/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Copyright (C) 2017 Intel Corporation. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ //#define QPROCESS_DEBUG #include "qprocess.h" #include "qprocess_p.h" #include "qwindowspipereader_p.h" #include "qwindowspipewriter_p.h" #include #include #include #include #include #include #include #include #include #include #include "private/qfsfileengine_p.h" // for longFileName #ifndef PIPE_REJECT_REMOTE_CLIENTS #define PIPE_REJECT_REMOTE_CLIENTS 0x08 #endif QT_BEGIN_NAMESPACE QProcessEnvironment QProcessEnvironment::systemEnvironment() { QProcessEnvironment env; // Calls to setenv() affect the low-level environment as well. // This is not the case the other way round. if (wchar_t *envStrings = GetEnvironmentStringsW()) { for (const wchar_t *entry = envStrings; *entry; ) { const int entryLen = int(wcslen(entry)); // + 1 to permit magic cmd variable names starting with = if (const wchar_t *equal = wcschr(entry + 1, L'=')) { int nameLen = equal - entry; QString name = QString::fromWCharArray(entry, nameLen); QString value = QString::fromWCharArray(equal + 1, entryLen - nameLen - 1); env.d->vars.insert(QProcessEnvironmentPrivate::Key(name), value); } entry += entryLen + 1; } FreeEnvironmentStringsW(envStrings); } return env; } #if QT_CONFIG(process) static void qt_create_pipe(Q_PIPE *pipe, bool isInputPipe) { // Anomymous pipes do not support asynchronous I/O. Thus we // create named pipes for redirecting stdout, stderr and stdin. // The write handle must be non-inheritable for input pipes. // The read handle must be non-inheritable for output pipes. SECURITY_ATTRIBUTES secAtt = { sizeof(SECURITY_ATTRIBUTES), 0, false }; HANDLE hServer; wchar_t pipeName[256]; unsigned int attempts = 1000; forever { _snwprintf(pipeName, sizeof(pipeName) / sizeof(pipeName[0]), L"\\\\.\\pipe\\qt-%lX-%X", long(QCoreApplication::applicationPid()), QRandomGenerator::global()->generate()); DWORD dwOpenMode = FILE_FLAG_OVERLAPPED; DWORD dwOutputBufferSize = 0; DWORD dwInputBufferSize = 0; const DWORD dwPipeBufferSize = 1024 * 1024; if (isInputPipe) { dwOpenMode |= PIPE_ACCESS_OUTBOUND; dwOutputBufferSize = dwPipeBufferSize; } else { dwOpenMode |= PIPE_ACCESS_INBOUND; dwInputBufferSize = dwPipeBufferSize; } DWORD dwPipeFlags = PIPE_TYPE_BYTE | PIPE_WAIT | PIPE_REJECT_REMOTE_CLIENTS; hServer = CreateNamedPipe(pipeName, dwOpenMode, dwPipeFlags, 1, // only one pipe instance dwOutputBufferSize, dwInputBufferSize, 0, &secAtt); if (hServer != INVALID_HANDLE_VALUE) break; DWORD dwError = GetLastError(); if (dwError != ERROR_PIPE_BUSY || !--attempts) { qErrnoWarning(dwError, "QProcess: CreateNamedPipe failed."); return; } } secAtt.bInheritHandle = TRUE; const HANDLE hClient = CreateFile(pipeName, (isInputPipe ? (GENERIC_READ | FILE_WRITE_ATTRIBUTES) : GENERIC_WRITE), 0, &secAtt, OPEN_EXISTING, FILE_FLAG_OVERLAPPED, NULL); if (hClient == INVALID_HANDLE_VALUE) { qErrnoWarning("QProcess: CreateFile failed."); CloseHandle(hServer); return; } // Wait until connection is in place. OVERLAPPED overlapped; ZeroMemory(&overlapped, sizeof(overlapped)); overlapped.hEvent = CreateEvent(NULL, TRUE, FALSE, NULL); if (ConnectNamedPipe(hServer, &overlapped) == 