nlsr_npt.c - NLSR - Gitiles

 #include<stdio.h>
 #include<string.h>
 #include<stdlib.h>
 #include <unistd.h>
 #include <getopt.h>
 #include <sys/time.h>
 #include <assert.h>
 #ifdef HAVE_CONFIG_H
 #include <config.h>
 #endif
 #include <sys/types.h>
 #include <signal.h>


 #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_npt.h"
 #include "nlsr_fib.h"
 #include "nlsr_route.h"
 #include "nlsr_adl.h"

 int
 add_npt_entry(char *orig_router, char *name_prefix, int num_face, int *faces, int *route_costs)
 {
 	if ( strcmp(orig_router,nlsr->router_name)== 0)
 	{
 		return -1;
 	}

 	struct npt_entry *ne=(struct npt_entry*)malloc(sizeof(struct npt_entry ));

 	int res,res_nle,res_fle;
 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;


    	hashtb_start(nlsr->npt, e);
     	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

 	if(res == HT_NEW_ENTRY)
 	{
 		ne=e->data;

 		ne->orig_router=(char *)malloc(strlen(orig_router)+1);
 		memset(ne->orig_router,0,strlen(orig_router)+1);
 		memcpy(ne->orig_router,orig_router,strlen(orig_router));


 		struct hashtb_param param_nle = {0};
 		ne->name_list= hashtb_create(sizeof(struct name_list_entry ), &param_nle);

 		struct hashtb_enumerator eenle;
     		struct hashtb_enumerator *enle = &eenle;

 		hashtb_start(ne->name_list, enle);
 		res_nle = hashtb_seek(enle, name_prefix, strlen(name_prefix), 0);

 		if(res_nle == HT_NEW_ENTRY )
 		{
 			struct name_list_entry *nle=(struct name_list_entry *)malloc(sizeof(struct name_list_entry));
 			nle=enle->data;
 			nle->name=(char *)malloc(strlen(name_prefix)+1);
 			memset(nle->name,0,strlen(name_prefix)+1);
 			memcpy(nle->name,name_prefix,strlen(name_prefix));


 		}
 		hashtb_end(enle);

 		struct hashtb_param param_fle = {0};
 		ne->face_list=hashtb_create(sizeof(struct face_list_entry), &param_fle);

 		if ( num_face > 0 )
 		{
 			struct hashtb_enumerator eef;
     			struct hashtb_enumerator *ef = &eef;

     			hashtb_start(ne->face_list, ef);
 			int i;

 			for ( i=0; i < num_face ; i++)
 			{
 				int face=faces[i];
 				res_fle = hashtb_seek(ef, &face, sizeof(face), 0);

 				if ( res_fle == HT_NEW_ENTRY )
 				{
 					struct face_list_entry *fle=(struct face_list_entry *)malloc(sizeof(struct face_list_entry));
 					fle=ef->data;
 					fle->next_hop_face=face;
 					fle->route_cost=route_costs[i];
 				}

 			}
 			hashtb_end(ef);
 		}

 	}
 	else if (res == HT_OLD_ENTRY)
 	{
 		free(ne);
 		struct npt_entry *one;

 		one=e->data;

 		struct hashtb_enumerator eenle;
     		struct hashtb_enumerator *enle = &eenle;

 		hashtb_start(one->name_list, enle);
 		res_nle = hashtb_seek(enle, name_prefix, strlen(name_prefix), 0);

 		if(res_nle == HT_NEW_ENTRY )
 		{
 			struct name_list_entry *nle=(struct name_list_entry *)malloc(sizeof(struct name_list_entry));
 			nle=enle->data;
 			nle->name=(char *)malloc(strlen(name_prefix)+1);
 			memset(nle->name,0,strlen(name_prefix)+1);
 			memcpy(nle->name,name_prefix,strlen(name_prefix));
 		}
 		else if(res_nle == HT_OLD_ENTRY )
 		{

 		}
 		hashtb_end(enle);

 		if ( num_face > 0 )
 		{
 			struct hashtb_enumerator eef;
     			struct hashtb_enumerator *ef = &eef;

     			hashtb_start(one->face_list, ef);
 			int i;

 			for ( i=0; i< num_face ; i ++)
 			{
 				int face=faces[i];
 				res_fle = hashtb_seek(ef, &face, sizeof(face), 0);

 				if ( res_fle == HT_NEW_ENTRY )
 				{
 					struct face_list_entry *fle=(struct face_list_entry *)malloc(sizeof(struct face_list_entry));
 					fle=ef->data;
 					fle->next_hop_face=face;
 					fle->route_cost=route_costs[i];
 				}

 			}
 			hashtb_end(ef);
 		}


 	}
 	hashtb_end(e);

 	update_ccnd_fib_for_orig_router(orig_router);

 	return res;
 }

 void
 update_ccnd_fib_for_orig_router(char *orig_router)
 {

 	int res;
 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;


    	hashtb_start(nlsr->npt, e);
     	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

 	if(res == HT_NEW_ENTRY)
 	{
 		hashtb_delete(e);
 	}
 	else if ( res == HT_OLD_ENTRY )
 	{
 		struct npt_entry *ne;
 		ne=e->data;
 		int num_face=hashtb_n(ne->face_list);
 		int last_face,first_face;

 		int *faces=(int *)malloc(num_face*sizeof(int));
 		int *route_costs=(int *)malloc(num_face*sizeof(int));

 		get_all_faces_for_orig_router_from_npt(orig_router,faces,route_costs,num_face);
 		sort_faces_by_distance(faces,route_costs,0,num_face);


 		first_face=num_face-1;

 		if ( nlsr->multi_path_face_num == 0 )
 		{
 			last_face=first_face;
 		}
 		else
 		{
 			if ( num_face <= nlsr->multi_path_face_num)
 			{
 				last_face=0;
 			}
 			else if ( nlsr->multi_path_face_num == 0)
 			{
 				last_face=num_face-nlsr->multi_path_face_num;
 			}
 		}

