#!/usr/bin/python2 # # 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 import signal import fcntl import errno import dbus import dbus.service from dbus.mainloop.qt import DBusQtMainLoop from PyQt4.QtCore import * from PyQt4.QtGui import * from qubes.qubes import QubesVmCollection from qubes.qubes import QubesException from qubes.qubes import system_path,vm_files from qubes.qubes import QubesVmLabels from qubes.qubes import dry_run from qubes.qubes import QubesDaemonPidfile from qubes.qubes import QubesHost from qubes import qubes from qubes import qubesutils import qubesmanager.resources_rc import ui_newappvmdlg from ui_mainwindow import * from create_new_vm import NewVmDlg from settings import VMSettingsWindow from restore import RestoreVMsWindow from backup import BackupVMsWindow from global_settings import GlobalSettingsWindow from log_dialog import LogDialog from thread_monitor import * from pyinotify import WatchManager, Notifier, ThreadedNotifier, EventsCodes, ProcessEvent import subprocess import time from datetime import datetime,timedelta qubes_dom0_updates_stat_file = '/var/lib/qubes/updates/dom0-updates-available' qubes_clipboard_info_file = "/var/run/qubes/qubes-clipboard.bin.source" update_suggestion_interval = 14 # 14 days dbus_object_path = '/org/qubesos/QubesManager' dbus_interface = 'org.qubesos.QubesManager' system_bus = None session_bus = None power_order = Qt.DescendingOrder update_order = Qt.AscendingOrder class QubesManagerFileWatcher(ProcessEvent): def __init__ (self, update_func): self.update_func = update_func def process_IN_MODIFY (self, event): if event.path == system_path["qubes_store_filename"]: self.update_func() def process_IN_CLOSE_WRITE (self, event): if event.path == qubes_clipboard_info_file: src_info_file = open (qubes_clipboard_info_file, 'r') src_vmname = src_info_file.readline().strip('\n') if src_vmname == "": trayIcon.showMessage("Qubes Clipboard has been copied to the VM and wiped.\n"\ "Trigger a paste operation (e.g. Ctrl-v) to insert it into an application.", msecs=3000) else: print src_vmname trayIcon.showMessage("Qubes Clipboard fetched from VM: '{0}'\n"\ "Press Ctrl-Shift-v to copy this clipboard onto dest VM's clipboard.".format(src_vmname), msecs=3000) src_info_file.close() class VmIconWidget (QWidget): def __init__(self, icon_path, enabled=True, size_multiplier=0.7, tooltip = None, parent=None): super(VmIconWidget, self).__init__(parent) self.label_icon = QLabel() icon = QIcon (icon_path) icon_sz = QSize (VmManagerWindow.row_height * size_multiplier, VmManagerWindow.row_height * size_multiplier) icon_pixmap = icon.pixmap(icon_sz, QIcon.Disabled if not enabled else QIcon.Normal) self.label_icon.setPixmap (icon_pixmap) self.label_icon.setFixedSize (icon_sz) if tooltip != None: self.label_icon.setToolTip(tooltip) layout = QHBoxLayout() layout.addWidget(self.label_icon) layout.setContentsMargins(0,0,0,0) self.setLayout(layout) def setToolTip(self, tooltip): if tooltip is not None: self.label_icon.setToolTip(tooltip) else: self.label_icon.setToolTip('') class VmTypeWidget(VmIconWidget): class VmTypeItem(QTableWidgetItem): def __init__(self, value): super(VmTypeWidget.VmTypeItem, self).__init__() self.value = value def set_value(self, value): self.value = value def __lt__(self, other): return self.value < other.value def __init__(self, vm, parent=None): (icon_path, tooltip) = self.get_vm_icon(vm) super (VmTypeWidget, self).__init__(icon_path, True, 0.8, tooltip, parent) self.vm = vm self.tableItem = self.VmTypeItem(self.value) def get_vm_icon(self, vm): if vm.qid == 0: self.value = 0 return (":/dom0.png", "Dom0") elif vm.is_netvm() and not vm.is_proxyvm(): self.value = 1 return (":/netvm.png", "NetVM") elif vm.is_proxyvm(): self.value = 2 return (":/proxyvm.png", "ProxyVM") elif vm.is_template(): self.value = 3 return (":/templatevm.png", "TemplateVM") elif vm.is_appvm() and vm.template is None: self.value = 4 return (":/standalonevm.png", "StandaloneVM") elif vm.type == "HVM": self.value = 5 return (":/hvm.png", "HVM") elif vm.is_appvm() or vm.is_disposablevm(): self.value = 5 + vm.label.index return (":/appvm.png", "AppVM") class VmLabelWidget(VmIconWidget): class VmLabelItem(QTableWidgetItem): def __init__(self, value): super(VmLabelWidget.VmLabelItem, self).__init__() self.value = value def set_value(self, value): self.value = value def __lt__(self, other): return self.value < other.value def __init__(self, vm, parent=None): icon_path = self.get_vm_icon_path(vm) super (VmLabelWidget, self).__init__(icon_path, True, 0.8, None, parent) self.vm = vm self.tableItem = self.VmLabelItem(self.value) def get_vm_icon_path(self, vm): if vm.qid == 0: self.value = 100 return ":/off.png" else: self.value = vm.label.index return vm.label.icon_path class VmNameItem (QTableWidgetItem): def __init__(self, vm): super(VmNameItem, self).__init__() self.setFlags(Qt.ItemIsSelectable|Qt.ItemIsEnabled) self.setText(vm.name) self.setTextAlignment(Qt.AlignVCenter) self.qid = vm.qid class VmStatusIcon(QLabel): def __init__(self, vm, parent=None): super (VmStatusIcon, self).__init__(parent) self.vm = vm self.set_on_icon() self.previous_power_state = vm.last_power_state def update(self): if self.previous_power_state != self.vm.last_power_state: self.set_on_icon() self.previous_power_state = self.vm.last_power_state def set_on_icon(self): if self.vm.last_power_state == "Running": icon = QIcon (":/on.png") elif self.vm.last_power_state in ["Paused"]: icon = QIcon (":/paused.png") elif self.vm.last_power_state in ["Transient", "Halting", "Dying"]: icon = QIcon (":/transient.png") else: icon = QIcon (":/off.png") icon_sz = QSize (VmManagerWindow.row_height * 0.5, VmManagerWindow.row_height *0.5) icon_pixmap = icon.pixmap(icon_sz) self.setPixmap (icon_pixmap) self.setFixedSize (icon_sz) class VmInfoWidget (QWidget): class VmInfoItem (QTableWidgetItem): def __init__(self, upd_info_item, vm): super(VmInfoWidget.VmInfoItem, self).__init__() self.upd_info_item = upd_info_item self.vm = vm def __lt__(self, other): self_val = self.upd_info_item.value other_val = other.upd_info_item.value if self.tableWidget().horizontalHeader().sortIndicatorOrder() == update_order: # the result will be sorted by upd, sorting order: Ascending self_val += 1 if self.vm.is_running() else 0 other_val += 1 if other.vm.is_running() else 0 return (self_val) > (other_val) elif self.tableWidget().horizontalHeader().sortIndicatorOrder() == power_order: #the result will be sorted by power state, sorting order: Descending self_val = -(self_val/10 + 10*(1 if self.vm.is_running() else 0)) other_val = -(other_val/10 + 10*(1 if other.vm.is_running() else 0)) return (self_val) > (other_val) else: #it would be strange if this happened return def __init__(self, vm, parent = None): super (VmInfoWidget, self).__init__(parent) self.vm = vm layout = QHBoxLayout () self.on_icon = VmStatusIcon(vm) self.upd_info = VmUpdateInfoWidget(vm, show_text=False) self.error_icon = VmIconWidget(":/warning.png") self.blk_icon = VmIconWidget(":/mount.png") self.rec_icon = VmIconWidget(":/mic.png") layout.addWidget(self.on_icon) layout.addWidget(self.upd_info) layout.addWidget(self.error_icon) layout.addItem(QSpacerItem(0, 10, QSizePolicy.Expanding, QtGui.QSizePolicy.Expanding)) layout.addWidget(self.blk_icon) layout.addWidget(self.rec_icon) layout.setContentsMargins(5,0,5,0) self.setLayout(layout) self.rec_icon.setVisible(False) self.blk_icon.setVisible(False) self.error_icon.setVisible(False) self.tableItem = self.VmInfoItem(self.upd_info.tableItem, vm) def update_vm_state(self, vm, blk_visible, rec_visible=None): self.on_icon.update() self.upd_info.update_outdated(vm) if blk_visible != None: self.blk_icon.setVisible(blk_visible) if rec_visible != None: self.rec_icon.setVisible(rec_visible) self.error_icon.setToolTip(vm.error_msg) self.error_icon.setVisible(vm.error_msg is not None) class VmTemplateItem (QTableWidgetItem): def __init__(self, vm): super(VmTemplateItem, self).