0) { DWORD dwError = GetLastError(); switch (dwError) { case ERROR_PIPE_CONNECTED: break; case ERROR_IO_PENDING: WaitForSingleObject(overlapped.hEvent, INFINITE); break; default: qErrnoWarning(dwError, "QProcess: ConnectNamedPipe failed."); CloseHandle(overlapped.hEvent); CloseHandle(hClient); CloseHandle(hServer); return; } } CloseHandle(overlapped.hEvent); if (isInputPipe) { pipe[0] = hClient; pipe[1] = hServer; } else { pipe[0] = hServer; pipe[1] = hClient; } } static void duplicateStdWriteChannel(Q_PIPE *pipe, DWORD nStdHandle) { pipe[0] = INVALID_Q_PIPE; HANDLE hStdWriteChannel = GetStdHandle(nStdHandle); HANDLE hCurrentProcess = GetCurrentProcess(); DuplicateHandle(hCurrentProcess, hStdWriteChannel, hCurrentProcess, &pipe[1], 0, TRUE, DUPLICATE_SAME_ACCESS); } /* Create the pipes to a QProcessPrivate::Channel. This function must be called in order: stdin, stdout, stderr */ bool QProcessPrivate::openChannel(Channel &channel) { Q_Q(QProcess); if (&channel == &stderrChannel && processChannelMode == QProcess::MergedChannels) { return DuplicateHandle(GetCurrentProcess(), stdoutChannel.pipe[1], GetCurrentProcess(), &stderrChannel.pipe[1], 0, TRUE, DUPLICATE_SAME_ACCESS); } switch (channel.type) { case Channel::Normal: // we're piping this channel to our own process if (&channel == &stdinChannel) { if (inputChannelMode != QProcess::ForwardedInputChannel) { qt_create_pipe(channel.pipe, true); } else { channel.pipe[1] = INVALID_Q_PIPE; HANDLE hStdReadChannel = GetStdHandle(STD_INPUT_HANDLE); HANDLE hCurrentProcess = GetCurrentProcess(); DuplicateHandle(hCurrentProcess, hStdReadChannel, hCurrentProcess, &channel.pipe[0], 0, TRUE, DUPLICATE_SAME_ACCESS); } } else { if (&channel == &stdoutChannel) { if (processChannelMode != QProcess::ForwardedChannels && processChannelMode != QProcess::ForwardedOutputChannel) { if (!stdoutChannel.reader) { stdoutChannel.reader = new QWindowsPipeReader(q); q->connect(stdoutChannel.reader, SIGNAL(readyRead()), SLOT(_q_canReadStandardOutput())); } } else { duplicateStdWriteChannel(channel.pipe, STD_OUTPUT_HANDLE); } } else /* if (&channel == &stderrChannel) */ { if (processChannelMode != QProcess::ForwardedChannels && processChannelMode != QProcess::ForwardedErrorChannel) { if (!stderrChannel.reader) { stderrChannel.reader = new QWindowsPipeReader(q); q->connect(stderrChannel.reader, SIGNAL(readyRead()), SLOT(_q_canReadStandardError())); } } else { duplicateStdWriteChannel(channel.pipe, STD_ERROR_HANDLE); } } if (channel.reader) { qt_create_pipe(channel.pipe, false); channel.reader->setHandle(channel.pipe[0]); channel.reader->startAsyncRead(); } } return true; case Channel::Redirect: { // we're redirecting the channel to/from a file SECURITY_ATTRIBUTES secAtt = { sizeof(SECURITY_ATTRIBUTES), NULL, TRUE }; if (&channel == &stdinChannel) { // try to open in read-only mode channel.pipe[1] = INVALID_Q_PIPE; channel.pipe[0] = CreateFile((const wchar_t*)QFSFileEnginePrivate::longFileName(channel.file).utf16(), GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE, &secAtt, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if (channel.pipe[0] != INVALID_Q_PIPE) return true; setErrorAndEmit(QProcess::FailedToStart, QProcess::tr("Could