2 dns.cpp - based on the firedns library Copyright (C) 2002 Ian Gulliver
4 This program is free software; you can redistribute it and/or modify
5 it under the terms of version 2 of the GNU General Public License as
6 published by the Free Software Foundation.
8 This program is distributed in the hope that it will be useful,
9 but WITHOUT ANY WARRANTY; without even the implied warranty of
10 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11 GNU General Public License for more details.
13 You should have received a copy of the GNU General Public License
14 along with this program; if not, write to the Free Software
15 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
25 #include <sys/types.h>
26 #include <sys/socket.h>
34 #include <sys/types.h>
35 #include <sys/socket.h>
36 #include <netinet/in.h>
37 #include <arpa/inet.h>
40 #include "helperfuncs.h"
41 #include "socketengine.h"
43 extern InspIRCd* ServerInstance;
44 extern ServerConfig* Config;
47 #define max(a,b) (a > b ? a : b)
48 #define DNS_MAX 8 /* max number of nameservers used */
49 #define DNS_CONFIG_FBCK "/etc/resolv.conf" /* fallback config file */
50 #define DNS_PORT 53 /* DNS well known port */
51 #define DNS_QRY_A 1 /* name to IP address */
52 #define DNS_QRY_AAAA 28 /* name to IP6 address */
53 #define DNS_QRY_PTR 12 /* IP address to name */
54 #define DNS_QRY_MX 15 /* name to MX */
55 #define DNS_QRY_TXT 16 /* name to TXT */
56 #define DNS_QRY_CNAME 5
58 #define DNS_ALIGN (sizeof(void *) > sizeof(long) ? sizeof(void *) : sizeof(long))
60 #define RESULTSIZE 1024
61 #define min(a,b) (a < b ? a : b)
63 static struct in_addr servers4[DNS_MAX]; /* up to DNS_MAX nameservers; populated by dns_init() */
64 static int i4; /* actual count of nameservers; set by dns_init() */
66 static int initdone = 0; /* to ensure dns_init() only runs once (on the first call) */
67 static int wantclose = 0;
68 static int lastcreate = -1;
70 struct s_connection { /* open DNS query */
71 struct s_connection *next; /* next in list */
76 int fd; /* file descriptor returned from sockets */
83 unsigned int rdlength;
86 #define DNS_POINTER_VALUE 0xc000
88 static s_connection *connection_head = NULL; /* linked list of open DNS queries; populated by dns_add_query(), decimated by dns_getresult_s() */
90 struct s_header { /* DNS query header */
93 #define FLAGS1_MASK_QR 0x80
94 #define FLAGS1_MASK_OPCODE 0x78 /* bitshift right 3 */
95 #define FLAGS1_MASK_AA 0x04
96 #define FLAGS1_MASK_TC 0x02
97 #define FLAGS1_MASK_RD 0x01
99 #define FLAGS2_MASK_RA 0x80
100 #define FLAGS2_MASK_Z 0x70
101 #define FLAGS2_MASK_RCODE 0x0f
102 unsigned int qdcount;
103 unsigned int ancount;
104 unsigned int nscount;
105 unsigned int arcount;
106 unsigned char payload[512]; /* DNS question, populated by dns_build_query_payload() */
111 void *dns_align(void *inp) {
112 char *p = (char*)inp;
113 int offby = ((char *)p - (char *)0) % DNS_ALIGN;
115 return p + (DNS_ALIGN - offby);
121 * These little hacks are here to avoid alignment and type sizing issues completely by doing manual copies
123 void dns_fill_rr(s_rr_middle* rr, const unsigned char *input) {
124 rr->type = input[0] * 256 + input[1];
125 rr->_class = input[2] * 256 + input[3];
126 rr->ttl = input[4] * 16777216 + input[5] * 65536 + input[6] * 256 + input[7];
127 rr->rdlength = input[8] * 256 + input[9];
130 void dns_fill_header(s_header *header, const unsigned char *input, const int l) {
131 header->id[0] = input[0];
132 header->id[1] = input[1];
133 header->flags1 = input[2];
134 header->flags2 = input[3];
135 header->qdcount = input[4] * 256 + input[5];
136 header->ancount = input[6] * 256 + input[7];
