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/*
* ** dnsmap - DNS Network Mapper by pagvac
* ** Copyright (C) 2010 gnucitizen.org
* **
* ** This program is free software; you can redistribute it and/or modify
* ** it under the terms of the GNU General Public License as published by
* ** the Free Software Foundation; either version 2 of the License, or
* ** (at your option) any later version.
* **
* ** This program is distributed in the hope that it will be useful,
* ** but WITHOUT ANY WARRANTY; without even the implied warranty of
* ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* ** GNU General Public License for more details.
* **
* ** You should have received a copy of the GNU General Public License
* ** along with this program; if not, write to the Free Software
* ** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
* */
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <netdb.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include <ctype.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include "dnsmap.h" // built-in subdomains list and define macros
// function prototypes
unsigned short int wildcarDetect(char *, char *);
unsigned short int dodelay(unsigned short int);
unsigned short int isPrivateIP(char *);
unsigned short int isValidDomain(char *);
unsigned short int usesOpenDNS(char *);
unsigned short int isIPblacklisted(char *);
int main(int argc, char *argv[]) {
unsigned short int i=0, j=0, k=0, l=0, found=0, ipCount=0, filtIPcount=0, milliseconds=10, intIPcount=0,
wordlist=FALSE, txtResults=FALSE, csvResults=FALSE,
delay=TRUE, filter=FALSE;
unsigned long int start=0, end=0;
char dom[MAXSTRSIZE]={'\0'}, csvResultsFilename[MAXSTRSIZE]={'\0'},
txtResultsFilename[MAXSTRSIZE]={'\0'}, wordlistFilename[MAXSTRSIZE]={'\0'},
ipstr[INET_ADDRSTRLEN]={'\0'}, wildcardIpStr[INET_ADDRSTRLEN]={'\0'},
filterIPs[5][INET_ADDRSTRLEN]={{'\0'}},
invalidTldIpstr[INET_ADDRSTRLEN]={'\0'};
void *addr;
char *ipver, *strP;
struct hostent *h;
// start of IPv6 stuff
struct addrinfo hints, *res, *p;
int status;
char ipv6str[INET6_ADDRSTRLEN];
memset(&hints, 0, sizeof hints);
hints.ai_family = AF_INET6; // AF_INET or AF_INET6 to force version
hints.ai_socktype = SOCK_STREAM;
// end of IPv6 stuff
FILE *fpWords,*fpCsvLogs,*fpTxtLogs;
time_t now;
struct tm *ts;
char timestampBuf[18];
printf("%s", BANNER);
// get the current time
now = time(NULL);
// timestamp format: yyyy_mm_dd_hhmmss
ts = localtime(&now);
strftime(timestampBuf, sizeof(timestampBuf), "%Y_%m_%d_%H%M%S", ts);
// start of *primitive* input validation
// ideally more work should be spent on this!
if(argc==1) {
printf("%s%s", USAGE, EXAMPLES);
exit(1);
}
else if(argc%2==1 && argc>2) {
printf("%s%s", USAGE, EXAMPLES);
exit(1);
}
for(i=0;argv[1][i];++i) // convert domain to lower case
argv[1][i]=(tolower(argv[1][i]));
#if DEBUG
printf("domain: %s\n", argv[1]);
#endif
if(!isValidDomain(argv[1])) {
printf("%s", DOMAINERR);
exit(1);
}
for(i=0;i<argc;++i) {
if((strlen(argv[i]))>MAXSTRSIZE) {
printf("%s",INPUTERR);
exit(1);
}
}
// end of simple input validation
/*
else if ((h=gethostbyname(argv[1])) == NULL) { // get the host info
herror("gethostbyname");
exit(1);
}
*/
start=(int)time(NULL);
#if DEBUG
printf("start time: %d\n", (int)start);
#endif
// parse options
for(i=0;i<argc;++i) {
// save results in file using regular format
if(!strcmp(argv[i],"-r")) {
// contruct path where txt results file will be created
txtResults=TRUE;
//strncpy(csvResultsFilename, argv[(i+1)], MAXSTRSIZE);
strncpy(txtResultsFilename, argv[(i+1)], MAXSTRSIZE-strlen(txtResultsFilename)-1);
fpTxtLogs=fopen(txtResultsFilename, "a");
if(!fpTxtLogs) {
strncat(txtResultsFilename, "dnsmap_", MAXSTRSIZE-strlen(txtResultsFilename)-1);
strncat(txtResultsFilename, argv[1], MAXSTRSIZE-strlen(txtResultsFilename)-1);
strncat(txtResultsFilename, "_", MAXSTRSIZE-strlen(txtResultsFilename)-1);
strncat(txtResultsFilename, timestampBuf, MAXSTRSIZE-strlen(txtResultsFilename)-1);
// replace dots '.' with underscores '_' in filename
for(l=0;l<strlen(txtResultsFilename);++l)
if(txtResultsFilename[l]=='.')
