/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#include "mtproto/details/mtproto_domain_resolver.h"
#include "base/openssl_help.h"
#include "base/invoke_queued.h"
#include "base/call_delayed.h"
#include <QtCore/QJsonDocument>
#include <QtCore/QJsonArray>
#include <QtCore/QJsonObject>
#include <range/v3/algorithm/shuffle.hpp>
#include <range/v3/algorithm/reverse.hpp>
#include <range/v3/algorithm/remove.hpp>
#include <random>
namespace MTP::details {
namespace {
constexpr auto kSendNextTimeout = crl::time(800);
constexpr auto kMinTimeToLive = 10 * crl::time(1000);
constexpr auto kMaxTimeToLive = 300 * crl::time(1000);
} // namespace
const std::vector<QString> &DnsDomains() {
static const auto kResult = std::vector<QString>{
"google.com",
"www.google.com",
"google.ru",
"www.google.ru",
};
return kResult;
}
QString GenerateDnsRandomPadding() {
constexpr char kValid[] = "abcdefghijklmnopqrstuvwxyz"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";
auto result = QString();
const auto count = [&] {
constexpr auto kMinPadding = 13;
constexpr auto kMaxPadding = 128;
while (true) {
const auto result = 1 + (openssl::RandomValue<uchar>() / 2);
Assert(result <= kMaxPadding);
if (result >= kMinPadding) {
return result;
}
}
}();
result.resize(count);
for (auto &ch : result) {
ch = kValid[openssl::RandomValue<uchar>() % (sizeof(kValid) - 1)];
}
return result;
}
QByteArray DnsUserAgent() {
static const auto kResult = QByteArray(
"Mozilla/5.0 (Windows NT 10.0; Win64; x64) "
"AppleWebKit/537.36 (KHTML, like Gecko) "
"Chrome/90.0.4430.85 Safari/537.36");
return kResult;
}
std::vector<DnsEntry> ParseDnsResponse(
const QByteArray &bytes,
std::optional<int> typeRestriction) {
if (bytes.isEmpty()) {
return {};
}
// Read and store to "result" all the data bytes from the response:
// { ..,
// "Answer": [
// { .., "data": "bytes1", "TTL": int, .. },
// { .., "data": "bytes2", "TTL": int, .. }
// ],
// .. }
auto error = QJsonParseError{ 0, QJsonParseError::NoError };
const auto document = QJsonDocument::fromJson(bytes, &error);
if (error.error != QJsonParseError::NoError) {
LOG(("Config Error: Failed to parse dns response JSON, error: %1"
).arg(error.errorString()));
return {};
} else if (!document.isObject()) {
LOG(("Config Error: Not an object received in dns response JSON."));
return {};
}
const auto response = document.object();
const auto answerIt = response.find("Answer");
if (answerIt == response.constEnd()) {
LOG(("Config Error: Could not find Answer in dns response JSON."));
return {};
} else if (!(*answerIt).isArray()) {
LOG(("Config Error: Not an array received "
"in Answer in dns response JSON."));
return {};
}
auto result = std::vector<DnsEntry>();
for (const auto elem : (*answerIt).toArray()) {
if (!elem.isObject()) {
LOG(("Config Error: Not an object found "
"in Answer array in dns response JSON."));
continue;
}
const auto object = elem.toObject();
if (typeRestriction) {
const auto typeIt = object.find("type");
const auto type = int(std::round((*typeIt).toDouble()));
if (!(*typeIt).isDouble()) {
LOG(("Config Error: Not a number in type field "
"in Answer array in dns response JSON."));
continue;
} else if (type != *typeRestriction) {
continue;
}
}
const auto dataIt = object.find("data");
if (dataIt == object.constEnd()) {
LOG(("Config Error: Could not find data "
"in Answer array entry in dns response JSON."));
continue;
} else if (!(*dataIt).isString()) {
LOG(("Config Error: Not a string data found "
"in Answer array entry in dns response JSON."));
continue;
}
const auto ttlIt = object.find("TTL");
const auto ttl = (ttlIt != object.constEnd())
? crl::time(std::round((*ttlIt).toDouble()))
: crl::time(0);
result.push_back({ (*dataIt).toString(), ttl });
}
return result;
}
ServiceWebRequest::ServiceWebRequest(not_null<QNetworkReply*> reply)
: reply(reply.get()) {
}
ServiceWebRequest::ServiceWebRequest(ServiceWebRequest &&other)
: reply(base::take(other.reply)) {
}
ServiceWebRequest &ServiceWebRequest::operator=(ServiceWebRequest &&other) {
if (reply != other.reply) {
destroy();
reply = base::take(other.reply);
}
return *this;
}
void ServiceWebRequest::destroy() {
if (const auto value = base::take(reply)) {
value->disconnect(
value,
&QNetworkReply::finished,
nullptr,
nullptr);
value->abort();
value->deleteLater();
}
}
ServiceWebRequest::~ServiceWebRequest() {
if (reply) {
reply->deleteLater();
}
}
DomainResolver::DomainResolver(Fn<void(
const QString &host,
const QStringList &ips,
crl::time expireAt)> callback)
: _callback(std::move(callback)) {
_manager.setProxy(QNetworkProxy::NoProxy);
}
void DomainResolver::resolve(const QString &domain) {
resolve({ domain, false });
resolve({ domain, true });
}
void DomainResolver::resolve(const AttemptKey &key) {
if (_attempts.find(key) != end(_attempts)) {
return;
} else if (_requests.find(key) != end(_requests)) {
return;
}
const auto i = _cache.find(key);
_lastTimestamp = crl::now();
if (i != end(_cache) && i->second.expireAt > _lastTimestamp) {
checkExpireAndPushResult(key.domain);
return;
}
auto attempts = std::vector<Attempt>();
auto domains = DnsDomains();
std::random_device rd;
ranges::shuffle(domains, std::mt19937(rd()));
const auto takeDomain = [&] {
const auto result = domains.back();
domains.pop_back();
return result;
};
const auto shuffle = [&](int from, int till) {
Expects(till > from);
ranges::shuffle(
begin(attempts) + from,
begin(attempts) + till,
std::mt19937(rd()));
};
attempts.push_back({ Type::Google, "dns.google.com" });
attempts.push_back({ Type::Google, takeDomain(), "dns" });
attempts.push_back({ Type::Mozilla, "mozilla.cloudflare-dns.com" });
while (!domains.empty()) {
attempts.push_back({ Type::Google, takeDomain(), "dns" });
}
shuffle(0, 2);
ranges::reverse(attempts); // We go from last to first.
