A C library for asynchronous DNS requests (grpc依赖)
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// -*- mode: c++ -*-
#ifndef DNS_PROTO_H
#define DNS_PROTO_H
// Utilities for processing DNS packet contents
#include "ares_setup.h"
#include "ares.h"
// Include ares internal file for DNS protocol constants
#include "ares_nameser.h"
#include <memory>
#include <string>
#include <vector>
namespace ares {
typedef unsigned char byte;
std::string HexDump(std::vector<byte> data);
std::string HexDump(const byte *data, int len);
std::string HexDump(const char *data, int len);
std::string StatusToString(int status);
std::string RcodeToString(int rcode);
std::string RRTypeToString(int rrtype);
std::string ClassToString(int qclass);
std::string AddressToString(const void* addr, int len);
// Convert DNS protocol data to strings.
// Note that these functions are not defensive; they assume
// a validly formatted input, and so should not be used on
// externally-determined inputs.
std::string PacketToString(const std::vector<byte>& packet);
std::string QuestionToString(const std::vector<byte>& packet,
const byte** data, int* len);
std::string RRToString(const std::vector<byte>& packet,
const byte** data, int* len);
// Manipulate DNS protocol data.
void PushInt32(std::vector<byte>* data, int value);
void PushInt16(std::vector<byte>* data, int value);
std::vector<byte> EncodeString(const std::string& name);
struct DNSQuestion {
DNSQuestion(const std::string& name, int rrtype, int qclass)
: name_(name), rrtype_(rrtype), qclass_(qclass) {}
DNSQuestion(const std::string& name, int rrtype)
: name_(name), rrtype_(rrtype), qclass_(ns_c_in) {}
virtual ~DNSQuestion() {}
virtual std::vector<byte> data() const;
std::string name_;
int rrtype_;
int qclass_;
};
struct DNSRR : public DNSQuestion {
DNSRR(const std::string& name, int rrtype, int qclass, int ttl)
: DNSQuestion(name, rrtype, qclass), ttl_(ttl) {}
DNSRR(const std::string& name, int rrtype, int ttl)
: DNSQuestion(name, rrtype), ttl_(ttl) {}
virtual ~DNSRR() {}
virtual std::vector<byte> data() const = 0;
int ttl_;
};
struct DNSAddressRR : public DNSRR {
DNSAddressRR(const std::string& name, int rrtype, int ttl,
const byte* addr, int addrlen)
: DNSRR(name, rrtype, ttl), addr_(addr, addr + addrlen) {}
DNSAddressRR(const std::string& name, int rrtype, int ttl,
const std::vector<byte>& addr)
: DNSRR(name, rrtype, ttl), addr_(addr) {}
virtual std::vector<byte> data() const;
std::vector<byte> addr_;
};
struct DNSARR : public DNSAddressRR {
DNSARR(const std::string& name, int ttl, const byte* addr, int addrlen)
: DNSAddressRR(name, T_A, ttl, addr, addrlen) {}
DNSARR(const std::string& name, int ttl, const std::vector<byte>& addr)
: DNSAddressRR(name, T_A, ttl, addr) {}
};
struct DNSAaaaRR : public DNSAddressRR {
DNSAaaaRR(const std::string& name, int ttl, const byte* addr, int addrlen)
: DNSAddressRR(name, T_AAAA, ttl, addr, addrlen) {}
DNSAaaaRR(const std::string& name, int ttl, const std::vector<byte>& addr)
: DNSAddressRR(name, T_AAAA, ttl, addr) {}
};
struct DNSSingleNameRR : public DNSRR {
DNSSingleNameRR(const std::string& name, int rrtype, int ttl,
const std::string& other)
: DNSRR(name, rrtype, ttl), other_(other) {}
virtual std::vector<byte> data() const;
std::string other_;
};
struct DNSCnameRR : public DNSSingleNameRR {
DNSCnameRR(const std::string& name, int ttl, const std::string& other)
: DNSSingleNameRR(name, T_CNAME, ttl, other) {}
};
struct DNSNsRR : public DNSSingleNameRR {
DNSNsRR(const std::string& name, int ttl, const std::string& other)
: DNSSingleNameRR(name, T_NS, ttl, other) {}
};
struct DNSPtrRR : public DNSSingleNameRR {
DNSPtrRR(const std::string& name, int ttl, const std::string& other)
: DNSSingleNameRR(name, T_PTR, ttl, other) {}
