/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the tools applications of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "activesyncconnection.h" #include #include #include #include extern void debugOutput(const QString& text, int level); ActiveSyncConnection::ActiveSyncConnection() : AbstractRemoteConnection() , connected(false) { } ActiveSyncConnection::~ActiveSyncConnection() { if (isConnected()) disconnect(); } bool ActiveSyncConnection::connect(QVariantList&) { if (connected) return true; connected = false; RAPIINIT init; init.cbSize = sizeof(init); if (CeRapiInitEx(&init) != S_OK) return connected; DWORD res; res = WaitForMultipleObjects(1,&(init.heRapiInit),true, 5000); if ((res == -1) || (res == WAIT_TIMEOUT) || (init.hrRapiInit != S_OK)) return connected; connected = true; return connected; } void ActiveSyncConnection::disconnect() { connected = false; CeRapiUninit(); } bool ActiveSyncConnection::isConnected() const { return connected; } bool ActiveSyncConnection::copyFileToDevice(const QString &localSource, const QString &deviceDest, bool failIfExists) { if (failIfExists) { CE_FIND_DATA search; HANDLE searchHandle = CeFindFirstFile(deviceDest.utf16(), &search); if (searchHandle != INVALID_HANDLE_VALUE) { CeFindClose(searchHandle); return false; } } QFile file(localSource); if (!file.exists()) return false; if (!file.open(QIODevice::ReadOnly)) { debugOutput(QString::fromLatin1(" Could not open source file"),2); if (file.size() == 0) { // Create an empy file deleteFile(deviceDest); HANDLE deviceHandle = CeCreateFile(deviceDest.utf16(), GENERIC_WRITE, 0, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0); if (deviceHandle != INVALID_HANDLE_VALUE) { CeCloseHandle(deviceHandle); return true; } } else { qWarning("Could not open %s: %s", qPrintable(localSource), qPrintable(file.errorString())); } return false; } deleteFile(deviceDest); HANDLE deviceHandle = CeCreateFile(deviceDest.utf16(), GENERIC_WRITE, 0, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0); if (deviceHandle == INVALID_HANDLE_VALUE) { qWarning("Could not create %s: %s", qPrintable(deviceDest), strwinerror(CeGetLastError()).constData()); return false; } DWORD written = 0; int currentPos = 0; int size = file.size(); DWORD toWrite = 0; const int bufferSize = 65000; QByteArray data; data.reserve(bufferSize); while (currentPos < size) { data = file.read(bufferSize); if (data.size() <= 0) { wprintf( L"Error while reading file!\n"); return false; } if (size - currentPos > bufferSize ) toWrite = bufferSize; else toWrite = size - currentPos; if (toWrite == 0) break; if (!CeWriteFile(deviceHandle, data.data() , toWrite, &written, NULL)) { qWarning("Could not write to %s: %s", qPrintable(deviceDest), strwinerror(CeGetLastError()).constData()); return false; } currentPos += written; data.clear(); wprintf( L"%s -> %s (%d / %d) %d %%\r", localSource.utf16() , deviceDest.utf16(), currentPos , size, (100*currentPos)/size ); } wprintf(L"\n"); // Copy FileTime for update verification FILETIME creationTime, accessTime, writeTime; HANDLE localHandle = CreateFile(localSource.utf16(), GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, 0); if (localHandle != INVALID_HANDLE_VALUE) { if (GetFileTime(localHandle, &creationTime, &accessTime, &writeTime)) { LocalFileTimeToFileTime(&writeTime, &writeTime); if (!CeSetFileTime(deviceHandle, &writeTime, NULL, NULL)) { debugOutput(QString::fromLatin1(" Could not write time values"), 0); } } CloseHandle(localHandle); } CeCloseHandle(deviceHandle); DWORD attributes = GetFileAttributes(localSource.utf16()); if (attributes != -1 ) CeSetFileAttributes(deviceDest.utf16(), attributes); return true; } bool ActiveSyncConnection::copyDirectoryToDevice(const QString &localSource, const QString &deviceDest, bool recursive) { QDir dir(localSource); if (!dir.exists()) return false; deleteDirectory(deviceDest, recursive); CeCreateDirectory(deviceDest.utf16(), NULL); foreach(QString entry, dir.entryList(QDir::AllEntries | QDir::NoDotAndDotDot)) { QString source = localSource + "\\" + entry; QString target = deviceDest + "\\" + entry; QFileInfo info(source); if (info.isDir()) { if (recursive) { if (!copyDirectoryToDevice(source, target, recursive)) return false; } } else { if (!copyFileToDevice(source, target)) return false; } } return true; } bool ActiveSyncConnection::copyFileFromDevice(const QString &deviceSource, const QString &localDest, bool failIfExists) { QFile target(localDest); if (failIfExists && target.exists()) { debugOutput(QString::fromLatin1(" Not allowed to overwrite file"), 2); return false; } if (target.exists()) target.remove(); HANDLE deviceHandle = CeCreateFile(deviceSource.utf16(), GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, 0); if (deviceHandle == INVALID_HANDLE_VALUE) { debugOutput(QString::fromLatin1(" Could not open file on device"), 2); return false; } DWORD fileSize = CeGetFileSize( deviceHandle, NULL ); if (fileSize == -1) { debugOutput(QString::fromLatin1(" Could not stat filesize of remote file"), 2); CeCloseHandle(deviceHandle); return false; } if (!target.open(QIODevice::WriteOnly | QIODevice::Truncate)) { debugOutput(QString::fromLatin1(" Could not open local file for writing"), 2); CeCloseHandle(deviceHandle); return false; } int bufferSize = 65000; char *buffer = (char*) malloc(bufferSize); DWORD bufferRead = 0; DWORD bufferWritten = 0; bool readUntilEnd = false; while(CeReadFile(deviceHandle, buffer, bufferSize, &bufferRead, NULL)) { if (bufferRead == 0) { readUntilEnd = true; break; } target.write(buffer, bufferRead); bufferWritten += bufferRead; wprintf(L"%s -> %s (%d / %d) %d %%\r", deviceSource.utf16(), localDest.utf16(), bufferWritten, fileSize, (100*bufferWritten)/fileSize); } wprintf(L"\n"); if (!readUntilEnd) { debugOutput(QString::fromLatin1(" an error occured during copy"), 2); return false; } CeCloseHandle(deviceHandle); return true; } bool ActiveSyncConnection::copyDirectoryFromDevice(const QString &deviceSource, const QString &localDest, bool recursive) { if (!QDir(localDest).exists() && !QDir(localDest).mkpath(QDir(localDest).absolutePath())) { debugOutput(QString::fromLatin1(" Could not create local path"), 2); } QString searchArg = deviceSource + "\\*"; CE_FIND_DATA data; HANDLE searchHandle = CeFindFirstFile(searchArg.utf16(), &data); if (searchHandle == INVALID_HANDLE_VALUE) { // We return true because we might be in a recursive call // where nothing is to copy and the copy process // might still be correct return true; } do { QString srcFile = deviceSource + "\\" + QString::fromWCharArray(data.cFileName); QString destFile = localDest + "\\" + QString::fromWCharArray(data.cFileName); if ((data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { if (recursive && !copyDirectoryFromDevice(srcFile, destFile, recursive)) { wprintf(L"Copy of subdirectory(%s) failed\n", srcFile.utf16()); return false; } } else { copyFileFromDevice(srcFile, destFile, false); } } while(CeFindNextFile(searchHandle, &data)); CeFindClose(searchHandle); return true; } bool ActiveSyncConnection::copyFile(const QString &srcFile, const QString &destFile, bool failIfExists) { return CeCopyFile(QDir::toNativeSeparators(srcFile).utf16(), QDir::toNativeSeparators(destFile).utf16(), failIfExists); } bool ActiveSyncConnection::copyDirectory(const QString &srcDirectory, const QString &destDirectory, bool recursive) { CeCreateDirectory(destDirectory.utf16(), NULL); QString searchArg = srcDirectory + "\\*"; CE_FIND_DATA data; HANDLE searchHandle = CeFindFirstFile(searchArg.utf16(), &data); if (searchHandle == INVALID_HANDLE_VALUE) { // We return true because we might be in a recursive call // where nothing is to copy and the copy process // might still be correct return true; } do { QString srcFile = srcDirectory + "\\" + QString::fromWCharArray(data.cFileName); QString destFile = destDirectory + "\\" + QString::fromWCharArray(data.cFileName); if ((data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { if (recursive && !copyDirectory(srcFile, destFile, recursive)) { wprintf(L"Copy of subdirectory(%s) failed\n", srcFile.utf16()); return false; } } else { debugOutput(QString::fromLatin1("Copy %1 -> %2\n").arg(srcFile).arg(destFile), 0); CeCopyFile(srcFile.utf16(), destFile.utf16(), false); } } while(CeFindNextFile(searchHandle, &data)); CeFindClose(searchHandle); return true; } bool ActiveSyncConnection::deleteFile(const QString &fileName) { CeSetFileAttributes(fileName.utf16(), FILE_ATTRIBUTE_NORMAL); return CeDeleteFile(fileName.utf16()); } bool