#!/usr/bin/env python # # Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). # All rights reserved. # Contact: Nokia Corporation (directui@nokia.com) # # This file is part of applauncherd. # # If you have questions regarding the use of this file, please contact # Nokia at directui@nokia.com. # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License version 2.1 as published by the Free Software Foundation # and appearing in the file LICENSE.LGPL included in the packaging # of this file. """ This program tests the startup time of the given application with and without launcher. Requirements: 1. DISPLAY environment variable must be set correctly. 2. DBus session bus must be running. 3. DBus session bus address must be stored in /tmp/session_bus_address.user. 4. Given application supports launcher with .launcher binary in /usr/bin/. 5. launcher application should be installed. Usage: test-func-launcher Example: test-func-launcher /usr/bin/fala_ft_hello Authors: nimika.1.keshri@nokia.com ext-oskari.timperi@nokia.com """ import os, os.path, glob import subprocess import commands import time import sys import unittest import re import string from subprocess import Popen from utils import * from os.path import basename using_scratchbox = False def check_prerequisites(): if os.getenv('DISPLAY') == None: error("DISPLAY is not set. Check the requirements.") if os.getenv('DBUS_SESSION_BUS_ADDRESS') == None: error("DBUS_SESSION_BUS_ADDRESS is not set.\n" + "You probably want to source /tmp/session_bus_address.user") for app in LAUNCHABLE_APPS: assert len(basename(app)) <= 15, "For app: %s , base name !<= 14" %app class daemon_handling (unittest.TestCase): def stop_daemons(self): stop_daemons() def start_daemons(self): start_daemons() class launcher_tests (unittest.TestCase): def setUp(self): if daemons_running(): stop_daemons() self.START_DAEMONS_AT_TEARDOWN = True else: self.START_DAEMONS_AT_TEARDOWN = False if get_pid('applauncherd') == None: start_applauncherd() #setup here debug("Executing SetUp") def tearDown(self): #teardown here debug("Executing TearDown") if get_pid('applauncherd') == None: start_applauncherd() wait_for_single_applauncherd() if self.START_DAEMONS_AT_TEARDOWN: start_daemons() #Testcases def test_applications_exist(self): """ test_launchable_application_exists """ failed_apps = [] for app in LAUNCHABLE_APPS: if not (os.path.isfile(app) and os.access(app, os.X_OK)): failed_apps.append(app) self.assert_(failed_apps == [], "Some applications do not have the launch files, list: %s" % str(failed_apps)) def test_zombie_state_m(self): self._test_zombie_state(PREFERED_APP,'m') def test_zombie_state_qml(self): self._test_zombie_state(PREFERED_APP_QML,'d') def test_zombie_state_e(self): self._test_zombie_state(PREFERED_APP, 'e') def _test_zombie_state(self, prefered_app, btype): """ To test that no Zombie process exist after the application is killed """ #launch application with launcher #check if the application is running #kill the application (pid = p.pid) #check if pgrep appname should be nothing #self.kill_process(LAUNCHER_BINARY) process_handle = run_app_as_user_with_invoker(prefered_app,booster = btype ) process_id = wait_for_app(prefered_app, 5) debug("The pid of %s id %s" %(prefered_app, process_id)) kill_process(prefered_app) time.sleep(4) process_handle = run_app_as_user_with_invoker(prefered_app,booster = btype) process_id1 = wait_for_app(prefered_app, 5) debug("The pid of %s id %s" %(prefered_app, process_id1)) kill_process(prefered_app) time.sleep(4) process_id1 = get_pid(prefered_app) debug("The pid of %s id %s" %(prefered_app, process_id1)) self.assert_(process_id != process_id1 , "New Process not launched") self.assert_(process_id1 == None , "Process still running") def test_launch_multiple_apps_m(self): self._test_launch_multiple_apps(LAUNCHABLE_APPS, 'm') def test_launch_multiple_apps_qml(self): self._test_launch_multiple_apps(LAUNCHABLE_APPS_QML, 'd') def test_launch_multiple_apps_e(self): self._test_launch_multiple_apps(LAUNCHABLE_APPS, 'e') def _test_launch_multiple_apps(self, launchable_apps, btype): """ To test that more than