__init__() self.setFlags(Qt.ItemIsSelectable|Qt.ItemIsEnabled) if vm.template is not None: self.setText(vm.template.name) else: font = QFont() font.setStyle(QFont.StyleItalic) self.setFont(font) self.setTextColor(QColor("gray")) if vm.is_appvm(): # and vm.template is None self.setText("StandaloneVM") elif vm.is_template(): self.setText("TemplateVM") elif vm.qid == 0: self.setText("AdminVM") elif vm.is_netvm(): self.setText("NetVM") else: self.setText("---") self.setTextAlignment(Qt.AlignVCenter) class VmNetvmItem (QTableWidgetItem): def __init__(self, vm): super(VmNetvmItem, self).__init__() self.setFlags(Qt.ItemIsSelectable|Qt.ItemIsEnabled) if vm.is_netvm() and not vm.is_proxyvm(): self.setText("n/a") elif vm.netvm is not None: self.setText(vm.netvm.name) else: self.setText("---") self.setTextAlignment(Qt.AlignVCenter) class VmInternalItem(QTableWidgetItem): def __init__(self, vm): super(VmInternalItem, self).__init__() self.setFlags(Qt.ItemIsSelectable|Qt.ItemIsEnabled) self.internal = vm.internal if self.internal: self.setText("Yes") else: self.setText("") class VmUsageBarWidget (QWidget): class VmUsageBarItem (QTableWidgetItem): def __init__(self, value): super(VmUsageBarWidget.VmUsageBarItem, self).__init__() self.value = value def set_value(self, value): self.value = value def __lt__(self, other): return int(self.value) < int(other.value) def __init__(self, min, max, format, update_func, vm, load, hue=210, parent = None): super (VmUsageBarWidget, self).__init__(parent) self.min = min self.max = max self.update_func = update_func self.value = min self.widget = QProgressBar() self.widget.setMinimum(min) self.widget.setMaximum(max) self.widget.setFormat(format); self.widget.setStyleSheet( "QProgressBar:horizontal{" +\ "border: 1px solid hsv({0}, 100, 250);".format(hue) +\ "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({0}, 170, 207),".format(hue) + " stop: 1 white); \ }" ) layout = QHBoxLayout() layout.addWidget(self.widget) self.setLayout(layout) self.tableItem = self.VmUsageBarItem(min) self.update_load(vm, load) def update_load(self, vm, load): self.value = self.update_func(vm, load) self.widget.setValue(self.value) self.tableItem.set_value(self.value) class ChartWidget (QWidget): class ChartItem (QTableWidgetItem): def __init__(self, value): super(ChartWidget.ChartItem, self).__init__() self.value = value def set_value(self, value): self.value = value def __lt__(self, other): return self.value < other.value def __init__(self, vm, update_func, hue, load = 0, parent = None): super (ChartWidget, self).__init__(parent) self.update_func = update_func self.hue = hue if hue < 0 or hue > 255: self.hue = 255 self.load = load assert self.load >= 0 and self.load <= 100, "load = {0}".format(self.load) self.load_history = [self.load] self.tableItem = ChartWidget.ChartItem(self.load) def update_load (self, vm, load): self.load = self.update_func(vm, load) 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 for cpu_load:/ self.load = 100 self.load_history.append (self.load) self.tableItem.set_value(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] sat = 70 + val*(255-70)/100 color = QColor.fromHsv (self.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): class VmUpdateInfoItem (QTableWidgetItem): def __init__(self, value): super(VmUpdateInfoWidget.VmUpdateInfoItem, self).__init__() self.value = 0 self.set_value(value) def set_value(self, value): if value == "outdated": self.value = 30 elif value == "update": self.value = 20 else: self.value = 0 def __lt__(self, other): return self.value < other.value 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.AlignCenter) self.setLayout(layout) self.previous_outdated = False self.previous_update_recommended = None self.value = None self.tableItem = VmUpdateInfoWidget.VmUpdateInfoItem(self.value) def update_outdated(self, vm): if vm.type == "HVM": return outdated = vm.is_outdated() if outdated and not self.previous_outdated: self.update_status_widget("outdated") elif not outdated and self.previous_outdated: self.update_status_widget(None) self.previous_outdated = outdated if not vm.is_updateable(): return if vm.qid == 0: update_recommended = self.previous_update_recommended if os.path.exists(qubes_dom0_updates_stat_file): update_recommended = True else: update_recommended = False else: update_recommended = self.previous_update_recommended stat_file_path = vm.dir_path + '/' + vm_files["updates_stat_file"] if not os.path.exists(stat_file_path): update_recommended = False else: if (not hasattr(vm, "updates_stat_file_read_time")) or vm.updates_stat_file_read_time <= os.path.getmtime(stat_file_path): stat_file = open(stat_file_path, "r") updates = stat_file.read().strip() stat_file.close() if updates.isdigit(): updates = int(updates) else: updates = 0 if updates == 0: update_recommended = False else: update_recommended = True vm.updates_stat_file_read_time = time.time() if update_recommended and not self.previous_update_recommended: self.update_status_widget("update") elif self.previous_update_recommended and not update_recommended: self.update_status_widget(None) self.previous_update_recommended = update_recommended def update_status_widget(self, state): self.value = state self.tableItem.set_value(state) if state == "update": label_text = "Check updates" icon_path = ":/update-recommended.png" tooltip_text = "Updates pending!" elif state == "outdated": label_text = "VM outdated" icon_path = ":/outdated.png" tooltip_text = "The VM must be restarted for its filesystem to reflect the template's recent changes." elif state == None: label_text = "" icon_path = None tooltip_text = None if self.show_text: self.label.setText(label_text) else: self.layout().removeWidget(self.icon) self.icon.deleteLater() if icon_path != None: self.icon = VmIconWidget(icon_path, True, 0.7) self.icon.setToolTip(tooltip_text) else: self.icon = QLabel(label_text) self.layout().addWidget(self.icon, alignment=Qt.AlignCenter) class VmSizeOnDiskItem (QTableWidgetItem): def __init__(self, vm): super(VmSizeOnDiskItem, self).__init__() self.setFlags(Qt.ItemIsSelectable|Qt.ItemIsEnabled) self.vm = vm self.value = 0 self.update() self.setTextAlignment(Qt.AlignVCenter) def update(self): if self.vm.qid == 0: self.setText("n/a") else: self.value = self.vm.get_disk_utilization()/(1024*1024) self.setText( str(self.value) + " MiB") def __lt__(self, other): return self.value < other.value class VmRowInTable(object): cpu_graph_hue = 210 mem_graph_hue = 120 def __init__(self, vm, row_no, table, block_manager): self.vm = vm self.row_no = row_no table.setRowHeight (row_no, VmManagerWindow.row_height) self.type_widget = VmTypeWidget(vm) table.setCellWidget(row_no, VmManagerWindow.columns_indices['Type'], self.type_widget) table.setItem(row_no, VmManagerWindow.columns_indices['Type'], self.type_widget.tableItem) self.label_widget = VmLabelWidget(vm) table.setCellWidget(row_no, VmManagerWindow.columns_indices['Label'], self.label_widget) table.setItem(row_no, VmManagerWindow.columns_indices['Label'], self.label_widget.tableItem) self.name_widget = VmNameItem(vm) table.setItem(row_no, VmManagerWindow.columns_indices['Name'], self.name_widget) self.info_widget = VmInfoWidget(vm) table.setCellWidget(row_no, VmManagerWindow.columns_indices['State'], self.info_widget) table.setItem(row_no, VmManagerWindow.columns_indices['State'], self.info_widget.tableItem) self.template_widget = VmTemplateItem(vm) table.setItem(row_no, VmManagerWindow.columns_indices['Template'], self.template_widget) self.netvm_widget = VmNetvmItem(vm) table.setItem(row_no, VmManagerWindow.columns_indices['NetVM'], self.netvm_widget) self.cpu_usage_widget = VmUsageBarWidget(0, 100, "%v %", lambda vm, val: val if vm.last_running else 0, vm, 0, self.cpu_graph_hue) table.setCellWidget(row_no, VmManagerWindow.columns_indices['CPU'], self.cpu_usage_widget) table.setItem(row_no, VmManagerWindow.columns_indices['CPU'], self.cpu_usage_widget.tableItem) self.load_widget = ChartWidget(vm, lambda vm, val: val if vm.last_running else 0, self.cpu_graph_hue, 0 ) table.setCellWidget(row_no, VmManagerWindow.columns_indices['CPU Graph'], self.load_widget) table.setItem(row_no, VmManagerWindow.columns_indices['CPU Graph'], self.load_widget.tableItem) self.mem_usage_widget = VmUsageBarWidget(0, qubes_host.memory_total/1024, "%v MB", lambda vm, val: vm.get_mem()/1024, vm, 0, self.mem_graph_hue) table.setCellWidget(row_no, VmManagerWindow.columns_indices['MEM'], self.mem_usage_widget) table.setItem(row_no, VmManagerWindow.columns_indices['MEM'], self.mem_usage_widget.tableItem) self.mem_widget = ChartWidget(vm, lambda vm, val: vm.get_mem()*100/qubes_host.memory_total, self.mem_graph_hue, 0) table.setCellWidget(row_no, VmManagerWindow.columns_indices['MEM Graph'], self.mem_widget) table.setItem(row_no, VmManagerWindow.columns_indices['MEM Graph'], self.mem_widget.tableItem) self.size_widget = VmSizeOnDiskItem(vm) table.setItem(row_no, VmManagerWindow.columns_indices['Size'], self.size_widget) self.internal_widget = VmInternalItem(vm) table.setItem(row_no, VmManagerWindow.columns_indices['Internal'], self.internal_widget) def update(self, blk_visible = None, cpu_load = None, update_size_on_disk = False, rec_visible = None): self.info_widget.update_vm_state(self.vm, blk_visible, rec_visible) 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, None) if update_size_on_disk == True: self.size_widget.update() vm_shutdown_timeout = 20000 # in msec class VmShutdownMonitor(QObject): def __init__(self, vm, shutdown_time = vm_shutdown_timeout): self.vm = vm self.shutdown_time = shutdown_time 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.now() - timedelta(0,self.shutdown_time/1000)): 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, self.shutdown_time/1000), "Kill it!", "Wait another {0} seconds...".format(self.shutdown_time/1000)) if reply == 0: vm.force_shutdown() else: QTimer.singleShot (self.shutdown_time, self.check_if_vm_has_shutdown) class VmManagerWindow(Ui_VmManagerWindow, QMainWindow): row_height = 30 column_width = 200 min_visible_rows = 10 update_interval = 1000 # in msec show_inactive_vms = True show_internal_vms = False # suppress saving settings while initializing widgets settings_loaded = False columns_indices = { "Type": 0, "Label": 1, "Name": 2, "State": 3, "Template": 4, "NetVM": 5, "CPU": 6, "CPU Graph": 7, "MEM": 8, "MEM Graph": 9, "Size": 10, "Internal": 11,} def __init__(self, parent=None): super(VmManagerWindow, self).__init__() self.setupUi(self) self.toolbar = self.toolBar self.manager_settings = QSettings() self.qubes_watch = qubesutils.QubesWatch() self.qvm_collection = QubesVmCollection() self.blk_manager = QubesBlockDevicesManager(self.qvm_collection) self.qubes_watch.setup_block_watch(self.blk_manager.block_devs_event) self.blk_watch_thread = threading.Thread(target=self.qubes_watch.watch_loop) self.blk_watch_thread.daemon = True self.blk_watch_thread.start() self.connect(self.table, SIGNAL("itemSelectionChanged()"), self.table_selection_changed) 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.sort_by_column = "Type" self.sort_order = Qt.AscendingOrder self.screen_number = -1 self.screen_changed = False self.running_vms_count = 0 self.internal_vms_count = 0 self.vm_errors = {} self.vm_rec = {} self.frame_width = 0 self.frame_height = 0 self.move(self.x(), 0) self.columns_actions = {} self.columns_actions[ self.columns_indices["Type"] ] = self.action_vm_type self.columns_actions[ self.columns_indices["Label"] ] = self.action_label self.columns_actions[ self.columns_indices["Name"] ] = self.action_name self.columns_actions[ self.columns_indices["State"] ] = self.action_state self.columns_actions[ self.columns_indices["Template"] ] = self.action_template self.columns_actions[ self.columns_indices["NetVM"] ] = self.action_netvm self.columns_actions[ self.columns_indices["CPU"] ] = self.action_cpu self.columns_actions[ self.columns_indices["CPU Graph"] ] = self.action_cpu_graph self.columns_actions[ self.columns_indices["MEM"] ] = self.action_mem self.columns_actions[ self.columns_indices["MEM Graph"] ] = self.action_mem_graph self.columns_actions[ self.columns_indices["Size"] ] = self.action_size_on_disk self.columns_actions[ self.columns_indices["Internal"] ] = self.action_internal self.visible_columns_count = len(self.columns_indices); self.table.setColumnHidden( self.columns_indices["NetVM"], True) self.action_netvm.setChecked(False) self.table.setColumnHidden( self.columns_indices["CPU Graph"], True) self.action_cpu_graph.setChecked(False) self.table.setColumnHidden( self.columns_indices["MEM Graph"], True) self.action_mem_graph.setChecked(False) self.table.setColumnHidden( self.columns_indices["Size"], True) self.action_size_on_disk.setChecked(False) self.table.setColumnHidden( self.columns_indices["Internal"], True) self.action_internal.setChecked(False) self.table.setColumnWidth(self.columns_indices["State"], 80) self.table.setColumnWidth(self.columns_indices["Name"], 150) self.table.setColumnWidth(self.columns_indices["Label"], 40) self.table.setColumnWidth(self.columns_indices["Type"], 40) self.table.setColumnWidth(self.columns_indices["Size"], 100) self.table.setColumnWidth(self.columns_indices["Internal"], 60) self.table.horizontalHeader().setResizeMode(QHeaderView.Fixed) self.table.sortItems(self.columns_indices[self.sort_by_column], self.sort_order) self.context_menu = QMenu(self) self.context_menu.addAction(self.action_settings) self.context_menu.addAction(self.action_editfwrules) self.context_menu.addAction(self.action_appmenus) self.context_menu.addAction(self.action_set_keyboard_layout) self.context_menu.addMenu(self.blk_menu) self.context_menu.addAction(self.action_toggle_audio_input) self.context_menu.addSeparator() self.context_menu.addAction(self.action_updatevm) self.context_menu.addAction(self.action_run_command_in_vm) self.context_menu.addAction(self.action_resumevm) self.context_menu.addAction(self.action_pausevm) self.context_menu.addAction(self.action_shutdownvm) self.context_menu.addAction(self.action_killvm) self.context_menu.addSeparator() self.context_menu.addAction(self.action_clonevm) self.context_menu.addAction(self.action_removevm) self.context_menu.addSeparator() self.context_menu.addMenu(self.logs_menu) self.context_menu.addSeparator() self.tools_context_menu = QMenu(self) self.tools_context_menu.addAction(self.action_toolbar) self.tools_context_menu.addAction(self.action_menubar) self.table_selection_changed() self.connect(self.table.horizontalHeader(), SIGNAL("sortIndicatorChanged(int, Qt::SortOrder)"), self.sortIndicatorChanged) self.connect(self.table, SIGNAL("customContextMenuRequested(const QPoint&)"), self.open_context_menu) self.connect(self.menubar, SIGNAL("customContextMenuRequested(const QPoint&)"), lambda pos: self.open_tools_context_menu(self.menubar, pos)) self.connect(self.toolBar, SIGNAL("customContextMenuRequested(const QPoint&)"), lambda pos: self.open_tools_context_menu(self.toolBar, pos)) self.connect(self.blk_menu, SIGNAL("triggered(QAction *)"), self.attach_dettach_device_triggered) self.connect(self.logs_menu, SIGNAL("triggered(QAction *)"), self.show_log) self.table.setContentsMargins(0,0,0,0) self.centralwidget.layout().setContentsMargins(0,0,0,0) self.layout().setContentsMargins(0,0,0,0) self.connect(self.action_menubar, SIGNAL("toggled(bool)"), self.showhide_menubar) self.connect(self.action_toolbar, SIGNAL("toggled(bool)"), self.showhide_toolbar) self.register_dbus_watches() self.load_manager_settings() self.action_showallvms.setChecked(self.show_inactive_vms) self.action_showinternalvms.setChecked(self.show_internal_vms) self.fill_table() self.counter = 0 self.update_size_on_disk = False self.shutdown_monitor = {} self.last_measure_results = {} self.last_measure_time = time.time() QTimer.singleShot (self.update_interval, self.update_table) def load_manager_settings(self): # visible columns self.manager_settings.beginGroup("columns") for col in self.columns_indices.keys(): col_no = self.columns_indices[col] visible = self.manager_settings.value(col, defaultValue=not self.table.isColumnHidden(col_no)).toBool() self.columns_actions[col_no].setChecked(visible) self.manager_settings.endGroup() self.show_inactive_vms = self.manager_settings.value("view/show_inactive_vms", defaultValue=False).toBool() self.show_internal_vms = self.manager_settings.value("view/show_internal_vms", defaultValue=False).toBool() self.sort_by_column = str(self.manager_settings.value("view/sort_column", defaultValue=self.sort_by_column).toString()) self.sort_order = Qt.SortOrder(self.manager_settings.value("view/sort_order", defaultValue=self.sort_order).toInt()[0]) self.table.sortItems(self.columns_indices[self.sort_by_column], self.sort_order) if not self.manager_settings.value("view/menubar_visible", defaultValue=True).toBool(): self.action_menubar.setChecked(False) if not self.manager_settings.value("view/toolbar_visible", defaultValue=True).toBool(): self.action_toolbar.setChecked(False) x = self.manager_settings.value('position/x', defaultValue=-1).toInt()[0] y = self.manager_settings.value('position/y', defaultValue=-1).toInt()[0] if x != -1 or y != -1: self.move(x, y) self.settings_loaded = True def show(self): super(VmManagerWindow, self).show() self.screen_number = app.desktop().screenNumber(self) def set_table_geom_size(self): desktop_width = app.desktop().availableGeometry(self).width() - self.frame_width # might be wrong... desktop_height = app.desktop().availableGeometry(self).height() - self.frame_height # might be wrong... desktop_height -= self.row_height #UGLY! to somehow ommit taskbar... W = self.table.horizontalHeader().length() +\ self.table.verticalScrollBar().width() +\ 2*self.table.frameWidth() +1 H = self.table.horizontalHeader().height() +\ 2*self.table.frameWidth() mainwindow_to_add = 0 available_space = desktop_height if self.menubar.isVisible(): menubar_height = self.menubar.sizeHint().height() + self.menubar.contentsMargins().top() + self.menubar.contentsMargins().bottom() available_space -= menubar_height mainwindow_to_add += menubar_height if self.toolbar.isVisible(): toolbar_height = self.toolbar.sizeHint().height() + self.toolbar.contentsMargins().top() + self.toolbar.contentsMargins().bottom() available_space -= toolbar_height mainwindow_to_add += toolbar_height if W >= desktop_width: available_space -= self.table.horizontalScrollBar().height() H += self.table.horizontalScrollBar().height() default_rows = int(available_space/self.row_height) if self.show_inactive_vms: n = self.table.rowCount() else: n = self.running_vms_count if self.show_internal_vms: if self.show_inactive_vms: n = self.table.rowCount() else: n = self.running_vms_count elif self.show_inactive_vms: n = self.table.rowCount() - self.internal_vms_count else: n = self.running_vms_count if n > default_rows: H += default_rows*self.row_height self.table.verticalScrollBar().show() else: H += n*self.row_height self.table.verticalScrollBar().hide() W -= self.table.verticalScrollBar().width() W = min(desktop_width, W) self.centralwidget.setFixedHeight(H) H += mainwindow_to_add self.setMaximumHeight(H) self.setMinimumHeight(H) self.table.setFixedWidth(W) self.centralwidget.setFixedWidth(W) # don't change the following two lines to setFixedWidth! self.setMaximumWidth(W) self.setMinimumWidth(W) def moveEvent(self, event): super(VmManagerWindow, self).moveEvent(event) screen_number = app.desktop().screenNumber(self) if self.screen_number != screen_number: self.screen_changed = True self.screen_number = screen_number if self.settings_loaded: self.manager_settings.setValue('position/x', self.x()) self.manager_settings.setValue('position/y', self.y()) # do not sync for performance reasons def get_vms_list(self): self.qvm_collection.lock_db_for_reading() self.qvm_collection.load() self.qvm_collection.unlock_db() running_count = 0 internal_count = 0 vms_list = [vm for vm in self.qvm_collection.values()] for vm in vms_list: vm.last_power_state = vm.get_power_state() vm.last_running = vm.last_power_state in ["Running", "Transient"] if vm.last_running: running_count += 1 if vm.internal: internal_count += 1 vm.error_msg = self.vm_errors[vm.qid] if vm.qid in self.vm_errors else None self.running_vms_count = running_count self.internal_vms_count = internal_count return vms_list def fill_table(self): self.table.setSortingEnabled(False) self.table.clearContents() vms_list = self.get_vms_list() self.table.setRowCount(len(vms_list)) vms_in_table = {} row_no = 0 for vm in vms_list: #if vm.internal: # continue vm_row = VmRowInTable (vm, row_no, self.table, self.blk_manager) vms_in_table[vm.qid] = 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 self.table.setSortingEnabled(True) self.showhide_vms(True, True) self.set_table_geom_size() if (not self.show_inactive_vms) or (not self.show_internal_vms): self.showhide_vms(self.show_inactive_vms, self.show_internal_vms) self.set_table_geom_size() def showhide_vms(self, show_inactive, show_internal): if show_inactive and show_internal: row_no = 0 while row_no < self.table.rowCount(): self.table.setRowHidden(row_no, False) row_no += 1 else: row_no = 0 while row_no < self.table.rowCount(): widget = self.table.cellWidget(row_no, self.columns_indices["State"]) running = widget.vm.last_running internal = widget.vm.internal if not (show_inactive or running) or not (show_internal or not internal): self.table.setRowHidden(row_no, True) row_no += 1 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): update_devs = self.update_block_devices() or out_of_schedule reload_table = self.reload_table if manager_window.isVisible(): some_vms_have_changed_power_state = False for vm in self.vms_list: state = vm.get_power_state() if vm.last_power_state != state: prev_running = vm.last_running vm.last_power_state = state vm.last_running = (state in ["Running", "Transient"]) if not prev_running and vm.last_running: self.running_vms_count += 1 some_vms_have_changed_power_state = True # Clear error state when VM just started self.clear_error(vm.qid) elif prev_running and not vm.last_running: # FIXME: remove when recAllowed state will be preserved if self.vm_rec.has_key(vm.name): self.vm_rec.pop(vm.name) self.running_vms_count -= 1 some_vms_have_changed_power_state = True if self.screen_changed == True: reload_table = True self.screen_changed = False if reload_table: self.fill_table() update_devs=True if (not self.show_inactive_vms) and some_vms_have_changed_power_state: self.showhide_vms(True, True) self.showhide_vms(False, self.show_internal_vms) self.set_table_geom_size() if self.sort_by_column == "State" and some_vms_have_changed_power_state: self.table.sortItems(self.columns_indices[self.sort_by_column], self.sort_order) blk_visible = None rows_with_blk = None if update_devs == True: rows_with_blk = [] self.blk_manager.blk_lock.acquire() for d in self.blk_manager.attached_devs: rows_with_blk.append( self.blk_manager.attached_devs[d]['attached_to']['vm']) self.blk_manager.blk_lock.release() if (not self.table.isColumnHidden(self.columns_indices['Size']) ) and self.counter % 60 == 0 or out_of_schedule: self.update_size_on_disk = True 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.values(): 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 if rows_with_blk != None: if vm_row.vm.name in rows_with_blk: blk_visible = True else: blk_visible = False vm_row.update(blk_visible=blk_visible, cpu_load = cur_cpu_load, update_size_on_disk = self.update_size_on_disk, rec_visible = self.vm_rec.get(vm_row.vm.name, False)) else: for vm_row in self.vms_in_table.values(): if rows_with_blk != None: if vm_row.vm.name in rows_with_blk: blk_visible = True else: blk_visible = False vm_row.update(blk_visible=blk_visible, update_size_on_disk = self.update_size_on_disk, rec_visible = self.vm_rec.get(vm_row.vm.name, False)) if self.sort_by_column in ["CPU", "CPU Graph", "MEM", "MEM Graph", "State", "Size", "Internal" ]: # "State": needed to sort after reload (fill_table sorts items with setSortingEnabled, but by that time the widgets values are not correct yet). self.table.sortItems(self.columns_indices[self.sort_by_column], self.sort_order) self.table_selection_changed() self.update_size_on_disk = False if not out_of_schedule: self.counter += 1 QTimer.singleShot (self.update_interval, self.update_table) def update_block_devices(self): res, msg = self.blk_manager.check_for_updates() if msg != None and len(msg) > 0: str = "\n".join(msg) trayIcon.showMessage (str, msecs=5000) return res def recAllowedChanged(self, state, vmname): self.vm_rec[vmname] = bool(state) def register_dbus_watches(self): global session_bus if not session_bus: session_bus = dbus.SessionBus() session_bus.add_signal_receiver(self.recAllowedChanged, signal_name="RecAllowedChanged", dbus_interface="org.QubesOS.Audio") def sortIndicatorChanged(self, column, order): self.sort_by_column = [name for name in self.columns_indices.keys() if self.columns_indices[name] == column][0] self.sort_order = order if self.settings_loaded: self.manager_settings.setValue('view/sort_column', self.sort_by_column) self.manager_settings.setValue('view/sort_order', self.sort_order) self.manager_settings.sync() def table_selection_changed (self): vm = self.get_selected_vm() if vm != None: # Update available actions: self.action_settings.setEnabled(vm.qid != 0) self.action_removevm.setEnabled(not vm.installed_by_rpm and not (vm.last_running)) self.action_clonevm.setEnabled(not (vm.last_running) and not vm.is_netvm()) self.action_resumevm.setEnabled(not vm.last_running) self.action_pausevm.setEnabled(vm.last_running and vm.qid != 0) self.action_shutdownvm.setEnabled(vm.last_running and vm.qid != 0) self.action_killvm.setEnabled((vm.last_running or vm.last_power_state == "Paused") 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) self.action_toggle_audio_input.setEnabled(vm.last_running and vm.qid != 0 and \ session_bus.name_has_owner('org.QubesOS.Audio.%s' % vm.name)) self.action_run_command_in_vm.setEnabled(not vm.last_power_state == "Paused" and vm.qid != 0) self.action_set_keyboard_layout.setEnabled(vm.qid != 0 and vm.last_running) else: self.action_settings.setEnabled(False) self.action_removevm.setEnabled(False) self.action_clonevm.setEnabled(False) self.action_resumevm.setEnabled(False) self.action_pausevm.setEnabled(False) self.action_shutdownvm.setEnabled(False) self.action_killvm.setEnabled(False) self.action_appmenus.setEnabled(False) self.action_editfwrules.setEnabled(False) self.action_updatevm.setEnabled(False) self.action_toggle_audio_input.setEnabled(False) self.action_run_command_in_vm.setEnabled(False) self.action_set_keyboard_layout.setEnabled(False) 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() def set_error(self, qid, message): for vm in self.vms_list: if vm.qid == qid: vm.error_msg = message # Store error in separate dict to make it immune to VM list reload self.vm_errors[qid] = message def clear_error(self, qid): self.vm_errors.pop(qid, None) for vm in self.vms_list: if vm.qid == qid: vm.error_msg = None def clear_error_exact(self, qid, message): for vm in self.vms_list: if vm.qid == qid: if vm.error_msg == message: vm.error_msg = None self.vm_errors.pop(qid, None) @pyqtSlot(name='on_action_createvm_triggered') def action_createvm_triggered(self): dialog = NewVmDlg(app, self.qvm_collection, trayIcon) dialog.exec_() def get_selected_vm(self): #vm selection relies on the VmInfo widget's value used for sorting by VM name row_index = self.table.currentRow() if row_index != -1: vm_item = self.table.item(row_index, self.columns_indices["Name"]) # here is possible race with update_table timer so check if really got the item if vm_item is None: return None qid = vm_item.qid assert self.vms_in_table[qid] is not None vm = self.vms_in_table[qid].vm return vm else: return None @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() vm = self.qvm_collection[vm.qid] 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 ("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() vm = self.qvm_collection[vm.qid] #TODO: the following two conditions should really be checked by qvm_collection.pop() overload... if vm.is_template() and self.qvm_collection.default_template_qid == vm.qid: self.qvm_collection.default_template_qid = None if vm.is_netvm() and self.qvm_collection.default_netvm_qid == vm.qid: self.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_clonevm_triggered') def action_clonevm_triggered(self): vm = self.get_selected_vm() name_number = 1 name_format = vm.name + '-clone-%d' while self.qvm_collection.get_vm_by_name(name_format % name_number): name_number += 1 (clone_name, ok) = QInputDialog.getText(self, 'Qubes clone VM', 'Enter name for VM '+vm.name+' clone:', text=name_format % name_number) if not ok or clone_name == "": return thread_monitor = ThreadMonitor() thread = threading.Thread (target=self.do_clone_vm, args=(vm, str(clone_name), thread_monitor)) thread.daemon = True thread.start() progress = QProgressDialog ("Cloning VM {0} to {1}...".format(vm.name, clone_name), "", 0, 0) progress.setCancelButton(None) progress.setModal(True) progress.show() while not thread_monitor.is_finished(): app.processEvents() time.sleep (0.2) progress.hide() if not thread_monitor.success: QMessageBox.warning (None, "Error while cloning VM", "Exception while cloning:
