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gerrit.named-data.net / NLSR / 4f85aab26342ead2dd445eea2049481515deb94c / . / nlsr_adl.c
blob: 947d5ac805e29a04c0e4e0a19e477c3ecbde8174 [file] [log] [blame]
#include<stdio.h>
#include<string.h>
#include<stdlib.h>
#include<math.h>
#include <unistd.h>
#include <getopt.h>
#include <sys/time.h>
#include <assert.h>
#ifdef HAVE_CONFIG_H
#include <config.h>
#include <sys/socket.h>
#include <netdb.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#endif
#include <ccn/ccn.h>
#include <ccn/uri.h>
#include <ccn/keystore.h>
#include <ccn/signing.h>
#include <ccn/schedule.h>
#include <ccn/hashtb.h>
#include "nlsr.h"
#include "nlsr_npl.h"
#include "nlsr_adl.h"
#include "utility.h"
#include "nlsr_npt.h"
void
add_nbr_to_adl(struct name_prefix *new_nbr,int face,char *ip)
{
struct ndn_neighbor *nbr;//=(struct ndn_neighbor *)malloc(sizeof(struct ndn_neighbor )); //free
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
int res;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, new_nbr->name, new_nbr->length, 0);
if(res == HT_NEW_ENTRY )
{
nbr = e->data;
nbr->neighbor=(struct name_prefix *)malloc(sizeof( struct name_prefix )); //free
nbr->neighbor->name=(char *)malloc(new_nbr->length);
memcpy(nbr->neighbor->name,new_nbr->name,new_nbr->length);
nbr->neighbor->length=new_nbr->length;
nbr->face=face;
nbr->status=NBR_DOWN;
nbr->info_interest_timed_out=0;
nbr->lsdb_interest_timed_out=0;
nbr->lsdb_random_time_component=(int)(LSDB_SYNCH_INTERVAL/2);
nbr->lsdb_synch_interval=LSDB_SYNCH_INTERVAL;
nbr->metric=LINK_METRIC;
nbr->is_lsdb_send_interest_scheduled=0;
nbr->ip_address=(char *)malloc(strlen(ip)+1);
memset(nbr->ip_address,0,strlen(ip)+1);
memcpy(nbr->ip_address,ip,strlen(ip));
char *time_stamp=(char *)malloc(20);
get_current_timestamp_micro(time_stamp);
nbr->last_lsdb_version=(char *)malloc(strlen(time_stamp)+1); //free
memcpy(nbr->last_lsdb_version,time_stamp,strlen(time_stamp)+1);
memset(nbr->last_lsdb_version,'0',strlen(time_stamp));
nbr->last_info_version=(char *)malloc(strlen(time_stamp)+1); //free
memcpy(nbr->last_info_version,time_stamp,strlen(time_stamp)+1);
memset(nbr->last_info_version,'0',strlen(time_stamp));
free(time_stamp);
nbr->last_lsdb_requested=0;
}
hashtb_end(e);
}
void
print_adjacent(struct ndn_neighbor *nbr)
{
if ( nlsr->debugging )
{
printf("print_adjacent called\n");
printf("--------Neighbor---------------------------\n");
printf(" Neighbor: %s \n",nbr->neighbor->name);
printf(" Length : %d \n",nbr->neighbor->length);
printf(" Ip Address: %s \n",nbr->ip_address);
printf(" Face : %d \n",nbr->face);
printf(" Metric : %d \n",nbr->metric);
printf(" Status : %d \n",nbr->status);
printf(" LSDB Version: %s \n",nbr->last_lsdb_version);
printf(" Info Version: %s \n",nbr->last_info_version);
printf(" Info Interest Timed Out : %d \n",nbr->info_interest_timed_out);
printf(" LSDB Interest Timed Out : %d \n",nbr->lsdb_interest_timed_out);
printf(" LSDB Synch Interval : %ld \n",nbr->lsdb_synch_interval);
printf(" LSDB Random Time comp : %d \n",nbr->lsdb_random_time_component);
printf(" Las Time LSDB Requested: %ld \n",nbr->last_lsdb_requested);
printf(" IS_lsdb_send_interest_scheduled : %d \n",nbr->is_lsdb_send_interest_scheduled);
printf("\n");
}
if ( nlsr->detailed_logging )
{
writeLogg(__FILE__,__FUNCTION__,__LINE__,"print_adjacent called\n");
writeLogg(__FILE__,__FUNCTION__,__LINE__,"--------Neighbor---------------------------\n");
writeLogg(__FILE__,__FUNCTION__,__LINE__," Neighbor: %s \n",nbr->neighbor->name);
writeLogg(__FILE__,__FUNCTION__,__LINE__," Length : %d \n",nbr->neighbor->length);
writeLogg(__FILE__,__FUNCTION__,__LINE__," Face : %d \n",nbr->face);
writeLogg(__FILE__,__FUNCTION__,__LINE__," Metric : %d \n",nbr->metric);
writeLogg(__FILE__,__FUNCTION__,__LINE__," Status : %d \n",nbr->status);
writeLogg(__FILE__,__FUNCTION__,__LINE__," LSDB Version: %s \n",nbr->last_lsdb_version);
writeLogg(__FILE__,__FUNCTION__,__LINE__," Info Version: %s \n",nbr->last_info_version);
writeLogg(__FILE__,__FUNCTION__,__LINE__," Info Interest Timed Out : %d \n",nbr->info_interest_timed_out);
writeLogg(__FILE__,__FUNCTION__,__LINE__," LSDB Interest Timed Out : %d \n",nbr->lsdb_interest_timed_out);
writeLogg(__FILE__,__FUNCTION__,__LINE__," LSDB Synch Interval : %ld \n",nbr->lsdb_synch_interval);