one applications are launched by the launcher """ def kill_launched(pids): for pid in pids: kill_process(apppid = pid) pidlist = [] for app in launchable_apps: p = run_app_as_user_with_invoker(app, booster = btype) pid = wait_for_app(app, timeout = 10, sleep = 1) if pid == None: kill_launched(pidlist) self.fail("%s was not launched using applauncherd") pidlist.append(pid) kill_launched(pidlist) self.assert_(len(pidlist) == len(launchable_apps),"All apps were not launched") def test_one_instance_m(self): self._test_one_instance(PREFERED_APP, 'm') def test_one_instance_qml(self): self._test_one_instance(PREFERED_APP_QML, 'd') def test_one_instance_e(self): self._test_one_instance(PREFERED_APP, 'e') def _test_one_instance(self, prefered_app, btype): """ To test that only one instance of a application exist """ #launch application #self.run_app_as_user(appname) #get pid of application #launch applicatoin again #check pgrep application #y = commands.getstatusoutput(pgrep appname) #len(y[-1].split(' ')) == 1 process_handle = run_app_as_user_with_invoker(prefered_app, booster=btype) process_id = wait_for_app(prefered_app) debug("PID of first %s" % process_id) time.sleep(3) process_handle1 = run_app_as_user_with_invoker(prefered_app, booster=btype) time.sleep(3) process_id = wait_for_app(prefered_app) debug("PID of 2nd %s" % process_id) kill_process(prefered_app) self.assert_( len(process_id.split(' ')) == 1, "Only one instance of app not running") def test_launch_multiple_apps_cont_m(self): self._test_launch_multiple_apps_cont(LAUNCHABLE_APPS, 'fala_ft_hello', 'm') def test_launch_multiple_apps_cont_qml(self): self._test_launch_multiple_apps_cont(LAUNCHABLE_APPS_QML, 'fala_qml_helloworld','d') def test_launch_multiple_apps_cont_e(self): self._test_launch_multiple_apps_cont(LAUNCHABLE_APPS, 'fala_ft_hello', 'e') def _test_launch_multiple_apps_cont(self, launchable_apps, app_common_prefix, btype): """ To test that more than one applications are launched by the launcher """ for app in launchable_apps: #launch application with launcher #check if the application is running #check if p.pid is same as pgrep appname #in a global dictionary, append the pid process_handle = run_app_as_user_with_invoker(app, booster = btype) time.sleep(8) process_id = get_pid(app_common_prefix) pid_list = process_id.split() for pid in pid_list: kill_process(apppid=pid) self.assert_(len(pid_list) == len(launchable_apps), "All Applications were not launched using launcher") def test_fd_booster_m(self): """ File descriptor test for booster-m """ count = get_file_descriptor("booster-m", "m", "fala_ft_hello") self.assert_(count != 0, "None of the file descriptors were changed") def test_fd_booster_q(self): """ File descriptor test for booster-q """ count = get_file_descriptor("booster-q", "qt", "fala_ft_hello") self.assert_(count != 0, "None of the file descriptors were changed") def test_fd_booster_d(self): """ File descriptor test for booster-d """ count = get_file_descriptor("booster-d", "d", "fala_qml_helloworld") self.assert_(count != 0, "None of the file descriptors were changed") def test_fd_booster_e(self): """ File descriptor test for booster-e """ count = get_file_descriptor("booster-e", "e", "fala_ft_hello") self.assert_(count != 0, "None of the file descriptors were changed") def test_restart_booster(self): """ Test that booster is restarted if it is killed """ #get the pids of boosters and make sure they are running debug("get the pids of boosters and make sure they are running") qpid = get_pid('booster-q') self.assert_(qpid != None, "No booster process running") mpid = get_pid('booster-m') self.assert_(mpid != None, "No booster process running") dpid = get_pid('booster-d') self.assert_(dpid != None, "No booster process running") epid = get_pid('booster-e') self.assert_(epid != None, "No booster process running") #Kill the booster processes debug("Kill the booster processes") kill_process(apppid=qpid) kill_process(apppid=mpid) kill_process(apppid=dpid) kill_process(apppid=epid) #wait for the boosters to be restarted debug("wait for the boosters to be restarted") time.sleep(6) #check