not open input redirection for reading")); } else { // open in write mode channel.pipe[0] = INVALID_Q_PIPE; channel.pipe[1] = CreateFile((const wchar_t *)QFSFileEnginePrivate::longFileName(channel.file).utf16(), GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, &secAtt, channel.append ? OPEN_ALWAYS : CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL); if (channel.pipe[1] != INVALID_Q_PIPE) { if (channel.append) { SetFilePointer(channel.pipe[1], 0, NULL, FILE_END); } return true; } setErrorAndEmit(QProcess::FailedToStart, QProcess::tr("Could not open output redirection for writing")); } cleanup(); return false; } case Channel::PipeSource: { Q_ASSERT_X(channel.process, "QProcess::start", "Internal error"); // we are the source Channel *source = &channel; Channel *sink = &channel.process->stdinChannel; if (source->pipe[1] != INVALID_Q_PIPE) { // already constructed by the sink // make it inheritable HANDLE tmpHandle = source->pipe[1]; if (!DuplicateHandle(GetCurrentProcess(), tmpHandle, GetCurrentProcess(), &source->pipe[1], 0, TRUE, DUPLICATE_SAME_ACCESS)) { return false; } CloseHandle(tmpHandle); return true; } Q_ASSERT(source == &stdoutChannel); Q_ASSERT(sink->process == this && sink->type == Channel::PipeSink); qt_create_pipe(source->pipe, /* in = */ false); // source is stdout sink->pipe[0] = source->pipe[0]; source->pipe[0] = INVALID_Q_PIPE; return true; } case Channel::PipeSink: { // we are the sink; Q_ASSERT_X(channel.process, "QProcess::start", "Internal error"); Channel *source = &channel.process->stdoutChannel; Channel *sink = &channel; if (sink->pipe[0] != INVALID_Q_PIPE) { // already constructed by the source // make it inheritable HANDLE tmpHandle = sink->pipe[0]; if (!DuplicateHandle(GetCurrentProcess(), tmpHandle, GetCurrentProcess(), &sink->pipe[0], 0, TRUE, DUPLICATE_SAME_ACCESS)) { return false; } CloseHandle(tmpHandle); return true; } Q_ASSERT(sink == &stdinChannel); Q_ASSERT(source->process == this && source->type == Channel::PipeSource); qt_create_pipe(sink->pipe, /* in = */ true); // sink is stdin source->pipe[1] = sink->pipe[1]; sink->pipe[1] = INVALID_Q_PIPE; return true; } } // switch (channel.type) return false; } void QProcessPrivate::destroyPipe(Q_PIPE pipe[2]) { if (pipe[0] != INVALID_Q_PIPE) { CloseHandle(pipe[0]); pipe[0] = INVALID_Q_PIPE; } if (pipe[1] != INVALID_Q_PIPE) { CloseHandle(pipe[1]); pipe[1] = INVALID_Q_PIPE; } } template void deleteWorker(T *&worker) { if (!worker) return; worker->stop(); worker->deleteLater(); worker = nullptr; } void QProcessPrivate::closeChannel(Channel *channel) { if (channel == &stdinChannel) deleteWorker(channel->writer); else deleteWorker(channel->reader); destroyPipe(channel->pipe); } static QString qt_create_commandline(const QString &program, const QStringList &arguments, const QString &nativeArguments) { QString args; if (!program.isEmpty()) { QString programName = program; if (!programName.startsWith(QLatin1Char('\"')) && !programName.endsWith(QLatin1Char('\"')) && programName.contains(QLatin1Char(' '))) programName = QLatin1Char('\"') + programName + QLatin1Char('\"'); programName.replace(QLatin1Char('/'), QLatin1Char('\\')); // add the prgram as the first arg ... it works