lokinet/llarp/dnsc.cpp

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#include <llarp/dnsc.hpp>
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#ifndef _WIN32
#include <arpa/inet.h>
#include <netdb.h> /* getaddrinfo, getnameinfo */
#include <netinet/in.h>
#include <sys/socket.h>
#endif
#include <stdlib.h> /* exit */
#include <string.h> /* memset */
#include <sys/types.h>
#include <unistd.h> /* close */
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#include <algorithm> // for std::find_if
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#include <llarp/net.hpp> // for llarp::Addr
#include <llarp/logger.hpp>
#include <stdio.h> // sprintf
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#define MIN(X, Y) (((X) < (Y)) ? (X) : (Y))
dns_tracker dns_udp_tracker;
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/*
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#define DNC_BUF_SIZE 512
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/// a question to be asked remotely (the actual bytes to send on the wire)
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// header, question
struct dns_query
{
uint16_t length;
// char *url;
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unsigned char request[DNC_BUF_SIZE];
// uint16_t reqType;
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};
*/
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/// build a DNS question packet
struct dns_query *
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build_dns_packet(char *url, uint16_t id, uint16_t reqType)
{
dns_query *dnsQuery = new dns_query;
dnsQuery->length = 12;
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// ID
// buffer[0] = (value & 0xFF00) >> 8;
// buffer[1] = value & 0xFF;
llarp::LogDebug("building request ", id);
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dnsQuery->request[0] = (id & 0xFF00) >> 8;
dnsQuery->request[1] = (id & 0x00FF) >> 0;
// field
dnsQuery->request[2] = 0x01;
dnsQuery->request[3] = 0x00;
// questions
dnsQuery->request[4] = 0x00;
dnsQuery->request[5] = 0x01;
// answers
dnsQuery->request[6] = 0x00;
dnsQuery->request[7] = 0x00;
// ns
dnsQuery->request[8] = 0x00;
dnsQuery->request[9] = 0x00;
// ar
dnsQuery->request[10] = 0x00;
dnsQuery->request[11] = 0x00;
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char *word;
// llarp::LogDebug("Asking DNS server %s about %s", SERVER, dnsQuery->url);
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char *strTemp = strdup(url);
word = strtok(strTemp, ".");
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while(word)
{
// llarp::LogDebug("parsing hostname: \"%s\" is %zu characters", word,
// strlen(word));
dnsQuery->request[dnsQuery->length++] = strlen(word);
for(unsigned int i = 0; i < strlen(word); i++)
{
dnsQuery->request[dnsQuery->length++] = word[i];
}
word = strtok(nullptr, ".");
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}
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free(strTemp);
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dnsQuery->request[dnsQuery->length++] = 0x00; // End of the host name
dnsQuery->request[dnsQuery->length++] =
0x00; // 0x0001 - Query is a Type A query (host address)
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dnsQuery->request[dnsQuery->length++] = reqType;
dnsQuery->request[dnsQuery->length++] =
0x00; // 0x0001 - Query is class IN (Internet address)
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dnsQuery->request[dnsQuery->length++] = 0x01;
return dnsQuery;
}
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dns_query *
answer_request_alloc(struct dnsc_context *dnsc, void *sock, const char *url,
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dnsc_answer_hook_func resolved, void *user, uint16_t type)
{
std::unique_ptr< dnsc_answer_request > request(new dnsc_answer_request);
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if(!request)
{
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llarp::LogError("Couldn't make dnsc request");
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return nullptr;
}
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request->sock = sock;
request->user = user;
request->resolved = resolved;
request->found = false;
request->context = dnsc;
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char *sUrl = strdup(url);
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request->question.name = (char *)sUrl; // since it's a std::String
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// we can nuke sUrl now
free(sUrl);
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// leave 256 bytes available
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if(request->question.name.size() > 255)
{
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// size_t diff = request->question.name.size() - 255;
// request->question.name = request->question.name.substr(diff); // get the
// rightmost 255 bytes
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llarp::LogWarn("dnsc request question too long");
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return nullptr;
}
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request->question.type = type;
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request->question.qClass = 1;
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// register our self with the tracker
dns_tracker *tracker = request->context->tracker;
if(!tracker)
{
llarp::LogError("no tracker in DNSc context");
return nullptr;
}
uint16_t id = ++tracker->c_requests;
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if(id == 65535)
id = 0;
// conflict: do we need this?