that the new boosters are started debug("check that the new boosters are started") qpid_new = get_pid('booster-q') self.assert_(qpid_new != None, "No booster process running") self.assert_(qpid_new != qpid, "booster process was not killed") mpid_new = get_pid('booster-m') self.assert_(mpid_new != None, "No booster process running") self.assert_(mpid_new != mpid, "booster process was not killed") dpid_new = get_pid('booster-d') self.assert_(dpid_new != None, "No booster process running") self.assert_(dpid_new != dpid, "booster process was not killed") epid_new = get_pid('booster-e') self.assert_(epid_new != None, "No booster process running") self.assert_(epid_new != epid, "booster process was not killed") def test_booster_killed_or_restarted(self): """ Test that boosters are killed if applauncherd is stopped and restarted if applauncherd is killed """ #get the pids of boosters and make sure they are running debug("get the pids of boosters and make sure they are running") qpid = get_pid('booster-q') self.assert_(len(qpid.split("\n")) == 1, "multiple instances of booster-q running") self.assert_(qpid != None, "No booster process running") dpid = get_pid('booster-d') self.assert_(len(dpid.split("\n")) == 1, "multiple instances of booster-d running") self.assert_(dpid != None, "No booster process running") mpid = get_pid('booster-m') self.assert_(len(mpid.split("\n")) == 1, "multiple instances of booster-m running") self.assert_(mpid != None, "No booster process running") epid = get_pid('booster-e') self.assert_(len(epid.split("\n")) == 1, "multiple instances of booster-e running") self.assert_(epid != None, "No booster process running") #stop applauncherd stop_applauncherd() #wait for the boosters to be killed time.sleep(2) #check that the none of the booster is running debug("check that the none of the booster is running") qpid_new = get_pid('booster-q') self.assert_(qpid_new == None, "booster-q still running") dpid_new = get_pid('booster-d') self.assert_(dpid_new == None, "booster-d still running") mpid_new = get_pid('booster-m') self.assert_(mpid_new == None, "booster-m still running") epid_new = get_pid('booster-e') self.assert_(epid_new == None, "booster-e still running") #Now start the applauncherd start_applauncherd() #wait for the boosters to be restarted time.sleep(6) #get the pids of boosters and make sure they are running debug("get the pids of boosters and make sure they are running") qpid = get_pid('booster-q') self.assert_(len(qpid.split("\n")) == 1, "multiple instances of booster-q running") self.assert_(qpid != None, "No booster process running") dpid = get_pid('booster-d') self.assert_(len(dpid.split("\n")) == 1, "multiple instances of booster-d running") self.assert_(dpid != None, "No booster process running") mpid = get_pid('booster-m') self.assert_(len(mpid.split("\n")) == 1, "multiple instances of booster-m running") self.assert_(mpid != None, "No booster process running") epid = get_pid('booster-e') self.assert_(len(epid.split("\n")) == 1, "multiple instances of booster-e running") self.assert_(epid != None, "No booster process running") #Now kill applauncherd debug("Now kill applauncherd") kill_process('applauncherd') #wait for the boosters to be restarted time.sleep(6) #check that the new boosters are started debug("check that the new boosters are started") qpid_new = get_pid('booster-q') self.assert_(len(qpid_new.split("\n")) == 1, "multiple instances of booster-q running") self.assert_(qpid_new != None, "No booster process running") self.assert_(qpid_new != qpid, "booster process was not killed") dpid_new = get_pid('booster-d') self.assert_(len(dpid_new.split("\n")) == 1, "multiple instances of booster-d running") self.assert_(dpid_new != None, "No booster process running") self.assert_(dpid_new != dpid, "booster process was not killed") mpid_new = get_pid('booster-m') self.assert_(len(mpid_new.split("\n")) == 1, "multiple instances of booster-m running") self.assert_(mpid_new != None, "No booster process running") self.assert_(mpid_new != mpid, "booster process was not killed") epid_new = get_pid('booster-e') self.assert_(len(epid_new.split("\n")) == 