1 2 /*--------------------------------------------------------------------*/ 3 /*--- Startup: create initial process image on Solaris ---*/ 4 /*--- initimg-solaris.c ---*/ 5 /*--------------------------------------------------------------------*/ 6 7 /* 8 This file is part of Valgrind, a dynamic binary instrumentation 9 framework. 10 11 Copyright (C) 2011-2015 Petr Pavlu 12 setup (at) dagobah.cz 13 14 This program is free software; you can redistribute it and/or 15 modify it under the terms of the GNU General Public License as 16 published by the Free Software Foundation; either version 2 of the 17 License, or (at your option) any later version. 18 19 This program is distributed in the hope that it will be useful, but 20 WITHOUT ANY WARRANTY; without even the implied warranty of 21 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 22 General Public License for more details. 23 24 You should have received a copy of the GNU General Public License 25 along with this program; if not, write to the Free Software 26 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 27 02111-1307, USA. 28 29 The GNU General Public License is contained in the file COPYING. 30 */ 31 32 /* Copyright 2013-2015, Ivo Raisr <ivosh (at) ivosh.net>. */ 33 34 #if defined(VGO_solaris) 35 36 /* Note: This file is based on initimg-linux.c. */ 37 38 #include "pub_core_basics.h" 39 #include "pub_core_vki.h" 40 #include "pub_core_debuglog.h" 41 #include "pub_core_libcbase.h" 42 #include "pub_core_libcassert.h" 43 #include "pub_core_libcfile.h" 44 #include "pub_core_libcproc.h" 45 #include "pub_core_libcprint.h" 46 #include "pub_core_xarray.h" 47 #include "pub_core_clientstate.h" 48 #include "pub_core_aspacemgr.h" 49 #include "pub_core_mallocfree.h" 50 #include "pub_core_machine.h" 51 #include "pub_core_ume.h" 52 #include "pub_core_options.h" 53 #include "pub_core_syswrap.h" 54 #include "pub_core_tooliface.h" /* VG_TRACK */ 55 #include "pub_core_threadstate.h" /* ThreadArchState */ 56 #include "priv_initimg_pathscan.h" 57 #include "pub_core_initimg.h" /* self */ 58 59 60 /*====================================================================*/ 61 /*=== Loading the client ===*/ 62 /*====================================================================*/ 63 64 /* Load the client whose name is VG_(argv_the_exename). */ 65 static void load_client(/*OUT*/ExeInfo *info, 66 /*OUT*/HChar *out_exe_name, SizeT out_exe_name_size) 67 { 68 const HChar *exe_name; 69 Int ret; 70 SysRes res; 71 72 vg_assert(VG_(args_the_exename)); 73 exe_name = ML_(find_executable)(VG_(args_the_exename)); 74 75 if (!exe_name) { 76 VG_(printf)("valgrind: %s: command not found\n", VG_(args_the_exename)); 77 /* Return POSIX's NOTFOUND. */ 78 VG_(exit)(127); 79 /*NOTREACHED*/ 80 } 81 82 VG_(memset)(info, 0, sizeof(*info)); 83 ret = VG_(do_exec)(exe_name, info); 84 if (ret < 0) { 85 VG_(printf)("valgrind: could not execute '%s'\n", exe_name); 86 VG_(exit)(1); 87 /*NOTREACHED*/ 88 } 89 90 /* The client was successfully loaded! Continue. */ 91 92 /* Save resolved exename. */ 93 if (VG_(strlen)(exe_name) + 1 > out_exe_name_size) { 94 /* This should not really happen. */ 95 VG_(printf)("valgrind: execname %s is too long\n", exe_name); 96 VG_(exit)(1); 97 /*NOTREACHED*/ 98 } 99 VG_(strcpy)(out_exe_name, exe_name); 100 101 /* Get hold of a file descriptor which refers to the client executable. 102 This is needed for attaching to GDB. */ 103 res = VG_(open)(exe_name, VKI_O_RDONLY, VKI_S_IRUSR); 104 if (!sr_isError(res)) 105 VG_(cl_exec_fd) = sr_Res(res); 106 107 /* Set initial brk values. */ 108 if (info->ldsoexec) { 109 VG_(brk_base) = VG_(brk_limit) = -1; 110 } else { 111 VG_(brk_base) = VG_(brk_limit) = info->brkbase; 112 } 113 } 114 115 116 /*====================================================================*/ 117 /*=== Setting up the client's environment ===*/ 118 /*====================================================================*/ 119 120 /* Prepare the client's environment. This is basically a copy of our 121 environment, except: 122 123 LD_PRELOAD=$VALGRIND_LIB/vgpreload_core-PLATFORM.so: 124 ($VALGRIND_LIB/vgpreload_TOOL-PLATFORM.so:)? 125 $LD_PRELOAD 126 127 If this is missing, then it is added. 