def __init__( self ):
self.builder = Gtk.Builder()
self.builder.add_from_file( 'lte-sim-helper-gui.glade' )
self.builder.connect_signals( self )
self.parser = SetupParser()
self.pref = self.parser.parse( 'preferences.cfg' )
self.main_window = self.builder.get_object( 'main_window' )
self.start_dlg = self.builder.get_object( 'start_dlg' )
self.set_ask_chkbox = self.builder.get_object( 'set_ask_chkbox' )
self.no_sched_dlg = self.builder.get_object( 'no_sched_dlg' )
self.no_flow_dlg = self.builder.get_object( 'no_flow_dlg' )
self.pbar = self.builder.get_object( 'sim_pbar' )
self.status_bar = self.builder.get_object( 'status_bar' )
self.sim_done_dlg = self.builder.get_object( 'sim_done_dlg' )
if self.pref['START_DLG'] == 'TRUE':
self.start_dlg.run()
else:
self.load_main_window()
def __init__( self ):
parser = SetupParser()
self.par_dict = parser.parse( 'setup.cfg' )
self.users_list = self.get_users_list()
self.config_path = os.getcwd() + '/setup.cfg'
self.schedulers_list = self.par_dict['SCHEDULERS'].split()
self.bw = float( self.par_dict['DL_BW'] ) * pow( 10, 6 )
self.n_dec = int( self.par_dict['N_DEC'] )
self.cdf_gran = int( self.par_dict['CDF_GRAN'] )
self.cdf_factor = pow( 10, len( self.par_dict['CDF_GRAN'] ) - 1 )
self.start = datetime.now()
if self.par_dict['CELL_MODE'] == 'Single':
self.cell_factor = 1
elif self.par_dict['CELL_MODE'] == 'Multi':
self.cell_factor = int( self.par_dict['N_CELLS'] )
else:
print "\n\n>> ERROR! CELL_MODE: '" + self.par_dict['CELL_MODE'] + "' not supported!"
exit()
call( ['mkdir -p ' + self.par_dict['SAVE_DIR'] + 'sim'], shell=True )
call( ['mkdir -p ' + self.par_dict['SAVE_DIR'] + 'dat'], shell=True )
self.flow_list = []
if int( self.par_dict['N_VOIP'] ):
self.flow_list.append( 'VOIP' )
call( ['mkdir -p ' + self.par_dict['SAVE_DIR'] + 'dat/' + 'VOIP'], shell=True )
if int( self.par_dict['N_VIDEO'] ):
self.flow_list.append( 'VIDEO' )
call( ['mkdir -p ' + self.par_dict['SAVE_DIR'] + 'dat/' + 'VIDEO'], shell=True )
if int( self.par_dict['N_BE'] ):
self.flow_list.append( 'INF_BUF' )
call( ['mkdir -p ' + self.par_dict['SAVE_DIR'] + 'dat/' + 'INF_BUF'], shell=True )
f = open( 'pid', 'w' )
f.close()
class LteSimHelperGui( Gtk.Window ):
def __init__( self ):
self.builder = Gtk.Builder()
self.builder.add_from_file( 'lte-sim-helper-gui.glade' )
self.builder.connect_signals( self )
self.parser = SetupParser()
self.pref = self.parser.parse( 'preferences.cfg' )
self.main_window = self.builder.get_object( 'main_window' )
self.start_dlg = self.builder.get_object( 'start_dlg' )
self.set_ask_chkbox = self.builder.get_object( 'set_ask_chkbox' )
self.no_sched_dlg = self.builder.get_object( 'no_sched_dlg' )
self.no_flow_dlg = self.builder.get_object( 'no_flow_dlg' )
self.pbar = self.builder.get_object( 'sim_pbar' )
self.status_bar = self.builder.get_object( 'status_bar' )
self.sim_done_dlg = self.builder.get_object( 'sim_done_dlg' )
if self.pref['START_DLG'] == 'TRUE':
self.start_dlg.run()
else:
self.load_main_window()
#------------------------------------------------------------------------------
def load_main_window( self ):
self.create_cpu_cbx()
self.main_sched_grid, self.main_sched_chkbox = self.create_schedulers_grid( 'sched_align' )
self.dlg_sched_grid, self.dlg_sched_chkbox = self.create_schedulers_grid( 'dlg_sched_align' )
self.add_sched_dlg = self.builder.get_object( 'add_sched_dlg' )
self.rm_sched_dlg = self.builder.get_object( 'rm_sched_dlg' )
self.new_sched_ety = self.builder.get_object( 'new_sched_ety' )
self.no_add_dlg = self.builder.get_object( 'no_add_dlg' )
self.lte_sim_path = self.pref['LTE_SIM_PATH']
self.save_dir_path = self.pref['SAVE_DIR_PATH']
#------------------------------------------------------------------------------
def on_start_ok_btn_clicked( self, widget, data=None ):
start_chkbox = self.builder.get_object( 'start_chkbox' )
if start_chkbox.get_active():