1, "multiple instances of booster-e running") self.assert_(epid_new != None, "No booster process running") self.assert_(epid_new != epid, "booster process was not killed") def test_booster_pid_change(self): """ Test that application pid changes to the booster 'x' when application is started with invoker --type='x' """ for i in xrange(3): #Launching application with booster-m mpid = get_pid('booster-m') p = run_app_as_user_with_invoker(PREFERED_APP, booster = 'm', arg = '--no-wait') time.sleep(4) app_pid = get_pid('fala_ft_hello') mpid_new = get_pid('booster-m') self.assert_(app_pid != None, "Application is not running") self.assert_(app_pid == mpid, "Application is not assigned the booster-m pid") self.assert_(mpid_new != None, "No booster process running") self.assert_(mpid_new != mpid, "booster-m process did not receive the new pid") kill_process('fala_ft_hello') #Launching application with booster-d dpid = get_pid('booster-d') p = run_app_as_user_with_invoker(PREFERED_APP_QML, booster = 'd', arg = '--no-wait') time.sleep(4) app_pid = get_pid('fala_qml_helloworld') dpid_new = get_pid('booster-d') kill_process('fala_qml_helloworld') self.assert_(app_pid != None, "Application is not running") self.assert_(app_pid == dpid, "Application is not assigned the booster-d pid") self.assert_(dpid_new != None, "No booster process running") self.assert_(dpid_new != dpid, "booster-d process did not receive the new pid") #Launching application with booster-e epid = get_pid('booster-e') p = run_app_as_user_with_invoker(PREFERED_APP, booster = 'e', arg = '--no-wait') time.sleep(4) app_pid = get_pid('fala_ft_hello') epid_new = get_pid('booster-e') kill_process('fala_ft_hello') self.assert_(app_pid != None, "Application is not running") self.assert_(app_pid == epid, "Application is not assigned the booster-e pid") self.assert_(epid_new != None, "No booster process running") self.assert_(epid_new != epid, "booster-e process did not receive the new pid") #Launching application with booster-q qpid = get_pid('booster-q') p = run_app_as_user_with_invoker(PREFERED_APP, booster = 'q', arg = '--no-wait') time.sleep(4) app_pid = get_pid('fala_ft_hello') qpid_new = get_pid('booster-q') kill_process('fala_ft_hello') self.assert_(app_pid != None, "Application is not running") self.assert_(app_pid == qpid, "Application is not assigned the booster-q pid") self.assert_(qpid_new != None, "No booster process running") self.assert_(qpid_new != qpid, "booster-q process did not receive the new pid") def test_stress_boosted_apps(self): self._test_stress_boosted_apps('m', 'fala_ft_hello') time.sleep(5) self._test_stress_boosted_apps('d', 'fala_qml_helloworld', invoker_extra_flags='--single-instance') time.sleep(5) self._test_stress_boosted_apps('e', 'fala_ft_hello') time.sleep(5) def _test_stress_boosted_apps(self, booster_type, app_name, invoker_extra_flags=''): """ Stress test for boosted applications to check only one instance is running. """ if get_pid(app_name) != None: kill_process(app_name) time.sleep(2) count = 0 p = run_cmd_as_user('invoker --type=%s --no-wait %s %s' % (booster_type, invoker_extra_flags, app_name)) pid = get_pid(app_name) for i in xrange(10): p = run_cmd_as_user('invoker --type=%s --no-wait %s %s' % (booster_type, invoker_extra_flags, app_name)) app_pid = get_pid(app_name) self.assert_(app_pid != None, "Application is not running") self.assert_(pid == app_pid, "Same instance of application not running") st, op = commands.getstatusoutput('ps ax | grep invoker | grep %s| grep -v -- -sh | wc -l' % app_name) count = int(op) while count != 0: debug("The value of queue is %d" %count) time.sleep(3) debug("Sleeping for 3 secs") app_pid = get_pid(app_name) kill_process(app_name) self.assert_(pid == app_pid, "Same instance of application not running") st, op = commands.getstatusoutput('ps ax | grep invoker | grep %s| grep -v -- -sh | wc -l' % app_name) count = int(op) def test_launched_app_name(self): """ Test that launched application have correct applicationname """ #For booster-m #Check though the process list p = run_cmd_as_user('invoker --type=m --no-wait fala_wl -faulty') time.sleep(5) pid = get_pid('fala_wl') st, op = commands.getstatusoutput('cat /proc/%s/cmdline' %pid) self.assert_(op.split('\0')[0] == "fala_wl",'Application name is incorrect') #check through the window property st, op = commands.getstatusoutput("xwininfo -root -tree| awk '/Applauncherd testapp/ {print $1}'") st, op1 = commands.getstatusoutput("xprop -id %s | awk '/WM_COMMAND/{print $4}'" %op) kill_process('fala_wl') self.assert_(op1.split(",")[0] == '"fala_wl"','Application name is incorrect') #For booster-d #Check though the process list p = run_cmd_as_user('invoker --type=d --no-wait fala_qml_helloworld -faulty') time.sleep(2) pid = get_pid('fala_qml_helloworld') st, op = commands.getstatusoutput('cat /proc/%s/cmdline' %pid) self.assert_(op.split('\0')[0] == "fala_qml_helloworld",'Application name is incorrect') #check through the window property st, op = commands.getstatusoutput("xwininfo -root -tree| awk '/Applauncherd QML testapp/ {print $1}'") st, op1 = commands.getstatusoutput("xprop -id %s | awk '/WM_COMMAND/{print $4}'" %op) kill_process('fala_qml_helloworld') self.assert_(op1.split(",")[0] == '"fala_qml_helloworld"','Application name is incorrect') #For booster-e #Check though the process list p = run_cmd_as_user('invoker --type=e --no-wait fala_wl -faulty') time.sleep(2) pid = get_pid('fala_wl') st, op = commands.getstatusoutput('cat /proc/%s/cmdline' %pid) self.assert_(op.split('\0')[0] == "fala_wl",'Application name is incorrect') #check through the window property st, op = commands.getstatusoutput("xwininfo -root -tree| awk '/Applauncherd testapp/ {print $1}'") st, op1 = commands.getstatusoutput("xprop -id %s | awk '/WM_COMMAND/{print $4}'" %op) kill_process('fala_wl') self.assert_(op1.split(",")[0] == '"fala_wl"','Application name is incorrect') #For booster-q #Check though the process list p = run_cmd_as_user( 'invoker --type=qt --no-wait fala_wl -faulty') time.sleep(2) pid = get_pid('fala_wl') st, op = commands.getstatusoutput('cat /proc/%s/cmdline' %pid) self.assert_(op.split('\0')[0] == "fala_wl",'Application name is incorrect') #check through the window property st, op = commands.getstatusoutput("xwininfo -root -tree| awk '/Applauncherd testapp/ {print $1}'") st, op1 = commands.getstatusoutput("xprop -id %s | awk '/WM_COMMAND/{print $4}'" %op) kill_process('fala_wl') self.assert_(op1.split(",")[0] == '"fala_wl"','Application name is incorrect') def test_unix_signal_handlers(self): """ Test unixSignalHAndlers by killing booster-m and booster-d, singnal hub """ mpid = get_pid('booster-m') st, op = commands.getstatusoutput('kill -hup %s' % mpid) time.sleep(2) mpid_new = wait_for_app('booster-m') self.assert_(mpid != mpid_new, "booster-m pid is not changed") dpid = get_pid('booster-d') st, op = commands.getstatusoutput('kill -hup %s' % dpid) time.sleep(2) dpid_new = wait_for_app('booster-d') self.assert_(dpid != dpid_new, "booster-d pid is not changed") def test_qttas_load_booster_d(self): self._test_qttas_load_booster(PREFERED_APP_QML, 'd') def test_qttas_load_booster_m(self): self._test_qttas_load_booster(PREFERED_APP, 'm') def _test_qttas_load_booster(self, testapp, btype): """ To test invoker that qttestability plugin is loaded with -testability argument for booster-d """ for i in range(2): debug("Running cycle %s" %i) p = run_app_as_user_with_invoker("%s -testability" %testapp, booster = btype) time.sleep(2) pid = get_pid(testapp) self.assert_(pid != None, "Can't start application %s" %testapp) st_tas, op_tas = commands.getstatusoutput("grep -c libtestability.so /proc/%s/maps" %pid) debug("The value of status is %d" %st_tas) debug("The value of output is %s" %op_tas) st_tas_plug, op_tas_plug = commands.getstatusoutput("grep -c libqttestability.so /proc/%s/maps" %pid) debug("The value of status is %d" %st_tas_plug) debug("The value of output is %s" %op_tas_plug) kill_process(apppid=pid) self.assert_(st_tas == 0,"libtestability.so not loaded") self.assert_(st_tas_plug == 0,"libqttestability.so not loaded") time.sleep(2) def test_qttas_load_env_booster_d(self): self._test_qttas_load_env_booster(PREFERED_APP_QML, 