esp-idf/components/idf_test/integration_test/TestCaseAll.yml
2018-04-03 19:23:32 +08:00

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test cases:
- CI ready: 'Yes'
ID: SYS_MISC_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 reboot
- [R SSC1 C !!!ready!!!]
comment: ''
execution time: 0.0
expected result: 重启成功
initial condition: None
initial condition description (auto): none
level: Integration
module: System
steps: 系统重启
sub module: Misc
summary: test reboot function
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: sw reboot
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: SYS_MISC_0201
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ram -H
- ['R SSC1 RE FREEHEAP:\d+\r\n']
comment: ''
execution time: 0.0
expected result: '
可以查询到一个数值
'
initial condition: None
initial condition description (auto): none
level: Integration
module: System
steps: 查询空闲ram
sub module: Misc
summary: get heap size test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: 'get heap size '
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 dhcp -E -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -i 0.0.0.0
- [R SSC1 C +IP]
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['']
- - DELAY 20
- [P PC_COM C +DELAYDONE, 'P SSC1 NC +JAP:CONNECTED']
- - SSC SSC1 dhcp -S -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -Q
- ['R SSC1 C +STAIP:0.0.0.0']
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC1 ip -Q
- ['R SSC1 RE "\+STAIP:%%s"%%(<target_ip>)']
comment: ''
execution time: 0.0
expected result: "1.target1 关闭DHCP OK\n2.target1 设置ip add OK\n3.target1 连接AP fail\n\
4.target1 打开DHCP OK\n5.查询到sta ip \n6.target1 连接AP ok\n7.查询到sta ip 为target_ip"
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: TCPIP
steps: "1.target1 关闭DHCP OK\n2.target1 设置ip add OK\n3.target1 连接AP fail\n4.target1\
\ 打开DHCP OK\n5.查询到sta ip \n6.target1 连接AP ok\n7.查询到sta ip 为target_ip"
sub module: DHCP
summary: dhcp client function test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP client function test
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 op -S -o 3
- ['R SSC1 C +MODE:OK']
- - SSC SSC1 dhcp -S -o 3
- ['R SSC1 C +DHCP:AP,OK C +DHCP:STA,OK']
- - SSC SSC1 dhcp -Q -o 3
- ['R SSC1 C +DHCP:STA,STARTED C +DHCP:AP,STARTED']
- - SSC SSC1 dhcp -Q -o 1
- ['R SSC1 C +DHCP:STA,STARTED NC +DHCP:AP,STARTED']
- - SSC SSC1 dhcp -Q -o 2
- ['R SSC1 NC +DHCP:STA,STARTED C +DHCP:AP,STARTED']
- - SSC SSC1 dhcp -E -o 3
- ['R SSC1 C +DHCP:AP,OK C +DHCP:STA,OK']
- - SSC SSC1 dhcp -Q -o 3
- ['R SSC1 C +DHCP:STA,STOPPED C +DHCP:AP,STOPPED']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.STA&AP STARTED
4.STA STARTED
5.AP STARTED
6.OK
7.STA&AP STOPPED'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: TCPIP
steps: '1.target1 设置mode 为sta+softAP mode
2.target1 打开DHCP 3
3.target1 查询DHCP 状态
4.target1 查询sta DHCP 状态
5.target1 查询softAP DHCP 状态
6.target1 关闭 DHCP 3
7.target1 查询 DHCP 状态'
sub module: DHCP
summary: dhcp status query
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP client function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0201
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 ip -S -o 2 -i <target_ap_ip>
- ['R SSC1 C +IP:OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.1 -e 192.168.4.10
- ['R SSC1 C +DHCP:LEASE,ERROR']
- - SSC SSC1 dhcp -L -s 192.168.4.5 -e 192.168.4.2
- ['R SSC1 C +DHCP:LEASE,ERROR']
- - SSC SSC1 dhcp -L -s 192.168.2.2 -e 192.168.2.5
- ['R SSC1 C +DHCP:LEASE,ERROR']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
comment: ''
execution time: 0.0
expected result: '1.target1 关闭DHCP 2 OK
2.target1 设置ip 成功
3.设置dhcp 地址池 OK
4.ERROR
5.ERROR
6.ERROR
7.target1 打开DHCP ok'
initial condition: APM1
initial condition description (auto): AP mode, DHCP on, will autogen a TC with initial
condition APSTA1
level: Integration
module: TCPIP
steps: "1.target1 关闭DHCP 2 \n2.target1 设置ip \n3.设置dhcp 地址池\n4.设置dhcp错误的参数\n5.设置dhcp错误的参数\n\
6.设置dhcp错误的参数\n7.target1 打开DHCP ok"
sub module: DHCP
summary: server dhcp lease test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0202
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - LOOP 3 4 "['01','02','03']" "[2,3,4]"
- ['']
- - SSC SSC2 sta -D
- ['R SSC2 C +QAP:OK']
- - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s}
- ['R SSC2 C +MAC:STA,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:192.168.4.{%s}']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3,4: get IP from dhcp pool with correct sequence'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. config DHCP Server on Target1
3. target change mac, connect to Target1
4. Loop step3'
sub module: DHCP
summary: dhcp server ip pool
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0203
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - LOOP 2 4 "['01','02']" "[2,3]"
- ['']
- - SSC SSC2 sta -D
- ['R SSC2 C +QAP:OK']
- - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s}
- ['R SSC2 C +MAC:STA,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:192.168.4.{%s}']
- - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66
- ['R SSC2 C +MAC:STA,OK']
- - DELAY 20
- ['']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:0.0.0.0']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. succeed
4.1 succeed
4.2 failed'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. config DHCP Server on Target1(.4.2 - .4.3)
3. target change mac, connect to Target1
4. Loop step3 twice'
sub module: DHCP
summary: dhcp server ip pool empty
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0204
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 -t 1
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:192.168.4.2']
- - DELAY 90
- ['']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:192.168.4.2']
- - SSC SSC2 sta -D
- ['R SSC2 C +JAP:DISCONNECTED']
- - DELAY 60
- ['']
- - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66
- ['R SSC2 C +MAC:STA,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:192.168.4.2']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. get IP 192.168.4.2
5. succeed
6. succeed
8. get IP 192.168.4.2'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. config DHCP timeout as 1 minute
3. target2 connect to target1
4. wait 90 seconds
5. check if target2 IP is same
6. target2 disconnect
7. wait 60s
8. target2 change mac and connect to target1'
sub module: DHCP
summary: dhcp server timeout test
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0205
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 -t 1
- ['P SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['P SSC1 C +DHCP:AP,OK', 'P SSC2 C +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. target2 wifi disconnected'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. target2 connect to target1
3. disable DHCP server, do config and enable'
sub module: DHCP
summary: disconnect STA if config dhcp server
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0206
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - LOOP 4 4 "['01','02','03','01']" "[2,3,4,2]"
- ['']
- - SSC SSC2 sta -D
- ['R SSC2 C +QAP:OK']
- - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s}
- ['R SSC2 C +MAC:STA,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:192.168.4.{%s}']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
4. get IP 192.168.4.2 - 192.168.4.4
5. get IP 192.168.4.2'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. disable DHCP server, do config and enable
3. target2 change mac, connect to softap, disconnect
4. Loop step3 twice
5. change to first mac, connect to softap'
sub module: DHCP
summary: dhcp server assign same IP to same MAC when it's not released
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0207
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - WIFI <pc_wifi_nic> CONN <random_string> <random_string> 192.168.4.2
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - WIFI <pc_wifi_nic> DISCONN2
- ['R PC_COM NC ERROR C +WIFIDISCONN:OK']
- - SSC SSC2 sta -D
- ['R SSC2 C +QAP:OK']
- - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66
- ['R SSC2 C +MAC:STA,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 ip -Q -o 1
- ['R SSC2 C +STAIP:192.168.4.2']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. get IP 192.168.4.2
4. succeed
5. succeed
6. get IP 192.168.4.2'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. disable DHCP server, do config and enable
3. PC WIFI NIC connect to target1 softap
4. target2 connect to target1 softap and disnnect
5. PC release IP and disconnected
6. target2 change mac and connect to target1'
sub module: DHCP
summary: dhcp server prefer assign released IP to new client
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0208
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['P SSC1 C +DHCP:AP,OK', 'P SSC2 C +JAP:DISCONNECTED']
- - SSC SSC2 sta -D
- ['R SSC2 C +JAP:DISCONNECTED']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - WIFI <pc_wifi_nic> CONN <random_string> <random_string> 192.168.4.2
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - SSC SSC1 ap -L
- [R SSC1 C 192.168.4.2 P <pc_wifi_nic_mac>]
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. succeed
4. get IP 192.168.4.2
5. can only find target2 with IP 192.168.4.2'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. PC NIC connect to target1 softap
3. disable DHCP server, do config and enable
4. target2 connect to target1 softap
5. softap list connected station'
sub module: DHCP
summary: dhcp server reconfig and new client able to get first IP in pool
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0209
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - WIFI <pc_wifi_nic> CONN <random_string> <random_string> 192.168.4.2
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - DELAY 20
- ['']
- - SSC SSC1 ap -L
- [R SSC1 C 192.168.4.2 C 192.168.4.3 P <pc_wifi_nic_mac> P <target2_mac>]
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. succeed
4. succeed
5. find target2 and PC'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. target2 connect to target1 softap
3. disable DHCP server, do config and enable
4. PC NIC connect to target1 softap
5. softap list connected station'
sub module: DHCP
summary: dhcp server reconfig, old client and new client able to get IP
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0210
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - WIFI <pc_wifi_nic> CONN2 <random_string> <random_string> 192.168.4.2
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - SSC SSC1 ap -L
- [R SSC1 C 192.168.4.2 C 192.168.4.3 P <pc_wifi_nic_mac> P <target2_mac>]
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. succeed
4. succeed
5. find target2 and PC'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. target2 connect to target1 softap
3. disable DHCP server, do config and enable
4. PC NIC connect to target1 softap try to renew IP 192.168.4.2
5. softap list connected station'
sub module: DHCP
summary: dhcp server reconfig, old client able to get IP (discover with requested
IP)
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0211
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['R SSC1 C +SAP:OK']
- - WIFI <pc_wifi_nic> CONN <random_string> <random_string> 192.168.4.2
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - DELAY 30
- ['']
- - SSC SSC1 ap -L
- [R SSC1 C 192.168.4.2 C 192.168.4.3 P <pc_wifi_nic_mac> P <target2_mac>]
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. succeed
4. succeed
5. find target2 and PC'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. config softap to a random ssid
2. target2 connect to target1 softap