self.save_preference( 'START_DLG', 'TRUE' )
self.set_ask_chkbox.set_active( True )
else:
self.save_preference( 'START_DLG', 'FALSE' )
self.lte_sim_path = self.builder.get_object( 'start_lte_fc' ).get_filename()
self.save_dir_path = self.builder.get_object( 'start_save_fc' ).get_filename()
if self.lte_sim_path == None:
self.no_lte_path_dlg = self.builder.get_object( 'no_lte_path_dlg' )
self.no_lte_path_dlg.run()
else:
self.save_preference( 'LTE_SIM_PATH', self.lte_sim_path )
self.save_preference( 'SAVE_DIR_PATH', self.save_dir_path )
self.load_main_window()
self.start_dlg.hide()
#------------------------------------------------------------------------------
def save_preference( self, key, value ):
f = open( 'preferences.cfg' ).readlines()
f_new = deepcopy( f )
for line in f:
if line.startswith( key ):
f_new[f_new.index( line )] = key + '=' + value + '\n'
f = open( 'preferences.cfg', 'w' )
for line in f_new:
f.write( line )
f.close()
self.pref = self.parser.parse( 'preferences.cfg' )
#------------------------------------------------------------------------------
def on_start_cancel_btn_clicked( self, widget, data=None ):
exit()
#------------------------------------------------------------------------------
def on_start_dlg_destroy( self, widget, data=None ):
exit()
#------------------------------------------------------------------------------
def create_cpu_cbx( self ):
cpu_store = Gtk.ListStore( int )
l_cpus = []
for i in range( cpu_count() ):
l_cpus.append( i + 1 )
for cpu in l_cpus:
cpu_store.append( [cpu] )
cpu_cbx = self.builder.get_object( 'cpu_cbx' )
cpu_cbx.set_model( cpu_store )
cpu_renderer_text = Gtk.CellRendererText()
cpu_cbx.pack_start( cpu_renderer_text, True )
cpu_cbx.add_attribute( cpu_renderer_text, "text", 0 )
#------------------------------------------------------------------------------
def create_schedulers_grid( self, align ):
sched_align = self.builder.get_object( align )
sched_grid = Gtk.Grid()
sched_align.add( sched_grid )
f = open( 'schedulers.cfg' )
l_sched_chkbtn = []
for line in f:
if not ( line == ' ' or len( line ) == 1 ):
l_sched_chkbtn.append( ( line.rstrip(), Gtk.CheckButton( line.rstrip() ) ) )
t = 0
l = 0
for s in range( len( l_sched_chkbtn ) ):
if l == 8:
l = 0
t += 1
sched_grid.attach( l_sched_chkbtn[s][1], l, t, 1, 1 )
l += 1
self.main_window.show_all()
return sched_grid, l_sched_chkbtn
#------------------------------------------------------------------------------
def on_open_tool_btn_clicked( self, widget, data=None ):
print "LOAD"
#------------------------------------------------------------------------------
def on_add_tool_btn_clicked( self, widget, data=None ):
self.add_sched_dlg.run()
self.new_sched_ety.set_text( '' )
self.new_sched_ety.set_placeholder_text( 'PF' )
#------------------------------------------------------------------------------
def on_cancel_add_sched_btn_clicked( self, widget, data=None ):
self.add_sched_dlg.hide()
#------------------------------------------------------------------------------
def on_add_sched_btn_clicked( self, widget, data=None ):
f = open( 'schedulers.cfg', 'a' )
if self.new_sched_ety.get_text() == '':
self.no_add_dlg.run()
else:
f.write( self.new_sched_ety.get_text() + '\n' )
f.close()
self.main_sched_grid.destroy()
self.main_sched_grid, self.main_sched_chkbox = self.create_schedulers_grid( 'sched_align' )
self.add_sched_dlg.hide()
#------------------------------------------------------------------------------
def on_rm_tool_btn_clicked( self, widget, data=None ):
self.dlg_sched_grid.destroy()
self.dlg_sched_grid, self.dlg_sched_chkbox = self.create_schedulers_grid( 'dlg_sched_align' )
self.rm_sched_dlg.show_all()
self.rm_sched_dlg.run()
#------------------------------------------------------------------------------
def on_cancel_rm_sched_btn_clicked( self, widget, data=None ):
self.rm_sched_dlg.hide()