128 129 Also, remove any binding for VALGRIND_LAUNCHER=. The client should not be 130 able to see this. 131 132 If this needs to handle any more variables it should be hacked into 133 something table driven. The copy is VG_(malloc)'d space. 134 */ 135 static HChar **setup_client_env(HChar **origenv, const HChar *toolname) 136 { 137 const HChar *ld_preload = "LD_PRELOAD="; 138 SizeT ld_preload_len = VG_(strlen)(ld_preload); 139 Bool ld_preload_done = False; 140 SizeT vglib_len = VG_(strlen)(VG_(libdir)); 141 142 HChar **cpp; 143 HChar **ret; 144 HChar *preload_tool_path; 145 SizeT envc, i; 146 147 /* Alloc space for the 148 <path>/vgpreload_core-<platform>.so and 149 <path>/vgpreload_<tool>-<platform>.so 150 paths. We might not need the space for the tool path, but it doesn't 151 hurt to over-allocate briefly. */ 152 SizeT preload_core_path_size = vglib_len + sizeof("/vgpreload_core-") - 1 153 + sizeof(VG_PLATFORM) - 1 154 + sizeof(".so"); 155 SizeT preload_tool_path_size = vglib_len + sizeof("/vgpreload_") - 1 156 + VG_(strlen)(toolname) + 1 /*-*/ 157 + sizeof(VG_PLATFORM) - 1 158 + sizeof(".so"); 159 SizeT preload_string_size = preload_core_path_size 160 + preload_tool_path_size; 161 HChar *preload_string = VG_(malloc)("initimg-solaris.sce.1", 162 preload_string_size); 163 164 /* Check that the parameters are sane. */ 165 vg_assert(origenv); 166 vg_assert(toolname); 167 168 /* Determine if there's a vgpreload_<tool>-<platform>.so file, and setup 169 preload_string. */ 170 preload_tool_path = VG_(malloc)("initimg-solaris.sce.2", 171 preload_tool_path_size); 172 VG_(sprintf)(preload_tool_path, "%s/vgpreload_%s-%s.so", VG_(libdir), 173 toolname, VG_PLATFORM); 174 if (!VG_(access)(preload_tool_path, True/*r*/, False/*w*/, False/*x*/)) { 175 /* The tool's .so exists, put it into LD_PRELOAD with the core's so. */ 176 VG_(sprintf)(preload_string, "%s/vgpreload_core-%s.so:%s", VG_(libdir), 177 VG_PLATFORM, preload_tool_path); 178 } 179 else { 180 /* The tool's .so doesn't exist, put only the core's .so into 181 LD_PRELOAD. */ 182 VG_(sprintf)(preload_string, "%s/vgpreload_core-%s.so", VG_(libdir), 183 VG_PLATFORM); 184 } 185 VG_(free)(preload_tool_path); 186 187 VG_(debugLog)(2, "initimg", "preload_string:\n"); 188 VG_(debugLog)(2, "initimg", " \"%s\"\n", preload_string); 189 190 /* Count the original size of the env. */ 191 envc = 0; 192 for (cpp = origenv; *cpp; cpp++) 193 envc++; 194 195 /* Allocate a new space, envc + 1 new entry + NULL. */ 196 ret = VG_(malloc)("initimg-solaris.sce.3", sizeof(HChar*) * (envc + 1 + 1)); 197 198 /* Copy it over. */ 199 for (cpp = ret; *origenv; ) 200 *cpp++ = *origenv++; 201 *cpp = NULL; 202 203 vg_assert(envc == cpp - ret); 204 205 /* Walk over the new environment, mashing as we go. */ 206 for (cpp = ret; *cpp; cpp++) { 207 if (VG_(memcmp)(*cpp, ld_preload, ld_preload_len)) 208 continue; 209 210 /* LD_PRELOAD entry found, smash it. */ 211 SizeT size = VG_(strlen)(*cpp) + 1 /*:*/ 212 + preload_string_size; 213 HChar *cp = VG_(malloc)("initimg-solaris.sce.4", size); 214 215 VG_(sprintf)(cp, "%s%s:%s", ld_preload, preload_string, 216 (*cpp) + ld_preload_len); 217 *cpp = cp; 218 219 ld_preload_done = True; 220 } 221 222 /* Add the missing bits. */ 223 if (!ld_preload_done) { 224 SizeT size = ld_preload_len + preload_string_size; 225 HChar *cp = VG_(malloc)("initimg-solaris.sce.5", size); 226 227 VG_(sprintf)(cp, "%s%s", ld_preload, preload_string); 228 ret[envc++] = cp; 229 } 230 231 /* We've got ret[0 .. envc-1] live now. */ 232 233 /* Find and remove a binding for VALGRIND_LAUNCHER. */ 234 { 235 const HChar *v_launcher = VALGRIND_LAUNCHER "="; 236 SizeT v_launcher_len = VG_(strlen)(v_launcher); 237 238 for (i = 0; i < envc; i++) 239 if (!VG_(memcmp(ret[i], v_launcher, v_launcher_len))) { 240 /* VALGRIND_LAUNCHER was found. */ 241 break; 242 } 243 244 if (i < envc) { 245 /* VALGRIND_LAUNCHER was found, remove it. */ 246 for (; i < envc - 1; i++) 247 ret[i] = ret[i + 1]; 248 envc--; 249 } 250 } 251 252 VG_(free)(preload_string); 253 ret[envc] = NULL; 254 255 return ret; 256 } 257 258 259 /*====================================================================*/ 260 /*=== Setting up the client's stack ===*/ 261 /*====================================================================*/ 262 263 /* Add a string onto