dtrace_isa.c revision 1.4.4.1
1 1.4.4.1 bouyer /* $NetBSD: dtrace_isa.c,v 1.4.4.1 2017/04/21 16:52:40 bouyer Exp $ */ 2 1.2 darran 3 1.1 darran /* 4 1.1 darran * CDDL HEADER START 5 1.1 darran * 6 1.1 darran * The contents of this file are subject to the terms of the 7 1.1 darran * Common Development and Distribution License, Version 1.0 only 8 1.1 darran * (the "License"). You may not use this file except in compliance 9 1.1 darran * with the License. 10 1.1 darran * 11 1.1 darran * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 12 1.1 darran * or http://www.opensolaris.org/os/licensing. 13 1.1 darran * See the License for the specific language governing permissions 14 1.1 darran * and limitations under the License. 15 1.1 darran * 16 1.1 darran * When distributing Covered Code, include this CDDL HEADER in each 17 1.1 darran * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 18 1.1 darran * If applicable, add the following below this CDDL HEADER, with the 19 1.1 darran * fields enclosed by brackets "[]" replaced with your own identifying 20 1.1 darran * information: Portions Copyright [yyyy] [name of copyright owner] 21 1.1 darran * 22 1.1 darran * CDDL HEADER END 23 1.1 darran * 24 1.1 darran * $FreeBSD: src/sys/cddl/dev/dtrace/i386/dtrace_isa.c,v 1.1.4.1 2009/08/03 08:13:06 kensmith Exp $ 25 1.1 darran */ 26 1.1 darran /* 27 1.1 darran * Copyright 2005 Sun Microsystems, Inc. All rights reserved. 28 1.1 darran * Use is subject to license terms. 29 1.1 darran */ 30 1.1 darran #include <sys/cdefs.h> 31 1.1 darran 32 1.1 darran #include <sys/param.h> 33 1.1 darran #include <sys/systm.h> 34 1.1 darran #include <sys/kernel.h> 35 1.1 darran 36 1.2 darran #include <machine/vmparam.h> 37 1.2 darran #include <machine/pmap.h> 38 1.1 darran 39 1.2 darran uintptr_t kernelbase = (uintptr_t)KERNBASE; 40 1.1 darran 41 1.4 chs #define INKERNEL(va) \ 42 1.4 chs (((vm_offset_t)(va)) >= VM_MIN_KERNEL_ADDRESS && \ 43 1.1 darran ((vm_offset_t)(va)) < VM_MAX_KERNEL_ADDRESS) 44 1.1 darran 45 1.2 darran struct i386_frame { 46 1.2 darran struct i386_frame *f_frame; 47 1.2 darran int f_retaddr; 48 1.2 darran }; 49 1.2 darran 50 1.2 darran typedef unsigned long vm_offset_t; 51 1.2 darran 52 1.1 darran uint8_t dtrace_fuword8_nocheck(void *); 53 1.1 darran uint16_t dtrace_fuword16_nocheck(void *); 54 1.1 darran uint32_t dtrace_fuword32_nocheck(void *); 55 1.1 darran uint64_t dtrace_fuword64_nocheck(void *); 56 1.1 darran 57 1.1 darran void 58 1.1 darran dtrace_getpcstack(pc_t *pcstack, int pcstack_limit, int aframes, 59 1.1 darran uint32_t *intrpc) 60 1.1 darran { 61 1.1 darran int depth = 0; 62 1.1 darran register_t ebp; 63 1.1 darran struct i386_frame *frame; 64 1.1 darran vm_offset_t callpc; 65 1.2 darran pc_t caller = (pc_t) solaris_cpu[cpu_number()].cpu_dtrace_caller; 66 1.1 darran 67 1.1 darran if (intrpc != 0) 68 1.1 darran pcstack[depth++] = (pc_t) intrpc; 69 1.1 darran 70 1.1 darran aframes++; 71 1.1 darran 72 1.1 darran __asm __volatile("movl %%ebp,%0" : "=r" (ebp)); 73 1.1 darran 74 1.1 darran frame = (struct i386_frame *)ebp; 75 1.1 darran while (depth < pcstack_limit) { 76 1.1 darran if (!INKERNEL(frame)) 77 1.1 darran break; 78 1.1 darran 79 1.1 darran callpc = frame->f_retaddr; 80 1.1 darran 81 1.1 darran if (!INKERNEL(callpc)) 82 1.1 darran break; 83 1.1 darran 84 1.1 darran if (aframes > 0) { 85 1.1 darran aframes--; 86 1.1 darran if ((aframes == 0) && (caller != 0)) { 87 1.1 darran pcstack[depth++] = caller; 88 1.1 darran } 89 1.1 darran } 90 1.1 darran else { 91 1.1 darran pcstack[depth++] = callpc; 92 1.1 darran } 93 1.1 darran 94 1.1 darran if (frame->f_frame <= frame || 95 1.1 darran (vm_offset_t)frame->f_frame >= 96 1.2 darran (vm_offset_t)ebp + KSTACK_SIZE) 97 1.1 darran break; 98 1.1 darran frame = frame->f_frame; 99 1.1 darran } 100 1.1 darran 101 1.1 darran for (; depth < pcstack_limit; depth++) { 102 1.1 darran pcstack[depth] = 0; 103 1.1 darran } 104 1.1 darran } 105 1.1 darran 106 1.1 darran static int 107 1.1 darran dtrace_getustack_common(uint64_t *pcstack, int pcstack_limit, uintptr_t pc, 108 1.1 darran uintptr_t sp) 109 1.1 darran { 110 1.4 chs #ifdef notyet 111 1.1 darran proc_t *p = curproc; 112 1.4 chs uintptr_t oldcontext = lwp->lwp_oldcontext; /* XXX signal stack. */ 113 1.4 chs size_t s1, s2; 114 1.4 chs #endif 115 1.1 darran volatile uint16_t *flags = 116 1.2 darran (volatile uint16_t *)&cpu_core[cpu_number()].cpuc_dtrace_flags; 117 1.1 darran int ret = 0; 118 1.1 darran 119 1.1 darran ASSERT(pcstack == NULL || pcstack_limit > 0); 120 1.1 darran 121 1.4 chs #ifdef notyet /* XXX signal stack. */ 122 1.1 darran if (p->p_model == DATAMODEL_NATIVE) { 123 1.1 darran s1 = sizeof (struct frame) + 2 * sizeof (long); 124 1.1 darran s2 = s1 + sizeof (siginfo_t); 125 1.1 darran } else { 126 1.1 darran s1 = sizeof (struct frame32) + 3 * sizeof (int); 127 1.1 darran s2 = s1 + sizeof (siginfo32_t); 128 1.1 darran } 129 1.4 chs #endif 130 1.1 darran 131 1.4 chs while (pc != 0) { 132 1.1 darran ret++; 133 1.1 darran if (pcstack != NULL) { 134 1.1 darran *pcstack++ = (uint64_t)pc; 135 1.1 darran pcstack_limit--; 136 1.1 darran if (pcstack_limit <= 0) 137 1.1 darran break; 138 1.1 darran } 139 1.1 darran 140 1.4 chs if (sp == 0) 141 1.4 chs break; 142 1.4 chs 143 1.4 chs #ifdef notyet /* XXX signal stack. */ 144 1.1 darran if (oldcontext == sp + s1 || oldcontext == sp + s2) { 145 1.1 darran if (p->p_model == DATAMODEL_NATIVE) { 146 1.1 darran ucontext_t *ucp = (ucontext_t *)oldcontext; 147 1.1 darran greg_t *gregs = ucp->uc_mcontext.gregs; 148 1.1 darran 149 1.1 darran sp = dtrace_fulword(&gregs[REG_FP]); 150 1.1 darran pc = dtrace_fulword(&gregs[REG_PC]); 151 1.1 darran 152 1.1 darran oldcontext = dtrace_fulword(&ucp->uc_link); 153 1.1 darran } else { 154 1.1 darran ucontext32_t *ucp = (ucontext32_t *)oldcontext; 155 1.1 darran greg32_t *gregs = ucp->uc_mcontext.gregs; 156 1.1 darran 157 1.1 darran sp = dtrace_fuword32(&gregs[EBP]); 158 1.1 darran pc = dtrace_fuword32(&gregs[EIP]); 