1 /*
2 This file is part of drd, a thread error detector.
3
4 Copyright (C) 2006-2013 Bart Van Assche <bvanassche@acm.org>.
5
6 This program is free software; you can redistribute it and/or
7 modify it under the terms of the GNU General Public License as
8 published by the Free Software Foundation; either version 2 of the
9 License, or (at your option) any later version.
10
11 This program is distributed in the hope that it will be useful, but
12 WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 General Public License for more details.
15
16 You should have received a copy of the GNU General Public License
17 along with this program; if not, write to the Free Software
18 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
19 02111-1307, USA.
20
21 The GNU General Public License is contained in the file COPYING.
22 */
23
24
25 #ifndef __DRD_BITMAP_H
26 #define __DRD_BITMAP_H
27
28
29 #include "pub_drd_bitmap.h"
30 #include "pub_tool_basics.h"
31 #include "pub_tool_oset.h"
32 #include "pub_tool_libcbase.h"
33 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
34 #include "pub_tool_libcassert.h"
35 #endif
36
37
38 /* Bitmap representation. A bitmap is a data structure in which two bits are
39 * reserved per 32 bit address: one bit that indicates that the data at the
40 * specified address has been read, and one bit that indicates that the data
41 * has been written to.
42 */
43
44 /* Client addresses are split into bitfields as follows:
45 * ------------------------------------------------------
46 * | Address MSB | Address LSB | Ignored bits |
47 * ------------------------------------------------------
48 * | Address MSB | UWord MSB | UWord LSB | Ignored bits |
49 * ------------------------------------------------------
50 */
51
52
53
54 /* Address MSB / LSB split. */
55
56
57 /** Number of least significant address bits that are ignored. */
58 #define ADDR_IGNORED_BITS 0
59 #define ADDR_IGNORED_MASK ((1U << ADDR_IGNORED_BITS) - 1U)
60 #define ADDR_GRANULARITY (1U << ADDR_IGNORED_BITS)
61
62 /**
63 * Round argument a up to a multiple of (1 << ADDR_GRANULARITY), and next
64 * shift it right ADDR_GRANULARITY bits. The expression below is optimized
65 * for the case where a is a constant.
66 */
67 #define SCALED_SIZE(a) \
68 (((((a) - 1U) | ADDR_IGNORED_MASK) + 1U) >> ADDR_IGNORED_BITS)
69
70 /**
71 * Number of bits assigned to the least significant component of an address.
72 */
73 #define ADDR_LSB_BITS 12
74
75 /**
76 * Mask that has to be applied to an address of type Addr in order to
77 * compute the least significant part of an address split, after having
78 * shifted the address bits ADDR_GRANULARITY to the right.
79 */
80 #define ADDR_LSB_MASK (((UWord)1 << ADDR_LSB_BITS) - 1U)
81
82 /** Compute least significant bits of an address of type Addr. */
83 static __inline__
address_lsb(const Addr a)84 UWord address_lsb(const Addr a)
85 { return (a >> ADDR_IGNORED_BITS) & ADDR_LSB_MASK; }
86
87 /**
88 * Compute the first address for which address_lsb() is equal to
89 * address_lsb(a).
90 */
91 static __inline__
first_address_with_same_lsb(const Addr a)92 Addr first_address_with_same_lsb(const Addr a)
93 {
94 return ((a | ADDR_IGNORED_MASK) ^ ADDR_IGNORED_MASK);
95 }
96
97 /**
98 * Compute the first address for which address_lsb() is greater than
99 * address_lsb(a).
100 */
101 static __inline__
first_address_with_higher_lsb(const Addr a)102 Addr first_address_with_higher_lsb(const Addr a)
103 {
104 return ((a | ADDR_IGNORED_MASK) + 1U);
105 }
106
107 /** Compute most significant bits of an address of type Addr. */
108 static __inline__
address_msb(const Addr a)109 UWord address_msb(const Addr a)
110 { return a >> (ADDR_LSB_BITS + ADDR_IGNORED_BITS); }
111
112 static __inline__
first_address_with_higher_msb(const Addr a)113 Addr first_address_with_higher_msb(const Addr a)
114 {
115 return ((a | ((ADDR_LSB_MASK << ADDR_IGNORED_BITS) | ADDR_IGNORED_MASK))
116 + 1U);
117 }
118
119 /**
120 * Convert LSB and MSB back into an address.
121 *
122 * @note It is assumed that sizeof(Addr) == sizeof(UWord).
