/* vpn_dns.C -- handle the dns tunnel part of the protocol. Copyright (C) 2003-2004 Marc Lehmann 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 "config.h" #if ENABLE_DNS // dns processing is EXTREMELY ugly. For obvious(?) reasons. // it's a hack, use only in emergency situations please. #include #include #include #include #include #include #include #include #include #include #include "netcompat.h" #include "vpn.h" #define MIN_RETRY 1. #define MAX_RETRY 60. #define MAX_OUTSTANDING 40 // max. outstanding requests #define MAX_WINDOW 100 // max. for MAX_OUTSTANDING #define MAX_RATE 1000 // requests/s #define MAX_BACKLOG (10*1024) // size of protocol backlog, must be > MAXSIZE #define MAX_DOMAIN_SIZE 220 // 255 is legal limit, but bind doesn't compress well // 240 leaves about 4 bytes of server reply data // every two request byte sless give room for one reply byte #define SEQNO_MASK 0xffff /* protocol, in shorthand :) client -> server ANY? server -> client TXT is dns64-encoded

[] is dns64-encoded <0:12>[] if is zero, the connection will be configured: <0:12><0:4>client-id:12>

*/ #define MAX_LBL_SIZE 63 #define MAX_PKT_SIZE 512 #define RR_TYPE_TXT 16 #define RR_TYPE_ANY 255 #define RR_CLASS_IN 1 // the "_" is not valid but widely accepted (all octets should be supported, but let's be conservative) struct dns64 { static const char encode_chars[64 + 1]; static s8 decode_chars[256]; static int encode_len (int bytes) { return (bytes * 8 + 5) / 6; } static int decode_len (int bytes) { return (bytes * 6) / 8; } static int encode (char *dst, u8 *src, int len); static int decode (u8 *dst, char *src, int len); dns64 (); } dns64; const char dns64::encode_chars[64 + 1] = "_4B9dLphHzrqQmGjkTbJt5svlZX8xSaReEYfwKgF1DP2W6NyVOU70IouACcMn3i-"; s8 dns64::decode_chars[256]; dns64::dns64 () { for (int i = 0; i < 64; i++) decode_chars [encode_chars [i]] = i + 1; } int dns64::encode (char *dst, u8 *src, int len) { // slow, but easy to debug char *beg = dst; unsigned int accum, bits = 0; while (len--) { accum <<= 8; accum |= *src++; bits += 8; while (bits >= 6) { *dst++ = encode_chars [(accum >> (bits - 6)) & 63]; bits -= 6; } } if (bits) *dst++ = encode_chars [(accum << (6 - bits)) & 63]; return dst - beg; } int dns64::decode (u8 *dst, char *src, int len) { // slow, but easy to debug u8 *beg = dst; unsigned int accum, bits = 0; while (len--) { s8 chr = decode_chars [(u8)*src++]; if (!chr) continue; accum <<= 6; accum |= chr - 1; bits += 6; while (bits >= 8) { *dst++ = accum >> (bits - 8); bits -= 8; } } return dst - beg; } ///////////////////////////////////////////////////////////////////////////// struct byte_stream { u8 *data; int maxsize; int fill; byte_stream (int maxsize); ~byte_stream (); bool empty () { return !fill; } int size () { return fill; } bool put (u8 *data, unsigned int datalen); bool put (vpn_packet *pkt); vpn_packet *get (); u8 *begin () { return data; } void remove (int count); }; byte_stream::byte_stream (int maxsize) : maxsize (maxsize), fill (0) { data = new u8 [maxsize]; } byte_stream::~byte_stream () { delete data; } void byte_stream::remove (int count) { if (count > fill) abort (); memmove (data, data + count, fill -= count); } bool byte_stream::put (u8 *data, unsigned int datalen) { if (maxsize - fill < datalen) return false; memcpy (this->data + fill, data, datalen); fill += datalen; return true; } bool byte_stream::put (vpn_packet *pkt) { if (maxsize - fill < pkt->len + 2) return false; data [fill++] = pkt->len >> 8; data [fill++] = pkt->len; memcpy (data + fill, &((*pkt)[0]), pkt->len); fill += pkt->len; return true; } vpn_packet *byte_stream::get () { int len = (data [0] << 8) | data [1]; printf ("get len %d, fill %d\n", len, fill);//D if (len > MAXSIZE && fill >= 2) abort (); // TODO handle this gracefully, connection reset if (fill < len + 2) return 0; vpn_packet *pkt = new vpn_packet; pkt->len = len; memcpy (&((*pkt)[0]), data + 2, len); remove (len + 2); return pkt; } ///////////////////////////////////////////////////////////////////////////// #define FLAG_QUERY ( 0 << 15) #define FLAG_RESPONSE ( 1 << 15) #define FLAG_OP_MASK (15 << 14) #define FLAG_OP_QUERY ( 0 << 11) #define FLAG_AA ( 1 << 10) #define FLAG_TC ( 1 << 9) #define FLAG_RD ( 1 << 8) #define FLAG_RA ( 1 << 7) #define FLAG_AUTH ( 1 << 5) #define FLAG_RCODE_MASK (15 << 0) #define FLAG_RCODE_OK ( 0 << 0) #define FLAG_RCODE_FORMERR ( 1 << 0) #define FLAG_RCODE_SERVFAIL ( 2 << 0) #define FLAG_RCODE_NXDOMAIN ( 3 << 0) #define FLAG_RCODE_REFUSED ( 5 << 0) #define DEFAULT_CLIENT_FLAGS (FLAG_QUERY | FLAG_OP_QUERY | FLAG_RD) #define DEFAULT_SERVER_FLAGS (FLAG_RESPONSE | FLAG_OP_QUERY | FLAG_AA | FLAG_RD | FLAG_RA) struct dns_packet : net_packet { u16 id; u16 flags; // QR:1 Opcode:4 AA:1 TC:1 RD:1 RA:1 Z:3 RCODE:4 u16 qdcount, ancount, nscount, arcount; u8 data[MAXSIZE - 6 * 2]; int decode_label (char *data, int size, int &offs); }; int dns_packet::decode_label (char *data, int size, int &offs) { char *orig = data; memset (data, 0, size); while (offs < size - 1) { u8 len = (*this)[offs++]; if (!len) break; else if (len < 64) { if (size < len + 1 || offs + len >= MAXSIZE - 1) break; memcpy (data, &((*this)[offs]), len); data += len; size -= len; offs += len; *data++ = '.'; size--; } else { int offs2 = ((len & 63) << 8) + (*this)[offs++]; data += decode_label (data, size, offs2); break; } } return data - orig; } ///////////////////////////////////////////////////////////////////////////// struct dns_req { dns_packet *pkt; tstamp next; int retry; connection *conn; int seqno; dns_req (connection *c); void gen_stream_req (int seqno, byte_stream *stream); }; static u16 dns_id = 12098; // TODO: should be per-vpn static u16 next_id () { // the simplest lsfr with periodicity 65535 i could find dns_id = (dns_id << 1) | (((dns_id >> 1) ^ (dns_id >> 2) ^ (dns_id >> 4) ^ (dns_id >> 15)) & 1); return dns_id; } dns_req::dns_req (connection *c) : conn (c) { next = 0; retry = 0; pkt = new dns_packet; pkt->id = next_id (); } void dns_req::gen_stream_req (int seqno, byte_stream *stream) { this->seqno = seqno; pkt->flags = htons (DEFAULT_CLIENT_FLAGS); pkt->qdcount = htons (1); int offs = 6*2; int dlen = MAX_DOMAIN_SIZE - strlen (THISNODE->domain) - 2; // MAX_DOMAIN_SIZE is technically 255, but bind doesn't compress responses well, // so we need to have space for 2*MAX_DOMAIN_SIZE + header + extra u8 data[256]; //TODO data[0] = THISNODE->id; //TODO data[1] = seqno >> 8; //TODO data[2] = seqno; //TODO int datalen = dns64::decode_len (dlen - (dlen + MAX_LBL_SIZE - 1) / MAX_LBL_SIZE) - 3; if (datalen > stream->size ()) datalen = stream->size (); char enc[256], *encp = enc; memcpy (data + 3, stream->begin (), datalen); int enclen = dns64::encode (enc, data, datalen + 3); stream->remove (datalen); while (enclen) { int lbllen = enclen < MAX_LBL_SIZE ? enclen : MAX_LBL_SIZE; (*pkt)[offs++] = lbllen; memcpy (pkt->at (offs), encp, lbllen); offs += lbllen; encp += lbllen; enclen -= lbllen; } const char *suffix = THISNODE->domain; // add tunnel domain for (;;) { const char *end = strchr (suffix, '.'); if (!end) end = suffix + strlen (suffix); int len = end - suffix; (*pkt)[offs++] = len; memcpy (&((*pkt)[offs]), suffix, len); offs += len; if (!*end) break; suffix = end + 1; } (*pkt)[offs++] = 0; (*pkt)[offs++] = RR_TYPE_ANY >> 8; (*pkt)[offs++] = RR_TYPE_ANY; (*pkt)[offs++] = RR_CLASS_IN >> 8; (*pkt)[offs++] = RR_CLASS_IN; pkt->len = offs; } struct dns_rcv { int seqno; dns_packet *pkt; // reply packet u8 data [MAXSIZE]; // actually part of the reply packet... int datalen; dns_rcv (int seqno, dns_packet *req, u8 *data, int datalen); ~dns_rcv (); }; dns_rcv::dns_rcv (int seqno, dns_packet *req, u8 *data, int datalen) : seqno (seqno), pkt (new dns_packet), datalen (datalen) { memcpy (this->data, data, datalen); pkt->len = req->len; memcpy (pkt->at (0), req->at (0), req->len); } dns_rcv::~dns_rcv () { delete pkt; } ///////////////////////////////////////////////////////////////////////////// struct dns_cfg { u8 id1, id2, id3; u8 def_ttl; u8 unused1; u16 max_size; u8 flags1, flags2; }; void connection::dnsv4_receive_rep (struct dns_rcv *r) { dns_rcvpq.push_back (r); redo: for (vector::iterator i = dns_rcvpq.begin (); i != dns_rcvpq.end (); ++i) if (dns_rcvseq == (*i)->seqno) { dns_rcv *r = *i; dns_rcvseq = (dns_rcvseq + 1) & SEQNO_MASK; if (!dns_snddq && !dns_rcvdq) { dns_rcvdq = new byte_stream (MAX_BACKLOG * 2); dns_snddq = new byte_stream (MAX_BACKLOG); dns_si.set (::conf.dns_forw_host, ::conf.dns_forw_port, PROT_DNSv4); } if (!dns_rcvdq->put (r->data, r->datalen)) abort (); // MUST never overflow, can be caused by data corruption, TODO while (vpn_packet *pkt = dns_rcvdq->get ()) { sockinfo si; si.host = 0; si.port = 0; si.prot = PROT_DNSv4; vpn->recv_vpn_packet (pkt, si); } } else if ((u32)dns_rcvseq - MAX_WINDOW - (u32)(*i)->seqno < MAX_WINDOW * 2) { dns_rcvpq.erase (i); goto redo; } } dns_packet * vpn::dnsv4_server (dns_packet *pkt) { u16 flags = ntohs (pkt->flags); //memcpy (&((*rep)[0]), &((*pkt)[0]), pkt->len); int offs = 6 * 2; // skip header pkt->flags = htons (DEFAULT_SERVER_FLAGS | FLAG_RCODE_FORMERR); if (!