def test_015_check_change_ssid_client_count(self):
u"""将client切换ssid,验证network-概览-client数量"""
log.debug("015")
#选择进入group1网络组
tmp1 = NetworkListBusiness(self.s)
tmp1.goin_network("group1")
tmp2 = OverViewBusiness(self.s)
#AP 上传流量统计的准确性
tmp3 = APSBusiness(self.s)
#新增一个network
tmp = SSIDSBusiness(self.s)
tmp.add_ssid(data_ap['7600_mac'],
data_wireless['grou1_all_ssid'] + "-2",
data_wireless['short_wpa'])
time.sleep(60)
tmp3.run_AP_download_back(data_wireless['grou1_all_ssid'] + "-2",
data_wireless['short_wpa'],
data_basic['wlan_pc'], data_basic['lan_pc'])
time.sleep(360)
#AP 上传流量统计的准确性
result = tmp.connect_DHCP_WPA_AP(
data_wireless['grou1_all_ssid'] + "-2", data_wireless['short_wpa'],
data_basic['wlan_pc'])
tmp.dhcp_release_wlan_backup(data_basic['wlan_pc'])
result1 = tmp2.get_overview_client_count()
self.assertIn(data_wireless['grou1_all_ssid'] + "-2", result)
self.assertEqual(result1, 1)
def test_013_edit_ssid_name(self):
u"""修改group2的ssid名称,避免客户端数量被干扰"""
log.debug('013')
#选择进入group1网络组
tmp1 = NetworkListBusiness(self.s)
tmp1.goin_network("group2")
#修改ssid
tmp = SSIDSBusiness(self.s)
encry_dict = {
'ssid_encryption': "3",
'ssid_wpa_encryption': "0",
'ssid_wpa_key_mode': "0",
'ssid_wpa_key': data_wireless['short_wpa']
}
data_dict = {
'membership_macs': "%s" % (data_ap['7600lr_mac'].upper()),
'ssid_ssid': data_wireless['grou1_all_ssid'] + "3"
}
tmp.edit_ssid(data_ap['7600lr_mac'], 'GWN-Cloud', encry_dict,
data_dict)
time.sleep(60)
#AP 上传流量统计的准确性
tmp2 = APSBusiness(self.s)
tmp2.run_AP_download_back(data_wireless['grou1_all_ssid'] + "3",
data_wireless['short_wpa'],
data_basic['wlan_pc'], data_basic['lan_pc'])
time.sleep(360)
#等待5分钟
result = tmp.connect_DHCP_WPA_AP(data_wireless['grou1_all_ssid'] + "3",
data_wireless['short_wpa'],
data_basic['wlan_pc'])
tmp.dhcp_release_wlan_backup(data_basic['wlan_pc'])
self.assertIn(data_wireless['grou1_all_ssid'] + "3", result)
def test_009_default_client_connect_iperf_ap(self):
u"""修改default下面ssid0频段为5G,使用无线client连接"""
log.debug("009")
#修改ssid
tmp = SSIDSBusiness(self.s)
encry_dict = {
'ssid_encryption': "3",
'ssid_wpa_encryption': "0",
'ssid_wpa_key_mode': "0",
'ssid_wpa_key': data_wireless['short_wpa']
}
data_dict = {
'membership_macs': "%s" % (data_ap['7610_mac'].upper()),
'ssid_ssid': data_wireless['all_ssid'],
'ssid_ssid_band': "5",
}
tmp.edit_ssid(data_ap['7610_mac'], data_wireless['all_ssid'],
encry_dict, data_dict)
time.sleep(60)
#AP 上传流量统计的准确性
tmp2 = APSBusiness(self.s)
tmp2.run_AP_download_back(data_wireless['all_ssid'],
data_wireless['short_wpa'],
data_basic['wlan_pc'], data_basic['lan_pc'])
time.sleep(360)
#等待5分钟
result = tmp.connect_DHCP_WPA_AP(data_wireless['all_ssid'],
data_wireless['short_wpa'],
data_basic['wlan_pc'])
tmp.dhcp_release_wlan_backup(data_basic['wlan_pc'])