 		int i,j, nl_element;
 		struct name_list_entry *nle;
 		struct hashtb_enumerator eenle;
     		struct hashtb_enumerator *enle = &eenle;

 		hashtb_start(ne->name_list, enle);
 		nl_element=hashtb_n(ne->name_list);

 		for (i=0;i<nl_element;i++)
 		{
 			nle=enle->data;

 			for( j=first_face; j>= last_face; j--)
 			{
 				if ( j == last_face )
 				{
 					if( is_neighbor(nle->name) == 0 )
 					{
 						printf("Adding face: Name:%s Face: %d\n",nle->name,faces[j]);
 						add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_REG, faces[j]);
 					}
 				}
 				else
 				{
 					if ( num_face-nlsr->multi_path_face_num > 0 && is_neighbor(orig_router) == 0 )
 					{
 						printf("Adding face: Name:%s Face: %d\n",nle->name,faces[j]);
 						add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_REG, faces[j]);
 					}
 				}
 			}

 			hashtb_next(enle);
 		}
 		hashtb_end(enle);


 		free(faces);
 		free(route_costs);

 	}
 	hashtb_end(e);

 }

 int
 delete_npt_entry_by_router_and_name_prefix(char *orig_router, char *name_prefix)
 {
 	if ( strcmp(orig_router,nlsr->router_name)== 0)
 	{
 		return -1;
 	}

 	struct npt_entry *ne;

 	int res,res_nle;
 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;


    	hashtb_start(nlsr->npt, e);
     	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

 	if(res == HT_NEW_ENTRY)
 	{
 		hashtb_delete(e);
 		return -1;
 	}
 	else if (res == HT_OLD_ENTRY)
 	{
 		ne=e->data;

 		struct hashtb_enumerator eenle;
     		struct hashtb_enumerator *enle = &eenle;

 		hashtb_start(ne->name_list, enle);
 		res_nle = hashtb_seek(enle, name_prefix, strlen(name_prefix), 0);

 		if(res_nle == HT_NEW_ENTRY )
 		{
 			hashtb_delete(enle);
 		}
 		else if(res_nle == HT_OLD_ENTRY )
 		{
 			struct name_list_entry *nle;

 			nle=enle->data;

 			int j;
 			int num_face=hashtb_n(ne->face_list);
 			int last_face,first_face;

 			int *faces=(int *)malloc(num_face*sizeof(int));
 			int *route_costs=(int *)malloc(num_face*sizeof(int));

 			get_all_faces_for_orig_router_from_npt(orig_router,faces,route_costs,num_face);
 			sort_faces_by_distance(faces,route_costs,0,num_face);


 			first_face=num_face-1;

 			if ( nlsr->multi_path_face_num == 0 )
 			{
 				last_face=first_face;
 			}
 			else
 			{
 				if ( num_face <= nlsr->multi_path_face_num)
 				{
 					last_face=0;
 				}
 				else if ( nlsr->multi_path_face_num == 0)
 				{
 					last_face=num_face-nlsr->multi_path_face_num;
 				}
 			}

 			for( j=first_face; j>= last_face; j--)
 			{
 				if ( j == last_face )
 				{
 					if( is_neighbor(nle->name) == 0 )
 					{
 						printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
 						add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
 					}
 				}
 				else
 				{
 					if ( num_face-nlsr->multi_path_face_num > 0 && is_neighbor(orig_router) == 0 )
 					{
 						printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
 						add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
 					}
 				}
 			}


 			hashtb_delete(enle);
 		}

 		hashtb_end(enle);

 		if ( hashtb_n(ne->name_list) == 0 )
 		{
 			hashtb_delete(e);
 		}
 	}

 	hashtb_end(e);

 	return 0;
 }

 void
 print_npt(void)
 {
 	printf("\n");
 	printf("print_npt called\n\n");
 	int i, npt_element;

 	struct npt_entry *ne;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->npt, e);
 	npt_element=hashtb_n(nlsr->npt);

 	for(i=0;i<npt_element;i++)
 	{
 		printf("\n");
 		printf("----------NPT ENTRY %d------------------\n",i+1);
 		ne=e->data;
 		printf(" Origination Router: %s \n",ne->orig_router);
 		//ne->next_hop_face == NO_FACE ? printf(" Next Hop Face: NO_NEXT_HOP \n") : printf(" Next Hop Face: %d \n", ne->next_hop_face);

 		int j, nl_element,face_list_element;
 		struct name_list_entry *nle;
 		struct hashtb_enumerator eenle;
     		struct hashtb_enumerator *enle = &eenle;

 		hashtb_start(ne->name_list, enle);
 		nl_element=hashtb_n(ne->name_list);

 		for (j=0;j<nl_element;j++)
 		{
 			nle=enle->data;
 			printf(" Name Prefix: %s \n",nle->name);
 			hashtb_next(enle);
 		}
 		hashtb_end(enle);

 		struct face_list_entry *fle;

 		struct hashtb_enumerator eef;
     		struct hashtb_enumerator *ef = &eef;

     		hashtb_start(ne->face_list, ef);
 		face_list_element=hashtb_n(ne->face_list);
 		if ( face_list_element <= 0 )
 		{
 			printf(" 	Face: No Face \n");
 		}
 		else
 		{
 			for(j=0;j<face_list_element;j++)
 			{
 				fle=ef->data;
 				printf(" 	Face: %d Route_Cost: %d \n",fle->next_hop_face,fle->route_cost);
 				hashtb_next(ef);
 			}
 		}
 		hashtb_end(ef);


 		hashtb_next(e);
 	}

 	hashtb_end(e);

 	printf("\n");
 }

 void
 delete_orig_router_from_npt(char *orig_router)
 {
 	int res,num_face,num_prefix;
 	struct npt_entry *ne;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->npt, e);
 	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

 	if ( res == HT_OLD_ENTRY )
 	{
 		ne=e->data;
 		num_prefix=hashtb_n(ne->name_list);
 		if ( num_prefix > 0 )
 		{
 			num_face=hashtb_n(ne->face_list);

 			if ( num_face > 0  )
 			{
 				int j, nl_element;
 				struct name_list_entry *nle;
 				struct hashtb_enumerator eenle;
     				struct hashtb_enumerator *enle = &eenle;

 				hashtb_start(ne->name_list, enle);
 				nl_element=hashtb_n(ne->name_list);

 				for (j=0;j<nl_element;j++)
 				{
 					nle=enle->data;

 					delete_npt_entry_by_router_and_name_prefix(ne->orig_router,nle->name);

 					hashtb_next(enle);
 				}
 				hashtb_end(enle);