the string table, and return its address. */ 264 static HChar *copy_str(HChar **tab, const HChar *str) 265 { 266 HChar *cp = *tab; 267 HChar *orig = cp; 268 269 while (*str) 270 *cp++ = *str++; 271 *cp++ = '\0'; 272 273 *tab = cp; 274 275 return orig; 276 } 277 278 #if defined(SOLARIS_RESERVE_SYSSTAT_ADDR) || \ 279 defined(SOLARIS_RESERVE_SYSSTAT_ZONE_ADDR) 280 #define ORIG_AUXV_PRESENT 1 281 #endif 282 283 #if defined(ORIG_AUXV_PRESENT) 284 /* The auxiliary vector might not be present. So we cross-check pointers from 285 argv and envp pointing to the string table. */ 286 static vki_auxv_t *find_original_auxv(Addr init_sp) 287 { 288 HChar **sp = (HChar **) init_sp; 289 HChar *lowest_str_ptr = (HChar *) UINTPTR_MAX; // lowest ptr to string table 290 291 sp++; // skip argc 292 293 while (*sp != NULL) { // skip argv 294 if (*sp < lowest_str_ptr) 295 lowest_str_ptr = *sp; 296 sp++; 297 } 298 sp++; 299 300 while (*sp != 0) { // skip env 301 if (*sp < lowest_str_ptr) 302 lowest_str_ptr = *sp; 303 sp++; 304 } 305 sp++; 306 307 if ((Addr) sp < (Addr) lowest_str_ptr) { 308 return (vki_auxv_t *) sp; 309 } else { 310 return NULL; 311 } 312 } 313 314 static void copy_auxv_entry(const vki_auxv_t *orig_auxv, Int type, 315 const HChar *type_name, vki_auxv_t *auxv) 316 { 317 vg_assert(auxv != NULL); 318 319 if (orig_auxv == NULL) { 320 VG_(printf)("valgrind: Cannot locate auxiliary vector.\n"); 321 VG_(printf)("valgrind: Cannot continue. Sorry.\n\n"); 322 VG_(exit)(1); 323 } 324 325 for ( ; orig_auxv->a_type != VKI_AT_NULL; orig_auxv++) { 326 if (orig_auxv->a_type == type) { 327 auxv->a_type = type; 328 auxv->a_un.a_val = orig_auxv->a_un.a_val; 329 return; 330 } 331 } 332 333 VG_(printf)("valgrind: Cannot locate %s in the aux\n", type_name); 334 VG_(printf)("valgrind: vector. Cannot continue. Sorry.\n\n"); 335 VG_(exit)(1); 336 } 337 #endif /* ORIG_AUXV_PRESENT */ 338 339 /* This sets up the client's initial stack, containing the args, 340 environment and aux vector. 341 342 The format of the stack is: 343 344 higher address +-----------------+ <- clstack_end 345 | | 346 : string table : 347 | | 348 +-----------------+ 349 | AT_NULL | 350 - - 351 | auxv | 352 +-----------------+ 353 | NULL | 354 - - 355 | envp | 356 +-----------------+ 357 | NULL | 358 - - 359 | argv | 360 +-----------------+ 361 | argc | 362 lower address +-----------------+ <- sp 363 | undefined | 364 : : 365 366 Allocate and create the initial client stack. It is allocated down from 367 clstack_end, which was previously determined by the address space manager. 368 The returned value is the SP value for the client. 369 370 Note that auxiliary vector is *not* created by kernel on illumos and 371 Solaris 11 if the program is statically linked (which is our case). 372 Although we now taught Solaris 12 to create the auxiliary vector, we still 373 have to build auxv from scratch, to make the code consistent. */ 374 375 static Addr setup_client_stack(Addr init_sp, 376 HChar **orig_envp, 377 const ExeInfo *info, 378 Addr clstack_end, 379 SizeT clstack_max_size, 380 const HChar *resolved_exe_name) 381 { 382 SysRes res; 383 HChar **cpp; 384 HChar *strtab; /* string table */ 385 HChar *stringbase; 386 Addr *ptr; 387 vki_auxv_t *auxv; 388 SizeT stringsize; /* total size of strings in bytes */ 389 SizeT auxsize; /* total size of auxv in bytes */ 390 Int argc; /* total argc */ 391 Int envc; /* total number of env vars */ 392 SizeT stacksize; /* total client stack size */ 393 Addr client_SP; /* client stack base (initial SP) */ 394 Addr clstack_start; 395 Int i; 396 397 vg_assert(VG_IS_PAGE_ALIGNED(clstack_end + 1)); 398 vg_assert(VG_(args_the_exename)); 399 vg_assert(VG_(args_for_client)); 400 401 # if defined(ORIG_AUXV_PRESENT) 402 /* Get the original auxv (if any). */ 403 vki_auxv_t *orig_auxv = find_original_auxv(init_sp); 404 # endif /* ORIG_AUXV_PRESENT */ 405 406 /* ==================== compute sizes ==================== */ 407 408 /* First of all, work out how big the client stack will be. */ 409 stringsize = 0; 410 411 /* Paste on the extra args if the loader needs them (i.e. the #! 