/* * Copyright (C) The c-ares project * * Permission to use, copy, modify, and distribute this * software and its documentation for any purpose and without * fee is hereby granted, provided that the above copyright * notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting * documentation, and that the name of M.I.T. not be used in * advertising or publicity pertaining to distribution of the * software without specific, written prior permission. * M.I.T. makes no representations about the suitability of * this software for any purpose. It is provided "as is" * without express or implied warranty. * * SPDX-License-Identifier: MIT */ // Include ares internal file for DNS protocol details #include "ares_setup.h" #include "ares.h" #include "ares_dns.h" #include "dns-proto.h" #include #include #include namespace ares { std::string HexDump(std::vector data) { std::stringstream ss; for (size_t ii = 0; ii < data.size(); ii++) { char buffer[2 + 1]; snprintf(buffer, sizeof(buffer), "%02x", data[ii]); ss << buffer; } return ss.str(); } std::string HexDump(const byte *data, int len) { return HexDump(std::vector(data, data + len)); } std::string HexDump(const char *data, int len) { return HexDump(reinterpret_cast(data), len); } std::string StatusToString(int status) { switch (status) { case ARES_SUCCESS: return "ARES_SUCCESS"; case ARES_ENODATA: return "ARES_ENODATA"; case ARES_EFORMERR: return "ARES_EFORMERR"; case ARES_ESERVFAIL: return "ARES_ESERVFAIL"; case ARES_ENOTFOUND: return "ARES_ENOTFOUND"; case ARES_ENOTIMP: return "ARES_ENOTIMP"; case ARES_EREFUSED: return "ARES_EREFUSED"; case ARES_EBADQUERY: return "ARES_EBADQUERY"; case ARES_EBADNAME: return "ARES_EBADNAME"; case ARES_EBADFAMILY: return "ARES_EBADFAMILY"; case ARES_EBADRESP: return "ARES_EBADRESP"; case ARES_ECONNREFUSED: return "ARES_ECONNREFUSED"; case ARES_ETIMEOUT: return "ARES_ETIMEOUT"; case ARES_EOF: return "ARES_EOF"; case ARES_EFILE: return "ARES_EFILE"; case ARES_ENOMEM: return "ARES_ENOMEM"; case ARES_EDESTRUCTION: return "ARES_EDESTRUCTION"; case ARES_EBADSTR: return "ARES_EBADSTR"; case ARES_EBADFLAGS: return "ARES_EBADFLAGS"; case ARES_ENONAME: return "ARES_ENONAME"; case ARES_EBADHINTS: return "ARES_EBADHINTS"; case ARES_ENOTINITIALIZED: return "ARES_ENOTINITIALIZED"; case ARES_ELOADIPHLPAPI: return "ARES_ELOADIPHLPAPI"; case ARES_EADDRGETNETWORKPARAMS: return "ARES_EADDRGETNETWORKPARAMS"; case ARES_ECANCELLED: return "ARES_ECANCELLED"; default: return "UNKNOWN"; } } std::string RcodeToString(int rcode) { switch (rcode) { case NOERROR: return "NOERROR"; case FORMERR: return "FORMERR"; case SERVFAIL: return "SERVFAIL"; case NXDOMAIN: return "NXDOMAIN"; case NOTIMP: return "NOTIMP"; case REFUSED: return "REFUSED"; case YXDOMAIN: return "YXDOMAIN"; case YXRRSET: return "YXRRSET"; case NXRRSET: return "NXRRSET"; case NOTAUTH: return "NOTAUTH"; case NOTZONE: return "NOTZONE"; case TSIG_BADSIG: return "BADSIG"; case TSIG_BADKEY: return "BADKEY"; case TSIG_BADTIME: return "BADTIME"; default: return "UNKNOWN"; } } std::string RRTypeToString(int rrtype) { switch (rrtype) { case T_A: return "A"; case T_NS: return "NS"; case T_MD: return "MD"; case T_MF: return "MF"; case T_CNAME: return "CNAME"; case T_SOA: return "SOA"; case T_MB: return "MB"; case T_MG: return "MG"; case T_MR: return "MR"; case T_NULL: return "NULL"; case T_WKS: return "WKS"; case T_PTR: return "PTR"; case T_HINFO: return "HINFO"; case T_MINFO: return "MINFO"; case T_MX: return "MX"; case T_TXT: return "TXT"; case T_RP: return "RP"; case T_AFSDB: return "AFSDB"; case T_X25: return "X25"; case T_ISDN: return "ISDN"; case T_RT: return "RT"; case T_NSAP: return "NSAP"; case T_NSAP_PTR: return "NSAP_PTR"; case T_SIG: return "SIG"; case T_KEY: return "KEY"; case T_PX: return "PX"; case T_GPOS: return "GPOS"; case T_AAAA: return "AAAA"; case T_LOC: return "LOC"; case T_NXT: return "NXT"; case T_EID: return "EID"; case T_NIMLOC: return "NIMLOC"; case T_SRV: return "SRV"; case T_ATMA: return "ATMA"; case T_NAPTR: return "NAPTR"; case T_KX: return "KX"; case T_CERT: return "CERT"; case T_A6: return "A6"; case T_DNAME: return "DNAME"; case T_SINK: return "SINK"; case T_OPT: return "OPT"; case T_APL: return "APL"; case T_DS: return "DS"; case T_SSHFP: return "SSHFP"; case T_RRSIG: return "RRSIG"; case T_NSEC: return "NSEC"; case T_DNSKEY: return "DNSKEY"; case T_TKEY: return "TKEY"; case T_TSIG: return "TSIG"; case T_IXFR: return "IXFR"; case T_AXFR: return "AXFR"; case T_MAILB: return "MAILB"; case T_MAILA: return "MAILA"; case T_ANY: return "ANY"; case T_URI: return "URI"; case T_MAX: return "MAX"; default: return "UNKNOWN"; } } std::string ClassToString(int qclass) { switch (qclass) { case C_IN: return "IN"; case C_CHAOS: return "CHAOS"; case C_HS: return "HESIOD"; case C_NONE: return "NONE"; case C_ANY: return "ANY"; default: return "UNKNOWN"; } } std::string AddressToString(const void* vaddr, int len) { const byte* addr = reinterpret_cast(vaddr); std::stringstream ss; if (len == 4) { char buffer[4*4 + 3 + 1]; snprintf(buffer, sizeof(buffer), "%u.%u.%u.%u", (unsigned char)addr[0], (unsigned char)addr[1], (unsigned char)addr[2], (unsigned char)addr[3]); ss << buffer; } else if (len == 16) { for (int ii = 0; ii < 16; ii+=2) { if (ii > 0) ss << ':'; char buffer[4 + 1]; snprintf(buffer, sizeof(buffer), "%02x%02x", (unsigned char)addr[ii], (unsigned char)addr[ii+1]); ss << buffer; } } else { ss << "!" << HexDump(addr, len) << "!"; } return ss.str(); } std::string PacketToString(const std::vector& packet) { const byte* data = packet.data(); int len = (int)packet.size(); std::stringstream ss; if (len < NS_HFIXEDSZ) { ss << "(too short, len " << len << ")"; return ss.str(); } ss << ((DNS_HEADER_QR(data) == 0) ? "REQ " : "RSP "); switch (DNS_HEADER_OPCODE(data)) { case O_QUERY: ss << "QRY "; break; case O_IQUERY: ss << "IQRY "; break; case O_STATUS: ss << "STATUS "; break; case O_NOTIFY: ss << "NOTIFY "; break; case O_UPDATE: ss << "UPDATE "; break; default: ss << "UNKNOWN(" << DNS_HEADER_OPCODE(data) << ") "; break; } if (DNS_HEADER_AA(data)) ss << "AA "; if (DNS_HEADER_TC(data)) ss << "TC "; if (DNS_HEADER_RD(data)) ss << "RD "; if (DNS_HEADER_RA(data)) ss << "RA "; if (DNS_HEADER_Z(data)) ss << "Z "; if (DNS_HEADER_QR(data) == 1) ss << RcodeToString(DNS_HEADER_RCODE(data)); int nquestions = DNS_HEADER_QDCOUNT(data); int nanswers = DNS_HEADER_ANCOUNT(data); int nauths = DNS_HEADER_NSCOUNT(data); int nadds = DNS_HEADER_ARCOUNT(data); const byte* pq = data + NS_HFIXEDSZ; len -= NS_HFIXEDSZ; for (int ii = 0; ii < nquestions; ii++) { ss << " Q:" << QuestionToString(packet, &pq, &len); } const byte* prr = pq; for (int ii = 0; ii < nanswers; ii++) { ss << " A:" << RRToString(packet, &prr, &len); } for (int ii = 0; ii < nauths; ii++) { ss << " AUTH:" << RRToString(packet, &prr, &len); } for (int ii = 0; ii < nadds; ii++) { ss << " ADD:" << RRToString(packet, &prr, &len); } return ss.str(); } std::string QuestionToString(const std::vector& packet, const