/* 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/connection_abstract.h" #include "mtproto/connection_tcp.h" #include "mtproto/connection_http.h" #include "mtproto/connection_resolving.h" #include "mtproto/session.h" #include "base/unixtime.h" namespace MTP { namespace internal { ConnectionPointer::ConnectionPointer() = default; ConnectionPointer::ConnectionPointer(std::nullptr_t) { } ConnectionPointer::ConnectionPointer(AbstractConnection *value) : _value(value) { } ConnectionPointer::ConnectionPointer(ConnectionPointer &&other) : _value(base::take(other._value)) { } ConnectionPointer &ConnectionPointer::operator=(ConnectionPointer &&other) { reset(base::take(other._value)); return *this; } AbstractConnection *ConnectionPointer::get() const { return _value; } void ConnectionPointer::reset(AbstractConnection *value) { if (_value == value) { return; } else if (const auto old = base::take(_value)) { const auto disconnect = [&](auto signal) { old->disconnect(old, signal, nullptr, nullptr); }; disconnect(&AbstractConnection::receivedData); disconnect(&AbstractConnection::receivedSome); disconnect(&AbstractConnection::error); disconnect(&AbstractConnection::connected); disconnect(&AbstractConnection::disconnected); old->disconnectFromServer(); old->deleteLater(); } _value = value; } ConnectionPointer::operator AbstractConnection*() const { return get(); } AbstractConnection *ConnectionPointer::operator->() const { return get(); } AbstractConnection &ConnectionPointer::operator*() const { return *get(); } ConnectionPointer::operator bool() const { return get() != nullptr; } ConnectionPointer::~ConnectionPointer() { reset(); } mtpBuffer AbstractConnection::prepareSecurePacket( uint64 keyId, MTPint128 msgKey, uint32 size) const { auto result = mtpBuffer(); constexpr auto kTcpPrefixInts = 2; constexpr auto kAuthKeyIdPosition = kTcpPrefixInts; constexpr auto kAuthKeyIdInts = 2; constexpr auto kMessageKeyPosition = kAuthKeyIdPosition + kAuthKeyIdInts; constexpr auto kMessageKeyInts = 4; constexpr auto kPrefixInts = kTcpPrefixInts + kAuthKeyIdInts + kMessageKeyInts; constexpr auto kTcpPostfixInts = 4; result.reserve(kPrefixInts + size + kTcpPostfixInts); result.resize(kPrefixInts); *reinterpret_cast(&result[kAuthKeyIdPosition]) = keyId; *reinterpret_cast(&result[kMessageKeyPosition]) = msgKey; return result; } gsl::span AbstractConnection::parseNotSecureResponse( const mtpBuffer &buffer) const { const auto answer = buffer.data(); const auto len = buffer.size(); if (len < 6) { LOG(("Not Secure Error: bad request answer, len = %1" ).arg(len * sizeof(mtpPrime))); DEBUG_LOG(("Not Secure Error: answer bytes %1" ).arg(Logs::mb(answer, len * sizeof(mtpPrime)).str())); return {}; } if (answer[0] != 0 || answer[1] != 0 || (((uint32)answer[2]) & 0x03) != 1 //|| (base::unixtime::now() - answer[3] > 300) // We didn't sync time yet. //|| (answer[3] - base::unixtime::now() > 60) || false) { LOG(("Not Secure Error: bad request answer start (%1 %2 %3)" ).arg(answer[0] ).arg(answer[1] ).arg(answer[2])); DEBUG_LOG(("Not Secure Error: answer bytes %1" ).arg(Logs::mb(answer, len * sizeof(mtpPrime)).str())); return {}; } const auto answerLen = (uint32)answer[4]; if (answerLen < 1 || answerLen > (len - 5) * sizeof(mtpPrime)) { LOG(("Not Secure Error: bad request answer 1 <= %1 <= %2" ).arg(answerLen ).arg((len - 5) * sizeof(mtpPrime))); DEBUG_LOG(("Not Secure Error: answer bytes %1" ).arg(Logs::mb(answer, len * sizeof(mtpPrime)).str())); return {}; } return gsl::make_span(answer + 5, answerLen); } mtpBuffer AbstractConnection::preparePQFake(const MTPint128 &nonce) const { return prepareNotSecurePacket( MTPReq_pq(nonce), base::unixtime::mtproto_msg_id()); } std::optional AbstractConnection::readPQFakeReply( const mtpBuffer &buffer) const { const auto answer = parseNotSecureResponse(buffer); if (answer.empty()) { return std::nullopt; } auto from = answer.data(); MTPResPQ response; return response.read(from, from + answer.size()) ? std::make_optional(response) : std::nullopt; } AbstractConnection::AbstractConnection( QThread *thread, const ProxyData &proxy) : _proxy(proxy) { moveToThread(thread); } ConnectionPointer AbstractConnection::Create( not_null instance, DcOptions::Variants::Protocol protocol, QThread *thread, const bytes::vector &secret, const ProxyData &proxy) { auto result = [&] { if (protocol == DcOptions::Variants::Tcp) { return ConnectionPointer::New( instance, thread, proxy); } else { return ConnectionPointer::New(thread, proxy); } }(); if (proxy.tryCustomResolve()) { return ConnectionPointer::New( instance, thread, proxy, std::move(result)); } return result; } } // namespace internal } // namespace MTP