1 /* -*- mode: C; c-basic-offset: 3; -*- */ 2 /* 3 This file is part of drd, a thread error detector. 4 5 Copyright (C) 2006-2010 Bart Van Assche <bvanassche (at) acm.org>. 6 7 This program is free software; you can redistribute it and/or 8 modify it under the terms of the GNU General Public License as 9 published by the Free Software Foundation; either version 2 of the 10 License, or (at your option) any later version. 11 12 This program is distributed in the hope that it will be useful, but 13 WITHOUT ANY WARRANTY; without even the implied warranty of 14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 15 General Public License for more details. 16 17 You should have received a copy of the GNU General Public License 18 along with this program; if not, write to the Free Software 19 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 20 02111-1307, USA. 21 22 The GNU General Public License is contained in the file COPYING. 23 */ 24 25 26 #ifndef __DRD_BITMAP_H 27 #define __DRD_BITMAP_H 28 29 30 #include "pub_drd_bitmap.h" 31 #include "pub_tool_basics.h" 32 #include "pub_tool_oset.h" 33 #include "pub_tool_libcbase.h" 34 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 35 #include "pub_tool_libcassert.h" 36 #endif 37 38 39 /* Bitmap representation. A bitmap is a data structure in which two bits are 40 * reserved per 32 bit address: one bit that indicates that the data at the 41 * specified address has been read, and one bit that indicates that the data 42 * has been written to. 43 */ 44 45 /* Client addresses are split into bitfields as follows: 46 * ------------------------------------------------------ 47 * | Address MSB | Address LSB | Ignored bits | 48 * ------------------------------------------------------ 49 * | Address MSB | UWord MSB | UWord LSB | Ignored bits | 50 * ------------------------------------------------------ 51 */ 52 53 54 55 /* Address MSB / LSB split. */ 56 57 58 /** Number of least significant address bits that are ignored. */ 59 #define ADDR_IGNORED_BITS 0 60 #define ADDR_IGNORED_MASK ((1U << ADDR_IGNORED_BITS) - 1U) 61 #define ADDR_GRANULARITY (1U << ADDR_IGNORED_BITS) 62 63 /** 64 * Round argument a up to a multiple of (1 << ADDR_GRANULARITY), and next 65 * shift it right ADDR_GRANULARITY bits. The expression below is optimized 66 * for the case where a is a constant. 67 */ 68 #define SCALED_SIZE(a) \ 69 (((((a) - 1U) | ADDR_IGNORED_MASK) + 1U) >> ADDR_IGNORED_BITS) 70 71 /** 72 * Number of bits assigned to the least significant component of an address. 73 */ 74 #define ADDR_LSB_BITS 12 75 76 /** 77 * Mask that has to be applied to an address of type Addr in order to 78 * compute the least significant part of an address split, after having 79 * shifted the address bits ADDR_GRANULARITY to the right. 80 */ 81 #define ADDR_LSB_MASK (((UWord)1 << ADDR_LSB_BITS) - 1U) 82 83 /** Compute least significant bits of an address of type Addr. */ 84 static __inline__ 85 UWord address_lsb(const Addr a) 86 { return (a >> ADDR_IGNORED_BITS) & ADDR_LSB_MASK; } 87 88 /** 89 * Compute the first address for which address_lsb() is equal to 90 * address_lsb(a). 91 */ 92 static __inline__ 93 Addr first_address_with_same_lsb(const Addr a) 94 { 95 return ((a | ADDR_IGNORED_MASK) ^ ADDR_IGNORED_MASK); 96 } 97 98 /** 99 * Compute the first address for which address_lsb() is greater than 100 * address_lsb(a). 