// The MIT License (MIT) // // Copyright (c) Itay Grudev 2015 - 2020 // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // // W A R N I N G !!! // ----------------- // // This file is not part of the SingleApplication API. It is used purely as an // implementation detail. This header file may change from version to // version without notice, or may even be removed. // #include #include #include #include #include #include #include #include #include #include #if QT_VERSION >= QT_VERSION_CHECK(5, 10, 0) #include #else #include #endif #include "singleapplication.h" #include "singleapplication_p.h" #ifdef Q_OS_UNIX #include #include #include #endif #ifdef Q_OS_WIN #ifndef NOMINMAX #define NOMINMAX 1 #endif #include #include #endif SingleApplicationPrivate::SingleApplicationPrivate( SingleApplication *q_ptr ) : q_ptr( q_ptr ) { server = nullptr; socket = nullptr; memory = nullptr; instanceNumber = 0; } SingleApplicationPrivate::~SingleApplicationPrivate() { if( socket != nullptr ){ socket->close(); delete socket; } if( memory != nullptr ){ memory->lock(); auto *inst = static_cast(memory->data()); if( server != nullptr ){ server->close(); delete server; inst->primary = false; inst->primaryPid = -1; inst->primaryUser[0] = '\0'; inst->checksum = blockChecksum(); } memory->unlock(); delete memory; } } QString SingleApplicationPrivate::getUsername() { #ifdef Q_OS_WIN wchar_t username[UNLEN + 1]; // Specifies size of the buffer on input DWORD usernameLength = UNLEN + 1; if( GetUserNameW( username, &usernameLength ) ) return QString::fromWCharArray( username ); #if QT_VERSION < QT_VERSION_CHECK(5, 10, 0) return QString::fromLocal8Bit( qgetenv( "USERNAME" ) ); #else return qEnvironmentVariable( "USERNAME" ); #endif #endif #ifdef Q_OS_UNIX QString username; uid_t uid = geteuid(); struct passwd *pw = getpwuid( uid ); if( pw ) username = QString::fromLocal8Bit( pw->pw_name ); if ( username.isEmpty() ){ #if QT_VERSION < QT_VERSION_CHECK(5, 10, 0) username = QString::fromLocal8Bit( qgetenv( "USER" ) ); #else username = qEnvironmentVariable( "USER" ); #endif } return username; #endif } void SingleApplicationPrivate::genBlockServerName() { QCryptographicHash appData( QCryptographicHash::Sha256 ); appData.addData( "SingleApplication", 17 ); appData.addData( SingleApplication::app_t::applicationName().toUtf8() ); appData.addData( SingleApplication::app_t::organizationName().toUtf8() ); appData.addData( SingleApplication::app_t::organizationDomain().toUtf8() ); if( ! (options & SingleApplication::Mode::ExcludeAppVersion) ){ appData.addData( SingleApplication::app_t::applicationVersion().toUtf8() ); } if( ! (options & SingleApplication::Mode::ExcludeAppPath) ){ #ifdef Q_OS_WIN appData.addData( SingleApplication::app_t::applicationFilePath().toLower().toUtf8() ); #else appData.addData( SingleApplication::app_t::applicationFilePath().toUtf8() ); #endif } // User level block requires a user specific data in the hash if( options & SingleApplication::Mode::User ){ appData.addData( getUsername().toUtf8() ); } // Replace the backslash in RFC 2045 Base64 [a-zA-Z0-9+/=] to comply with // server naming requirements. blockServerName = appData.result().toBase64().replace("/", "_"); } void SingleApplicationPrivate::initializeMemoryBlock() { auto *inst = static_cast( memory->data() ); inst->primary = false; inst->secondary = 0; inst->primaryPid = -1; inst->primaryUser[0] = '\0'; inst->checksum = blockChecksum(); } void SingleApplicationPrivate::startPrimary() { Q_Q(SingleApplication); // Reset the number of connections auto *inst = static_cast ( memory->data() ); inst->primary = true; inst->primaryPid = q->applicationPid(); qstrncpy( inst->primaryUser, getUsername().toUtf8().data(), sizeof(inst->primaryUser) ); inst->checksum = blockChecksum(); instanceNumber = 0; // Successful creation means that no main process exists // So we start a QLocalServer to listen for connections QLocalServer::removeServer( blockServerName ); server = new QLocalServer(); // Restrict access to the socket according to the // SingleApplication::Mode::User flag on User level or no restrictions if( options & SingleApplication::Mode::User ){ server->setSocketOptions( QLocalServer::UserAccessOption ); } else { server->setSocketOptions( QLocalServer::WorldAccessOption ); } server->listen( blockServerName ); QObject::connect( server, &QLocalServer::newConnection, this, &SingleApplicationPrivate::slotConnectionEstablished ); } void SingleApplicationPrivate::startSecondary() { auto *inst = static_cast ( memory->data() ); inst->secondary += 1; inst->checksum = blockChecksum(); instanceNumber = inst->secondary; } bool SingleApplicationPrivate::connectToPrimary( int timeout, ConnectionType connectionType ) { QElapsedTimer time; time.start(); // Connect to the Local Server of the Primary Instance if not already // connected. if( socket == nullptr ){ socket = new QLocalSocket(); } if( socket->state() == QLocalSocket::ConnectedState ) return true; if( socket->state() != QLocalSocket::ConnectedState ){ while( true ){ randomSleep(); if( socket->state() != QLocalSocket::ConnectingState ) socket->connectToServer( blockServerName ); if( socket->state() == QLocalSocket::ConnectingState ){ socket->waitForConnected( static_cast(timeout - time.elapsed()) ); } // If connected break out of the loop if( socket->state() == QLocalSocket::ConnectedState ) break; // If elapsed time since start is longer than the method timeout return if( time.elapsed() >= timeout ) return false; } } // Initialisation message according to the SingleApplication protocol QByteArray initMsg; QDataStream writeStream(&initMsg, QIODevice::WriteOnly); #if (QT_VERSION >= QT_VERSION_CHECK(5, 6, 0)) writeStream.setVersion(QDataStream::Qt_5_6); #endif writeStream << blockServerName.toLatin1(); writeStream << static_cast(connectionType); writeStream << instanceNumber; quint16 checksum = qChecksum(initMsg.constData(), static_cast(initMsg.length())); writeStream << checksum; // The header indicates the message length that follows QByteArray header; QDataStream headerStream(&header, QIODevice::WriteOnly); #if (QT_VERSION >= QT_VERSION_CHECK(5, 6, 0)) headerStream.setVersion(QDataStream::Qt_5_6); #endif headerStream << static_cast ( initMsg.length() ); socket->write( header ); socket->write( initMsg ); bool result = socket->waitForBytesWritten( static_cast(timeout - time.elapsed()) ); socket->flush(); return result; } quint16 SingleApplicationPrivate::blockChecksum() { return qChecksum( static_cast ( memory->data() ), offsetof( InstancesInfo, checksum ) ); } qint64 SingleApplicationPrivate::primaryPid() { qint64 pid; memory->lock(); auto *inst = static_cast( memory->data() ); pid = inst->primaryPid; memory->unlock(); return pid; } QString SingleApplicationPrivate::primaryUser() { QByteArray username; memory->lock(); auto *inst = static_cast( memory->data() ); username = inst->primaryUser; memory->unlock(); return QString::fromUtf8( username ); } /** * @brief Executed when a connection has been made to the LocalServer */ void SingleApplicationPrivate::slotConnectionEstablished() { QLocalSocket *nextConnSocket = server->nextPendingConnection(); connectionMap.insert(nextConnSocket, ConnectionInfo()); QObject::connect(nextConnSocket, &QLocalSocket::aboutToClose, [nextConnSocket, this](){ auto &info = connectionMap[nextConnSocket]; Q_EMIT this->slotClientConnectionClosed( nextConnSocket, info.instanceId ); } ); QObject::connect(nextConnSocket, &QLocalSocket::disconnected, [nextConnSocket, this](){ connectionMap.remove(nextConnSocket); nextConnSocket->deleteLater(); } ); QObject::connect(nextConnSocket, &QLocalSocket::readyRead, [nextConnSocket, this](){ auto &info = connectionMap[nextConnSocket]; switch(info.stage){ case StageHeader: readInitMessageHeader(nextConnSocket); break; case StageBody: readInitMessageBody(nextConnSocket); break; case StageConnected: Q_EMIT this->slotDataAvailable( nextConnSocket, info.instanceId ); break; default: break; }; } ); } void SingleApplicationPrivate::readInitMessageHeader( QLocalSocket *sock ) { if (!connectionMap.contains( sock )){ return; } if( sock->bytesAvailable() < ( qint64 )sizeof( quint64 ) ){ return; } QDataStream headerStream( sock ); #if (QT_VERSION >= QT_VERSION_CHECK(5, 6, 0)) headerStream.setVersion( QDataStream::Qt_5_6 ); #endif // Read the header to know the message length quint64 msgLen = 0; headerStream >> msgLen; ConnectionInfo &info = connectionMap[sock]; info.stage = StageBody; info.msgLen = msgLen; if ( sock->bytesAvailable() >= (qint64) msgLen ){ readInitMessageBody( sock ); } } void SingleApplicationPrivate::readInitMessageBody( QLocalSocket *sock ) { Q_Q(SingleApplication); if (!connectionMap.contains( sock )){ return; } ConnectionInfo &info = connectionMap[sock]; if( sock->bytesAvailable() < ( qint64 )info.msgLen ){ return; } // Read the message body QByteArray msgBytes = sock->read(info.msgLen); QDataStream readStream(msgBytes); #if (QT_VERSION >= QT_VERSION_CHECK(5, 6, 0)) readStream.setVersion( QDataStream::Qt_5_6 ); #endif // server name QByteArray latin1Name; readStream >> latin1Name; // connection type ConnectionType connectionType = InvalidConnection; quint8 connTypeVal = InvalidConnection; readStream >> connTypeVal; connectionType = static_cast ( connTypeVal ); // instance id quint32 instanceId = 0; readStream >> instanceId; // checksum quint16 msgChecksum = 0; readStream >> msgChecksum; const quint16 actualChecksum = qChecksum( msgBytes.constData(), static_cast( msgBytes.length() - sizeof( quint16 ) ) ); bool isValid = readStream.status() == QDataStream::Ok && QLatin1String(latin1Name) == blockServerName && msgChecksum == actualChecksum; if( !isValid ){ sock->close(); return; } info.instanceId = instanceId; info.stage = StageConnected; if( connectionType == NewInstance || ( connectionType == SecondaryInstance && options & SingleApplication::Mode::SecondaryNotification ) ) { Q_EMIT q->instanceStarted(); } if (sock->bytesAvailable() > 0){ Q_EMIT this->slotDataAvailable( sock, instanceId ); } } void SingleApplicationPrivate::slotDataAvailable( QLocalSocket *dataSocket, quint32 instanceId ) { Q_Q(SingleApplication); Q_EMIT q->receivedMessage( instanceId, dataSocket->readAll() ); } void SingleApplicationPrivate::slotClientConnectionClosed( QLocalSocket *closedSocket, quint32 instanceId ) { if( closedSocket->bytesAvailable() > 0 ) Q_EMIT slotDataAvailable( closedSocket, instanceId ); } void SingleApplicationPrivate::randomSleep() { #if QT_VERSION >= QT_VERSION_CHECK( 5, 10, 0 ) QThread::msleep( QRandomGenerator::global()->bounded( 8u, 18u )); #else qsrand( QDateTime::currentMSecsSinceEpoch() % std::numeric_limits::max() ); QThread::msleep( 8 + static_cast ( static_cast ( qrand() ) / RAND_MAX * 10 )); #endif }