3. disable DHCP server, do config and enable
4. PC NIC connect to target1 softap try to renew IP 192.168.4.2
5. softap list connected station'
sub module: DHCP
summary: dhcp server reconfig, old client able to renew IP (direct send request)
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0212
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['']
- - DELAY 20
- [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED']
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: "1.target1 set AP OK \n2.target1 关闭DHCP OK\n3.target2 jap target\
\ 1,FAIL \n4.target1 打开DHCP OK\n5.target2 jap target 1,ok"
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: "1.target1 set AP OK \n2.target1 关闭DHCP OK\n3.target2 jap target 1,FAIL \n\
4.target1 打开DHCP OK\n5.target2 jap target 1,ok"
sub module: DHCP
summary: dhcp server function test
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DHCP server function test
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0301
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 dhcp -E -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -i 192.168.123.123 -o 1
- ['R SSC1 C +IP:OK']
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC1 ip -S -i 0.0.0.0 -o 1
- [R SSC1 C +IP]
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['']
- - DELAY 10
- [P PC_COM C +DELAYDONE, 'P SSC1 NC +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.JAP CONNETED
4.OK
5.等待10sJAP fail'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: TCPIP
steps: '1.target1 关闭DHCP 1
2.target1 设置sta ip 192.168.123.123
4.target1 jap AP
5.target1 设置sta ip 0.0.0.0
6.target1 jap AP'
sub module: DHCP
summary: sta dhcp static ip interaction
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: interaction
test point 2: static IP and DHCP interaction test
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_DHCP_0302
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 ip -S -i 192.168.123.123 -o 2
- ['R SSC1 C +IP:ERROR']
- - SSC SSC1 dhcp -L -s 192.168.2.2 -e 192.168.2.10
- ['R SSC1 C +DHCP:LEASE,ERROR']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['P SSC2 C +JAP:CONNECTED']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 ip -S -i 192.168.4.1 -o 2
- ['R SSC1 C +IP:OK']
- - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.10
- ['R SSC1 C +DHCP:LEASE,OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['']
- - DELAY 10
- [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: '1.target 1 OK
2.target1 ERROR
3.target1 ERROR
4.target2 jap target1 OK
5.target1 OK
6.target1 OK
7.target1 OK
8.target2 jap target1 OK'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: "1.target1 打开DHCP 2\n2.target1 设置softAP ip 192.168.123.123\n3.target1 设置地址池\n\
4.target1下设置ssid 和pwd 加密方式\n5.target2 连接target1 \n6.target1 关闭DHCP 2\n7.target1\
\ 设置softAP ip \n8.target1 设置正确的地址池\n9.target2 连接target1 "
sub module: DHCP
summary: ap dhcp static ip interaction
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: interaction
test point 2: static IP and DHCP interaction test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DNS_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 3/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -H -d iot.espressif.cn
- ['R SSC1 C +HOSTIP:OK,115.29.202.58']
comment: ''
execution time: 0.0
expected result: 1.OK
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: 1. get host name "espressif.cn"
sub module: DNS
summary: get host by name test
test environment: SSC_T1_2
test environment description (auto): 'Able to access WAN after connect to AP.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DNS function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_DNS_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 3/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -H -d factory.espressif.cn
- ['R SSC1 A <ip_addr>:\+HOSTIP:OK,(.+)\r\n']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:\+BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <ip_addr> -p 9001
- ['R SSC1 RE \+CONNECT:\d+,OK']
- - SSC SSC1 soc -S -s <sock1> -l 10
- ['P SSC1 RE \+SEND:\d+,OK', P SSC1 SL <sock1>+10]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. get host name "espressif.cn"
2. connect, send, recv1. get host name "espressif.cn"
2. connect, send, recv'
sub module: DNS
summary: TCP connect to iot.espressif.com
test environment: SSC_T1_2
test environment description (auto): 'Able to access WAN after connect to AP.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DNS function test
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_DNS_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 3/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -H -d factory.espressif.cn
- ['R SSC1 A <ip_addr>:\+HOSTIP:OK,(.+)\r\n']
- - SSC SSC1 soc -B -t UDP
- ['R SSC1 A <sock1>:\+BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <ip_addr> -p 9003 -l 10
- ['P SSC1 RE \+SEND:\d+,OK', P SSC1 SL <sock1>+10]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. get host name "espressif.cn"
2. sendto, recvfrom1. get host name "espressif.cn"
2. sendto, recvfrom'
sub module: DNS
summary: UDP send to iot.expressif.com
test environment: SSC_T1_2
test environment description (auto): 'Able to access WAN after connect to AP.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: DNS function test
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_ICMP_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ping -i <pc_ip>
- ['R SSC1 C +PING:OK']
- - SSC SSC1 ping -i <pc_ip> -c 2
- ['R SSC1 C +PING:OK']
comment: ''
execution time: 0.0
expected result: '1.ok
2.ok'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.ping -i <pc_ip>
2.ping -i <pc_ip> -c 2'
sub module: ICMP