101 */ 102 static __inline__ 103 Addr first_address_with_higher_lsb(const Addr a) 104 { 105 return ((a | ADDR_IGNORED_MASK) + 1U); 106 } 107 108 /** Compute most significant bits of an address of type Addr. */ 109 static __inline__ 110 UWord address_msb(const Addr a) 111 { return a >> (ADDR_LSB_BITS + ADDR_IGNORED_BITS); } 112 113 static __inline__ 114 Addr first_address_with_higher_msb(const Addr a) 115 { 116 return ((a | ((ADDR_LSB_MASK << ADDR_IGNORED_BITS) | ADDR_IGNORED_MASK)) 117 + 1U); 118 } 119 120 /** 121 * Convert LSB and MSB back into an address. 122 * 123 * @note It is assumed that sizeof(Addr) == sizeof(UWord). 124 */ 125 static __inline__ 126 Addr make_address(const UWord a1, const UWord a0) 127 { 128 return ((a1 << (ADDR_LSB_BITS + ADDR_IGNORED_BITS)) 129 | (a0 << ADDR_IGNORED_BITS)); 130 } 131 132 133 134 135 136 /** Number of bits that fit in a variable of type UWord. */ 137 #define BITS_PER_UWORD (8U * sizeof(UWord)) 138 139 /** Log2 of BITS_PER_UWORD. */ 140 #if defined(VGA_x86) || defined(VGA_ppc32) || defined(VGA_arm) 141 #define BITS_PER_BITS_PER_UWORD 5 142 #elif defined(VGA_amd64) || defined(VGA_ppc64) 143 #define BITS_PER_BITS_PER_UWORD 6 144 #else 145 #error Unknown platform. 146 #endif 147 148 /** Number of UWord's needed to store one bit per address LSB. */ 149 #define BITMAP1_UWORD_COUNT (1U << (ADDR_LSB_BITS - BITS_PER_BITS_PER_UWORD)) 150 151 /** 152 * Mask that has to be applied to an (Addr >> ADDR_IGNORED_BITS) expression 153 * in order to compute the least significant part of an UWord. 154 */ 155 #define UWORD_LSB_MASK (((UWord)1 << BITS_PER_BITS_PER_UWORD) - 1) 156 157 /** 158 * Compute index into bm0[] array. 159 * 160 * @param a Address shifted right ADDR_IGNORED_BITS bits. 161 */ 162 static __inline__ 163 UWord uword_msb(const UWord a) 164 { 165 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 166 tl_assert(a < (1U << ADDR_LSB_BITS)); 167 #endif 168 return a >> BITS_PER_BITS_PER_UWORD; 169 } 170 171 /** 172 * Return the least significant bits. 173 * 174 * @param a Address shifted right ADDR_IGNORED_BITS bits. 175 */ 176 static __inline__ 177 UWord uword_lsb(const UWord a) 178 { 179 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 180 tl_assert(a < (1U << ADDR_LSB_BITS)); 181 #endif 182 return a & UWORD_LSB_MASK; 183 } 184 185 /** 186 * Compute the highest address lower than a for which 187 * uword_lsb(address_lsb(a)) == 0. 188 * 189 * @param a Address. 190 */ 191 static __inline__ 192 Addr first_address_with_same_uword_lsb(const Addr a) 193 { 194 return (a & (~UWORD_LSB_MASK << ADDR_IGNORED_BITS)); 195 } 196 197 /** 198 * First address that will go in the UWord past the one 'a' goes in. 199 * 200 * @param a Address. 201 */ 202 static __inline__ 203 Addr first_address_with_higher_uword_msb(const Addr a) 204 { 205 return ((a | ((UWORD_LSB_MASK << ADDR_IGNORED_BITS) | ADDR_IGNORED_MASK)) 206 + 1); 207 } 208 209 210 211 /* Local variables. */ 212 213 static ULong s_bitmap2_creation_count; 214 215 216 217 /*********************************************************************/ 218 /* Functions for manipulating a struct bitmap1. */ 219 /*********************************************************************/ 220 221 222 /* Lowest level, corresponding to the lowest