self.assertIn(data_wireless['all_ssid'], result)
def test_012_check_change_network_client_count(self):
u"""修改group1下面ssid,使用无线client连接,并打流"""
log.debug("012")
#选择进入group1网络组
tmp1 = NetworkListBusiness(self.s)
tmp1.goin_network("group1")
#修改ssid
tmp = SSIDSBusiness(self.s)
encry_dict = {
'ssid_encryption': "3",
'ssid_wpa_encryption': "0",
'ssid_wpa_key_mode': "0",
'ssid_wpa_key': data_wireless['short_wpa']
}
data_dict = {
'membership_macs': "%s" % (data_ap['7600_mac'].upper()),
'ssid_ssid': data_wireless['grou1_all_ssid']
}
tmp.edit_ssid(data_ap['7600_mac'], 'GWN-Cloud', encry_dict, data_dict)
time.sleep(60)
#AP 上传流量统计的准确性
tmp2 = APSBusiness(self.s)
tmp2.run_AP_download_back(data_wireless['grou1_all_ssid'],
data_wireless['short_wpa'],
data_basic['wlan_pc'], data_basic['lan_pc'])
#等待5分钟
result = tmp.connect_DHCP_WPA_AP(data_wireless['grou1_all_ssid'],
data_wireless['short_wpa'],
data_basic['wlan_pc'])
time.sleep(360)
tmp.dhcp_release_wlan_backup(data_basic['wlan_pc'])
self.assertIn(data_wireless['grou1_all_ssid'], result)
def test_002_check_connection_m_time_function(self):
u"""Connection Time单位选择m(分钟)功能测试(Enable勾选)(testlink_ID:1589)"""
log.debug("002")
#新建一个策略time policy1,连接时间2分钟,重置时间每天23点
tmp = TimePolicyBusiness(self.s)
#断开无线网卡的连接
tmp.disconnect_ap()
data_dict = {
'status': 1,
'reconnectType': 1,
'resetDay': 1,
'resetHour': "23",
'hour': "24",
'resetTimeType': "AM",
'timezone': "Etc/GMT",
'connectionTimeMap': {
'd': "0",
'h': "0",
'm': "2"
},
'connectionTimeoutMap': {
'd': "",
'h': "",
'm': ""
}
}
tmp.add_timepolicy("time policy1", data_dict)
#获取时间策略的id
timepolicy_id = tmp.get_timepolicy_id("time policy1")
#修改ssid1的ssid,并开启时间策略,并选择time policy1
tmp1 = SSIDSBusiness(self.s)
encry_dict = {
'ssid_encryption': "3",
'ssid_wpa_encryption': "0",
'ssid_wpa_key_mode': "0",
'ssid_wpa_key': data_wireless['short_wpa']
}
data_dict1 = {
'ssid_ssid':
data_wireless['all_ssid'],
'ssid_timed_client_policy':
"%s" % timepolicy_id,
'removed_macs':
"%s,%s" %
(data_ap['7610_mac'].upper(), data_ap['7600lr_mac'].upper())
}
tmp1.edit_ssid(data_ap['7600_mac'], 'GWN-Cloud', encry_dict,
data_dict1)
time.sleep(120)
#先修改ap的系统时间为01:00:00
tmp2 = SettingsBusiness(self.s)
ssh_pwd = tmp2.get_ssh_pwd()
ssh = SSH(data_basic['7600_ip'], ssh_pwd)
ssh.ssh_cmd(data_basic['sshUser'], "date -s 01:00:00")
#无线网卡连接
tmp1.connect_DHCP_WPA_AP(data_wireless['all_ssid'],
data_wireless['short_wpa'],
data_basic['wlan_pc'])
#等待3分钟
time.sleep(240)
#判断AP是否依然连接
result = subprocess.check_output("iw dev %s link" %
data_basic['wlan_pc'],
shell=True)
print result
tmp1.dhcp_release_wlan(data_basic['wlan_pc'])
#断开无线网卡的连接
tmp.disconnect_ap()
#释放被禁的客户端
client_mac = tmp.get_wlan_mac(data_basic['wlan_pc'])
tmp.release_restrict_mac(client_mac)
time.sleep(60)
self.assertIn("Not connected.", result)