 			}

 		}
 		hashtb_destroy(&ne->name_list);
 		hashtb_destroy(&ne->face_list);
 		hashtb_delete(e);
 	}
 	else if ( res == HT_NEW_ENTRY )
 	{
 		hashtb_delete(e);
 	}
 	hashtb_end(e);
 }


 void
 add_face_to_npt_by_face_id(char *dest_router, int face_id, int route_cost)
 {
 	printf("add_face_to_npt_by_face_id called\n");

 	printf("Dest Router: %s Face: %d Route_cost: %d \n",dest_router, face_id, route_cost);
 	int res,res1;
 	struct npt_entry *ne;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->npt, e);
 	res = hashtb_seek(e, dest_router, strlen(dest_router), 0);

 	if ( res == HT_OLD_ENTRY )
 	{
 		printf("Dest Router Found \n");
 		ne=e->data;

 		struct hashtb_enumerator eef;
     		struct hashtb_enumerator *ef = &eef;

     		hashtb_start(ne->face_list, ef);
 		res1=hashtb_seek(ef, &face_id, sizeof(face_id), 0);

 		if ( res1 == HT_OLD_ENTRY )
 		{
 			printf("Face Found \n");
 			struct face_list_entry *fle;//=(struct face_list_entry *)malloc(sizeof(struct face_list_entry));
 			fle=ef->data;
 			fle->next_hop_face=face_id;
 			fle->route_cost=route_cost;
 		}
 		else if ( res1 == HT_NEW_ENTRY )
 		{
 			printf("Face Not Found \n");
 			struct face_list_entry *fle=(struct face_list_entry *)malloc(sizeof(struct face_list_entry));
 			fle=ef->data;
 			fle->next_hop_face=face_id;
 			fle->route_cost=route_cost;
 			//hashtb_delete(ef);
 		}
 		hashtb_end(ef);
 	}
 	else if (res == HT_NEW_ENTRY)
 	{
 		hashtb_delete(e);
 	}

 	hashtb_end(e);
 }


 void
 add_new_fib_entries_to_npt(void)
 {
 	printf("add_new_fib_entries_to_npt called\n");
 	int i,j, rt_element,face_list_element;

 	struct routing_table_entry *rte;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->routing_table, e);
 	rt_element=hashtb_n(nlsr->routing_table);

 	for(i=0;i<rt_element;i++)
 	{
 		rte=e->data;

 		struct face_list_entry *fle;

 		struct hashtb_enumerator eef;
     		struct hashtb_enumerator *ef = &eef;

     		hashtb_start(rte->face_list, ef);
 		face_list_element=hashtb_n(rte->face_list);
 		if ( face_list_element <= 0 )
 		{
 			printf(" 	Face: No Face \n");
 		}
 		else
 		{
 			for(j=0;j<face_list_element;j++)
 			{
 				fle=ef->data;
 				add_face_to_npt_by_face_id(rte->dest_router,fle->next_hop_face,fle->route_cost);
 				hashtb_next(ef);
 			}
 		}
 		hashtb_end(ef);

 		hashtb_next(e);
 	}

 	hashtb_end(e);

 }


 void
 delete_face_from_npt_by_face_id(char *dest_router, int face_id)
 {
 	printf("delete_face_from_npt_by_face_id called\n");

 	int res,res1;
 	struct npt_entry *ne;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->npt, e);
 	res = hashtb_seek(e, dest_router, strlen(dest_router), 0);

 	if ( res == HT_OLD_ENTRY )
 	{
 		ne=e->data;

 		struct hashtb_enumerator eef;
     		struct hashtb_enumerator *ef = &eef;

     		hashtb_start(ne->face_list, ef);
 		res1=hashtb_seek(ef, &face_id, sizeof(face_id), 0);

 		if ( res1 == HT_OLD_ENTRY )
 		{
 			hashtb_delete(ef);
 		}
 		else if ( res1 == HT_NEW_ENTRY )
 		{
 			hashtb_delete(ef);
 		}
 		hashtb_end(ef);
 	}
 	else if (res == HT_NEW_ENTRY)
 	{
 		hashtb_delete(e);
 	}

 	hashtb_end(e);
 }

 int
 delete_old_face_from_npt(struct ccn_schedule *sched, void *clienth, struct ccn_scheduled_event *ev, int flags)
 {
 	if(flags == CCN_SCHEDULE_CANCEL)
 	{
  	 	return -1;
 	}

 	nlsr_lock();

 	printf("delete_old_face_from_npt called\n");
 	if ( ev->evdata != NULL )
 	{
 		printf("Event Data: %s \n",(char *)ev->evdata);
 		char *sep="|";
 		char *rem;
 		char *orig_router;
 		char *faceid;
 		int face_id;

 		char *face_data=(char *)malloc(strlen((char *)ev->evdata)+1);
 		memset(face_data,0,strlen((char *)ev->evdata)+1);
 		memcpy(face_data+strlen(face_data),(char *)ev->evdata,strlen((char *)ev->evdata));

 		orig_router=strtok_r(face_data,sep,&rem);
 		faceid=strtok_r(NULL,sep,&rem);
 		face_id=atoi(faceid);
 		printf("Orig Router: %s Face: %d \n",orig_router,face_id);