summary: ping function test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: ping function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 igmp -J -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 igmp -L -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 igmp -J -h <target_ip> -m 223.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -J -h <target_ip> -m 240.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -J -h 192.168.237.77 -m 224.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -J -h 192.168.237.77 -m 240.1.1.1
- ['R SSC1 C +IGMP:ERROR']
comment: ''
execution time: 0.0
expected result: '1. success
2. failed
3. failed
4. failed'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. join group with correct host addr and multicast addr
2. join group with correct host addr and wrong multicast addr
3. join group with wrong host addr and correct multicast addr
4. join group with wrong host addr and wrong multicast addr'
sub module: IGMP
summary: station IGMP join group address check
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP API parameter check
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 igmp -J -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 igmp -L -h <target_ip> -m 224.1.1.2
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -L -h 192.168.237.77 -m 224.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -L -h 192.168.237.77 -m 240.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -L -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
comment: ''
execution time: 0.0
expected result: '1. success
2. failed
3. failed
4. failed
5. succeed'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. join group with correct host addr and multicast addr
2. leave group with correct host addr and wrong multicast addr
3. leave group with wrong host addr and correct multicast addr
4. leave group with wrong host addr and wrong multicast addr
5. leave group with correct host addr and correct multicast addr'
sub module: IGMP
summary: station IGMP leave group address check
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP API parameter check
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 igmp -J -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 igmp -L -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 igmp -J -h <target_ap_ip> -m 223.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -J -h <target_ap_ip> -m 240.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -J -h 192.168.237.77 -m 224.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -J -h 192.168.237.77 -m 240.1.1.1
- ['R SSC1 C +IGMP:ERROR']
comment: ''
execution time: 0.0
expected result: '1. success
2. failed
3. failed
4. failed'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1. join group with correct host addr and multicast addr
2. join group with correct host addr and wrong multicast addr
3. join group with wrong host addr and correct multicast addr
4. join group with wrong host addr and wrong multicast addr'
sub module: IGMP
summary: softAP IGMP join group address check
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP API parameter check
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0104
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 igmp -J -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 igmp -L -h <target_ap_ip> -m 224.1.1.2
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -L -h 192.168.237.77 -m 224.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -L -h 192.168.237.77 -m 240.1.1.1
- ['R SSC1 C +IGMP:ERROR']
- - SSC SSC1 igmp -L -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
comment: ''
execution time: 0.0
expected result: '1. success
2. failed
3. failed
4. failed
5. succeed'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1. join group with correct host addr and multicast addr
2. leave group with correct host addr and wrong multicast addr
3. leave group with wrong host addr and correct multicast addr
4. leave group with wrong host addr and wrong multicast addr
5. leave group with correct host addr and correct multicast addr'
sub module: IGMP
summary: softAP IGMP leave group address check
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP API parameter check
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0201
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 igmp -J -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p <test_udp_port1>
- ['R SSC1 A <sock1>:\+BIND:(\d+),OK']
- - SOC SOC1 BIND <test_udp_port1>
- [R SOC_COM L OK]
- - SOC SOC1 SENDTO 1 <test_udp_port1> 224.1.1.1
- [R SSC1 SL <sock1>+1]
- - SSC SSC1 igmp -L -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. able to recv packet'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. join group
2. create UDP socket using multicast addr
3. PC send UDP packet to multicast addr'
sub module: IGMP
summary: station IGMP recv packets
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP send/recv test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0202
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC2 op -S -o 1
- ['R SSC2 C +MODE:OK']
- - SSC SSC2 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 igmp -J -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p <test_udp_port1>
- ['R SSC1 A <sock1>:\+BIND:(\d+),OK']
- - SSC SSC2 soc -B -t UDP -p <test_udp_port1>
- ['R SSC2 A <sock2>:\+BIND:(\d+),OK']
- - SSC SSC2 soc -S -s <sock2> -i 224.1.1.1 -p <test_udp_port1> -l 10
- [R SSC1 SL <sock1>+1]
- - SSC SSC1 igmp -L -h <target_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. succeed
4. target1 recv multicast packet'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. target2 set to sta mode and join AP
2. target1 join group and create UDP socket using multicast addr
3. target2 create UDP socket
4. target2 send to multicast addr'
sub module: IGMP
summary: station send multicast packets