// tracker->client_request[id] = std::unique_ptr< dnsc_answer_request
// >(request);
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dns_query *dns_packet = build_dns_packet(
(char *)request->question.name.c_str(), id, request->question.type);
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tracker->client_request[id] = std::move(request);
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return dns_packet;
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}
// FIXME: make first a std_unique
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/// generic dnsc handler
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void
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generic_handle_dnsc_recvfrom(dnsc_answer_request *request,
__attribute__((unused))
const struct sockaddr *saddr,
const void *buf, ssize_t sz)
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{
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// llarp::LogInfo("got a response, udp user is ", udp->user);
unsigned char *castBuf = (unsigned char *)buf;
const char *const castBufc = (const char *)buf;
// auto buffer = llarp::StackBuffer< decltype(castBuf) >(castBuf);
dns_msg_header *hdr = decode_hdr((const char *)castBuf);
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llarp::LogDebug("Header got client responses for id: ", hdr->id);
if(!request)
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{
llarp::LogError(
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"User data to DNS Client response not a dnsc_answer_request");
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// we can't call back the hook
return;
}
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// llarp_dnsc_unbind(request);
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if(sz < 0)
{
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llarp::LogWarn("Error Receiving DNS Client Response");
request->resolved(request);
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return;
}
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// unsigned char *castBuf = (unsigned char *)buf;
// auto buffer = llarp::StackBuffer< decltype(castBuf) >(castBuf);
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// hexdump("received packet", &buffer, ret);
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/*
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uint16_t QDCOUNT; // No. of items in Question Section
uint16_t ANCOUNT; // No. of items in Answer Section
uint16_t NSCOUNT; // No. of items in Authority Section
uint16_t ARCOUNT; // No. of items in Additional Section
uint16_t QCLASS; // Specifies the class of the query
uint16_t ATYPE; // Specifies the meaning of the data in the RDATA field
uint16_t ACLASS; // Specifies the class of the data in the RDATA field
uint32_t TTL; // The number of seconds the results can be cached
uint16_t RDLENGTH; // The length of the RDATA field
uint16_t MSGID;
*/
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uint8_t rcode;
// int length;
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// struct dns_query *dnsQuery = &request->query;
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// rcode = (buffer[3] & 0x0F);
// llarp::LogInfo("dnsc rcode ", rcode);
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dns_msg_header *msg = decode_hdr((const char *)castBuf);
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castBuf += 12;
llarp::LogDebug("msg id ", msg->id);
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uint8_t qr = msg->qr;
llarp::LogDebug("msg qr ", qr);
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uint8_t opcode = msg->opcode;
llarp::LogDebug("msg op ", opcode);
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rcode = msg->rcode;
llarp::LogDebug("msg rc ", rcode);
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llarp::LogDebug("msg qdc ", msg->qdCount);
llarp::LogDebug("msg anc ", msg->anCount);
llarp::LogDebug("msg nsc ", msg->nsCount);
llarp::LogDebug("msg arc ", msg->arCount);
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// FIXME: only handling one atm
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uint32_t pos = 12; // just set after header
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dns_msg_question *question = nullptr;
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for(uint32_t i = 0; i < hdr->qdCount; i++)
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{
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question = decode_question(castBufc, &pos);
// llarp::LogDebug("Read a question, now at ", std::to_string(pos));
// 1 dot: 1 byte for length + length
// 4 bytes for class/type
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// castBuf += question->name.length() + 1 + 4;
// castBuf += 2; // skip answer label
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}
llarp::LogDebug("Question ", std::to_string(question->type), " ",
