def __init__(self): self.anime = Animation() host = '' # Bind server to all interfaces self.s = socket.socket( socket.AF_INET, socket.SOCK_DGRAM) # Creating the socket using IPv4, UDP self.s.bind( (host, PORT)) # Binding Server to all interfaces and the chosen port. self.setup_tool = SetupTool() self.paths = self.setup_tool.parse_file('../config/paths.dat') self.setup_tool.get_setup_data('../config/session-setup.dat') self.clients_list = self.setup_tool.get_clients_list() self.query_type = self.setup_tool.get_query_type().split() self.repetitions = int(self.setup_tool.get_repetitions()) fLog = open( self.paths['LOG_FOLDER_PATH'] + 'enum-bench-tool-master.log', 'w') fLog.close() # Refreshing results folder and temp folder for s in self.setup_tool.get_scenario_list(): self.setup_tool.refresh_folder(self.setup_tool.get_save_dir() + self.setup_tool.get_session_name() + '/' + s + '/') self.setup_tool.refresh_folder(self.paths['TEMP_FOLDER_PATH'])
def __init__ (self): setup = SetupTool() self.paths = setup.parse_file('../config/paths.dat') # Refresh import.sql file setup.refresh_file(self.paths['PDNS_OUTPUT_FOLDER_PATH'] + 'import.sql') self.fSql = open (self.paths['PDNS_OUTPUT_FOLDER_PATH'] + 'import.sql', 'a') self.domainCounter = 0
def __init__(self): """Initializing the configurations at "Client" """ self.setup_tool = SetupTool() self.paths = self.setup_tool.parse_file('../config/paths.dat') host = '' # Bind server to all interfaces self.s = socket.socket (socket.AF_INET, socket.SOCK_DGRAM) # Creating the socket using IPv4, UDP self.s.bind((host, PORT)) # Binding Server to all interfaces and the chosen port. fLog = open(self.paths['LOG_FOLDER_PATH'] + 'enum-bench-tool-client.log', 'w') fLog.close()
def __init__ (self): self.setup = SetupTool() self.paths = self.setup.parse_file('../config/paths.dat') self.setup.get_setup_data('../config/result-parser-setup.dat') y_axis = [] y_axis.append((self.setup.throughput(), self.setup.get_throughput_label(), self.setup.get_throughput_plot_name(), 4)) y_axis.append((self.setup.latency_mean(), self.setup.get_latency_mean_label(), self.setup.get_latency_mean_plot_name(), 5)) y_axis.append((self.setup.network(), self.setup.get_network_label(), self.setup.get_network_plot_name(), 8)) n = 0 for p in self.setup.get_cpu_utilization_processes_list(): y_axis.append((self.setup.cpu_utilization(), self.setup.get_cpu_utilization_label(), self.setup.get_cpu_utilization_plot_name() + '-' + p, 7 + n)) n += 2 print '>> Starting plot process...' for i in self.setup.get_session_list(): for j in self.setup.get_plot_list(): call(['mkdir', '-p', self.setup.get_img_dir() + i + '/' + j]) call(['mkdir', '-p', self.setup.get_gp_dir() + i + '/' + j]) if j.startswith('a') or j.startswith('n'): for q in range(len(y_axis)): if y_axis[q][0]: f_gp = open(self.setup.get_gp_dir() + i + '/' + j + '/' + y_axis[q][2] + '.gp', 'w') if self.setup.get_plot_format() == 'eps': f_gp.write('set terminal postscript eps color enhanced\n') else: f_gp.write('set terminal ' + self.setup.get_plot_format() + '\n') f_gp.write('set encoding utf8\n' + 'set output "' + self.setup.get_img_dir() + i + '/' + j + '/' + y_axis[q][2] + '-' + i + '-' + j + '.' + self.setup.get_plot_format() + '"\n' + 'set grid\n' + 'set xtics auto\n' + 'set ytics auto\n' + 'set mxtics 5\n' + 'set mytics 5\n' + 'set xlabel "' + self.setup.get_label_x_axis() + '"\n' + 'set ylabel "' + y_axis[q][1] + '"\n' + 'set key bottom\n') for k in self.setup.get_curves_list(): f_gp.write('set style line ' + str(self.setup.get_curves_list().index(k) + 1) + ' lt 1 lw 2 lc rgb "' + self.setup.get_curves_colors()[self.setup.get_curves_list().index(k)] + '"\n') f_gp.write('plot ') for k in self.setup.get_curves_list(): if k == self.setup.get_curves_list()[-1]: f_gp.write('"' + self.setup.get_data_dir() + i + '/' + k + '/' + j + '/stats.dat' + '" u 1:' + str(y_axis[q][3]) + ' title "' + self.setup.get_curves_labels()[self.setup.get_curves_list().index(k)] + '" w lp ls ' + str(self.setup.get_curves_list().index(k) + 1)) else: f_gp.write('"' + self.setup.get_data_dir() + i + '/' + k + '/' + j + '/stats.dat' + '" u 1:' + str(y_axis[q][3]) + ' title "' + self.setup.get_curves_labels()[self.setup.get_curves_list().index(k)] + '" w lp ls ' + str(self.setup.get_curves_list().index(k) + 1) + ', \\\n') f_gp.close() call(['gnuplot', self.setup.get_gp_dir() + i + '/' + j + '/' + y_axis[q][2] + '.gp']) else: for q in range(len(y_axis)): if y_axis[q][0]: f_gp = open(self.setup.get_gp_dir() + i + '/' + j + '/' + y_axis[q][2] + '.gp', 'w') if self.setup.get_plot_format() == 'eps': f_gp.write('set terminal postscript eps color enhanced\n') else: f_gp.write('set terminal ' + self.setup.get_plot_format() + '\n') f_gp.write('set encoding utf8\n' + 'set output "' + self.setup.get_img_dir() + i + '/' + j + '/' + y_axis[q][2] + '-' + i + '-' + j + '.' + self.setup.get_plot_format() + '"\n' + 'set grid\n' + 'set xtic auto\n' + 'set ytic auto\n' + 'set mxtics 5\n' + 'set mytics 5\n' + 'set xlabel "' + self.setup.get_label_x_axis() + '"\n' + 'set ylabel "' + y_axis[q][1] + '"\n' + 'set key bottom\n') for k in self.setup.get_curves_list(): f_gp.write('set style line ' + str(self.setup.get_curves_list().index(k) + 1) + ' lt 1 lw 2 lc rgb "' + self.setup.get_curves_colors()[self.setup.get_curves_list().index(k)] + '"\n') f_gp.write('plot ') for k in self.setup.get_curves_list(): if k == self.setup.get_curves_list()[-1]: f_gp.write('"' + self.setup.get_data_dir() + i + '/' + j + '/' + k + '/stats.dat' + '" u 1:' + str(y_axis[q][3]) + ' title "' + self.setup.get_curves_labels()[self.setup.get_curves_list().index(k)] + '" w lp ls ' + str(self.setup.get_curves_list().index(k) + 1)) else: f_gp.write('"' + self.setup.get_data_dir() + i + '/' + j + '/' + k + '/stats.dat' + '" u 1:' + str(y_axis[q][3]) + ' title "' + self.setup.get_curves_labels()[self.setup.get_curves_list().index(k)] + '" w lp ls ' + str(self.setup.get_curves_list().index(k) + 1) + ', \\\n') f_gp.close() call(['gnuplot', self.setup.get_gp_dir() + i + '/' + j + '/' + y_axis[q][2] + '.gp']) print '>> Plot process successfully completed.'