159 1.1 darran 160 1.1 darran oldcontext = dtrace_fuword32(&ucp->uc_link); 161 1.1 darran } 162 1.1 darran } else { 163 1.1 darran if (p->p_model == DATAMODEL_NATIVE) { 164 1.1 darran struct frame *fr = (struct frame *)sp; 165 1.1 darran 166 1.1 darran pc = dtrace_fulword(&fr->fr_savpc); 167 1.1 darran sp = dtrace_fulword(&fr->fr_savfp); 168 1.1 darran } else { 169 1.1 darran struct frame32 *fr = (struct frame32 *)sp; 170 1.1 darran 171 1.1 darran pc = dtrace_fuword32(&fr->fr_savpc); 172 1.1 darran sp = dtrace_fuword32(&fr->fr_savfp); 173 1.1 darran } 174 1.1 darran } 175 1.4 chs #else 176 1.4 chs pc = dtrace_fuword32((void *)(sp + 177 1.4 chs offsetof(struct i386_frame, f_retaddr))); 178 1.4 chs sp = dtrace_fuword32((void *)sp); 179 1.4 chs #endif /* ! notyet */ 180 1.1 darran 181 1.1 darran /* 182 1.1 darran * This is totally bogus: if we faulted, we're going to clear 183 1.1 darran * the fault and break. This is to deal with the apparently 184 1.1 darran * broken Java stacks on x86. 185 1.1 darran */ 186 1.1 darran if (*flags & CPU_DTRACE_FAULT) { 187 1.1 darran *flags &= ~CPU_DTRACE_FAULT; 188 1.1 darran break; 189 1.1 darran } 190 1.1 darran } 191 1.1 darran 192 1.1 darran return (ret); 193 1.1 darran } 194 1.1 darran 195 1.1 darran void 196 1.1 darran dtrace_getupcstack(uint64_t *pcstack, int pcstack_limit) 197 1.1 darran { 198 1.1 darran proc_t *p = curproc; 199 1.4 chs struct trapframe *tf; 200 1.4 chs uintptr_t pc, sp, fp; 201 1.1 darran volatile uint16_t *flags = 202 1.2 darran (volatile uint16_t *)&cpu_core[cpu_number()].cpuc_dtrace_flags; 203 1.1 darran int n; 204 1.1 darran 205 1.1 darran if (*flags & CPU_DTRACE_FAULT) 206 1.1 darran return; 207 1.1 darran 208 1.1 darran if (pcstack_limit <= 0) 209 1.1 darran return; 210 1.1 darran 211 1.1 darran /* 212 1.1 darran * If there's no user context we still need to zero the stack. 213 1.1 darran */ 214 1.4 chs if (p == NULL || (tf = curlwp->l_md.md_regs) == NULL) 215 1.1 darran goto zero; 216 1.1 darran 217 1.1 darran *pcstack++ = (uint64_t)p->p_pid; 218 1.1 darran pcstack_limit--; 219 1.1 darran 220 1.1 darran if (pcstack_limit <= 0) 221 1.1 darran return; 222 1.1 darran 223 1.4 chs pc = tf->tf_eip; 224 1.4 chs fp = tf->tf_ebp; 225 1.4 chs sp = tf->tf_esp; 226 1.1 darran 227 1.1 darran if (DTRACE_CPUFLAG_ISSET(CPU_DTRACE_ENTRY)) { 228 1.4 chs /* 229 1.4 chs * In an entry probe. The frame pointer has not yet been 230 1.4 chs * pushed (that happens in the function prologue). The 231 1.4 chs * best approach is to add the current pc as a missing top 232 1.4 chs * of stack and back the pc up to the caller, which is stored 233 1.4 chs * at the current stack pointer address since the call 234 1.4 chs * instruction puts it there right before the branch. 