#------------------------------------------------------------------------------
def on_rm_sched_btn_clicked( self, widget, data=None ):
selected = self.get_chkbox_selected( self.dlg_sched_chkbox )
f = open( 'schedulers.cfg' ).readlines()
f_new = deepcopy( f )
for line in f:
for s in selected:
if s == line.rstrip():
f_new.remove( line )
f = open( 'schedulers.cfg', 'w' )
for line in f_new:
f.write( line )
f.close()
self.dlg_sched_grid.destroy()
self.dlg_sched_grid, self.dlg_sched_chkbox = self.create_schedulers_grid( 'dlg_sched_align' )
self.main_sched_grid.destroy()
self.main_sched_grid, self.main_sched_chkbox = self.create_schedulers_grid( 'sched_align' )
self.rm_sched_dlg.hide()
#------------------------------------------------------------------------------
def get_chkbox_selected( self, l_chkbox ):
selected = []
for c in range( len( l_chkbox ) ):
if l_chkbox[c][1].get_active():
selected.append( l_chkbox[c][0] )
return selected
#------------------------------------------------------------------------------
def on_no_add_btn_clicked( self, widget, data=None ):
self.no_add_dlg.hide()
self.add_sched_dlg.run()
#------------------------------------------------------------------------------
def on_set_tool_btn_clicked( self, widget, data=None ):
self.set_lte_fc = self.builder.get_object( 'set_lte_fc' )
self.set_lte_fc.set_filename( self.lte_sim_path )
self.set_save_fc = self.builder.get_object( 'set_save_fc' )
self.set_save_fc.set_filename( self.save_dir_path )
self.set_dlg = self.builder.get_object( 'set_dlg' )
self.set_dlg.run()
#------------------------------------------------------------------------------
def on_quit_tool_btn_clicked( self, widget, data=None ):
Gtk.main_quit()
exit( 0 )
#------------------------------------------------------------------------------
def on_main_window_destroy( self, widget, data=None ):
Gtk.main_quit()
exit( 0 )
#------------------------------------------------------------------------------
def on_set_cancel_btn_clicked( self, widget, data=None ):
self.set_dlg.hide()
#------------------------------------------------------------------------------
def on_set_save_btn_clicked( self, widget, data=None ):
self.save_preference( 'LTE_SIM_PATH', self.set_lte_fc.get_filename() )
self.save_preference( 'SAVE_DIR_PATH', self.set_save_fc.get_filename() )
if self.set_ask_chkbox.get_active():
self.save_preference( 'START_DLG', 'TRUE' )
else:
self.save_preference( 'START_DLG', 'FALSE' )
self.set_dlg.hide()
#------------------------------------------------------------------------------
def on_no_lte_path_btn_clicked( self, widget, data=None ):
self.no_lte_path_dlg.hide()
self.start_dlg.run()
#------------------------------------------------------------------------------
def on_no_sched_btn_clicked( self, widget, data=None ):
self.no_sched_dlg.hide()
self.main_window.show_all()
#------------------------------------------------------------------------------
def on_no_flow_btn_clicked( self, widget, data=None ):
self.no_flow_dlg.hide()
self.main_window.show_all()
#------------------------------------------------------------------------------
def update_progress_bar( self, user_data ):
if not self.q_sim.empty():
call_back = self.q_sim.get()
self.frac = call_back[1]
self.pbar.set_show_text( True )
self.pbar.set_text( call_back[0] )
self.pbar.set_fraction( self.frac )
self.main_window.show_all()
if call_back[2] and ( not call_back[3] ):
self.builder.get_object( 'res_pbar_frm' ).set_sensitive( True )
self.builder.get_object( 'sim_pbar_frm' ).set_sensitive( False )
self.pbar = self.builder.get_object( 'parse_pbar' )
self.proc = Process( target=self.helper.compute_results, args=( self.q_sim, ) )
self.proc.start()
if call_back[2] and call_back[3]:
self.builder.get_object( 'res_pbar_frm' ).set_sensitive( False )
self.pbar = self.builder.get_object( 'sim_pbar' )
self.sim_done_dlg.run()
print 'DONE!'