 		delete_face_from_npt_by_face_id(orig_router,face_id);
 	}

 	nlsr_unlock();

 	return 0;
 }

 void
 clean_old_fib_entries_from_npt(void)
 {

 	printf("clean_old_fib_entries_from_npt called\n\n");
 	int i, npt_element;

 	struct npt_entry *ne;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->npt, e);
 	npt_element=hashtb_n(nlsr->npt);

 	for(i=0;i<npt_element;i++)
 	{
 		ne=e->data;

 		int j,k, nl_element,face_list_element;
 		struct face_list_entry *fle;

 		struct hashtb_enumerator eef;
     		struct hashtb_enumerator *ef = &eef;

     		hashtb_start(ne->face_list, ef);
 		face_list_element=hashtb_n(ne->face_list);
 		if ( face_list_element <= 0 )
 		{
 			printf(" 	Face: No Face \n");
 		}
 		else
 		{
 			for(j=0;j<face_list_element;j++)
 			{
 				fle=ef->data;
 				int check=does_face_exist_for_router(ne->orig_router,fle->next_hop_face);
 				if ( check == 0 )
 				{
 					struct name_list_entry *nle;
 					struct hashtb_enumerator eenle;
     					struct hashtb_enumerator *enle = &eenle;

 					hashtb_start(ne->name_list, enle);
 					nl_element=hashtb_n(ne->name_list);

 					for (k=0;k<nl_element;k++)
 					{
 						nle=enle->data;

 						//delete all the fib entries here
 						if( is_neighbor(nle->name) == 0 )
 						{
 							printf("Deleting face: Name:%s Face: %d\n",nle->name,fle->next_hop_face);
 							add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, fle->next_hop_face);
 						}


 						hashtb_next(enle);
 					}
 					hashtb_end(enle);

 					char faceid[20];
 					memset(faceid,0,20);
 					sprintf(faceid,"%d",fle->next_hop_face);
 					char *evdata=(char *)malloc(strlen(ne->orig_router)+strlen(faceid)+2);
 					memset(evdata,0,strlen(ne->orig_router)+strlen(faceid)+2);
 					memcpy(evdata+strlen(evdata),ne->orig_router,strlen(ne->orig_router));
 					memcpy(evdata+strlen(evdata),"|",1);
 					memcpy(evdata+strlen(evdata),faceid,strlen(faceid));

 					nlsr->event = ccn_schedule_event(nlsr->sched, 1, &delete_old_face_from_npt, (void *)evdata, 0);

 				}

 				hashtb_next(ef);
 			}
 		}
 		hashtb_end(ef);


 		hashtb_next(e);
 	}

 	hashtb_end(e);

 }

 void
 update_npt_with_new_route(void)
 {
 	clean_old_fib_entries_from_npt();
 	add_new_fib_entries_to_npt();

 	int i, npt_element;

 	struct npt_entry *ne;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->npt, e);
 	npt_element=hashtb_n(nlsr->npt);

 	for(i=0;i<npt_element;i++)
 	{

 		ne=e->data;
 		update_ccnd_fib_for_orig_router(ne->orig_router);
 		hashtb_next(e);
 	}

 	hashtb_end(e);
 }


 void
 sort_faces_by_distance(int *faces,int *route_costs,int start,int element)
 {
 	int i,j;
 	int temp_cost;
 	int temp_face;

 	for ( i=start ; i < element ; i ++)
 	{
 		for( j=i+1; j<element; j ++)
 		{
 			if (route_costs[j] < route_costs[i] )
 			{
 				temp_cost=route_costs[j];
 				route_costs[j]=route_costs[i];
 				route_costs[i]=temp_cost;

 				temp_face=faces[j];
 				faces[j]=faces[i];
 				faces[i]=temp_face;
 			}
 		}
 	}

 }

 void
 get_all_faces_for_orig_router_from_npt(char *orig_router, int *faces, int *route_costs, int num_faces)
 {

 	int res,face_list_element,j;
 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;


    	hashtb_start(nlsr->npt, e);
     	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

 	if(res == HT_NEW_ENTRY)
 	{
 		hashtb_delete(e);
 	}
 	else if ( res == HT_OLD_ENTRY )
 	{
 		struct npt_entry *ne;
 		ne=e->data;

 		struct face_list_entry *fle;

 		struct hashtb_enumerator eef;
     		struct hashtb_enumerator *ef = &eef;

     		hashtb_start(ne->face_list, ef);
 		face_list_element=hashtb_n(ne->face_list);
 		for(j=0;j<face_list_element;j++)
 		{
 			fle=ef->data;
 			faces[j]=fle->next_hop_face;
 			route_costs[j]=fle->route_cost;
 			hashtb_next(ef);
 		}
 		hashtb_end(ef);


 	}
 	hashtb_end(e);

 }

 void
 destroy_faces_by_orig_router(char *orig_router)
 {

 	int res;
 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;


    	hashtb_start(nlsr->npt, e);
     	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

 	if(res == HT_NEW_ENTRY)
 	{
 		hashtb_delete(e);
 	}
 	else if ( res == HT_OLD_ENTRY )
 	{
 		struct npt_entry *ne;
 		ne=e->data;
 		int num_face=hashtb_n(ne->face_list);
 		int last_face,first_face;

 		int *faces=(int *)malloc(num_face*sizeof(int));
 		int *route_costs=(int *)malloc(num_face*sizeof(int));

 		get_all_faces_for_orig_router_from_npt(orig_router,faces,route_costs,num_face);
 		sort_faces_by_distance(faces,route_costs,0,num_face);


 		first_face=num_face-1;

 		if ( nlsr->multi_path_face_num == 0 )
 		{
 			last_face=first_face;
 		}
 		else
 		{
 			if ( num_face <= nlsr->multi_path_face_num)
 			{
 				last_face=0;
 			}
 			else if ( nlsr->multi_path_face_num == 0)
 			{
 				last_face=num_face-nlsr->multi_path_face_num;
 			}
 		}

