lokinet/llarp/dns/dotlokilookup.cpp

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#include <dns/dotlokilookup.hpp>
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#include <handlers/tun.hpp>
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#include <service/context.hpp>
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#include <util/logic.hpp>
std::string const default_chars =
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"abcdefghijklmnaoqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890";
#include <random>
std::string
random_string(size_t len = 15, std::string const &allowed_chars = default_chars)
{
std::mt19937_64 gen{std::random_device()()};
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std::uniform_int_distribution< size_t > dist{0, allowed_chars.length() - 1};
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std::string ret;
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std::generate_n(std::back_inserter(ret), len,
[&] { return allowed_chars[dist(gen)]; });
return ret;
}
struct check_query_simple_request
{
// already inside request
// const struct sockaddr *from; // source
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const dnsd_question_request *request;
};
std::unordered_map< std::string, struct dnsd_query_hook_response * >
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loki_tld_lookup_cache;
static bool
decode_request_name(const std::string &name, llarp::AlignedBuffer< 32 > &addr,
bool &isSNode)
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{
llarp::service::Address serviceAddr;
llarp::RouterID snodeAddr;
auto pos = name.find(".snode");
if(pos != std::string::npos)
{
if(!llarp::HexDecode(name.substr(0, pos).c_str(), serviceAddr.begin(),
serviceAddr.size()))
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{
return false;
}
addr = snodeAddr;
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isSNode = true;
}
else
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{
if(!serviceAddr.FromString(name))
{
return false;
}
addr = serviceAddr;
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isSNode = false;
}
return true;
}
void
llarp_dotlokilookup_checkQuery(void *u, __attribute__((unused)) uint64_t orig,
uint64_t left)
{
if(left)
return;
// struct check_query_request *request = static_cast< struct
// check_query_request * >(u);
struct check_query_simple_request *qr =
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static_cast< struct check_query_simple_request * >(u);
dotLokiLookup *dll = (dotLokiLookup *)qr->request->context->user;
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if(!dll)
{
llarp::LogError("DNSd dotLokiLookup is not configured");
write404_dnss_response(qr->request);
delete qr;
return;
}
// we do have result
// if so send that
// else
// if we have a free private ip, send that
/*
// cache hit
auto itr = loki_tld_lookup_cache.find(addr.ToString());
if(itr != loki_tld_lookup_cache.end())
{
llarp::LogDebug("Found in .loki lookup cache");
writesend_dnss_response(itr->second->returnThis, qr->from, qr->request);
delete qr;
return;
}
struct dns_pointer *free_private = dns_iptracker_get_free(dll->ip_tracker);
if(free_private)
{
*/
// in_addr ip_address = ((sockaddr_in *)free_private->hostResult)->sin_addr;
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llarp::service::Context *routerHiddenServiceContext =
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(llarp::service::Context *)dll->user;
if(!routerHiddenServiceContext)
{
llarp::LogWarn("dotLokiLookup user isnt a service::Context: ", dll->user);
write404_dnss_response(qr->request);
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delete qr;
return;
}
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llarp::huint32_t serviceIP;
llarp::AlignedBuffer< 32 > addr;
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bool isSNode = false;
if(!decode_request_name(qr->request->question.name, addr, isSNode))
{
llarp::LogWarn("decode_request_name failed");
write404_dnss_response(qr->request);
delete qr;
return;
}
if(!routerHiddenServiceContext->FindBestAddressFor(addr, isSNode, serviceIP))
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{
llarp::LogWarn("dotLokiLookup failed to map address");
write404_dnss_response(qr->request);
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delete qr;
return;
}
/*
bool mapResult = routerHiddenServiceContext->MapAddressAll(
addr, free_private->hostResult);
if(!mapResult)
{
llarp::LogWarn("dotLokiLookup failed to map address");
write404_dnss_response(qr->from, qr->request);
delete qr;
return;
}
*/
// make a dnsd_query_hook_response for the cache
dnsd_query_hook_response *response = new dnsd_query_hook_response;
response->dontLookUp = true;
response->dontSendResponse = false;
// llarp::Addr test(*free_private->hostResult.getSockAddr());
// llarp::LogInfo("IP Test: ", test);
// response->returnThis = &free_private->hostResult;
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response->returnThis = serviceIP;
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llarp::LogInfo("Saving ", qr->request->question.name);
loki_tld_lookup_cache[qr->request->question.name] = response;
// we can't delete response now...
