#!/usr/bin/python2.6 # # The Qubes OS Project, http://www.qubes-os.org # # Copyright (C) 2010 Joanna Rutkowska # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. # # import sys import os from PyQt4.QtCore import * from PyQt4.QtGui import * from qubes.qubes import QubesVmCollection from qubes.qubes import QubesException from qubes.qubes import qubes_store_filename from qubes.qubes import QubesVmLabels from qubes.qubes import dry_run from qubes.qubes import qubes_guid_path from qubes.qubes import QubesDaemonPidfile from qubes.qubes import QubesHost from qubes import qubesutils import qubesmanager.resources_rc import ui_newappvmdlg from ui_mainwindow import * from appmenu_select import AppmenuSelectWindow from settings import VMSettingsWindow from restore import RestoreVMsWindow from backup import BackupVMsWindow from global_settings import GlobalSettingsWindow from firewall import EditFwRulesDlg, QubesFirewallRulesModel from pyinotify import WatchManager, Notifier, ThreadedNotifier, EventsCodes, ProcessEvent import subprocess import time import threading from datetime import datetime,timedelta updates_stat_file = 'last_update.stat' qubes_guid_path = '/usr/bin/qubes_guid' update_suggestion_interval = 14 # 14 days class QubesConfigFileWatcher(ProcessEvent): def __init__ (self, update_func): self.update_func = update_func def process_IN_MODIFY (self, event): self.update_func() class VmStatusIcon(QLabel): def __init__(self, vm, parent=None): super (VmStatusIcon, self).__init__(parent) self.vm = vm (icon_pixmap, icon_sz) = self.set_vm_icon(self.vm) self.setPixmap (icon_pixmap) self.setFixedSize (icon_sz) self.previous_power_state = vm.last_power_state def update(self): if self.previous_power_state != self.vm.last_power_state: (icon_pixmap, icon_sz) = self.set_vm_icon(self.vm) self.setPixmap (icon_pixmap) self.setFixedSize (icon_sz) self.previous_power_state = self.vm.last_power_state def set_vm_icon(self, vm): if vm.qid == 0: icon = QIcon (":/dom0.png") elif vm.is_appvm(): icon = QIcon (vm.label.icon_path) elif vm.is_template(): icon = QIcon (":/templatevm.png") elif vm.is_netvm(): icon = QIcon (":/netvm.png") else: icon = QIcon() icon_sz = QSize (VmManagerWindow.row_height * 0.8, VmManagerWindow.row_height * 0.8) if vm.last_power_state: icon_pixmap = icon.pixmap(icon_sz) else: icon_pixmap = icon.pixmap(icon_sz, QIcon.Disabled) return (icon_pixmap, icon_sz) class VmInfoWidget (QWidget): def __init__(self, vm, parent = None): super (VmInfoWidget, self).__init__(parent) layout = QHBoxLayout () self.label_name = QLabel (vm.name) self.vm_icon = VmStatusIcon(vm) layout.addWidget(self.vm_icon) layout.addSpacing (10) layout.addWidget(self.label_name, alignment=Qt.AlignLeft) self.setLayout(layout) def update_vm_state (self, vm): self.vm_icon.update() class VmTemplateWidget (QWidget): def __init__(self, vm, parent=None): super(VmTemplateWidget, self).__init__(parent) layout = QVBoxLayout() if vm.template_vm is not None: self.label_tmpl = QLabel ("" + (vm.template_vm.name) + "") else: if vm.is_appvm(): # and vm.template_vm is None self.label_tmpl = QLabel ("StandaloneVM") elif vm.is_template(): self.label_tmpl = QLabel ("TemplateVM") elif vm.qid == 0: self.label_tmpl = QLabel ("AdminVM") elif vm.is_netvm(): self.label_tmpl = QLabel ("NetVM") else: self.label_tmpl = QLabel ("---") layout.addWidget(self.label_tmpl, alignment=Qt.AlignHCenter) self.setLayout(layout) class VmIconWidget (QWidget): def __init__(self, icon_path, enabled=True, parent=None): super(VmIconWidget, self).__init__(parent) label_icon = QLabel() icon = QIcon (icon_path) icon_sz = QSize (VmManagerWindow.row_height * 0.8, VmManagerWindow.row_height * 0.8) icon_pixmap = icon.pixmap(icon_sz, QIcon.Disabled if not enabled else QIcon.Normal) label_icon.setPixmap (icon_pixmap) label_icon.setFixedSize (icon_sz) layout = QVBoxLayout() layout.addWidget(label_icon) self.setLayout(layout) class VmNetvmWidget (QWidget): def __init__(self, vm, parent=None): super(VmNetvmWidget, self).