 		int i,j, nl_element;
 		struct name_list_entry *nle;
 		struct hashtb_enumerator eenle;
     		struct hashtb_enumerator *enle = &eenle;

 		hashtb_start(ne->name_list, enle);
 		nl_element=hashtb_n(ne->name_list);

 		for (i=0;i<nl_element;i++)
 		{
 			nle=enle->data;

 			for( j=first_face; j>= last_face; j--)
 			{
 				if ( j == last_face )
 				{
 					if( is_neighbor(nle->name) == 0 )
 					{
 						printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
 						add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
 					}
 				}
 				else
 				{
 					if ( num_face-nlsr->multi_path_face_num > 0 && is_neighbor(orig_router) == 0 )
 					{
 						printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
 						add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
 					}
 				}
 			}

 			hashtb_next(enle);
 		}
 		hashtb_end(enle);


 		free(faces);
 		free(route_costs);

 	}
 	hashtb_end(e);

 }

 void
 destroy_all_face_by_nlsr(void)
 {
 	int i, npt_element;

 	struct npt_entry *ne;

 	struct hashtb_enumerator ee;
     	struct hashtb_enumerator *e = &ee;

     	hashtb_start(nlsr->npt, e);
 	npt_element=hashtb_n(nlsr->npt);

 	for(i=0;i<npt_element;i++)
 	{
 		ne=e->data;
 		destroy_faces_by_orig_router(ne->orig_router);
 		hashtb_next(e);
 	}

 	hashtb_end(e);

 	printf("\n");
 }
	#include<stdio.h>
	#include<string.h>
	#include<stdlib.h>
	#include <unistd.h>
	#include <getopt.h>
	#include <sys/time.h>
	#include <assert.h>
	#ifdef HAVE_CONFIG_H
	#include <config.h>
	#endif
	#include <sys/types.h>
	#include <signal.h>



	#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_npt.h"
	#include "nlsr_fib.h"
	#include "nlsr_route.h"
	#include "nlsr_adl.h"

	int
	add_npt_entry(char orig_router, char name_prefix, int num_face, int faces, int route_costs)
	{
	if ( strcmp(orig_router,nlsr->router_name)== 0)
	{
	return -1;
	}

	struct npt_entry ne=(struct npt_entry)malloc(sizeof(struct npt_entry ));

	int res,res_nle,res_fle;
	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;


	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

	if(res == HT_NEW_ENTRY)
	{
	ne=e->data;

	ne->orig_router=(char *)malloc(strlen(orig_router)+1);
	memset(ne->orig_router,0,strlen(orig_router)+1);
	memcpy(ne->orig_router,orig_router,strlen(orig_router));




	struct hashtb_param param_nle = {0};
	ne->name_list= hashtb_create(sizeof(struct name_list_entry ), &param_nle);

	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(ne->name_list, enle);
	res_nle = hashtb_seek(enle, name_prefix, strlen(name_prefix), 0);

	if(res_nle == HT_NEW_ENTRY )
	{
	struct name_list_entry nle=(struct name_list_entry )malloc(sizeof(struct name_list_entry));
	nle=enle->data;
	nle->name=(char *)malloc(strlen(name_prefix)+1);
	memset(nle->name,0,strlen(name_prefix)+1);
	memcpy(nle->name,name_prefix,strlen(name_prefix));



	}
	hashtb_end(enle);

	struct hashtb_param param_fle = {0};
	ne->face_list=hashtb_create(sizeof(struct face_list_entry), &param_fle);

	if ( num_face > 0 )
	{
	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(ne->face_list, ef);
	int i;

	for ( i=0; i < num_face ; i++)
	{
	int face=faces[i];
	res_fle = hashtb_seek(ef, &face, sizeof(face), 0);

	if ( res_fle == HT_NEW_ENTRY )
	{
	struct face_list_entry fle=(struct face_list_entry )malloc(sizeof(struct face_list_entry));
	fle=ef->data;
	fle->next_hop_face=face;
	fle->route_cost=route_costs[i];
	}

	}
	hashtb_end(ef);
	}

	}
	else if (res == HT_OLD_ENTRY)
	{
	free(ne);
	struct npt_entry *one;

	one=e->data;

	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(one->name_list, enle);
	res_nle = hashtb_seek(enle, name_prefix, strlen(name_prefix), 0);

	if(res_nle == HT_NEW_ENTRY )
	{
	struct name_list_entry nle=(struct name_list_entry )malloc(sizeof(struct name_list_entry));
	nle=enle->data;
	nle->name=(char *)malloc(strlen(name_prefix)+1);
	memset(nle->name,0,strlen(name_prefix)+1);
	memcpy(nle->name,name_prefix,strlen(name_prefix));
	}
	else if(res_nle == HT_OLD_ENTRY )
	{

	}
	hashtb_end(enle);

	if ( num_face > 0 )
	{
	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(one->face_list, ef);
	int i;

	for ( i=0; i< num_face ; i ++)
	{
	int face=faces[i];
	res_fle = hashtb_seek(ef, &face, sizeof(face), 0);

	if ( res_fle == HT_NEW_ENTRY )
	{
	struct face_list_entry fle=(struct face_list_entry )malloc(sizeof(struct face_list_entry));
	fle=ef->data;
	fle->next_hop_face=face;
	fle->route_cost=route_costs[i];
	}

	}
	hashtb_end(ef);
	}


	}
	hashtb_end(e);

	update_ccnd_fib_for_orig_router(orig_router);

	return res;
	}

	void
	update_ccnd_fib_for_orig_router(char *orig_router)
	{

	int res;
	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;