ActiveSyncConnection::deleteDirectory(const QString &directory, bool recursive, bool failIfContentExists) { HANDLE hFind; CE_FIND_DATA FindFileData; QString FileName = directory + "\\*"; hFind = CeFindFirstFile(FileName.utf16(), &FindFileData); if( hFind == INVALID_HANDLE_VALUE ) return CeRemoveDirectory(directory.utf16()); if (failIfContentExists) return false; do { QString FileName = directory + "\\" + QString::fromWCharArray(FindFileData.cFileName); if((FindFileData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { if (recursive) if (!deleteDirectory(FileName, recursive, failIfContentExists)) return false; } else { if(FindFileData.dwFileAttributes & FILE_ATTRIBUTE_READONLY) CeSetFileAttributes(FileName.utf16(), FILE_ATTRIBUTE_NORMAL); if( !CeDeleteFile(FileName.utf16()) ) break; } } while(CeFindNextFile(hFind,&FindFileData)); CeFindClose(hFind); return CeRemoveDirectory(directory.utf16()); } bool ActiveSyncConnection::execute(QString program, QString arguments, int timeout, int *returnValue) { if (!isConnected()) { qWarning("Cannot execute, connect to device first!"); return false; } PROCESS_INFORMATION* pid = new PROCESS_INFORMATION; bool result = false; if (timeout != 0) { // If we want to wait, we have to use CeRapiInvoke, as CeCreateProcess has no way to wait // until the process ends. The lib must have been build and also deployed already. if (!isConnected() && !connect()) return false; QString dllLocation = "\\Windows\\QtRemote.dll"; QString functionName = "qRemoteLaunch"; DWORD outputSize; BYTE* output; IRAPIStream *stream; int returned = 0; DWORD error = 0; HRESULT res = CeRapiInvoke(dllLocation.utf16(), functionName.utf16(), 0, 0, &outputSize, &output, &stream, 0); if (S_OK != res) { DWORD ce_error = CeGetLastError(); if (S_OK != ce_error) { qWarning("Error invoking %s on %s: %s", qPrintable(functionName), qPrintable(dllLocation), strwinerror(ce_error).constData()); } else { qWarning("Error: %s on %s unexpectedly returned %d", qPrintable(functionName), qPrintable(dllLocation), res); } } else { DWORD written; int strSize = program.length(); if (S_OK != stream->Write(&strSize, sizeof(strSize), &written)) { qWarning(" Could not write appSize to process"); return false; } if (S_OK != stream->Write(program.utf16(), program.length()*sizeof(wchar_t), &written)) { qWarning(" Could not write appName to process"); return false; } strSize = arguments.length(); if (S_OK != stream->Write(&strSize, sizeof(strSize), &written)) { qWarning(" Could not write argumentSize to process"); return false; } if (S_OK != stream->Write(arguments.utf16(), arguments.length()*sizeof(wchar_t), &written)) { qWarning(" Could not write arguments to process"); return false; } if (S_OK != stream->Write(&timeout, sizeof(timeout), &written)) { qWarning(" Could not write waiting option to process"); return false; } if (S_OK != stream->Read(&returned, sizeof(returned), &written)) { qWarning(" Could not access return value of process"); } if (S_OK != stream->Read(&error, sizeof(error), &written)) { qWarning(" Could not access error code"); } if (error) { qWarning("Error on target: %s", strwinerror(error).constData()); result = false; } else { result = true; } } if (returnValue) *returnValue = returned; } else { // We do not need to invoke another lib etc, if we are not interested in results anyway... result = CeCreateProcess(program.utf16(), arguments.utf16(), 0, 0, false, 0, 0, 0, 0, pid); } return result; } bool ActiveSyncConnection::setDeviceAwake(bool activate, int *returnValue) { if (!isConnected()) { qWarning("Cannot execute, connect to device first!"); return false; } bool result = false; // If we want to wait, we have to use CeRapiInvoke, as CeCreateProcess has no way to wait // until the process ends. The lib must have been build and also deployed already. if (!isConnected() && !connect()) return false; HRESULT res = S_OK; //SYSTEM_POWER_STATUS_EX systemPowerState; //res = CeGetSystemPowerStatusEx(&systemPowerState, true); QString dllLocation = "\\Windows\\QtRemote.dll"; QString functionName = "qRemoteToggleUnattendedPowerMode"; DWORD outputSize; BYTE* output; IRAPIStream *stream; int returned = 0; int toggle = int(activate); res = CeRapiInvoke(dllLocation.utf16(), functionName.utf16(), 0, 0, &outputSize, &output, &stream, 