/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Copyright (C) 2016 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 "qdebug.h" #if QT_CONFIG(process) && defined(QPROCESS_DEBUG) #include "private/qtools_p.h" #include /* Returns a human readable representation of the first \a len characters in \a data. */ QT_BEGIN_NAMESPACE static QByteArray qt_prettyDebug(const char *data, int len, int maxSize) { if (!data) return "(null)"; QByteArray out; for (int i = 0; i < len; ++i) { char c = data[i]; if (isprint(c)) { out += c; } else switch (c) { case '\n': out += "\\n"; break; case '\r': out += "\\r"; break; case '\t': out += "\\t"; break; default: { const char buf[] = { '\\', QtMiscUtils::toOct(uchar(c) / 64), QtMiscUtils::toOct(uchar(c) % 64 / 8), QtMiscUtils::toOct(uchar(c) % 8), 0 }; out += buf; } } } if (len < maxSize) out += "..."; return out; } QT_END_NAMESPACE #endif #include "qplatformdefs.h" #include "qprocess.h" #include "qprocess_p.h" #include "private/qcore_unix_p.h" #ifdef Q_OS_MAC #include #endif #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_OS_QNX # include #endif #include #include #include #if QT_CONFIG(process) #include #endif QT_BEGIN_NAMESPACE #if !defined(Q_OS_DARWIN) QProcessEnvironment QProcessEnvironment::systemEnvironment() { QProcessEnvironment env; const char *entry; for (int count = 0; (entry = environ[count]); ++count) { const char *equal = strchr(entry, '='); if (!equal) continue; QByteArray name(entry, equal - entry); QByteArray value(equal + 1); env.d->hash.insert(QProcessEnvironmentPrivate::Key(name), QProcessEnvironmentPrivate::Value(value)); } return env; } #endif // !defined(Q_OS_DARWIN) #if QT_CONFIG(process) // POSIX requires PIPE_BUF to be 512 or larger // so we will use 512 static const int errorBufferMax = 512; namespace { struct QProcessPoller { QProcessPoller(const QProcessPrivate &proc); int poll(int timeout); pollfd &stdinPipe() { return pfds[0]; } pollfd &stdoutPipe() { return pfds[1]; } pollfd &stderrPipe() { return pfds[2]; } pollfd &forkfd() { return pfds[3]; } pollfd &childStartedPipe() { return pfds[4]; } enum { n_pfds = 5 }; pollfd pfds[n_pfds]; }; QProcessPoller::QProcessPoller(const QProcessPrivate &proc) { for (int i = 0; i < n_pfds; i++) pfds[i] = qt_make_pollfd(-1, POLLIN); stdoutPipe().fd = proc.stdoutChannel.pipe[0]; stderrPipe().fd = proc.stderrChannel.pipe[0]; if (!proc.writeBuffer.isEmpty()) { stdinPipe().fd = proc.stdinChannel.pipe[1]; stdinPipe().events = POLLOUT; } forkfd().fd = proc.forkfd; if (proc.processState == QProcess::Starting) childStartedPipe().fd = proc.childStartedPipe[0]; } int QProcessPoller::poll(int timeout) { const nfds_t nfds = (childStartedPipe().fd == -1) ? 4 : 5; return qt_poll_msecs(pfds, nfds, timeout); } } // anonymous namespace static bool qt_pollfd_check(const pollfd &pfd, short revents) { return pfd.fd >= 0 && (pfd.revents & (revents | POLLHUP | POLLERR | POLLNVAL)) != 0; } static int qt_create_pipe(int *pipe) { if (pipe[0] != -1) qt_safe_close(pipe[0]); if (pipe[1] != -1) qt_safe_close(pipe[1]); int pipe_ret = qt_safe_pipe(pipe); if (pipe_ret != 0) { qWarning("QProcessPrivate::createPipe: Cannot create pipe %p: %s", pipe, qPrintable(qt_error_string(errno))); } return pipe_ret; } void QProcessPrivate::destroyPipe(int *pipe) { if (pipe[1] != -1) { qt_safe_close(pipe[1]); pipe[1] = -1; } if (pipe[0] != -1) { qt_safe_close(pipe[0]); pipe[0] = -1; } } void QProcessPrivate::closeChannel(Channel *channel) { destroyPipe(channel->pipe); } /* 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) { channel.pipe[0] = -1; channel.pipe[1] = -1; return