ADDR_LSB_BITS of an address. */ 223 struct bitmap1 224 { 225 UWord bm0_r[BITMAP1_UWORD_COUNT]; 226 UWord bm0_w[BITMAP1_UWORD_COUNT]; 227 }; 228 229 static __inline__ UWord bm0_mask(const UWord a) 230 { 231 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 232 tl_assert(address_msb(make_address(0, a)) == 0); 233 #endif 234 return ((UWord)1 << uword_lsb(a)); 235 } 236 237 /** Set the bit corresponding to address a in bitmap bm0. */ 238 static __inline__ void bm0_set(UWord* bm0, const UWord a) 239 { 240 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 241 tl_assert(address_msb(make_address(0, a)) == 0); 242 #endif 243 bm0[uword_msb(a)] |= (UWord)1 << uword_lsb(a); 244 } 245 246 /** 247 * Set the bits corresponding to all of the addresses in range 248 * [ a << ADDR_IGNORED_BITS .. (a + size) << ADDR_IGNORED_BITS [ 249 * in bitmap bm0. 250 */ 251 static __inline__ void bm0_set_range(UWord* bm0, 252 const UWord a, const SizeT size) 253 { 254 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 255 tl_assert(size > 0); 256 tl_assert(address_msb(make_address(0, a)) == 0); 257 tl_assert(address_msb(make_address(0, a + size - 1)) == 0); 258 tl_assert(uword_msb(a) == uword_msb(a + size - 1)); 259 #endif 260 bm0[uword_msb(a)] 261 |= (((UWord)1 << size) - 1) << uword_lsb(a); 262 } 263 264 /** Clear the bit corresponding to address a in bitmap bm0. */ 265 static __inline__ void bm0_clear(UWord* bm0, const UWord a) 266 { 267 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 268 tl_assert(address_msb(make_address(0, a)) == 0); 269 #endif 270 bm0[uword_msb(a)] &= ~((UWord)1 << uword_lsb(a)); 271 } 272 273 /** 274 * Clear all of the addresses in range 275 * [ a << ADDR_IGNORED_BITS .. (a + size) << ADDR_IGNORED_BITS [ 276 * in bitmap bm0. 277 */ 278 static __inline__ void bm0_clear_range(UWord* bm0, 279 const UWord a, const SizeT size) 280 { 281 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 282 tl_assert(address_msb(make_address(0, a)) == 0); 283 tl_assert(size == 0 || address_msb(make_address(0, a + size - 1)) == 0); 284 tl_assert(size == 0 || uword_msb(a) == uword_msb(a + size - 1)); 285 #endif 286 /* 287 * Note: although the expression below yields a correct result even if 288 * size == 0, do not touch bm0[] if size == 0 because this might otherwise 289 * cause an access of memory just past the end of the bm0[] array. 290 */ 291 if (size > 0) 292 { 293 bm0[uword_msb(a)] 294 &= ~((((UWord)1 << size) - 1) << uword_lsb(a)); 295 } 296 } 297 298 /** Test whether the bit corresponding to address a is set in bitmap bm0. */ 299 static __inline__ UWord bm0_is_set(const UWord* bm0, const UWord a) 300 { 301 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 302 tl_assert(address_msb(make_address(0, a)) == 0); 303 #endif 304 return (bm0[uword_msb(a)] & ((UWord)1 << uword_lsb(a))); 305 } 306 307 /** 308 * Return true if a bit corresponding to any of the addresses in range 309 * [ a << ADDR_IGNORED_BITS .. (a + size) << ADDR_IGNORED_BITS [ 310 * is set in bm0. 