def test_acl_qos_a1(self): #初始化 fun.iperf_kill() #下发配置并检查结果 for key in self.case1_step: fun.cmd(self.case1_step[key][0], 'gw') re = fun.cmd(self.case1_step[key][1], 'gw') assert self.case1_step[key][2] in re # 服务端占用端口 fun.cmd(f'iperf3 -s -p {qos_port} --logfile s.txt', 's', thread=1) time.sleep(5) # 发送报文 c_cmd = fun.cmd( f'iperf3 -c {pcap_dip} -p {qos_port} -i 1 -u -t 5 -b 30M -P 5', 'c') print(c_cmd) # 检查速率是否正确 s_txt = fun.cmd('cat s.txt', 's') speed_list = fun.qos_speed('s.txt', s_txt) for i in speed_list: print(i) assert 9.0 <= float(i) <= 10.0
def test_qos_qbucket_a2(self): # 初始化 fun.iperf_kill() # 下发配置并检查结果 for key in self.case2_step: fun.cmd(self.case2_step[key][0], 'gw') re = fun.cmd(self.case2_step[key][1], 'gw') assert self.case2_step[key][2] in re # 服务端占用端口 print('服务端占用端口:', f'iperf3 -s -p {qos_port} --logfile s.txt') fun.cmd(f'iperf3 -s -p {qos_port} --logfile s.txt', 's', thread=1) time.sleep(5) # 发送报文 print('客户端发送报文:', f'iperf3 -c {pcap_dip} -p {qos_port} -i 1 -u -t 5 -b 30M -P 5') c_cmd = fun.cmd( f'iperf3 -c {pcap_dip} -p {qos_port} -i 1 -u -t 5 -b 30M -P 5', 'c') print('c_cmd: ', c_cmd) # 检查速率是否正确 s_txt = fun.cmd('cat s.txt', 's') print('s_txt: ', s_txt) s_speed = fun.qos_speed('s.txt', s_txt, qbucket='s') print('s_speed: ', s_speed) assert 9.0 <= float(s_speed) <= 10.0
def teardown_method(self): self.clr_met = clr_env.clear_met for i in self.clr_met: fun.cmd(i, 'gw') fun.iperf_kill()
def teardown_method(self): clr_env.clear_met_acl() fun.iperf_kill()