{0}".format(thread_monitor.error_msg)) def do_clone_vm(self, vm, dst_name, thread_monitor): try: self.qvm_collection.lock_db_for_writing() self.qvm_collection.load() src_vm = self.qvm_collection[vm.qid] dst_vm = None if isinstance(src_vm, qubes.QubesTemplateVm): dst_vm = self.qvm_collection.add_new_templatevm(name=dst_name, installed_by_rpm=False) elif isinstance(src_vm, qubes.QubesAppVm): dst_vm = self.qvm_collection.add_new_appvm(name=dst_name, template=src_vm.template, label=src_vm.label) elif hasattr(qubes, 'QubesHVm') and isinstance(src_vm, qubes.QubesHVm): dst_vm = self.qvm_collection.add_new_hvm(name=dst_name, label=src_vm.label) dst_vm.clone_attrs(src_vm) dst_vm.clone_disk_files (src_vm=src_vm, verbose=False) self.qvm_collection.save() self.qvm_collection.unlock_db() except Exception as ex: if dst_vm: self.qvm_collection.pop(dst_vm.qid) self.qvm_collection.unlock_db() thread_monitor.set_error_msg(str(ex)) 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 ("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 ("VM '{0}' has been started.".format(vm.name), msecs=3000) else: trayIcon.showMessage ("Error starting VM '{0}': {1}".format(vm.name, thread_monitor.error_msg ), msecs=3000) self.set_error(vm.qid, "Error starting VM: %s" % 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 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() self.blk_manager.check_if_serves_as_backend(vm) 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: self.shutdown_vm(vm) def shutdown_vm(self, vm, shutdown_time = vm_shutdown_timeout): 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 ("VM '{0}' is shutting down...".format(vm.name), msecs=3000) self.shutdown_monitor[vm.qid] = VmShutdownMonitor (vm, shutdown_time) QTimer.singleShot (shutdown_time, self.shutdown_monitor[vm.qid].check_if_vm_has_shutdown) @pyqtSlot(name='on_action_killvm_triggered') def action_killvm_triggered(self): vm = self.get_selected_vm() assert vm.is_running() or vm.is_paused() reply = QMessageBox.question(None, "VM Kill Confirmation", "Are you sure you want to kill the VM '{0}'?
" "This will end (not shutdown!) all the running applications within this VM.".format(vm.name), QMessageBox.Yes | QMessageBox.Cancel, QMessageBox.Cancel) app.processEvents() if reply == QMessageBox.Yes: try: vm.force_shutdown() except Exception as ex: QMessageBox.critical (None, "Error while killing VM!", "An exception ocurred while killing {0}.
ERROR: {1}".format(vm.name, ex)) return trayIcon.showMessage ("VM '{0}' killed!".format(vm.name), msecs=3000) @pyqtSlot(name='on_action_settings_triggered') def action_settings_triggered(self): vm = self.get_selected_vm() settings_window = VMSettingsWindow(vm, app, self.qvm_collection, "basic") settings_window.exec_() @pyqtSlot(name='on_action_appmenus_triggered') def action_appmenus_triggered(self): vm = self.get_selected_vm() settings_window = VMSettingsWindow(vm, app, self.qvm_collection, "applications") settings_window.exec_() @pyqtSlot(name='on_action_toggle_audio_input_triggered') def action_toggle_audio_input_triggered(self): vm = self.get_selected_vm() audio = session_bus.get_object('org.QubesOS.Audio.%s' % vm.name, '/org/qubesos/audio') current_audio = bool(audio.Get('org.QubesOS.Audio', 'RecAllowed')) audio.Set('org.QubesOS.Audio', 'RecAllowed', dbus.Boolean(not current_audio, variant_level=1)) # icon will be updated based on dbus signal @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", "{0}
The VM has to be running to be updated.
Do you want to start it?
".format(vm.name), QMessageBox.Yes | QMessageBox.Cancel) if reply != QMessageBox.Yes: return trayIcon.showMessage ("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() progress = QProgressDialog ("{0}
Please wait for the updater to launch...".format(vm.name), "", 0, 0) progress.setCancelButton(None) progress.setModal(True) progress.show() while not thread_monitor.is_finished(): app.processEvents() time.sleep (0.2) progress.hide() if vm.qid != 0: if not thread_monitor.success: 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/qubes-dom0-update", "--clean", "--gui"]) else: vm.run("gpk-update-viewer;sudo service qubes-update-check start", verbose=False, autostart=True, notify_function=lambda lvl, msg: trayIcon.showMessage(msg, msecs=3000) ) except Exception as ex: thread_monitor.set_error_msg(str(ex)) thread_monitor.set_finished() return thread_monitor.set_finished() @pyqtSlot(name='on_action_run_command_in_vm_triggered') def action_run_command_in_vm_triggered(self): vm = self.get_selected_vm() (command_to_run, ok) = QInputDialog.getText(self, 'Qubes command entry', 'Run command in '+vm.name+':') if not ok or command_to_run == "": return thread_monitor = ThreadMonitor() thread = threading.Thread (target=self.do_run_command_in_vm, args=(vm, str(command_to_run), thread_monitor)) thread.daemon = True thread.start() while not thread_monitor.is_finished(): app.processEvents() time.sleep (0.2) if not thread_monitor.success: QMessageBox.warning (None, "Error while running command", "Exception while running command:
{0}".format(thread_monitor.error_msg)) def do_run_command_in_vm(self, vm, command_to_run, thread_monitor): try: vm.run(command_to_run, verbose=False, autostart=True, notify_function=lambda lvl, msg: trayIcon.showMessage(msg, msecs=3000) ) except Exception as ex: thread_monitor.set_error_msg(str(ex)) thread_monitor.set_finished() @pyqtSlot(name='on_action_set_keyboard_layout_triggered') def action_set_keyboard_layout_triggered(self): vm = self.get_selected_vm() vm.run('qubes-change-keyboard-layout', verbose = False) @pyqtSlot(name='on_action_showallvms_triggered') def action_showallvms_triggered(self): self.show_inactive_vms = self.action_showallvms.isChecked() self.showhide_vms(self.show_inactive_vms, self.show_internal_vms) self.set_table_geom_size() if self.settings_loaded: self.manager_settings.setValue('view/show_inactive_vms', self.show_inactive_vms) self.manager_settings.sync() @pyqtSlot(name='on_action_showinternalvms_triggered') def action_showinternalvms_triggered(self): self.show_internal_vms = self.action_showinternalvms.isChecked() self.showhide_vms(self.show_inactive_vms, self.show_internal_vms) self.set_table_geom_size() if self.settings_loaded: self.manager_settings.setValue('view/show_internal_vms', self.show_internal_vms) self.manager_settings.sync() @pyqtSlot(name='on_action_editfwrules_triggered') def action_editfwrules_triggered(self): vm = self.get_selected_vm() settings_window = VMSettingsWindow(vm, app, self.qvm_collection, "firewall") settings_window.exec_() @pyqtSlot(name='on_action_global_settings_triggered') def action_global_settings_triggered(self): global_settings_window = GlobalSettingsWindow(app, self.qvm_collection) global_settings_window.exec_() @pyqtSlot(name='on_action_restore_triggered') def action_restore_triggered(self): restore_window = RestoreVMsWindow(app, self.qvm_collection, self.blk_manager) restore_window.exec_() @pyqtSlot(name='on_action_backup_triggered') def action_backup_triggered(self): backup_window = BackupVMsWindow(app, self.qvm_collection, self.blk_manager, self.shutdown_vm) backup_window.exec_() def showhide_menubar(self, checked): self.menubar.setVisible(checked) self.set_table_geom_size() if not checked: self.context_menu.addAction(self.action_menubar) else: self.context_menu.removeAction(self.action_menubar) if self.settings_loaded: self.manager_settings.setValue('view/menubar_visible', checked) self.manager_settings.sync() def showhide_toolbar(self, checked): self.toolbar.setVisible(checked) self.set_table_geom_size() if not checked: self.context_menu.addAction(self.action_toolbar) else: self.context_menu.removeAction(self.action_toolbar) if self.settings_loaded: self.manager_settings.setValue('view/toolbar_visible', checked) self.manager_settings.sync() def showhide_column(self, col_num, show): self.table.setColumnHidden( col_num, not show) self.set_table_geom_size() val = 1 if show else -1 self.visible_columns_count += val if self.visible_columns_count == 1: #disable hiding the last one for c in self.columns_actions: if self.columns_actions[c].isChecked(): self.columns_actions[c].setEnabled(False) break elif self.visible_columns_count == 2 and val == 1: #enable hiding previously disabled column for c in self.columns_actions: if not self.columns_actions[c].isEnabled(): self.columns_actions[c].setEnabled(True) break; if self.settings_loaded: col_name = [name for name in self.columns_indices.keys() if self.columns_indices[name] == col_num][0] self.manager_settings.setValue('columns/%s' % col_name, show) self.manager_settings.sync() def on_action_vm_type_toggled(self, checked): self.showhide_column( self.columns_indices['Type'], checked) def