question->name);
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// FIXME: only handling one atm
std::vector< dns_msg_answer * > answers;
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dns_msg_answer *answer = nullptr;
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for(uint32_t i = 0; i < hdr->anCount; i++)
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{
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// pos = 0; // reset pos
answer = decode_answer(castBufc, &pos);
answers.push_back(answer);
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/*
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llarp::LogDebug("Read an answer ", answer->type, " for ",
request->question.name, ", now at ", std::to_string(pos));
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*/
// llarp::LogInfo("Read an answer. Label Len: ", answer->name.length(), "
// rdLen: ", answer->rdLen);
// name + Type (2) + Class (2) + TTL (4) + rdLen (2) + rdData + skip next
// answer label (1) first 2 was answer->name.length() if lbl is ref and type
// 1: it should be 16 bytes long l0 + t2 + c2 + t4 + l2 + rd4 (14) + l2
// (2)
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/*
castBuf += 0 + 2 + 2 + 4 + 2 + answer->rdLen;
castBuf += 2; // skip answer label
uint8_t first = *castBuf;
if(first != 0)
{
llarp::LogDebug("next byte isnt 12, skipping ahead one byte. ",
std::to_string(first));
castBuf++;
}
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*/
// prevent reading past the end of the packet
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/*
auto diff = castBuf - (unsigned char *)buf;
llarp::LogDebug("Read answer, bytes left ", diff);
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if(diff > sz)
{
// llarp::LogWarn("Would read past end of dns packet. for ",
// request->question.name);
break;
}
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*/
if(pos > (size_t)sz)
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{
llarp::LogWarn("Would read past end of dns packet. for ",
request->question.name);
break;
}
/*
uint8_t first = castBufc[pos];
if(first != 0)
{
llarp::LogInfo("next byte isnt 12, skipping ahead one byte. ",
std::to_string(first));
pos++;
}
*/
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}
// handle authority records (usually no answers with these, so we'll just
// stomp) usually NS records tho
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for(uint32_t i = 0; i < hdr->nsCount; i++)
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{
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// pos = 0; // reset pos
answer = decode_answer(castBufc, &pos);
// answers.push_back(answer);
llarp::LogDebug("Read an authority for ", request->question.name, " at ",
std::to_string(pos));
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// castBuf += answer->name.length() + 4 + 4 + 4 + answer->rdLen;
if((ssize_t)pos > sz)
{
llarp::LogWarn("Would read past end of dns packet. for ",
request->question.name);
break;
}
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}
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/*
size_t i = 0;
for(auto it = answers.begin(); it != answers.end(); ++it)
{
llarp::LogInfo("Answer #", i, " class: [", (*it)->aClass, "] type: [",
(*it)->type,
"] rdlen[", (*it)->rdLen, "]");
i++;
}
*/
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// dns_msg_answer *answer2 = decode_answer((const char*)castBuf);
// castBuf += answer->name.length() + 4 + 4 + 4 + answer->rdLen;
// llarp::LogDebug("query type: %u\n", dnsQuery->reqType);
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/*
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QCLASS = (uint16_t)dnsQuery->request[dnsQuery->length - 2] * 0x100
+ dnsQuery->request[dnsQuery->length - 1];
llarp::LogInfo("query class: ", QCLASS);
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length = dnsQuery->length + 1; // to skip 0xc00c
// printf("length [%d] from [%d]\n", length, buffer.base);
ATYPE = (uint16_t)buffer[length + 1] * 0x100 + buffer[length + 2];
llarp::LogInfo("answer type: ", ATYPE);
ACLASS = (uint16_t)buffer[length + 3] * 0x100 + buffer[length + 4];
llarp::LogInfo("answer class: ", ACLASS);
TTL = (uint32_t)buffer[length + 5] * 0x1000000 + buffer[length + 6] * 0x10000
+ buffer[length + 7] * 0x100 + buffer[length + 8];
llarp::LogInfo("seconds to cache: ", TTL);
RDLENGTH = (uint16_t)buffer[length + 9] * 0x100 + buffer[length + 10];
llarp::LogInfo("bytes in answer: ", RDLENGTH);
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MSGID = (uint16_t)buffer[0] * 0x100 + buffer[1];
// llarp::LogDebug("answer msg id: %u\n", MSGID);
*/
llarp::Addr upstreamAddr = request->context->resolvers[0];
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if(answer == nullptr)
{
llarp::LogWarn("nameserver ", upstreamAddr,
