blob: 53652b50be5ecfd2616d77710e615a9d1a46bf35 [file] [log] [blame]
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <getopt.h>
#include <sys/time.h>
#include <sys/stat.h>
#include <assert.h>
#include <sys/types.h>
#include <signal.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <fcntl.h>
#include <sys/ioctl.h>
#include <netinet/in.h>
#include <netdb.h>
#include <arpa/inet.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 <ccn/sync.h>
#include <ccn/seqwriter.h>
#include "nlsr.h"
#include "nlsr_sync.h"
#include "nlsr_lsdb.h"
#include "utility.h"
#include "nlsr_km.h"
char *
hex_string(unsigned char *s, size_t l)
{
const char *hex_digits = "0123456789abcdef";
char *r;
int i;
r = calloc(1, 1 + 2 * l);
for (i = 0; i < l; i++) {
r[2*i] = hex_digits[(s[i]>>4) & 0xf];
r[1+2*i] = hex_digits[s[i] & 0xf];
}
return(r);
}
int
sync_cb(struct ccns_name_closure *nc,
struct ccn_charbuf *lhash,
struct ccn_charbuf *rhash,
struct ccn_charbuf *name)
{
int res;
struct ccn_charbuf *content_name;
struct ccn_indexbuf *content_comps;
struct ccn_indexbuf *name_comps;
content_comps = ccn_indexbuf_create();
res = ccn_name_split(name, content_comps);
if ( res < 0 )
return 0;
if (content_comps->n < 2)
return 0;
content_name = ccn_charbuf_create();
ccn_name_init(content_name);
res = ccn_name_append_components( content_name, name->buf,
content_comps->buf[0], content_comps->buf[content_comps->n - 1]);
if ( res < 0)
return 0;
// for debugging
struct ccn_charbuf *temp=ccn_charbuf_create();
ccn_uri_append(temp, content_name->buf, content_name->length, 0);
if ( nlsr->debugging )
printf("Name before chopping: %s \n",ccn_charbuf_as_string(temp));
ccn_charbuf_destroy(&temp);
name_comps = ccn_indexbuf_create();
res=ccn_name_split (content_name, name_comps);
if (res < 0)
return 0;
if ( nlsr->debugging )
{
printf("Number of components in name = %d \n",res);
printf("Number of components in name as indexbuf->n = %d \n",
(int)name_comps->n);
}
ccn_name_chop(content_name, name_comps, -3);
if ( nlsr->debugging )
printf("Number of components in name as indexbuf->n after chopping= %d \n"
, (int)name_comps->n);
//for debugging
struct ccn_charbuf *temp1=ccn_charbuf_create();
ccn_uri_append(temp1, content_name->buf, content_name->length, 0);
if ( nlsr->debugging )
printf("Name after chopping: %s \n",ccn_charbuf_as_string(temp1));
ccn_charbuf_destroy(&temp1);
//main method that processes contents from the sync
process_content_from_sync(content_name, name_comps);
ccn_charbuf_destroy(&content_name);
ccn_indexbuf_destroy(&content_comps);
ccn_indexbuf_destroy(&name_comps);
return(0);
}
void
get_name_part(struct name_prefix *name_part,struct ccn_charbuf * interest_ccnb,
struct ccn_indexbuf *interest_comps, int offset)
{
int lsa_position=0;
struct ccn_indexbuf *components=ccn_indexbuf_create();
struct ccn_charbuf *name=ccn_charbuf_create();
ccn_name_from_uri(name,nlsr->slice_prefix);
ccn_name_split (name, components);
lsa_position=components->n-2;
ccn_charbuf_destroy(&name);