__init__(parent) layout = QHBoxLayout() self.icon = VmIconWidget(":/networking.png", vm.is_networked()) if vm.is_netvm(): self.label_nvm = QLabel ("self") elif vm.netvm_vm is not None: self.label_nvm = QLabel ("" + (vm.netvm_vm.name) + "") else: self.label_nvm = QLabel ("None") layout.addWidget(self.icon, alignment=Qt.AlignLeft) layout.addWidget(self.label_nvm, alignment=Qt.AlignHCenter) self.setLayout(layout) class VmUsageBarWidget (QWidget): def __init__(self, min, max, format, update_func, vm, load, parent = None): super (VmUsageBarWidget, self).__init__(parent) self.min = min self.max = max self.update_func = update_func self.widget = QProgressBar() self.widget.setMinimum(min) self.widget.setMaximum(max) self.widget.setFormat(format); self.widget.setStyleSheet( "QProgressBar:horizontal{ \ border: 1px solid lightblue;\ border-radius: 4px;\ background: white;\ text-align: center;\ }\ QProgressBar::chunk:horizontal {\ background: qlineargradient(x1: 0, y1: 0.5, x2: 1, y2: 0.5, stop: 0 hsv(210, 170, 207), stop: 1 white);\ }" ) layout = QHBoxLayout() layout.addWidget(self.widget) self.setLayout(layout) self.update_load(vm, load) def update_load(self, vm, load): self.widget.setValue(self.update_func(vm, load)) class LoadChartWidget (QWidget): def __init__(self, vm, cpu_load = 0, parent = None): super (LoadChartWidget, self).__init__(parent) self.load = cpu_load if vm.last_power_state else 0 assert self.load >= 0 and self.load <= 100, "load = {0}".format(self.load) self.load_history = [self.load] def update_load (self, vm, cpu_load): self.load = cpu_load if vm.last_power_state else 0 assert self.load >= 0, "load = {0}".format(self.load) # assert self.load >= 0 and self.load <= 100, "load = {0}".format(self.load) if self.load > 100: # FIXME: This is an ugly workaround :/ self.load = 100 self.load_history.append (self.load) self.repaint() def paintEvent (self, Event = None): p = QPainter (self) dx = 4 W = self.width() H = self.height() - 5 N = len(self.load_history) if N > W/dx: tail = N - W/dx N = W/dx self.load_history = self.load_history[tail:] assert len(self.load_history) == N for i in range (0, N-1): val = self.load_history[N- i - 1] hue = 200 sat = 70 + val*(255-70)/100 color = QColor.fromHsv (hue, sat, 255) pen = QPen (color) pen.setWidth(dx-1) p.setPen(pen) if val > 0: p.drawLine (W - i*dx - dx, H , W - i*dx - dx, H - (H - 5) * val/100) class MemChartWidget (QWidget): def __init__(self, vm, parent = None): super (MemChartWidget, self).__init__(parent) self.load = vm.get_mem()*100/qubes_host.memory_total if vm.last_power_state else 0 assert self.load >= 0 and self.load <= 100, "mem = {0}".format(self.load) self.load_history = [self.load] def update_load (self, vm): self.load = vm.get_mem()*100/qubes_host.memory_total if vm.last_power_state else 0 assert self.load >= 0 and self.load <= 100, "load = {0}".format(self.load) self.load_history.append (self.load) self.repaint() def paintEvent (self, Event = None): p = QPainter (self) dx = 4 W = self.width() H = self.height() - 5 N = len(self.load_history) if N > W/dx: tail = N - W/dx N = W/dx self.load_history = self.load_history[tail:] assert len(self.load_history) == N for i in range (0, N-1): val = self.load_history[N- i - 1] hue = 120 sat = 70 + val*(255-70)/100 color = QColor.fromHsv (hue, sat, 255) pen = QPen (color) pen.setWidth(dx-1) p.setPen(pen) if val > 0: p.drawLine (W - i*dx - dx, H , W - i*dx - dx, H - (H - 5) * val/100) class VmUpdateInfoWidget(QWidget): def __init__(self, vm, show_text=True, parent = None): super (VmUpdateInfoWidget, self).