better args = programName + QLatin1Char(' '); } for (int i=0; i 0 && tmp.at(i - 1) == QLatin1Char('\\')) --i; tmp.insert(i, QLatin1Char('"')); tmp.prepend(QLatin1Char('"')); } args += QLatin1Char(' ') + tmp; } if (!nativeArguments.isEmpty()) { if (!args.isEmpty()) args += QLatin1Char(' '); args += nativeArguments; } return args; } static QByteArray qt_create_environment(const QProcessEnvironmentPrivate::Map &environment) { QByteArray envlist; if (!environment.isEmpty()) { QProcessEnvironmentPrivate::Map copy = environment; // add PATH if necessary (for DLL loading) QProcessEnvironmentPrivate::Key pathKey(QLatin1String("PATH")); if (!copy.contains(pathKey)) { QByteArray path = qgetenv("PATH"); if (!path.isEmpty()) copy.insert(pathKey, QString::fromLocal8Bit(path)); } // add systemroot if needed QProcessEnvironmentPrivate::Key rootKey(QLatin1String("SystemRoot")); if (!copy.contains(rootKey)) { QByteArray systemRoot = qgetenv("SystemRoot"); if (!systemRoot.isEmpty()) copy.insert(rootKey, QString::fromLocal8Bit(systemRoot)); } int pos = 0; auto it = copy.constBegin(); const auto end = copy.constEnd(); static const wchar_t equal = L'='; static const wchar_t nul = L'\0'; for ( ; it != end; ++it) { uint tmpSize = sizeof(wchar_t) * (it.key().length() + it.value().length() + 2); // ignore empty strings if (tmpSize == sizeof(wchar_t) * 2) continue; envlist.resize(envlist.size() + tmpSize); tmpSize = it.key().length() * sizeof(wchar_t); memcpy(envlist.data()+pos, it.key().utf16(), tmpSize); pos += tmpSize; memcpy(envlist.data()+pos, &equal, sizeof(wchar_t)); pos += sizeof(wchar_t); tmpSize = it.value().length() * sizeof(wchar_t); memcpy(envlist.data()+pos, it.value().utf16(), tmpSize); pos += tmpSize; memcpy(envlist.data()+pos, &nul, sizeof(wchar_t)); pos += sizeof(wchar_t); } // add the 2 terminating 0 (actually 4, just to be on the safe side) envlist.resize( envlist.size()+4 ); envlist[pos++] = 0; envlist[pos++] = 0; envlist[pos++] = 0; envlist[pos++] = 0; } return envlist; } bool QProcessPrivate::callCreateProcess(QProcess::CreateProcessArguments *cpargs) { if (modifyCreateProcessArgs) modifyCreateProcessArgs(cpargs); bool success = CreateProcess(cpargs->applicationName, cpargs->arguments, cpargs->processAttributes, cpargs->threadAttributes, cpargs->inheritHandles, cpargs->flags, cpargs->environment, cpargs->currentDirectory, cpargs->startupInfo, cpargs->processInformation); if (stdinChannel.pipe[0] != INVALID_Q_PIPE) { CloseHandle(stdinChannel.pipe[0]); stdinChannel.pipe[0] = INVALID_Q_PIPE; } if (stdoutChannel.pipe[1] != INVALID_Q_PIPE) { CloseHandle(stdoutChannel.pipe[1]); stdoutChannel.pipe[1] = INVALID_Q_PIPE; } if (stderrChannel.pipe[1] != INVALID_Q_PIPE) { CloseHandle(stderrChannel.pipe[1]); stderrChannel.pipe[1] = INVALID_Q_PIPE; } return success; } void QProcessPrivate::startProcess() { Q_Q(QProcess); bool success = false; if (pid) { CloseHandle(pid->hThread); CloseHandle(pid->hProcess); delete pid; pid = 0; } pid = new PROCESS_INFORMATION; memset(pid, 0, sizeof(PROCESS_INFORMATION)); q->setProcessState(QProcess::Starting); if (!openChannel(stdinChannel) || !openChannel(stdoutChannel) || !openChannel(stderrChannel)) { QString errorString = QProcess::tr("Process