////////////////////////////////////////////////////////////////////////// // // pgAdmin 4 - PostgreSQL Tools // // Copyright (C) 2013 - 2017, The pgAdmin Development Team // This software is released under the PostgreSQL Licence // // Server.cpp - Thread in which the web server will run. // ////////////////////////////////////////////////////////////////////////// #include "pgAdmin4.h" // Must be before QT #include // QT headers #include #include #include // App headers #include "Server.h" static void add_to_path(QString &python_path, QString path, bool prepend=false) { if (!python_path.contains(path)) { if (!prepend) { if (!python_path.isEmpty() && !python_path.endsWith(";")) python_path.append(";"); python_path.append(path); } else { if (!python_path.isEmpty() && !python_path.startsWith(";")) python_path.prepend(";"); python_path.prepend(path); } } } Server::Server(quint16 port) { // Appserver port m_port = port; m_wcAppName = NULL; // Initialise Python Py_NoSiteFlag=1; Py_DontWriteBytecodeFlag=1; // Python3 requires conversion of char * to wchar_t *, so... #ifdef PYTHON2 Py_SetProgramName(PGA_APP_NAME.toUtf8().data()); #else char *appName = PGA_APP_NAME.toUtf8().data(); const size_t cSize = strlen(appName)+1; m_wcAppName = new wchar_t[cSize]; mbstowcs (m_wcAppName, appName, cSize); Py_SetProgramName(m_wcAppName); #endif // Setup the search path QSettings settings; QString python_path = settings.value("PythonPath").toString(); // Get the application directory QString app_dir = qApp->applicationDirPath(), path_env = qgetenv("PATH"), pythonHome; QStringList path_list; int i; #ifdef Q_OS_MAC // In the case we're running in a release appbundle, we need to ensure the // bundled virtual env is included in the Python path. We include it at the // end, so expert users can override the path, but we do not save it, because // if users move the app bundle, we'll end up with dead entries // Build (and canonicalise) the virtual environment path QFileInfo venvBinPath(app_dir + "/../Resources/venv/bin"); QFileInfo venvLibPath(app_dir + "/../Resources/venv/lib/python"); QFileInfo venvDynLibPath(app_dir + "/../Resources/venv/lib/python/lib-dynload"); QFileInfo venvSitePackagesPath(app_dir + "/../Resources/venv/lib/python/site-packages"); QFileInfo venvPath(app_dir + "/../Resources/venv"); // Prepend the bin directory to the path add_to_path(path_env, venvBinPath.canonicalFilePath(), true); // Append the path, if it's not already there add_to_path(python_path, venvLibPath.canonicalFilePath()); add_to_path(python_path, venvDynLibPath.canonicalFilePath()); add_to_path(python_path, venvSitePackagesPath.canonicalFilePath()); add_to_path(pythonHome, venvPath.canonicalFilePath()); #elif defined(Q_OS_WIN) // In the case we're running in a release application, we need to ensure the // bundled virtual env is included in the Python path. We include it at the // end, so expert users can override the path, but we do not save it. // Build (and canonicalise) the virtual environment path QFileInfo venvBinPath(app_dir + "/../venv"); QFileInfo venvLibPath(app_dir + "/../venv/Lib"); QFileInfo venvDLLsPath(app_dir + "/../venv/DLLs"); QFileInfo venvSitePackagesPath(app_dir + "/../venv/Lib/site-packages"); QFileInfo venvPath(app_dir + "/../venv"); // Prepend the bin directory to the path add_to_path(path_env, venvBinPath.canonicalFilePath(), true); // Append paths, if they're not already there add_to_path(python_path, venvLibPath.canonicalFilePath()); add_to_path(python_path, venvDLLsPath.canonicalFilePath()); add_to_path(python_path, venvSitePackagesPath.canonicalFilePath()); add_to_path(pythonHome, venvPath.canonicalFilePath()); #else // Build (and canonicalise) the virtual environment path QFileInfo venvBinPath(app_dir + "/../venv/bin"); QFileInfo venvLibPath(app_dir + "/../venv/lib/python"); QFileInfo venvDynLibPath(app_dir + "/../venv/lib/python/lib-dynload"); QFileInfo venvSitePackagesPath(app_dir + "/../venv/lib/python/site-packages"); QFileInfo venvPath(app_dir + "/../venv"); // Prepend the bin directory to the path add_to_path(path_env, venvBinPath.canonicalFilePath(), true); // Append the path, if it's not already there add_to_path(python_path, venvLibPath.canonicalFilePath()); add_to_path(python_path, venvDynLibPath.canonicalFilePath()); add_to_path(python_path, venvSitePackagesPath.canonicalFilePath()); add_to_path(pythonHome, venvPath.canonicalFilePath()); #endif qputenv("PATH", path_env.toUtf8().data()); if (python_path.length() > 0) { // Split