123 */
124 static __inline__
make_address(const UWord a1,const UWord a0)125 Addr make_address(const UWord a1, const UWord a0)
126 {
127 return ((a1 << (ADDR_LSB_BITS + ADDR_IGNORED_BITS))
128 | (a0 << ADDR_IGNORED_BITS));
129 }
130
131
132
133
134
135 /** Number of bits that fit in a variable of type UWord. */
136 #define BITS_PER_UWORD (8U * sizeof(UWord))
137
138 /** Log2 of BITS_PER_UWORD. */
139 #if defined(VGA_x86) || defined(VGA_ppc32) || defined(VGA_arm) \
140 || defined(VGA_mips32)
141 #define BITS_PER_BITS_PER_UWORD 5
142 #elif defined(VGA_amd64) || defined(VGA_ppc64be) || defined(VGA_ppc64le) \
143 || defined(VGA_s390x) || defined(VGA_mips64) || defined(VGA_arm64) \
144 || defined(VGA_tilegx)
145 #define BITS_PER_BITS_PER_UWORD 6
146 #else
147 #error Unknown platform.
148 #endif
149
150 /** Number of UWord's needed to store one bit per address LSB. */
151 #define BITMAP1_UWORD_COUNT (1U << (ADDR_LSB_BITS - BITS_PER_BITS_PER_UWORD))
152
153 /**
154 * Mask that has to be applied to an (Addr >> ADDR_IGNORED_BITS) expression
155 * in order to compute the least significant part of an UWord.
156 */
157 #define UWORD_LSB_MASK (((UWord)1 << BITS_PER_BITS_PER_UWORD) - 1)
158
159 /**
160 * Compute index into bm0[] array.
161 *
162 * @param a Address shifted right ADDR_IGNORED_BITS bits.
163 */
164 static __inline__
uword_msb(const UWord a)165 UWord uword_msb(const UWord a)
166 {
167 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
168 tl_assert(a < (1U << ADDR_LSB_BITS));
169 #endif
170 return a >> BITS_PER_BITS_PER_UWORD;
171 }
172
173 /**
174 * Return the least significant bits.
175 *
176 * @param a Address shifted right ADDR_IGNORED_BITS bits.
177 */
178 static __inline__
uword_lsb(const UWord a)179 UWord uword_lsb(const UWord a)
180 {
181 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
182 tl_assert(a < (1U << ADDR_LSB_BITS));
183 #endif
184 return a & UWORD_LSB_MASK;
185 }
186
187 /**
188 * Compute the highest address lower than a for which
189 * uword_lsb(address_lsb(a)) == 0.
190 *
191 * @param a Address.
192 */
193 static __inline__
first_address_with_same_uword_lsb(const Addr a)194 Addr first_address_with_same_uword_lsb(const Addr a)
195 {
196 return (a & (~UWORD_LSB_MASK << ADDR_IGNORED_BITS));
197 }
198
199 /**
200 * First address that will go in the UWord past the one 'a' goes in.
201 *
202 * @param a Address.
203 */
204 static __inline__
first_address_with_higher_uword_msb(const Addr a)205 Addr first_address_with_higher_uword_msb(const Addr a)
206 {
207 return ((a | ((UWORD_LSB_MASK << ADDR_IGNORED_BITS) | ADDR_IGNORED_MASK))
208 + 1);
209 }
210
211
212
213 /* Local variables. */
214
215 static ULong s_bitmap2_creation_count;
216
217
218
219 /*********************************************************************/
220 /* Functions for manipulating a struct bitmap1. */
221 /*********************************************************************/
222
223
224 /* Lowest level, corresponding to the lowest ADDR_LSB_BITS of an address. */
225 struct bitmap1
226 {
227 UWord bm0_r[BITMAP1_UWORD_COUNT];
228 UWord bm0_w[BITMAP1_UWORD_COUNT];
229 };
230
bm0_mask(const UWord a)231 static __inline__ UWord bm0_mask(const UWord a)
232 {
233 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
234 tl_assert(address_msb(make_address(0, a)) == 0);
235 #endif
236 return ((UWord)1 << uword_lsb(a));
237 }
238
239 /** Set the bit corresponding to address a in bitmap bm0. */
bm0_set(UWord * bm0,const UWord a)240 static __inline__ void bm0_set(UWord* bm0, const UWord a)
241 {
242 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
243 tl_assert(address_msb(make_address(0, a)) == 0);
244 #endif
245 bm0[uword_msb(a)] |= (UWord)1 << uword_lsb(a);
246 }
247
248 /**
249 * Set the bits corresponding to all of the addresses in range
250 * [ a << ADDR_IGNORED_BITS .. (a + size) << ADDR_IGNORED_BITS [
251 * in bitmap bm0.