failed to start: %1").arg(qt_error_string()); cleanup(); setErrorAndEmit(QProcess::FailedToStart, errorString); q->setProcessState(QProcess::NotRunning); return; } const QString args = qt_create_commandline(program, arguments, nativeArguments); QByteArray envlist; if (environment.d.constData()) envlist = qt_create_environment(environment.d.constData()->vars); #if defined QPROCESS_DEBUG qDebug("Creating process"); qDebug(" program : [%s]", program.toLatin1().constData()); qDebug(" args : %s", args.toLatin1().constData()); qDebug(" pass environment : %s", environment.isEmpty() ? "no" : "yes"); #endif // We cannot unconditionally set the CREATE_NO_WINDOW flag, because this // will render the stdout/stderr handles connected to a console useless // (this typically affects ForwardedChannels mode). // However, we also do not want console tools launched from a GUI app to // create new console windows (behavior consistent with UNIX). DWORD dwCreationFlags = (GetConsoleWindow() ? 0 : CREATE_NO_WINDOW); dwCreationFlags |= CREATE_UNICODE_ENVIRONMENT; STARTUPINFOW startupInfo = { sizeof( STARTUPINFO ), 0, 0, 0, (ulong)CW_USEDEFAULT, (ulong)CW_USEDEFAULT, (ulong)CW_USEDEFAULT, (ulong)CW_USEDEFAULT, 0, 0, 0, STARTF_USESTDHANDLES, 0, 0, 0, stdinChannel.pipe[0], stdoutChannel.pipe[1], stderrChannel.pipe[1] }; const QString nativeWorkingDirectory = QDir::toNativeSeparators(workingDirectory); QProcess::CreateProcessArguments cpargs = { nullptr, reinterpret_cast(const_cast(args.utf16())), nullptr, nullptr, true, dwCreationFlags, environment.isEmpty() ? nullptr : envlist.data(), nativeWorkingDirectory.isEmpty() ? nullptr : reinterpret_cast(nativeWorkingDirectory.utf16()), &startupInfo, pid }; success = callCreateProcess(&cpargs); QString errorString; if (!success) { // Capture the error string before we do CloseHandle below errorString = QProcess::tr("Process failed to start: %1").arg(qt_error_string()); } if (!success) { cleanup(); setErrorAndEmit(QProcess::FailedToStart, errorString); q->setProcessState(QProcess::NotRunning); return; } q->setProcessState(QProcess::Running); // User can call kill()/terminate() from the stateChanged() slot // so check before proceeding if (!pid) return; if (threadData->hasEventDispatcher()) { processFinishedNotifier = new QWinEventNotifier(pid->hProcess, q); QObject::connect(processFinishedNotifier, SIGNAL(activated(HANDLE)), q, SLOT(_q_processDied())); processFinishedNotifier->setEnabled(true); } _q_startupNotification(); } bool QProcessPrivate::processStarted(QString * /*errorMessage*/) { return processState == QProcess::Running; } qint64 QProcessPrivate::bytesAvailableInChannel(const Channel *channel) const { Q_ASSERT(channel->pipe[0] != INVALID_Q_PIPE); Q_ASSERT(channel->reader); DWORD bytesAvail = channel->reader->bytesAvailable(); #if defined QPROCESS_DEBUG qDebug("QProcessPrivate::bytesAvailableInChannel(%d) == %d", channel - &stdinChannel, bytesAvail); #endif return bytesAvail; } qint64 QProcessPrivate::readFromChannel(const Channel *channel, char *data, qint64 maxlen) { Q_ASSERT(channel->pipe[0] != INVALID_Q_PIPE); Q_ASSERT(channel->reader); return channel->reader->read(data, maxlen); } static BOOL QT_WIN_CALLBACK