};
struct DNSTxtRR : public DNSRR {
DNSTxtRR(const std::string& name, int ttl, const std::vector<std::string>& txt)
: DNSRR(name, T_TXT, ttl), txt_(txt) {}
virtual std::vector<byte> data() const;
std::vector<std::string> txt_;
};
struct DNSMxRR : public DNSRR {
DNSMxRR(const std::string& name, int ttl, int pref, const std::string& other)
: DNSRR(name, T_MX, ttl), pref_(pref), other_(other) {}
virtual std::vector<byte> data() const;
int pref_;
std::string other_;
};
struct DNSSrvRR : public DNSRR {
DNSSrvRR(const std::string& name, int ttl,
int prio, int weight, int port, const std::string& target)
: DNSRR(name, T_SRV, ttl), prio_(prio), weight_(weight), port_(port), target_(target) {}
virtual std::vector<byte> data() const;
int prio_;
int weight_;
int port_;
std::string target_;
};
struct DNSSoaRR : public DNSRR {
DNSSoaRR(const std::string& name, int ttl,
const std::string& nsname, const std::string& rname,
int serial, int refresh, int retry, int expire, int minimum)
: DNSRR(name, T_SOA, ttl), nsname_(nsname), rname_(rname),
serial_(serial), refresh_(refresh), retry_(retry),
expire_(expire), minimum_(minimum) {}
virtual std::vector<byte> data() const;
std::string nsname_;
std::string rname_;
int serial_;
int refresh_;
int retry_;
int expire_;
int minimum_;
};
struct DNSNaptrRR : public DNSRR {
DNSNaptrRR(const std::string& name, int ttl,
int order, int pref,
const std::string& flags,
const std::string& service,
const std::string& regexp,
const std::string& replacement)
: DNSRR(name, T_NAPTR, ttl), order_(order), pref_(pref),
flags_(flags), service_(service), regexp_(regexp), replacement_(replacement) {}
virtual std::vector<byte> data() const;
int order_;
int pref_;
std::string flags_;
std::string service_;
std::string regexp_;
std::string replacement_;
};
struct DNSOption {
int code_;
std::vector<byte> data_;
};
struct DNSOptRR : public DNSRR {
DNSOptRR(int extrcode, int udpsize)
: DNSRR("", T_OPT, static_cast<int>(udpsize), extrcode) {}
virtual std::vector<byte> data() const;
std::vector<DNSOption> opts_;
};
struct DNSPacket {
DNSPacket()
: qid_(0), response_(false), opcode_(ns_o_query),
aa_(false), tc_(false), rd_(false), ra_(false),
z_(false), ad_(false), cd_(false), rcode_(NOERROR) {}
// Convenience functions that take ownership of given pointers.
DNSPacket& add_question(DNSQuestion *q) {
questions_.push_back(std::unique_ptr<DNSQuestion>(q));
return *this;
}
DNSPacket& add_answer(DNSRR *q) {
answers_.push_back(std::unique_ptr<DNSRR>(q));
return *this;
}
DNSPacket& add_auth(DNSRR *q) {
auths_.push_back(std::unique_ptr<DNSRR>(q));
return *this;
}
DNSPacket& add_additional(DNSRR *q) {
adds_.push_back(std::unique_ptr<DNSRR>(q));
return *this;
}
// Chainable setters.
DNSPacket& set_qid(int qid) { qid_ = qid; return *this; }
DNSPacket& set_response(bool v = true) { response_ = v; return *this; }
DNSPacket& set_aa(bool v = true) { aa_ = v; return *this; }
DNSPacket& set_tc(bool v = true) { tc_ = v; return *this; }
DNSPacket& set_rd(bool v = true) { rd_ = v; return *this; }
DNSPacket& set_ra(bool v = true) { ra_ = v; return *this; }
DNSPacket& set_z(bool v = true) { z_ = v; return *this; }
DNSPacket& set_ad(bool v = true) { ad_ = v; return *this; }
DNSPacket& set_cd(bool v = true) { cd_ = v; return *this; }
DNSPacket& set_rcode(int rcode) { rcode_ = rcode; return *this; }
// Return the encoded packet.
std::vector<byte> data() const;
int qid_;
bool response_;
ns_opcode opcode_;
bool aa_;
bool tc_;
bool rd_;
bool ra_;
bool z_;
bool ad_;
bool cd_;
int rcode_;
std::vector<std::unique_ptr<DNSQuestion>> questions_;
std::vector<std::unique_ptr<DNSRR>> answers_;
std::vector<std::unique_ptr<DNSRR>> auths_;
std::vector<std::unique_ptr<DNSRR>> adds_;
};
} // namespace ares
#endif