writeLogg(__FILE__,__FUNCTION__,__LINE__," LSDB Random Time comp : %d \n",nbr->lsdb_random_time_component);
writeLogg(__FILE__,__FUNCTION__,__LINE__," Las Time LSDB Requested: %ld \n",nbr->last_lsdb_requested);
writeLogg(__FILE__,__FUNCTION__,__LINE__," IS_lsdb_send_interest_scheduled : %d \n",nbr->is_lsdb_send_interest_scheduled);
writeLogg(__FILE__,__FUNCTION__,__LINE__,"\n");
}
}
void
print_adjacent_from_adl(void)
{
if ( nlsr->debugging )
printf("print_adjacent_from_adl called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"print_adjacent_from_adl called \n");
int i, adl_element;
struct ndn_neighbor *nbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
adl_element=hashtb_n(nlsr->adl);
for(i=0;i<adl_element;i++)
{
nbr=e->data;
print_adjacent(nbr);
hashtb_next(e);
}
hashtb_end(e);
}
int
get_adjacent_status(struct name_prefix *nbr)
{
if ( nlsr->debugging )
printf("get_adjacent_status called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_adjacent_status called \n");
int res;
int status=-1;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
status=nnbr->status;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return status;
}
int
get_timed_out_number(struct name_prefix *nbr)
{
if ( nlsr->debugging )
printf("get_timed_out_number called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_timed_out_number called \n");
int res,ret=-1;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
ret=nnbr->info_interest_timed_out;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return ret;
}
int
get_lsdb_interest_timed_out_number(struct name_prefix *nbr)
{
if ( nlsr->debugging )
printf("get_lsdb_interest_timed_out_number called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_lsdb_interest_timed_out_number called \n");
int res,ret=-1;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
ret=nnbr->lsdb_interest_timed_out;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return ret;
}
void
update_adjacent_timed_out_to_adl(struct name_prefix *nbr, int increment)
{
if ( nlsr->debugging )
printf("update_adjacent_timed_out_to_adl called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_adjacent_timed_out_to_adl called \n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
nnbr->info_interest_timed_out += increment;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
void
update_adjacent_timed_out_zero_to_adl(struct name_prefix *nbr)
{
if ( nlsr->debugging )
printf("update_adjacent_timed_out_zero_to_adl called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_adjacent_timed_out_zero_to_adl called \n");
int time_out_number=get_timed_out_number(nbr);
update_adjacent_timed_out_to_adl(nbr,-time_out_number);
}
void
update_lsdb_interest_timed_out_to_adl(struct name_prefix *nbr, int increment)
{
if ( nlsr->debugging )
printf("update_lsdb_interest_timed_out_to_adl called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_lsdb_interest_timed_out_to_adl called \n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
nnbr->lsdb_interest_timed_out += increment;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
void
update_lsdb_interest_timed_out_zero_to_adl(struct name_prefix *nbr)
{
if ( nlsr->debugging )
printf("update_adjacent_timed_out_zero_to_adl called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_adjacent_timed_out_zero_to_adl called\n");
int time_out_number=get_lsdb_interest_timed_out_number(nbr);
update_lsdb_interest_timed_out_to_adl(nbr,-time_out_number);
}
void
update_adjacent_status_to_adl(struct name_prefix *nbr, int status)
{
if ( nlsr->debugging )
printf("update_adjacent_status_to_adl called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_adjacent_status_to_adl called \n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
if ( nnbr->status!=status )
{
nnbr->status=status;
nlsr->adj_build_flag++;
}
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
void
delete_nbr_from_adl(struct name_prefix *nbr)
{
if ( nlsr->debugging )
printf("delete_nbr_from_adl called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"delete_nbr_from_adl called \n");
int res;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if (res == HT_OLD_ENTRY)
{
hashtb_delete(e);
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
void
update_lsdb_synch_interval_to_adl(struct name_prefix *nbr, long int interval)
{
if ( nlsr->debugging )
