static ssize_t block_ce_count_show(struct kobject *kobj,
struct attribute *attr, char *data)
{
struct edac_device_block *block = to_block(kobj);
return sprintf(data, "%u\n", block->counters.ce_count);
}
bool dmalloc_init() {
/* Two choices:
* 1. Append prologue and epilogue blocks to the start and the end of the freelist
* 2. Initialize freelist pointers to NULL
*
* Note: We provide the code for 2. Using 1 will help you to tackle the
* corner cases succinctly.
*/
is_init = true;
size_t max_bytes = ALIGN(MAX_HEAP_SIZE);
int i = 0;
for (i = 0; i < ARRAY_SIZE; i++) {
freelist_arr[i] = NULL;
}
metadata_t *fl = (metadata_t*) sbrk(max_bytes); // returns heap_region, which is initialized to freelist
heap_begin = fl;
/* Q: Why casting is used? i.e., why (void*)-1? */
if (fl == (void *)-1)
return false;
//prologue block
footer_t* prologue = (footer_t *)fl;
set_size((metadata_t *)prologue, 0);
set_alloc((metadata_t *)prologue);
//epilogue block
metadata_t* epilogue = (metadata_t *)((void *)fl + max_bytes - META_SIZE);
set_size(epilogue, 0);
set_alloc(epilogue);
//freelist
fl = (metadata_t *)((void *)fl + FOOTER_SIZE);
set_size(fl, max_bytes - 2 * META_SIZE - 2 * FOOTER_SIZE);
set_free(fl);
set_size((metadata_t *)to_footer(to_block(fl)), meta_size(fl));
set_free((metadata_t *)to_footer(to_block(fl)));
fl->next = NULL;
fl->prev = NULL;
add_node(fl);
return true;
}
metadata_t * extend_heap(size_t space) {
int numchunk = (space + META_SIZE + FOOTER_SIZE) / CHUNK_SIZE;
if ((space + META_SIZE + FOOTER_SIZE) % CHUNK_SIZE > 0) {
numchunk += 1;
}
size_t space_a = numchunk * CHUNK_SIZE;
void *last_brk = sbrk(space_a);
if (errno == ENOMEM) {
printf("no room for extending heap\n");
return NULL;
}
metadata_t *epilogue = to_meta(last_brk + space_a);
epilogue->prev = NULL;
epilogue->next = NULL;
set_alloc(epilogue);
metadata_t *start = to_meta(last_brk);
start->prev = NULL;
start->next = NULL;
set_free(start);
set_size(start, space_a - META_SIZE - FOOTER_SIZE);
footer_t *end = to_footer(to_block(start));
set_free((metadata_t *)end);
set_size((metadata_t *)end, space_a - META_SIZE - FOOTER_SIZE);
//add_node(start);
bool left_f = is_free((metadata_t *)((void *)start - FOOTER_SIZE));
if (left_f) {
//process the linked list
//change the size of two blocks
void *ptr = to_block(start);
delete_node(to_meta(left_block(ptr)));
int left_size = block_size(left_block(ptr));
int new_size = left_size + FOOTER_SIZE + META_SIZE + block_size(ptr);
set_size(to_meta(left_block(ptr)), new_size);
set_size((metadata_t *)to_footer(ptr), new_size);
set_free(to_meta(left_block(ptr)));
set_free((metadata_t *)to_footer(ptr));
start = to_meta(left_block(ptr));
// add_node(to_meta(left_block(ptr)));
}
add_node(start);
return start;
}
static void edac_device_ctrl_block_release(struct kobject *kobj)
{
struct edac_device_block *block;
debugf1("%s()\n", __func__);
block = to_block(kobj);
kobject_put(&block->instance->ctl->kobj);
}
/* DEVICE block kobject release() function */
static void edac_device_ctrl_block_release(struct kobject *kobj)
{
struct edac_device_block *block;
debugf1("%s()\n", __func__);
/* get the container of the kobj */
block = to_block(kobj);
/* map from 'block kobj' to 'block->instance->controller->main_kobj'
* now 'release' the block kobject
*/
kobject_put(&block->instance->ctl->kobj);
}
void* dmalloc(size_t numbytes, int flag) {
if(!is_init) { //Initialize through sbrk call first time
if(!dmalloc_init()) {
return NULL;
}
}
assert(numbytes > 0);
/* Your code goes here */
size_t space = ALIGN(numbytes);
// go over the linked list, find the first fit
//metadata_t* flpt = freelist;
metadata_t* flpt = find_fit(space, flag);
if (!flpt) {
//return NULL;
if (!(flpt = extend_heap(space))) {
printf("extend heap failed! \n");
return NULL;
}
}
size_t rest = meta_size(flpt) - space;
delete_node(flpt);
if (rest < ALIGN(META_SIZE + FOOTER_SIZE + 1)) {
set_alloc(flpt);
set_alloc((metadata_t *)(to_footer(to_block(flpt))));
}
else {
rest = rest - META_SIZE - FOOTER_SIZE;
set_size(flpt, space);
set_alloc(flpt);
set_size((metadata_t *)(to_footer(to_block(flpt))), space);
set_alloc((metadata_t *)(to_footer(to_block(flpt))));
metadata_t* newmt = (metadata_t *)((void *)flpt + META_SIZE + space + FOOTER_SIZE);
set_size(newmt, rest);
set_free(newmt);
set_size((metadata_t *)to_footer(to_block(newmt)), rest);
set_free((metadata_t *)to_footer(to_block(newmt)));
add_node(newmt);
}
void * result = to_block(flpt);
assert(result != NULL);
if (!result) {
int a = 1;
}
return result;
}
typename br::value_at_key<Map,bf::pair<Key1,Key2>>::type::Matrix&
at_h(Map& h, const ttt::Indice<Key1>& indice, const ttt::Indice<bf::pair<Key2,Key1>>& isparse)
{
return to_block(bf::at_key<bf::pair<Key1,Key2>>(h),indice,isparse);
}
typename br::value_at_key<Map,bf::pair<Key,Key>>::type::Matrix&
at_h(Map& h, const ttt::Indice<Key>& indice)
{
return to_block(bf::at_key<bf::pair<Key,Key>>(h),indice,0);
}