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" didnt return any answers for ",
question ? question->name : "null question");
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request->resolved(request);
return;
}
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if(answer->type == 5 || answer->type == 2)
{
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llarp::LogDebug("Last answer is a cname/NS, reverting to first");
answer = answers.front();
}
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llarp::LogDebug("qus type ", question->type);
llarp::LogDebug("ans class ", answer->aClass);
llarp::LogDebug("ans type ", answer->type);
llarp::LogDebug("ans ttl ", answer->ttl);
llarp::LogDebug("ans rdlen ", answer->rdLen);
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/*
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llarp::LogInfo("ans2 class ", answer2->aClass);
llarp::LogInfo("ans2 type ", answer2->type);
llarp::LogInfo("ans2 ttl ", answer2->ttl);
llarp::LogInfo("ans2 rdlen ", answer2->rdLen);
*/
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// llarp::LogDebug("rcode ", std::to_string(rcode));
if(rcode == 2)
{
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llarp::LogWarn("nameserver ", upstreamAddr, " returned SERVFAIL:");
llarp::LogWarn(
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" the name server was unable to process this query due to a problem "
"with the name server.");
request->resolved(request);
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return;
}
else if(rcode == 3)
{
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llarp::LogWarn("nameserver ", upstreamAddr,
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" returned NXDOMAIN for: ", request->question.name);
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llarp::LogWarn(" the domain name referenced in the query does not exist");
request->resolved(request);
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return;
}
int ip = 0;
// if no answer, just bail now
if(!answer)
{
request->found = false;
request->resolved(request);
return;
}
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/* search for and print IPv4 addresses */
// if(dnsQuery->reqType == 0x01)
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/*
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llarp::LogDebug("request question type: ",
std::to_string(request->question.type));
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*/
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if(request->question.type == 1)
{
// llarp::LogInfo("DNS server's answer is: (type#=", ATYPE, "):");
llarp::LogDebug("IPv4 address(es) for ", request->question.name, ":");
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// llarp::LogDebug("Answer rdLen ", std::to_string(answer->rdLen));
if(answer->rdLen == 4)
{
/*
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request->result.sa_family = AF_INET;
#if((__APPLE__ && __MACH__) || __FreeBSD__)
request->result.sa_len = sizeof(in_addr);
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#endif
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struct in_addr *addr =
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&((struct sockaddr_in *)&request->result)->sin_addr;
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unsigned char *ip = (unsigned char *)&(addr->s_addr);
ip[0] = answer->rData[0];
ip[1] = answer->rData[1];
ip[2] = answer->rData[2];
ip[3] = answer->rData[3];
*/
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/*
request->result.from_4int(answer->rData[0], answer->rData[1],
answer->rData[2], answer->rData[3]);
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*/
// llarp::LogDebug("Passing back IPv4: ",
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// std::to_string(answer->rData[3]), ".",
// std::to_string(answer->rData[2]),
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// ".", std::to_string(answer->rData[1]), ".",
// std::to_string(answer->rData[0]));
request->result =
llarp::ipaddr_ipv4_bits(answer->rData[3], answer->rData[2],
answer->rData[1], answer->rData[0]);
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// llarp::Addr test(request->result);
// llarp::LogDebug(request->result);
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request->found = true;
request->resolved(request);
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return;
}
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if(!ip)
{
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llarp::LogWarn(" No IPv4 address found in the DNS answer!");
request->resolved(request);
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return;
}
}
else if(answer->type == 12)
{
llarp::LogDebug("Resolving PTR");
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request->found = true;
request->revDNS =
std::string((char *)answer->rData.data(), answer->rData.size());