235 1.4 chs */ 236 1.4 chs 237 1.1 darran *pcstack++ = (uint64_t)pc; 238 1.1 darran pcstack_limit--; 239 1.1 darran if (pcstack_limit <= 0) 240 1.1 darran return; 241 1.1 darran 242 1.4 chs pc = dtrace_fuword32((void *) sp); 243 1.1 darran } 244 1.1 darran 245 1.4 chs n = dtrace_getustack_common(pcstack, pcstack_limit, pc, fp); 246 1.1 darran ASSERT(n >= 0); 247 1.1 darran ASSERT(n <= pcstack_limit); 248 1.1 darran 249 1.1 darran pcstack += n; 250 1.1 darran pcstack_limit -= n; 251 1.1 darran 252 1.1 darran zero: 253 1.1 darran while (pcstack_limit-- > 0) 254 1.4 chs *pcstack++ = 0; 255 1.1 darran } 256 1.1 darran 257 1.1 darran int 258 1.1 darran dtrace_getustackdepth(void) 259 1.1 darran { 260 1.4 chs proc_t *p = curproc; 261 1.4 chs struct trapframe *tf; 262 1.4 chs uintptr_t pc, fp, sp; 263 1.4 chs int n = 0; 264 1.4 chs 265 1.4 chs if (p == NULL || (tf = curlwp->l_md.md_regs) == NULL) 266 1.4 chs return (0); 267 1.4 chs 268 1.4 chs if (DTRACE_CPUFLAG_ISSET(CPU_DTRACE_FAULT)) 269 1.4 chs return (-1); 270 1.4 chs 271 1.4 chs pc = tf->tf_eip; 272 1.4 chs fp = tf->tf_ebp; 273 1.4 chs sp = tf->tf_esp; 274 1.4 chs 275 1.4 chs if (DTRACE_CPUFLAG_ISSET(CPU_DTRACE_ENTRY)) { 276 1.4 chs /* 277 1.4 chs * In an entry probe. The frame pointer has not yet been 278 1.4 chs * pushed (that happens in the function prologue). The 279 1.4 chs * best approach is to add the current pc as a missing top 280 1.4 chs * of stack and back the pc up to the caller, which is stored 281 1.4 chs * at the current stack pointer address since the call 282 1.4 chs * instruction puts it there right before the branch. 283 1.4 chs */ 284 1.4 chs 285 1.4 chs pc = dtrace_fuword32((void *) sp); 286 1.4 chs n++; 287 1.4 chs } 288 1.4 chs 289 1.4 chs n += dtrace_getustack_common(NULL, 0, pc, fp); 290 1.4 chs 291 1.4 chs return (n); 292 1.1 darran } 293 1.1 darran 294 1.1 darran void 295 1.1 darran dtrace_getufpstack(uint64_t *pcstack, uint64_t *fpstack, int pcstack_limit) 296 1.1 darran { 297 1.1 darran proc_t *p = curproc; 298 1.4 chs struct trapframe *tf; 299 1.4 chs uintptr_t pc, sp, fp; 300 1.1 darran volatile uint16_t *flags = 301 1.2 darran (volatile uint16_t *)&cpu_core[cpu_number()].cpuc_dtrace_flags; 302 1.4 chs #ifdef notyet /* XXX signal stack */ 303 1.4 chs uintptr_t oldcontext; 304 1.1 darran size_t s1, s2; 305 1.4 chs #endif 306 1.1 darran 307 1.1 darran if (*flags & CPU_DTRACE_FAULT) 308 1.1 darran return; 309 1.1 darran 310 1.1 darran if (pcstack_limit <= 0) 311 1.1 darran return; 312 1.1 darran 313 1.1 darran /* 314 1.1 darran * If there's no user context we still need to zero the stack. 315 1.1 darran */ 316 1.4 chs if (p == NULL || (tf = curlwp->l_md.md_regs) == NULL) 317 1.1 darran goto zero; 318 1.1 darran 319 1.1 darran *pcstack++ = (uint64_t)p->p_pid; 320 1.1 darran pcstack_limit--; 321 1.1 darran 322 1.1 darran if (pcstack_limit <= 0) 323 1.1 darran return; 324 1.1 darran 325 1.4 chs pc = tf->tf_eip; 326 1.4 chs fp = tf->tf_ebp; 327 1.4 chs sp = tf->tf_esp; 328 1.4 chs 329 1.4 chs #ifdef notyet /* XXX signal stack */ 330 1.1 darran oldcontext = lwp->lwp_oldcontext; 331 1.1 darran 332 1.1 darran if (p->p_model == DATAMODEL_NATIVE) { 333 1.1 darran s1 = sizeof (struct frame) + 2 * sizeof (long); 334 1.1 darran