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP send/recv test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0203
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 igmp -J -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SOC SOC1 BIND <test_udp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SOC SOC1 SENDTO 1 <test_udp_port1> 224.1.1.1
- [R SSC1 SL <sock1>+1]
- - SSC SSC1 igmp -L -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. able to recv packet'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1. join group
2. create UDP socket using multicast addr
3. PC send UDP packet to multicast addr'
sub module: IGMP
summary: softAP IGMP recv packets
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP send/recv test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IGMP_0204
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 igmp -J -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
- - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p <test_udp_port1>
- ['R SSC1 A <sock1>:\+BIND:(\d+),OK']
- - SSC SSC2 soc -B -t UDP -p <test_udp_port1>
- ['R SSC2 A <sock2>:\+BIND:(\d+),OK']
- - SSC SSC2 soc -S -s <sock2> -i 224.1.1.1 -p <test_udp_port1> -l 10
- [R SSC1 SL <sock1>+1]
- - SSC SSC1 igmp -L -h <target_ap_ip> -m 224.1.1.1
- ['R SSC1 C +IGMP:OK']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. succeed
4. target1 recv multicast packet'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: TCPIP
steps: '1. target2 join SoftAP
2. target1 join group and create UDP socket using multicast addr
3. target2 create UDP socket
4. target2 send to multicast addr'
sub module: IGMP
summary: softAP send multicast packets
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: IGMP send/recv test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IP_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 dhcp -S -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -o 1 -i 192.168.123.123
- ['R SSC1 C +IP:ERROR']
- - SSC SSC1 dhcp -E -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -o 1 -i 192.168.123.123
- ['R SSC1 C +IP:OK']
- - SSC SSC1 ip -Q -o 1
- ['R SSC1 C +STAIP:192.168.123.123']
comment: ''
execution time: 0.0
expected result: '1.OK
2.ERROR
3.OK
4.OK
5.STAIP:192.168.123.123'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: TCPIP
steps: '1.target1 打开DHCP 1
2.target1 设置sta ip 192.168.123.123
4.target1 关闭DHCP 1
5.target1 设置sta ip 192.168.123.123
6.target1 查询 当前sta ip '
sub module: IP
summary: sta set and query static ip test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: set and query static IP
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_IP_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 dhcp -S -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 ip -S -o 2 -i 192.168.123.123
- ['R SSC1 C +IP:ERROR']
- - SSC SSC1 dhcp -E -o 2
- ['R SSC1 C +DHCP:AP,OK']
- - SSC SSC1 ip -S -o 2 -i 192.168.123.123
- ['R SSC1 C +IP:OK']
- - SSC SSC1 ip -Q -o 2
- ['R SSC1 C +APIP:192.168.123.123']
- - SSC SSC1 ip -S -o 2 -i <target_ap_ip>
- ['R SSC1 C +IP:OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.ERROR
3.OK
4.OK
5.APIP:192.168.123.123
6.OK'
initial condition: APM1
initial condition description (auto): AP mode, DHCP on, will autogen a TC with initial
condition APSTA1
level: Integration
module: TCPIP
steps: "1.target1 打开DHCP 2\n2.target1 设置softAP ip 192.168.123.123\n4.target1 关闭DHCP\
\ 2\n5.target1 设置softAP ip 192.168.123.123\n6.target1 查询 当前sta ip \n7.target1\
\ 设置softAP ip 为target_ap_ip"
sub module: IP
summary: ap set and query static ip test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: set and query static IP
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [SOCR SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,OK', P SOC1 C +ACCEPT]
- - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i 123.456.678.789 -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip> -p <test_tcp_port2>
- ['P SSC1 RE CONNECT:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.ERROR
6.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socketbind到本地ip 0.0.0.0,本地端口 0
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1
4.target1上创建TCP socketbind到本地ip 0.0.0.0,本地端口 0
5.target1上使用步骤4创建的socket,去连接不存在的iptest_tcp_port1
6.target1上使用步骤2创建的socket去连接 PC的ip远端端口不存在。'
sub module: TCP
summary: STA mode, connect test. use different ip, port
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC1 CONNECT <random_port> <target_ip>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+', P SOC_COM C OK]
- - SOC SOC1 CONNECT <test_tcp_port2> <target_ip>
- [P SOC_COM C ERROR, P SSC1 NC ACCEPT]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.PC TCP client accept
4.error'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.target1上创建TCP socketbind到本地端口<random_port>
2.target1上使用步骤1创建的socket,创建TCP 监听
3.PC TCP 连接到target1 <random_port>,<target_ip>
4.PC tcp 连接到不存在的port ,<target_ip>'
sub module: TCP
summary: STA mode, server listen test. use different kinds of port
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SOC SOC2 SEND 5
- [R SSC1 SL <sock1>+5]
- - SSC SSC1 soc -S -s <sock1> -l 5
- ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 5]
- - SOC SOC2 SEND 146000
- [R SSC1 SL <sock1>+146000]
- - SSC SSC1 soc -S -s <sock1> -l 1460 -n 100
- ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 146000]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc上回accept
4.OK
5.target收到5 byte
6.PC收到5 byte
7.target收到 146000 byte
8.OK,PC 回SOC_RECV=SOC2,RECV_LEN=字节数'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1
4.PC与target1 创建好TCP 连接有ACCEPT
5.PC send 5 bytes to 8266
6.8266 send 5 bytes to PC
7. PC send 100 * 1460 data to 8266,
8.8266 send 100 * 1460 to PC. '
sub module: TCP
summary: STA mode, send/recv basic test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0104
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock1> -h B