request->resolved(request);
return;
}
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else if(request->question.type == 15)
{
llarp::LogDebug("Resolving MX");
request->found = true;
request->result.h = 99;
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request->revDNS =
std::string((char *)answer->rData.data(), answer->rData.size());
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request->resolved(request);
return;
}
else if(request->question.type == 16)
{
llarp::LogDebug("Resolving TXT");
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request->found = true;
request->revDNS =
std::string((char *)answer->rData.data(), answer->rData.size());
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request->resolved(request);
return;
}
else if(request->question.type == 28)
{
llarp::LogDebug("Resolving AAAA");
return;
}
llarp::LogWarn("Unhandled question type ", request->question.type);
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}
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void
raw_resolve_host(struct dnsc_context *const dnsc, const char *url,
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dnsc_answer_hook_func resolved, void *const user,
uint16_t type)
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{
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if(strstr(url, "in-addr.arpa") != nullptr)
{
type = 12;
}
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dns_query *dns_packet =
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answer_request_alloc(dnsc, nullptr, url, resolved, user, type);
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if(!dns_packet)
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{
llarp::LogError("Couldn't make dnsc packet");
return;
}
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// char *word;
llarp::Addr upstreamAddr = dnsc->resolvers[0];
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llarp::LogDebug("Asking DNS server ", upstreamAddr, " about ", url);
struct sockaddr_in addr;
ssize_t ret;
socklen_t size;
// int length;
unsigned char buffer[DNC_BUF_SIZE];
#ifndef _WIN32
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int sockfd;
#else
SOCKET sockfd;
#endif
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sockfd = socket(AF_INET, SOCK_DGRAM, 0);
if(!(sockfd > 0))
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{
llarp::LogWarn("Error creating socket!\n");
return;
}
// socket = sockfd;
sockaddr_in *dnscSock = ((sockaddr_in *)dnsc->resolvers[0].addr4());
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memset(&addr, 0, sizeof(addr));
addr.sin_family = AF_INET;
addr.sin_addr.s_addr = dnscSock->sin_addr.s_addr;
addr.sin_port = dnscSock->sin_port;
size = sizeof(addr);
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// hexdump("sending packet", &dnsQuery.request, dnsQuery.length);
ret = sendto(sockfd, (const char *)dns_packet->request, dns_packet->length, 0,
(struct sockaddr *)&addr, size);
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delete dns_packet;
if(ret < 0)
{
llarp::LogWarn("Error Sending Request");
return;
}
llarp::LogInfo("Sent");
memset(&buffer, 0, DNC_BUF_SIZE);
llarp::LogInfo("Waiting for recv");
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// Timeout?
ret = recvfrom(sockfd, (char *)buffer, DNC_BUF_SIZE, 0,
(struct sockaddr *)&addr, &size);
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llarp::LogInfo("recv done ", size);
if(ret < 0)
{
llarp::LogWarn("Error Receiving Response");
return;
}
llarp::LogInfo("closing new socket\n");
// hexdump("received packet", &buffer, ret);
#ifndef _WIN32
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close(sockfd);
#else
closesocket(sockfd);
#endif
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unsigned char *castBuf = (unsigned char *)buffer;
// auto buffer = llarp::StackBuffer< decltype(castBuf) >(castBuf);
dns_msg_header *hdr = decode_hdr((const char *)castBuf);
llarp::LogInfo("response header says it belongs to id #", hdr->id);
// if we sent this out, then there's an id
struct dns_tracker *tracker = (struct dns_tracker *)dnsc->tracker;
generic_handle_dnsc_recvfrom(tracker->client_request[hdr->id].get(), nullptr,
castBuf, size);
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}
/// intermediate udp_io handler
void
llarp_handle_dnsc_recvfrom(struct llarp_udp_io *const udp,
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const struct sockaddr *saddr, const void *buf,
const ssize_t sz)
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{
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if(!saddr)
{
llarp::LogWarn("saddr isnt set");
}
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unsigned char *castBuf = (unsigned char *)buf;
// auto buffer = llarp::StackBuffer< decltype(castBuf) >(castBuf);
dns_msg_header *hdr = decode_hdr((const char *)castBuf);
