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#include <assert.h>
#include <glib.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include <time.h>
#include "block_walker.h"
#include "defs.h"
struct _block_walker {
const char *fib;
const char *fbb;
const char *ipool;
const char *bpool;
uint16_t *indblock_mem;
GList *block_list;
GList *indirect_list;
}PACKED;
uint16_t allocate_block(bwalker *bw);
int free_block(bwalker *bw, uint16_t block);
/* Auxiliares */
uint16_t allocate_block(bwalker *bw)
{
uint16_t result = 0;
uint16_t i = 0;
assert (bw != NULL);
/* Solo queremos desde el segundo inodo para
* que tengamos como error el 0 */
for(i = 1; i < BLOCKPOOL_BLOCKS; i++)
if(GET_BIT(bw->fbb, i) == 0)
{
/* cambiamos el bitmap */
SET_BIT_1((char*)bw->fbb, i);
result = i;
break;
}
/* Tiene que estar seteado a 1 */
assert(GET_BIT(bw->fbb, i) == 1);
return (result);
}
int free_block(bwalker *bw, uint16_t block)
{
char *block_mem = NULL;
assert (bw != NULL);
block_mem = (char *) bw->bpool + (block * BLOCK_SIZE);
/* Chequeamos error */
if (GET_BIT(bw->fbb, block) == 0)
return -1;
SET_BIT_0((char *)bw->fbb, block);
return (0);
}
/* Creacion y destruccion */
bwalker *bwalker_create(const char *base_mem, size_t size, uint16_t *indirect_mem)
{
bwalker *bw = NULL;
unsigned int i = 0;
uint16_t *indirect_ptr;
uint16_t indirect_num = 0;
bw = calloc(1, sizeof(struct _block_walker));
assert (bw != NULL);
bw->fbb = (char *)base_mem + FBB_OFFSET;
bw->fib = (char *)base_mem + FIB_OFFSET;
bw->ipool = (char *)base_mem + INODEPOOL_OFFSET;
bw->bpool = (char *)base_mem + BLOCKPOOL_OFFSET;
bw->indblock_mem = indirect_mem;
bw->block_list = NULL;
bw->indirect_list = NULL;
if (size == 0)
{
/* No hay bloques, no hay nada,
* retornamos aqui */
return (bw);
}
/* Deberia tener al menos un bloque indirecto. */
assert ((*indirect_mem) != 0);
indirect_num = *indirect_mem;
bw->indirect_list = g_list_append (bw->indirect_list,
GUINT_TO_POINTER(indirect_num));
assert(indirect_num == GPOINTER_TO_UINT(bw->indirect_list->data));
indirect_ptr = (uint16_t *) bw->bpool + (BLOCK_SIZE*indirect_num);
while (size > 0)
{
/* Empezamos a meterles bloques */
for(i = 0; i < 255 && size>0; i++)
{
if (indirect_ptr[i] != 0){
bw->block_list = g_list_append (bw->block_list,
GUINT_TO_POINTER(indirect_ptr[i]));
}
if(indirect_ptr[i]==0){
break;
}
if(size > BLOCK_SIZE){
size -= BLOCK_SIZE;
}else{
size = 0;
}
}
if(size != 0 && size>0)
if(indirect_ptr[255] != 0)
{
bw->indirect_list = g_list_append (bw->indirect_list,
GUINT_TO_POINTER(indirect_ptr[255]));
indirect_ptr = (uint16_t *) bw->bpool + (BLOCK_SIZE*indirect_ptr[255]);
}
}
/*assert (g_list_length(bw->indirect_list) > 0);*/
/*assert (*indirect_mem == GPOINTER_TO_UINT(g_list_first(bw->indirect_list)->data));*/
/*assert (g_list_length(bw->indirect_list) > 0);
assert (g_list_length(bw->block_list) > 0);*/
return (bw);
}
void bwalker_destroy (bwalker *bw)
{
assert (bw != NULL);
if(bw->block_list != NULL)
g_list_free(g_list_first(bw->block_list));
if(bw->indirect_list != NULL)
g_list_free(g_list_first(bw->indirect_list));
free(bw);
bw = NULL;
}
uint16_t bwalker_direct_length(bwalker *bw)
{
assert(bw != NULL);
return ((uint16_t) g_list_length(bw->block_list));
}
uint16_t bwalker_indirect_length(bwalker *bw)
{
assert(bw != NULL);
return ((uint16_t) g_list_length(bw->indirect_list));
}
uint16_t bwalker_allocate_block(bwalker *bw)
{
uint16_t block = 0;
uint16_t indirect_block = 0;
uint16_t *buf;
uint16_t i =0 ;
bool no_first_indblock = false;
bool indblk_alloc = false;
assert (bw != NULL);
no_first_indblock = (g_list_length(bw->indirect_list) == 0);
if(no_first_indblock)
goto ALLOCATE_INDBLK;
indirect_block = bwalker_last_indirect(bw);
/* Esto tiene que ser distinto de 0 si o si */
buf = (uint16_t *) bw->bpool + (indirect_block * BLOCK_SIZE);
for(i = 0; i < 255; i++){
