embedaddon/dnsmasq/src/edns0.c - view

File: [ELWIX - Embedded LightWeight unIX -] / embedaddon / dnsmasq / src / edns0.c
Revision 1.1: download - view: text, annotated - select for diffs - revision graph
Wed Nov 2 09:57:01 2016 UTC (7 years, 9 months ago) by misho
CVS tags: MAIN, HEAD

Initial revision

1: /* dnsmasq is Copyright (c) 2000-2016 Simon Kelley 2: 3: This program is free software; you can redistribute it and/or modify 4: it under the terms of the GNU General Public License as published by 5: the Free Software Foundation; version 2 dated June, 1991, or 6: (at your option) version 3 dated 29 June, 2007. 7: 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. 12: 13: You should have received a copy of the GNU General Public License 14: along with this program. If not, see <http://www.gnu.org/licenses/>. 15: */ 16: 17: #include "dnsmasq.h" 18: 19: unsigned char *find_pseudoheader(struct dns_header *header, size_t plen, size_t *len, unsigned char **p, int *is_sign, int *is_last) 20: { 21: /* See if packet has an RFC2671 pseudoheader, and if so return a pointer to it. 22: also return length of pseudoheader in *len and pointer to the UDP size in *p 23: Finally, check to see if a packet is signed. If it is we cannot change a single bit before 24: forwarding. We look for TSIG in the addition section, and TKEY queries (for GSS-TSIG) */ 25: 26: int i, arcount = ntohs(header->arcount); 27: unsigned char *ansp = (unsigned char *)(header+1); 28: unsigned short rdlen, type, class; 29: unsigned char *ret = NULL; 30: 31: if (is_sign) 32: { 33: *is_sign = 0; 34: 35: if (OPCODE(header) == QUERY) 36: { 37: for (i = ntohs(header->qdcount); i != 0; i--) 38: { 39: if (!(ansp = skip_name(ansp, header, plen, 4))) 40: return NULL; 41: 42: GETSHORT(type, ansp); 43: GETSHORT(class, ansp); 44: 45: if (class == C_IN && type == T_TKEY) 46: *is_sign = 1; 47: } 48: } 49: } 50: else 51: { 52: if (!(ansp = skip_questions(header, plen))) 53: return NULL; 54: } 55: 56: if (arcount == 0) 57: return NULL; 58: 59: if (!(ansp = skip_section(ansp, ntohs(header->ancount) + ntohs(header->nscount), header, plen))) 60: return NULL; 61: 62: for (i = 0; i < arcount; i++) 63: { 64: unsigned char *save, *start = ansp; 65: if (!(ansp = skip_name(ansp, header, plen, 10))) 66: return NULL; 67: 68: GETSHORT(type, ansp); 69: save = ansp; 70: GETSHORT(class, ansp); 71: ansp += 4; /* TTL */ 72: GETSHORT(rdlen, ansp); 73: if (!ADD_RDLEN(header, ansp, plen, rdlen)) 74: return NULL; 75: if (type == T_OPT) 76: { 77: if (len) 78: *len = ansp - start; 79: 80: if (p) 81: *p = save; 82: 83: if (is_last) 84: *is_last = (i == arcount-1); 85: 86: ret = start; 87: } 88: else if (is_sign && 89: i == arcount - 1 && 90: class == C_ANY && 91: type == T_TSIG) 92: *is_sign = 1; 93: } 94: 95: return ret; 96: } 97: 98: 99: /* replace == 2 ->delete existing option only. */ 100: size_t add_pseudoheader(struct dns_header *header, size_t plen, unsigned char *limit, 101: unsigned short udp_sz, int optno, unsigned char *opt, size_t optlen, int set_do, int replace) 102: { 103: unsigned char *lenp, *datap, *p, *udp_len, *buff = NULL; 104: int rdlen = 0, is_sign, is_last; 105: unsigned short flags = set_do ? 0x8000 : 0, rcode = 0; 106: 107: p = find_pseudoheader(header, plen, NULL, &udp_len, &is_sign, &is_last); 108: 109: if (is_sign) 110: return plen; 111: 112: if (p) 113: { 114: /* Existing header */ 115: int i; 116: unsigned short code, len; 117: 118: p = udp_len; 119: GETSHORT(udp_sz, p); 120: GETSHORT(rcode, p); 121: GETSHORT(flags, p); 122: 123: if (set_do) 124: { 125: p -= 2; 126: flags |= 0x8000; 127: PUTSHORT(flags, p); 128: } 129: 130: lenp = p; 131: GETSHORT(rdlen, p); 132: if (!CHECK_LEN(header, p, plen, rdlen)) 133: return plen; /* bad packet */ 134: datap = p; 135: 136: /* no option to add */ 137: if (optno == 0) 138: return plen; 139: 140: /* check if option already there */ 141: for (i = 0; i + 4 < rdlen;) 142: { 143: GETSHORT(code, p); 144: GETSHORT(len, p); 145: 146: /* malformed option, delete the whole OPT RR and start again. */ 147: if (i + len > rdlen) 148: { 149: rdlen = 0; 150: is_last = 0; 151: break; 152: } 153: 154: if (code == optno) 155: { 156: if (replace == 0) 157: return plen; 158: 159: /* delete option if we're to replace it. */ 160: p -= 4; 161: rdlen -= len + 4; 162: memcpy(p, p+len+4, rdlen - i); 163: PUTSHORT(rdlen, lenp); 164: lenp -= 2; 165: } 166: else 167: { 168: p += len; 169: i += len + 4; 170: } 171: } 172: 173: /* If we're going to extend the RR, it has to be the last RR in the packet */ 174: if (!is_last) 175: { 176: /* First, take a copy of the options. */ 177: if (rdlen != 0 && (buff = whine_malloc(rdlen))) 178: memcpy(buff, datap, rdlen); 179: 180: /* now, delete OPT RR */ 181: plen = rrfilter(header, plen, 0); 182: 183: /* Now, force addition of a new one */ 184: p = NULL; 185: } 186: } 187: 188: if (!p) 189: { 190: /* We are (re)adding the pseudoheader */ 191: if (!(p = skip_questions(header, plen)) || 192: !(p = skip_section(p, 193: ntohs(header->ancount) + ntohs(header->nscount) + ntohs(header->arcount), 194: header, plen))) 195: return plen; 196: *p++ = 0; /* empty name */ 197: PUTSHORT(T_OPT, p); 198: PUTSHORT(udp_sz, p); /* max packet length, 512 if not given in EDNS0 header */ 199: PUTSHORT(rcode, p); /* extended RCODE and version */ 200: PUTSHORT(flags, p); /* DO flag */ 201: lenp = p; 202: PUTSHORT(rdlen, p); /* RDLEN */ 203: datap = p; 204: /* Copy back any options */ 205: if (buff) 206: { 207: memcpy(p, buff, rdlen); 208: free(buff); 209: p += rdlen; 210: } 211: header->arcount = htons(ntohs(header->arcount) + 1); 212: } 213: 214: if (((ssize_t)optlen) > (limit - (p + 4))) 215: return plen; /* Too big */ 216: 217: /* Add new option */ 218: if (optno != 0 && replace != 2) 219: { 220: PUTSHORT(optno, p); 221: PUTSHORT(optlen, p); 222: memcpy(p, opt, optlen); 223: p += optlen; 224: PUTSHORT(p - datap, lenp); 225: } 226: return p - (unsigned char *)header; 227: } 228: 229: size_t add_do_bit(struct dns_header *header, size_t plen, unsigned char *limit) 230: { 231: return add_pseudoheader(header, plen, (unsigned char *)limit, PACKETSZ, 0, NULL, 0, 1, 0); 232: } 233: 234: static unsigned char char64(unsigned char c) 235: { 236: return "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"[c & 0x3f]; 237: } 238: 239: static void encoder(unsigned char *in, char *out) 240: { 241: out[0] = char64(in[0]>>2); 242: out[1] = char64((in[0]<<4) | (in[1]>>4)); 243: out[2] = char64((in[1]<<2) | (in[2]>>6)); 244: out[3] = char64(in[2]); 245: } 246: 247: static size_t add_dns_client(struct dns_header *header, size_t plen, unsigned char *limit, union mysockaddr *l3, time_t now) 248: { 249: int maclen, replace = 2; /* can't get mac address, just delete any incoming. */ 250: unsigned char mac[DHCP_CHADDR_MAX]; 251: char encode[18]; /* handle 6 byte MACs */ 252: 253: if ((maclen = find_mac(l3, mac, 1, now)) == 6) 254: { 255: replace = 1; 256: 257: if (option_bool(OPT_MAC_HEX)) 258: print_mac(encode, mac, maclen); 259: else 260: { 261: encoder(mac, encode); 262: encoder(mac+3, encode+4); 263: encode[8] = 0; 264: } 265: } 266: 267: return add_pseudoheader(header, plen, limit, PACKETSZ, EDNS0_OPTION_NOMDEVICEID, (unsigned char *)encode, strlen(encode), 0, replace); 268: } 269: 270: 271: static size_t add_mac(struct dns_header *header, size_t plen, unsigned char *limit, union mysockaddr *l3, time_t now) 272: { 273: int maclen; 274: unsigned char mac[DHCP_CHADDR_MAX]; 275: 276: if ((maclen = find_mac(l3, mac, 1, now)) != 0) 277: plen = add_pseudoheader(header, plen, limit, PACKETSZ, EDNS0_OPTION_MAC, mac, maclen, 0, 0); 278: 279: return plen; 280: } 281: 282: struct subnet_opt { 283: u16 family; 284: u8 source_netmask, scope_netmask; 285: #ifdef HAVE_IPV6 286: u8 addr[IN6ADDRSZ]; 287: #else 288: u8 addr[INADDRSZ]; 289: #endif 290: }; 291: 292: static void *get_addrp(union mysockaddr *addr, const short family) 293: { 294: #ifdef HAVE_IPV6 295: if (family == AF_INET6) 296: return &addr->in6.sin6_addr; 297: #endif 298: 299: return &addr->in.sin_addr; 300: } 301: 302: static size_t calc_subnet_opt(struct subnet_opt *opt, union mysockaddr *source) 303: { 304: /* http://tools.ietf.org/html/draft-vandergaast-edns-client-subnet-02 */ 305: 306: int len; 307: void *addrp; 308: int sa_family = source->sa.sa_family; 309: 310: opt->source_netmask = 0; 311: opt->scope_netmask = 0; 312: 313: #ifdef HAVE_IPV6 314: if (source->sa.sa_family == AF_INET6 && daemon->add_subnet6) 315: { 316: opt->source_netmask = daemon->add_subnet6->mask; 317: if (daemon->add_subnet6->addr_used) 318: { 319: sa_family = daemon->add_subnet6->addr.sa.sa_family; 320: addrp = get_addrp(&daemon->add_subnet6->addr, sa_family); 321: } 322: else 323: addrp = &source->in6.sin6_addr; 324: } 325: #endif 326: 327: if (source->sa.sa_family == AF_INET && daemon->add_subnet4) 328: { 329: opt->source_netmask = daemon->add_subnet4->mask; 330: if (daemon->add_subnet4->addr_used) 331: { 332: sa_family = daemon->add_subnet4->addr.sa.sa_family; 333: addrp = get_addrp(&daemon->add_subnet4->addr, sa_family); 334: } 335: else 336: addrp = &source->in.sin_addr; 337: } 338: 339: #ifdef HAVE_IPV6 340: opt->family = htons(sa_family == AF_INET6 ? 2 : 1); 341: #else 342: opt->family = htons(1); 343: #endif 344: 345: len = 0; 346: 347: if (opt->source_netmask != 0) 348: { 349: len = ((opt->source_netmask - 1) >> 3) + 1; 350: memcpy(opt->addr, addrp, len); 351: if (opt->source_netmask & 7) 352: opt->addr[len-1] &= 0xff << (8 - (opt->source_netmask & 7)); 353: } 354: 355: return len + 4; 356: } 357: 358: static size_t add_source_addr(struct dns_header *header, size_t plen, unsigned char *limit, union mysockaddr *source) 359: { 360: /* http://tools.ietf.org/html/draft-vandergaast-edns-client-subnet-02 */ 361: 362: int len; 363: struct subnet_opt opt; 364: 365: len = calc_subnet_opt(&opt, source); 366: return add_pseudoheader(header, plen, (unsigned char *)limit, PACKETSZ, EDNS0_OPTION_CLIENT_SUBNET, (unsigned char *)&opt, len, 0, 0); 367: } 368: 369: int check_source(struct dns_header *header, size_t plen, unsigned char *pseudoheader, union mysockaddr *peer) 370: { 371: /* Section 9.2, Check that subnet option in reply matches. */ 372: 373: int len, calc_len; 374: struct subnet_opt opt; 375: unsigned char *p; 376: int code, i, rdlen; 377: 378: calc_len = calc_subnet_opt(&opt, peer); 379: 380: if (!(p = skip_name(pseudoheader, header, plen, 10))) 381: return 1; 382: 383: p += 8; /* skip UDP length and RCODE */ 384: 385: GETSHORT(rdlen, p); 386: if (!CHECK_LEN(header, p, plen, rdlen)) 387: return 1; /* bad packet */ 388: 389: /* check if option there */ 390: for (i = 0; i + 4 < rdlen; i += len + 4) 391: { 392: GETSHORT(code, p); 393: GETSHORT(len, p); 394: if (code == EDNS0_OPTION_CLIENT_SUBNET) 395: { 396: /* make sure this doesn't mismatch. */ 397: opt.scope_netmask = p[3]; 398: if (len != calc_len || memcmp(p, &opt, len) != 0) 399: return 0; 400: } 401: p += len; 402: } 403: 404: return 1; 405: } 406: 407: size_t add_edns0_config(struct dns_header *header, size_t plen, unsigned char *limit, 408: union mysockaddr *source, time_t now, int *check_subnet) 409: { 410: *check_subnet = 0; 411: 412: if (option_bool(OPT_ADD_MAC)) 413: plen = add_mac(header, plen, limit, source, now); 414: 415: if (option_bool(OPT_MAC_B64) || option_bool(OPT_MAC_HEX)) 416: plen = add_dns_client(header, plen, limit, source, now); 417: 418: if (daemon->dns_client_id) 419: plen = add_pseudoheader(header, plen, limit, PACKETSZ, EDNS0_OPTION_NOMCPEID, 420: (unsigned char *)daemon->dns_client_id, strlen(daemon->dns_client_id), 0, 1); 421: 422: if (option_bool(OPT_CLIENT_SUBNET)) 423: { 424: plen = add_source_addr(header, plen, limit, source); 425: *check_subnet = 1; 426: } 427: 428: return plen; 429: }