qt_terminateApp(HWND hwnd, LPARAM procId) { DWORD currentProcId = 0; GetWindowThreadProcessId(hwnd, ¤tProcId); if (currentProcId == (DWORD)procId) PostMessage(hwnd, WM_CLOSE, 0, 0); return TRUE; } void QProcessPrivate::terminateProcess() { if (pid) { EnumWindows(qt_terminateApp, (LPARAM)pid->dwProcessId); PostThreadMessage(pid->dwThreadId, WM_CLOSE, 0, 0); } } void QProcessPrivate::killProcess() { if (pid) TerminateProcess(pid->hProcess, 0xf291); } bool QProcessPrivate::waitForStarted(int) { if (processStarted()) return true; if (processError == QProcess::FailedToStart) return false; setError(QProcess::Timedout); return false; } bool QProcessPrivate::drainOutputPipes() { if (!stdoutChannel.reader && !stderrChannel.reader) return false; bool someReadyReadEmitted = false; forever { bool readyReadEmitted = false; bool readOperationActive = false; if (stdoutChannel.reader) { readyReadEmitted |= stdoutChannel.reader->waitForReadyRead(0); readOperationActive = stdoutChannel.reader && stdoutChannel.reader->isReadOperationActive(); } if (stderrChannel.reader) { readyReadEmitted |= stderrChannel.reader->waitForReadyRead(0); readOperationActive |= stderrChannel.reader && stderrChannel.reader->isReadOperationActive(); } someReadyReadEmitted |= readyReadEmitted; if (!readOperationActive || !readyReadEmitted) break; QThread::yieldCurrentThread(); } return someReadyReadEmitted; } bool QProcessPrivate::waitForReadyRead(int msecs) { QIncrementalSleepTimer timer(msecs); forever { if (!writeBuffer.isEmpty() && !_q_canWrite()) return false; if (stdinChannel.writer && stdinChannel.writer->waitForWrite(0)) timer.resetIncrements(); if ((stdoutChannel.reader && stdoutChannel.reader->waitForReadyRead(0)) || (stderrChannel.reader && stderrChannel.reader->waitForReadyRead(0))) return true; if (!pid) return false; if (WaitForSingleObjectEx(pid->hProcess, 0, false) == WAIT_OBJECT_0) { bool readyReadEmitted = drainOutputPipes(); if (pid) _q_processDied(); return readyReadEmitted; } Sleep(timer.nextSleepTime()); if (timer.hasTimedOut()) break; } setError(QProcess::Timedout); return false; } bool QProcessPrivate::waitForBytesWritten(int msecs) { QIncrementalSleepTimer timer(msecs); forever { bool pendingDataInPipe = stdinChannel.writer && stdinChannel.writer->bytesToWrite(); // If we don't have pending data, and our write buffer is // empty, we fail. if (!pendingDataInPipe && writeBuffer.isEmpty()) return false; // If we don't have pending data and we do have data in our // write buffer, try to flush that data over to the pipe // writer. Fail on error. if (!pendingDataInPipe) { if (!_q_canWrite()) return false; } // Wait for the pipe writer to acknowledge that it has // written. This will succeed if either the pipe writer has // already written the data, or if it manages to write data // within the given timeout. If the write buffer was non-empty // and the stdinChannel.writer is now dead, that means _q_canWrite() // destroyed the writer after it successfully wrote the last // batch. if (!stdinChannel.writer || stdinChannel.writer->waitForWrite(0)) return true; // If we wouldn't write anything, check if we can read stdout. if (stdoutChannel.pipe[0] != INVALID_Q_PIPE && bytesAvailableInChannel(&stdoutChannel) != 