return True
#------------------------------------------------------------------------------
def on_run_tool_btn_clicked( self, widget, data=None ):
self.builder.get_object( 'sim_pbar_frm' ).set_sensitive( True )
self.l = []
self.frac = 0.0
self.q_sim = Queue()
self.timeout_id = GObject.timeout_add( 50, self.update_progress_bar, None )
if self.generate_setup_file():
self.helper = LteSimHelper()
self.proc = Process( target=self.helper.run_simulations, args=( self.q_sim, ) )
self.proc.start()
self.l.append( self.proc.pid )
self.start = datetime.now()
#------------------------------------------------------------------------------
def generate_setup_file( self ):
cpu_cbx = self.builder.get_object( 'cpu_cbx' )
cpu_model = cpu_cbx.get_model()
n_cpu = str( cpu_model[cpu_cbx.get_active_iter()][0] )
erase_chkbox = self.builder.get_object( 'erase_chkbox' )
if erase_chkbox.get_active(): erase_flag = 'yes'
else: erase_flag = 'no'
dec_sbn = self.builder.get_object( 'dec_sbn' )
n_dec = str( dec_sbn.get_value_as_int() )
cdf_sbn = self.builder.get_object( 'cdf_sbn' )
cdf_gran = str( cdf_sbn.get_value_as_int() )
sim_tme_sbn = self.builder.get_object( 'sim_tme_sbn' )
sim_time = str( sim_tme_sbn.get_value_as_int() )
sim_tme_flw_sbn = self.builder.get_object( 'sim_tme_flw_sbn' )
sim_time_flow = str( sim_tme_flw_sbn.get_value_as_int() )
seed_cbx = self.builder.get_object( 'seed_cbx' )
seed_model = seed_cbx.get_model()
seed = str( seed_model[seed_cbx.get_active_iter()][0] )
n_sim_sbn = self.builder.get_object( 'n_sim_sbn' )
n_sim = str( n_sim_sbn.get_value_as_int() )
bw_sbn = self.builder.get_object( 'bw_sbn' )
bw = str( bw_sbn.get_value() )
scen_cbx = self.builder.get_object( 'scen_cbx' )
scen_model = scen_cbx.get_model()
lte_scen = str( scen_model[scen_cbx.get_active_iter()][2] )
cell_mode = str( scen_model[scen_cbx.get_active_iter()][1] )
n_cell_sbn = self.builder.get_object( 'n_cell_sbn' )
n_cell = str( n_cell_sbn.get_value_as_int() )
cluster_sbn = self.builder.get_object( 'cluster_sbn' )
clusters = str( cluster_sbn.get_value_as_int() )
rad_sbn = self.builder.get_object( 'rad_sbn' )
rad = str( rad_sbn.get_value() )
n_ue_ety = self.builder.get_object( 'n_ue_ety' )
n_ue = n_ue_ety.get_text()
ue_speed_sbn = self.builder.get_object( 'ue_speed_sbn' )
ue_speed = str( ue_speed_sbn.get_value_as_int() )
ue_mob_cbx = self.builder.get_object( 'ue_mob_cbx' )
ue_mob_model = ue_mob_cbx.get_model()
ue_mob = str( ue_mob_model[ue_mob_cbx.get_active_iter()][1] )
flow_flag = False
voip_chkbox = self.builder.get_object( 'voip_chkbox' )
if voip_chkbox.get_active():
n_voip = '1'
flow_flag = True
else: n_voip = '0'
video_chkbox = self.builder.get_object( 'video_chkbox' )
if video_chkbox.get_active():
n_video = '1'
flow_flag = True
else: n_video = '0'
infbuf_chkbox = self.builder.get_object( 'infbuf_chkbox' )
if infbuf_chkbox.get_active():
n_infbuf = '1'
flow_flag = True
else: n_infbuf = '0'
cbr_chkbox = self.builder.get_object( 'cbr_chkbox' )
if cbr_chkbox.get_active():
n_cbr = '1'
flow_flag = True
else: n_cbr = '0'
if not flow_flag:
self.no_flow_dlg.run()
return False
delay_sbn = self.builder.get_object( 'delay_sbn' )
delay = str( delay_sbn.get_value_as_int() / 1000.0 )
vbr_cbx = self.builder.get_object( 'vbr_cbx' )
vbr_model = vbr_cbx.get_model()
vbr = str( vbr_model[vbr_cbx.get_active_iter()][0] )
schedulers = ''
sched_flag = False
for s in range( len( self.main_sched_chkbox ) ):
if self.main_sched_chkbox[s][1].get_active():