412 interpreter and its argument). */ 413 argc = 0; 414 if (info->interp_name) { 415 argc++; 416 stringsize += VG_(strlen)(info->interp_name) + 1; 417 } 418 if (info->interp_args) { 419 argc++; 420 stringsize += VG_(strlen)(info->interp_args) + 1; 421 } 422 423 /* Now scan the args we're given... */ 424 argc++; 425 stringsize += VG_(strlen)(VG_(args_the_exename)) + 1; 426 for (i = 0; i < VG_(sizeXA)(VG_(args_for_client)); i++) { 427 argc++; 428 stringsize += VG_(strlen)(*(HChar**) 429 VG_(indexXA)(VG_(args_for_client), i)) + 1; 430 } 431 432 /* ...and the environment. */ 433 envc = 0; 434 for (cpp = orig_envp; *cpp; cpp++) { 435 envc++; 436 stringsize += VG_(strlen)(*cpp) + 1; 437 } 438 439 /* Now, how big is the auxv? 440 441 AT_SUN_PLATFORM 442 AT_SUN_EXECNAME 443 AT_PHDR (not for elfs with no PT_PHDR, such as ld.so.1) 444 AT_BASE 445 AT_FLAGS 446 AT_PAGESZ 447 AT_SUN_AUXFLAFGS 448 AT_SUN_HWCAP 449 AT_SUN_SYSSTAT_ADDR (if supported) 450 AT_SUN_SYSSTAT_ZONE_ADDR (if supported) 451 AT_NULL 452 453 It would be possible to also add AT_PHENT, AT_PHNUM, AT_ENTRY, 454 AT_SUN_LDDATA, but they don't seem to be so important. */ 455 auxsize = 9 * sizeof(*auxv); 456 # if defined(SOLARIS_RESERVE_SYSSTAT_ADDR) 457 auxsize += sizeof(*auxv); 458 # endif 459 # if defined(SOLARIS_RESERVE_SYSSTAT_ZONE_ADDR) 460 auxsize += sizeof(*auxv); 461 # endif 462 463 # if defined(VGA_x86) || defined(VGA_amd64) 464 /* AT_SUN_PLATFORM string. */ 465 stringsize += VG_(strlen)("i86pc") + 1; 466 # else 467 # error "Unknown architecture" 468 # endif 469 /* AT_SUN_EXECNAME string. */ 470 stringsize += VG_(strlen)(resolved_exe_name) + 1; 471 472 /* Calculate how big the client stack is. */ 473 stacksize = 474 sizeof(Word) + /* argc */ 475 sizeof(HChar**) + /* argc[0] == exename */ 476 sizeof(HChar**) * argc + /* argv */ 477 sizeof(HChar**) + /* terminal NULL */ 478 sizeof(HChar**) * envc + /* envp */ 479 sizeof(HChar**) + /* terminal NULL */ 480 auxsize + /* auxv */ 481 VG_ROUNDUP(stringsize, sizeof(Word)); /* strings (aligned) */ 482 483 /* The variable client_SP is the client's stack pointer. */ 484 client_SP = clstack_end - stacksize; 485 client_SP = VG_ROUNDDN(client_SP, 16); /* Make stack 16 byte aligned. */ 486 487 /* Calculate base of the string table (aligned). */ 488 stringbase = (HChar*)clstack_end - VG_ROUNDUP(stringsize, sizeof(Int)); 489 strtab = stringbase; 490 491 clstack_start = VG_PGROUNDDN(client_SP); 492 493 /* Calculate the max stack size. */ 494 clstack_max_size = VG_PGROUNDUP(clstack_max_size); 495 496 /* Record stack extent -- needed for stack-change code. */ 497 VG_(clstk_start_base) = clstack_start; 498 VG_(clstk_end) = clstack_end; 499 VG_(clstk_max_size) = clstack_max_size; 500 501 if (0) 502 VG_(printf)("stringsize=%lu, auxsize=%lu, stacksize=%lu, maxsize=%#lx\n" 503 "clstack_start %#lx\n" 504 "clstack_end %#lx\n", 505 stringsize, auxsize, stacksize, clstack_max_size, 506 clstack_start, clstack_end); 507 508 /* ==================== allocate space ==================== */ 509 510 { 511 SizeT anon_size = clstack_end - clstack_start + 1; 512 SizeT resvn_size = clstack_max_size - anon_size; 513 Addr anon_start = clstack_start; 514 Addr resvn_start = anon_start - resvn_size; 515 SizeT inner_HACK = 0; 516 Bool ok; 517 518 /* So far we've only accounted for space requirements down to the stack 519 pointer. If this target's ABI requires a redzone below the stack 520 pointer, we need to allocate an extra page, to handle the worst case 521 in which the stack pointer is almost at the bottom of a page, and so 522 there is insufficient room left over to put the redzone in. In this 523 case the simple thing to do is allocate an extra page, by shrinking 524 the reservation by one page and growing the anonymous area by a 525 corresponding page. */ 526 vg_assert(VG_STACK_REDZONE_SZB >= 0); 527 vg_assert(VG_STACK_REDZONE_SZB < VKI_PAGE_SIZE); 528 if (VG_STACK_REDZONE_SZB > 0) { 529 vg_assert(resvn_size > VKI_PAGE_SIZE); 530 resvn_size -= VKI_PAGE_SIZE; 531 anon_start -= VKI_PAGE_SIZE; 532 anon_size += VKI_PAGE_SIZE; 533 } 534 535 vg_assert(VG_IS_PAGE_ALIGNED(anon_size)); 536 vg_assert(VG_IS_PAGE_ALIGNED(resvn_size)); 537 vg_assert(VG_IS_PAGE_ALIGNED(anon_start)); 538 vg_assert(VG_IS_PAGE_ALIGNED(resvn_start)); 539 vg_assert(resvn_start == clstack_end + 1 - clstack_max_size); 540 541 # ifdef ENABLE_INNER 542 /* Create 1M non-fault-extending stack. */ 543 inner_HACK = 1024 * 1024; 544 # endif 545 546 if (0) 547 VG_(printf)("resvn_start=%#lx, resvn_size=%#lx\n" 548 "anon_start=%#lx, anon_size=%#lx\n", 549 resvn_start, resvn_size, anon_start, anon_size); 550 551 /* Create a shrinkable reservation followed by an anonymous segment. 