137 header->nscount = input[8] * 256 + input[9];
138 header->arcount = input[10] * 256 + input[11];
139 memcpy(header->payload,&input[12],l);
142 void dns_empty_header(unsigned char *output, const s_header *header, const int l) {
143 output[0] = header->id[0];
144 output[1] = header->id[1];
145 output[2] = header->flags1;
146 output[3] = header->flags2;
147 output[4] = header->qdcount / 256;
148 output[5] = header->qdcount % 256;
149 output[6] = header->ancount / 256;
150 output[7] = header->ancount % 256;
151 output[8] = header->nscount / 256;
152 output[9] = header->nscount % 256;
153 output[10] = header->arcount / 256;
154 output[11] = header->arcount % 256;
155 memcpy(&output[12],header->payload,l);
158 void dns_close(int fd) { /* close query */
159 log(DEBUG,"DNS: dns_close on fd %d",fd);
160 if (fd == lastcreate) {
169 void DNS::dns_init() { /* on first call only: populates servers4 struct with up to DNS_MAX nameserver IP addresses from /etc/resolv.conf */
179 srand((unsigned int) TIME);
180 memset(servers4,'\0',sizeof(in_addr) * DNS_MAX);
181 f = fopen(DNS_CONFIG_FBCK,"r");
184 while (fgets(buf,1024,f) != NULL) {
185 if (strncmp(buf,"nameserver",10) == 0) {
187 while (buf[i] == ' ' || buf[i] == '\t')
190 if (dns_aton4_s(&buf[i],&addr4) != NULL)
191 memcpy(&servers4[i4++],&addr4,sizeof(in_addr));
198 void DNS::dns_init_2(const char* dnsserver)
202 srand((unsigned int) TIME);
203 memset(servers4,'\0',sizeof(in_addr) * DNS_MAX);
204 if (dns_aton4_s(dnsserver,&addr4) != NULL)
205 memcpy(&servers4[i4++],&addr4,sizeof(in_addr));
209 static int dns_send_requests(const s_header *h, const s_connection *s, const int l)
213 unsigned char payload[sizeof(s_header)];
215 dns_empty_header(payload,h,l);
220 /* otherwise send via standard ipv4 boringness */
221 memset(&addr4,0,sizeof(addr4));
222 memcpy(&addr4.sin_addr,&servers4[i],sizeof(addr4.sin_addr));
223 addr4.sin_family = AF_INET;
224 addr4.sin_port = htons(DNS_PORT);
225 if (sendto(s->fd, payload, l + 12, 0, (sockaddr *) &addr4, sizeof(addr4)) == -1)
233 static s_connection *dns_add_query(s_header *h) { /* build DNS query, add to list */
236 s = new s_connection;
238 /* set header flags */
239 h->id[0] = s->id[0] = rand() % 255; /* verified by dns_getresult_s() */
240 h->id[1] = s->id[1] = rand() % 255;
241 h->flags1 = 0 | FLAGS1_MASK_RD;
248 /* turn off want_list by default */
251 /* try to create ipv6 or ipv4 socket */
252 s->fd = socket(PF_INET, SOCK_DGRAM, 0);
254 if (fcntl(s->fd, F_SETFL, O_NONBLOCK) != 0) {
262 memset(&addr,0,sizeof(addr));
263 addr.sin_family = AF_INET;
265 addr.sin_addr.s_addr = INADDR_ANY;
266 if (bind(s->fd,(sockaddr *)&addr,sizeof(addr)) != 0) {
276 /* create new connection object, add to linked list */
277 s->next = connection_head;
280 if (wantclose == 1) {
281 shutdown(lastcreate,2);
289 static int dns_build_query_payload(const char * const name, const unsigned short rr, const unsigned short _class, unsigned char * const payload) {
291 const char * tempchr, * tempchr2;
297 /* split name up into labels, create query */
298 while ((tempchr = strchr(tempchr2,'.')) != NULL) {
299 l = tempchr - tempchr2;
300 if (payloadpos + l + 1 > 507)
302 payload[payloadpos++] = l;
303 memcpy(&payload[payloadpos],tempchr2,l);
305 tempchr2 = &tempchr[1];
307 l = strlen(tempchr2);
309 if (payloadpos + l + 2 > 507)
311 payload[payloadpos++] = l;
312 memcpy(&payload[payloadpos],tempchr2,l);
314 payload[payloadpos++] = '\0';
316 if (payloadpos > 508)
319 memcpy(&payload[payloadpos],&l,2);
321 memcpy(&payload[payloadpos + 2],&l,2);
322 return payloadpos + 4;
325 in_addr* DNS::dns_aton4(const char * const ipstring) { /* ascii to numeric: convert string to static 4part IP addr struct */