on_action_label_toggled(self, checked): self.showhide_column( self.columns_indices['Label'], checked) def on_action_name_toggled(self, checked): self.showhide_column( self.columns_indices['Name'], checked) def on_action_state_toggled(self, checked): self.showhide_column( self.columns_indices['State'], checked) def on_action_internal_toggled(self, checked): self.showhide_column( self.columns_indices['Internal'], checked) def on_action_template_toggled(self, checked): self.showhide_column( self.columns_indices['Template'], checked) def on_action_netvm_toggled(self, checked): self.showhide_column( self.columns_indices['NetVM'], checked) def on_action_cpu_toggled(self, checked): self.showhide_column( self.columns_indices['CPU'], checked) def on_action_cpu_graph_toggled(self, checked): self.showhide_column( self.columns_indices['CPU Graph'], checked) def on_action_mem_toggled(self, checked): self.showhide_column( self.columns_indices['MEM'], checked) def on_action_mem_graph_toggled(self, checked): self.showhide_column( self.columns_indices['MEM Graph'], checked) def on_action_size_on_disk_toggled(self, checked): self.showhide_column( self.columns_indices['Size'], checked) @pyqtSlot(name='on_action_about_qubes_triggered') def action_about_qubes_triggered(self): QMessageBox.about(self, "About...", "Qubes OS

Release 1.0") def createPopupMenu(self): menu = QMenu() menu.addAction(self.action_toolbar) menu.addAction(self.action_menubar) return menu def open_tools_context_menu(self, widget, point): self.tools_context_menu.exec_(widget.mapToGlobal(point)) @pyqtSlot('const QPoint&') def open_context_menu(self, point): vm = self.get_selected_vm() running = vm.is_running() #logs menu self.logs_menu.clear() if vm.qid == 0: text = "/var/log/xen/console/hypervisor.log" action = self.logs_menu.addAction(QIcon(":/log.png"), text) action.setData(QVariant(text)) self.logs_menu.setEnabled(True) else: menu_empty = True text = "/var/log/xen/console/guest-"+vm.name+".log" if os.path.exists(text): action = self.logs_menu.addAction(QIcon(":/log.png"), text) action.setData(QVariant(text)) menu_empty = False text = "/var/log/xen/console/guest-"+vm.name+"-dm.log" if os.path.exists(text): action = self.logs_menu.addAction(QIcon(":/log.png"), text) action.setData(QVariant(text)) menu_empty = False if running: xid = vm.xid if xid != None: text = "/var/log/qubes/guid."+str(xid)+".log" action = self.logs_menu.addAction(QIcon(":/log.png"), text) action.setData(QVariant(text)) text = "/var/log/qubes/qrexec."+str(xid)+".log" action = self.logs_menu.addAction(QIcon(":/log.png"), text) action.setData(QVariant(text)) menu_empty = False self.logs_menu.setEnabled(not menu_empty) # blk menu if not running: self.blk_menu.setEnabled(False) else: self.blk_menu.clear() self.blk_menu.setEnabled(True) self.blk_manager.blk_lock.acquire() if len(self.blk_manager.attached_devs) > 0 : for d in self.blk_manager.attached_devs: if self.blk_manager.attached_devs[d]['attached_to']['vm'] == vm.name: text = "Detach " + d + " " + unicode(self.blk_manager.attached_devs[d]['size']) + " " + self.blk_manager.attached_devs[d]['desc'] action = self.blk_menu.addAction(QIcon(":/remove.png"), text) action.setData(QVariant(d)) if len(self.blk_manager.free_devs) > 0: for d in self.blk_manager.free_devs: if d.startswith(vm.name): continue # skip partitions heuristic if d[-1].isdigit() and d[0:-1] in self.blk_manager.current_blk: continue text = "Attach " + d + " " + unicode(self.blk_manager.free_devs[d]['size']) + " " + self.blk_manager.free_devs[d]['desc'] action = self.blk_menu.addAction(QIcon(":/add.png"), text) action.setData(QVariant(d)) self.blk_manager.blk_lock.release() if self.blk_menu.isEmpty(): self.blk_menu.setEnabled(False) self.context_menu.exec_(self.table.mapToGlobal(point)) @pyqtSlot('QAction *') def show_log(self, action): log = str(action.data().toString()) log_dialog = LogDialog(app, log) log_dialog.exec_() @pyqtSlot('QAction *') def attach_dettach_device_triggered(self, action): dev = str(action.data().toString()) vm = self.get_selected_vm() self.blk_manager.blk_lock.acquire() if dev in self.blk_manager.attached_devs: self.blk_manager.detach_device(vm, dev) else: self.blk_manager.attach_device(vm, dev) self.blk_manager.blk_lock.release() class QubesBlockDevicesManager(): def __init__(self, qvm_collection): self.qvm_collection = qvm_collection self.attached_devs = {} self.free_devs = {} self.current_blk = {} self.current_attached = {} self.devs_changed = False self.last_update_time = time.time() self.blk_state_changed = True self.msg = [] self.check_counter = 0 self.blk_lock = threading.Lock() self.update() def block_devs_event(self, xid): now = time.time() #don't update more often than 1/10 s if now - self.last_update_time >= 0.1: self.last_update_time = now self.blk_lock.acquire() self.blk_state_changed = True self.blk_lock.release() def check_for_updates(self): self.blk_lock.acquire() ret = (self.blk_state_changed, self.msg) if self.blk_state_changed == True: self.check_counter += 1 self.update() ret = (self.blk_state_changed, self.msg) #let the update last for 3 manager-update cycles if self.check_counter == 3: self.check_counter = 0 self.blk_state_changed = False self.msg = [] self.blk_lock.release() return ret def update(self): blk = qubesutils.block_list() for b in blk: att = qubesutils.block_check_attached(None, blk[b]['device'], backend_xid = blk[b]['xid']) if b in self.current_blk: if blk[b] == self.current_blk[b]: if self.current_attached[b] != att: #devices the same, sth with attaching changed self.current_attached[b] = att else: #device changed ?! self.current_blk[b] = blk[b] self.current_attached[b] = att else: #new device self.current_blk[b] = blk[b] self.current_attached[b] = att self.msg.append("Attached new device: {0}".format(blk[b]['device'])) to_delete = [] for b in self.current_blk: #remove devices that are not there anymore if b not in blk: to_delete.append(b) self.msg.append("Detached device: {0}".format(self.current_blk[b]['device'])) for d in to_delete: del self.current_blk[d] del self.current_attached[d] self.__update_blk_entries__() def __update_blk_entries__(self): self.free_devs.clear() self.attached_devs.clear() for b in self.current_attached: if self.current_attached[b]: self.attached_devs[b] = self.__make_entry__(b, self.current_blk[b], self.current_attached[b]) else: self.free_devs[b] = self.__make_entry__(b, self.current_blk[b], None) def __make_entry__(self, k, dev, att): size_str = qubesutils.bytes_to_kmg(dev['size']) entry = { 'dev': dev['device'], 'backend_name': dev['vm'], 'desc': dev['desc'], 'size': size_str, 'attached_to': att, } return entry def attach_device(self, vm, dev): backend_vm_name = self.free_devs[dev]['backend_name'] dev_id = self.free_devs[dev]['dev'] backend_vm = self.qvm_collection.get_vm_by_name(backend_vm_name) trayIcon.showMessage ("{0} - attaching {1}".format(vm.name, dev), msecs=3000) qubesutils.block_attach(vm, backend_vm, dev_id) def detach_device(self, vm, dev_name): dev_id = self.attached_devs[dev_name]['attached_to']['devid'] vm_xid = self.attached_devs[dev_name]['attached_to']['xid'] trayIcon.showMessage ("{0} - detaching {1}".format(vm.name, dev_name), msecs=3000) qubesutils.block_detach(None, dev_id, vm_xid) def check_if_serves_as_backend(self, vm): serves_for = [] for d in self.attached_devs: if self.attached_devs[d]['backend_name'] == vm.name: serves_for.append((self.attached_devs[d]['dev'], self.attached_devs[d]['attached_to']['vm'])) if len(serves_for) > 0: msg = "VM " + vm.name + " attaches block devices to other VMs: " msg += ', '.join([""+v+"("+d+")" for (d,v) in serves_for ]) msg += ".