struct ccn_charbuf *temp=ccn_charbuf_create();
ccn_name_init(temp);
ccn_name_append_components( temp, interest_ccnb->buf,
interest_comps->buf[lsa_position+1], interest_comps->buf[interest_comps->n - 1]);
struct ccn_charbuf *temp1=ccn_charbuf_create();
ccn_uri_append(temp1, temp->buf, temp->length, 0);
name_part->name=(char *)calloc(strlen(ccn_charbuf_as_string(temp1))+1,sizeof(char));
memcpy(name_part->name,ccn_charbuf_as_string(temp1),strlen(ccn_charbuf_as_string(temp1)));
name_part->name[strlen(ccn_charbuf_as_string(temp1))]='\0';
name_part->length=strlen(ccn_charbuf_as_string(temp1))+1;
ccn_charbuf_destroy(&temp1);
ccn_charbuf_destroy(&temp);
ccn_indexbuf_destroy(&components);
if ( nlsr->debugging )
printf("Name Part: %s \n",name_part->name);
}
void
get_content_by_content_name(char *content_name, unsigned char **content_data)
{
struct ccn_charbuf *name = NULL;
struct ccn_charbuf *templ = NULL;
struct ccn_charbuf *resultbuf = NULL;
struct ccn_parsed_ContentObject pcobuf = { 0 };
int res;
int allow_stale = 0;
int content_only = 1;
int scope = -1;
const unsigned char *ptr;
size_t length;
int resolve_version = CCN_V_HIGHEST;
int timeout_ms = 3000;
const unsigned lifetime_default = CCN_INTEREST_LIFETIME_SEC << 12;
unsigned lifetime_l12 = lifetime_default;
int get_flags = 0;
name = ccn_charbuf_create();
res = ccn_name_from_uri(name,content_name);
if (res < 0) {
fprintf(stderr, "Bad ccn URI: %s\n", content_name);
exit(1);
}
if (allow_stale || lifetime_l12 != lifetime_default || scope != -1) {
templ = ccn_charbuf_create();
ccn_charbuf_append_tt(templ, CCN_DTAG_Interest, CCN_DTAG);
ccn_charbuf_append_tt(templ, CCN_DTAG_Name, CCN_DTAG);
ccn_charbuf_append_closer(templ); /* </Name> */
if (allow_stale) {
ccn_charbuf_append_tt(templ, CCN_DTAG_AnswerOriginKind, CCN_DTAG);
ccnb_append_number(templ,
CCN_AOK_DEFAULT | CCN_AOK_STALE);
ccn_charbuf_append_closer(templ); /* </AnswerOriginKind> */
}
if (scope != -1) {
ccnb_tagged_putf(templ, CCN_DTAG_Scope, "%d", scope);
}
if (lifetime_l12 != lifetime_default) {
/*
* Choose the interest lifetime so there are at least 3
* expressions (in the unsatisfied case).
*/
unsigned char buf[3] = { 0 };
int i;
for (i = sizeof(buf) - 1; i >= 0; i--, lifetime_l12 >>= 8)
buf[i] = lifetime_l12 & 0xff;
ccnb_append_tagged_blob(templ, CCN_DTAG_InterestLifetime, buf,
sizeof(buf));
}
ccn_charbuf_append_closer(templ); /* </Interest> */
}
resultbuf = ccn_charbuf_create();
if (resolve_version != 0) {
res = ccn_resolve_version(nlsr->ccn, name, resolve_version, 500);
if (res >= 0) {
ccn_uri_append(resultbuf, name->buf, name->length, 1);
resultbuf->length = 0;
}
}
res = ccn_get(nlsr->ccn, name, templ, timeout_ms, resultbuf, &pcobuf, NULL,
get_flags);
if (res >= 0) {
ptr = resultbuf->buf;
length = resultbuf->length;
if (content_only){
ccn_content_get_value(ptr, length, &pcobuf, &ptr, &length);
*content_data = (unsigned char *) calloc(length, sizeof(char *));
memcpy (*content_data, ptr, length);
}
}
ccn_charbuf_destroy(&resultbuf);