txtResultsFilename[l]='_';
strncat(txtResultsFilename, ".txt", MAXSTRSIZE-strlen(txtResultsFilename)-1);
fpTxtLogs=fopen(txtResultsFilename, "a");
if(!fpTxtLogs) {
printf(CREATEFILEERR);
exit(1);
}
}
}
// save results in file using CSV format
if(!strcmp(argv[i],"-c")) {
// contruct path where CSV results file will be created
csvResults=TRUE;
strncpy(csvResultsFilename, argv[(i+1)], MAXSTRSIZE-strlen(csvResultsFilename)-1);
fpCsvLogs=fopen(csvResultsFilename, "a");
if(!fpCsvLogs) {
strncat(csvResultsFilename, "dnsmap_", MAXSTRSIZE-strlen(csvResultsFilename)-1);
strncat(csvResultsFilename, argv[1], MAXSTRSIZE-strlen(csvResultsFilename)-1);
strncat(csvResultsFilename, "_", MAXSTRSIZE-strlen(csvResultsFilename)-1);
strncat(csvResultsFilename, timestampBuf, MAXSTRSIZE-strlen(csvResultsFilename)-1);
// replace dots '.' with underscores '_' in filename
for(l=0;l<strlen(csvResultsFilename);++l)
if(csvResultsFilename[l]=='.')
csvResultsFilename[l]='_';
strncat(csvResultsFilename, ".csv", MAXSTRSIZE-strlen(csvResultsFilename)-1);
fpCsvLogs=fopen(csvResultsFilename, "a");
if(!fpCsvLogs) {
printf(CREATEFILEERR);
exit(1);
}
}
}
// use provided wordlist as opposed to built-in one
if(!strcmp(argv[i],"-w")) {
wordlist=TRUE;
strncpy(wordlistFilename, argv[(i+1)],MAXSTRSIZE);
}
// delay between subdomain resolution requests
if(!strcmp(argv[i],"-d")) {
if(atoi(argv[(i+1)])<1 || atoi(argv[(i+1)])>300000) { // delay must be between 1 ms and 5 minutes
printf("%s", DELAYINPUTERR);
exit(1);
}
delay=TRUE;
milliseconds=atoi(argv[(i+1)]);
}
// filter out user-provided IP(s)
if(!strcmp(argv[i],"-i")) {
for(filtIPcount=1,j=0;argv[i+1][j]!='\0';++j)
if(argv[i+1][j]==',')
++filtIPcount;
#if DEBUG
printf("%d IP(s) to filter found\nParsing ...\n", filtIPcount);
#endif
if(filtIPcount<=5) {
printf(FILTERMSG);
strP=strtok(argv[i+1],",");
for(j=0;strP;) {
if(strlen(strP)<INET_ADDRSTRLEN) {
strncpy(filterIPs[j],strP,INET_ADDRSTRLEN);
#if DEBUG
printf("%s\n",filterIPs[j]);
#endif
++j;
}
strP=strtok(NULL," ,");
}
}
else {
printf(FILTIPINPUTERR);
exit(1);
}
}
}
// read subdomains from built-in list
if(!wordlist) {
// openDNS detection
if(usesOpenDNS(invalidTldIpstr))
printf("%s",OPENDNSMSG);
// wildcard detection
wildcarDetect(argv[1],wildcardIpStr);
if(strcmp(invalidTldIpstr,wildcardIpStr))
printf(WILDCARDWARN);
printf(BUILTINMSG);
if(milliseconds>=1)
printf(DELAYMSG);
printf("%s", "\n");
for(i=0;i<(sizeof(sub)/MAXSUBSIZE);++i) {
//skipResolve=FALSE;
strncpy(dom,sub[i],MAXSTRSIZE-strlen(dom)-1);
strncat(dom,".",MAXSTRSIZE-strlen(dom)-1);//TEST
strncat(dom,argv[1],MAXSTRSIZE-strlen(dom)-1);
#if DEBUG
printf("brute-forced domain: %s\n",dom);
#endif
