1 /* mm.c - functions for memory manager */
3 * GRUB -- GRand Unified Bootloader
4 * Copyright (C) 2002,2005,2007 Free Software Foundation, Inc.
6 * GRUB is free software: you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation, either version 3 of the License, or
9 * (at your option) any later version.
11 * GRUB is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with GRUB. If not, see <http://www.gnu.org/licenses/>.
21 The design of this memory manager.
23 This is a simple implementation of malloc with a few extensions. These are
26 - memalign is implemented efficiently.
28 - multiple regions may be used as free space. They may not be
31 Regions are managed by a singly linked list, and the meta information is
32 stored in the beginning of each region. Space after the meta information
33 is used to allocate memory.
35 The memory space is used as cells instead of bytes for simplicity. This
36 is important for some CPUs which may not access multiple bytes at a time
37 when the first byte is not aligned at a certain boundary (typically,
38 4-byte or 8-byte). The size of each cell is equal to the size of struct
39 grub_mm_header, so the header of each allocated/free block fits into one
40 cell precisely. One cell is 16 bytes on 32-bit platforms and 32 bytes
43 There are two types of blocks: allocated blocks and free blocks.
45 In allocated blocks, the header of each block has only its size. Note that
46 this size is based on cells but not on bytes. The header is located right
47 before the returned pointer, that is, the header resides at the previous
50 Free blocks constitutes a ring, using a singly linked list. The first free
51 block is pointed to by the meta information of a region. The allocator
52 attempts to pick up the second block instead of the first one. This is
53 a typical optimization against defragmentation, and makes the
54 implementation a bit easier.
56 For safety, both allocated blocks and free ones are marked by magic
57 numbers. Whenever anything unexpected is detected, GRUB aborts the
63 #include <grub/misc.h>
65 #include <grub/types.h>
66 #include <grub/disk.h>
77 #define GRUB_MM_FREE_MAGIC 0x2d3c2808
78 #define GRUB_MM_ALLOC_MAGIC 0x6db08fa4
80 typedef struct grub_mm_header
82 struct grub_mm_header
*next
;
85 #if GRUB_CPU_SIZEOF_VOID_P == 4
87 #elif GRUB_CPU_SIZEOF_VOID_P == 8
90 # error "unknown word size"
95 #if GRUB_CPU_SIZEOF_VOID_P == 4
96 # define GRUB_MM_ALIGN_LOG2 4
97 #elif GRUB_CPU_SIZEOF_VOID_P == 8
98 # define GRUB_MM_ALIGN_LOG2 5
101 #define GRUB_MM_ALIGN (1 << GRUB_MM_ALIGN_LOG2)
103 typedef struct grub_mm_region
105 struct grub_mm_header
*first
;
106 struct grub_mm_region
*next
;
114 static grub_mm_region_t base
;
116 /* Get a header from the pointer PTR, and set *P and *R to a pointer
117 to the header and a pointer to its region, respectively. PTR must
120 get_header_from_pointer (void *ptr
, grub_mm_header_t
*p
, grub_mm_region_t
*r
)
122 if ((grub_addr_t
) ptr
& (GRUB_MM_ALIGN