byte** data, int* len) { std::stringstream ss; ss << "{"; if (*len < NS_QFIXEDSZ) { ss << "(too short, len " << *len << ")"; return ss.str(); } char *name = nullptr; long enclen; int rc = ares_expand_name(*data, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; return ss.str(); } if (enclen > *len) { ss << "(error, encoded name len " << enclen << "bigger than remaining data " << *len << " bytes)"; return ss.str(); } *len -= enclen; *data += enclen; ss << "'" << name << "' "; ares_free_string(name); if (*len < NS_QFIXEDSZ) { ss << "(too short, len left " << *len << ")"; return ss.str(); } ss << ClassToString(DNS_QUESTION_CLASS(*data)) << " "; ss << RRTypeToString(DNS_QUESTION_TYPE(*data)); *data += NS_QFIXEDSZ; *len -= NS_QFIXEDSZ; ss << "}"; return ss.str(); } std::string RRToString(const std::vector& packet, const byte** data, int* len) { std::stringstream ss; ss << "{"; if (*len < NS_RRFIXEDSZ) { ss << "too short, len " << *len << ")"; return ss.str(); } char *name = nullptr; long enclen; int rc = ares_expand_name(*data, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; return ss.str(); } if (enclen > *len) { ss << "(error, encoded name len " << enclen << "bigger than remaining data " << *len << " bytes)"; return ss.str(); } *len -= enclen; *data += enclen; ss << "'" << name << "' "; ares_free_string(name); name = nullptr; if (*len < NS_RRFIXEDSZ) { ss << "(too short, len left " << *len << ")"; return ss.str(); } int rrtype = DNS_RR_TYPE(*data); if (rrtype == T_OPT) { ss << "MAXUDP=" << DNS_RR_CLASS(*data) << " "; ss << RRTypeToString(rrtype) << " "; ss << "RCODE2=" << DNS_RR_TTL(*data); } else { ss << ClassToString(DNS_RR_CLASS(*data)) << " "; ss << RRTypeToString(rrtype) << " "; ss << "TTL=" << DNS_RR_TTL(*data); } int rdatalen = DNS_RR_LEN(*data); *data += NS_RRFIXEDSZ; *len -= NS_RRFIXEDSZ; if (*len < rdatalen) { ss << "(RR too long at " << rdatalen << ", len left " << *len << ")"; } else { switch (rrtype) { case T_A: case T_AAAA: ss << " " << AddressToString(*data, rdatalen); break; case T_TXT: { const byte* p = *data; while (p < (*data + rdatalen)) { int len = *p++; if ((p + len) <= (*data + rdatalen)) { std::string txt(p, p + len); ss << " " << len << ":'" << txt << "'"; } else { ss << "(string too long)"; } p += len; } break; } case T_CNAME: case T_NS: case T_PTR: { int rc = ares_expand_name(*data, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; break; } ss << " '" << name << "'"; ares_free_string(name); break; } case T_MX: if (rdatalen > 2) { int rc = ares_expand_name(*data + 2, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; break; } ss << " " << DNS__16BIT(*data) << " '" << name << "'"; ares_free_string(name); } else { ss << "(RR too short)"; } break; case T_SRV: { if (rdatalen > 6) { const byte* p = *data; unsigned long prio = DNS__16BIT(p); unsigned long weight = DNS__16BIT(p + 2); unsigned long port = DNS__16BIT(p + 4); p += 6; int rc = ares_expand_name(p, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; break; } ss << prio << " " << weight << " " << port << " '" << name << "'"; ares_free_string(name); } else { ss << "(RR too short)"; } break; } case T_URI: { if (rdatalen > 4) { const byte* p = *data; unsigned long prio = DNS__16BIT(p); unsigned long weight = DNS__16BIT(p + 2); p += 4; std::string uri(p, p + (rdatalen - 4)); ss << prio << " " << weight << " '" << uri << "'"; } else { ss << "(RR too short)"; } break; } case T_SOA: { const byte* p = *data; int rc = ares_expand_name(p, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; break; } ss << " '" << name << "'"; ares_free_string(name); p += enclen; rc = ares_expand_name(p, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; break; } ss << " '" << name << "'"; ares_free_string(name); p += enclen; if ((p + 20) <= (*data + rdatalen)) { unsigned long serial = DNS__32BIT(p); unsigned long refresh = DNS__32BIT(p + 4); unsigned long retry = DNS__32BIT(p + 8); unsigned long expire = DNS__32BIT(p + 12); unsigned long minimum = DNS__32BIT(p + 16); ss << " " << serial << " " << refresh << " " << retry << " " << expire << " " << minimum; } else { ss << "(RR too short)"; } break; } case T_NAPTR: { if (rdatalen > 7) { const byte* p = *data; unsigned long order = DNS__16BIT(p); unsigned long pref = DNS__16BIT(p + 2); p += 4; ss << order << " " << pref; int len = *p++; std::string flags(p, p + len); ss << " " << flags; p += len; len = *p++; std::string service(p, p + len); ss << " '" << service << "'"; p += len; len = *p++; std::string regexp(p, p + len); ss << " '" << regexp << "'"; p += len; int rc = ares_expand_name(p, packet.data(), (int)packet.size(), &name, &enclen); if (rc != ARES_SUCCESS) { ss << "(error from ares_expand_name)"; break; } ss << " '" << name << "'"; ares_free_string(name); } else { ss << "(RR too short)"; } break; } default: ss << " " << HexDump(*data, rdatalen); break; } } *data += rdatalen; *len -= rdatalen; ss << "}"; return ss.str(); } void PushInt32(std::vector* data, int value) { data->push_back((byte)(((unsigned int)value & 0xff000000) >> 24)); data->push_back((byte)(((unsigned int)value & 0x00ff0000) >> 16)); data->push_back((byte)(((unsigned int)value & 0x0000ff00) >> 8)); data->push_back((byte)(value & 0x000000ff)); } void PushInt16(std::vector* data, int value) { data->push_back((byte)((value & 0xff00) >> 8)); data->push_back((byte)value & 0x00ff); } std::vector EncodeString(const std::string& name) { std::vector data; std::stringstream ss(name); std::string label; // TODO: cope with escapes while (std::getline(ss, label, '.')) { /* Label length of 0 indicates the end, and we always push an end * terminator, so don't do it twice */ if (label.length() == 0) break; data.push_back((byte)label.length()); data.insert(data.end(), label.begin(), label.end()); } data.push_back(0); return data; } std::vector DNSQuestion::data() const { std::vector data; std::vector encname = EncodeString(name_); data.insert(data.end(), encname.begin(), encname.end()); PushInt16(&data, rrtype_); PushInt16(&data, qclass_); return data; } std::vector DNSRR::data() const { std::vector data = DNSQuestion::data(); PushInt32(&data, ttl_); return data; } std::vector DNSSingleNameRR::data() const { std::vector data = DNSRR::data(); std::vector encname = EncodeString(other_); int len = (int)encname.size(); PushInt16(&data, len); data.insert(data.end(), encname.begin(), encname.end()); return data; } std::vector DNSTxtRR::data() const { std::vector data = DNSRR::data(); int len = 0; for (const std::string& txt : txt_) { len += (1 + (int)txt.size()); } PushInt16(&data, len); for (const std::string& txt : txt_) { data.push_back((byte)txt.size()); data.insert(data.end(), txt.begin(), txt.end()); } return data; } std::vector DNSMxRR::data() const { std::vector data = DNSRR::data(); std::vector encname = EncodeString(other_); int len = 2 + (int)encname.size(); PushInt16(&data, len); PushInt16(&data, pref_); data.insert(data.end(), encname.begin(), encname.end()); return