if(buf[i] == 0)
goto ALLOCATE_BLOCK;
}
/* Si llegamos aca, aloca un indirecto y encima _no_ es el primero :B */
ALLOCATE_INDBLK:
indirect_block = allocate_block (bw);
assert(indirect_block != 0);
if(!indirect_block)
goto ENOBLK;
if(no_first_indblock)
*(bw->indblock_mem) = indirect_block;
else
{
assert(buf != NULL);
assert(&(buf[255]) == &(buf[i]));
assert(i == 255);
buf[i] = indirect_block;
}
bw->indirect_list = g_list_append(bw->indirect_list, GUINT_TO_POINTER(indirect_block));
i = 0;
indblk_alloc = true;
ALLOCATE_BLOCK:
buf = (uint16_t *) bw->bpool + (indirect_block * BLOCK_SIZE);
block = allocate_block (bw);
if(!block)
{
if(indblk_alloc)
{
free_block(bw,indirect_block);
bw->indirect_list = g_list_remove(bw->indirect_list, GUINT_TO_POINTER(indirect_block));
if(no_first_indblock)
*bw->indblock_mem = 0;
}
goto ENOBLK;
}
buf[i] = block;
bw->block_list = g_list_append(bw->block_list, GUINT_TO_POINTER(block));
assert(block != 0);
return block;
ENOBLK:
return 0;
}
void bwalker_free_block(bwalker *bw)
{
uint16_t list_length_b, list_length_i;
uint16_t *buf = NULL;
uint16_t block = 0;
uint16_t i = 0;
GList *auxlist = NULL;
assert(bw != NULL);
if(g_list_length(bw->block_list) == 0)
return;
list_length_b=g_list_length(bw->block_list);
list_length_i=g_list_length(bw->indirect_list);
/* Aca tenemos que ver si necesitamos deallocar un
* bloque indirecto. */
auxlist = g_list_last(bw->indirect_list);
block = (uint16_t) auxlist->data;
buf = (uint16_t *) bw->bpool + (block*BLOCK_SIZE);
if(!buf[1])
{
/* Dealocamos solamente un bloque. */
for(i=1; buf[i]; i++)
;
block = buf[i-1];
free_block(bw, block);
/*no se actualiza la lista. mirenlo a ver que onda,
* me parecio que era asi, pero no me hace caso*/
bw->block_list=g_list_remove(bw->block_list, g_list_last(bw->block_list)->data);
buf[i-1] = 0;
}
else
{
free_block(bw, buf[0]);
bw->block_list=g_list_remove(bw->block_list, g_list_last(bw->block_list)->data);
buf[0] = 0;
if((auxlist = g_list_previous(auxlist)))
{
block = (uint16_t) auxlist->data;
buf = (uint16_t *) bw->bpool +
(block*BLOCK_SIZE);
free_block(bw, buf[255]);
/*el indirecto == buf[255]???*/
bw->indirect_list=g_list_remove(bw->indirect_list, g_list_last(bw->indirect_list)->data);
buf[255] = 0;
}
else
{
free_block(bw, *bw->indblock_mem);
bw->indirect_list=g_list_remove(bw->indirect_list, bw->indblock_mem);
*bw->indblock_mem = 0;
}
}
}
uint16_t bwalker_next(bwalker *bw)
{
uint16_t result = 0;
assert (bw != NULL);
if(g_list_length(bw->block_list) == 0)
return 0;
if(g_list_length(bw->block_list) == 1){
return (uint16_t)GPOINTER_TO_UINT(bw->block_list->data);
}
if(bw->block_list!=g_list_last(bw->block_list)){
assert(*(bw->indblock_mem)!=GPOINTER_TO_UINT(bw->block_list->data));
result = (uint16_t)GPOINTER_TO_UINT(bw->block_list->data);
bw->block_list = g_list_next(bw->block_list);
}
return (result);
}
uint16_t bwalker_prev(bwalker *bw)
{
uint16_t result = 0;
assert (bw != NULL);
if (bw->block_list != g_list_first(bw->block_list))
{
result = GPOINTER_TO_UINT(bw->block_list->data);
bw->block_list = g_list_previous(bw->block_list);
}
return (result);
}
uint16_t bwalker_last_indirect (bwalker *bw)
{
uint16_t result = 0;
assert(bw != NULL);
assert(g_list_length(bw->indirect_list) > 0);
if(g_list_last(bw->indirect_list))
{
result = (uint16_t)
GPOINTER_TO_UINT(g_list_last(bw->indirect_list)->data);
}
return result;
}
uint16_t bwalker_last_block (bwalker *bw)
{
uint16_t result = 0;
assert (bw != NULL);
if(g_list_last(bw->block_list))
result = GPOINTER_TO_UINT(g_list_last(bw->block_list)->data);
return result;
}
uint16_t bwalker_block_is_last(bwalker *bw)
{
assert(bw != NULL);
return (bw->block_list == g_list_last(bw->block_list));
}
void bwalker_set_first(bwalker *bw)
{
bw->block_list=g_list_first(bw->block_list);
}
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