'd') def test_qttas_load_env_booster_m(self): self._test_qttas_load_env_booster(PREFERED_APP, 'm') def _test_qttas_load_env_booster(self, testapp, btype): """ To test invoker that qttestability plugin is loaded with QT_LOAD_TESTABILITY env variable for booster-d """ for i in range(2): debug("Running cycle %s" %i) cmd = ['su', '-', 'user', '-c'] invoke="export QT_LOAD_TESTABILITY=1; /usr/bin/invoker --type=%s %s" %(btype, testapp) cmd.append(invoke) p = subprocess.Popen(cmd, shell = False, stdout = DEV_NULL, stderr = DEV_NULL) time.sleep(2) pid = get_pid(testapp) self.assert_(pid != None, "Can't start application %s" %testapp) st_tas, op_tas = commands.getstatusoutput("grep -c libtestability.so /proc/%s/maps" %pid) debug("The value of status is %d" %st_tas) debug("The value of output is %s" %op_tas) st_tas_plug, op_tas_plug = commands.getstatusoutput("grep -c libqttestability.so /proc/%s/maps" %pid) debug("The value of status is %d" %st_tas_plug) debug("The value of output is %s" %op_tas_plug) kill_process(apppid=pid) self.assert_(st_tas == 0,"libtestability.so not loaded") self.assert_(st_tas_plug == 0,"libqttestability.so not loaded") time.sleep(2) def test_dirPath_filePath_m(self): self._test_dirPath_filePath('m', "/usr/share/fala_images", "fala_hello") def test_dirPath_filePath_d(self): self._test_dirPath_filePath('d', "/usr/share/fala_images", "fala_qml_helloworld") def test_dirPath_filePath_q(self): self._test_dirPath_filePath('q', "/usr/share/fala_images", "fala_qml_helloworld") def test_dirPath_filePath_e(self): self._test_dirPath_filePath('e', "/usr/share/fala_images", "fala_qml_helloworld") def _test_dirPath_filePath(self, btype, path, testapp): """ Test that correct file path and dir path is passed """ if os.path.isfile("/tmp/%s.log" % testapp): os.system("rm /tmp/%s.log" % testapp) if get_pid(testapp)!= None: kill_process(testapp) p = run_cmd_as_user('invoker --type=%s %s/%s' % (btype, path, testapp)) time.sleep(4) pid = get_pid(testapp) self.assert_(pid != None, "The application was not launched") debug("get filePath and dirPath from log file") st, op = commands.getstatusoutput("grep Path /tmp/%s.log | tail -2" % testapp) dirpath = op.split("\n")[0].split(" ")[2] self.assert_(dirpath == path, "Wrong dirPath: %s" % dirpath) filepath = op.split("\n")[1].split(" ")[2] kill_process(apppid=pid) self.assert_(filepath == "%s/%s" % (path, testapp), "Wrong filePath: %s" % filepath) def test_argv_mbooster_limit(self): self._test_argv_booster_limit("m", "fala_wl") def test_argv_dbooster_limit(self): self._test_argv_booster_limit("d", "fala_qml_helloworld") def _test_argv_booster_limit(self, btype, testapp): """ Test that ARGV_LIMIT (32) arguments are successfully passed to cached [QM]Application. """ if os.path.isfile("/tmp/%s.log" % testapp): os.system("rm /tmp/%s.log" % testapp) if get_pid(testapp)!= None: kill_process(testapp) p = run_cmd_as_user('invoker --type=%s /usr/bin/%s --log-args 0 1 2 3 4 5 6 7 8 9 a b c d e f g h i j k l m n o p q r s t' % (btype, testapp)) time.sleep(4) pid = get_pid(testapp) self.assert_(pid != None, "The application was not launched") debug("get arguments from log file") st, op = commands.getstatusoutput("grep argv: /tmp/%s.log | tail -2" % testapp) original_argv = op.split("\n")[0] cache_argv = op.split("\n")[1] kill_process(apppid=pid) self.assert_(original_argv == cache_argv, "Wrong arguments passed.\nOriginal: %s\nCached: %s" % (original_argv, cache_argv)) def test_argv_mbooster_over_limit(self): self._test_argv_booster_over_limit("m", "fala_wl") def test_argv_dbooster_over_limit(self): self._test_argv_booster_over_limit("d", "fala_qml_helloworld") def _test_argv_booster_over_limit(self, btype, testapp): """ Test that if more than ARGV_LIMIT (32) arguments are passed to cached [QM]Application, the application is still launched and ARGV_LIMIT arguments are successfully passed. """ ARGV_LIMIT = 32 if os.path.isfile("/tmp/%s.log" % testapp): os.system("rm /tmp/%s.log" % testapp) if get_pid(testapp)!