2 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
4 * @APPLE_LICENSE_HEADER_START@
6 * The contents of this file constitute Original Code as defined in and
7 * are subject to the Apple Public Source License Version 1.1 (the
8 * "License"). You may not use this file except in compliance with the
9 * License. Please obtain a copy of the License at
10 * http://www.apple.com/publicsource and read it before using this file.
12 * This Original Code and all software distributed under the License are
13 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
14 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
15 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
16 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
17 * License for the specific language governing rights and limitations
20 * @APPLE_LICENSE_HEADER_END@
22 #include <vm/vm_kern.h>
23 #include <kern/queue.h>
26 #include <libsa/malloc.h>
31 /*********************************************************************
32 * I'm not sure this is really necessary....
33 *********************************************************************/
34 static inline size_t round_to_long(size_t size
) {
35 return (size
+ sizeof(long int)) & ~(sizeof(long int) - 1);
39 typedef struct queue_entry queue_entry
;
41 /*********************************************************************
42 * Structure for an allocation region. Each one is created using
43 * kmem_alloc(), and the whole list of these is destroyed by calling
44 * malloc_reset(). Client blocks are allocated from a linked list of these
45 * regions, on a first-fit basis, and are never freed.
46 *********************************************************************/
47 typedef struct malloc_region
{
48 queue_entry links
; // Uses queue.h for linked list
49 vm_size_t region_size
; // total size w/ this bookeeping info
51 queue_entry block_list
; // list of allocated blocks; uses queue.h
53 vm_size_t free_size
; // size of unused area
54 void * free_address
; // points at the unused area
56 char buffer
[0]; // beginning of useable area
60 /*********************************************************************
61 * Structure for a client memory block. Contains linked-list pointers,
62 * a size field giving the TOTAL size of the block, including this
63 * header, and the address of the client's block. The client block
64 * field is guaranteed to lie on a 16-byte boundary.
65 *********************************************************************/
66 typedef struct malloc_block
{
67 queue_entry links
; // Uses queue.h for linked list
68 malloc_region
* region
;
71 #endif /* CLIENT_DEBUG */
72 size_t block_size
; // total size w/ all bookeeping info
74 // the client's memory block
75 char buffer
[0] __attribute__((aligned(16)));
79 /*********************************************************************
82 * malloc_create_region()
83 * size - The size in bytes of the region. This is rounded up
84 * to a multiple of the VM page size.
85 * Returns a pointer to the new region.
87 * malloc_free_region()
88 * region - The region to free.
89 * Returns whatever vm_deallocate() returns.
91 * malloc_create_block_in_region()
92 * region - The region to alloate a block from.
93 * size - The total size, including the header, of the block to
95 * Returns a pointer to the block, or NULL on failure.
98 * address - The address of the client buffer to find a block for.
99 * block (out) - The block header for the address.
100 * region (out) - The region the block was found in, or NULL.
101 *********************************************************************/
102 static malloc_region
* malloc_create_region(vm_size_t size
);
103 static kern_return_t
malloc_free_region(malloc_region
* region
);
104 static malloc_block
* malloc_create_block_in_region(
105 malloc_region
* region
,
107 static void malloc_find_block(
109 malloc_block
** block
,
110 malloc_region
** region
);
111 static void malloc_get_free_block(
113 malloc_block
** block
,
114 malloc_region
** region
);
117 /*********************************************************************
118 * Pointers to the linked list of VM-allocated regions, and a high
119 * water mark used in testing/debugging.
120 *********************************************************************/
121 static queue_entry malloc_region_list
= {
122 &malloc_region_list
, // the "next" field
123 &malloc_region_list
// the "prev" field
126 static queue_entry sorted_free_block_list
= {
127 &sorted_free_block_list
,
128 &sorted_free_block_list
132 static size_t malloc_hiwater_mark
= 0;
133 static long int num_regions
= 0;
135 static size_t current_block_total
= 0;
136 static double peak_usage
= 0.0;
137 static double min_usage
= 100.0;
138 #endif /* CLIENT_DEBUG */
141 /*********************************************************************
143 *********************************************************************/
145 void * malloc(size_t size
) {
147 malloc_region
* cur_region
= NULL
;
148 malloc_region
* use_region
= NULL
;
149 malloc_block
* client_block
= NULL
;
150 void * client_buffer
= NULL
;
152 /* Add the size of the block header to the request size.
154 need_size
= round_to_long(size
+ sizeof(malloc_block
));
157 /* See if there's a previously-freed block that we can reuse.
159 malloc_get_free_block(need_size
,
160 &client_block
, &use_region
);
163 /* If we found a free block that we can reuse, then reuse it.
165 if (client_block
!= NULL
) {
167 /* Remove the found block from the list of free blocks
168 * and tack it onto the list of allocated blocks.
170 queue_remove(&sorted_free_block_list
, client_block
, malloc_block
*, links
);
171 queue_enter(&use_region
->block_list
, client_block
, malloc_block
*, links
);
173 client_buffer
= client_block
->buffer
;
174 // Don't return here! There's bookkeeping done below.