	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

	if(res == HT_NEW_ENTRY)
	{
	hashtb_delete(e);
	}
	else if ( res == HT_OLD_ENTRY )
	{
	struct npt_entry *ne;
	ne=e->data;
	int num_face=hashtb_n(ne->face_list);
	int last_face,first_face;

	int faces=(int )malloc(num_face*sizeof(int));
	int route_costs=(int )malloc(num_face*sizeof(int));

	get_all_faces_for_orig_router_from_npt(orig_router,faces,route_costs,num_face);
	sort_faces_by_distance(faces,route_costs,0,num_face);


	first_face=num_face-1;

	if ( nlsr->multi_path_face_num == 0 )
	{
	last_face=first_face;
	}
	else
	{
	if ( num_face <= nlsr->multi_path_face_num)
	{
	last_face=0;
	}
	else if ( nlsr->multi_path_face_num == 0)
	{
	last_face=num_face-nlsr->multi_path_face_num;
	}
	}

	int i,j, nl_element;
	struct name_list_entry *nle;
	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(ne->name_list, enle);
	nl_element=hashtb_n(ne->name_list);

	for (i=0;i<nl_element;i++)
	{
	nle=enle->data;

	for( j=first_face; j>= last_face; j--)
	{
	if ( j == last_face )
	{
	if( is_neighbor(nle->name) == 0 )
	{
	printf("Adding face: Name:%s Face: %d\n",nle->name,faces[j]);
	add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_REG, faces[j]);
	}
	}
	else
	{
	if ( num_face-nlsr->multi_path_face_num > 0 && is_neighbor(orig_router) == 0 )
	{
	printf("Adding face: Name:%s Face: %d\n",nle->name,faces[j]);
	add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_REG, faces[j]);
	}
	}
	}

	hashtb_next(enle);
	}
	hashtb_end(enle);



	free(faces);
	free(route_costs);

	}
	hashtb_end(e);

	}

	int
	delete_npt_entry_by_router_and_name_prefix(char orig_router, char name_prefix)
	{
	if ( strcmp(orig_router,nlsr->router_name)== 0)
	{
	return -1;
	}

	struct npt_entry *ne;

	int res,res_nle;
	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;


	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

	if(res == HT_NEW_ENTRY)
	{
	hashtb_delete(e);
	return -1;
	}
	else if (res == HT_OLD_ENTRY)
	{
	ne=e->data;

	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(ne->name_list, enle);
	res_nle = hashtb_seek(enle, name_prefix, strlen(name_prefix), 0);

	if(res_nle == HT_NEW_ENTRY )
	{
	hashtb_delete(enle);
	}
	else if(res_nle == HT_OLD_ENTRY )
	{
	struct name_list_entry *nle;

	nle=enle->data;

	int j;
	int num_face=hashtb_n(ne->face_list);
	int last_face,first_face;

	int faces=(int )malloc(num_face*sizeof(int));
	int route_costs=(int )malloc(num_face*sizeof(int));

	get_all_faces_for_orig_router_from_npt(orig_router,faces,route_costs,num_face);
	sort_faces_by_distance(faces,route_costs,0,num_face);


	first_face=num_face-1;

	if ( nlsr->multi_path_face_num == 0 )
	{
	last_face=first_face;
	}
	else
	{
	if ( num_face <= nlsr->multi_path_face_num)
	{
	last_face=0;
	}
	else if ( nlsr->multi_path_face_num == 0)
	{
	last_face=num_face-nlsr->multi_path_face_num;
	}
	}

	for( j=first_face; j>= last_face; j--)
	{
	if ( j == last_face )
	{
	if( is_neighbor(nle->name) == 0 )
	{
	printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
	add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
	}
	}
	else
	{
	if ( num_face-nlsr->multi_path_face_num > 0 && is_neighbor(orig_router) == 0 )
	{
	printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
	add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
	}
	}
	}




	hashtb_delete(enle);
	}

	hashtb_end(enle);

	if ( hashtb_n(ne->name_list) == 0 )
	{
	hashtb_delete(e);
	}
	}

	hashtb_end(e);

	return 0;
	}

	void
	print_npt(void)
	{
	printf("\n");
	printf("print_npt called\n\n");
	int i, npt_element;

	struct npt_entry *ne;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->npt, e);
	npt_element=hashtb_n(nlsr->npt);

	for(i=0;i<npt_element;i++)
	{
	printf("\n");
	printf("----------NPT ENTRY %d------------------\n",i+1);
	ne=e->data;
	printf(" Origination Router: %s \n",ne->orig_router);
	//ne->next_hop_face == NO_FACE ? printf(" Next Hop Face: NO_NEXT_HOP \n") : printf(" Next Hop Face: %d \n", ne->next_hop_face);

	int j, nl_element,face_list_element;
	struct name_list_entry *nle;
	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(ne->name_list, enle);
	nl_element=hashtb_n(ne->name_list);

	for (j=0;j<nl_element;j++)
	{
	nle=enle->data;
	printf(" Name Prefix: %s \n",nle->name);
	hashtb_next(enle);
	}
	hashtb_end(enle);

	struct face_list_entry *fle;

	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(ne->face_list, ef);
	face_list_element=hashtb_n(ne->face_list);
	if ( face_list_element <= 0 )
	{
	printf(" Face: No Face \n");
	}
	else
	{
	for(j=0;j<face_list_element;j++)
	{
	fle=ef->data;
	printf(" Face: %d Route_Cost: %d \n",fle->next_hop_face,fle->route_cost);
	hashtb_next(ef);
	}
	}
	hashtb_end(ef);


	hashtb_next(e);
	}

	hashtb_end(e);

	printf("\n");
	}

	void
	delete_orig_router_from_npt(char *orig_router)
	{
	int res,num_face,num_prefix;
	struct npt_entry *ne;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

	if ( res == HT_OLD_ENTRY )
	{
	ne=e->data;
	num_prefix=hashtb_n(ne->name_list);
	if ( num_prefix > 0 )
	{
	num_face=hashtb_n(ne->face_list);

	if ( num_face > 0 )
	{
	int j, nl_element;
	struct name_list_entry *nle;
	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(ne->name_list, enle);
	nl_element=hashtb_n(ne->name_list);

	for (j=0;j<nl_element;j++)
	{
	nle=enle->data;

	delete_npt_entry_by_router_and_name_prefix(ne->orig_router,nle->name);

	hashtb_next(enle);
	}
	hashtb_end(enle);