252 */
bm0_set_range(UWord * bm0,const UWord a,const SizeT size)253 static __inline__ void bm0_set_range(UWord* bm0,
254 const UWord a, const SizeT size)
255 {
256 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
257 tl_assert(size > 0);
258 tl_assert(address_msb(make_address(0, a)) == 0);
259 tl_assert(address_msb(make_address(0, a + size - 1)) == 0);
260 tl_assert(uword_msb(a) == uword_msb(a + size - 1));
261 #endif
262 bm0[uword_msb(a)]
263 |= (((UWord)1 << size) - 1) << uword_lsb(a);
264 }
265
266 /** Clear the bit corresponding to address a in bitmap bm0. */
bm0_clear(UWord * bm0,const UWord a)267 static __inline__ void bm0_clear(UWord* bm0, const UWord a)
268 {
269 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
270 tl_assert(address_msb(make_address(0, a)) == 0);
271 #endif
272 bm0[uword_msb(a)] &= ~((UWord)1 << uword_lsb(a));
273 }
274
275 /**
276 * Clear all of the addresses in range
277 * [ a << ADDR_IGNORED_BITS .. (a + size) << ADDR_IGNORED_BITS [
278 * in bitmap bm0.
279 */
bm0_clear_range(UWord * bm0,const UWord a,const SizeT size)280 static __inline__ void bm0_clear_range(UWord* bm0,
281 const UWord a, const SizeT size)
282 {
283 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
284 tl_assert(address_msb(make_address(0, a)) == 0);
285 tl_assert(size == 0 || address_msb(make_address(0, a + size - 1)) == 0);
286 tl_assert(size == 0 || uword_msb(a) == uword_msb(a + size - 1));
287 #endif
288 /*
289 * Note: although the expression below yields a correct result even if
290 * size == 0, do not touch bm0[] if size == 0 because this might otherwise
291 * cause an access of memory just past the end of the bm0[] array.
292 */
293 if (size > 0)
294 {
295 bm0[uword_msb(a)]
296 &= ~((((UWord)1 << size) - 1) << uword_lsb(a));
297 }
298 }
299
300 /** Test whether the bit corresponding to address a is set in bitmap bm0. */
bm0_is_set(const UWord * bm0,const UWord a)301 static __inline__ UWord bm0_is_set(const UWord* bm0, const UWord a)
302 {
303 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
304 tl_assert(address_msb(make_address(0, a)) == 0);
305 #endif
306 return (bm0[uword_msb(a)] & ((UWord)1 << uword_lsb(a)));
307 }
308
309 /**
310 * Return true if a bit corresponding to any of the addresses in range
311 * [ a << ADDR_IGNORED_BITS .. (a + size) << ADDR_IGNORED_BITS [
312 * is set in bm0.
313 */
bm0_is_any_set(const UWord * bm0,const Addr a,const SizeT size)314 static __inline__ UWord bm0_is_any_set(const UWord* bm0,
315 const Addr a, const SizeT size)
316 {
317 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
318 tl_assert(size > 0);
319 tl_assert(address_msb(make_address(0, a)) == 0);
320 tl_assert(address_msb(make_address(0, a + size - 1)) == 0);
321 tl_assert(uword_msb(a) == uword_msb(a + size - 1));
322 #endif
323 return (bm0[uword_msb(a)] & ((((UWord)1 << size) - 1) << uword_lsb(a)));
324 }
325
326
327
328 /*********************************************************************/
329 /* Functions for manipulating a struct bitmap. */
330 /*********************************************************************/
331
332
333 /* Second level bitmap. */
334 struct bitmap2
335 {
336 Addr addr; ///< address_msb(...)
337 Bool recalc;
338 struct bitmap1 bm1;
339 };
340
341
342 static void bm2_clear(struct bitmap2* const bm2);
343 static __inline__
344 struct bitmap2* bm2_insert(struct bitmap* const bm, const UWord a1);
345
346
347
348 /**
349 * Rotate elements cache[0..n-1] such that the element at position n-1 is
350 * moved to position 0. This allows to speed up future cache lookups.