552 Together these constitute a growdown stack. */ 553 ok = VG_(am_create_reservation)(resvn_start, 554 resvn_size - inner_HACK, 555 SmUpper, 556 anon_size + inner_HACK); 557 if (ok) { 558 /* Allocate a stack - mmap enough space for the stack. */ 559 res = VG_(am_mmap_anon_fixed_client)(anon_start - inner_HACK, 560 anon_size + inner_HACK, 561 info->stack_prot); 562 } 563 if (!ok || sr_isError(res)) { 564 /* Allocation of the stack failed. We have to stop. */ 565 VG_(printf)("valgrind: " 566 "I failed to allocate space for the application's stack.\n"); 567 VG_(printf)("valgrind: " 568 "This may be the result of a very large --main-stacksize=\n"); 569 VG_(printf)("valgrind: setting. Cannot continue. Sorry.\n\n"); 570 VG_(exit)(1); 571 /*NOTREACHED*/ 572 } 573 } 574 575 /* ==================== create client stack ==================== */ 576 577 ptr = (Addr*)client_SP; 578 579 /* Copy-out client argc. */ 580 *ptr++ = argc; 581 582 /* Copy-out client argv. */ 583 if (info->interp_name) { 584 *ptr++ = (Addr)copy_str(&strtab, info->interp_name); 585 VG_(free)(info->interp_name); 586 } 587 if (info->interp_args) { 588 *ptr++ = (Addr)copy_str(&strtab, info->interp_args); 589 VG_(free)(info->interp_args); 590 } 591 592 *ptr++ = (Addr)copy_str(&strtab, VG_(args_the_exename)); 593 for (i = 0; i < VG_(sizeXA)(VG_(args_for_client)); i++) 594 *ptr++ = (Addr)copy_str( 595 &strtab, *(HChar**) VG_(indexXA)(VG_(args_for_client), i)); 596 *ptr++ = 0; 597 598 /* Copy-out envp. */ 599 VG_(client_envp) = (HChar**)ptr; 600 for (cpp = orig_envp; *cpp; ptr++, cpp++) 601 *ptr = (Addr)copy_str(&strtab, *cpp); 602 *ptr++ = 0; 603 604 /* Create aux vector. */ 605 auxv = (auxv_t*)ptr; 606 VG_(client_auxv) = (UWord*)ptr; 607 608 /* AT_SUN_PLATFORM */ 609 auxv->a_type = VKI_AT_SUN_PLATFORM; 610 # if defined(VGA_x86) || defined(VGA_amd64) 611 auxv->a_un.a_ptr = copy_str(&strtab, "i86pc"); 612 # else 613 # error "Unknown architecture" 614 # endif 615 auxv++; 616 617 /* AT_SUN_EXECNAME */ 618 auxv->a_type = VKI_AT_SUN_EXECNAME; 619 auxv->a_un.a_ptr = copy_str(&strtab, resolved_exe_name); 620 auxv++; 621 622 /* AT_PHDR */ 623 if ((info->real_phdr_present) && (info->phdr != 0)) { 624 auxv->a_type = VKI_AT_PHDR; 625 auxv->a_un.a_val = info->phdr; 626 auxv++; 627 } 628 629 /* AT_BASE */ 630 auxv->a_type = VKI_AT_BASE; 631 auxv->a_un.a_val = info->interp_offset; 632 auxv++; 633 634 /* AT_FLAGS */ 635 auxv->a_type = VKI_AT_FLAGS; 636 # if defined(VGA_x86) || defined(VGA_amd64) 637 auxv->a_un.a_val = 0; /* 0 on i86pc */ 638 # else 639 # error "Unknown architecture" 640 # endif 641 auxv++; 642 643 /* AT_PAGESZ */ 644 auxv->a_type = VKI_AT_PAGESZ; 645 auxv->a_un.a_val = VKI_PAGE_SIZE; 646 auxv++; 647 648 /* AT_SUN_AUXFLAFGS */ 649 auxv->a_type = VKI_AT_SUN_AUXFLAGS; 650 /* XXX Handle AF_SUN_SETUGID? */ 651 auxv->a_un.a_val = VKI_AF_SUN_HWCAPVERIFY; 652 auxv++; 653 654 /* AT_SUN_HWCAP */ 655 { 656 VexArch vex_arch; 657 VexArchInfo vex_archinfo; 658 UInt hwcaps; 659 660 VG_(machine_get_VexArchInfo)(&vex_arch, &vex_archinfo); 661 662 # if defined(VGA_x86) 663 vg_assert(vex_arch == VexArchX86); 664 665 /* Set default hwcaps. */ 666 hwcaps = 667 VKI_AV_386_FPU /* x87-style floating point */ 668 | VKI_AV_386_TSC /* rdtsc insn */ 669 | VKI_AV_386_CX8 /* cmpxchg8b insn */ 670 | VKI_AV_386_SEP /* sysenter and sysexit */ 671 | VKI_AV_386_AMD_SYSC /* AMD's syscall and sysret */ 672 | VKI_AV_386_CMOV /* conditional move insns */ 673 | VKI_AV_386_MMX /* MMX insn */ 674 | VKI_AV_386_AHF; /* lahf/sahf insns */ 675 676 /* Handle additional hwcaps. */ 677 if (vex_archinfo.hwcaps & VEX_HWCAPS_X86_SSE1) 678 hwcaps |= 679 VKI_AV_386_FXSR /* fxsave and fxrstor */ 680 | VKI_AV_386_SSE; /* SSE insns and regs */ 681 if (vex_archinfo.hwcaps & VEX_HWCAPS_X86_SSE2) { 682 vg_assert(vex_archinfo.hwcaps & VEX_HWCAPS_X86_SSE1); 683 hwcaps |= 684 VKI_AV_386_SSE2; /* SSE2 insns and regs */ 685 } 686 if (vex_archinfo.hwcaps & VEX_HWCAPS_X86_SSE3) { 687 vg_assert(vex_archinfo.hwcaps & VEX_HWCAPS_X86_SSE2); 