rtt-f030/finsh/finsh_heap.c

270 lines
6.4 KiB
C

#include <finsh.h>
#include "finsh_var.h"
u_char finsh_heap[FINSH_HEAP_MAX];
struct finsh_block_header
{
u_long length;
struct finsh_block_header* next;
};
#define BLOCK_HEADER(x) (struct finsh_block_header*)(x)
#define finsh_block_get_header(data) (struct finsh_block_header*)((u_char*)data - sizeof(struct finsh_block_header))
#define finsh_block_get_data(header) (u_char*)((struct finsh_block_header*)header + 1)
#define HEAP_ALIGN_SIZE(size) (((size) + HEAP_ALIGNMENT - 1) & ~(HEAP_ALIGNMENT-1))
static struct finsh_block_header* free_list;
static struct finsh_block_header* allocate_list;
static void finsh_heap_gc(void);
static void finsh_block_insert(struct finsh_block_header** list, struct finsh_block_header* header);
static void finsh_block_remove(struct finsh_block_header** list, struct finsh_block_header* header);
static void finsh_block_split(struct finsh_block_header* header, size_t size);
static void finsh_block_merge(struct finsh_block_header** list, struct finsh_block_header* header);
int finsh_heap_init()
{
/* clear heap to zero */
memset(&finsh_heap[0], 0, sizeof(finsh_heap));
/* init free and alloc list */
free_list = BLOCK_HEADER(&finsh_heap[0]);
free_list->length = FINSH_HEAP_MAX - sizeof(struct finsh_block_header);
free_list->next = NULL;
allocate_list = NULL;
return 0;
}
/**
* allocate a block from heap
*/
void* finsh_heap_allocate(size_t size)
{
struct finsh_block_header* header;
size = HEAP_ALIGN_SIZE(size);
/* find the first fit block */
for (header = free_list;
((header != NULL) && (header->length <= size + sizeof(struct finsh_block_header)));
header = header->next) ;
if (header == NULL)
{
finsh_heap_gc();
/* find the first fit block */
for (header = free_list;
((header != NULL) && (header->length < size + sizeof(struct finsh_block_header)));
header = header->next) ;
/* there is no memory */
if (header == NULL) return NULL;
}
/* split block */
finsh_block_split(header, size);
/* remove from free list */
finsh_block_remove(&free_list, header);
header->next = NULL;
/* insert to allocate list */
finsh_block_insert(&allocate_list, header);
memset(finsh_block_get_data(header), 0, size);
return finsh_block_get_data(header);
}
/**
* release the allocated block
*/
void finsh_heap_free(void*ptr)
{
struct finsh_block_header* header;
/* get block header */
header = finsh_block_get_header(ptr);
/* remove from allocate list */
finsh_block_remove(&allocate_list, header);
/* insert to free list */
finsh_block_insert(&free_list, header);
finsh_block_merge(&free_list, header);
}
/**
* garbage collector
*/
static void finsh_heap_gc(void)
{
int i;
struct finsh_block_header *header, *temp;
temp = NULL;
/* find the first fit block */
for (header = allocate_list; header != NULL; )
{
for (i = 0; i < FINSH_VARIABLE_MAX; i ++)
{
if (global_variable[i].type != finsh_type_unknown)
{
if (global_variable[i].value.ptr == finsh_block_get_data(header))
break;
}
}
temp = header;
header = header->next;
/* this block is an unused block, release it */
if (i == FINSH_VARIABLE_MAX)
{
finsh_heap_free(finsh_block_get_data(temp));
}
}
}
/**
* insert a block to list
*/
void finsh_block_insert(struct finsh_block_header** list, struct finsh_block_header* header)
{
struct finsh_block_header* node;
if (*list == NULL)
{
*list = header;
return;
}
/* find out insert point */
node = *list;
if (node > header)
{
/* insert node in the header of list */
header->next = node;
*list = header;
return;
}
else
{
for (node = *list; node; node = node->next)
{
if (node->next > header) break;
if (node->next == NULL) break;
}
}
/* insert node */
if (node->next != NULL) header->next = node->next;
node->next = header;
}
/**
* remove block from list
*/
void finsh_block_remove(struct finsh_block_header** list, struct finsh_block_header* header)
{
struct finsh_block_header* node;
node = *list;
if (node == header)
{
/* remove list header */
*list = header->next;
header->next = NULL;
return;
}
for (node = *list; node != NULL; node = node->next)
{
if (node->next == header)
{
node->next = header->next;
break;
}
}
}
/**
* split block
*/
void finsh_block_split(struct finsh_block_header* header, size_t size)
{
struct finsh_block_header* next;
/*
* split header into two node:
* header->next->...
*/
next = BLOCK_HEADER((u_char*)header + sizeof(struct finsh_block_header) + size);
next->length = header->length - sizeof(struct finsh_block_header) - size;
header->length = size;
next->next = header->next;
header->next = next;
}
void finsh_block_merge(struct finsh_block_header** list, struct finsh_block_header* header)
{
struct finsh_block_header* prev_node;
struct finsh_block_header* next_node;
next_node = header->next;
if (*list == header) prev_node = NULL;
else
{
/* find out the previous header */
for (prev_node = *list; prev_node; prev_node =prev_node->next)
{
if (prev_node->next == header)
break;
}
}
/* try merge node */
/* merge to previous node */
if (prev_node != NULL &&
((u_char*)prev_node + prev_node->length + sizeof(struct finsh_block_header)
== (u_char*)header))
{
/* is it close to next node? */
if ((next_node != NULL) &&
((u_char*)header + header->length + sizeof(struct finsh_block_header)
== (u_char*)next_node))
{
/* merge three node */
prev_node->length += header->length + next_node->length +
2 * sizeof(struct finsh_block_header);
prev_node->next = next_node->next;
}
else
{
prev_node->length += header->length + sizeof(struct finsh_block_header);
prev_node->next = header->next;
}
}
else /* merge to last node */
if ( (next_node != NULL) &&
((u_char*)header + header->length + sizeof(struct finsh_block_header)
== (u_char*)next_node))
{
header->length += next_node->length + sizeof(struct finsh_block_header);
header->next = next_node->next;
}
}