0) { tryReadFromChannel(&stdoutChannel); timer.resetIncrements(); } // Check if we can read stderr. if (stderrChannel.pipe[0] != INVALID_Q_PIPE && bytesAvailableInChannel(&stderrChannel) != 0) { tryReadFromChannel(&stderrChannel); timer.resetIncrements(); } // Check if the process died while reading. if (!pid) return false; // Wait for the process to signal any change in its state, // such as incoming data, or if the process died. if (WaitForSingleObjectEx(pid->hProcess, 0, false) == WAIT_OBJECT_0) { _q_processDied(); return false; } // Only wait for as long as we've been asked. if (timer.hasTimedOut()) break; } setError(QProcess::Timedout); return false; } bool QProcessPrivate::waitForFinished(int msecs) { #if defined QPROCESS_DEBUG qDebug("QProcessPrivate::waitForFinished(%d)", msecs); #endif QIncrementalSleepTimer timer(msecs); forever { if (!writeBuffer.isEmpty() && !_q_canWrite()) return false; if (stdinChannel.writer && stdinChannel.writer->waitForWrite(0)) timer.resetIncrements(); if (stdoutChannel.reader && stdoutChannel.reader->waitForReadyRead(0)) timer.resetIncrements(); if (stderrChannel.reader && stderrChannel.reader->waitForReadyRead(0)) timer.resetIncrements(); if (!pid) { drainOutputPipes(); return true; } if (WaitForSingleObject(pid->hProcess, timer.nextSleepTime()) == WAIT_OBJECT_0) { drainOutputPipes(); if (pid) _q_processDied(); return true; } if (timer.hasTimedOut()) break; } setError(QProcess::Timedout); return false; } void QProcessPrivate::findExitCode() { DWORD theExitCode; Q_ASSERT(pid); if (GetExitCodeProcess(pid->hProcess, &theExitCode)) { exitCode = theExitCode; crashed = (exitCode == 0xf291 // our magic number, see killProcess || (theExitCode >= 0x80000000 && theExitCode < 0xD0000000)); } } void QProcessPrivate::flushPipeWriter() { if (stdinChannel.writer && stdinChannel.writer->bytesToWrite() > 0) stdinChannel.writer->waitForWrite(ULONG_MAX); } qint64 QProcessPrivate::pipeWriterBytesToWrite() const { return stdinChannel.writer ? stdinChannel.writer->bytesToWrite() : qint64(0); } bool QProcessPrivate::writeToStdin() { Q_Q(QProcess); if (!stdinChannel.writer) { stdinChannel.writer = new QWindowsPipeWriter(stdinChannel.pipe[1], q); QObject::connect(stdinChannel.writer, &QWindowsPipeWriter::bytesWritten, q, &QProcess::bytesWritten); QObjectPrivate::connect(stdinChannel.writer, &QWindowsPipeWriter::canWrite, this, &QProcessPrivate::_q_canWrite); } else { if (stdinChannel.writer->isWriteOperationActive()) return true; } stdinChannel.writer->write(writeBuffer.read()); return true; } // Use ShellExecuteEx() to trigger an UAC prompt when CreateProcess()fails // with ERROR_ELEVATION_REQUIRED. static bool startDetachedUacPrompt(const QString &programIn, const QStringList &arguments, const QString &nativeArguments, const QString &workingDir, qint64 *pid) { typedef BOOL (WINAPI *ShellExecuteExType)(SHELLEXECUTEINFOW *); static const ShellExecuteExType shellExecuteEx = // XP ServicePack 1 onwards. reinterpret_cast(QSystemLibrary::resolve(QLatin1String("shell32"), "ShellExecuteExW")); if (!shellExecuteEx) return false; const QString args = qt_create_commandline(QString(), // needs arguments only arguments, nativeArguments); SHELLEXECUTEINFOW