688 hwcaps |= 689 VKI_AV_386_SSE3 /* SSE3 insns and regs */ 690 | VKI_AV_386_SSSE3; /* Intel SSSE3 insns */ 691 } 692 if (vex_archinfo.hwcaps & VEX_HWCAPS_X86_LZCNT) 693 hwcaps |= 694 VKI_AV_386_AMD_LZCNT; /* AMD's LZCNT insn */ 695 696 /* No support for: 697 AV_386_AMD_MMX AMD's MMX insns 698 AV_386_AMD_3DNow AMD's 3Dnow! insns 699 AV_386_AMD_3DNowx AMD's 3Dnow! extended insns 700 AV_386_CX16 cmpxchg16b insn 701 AV_386_TSCP rdtscp instruction 702 AV_386_AMD_SSE4A AMD's SSE4A insns 703 AV_386_POPCNT POPCNT insn 704 AV_386_SSE4_1 Intel SSE4.1 insns 705 AV_386_SSE4_2 Intel SSE4.2 insns 706 AV_386_MOVBE Intel MOVBE insns 707 AV_386_AES Intel AES insns 708 AV_386_PCLMULQDQ Intel PCLMULQDQ insn 709 AV_386_XSAVE Intel XSAVE/XRSTOR insns 710 AV_386_AVX Intel AVX insns 711 illumos only: 712 AV_386_VMX Intel VMX support 713 AV_386_AMD_SVM AMD SVM support 714 solaris only: 715 AV_386_AMD_XOP AMD XOP insns 716 AV_386_AMD_FMA4 AMD FMA4 insns */ 717 718 # elif defined(VGA_amd64) 719 vg_assert(vex_arch == VexArchAMD64); 720 721 /* Set default hwcaps. */ 722 hwcaps = 723 VKI_AV_386_FPU /* x87-style floating point */ 724 | VKI_AV_386_TSC /* rdtsc insn */ 725 | VKI_AV_386_CX8 /* cmpxchg8b insn */ 726 | VKI_AV_386_AMD_SYSC /* AMD's syscall and sysret */ 727 | VKI_AV_386_CMOV /* conditional move insns */ 728 | VKI_AV_386_MMX /* MMX insn */ 729 | VKI_AV_386_AHF /* lahf/sahf insns */ 730 | VKI_AV_386_FXSR /* fxsave and fxrstor */ 731 | VKI_AV_386_SSE /* SSE insns and regs */ 732 | VKI_AV_386_SSE2; /* SSE2 insns and regs */ 733 734 /* Handle additional hwcaps. */ 735 if (vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_SSE3) 736 hwcaps |= 737 VKI_AV_386_SSE3 /* SSE3 insns and regs */ 738 | VKI_AV_386_SSSE3; /* Intel SSSE3 insns */ 739 if (vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_CX16) 740 hwcaps |= 741 VKI_AV_386_CX16; /* cmpxchg16b insn */ 742 if (vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_LZCNT) 743 hwcaps |= 744 VKI_AV_386_AMD_LZCNT; /* AMD's LZCNT insn */ 745 if (vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_RDTSCP) 746 hwcaps |= 747 VKI_AV_386_TSCP; /* rdtscp instruction */ 748 if ((vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_SSE3) && 749 (vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_CX16)) { 750 /* The CPUID simulation provided by VEX claims to have POPCNT, AES 751 and SSE4 (SSE4.1/SSE4.2) in the SSE3+CX16 configuration. */ 752 hwcaps |= 753 VKI_AV_386_POPCNT /* POPCNT insn */ 754 | VKI_AV_386_AES /* Intel AES insns */ 755 | VKI_AV_386_SSE4_1 /* Intel SSE4.1 insns */ 756 | VKI_AV_386_SSE4_2; /* Intel SSE4.2 insns */ 757 } 758 if ((vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_SSE3) && 759 (vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_CX16) && 760 (vex_archinfo.hwcaps & VEX_HWCAPS_AMD64_AVX)) { 761 /* The CPUID simulation provided by VEX claims to have PCLMULQDQ and 762 XSAVE in the SSE3+CX16+AVX configuration. */ 763 hwcaps |= 764 VKI_AV_386_PCLMULQDQ /* Intel PCLMULQDQ insn */ 765 | VKI_AV_386_XSAVE; /* Intel XSAVE/XRSTOR insns */ 766 } 767 /* No support for: 768 AV_386_SEP sysenter and sysexit 769 AV_386_AMD_MMX AMD's MMX insns 770 AV_386_AMD_3DNow AMD's 3Dnow! insns 771 AV_386_AMD_3DNowx AMD's 3Dnow! extended insns 772 AV_386_AMD_SSE4A AMD's SSE4A insns 773 AV_386_MOVBE Intel MOVBE insns 774 AV_386_AVX Intel AVX insns 775 illumos only: 776 AV_386_VMX Intel VMX support 777 AV_386_AMD_SVM AMD SVM support 778 solaris only: 779 AV_386_AMD_XOP AMD XOP insns 780 AV_386_AMD_FMA4 AMD FMA4 insns 781 782 TODO VEX supports AVX, BMI and AVX2. Investigate if they can be 783 enabled on Solaris/illumos. 