311 */ 312 static __inline__ UWord bm0_is_any_set(const UWord* bm0, 313 const Addr a, const SizeT size) 314 { 315 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 316 tl_assert(size > 0); 317 tl_assert(address_msb(make_address(0, a)) == 0); 318 tl_assert(address_msb(make_address(0, a + size - 1)) == 0); 319 tl_assert(uword_msb(a) == uword_msb(a + size - 1)); 320 #endif 321 return (bm0[uword_msb(a)] & ((((UWord)1 << size) - 1) << uword_lsb(a))); 322 } 323 324 325 326 /*********************************************************************/ 327 /* Functions for manipulating a struct bitmap. */ 328 /*********************************************************************/ 329 330 331 /* Second level bitmap. */ 332 struct bitmap2 333 { 334 Addr addr; ///< address_msb(...) 335 Bool recalc; 336 struct bitmap1 bm1; 337 }; 338 339 340 static void bm2_clear(struct bitmap2* const bm2); 341 static __inline__ 342 struct bitmap2* bm2_insert(struct bitmap* const bm, const UWord a1); 343 344 345 346 /** 347 * Rotate elements cache[0..n-1] such that the element at position n-1 is 348 * moved to position 0. This allows to speed up future cache lookups. 349 */ 350 static __inline__ 351 void bm_cache_rotate(struct bm_cache_elem cache[], const int n) 352 { 353 #if 0 354 struct bm_cache_elem t; 355 356 tl_assert(2 <= n && n <= 8); 357 358 t = cache[0]; 359 if (n > 1) 360 cache[0] = cache[1]; 361 if (n > 2) 362 cache[1] = cache[2]; 363 if (n > 3) 364 cache[2] = cache[3]; 365 if (n > 4) 366 cache[3] = cache[4]; 367 if (n > 5) 368 cache[4] = cache[5]; 369 if (n > 6) 370 cache[5] = cache[6]; 371 if (n > 7) 372 cache[6] = cache[7]; 373 cache[n - 1] = t; 374 #endif 375 } 376 377 static __inline__ 378 Bool bm_cache_lookup(struct bitmap* const bm, const UWord a1, 379 struct bitmap2** bm2) 380 { 381 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 382 tl_assert(bm); 383 tl_assert(bm2); 384 #endif 385 386 #if DRD_BITMAP_N_CACHE_ELEM > 8 387 #error Please update the code below. 388 #endif 389 #if DRD_BITMAP_N_CACHE_ELEM >= 1 390 if (a1 == bm->cache[0].a1) 391 { 392 *bm2 = bm->cache[0].bm2; 393 return True; 394 } 395 #endif 396 #if DRD_BITMAP_N_CACHE_ELEM >= 2 397 if (a1 == bm->cache[1].a1) 398 { 399 *bm2 = bm->cache[1].bm2; 400 return True; 401 } 402 #endif 403 #if DRD_BITMAP_N_CACHE_ELEM >= 3 404 if (a1 == bm->cache[2].a1) 405 { 406 *bm2 = bm->cache[2].bm2; 407 bm_cache_rotate(bm->cache, 3); 408 return True; 409 } 410 #endif 411 #if DRD_BITMAP_N_CACHE_ELEM >= 4 412 if (a1 == bm->cache[3].a1) 413 { 414 *bm2 = bm->cache[3].bm2; 415 bm_cache_rotate(bm->cache, 4); 416 return True; 417 } 418 #endif 419 #if DRD_BITMAP_N_CACHE_ELEM >= 5 420 if (a1 == bm->cache[4].a1) 421 { 422 *bm2 = bm->cache[4].bm2; 423 bm_cache_rotate(bm->cache, 5); 424 return True; 425 } 426 #endif 427 #if DRD_BITMAP_N_CACHE_ELEM >= 6 428 if (a1 == bm->cache[5].a1) 429 { 430 *bm2 = bm->cache[5].bm2; 431 bm_cache_rotate(bm->cache, 6); 432 return True; 433 } 434 #endif 435 #if DRD_BITMAP_N_CACHE_ELEM >= 7 436 if (a1 == bm->cache[6].a1) 437 { 438 *bm2 = bm->cache[6].bm2; 439 bm_cache_rotate(bm->cache, 7); 440 return True; 441 } 442 #endif 443 #if DRD_BITMAP_N_CACHE_ELEM >= 8 444 if (a1 == bm->cache[7].a1) 445 { 446 *bm2 = bm->cache[7].bm2; 447 bm_cache_rotate(bm->cache, 8); 448 return True; 449 } 450 #endif 451 *bm2 = 0; 452 return False; 453 } 454 455 static __inline__ 456 void bm_update_cache(struct bitmap* const bm, 457 const UWord a1, 458 struct bitmap2* const bm2) 459 { 460 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 461 tl_assert(bm); 462 #endif 463 464 #if DRD_BITMAP_N_CACHE_ELEM > 8 465 #error Please update the code below. 