/* 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/special_config_request.h" #include "mtproto/rsa_public_key.h" #include "mtproto/dc_options.h" #include "mtproto/auth_key.h" #include "base/openssl_help.h" #include namespace MTP { namespace { constexpr auto kPublicKey = str_const("\ -----BEGIN RSA PUBLIC KEY-----\n\ MIIBCgKCAQEAyr+18Rex2ohtVy8sroGPBwXD3DOoKCSpjDqYoXgCqB7ioln4eDCF\n\ fOBUlfXUEvM/fnKCpF46VkAftlb4VuPDeQSS/ZxZYEGqHaywlroVnXHIjgqoxiAd\n\ 192xRGreuXIaUKmkwlM9JID9WS2jUsTpzQ91L8MEPLJ/4zrBwZua8W5fECwCCh2c\n\ 9G5IzzBm+otMS/YKwmR1olzRCyEkyAEjXWqBI9Ftv5eG8m0VkBzOG655WIYdyV0H\n\ fDK/NWcvGqa0w/nriMD6mDjKOryamw0OP9QuYgMN0C9xMW9y8SmP4h92OAWodTYg\n\ Y1hZCxdv6cs5UnW9+PWvS+WIbkh+GaWYxwIDAQAB\n\ -----END RSA PUBLIC KEY-----\ "); } // namespace SpecialConfigRequest::SpecialConfigRequest(base::lambda callback) : _callback(std::move(callback)) { App::setProxySettings(_manager); performAppRequest(); performDnsRequest(); } void SpecialConfigRequest::performAppRequest() { auto appUrl = QUrl(); appUrl.setScheme(qsl("https")); appUrl.setHost(qsl("google.com")); if (cTestMode()) { appUrl.setPath(qsl("/test/")); } auto appRequest = QNetworkRequest(appUrl); appRequest.setRawHeader("Host", "dns-telegram.appspot.com"); _appReply.reset(_manager.get(appRequest)); connect(_appReply.get(), &QNetworkReply::finished, this, [this] { appFinished(); }); } void SpecialConfigRequest::performDnsRequest() { auto dnsUrl = QUrl(); dnsUrl.setScheme(qsl("https")); dnsUrl.setHost(qsl("google.com")); dnsUrl.setPath(qsl("/resolve")); dnsUrl.setQuery(qsl("name=%1.stel.com&type=16").arg(cTestMode() ? qsl("tap") : qsl("ap"))); auto dnsRequest = QNetworkRequest(QUrl(dnsUrl)); dnsRequest.setRawHeader("Host", "dns.google.com"); _dnsReply.reset(_manager.get(dnsRequest)); connect(_dnsReply.get(), &QNetworkReply::finished, this, [this] { dnsFinished(); }); } void SpecialConfigRequest::appFinished() { if (!_appReply) { return; } auto result = _appReply->readAll(); _appReply.release()->deleteLater(); handleResponse(result); } void SpecialConfigRequest::dnsFinished() { if (!_dnsReply) { return; } if (_dnsReply->error() != QNetworkReply::NoError) { LOG(("Config Error: Failed to get dns response JSON, error: %1 (%2)").arg(_dnsReply->errorString()).arg(_dnsReply->error())); } auto result = _dnsReply->readAll(); _dnsReply.release()->deleteLater(); // Read and store to "entries" map all the data bytes from this response: // { .., "Answer": [ { .., "data": "bytes1", .. }, { .., "data": "bytes2", .. } ], .. } auto entries = QMap(); auto error = QJsonParseError { 0, QJsonParseError::NoError }; auto document = QJsonDocument::fromJson(result, &error); if (error.error != QJsonParseError::NoError) { LOG(("Config Error: Failed to parse dns response JSON, error: %1").arg(error.errorString())); } else if (!document.isObject()) { LOG(("Config Error: Not an object received in dns response JSON.")); } else { auto response = document.object(); auto answerIt = response.find(qsl("Answer")); if (answerIt == response.constEnd()) { LOG(("Config Error: Could not find Answer in dns response JSON.")); } else if (!(*answerIt).isArray()) { LOG(("Config Error: Not an array received in Answer in dns response JSON.")); } else { for (auto elem : (*answerIt).toArray()) { if (!elem.isObject()) { LOG(("Config Error: Not an object found in Answer array in dns response JSON.")); } else { auto object = elem.toObject(); auto dataIt = object.find(qsl("data")); if (dataIt == object.constEnd()) { LOG(("Config Error: Could not find data in Answer array entry in dns response JSON.")); } else if (!