the path setting into individual entries path_list = python_path.split(";", QString::SkipEmptyParts); python_path = QString(); // Add new additional path elements for (i = path_list.size() - 1; i >= 0 ; --i) { python_path.append(path_list.at(i)); if (i > 0) { #if defined(Q_OS_WIN) python_path.append(";"); #else python_path.append(":"); #endif } } qputenv("PYTHONPATH", python_path.toUtf8().data()); } qDebug() << "Python path: " << python_path << "\nPython Home: " << pythonHome; if (!pythonHome.isEmpty()) { #ifdef PYTHON2 Py_SetPythonHome(pythonHome.toUtf8().data()); #else char *python_home = pythonHome.toUtf8().data(); const size_t cSize = strlen(python_home) + 1; wchar_t* wcPythonHome = new wchar_t[cSize]; mbstowcs (wcPythonHome, python_home, cSize); Py_SetPythonHome(wcPythonHome); #endif } Py_Initialize(); // Get the current path PyObject* sysPath = PySys_GetObject((char*)"path"); // Add new additional path elements for (i = path_list.size() - 1; i >= 0 ; --i) { #ifdef PYTHON2 PyList_Append(sysPath, PyString_FromString(path_list.at(i).toUtf8().data())); #else #if PY_MINOR_VERSION > 2 PyList_Append(sysPath, PyUnicode_DecodeFSDefault(path_list.at(i).toUtf8().data())); #else PyList_Append(sysPath, PyBytes_FromString(path_list.at(i).toUtf8().data())); #endif #endif } } Server::~Server() { if (m_wcAppName) delete m_wcAppName; // Shutdown Python Py_Finalize(); } bool Server::Init() { QSettings settings; // Find the webapp QStringList paths; paths.append("../web/"); // Linux source tree paths.append("../../web/"); // Windows source tree paths.append("../../../../web/"); // Mac source tree (in a dev env) #ifdef Q_OS_MAC paths.append("../Resources/web/"); // Mac source tree (in a release app bundle) #endif paths.append(settings.value("ApplicationPath").toString()); // System configured value paths.append(""); // Should be last! for (int i = 0; i < paths.size(); ++i) { QDir dir; if (paths[i].startsWith('/')) dir = paths[i]; else dir = QCoreApplication::applicationDirPath() + "/" + paths[i]; m_appfile = dir.canonicalPath() + "/pgAdmin4.py"; if (QFile::exists(m_appfile)) { qDebug() << "Webapp path: " << m_appfile; break; } } if (!QFile::exists(m_appfile)) { setError(tr("Failed to locate pgAdmin4.py, terminating server thread.")); return false; } return true; } void Server::run() { // Open the application code and run it. FILE *cp = fopen(m_appfile.toUtf8().data(), "r"); if (!cp) { setError(QString(tr("Failed to open the application file: %1, server thread exiting.")).arg(m_appfile)); return; } // Set the port number PyRun_SimpleString(QString("PGADMIN_PORT = %1").arg(m_port).toLatin1()); // Run the app! #ifdef PYTHON2 /* * Untrusted search path vulnerability in the PySys_SetArgv API function in Python 2.6 and earlier, and possibly later * versions, prepends an empty string to sys.path when the argv[0] argument does not contain a path separator, * which might allow local users to execute arbitrary code via a Trojan horse Python file in the current working directory. * Here we have to set arguments explicitly to python interpreter. Check more details in 'PySys_SetArgv' documentation. */ char* n_argv[] = { m_appfile.toUtf8().data() }; PySys_SetArgv(1, n_argv); PyObject* PyFileObject = PyFile_FromString(m_appfile.toUtf8().data(), (char *)"r"); int ret = PyRun_SimpleFile(PyFile_AsFile(PyFileObject), m_appfile.toUtf8().data()); if (ret != 0) setError(tr("Failed to launch the application server, server thread exiting.")); #else /* * Untrusted search path vulnerability in the PySys_SetArgv API function in Python 2.6 and earlier, and possibly later * versions, prepends an empty string to sys.path when the argv[0] argument does not contain a path separator, * which might allow local users to execute arbitrary code via a Trojan horse Python file in the current working directory. * Here we have to set arguments explicitly to python interpreter. Check more details in 'PySys_SetArgv' documentation. */ char *appName = m_appfile.toUtf8().data(); const size_t cSize = strlen(appName)+1; wchar_t* wcAppName = new wchar_t[cSize]; mbstowcs (wcAppName, appName, cSize); wchar_t* n_argv[] = { wcAppName }; PySys_SetArgv(1, n_argv); int fd = fileno(cp); PyObject* PyFileObject = PyFile_FromFd(fd, m_appfile.toUtf8().data(), (char *)"r", -1, NULL, NULL,NULL,1); if (PyRun_SimpleFile(fdopen(PyObject_AsFileDescriptor(PyFileObject),"r"), m_appfile.toUtf8().data()) != 0) setError(tr("Failed to launch the application server, server thread exiting.")); #endif fclose(cp); }