466 #endif 467 #if DRD_BITMAP_N_CACHE_ELEM >= 8 468 bm->cache[7] = bm->cache[6]; 469 #endif 470 #if DRD_BITMAP_N_CACHE_ELEM >= 7 471 bm->cache[6] = bm->cache[5]; 472 #endif 473 #if DRD_BITMAP_N_CACHE_ELEM >= 6 474 bm->cache[5] = bm->cache[4]; 475 #endif 476 #if DRD_BITMAP_N_CACHE_ELEM >= 5 477 bm->cache[4] = bm->cache[3]; 478 #endif 479 #if DRD_BITMAP_N_CACHE_ELEM >= 4 480 bm->cache[3] = bm->cache[2]; 481 #endif 482 #if DRD_BITMAP_N_CACHE_ELEM >= 3 483 bm->cache[2] = bm->cache[1]; 484 #endif 485 #if DRD_BITMAP_N_CACHE_ELEM >= 2 486 bm->cache[1] = bm->cache[0]; 487 #endif 488 bm->cache[0].a1 = a1; 489 bm->cache[0].bm2 = bm2; 490 } 491 492 /** 493 * Look up the address a1 in bitmap bm and return a pointer to a potentially 494 * shared second level bitmap. The bitmap where the returned pointer points 495 * at may not be modified by the caller. 496 * 497 * @param a1 client address shifted right by ADDR_LSB_BITS. 498 * @param bm bitmap pointer. 499 */ 500 static __inline__ 501 const struct bitmap2* bm2_lookup(struct bitmap* const bm, const UWord a1) 502 { 503 struct bitmap2* bm2; 504 505 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 506 tl_assert(bm); 507 #endif 508 509 if (! bm_cache_lookup(bm, a1, &bm2)) 510 { 511 bm2 = VG_(OSetGen_Lookup)(bm->oset, &a1); 512 bm_update_cache(bm, a1, bm2); 513 } 514 return bm2; 515 } 516 517 /** 518 * Look up the address a1 in bitmap bm and return a pointer to a second 519 * level bitmap that is not shared and hence may be modified. 520 * 521 * @param a1 client address shifted right by ADDR_LSB_BITS. 522 * @param bm bitmap pointer. 523 */ 524 static __inline__ 525 struct bitmap2* 526 bm2_lookup_exclusive(struct bitmap* const bm, const UWord a1) 527 { 528 struct bitmap2* bm2; 529 530 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 531 tl_assert(bm); 532 #endif 533 534 if (! bm_cache_lookup(bm, a1, &bm2)) 535 { 536 bm2 = VG_(OSetGen_Lookup)(bm->oset, &a1); 537 } 538 539 return bm2; 540 } 541 542 /** Clear the content of the second-level bitmap. */ 543 static __inline__ 544 void bm2_clear(struct bitmap2* const bm2) 545 { 546 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 547 tl_assert(bm2); 548 #endif 549 VG_(memset)(&bm2->bm1, 0, sizeof(bm2->bm1)); 550 } 551 552 /** 553 * Insert an uninitialized second level bitmap for the address a1. 554 * 555 * @param bm bitmap pointer. 556 * @param a1 client address shifted right by ADDR_LSB_BITS. 557 * 558 * @note bitmap2::recalc isn't initialized here on purpose. 559 */ 560 static __inline__ 561 struct bitmap2* bm2_insert(struct bitmap* const bm, const UWord a1) 562 { 563 struct bitmap2* bm2; 564 565 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 566 tl_assert(bm); 567 #endif 568 569 s_bitmap2_creation_count++; 570 571 bm2 = VG_(OSetGen_AllocNode)(bm->oset, sizeof(*bm2)); 572 bm2->addr = a1; 573 VG_(OSetGen_Insert)(bm->oset, bm2); 574 575 bm_update_cache(bm, a1, bm2); 576 577 return bm2; 578 } 579 580 static __inline__ 581 struct bitmap2* bm2_insert_copy(struct bitmap* const bm, 582 struct bitmap2* const bm2) 583 { 584 struct bitmap2* bm2_copy; 585 586 bm2_copy = bm2_insert(bm, bm2->addr); 587 VG_(memcpy)(&bm2_copy->bm1, &bm2->bm1, sizeof(bm2->bm1)); 588 return bm2_copy; 589 } 590 591 /** 592 * Look up the address a1 in bitmap bm, and insert it if not found. 