messages are now added to the data_list

This commit is contained in:
n07070 2020-04-28 19:36:30 +02:00
parent 956b249259
commit 88e15dea3a

View File

@ -219,22 +219,6 @@ int add_data(unsigned char len, int64_t id, int16_t seqno, char *data) {
// If id is the same as this node's id then we only update seqno
if(id == NODE_ID) {
// pub_data *node_data = get_data(NODE_ID);
//
// if (node_data == NULL) {
// if (datagram == NULL) {
// data_list = (list*) malloc(sizeof(list));
// }
// data_list->data = (void*) new_data;
// data_list->next = NULL;
// }
//
// if(seqno >= node_data->seqno) {
// node_data->seqno = seqno ^ 1;
// }
//
// return 1;
// We create our pub_data.
pub_data * message = malloc(sizeof(struct pub_data));
message->length = len;
@ -243,103 +227,101 @@ int add_data(unsigned char len, int64_t id, int16_t seqno, char *data) {
message->data = data;
// If the data list has never been used, or is empty ( same thing )
if (data_list = NULL) {
data_list = (list*) malloc(sizeof(list));
} else {
// Otherwise, we move until the last element of the dala_list,
// and add or data there.
// We use a temporary address to avoid writing to the static list.
// Seems weird but ok.
list *tmp = data_list;
while(tmp->next != NULL){
tmp = tmp->next;
}
// We create the next node of the linked list.
list * new_node = malloc(sizeof(struct list));
new_node->data = (void *) message;
// Adding the message to the list.
tmp->next = (void *) new_node;
if (data_list == NULL) {
data_list = (list*) malloc(sizeof(struct list));
}
// we move until the last element of the dala_list,
// and add or data there.
// We use a temporary address to avoid writing to the static list.
// Seems weird but ok.
list *tmp = data_list;
while(tmp->next != NULL){
tmp = tmp->next;
}
} else {
// We create the next node of the linked list.
list * new_node = malloc(sizeof(struct list));
new_node->data = (void *) message;
// Adding the message to the list.
tmp->next = (void *) new_node;
return 1;
} else {
// Copy data
pub_data *new_data = copy_data(len, id, seqno, data);
if(data_list == NULL) {
// Update list
data_list = (list*) malloc(sizeof(list));
data_list->data = (void*) new_data;
data_list->next = NULL;
return 2;
}
// Find correct position for new data
list *tmp = data_list;
list *last = NULL;
list *new_node;
int64_t cur_id;
while(tmp != NULL) {
cur_id = ((pub_data*) tmp->data)->id;
// If id is smaller than cur_id then the new data has to be added at this position
if(id < cur_id) {
// If last hasn't been set then the new data becomes the head of the list
if(last == NULL) {
// Update list
data_list = (list*) malloc(sizeof(list));
data_list->data = (void*) new_data;
data_list->next = tmp;
return 2;
}
// Else, we update the last node
new_node = (list*) malloc(sizeof(list));
new_node->data = (void*) new_data;
new_node->next = tmp;
last->next = new_node;
return 1;
} else if(id == cur_id) {
// If data already exists for this id then we update it if it's seqno is greater than the one stored
pub_data *cur_data = (pub_data*) tmp->data;
if(seqno > cur_data->seqno) {
// Updata data
tmp->data = (void*) new_data;
// Free old data
free(cur_data);
return 2;
}
// seqno is smaller so the new data allocated is freed and nothing else is done
free(new_data);
return 2;
}
// Get next node in list
last = tmp;
tmp = tmp->next;
}
// If no correct position was found then the new data has to be added at the end of the list
// Update list
new_node = (list*) malloc(sizeof(list));
new_node->data = (void*) new_data;
new_node->next = NULL;
last->next = new_node;
return 3;
}
// Copy data
pub_data *new_data = copy_data(len, id, seqno, data);
if(data_list == NULL) {
// Update list
data_list = (list*) malloc(sizeof(list));
data_list->data = (void*) new_data;
data_list->next = NULL;
return 2;
}
// Find correct position for new data
list *tmp = data_list;
list *last = NULL;
list *new_node;
int64_t cur_id;
while(tmp != NULL) {
cur_id = ((pub_data*) tmp->data)->id;
// If id is smaller than cur_id then the new data has to be added at this position
if(id < cur_id) {
// If last hasn't been set then the new data becomes the head of the list
if(last == NULL) {
// Update list
data_list = (list*) malloc(sizeof(list));
data_list->data = (void*) new_data;
data_list->next = tmp;
return 2;
}
// Else, we update the last node
new_node = (list*) malloc(sizeof(list));
new_node->data = (void*) new_data;
new_node->next = tmp;
last->next = new_node;
return 1;
} else if(id == cur_id) {
// If data already exists for this id then we update it if it's seqno is greater than the one stored
pub_data *cur_data = (pub_data*) tmp->data;
if(seqno > cur_data->seqno) {
// Updata data
tmp->data = (void*) new_data;
// Free old data
free(cur_data);
return 2;
}
// seqno is smaller so the new data allocated is freed and nothing else is done
free(new_data);
return 2;
}
// Get next node in list
last = tmp;
tmp = tmp->next;
}
// If no correct position was found then the new data has to be added at the end of the list
// Update list
new_node = (list*) malloc(sizeof(list));
new_node->data = (void*) new_data;
new_node->next = NULL;
last->next = new_node;
return 3;
}
/* ---- Fin fonctions utilitaires ---- */