/* Copyright (c) 2014, Vsevolod Stakhov * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED ''AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "rdns.h" #include "dns_private.h" #include "parse.h" #include "logger.h" static uint8_t * rdns_decompress_label (uint8_t *begin, uint16_t *len, uint16_t max) { uint16_t offset = (*len); if (offset > max) { return NULL; } *len = *(begin + offset); return begin + offset; } #define UNCOMPRESS_DNS_OFFSET(p) (((*(p)) ^ DNS_COMPRESSION_BITS) << 8) + *((p) + 1) uint8_t * rdns_request_reply_cmp (struct rdns_request *req, uint8_t *in, int len) { uint8_t *p, *c, *l1, *l2; uint16_t len1, len2; int decompressed = 0; struct rdns_resolver *resolver = req->resolver; /* QR format: * labels - len:octets * null label - 0 * class - 2 octets * type - 2 octets */ /* In p we would store current position in reply and in c - position in request */ p = in; c = req->packet + req->pos; for (;;) { /* Get current label */ len1 = *p; len2 = *c; if (p - in > len) { rdns_info ("invalid dns reply"); return NULL; } /* This may be compressed, so we need to decompress it */ if (len1 & DNS_COMPRESSION_BITS) { len1 = UNCOMPRESS_DNS_OFFSET(p); l1 = rdns_decompress_label (in, &len1, len); if (l1 == NULL) { return NULL; } decompressed ++; l1 ++; p += 2; } else { l1 = ++p; p += len1; } if (len2 & DNS_COMPRESSION_BITS) { len2 = UNCOMPRESS_DNS_OFFSET(c); l2 = rdns_decompress_label (c, &len2, len); if (l2 == NULL) { rdns_info ("invalid DNS pointer, cannot decompress"); return NULL; } decompressed ++; l2 ++; c += 2; } else { l2 = ++c; c += len2; } if (len1 != len2) { return NULL; } if (len1 == 0) { break; } if (memcmp (l1, l2, len1) != 0) { return NULL; } if (decompressed == 2) { break; } } /* p now points to the end of QR section */ /* Compare class and type */ if (memcmp (p, c, sizeof (uint16_t) * 2) == 0) { req->pos = c - req->packet + sizeof (uint16_t) * 2; return p + sizeof (uint16_t) * 2; } return NULL; } #define MAX_RECURSION_LEVEL 10 bool rdns_parse_labels (struct rdns_resolver *resolver, uint8_t *in, char **target, uint8_t **pos, struct rdns_reply *rep, int *remain, bool make_name) { uint16_t namelen = 0; uint8_t *p = *pos, *begin = *pos, *l, *t, *end = *pos + *remain, *new_pos = *pos; uint16_t llen; int length = *remain, new_remain = *remain; int ptrs = 0, labels = 0; bool got_compression = false; /* First go through labels and calculate name length */ while (p - begin < length) { if (ptrs > MAX_RECURSION_LEVEL) { rdns_info ("dns pointers are nested too much"); return false; } llen = *p; if (llen == 0) { if (!got_compression) { /* In case of compression we have already decremented the processing position */ new_remain -= sizeof (uint8_t); new_pos += sizeof (uint8_t); } break; } else if ((llen & DNS_COMPRESSION_BITS)) { if (end - p > 1) { ptrs ++; llen = UNCOMPRESS_DNS_OFFSET(p); l = rdns_decompress_label (in, &llen, end - in); if (l == NULL) { rdns_info ("invalid DNS pointer"); return false; } if (!got_compression) { /* Our label processing is finished actually */ new_remain -= sizeof (uint16_t); new_pos += sizeof (uint16_t); got_compression = true; } if (l < in || l > begin + length) { rdns_info ("invalid pointer in DNS packet"); return false; } begin = l; length = end - begin; p = l + *l + 1; namelen += *l; labels ++; } else { rdns_info ("DNS packet has incomplete compressed label, input length: %d bytes, remain: %d", *remain, new_remain); return false; } } else { namelen += llen; p += llen + 1; labels ++; if (!got_compression) { new_remain -= llen + 1; new_pos += llen + 1; } } } if (!make_name) { goto end; } *target = malloc (namelen + labels + 3); t = (uint8_t *)*target; p = *pos; begin = *pos; length = *remain; /* Now copy labels to name */ while (p - begin < length) { llen = *p; if (llen == 0) { break; } else if (llen & DNS_COMPRESSION_BITS) { llen = UNCOMPRESS_DNS_OFFSET(p); l = rdns_decompress_label (in, &llen, end - in); if (l == NULL) { goto end; } begin = l; length = end - begin; p = l + *l + 1; memcpy (t, l + 1, *l); t += *l; *t ++ = '.'; } else { memcpy (t, p + 1, *p); t += *p; *t ++ = '.'; p += *p + 1; } } if (t > (uint8_t *)*target) { *(t - 1) = '\0'; } else { /* Handle empty labels */ **target = '\0'; } end: *remain = new_remain; *pos = new_pos; return true; } #define GET8(x) do {(x) = ((*p)); p += sizeof (uint8_t); *remain -= sizeof (uint8_t); } while(0) #define GET16(x) do {(x) = ((*p) << 8) + *(p + 1); p += sizeof (uint16_t); *remain -= sizeof (uint16_t); } while(0) #define GET32(x) do {(x) = ((*p) << 24) + ((*(p + 1)) << 16) + ((*(p + 2)) << 8) + *(p + 3); p += sizeof (uint32_t); *remain -= sizeof (uint32_t); } while(0) #define SKIP(type) do { p += sizeof(type); *remain -= sizeof(type); } while (0) int rdns_parse_rr (struct rdns_resolver *resolver, uint8_t *in, struct rdns_reply_entry *elt, uint8_t **pos, struct rdns_reply *rep, int *remain) { uint8_t *p = *pos, parts; uint16_t type, datalen, txtlen, copied; int32_t ttl; bool parsed = false; /* Skip the whole name */ if (! rdns_parse_labels (resolver, in, NULL, &p, rep, remain, false)) { rdns_info ("bad RR name"); return -1; } if (*remain < (int)sizeof (uint16_t) * 6) { rdns_info ("stripped dns reply: %d bytes remain", *remain); return -1; } GET16 (type); /* Skip class */ SKIP (uint16_t); GET32 (ttl); GET16 (datalen); elt->type = type; /* Now p points to RR data */ switch (type) { case DNS_T_A: if (!(datalen & 0x3) && datalen <= *remain) { memcpy (&elt->content.a.addr, p, sizeof (struct in_addr)); p += datalen; *remain -= datalen; parsed = true; } else { rdns_info ("corrupted A record"); return -1; } break; case DNS_T_AAAA: if (datalen == sizeof (struct in6_addr) && datalen <= *remain) { memcpy (&elt->content.aaa.addr, p, sizeof (struct in6_addr)); p += datalen; *remain -= datalen; parsed = true; } else { rdns_info ("corrupted AAAA record"); return -1; } break; case DNS_T_PTR: if (! rdns_parse_labels (resolver, in, &elt->content.ptr.name, &p, rep, remain, true)) { rdns_info ("invalid labels in PTR record"); return -1; } parsed = true; break; case DNS_T_NS: if (! rdns_parse_labels (resolver, in, &elt->content.ns.name, &p, rep, remain, true)) { rdns_info ("invalid labels in NS record"); return -1; } parsed = true; break; case DNS_T_SOA: if (! rdns_parse_labels (resolver, in, &elt->content.soa.mname, &p, rep, remain, true)) { rdns_info ("invalid labels in NS record"); return -1; } if (! rdns_parse_labels (resolver, in, &elt->content.soa.admin, &p, rep, remain, true)) { rdns_info ("invalid labels in NS record"); return -1; } GET32 (elt->content.soa.serial); GET32 (elt->content.soa.refresh); GET32 (elt->content.soa.retry); GET32 (elt->content.soa.expire); GET32 (elt->content.soa.minimum); parsed = true; break; case DNS_T_MX: GET16 (elt->content.mx.priority); if (! rdns_parse_labels (resolver, in, &elt->content.mx.name, &p, rep, remain, true)) { rdns_info ("invalid labels in MX record"); return -1; } parsed = true; break; case DNS_T_TXT: case DNS_T_SPF: elt->content.txt.data = malloc (datalen + 1); if (elt->content.txt.data == NULL) { rdns_err ("failed to allocate %d bytes for TXT record", (int)datalen + 1); return -1; } /* Now we should compose data from parts */ copied = 0; parts = 0; while (copied + parts < datalen) { txtlen = *p; if (txtlen + copied + parts <= datalen) { parts ++; memcpy (elt->content.txt.data + copied, p + 1, txtlen); copied += txtlen; p += txtlen + 1; *remain -= txtlen + 1; } else { break; } } *(elt->content.txt.data + copied) = '\0'; parsed = true; elt->type = RDNS_REQUEST_TXT; break; case DNS_T_SRV: if (p - *pos > (int)(*remain - sizeof (uint16_t) * 3)) { rdns_info ("stripped dns reply while reading SRV record"); return -1; } GET16 (elt->content.srv.priority); GET16 (elt->content.srv.weight); GET16 (elt->content.srv.port); if (! rdns_parse_labels (resolver, in, &elt->content.srv.target, &p, rep, remain, true)) { rdns_info ("invalid labels in SRV record"); return -1; } parsed = true; break; case DNS_T_TLSA: if (p - *pos > (int)(*remain - sizeof (uint8_t) * 3) || datalen <= 3) { rdns_info ("stripped dns reply while reading TLSA record"); return -1; } GET8 (elt->content.tlsa.usage); GET8 (elt->content.tlsa.selector); GET8 (elt->content.tlsa.match_type); datalen -= 3; elt->content.tlsa.data = malloc (datalen); if (elt->content.tlsa.data == NULL) { rdns_err ("failed to allocate %d bytes for TLSA record", (int)datalen + 1); return -1; } elt->content.tlsa.datalen = datalen; memcpy (elt->content.tlsa.data, p, datalen); p += datalen; *remain -= datalen; parsed = true; break; case DNS_T_CNAME: /* Skip cname records */ p += datalen; *remain -= datalen; break; default: rdns_debug ("unexpected RR type: %d", type); p += datalen; *remain -= datalen; break; } *pos = p; if (parsed) { elt->ttl = ttl; return 1; } return 0; }