= None: kill_process(testapp) p = run_cmd_as_user('invoker --type=%s /usr/bin/%s --log-args 0 1 2 3 4 5 6 7 8 9 a b c d e f g h i j k l m n o p q r s t u v w x y z' % (btype, testapp)) time.sleep(4) pid = get_pid(testapp) kill_process(apppid=pid) self.assert_(pid != None, "The application was not launched") debug("get arguments from log file") st, op = commands.getstatusoutput("grep argv: /tmp/%s.log | tail -2" % testapp) original_argv = op.split("\n")[0].split(" ")[1:] cache_argv = op.split("\n")[1].split(" ")[1:] self.assert_(len(cache_argv) == ARGV_LIMIT, "Wrong number of arguments passed.\nOriginal: %s\nCached: %s" % (original_argv, cache_argv)) for i in range(ARGV_LIMIT): self.assert_(original_argv[i] == cache_argv[i], "Wrong arguments passed.\nOriginal: %s\nCached: %s" % (original_argv, cache_argv)) def test_signal_status_m(self): self._test_signal_status("fala_wl", "fala_wol") def test_signal_status_qml(self): self._test_signal_status("fala_qml_wl", "fala_qml_wol") def _test_signal_status(self, app_wl, app_wol): """ Test that values of SigBlk, SigIgn and SigCgt in /proc/pid/status is same for both boosted and non boosted applications """ #Get status for non boosted apps os.system("initctl restart xsession/mthome") time.sleep(5) st, op = commands.getstatusoutput("%s -a %s" %(GET_COORDINATE_SCRIPT, app_wol)) time.sleep(2) pos = op.split("\n")[-1] os.system("%s -c %s -q" %(PIXELCHANHED_BINARY, pos)) time.sleep(2) pid = get_pid(app_wol) st, SigBlk_wol = commands.getstatusoutput("cat /proc/%s/status | grep SigBlk" %pid) st, SigIgn_wol = commands.getstatusoutput("cat /proc/%s/status | grep SigIgn" %pid) st, SigCgt_wol = commands.getstatusoutput("cat /proc/%s/status | grep SigCgt" %pid) kill_process(app_wol) time.sleep(2) #Get status for booster application os.system("initctl restart xsession/mthome") time.sleep(5) st, op = commands.getstatusoutput("%s -a %s" %(GET_COORDINATE_SCRIPT, app_wl)) time.sleep(2) pos = op.split("\n")[-1] os.system("%s -c %s -q" %(PIXELCHANHED_BINARY, pos)) time.sleep(2) pid = get_pid(app_wl) st, SigBlk_wl = commands.getstatusoutput("cat /proc/%s/status | grep SigBlk" %pid) st, SigIgn_wl = commands.getstatusoutput("cat /proc/%s/status | grep SigIgn" %pid) st, SigCgt_wl = commands.getstatusoutput("cat /proc/%s/status | grep SigCgt" %pid) kill_process(app_wl) time.sleep(2) self.assert_(SigBlk_wol == SigBlk_wl, "The SigBlk is not same for both apps") self.assert_(SigIgn_wol == SigIgn_wl, "The SigIgn is not same for both apps") self.assert_(SigCgt_wol == SigCgt_wl, "The SigCgt is not same for both apps") def test_signal_status_m(self): self._test_signal_status("fala_wl", "fala_wol") def test_signal_status_qml(self): self._test_signal_status("fala_qml_wl", "fala_qml_wol") def _test_signal_status(self, app_wl, app_wol): """ Test that values of SigBlk, SigIgn and SigCgt in /proc/pid/status is same for both boosted and non boosted applications """ #Get status for non boosted apps os.system("initctl restart xsession/mthome") time.sleep(5) st, op = commands.getstatusoutput("%s -a %s" %(GET_COORDINATE_SCRIPT, app_wol)) time.sleep(2) pos = op.split("\n")[-1] os.system("%s -c %s -q" %(PIXELCHANHED_BINARY, pos)) time.sleep(2) pid = get_pid(app_wol) st, SigBlk_wol = commands.getstatusoutput("cat /proc/%s/status | grep SigBlk" %pid) st, SigIgn_wol = commands.getstatusoutput("cat /proc/%s/status | grep SigIgn" %pid) st, SigCgt_wol = commands.getstatusoutput("cat /proc/%s/status | grep SigCgt" %pid) kill_process(app_wol) time.sleep(2) #Get status for booster application os.system("initctl restart xsession/mthome") time.sleep(5) st, op = commands.getstatusoutput("%s -a %s" %(GET_COORDINATE_SCRIPT, app_wl)) time.sleep(2) pos = op.split("\n")[-1] os.system("%s -c %s -q" %(PIXELCHANHED_BINARY, pos)) time.sleep(2) pid = get_pid(app_wl) st, SigBlk_wl = commands.getstatusoutput("cat /proc/%s/status | grep SigBlk" %pid) st, SigIgn_wl = commands.getstatusoutput("cat /proc/%s/status | grep SigIgn" %pid) st, SigCgt_wl = commands.getstatusoutput("cat /proc/%s/status | grep SigCgt" %pid) kill_process(app_wl) time.sleep(2) self.assert_(SigBlk_wol == SigBlk_wl, "The SigBlk is not same for both apps") self.assert_(SigIgn_wol == SigIgn_wl, "The SigIgn is not same for both apps") self.assert_(SigCgt_wol == SigCgt_wl, "The SigCgt is not same for both apps") def test_launched_app_wm_class_m(self): """ Test that launched application have correct WM_CLASS Xproperty booster m """ #For booster-m MApplicationWindow from MComponentCache self._test_launched_app_wm_class_helper("m","fala_wl","-faulty","fala_wl",2) #For booster-m MApplicationWindow NOT from cache. 