__init__(parent) layout = QHBoxLayout () self.show_text = show_text if self.show_text: self.label=QLabel("") layout.addWidget(self.label, alignment=Qt.AlignCenter) else: self.icon = QLabel("") layout.addWidget(self.icon, alignment=Qt.AlignHCenter) self.setLayout(layout) self.previous_outdated = False self.previous_update_recommended = None def update_outdated(self, vm): outdated = vm.is_outdated() if outdated and not self.previous_outdated: self.update_status_widget("outdated") self.previous_outdated = outdated if vm.is_updateable(): update_recommended = self.previous_update_recommended stat_file = vm.dir_path + '/' + updates_stat_file if not os.path.exists(stat_file) or \ time.time() - os.path.getmtime(stat_file) > \ update_suggestion_interval * 24 * 3600: update_recommended = True else: update_recommended = False if not self.show_text and self.previous_update_recommended != False: self.update_status_widget("ok") if update_recommended and not self.previous_update_recommended: self.update_status_widget("update") self.previous_update_recommended = update_recommended def update_status_widget(self, state): if state == "ok": label_text = "" icon_path = ":/flag-green.png" tooltip_text = "VM up to date" elif state == "update": label_text = "Check updates" icon_path = ":/flag-yellow.png" tooltip_text = "Update recommended" elif state == "outdated": label_text = "VM outdated" icon_path = ":/flag-red.png" tooltip_text = "VM outdated" if self.show_text: self.label.setText(label_text) else: self.layout().removeWidget(self.icon) self.icon.deleteLater() self.icon = VmIconWidget(icon_path, True) self.icon.setToolTip(tooltip_text) self.layout().addWidget(self.icon, alignment=Qt.AlignCenter) class VmBlockDevicesWidget(QWidget): def __init__(self, vm, parent=None): super(VmBlockDevicesWidget, self).__init__(parent) combo = QComboBox() combo.addItem("USB dummy1") combo.addItem("USB dummy2") combo.addItem("USB dummy3") layout = QVBoxLayout() layout.addWidget(combo) self.setLayout(layout) class VmRowInTable(object): def __init__(self, vm, row_no, table): self.vm = vm self.row_no = row_no table.setRowHeight (row_no, VmManagerWindow.row_height) self.info_widget = VmInfoWidget(vm) table.setCellWidget(row_no, 0, self.info_widget) self.upd_widget = VmUpdateInfoWidget(vm, False) table.setCellWidget(row_no, 1, self.upd_widget) self.template_widget = VmTemplateWidget(vm) table.setCellWidget(row_no, 2, self.template_widget) self.netvm_widget = VmNetvmWidget(vm) table.setCellWidget(row_no, 3, self.netvm_widget) self.cpu_usage_widget = VmUsageBarWidget(0, 100, "", lambda vm, val: val if vm.last_power_state else 0, vm, 0) table.setCellWidget(row_no, 4, self.cpu_usage_widget) self.load_widget = LoadChartWidget(vm) table.setCellWidget(row_no, 5, self.load_widget) self.mem_usage_widget = VmUsageBarWidget(0, qubes_host.memory_total/1024, "%v MB", lambda vm, val: vm.get_mem()/1024 if vm.last_power_state else 0, vm, 0) table.setCellWidget(row_no, 6, self.mem_usage_widget) self.mem_widget = MemChartWidget(vm) table.setCellWidget(row_no, 7, self.mem_widget) self.updateinfo_widget = VmUpdateInfoWidget(vm, True) table.setCellWidget(row_no, 8, self.updateinfo_widget) self.blockdevices_widget = VmBlockDevicesWidget(vm) table.setCellWidget(row_no, 9, self.blockdevices_widget) def update(self, counter, cpu_load = None): self.info_widget.update_vm_state(self.vm) if cpu_load is not None: self.cpu_usage_widget.update_load(self.vm, cpu_load) self.mem_usage_widget.update_load(self.vm, None) self.load_widget.update_load(self.vm, cpu_load) self.mem_widget.update_load(self.vm) self.updateinfo_widget.update_outdated(self.vm) self.upd_widget.update_outdated(self.vm) class NewAppVmDlg (QDialog, ui_newappvmdlg.Ui_NewAppVMDlg): def __init__(self, parent = None): super (NewAppVmDlg, self).__init__(parent) self.setupUi(self) vm_shutdown_timeout = 15000 # in msec class VmShutdownMonitor(QObject): def __init__(self, vm): self.vm = vm def check_if_vm_has_shutdown(self): vm = self.vm vm_start_time = vm.get_start_time() if not vm.is_running() or (vm_start_time and vm_start_time >= datetime.utcnow() - timedelta(0,vm_shutdown_timeout/1000)): if vm.is_template(): trayIcon.showMessage ("Qubes Manager", "You have just modified template '{0}'. You should now restart all the VMs based on it, so they could see the changes.".format(vm.name), msecs=8000) return reply = QMessageBox.question(None, "VM Shutdown", "The VM '{0}' hasn't shutdown within the last {1} seconds, do you want to kill it?