ccn_charbuf_destroy(&templ);
ccn_charbuf_destroy(&name);
}
void
process_incoming_sync_content_lsa( unsigned char *content_data)
{
if ( nlsr->debugging )
printf("process_incoming_sync_content_lsa called \n");
char *sep="|";
char *rem;
char *orig_router;
char *orl;
int orig_router_length;
char *lst;
int ls_type;
char *lsid;
long int ls_id;
char *isvld;
int isValid;
char *num_link;
int no_link;
char *np;
char *np_length;
int name_length;
char *data;
char *orig_time;
if ( nlsr->debugging )
printf("LSA Data \n");
if( strlen((char *)content_data ) > 0 )
{
orig_router=strtok_r((char *)content_data,sep,&rem);
orl=strtok_r(NULL,sep,&rem);
orig_router_length=atoi(orl);
if ( nlsr->debugging )
{
printf(" Orig Router Name : %s\n",orig_router);
printf(" Orig Router Length: %d\n",orig_router_length);
}
lst=strtok_r(NULL,sep,&rem);
ls_type=atoi(lst);
if ( nlsr->debugging )
printf(" LS Type : %d\n",ls_type);
if ( ls_type == LS_TYPE_NAME )
{
lsid=strtok_r(NULL,sep,&rem);
ls_id=atoi(lsid);
orig_time=strtok_r(NULL,sep,&rem);
isvld=strtok_r(NULL,sep,&rem);
isValid=atoi(isvld);
np=strtok_r(NULL,sep,&rem);
np_length=strtok_r(NULL,sep,&rem);
name_length=atoi(np_length);
if ( nlsr->debugging )
{
printf(" LS ID : %ld\n",ls_id);
printf(" isValid : %d\n",isValid);
printf(" Name Prefix : %s\n",np);
printf(" Orig Time : %s\n",orig_time);
printf(" Name Prefix length: %d\n",name_length);
}
build_and_install_others_name_lsa(orig_router,ls_type,ls_id,orig_time,isValid,np);
print_name_lsdb();
}
else if ( ls_type == LS_TYPE_ADJ )
{
orig_time=strtok_r(NULL,sep,&rem);
num_link=strtok_r(NULL,sep,&rem);
no_link=atoi(num_link);
data=rem;
if ( nlsr->debugging )
{
printf(" Orig Time : %s\n",orig_time);
printf(" No Link : %d\n",no_link);
printf(" Data : %s\n",data);
}
build_and_install_others_adj_lsa(orig_router,ls_type,orig_time,no_link,data);
}
else if ( ls_type == LS_TYPE_COR )
{
orig_time=strtok_r(NULL,sep,&rem);
char *cor_r=strtok_r(NULL,sep,&rem);
char *cor_theta=strtok_r(NULL,sep,&rem);
double r, theta;
r=strtod(cor_r,NULL);
theta=strtod(cor_theta,NULL);
if ( nlsr->debugging )
{
printf(" Orig Time : %s\n",orig_time);
printf(" Cor R : %f\n",r);
printf(" Cor Theta : %f\n",theta);
}
build_and_install_others_cor_lsa(orig_router,ls_type,orig_time, (double)r, (double)theta);
}
}
}
void
process_content_from_sync (struct ccn_charbuf *content_name,
struct ccn_indexbuf *components)
{
if (nlsr->debugging)
printf("process_content_from_sync called \n");
size_t comp_size;
char *lst;
char *lsid;
const unsigned char *second_last_comp;
const unsigned char *third_last_comp;
const unsigned char *origtime;
char *sep=".";
char *rem;
char *second_comp_type;
int ls_type;
long int ls_id=0;
unsigned char *content_data = NULL;
char *time_stamp=get_current_timestamp_micro_v2();
struct ccn_charbuf *uri = ccn_charbuf_create();
ccn_uri_append(uri, content_name->buf, content_name->length, 0);
struct name_prefix *orig_router=(struct name_prefix *)
calloc( 1, sizeof(struct name_prefix));
ccn_name_comp_get( content_name->buf, components,