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/*
llarp::handlers::TunEndpoint *tunEndpoint =
(llarp::handlers::TunEndpoint *)dll->user;
if (!tunEndpoint)
{
llarp::LogWarn("dotLokiLookup user isnt a tunEndpoint: ", dll->user);
return;
}
bool mapResult = tunEndpoint->MapAddress(addr,
free_private->hostResult.tohl()); if(!mapResult)
{
delete qr;
return;
}
*/
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llarp::huint32_t foundAddr;
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if(!routerHiddenServiceContext->FindBestAddressFor(addr, isSNode, foundAddr))
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{
write404_dnss_response(qr->request);
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delete qr;
return;
}
// make a dnsd_query_hook_response for the cache
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/*
dnsd_query_hook_response *response = new dnsd_query_hook_response;
response->dontLookUp = true;
response->dontSendResponse = false;
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loki_tld_lookup_cache[addr.ToString()]=response;
*/
// we can't delete response now...
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// sockaddr_in saddr;
// saddr.sin_family = AF_INET;
// saddr.sin_addr.s_addr = llarp::xhtonl(foundAddr).n;
// FIXME: flush cache to disk
// on crash we'll need to bring up all the same IPs we assigned before...
writesend_dnss_response(&foundAddr, qr->request);
delete qr;
return;
}
std::vector< std::string >
split(std::string str)
{
size_t pos = 0;
std::string token;
std::string s(str);
std::vector< std::string > tokens;
while((pos = s.find(".")) != std::string::npos)
{
token = s.substr(0, pos);
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// llarp::LogInfo("token [", token, "]");
tokens.push_back(token);
s.erase(0, pos + 1);
}
token = s.substr(0, pos);
tokens.push_back(token);
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// llarp::LogInfo("token [", token, "]");
return tokens;
}
struct reverse_handler_iter_context
{
std::string lName;
// const struct sockaddr *from; // aready inside dnsd_question_request
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const dnsd_question_request *request;
};
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#if defined(ANDROID) || defined(RPI)
static int
stoi(const std::string &s)
{
return atoi(s.c_str());
}
#endif
bool
ReverseHandlerIter(struct llarp::service::Context::endpoint_iter *endpointCfg)
{
reverse_handler_iter_context *context =
(reverse_handler_iter_context *)endpointCfg->user;
// llarp::LogInfo("context ", context->request->question.name);
// llarp::LogInfo("Checking ", lName);
llarp::handlers::TunEndpoint *tunEndpoint =
(llarp::handlers::TunEndpoint *)endpointCfg->endpoint;
if(!tunEndpoint)
{
llarp::LogError("No tunnel endpoint found");
return true; // still continue
}
// llarp::LogInfo("for ", tunEndpoint->tunif.ifaddr);
std::string checkStr(tunEndpoint->tunif.ifaddr);
std::vector< std::string > tokensSearch = split(context->lName);
std::vector< std::string > tokensCheck = split(checkStr);
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// well the tunif is just one ip on a network range...
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// support "b._dns-sd._udp.0.0.200.10.in-addr.arpa"
size_t searchTokens = tokensSearch.size();
// if the query has five or fewer levels,
// tack on leading '0.'s to form a minimum six-level
// PTR query -rick
if(searchTokens < 6)
{
switch(searchTokens)
{
case 5:
tokensSearch.clear();
context->lName.insert(0, "0.");
tokensSearch = split(context->lName);
searchTokens = tokensSearch.size();
break;
case 4:
tokensSearch.clear();
context->lName.insert(0, "0.0.");
tokensSearch = split(context->lName);
searchTokens = tokensSearch.size();
break;
case 3:
tokensSearch.clear();
context->lName.insert(0, "0.0.0.");
tokensSearch = split(context->lName);
searchTokens = tokensSearch.size();
break;
default:
llarp::LogError("invalid PTR query: ", context->lName);
break;
}
}
// this expression assumes a six-level name
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std::string searchIp = tokensSearch[searchTokens - 3] + "."
+ tokensSearch[searchTokens - 4] + "." + tokensSearch[searchTokens - 5]
+ "." + tokensSearch[searchTokens - 6];
std::string checkIp = tokensCheck[0] + "." + tokensCheck[1] + "."