true; } if (channel.type == Channel::Normal) { // we're piping this channel to our own process if (qt_create_pipe(channel.pipe) != 0) return false; // create the socket notifiers if (threadData->hasEventDispatcher()) { if (&channel == &stdinChannel) { channel.notifier = new QSocketNotifier(channel.pipe[1], QSocketNotifier::Write, q); channel.notifier->setEnabled(false); QObject::connect(channel.notifier, SIGNAL(activated(int)), q, SLOT(_q_canWrite())); } else { channel.notifier = new QSocketNotifier(channel.pipe[0], QSocketNotifier::Read, q); const char *receiver; if (&channel == &stdoutChannel) receiver = SLOT(_q_canReadStandardOutput()); else receiver = SLOT(_q_canReadStandardError()); QObject::connect(channel.notifier, SIGNAL(activated(int)), q, receiver); } } return true; } else if (channel.type == Channel::Redirect) { // we're redirecting the channel to/from a file QByteArray fname = QFile::encodeName(channel.file); if (&channel == &stdinChannel) { // try to open in read-only mode channel.pipe[1] = -1; if ( (channel.pipe[0] = qt_safe_open(fname, O_RDONLY)) != -1) return true; // success setErrorAndEmit(QProcess::FailedToStart, QProcess::tr("Could not open input redirection for reading")); } else { int mode = O_WRONLY | O_CREAT; if (channel.append) mode |= O_APPEND; else mode |= O_TRUNC; channel.pipe[0] = -1; if ( (channel.pipe[1] = qt_safe_open(fname, mode, 0666)) != -1) return true; // success setErrorAndEmit(QProcess::FailedToStart, QProcess::tr("Could not open input redirection for reading")); } cleanup(); return false; } else { Q_ASSERT_X(channel.process, "QProcess::start", "Internal error"); Channel *source; Channel *sink; if (channel.type == Channel::PipeSource) { // we are the source source = &channel; sink = &channel.process->stdinChannel; Q_ASSERT(source == &stdoutChannel); Q_ASSERT(sink->process == this && sink->type == Channel::PipeSink); } else { // we are the sink; source = &channel.process->stdoutChannel; sink = &channel; Q_ASSERT(sink == &stdinChannel); Q_ASSERT(source->process == this && source->type == Channel::PipeSource); } if (source->pipe[1] != INVALID_Q_PIPE || sink->pipe[0] != INVALID_Q_PIPE) { // already created, do nothing return true; } else { Q_ASSERT(source->pipe[0] == INVALID_Q_PIPE && source->pipe[1] == INVALID_Q_PIPE); Q_ASSERT(sink->pipe[0] == INVALID_Q_PIPE && sink->pipe[1] == INVALID_Q_PIPE); Q_PIPE pipe[2] = { -1, -1 }; if (qt_create_pipe(pipe) != 0) return false; sink->pipe[0] = pipe[0]; source->pipe[1] = pipe[1]; return true; } } } static char **_q_dupEnvironment(const QProcessEnvironmentPrivate::Hash &environment, int *envc) { *envc = 0; if (environment.isEmpty()) return 0; char **envp = new char *[environment.count() + 2]; envp[environment.count()] = 0; envp[environment.count() + 1] = 0; QProcessEnvironmentPrivate::Hash::ConstIterator it = environment.constBegin(); const QProcessEnvironmentPrivate::Hash::ConstIterator end = environment.constEnd(); for ( ; it != end; ++it) { QByteArray key = it.key().key; QByteArray value = it.value().bytes(); key.reserve(key.length() + 1 + value.length()); key.append('='); key.append(value); envp[(*envc)++] = ::strdup(key.constData()); } return envp; } void QProcessPrivate::startProcess() { Q_Q(QProcess); #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::startProcess()"); #endif // Initialize pipes if (!openChannel(stdinChannel) || !openChannel(stdoutChannel) || !openChannel(stderrChannel) || qt_create_pipe(childStartedPipe) != 