/* 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_http.h" #include "base/openssl_help.h" #include "base/qthelp_url.h" namespace MTP { namespace details { namespace { constexpr auto kForceHttpPort = 80; constexpr auto kFullConnectionTimeout = crl::time(8000); } // namespace HttpConnection::HttpConnection(QThread *thread, const ProxyData &proxy) : AbstractConnection(thread, proxy) , _checkNonce(openssl::RandomValue()) { _manager.moveToThread(thread); _manager.setProxy(ToNetworkProxy(proxy)); } ConnectionPointer HttpConnection::clone(const ProxyData &proxy) { return ConnectionPointer::New(thread(), proxy); } void HttpConnection::sendData(mtpBuffer &&buffer) { Expects(buffer.size() > 2); if (_status == Status::Finished) { return; } int32 requestSize = (buffer.size() - 2) * sizeof(mtpPrime); QNetworkRequest request(url()); request.setHeader(QNetworkRequest::ContentLengthHeader, QVariant(requestSize)); request.setHeader(QNetworkRequest::ContentTypeHeader, QVariant(qsl("application/x-www-form-urlencoded"))); TCP_LOG(("HTTP Info: sending %1 len request").arg(requestSize)); _requests.insert(_manager.post(request, QByteArray((const char*)(&buffer[2]), requestSize))); } void HttpConnection::disconnectFromServer() { if (_status == Status::Finished) return; _status = Status::Finished; for (const auto request : base::take(_requests)) { request->abort(); request->deleteLater(); } disconnect( &_manager, &QNetworkAccessManager::finished, this, &HttpConnection::requestFinished); } void HttpConnection::connectToServer( const QString &address, int port, const bytes::vector &protocolSecret, int16 protocolDcId) { _address = address; connect( &_manager, &QNetworkAccessManager::finished, this, &HttpConnection::requestFinished); auto buffer = preparePQFake(_checkNonce); DEBUG_LOG(("HTTP Info: " "dc:%1 - Sending fake req_pq to '%2'" ).arg(protocolDcId ).arg(url().toDisplayString())); _pingTime = crl::now(); sendData(std::move(buffer)); } mtpBuffer HttpConnection::handleResponse(QNetworkReply *reply) { QByteArray response = reply->readAll(); TCP_LOG(("HTTP Info: read %1 bytes").arg(response.size())); if (response.isEmpty()) return mtpBuffer(); if (response.size() & 0x03 || response.size() < 8) { LOG(("HTTP Error: bad response size %1").arg(response.size())); return mtpBuffer(1, -500); } mtpBuffer data(response.size() >> 2); memcpy(data.data(), response.constData(), response.size()); return data; } qint32 HttpConnection::handleError(QNetworkReply *reply) { // returnes "maybe bad key" auto result = qint32(kErrorCodeOther); QVariant statusCode = reply->attribute(QNetworkRequest::HttpStatusCodeAttribute); if (statusCode.isValid()) { int status = statusCode.toInt(); result = -status; } switch (reply->error()) { case QNetworkReply::ConnectionRefusedError: LOG(("HTTP Error: connection refused - %1").arg(reply->errorString())); break; case QNetworkReply::RemoteHostClosedError: LOG(("HTTP Error: remote host closed - %1").arg(reply->errorString())); break; case QNetworkReply::HostNotFoundError: LOG(("HTTP Error: host not found - %1").arg(reply->errorString())); break; case QNetworkReply::TimeoutError: LOG(("HTTP Error: timeout - %1").arg(reply->errorString())); break; case QNetworkReply::OperationCanceledError: LOG(("HTTP Error: cancelled - %1").arg(reply->errorString())); break; case QNetworkReply::SslHandshakeFailedError: case QNetworkReply::TemporaryNetworkFailureError: case QNetworkReply::NetworkSessionFailedError: case QNetworkReply::BackgroundRequestNotAllowedError: case