components->n-1-2, &second_last_comp, &comp_size);
if (nlsr->debugging)
printf("2nd Last Component: %s \n", second_last_comp);
second_comp_type=strtok_r((char *)second_last_comp, sep, &rem);
if (second_comp_type == NULL || rem == NULL)
{
printf ("Error: unable to tokenize the string: %s, calling exit()\n",
(char *)second_last_comp);
exit(0);
}
if ( strcmp( second_comp_type, "lsId" ) == 0 )
{
lsid=rem;
ls_id=atoi(rem);
ccn_name_comp_get(content_name->buf, components,components->n-2-2,&third_last_comp, &comp_size);
lst=strtok_r((char *)third_last_comp,sep,&rem);
lst=rem;
ls_type=atoi(lst);
ccn_name_comp_get(content_name->buf, components,components->n-2,&origtime, &comp_size);
ccn_name_chop(content_name,components,-3);
get_name_part(orig_router,content_name,components,0);
if ( nlsr->debugging )
printf("Orig Router: %s Ls Type: %d Ls id: %ld Orig Time: %s\n",orig_router->name,ls_type,ls_id,origtime);
int lsa_life_time=get_time_diff(time_stamp,(char *)origtime);
if ( nlsr->debugging )
printf("LSA Life time: %d\n",lsa_life_time);
if ( (strcmp(orig_router->name,nlsr->router_name) == 0 && lsa_life_time < nlsr->lsa_refresh_time)
|| (strcmp(orig_router->name,nlsr->router_name) != 0 && lsa_life_time < nlsr->router_dead_interval) )
{
int is_new_name_lsa=check_is_new_name_lsa(orig_router->name,(char *)lst,(char *)lsid,(char *)origtime);
if ( is_new_name_lsa == 1 )
{
if ( nlsr->debugging )
printf("New NAME LSA.....\n");
get_content_by_content_name(ccn_charbuf_as_string(uri), &content_data);
if ( nlsr->debugging )
printf("Content Data: %s \n",content_data);
process_incoming_sync_content_lsa(content_data);
}
else
{
if ( nlsr->debugging )
printf("Name LSA / Newer Name LSA already xists in LSDB\n");
get_content_by_content_name(ccn_charbuf_as_string(uri), &content_data);
if ( nlsr->debugging )
printf("Content Data: %s \n",content_data);
}
}
else
{
if ( nlsr->debugging )
printf("Lsa is older than Router LSA refresh time/ Dead Interval\n");
}
}
else
{
ls_type=atoi(rem);
lst=rem;
if(ls_type == LS_TYPE_ADJ)
{
ccn_name_comp_get(content_name->buf, components,components->n-2,
&origtime, &comp_size);
ccn_name_chop(content_name,components,-2);
get_name_part(orig_router,content_name,components,0);
if ( nlsr->debugging )
printf("Orig Router: %s Ls Type: %d Orig Time: %s\n",
orig_router->name,ls_type,origtime);
int lsa_life_time=get_time_diff(time_stamp,(char *)origtime);
if ( nlsr->debugging )
printf("LSA Life time: %d\n",lsa_life_time);
if ( (strcmp(orig_router->name,nlsr->router_name) == 0 &&
lsa_life_time < nlsr->lsa_refresh_time) ||
(strcmp(orig_router->name,nlsr->router_name) != 0 &&
lsa_life_time < nlsr->router_dead_interval) )
{
int is_new_adj_lsa = check_is_new_adj_lsa( orig_router->name,
(char *)lst, (char *)origtime);
if ( is_new_adj_lsa == 1 )
{
if ( nlsr->debugging )
printf("New Adj LSA.....\n");
get_content_by_content_name(ccn_charbuf_as_string(uri), &content_data);
if ( nlsr->debugging )
printf("Content Data: %s \n",content_data);