printf("update_lsdb_synch_interval_to_adl called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_lsdb_synch_interval_to_adl called \n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
if ( nnbr->lsdb_synch_interval!= interval )
{
nnbr->lsdb_synch_interval=interval;
nnbr->lsdb_random_time_component=(int)(interval/2);
}
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
int
no_active_nbr(void)
{
int i, adl_element;
int no_link=0;
struct ndn_neighbor *nbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
adl_element=hashtb_n(nlsr->adl);
for(i=0;i<adl_element;i++)
{
nbr=e->data;
if( nbr->status == 1 )
no_link++;
hashtb_next(e);
}
hashtb_end(e);
return no_link;
}
int
is_adj_lsa_build(void)
{
int ret=0;
int nbr_count=0;
int i, adl_element;
struct ndn_neighbor *nbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
adl_element=hashtb_n(nlsr->adl);
for(i=0;i<adl_element;i++)
{
nbr=e->data;
if(nbr->status == 1 )
{
nbr_count++;
}
else if ( (nbr->status == 0) && (nbr->info_interest_timed_out >= nlsr->interest_retry || nbr->lsdb_interest_timed_out >= nlsr->interest_retry))
{
nbr_count++;
}
hashtb_next(e);
}
hashtb_end(e);
if(nbr_count == adl_element)
ret=1;
return ret;
}
void
get_active_nbr_adj_data(struct ccn_charbuf *c)
{
int i, adl_element;
struct ndn_neighbor *nbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
adl_element=hashtb_n(nlsr->adl);
for(i=0;i<adl_element;i++)
{
nbr=e->data;
if( nbr->status == 1 )
{
ccn_charbuf_append_string(c,nbr->neighbor->name);
ccn_charbuf_append_string(c,"|");
char *temp_length=(char *)malloc(20);
memset(temp_length,0,20);
sprintf(temp_length,"%d",nbr->neighbor->length);
ccn_charbuf_append_string(c,temp_length);
free(temp_length);
ccn_charbuf_append_string(c,"|");
/*char *temp_face=(char *)malloc(20);
memset(temp_face,0,20);
sprintf(temp_face,"%d",nbr->face);
ccn_charbuf_append_string(c,temp_face);
free(temp_face);
ccn_charbuf_append_string(c,"|");
*/
char *temp_metric=(char *)malloc(20);
memset(temp_metric,0,20);
sprintf(temp_metric,"%d",nbr->metric);
ccn_charbuf_append_string(c,temp_metric);
free(temp_metric);
ccn_charbuf_append_string(c,"|");
}
hashtb_next(e);
}
hashtb_end(e);
}
long int
get_nbr_time_diff_lsdb_req(char *nbr)
{
if ( nlsr->debugging )
printf("get_nbr_time_diff_lsdb_req called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_nbr_time_diff_lsdb_req called\n");
long int time_diff=get_lsdb_synch_interval(nbr)+1;
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
if (nnbr->last_lsdb_requested == 0)
time_diff=get_lsdb_synch_interval(nbr)+1;
else time_diff=get_current_time_sec() - get_nbr_last_lsdb_requested(nbr);
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return time_diff;
}
long int
get_nbr_last_lsdb_requested(char *nbr)
{
if ( nlsr->debugging )
printf("get_timed_out_number called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_timed_out_number called\n");
long int last_lsdb_requested=0;
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
last_lsdb_requested=nnbr->last_lsdb_requested;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return last_lsdb_requested;
}
int
get_nbr_random_time_component(char *nbr)
{
if ( nlsr->debugging )
printf("get_nbr_random_time_component called\n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_nbr_random_time_component called\n");
int time=0;
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
time=nnbr->lsdb_random_time_component * (int)pow(-1,nnbr->lsdb_interest_timed_out+1);
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return time;
}
long int
get_lsdb_synch_interval(char *nbr)
{
if ( nlsr->debugging )
printf("get_lsdb_synch_interval called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_lsdb_synch_interval called \n");
long int lsdb_synch_interval=300;
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
lsdb_synch_interval=nnbr->lsdb_synch_interval;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return lsdb_synch_interval;
}
char *
get_nbr_lsdb_version(char *nbr)
{
if ( nlsr->debugging )
printf("get_nbr_lsdb_version called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"get_nbr_lsdb_version called \n");
char *version=NULL;
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
version=(char *)malloc(strlen(nnbr->last_lsdb_version)+1);
memset(version,0,strlen(nnbr->last_lsdb_version)+1);
memcpy(version,nnbr->last_lsdb_version,strlen(nnbr->last_lsdb_version)+1);