llarp::LogDebug("Header got client responses for id: ", hdr->id);
// if we sent this out, then there's an id
struct dns_tracker *tracker = (struct dns_tracker *)udp->user;
struct dnsc_answer_request *request = tracker->client_request[hdr->id].get();
// sometimes we'll get double responses
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if(request)
{
generic_handle_dnsc_recvfrom(request, saddr, buf, sz);
}
else
{
llarp::LogWarn("Ignoring multiple responses on ID #", hdr->id);
}
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}
bool
llarp_resolve_host(struct dnsc_context *const dnsc, const char *url,
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dnsc_answer_hook_func resolved, void *const user,
uint16_t type)
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{
// FIXME: probably can be stack allocated
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/*
if (strstr(url, "in-addr.arpa") != nullptr)
{
type = 12;
}
*/
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dns_query *dns_packet =
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answer_request_alloc(dnsc, &dnsc->udp, url, resolved, user, type);
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if(!dns_packet)
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{
llarp::LogError("Couldn't make dnsc packet");
return false;
}
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// register request with udp response tracker
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// dns_tracker *tracker = (dns_tracker *)dnsc->udp->user;
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/*
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uint16_t length = 0;
dns_msg_header header;
header.id = htons(id);
header.qr = 0;
header.opcode = 0;
header.aa = 0;
header.tc = 0;
header.rd = 1;
header.ra = 0;
header.rcode = 0;
header.qdCount = htons(1);
header.anCount = 0;
header.nsCount = 0;
header.arCount = 0;
length += 12;
//request->question.name = sUrl;
request->question.type = htons(1);
request->question.qClass = htons(1);
uint16_t qLen = request->question.name.length() + 8;
length += qLen;
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unsigned char bytes[length];
// memcpy isn't going to fix the network endian issue
// encode header into bytes
memcpy(bytes, &header, 12);
// encode question into bytes
memcpy(bytes + 12, &request->question, qLen);
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*/
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// uint16_t id = ++tracker->c_requests;
// tracker->client_request[id] = request;
// llarp::LogInfo("Sending request #", tracker->c_requests, " ", length, "
// bytes");
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// ssize_t ret = llarp_ev_udp_sendto(dnsc->udp, dnsc->server, bytes, length);
ssize_t ret = llarp_ev_udp_sendto(dnsc->udp, dnsc->resolvers[0],
dns_packet->request, dns_packet->length);
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delete dns_packet;
if(ret < 0)
{
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llarp::LogWarn("Error Sending Request");
return false;
}
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return true;
}
void
llarp_host_resolved(dnsc_answer_request *const request)
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{
dns_tracker *tracker = (dns_tracker *)request->context->tracker;
auto val = std::find_if(
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tracker->client_request.begin(), tracker->client_request.end(),
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[request](
std::pair< const uint32_t, std::unique_ptr< dnsc_answer_request > >
&element) { return element.second.get() == request; });
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if(val != tracker->client_request.end())
{
tracker->client_request[val->first].reset();
}
else
{
llarp::LogWarn("Couldn't disable ", request);
}
}
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bool
llarp_dnsc_init(struct dnsc_context *const dnsc,
struct llarp_logic *const logic,
struct llarp_ev_loop *const netloop,
const llarp::Addr &dnsc_sockaddr)
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{
// create client socket
if(netloop)
{
if(!dnsc->udp)
{
llarp::LogError("DNSc udp isn't set");
return false;
}
llarp::Addr dnsc_srcsockaddr(0, 0, 0, 0, 0); // just find a public udp port
int bind_res = llarp_ev_add_udp(netloop, dnsc->udp,
(const sockaddr *)dnsc_srcsockaddr);
if(bind_res == -1)
{
llarp::LogError("Couldn't bind to ", dnsc_srcsockaddr);
return false;
}
}
llarp::LogInfo("DNSc adding relay ", dnsc_sockaddr);
dnsc->resolvers.push_back(dnsc_sockaddr);
dnsc->tracker = &dns_udp_tracker;
dnsc->logic = logic;
return true;
}
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bool
llarp_dnsc_stop(__attribute__((unused)) struct dnsc_context *const dnsc)
{
// delete(sockaddr_in *)dnsc->server; // deallocation
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return true;
}