shellExecuteExInfo; memset(&shellExecuteExInfo, 0, sizeof(SHELLEXECUTEINFOW)); shellExecuteExInfo.cbSize = sizeof(SHELLEXECUTEINFOW); shellExecuteExInfo.fMask = SEE_MASK_NOCLOSEPROCESS | SEE_MASK_UNICODE | SEE_MASK_FLAG_NO_UI | SEE_MASK_CLASSNAME; shellExecuteExInfo.lpClass = L"exefile"; shellExecuteExInfo.lpVerb = L"runas"; const QString program = QDir::toNativeSeparators(programIn); shellExecuteExInfo.lpFile = reinterpret_cast(program.utf16()); if (!args.isEmpty()) shellExecuteExInfo.lpParameters = reinterpret_cast(args.utf16()); if (!workingDir.isEmpty()) shellExecuteExInfo.lpDirectory = reinterpret_cast(workingDir.utf16()); shellExecuteExInfo.nShow = SW_SHOWNORMAL; if (!shellExecuteEx(&shellExecuteExInfo)) return false; if (pid) *pid = qint64(GetProcessId(shellExecuteExInfo.hProcess)); CloseHandle(shellExecuteExInfo.hProcess); return true; } static Q_PIPE pipeOrStdHandle(Q_PIPE pipe, DWORD handleNumber) { return pipe != INVALID_Q_PIPE ? pipe : GetStdHandle(handleNumber); } bool QProcessPrivate::startDetached(qint64 *pid) { static const DWORD errorElevationRequired = 740; if ((stdinChannel.type == Channel::Redirect && !openChannel(stdinChannel)) || (stdoutChannel.type == Channel::Redirect && !openChannel(stdoutChannel)) || (stderrChannel.type == Channel::Redirect && !openChannel(stderrChannel))) { closeChannel(&stdinChannel); closeChannel(&stdoutChannel); closeChannel(&stderrChannel); return false; } QString args = qt_create_commandline(program, arguments, nativeArguments); bool success = false; PROCESS_INFORMATION pinfo; void *envPtr = nullptr; QByteArray envlist; if (environment.d.constData()) { envlist = qt_create_environment(environment.d.constData()->vars); envPtr = envlist.data(); } DWORD dwCreationFlags = (GetConsoleWindow() ? 0 : CREATE_NO_WINDOW); dwCreationFlags |= CREATE_UNICODE_ENVIRONMENT; STARTUPINFOW startupInfo = { sizeof( STARTUPINFO ), 0, 0, 0, (ulong)CW_USEDEFAULT, (ulong)CW_USEDEFAULT, (ulong)CW_USEDEFAULT, (ulong)CW_USEDEFAULT, 0, 0, 0, STARTF_USESTDHANDLES, 0, 0, 0, pipeOrStdHandle(stdinChannel.pipe[0], STD_INPUT_HANDLE), pipeOrStdHandle(stdoutChannel.pipe[1], STD_OUTPUT_HANDLE), pipeOrStdHandle(stderrChannel.pipe[1], STD_ERROR_HANDLE) }; QProcess::CreateProcessArguments cpargs = { nullptr, reinterpret_cast(const_cast(args.utf16())), nullptr, nullptr, true, dwCreationFlags, envPtr, workingDirectory.isEmpty() ? nullptr : reinterpret_cast(workingDirectory.utf16()), &startupInfo, &pinfo }; success = callCreateProcess(&cpargs); if (success) { CloseHandle(pinfo.hThread); CloseHandle(pinfo.hProcess); if (pid) *pid = pinfo.dwProcessId; } else if (GetLastError() == errorElevationRequired) { if (envPtr) qWarning("QProcess: custom environment will be ignored for detached elevated process."); if (!stdinChannel.file.isEmpty() || !stdoutChannel.file.isEmpty() || !stderrChannel.file.isEmpty()) { qWarning("QProcess: file redirection is unsupported for detached elevated processes."); } success = startDetachedUacPrompt(program, arguments, nativeArguments, workingDirectory, pid); } closeChannel(&stdinChannel); closeChannel(&stdoutChannel); closeChannel(&stderrChannel); return success; } #endif // QT_CONFIG(process) QT_END_NAMESPACE