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return version;
}
void
update_adjacent_last_lsdb_requested_to_adl(char *nbr, long int timestamp)
{
if ( nlsr->debugging )
printf("update_adjacent_last_lsdb_requested_to_adl called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_adjacent_last_lsdb_requested_to_adl called \n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
nnbr->last_lsdb_requested=timestamp;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
void
set_is_lsdb_send_interest_scheduled_to_zero(char *nbr)
{
if ( nlsr->debugging )
printf("set_is_lsdb_send_interest_scheduled_to_zero called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"set_is_lsdb_send_interest_scheduled_to_zero called\n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if (res == HT_OLD_ENTRY)
{
nnbr=e->data;
nnbr->is_lsdb_send_interest_scheduled=0;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
void
update_adjacent_lsdb_version_to_adl(struct name_prefix *nbr, char *version)
{
if ( nlsr->debugging )
printf("update_adjacent_timed_out_to_adl called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_adjacent_timed_out_to_adl called\n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr->name, nbr->length, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
free(nnbr->last_lsdb_version);
nnbr->last_lsdb_version=(char *)malloc(strlen(version)+1);
memset(nnbr->last_lsdb_version,0,strlen(version)+1);
memcpy(nnbr->last_lsdb_version,version,strlen(version)+1);
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
void
adjust_adjacent_last_lsdb_requested_to_adl(char *nbr, long int sec)
{
printf("update_adjacent_last_lsdb_requested_to_adl called \n");
if ( nlsr->debugging )
printf("update_adjacent_last_lsdb_requested_to_adl called \n");
if ( nlsr->detailed_logging )
writeLogg(__FILE__,__FUNCTION__,__LINE__,"update_adjacent_last_lsdb_requested_to_adl called\n");
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
nnbr->last_lsdb_requested=nnbr->last_lsdb_requested-sec;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
int
get_next_hop_face_from_adl(char *nbr)
{
int res;
int connecting_face=NO_FACE;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
connecting_face=nnbr->face;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return connecting_face;
}
void
update_face_to_adl_for_nbr(char *nbr, int face)
{
int res;
struct ndn_neighbor *nnbr;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if( res == HT_OLD_ENTRY )
{
nnbr=e->data;
nnbr->face=face;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
}
int
is_neighbor(char *nbr)
{
int ret=0;
int res;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if( res == HT_OLD_ENTRY )
{
ret=1;
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return ret;
}
int
is_active_neighbor(char *nbr)
{
int ret=0;
int res;
struct hashtb_enumerator ee;
struct hashtb_enumerator *e = &ee;
hashtb_start(nlsr->adl, e);
res = hashtb_seek(e, nbr, strlen(nbr)+1, 0);
if( res == HT_OLD_ENTRY )
{
struct ndn_neighbor *nnbr;
nnbr=e->data;
if (nnbr->status == NBR_ACTIVE )
{
ret=1;
}
}
else if(res == HT_NEW_ENTRY)
{
hashtb_delete(e);
}
hashtb_end(e);
return ret;
}
void
get_host_name_from_command_string(struct name_prefix *name_part,
char *nbr_name_uri, int offset)
{
int res,i;
int len=0;
const unsigned char *comp_ptr1;
size_t comp_size;
struct ccn_charbuf *name=ccn_charbuf_create();
name = ccn_charbuf_create();
res = ccn_name_from_uri(name,nbr_name_uri);
if (res < 0) {
fprintf(stderr, "Bad ccn URI: %s\n", nbr_name_uri);
exit(1);
}
struct ccn_indexbuf cid={0};
struct ccn_indexbuf *components=&cid;
ccn_name_split (name, components);
for(i=components->n-2;i> (0+offset);i--)
{
res=ccn_name_comp_get(name->buf, components,i,&comp_ptr1, &comp_size);
len+=1;
len+=(int)comp_size;
}
len++;
char *neighbor=(char *)malloc(len);
memset(neighbor,0,len);
for(i=components->n-2;i> (0+offset);i--)
{
res=ccn_name_comp_get(name->buf, components,i,&comp_ptr1, &comp_size);
if ( i != components->n-2)
memcpy(neighbor+strlen(neighbor),".",1);
memcpy(neighbor+strlen(neighbor),(char *)comp_ptr1,
strlen((char *)comp_ptr1));
}
name_part->name=(char *)malloc(strlen(neighbor)+1);
memset(name_part->name,0,strlen(neighbor)+1);
memcpy(name_part->name,neighbor,strlen(neighbor)+1);
name_part->length=strlen(neighbor)+1;
// 01/31/2013
free(neighbor);
ccn_charbuf_destroy(&name);
}