0) { setErrorAndEmit(QProcess::FailedToStart, qt_error_string(errno)); cleanup(); return; } if (threadData->hasEventDispatcher()) { startupSocketNotifier = new QSocketNotifier(childStartedPipe[0], QSocketNotifier::Read, q); QObject::connect(startupSocketNotifier, SIGNAL(activated(int)), q, SLOT(_q_startupNotification())); } // Start the process (platform dependent) q->setProcessState(QProcess::Starting); // Create argument list with right number of elements, and set the final // one to 0. char **argv = new char *[arguments.count() + 2]; argv[arguments.count() + 1] = 0; // Encode the program name. QByteArray encodedProgramName = QFile::encodeName(program); #ifdef Q_OS_MAC // allow invoking of .app bundles on the Mac. QFileInfo fileInfo(program); if (encodedProgramName.endsWith(".app") && fileInfo.isDir()) { QCFType url = CFURLCreateWithFileSystemPath(0, QCFString(fileInfo.absoluteFilePath()), kCFURLPOSIXPathStyle, true); { // CFBundle is not reentrant, since CFBundleCreate might return a reference // to a cached bundle object. Protect the bundle calls with a mutex lock. static QBasicMutex cfbundleMutex; QMutexLocker lock(&cfbundleMutex); QCFType bundle = CFBundleCreate(0, url); // 'executableURL' can be either relative or absolute ... QCFType executableURL = CFBundleCopyExecutableURL(bundle); // not to depend on caching - make sure it's always absolute. url = CFURLCopyAbsoluteURL(executableURL); } if (url) { const QCFString str = CFURLCopyFileSystemPath(url, kCFURLPOSIXPathStyle); encodedProgramName += (QDir::separator() + QDir(program).relativeFilePath(QString::fromCFString(str))).toUtf8(); } } #endif // Add the program name to the argument list. char *dupProgramName = ::strdup(encodedProgramName.constData()); argv[0] = dupProgramName; // Add every argument to the list for (int i = 0; i < arguments.count(); ++i) argv[i + 1] = ::strdup(QFile::encodeName(arguments.at(i)).constData()); // Duplicate the environment. int envc = 0; char **envp = 0; if (environment.d.constData()) { QProcessEnvironmentPrivate::MutexLocker locker(environment.d); envp = _q_dupEnvironment(environment.d.constData()->hash, &envc); } // Encode the working directory if it's non-empty, otherwise just pass 0. const char *workingDirPtr = 0; QByteArray encodedWorkingDirectory; if (!workingDirectory.isEmpty()) { encodedWorkingDirectory = QFile::encodeName(workingDirectory); workingDirPtr = encodedWorkingDirectory.constData(); } // If the program does not specify a path, generate a list of possible // locations for the binary using the PATH environment variable. char **path = 0; int pathc = 0; if (!program.contains(QLatin1Char('/'))) { const QString pathEnv = QString::fromLocal8Bit(qgetenv("PATH")); if (!pathEnv.isEmpty()) { QStringList pathEntries = pathEnv.split(QLatin1Char(':'), QString::SkipEmptyParts); if (!pathEntries.isEmpty()) { pathc = pathEntries.size(); path = new char *[pathc + 1]; path[pathc] = 0; for (int k = 0; k < pathEntries.size(); ++k) { QByteArray tmp = QFile::encodeName(pathEntries.at(k)); if (!tmp.endsWith('/')) tmp += '/'; tmp += encodedProgramName; path[k] = ::strdup(tmp.constData()); } } } } // Start the process manager, and fork off the child process. pid_t childPid; forkfd = ::forkfd(FFD_CLOEXEC, &childPid); int lastForkErrno = errno; if (forkfd != FFD_CHILD_PROCESS) { // Parent process. // Clean up duplicated memory. free(dupProgramName); for (int i = 1; i <= arguments.count(); ++i) free(argv[i]); for (int i = 0; i < envc; ++i) free(envp[i]); for (int i = 0; i < pathc; ++i) free(path[i]); delete [] argv; delete [] envp; delete [] path; } // On QNX, if spawnChild failed, childPid will be -1 but forkfd is still 0. // This is intentional because we only want to handle failure to fork() // here, which is a rare occurrence. Handling of the failure to start is // done elsewhere. if (forkfd == -1) { // Cleanup, report error and return #if defined (QPROCESS_DEBUG) qDebug("fork failed: %s", qPrintable(qt_error_string(lastForkErrno))); #endif q->setProcessState(QProcess::NotRunning); setErrorAndEmit(QProcess::FailedToStart, QProcess::tr("Resource error (fork failure): %1").arg(qt_error_string(lastForkErrno))); cleanup(); return; } // Start the child. if (forkfd == FFD_CHILD_PROCESS) { execChild(workingDirPtr, path, argv, envp); ::_exit(-1); } pid = Q_PID(childPid); // parent // close the ends we don't use and make all pipes non-blocking qt_safe_close(childStartedPipe[1]); childStartedPipe[1] = -1; if (stdinChannel.pipe[0] != -1) { qt_safe_close(stdinChannel.pipe[0]); stdinChannel.pipe[0] = -1; } if (stdinChannel.pipe[1] != -1) ::fcntl(stdinChannel.pipe[1], F_SETFL, ::fcntl(stdinChannel.pipe[1], F_GETFL) | O_NONBLOCK); if (stdoutChannel.pipe[1] != -1) { qt_safe_close(stdoutChannel.pipe[1]); stdoutChannel.pipe[1] = -1; } if (stdoutChannel.pipe[0] != -1) ::fcntl(stdoutChannel.pipe[0], F_SETFL, ::fcntl(stdoutChannel.pipe[0], F_GETFL) | O_NONBLOCK); if (stderrChannel.pipe[1] != -1) { qt_safe_close(stderrChannel.pipe[1]); stderrChannel.pipe[1] = -1; } if (stderrChannel.pipe[0] != -1) ::fcntl(stderrChannel.pipe[0], F_SETFL, ::fcntl(stderrChannel.pipe[0], F_GETFL) | O_NONBLOCK); if (threadData->eventDispatcher) { deathNotifier = new QSocketNotifier(forkfd, QSocketNotifier::Read, q); QObject::connect(deathNotifier, SIGNAL(activated(int)), q, SLOT(_q_processDied())); } } void QProcessPrivate::execChild(const char *workingDir, char **path, char **argv, char **envp) { ::signal(SIGPIPE, SIG_DFL); // reset the signal that we ignored Q_Q(QProcess); // copy the stdin socket if asked to (without closing on exec) if (inputChannelMode != QProcess::ForwardedInputChannel) qt_safe_dup2(stdinChannel.pipe[0], STDIN_FILENO, 0); // copy the stdout and stderr if asked to if (processChannelMode != QProcess::ForwardedChannels) { if (processChannelMode != QProcess::ForwardedOutputChannel) qt_safe_dup2(stdoutChannel.pipe[1], STDOUT_FILENO, 0); // merge stdout and stderr if asked to if (processChannelMode == QProcess::MergedChannels) { qt_safe_dup2(STDOUT_FILENO, STDERR_FILENO, 0); } else if (processChannelMode != QProcess::ForwardedErrorChannel) { qt_safe_dup2(stderrChannel.pipe[1], STDERR_FILENO, 0); } } // make sure this fd is closed if execvp() succeeds qt_safe_close(childStartedPipe[0]); // enter the working directory const char *callthatfailed = "chdir: "; if (workingDir && QT_CHDIR(workingDir) == -1) { // failed, stop the process goto report_errno; } // this is a virtual call, and it base behavior is to do nothing. q->setupChildProcess(); // execute the process if (!envp) { qt_safe_execvp(argv[0], argv); callthatfailed = "execvp: "; } else { if (path) { char **arg = path; while (*arg) { argv[0] = *arg; #if defined (QPROCESS_DEBUG) fprintf(stderr, "QProcessPrivate::execChild() searching / starting %s\n", argv[0]); #endif qt_safe_execve(argv[0], argv, envp); ++arg; } } else { #if defined (QPROCESS_DEBUG) fprintf(stderr, "QProcessPrivate::execChild() starting %s\n", argv[0]); #endif qt_safe_execve(argv[0], argv, envp); } callthatfailed = "execve: "; } // notify failure // we're running in the child process, so we don't need to be thread-safe; // we