lokinet/llarp/dns/message.cpp

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#include <dns/message.hpp>
#include <dns/dns.hpp>
#include <util/buffer.hpp>
#include <util/endian.hpp>
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#include <util/logging/logger.hpp>
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#include <util/printer.hpp>
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#include <net/ip.hpp>
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#include <array>
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namespace llarp
{
namespace dns
{
bool
MessageHeader::Encode(llarp_buffer_t* buf) const
{
if (!buf->put_uint16(id))
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return false;
if (!buf->put_uint16(fields))
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return false;
if (!buf->put_uint16(qd_count))
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return false;
if (!buf->put_uint16(an_count))
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return false;
if (!buf->put_uint16(ns_count))
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return false;
return buf->put_uint16(ar_count);
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}
bool
MessageHeader::Decode(llarp_buffer_t* buf)
{
if (!buf->read_uint16(id))
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return false;
if (!buf->read_uint16(fields))
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return false;
if (!buf->read_uint16(qd_count))
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return false;
if (!buf->read_uint16(an_count))
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return false;
if (!buf->read_uint16(ns_count))
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return false;
if (!buf->read_uint16(ar_count))
return false;
return true;
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}
Message::Message(Message&& other)
: hdr_id(std::move(other.hdr_id))
, hdr_fields(std::move(other.hdr_fields))
, questions(std::move(other.questions))
, answers(std::move(other.answers))
, authorities(std::move(other.authorities))
, additional(std::move(other.additional))
{
}
Message::Message(const Message& other)
: hdr_id(other.hdr_id)
, hdr_fields(other.hdr_fields)
, questions(other.questions)
, answers(other.answers)
, authorities(other.authorities)
, additional(other.additional)
{
}
Message::Message(const MessageHeader& hdr) : hdr_id(hdr.id), hdr_fields(hdr.fields)
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{
questions.resize(size_t(hdr.qd_count));
answers.resize(size_t(hdr.an_count));
authorities.resize(size_t(hdr.ns_count));
additional.resize(size_t(hdr.ar_count));
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}
bool
Message::Encode(llarp_buffer_t* buf) const
{
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MessageHeader hdr;
hdr.id = hdr_id;
hdr.fields = hdr_fields;
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hdr.qd_count = questions.size();
hdr.an_count = answers.size();
hdr.ns_count = 0;
hdr.ar_count = 0;
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if (!hdr.Encode(buf))
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return false;
for (const auto& question : questions)
if (!question.Encode(buf))
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return false;
for (const auto& answer : answers)
if (!answer.Encode(buf))
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return false;
return true;
}
bool
Message::Decode(llarp_buffer_t* buf)
{
for (auto& qd : questions)
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{
if (!qd.Decode(buf))
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{
llarp::LogError("failed to decode question");
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return false;
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}
llarp::LogDebug(qd);
}
for (auto& an : answers)
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{
if (not an.Decode(buf))
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{
llarp::LogDebug("failed to decode answer");
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return false;
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}
}
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return true;
}
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void Message::AddServFail(RR_TTL_t)
{
if (questions.size())
{
hdr_fields |= flags_RCODEServFail;
// authorative response with recursion available
hdr_fields |= flags_QR | flags_AA | flags_RA;
// don't allow recursion on this request
hdr_fields &= ~flags_RD;
}
}
static constexpr uint16_t
reply_flags(uint16_t setbits)
{
return setbits | flags_QR | flags_AA | flags_RA;
}
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void
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Message::AddINReply(llarp::huint128_t ip, bool isV6, RR_TTL_t ttl)
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{
if (questions.size())