0); if (S_OK != res) { DWORD ce_error = CeGetLastError(); if (S_OK != ce_error) { qWarning("Error invoking %s on %s: %s", qPrintable(functionName), qPrintable(dllLocation), strwinerror(ce_error).constData()); } else { qWarning("Error: %s on %s unexpectedly returned %d", qPrintable(functionName), qPrintable(dllLocation), res); } } else { DWORD written; if (S_OK != stream->Write(&toggle, sizeof(toggle), &written)) { qWarning(" Could not write toggle option to process"); return false; } if (S_OK != stream->Read(&returned, sizeof(returned), &written)) { qWarning(" Could not access return value of process"); } else result = true; } if (returnValue) *returnValue = returned; return result; } bool ActiveSyncConnection::resetDevice() { if (!isConnected()) { qWarning("Cannot execute, connect to device first!"); return false; } bool result = false; if (!isConnected() && !connect()) return false; QString dllLocation = "\\Windows\\QtRemote.dll"; QString functionName = "qRemoteSoftReset"; DWORD outputSize; BYTE* output; IRAPIStream *stream; int returned = 0; HRESULT res = CeRapiInvoke(dllLocation.utf16(), functionName.utf16(), 0, 0, &outputSize, &output, &stream, 0); if (S_OK != res) { DWORD ce_error = CeGetLastError(); if (S_OK != ce_error) { qWarning("Error invoking %s on %s: %s", qPrintable(functionName), qPrintable(dllLocation), strwinerror(ce_error).constData()); } else { qWarning("Error: %s on %s unexpectedly returned %d", qPrintable(functionName), qPrintable(dllLocation), res); } } else { result = true; } return result; } bool ActiveSyncConnection::toggleDevicePower(int *returnValue) { if (!isConnected()) { qWarning("Cannot execute, connect to device first!"); return false; } bool result = false; if (!isConnected() && !connect()) return false; QString dllLocation = "\\Windows\\QtRemote.dll"; QString functionName = "qRemotePowerButton"; DWORD outputSize; BYTE* output; IRAPIStream *stream; int returned = 0; HRESULT res = CeRapiInvoke(dllLocation.utf16(), functionName.utf16(), 0, 0, &outputSize, &output, &stream, 0); if (S_OK != res) { DWORD ce_error = CeGetLastError(); if (S_OK != ce_error) { qWarning("Error invoking %s on %s: %s", qPrintable(functionName), qPrintable(dllLocation), strwinerror(ce_error).constData()); } else { qWarning("Error: %s on %s unexpectedly returned %d", qPrintable(functionName), qPrintable(dllLocation), res); } } else { DWORD written; if (S_OK != stream->Read(&returned, sizeof(returned), &written)) { qWarning(" Could not access return value of process"); } else { result = true; } } if (returnValue) *returnValue = returned; return result; } bool ActiveSyncConnection::createDirectory(const QString &path, bool deleteBefore) { if (deleteBefore) deleteDirectory(path); QStringList separated = path.split(QLatin1Char('\\')); QString current = QLatin1String("\\"); bool result; for (int i=1; i < separated.size(); ++i) { current += separated.at(i); result = CeCreateDirectory(current.utf16(), NULL); current += QLatin1String("\\"); } return result; } bool ActiveSyncConnection::timeStampForLocalFileTime(FILETIME* fTime) const { QString tmpFile = QString::fromLatin1("\\qt_tmp_ftime_convert"); HANDLE remoteHandle = CeCreateFile(tmpFile.utf16(), GENERIC_WRITE, 0, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0); if (remoteHandle == INVALID_HANDLE_VALUE) return false; LocalFileTimeToFileTime(fTime, fTime); if (!CeSetFileTime(remoteHandle, fTime, NULL, NULL)) { CeCloseHandle(remoteHandle); return false; } CeCloseHandle(remoteHandle); remoteHandle = CeCreateFile(tmpFile.utf16(), GENERIC_READ, FILE_SHARE_READ, 0, OPEN_EXISTING, 0, 0); if (remoteHandle == INVALID_HANDLE_VALUE) return false; if (!CeGetFileTime(remoteHandle, fTime, NULL, NULL)) { CeCloseHandle(remoteHandle); return false; } CeCloseHandle(remoteHandle); CeDeleteFile(tmpFile.utf16()); return true; } bool ActiveSyncConnection::fileCreationTime(const QString &fileName, FILETIME* deviceCreationTime) const { HANDLE deviceHandle = CeCreateFile(fileName.utf16(), GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, 0); if (deviceHandle == INVALID_HANDLE_VALUE) return false; bool result = true; if (!CeGetFileTime(deviceHandle, deviceCreationTime, NULL, NULL)) result = false; CeCloseHandle(deviceHandle); return result; }