// ipv6 code modded from www.kame.net
status = getaddrinfo(dom, NULL, &hints, &res);
if ((status=getaddrinfo(dom, NULL, &hints, &res))==0) {
printf("%s\n", dom);
++found;
if(txtResults)
fprintf(fpTxtLogs, "%s\n", dom);
if(csvResults)
fprintf(fpCsvLogs, "%s", dom);
for(p=res,k=0;p;p=p->ai_next,++k) {
if (p->ai_family==AF_INET6) { // IPv6
struct sockaddr_in6 *ipv6=(struct sockaddr_in6 *)p->ai_addr;
addr = &(ipv6->sin6_addr);
ipver = "IPv6";
}
// convert the IP to a string and print it:
inet_ntop(p->ai_family, addr, ipv6str, sizeof ipv6str);
printf("%s address #%d: %s\n",ipver,k+1,ipv6str);
++ipCount;
if(txtResults)
fprintf(fpTxtLogs,"%s address #%d: %s\n",ipver,k+1,ipv6str);
if(csvResults)
fprintf(fpCsvLogs,",%s", ipv6str);
}
printf("%s", "\n");
if(txtResults)
fprintf(fpTxtLogs,"\n");
if(csvResults)
fprintf(fpCsvLogs,"\n");
freeaddrinfo(res); // free the linked list
} // end of if conditional
h=gethostbyname(dom);
//sprintf(ipstr,inet_ntoa(*((struct in_addr *)h->h_addr_list[0])),"%s");
//for(j=0;h->h_addr_list[j];++j) {
// sprintf(ipstr,inet_ntoa(*((struct in_addr *)h->h_addr_list[j])),"%s");
// if(isIPblacklisted(ipstr)) {
// skipResolve=TRUE;
// break;
// }
//}
//if(h && !skipResolve) {
//if(h && !isIPblacklisted(ipstr)) {
if(h && !isIPblacklisted(inet_ntoa(*((struct in_addr *)h->h_addr_list[0])))) {
for(j=0;h->h_addr_list[j];++j) {
sprintf(ipstr,inet_ntoa(*((struct in_addr *)h->h_addr_list[j])),"%s");
for(k=0;k<filtIPcount;++k) {
if(strcmp(filterIPs[k],ipstr)==0) { // filtered IP found
// 1st IP of array - weird output formatting bug
if(j!=0 && strcmp(wildcardIpStr,filterIPs[k])) {
printf("\n");
if(txtResults)
fprintf(fpTxtLogs, "%s", "\n");
if(csvResults)
fprintf(fpCsvLogs, "%s", "\n");
}
#if DEBUG
printf("%s found and ignored\n",filterIPs[k]);
#endif
filter=TRUE;
if(h->h_addr_list[j+1])
++j;
else
break;
}
}
// END OF TEST
//if(strcmp(wildcardIpStr,ipstr) && strcmp(filterIpStr,ipstr)) {
if(strcmp(wildcardIpStr,ipstr) && filter==FALSE) {
if(j==0) {
++found;
printf("%s\n", dom);
if(txtResults)
fprintf(fpTxtLogs, "%s\n", dom);
if(csvResults)
fprintf(fpCsvLogs, "%s", dom);
}
printf("[%d] %s : %s\n", j+1,dom,ipstr);
++ipCount;
if(isPrivateIP(ipstr)) {
//if(isPrivateIP(inet_ntoa(*((struct in_addr *)h->h_addr_list[j])))) {
printf("%s",INTIPWARN);
++intIPcount;
}
if(!strcmp(ipstr,"127.0.0.1") && strcmp(wildcardIpStr,ipstr)) {
//if(!strcmp(inet_ntoa(*((struct in_addr *)h->h_addr_list[j])),
//"127.0.0.1"))
printf("%s",SAMESITEXSSWARN);
}
if(txtResults) {
//fprintf(fpCsvLogs,",%s",
// inet_ntoa(*((struct in_addr *)h->h_addr_list[j])));
fprintf(fpTxtLogs,"IP address #%d: %s\n", j+1, ipstr);
if(isPrivateIP(ipstr) && strcmp(wildcardIpStr,ipstr))