(flags & (FLAG_RESPONSE | FLAG_OP_MASK | FLAG_TC)) && pkt->qdcount == htons (1)) { char qname[MAXSIZE]; int qlen = pkt->decode_label ((char *)qname, MAXSIZE - offs, offs); u16 qtype = (*pkt) [offs++] << 8; qtype |= (*pkt) [offs++]; u16 qclass = (*pkt) [offs++] << 8; qclass |= (*pkt) [offs++]; pkt->qdcount = htons (1); pkt->ancount = 0; pkt->nscount = 0; // should be self, as other nameservers reply like this pkt->arcount = 0; // a record for self, as other nameservers reply like this pkt->flags = htons (DEFAULT_SERVER_FLAGS | FLAG_RCODE_NXDOMAIN); int dlen = strlen (THISNODE->domain); if (qclass == RR_CLASS_IN && (qtype == RR_TYPE_ANY || qtype == RR_TYPE_TXT) && qlen > dlen + 1 && !memcmp (qname + qlen - dlen - 1, THISNODE->domain, dlen)) { // correct class, domain: parse u8 data[MAXSIZE]; int datalen = dns64::decode (data, qname, qlen - dlen - 1); int client = data[0]; int seqno = ((data[1] << 8) | data[2]) & SEQNO_MASK; if (0 < client && client <= conns.size ()) { connection *c = conns [client - 1]; for (vector::iterator i = c->dns_rcvpq.begin (); i != c->dns_rcvpq.end (); ++i) if ((*i)->seqno == seqno) { // already seen that request, just reply with the original reply dns_rcv *r = *i; offs = r->pkt->len; memcpy (pkt->at (0), r->pkt->at (0), offs); goto duplicate_request; } // new packet, queue c->dnsv4_receive_rep (new dns_rcv (seqno, pkt, data + 3, datalen - 3)); // now generate reply pkt->ancount = htons (1); // one answer RR pkt->flags = htons (DEFAULT_SERVER_FLAGS | FLAG_RCODE_OK); (*pkt) [offs++] = 0xc0; (*pkt) [offs++] = 6 * 2; // same as in query section (*pkt) [offs++] = RR_TYPE_TXT >> 8; (*pkt) [offs++] = RR_TYPE_TXT; (*pkt) [offs++] = RR_CLASS_IN >> 8; (*pkt) [offs++] = RR_CLASS_IN; (*pkt) [offs++] = 0; (*pkt) [offs++] = 0; (*pkt) [offs++] = 0; (*pkt) [offs++] = 0; // TTL int dlen = MAX_PKT_SIZE - offs - 2; // bind doesn't compress well, so reduce further by one label length dlen -= qlen; int rdlen_offs = offs += 2; while (c->dns_snddq && !c->dns_snddq->empty () && dlen > 1) { int txtlen = dlen <= 255 ? dlen - 1 : 255; if (txtlen > c->dns_snddq->size ()) txtlen = c->dns_snddq->size (); (*pkt)[offs++] = txtlen; memcpy (pkt->at (offs), c->dns_snddq->begin (), txtlen); offs += txtlen; c->dns_snddq->remove (txtlen); dlen -= txtlen + 1; } // avoid empty TXT rdata if (offs == rdlen_offs) (*pkt)[offs++] = 0; int rdlen = offs - rdlen_offs; (*pkt) [rdlen_offs - 2] = rdlen >> 8; (*pkt) [rdlen_offs - 1] = rdlen; duplicate_request: ; } else pkt->flags = htons (DEFAULT_SERVER_FLAGS | FLAG_RCODE_FORMERR); } } else offs = pkt->len; pkt->len = offs; return pkt; } void vpn::dnsv4_client (dns_packet *pkt) { u16 flags = ntohs (pkt->flags); int offs = 6 * 2; // skip header pkt->qdcount = ntohs (pkt->qdcount); pkt->ancount = ntohs (pkt->ancount); // go through our request list and find the corresponding request for (vector::iterator i = dns_sndpq.begin (); i != dns_sndpq.end (); ++i) if ((*i)->pkt->id == pkt->id) { connection *c = (*i)->conn; int seqno = (*i)->seqno; u8 data[MAXSIZE], *datap = data; delete *i; dns_sndpq.erase (i); if (flags & (FLAG_RESPONSE | FLAG_OP_MASK | FLAG_TC)) { char qname[MAXSIZE]; while (pkt->qdcount-- && offs < MAXSIZE - 4) { int qlen = pkt->decode_label ((char *)qname, MAXSIZE - offs, offs); offs += 4; // skip qtype, qclass } while (pkt->ancount-- && offs < MAXSIZE - 10) { pkt->decode_label ((char *)qname, MAXSIZE - offs, offs); u16 qtype = (*pkt) [offs++] << 8; qtype |= (*pkt) [offs++]; u16 qclass = (*pkt) [offs++] << 8; qclass |= (*pkt) [offs++]; u32 ttl = (*pkt) [offs++] << 24; ttl |= (*pkt) [offs++] << 16; ttl |= (*pkt) [offs++] << 8; ttl |= (*pkt) [offs++]; u16 rdlen = (*pkt) [offs++] << 8; rdlen |= (*pkt) [offs++]; if (rdlen <= MAXSIZE - offs) { // decode bytes, finally while (rdlen) { int txtlen = (*pkt) [offs++]; assert (txtlen + offs < MAXSIZE - 1); memcpy (datap, pkt->at (offs), txtlen); datap += txtlen; offs += txtlen; rdlen -= txtlen + 1; } } } } if (datap != data) printf ("%02x %02x %02x %02x\n", data[0], data[1], data[2], data[3]); printf ("recv %d,%d\n", pkt->id, seqno, datap - data);//D c->dnsv4_receive_rep (new dns_rcv (seqno, pkt, data, datap - data)); break; } delete pkt; } void vpn::dnsv4_ev (io_watcher &w, short revents) { if (revents & EVENT_READ) { dns_packet *pkt = new dns_packet; struct sockaddr_in sa; socklen_t sa_len = sizeof (sa); pkt->len = recvfrom (w.fd, &((*pkt)[0]), MAXSIZE, 0, (sockaddr *)&sa, &sa_len); if (pkt->len > 0) { if (pkt->flags & htons (FLAG_TC)) { slog (L_WARN, _("DNS request/response truncated, check protocol settings.")); //TODO connection reset } if (THISNODE->dns_port) { pkt = dnsv4_server (pkt); sendto (w.fd, &((*pkt)[0]), pkt->len, 0, (sockaddr *)&sa, sa_len); } else dnsv4_client (pkt); } } } bool connection::send_dnsv4_packet (vpn_packet *pkt, const sockinfo &si, int tos) { // never initialized if (!dns_snddq && !dns_rcvdq) { dns_rcvdq = new byte_stream (MAX_BACKLOG * 2); dns_snddq = new byte_stream (MAX_BACKLOG); //dns_rcvseq = dns_sndseq = 0; dns_si.set (::conf.dns_forw_host, ::conf.dns_forw_port, PROT_DNSv4); } if (!dns_snddq->put (pkt)) return false; // start timer if neccessary if (!THISNODE->dns_port && !dnsv4_tw.active) dnsv4_cb (dnsv4_tw); return true; } void connection::dnsv4_cb (time_watcher &w) { // check for timeouts and (re)transmit tstamp next = NOW + 60; dns_req *send = 0; for (vector::iterator i = vpn->dns_sndpq.begin (); i != vpn->dns_sndpq.end (); ++i) { dns_req *r = *i; if (r->next <= NOW) { if (!send) { send = r; if (r->retry)//D printf ("req %d, retry %d\n", r->pkt->id, r->retry); r->retry++; r->next = NOW + r->retry; } } if (r->next < next) next = r->next; } if (!send && vpn->dns_sndpq.size () < MAX_OUTSTANDING) { send = new dns_req (this); send->gen_stream_req (dns_sndseq, dns_snddq); vpn->dns_sndpq.push_back (send); dns_sndseq = (dns_sndseq + 1) & SEQNO_MASK; } tstamp min_next = NOW + (1. / (tstamp)MAX_RATE); if (send) { dns_packet *pkt = send->pkt; next = min_next; sendto (vpn->dnsv4_fd, &((*pkt)[0]), pkt->len, 0, dns_si.sav4 (), dns_si.salenv4 ()); } else if (next < min_next) next = min_next; w.start (next); } #endif