data; } std::vector DNSSrvRR::data() const { std::vector data = DNSRR::data(); std::vector encname = EncodeString(target_); int len = 6 + (int)encname.size(); PushInt16(&data, len); PushInt16(&data, prio_); PushInt16(&data, weight_); PushInt16(&data, port_); data.insert(data.end(), encname.begin(), encname.end()); return data; } std::vector DNSUriRR::data() const { std::vector data = DNSRR::data(); int len = 4 + (int)target_.size(); PushInt16(&data, len); PushInt16(&data, prio_); PushInt16(&data, weight_); data.insert(data.end(), target_.begin(), target_.end()); return data; } std::vector DNSAddressRR::data() const { std::vector data = DNSRR::data(); int len = (int)addr_.size(); PushInt16(&data, len); data.insert(data.end(), addr_.begin(), addr_.end()); return data; } std::vector DNSSoaRR::data() const { std::vector data = DNSRR::data(); std::vector encname1 = EncodeString(nsname_); std::vector encname2 = EncodeString(rname_); int len = (int)encname1.size() + (int)encname2.size() + 5*4; PushInt16(&data, len); data.insert(data.end(), encname1.begin(), encname1.end()); data.insert(data.end(), encname2.begin(), encname2.end()); PushInt32(&data, serial_); PushInt32(&data, refresh_); PushInt32(&data, retry_); PushInt32(&data, expire_); PushInt32(&data, minimum_); return data; } std::vector DNSOptRR::data() const { std::vector data = DNSRR::data(); int len = 0; for (const DNSOption& opt : opts_) { len += (4 + (int)opt.data_.size()); } PushInt16(&data, len); for (const DNSOption& opt : opts_) { PushInt16(&data, opt.code_); PushInt16(&data, (int)opt.data_.size()); data.insert(data.end(), opt.data_.begin(), opt.data_.end()); } return data; } std::vector DNSNaptrRR::data() const { std::vector data = DNSRR::data(); std::vector encname = EncodeString(replacement_); int len = (4 + 1 + (int)flags_.size() + 1 + (int)service_.size() + 1 + (int)regexp_.size() + (int)encname.size()); PushInt16(&data, len); PushInt16(&data, order_); PushInt16(&data, pref_); data.push_back((byte)flags_.size()); data.insert(data.end(), flags_.begin(), flags_.end()); data.push_back((byte)service_.size()); data.insert(data.end(), service_.begin(), service_.end()); data.push_back((byte)regexp_.size()); data.insert(data.end(), regexp_.begin(), regexp_.end()); data.insert(data.end(), encname.begin(), encname.end()); return data; } std::vector DNSPacket::data() const { std::vector data; PushInt16(&data, qid_); byte b = 0x00; if (response_) b |= 0x80; b |= ((opcode_ & 0x0f) << 3); if (aa_) b |= 0x04; if (tc_) b |= 0x02; if (rd_) b |= 0x01; data.push_back(b); b = 0x00; if (ra_) b |= 0x80; if (z_) b |= 0x40; if (ad_) b |= 0x20; if (cd_) b |= 0x10; b |= (rcode_ & 0x0f); data.push_back(b); int count = (int)questions_.size(); PushInt16(&data, count); count = (int)answers_.size(); PushInt16(&data, count); count = (int)auths_.size(); PushInt16(&data, count); count = (int)adds_.size(); PushInt16(&data, count); for (const std::unique_ptr& question : questions_) { std::vector qdata = question->data(); data.insert(data.end(), qdata.begin(), qdata.end()); } for (const std::unique_ptr& rr : answers_) { std::vector rrdata = rr->data(); data.insert(data.end(), rrdata.begin(), rrdata.end()); } for (const std::unique_ptr& rr : auths_) { std::vector rrdata = rr->data(); data.insert(data.end(), rrdata.begin(), rrdata.end()); } for (const std::unique_ptr& rr : adds_) { std::vector rrdata = rr->data(); data.insert(data.end(), rrdata.begin(), rrdata.end()); } return data; } } // namespace ares