351 */
352 static __inline__
bm_cache_rotate(struct bm_cache_elem cache[],const int n)353 void bm_cache_rotate(struct bm_cache_elem cache[], const int n)
354 {
355 #if 0
356 struct bm_cache_elem t;
357
358 tl_assert(2 <= n && n <= 8);
359
360 t = cache[0];
361 if (n > 1)
362 cache[0] = cache[1];
363 if (n > 2)
364 cache[1] = cache[2];
365 if (n > 3)
366 cache[2] = cache[3];
367 if (n > 4)
368 cache[3] = cache[4];
369 if (n > 5)
370 cache[4] = cache[5];
371 if (n > 6)
372 cache[5] = cache[6];
373 if (n > 7)
374 cache[6] = cache[7];
375 cache[n - 1] = t;
376 #endif
377 }
378
379 static __inline__
bm_cache_lookup(struct bitmap * const bm,const UWord a1,struct bitmap2 ** bm2)380 Bool bm_cache_lookup(struct bitmap* const bm, const UWord a1,
381 struct bitmap2** bm2)
382 {
383 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
384 tl_assert(bm);
385 tl_assert(bm2);
386 #endif
387
388 #if DRD_BITMAP_N_CACHE_ELEM > 8
389 #error Please update the code below.
390 #endif
391 #if DRD_BITMAP_N_CACHE_ELEM >= 1
392 if (a1 == bm->cache[0].a1)
393 {
394 *bm2 = bm->cache[0].bm2;
395 return True;
396 }
397 #endif
398 #if DRD_BITMAP_N_CACHE_ELEM >= 2
399 if (a1 == bm->cache[1].a1)
400 {
401 *bm2 = bm->cache[1].bm2;
402 return True;
403 }
404 #endif
405 #if DRD_BITMAP_N_CACHE_ELEM >= 3
406 if (a1 == bm->cache[2].a1)
407 {
408 *bm2 = bm->cache[2].bm2;
409 bm_cache_rotate(bm->cache, 3);
410 return True;
411 }
412 #endif
413 #if DRD_BITMAP_N_CACHE_ELEM >= 4
414 if (a1 == bm->cache[3].a1)
415 {
416 *bm2 = bm->cache[3].bm2;
417 bm_cache_rotate(bm->cache, 4);
418 return True;
419 }
420 #endif
421 #if DRD_BITMAP_N_CACHE_ELEM >= 5
422 if (a1 == bm->cache[4].a1)
423 {
424 *bm2 = bm->cache[4].bm2;
425 bm_cache_rotate(bm->cache, 5);
426 return True;
427 }
428 #endif
429 #if DRD_BITMAP_N_CACHE_ELEM >= 6
430 if (a1 == bm->cache[5].a1)
431 {
432 *bm2 = bm->cache[5].bm2;
433 bm_cache_rotate(bm->cache, 6);
434 return True;
435 }
436 #endif
437 #if DRD_BITMAP_N_CACHE_ELEM >= 7
438 if (a1 == bm->cache[6].a1)
439 {
440 *bm2 = bm->cache[6].bm2;
441 bm_cache_rotate(bm->cache, 7);
442 return True;
443 }
444 #endif
445 #if DRD_BITMAP_N_CACHE_ELEM >= 8
446 if (a1 == bm->cache[7].a1)
447 {
448 *bm2 = bm->cache[7].bm2;
449 bm_cache_rotate(bm->cache, 8);
450 return True;
451 }
452 #endif
453 *bm2 = 0;
454 return False;
455 }
456
457 static __inline__
bm_update_cache(struct bitmap * const bm,const UWord a1,struct bitmap2 * const bm2)458 void bm_update_cache(struct bitmap* const bm,
459 const UWord a1,
460 struct bitmap2* const bm2)
461 {
462 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
463 tl_assert(bm);
464 #endif
465
466 #if DRD_BITMAP_N_CACHE_ELEM > 8
467 #error Please update the code below.
468 #endif
469 #if DRD_BITMAP_N_CACHE_ELEM >= 8
470 bm->cache[7] = bm->cache[6];
471 #endif
472 #if DRD_BITMAP_N_CACHE_ELEM >= 7
473 bm->cache[6] = bm->cache[5];
474 #endif
475 #if DRD_BITMAP_N_CACHE_ELEM >= 6
476 bm->cache[5] = bm->cache[4];
477 #endif
478 #if DRD_BITMAP_N_CACHE_ELEM >= 5
479 bm->cache[4] = bm->cache[3];
480 #endif
481 #if DRD_BITMAP_N_CACHE_ELEM >= 4
482 bm->cache[3] = bm->cache[2];
483 #endif
484 #if DRD_BITMAP_N_CACHE_ELEM >= 3
485 bm->cache[2] = bm->cache[1];
486 #endif
487 #if DRD_BITMAP_N_CACHE_ELEM >= 2
488 bm->cache[1] = bm->cache[0];
489 #endif
490 bm->cache[0].a1 = a1;
491 bm->cache[0].bm2 = bm2;
492 }
493
494 /**
495 * Look up the address a1 in bitmap bm and return a pointer to a potentially
496 * shared second level bitmap. The bitmap where the returned pointer points
497 * at may not be modified by the caller.
