" (high) 533 1.26 maxv : "c" (msr) 534 1.26 maxv ); 535 1.26 maxv 536 1.26 maxv return (low | ((uint64_t)high << 32)); 537 1.26 maxv } 538 1.26 maxv 539 1.36 maxv static inline uint64_t 540 1.36 maxv rdmsr_locked(u_int msr) 541 1.36 maxv { 542 1.36 maxv uint32_t low, high, pass = OPTERON_MSR_PASSCODE; 543 1.36 maxv 544 1.36 maxv __asm volatile ( 545 1.36 maxv "rdmsr" 546 1.36 maxv : "=a" (low), "=d" (high) 547 1.36 maxv : "c" (msr), "D" (pass) 548 1.36 maxv ); 549 1.36 maxv 550 1.36 maxv return (low | ((uint64_t)high << 32)); 551 1.36 maxv } 552 1.36 maxv 553 1.36 maxv int rdmsr_safe(u_int, uint64_t *); 554 1.30 christos 555 1.26 maxv static inline void 556 1.26 maxv wrmsr(u_int msr, uint64_t val) 557 1.26 maxv { 558 1.26 maxv uint32_t low, high; 559 1.26 maxv 560 1.26 maxv low = val; 561 1.26 maxv high = val >> 32; 562 1.32 christos __asm volatile ( 563 1.26 maxv "wrmsr" 564 1.26 maxv : 565 1.26 maxv : "a" (low), "d" (high), "c" (msr) 566 1.35 maxv : "memory" 567 1.26 maxv ); 568 1.26 maxv } 569 1.26 maxv 570 1.36 maxv static inline void 571 1.36 maxv wrmsr_locked(u_int msr, uint64_t val) 572 1.36 maxv { 573 1.36 maxv uint32_t low, high, pass = OPTERON_MSR_PASSCODE; 574 1.36 maxv 575 1.36 maxv low = val; 576 1.36 maxv high = val >> 32; 577 1.36 maxv __asm volatile ( 578 1.36 maxv "wrmsr" 579 1.36 maxv : 580 1.36 maxv : "a" (low), "d" (high), "c" (msr), "D" (pass) 581 1.36 maxv : "memory" 582 1.36 maxv ); 583 1.36 maxv } 584 1.30 christos 585 1.30 christos #endif /* _KERNEL */ 586 1.30 christos 587 1.1 ad #endif /* !_X86_CPUFUNC_H_ */ 588
Indexes created Thu Sep 25 14:09:45 GMT 2025