fprintf(fpTxtLogs,"%s",INTIPWARN);
if(!strcmp(ipstr,"127.0.0.1") && strcmp(wildcardIpStr,ipstr))
fprintf(fpTxtLogs,"%s",SAMESITEXSSWARN);
}
if(csvResults && strcmp(wildcardIpStr,ipstr))
fprintf(fpCsvLogs,",%s",ipstr);
}
}
//if(strcmp(wildcardIpStr,ipstr) && strcmp(filterIpStr,ipstr)) {
if(strcmp(wildcardIpStr,ipstr) && filter==FALSE) {
printf("%s", "\n");
if(txtResults)
fprintf(fpTxtLogs,"%s","\n");
if(csvResults)
fprintf(fpCsvLogs,"%s","\n");
}
filter=FALSE;
}
// user wants delay between DNS requests?
if(delay)
dodelay(milliseconds);
}
if(txtResults)
fclose(fpTxtLogs);
if(csvResults)
fclose(fpCsvLogs);
}
// read subdomains from wordlist file
else if(wordlist) {
// openDNS detection
if(usesOpenDNS(invalidTldIpstr))
printf("%s",OPENDNSMSG);
// wildcard detection
wildcarDetect(argv[1],wildcardIpStr);
if(strcmp(invalidTldIpstr,wildcardIpStr))
printf(WILDCARDWARN);
fpWords=fopen(wordlistFilename, "r");
if(fpWords) {
printf(EXTERNALMSG);
if(milliseconds>=1)
printf(DELAYMSG);
printf("%s","\n");
while(!feof(fpWords)) {
//strncpy(dom,"",MAXSTRSIZE-strlen(dom)-1);
for(i=0;i<strlen(dom);++i)
dom[i]='\0';
fscanf(fpWords,"%100s",dom); // wordlist subdomain not allowed to be more than 100 chars
#if DEBUG
printf("lengh of dom: %d\n",strlen(dom));
#endif
strncat(dom,".",MAXSTRSIZE-strlen(dom)-1);
strncat(dom,argv[1],MAXSTRSIZE-strlen(dom)-1);
#if DEBUG
printf("brute-forced domain: %s\n",dom);
#endif
// ipv6 code modded from www.kame.net
status = getaddrinfo(dom, NULL, &hints, &res);
if ((status=getaddrinfo(dom, NULL, &hints, &res))==0) {
printf("%s\n", dom);
++found;
if(txtResults)
fprintf(fpTxtLogs, "%s\n", dom);
if(csvResults)
fprintf(fpCsvLogs, "%s", dom);
for(p=res,k=0;p;p=p->ai_next,++k) {
void *addr;
char *ipver;
if (p->ai_family==AF_INET6) { // IPv6
struct sockaddr_in6 *ipv6=(struct sockaddr_in6 *)p->ai_addr;
addr = &(ipv6->sin6_addr);
ipver = "IPv6";
}
// convert the IP to a string and print it:
inet_ntop(p->ai_family, addr, ipv6str, sizeof ipv6str);
printf("%s address #%d: %s\n",ipver,k+1,ipv6str);
++ipCount;
if(txtResults)
fprintf(fpTxtLogs,"%s address #%d: %s\n",ipver,k+1,ipv6str);
if(csvResults)
fprintf(fpCsvLogs,",%s", ipv6str);
}
printf("%s", "\n");
if(txtResults)
fprintf(fpTxtLogs,"\n");
if(csvResults)
fprintf(fpCsvLogs,"\n");
freeaddrinfo(res); // free the linked list
// ipv6 code modded from www.kame.net
} // end of if conditional
h=gethostbyname(dom);
if(h && !isIPblacklisted(inet_ntoa(*((struct in_addr *)h->h_addr_list[0])))) {
for(j=0;h->h_addr_list[j];++j) {
sprintf(ipstr,inet_ntoa(*((struct in_addr *)h->h_addr_list[j])),"%s");
//TEST
for(k=0;k<filtIPcount;++k) {
if(strcmp(filterIPs[k],ipstr)==0) { // filtered IP found
