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/*
* malloc.c --- a general purpose kernel memory allocator for Linux.
*
* Written by Theodore Ts'o (tytso@mit.edu), 11/29/91
*
* This routine is written to be as fast as possible, so that it
* can be called from the interrupt level.
*
* Limitations: maximum size of memory we can allocate using this routine
* is 4k, the size of a page in Linux.
*
* The general game plan is that each page (called a bucket) will only hold
* objects of a given size. When all of the object on a page are released,
* the page can be returned to the general free pool. When malloc() is
* called, it looks for the smallest bucket size which will fulfill its
* request, and allocate a piece of memory from that bucket pool.
*
* Each bucket has as its control block a bucket descriptor which keeps
* track of how many objects are in use on that page, and the free list
* for that page. Like the buckets themselves, bucket descriptors are
* stored on pages requested from get_free_page(). However, unlike buckets,
* pages devoted to bucket descriptor pages are never released back to the
* system. Fortunately, a system should probably only need 1 or 2 bucket
* descriptor pages, since a page can hold 256 bucket descriptors (which
* corresponds to 1 megabyte worth of bucket pages.) If the kernel is using
* that much allocated memory, it's probably doing something wrong. :-)
*
* Note: malloc() and free() both call get_free_page() and free_page()
* in sections of code where interrupts are turned off, to allow
* malloc() and free() to be safely called from an interrupt routine.
* (We will probably need this functionality when networking code,
* particularily things like NFS, is added to Linux.) However, this
* presumes that get_free_page() and free_page() are interrupt-level
* safe, which they may not be once paging is added. If this is the
* case, we will need to modify malloc() to keep a few unused pages
* "pre-allocated" so that it can safely draw upon those pages if
* it is called from an interrupt routine.
*
* Another concern is that get_free_page() should not sleep; if it
* does, the code is carefully ordered so as to avoid any race
* conditions. The catch is that if malloc() is called re-entrantly,
* there is a chance that unecessary pages will be grabbed from the
* system. Except for the pages for the bucket descriptor page, the
* extra pages will eventually get released back to the system, though,
* so it isn't all that bad.
*/
#include <linux/kernel.h>
#include <linux/mm.h>
#include <asm/system.h>
struct bucket_desc { /* 16 bytes */
void *page;
struct bucket_desc *next;
void *freeptr;
unsigned short refcnt;
unsigned short bucket_size;
};
struct _bucket_dir { /* 8 bytes */
int size;
struct bucket_desc *chain;
};
/*
* The following is the where we store a pointer to the first bucket
* descriptor for a given size.
*
* If it turns out that the Linux kernel allocates a lot of objects of a
* specific size, then we may want to add that specific size to this list,
* since that will allow the memory to be allocated more efficiently.
* However, since an entire page must be dedicated to each specific size
* on this list, some amount of temperance must be exercised here.
*
* Note that this list *must* be kept in order.
*/
struct _bucket_dir bucket_dir[] = {
{ 16, (struct bucket_desc *) 0},
{ 32, (struct bucket_desc *) 0},
{ 64, (struct bucket_desc *) 0},
{ 128, (struct bucket_desc *) 0},
{ 256, (struct bucket_desc *) 0},
{ 512, (struct bucket_desc *) 0},
{ 1024, (struct bucket_desc *) 0},
{ 2048, (struct bucket_desc *) 0},
{ 4096, (struct bucket_desc *) 0},
{ 0, (struct bucket_desc *) 0}}; /* End of list marker */
/*
* This contains a linked list of free bucket descriptor blocks
*/
struct bucket_desc *free_bucket_desc = (struct bucket_desc *) 0;
/*
* This routine initializes a bucket description page.
*/
static inline void init_bucket_desc()
{
struct bucket_desc *bdesc, *first;
int i;
first = bdesc = (struct bucket_desc *) get_free_page();
if (!bdesc)
panic("Out of memory in init_bucket_desc()");
for (i = PAGE_SIZE/sizeof(struct bucket_desc); i > 1; i--) {
bdesc->next = bdesc+1;
bdesc++;
}
/*
* This is done last, to avoid race conditions in case
* get_free_page() sleeps and this routine gets called again....
*/
bdesc->next = free_bucket_desc;
free_bucket_desc = first;
}
void *malloc(unsigned int len)
{
struct _bucket_dir *bdir;
struct bucket_desc *bdesc;
void *retval;
/*
* First we search the bucket_dir to find the right bucket change
* for this request.
*/
for (bdir = bucket_dir; bdir->size; bdir++)
if (bdir->size >= len)
break;
if (!bdir->size) {
printk("malloc called with impossibly large argument (%d)\n",
len);
panic("malloc: bad arg");
}
/*
* Now we search for a bucket descriptor which has free space
*/
cli(); /* Avoid race conditions */
for (bdesc = bdir->chain; bdesc; bdesc = bdesc->next)
if (bdesc->freeptr)
break;
/*
* If we didn't find a bucket with free space, then we'll
* allocate a new one.
*/
if (!bdesc) {
char *cp;
int i;
if (!free_bucket_desc)
init_bucket_desc();
bdesc = free_bucket_desc;
free_bucket_desc = bdesc->next;
bdesc->refcnt = 0;
bdesc->bucket_size = bdir->size;
bdesc->page = bdesc->freeptr = (void *) (cp = get_free_page());
if (!cp)
panic("Out of memory in kernel malloc()");
/* Set up the chain of free objects */
for (i=PAGE_SIZE/bdir->size; i > 1; i--) {
*((char **) cp) = cp + bdir->size;
cp += bdir->size;
}
*((char **) cp) = 0;
bdesc->next = bdir->chain; /* OK, link it in! */
bdir->chain = bdesc;
}
retval = (void *) bdesc->freeptr;
bdesc->freeptr = *((void **) retval);
bdesc->refcnt++;
sti(); /* OK, we're safe again */
return(retval);
}
/*
* Here is the free routine. If you know the size of the object that you
* are freeing, then free_s() will use that information to speed up the
* search for the bucket descriptor.
*
* We will #define a macro so that "free(x)" is becomes "free_s(x, 0)"
*/
void free_s(void *obj, int size)
{
void *page;
struct _bucket_dir *bdir;
struct bucket_desc *bdesc, *prev;
/* Calculate what page this object lives in */
page = (void *) ((unsigned long) obj & 0xfffff000);
/* Now search the buckets looking for that page */
for (bdir = bucket_dir; bdir->size; bdir++) {
prev = 0;
/* If size is zero then this conditional is always false */
if (bdir->size < size)
continue;
for (bdesc = bdir->chain; bdesc; bdesc = bdesc->next) {
if (bdesc->page == page)
goto found;
prev = bdesc;
}
}
panic("Bad address passed to kernel free_s()");
found:
cli(); /* To avoid race conditions */
*((void **)obj) = bdesc->freeptr;
bdesc->freeptr = obj;
bdesc->refcnt--;
if (bdesc->refcnt == 0) {
/*
* We need to make sure that prev is still accurate. It
* may not be, if someone rudely interrupted us....
*/
if ((prev && (prev->next != bdesc)) ||
(!prev && (bdir->chain != bdesc)))
for (prev = bdir->chain; prev; prev = prev->next)
if (prev->next == bdesc)
break;
if (prev)
prev->next = bdesc->next;
else {
if (bdir->chain != bdesc)
panic("malloc bucket chains corrupted");
bdir->chain = bdesc->next;
}
free_page((unsigned long) bdesc->page);
bdesc->next = free_bucket_desc;
free_bucket_desc = bdesc;
}
sti();
return;
}