(*dataIt).isString()) { LOG(("Config Error: Not a string data found in Answer array entry in dns response JSON.")); } else { auto data = (*dataIt).toString(); entries.insertMulti(INT_MAX - data.size(), data); } } } } } auto text = QStringList(entries.values()).join(QString()); handleResponse(text.toLatin1()); } bool SpecialConfigRequest::decryptSimpleConfig(const QByteArray &bytes) { auto cleanBytes = bytes; auto removeFrom = std::remove_if(cleanBytes.begin(), cleanBytes.end(), [](char ch) { auto isGoodBase64 = (ch == '+') || (ch == '=') || (ch == '/') || (ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z') || (ch >= '0' && ch <= '9'); return !isGoodBase64; }); if (removeFrom != cleanBytes.end()) { cleanBytes.remove(removeFrom - cleanBytes.begin(), cleanBytes.end() - removeFrom); } constexpr auto kGoodSizeBase64 = 344; if (cleanBytes.size() != kGoodSizeBase64) { LOG(("Config Error: Bad data size %1 required %2").arg(cleanBytes.size()).arg(kGoodSizeBase64)); return false; } constexpr auto kGoodSizeData = 256; auto decodedBytes = QByteArray::fromBase64(cleanBytes, QByteArray::Base64Encoding); if (decodedBytes.size() != kGoodSizeData) { LOG(("Config Error: Bad data size %1 required %2").arg(decodedBytes.size()).arg(kGoodSizeData)); return false; } auto publicKey = internal::RSAPublicKey(gsl::as_bytes(gsl::make_span( kPublicKey.c_str(), kPublicKey.size()))); auto decrypted = publicKey.decrypt(gsl::as_bytes(gsl::make_span(decodedBytes))); auto decryptedBytes = gsl::make_span(decrypted); constexpr auto kAesKeySize = CTRState::KeySize; constexpr auto kAesIvecSize = CTRState::IvecSize; auto aesEncryptedBytes = decryptedBytes.subspan(kAesKeySize); base::byte_array aesivec; base::copy_bytes(aesivec, decryptedBytes.subspan(CTRState::KeySize - CTRState::IvecSize, CTRState::IvecSize)); AES_KEY aeskey; AES_set_decrypt_key(reinterpret_cast(decryptedBytes.data()), kAesKeySize * CHAR_BIT, &aeskey); AES_cbc_encrypt(reinterpret_cast(aesEncryptedBytes.data()), reinterpret_cast(aesEncryptedBytes.data()), aesEncryptedBytes.size(), &aeskey, reinterpret_cast(aesivec.data()), AES_DECRYPT); constexpr auto kDigestSize = 16; auto dataSize = aesEncryptedBytes.size() - kDigestSize; auto data = aesEncryptedBytes.subspan(0, dataSize); auto hash = openssl::Sha256(data); if (base::compare_bytes(gsl::make_span(hash).subspan(0, kDigestSize), aesEncryptedBytes.subspan(dataSize)) != 0) { LOG(("Config Error: Bad digest.")); return false; } mtpBuffer buffer; buffer.resize(data.size() / sizeof(mtpPrime)); base::copy_bytes(gsl::as_writeable_bytes(gsl::make_span(buffer)), data); auto from = &*buffer.cbegin(); auto end = from + buffer.size(); auto realLength = *from++; if (realLength <= 0 || realLength > dataSize || (realLength & 0x03)) { LOG(("Config Error: Bad length %1.").arg(realLength)); return false; } try { _simpleConfig.read(from, end); } catch (...) { LOG(("Config Error: Could not read configSimple.")); return false; } if ((end - from) * sizeof(mtpPrime) != (dataSize - realLength)) { LOG(("Config Error: Bad read length %1, should be %2.").arg((end - from) * sizeof(mtpPrime)).arg(dataSize - realLength)); return false; } return true; } void SpecialConfigRequest::handleResponse(const QByteArray &bytes) { if (!decryptSimpleConfig(bytes)) { return; } Assert(_simpleConfig.type() == mtpc_help_configSimple); auto &config = _simpleConfig.c_help_configSimple(); auto now = unixtime(); if (now < config.vdate.v || now > config.vexpires.v) { LOG(("Config Error: Bad date frame for simple config: %1-%2, our time is %3.").arg(config.vdate.v).arg(config.vexpires.v).arg(now)); return; } if (config.vip_port_list.v.empty()) { LOG(("Config Error: Empty simple config received.")); return; } for (auto &entry : config.vip_port_list.v) { Assert(entry.type() == mtpc_ipPort); auto &ipPort = entry.c_ipPort(); auto ip = *reinterpret_cast(&ipPort.vipv4.v); auto ipString = qsl("%1.%2.%3.%4").arg((ip >> 24) & 0xFF).arg((ip >> 16) & 0xFF).arg((ip >> 8) & 0xFF).arg(ip & 0xFF); _callback(config.vdc_id.v, ipString.toStdString(), ipPort.vport.v); } } SpecialConfigRequest::~SpecialConfigRequest() { if (_appReply) { _appReply->abort(); } if (_dnsReply) { _dnsReply->abort(); } } } // namespace MTP