784 */ 785 786 # else 787 # error "Unknown architecture" 788 # endif 789 790 auxv->a_type = VKI_AT_SUN_HWCAP; 791 auxv->a_un.a_val = hwcaps; 792 auxv++; 793 } 794 795 /* AT_SUN_HWCAP2 */ 796 { 797 /* No support for: 798 illumos only: 799 AV_386_2_F16C F16C half percision extensions 800 AV_386_2_RDRAND RDRAND insn 801 solaris only: 802 AV2_386_RDRAND Intel RDRAND insns 803 AV2_386_FMA Intel FMA insn 804 AV2_386_F16C IEEE half precn(float) insn 805 AV2_386_AMD_TBM AMD TBM insn 806 AV2_386_BMI1 Intel BMI1 insn 807 AV2_386_FSGSBASE Intel RD/WR FS/GSBASE insn 808 AV2_386_AVX2 Intel AVX2 insns 809 AV2_386_BMI2 Intel BMI2 insns 810 AV2_386_HLE Intel HLE insns 811 AV2_386_RTM Intel RTM insns 812 AV2_386_EFS Intel Enhanced Fast String 813 AV2_386_RDSEED Intel RDSEED insn 814 AV2_386_ADX Intel ADX insns 815 AV2_386_PRFCHW Intel PREFETCHW hint 816 */ 817 } 818 819 # if defined(SOLARIS_RESERVE_SYSSTAT_ADDR) 820 /* AT_SUN_SYSSTAT_ADDR */ 821 copy_auxv_entry(orig_auxv, VKI_AT_SUN_SYSSTAT_ADDR, 822 "AT_SUN_SYSSTAT_ADDR", auxv); 823 VG_(change_mapping_ownership)(auxv->a_un.a_val, True); 824 auxv++; 825 # endif 826 827 # if defined(SOLARIS_RESERVE_SYSSTAT_ZONE_ADDR) 828 /* AT_SUN_SYSSTAT_ZONE_ADDR */ 829 copy_auxv_entry(orig_auxv, VKI_AT_SUN_SYSSTAT_ZONE_ADDR, 830 "AT_SUN_SYSSTAT_ZONE_ADDR", auxv); 831 VG_(change_mapping_ownership)(auxv->a_un.a_val, True); 832 auxv++; 833 # endif 834 835 /* AT_NULL */ 836 auxv->a_type = VKI_AT_NULL; 837 auxv->a_un.a_val = 0; 838 839 vg_assert(strtab - stringbase == stringsize); 840 841 /* The variable client_SP is now pointing at client's argc/argv. */ 842 843 if (0) 844 VG_(printf)("startup SP = %#lx\n", client_SP); 845 return client_SP; 846 } 847 848 /*====================================================================*/ 849 /*=== TOP-LEVEL: VG_(setup_client_initial_image) ===*/ 850 /*====================================================================*/ 851 852 /* Create the client's initial memory image. */ 853 IIFinaliseImageInfo VG_(ii_create_image)(IICreateImageInfo iicii, 854 const VexArchInfo *vex_archinfo) 855 { 856 ExeInfo info; 857 HChar **env = NULL; 858 HChar resolved_exe_name[VKI_PATH_MAX]; 859 860 IIFinaliseImageInfo iifii; 861 VG_(memset)(&iifii, 0, sizeof(iifii)); 862 863 //-------------------------------------------------------------- 864 // Load client executable, finding in $PATH if necessary 865 // p: early_process_cmd_line_options() [for 'exec', 'need_help'] 866 // p: layout_remaining_space [so there's space] 867 //-------------------------------------------------------------- 868 VG_(debugLog)(1, "initimg", "Loading client\n"); 869 870 if (!VG_(args_the_exename)) { 871 VG_(err_missing_prog)(); 872 /*NOTREACHED*/ 873 } 874 875 load_client(&info, resolved_exe_name, sizeof(resolved_exe_name)); 876 iifii.initial_client_IP = info.init_ip; 877 /* Note: TOC isn't available on Solaris. */ 878 iifii.initial_client_TOC = info.init_toc; 879 iifii.initial_client_TP = info.init_thrptr; 880 /* Note that iifii.client_auxv is never set on Solaris, because it isn't 881 necessary to have this value in VG_(ii_finalise_image). */ 882 883 //-------------------------------------------------------------- 884 // Set up client's environment 885 // p: set-libdir [for VG_(libdir)] 886 // p: early_process_cmd_line_options() [for toolname] 887 //-------------------------------------------------------------- 888 VG_(debugLog)(1, "initimg", "Setup client env\n"); 889 env = setup_client_env(iicii.envp, iicii.toolname); 890 891 //-------------------------------------------------------------- 892 // Setup client stack and EIP 893 // p: load_client() [for 'info'] 894 // p: fix_environment() [for 'env'] 895 //-------------------------------------------------------------- 896 { 897 /* When allocating space for the client stack, take notice of the 898 --main-stacksize value. This makes it possible to run programs with 899 very large (primary) stack requirements simply by specifying 900 --main-stacksize. */ 901 /* Logic is as follows: 902 - By default, use the client's current stack rlimit. 903 - If that exceeds 16M, clamp to 16M. 904 - If a larger --main-stacksize value is specified, use that instead. 905 - In all situations, the minimum allowed stack size is 1M. 906 */ 907 Addr init_sp = (Addr) (iicii.argv - 1); 908 SizeT m1 = 1024 * 1024; 909 SizeT m16 = 16 * m1; 910 SizeT szB = (SizeT)VG_(client_rlimit_stack).rlim_cur; 911 if (szB < m1) 912 szB = m1; 913 if (szB > m16) 914 szB = m16; 915 916 if (VG_(clo_main_stacksize) > 0) 917 szB = VG_(clo_main_stacksize); 918 if (szB < m1) 919 szB = m1; 920 921 szB = VG_PGROUNDUP(szB); 922 VG_(debugLog)(1, "initimg", 923 "Setup client stack: size will be %ld\n", szB); 924 925 iifii.clstack_max_size = szB; 926 iifii.initial_client_SP = setup_client_stack(init_sp, env, &info, 927 iicii.clstack_end, 928 iifii.clstack_max_size, 929 resolved_exe_name); 930 VG_(free)(env); 931 932 VG_(debugLog)(2, "initimg", "Client info: " 933 "initial_IP=%#lx, initial_TOC=%#lx, brk_base=%#lx\n", 934 iifii.initial_client_IP, iifii.initial_client_TOC, 935 VG_(brk_base)); 936 VG_(debugLog)(2, "initimg", "Client info: " 937 "initial_SP=%#lx, max_stack_size=%lu\n", 938 iifii.initial_client_SP, 939 iifii.clstack_max_size); 940 } 941 942 if (info.ldsoexec) { 943 /* We are executing the runtime linker itself. 