can use strerror report_errno: const char *msg = strerror(errno); #if defined (QPROCESS_DEBUG) fprintf(stderr, "QProcessPrivate::execChild() failed (%s), notifying parent process\n", msg); #endif qt_safe_write(childStartedPipe[1], callthatfailed, strlen(callthatfailed)); qt_safe_write(childStartedPipe[1], msg, strlen(msg)); qt_safe_close(childStartedPipe[1]); childStartedPipe[1] = -1; } bool QProcessPrivate::processStarted(QString *errorMessage) { char buf[errorBufferMax]; int i = 0; int ret; do { ret = qt_safe_read(childStartedPipe[0], buf + i, sizeof buf - i); if (ret > 0) i += ret; } while (ret > 0 && i < int(sizeof buf)); if (startupSocketNotifier) { startupSocketNotifier->setEnabled(false); startupSocketNotifier->deleteLater(); startupSocketNotifier = 0; } qt_safe_close(childStartedPipe[0]); childStartedPipe[0] = -1; #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::processStarted() == %s", i <= 0 ? "true" : "false"); #endif // did we read an error message? if ((i > 0) && errorMessage) *errorMessage = QString::fromLocal8Bit(buf, i); return i <= 0; } qint64 QProcessPrivate::bytesAvailableInChannel(const Channel *channel) const { Q_ASSERT(channel->pipe[0] != INVALID_Q_PIPE); int nbytes = 0; qint64 available = 0; if (::ioctl(channel->pipe[0], FIONREAD, (char *) &nbytes) >= 0) available = (qint64) nbytes; #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::bytesAvailableInChannel(%d) == %lld", int(channel - &stdinChannel), available); #endif return available; } qint64 QProcessPrivate::readFromChannel(const Channel *channel, char *data, qint64 maxlen) { Q_ASSERT(channel->pipe[0] != INVALID_Q_PIPE); qint64 bytesRead = qt_safe_read(channel->pipe[0], data, maxlen); #if defined QPROCESS_DEBUG int save_errno = errno; qDebug("QProcessPrivate::readFromChannel(%d, %p \"%s\", %lld) == %lld", int(channel - &stdinChannel), data, qt_prettyDebug(data, bytesRead, 16).constData(), maxlen, bytesRead); errno = save_errno; #endif if (bytesRead == -1 && errno == EWOULDBLOCK) return -2; return bytesRead; } bool QProcessPrivate::writeToStdin() { const char *data = writeBuffer.readPointer(); const qint64 bytesToWrite = writeBuffer.nextDataBlockSize(); qint64 written = qt_safe_write_nosignal(stdinChannel.pipe[1], data, bytesToWrite); #if defined QPROCESS_DEBUG qDebug("QProcessPrivate::writeToStdin(), write(%p \"%s\", %lld) == %lld", data, qt_prettyDebug(data, bytesToWrite, 16).constData(), bytesToWrite, written); if (written == -1) qDebug("QProcessPrivate::writeToStdin(), failed to write (%s)", qPrintable(qt_error_string(errno))); #endif if (written == -1) { // If the O_NONBLOCK flag is set and If some data can be written without blocking // the process, write() will transfer what it can and return the number of bytes written. // Otherwise, it will return -1 and set errno to EAGAIN if (errno == EAGAIN) return true; closeChannel(&stdinChannel); setErrorAndEmit(QProcess::WriteError); return false; } writeBuffer.free(written); if (!emittedBytesWritten && written != 0) { emittedBytesWritten = true; emit q_func()->bytesWritten(written); emittedBytesWritten = false; } return true; } void QProcessPrivate::terminateProcess() { #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::terminateProcess()"); #endif if (pid) ::kill(pid_t(pid), SIGTERM); } void QProcessPrivate::killProcess() { #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::killProcess()"); #endif if (pid) ::kill(pid_t(pid), SIGKILL); } bool QProcessPrivate::waitForStarted(int msecs) { #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::waitForStarted(%d) waiting