- 1))
123 grub_fatal ("unaligned pointer %p", ptr
);
125 for (*r
= base
; *r
; *r
= (*r
)->next
)
126 if ((grub_addr_t
) ptr
> (*r
)->addr
127 && (grub_addr_t
) ptr
<= (*r
)->addr
+ (*r
)->size
)
131 grub_fatal ("out of range pointer %p", ptr
);
133 *p
= (grub_mm_header_t
) ptr
- 1;
134 if ((*p
)->magic
!= GRUB_MM_ALLOC_MAGIC
)
135 grub_fatal ("alloc magic is broken at %p", *p
);
138 /* Initialize a region starting from ADDR and whose size is SIZE,
139 to use it as free space. */
141 grub_mm_init_region (void *addr
, grub_size_t size
)
144 grub_mm_region_t r
, *p
, q
;
147 grub_printf ("Using memory for heap: start=%p, end=%p\n", addr
, addr
+ (unsigned int) size
);
150 /* If this region is too small, ignore it. */
151 if (size
< GRUB_MM_ALIGN
* 2)
154 /* Allocate a region from the head. */
155 r
= (grub_mm_region_t
) (((grub_addr_t
) addr
+ GRUB_MM_ALIGN
- 1)
156 & (~(GRUB_MM_ALIGN
- 1)));
157 size
-= (char *) r
- (char *) addr
+ sizeof (*r
);
159 h
= (grub_mm_header_t
) ((char *) r
+ GRUB_MM_ALIGN
);
161 h
->magic
= GRUB_MM_FREE_MAGIC
;
162 h
->size
= (size
>> GRUB_MM_ALIGN_LOG2
);
165 r
->addr
= (grub_addr_t
) h
;
166 r
->size
= (h
->size
<< GRUB_MM_ALIGN_LOG2
);
168 /* Find where to insert this region. Put a smaller one before bigger ones,
169 to prevent fragmentation. */
170 for (p
= &base
, q
= *p
; q
; p
= &(q
->next
), q
= *p
)
171 if (q
->size
> r
->size
)
178 /* Allocate the number of units N with the alignment ALIGN from the ring
179 buffer starting from *FIRST. ALIGN must be a power of two. Return a
180 non-NULL if successful, otherwise return NULL. */
182 grub_real_malloc (grub_mm_header_t
*first
, grub_size_t n
, grub_size_t align
)
184 grub_mm_header_t p
, q
;
186 if ((*first
)->magic
== GRUB_MM_ALLOC_MAGIC
)
189 for (q
= *first
, p
= q
->next
; ; q
= p
, p
= p
->next
)
193 extra
= ((grub_addr_t
) (p
+ 1) >> GRUB_MM_ALIGN_LOG2
) % align
;
195 extra
= align
- extra
;
198 grub_fatal ("null in the ring");
200 if (p
->magic
!= GRUB_MM_FREE_MAGIC
)
201 grub_fatal ("free magic is broken at %p: 0x%x", p
, p
->magic
);
203 if (p
->size
>= n
+ extra
)
205 if (extra
== 0 && p
->size
== n
)
208 p
->magic
= GRUB_MM_ALLOC_MAGIC
;
210 else if (extra
== 0 || p
->size
== n
+ extra
)
215 p
->magic
= GRUB_MM_ALLOC_MAGIC
;
222 r
->magic
= GRUB_MM_FREE_MAGIC
;
223 r
->size
= p
->size
- extra
- n
;
230 p
->magic
= GRUB_MM_ALLOC_MAGIC
;
245 /* Allocate SIZE bytes with the alignment ALIGN and return the pointer. */
247 grub_memalign (grub_size_t align
, grub_size_t size
)
250 grub_size_t n
= ((size
+ GRUB_MM_ALIGN
- 1) >> GRUB_MM_ALIGN_LOG2
) + 1;
253 align
= (align
>> GRUB_MM_ALIGN_LOG2
);
259 for (r
= base
; r
; r
= r
->next
)
263 p
= grub_real_malloc (&(r
->first
), n
, align
);
268 /* If failed, increase free memory somehow. */
272 /* Invalidate disk caches. */
273 grub_disk_cache_invalidate_all ();
278 /* Unload unneeded modules. */
279 grub_dl_unload_unneeded ();
287 grub_error (GRUB_ERR_OUT_OF_MEMORY
, "out of memory");