	}

	}
	hashtb_destroy(&ne->name_list);
	hashtb_destroy(&ne->face_list);
	hashtb_delete(e);
	}
	else if ( res == HT_NEW_ENTRY )
	{
	hashtb_delete(e);
	}
	hashtb_end(e);
	}


	void
	add_face_to_npt_by_face_id(char *dest_router, int face_id, int route_cost)
	{
	printf("add_face_to_npt_by_face_id called\n");

	printf("Dest Router: %s Face: %d Route_cost: %d \n",dest_router, face_id, route_cost);
	int res,res1;
	struct npt_entry *ne;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, dest_router, strlen(dest_router), 0);

	if ( res == HT_OLD_ENTRY )
	{
	printf("Dest Router Found \n");
	ne=e->data;

	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(ne->face_list, ef);
	res1=hashtb_seek(ef, &face_id, sizeof(face_id), 0);

	if ( res1 == HT_OLD_ENTRY )
	{
	printf("Face Found \n");
	struct face_list_entry fle;//=(struct face_list_entry )malloc(sizeof(struct face_list_entry));
	fle=ef->data;
	fle->next_hop_face=face_id;
	fle->route_cost=route_cost;
	}
	else if ( res1 == HT_NEW_ENTRY )
	{
	printf("Face Not Found \n");
	struct face_list_entry fle=(struct face_list_entry )malloc(sizeof(struct face_list_entry));
	fle=ef->data;
	fle->next_hop_face=face_id;
	fle->route_cost=route_cost;
	//hashtb_delete(ef);
	}
	hashtb_end(ef);
	}
	else if (res == HT_NEW_ENTRY)
	{
	hashtb_delete(e);
	}

	hashtb_end(e);
	}


	void
	add_new_fib_entries_to_npt(void)
	{
	printf("add_new_fib_entries_to_npt called\n");
	int i,j, rt_element,face_list_element;

	struct routing_table_entry *rte;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->routing_table, e);
	rt_element=hashtb_n(nlsr->routing_table);

	for(i=0;i<rt_element;i++)
	{
	rte=e->data;

	struct face_list_entry *fle;

	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(rte->face_list, ef);
	face_list_element=hashtb_n(rte->face_list);
	if ( face_list_element <= 0 )
	{
	printf(" Face: No Face \n");
	}
	else
	{
	for(j=0;j<face_list_element;j++)
	{
	fle=ef->data;
	add_face_to_npt_by_face_id(rte->dest_router,fle->next_hop_face,fle->route_cost);
	hashtb_next(ef);
	}
	}
	hashtb_end(ef);

	hashtb_next(e);
	}

	hashtb_end(e);

	}


	void
	delete_face_from_npt_by_face_id(char *dest_router, int face_id)
	{
	printf("delete_face_from_npt_by_face_id called\n");

	int res,res1;
	struct npt_entry *ne;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, dest_router, strlen(dest_router), 0);

	if ( res == HT_OLD_ENTRY )
	{
	ne=e->data;

	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(ne->face_list, ef);
	res1=hashtb_seek(ef, &face_id, sizeof(face_id), 0);

	if ( res1 == HT_OLD_ENTRY )
	{
	hashtb_delete(ef);
	}
	else if ( res1 == HT_NEW_ENTRY )
	{
	hashtb_delete(ef);
	}
	hashtb_end(ef);
	}
	else if (res == HT_NEW_ENTRY)
	{
	hashtb_delete(e);
	}

	hashtb_end(e);
	}

	int
	delete_old_face_from_npt(struct ccn_schedule sched, void clienth, struct ccn_scheduled_event *ev, int flags)
	{
	if(flags == CCN_SCHEDULE_CANCEL)
	{
	return -1;
	}

	nlsr_lock();

	printf("delete_old_face_from_npt called\n");
	if ( ev->evdata != NULL )
	{
	printf("Event Data: %s \n",(char *)ev->evdata);
	char *sep="\|";
	char *rem;
	char *orig_router;
	char *faceid;
	int face_id;

	char face_data=(char )malloc(strlen((char *)ev->evdata)+1);
	memset(face_data,0,strlen((char *)ev->evdata)+1);
	memcpy(face_data+strlen(face_data),(char )ev->evdata,strlen((char )ev->evdata));

	orig_router=strtok_r(face_data,sep,&rem);
	faceid=strtok_r(NULL,sep,&rem);
	face_id=atoi(faceid);
	printf("Orig Router: %s Face: %d \n",orig_router,face_id);

	delete_face_from_npt_by_face_id(orig_router,face_id);
	}

	nlsr_unlock();

	return 0;
	}

	void
	clean_old_fib_entries_from_npt(void)
	{

	printf("clean_old_fib_entries_from_npt called\n\n");
	int i, npt_element;

	struct npt_entry *ne;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->npt, e);
	npt_element=hashtb_n(nlsr->npt);

	for(i=0;i<npt_element;i++)
	{
	ne=e->data;

	int j,k, nl_element,face_list_element;
	struct face_list_entry *fle;

	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(ne->face_list, ef);
	face_list_element=hashtb_n(ne->face_list);
	if ( face_list_element <= 0 )
	{
	printf(" Face: No Face \n");
	}
	else
	{
	for(j=0;j<face_list_element;j++)
	{
	fle=ef->data;
	int check=does_face_exist_for_router(ne->orig_router,fle->next_hop_face);
	if ( check == 0 )
	{
	struct name_list_entry *nle;
	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(ne->name_list, enle);
	nl_element=hashtb_n(ne->name_list);

	for (k=0;k<nl_element;k++)
	{
	nle=enle->data;

