// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR BSD-3-Clause #include "peerwireclient.h" #include "ratecontroller.h" #include Q_GLOBAL_STATIC(RateController, rateController) RateController *RateController::instance() { return rateController(); } void RateController::addSocket(PeerWireClient *socket) { connect(socket, &PeerWireClient::readyToTransfer, this, &RateController::scheduleTransfer); socket->setReadBufferSize(downLimit * 4); sockets << socket; scheduleTransfer(); } void RateController::removeSocket(PeerWireClient *socket) { disconnect(socket, &PeerWireClient::readyToTransfer, this, &RateController::scheduleTransfer); socket->setReadBufferSize(0); sockets.remove(socket); } void RateController::setDownloadLimit(int bytesPerSecond) { downLimit = bytesPerSecond; for (PeerWireClient *socket : std::as_const(sockets)) socket->setReadBufferSize(downLimit * 4); } void RateController::scheduleTransfer() { if (transferScheduled) return; transferScheduled = true; QTimer::singleShot(50, this, SLOT(transfer())); } void RateController::transfer() { transferScheduled = false; if (sockets.isEmpty()) return; qint64 msecs = 1000; if (stopWatch.isValid()) msecs = qMin(msecs, stopWatch.elapsed()); qint64 bytesToWrite = (upLimit * msecs) / 1000; qint64 bytesToRead = (downLimit * msecs) / 1000; if (bytesToWrite == 0 && bytesToRead == 0) { scheduleTransfer(); return; } QSet pendingSockets; for (PeerWireClient *client : std::as_const(sockets)) { if (client->canTransferMore()) pendingSockets << client; } if (pendingSockets.isEmpty()) return; stopWatch.start(); bool canTransferMore; do { canTransferMore = false; qint64 writeChunk = qMax(1, bytesToWrite / pendingSockets.size()); qint64 readChunk = qMax(1, bytesToRead / pendingSockets.size()); for (auto it = pendingSockets.begin(), end = pendingSockets.end(); it != end && (bytesToWrite > 0 || bytesToRead > 0); /*erasing*/) { auto current = it++; PeerWireClient *socket = *current; if (socket->state() != QAbstractSocket::ConnectedState) { it = pendingSockets.erase(current); continue; } bool dataTransferred = false; qint64 available = qMin(socket->socketBytesAvailable(), readChunk); if (available > 0) { qint64 readBytes = socket->readFromSocket(qMin(available, bytesToRead)); if (readBytes > 0) { bytesToRead -= readBytes; dataTransferred = true; } } if (upLimit * 2 > socket->bytesToWrite()) { qint64 chunkSize = qMin(writeChunk, bytesToWrite); qint64 toWrite = qMin(upLimit * 2 - socket->bytesToWrite(), chunkSize); if (toWrite > 0) { qint64 writtenBytes = socket->writeToSocket(toWrite); if (writtenBytes > 0) { bytesToWrite -= writtenBytes; dataTransferred = true; } } } if (dataTransferred && socket->canTransferMore()) canTransferMore = true; else it = pendingSockets.erase(current); } } while (canTransferMore && (bytesToWrite > 0 || bytesToRead > 0) && !pendingSockets.isEmpty()); if (canTransferMore || bytesToWrite == 0 || bytesToRead == 0) scheduleTransfer(); }