498 *
499 * @param a1 client address shifted right by ADDR_LSB_BITS.
500 * @param bm bitmap pointer.
501 */
502 static __inline__
bm2_lookup(struct bitmap * const bm,const UWord a1)503 const struct bitmap2* bm2_lookup(struct bitmap* const bm, const UWord a1)
504 {
505 struct bitmap2* bm2;
506
507 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
508 tl_assert(bm);
509 #endif
510
511 if (! bm_cache_lookup(bm, a1, &bm2))
512 {
513 bm2 = VG_(OSetGen_Lookup)(bm->oset, &a1);
514 bm_update_cache(bm, a1, bm2);
515 }
516 return bm2;
517 }
518
519 /**
520 * Look up the address a1 in bitmap bm and return a pointer to a second
521 * level bitmap that is not shared and hence may be modified.
522 *
523 * @param a1 client address shifted right by ADDR_LSB_BITS.
524 * @param bm bitmap pointer.
525 */
526 static __inline__
527 struct bitmap2*
bm2_lookup_exclusive(struct bitmap * const bm,const UWord a1)528 bm2_lookup_exclusive(struct bitmap* const bm, const UWord a1)
529 {
530 struct bitmap2* bm2;
531
532 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
533 tl_assert(bm);
534 #endif
535
536 if (! bm_cache_lookup(bm, a1, &bm2))
537 {
538 bm2 = VG_(OSetGen_Lookup)(bm->oset, &a1);
539 }
540
541 return bm2;
542 }
543
544 /** Clear the content of the second-level bitmap. */
545 static __inline__
bm2_clear(struct bitmap2 * const bm2)546 void bm2_clear(struct bitmap2* const bm2)
547 {
548 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
549 tl_assert(bm2);
550 #endif
551 VG_(memset)(&bm2->bm1, 0, sizeof(bm2->bm1));
552 }
553
554 /**
555 * Insert an uninitialized second level bitmap for the address a1.
556 *
557 * @param bm bitmap pointer.
558 * @param a1 client address shifted right by ADDR_LSB_BITS.
559 *
560 * @note bitmap2::recalc isn't initialized here on purpose.
561 */
562 static __inline__
bm2_insert(struct bitmap * const bm,const UWord a1)563 struct bitmap2* bm2_insert(struct bitmap* const bm, const UWord a1)
564 {
565 struct bitmap2* bm2;
566
567 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
568 tl_assert(bm);
569 #endif
570
571 s_bitmap2_creation_count++;
572
573 bm2 = VG_(OSetGen_AllocNode)(bm->oset, sizeof(*bm2));
574 bm2->addr = a1;
575 VG_(OSetGen_Insert)(bm->oset, bm2);
576
577 bm_update_cache(bm, a1, bm2);
578
579 return bm2;
580 }
581
582 static __inline__
bm2_insert_copy(struct bitmap * const bm,struct bitmap2 * const bm2)583 struct bitmap2* bm2_insert_copy(struct bitmap* const bm,
584 struct bitmap2* const bm2)
585 {
586 struct bitmap2* bm2_copy;
587
588 bm2_copy = bm2_insert(bm, bm2->addr);
589 VG_(memcpy)(&bm2_copy->bm1, &bm2->bm1, sizeof(bm2->bm1));
590 return bm2_copy;
591 }
592
593 /**
594 * Look up the address a1 in bitmap bm, and insert it if not found.
595 * The returned second level bitmap may not be modified.
596 *
597 * @param bm bitmap pointer.
598 * @param a1 client address shifted right by ADDR_LSB_BITS.