+ tokensCheck[2] + "." + tokensCheck[3];
llarp::LogDebug(searchIp, " vs ", checkIp);
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llarp::IPRange range =
llarp::iprange_ipv4(std::stoi(tokensCheck[0]), std::stoi(tokensCheck[1]),
std::stoi(tokensCheck[2]), std::stoi(tokensCheck[3]),
tunEndpoint->tunif.netmask); // create range
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llarp::huint32_t searchIPv4 = llarp::ipaddr_ipv4_bits(
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std::stoi(tokensSearch[searchTokens - 3]),
std::stoi(tokensSearch[searchTokens - 4]),
std::stoi(tokensSearch[searchTokens - 5]),
std::stoi(tokensSearch[searchTokens - 6])); // create ip
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// bool inRange = range.Contains(searchAddr.xtohl());
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bool inRange = range.Contains(searchIPv4);
llarp::Addr searchAddr(searchIp);
llarp::Addr checkAddr(checkIp);
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llarp::LogInfo(searchIPv4, " vs ", range, " = ",
inRange ? "inRange" : "not match");
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if(inRange)
{
llarp::AlignedBuffer< 32 > addr =
tunEndpoint->ObtainAddrForIP< llarp::AlignedBuffer< 32 > >(searchIPv4,
false);
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if(addr.IsZero())
{
addr = tunEndpoint->ObtainAddrForIP< llarp::AlignedBuffer< 32 > >(
searchIPv4, true);
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if(!addr.IsZero())
{
char stack[128] = {0};
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std::string saddr = llarp::HexEncode(addr, stack);
saddr += ".snode";
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writesend_dnss_revresponse(saddr, context->request);
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}
else
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write404_dnss_response(context->request);
}
else
{
llarp::service::Address saddr(addr);
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// llarp::LogInfo("Returning [", saddr.ToString(), "]");
writesend_dnss_revresponse(saddr.ToString(), context->request);
}
return false;
}
return true; // we don't do anything with the result yet
}
static bool
should_intercept_query_with_name(const std::string &lName)
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{
// null terminated list
static const char *const matches[] = {".loki", ".snode", ".loki.", ".snode.",
0};
size_t idx = 0;
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while(matches[idx])
{
std::string match_str(matches[idx]);
if(lName.substr(lName.length() - match_str.length()) == match_str)
return true;
++idx;
}
return false;
}
dnsd_query_hook_response *
llarp_dotlokilookup_handler(std::string name,
const dnsd_question_request *request)
{
dnsd_query_hook_response *response = new dnsd_query_hook_response;
response->dontLookUp = false;
response->dontSendResponse = false;
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response->returnThis.h = 0;
llarp::LogDebug("Hooked ", name);
std::string lName = name;
std::transform(lName.begin(), lName.end(), lName.begin(), ::tolower);
// llarp::LogDebug("Transformed ", lName);
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// 253.0.200.10.in-addr.arpa
if(lName.find(".in-addr.arpa") != std::string::npos)
{
// llarp::LogDebug("Checking ", lName);
dotLokiLookup *dll = (dotLokiLookup *)request->context->user;
llarp::service::Context *routerHiddenServiceContext =
(llarp::service::Context *)dll->user;
if(!routerHiddenServiceContext)
{
llarp::LogWarn("dotLokiLookup user isnt a service::Context: ", dll->user);
return response;
}
// llarp::LogDebug("Starting rev iter for ", lName);
// which range?
// for each tun interface
struct reverse_handler_iter_context context;
context.lName = lName;
// context.from = request->from;
context.request = request;
struct llarp::service::Context::endpoint_iter i;
i.user = &context;
i.index = 0;
i.visit = &ReverseHandlerIter;
bool res = routerHiddenServiceContext->iterate(i);
if(!res)
{
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llarp::LogDebug("Reverse is ours");
response->dontLookUp = true;
response->dontSendResponse = true; // should have already sent it
}
else
{
llarp::LogInfo("Reverse is not ours");
}
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}
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else if(should_intercept_query_with_name(lName))
{
llarp::LogInfo("Detect Loki Lookup for ", lName);
auto cache_check = loki_tld_lookup_cache.find(lName);
if(cache_check != loki_tld_lookup_cache.end())
{
// was in cache
llarp::LogInfo("Reused address from LokiLookupCache");
// FIXME: avoid the response allocation if you could
delete response;
return cache_check->second;
}
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// decode address
llarp::AlignedBuffer< 32 > addr;
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bool isSNode = false;
if(!decode_request_name(lName, addr, isSNode))
{
response->dontLookUp = true;
return response;
}
dotLokiLookup *dll = (dotLokiLookup *)request->context->user;
llarp::service::Context *routerHiddenServiceContext =
(llarp::service::Context *)dll->user;
if(!routerHiddenServiceContext)
{
llarp::LogWarn("dotLokiLookup user isnt a service::Context: ", dll->user);
return response;
}
// start path build early (if you're looking it up, you're probably going to
// use it)
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// main_router_prefetch(ctx, addr);
// schedule future response
check_query_simple_request *qr = new check_query_simple_request;
// qr->from = request->from;
qr->request = request;
auto tun = routerHiddenServiceContext->getFirstTun();
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if(isSNode)
{
if(tun->HasPathToSNode(addr.as_array()))
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{
llarp_dotlokilookup_checkQuery(qr, 0, 0);
response->dontSendResponse = true; // will send it shortly
return response;
}
}
else
{
if(tun->HasPathToService(llarp::service::Address(addr)))
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{
llarp_dotlokilookup_checkQuery(qr, 0, 0);
response->dontSendResponse = true; // will send it shortly
return response;
}
}
// nslookup on osx is about 5 sec before a retry, 2s on linux
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request->context->client.logic->call_later(
{2000, qr, &llarp_dotlokilookup_checkQuery});
response->dontSendResponse = true; // will send it shortly
}
return response;
}