for child to start (fd = %d)", msecs, childStartedPipe[0]); #endif pollfd pfd = qt_make_pollfd(childStartedPipe[0], POLLIN); if (qt_poll_msecs(&pfd, 1, msecs) == 0) { setError(QProcess::Timedout); #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::waitForStarted(%d) == false (timed out)", msecs); #endif return false; } bool startedEmitted = _q_startupNotification(); #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::waitForStarted() == %s", startedEmitted ? "true" : "false"); #endif return startedEmitted; } bool QProcessPrivate::waitForReadyRead(int msecs) { #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::waitForReadyRead(%d)", msecs); #endif QElapsedTimer stopWatch; stopWatch.start(); forever { QProcessPoller poller(*this); int timeout = qt_subtract_from_timeout(msecs, stopWatch.elapsed()); int ret = poller.poll(timeout); if (ret < 0) { break; } if (ret == 0) { setError(QProcess::Timedout); return false; } if (qt_pollfd_check(poller.childStartedPipe(), POLLIN)) { if (!_q_startupNotification()) return false; } bool readyReadEmitted = false; if (qt_pollfd_check(poller.stdoutPipe(), POLLIN)) { bool canRead = _q_canReadStandardOutput(); if (currentReadChannel == QProcess::StandardOutput && canRead) readyReadEmitted = true; } if (qt_pollfd_check(poller.stderrPipe(), POLLIN)) { bool canRead = _q_canReadStandardError(); if (currentReadChannel == QProcess::StandardError && canRead) readyReadEmitted = true; } if (readyReadEmitted) return true; if (qt_pollfd_check(poller.stdinPipe(), POLLOUT)) _q_canWrite(); if (qt_pollfd_check(poller.forkfd(), POLLIN)) { if (_q_processDied()) return false; } } return false; } bool QProcessPrivate::waitForBytesWritten(int msecs) { #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::waitForBytesWritten(%d)", msecs); #endif QElapsedTimer stopWatch; stopWatch.start(); while (!writeBuffer.isEmpty()) { QProcessPoller poller(*this); int timeout = qt_subtract_from_timeout(msecs, stopWatch.elapsed()); int ret = poller.poll(timeout); if (ret < 0) { break; } if (ret == 0) { setError(QProcess::Timedout); return false; } if (qt_pollfd_check(poller.childStartedPipe(), POLLIN)) { if (!_q_startupNotification()) return false; } if (qt_pollfd_check(poller.stdinPipe(), POLLOUT)) return _q_canWrite(); if (qt_pollfd_check(poller.stdoutPipe(), POLLIN)) _q_canReadStandardOutput(); if (qt_pollfd_check(poller.stderrPipe(), POLLIN)) _q_canReadStandardError(); if (qt_pollfd_check(poller.forkfd(), POLLIN)) { if (_q_processDied()) return false; } } return false; } bool QProcessPrivate::waitForFinished(int msecs) { #if defined (QPROCESS_DEBUG) qDebug("QProcessPrivate::waitForFinished(%d)", msecs); #endif QElapsedTimer stopWatch; stopWatch.start(); forever { QProcessPoller poller(*this); int timeout = qt_subtract_from_timeout(msecs, stopWatch.elapsed()); int ret = poller.poll(timeout); if (ret < 0) { break; } if (ret == 0) { setError(QProcess::Timedout); return false; } if (qt_pollfd_check(poller.childStartedPipe(), POLLIN)) { if (!