944 Initial data (brk) segment is setup on demand, after the target dynamic 945 executable has been loaded or when a first brk() syscall is made. 946 It cannot be established now because it would conflict with a temporary 947 stack which ld.so.1 (when executed directly) uses for loading the 948 target dynamic executable. See PRE(sys_brk) in syswrap-solaris.c. */ 949 } else { 950 if (!VG_(setup_client_dataseg)()) { 951 VG_(printf)("valgrind: cannot initialize data segment (brk).\n"); 952 VG_(exit)(1); 953 } 954 } 955 956 return iifii; 957 } 958 959 960 /*====================================================================*/ 961 /*=== TOP-LEVEL: VG_(finalise_image) ===*/ 962 /*====================================================================*/ 963 964 /* Just before starting the client, we may need to make final adjustments to 965 its initial image. Also we need to set up the VEX guest state for thread 1 966 (the root thread) and copy in essential starting values. This is handed 967 the IIFinaliseImageInfo created by VG_(ii_create_image). 968 */ 969 void VG_(ii_finalise_image)(IIFinaliseImageInfo iifii) 970 { 971 ThreadArchState *arch = &VG_(threads)[1].arch; 972 973 # if defined(VGA_x86) 974 vg_assert(0 == sizeof(VexGuestX86State) % LibVEX_GUEST_STATE_ALIGN); 975 976 /* Zero out the initial state, and set up the simulated FPU in a sane 977 way. */ 978 LibVEX_GuestX86_initialise(&arch->vex); 979 980 /* Zero out the shadow areas. */ 981 VG_(memset)(&arch->vex_shadow1, 0, sizeof(VexGuestX86State)); 982 VG_(memset)(&arch->vex_shadow2, 0, sizeof(VexGuestX86State)); 983 984 /* Put essential stuff into the new state. */ 985 arch->vex.guest_ESP = iifii.initial_client_SP; 986 arch->vex.guest_EIP = iifii.initial_client_IP; 987 LibVEX_GuestX86_put_eflags(VKI_PSL_USER, &arch->vex); 988 989 /* Set %cs, %ds, %ss and %es to default values. */ 990 __asm__ __volatile__ ("movw %%cs, %[cs]" : [cs] "=m" (arch->vex.guest_CS)); 991 __asm__ __volatile__ ("movw %%ds, %[ds]" : [ds] "=m" (arch->vex.guest_DS)); 992 __asm__ __volatile__ ("movw %%ss, %[ss]" : [ss] "=m" (arch->vex.guest_SS)); 993 __asm__ __volatile__ ("movw %%es, %[es]" : [es] "=m" (arch->vex.guest_ES)); 994 995 { 996 /* Initial thread pointer value will be saved in GDT when the thread is 997 started in the syswrap module and a thread's GDT is allocated. */ 998 ThreadOSstate *os = &VG_(threads)[1].os_state; 999 os->thrptr = iifii.initial_client_TP; 1000 } 1001 1002 # elif defined(VGA_amd64) 1003 vg_assert(0 == sizeof(VexGuestAMD64State) % LibVEX_GUEST_STATE_ALIGN); 1004 1005 /* Zero out the initial state, and set up the simulated FPU in a sane 1006 way. */ 1007 LibVEX_GuestAMD64_initialise(&arch->vex); 1008 1009 /* Zero out the shadow areas. */ 1010 VG_(memset)(&arch->vex_shadow1, 0, sizeof(VexGuestAMD64State)); 1011 VG_(memset)(&arch->vex_shadow2, 0, sizeof(VexGuestAMD64State)); 1012 1013 /* Put essential stuff into the new state. */ 1014 arch->vex.guest_RSP = iifii.initial_client_SP; 1015 arch->vex.guest_RIP = iifii.initial_client_IP; 1016 arch->vex.guest_FS_CONST = iifii.initial_client_TP; 1017 LibVEX_GuestAMD64_put_rflags(VKI_PSL_USER, &arch->vex); 1018 1019 # else 1020 # error "Unknown platform" 1021 # endif 1022 1023 /* Tell the tool that we just wrote to the registers. */ 1024 VG_TRACK(post_reg_write, Vg_CoreStartup, 1/*tid*/, 0/*offset*/, 1025 sizeof(VexGuestArchState)); 1026 1027 if (VG_(brk_base) != -1 ) { 1028 /* Make inaccessible/unaddressable the end of the client data segment. 1029 See PRE(sys_brk) in syswrap-solaris.c for details. */ 1030 VG_(track_client_dataseg)(1 /* tid */); 1031 } 1032 } 1033 1034 #endif // defined(VGO_solaris) 1035 1036 /*--------------------------------------------------------------------*/ 1037 /*--- ---*/ 1038 /*--------------------------------------------------------------------*/ 1039