process_incoming_sync_content_lsa(content_data);
}
else
{
if ( nlsr->debugging )
printf("Adj LSA / Newer Adj LSA already exists in LSDB\n");
get_content_by_content_name(ccn_charbuf_as_string(uri), &content_data);
if ( nlsr->debugging )
printf("Content Data: %s \n",content_data);
}
}
else
{
if ( nlsr->debugging )
printf("Lsa is older than Router LSA refresh time/ Dead Interval\n");
}
}
else if(ls_type == LS_TYPE_COR)
{
ccn_name_comp_get(content_name->buf, components, components->n-2,
&origtime, &comp_size);
ccn_name_chop(content_name,components,-2);
get_name_part(orig_router,content_name,components,0);
if ( nlsr->debugging )
printf("Orig Router: %s Ls Type: %d Orig Time: %s\n",
orig_router->name,ls_type,origtime);
int lsa_life_time=get_time_diff(time_stamp,(char *)origtime);
if ( nlsr->debugging )
printf("LSA Life time: %d\n",lsa_life_time);
if ( (strcmp(orig_router->name,nlsr->router_name) == 0 &&
lsa_life_time < nlsr->lsa_refresh_time) ||
(strcmp(orig_router->name,nlsr->router_name) != 0 &&
lsa_life_time < nlsr->router_dead_interval) )
{
int is_new_cor_lsa=check_is_new_cor_lsa( orig_router->name,
(char *)lst,(char *) origtime);
if ( is_new_cor_lsa == 1 )
{
if ( nlsr->debugging )
printf("New Cor LSA.....\n");
get_content_by_content_name(ccn_charbuf_as_string(uri),
&content_data);
if ( nlsr->debugging )
printf("Content Data: %s \n",content_data);
process_incoming_sync_content_lsa(content_data);
}
else
{
if ( nlsr->debugging )
printf("Cor LSA / Newer Cor LSA already exists in LSDB\n");
get_content_by_content_name(ccn_charbuf_as_string(uri), &content_data);
if ( nlsr->debugging )
printf("Content Data: %s \n",content_data);
}
}
else
{
if ( nlsr->debugging )
printf("Lsa is older than Router LSA refresh time/ Dead Interval\n");
}
}
}
if (orig_router->name)
free(orig_router->name);
if (orig_router)
free(orig_router);
ccn_charbuf_destroy(&uri);
//01/31/2013
free(time_stamp);
}
int
sync_monitor(char *topo_prefix, char *slice_prefix)
{
struct ccn_charbuf *prefix = ccn_charbuf_create();
struct ccn_charbuf *topo = ccn_charbuf_create();
nlsr->closure=(struct ccns_name_closure *)
calloc(1,sizeof(struct ccns_name_closure)); // leak
nlsr->slice = ccns_slice_create();
ccn_charbuf_reset(prefix);
ccn_name_from_uri(prefix, slice_prefix);
ccn_charbuf_reset(topo);
ccn_name_from_uri(topo, topo_prefix);
ccns_slice_set_topo_prefix(nlsr->slice, topo, prefix);
nlsr->closure->callback = &sync_cb;
nlsr->ccns = ccns_open(nlsr->ccn, nlsr->slice, nlsr->closure, NULL, NULL);
ccn_charbuf_destroy(&prefix);
ccn_charbuf_destroy(&topo);
return 0;
}
struct ccn_charbuf *
make_template(int scope)
{
struct ccn_charbuf *templ = NULL;
templ = ccn_charbuf_create();
ccn_charbuf_append_tt(templ, CCN_DTAG_Interest, CCN_DTAG);
ccn_charbuf_append_tt(templ, CCN_DTAG_Name, CCN_DTAG);
ccn_charbuf_append_closer(templ); /* </Name> */
if (0 <= scope && scope <= 2)
ccnb_tagged_putf(templ, CCN_DTAG_Scope, "%d", scope);
ccn_charbuf_append_closer(templ); /* </Interest> */
return(templ);
}
int