// 1st IP of array - weird output formatting bug
if(j!=0 && strcmp(wildcardIpStr,filterIPs[k])) {
printf("\n");
if(txtResults)
fprintf(fpTxtLogs, "%s", "\n");
if(csvResults)
fprintf(fpCsvLogs, "%s", "\n");
}
#if DEBUG
printf("%s found and ignored\n",filterIPs[k]);
#endif
filter=TRUE;
if(h->h_addr_list[j+1])
++j;
else
break;
}
}
// END OF TEST
//if(strcmp(wildcardIpStr,ipstr) && strcmp(filterIpStr,ipstr)) {
if(strcmp(wildcardIpStr,ipstr) && filter==FALSE) {
if(j==0) {
++found;
printf("%s\n",dom);
if(txtResults) {
//fprintf(fpCsvLogs,"%s",dom);
fprintf(fpTxtLogs,"%s\n",dom);
}
if(csvResults) {
//fprintf(fpCsvLogs,"%s",dom);
fprintf(fpCsvLogs,"%s",dom);
}
}
printf("IP address #%d: %s\n",j+1,ipstr);
++ipCount;
if(isPrivateIP(ipstr) && strcmp(wildcardIpStr,ipstr)) {
printf("%s",INTIPWARN);
++intIPcount;
}
if(!strcmp(ipstr,"127.0.0.1") && strcmp(wildcardIpStr,ipstr))
printf("%s",SAMESITEXSSWARN);
if(txtResults && strcmp(wildcardIpStr,ipstr)) {
fprintf(fpTxtLogs,"IP address #%d: %s\n",j+1,ipstr);
if(isPrivateIP(ipstr))
fprintf(fpTxtLogs,"%s",INTIPWARN);
if(!strcmp(ipstr,"127.0.0.1"))
fprintf(fpTxtLogs,"%s",SAMESITEXSSWARN);
}
if(csvResults && strcmp(wildcardIpStr,ipstr))
fprintf(fpCsvLogs,",%s",ipstr);
}
}
//if(strcmp(wildcardIpStr,ipstr) && strcmp(filterIpStr,ipstr)) {
if(strcmp(wildcardIpStr,ipstr) && filter==FALSE) {
printf("%s", "\n");
if(txtResults)
fprintf(fpTxtLogs,"%s","\n");
if(csvResults)
fprintf(fpCsvLogs,"%s","\n");
}
filter=FALSE;
}
// user wants delay between DNS requests?
if(delay)
dodelay(milliseconds);
} // end while() loop
fclose(fpWords);
}
else {
printf(OPENFILEERR);
exit(1);
}
if(txtResults)
fclose(fpTxtLogs);
if(csvResults)
fclose(fpCsvLogs);
}
printf(RESULTSMSG4);
if(intIPcount>=1)
printf(RESULTSMSG1);
if(txtResults)
printf(RESULTSMSG2);
if(csvResults)
printf(RESULTSMSG5);
end=(int)time(NULL);
printf(RESULTSMSG3);
return 0;
}
// return true if domain wildcards are enabled
unsigned short int wildcarDetect(char *dom, char *ipstr) {
char strTmp[30]={'\0'},s[MAXSTRSIZE]={'\0'};
unsigned short int i=0,n=0,max=0;
struct hostent *h;
srand(time(NULL));
max=rand()%20;
// max should be between 10 and 20
if(max<10)
max=max+(10-max);
// generate up to random 20 digits-long subdomain
// e.g. 06312580442146732554
for(i=0;i<max;++i) {
n=rand()%10;
sprintf(strTmp, "%d", n);
if(i==0)
strncpy(s,strTmp,MAXSTRSIZE-strlen(s)-1);
else
strncat(s,strTmp,MAXSTRSIZE-strlen(s)-1);
}
strncat(s,".",MAXSTRSIZE-strlen(s)-1);
strncat(s, dom,MAXSTRSIZE-strlen(s)-1);
#if DEBUG
printf("random subdomain for wildcard testing: %s\n",s);
#endif
// random subdomain resolves, thus wildcards are enabled
h=gethostbyname(s); // replace with getaddrinfo() ?