_attempts.emplace(key, Attempts{ std::move(attempts) });
sendNextRequest(key);
}
void DomainResolver::checkExpireAndPushResult(const QString &domain) {
const auto ipv4 = _cache.find({ domain, false });
if (ipv4 == end(_cache) || ipv4->second.expireAt <= _lastTimestamp) {
return;
}
auto result = ipv4->second;
const auto ipv6 = _cache.find({ domain, true });
if (ipv6 != end(_cache) && ipv6->second.expireAt > _lastTimestamp) {
result.ips.append(ipv6->second.ips);
accumulate_min(result.expireAt, ipv6->second.expireAt);
}
InvokeQueued(this, [=] {
_callback(domain, result.ips, result.expireAt);
});
}
void DomainResolver::sendNextRequest(const AttemptKey &key) {
auto i = _attempts.find(key);
if (i == end(_attempts)) {
return;
}
auto &attempts = i->second;
auto &list = attempts.list;
const auto attempt = list.back();
list.pop_back();
if (!list.empty()) {
base::call_delayed(kSendNextTimeout, &attempts.guard, [=] {
sendNextRequest(key);
});
}
performRequest(key, attempt);
}
void DomainResolver::performRequest(
const AttemptKey &key,
const Attempt &attempt) {
auto url = QUrl();
url.setScheme("https");
auto request = QNetworkRequest();
switch (attempt.type) {
case Type::Mozilla: {
url.setHost(attempt.data);
url.setPath("/dns-query");
url.setQuery(QStringLiteral("name=%1&type=%2&random_padding=%3"
).arg(key.domain
).arg(key.ipv6 ? 28 : 1
).arg(GenerateDnsRandomPadding()));
request.setRawHeader("accept", "application/dns-json");
} break;
case Type::Google: {
url.setHost(attempt.data);
url.setPath("/resolve");
url.setQuery(QStringLiteral("name=%1&type=%2&random_padding=%3"
).arg(key.domain
).arg(key.ipv6 ? 28 : 1
).arg(GenerateDnsRandomPadding()));
if (!attempt.host.isEmpty()) {
const auto host = attempt.host + ".google.com";
request.setRawHeader("Host", host.toLatin1());
}
} break;
default: Unexpected("Type in DomainResolver::performRequest.");
}
request.setUrl(url);
request.setRawHeader("User-Agent", DnsUserAgent());
const auto i = _requests.emplace(
key,
std::vector<ServiceWebRequest>()).first;
const auto reply = i->second.emplace_back(
_manager.get(request)
).reply;
connect(reply, &QNetworkReply::finished, this, [=] {
requestFinished(key, reply);
});
}
void DomainResolver::requestFinished(
const AttemptKey &key,
not_null<QNetworkReply*> reply) {
const auto result = finalizeRequest(key, reply);
const auto response = ParseDnsResponse(result);
if (response.empty()) {
return;
}
_requests.erase(key);
_attempts.erase(key);
auto entry = CacheEntry();
auto ttl = kMaxTimeToLive;
for (const auto &item : response) {
entry.ips.push_back(item.data);
ttl = std::min(
ttl,
std::max(item.TTL * crl::time(1000), kMinTimeToLive));
}
_lastTimestamp = crl::now();
entry.expireAt = _lastTimestamp + ttl;
_cache[key] = std::move(entry);
checkExpireAndPushResult(key.domain);
}
QByteArray DomainResolver::finalizeRequest(
const AttemptKey &key,
not_null<QNetworkReply*> reply) {
if (reply->error() != QNetworkReply::NoError) {
DEBUG_LOG(("Resolve Error: Failed to get response, error: %2 (%3)"
).arg(reply->errorString()
).arg(reply->error()));
}
const auto result = reply->readAll();
const auto i = _requests.find(key);
if (i != end(_requests)) {
auto &requests = i->second;
const auto from = ranges::remove(
requests,
reply,
[](const ServiceWebRequest &request) { return request.reply; });
requests.erase(from, end(requests));
if (requests.empty()) {
_requests.erase(i);
}
}
return result;
}
} // namespace MTP::details