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/* Project: OSLib
* Description: The OS Construction Kit
* Date: 1.6.2000
* Idea by: Luca Abeni & Gerardo Lamastra
*
* OSLib is an SO project aimed at developing a common, easy-to-use
* low-level infrastructure for developing OS kernels and Embedded
* Applications; it partially derives from the HARTIK project but it
* currently is independently developed.
*
* OSLib is distributed under GPL License, and some of its code has
* been derived from the Linux kernel source; also some important
* ideas come from studying the DJGPP go32 extender.
*
* We acknowledge the Linux Community, Free Software Foundation,
* D.J. Delorie and all the other developers who believe in the
* freedom of software and ideas.
*
* For legalese, check out the included GPL license.
*/
/* Basic Memory Manager Functions:
A classic fixed partition allocator! */
#include <ll/i386/stdlib.h>
#include <ll/i386/string.h>
#include <ll/i386/mem.h>
#include <ll/i386/cons.h>
#include <ll/i386/error.h>
#include <ll/sys/ll/ll-mem.h>
FILE(Memory);
#define MAX_PARTITION 50 /* Max available partition */
static struct {
BYTE used;
#ifdef __WC16__
BYTE __huge *addr;
#else
BYTE *addr;
#endif
DWORD size;
} mem_table[MAX_PARTITION];
void ll_mem_init(void *base, DWORD size)
{
register int i;
mem_table[0].used = 1;
mem_table[0].addr = base;
mem_table[0].size = size;
for (i = 1; i < MAX_PARTITION; i++)
mem_table[i].used = 0;
}
void *ll_alloc(DWORD s)
{
void *p = NULL;
int i = 0;
while (i < MAX_PARTITION && p == NULL) {
if (mem_table[i].used && (mem_table[i].size >= s))
p = mem_table[i].addr;
else
i++;
}
if (p != NULL) {
if (mem_table[i].size > s) {
mem_table[i].size -= s;
mem_table[i].addr += s;
} else
mem_table[i].used = FALSE;
}
return (p);
}
WORD ll_free(void *p, DWORD s)
{
register int i = 1;
unsigned i1 = 0, i2 = 0;
while (i < MAX_PARTITION && ((i1 == 0) || (i2 == 0))) {
if (mem_table[i].used) {
if (mem_table[i].addr + mem_table[i].size == p)
i1 = i;
if (mem_table[i].addr == (BYTE *) (p) + s)
i2 = i;
}
i++;
}
if (i1 != 0 && i2 != 0) {
mem_table[i1].size += mem_table[i2].size + s;
mem_table[i2].used = FALSE;
} else if (i1 == 0 && i2 != 0) {
mem_table[i2].addr = p;
mem_table[i2].size += s;
} else if (i1 != 0 && i2 == 0)
mem_table[i1].size += s;
else {
i = 0;
while (i < MAX_PARTITION && (mem_table[i].used == TRUE))
i++;
if (i == MAX_PARTITION)
return (FALSE);
mem_table[i].addr = p;
mem_table[i].size = s;
mem_table[i].used = TRUE;
}
return (TRUE);
}
void ll_mem_dump(void)
{
register int i;
for (i = 0; i < MAX_PARTITION; i++) {
if (mem_table[i].used)
message("Entry : [%d] Addr : %p Size : %ld\n", i,
mem_table[i].addr, mem_table[i].size);
}
}