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock2> -h W
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock3> -h R
- ['R SSC1 RE SHUTDOWN:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept OK
4.OK
5.OK
6.OK,pc tcp server accept OK
7.OK
8.OK
9.OK,pc tcp server accept OK
10.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1,PC有ACCEPT
4.target1 shutdown socket1 B
5.target1上创建TCP socket
6.target1上使用步骤5创建的socket去连接 PC的iptest_tcp_port1,PC有ACCEPT
7.target1 shutdown socket2 W
8.target1上创建TCP socket
9.target1上使用步骤8创建的socket去连接 PC的iptest_tcp_port1,PC有ACCEPT
10.target1 shutdown socket3 R'
sub module: TCP
summary: STA mode, shutdown basic test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0105
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC2 CONNECT <random_port> <target_ip>
- ['R SSC1 A <sock2>:ACCEPT:(\d+),\d+,.+,\d+']
- - SSC SSC1 soc -T -s <sock2>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock1>
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK
6.OK
7.target1关闭socket1
8.target1关闭socket2
9.OK
10.OK,pc tcp server accept成功
11.target1关闭socket1
12.OK
13.OK,pc tcp server accept成功
14.OK
15.target1关闭socket1'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1关闭socket1\n\
4.target1上创建TCP socket 端口随机\n5.target1上使用步骤4创建的socket1去监听\n6.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket2 \n7.target1关闭socket1\n8.target1关闭socket2\n\
9.target1上创建TCP socket1\n10.target1上使用步骤10创建的socket1去连接 PC的iptest_tcp_port1,PC有ACCEPT\n\
11.target1关闭socket1\n12.target1上创建TCP socket1\n13.target1上使用步骤13创建的socket1去连接\
\ PC的iptest_tcp_port1,PC有ACCEPT\n14.target1shutdown socket1\n15.target1关闭socket1"
sub module: TCP
summary: STA mode, close for different types of TCP sockets test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0106
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock4>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock4> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock5>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock5> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept成功
4 OK
5.OK,pc tcp server accept成功
6.OK
7.OK,pc tcp server accept成功
8 OK
9.OK,pc tcp server accept成功
10.OK
11.OK,pc tcp server accept成功'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket1
3.target1上使用步骤2创建的socket1去连接 PC的iptest_tcp_port1,PC有ACCEPT
4.target1上创建TCP socket2
5.target1上使用步骤4创建的socket2去连接 PC的iptest_tcp_port1,PC有ACCEPT
6.target1上创建TCP socket3
7.target1上使用步骤6创建的socket3去连接 PC的iptest_tcp_port1,PC有ACCEPT
8.target1上创建TCP socket4
9.target1上使用步骤8创建的socket4去连接 PC的iptest_tcp_port1,PC有ACCEPT
10.target1上创建TCP socket5
11.target1上使用步骤10创建的socket5去连接 PC的iptest_tcp_port1,PC有ACCEPT'
sub module: TCP
summary: STA mode, create max TCP sockets test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0107
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC2 CONNECT <random_port> <target_ip>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC3 CONNECT <random_port> <target_ip>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC4 CONNECT <random_port> <target_ip>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC5 CONNECT <random_port> <target_ip>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC6 CONNECT <random_port> <target_ip>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
comment: ''
execution time: 0.0
expected result: '1.+BIND:0OK,0.0.0.0
2.OK
3.OK,pc tcp server accept成功
4.OK,pc tcp server accept成功
5.OK,pc tcp server accept成功
6.OK,pc tcp server accept成功
7.OK,pc tcp server accept成功'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.target1上创建TCP socket 端口随机\n2.target1上使用步骤4创建的socket1去监听\n3.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket2 \n4.PC CONNECT<random_port>,<target_ip> ,tcp 连接创建成功创建socket3\
\ \n5.PC CONNECT<random_port>,<target_ip> ,tcp 连接创建成功创建socket4 \n6.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket5 \n7.PC CONNECT<random_port>,<target_ip> ,tcp 连接创建成功创建socket6\
\ "
sub module: TCP
summary: STA mode, accept max TCP client by server test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0110
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [SOCR SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,OK', P SOC1 C +ACCEPT]
- - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i 123.456.678.789 -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip_wifi> -p <test_tcp_port2>
- ['P SSC1 RE CONNECT:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.ERROR
6.ERROR'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socketbind到本地ip 0.0.0.0,本地端口 0
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1
4.target1上创建TCP socketbind到本地ip 0.0.0.0,本地端口 0
5.target1上使用步骤4创建的socket,去连接不存在的iptest_tcp_port1
6.target1上使用步骤2创建的socket去连接 PC的ip远端端口不存在。'
sub module: TCP
summary: AP mode, connect test. use different ip, port
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0111
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC1 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+', P SOC_COM C OK]
- - SOC SOC1 CONNECT <test_tcp_port2> <target_ap_ip> 0 <pc_ip_wifi>
- [P SOC_COM C ERROR, P SSC1 NC ACCEPT]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.PC TCP client accept
4.error'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.target1上创建TCP socketbind到本地端口<random_port>
2.target1上使用步骤1创建的socket,创建TCP 监听
3.PC TCP 连接到target1 <random_port>,<target_ip>
4.PC tcp 连接到不存在的port ,<target_ip>'
sub module: TCP
summary: AP mode, server listen test. use different kinds of port
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0112
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SOC SOC2 SEND 5
- [R SSC1 SL <sock1>+5]
- - SSC SSC1 soc -S -s <sock1> -l 5
- ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 5]
- - SOC SOC2 SEND 146000
- [R SSC1 SL <sock1>+146000]
- - SSC SSC1 soc -S -s <sock1> -l 1460 -n 100
- ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 146000]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept成功
4.OK
5.target收到5byte数据
6.PC收到5byte数据
7.target收到146000 byte数据
8.OK,PC 收到146000 byte数据'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1. PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1
4.PC与target1 创建好TCP 连接有ACCEPT
5.PC send 5 bytes to 8266
6.8266 send 5 bytes to PC
7. PC send 100 * 1460 data to 8266,
8.8266 send 100 * 1460 to PC. '
sub module: TCP
summary: AP mode, send/recv basic test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0113
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock1> -h B
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock2> -h W
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock3> -h R
- ['R SSC1 RE SHUTDOWN:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept成功
4.OK
5.OK
6.OK,pc tcp server accept成功
7.OK
8.OK
9.OK,pc tcp server accept成功
10.OK'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1. PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1,PC有ACCEPT
4.target1 shutdown socket1 B
5.target1上创建TCP socket
6.target1上使用步骤5创建的socket去连接 PC的iptest_tcp_port1,PC有ACCEPT
7.target1 shutdown socket2 W
8.target1上创建TCP socket
9.target1上使用步骤8创建的socket去连接 PC的iptest_tcp_port1,PC有ACCEPT
10.target1 shutdown socket3 R'
sub module: TCP
summary: AP mode, shutdown basic test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0114
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC2 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 A <sock2>:ACCEPT:(\d+),\d+,.+,\d+']
- - SSC SSC1 soc -T -s <sock2>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock1>
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK
6.OK,target1上accept 成功
7.target1关闭socket1
8.target1关闭socket2
9.OK
10.OK,pc tcp server accept成功
11.target1关闭socket1
12.OK
13.OK,pc tcp server accept成功
14.OK
15.target1关闭socket1'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1关闭socket1\n\
4.target1上创建TCP socket 端口随机\n5.target1上使用步骤4创建的socket1去监听\n6.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket2 \n7.target1关闭socket1\n8.target1关闭socket2\n\
9.target1上创建TCP socket1\n10.target1上使用步骤10创建的socket1去连接 PC的iptest_tcp_port1,PC有ACCEPT\n\
11.target1关闭socket1\n12.target1上创建TCP socket1\n13.target1上使用步骤13创建的socket1去连接\
\ PC的iptest_tcp_port1,PC有ACCEPT\n14.target1shutdown socket1\n15.target1关闭socket1"
sub module: TCP
summary: AP mode, close for different types of TCP sockets test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0115
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock4>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock4> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock5>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock5> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept成功
4 OK
5.OK,pc tcp server accept成功
6.OK
7.OK,pc tcp server accept成功
8 OK
9.OK,pc tcp server accept成功
10.OK
11.OK,pc tcp server accept成功'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket1
3.target1上使用步骤2创建的socket1去连接 PC的iptest_tcp_port1,PC有ACCEPT
4.target1上创建TCP socket2
5.target1上使用步骤4创建的socket2去连接 PC的iptest_tcp_port1,PC有ACCEPT
6.target1上创建TCP socket3
7.target1上使用步骤6创建的socket3去连接 PC的iptest_tcp_port1,PC有ACCEPT
8.target1上创建TCP socket4
9.target1上使用步骤8创建的socket4去连接 PC的iptest_tcp_port1,PC有ACCEPT
10.target1上创建TCP socket5
11.target1上使用步骤10创建的socket5去连接 PC的iptest_tcp_port1,PC有ACCEPT'
sub module: TCP
summary: AP mode, create max TCP sockets test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0116
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC2 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC3 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC4 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC5 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
- - SOC SOC6 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+']
comment: ''
execution time: 0.0
expected result: '1.+BIND:0OK,0.0.0.0
2.OK
3.OK,pc tcp server accept成功
4.OK,pc tcp server accept成功
5.OK,pc tcp server accept成功
6.OK,pc tcp server accept成功
7.OK,pc tcp server accept成功'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: "1.target1上创建TCP socket 端口随机\n2.target1上使用步骤4创建的socket1去监听\n3.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket2 \n4.PC CONNECT<random_port>,<target_ip> ,tcp 连接创建成功创建socket3\
\ \n5.PC CONNECT<random_port>,<target_ip> ,tcp 连接创建成功创建socket4 \n6.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket5 \n7.PC CONNECT<random_port>,<target_ip> ,tcp 连接创建成功创建socket6\
\ "
sub module: TCP
summary: AP mode, accept max TCP client by server test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0201
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [SOCR SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock2>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock3> -h B
- ['P SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -T
- [R SSC1 C +CLOSEALL]
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.ok
2.OK
3.ERROR
4.OK
5.OK
6.ERROR
7.OK
8.OK
9.OK
10.OK
11.OK
12.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建UDP传输socketbind到本地ip 0.0.0.0,<test_udp_port1>
3.target1上使用步骤2创建的socket去连接 PC的ip<test_udp_port1>
4.target1上创建TCP socket
5.target1上使用步骤4创建的socket,创建TCP 监听
6.target1上使用步骤4创建的socket去连接 PC的ip<test_tcp_port1>
7.target1上创建TCP socket
8.target1上使用步骤7创建的socket去连接 PC的ip<test_tcp_port1>
9.target1上关闭步骤7创建的socket
10.target1上使用步骤7创建的socket去连接 PC的ip<test_tcp_port1>
11.target1上关闭所有创建的socket
12.target1上使用步骤2创建的socket去连接 PC的ip<test_tcp_port1>'
sub module: TCP
summary: STA mode, connect test. use socket in state that can't connect
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0202
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,ERROR']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -L -s <sock2>
- ['R SSC1 RE LISTEN:\d+,ERROR']