599 */
600 static __inline__
bm2_lookup_or_insert(struct bitmap * const bm,const UWord a1)601 struct bitmap2* bm2_lookup_or_insert(struct bitmap* const bm, const UWord a1)
602 {
603 struct bitmap2* bm2;
604
605 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
606 tl_assert(bm);
607 #endif
608
609 if (bm_cache_lookup(bm, a1, &bm2))
610 {
611 if (bm2 == 0)
612 {
613 bm2 = bm2_insert(bm, a1);
614 bm2_clear(bm2);
615 }
616 }
617 else
618 {
619 bm2 = VG_(OSetGen_Lookup)(bm->oset, &a1);
620 if (! bm2)
621 {
622 bm2 = bm2_insert(bm, a1);
623 bm2_clear(bm2);
624 }
625 bm_update_cache(bm, a1, bm2);
626 }
627 return bm2;
628 }
629
630 /**
631 * Look up the address a1 in bitmap bm, and insert it if not found.
632 * The returned second level bitmap may be modified.
633 *
634 * @param a1 client address shifted right by ADDR_LSB_BITS.
635 * @param bm bitmap pointer.
636 */
637 static __inline__
bm2_lookup_or_insert_exclusive(struct bitmap * const bm,const UWord a1)638 struct bitmap2* bm2_lookup_or_insert_exclusive(struct bitmap* const bm,
639 const UWord a1)
640 {
641 return bm2_lookup_or_insert(bm, a1);
642 }
643
644 static __inline__
bm2_remove(struct bitmap * const bm,const UWord a1)645 void bm2_remove(struct bitmap* const bm, const UWord a1)
646 {
647 struct bitmap2* bm2;
648
649 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
650 tl_assert(bm);
651 #endif
652
653 bm2 = VG_(OSetGen_Remove)(bm->oset, &a1);
654 VG_(OSetGen_FreeNode)(bm->oset, bm2);
655
656 bm_update_cache(bm, a1, NULL);
657 }
658
659 static __inline__
bm_access_aligned_load(struct bitmap * const bm,const Addr a1,const SizeT size)660 void bm_access_aligned_load(struct bitmap* const bm,
661 const Addr a1, const SizeT size)
662 {
663 struct bitmap2* bm2;
664
665 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
666 tl_assert(bm);
667 #endif
668
669 bm2 = bm2_lookup_or_insert_exclusive(bm, address_msb(a1));
670 bm0_set_range(bm2->bm1.bm0_r,
671 (a1 >> ADDR_IGNORED_BITS) & ADDR_LSB_MASK,
672 SCALED_SIZE(size));
673 }
674
675 static __inline__
bm_access_aligned_store(struct bitmap * const bm,const Addr a1,const SizeT size)676 void bm_access_aligned_store(struct bitmap* const bm,
677 const Addr a1, const SizeT size)
678 {
679 struct bitmap2* bm2;
680
681 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
682 tl_assert(bm);
683 #endif
684
685 bm2 = bm2_lookup_or_insert_exclusive(bm, address_msb(a1));
686 bm0_set_range(bm2->bm1.bm0_w,
687 (a1 >> ADDR_IGNORED_BITS) & ADDR_LSB_MASK,
688 SCALED_SIZE(size));
689 }
690
691 static __inline__
bm_aligned_load_has_conflict_with(struct bitmap * const bm,const Addr a,const SizeT size)692 Bool bm_aligned_load_has_conflict_with(struct bitmap* const bm,
693 const Addr a, const SizeT size)
694 {
695 const struct bitmap2* bm2;
696
697 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
698 tl_assert(bm);
699 #endif
700
701 bm2 = bm2_lookup(bm, address_msb(a));
702 return (bm2
703 && bm0_is_any_set(bm2->bm1.bm0_w,
704 address_lsb(a),
705 SCALED_SIZE(size)));
706 }
707
708 static __inline__
bm_aligned_store_has_conflict_with(struct bitmap * const bm,const Addr a,const SizeT size)709 Bool bm_aligned_store_has_conflict_with(struct bitmap* const bm,
710 const Addr a, const SizeT size)
711 {
712 const struct bitmap2* bm2;
713
714 #ifdef ENABLE_DRD_CONSISTENCY_CHECKS
715 tl_assert(bm);
716 #endif
717
718 bm2 = bm2_lookup(bm, address_msb(a));
719 if (bm2)
720 {
721 if (bm0_is_any_set(bm2->bm1.bm0_r, address_lsb(a), SCALED_SIZE(size))
722 | bm0_is_any_set(bm2->bm1.bm0_w, address_lsb(a), SCALED_SIZE(size)))
723 {
724 return True;
725 }
726 }
727 return False;
728 }
729
730 #endif /* __DRD_BITMAP_H */
731