593 * The returned second level bitmap may not be modified. 594 * 595 * @param bm bitmap pointer. 596 * @param a1 client address shifted right by ADDR_LSB_BITS. 597 */ 598 static __inline__ 599 struct bitmap2* bm2_lookup_or_insert(struct bitmap* const bm, const UWord a1) 600 { 601 struct bitmap2* bm2; 602 603 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 604 tl_assert(bm); 605 #endif 606 607 if (bm_cache_lookup(bm, a1, &bm2)) 608 { 609 if (bm2 == 0) 610 { 611 bm2 = bm2_insert(bm, a1); 612 bm2_clear(bm2); 613 } 614 } 615 else 616 { 617 bm2 = VG_(OSetGen_Lookup)(bm->oset, &a1); 618 if (! bm2) 619 { 620 bm2 = bm2_insert(bm, a1); 621 bm2_clear(bm2); 622 } 623 bm_update_cache(bm, a1, bm2); 624 } 625 return bm2; 626 } 627 628 /** 629 * Look up the address a1 in bitmap bm, and insert it if not found. 630 * The returned second level bitmap may be modified. 631 * 632 * @param a1 client address shifted right by ADDR_LSB_BITS. 633 * @param bm bitmap pointer. 634 */ 635 static __inline__ 636 struct bitmap2* bm2_lookup_or_insert_exclusive(struct bitmap* const bm, 637 const UWord a1) 638 { 639 return bm2_lookup_or_insert(bm, a1); 640 } 641 642 static __inline__ 643 void bm2_remove(struct bitmap* const bm, const UWord a1) 644 { 645 struct bitmap2* bm2; 646 647 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 648 tl_assert(bm); 649 #endif 650 651 bm2 = VG_(OSetGen_Remove)(bm->oset, &a1); 652 VG_(OSetGen_FreeNode)(bm->oset, bm2); 653 654 bm_update_cache(bm, a1, NULL); 655 } 656 657 static __inline__ 658 void bm_access_aligned_load(struct bitmap* const bm, 659 const Addr a1, const SizeT size) 660 { 661 struct bitmap2* bm2; 662 663 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 664 tl_assert(bm); 665 #endif 666 667 bm2 = bm2_lookup_or_insert_exclusive(bm, address_msb(a1)); 668 bm0_set_range(bm2->bm1.bm0_r, 669 (a1 >> ADDR_IGNORED_BITS) & ADDR_LSB_MASK, 670 SCALED_SIZE(size)); 671 } 672 673 static __inline__ 674 void bm_access_aligned_store(struct bitmap* const bm, 675 const Addr a1, const SizeT size) 676 { 677 struct bitmap2* bm2; 678 679 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 680 tl_assert(bm); 681 #endif 682 683 bm2 = bm2_lookup_or_insert_exclusive(bm, address_msb(a1)); 684 bm0_set_range(bm2->bm1.bm0_w, 685 (a1 >> ADDR_IGNORED_BITS) & ADDR_LSB_MASK, 686 SCALED_SIZE(size)); 687 } 688 689 static __inline__ 690 Bool bm_aligned_load_has_conflict_with(struct bitmap* const bm, 691 const Addr a, const SizeT size) 692 { 693 const struct bitmap2* bm2; 694 695 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 696 tl_assert(bm); 697 #endif 698 699 bm2 = bm2_lookup(bm, address_msb(a)); 700 return (bm2 701 && bm0_is_any_set(bm2->bm1.bm0_w, 702 address_lsb(a), 703 SCALED_SIZE(size))); 704 } 705 706 static __inline__ 707 Bool bm_aligned_store_has_conflict_with(struct bitmap* const bm, 708 const Addr a, const SizeT size) 709 { 710 const struct bitmap2* bm2; 711 712 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS 713 tl_assert(bm); 714 #endif 715 716 bm2 = bm2_lookup(bm, address_msb(a)); 717 if (bm2) 718 { 719 if (bm0_is_any_set(bm2->bm1.bm0_r, address_lsb(a), SCALED_SIZE(size)) 720 | bm0_is_any_set(bm2->bm1.bm0_w, address_lsb(a), SCALED_SIZE(size))) 721 { 722 return True; 723 } 724 } 725 return False; 726 } 727 728 #endif /* __DRD_BITMAP_H */ 729