QNetworkReply::UnknownNetworkError: if (reply->error() == QNetworkReply::UnknownNetworkError) { DEBUG_LOG(("HTTP Error: network error %1 - %2").arg(reply->error()).arg(reply->errorString())); } else { LOG(("HTTP Error: network error %1 - %2").arg(reply->error()).arg(reply->errorString())); } break; // proxy errors (101-199): case QNetworkReply::ProxyConnectionRefusedError: case QNetworkReply::ProxyConnectionClosedError: case QNetworkReply::ProxyNotFoundError: case QNetworkReply::ProxyTimeoutError: case QNetworkReply::ProxyAuthenticationRequiredError: case QNetworkReply::UnknownProxyError: LOG(("HTTP Error: proxy error %1 - %2").arg(reply->error()).arg(reply->errorString())); break; // content errors (201-299): case QNetworkReply::ContentAccessDenied: case QNetworkReply::ContentOperationNotPermittedError: case QNetworkReply::ContentNotFoundError: case QNetworkReply::AuthenticationRequiredError: case QNetworkReply::ContentReSendError: case QNetworkReply::UnknownContentError: LOG(("HTTP Error: content error %1 - %2").arg(reply->error()).arg(reply->errorString())); break; // protocol errors case QNetworkReply::ProtocolUnknownError: case QNetworkReply::ProtocolInvalidOperationError: case QNetworkReply::ProtocolFailure: LOG(("HTTP Error: protocol error %1 - %2").arg(reply->error()).arg(reply->errorString())); break; }; TCP_LOG(("HTTP Error %1, restarting! - %2").arg(reply->error()).arg(reply->errorString())); return result; } bool HttpConnection::isConnected() const { return (_status == Status::Ready); } void HttpConnection::requestFinished(QNetworkReply *reply) { if (_status == Status::Finished) return; reply->deleteLater(); if (reply->error() == QNetworkReply::NoError) { _requests.remove(reply); mtpBuffer data = handleResponse(reply); if (data.size() == 1) { error(data[0]); } else if (!data.isEmpty()) { if (_status == Status::Ready) { _receivedQueue.push_back(data); receivedData(); } else if (const auto res_pq = readPQFakeReply(data)) { const auto &data = res_pq->c_resPQ(); if (data.vnonce() == _checkNonce) { DEBUG_LOG(("Connection Info: " "HTTP-transport to %1 connected by pq-response" ).arg(_address)); _status = Status::Ready; _pingTime = crl::now() - _pingTime; connected(); } else { DEBUG_LOG(("Connection Error: " "Wrong nonce received in HTTP fake pq-responce")); error(kErrorCodeOther); } } else { DEBUG_LOG(("Connection Error: " "Could not parse HTTP fake pq-responce")); error(kErrorCodeOther); } } } else { if (!_requests.remove(reply)) { return; } error(handleError(reply)); } } crl::time HttpConnection::pingTime() const { return isConnected() ? _pingTime : crl::time(0); } crl::time HttpConnection::fullConnectTimeout() const { return kFullConnectionTimeout; } bool HttpConnection::usingHttpWait() { return true; } bool HttpConnection::needHttpWait() { return _requests.isEmpty(); } int32 HttpConnection::debugState() const { return -1; } QString HttpConnection::transport() const { if (!isConnected()) { return QString(); } auto result = qsl("HTTP"); if (qthelp::is_ipv6(_address)) { result += qsl("/IPv6"); } return result; } QString HttpConnection::tag() const { auto result = qsl("HTTP"); if (qthelp::is_ipv6(_address)) { result += qsl("/IPv6"); } else { result += qsl("/IPv4"); } return result; } QUrl HttpConnection::url() const { const auto pattern = qthelp::is_ipv6(_address) ? qsl("http://[%1]:%2/api") : qsl("http://%1:%2/api"); // Not endpoint.port - always 80 port for http transport. return QUrl(pattern.arg(_address).arg(kForceHttpPort)); } } // namespace details } // namespace MTP