178 /* Didn't find a freed block to reuse. */
180 /* Look for a region with enough unused space to carve out a new block.
182 queue_iterate(&malloc_region_list
, cur_region
, malloc_region
*, links
) {
183 if (use_region
== NULL
&& cur_region
->free_size
>= need_size
) {
184 use_region
= cur_region
;
190 /* If we haven't found a region with room, create a new one and
191 * put it at the end of the list of regions.
193 if (use_region
== NULL
) {
194 use_region
= malloc_create_region(need_size
);
195 if (use_region
== NULL
) {
201 /* Create a new block in the found/created region.
203 client_block
= malloc_create_block_in_region(use_region
, need_size
);
204 if (client_block
!= NULL
) {
205 client_buffer
= client_block
->buffer
;
206 // Don't return here! There's bookkeeping done below.
211 if (client_block
!= NULL
) {
212 size_t region_usage
= malloc_region_usage();
213 double current_usage
;
215 current_block_total
+= client_block
->block_size
;
216 if (region_usage
> 0) {
217 current_usage
= (double)current_block_total
/ (double)malloc_region_usage();
218 if (current_usage
> peak_usage
) {
219 peak_usage
= current_usage
;
222 if (current_usage
< min_usage
) {
223 min_usage
= current_usage
;
227 client_block
->request_size
= size
;
229 #endif /* CLIENT_DEBUG */
231 return client_buffer
;
236 /*********************************************************************
239 * Moves a block from the allocated list to the free list. Neither
240 * list is kept sorted!
241 *********************************************************************/
243 void free(void * address
) {
244 malloc_region
* found_region
= NULL
;
245 malloc_block
* found_block
= NULL
;
246 malloc_block
* cur_block
= NULL
;
248 /* Find the block and region for the given address.
250 malloc_find_block(address
, &found_block
, &found_region
);
252 if (found_block
== NULL
) {
258 /* Remove the found block from the list of allocated blocks
259 * and tack it onto the list of free blocks.
261 queue_remove(&found_region
->block_list
, found_block
, malloc_block
*, links
);
263 found_block
->links
.next
= NULL
;
264 queue_iterate(&sorted_free_block_list
, cur_block
, malloc_block
*, links
) {
265 if (cur_block
->block_size
> found_block
->block_size
) {
266 queue_insert_before(&sorted_free_block_list
, found_block
, cur_block
,
267 malloc_block
*, links
);
273 /* If the "next" link is still NULL, then either the list is empty or the
274 * freed block has to go on the end, so just tack it on.
276 if (found_block
->links
.next
== NULL
) {
277 queue_enter(&sorted_free_block_list
, found_block
, malloc_block
*, links
);
282 current_block_total
-= found_block
->block_size
;
283 #endif /* CLIENT_DEBUG */
290 /*********************************************************************
293 * Walks through the list of VM-allocated regions, destroying them
294 * all. Any subsequent access by clients to allocated data will cause
295 * a segmentation fault.
296 *********************************************************************/
298 void malloc_reset(void) {
299 malloc_region
* cur_region
;
301 while (! queue_empty(&malloc_region_list
)) {
302 kern_return_t kern_result
;
303 queue_remove_first(&malloc_region_list
, cur_region
,
304 malloc_region
*, links
);
305 kern_result
= malloc_free_region(cur_region
);
306 if (kern_result
!= KERN_SUCCESS
) {
307 // what sort of error checking can we even do here?
308 // printf("malloc_free_region() failed.\n");
315 } /* malloc_reset() */
318 /*********************************************************************
321 * This function simply allocates a new block and copies the existing
322 * data into it. Nothing too clever here, as cleanup and efficient
323 * memory usage are not important in this allocator package.
324 *********************************************************************/
326 void * realloc(void * address
, size_t new_client_size
) {
327 malloc_region
* found_region
= NULL
;
328 malloc_block
* found_block
= NULL
;
330 size_t new_block_size
;
331 size_t copy_bytecount
;
334 malloc_find_block(address
, &found_block
, &found_region
);
337 /* If we couldn't find the requested block,
338 * the caller is in error so return NULL.
340 if (found_block
== NULL
) {
341 // printf("realloc() called with invalid block.\n");
347 /* Figure out how much memory is actually needed.
349 new_block_size
= new_client_size
+ sizeof(malloc_block
);
352 /* If the new size is <= the current size, don't bother.
354 if (new_block_size
<= found_block
->block_size
) {
356 if (new_client_size
> found_block
->request_size
) {
357 found_block
->request_size
= new_client_size
;
359 #endif /* CLIENT_DEBUG */
364 /* Create a new block of the requested size.
366 new_address
= malloc(new_client_size
);
368 if (new_address
== NULL
) {
369 // printf("error in realloc()\n");
375 /* Copy the data from the old block to the new one.