	//delete all the fib entries here
	if( is_neighbor(nle->name) == 0 )
	{
	printf("Deleting face: Name:%s Face: %d\n",nle->name,fle->next_hop_face);
	add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, fle->next_hop_face);
	}


	hashtb_next(enle);
	}
	hashtb_end(enle);

	char faceid[20];
	memset(faceid,0,20);
	sprintf(faceid,"%d",fle->next_hop_face);
	char evdata=(char )malloc(strlen(ne->orig_router)+strlen(faceid)+2);
	memset(evdata,0,strlen(ne->orig_router)+strlen(faceid)+2);
	memcpy(evdata+strlen(evdata),ne->orig_router,strlen(ne->orig_router));
	memcpy(evdata+strlen(evdata),"\|",1);
	memcpy(evdata+strlen(evdata),faceid,strlen(faceid));

	nlsr->event = ccn_schedule_event(nlsr->sched, 1, &delete_old_face_from_npt, (void *)evdata, 0);

	}

	hashtb_next(ef);
	}
	}
	hashtb_end(ef);


	hashtb_next(e);
	}

	hashtb_end(e);

	}

	void
	update_npt_with_new_route(void)
	{
	clean_old_fib_entries_from_npt();
	add_new_fib_entries_to_npt();

	int i, npt_element;

	struct npt_entry *ne;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->npt, e);
	npt_element=hashtb_n(nlsr->npt);

	for(i=0;i<npt_element;i++)
	{

	ne=e->data;
	update_ccnd_fib_for_orig_router(ne->orig_router);
	hashtb_next(e);
	}

	hashtb_end(e);
	}



	void
	sort_faces_by_distance(int faces,int route_costs,int start,int element)
	{
	int i,j;
	int temp_cost;
	int temp_face;

	for ( i=start ; i < element ; i ++)
	{
	for( j=i+1; j<element; j ++)
	{
	if (route_costs[j] < route_costs[i] )
	{
	temp_cost=route_costs[j];
	route_costs[j]=route_costs[i];
	route_costs[i]=temp_cost;

	temp_face=faces[j];
	faces[j]=faces[i];
	faces[i]=temp_face;
	}
	}
	}

	}

	void
	get_all_faces_for_orig_router_from_npt(char orig_router, int faces, int *route_costs, int num_faces)
	{

	int res,face_list_element,j;
	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;


	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

	if(res == HT_NEW_ENTRY)
	{
	hashtb_delete(e);
	}
	else if ( res == HT_OLD_ENTRY )
	{
	struct npt_entry *ne;
	ne=e->data;

	struct face_list_entry *fle;

	struct hashtb_enumerator eef;
	struct hashtb_enumerator *ef = &eef;

	hashtb_start(ne->face_list, ef);
	face_list_element=hashtb_n(ne->face_list);
	for(j=0;j<face_list_element;j++)
	{
	fle=ef->data;
	faces[j]=fle->next_hop_face;
	route_costs[j]=fle->route_cost;
	hashtb_next(ef);
	}
	hashtb_end(ef);


	}
	hashtb_end(e);

	}

	void
	destroy_faces_by_orig_router(char *orig_router)
	{

	int res;
	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;


	hashtb_start(nlsr->npt, e);
	res = hashtb_seek(e, orig_router, strlen(orig_router), 0);

	if(res == HT_NEW_ENTRY)
	{
	hashtb_delete(e);
	}
	else if ( res == HT_OLD_ENTRY )
	{
	struct npt_entry *ne;
	ne=e->data;
	int num_face=hashtb_n(ne->face_list);
	int last_face,first_face;

	int faces=(int )malloc(num_face*sizeof(int));
	int route_costs=(int )malloc(num_face*sizeof(int));

	get_all_faces_for_orig_router_from_npt(orig_router,faces,route_costs,num_face);
	sort_faces_by_distance(faces,route_costs,0,num_face);


	first_face=num_face-1;

	if ( nlsr->multi_path_face_num == 0 )
	{
	last_face=first_face;
	}
	else
	{
	if ( num_face <= nlsr->multi_path_face_num)
	{
	last_face=0;
	}
	else if ( nlsr->multi_path_face_num == 0)
	{
	last_face=num_face-nlsr->multi_path_face_num;
	}
	}

	int i,j, nl_element;
	struct name_list_entry *nle;
	struct hashtb_enumerator eenle;
	struct hashtb_enumerator *enle = &eenle;

	hashtb_start(ne->name_list, enle);
	nl_element=hashtb_n(ne->name_list);

	for (i=0;i<nl_element;i++)
	{
	nle=enle->data;

	for( j=first_face; j>= last_face; j--)
	{
	if ( j == last_face )
	{
	if( is_neighbor(nle->name) == 0 )
	{
	printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
	add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
	}
	}
	else
	{
	if ( num_face-nlsr->multi_path_face_num > 0 && is_neighbor(orig_router) == 0 )
	{
	printf("Deleting face: Name:%s Face: %d\n",nle->name,faces[j]);
	add_delete_ccn_face_by_face_id(nlsr->ccn, (const char *)nle->name, OP_UNREG, faces[j]);
	}
	}
	}

	hashtb_next(enle);
	}
	hashtb_end(enle);



	free(faces);
	free(route_costs);

	}
	hashtb_end(e);

	}

	void
	destroy_all_face_by_nlsr(void)
	{
	int i, npt_element;

	struct npt_entry *ne;

	struct hashtb_enumerator ee;
	struct hashtb_enumerator *e = &ee;

	hashtb_start(nlsr->npt, e);
	npt_element=hashtb_n(nlsr->npt);

	for(i=0;i<npt_element;i++)
	{
	ne=e->data;
	destroy_faces_by_orig_router(ne->orig_router);
	hashtb_next(e);
	}

	hashtb_end(e);

	printf("\n");
	}