327 return dns_aton4_s(ipstring,&ip);
330 in_addr* DNS::dns_aton4_r(const char *ipstring) { /* ascii to numeric (reentrant): convert string to new 4part IP addr struct */
333 if(dns_aton4_s(ipstring,ip) == NULL) {
340 in_addr* DNS::dns_aton4_s(const char *ipstring, in_addr *ip) { /* ascii to numeric (buffered): convert string to given 4part IP addr struct */
341 inet_aton(ipstring,ip);
345 int DNS::dns_getip4(const char *name) { /* build, add and send A query; retrieve result with dns_getresult() */
353 l = dns_build_query_payload(name,DNS_QRY_A,1,(unsigned char *)&h.payload);
356 s = dns_add_query(&h);
361 if (dns_send_requests(&h,s,l) == -1)
367 int DNS::dns_getip4list(const char *name) { /* build, add and send A query; retrieve result with dns_getresult() */
375 l = dns_build_query_payload(name,DNS_QRY_A,1,(unsigned char *)&h.payload);
378 s = dns_add_query(&h);
384 if (dns_send_requests(&h,s,l) == -1)
390 int DNS::dns_getname4(const in_addr *ip) { /* build, add and send PTR query; retrieve result with dns_getresult() */
397 c = (unsigned char *)&ip->s_addr;
399 sprintf(query,"%d.%d.%d.%d.in-addr.arpa",c[3],c[2],c[1],c[0]);
401 l = dns_build_query_payload(query,DNS_QRY_PTR,1,(unsigned char *)&h.payload);
404 s = dns_add_query(&h);
408 s->type = DNS_QRY_PTR;
409 if (dns_send_requests(&h,s,l) == -1)
415 char* DNS::dns_ntoa4(const in_addr * const ip) { /* numeric to ascii: convert 4part IP addr struct to static string */
417 return dns_ntoa4_s(ip,r);
420 char* DNS::dns_ntoa4_s(const in_addr *ip, char *r) { /* numeric to ascii (buffered): convert 4part IP addr struct to given string */
422 m = (unsigned char *)&ip->s_addr;
423 sprintf(r,"%d.%d.%d.%d",m[0],m[1],m[2],m[3]);
427 char* DNS::dns_getresult(const int cfd) { /* retrieve result of DNS query */
428 log(DEBUG,"DNS: dns_getresult with cfd=%d",cfd);
429 return dns_getresult_s(cfd,this->localbuf);
432 char* DNS::dns_getresult_s(const int cfd, char *res) { /* retrieve result of DNS query (buffered) */
434 s_connection *c, *prev;
435 int l,i,q,curanswer,o;
437 unsigned char buffer[sizeof(s_header)];
447 while (c != NULL) { /* find query in list of open queries */
454 log(DEBUG,"DNS: got a response for a query we didnt send with fd=%d",cfd);
455 return NULL; /* query not found */
457 /* query found-- pull from list: */
459 prev->next = c->next;
461 connection_head = c->next;
463 l = recv(c->fd,buffer,sizeof(s_header),0);
469 dns_fill_header(&h,buffer,l - 12);
470 if (c->id[0] != h.id[0] || c->id[1] != h.id[1]) {
471 log(DEBUG,"DNS: id mismatch on query");
473 return NULL; /* ID mismatch */
475 if ((h.flags1 & FLAGS1_MASK_QR) == 0) {
476 log(DEBUG,"DNS: didnt get a query result");
480 if ((h.flags1 & FLAGS1_MASK_OPCODE) != 0) {
481 log(DEBUG,"DNS: got an OPCODE and didnt want one");
485 if ((h.flags2 & FLAGS2_MASK_RCODE) != 0) {
486 log(DEBUG,"DNS lookup failed due to SERVFAIL");
490 if (h.ancount < 1) { /* no sense going on if we don't have any answers */
491 log(DEBUG,"DNS: no answers!");
499 while ((unsigned)q < h.qdcount && i < l) {
500 if (h.payload[i] > 63) { /* pointer */
501 i += 6; /* skip pointer, _class and type */
504 if (h.payload[i] == 0) {
506 i += 5; /* skip nil, _class and type */
508 i += h.payload[i] + 1; /* skip length and label */
511 /* &h.payload[i] should now be the start of the first response */
513 while ((unsigned)curanswer < h.ancount) {
515 while (q == 0 && i < l) {
516 if (h.payload[i] > 63) { /* pointer */
517 i += 2; /* skip pointer */
520 if (h.payload[i] == 0) {
524 i += h.payload[i] + 1; /* skip length and label */
531 dns_fill_rr(&rr,&h.payload[i]);
533 if (rr.type != c->type) {