376 * Make sure to copy only the lesser of the existing and
377 * requested new size. (Note: The code above currently
378 * screens out a realloc to a smaller size, but it might
379 * not always do that.)
381 copy_bytecount
= found_block
->block_size
- sizeof(malloc_block
);
383 if (new_client_size
< copy_bytecount
) {
384 copy_bytecount
= new_client_size
;
387 memcpy(new_address
, address
, copy_bytecount
);
390 /* Free the old block.
394 return (void *)new_address
;
399 /*********************************************************************
400 **********************************************************************
401 ***** PACKAGE-INTERNAL FUNCTIONS BELOW HERE *****
402 **********************************************************************
403 *********************************************************************/
407 /*********************************************************************
408 * malloc_create_region()
410 * Package-internal function. VM-allocates a new region and adds it to
411 * the given region list.
412 *********************************************************************/
414 malloc_region
* malloc_create_region(vm_size_t block_size
) {
416 malloc_region
* new_region
;
417 vm_address_t vm_address
;
418 vm_size_t region_size
;
419 kern_return_t kern_result
;
422 /* Figure out how big the region needs to be and allocate it.
424 region_size
= block_size
+ sizeof(malloc_region
);
425 region_size
= round_page(region_size
);
427 kern_result
= kmem_alloc(kernel_map
,
428 &vm_address
, region_size
);
430 if (kern_result
!= KERN_SUCCESS
) {
431 // printf("kmem_alloc() failed in malloc_create_region()\n");
437 /* Cast the allocated pointer to a region header.
439 new_region
= (malloc_region
*)vm_address
;
442 /* Initialize the region header fields and link it onto
443 * the previous region.
445 new_region
->region_size
= region_size
;
446 queue_init(&new_region
->block_list
);
447 // queue_init(&new_region->free_list);
449 new_region
->free_size
= region_size
- sizeof(malloc_region
);
450 new_region
->free_address
= &new_region
->buffer
;
452 queue_enter(&malloc_region_list
, new_region
, malloc_region
*, links
);
454 /* If debugging, add the new region's size to the total.
457 malloc_hiwater_mark
+= region_size
;
459 #endif /* CLIENT_DEBUG */
463 } /* malloc_create_region() */
466 /*********************************************************************
467 * malloc_free_region()
469 * Package-internal function. VM-deallocates the given region.
470 *********************************************************************/
472 kern_return_t
malloc_free_region(malloc_region
* region
) {
474 kmem_free(kernel_map
,
475 (vm_address_t
)region
,
476 region
->region_size
);
480 #endif /* CLIENT_DEBUG */
483 } /* malloc_free_region() */
486 /*********************************************************************
487 * malloc_create_block_in_region()
489 * Package-internal function. Allocates a new block out of the given
490 * region. The requested size must include the block header. If the
491 * size requested is larger than the region's free size, returns NULL.
492 *********************************************************************/
494 malloc_block
* malloc_create_block_in_region(
495 malloc_region
* region
,
498 malloc_block
* new_block
= NULL
;
503 if (block_size
> region
->free_size
) {
509 /* Carve out a new block.
511 new_block
= (malloc_block
*)region
->free_address
;
512 region
->free_address
= (char *)region
->free_address
+ block_size
;
513 region
->free_size
-= block_size
;
515 memset(new_block
, 0, sizeof(malloc_block
));
517 new_block
->region
= region
;
518 new_block
->block_size
= block_size
;
520 /* Record the new block as the last one in the region.
522 queue_enter(®ion
->block_list
, new_block
, malloc_block
*, links
);
526 } /* malloc_create_block_in_region() */
529 /*********************************************************************
530 * malloc_find_block()
532 * Package-internal function. Given a client buffer address, find the
533 * malloc_block for it.
534 *********************************************************************/
536 void malloc_find_block(void * address
,
537 malloc_block
** block
,
538 malloc_region
** region
) {
540 malloc_region
* cur_region
;
545 queue_iterate(&malloc_region_list
, cur_region
, malloc_region
*, links
) {
547 malloc_block
* cur_block
;
549 queue_iterate(&cur_region
->block_list
, cur_block
, malloc_block
*, links
) {
550 if (cur_block
->buffer
== address
) {
552 *region
= cur_region
;
560 } /* malloc_find_block() */
563 /*********************************************************************
564 * malloc_get_free_block()
565 *********************************************************************/
567 void malloc_get_free_block(
569 malloc_block
** block
,
570 malloc_region
** region
) {
572 malloc_block
* cur_block
;
573 size_t fit_threshold
= 512;
578 queue_iterate(&sorted_free_block_list
, cur_block
, malloc_block
*, links
) {
580 /* If we find a block large enough, but not too large to waste memory,
581 * pull it out and return it, along with its region.
583 if (cur_block
->block_size
>= size
&&
584 cur_block
->block_size
< (size
+ fit_threshold
)) {
586 queue_remove(&sorted_free_block_list
, cur_block
, malloc_block
*, links
);
588 *region
= cur_block
->region
;