s2 = s1 + sizeof (siginfo_t); 335 1.1 darran } else { 336 1.1 darran s1 = sizeof (struct frame32) + 3 * sizeof (int); 337 1.1 darran s2 = s1 + sizeof (siginfo32_t); 338 1.1 darran } 339 1.4 chs #endif 340 1.1 darran 341 1.1 darran if (DTRACE_CPUFLAG_ISSET(CPU_DTRACE_ENTRY)) { 342 1.1 darran *pcstack++ = (uint64_t)pc; 343 1.1 darran *fpstack++ = 0; 344 1.1 darran pcstack_limit--; 345 1.1 darran if (pcstack_limit <= 0) 346 1.1 darran return; 347 1.1 darran 348 1.4 chs pc = dtrace_fuword32((void *)sp); 349 1.1 darran } 350 1.1 darran 351 1.4 chs while (pc != 0) { 352 1.1 darran *pcstack++ = (uint64_t)pc; 353 1.4 chs *fpstack++ = fp; 354 1.1 darran pcstack_limit--; 355 1.1 darran if (pcstack_limit <= 0) 356 1.1 darran break; 357 1.1 darran 358 1.4 chs if (fp == 0) 359 1.4 chs break; 360 1.4 chs 361 1.4 chs #ifdef notyet /* XXX signal stack */ 362 1.1 darran if (oldcontext == sp + s1 || oldcontext == sp + s2) { 363 1.1 darran if (p->p_model == DATAMODEL_NATIVE) { 364 1.1 darran ucontext_t *ucp = (ucontext_t *)oldcontext; 365 1.1 darran greg_t *gregs = ucp->uc_mcontext.gregs; 366 1.1 darran 367 1.1 darran sp = dtrace_fulword(&gregs[REG_FP]); 368 1.1 darran pc = dtrace_fulword(&gregs[REG_PC]); 369 1.1 darran 370 1.1 darran oldcontext = dtrace_fulword(&ucp->uc_link); 371 1.1 darran } else { 372 1.1 darran ucontext_t *ucp = (ucontext_t *)oldcontext; 373 1.1 darran greg_t *gregs = ucp->uc_mcontext.gregs; 374 1.1 darran 375 1.1 darran sp = dtrace_fuword32(&gregs[EBP]); 376 1.1 darran pc = dtrace_fuword32(&gregs[EIP]); 377 1.1 darran 378 1.1 darran oldcontext = dtrace_fuword32(&ucp->uc_link); 379 1.1 darran } 380 1.4 chs } else 381 1.4 chs #endif /* XXX */ 382 1.4 chs { 383 1.4 chs pc = dtrace_fuword32((void *)(fp + 384 1.4 chs offsetof(struct i386_frame, f_retaddr))); 385 1.4 chs fp = dtrace_fuword32((void *)fp); 386 1.1 darran } 387 1.1 darran 388 1.1 darran /* 389 1.1 darran * This is totally bogus: if we faulted, we're going to clear 390 1.1 darran * the fault and break. This is to deal with the apparently 391 1.1 darran * broken Java stacks on x86. 392 1.1 darran */ 393 1.1 darran if (*flags & CPU_DTRACE_FAULT) { 394 1.1 darran *flags &= ~CPU_DTRACE_FAULT; 395 1.1 darran break; 396 1.1 darran } 397 1.1 darran } 398 1.1 darran 399 1.1 darran zero: 400 1.1 darran while (pcstack_limit-- > 0) 401 1.4 chs *pcstack++ = 0; 402 1.1 darran } 403 1.1 darran 404 1.1 darran uint64_t 405 1.1 darran dtrace_getarg(int arg, int aframes) 406 1.1 darran { 407 1.4.4.1 bouyer struct trapframe *frame; 408 1.1 darran struct i386_frame *fp = (struct i386_frame *)dtrace_getfp(); 409 1.4.4.1 bouyer uintptr_t *stack, val; 410 1.4 chs int i; 411 1.2 darran 412 1.1 darran for (i = 1; i <= aframes; i++) { 413 1.1 darran fp = fp->f_frame; 414 1.1 darran 415 1.4.4.1 bouyer if (P2ROUNDUP(fp->f_retaddr, 16) == 416 1.4.4.1 bouyer (long)dtrace_invop_callsite) { 417 1.1 darran /* 418 1.1 darran * If we pass through the invalid op handler, we will 419 1.4.4.1 bouyer * use the trap frame pointer that it pushed on the 420 1.4.4.1 bouyer * stack as the second argument to dtrace_invop() as 421 1.4.4.1 bouyer * the pointer to the stack. 