".format(vm.name, vm_shutdown_timeout/1000), "Kill it!", "Wait another {0} seconds...".format(vm_shutdown_timeout/1000)) if reply == 0: vm.force_shutdown() else: QTimer.singleShot (vm_shutdown_timeout, self.check_if_vm_has_shutdown) class ThreadMonitor(QObject): def __init__(self): self.success = True self.error_msg = None self.event_finished = threading.Event() def set_error_msg(self, error_msg): self.success = False self.error_msg = error_msg self.set_finished() def is_finished(self): return self.event_finished.is_set() def set_finished(self): self.event_finished.set() class VmManagerWindow(Ui_VmManagerWindow, QMainWindow): row_height = 30 column_width = 200 max_visible_rows = 7 update_interval = 1000 # in msec show_inactive_vms = True columns_indices = { "Name": 0, "Upd": 1, "Template": 2, "NetVM": 3, "CPU": 4, "CPU Graph": 5, "MEM": 6, "MEM Graph": 7, "Update Info": 8, "Block Device": 9 } def __init__(self, parent=None): super(VmManagerWindow, self).__init__() self.setupUi(self) self.toolbar = self.toolBar self.qvm_collection = QubesVmCollection() self.connect(self.table, SIGNAL("itemSelectionChanged()"), self.table_selection_changed) cur_pos = self.pos() self.table.setColumnWidth(0, self.column_width) self.setSizeIncrement(QtCore.QSize(200, 30)) self.centralwidget.setSizeIncrement(QtCore.QSize(200, 30)) self.table.setSizeIncrement(QtCore.QSize(200, 30)) self.fill_table() self.move(cur_pos) self.table.setColumnHidden( self.columns_indices["NetVM"], True) self.actionNetVM.setChecked(False) self.table.setColumnHidden( self.columns_indices["Update Info"], True) self.actionUpdate_Info.setChecked(False) self.table.setColumnHidden( self.columns_indices["CPU Graph"], True) self.actionCPU_Graph.setChecked(False) self.table.setColumnHidden( self.columns_indices["MEM Graph"], True) self.actionMEM_Graph.setChecked(False) self.table.setColumnHidden( self.columns_indices["Block Device"], True) self.actionBlock_Devices.setChecked(False) self.table.setColumnWidth(self.columns_indices["Upd"], 50) #self.table.setFrameShape(QFrame.NoFrame) self.table.setContentsMargins(0,0,0,0) self.centralwidget.layout().setContentsMargins(0,0,0,0) self.layout().setContentsMargins(0,0,0,0) self.counter = 0 self.shutdown_monitor = {} self.last_measure_results = {} self.last_measure_time = time.time() QTimer.singleShot (self.update_interval, self.update_table) def show(self): super(VmManagerWindow, self).show() self.set_table_geom_height() self.update_table_columns() def set_table_geom_height(self): minH = self.table.horizontalHeader().height() +\ 2*self.table.frameWidth() #All this sizing is kind of magic, so change it only if you have to #or if you know what you're doing :) n = self.table.rowCount(); maxH = minH if n >= self.max_visible_rows: minH += self.max_visible_rows*self.row_height maxH += n*self.row_height else: minH += n*self.row_height maxH = minH self.centralwidget.setMinimumHeight(minH) self.centralwidget.setMaximumHeight(maxH) mainwindow_to_add = self.menubar.height() +\ self.toolbar.height() + \ self.menubar.contentsMargins().top() + self.menubar.contentsMargins().bottom() +\ self.toolbar.contentsMargins().top() + self.toolbar.contentsMargins().bottom() maxH += mainwindow_to_add minH += mainwindow_to_add self.setMaximumHeight(maxH) self.setMinimumHeight(minH) def get_vms_list(self): self.qvm_collection.lock_db_for_reading() self.qvm_collection.load() self.qvm_collection.unlock_db() vms_list = [vm for vm in self.qvm_collection.values()] for vm in vms_list: vm.last_power_state = vm.is_running() no_vms = len (vms_list) vms_to_display = [] # First, the NetVMs... for netvm in vms_list: if netvm.is_netvm(): vms_to_display.append (netvm) # Now, the templates... for tvm in vms_list: if tvm.is_template(): vms_to_display.append (tvm) label_list = QubesVmLabels.values() label_list.sort(key=lambda l: l.index) for label in [label.name for label in label_list]: for appvm in [vm for vm in vms_list if ((vm.is_appvm() or vm.is_disposablevm()) and vm.label.name == label)]: vms_to_display.append(appvm) assert len(vms_to_display) == no_vms return vms_to_display def fill_table(self): #self.table.clear() vms_list = self.get_vms_list() self.table.setRowCount(len(vms_list)) vms_in_table = [] row_no = 0 for vm in vms_list: if (not self.show_inactive_vms) and (not vm.last_power_state): continue if vm.internal: continue vm_row = VmRowInTable (vm, row_no, self.table) vms_in_table.append (vm_row) row_no += 1 self.table.setRowCount(row_no) self.vms_list = vms_list self.vms_in_table = vms_in_table self.reload_table = False def mark_table_for_update(self): self.reload_table = True # When calling update_table() directly, always use out_of_schedule=True! def update_table(self, out_of_schedule=False): if manager_window.isVisible(): some_vms_have_changed_power_state = False for vm in self.vms_list: state = vm.is_running(); if vm.last_power_state != state: vm.last_power_state = state some_vms_have_changed_power_state = True if self.reload_table or ((not self.show_inactive_vms) and some_vms_have_changed_power_state): self.fill_table() if self.counter % 3 == 0 or out_of_schedule: (self.last_measure_time, self.last_measure_results) = \ qubes_host.measure_cpu_usage(self.last_measure_results, self.last_measure_time) for vm_row in self.vms_in_table: cur_cpu_load = None if vm_row.vm.get_xid() in self.last_measure_results: cur_cpu_load = self.last_measure_results[vm_row.vm.xid]['cpu_usage'] else: cur_cpu_load = 0 vm_row.update(self.counter, cpu_load = cur_cpu_load) else: for vm_row in self.vms_in_table: vm_row.update(self.counter) #self.table_selection_changed() if not out_of_schedule: self.counter += 1 QTimer.singleShot (self.update_interval, self.update_table) def update_table_columns(self): table_width = self.table.horizontalHeader().length() +\ self.table.verticalScrollBar().width() + \ 2*self.table.frameWidth() + 1 self.table.setFixedWidth( table_width ) self.centralwidget.setFixedWidth(table_width) self.setFixedWidth(table_width) def table_selection_changed (self): vm = self.get_selected_vm() # Update available actions: self.action_settings.setEnabled(True) self.action_removevm.setEnabled(not vm.installed_by_rpm and not vm.last_power_state) self.action_resumevm.setEnabled(not vm.last_power_state) self.action_pausevm.setEnabled(vm.last_power_state and vm.qid != 0) self.action_shutdownvm.setEnabled(not vm.is_netvm() and vm.last_power_state and vm.qid != 0) self.action_appmenus.setEnabled(not vm.is_netvm()) self.action_editfwrules.setEnabled(vm.is_networked() and not (vm.is_netvm() and not vm.is_proxyvm())) self.action_updatevm.setEnabled(vm.is_updateable() or vm.qid == 0) def closeEvent (self, event): if event.spontaneous(): # There is something borked in Qt, as the logic here is inverted on X11 self.hide() event.ignore() @pyqtSlot(name='on_action_createvm_triggered') def action_createvm_triggered(self): dialog = NewAppVmDlg() print "Create VM triggered!\n" # Theoretically we should be locking for writing here and unlock # only after the VM creation finished. But the code would be more messy... # Instead we lock for writing in the actual worker thread self.qvm_collection.lock_db_for_reading() self.qvm_collection.load() self.qvm_collection.unlock_db() label_list = QubesVmLabels.values() label_list.sort(key=lambda l: l.index) for (i, label) in enumerate(label_list): dialog.vmlabel.insertItem(i, label.name) dialog.vmlabel.setItemIcon (i, QIcon(label.icon_path)) template_vm_list = [vm for vm in self.qvm_collection.values() if not vm.internal and vm.is_template()] default_index = 0 for (i, vm) in enumerate(template_vm_list): if vm is self.qvm_collection.get_default_template_vm(): default_index = i dialog.template_name.insertItem(i, vm.name + " (default)") else: dialog.template_name.insertItem(i, vm.name) dialog.template_name.setCurrentIndex(default_index) dialog.vmname.selectAll() dialog.vmname.setFocus() if dialog.exec_(): vmname = str(dialog.vmname.text()) if self.qvm_collection.get_vm_by_name(vmname) is not None: QMessageBox.warning (None, "Incorrect AppVM Name!", "A VM with the name {0} already exists in the system!".format(vmname)) return label = label_list[dialog.vmlabel.currentIndex()] template_vm = template_vm_list[dialog.template_name.currentIndex()] allow_networking = dialog.allow_networking.isChecked() thread_monitor = ThreadMonitor() thread = threading.Thread (target=self.do_create_appvm, args=(vmname, label, template_vm, allow_networking, thread_monitor)) thread.daemon = True thread.start() progress = QProgressDialog ("Creating new AppVM {0}...".format(vmname), "", 0, 0) progress.setCancelButton(None) progress.setModal(True) progress.show() while not thread_monitor.is_finished(): app.processEvents() time.sleep (0.1) progress.hide() if thread_monitor.success: trayIcon.showMessage ("Qubes Manager", "VM '{0}' has been created.".format(vmname), msecs=3000) else: QMessageBox.warning (None, "Error creating AppVM!", "ERROR: {0}".format(thread_monitor.error_msg)) def do_create_appvm (self, vmname, label, template_vm, allow_networking, thread_monitor): vm = None try: self.qvm_collection.lock_db_for_writing() self.qvm_collection.load() vm = self.qvm_collection.add_new_appvm(vmname, template_vm, label = label) vm.create_on_disk(verbose=False) firewall = vm.get_firewall_conf() firewall["allow"] = allow_networking firewall["allowDns"] = allow_networking vm.write_firewall_conf(firewall) self.qvm_collection.save() except Exception as ex: thread_monitor.set_error_msg (str(ex)) if vm: vm.remove_from_disk() finally: self.qvm_collection.unlock_db() thread_monitor.set_finished() def get_selected_vm(self): row_index = self.table.currentRow() assert self.vms_in_table[row_index] is not None vm = self.vms_in_table[row_index].vm return vm @pyqtSlot(name='on_action_removevm_triggered') def action_removevm_triggered(self): vm = self.get_selected_vm() assert not vm.is_running() assert not vm.installed_by_rpm self.qvm_collection.lock_db_for_reading() self.qvm_collection.load() self.qvm_collection.unlock_db() if vm.is_template(): dependent_vms = self.qvm_collection.get_vms_based_on(vm.qid) if len(dependent_vms) > 0: QMessageBox.warning (None, "Warning!", "This Template VM cannot be removed, because there is at least one AppVM that is based on it.
" "If you want to remove this Template VM and all the AppVMs based on it," "you should first remove each individual AppVM that uses this template.") return reply = QMessageBox.question(None, "VM Removal Confirmation", "Are you sure you want to remove the VM '{0}'?
" "All data on this VM's private storage will be lost!".format(vm.name), QMessageBox.Yes | QMessageBox.Cancel) if reply == QMessageBox.Yes: thread_monitor = ThreadMonitor() thread = threading.Thread (target=self.do_remove_vm, args=(vm, thread_monitor)) thread.daemon = True thread.start() progress = QProgressDialog ("Removing VM: {0}...".format(vm.name), "", 0, 0) progress.setCancelButton(None) progress.setModal(True) progress.show() while not thread_monitor.is_finished(): app.processEvents() time.sleep (0.1) progress.hide() if thread_monitor.success: trayIcon.showMessage ("Qubes Manager", "VM '{0}' has been removed.".format(vm.name), msecs=3000) else: QMessageBox.warning (None, "Error removing VM!", "ERROR: {0}".format(thread_monitor.error_msg)) def do_remove_vm (self, vm, thread_monitor): try: self.qvm_collection.lock_db_for_writing() self.qvm_collection.load() #TODO: the following two conditions should really be checked by qvm_collection.pop() overload... if vm.is_template() and qvm_collection.default_template_qid == vm.qid: qvm_collection.default_template_qid = None if vm.is_netvm() and qvm_collection.default_netvm_qid == vm.qid: qvm_collection.default_netvm_qid = None vm.remove_from_disk() self.qvm_collection.pop(vm.qid) self.qvm_collection.save() except Exception as ex: thread_monitor.set_error_msg (str(ex)) finally: self.qvm_collection.unlock_db() thread_monitor.set_finished() @pyqtSlot(name='on_action_resumevm_triggered') def action_resumevm_triggered(self): vm = self.get_selected_vm() assert not vm.is_running() if vm.is_paused(): try: subprocess.check_call (["/usr/sbin/xl", "unpause", vm.name]) except Exception as ex: QMessageBox.warning (None, "Error unpausing VM!", "ERROR: {0}".format(ex)) return thread_monitor = ThreadMonitor() thread = threading.Thread (target=self.do_start_vm, args=(vm, thread_monitor)) thread.daemon = True thread.start() trayIcon.showMessage ("Qubes Manager", "Starting '{0}'...".format(vm.name), msecs=3000) while not thread_monitor.is_finished(): app.processEvents() time.sleep (0.1) if thread_monitor.success: trayIcon.showMessage ("Qubes Manager", "VM '{0}' has been started.".format(vm.name), msecs=3000) else: QMessageBox.warning (None, "Error starting VM!", "ERROR: {0}".format(thread_monitor.error_msg)) def do_start_vm(self, vm, thread_monitor): try: vm.verify_files() xid = vm.start() except Exception as ex: thread_monitor.set_error_msg(str(ex)) thread_monitor.set_finished() return retcode = subprocess.call ([qubes_guid_path, "-d", str(xid), "-c", vm.label.color, "-i", vm.label.icon, "-l", str(vm.label.index)]) if (retcode != 0): thread_monitor.set_error_msg("Cannot start qubes_guid!") thread_monitor.set_finished() @pyqtSlot(name='on_action_pausevm_triggered') def action_pausevm_triggered(self): vm = self.get_selected_vm() assert vm.is_running() try: subprocess.check_call (["/usr/sbin/xl", "pause", vm.name]) except Exception as ex: QMessageBox.warning (None, "Error pausing VM!", "ERROR: {0}".format(ex)) return @pyqtSlot(name='on_action_shutdownvm_triggered') def action_shutdownvm_triggered(self): vm = self.get_selected_vm() assert vm.is_running() reply = QMessageBox.question(None, "VM Shutdown Confirmation", "Are you sure you want to power down the VM '{0}'?