Shutting the VM down will dettach the devices from them." QMessageBox.warning (None, "Warning!", msg) 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) self.tray_object = dbus.SessionBus().get_object("org.freedesktop.Notifications", "/org/freedesktop/Notifications", follow_name_owner_changes=True) self.tray_notifier = dbus.Interface(self.tray_object, "org.freedesktop.Notifications" ) def icon_clicked(self, reason): if reason == QSystemTrayIcon.Context: # Handle the right click normally, i.e. display the context menu return else: bring_manager_to_front() def addActions(self, target, actions): for action in actions: if action is None: target.addSeparator() else: target.addAction(action) def showMessage(self, message, msecs): self.tray_notifier.Notify("Qubes", 0, "/usr/share/qubes/icons/qubes.png", "Qubes VM Manager", message, [], [], msecs) 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 class QubesDbusNotify(dbus.service.Object): def __init__(self, bus, manager_window): # export to system bus (instead of session) to make possible # communication from outside of session (eg. from qmemman) dbus.service.Object.__init__(self, bus, dbus_object_path) self.manager_window = manager_window @dbus.service.method(dbus_interface=dbus_interface, in_signature='ss', out_signature='') def notify_error(self, vmname, message): vm = self.manager_window.qvm_collection.get_vm_by_name(vmname) if vm: self.manager_window.set_error(vm.qid, message) else: # ignore VM-not-found error pass @dbus.service.method(dbus_interface=dbus_interface, in_signature='ss', out_signature='') def clear_error_exact(self, vmname, message): vm = self.manager_window.qvm_collection.get_vm_by_name(vmname) if vm: self.manager_window.clear_error_exact(vm.qid, message) else: # ignore VM-not-found error pass @dbus.service.method(dbus_interface=dbus_interface, in_signature='s', out_signature='') def clear_error(self, vmname): vm = self.manager_window.qvm_collection.get_vm_by_name(vmname) if vm: self.manager_window.clear_error(vm.qid, message) else: # ignore VM-not-found error pass @dbus.service.method(dbus_interface=dbus_interface, in_signature='', out_signature='') def show_manager(self): bring_manager_to_front() def get_frame_size(): w = 0 h = 0 cmd = ['xprop', '-name', 'Qubes VM Manager', '|', 'grep', '_NET_FRAME_EXTENTS'] xprop = subprocess.Popen(cmd, stdout = subprocess.PIPE) for l in xprop.stdout: line = l.split('=') if len(line) == 2: line = line[1].strip().split(',') if len(line) == 4: w = int(line[0].strip())+ int(line[1].strip()) h = int(line[2].strip())+ int(line[3].strip()) break; #in case of some weird window managers we have to assume sth... if w<= 0: w = 10 if h <= 0: h = 30 manager_window.frame_width = w manager_window.frame_height = h return def show_manager(): manager_window.show() manager_window.set_table_geom_size() manager_window.repaint() app.processEvents() get_frame_size() #print manager_window.frame_width, " x ", manager_window.frame_height manager_window.set_table_geom_size() def bring_manager_to_front(): if manager_window.isVisible(): subprocess.check_call(['wmctrl', '-R', str(manager_window.windowTitle())]) else: show_manager() def show_running_manager_via_dbus(): global system_bus if system_bus is None: system_bus = dbus.SystemBus() try: qubes_manager = system_bus.get_object('org.qubesos.QubesManager', '/org/qubesos/QubesManager') qubes_manager.show_manager(dbus_interface='org.qubesos.QubesManager') except dbus.DBusException: # ignore the case when no qubes-manager is running pass 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 ) strace = "" stacktrace = traceback.extract_tb( exc_traceback ) while len(stacktrace) > 0: (filename, line, func, txt) = stacktrace.pop() strace += "----\n" strace += "line: %s\n" %txt strace += "func: %s\n" %func strace += "line no.: %d\n" %line strace += "file: %s\n" %filename msg_box = QMessageBox() msg_box.setDetailedText(strace) msg_box.setIcon(QMessageBox.Critical) msg_box.setWindowTitle( "Houston, we have a problem...") msg_box.setText("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 )) msg_box.exec_() def sighup_handler(signum, frame): os.execl("/usr/bin/qubes-manager", "qubes-manager") def main(): # Avoid starting more than one instance of the app lock = QubesDaemonPidfile ("qubes-manager") if lock.pidfile_exists(): if lock.read_pid() == os.getpid(): pass elif lock.pidfile_is_stale(): lock.remove_pidfile() print "Removed stale pidfile (has the previous daemon instance crashed?)." else: show_running_manager_via_dbus() exit (0) lock.create_pidfile() signal.signal(signal.SIGHUP, sighup_handler) 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 # setup dbus connection DBusQtMainLoop(set_as_default=True) global manager_window manager_window = VmManagerWindow() wm = WatchManager() global notifier notifier = ThreadedNotifier(wm, QubesManagerFileWatcher(manager_window.mark_table_for_update)) notifier.start() wm.add_watch(system_path["qubes_store_filename"], EventsCodes.OP_FLAGS.get('IN_MODIFY')) wm.add_watch(qubes_clipboard_info_file, EventsCodes.OP_FLAGS.get('IN_CLOSE_WRITE')) global system_bus system_bus = dbus.SystemBus() name = dbus.service.BusName('org.qubesos.QubesManager', system_bus) dbus_notifier = QubesDbusNotify(system_bus, manager_window) global session_bus session_bus = dbus.SessionBus() global trayIcon trayIcon = QubesTrayIcon(QIcon(":/qubes.png")) trayIcon.show() show_manager() app.exec_() lock.remove_pidfile() trayIcon = None if __name__ == "__main__": main()