3 windows (2 for application + 1 is created by cache but not used) self._test_launched_app_wm_class_helper("m","fala_ft_hello","-window-not-from-cache","fala_ft_hello",3) #For booster-m multiple MApplicationWindow (3 windows + 1) self._test_launched_app_wm_class_helper("m","fala_multi-window","","fala_multi-window",4) #For booster-m multiple MApplicationWindow NOT from cache (3 windows + 1 + 1 created by cache but not used) self._test_launched_app_wm_class_helper("m","fala_multi-window","-window-not-from-cache","fala_multi-window",5) def test_launched_app_wm_class_d(self): """ Test that launched application have correct WM_CLASS Xproperty booster d """ #For booster-d QDeclarativeView from MDeclarativeCache self._test_launched_app_wm_class_helper("d","fala_qml_helloworld","-faulty","fala_qml_helloworld",2) #For booster-d QDeclarativeView NOT from cache (2 windows + 1 is created by cache but not used) self._test_launched_app_wm_class_helper("d","fala_qml_helloworld","-window-not-from-cache","fala_qml_helloworld",3) def test_launched_app_wm_class_e(self): """ Test that launched application have correct WM_CLASS Xproperty booster e """ #For booster-e MApplicationWindow from MComponentCache self._test_launched_app_wm_class_helper("e","fala_wl","-faulty","fala_wl",2) #For booster-e MApplicationWindow NOT from cache self._test_launched_app_wm_class_helper("e","fala_ft_hello","-window-not-from-cache","fala_ft_hello",2) #For booster-e multiple MApplicationWindow (3 windows + 1) self._test_launched_app_wm_class_helper("e","fala_multi-window","","fala_multi-window",4) def test_launched_app_wm_class_q(self): """ Test that launched application have correct WM_CLASS Xproperty booster q """ #For booster-q MApplicationWindow from MComponentCache self._test_launched_app_wm_class_helper("q","fala_wl","-faulty","fala_wl",2) #For booster-q MApplicationWindow NOT from cache self._test_launched_app_wm_class_helper("q","fala_ft_hello","-window-not-from-cache","fala_ft_hello",2) #For booster-q multiple MApplicationWindow (3 windows + 1) self._test_launched_app_wm_class_helper("q","fala_multi-window","","fala_multi-window",4) def _test_launched_app_wm_class_helper(self,btype,test_application,cmd_arguments,window_name,window_count): run_command = 'invoker --type=%s --no-wait %s %s' %(btype, test_application, cmd_arguments) p = run_cmd_as_user(run_command) time.sleep(5) pid = get_pid(test_application) self.assert_(pid != None, "Can't start application %s" %test_application) st, op = commands.getstatusoutput("xwininfo -root -tree| awk '/%s/ {print $1}'" %window_name) ids = op.split("\n") xProperties=[] for wid in ids: st, op1 = commands.getstatusoutput("xprop -id %s | awk '/WM_CLASS/{print $3$4}'" %wid) xProperties.append(op1) kill_process(apppid=pid) #check that we catch exac number of windows numwind = len(ids) self.assert_(window_count == numwind, 'Got wrong number of windows: %s' %numwind) wm_class_xproperty_string = '"' + test_application + '","' + string.capwords(test_application) + '"' debug("Looking for '%s'" %wm_class_xproperty_string) for property in xProperties: self.assert_(op1 == wm_class_xproperty_string,'Application WM_CLASS 1 is incorrect: %s' %property) # main if __name__ == '__main__': # When run with testrunner, for some reason the PATH doesn't include # the tools/bin directory if os.getenv('_SBOX_DIR') != None: os.environ['PATH'] = os.getenv('PATH') + ":" + os.getenv('_SBOX_DIR') + '/tools/bin' using_scratchbox = True check_prerequisites() tests = sys.argv[1:] try: mysuite = unittest.TestSuite(map(launcher_tests, tests)) except: mysuite = unittest.TestSuite(map(daemon_handling, tests)) result = unittest.TextTestRunner(verbosity=2).run(mysuite) if not result.wasSuccessful(): sys.exit(1) sys.exit(0)