write_data_to_repo(char *data, char *name_prefix)
{
if ( nlsr->debugging )
{
printf("write_data_to_repo called\n");
printf("Content Name: %s \n",name_prefix);
printf("Content Data: %s \n",data);
}
struct ccn *temp_ccn;
temp_ccn=ccn_create();
int ccn_fd=ccn_connect(temp_ccn, NULL);
if(ccn_fd == -1)
{
fprintf(stderr,"Could not connect to ccnd for Data Writing\n");
writeLogg(__FILE__,__FUNCTION__,__LINE__,
"Could not connect to ccnd for Data Writing\n");
return -1;
}
struct ccn_charbuf *name = NULL;
struct ccn_seqwriter *w = NULL;
int blocksize = 4096;
int freshness = -1;
int scope = 1;
int res;
size_t blockread;
struct ccn_charbuf *templ;
name = ccn_charbuf_create();
res = ccn_name_from_uri(name, name_prefix);
if (res < 0) {
fprintf(stderr, "bad CCN URI: %s\n",name_prefix);
return -1;
}
w = ccn_seqw_create(temp_ccn, name);
if (w == NULL) {
fprintf(stderr, "ccn_seqw_create failed\n");
return -1;
}
ccn_seqw_set_block_limits(w, blocksize, blocksize);
if (freshness > -1)
ccn_seqw_set_freshness(w, freshness);
struct ccn_charbuf *name_v = ccn_charbuf_create();
ccn_seqw_get_name(w, name_v);
ccn_name_from_uri(name_v, "%C1.R.sw");
ccn_name_append_nonce(name_v);
templ = make_template(scope);
res = ccn_get(temp_ccn, name_v, templ, 60000, NULL, NULL, NULL, 0);
ccn_charbuf_destroy(&templ);
ccn_charbuf_destroy(&name_v);
if (res < 0) {
fprintf(stderr, "No response from repository\n");
return -1;
}
blockread = 0;
blockread=strlen(data)+1;
if (blockread > 0) {
res = ccn_seqw_write(w, data, blockread);
while (res == -1) {
ccn_run(temp_ccn,100);
res = ccn_seqw_write(w, data, blockread);
}
}
ccn_seqw_close(w);
ccn_run(temp_ccn, 100);
ccn_charbuf_destroy(&name);
ccn_destroy(&temp_ccn);
return 0;
}
int
create_sync_slice(char *topo_prefix, char *slice_prefix)
{
int res;
struct ccn *handle; //obaid: probably we don't need it use the same handle i.e. nlsr->ccn
struct ccns_slice *slice;
struct ccn_charbuf *prefix = ccn_charbuf_create();
struct ccn_charbuf *topo = ccn_charbuf_create();
struct ccn_charbuf *clause = ccn_charbuf_create();
struct ccn_charbuf *slice_name = ccn_charbuf_create();
struct ccn_charbuf *slice_uri = ccn_charbuf_create();
if (prefix == NULL || topo == NULL || clause == NULL ||
slice_name == NULL || slice_uri == NULL) {
fprintf(stderr, "Unable to allocate required memory.\n");
return -1;
}
handle = ccn_create();
res = ccn_connect(handle, NULL);
if (0 > res) {
fprintf(stderr, "Unable to connect to ccnd.\n");
return -1;
}
slice = ccns_slice_create();
ccn_charbuf_reset(topo);
ccn_name_from_uri(topo, topo_prefix);
ccn_charbuf_reset(prefix);
ccn_name_from_uri(prefix,slice_prefix );
ccns_slice_set_topo_prefix(slice, topo, prefix);
res = ccns_write_slice(handle, slice, slice_name);
//res = ccns_write_slice(nlsr->ccn, slice, slice_name);
//01/31/2013
ccns_slice_destroy(&slice);
ccn_destroy(&handle);
ccn_charbuf_destroy(&prefix);
ccn_charbuf_destroy(&topo);
ccn_charbuf_destroy(&clause);
ccn_charbuf_destroy(&slice_name);
ccn_charbuf_destroy(&slice_uri);
return 0;
}