291 /* Allocate SIZE bytes and return the pointer. */
293 grub_malloc (grub_size_t size
)
295 return grub_memalign (0, size
);
298 /* Deallocate the pointer PTR. */
300 grub_free (void *ptr
)
308 get_header_from_pointer (ptr
, &p
, &r
);
310 if (r
->first
->magic
== GRUB_MM_ALLOC_MAGIC
)
312 p
->magic
= GRUB_MM_FREE_MAGIC
;
313 r
->first
= p
->next
= p
;
323 grub_printf ("%s:%d: q=%p, q->size=0x%x, q->magic=0x%x\n",
324 __FILE__
, __LINE__
, q
, q
->size
, q
->magic
);
327 while (q
!= r
->first
);
330 for (q
= r
->first
; q
>= p
|| q
->next
<= p
; q
= q
->next
)
332 if (q
->magic
!= GRUB_MM_FREE_MAGIC
)
333 grub_fatal ("free magic is broken at %p: 0x%x", q
, q
->magic
);
335 if (q
>= q
->next
&& (q
< p
|| q
->next
> p
))
339 p
->magic
= GRUB_MM_FREE_MAGIC
;
343 if (p
+ p
->size
== p
->next
)
349 p
->size
+= p
->next
->size
;
350 p
->next
= p
->next
->next
;
353 if (q
+ q
->size
== p
)
364 /* Reallocate SIZE bytes and return the pointer. The contents will be
365 the same as that of PTR. */
367 grub_realloc (void *ptr
, grub_size_t size
)
375 return grub_malloc (size
);
383 /* FIXME: Not optimal. */
384 n
= ((size
+ GRUB_MM_ALIGN
- 1) >> GRUB_MM_ALIGN_LOG2
) + 1;
385 get_header_from_pointer (ptr
, &p
, &r
);
390 q
= grub_malloc (size
);
394 grub_memcpy (q
, ptr
, size
);
400 int grub_mm_debug
= 0;
403 grub_mm_dump_free (void)
407 for (r
= base
; r
; r
= r
->next
)
411 /* Follow the free list. */
415 if (p
->magic
!= GRUB_MM_FREE_MAGIC
)
416 grub_fatal ("free magic is broken at %p: 0x%x", p
, p
->magic
);
418 grub_printf ("F:%p:%u:%p\n",
419 p
, (unsigned int) p
->size
<< GRUB_MM_ALIGN_LOG2
, p
->next
);
422 while (p
!= r
->first
);
429 grub_mm_dump (unsigned lineno
)
433 grub_printf ("called at line %u\n", lineno
);
434 for (r
= base
; r
; r
= r
->next
)
438 for (p
= (grub_mm_header_t
) ((r
->addr
+ GRUB_MM_ALIGN
- 1)
439 & (~(GRUB_MM_ALIGN
- 1)));
440 (grub_addr_t
) p
< r
->addr
+ r
->size
;
445 case GRUB_MM_FREE_MAGIC
:
446 grub_printf ("F:%p:%u:%p\n",
447 p
, (unsigned int) p
->size
<< GRUB_MM_ALIGN_LOG2
, p
->next
);
449 case GRUB_MM_ALLOC_MAGIC
:
450 grub_printf ("A:%p:%u\n", p
, (unsigned int) p
->size
<< GRUB_MM_ALIGN_LOG2
);
460 grub_debug_malloc (const char *file
, int line
, grub_size_t size
)
465 grub_printf ("%s:%d: malloc (0x%x) = ", file
, line
, size
);
466 ptr
= grub_malloc (size
);
468 grub_printf ("%p\n", ptr
);
473 grub_debug_free (const char *file
, int line
, void *ptr
)
476 grub_printf ("%s:%d: free (%p)\n", file
, line
, ptr
);
481 grub_debug_realloc (const char *file
, int line
, void *ptr
, grub_size_t size
)
484 grub_printf ("%s:%d: realloc (%p, 0x%x) = ", file
, line
, ptr
, size
);
485 ptr
= grub_realloc (ptr
, size
);
487 grub_printf ("%p\n", ptr
);
492 grub_debug_memalign (const char *file
, int line
, grub_size_t align
,
498 grub_printf ("%s:%d: memalign (0x%x, 0x%x) = ",
499 file
, line
, align
, size
);
500 ptr
= grub_memalign (align
, size
);
502 grub_printf ("%p\n", ptr
);
506 #endif /* MM_DEBUG */