_q_startupNotification()) return false; } if (qt_pollfd_check(poller.stdinPipe(), POLLOUT)) _q_canWrite(); if (qt_pollfd_check(poller.stdoutPipe(), POLLIN)) _q_canReadStandardOutput(); if (qt_pollfd_check(poller.stderrPipe(), POLLIN)) _q_canReadStandardError(); if (qt_pollfd_check(poller.forkfd(), POLLIN)) { if (_q_processDied()) return true; } } return false; } void QProcessPrivate::findExitCode() { } bool QProcessPrivate::waitForDeadChild() { if (forkfd == -1) return true; // child has already exited // read the process information from our fd forkfd_info info; int ret; EINTR_LOOP(ret, forkfd_wait(forkfd, &info, Q_NULLPTR)); exitCode = info.status; crashed = info.code != CLD_EXITED; delete deathNotifier; deathNotifier = 0; EINTR_LOOP(ret, forkfd_close(forkfd)); forkfd = -1; // Child is dead, don't try to kill it anymore #if defined QPROCESS_DEBUG qDebug() << "QProcessPrivate::waitForDeadChild() dead with exitCode" << exitCode << ", crashed?" << crashed; #endif return true; } bool QProcessPrivate::startDetached(const QString &program, const QStringList &arguments, const QString &workingDirectory, qint64 *pid) { QByteArray encodedWorkingDirectory = QFile::encodeName(workingDirectory); // To catch the startup of the child int startedPipe[2]; if (qt_safe_pipe(startedPipe) != 0) return false; // To communicate the pid of the child int pidPipe[2]; if (qt_safe_pipe(pidPipe) != 0) { qt_safe_close(startedPipe[0]); qt_safe_close(startedPipe[1]); return false; } pid_t childPid = fork(); if (childPid == 0) { struct sigaction noaction; memset(&noaction, 0, sizeof(noaction)); noaction.sa_handler = SIG_IGN; ::sigaction(SIGPIPE, &noaction, 0); ::setsid(); qt_safe_close(startedPipe[0]); qt_safe_close(pidPipe[0]); pid_t doubleForkPid = fork(); if (doubleForkPid == 0) { qt_safe_close(pidPipe[1]); if (!encodedWorkingDirectory.isEmpty()) { if (QT_CHDIR(encodedWorkingDirectory.constData()) == -1) qWarning("QProcessPrivate::startDetached: failed to chdir to %s", encodedWorkingDirectory.constData()); } char **argv = new char *[arguments.size() + 2]; for (int i = 0; i < arguments.size(); ++i) argv[i + 1] = ::strdup(QFile::encodeName(arguments.at(i)).constData()); argv[arguments.size() + 1] = 0; if (!program.contains(QLatin1Char('/'))) { const QString path = QString::fromLocal8Bit(qgetenv("PATH")); if (!path.isEmpty()) { QStringList pathEntries = path.split(QLatin1Char(':')); for (int k = 0; k < pathEntries.size(); ++k) { QByteArray tmp = QFile::encodeName(pathEntries.at(k)); if (!tmp.endsWith('/')) tmp += '/'; tmp += QFile::encodeName(program); argv[0] = tmp.data(); qt_safe_execv(argv[0], argv); } } } else { QByteArray tmp = QFile::encodeName(program); argv[0] = tmp.data(); qt_safe_execv(argv[0], argv); } struct sigaction noaction; memset(&noaction, 0, sizeof(noaction)); noaction.sa_handler = SIG_IGN; ::sigaction(SIGPIPE, &noaction, 0); // '\1' means execv failed char c = '\1'; qt_safe_write(startedPipe[1], &c, 1); qt_safe_close(startedPipe[1]); ::_exit(1); } else if (doubleForkPid == -1) { struct sigaction noaction; memset(&noaction, 0, sizeof(noaction)); noaction.sa_handler = SIG_IGN; ::sigaction(SIGPIPE, &noaction, 0); // '\2' means internal error char c = '\2'; qt_safe_write(startedPipe[1], &c, 1); } qt_safe_close(startedPipe[1]); qt_safe_write(pidPipe[1], (const char *)&doubleForkPid, sizeof(pid_t)); if (QT_CHDIR("/") == -1) qWarning("QProcessPrivate::startDetached: failed to chdir to /"); ::_exit(1); } qt_safe_close(startedPipe[1]); qt_safe_close(pidPipe[1]); if (childPid == -1) { qt_safe_close(startedPipe[0]); qt_safe_close(pidPipe[0]); return false; } char reply = '\0'; int startResult = qt_safe_read(startedPipe[0], &reply, 1); int result; qt_safe_close(startedPipe[0]); qt_safe_waitpid(childPid, &result, 0); bool success = (startResult != -1 && reply == '\0'); if (success && pid) { pid_t actualPid = 0; if (qt_safe_read(pidPipe[0], (char *)&actualPid, sizeof(pid_t)) == sizeof(pid_t)) { *pid = actualPid; } else { *pid = 0; } } qt_safe_close(pidPipe[0]); return success; } #endif // QT_CONFIG(process) QT_END_NAMESPACE