if(h) { /*
for(i=0;h->h_addr_list[i];++i) {
*/
//sprintf(ipstr,inet_ntoa(*((struct in_addr *)h->h_addr_list[i])),"%s");
sprintf(ipstr,inet_ntoa(*((struct in_addr *)h->h_addr_list[0])),"%s");
#if DEBUG
printf("wildcard domain\'s IP address: %s\n",ipstr);
#endif
return TRUE;
}
else
return FALSE;
}
// return number of milliseconds delayed
unsigned short int dodelay(unsigned short int maxmillisecs) {
unsigned short int n=0;
srand(time(NULL));
n=rand()%maxmillisecs;
++n;
maxmillisecs=n;
#if DEBUG
printf("sleeping %d milliseconds ...\n",maxmillisecs);
#endif
usleep(maxmillisecs*1000);
return maxmillisecs;
}
// return true if IP addr is internal (RFC1918)
unsigned short int isPrivateIP(char *ip) {
char classB[][8]={"172.16.","172.17.","172.18.","172.19.",
"172.20.","172.21.","172.22.","172.23.","172.24.",
"172.25.","172.26.","172.27.","172.28.","172.29.",
"172.30.","172.31."};
unsigned short int i=0,j=0;
size_t len = strlen(ip);
// shortest: 0.0.0.0 - 8 chars inc \0
// longest: 255.255.255.255 - 16 chars inc \0
if(len<8 || len>16)
return 0;
// ip addr must have three period signs
for(i=0,j=0;i<len;++i) {
if(ip[i]=='.')
++j;
}
if(j!=3 || ip[0]=='.' || ip[len-1]=='.')
return 0;
// 10.0.0.0 - 10.255.255.255 (10/8 prefix)
if(strncmp(ip,"10.",3)==0)
return 1;
// 192.168.0.0 - 192.168.255.255 (192.168/16 prefix)
else if(strncmp(ip,"192.168.",8)==0)
return 1;
else {
// 172.16.0.0 - 172.31.255.255 (172.16/12 prefix)
for(i=0;i<sizeof(classB)/8;++i) {
if(strncmp(ip,classB[i],7)==0)
return 1;
}
return 0;
}
}
// return true if domain is valid, false otherwise
unsigned short int isValidDomain(char *d) {
unsigned int i=0, j=0;
char *tld;
size_t len;
char strTmp[30]={'\0'},s[MAXSTRSIZE]={'\0'};
unsigned short int n=0,max=0;
struct hostent *h;
if(strlen(d)<4) // smallest possible domain provided. e.g. a.pl
return 0;
if(!strstr(d,".")) // target domain must have at least one dot. e.g. target.va, branch.target.va
return 0;
tld=strstr(d,".");
tld=tld+1;
while(strstr(tld,".")){
tld=strstr(tld,".");
tld=tld+1;
}
#if DEBUG
printf("tld\'s length: %d\n",strlen(tld));
printf("dom: %s tld: %s\n",d,tld);
#endif
if((strlen(tld)<2) || (strlen(tld)>6)) // tld must be between 2-6 char. e.g. .museum, .uk
return FALSE;
// valid domain can only contain digits, letters, dot (.) and dash symbol (-)
len = strlen(d);
for(i=0;i<len;++i) {
if (!(d[i] >= '0' && d[i] <= '9') &&
!(d[i] >= 'a' && d[i] <= 'z') &&
!(d[i] >= 'A' && d[i] <= 'Z') &&
!(d[i] >= '-' && d[i] <= '.'))