schedulers += self.main_sched_chkbox[s][0] + ' '
sched_flag = True
if not sched_flag:
self.no_sched_dlg.run()
return False
prop_model_cbx = self.builder.get_object( 'prop_model_cbx' )
prop_model_model = prop_model_cbx.get_model()
prop_model = str( prop_model_model[prop_model_cbx.get_active_iter()][1] )
frm_struct_cbx = self.builder.get_object( 'frm_struct_cbx' )
frm_struct_model = frm_struct_cbx.get_model()
frm_struct = str( frm_struct_model[frm_struct_cbx.get_active_iter()][0] )
cqi_met_cbx = self.builder.get_object( 'cqi_met_cbx' )
cqi_met_model = cqi_met_cbx.get_model()
cqi_met = str( cqi_met_model[cqi_met_cbx.get_active_iter()][1] )
cqi_mode_cbx = self.builder.get_object( 'cqi_mode_cbx' )
cqi_mode_model = cqi_mode_cbx.get_model()
cqi_mode = str( cqi_mode_model[cqi_mode_cbx.get_active_iter()][1] )
cqi_inter_sbn = self.builder.get_object( 'cqi_inter_sbn' )
cqi_inter = str( cqi_inter_sbn.get_value_as_int() )
f = open( 'setup.cfg', 'w' )
f.write( 'LTE_SIM_PATH=' + self.lte_sim_path + '\n' +
'SAVE_DIR=' + self.save_dir_path + '/\n' +
'N_CPUs=' + n_cpu + '\n' +
'ERASE_TRACE_FILES=' + erase_flag + '\n' +
'N_DEC=' + n_dec + '\n' +
'CDF_GRAN=' + cdf_gran + '\n' +
'SIM_TIME_FLOW=' + sim_time + '\n' +
'SIM_TIME=' + sim_time_flow + '\n' +
'SEED=' + seed + '\n' +
'NUM_SIM=' + n_sim + '\n' +
'DL_BW=' + bw + '\n' +
'LTE_SCENARIO=' + lte_scen + '\n' +
'CELL_MODE=' + cell_mode + '\n' +
'N_CELLS=' + n_cell + '\n' +
'RADIUS=' + rad + '\n' +
'CLUSTERS=' + clusters + '\n' +
'USERS=' + n_ue + '\n' +
'SPEED=' + ue_speed + '\n' +
'MOBILITY_MODEL=' + ue_mob + '\n' +
'N_VOIP=' + n_voip + '\n' +
'N_VIDEO=' + n_video + '\n' +
'N_BE=' + n_infbuf + '\n' +
'N_CBR=' + n_cbr + '\n' +
'MAX_DELAY=' + delay + '\n' +
'VIDEO_BIT_RATE=' + vbr + '\n' +
'SCHEDULERS=' + schedulers + '\n' +
'PROP_MODEL=' + prop_model + '\n' +
'FRAME_STRUCT=' + frm_struct + '\n' +
'CQI_METHOD=' + cqi_met + '\n' +
'CQI_REP_MODE=' + cqi_mode + '\n' +
'CQI_REP_INTERVAL=' + cqi_inter + '\n' )
return True
#------------------------------------------------------------------------------
def on_cancel_sim_btn_clicked( self, widget, data=None ):
print 'cancel sim'
self.pbar.set_text( 'Canceled' )
self.builder.get_object( 'sim_pbar_frm' ).set_sensitive( False )
proc_name = self.lte_sim_path.split( '/' )[-1]
call( ["ps -C " + proc_name + " | grep " + proc_name + " | tr -c '0123456789 \n' '?' | cut -d '?' -f1 | tr -d ' ' >> pid"], shell=True )
Popen( ['kill -9 ' + str( self.proc.pid ) ], shell=True )
f = open( 'pid' )
for line in f:
Popen( ['kill -9 ' + line.rstrip( '\n' )], shell=True )
#------------------------------------------------------------------------------
def on_cancel_res_btn_clicked( self, widget, data=None ):
self.pbar.set_text( 'Canceled' )
self.builder.get_object( 'res_pbar_frm' ).set_sensitive( False )
proc_name = os.path.abspath( __file__ ).split( '/' )[-1]
call( ["ps -C " + proc_name + " | grep " + proc_name[:7] + " | tr -c '0123456789 \n' '?' | cut -d '?' -f1 | tr -d ' ' > pid"], shell=True )
f = open( 'pid' )
for line in f:
if line.rstrip( '\n' ) != str( current_process().pid ):
print 'killing ', line.rstrip( '\n' )
Popen( ['kill -9 ' + line.rstrip( '\n' )], shell=True )
print self.proc.pid
Popen( ['kill -9 ' + str( self.proc.pid ) ], shell=True )
self.pbar = self.builder.get_object( 'sim_pbar' )
#------------------------------------------------------------------------------
def on_sim_done_btn_clicked( self, widget, data=None ):
self.sim_done_dlg.hide()
self.main_window.show_all()