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{
hdr_fields = reply_flags(hdr_fields);
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ResourceRecord rec;
rec.rr_name = questions[0].qname;
rec.rr_class = qClassIN;
rec.ttl = ttl;
if (isV6)
{
rec.rr_type = qTypeAAAA;
ip.ToV6(rec.rData);
}
else
{
const auto addr = net::TruncateV6(ip);
rec.rr_type = qTypeA;
rec.rData.resize(4);
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htobe32buf(rec.rData.data(), addr.h);
}
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answers.emplace_back(std::move(rec));
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}
}
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void
Message::AddAReply(std::string name, RR_TTL_t ttl)
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{
if (questions.size())
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{
hdr_fields = reply_flags(hdr_fields);
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const auto& question = questions[0];
answers.emplace_back();
auto& rec = answers.back();
rec.rr_name = question.qname;
rec.rr_type = question.qtype;
rec.rr_class = qClassIN;
rec.ttl = ttl;
std::array<byte_t, 512> tmp = {{0}};
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llarp_buffer_t buf(tmp);
if (EncodeName(&buf, name))
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{
buf.sz = buf.cur - buf.base;
rec.rData.resize(buf.sz);
memcpy(rec.rData.data(), buf.base, buf.sz);
}
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}
}
void
Message::AddNSReply(std::string name, RR_TTL_t ttl)
{
if (not questions.empty())
{
hdr_fields = reply_flags(hdr_fields);
const auto& question = questions[0];
answers.emplace_back();
auto& rec = answers.back();
rec.rr_name = question.qname;
rec.rr_type = qTypeNS;
rec.rr_class = qClassIN;
rec.ttl = ttl;
std::array<byte_t, 512> tmp = {{0}};
llarp_buffer_t buf(tmp);
if (EncodeName(&buf, name))
{
buf.sz = buf.cur - buf.base;
rec.rData.resize(buf.sz);
memcpy(rec.rData.data(), buf.base, buf.sz);
}
}
}
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void
Message::AddCNAMEReply(std::string name, RR_TTL_t ttl)
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{
if (questions.size())
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{
hdr_fields = reply_flags(hdr_fields);
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const auto& question = questions[0];
answers.emplace_back();
auto& rec = answers.back();
rec.rr_name = question.qname;
rec.rr_type = qTypeCNAME;
rec.rr_class = qClassIN;
rec.ttl = ttl;
std::array<byte_t, 512> tmp = {{0}};
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llarp_buffer_t buf(tmp);
if (EncodeName(&buf, name))
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{
buf.sz = buf.cur - buf.base;
rec.rData.resize(buf.sz);
memcpy(rec.rData.data(), buf.base, buf.sz);
}
}
}
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void
Message::AddMXReply(std::string name, uint16_t priority, RR_TTL_t ttl)
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{
if (questions.size())
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{
hdr_fields = reply_flags(hdr_fields);
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const auto& question = questions[0];
answers.emplace_back();
auto& rec = answers.back();
rec.rr_name = question.qname;
rec.rr_type = qTypeMX;
rec.rr_class = qClassIN;
rec.ttl = ttl;
std::array<byte_t, 512> tmp = {{0}};
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llarp_buffer_t buf(tmp);
buf.put_uint16(priority);
if (EncodeName(&buf, name))
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{
buf.sz = buf.cur - buf.base;
rec.rData.resize(buf.sz);
memcpy(rec.rData.data(), buf.base, buf.sz);
}
}
}
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void Message::AddNXReply(RR_TTL_t)
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{
if (questions.size())
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{
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// authorative response with recursion available
hdr_fields = reply_flags(hdr_fields);
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// don't allow recursion on this request
hdr_fields &= ~flags_RD;
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hdr_fields |= flags_RCODENameError;
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}
}
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std::ostream&
Message::print(std::ostream& stream, int level, int spaces) const
{
Printer printer(stream, level, spaces);
printer.printAttributeAsHex("dns message id", hdr_id);
printer.printAttributeAsHex("fields", hdr_fields);
printer.printAttribute("questions", questions);
printer.printAttribute("answers", answers);
printer.printAttribute("nameserer", authorities);
printer.printAttribute("additional", additional);
return stream;
}
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} // namespace dns
} // namespace llarp