return 0;
}
srand(time(NULL));
max=rand()%20;
// max should be between 10 and 20
if(max<10)
max=max+(10-max);
// generate up to random 20 digits-long subdomain
// e.g. 06312580442146732554
for(i=0;i<max;++i) {
n=rand()%10;
sprintf(strTmp, "%d", n);
if(i==0)
strncpy(s,strTmp,MAXSTRSIZE-strlen(s)-1);
else
strncat(s,strTmp,MAXSTRSIZE-strlen(s)-1);
}
strncat(s,".",MAXSTRSIZE-strlen(s)-1);
strncat(s, d,MAXSTRSIZE-strlen(s)-1);
#if DEBUG
printf("random subdomain for wildcard testing: %s\n",s);
#endif
// some domains like proboards.com return more than 1 IP address
// when resolving random subdomains (wildcards are enabled)
h=gethostbyname(s);
if(h) {
for(j=0;h->h_addr_list[j];++j)
inet_ntoa(*((struct in_addr *)h->h_addr_list[j]));
if(j>1) {
#if DEBUG
printf("wildcard domain\'s number of IP address(es): %d"
" (this causes dnsmap to produce false positives)\n",j);
#endif
return FALSE;
}
}
return TRUE;
}
// return true if IP is blacklisted, false otherwise
unsigned short int isIPblacklisted(char *ip) {
int i;
// add you own blacklisted IP addresses here if dnsmap is producing false positives.
// this could be caused by your ISP returning a captive portal search page when
// when requesting invalid domains on your browser
char ips[][INET_ADDRSTRLEN]={
"81.200.64.50",
"67.215.66.132",
"1.2.3.4",
"0.0.0.0" // add your false positive IPs here
};
//for(i=0;ips[i];++i) {
for(i=0;i<(sizeof(ips)/INET_ADDRSTRLEN);++i) {
if(!strcmp(ips[i],ip))
return TRUE;
}
return FALSE;
}
// return true if usage of public DNS server is detected
// Note: right now this function only detects openDNS, but might be
// updated in the future to detect other common public DNS servers
unsigned short int usesOpenDNS(char *ipstr) {
char strTmp[30]={'\0'}, s[MAXSTRSIZE]={'\0'}, dummyLTD[4]={"xyz"}/*, ipstr[INET_ADDRSTRLEN]={'\0'}*/;
char ips[][INET_ADDRSTRLEN]={"67.215.65.132"};
unsigned short int i=0,j=0,n=0,max=0;
struct hostent *h;
srand(time(NULL));
max=rand()%20;
// max should be between 10 and 20
if(max<10)
max=max+(10-max);
// generate up to random 20 digits-long subdomain
// e.g. 06312580442146732554
for(i=0;i<max;++i) {
n=rand()%10;
sprintf(strTmp, "%d", n);
if(i==0)
strncpy(s,strTmp,MAXSTRSIZE-strlen(s)-1);
else
strncat(s,strTmp,MAXSTRSIZE-strlen(s)-1);
}
strncat(s,".",MAXSTRSIZE-strlen(s)-1);
strncat(s, dummyLTD,MAXSTRSIZE-strlen(s)-1);
#if DEBUG
printf("random domain for public DNS testing: %s\n",s);
#endif
// random invalid domain resolves, thus public DNS in use
h=gethostbyname(s);
if(h) {
for(i=0;h->h_addr_list[i];++i) {
sprintf(ipstr,inet_ntoa(*((struct in_addr *)h->h_addr_list[i])),"%s");
#if DEBUG
printf("public DNS server\'s default IP address #%d: %s\n",i+1,ipstr);
#endif
for(j=0;i<(sizeof(ips)/INET_ADDRSTRLEN);++j) {
if(!strcmp(ips[i],ipstr))
return TRUE;
}
}
return TRUE;
}
else
return FALSE;
}
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