" "This will shutdown all the running applications within this VM.".format(vm.name), QMessageBox.Yes | QMessageBox.Cancel) app.processEvents() if reply == QMessageBox.Yes: try: subprocess.check_call (["/usr/sbin/xl", "shutdown", vm.name]) except Exception as ex: QMessageBox.warning (None, "Error shutting down VM!", "ERROR: {0}".format(ex)) return trayIcon.showMessage ("Qubes Manager", "VM '{0}' is shutting down...".format(vm.name), msecs=3000) self.shutdown_monitor[vm.qid] = VmShutdownMonitor (vm) QTimer.singleShot (vm_shutdown_timeout, self.shutdown_monitor[vm.qid].check_if_vm_has_shutdown) @pyqtSlot(name='on_action_settings_triggered') def action_settings_triggered(self): vm = self.get_selected_vm() settings_window = VMSettingsWindow(vm, 1) settings_window.exec_() @pyqtSlot(name='on_action_appmenus_triggered') def action_appmenus_triggered(self): vm = self.get_selected_vm() select_window = AppmenuSelectWindow(vm) select_window.exec_() @pyqtSlot(name='on_action_updatevm_triggered') def action_updatevm_triggered(self): vm = self.get_selected_vm() if not vm.is_running(): reply = QMessageBox.question(None, "VM Update Confirmation", "VM need to be running for update. Do you want to start this VM?
", QMessageBox.Yes | QMessageBox.Cancel) if reply != QMessageBox.Yes: return trayIcon.showMessage ("Qubes Manager", "Starting '{0}'...".format(vm.name), msecs=3000) app.processEvents() thread_monitor = ThreadMonitor() thread = threading.Thread (target=self.do_update_vm, args=(vm, thread_monitor)) thread.daemon = True thread.start() while not thread_monitor.is_finished(): app.processEvents() time.sleep (0.2) if vm.qid != 0: if thread_monitor.success: # gpk-update-viewer was started, don't know if user installs updates, but touch stat file anyway open(vm.dir_path + '/' + updates_stat_file, 'w').close() else: QMessageBox.warning (None, "Error VM update!", "ERROR: {0}".format(thread_monitor.error_msg)) def do_update_vm(self, vm, thread_monitor): try: if vm.qid == 0: subprocess.check_call (["/usr/bin/qvm-dom0-update", "--gui"]) else: qubesutils.run_in_vm(vm, "user:gpk-update-viewer", verbose=False, autostart=True) except Exception as ex: thread_monitor.set_error_msg(str(ex)) thread_monitor.set_finished() return thread_monitor.set_finished() @pyqtSlot(name='on_action_showallvms_triggered') def action_showallvms_triggered(self): self.show_inactive_vms = self.action_showallvms.isChecked() self.mark_table_for_update() self.update_table(out_of_schedule = True) self.set_table_geom_height() @pyqtSlot(name='on_action_editfwrules_triggered') def action_editfwrules_triggered(self): vm = self.get_selected_vm() dialog = EditFwRulesDlg() model = QubesFirewallRulesModel() model.set_vm(vm) dialog.set_model(model) if vm.netvm_vm is not None and not vm.netvm_vm.is_proxyvm(): QMessageBox.warning (None, "VM configuration problem!", "The '{0}' AppVM is not network connected to a FirewallVM!