538 if (rr._class != c->_class) {
545 if ((unsigned)curanswer == h.ancount)
547 if ((unsigned)i + rr.rdlength > (unsigned)l)
549 if (rr.rdlength > 1023)
554 log(DEBUG,"DNS: got a result of type DNS_QRY_PTR");
557 while (q == 0 && i < l && o + 256 < 1023) {
558 if (h.payload[i] > 63) { /* pointer */
559 memcpy(&p,&h.payload[i],2);
560 i = ntohs(p) - DNS_POINTER_VALUE - 12;
562 if (h.payload[i] == 0)
568 memcpy(&res[o],&h.payload[i + 1],h.payload[i]);
570 i += h.payload[i] + 1;
577 log(DEBUG,"DNS: got a result of type DNS_QRY_A");
579 dns_ip4list *alist = (dns_ip4list *) res; /* we have to trust that this is aligned */
580 while ((char *)alist - (char *)res < 700) {
581 if (rr.type != DNS_QRY_A)
585 if (rr.rdlength != 4) {
589 memcpy(&alist->ip,&h.payload[i],4);
590 if ((unsigned)++curanswer >= h.ancount)
596 while (q == 0 && i < l) {
597 if (h.payload[i] > 63) { /* pointer */
598 i += 2; /* skip pointer */
601 if (h.payload[i] == 0) {
605 i += h.payload[i] + 1; /* skip length and label */
613 dns_fill_rr(&rr,&h.payload[i]);
615 alist->next = (dns_ip4list *) dns_align(((char *) alist) + sizeof(dns_ip4list));
626 log(DEBUG,"DNS: doing something with result 'default'");
627 memcpy(res,&h.payload[i],rr.rdlength);
628 res[rr.rdlength] = '\0';
638 log(DEBUG,"Create blank DNS");
641 DNS::DNS(std::string dnsserver)
643 dns_init_2(dnsserver.c_str());
644 log(DEBUG,"Create DNS");
647 void DNS::SetNS(std::string dnsserver)
649 dns_init_2(dnsserver.c_str());
657 bool DNS::ReverseLookup(std::string ip)
660 binip = dns_aton4(ip.c_str());
665 this->myfd = dns_getname4(binip);
666 if (this->myfd == -1)
670 log(DEBUG,"DNS: ReverseLookup, fd=%d",this->myfd);
672 ServerInstance->SE->AddFd(this->myfd,true,X_ESTAB_DNS);
677 bool DNS::ForwardLookup(std::string host)
680 this->myfd = dns_getip4(host.c_str());
681 if (this->myfd == -1)
685 log(DEBUG,"DNS: ForwardLookup, fd=%d",this->myfd);
687 ServerInstance->SE->AddFd(this->myfd,true,X_ESTAB_DNS);
692 bool DNS::HasResult(int fd)
694 return (fd == this->myfd);
697 /* Only the multithreaded dns uses this poll() based
698 * check now. As its in another thread we dont have
699 * to worry about its performance that much.
701 bool DNS::HasResult()
703 log(DEBUG,"DNS: HasResult, fd=%d",this->myfd);
705 polls.fd = this->myfd;
706 polls.events = POLLIN;
707 int ret = poll(&polls,1,1);
708 log(DEBUG,"DNS: Hasresult returning %d",ret);
717 std::string DNS::GetResult()
719 log(DEBUG,"DNS: GetResult()");
720 result = dns_getresult(this->myfd);
722 ServerInstance->SE->DelFd(this->myfd);
725 stats->statsDnsGood++;
726 dns_close(this->myfd);
729 stats->statsDnsBad++;
730 if (this->myfd != -1)
732 dns_close(this->myfd);
738 std::string DNS::GetResultIP()
741 log(DEBUG,"DNS: GetResultIP()");
742 result = dns_getresult(this->myfd);
743 if (this->myfd != -1)
746 ServerInstance->SE->DelFd(this->myfd);
748 dns_close(this->myfd);
752 stats->statsDnsGood++;
753 unsigned char a = (unsigned)result[0];
754 unsigned char b = (unsigned)result[1];
755 unsigned char c = (unsigned)result[2];
756 unsigned char d = (unsigned)result[3];
757 snprintf(r,1024,"%u.%u.%u.%u",a,b,c,d);
762 stats->statsDnsBad++;
763 log(DEBUG,"DANGER WILL ROBINSON! NXDOMAIN for forward lookup, but we got a reverse lookup!");
771 void* dns_task(void* arg)
773 userrec* u = (userrec*)arg;
774 log(DEBUG,"DNS thread for user %s",u->nick);
779 if (dns1.ReverseLookup(u->ip))
781 while (!dns1.HasResult())
785 host = dns1.GetResult();
788 if (dns2.ForwardLookup(host))
790 while (!dns2.HasResult())
794 ip = dns2.GetResultIP();
795 if (ip == std::string(u->ip))
797 if (host.length() < 160)
799 strcpy(u->host,host.c_str());
800 strcpy(u->dhost,host.c_str());