422 1.1 darran */ 423 1.4.4.1 bouyer frame = (struct trapframe *)(((uintptr_t **)&fp[1])[1]); 424 1.4.4.1 bouyer 425 1.4.4.1 bouyer /* 426 1.4.4.1 bouyer * Skip the three hardware-saved registers and the 427 1.4.4.1 bouyer * return address. 428 1.4.4.1 bouyer */ 429 1.4.4.1 bouyer stack = (uintptr_t *)&frame->tf_esp + 1; 430 1.1 darran goto load; 431 1.1 darran } 432 1.1 darran } 433 1.1 darran 434 1.1 darran /* 435 1.1 darran * We know that we did not come through a trap to get into 436 1.1 darran * dtrace_probe() -- the provider simply called dtrace_probe() 437 1.1 darran * directly. As this is the case, we need to shift the argument 438 1.1 darran * that we're looking for: the probe ID is the first argument to 439 1.1 darran * dtrace_probe(), so the argument n will actually be found where 440 1.1 darran * one would expect to find argument (n + 1). 441 1.1 darran */ 442 1.1 darran arg++; 443 1.1 darran 444 1.4 chs stack = (uintptr_t *)fp + 2; 445 1.1 darran 446 1.1 darran load: 447 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_NOFAULT); 448 1.1 darran val = stack[arg]; 449 1.1 darran DTRACE_CPUFLAG_CLEAR(CPU_DTRACE_NOFAULT); 450 1.1 darran 451 1.1 darran return (val); 452 1.1 darran } 453 1.1 darran 454 1.1 darran int 455 1.1 darran dtrace_getstackdepth(int aframes) 456 1.1 darran { 457 1.1 darran int depth = 0; 458 1.1 darran struct i386_frame *frame; 459 1.1 darran vm_offset_t ebp; 460 1.1 darran 461 1.1 darran aframes++; 462 1.1 darran ebp = dtrace_getfp(); 463 1.1 darran frame = (struct i386_frame *)ebp; 464 1.1 darran depth++; 465 1.1 darran for(;;) { 466 1.1 darran if (!INKERNEL((long) frame)) 467 1.1 darran break; 468 1.1 darran if (!INKERNEL((long) frame->f_frame)) 469 1.1 darran break; 470 1.1 darran depth++; 471 1.1 darran if (frame->f_frame <= frame || 472 1.1 darran (vm_offset_t)frame->f_frame >= 473 1.2 darran (vm_offset_t)ebp + KSTACK_SIZE) 474 1.1 darran break; 475 1.1 darran frame = frame->f_frame; 476 1.1 darran } 477 1.1 darran if (depth < aframes) 478 1.1 darran return 0; 479 1.1 darran else 480 1.1 darran return depth - aframes; 481 1.1 darran } 482 1.1 darran 483 1.1 darran #ifdef notyet 484 1.1 darran ulong_t 485 1.1 darran dtrace_getreg(struct regs *rp, uint_t reg) 486 1.1 darran { 487 1.1 darran #if defined(__amd64) 488 1.1 darran int regmap[] = { 489 1.1 darran REG_GS, /* GS */ 490 1.1 darran REG_FS, /* FS */ 491 1.1 darran REG_ES, /* ES */ 492 1.1 darran REG_DS, /* DS */ 493 1.1 darran REG_RDI, /* EDI */ 494 1.1 darran REG_RSI, /* ESI */ 495 1.1 darran REG_RBP, /* EBP */ 496 1.1 darran REG_RSP, /* ESP */ 497 1.1 darran REG_RBX, /* EBX */ 498 1.1 darran REG_RDX, /* EDX */ 499 1.1 darran REG_RCX, /* ECX */ 500 1.1 darran REG_RAX, /* EAX */ 501 1.1 darran REG_TRAPNO, /* TRAPNO */ 502 1.1 darran REG_ERR, /* ERR */ 503 1.1 darran REG_RIP, /* EIP */ 504 1.1 darran REG_CS, /* CS */ 505 1.1 darran REG_RFL, /* EFL */ 506 1.1 darran REG_RSP, /* UESP */ 507 1.1 darran REG_SS /* SS */ 508 1.1 darran }; 509 1.1 darran 510 1.1 darran if (reg <= SS) { 511 1.1 darran if (reg >= sizeof (regmap) / sizeof (int)) { 512 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_ILLOP); 513 1.1 darran return (0); 514 1.1 darran } 515 1.1 darran 516 1.1 darran reg = regmap[reg]; 517 1.1 darran } else { 518 1.1 darran reg -= SS + 1; 519 1.1 darran } 520 1.1 darran 521 1.1 darran switch (reg) { 522 1.1 darran case REG_RDI: 523 1.1 darran return (rp->r_rdi); 524 1.1 darran case REG_RSI: 525 1.1 darran return (rp->r_rsi); 526 1.1 darran case REG_RDX: 527 1.1 darran return (rp->r_rdx); 528 1.1 darran case REG_RCX: 529 1.1 darran return (rp->r_rcx); 530 1.1 darran case REG_R8: 531 1.1 darran return (rp->r_r8); 532 1.1 darran case REG_R9: 533 1.1 darran return (rp->r_r9); 534 1.1 darran case REG_RAX: 535 1.1 darran return (rp->r_rax); 536 1.1 darran case REG_RBX: 537 1.1 darran return (rp->r_rbx); 538 1.1 darran case REG_RBP: 539 1.1 darran return (rp->r_rbp); 540 1.1 darran case REG_R10: 541 1.1 darran return (rp->r_r10); 542 1.1 darran case REG_R11: 543 1.1 darran return (rp->r_r11); 544 1.1 darran case REG_R12: 545 1.1 darran return (rp->r_r12); 546 1.1 darran case REG_R13: 547 1.1 darran return (rp->r_r13); 548 1.1 darran case REG_R14: 549 1.1 darran return (rp->r_r14); 550 1.1 darran case REG_R15: 551 1.1 darran return (rp->r_r15); 552 1.1 darran case REG_DS: 553 1.1 darran return (rp->r_ds); 554 1.1 darran case REG_ES: 555 1.1 darran return (rp->r_es); 556 1.1 darran case REG_FS: 557 1.1 darran return (rp->r_fs); 558 1.1 darran case REG_GS: 559 1.1 darran return (rp->r_gs); 560 1.1 darran case REG_TRAPNO: 561 1.1 darran return (rp->r_trapno); 562 1.1 darran case REG_ERR: 563 1.1 darran return (rp->r_err); 564 1.1 darran case REG_RIP: 565 1.1 darran return (rp->r_rip); 566 1.1 darran case REG_CS: 567 1.1 darran return (rp->r_cs); 568 1.1 darran case REG_SS: 569 1.1 darran return (rp->r_ss); 570 1.1 darran case REG_RFL: 571 1.1 darran return (rp->r_rfl); 572 1.1 darran case REG_RSP: 573 1.1 darran return (rp->r_rsp); 574 1.1 darran default: 575 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_ILLOP); 576 1.1 darran return (0); 577 1.1 darran } 578 1.1 darran 579 1.1 darran #else 580 1.1 darran if (reg > SS) { 581 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_ILLOP); 582 1.1 darran return (0); 583 1.1 darran } 584 1.1 darran 585 1.1 darran return ((&rp->r_gs)[reg]); 586 1.1 darran #endif 587 1.1 darran } 588 1.1 darran #endif 589 1.1 darran 590 1.1 darran static int 591 1.1 darran dtrace_copycheck(uintptr_t uaddr, uintptr_t kaddr, size_t size) 592 1.1 darran { 593 1.1 darran ASSERT(kaddr >= kernelbase && kaddr + size >= kaddr); 594 1.1 darran 595 1.1 darran if (uaddr + size >= kernelbase || uaddr + size < uaddr) { 596 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_BADADDR); 597 1.2 darran cpu_core[cpu_number()].cpuc_dtrace_illval = uaddr; 598 1.1 darran return (0); 599 1.1 darran } 600 1.1 darran 601 1.1 darran return (1); 602 1.1 darran } 603 1.1 darran 604 1.1 darran void 605 1.1 darran dtrace_copyin(uintptr_t uaddr, uintptr_t kaddr, size_t size, 606 1.1 darran volatile uint16_t *flags) 607 1.1 darran { 608 1.1 darran if (dtrace_copycheck(uaddr, kaddr, size)) 609 1.1 darran dtrace_copy(uaddr, kaddr, size); 610 1.1 darran } 611 1.1 darran 612 1.1 darran void 613 1.1 darran dtrace_copyout(uintptr_t kaddr, uintptr_t uaddr, size_t size, 614 1.1 darran volatile uint16_t *flags) 615 1.1 darran { 616 1.1 darran if (dtrace_copycheck(uaddr, kaddr, size)) 617 1.1 darran dtrace_copy(kaddr, uaddr, size); 618 1.1 darran } 619 1.1 darran 620 1.1 darran void 621 1.1 darran dtrace_copyinstr(uintptr_t uaddr, uintptr_t kaddr, size_t size, 622 1.1 darran volatile uint16_t *flags) 623 1.1 darran { 624 1.1 darran if (dtrace_copycheck(uaddr, kaddr, size)) 625 1.1 darran dtrace_copystr(uaddr, kaddr, size, flags); 626 1.1 darran } 627 1.1 darran 628 1.1 darran void 629 1.1 darran dtrace_copyoutstr(uintptr_t kaddr, uintptr_t uaddr, size_t size, 630 1.1 darran volatile uint16_t *flags) 631 1.1 darran { 632 1.1 darran if (dtrace_copycheck(uaddr, kaddr, size)) 633 1.1 darran dtrace_copystr(kaddr, uaddr, size, flags); 634 1.1 darran } 635 1.1 darran 636 1.1 darran uint8_t 637 1.1 darran dtrace_fuword8(void *uaddr) 638 1.1 darran { 639 1.1 darran if ((uintptr_t)uaddr >= kernelbase) { 640 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_BADADDR); 641 1.2 darran cpu_core[cpu_number()].cpuc_dtrace_illval = (uintptr_t)uaddr; 642 1.1 darran return (0); 643 1.1 darran } 644 1.1 darran return (dtrace_fuword8_nocheck(uaddr)); 645 1.1 darran } 646 1.1 darran 647 1.1 darran uint16_t 648 1.1 darran dtrace_fuword16(void *uaddr) 649 1.1 darran { 650 1.1 darran if ((uintptr_t)uaddr >= kernelbase) { 651 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_BADADDR); 652 1.2 darran cpu_core[cpu_number()].cpuc_dtrace_illval = (uintptr_t)uaddr; 653 1.1 darran return (0); 654 1.1 darran } 655 1.1 darran return (dtrace_fuword16_nocheck(uaddr)); 656 1.1 darran } 657 1.1 darran 658 1.1 darran uint32_t 659 1.1 darran dtrace_fuword32(void *uaddr) 660 1.1 darran { 661 1.1 darran if ((uintptr_t)uaddr >= kernelbase) { 662 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_BADADDR); 663 1.2 darran cpu_core[cpu_number()].cpuc_dtrace_illval = (uintptr_t)uaddr; 664 1.1 darran return (0); 665 1.1 darran } 666 1.1 darran return (dtrace_fuword32_nocheck(uaddr)); 667 1.1 darran } 668 1.1 darran 669 1.1 darran uint64_t 670 1.1 darran dtrace_fuword64(void *uaddr) 671 1.1 darran { 672 1.1 darran if ((uintptr_t)uaddr >= kernelbase) { 673 1.1 darran DTRACE_CPUFLAG_SET(CPU_DTRACE_BADADDR); 674 1.2 darran cpu_core[cpu_number()].cpuc_dtrace_illval = (uintptr_t)uaddr; 675 1.1 darran return (0); 676 1.1 darran } 677 1.1 darran return (dtrace_fuword64_nocheck(uaddr)); 678 1.1 darran } 679
Indexes created Fri Jun 26 00:24:39 UTC 2026