".format(vm.name) +\ "You may edit the '{0}' VM firewall rules, but these will not take any effect until you connect it to a working Firewall VM.".format(vm.name)) if dialog.exec_(): model.apply_rules() @pyqtSlot(name='on_action_global_settings_triggered') def action_global_settings_triggered(self): global_settings_window = GlobalSettingsWindow() global_settings_window.exec_() @pyqtSlot(name='on_action_restore_triggered') def action_restore_triggered(self): restore_window = RestoreVMsWindow() restore_window.exec_() @pyqtSlot(name='on_action_backup_triggered') def action_backup_triggered(self): backup_window = BackupVMsWindow() backup_window.exec_() def showhide_collumn(self, col_num, show): self.table.setColumnHidden( col_num, not show) self.update_table_columns() def on_actionUpd_toggled(self, checked): self.showhide_collumn( self.columns_indices['Upd'], checked) def on_actionTemplate_toggled(self, checked): self.showhide_collumn( self.columns_indices['Template'], checked) def on_actionNetVM_toggled(self, checked): self.showhide_collumn( self.columns_indices['NetVM'], checked) def on_actionCPU_toggled(self, checked): self.showhide_collumn( self.columns_indices['CPU'], checked) def on_actionCPU_Graph_toggled(self, checked): self.showhide_collumn( self.columns_indices['CPU Graph'], checked) def on_actionMEM_toggled(self, checked): self.showhide_collumn( self.columns_indices['MEM'], checked) def on_actionMEM_Graph_toggled(self, checked): self.showhide_collumn( self.columns_indices['MEM Graph'], checked) def on_actionUpdate_Info_toggled(self, checked): self.showhide_collumn( self.columns_indices['Update Info'], checked) def on_actionBlock_Devices_toggled(self, checked): self.showhide_collumn( self.columns_indices['Block Device'], checked) class QubesTrayIcon(QSystemTrayIcon): def __init__(self, icon): QSystemTrayIcon.__init__(self, icon) self.menu = QMenu() action_showmanager = self.createAction ("Open VM Manager", slot=show_manager, icon="qubes") action_backup = self.createAction ("Make backup") action_preferences = self.createAction ("Preferences") action_set_netvm = self.createAction ("Set default NetVM", icon="networking") action_sys_info = self.createAction ("System Info", icon="dom0") action_exit = self.createAction ("Exit", slot=exit_app) action_backup.setDisabled(True) action_preferences.setDisabled(True) action_set_netvm.setDisabled(True) action_sys_info.setDisabled(True) self.addActions (self.menu, (action_showmanager, action_backup, action_sys_info, None, action_preferences, action_set_netvm, None, action_exit)) self.setContextMenu(self.menu) self.connect (self, SIGNAL("activated (QSystemTrayIcon::ActivationReason)"), self.icon_clicked) def icon_clicked(self, reason): if reason == QSystemTrayIcon.Context: # Handle the right click normally, i.e. display the context menu return else: toggle_manager() def addActions(self, target, actions): for action in actions: if action is None: target.addSeparator() else: target.addAction(action) def createAction(self, text, slot=None, shortcut=None, icon=None, tip=None, checkable=False, signal="triggered()"): action = QAction(text, self) if icon is not None: action.setIcon(QIcon(":/%s.png" % icon)) if shortcut is not None: action.setShortcut(shortcut) if tip is not None: action.setToolTip(tip) action.setStatusTip(tip) if slot is not None: self.connect(action, SIGNAL(signal), slot) if checkable: action.setCheckable(True) return action def show_manager(): manager_window.show() def toggle_manager(): if manager_window.isVisible(): manager_window.hide() else: manager_window.show() manager_window.update_table(True) def exit_app(): notifier.stop() app.exit() # Bases on the original code by: # Copyright (c) 2002-2007 Pascal Varet def handle_exception( exc_type, exc_value, exc_traceback ): import sys import os.path import traceback filename, line, dummy, dummy = traceback.extract_tb( exc_traceback ).pop() filename = os.path.basename( filename ) error = "%s: %s" % ( exc_type.__name__, exc_value ) QMessageBox.critical(None, "Houston, we have a problem...", "Whoops. A critical error has occured. This is most likely a bug " "in Qubes Manager.

" "%s" % error + "at line %d of file %s.

" % ( line, filename )) #sys.exit(1) def main(): # Avoid starting more than one instance of the app lock = QubesDaemonPidfile ("qubes-manager") if lock.pidfile_exists(): if lock.pidfile_is_stale(): lock.remove_pidfile() print "Removed stale pidfile (has the previous daemon instance crashed?)." else: exit (0) lock.create_pidfile() global qubes_host qubes_host = QubesHost() global app app = QApplication(sys.argv) app.setOrganizationName("The Qubes Project") app.setOrganizationDomain("http://qubes-os.org") app.setApplicationName("Qubes VM Manager") app.setWindowIcon(QIcon(":/qubes.png")) sys.excepthook = handle_exception global manager_window manager_window = VmManagerWindow() wm = WatchManager() mask = EventsCodes.OP_FLAGS.get('IN_MODIFY') global notifier notifier = ThreadedNotifier(wm, QubesConfigFileWatcher(manager_window.mark_table_for_update)) notifier.start() wdd = wm.add_watch(qubes_store_filename, mask) global trayIcon trayIcon = QubesTrayIcon(QIcon(":/qubes.png")) trayIcon.show() app.exec_() trayIcon = None