- - SSC SSC1 soc -D -s <sock2>
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -L -s <sock2>
- ['R SSC1 RE LISTEN:\d+,ERROR']
- - SSC SSC1 soc -L -s 1000
- ['R SSC1 RE LISTEN:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.ERROR
4.OK
5.OK
6.ERROR
7.OK
8.ERROR
9.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建UDP传输socketbind到本地ip 0.0.0.0,<test_udp_port1>
3.target1上使用步骤2创建的socket去建立TCP 监听
4.target1上创建TCP socket
5.target1上使用步骤4创建的socket去连接 PC的ip<test_tcp_port1>
6.target1上使用步骤4创建的socket,创建TCP 监听
7.target1上shutdown 步骤4的socket
8.target1上使用步骤4创建的socket,创建TCP 监听
9.target1上使用不存在socket,创建TCP 监听'
sub module: TCP
summary: STA mode, server listen test. use socket in state that can't listen
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0203
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1>
- ['R SSC1 RE SEND:\d+,ERROR']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock2>
- ['R SSC1 RE SEND:\d+,ERROR']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock2>
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -S -s <sock2>
- ['R SSC1 RE SEND:\d+,ERROR']
- - SSC SSC1 soc -S -s 1000
- ['R SSC1 RE SEND:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.ERROR
4.OK
5.ERROR
6.OK
7.OK
8.ERROR
9.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建UDP传输socket1<test_udp_port1>
3.target1上使用步骤2创建的socket1去发送数据
4.target1上创建TCP socket2
5.target1上使用步骤4创建的socket2去发送数据
6.target1上使用步骤4创建的socket2,创建TCP连接连接成功
7.target1上shutdown 步骤4的socket2
8.target1往socket2发送错误命令发送数据
9.target1上不指定socket往上发送数据'
sub module: TCP
summary: send test. use socket in state that can't send
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0204
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP -w 0
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SOC SOC2 SEND 146000
- [P SOC_COM R *]
- - SSC SSC1 soc -W -s <sock1> -o 1
- ['P SSC1 RE WORKTHREAD:\d+,OK', P SSC1 SL <sock1>+2920]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc server accept OK
4.OK
5.OK
6.OK
7.target收到146000 byte
'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1. PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1
4.PC与target1 创建好TCP 连接有ACCEPT
5.target上不进行recv
6.PC send 100 * 1460 data to target,
7.在target上开始recv'
sub module: TCP
summary: STA mode, recv buffer test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_TCP_0206
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP -i <target_ip>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP -i <target_ip>
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock2>
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock3>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC2 CONNECT <random_port> <target_ip>
- ['R SSC1 A <sock4>:ACCEPT:(\d+),\d+,.+,\d+']
- - SSC SSC1 soc -I
- ['P SSC1 RE "SOCINFO:%%s,2,%%s,\d+,%%s,%%d"%%(<sock1>,<target_ip>,<pc_ip>,<test_tcp_port1>)',
'P SSC1 RE "SOCINFO:%%s,2,.+,\d+,.+,\d+"%%(<sock2>)', 'P SSC1 RE "SOCINFO:%%s,82,.+,%%d"%%(<sock3>,<random_port>)',
'P SSC1 RE "SOCINFO:%%s,2,%%s,%%d,%%s,\d+"%%(<sock4>,<target_ip>,<random_port>,<pc_ip>)']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept成功
4.OK
5.OK
6.OK
7.OK
8.OK
9.PC OK, target1 +ACCEPT:3,2,<pc_ip>,port
10.+SOCINFO:<sock1>,<target_ip>,<pc_ip>,<test_tcp_port1>
+SOCINFO:<sock2>,<target_ip>,<pc_ip>,<test_tcp_port1>
+SOCINFO:<sock3>,<random_port>
+SOCINFO:<sock4>,<target_ip>,<random_port>,<pc_ip>
+SOCINF0ALL'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1,本地ip target_ip\n3.target1上使用步骤2创建的socket1去连接\
\ PC的iptest_tcp_port1,PC有ACCEPT\n4.target1上创建TCP socket2,本地ip target_ip\n5.target1上使用步骤4创建的socket2去连接\
\ PC的iptest_tcp_port1,PC有ACCEPT\n6.target1 shutdown socket2 \n7.target1上创建TCP\
\ socket3,本地端口random_port\n8.target1上使用步骤7创建的socket3去监听\n9.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket4 \n10.target1 查询the socket information"
sub module: TCP
summary: STA mode, get active socket info test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0207
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [SOCR SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock2>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock3> -h B
- ['P SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -C -s <sock3> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
- - SSC SSC1 soc -T
- [R SSC1 C +CLOSEALL]
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['P SSC1 RE CONNECT:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.ok
2 OK
3.ERROR
4.OK
5.OK
6.ERROR
7.OK
8.OK
9.OK
10.OK
11.OK
12.ERROR'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建UDP传输socketbind到本地ip 0.0.0.0,<test_udp_port1>
3.target1上使用步骤2创建的socket去连接 PC的ip<test_udp_port1>
4.target1上创建TCP socket
5.target1上使用步骤4创建的socket,创建TCP 监听
6.target1上使用步骤4创建的socket去连接 PC的ip<test_tcp_port1>
7.target1上创建TCP socket
8.target1上使用步骤7创建的socket去连接 PC的ip<test_tcp_port1>
9.target1上关闭步骤7创建的socket
10.target1上使用步骤7创建的socket去连接 PC的ip<test_tcp_port1>
11.target1上关闭所有创建的socket
12.target1上使用步骤2创建的socket去连接 PC的ip<test_tcp_port1>'
sub module: TCP
summary: AP mode, connect test. use socket in state that can't connect
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0208
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock1>
- ['R SSC1 RE LISTEN:\d+,ERROR']
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -L -s <sock2>
- ['R SSC1 RE LISTEN:\d+,ERROR']
- - SSC SSC1 soc -D -s <sock2>
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -L -s <sock2>
- ['R SSC1 RE LISTEN:\d+,ERROR']
- - SSC SSC1 soc -L -s 1000
- ['R SSC1 RE LISTEN:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.ERROR
4 OK
5.OK
6.ERROR
7.OK
8.ERROR
9.ERROR'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建UDP传输socketbind到本地ip 0.0.0.0,<test_udp_port1>
3.target1上使用步骤2创建的socket去建立TCP 监听
4.target1上创建TCP socket
5.target1上使用步骤4创建的socket去连接 PC的ip<test_tcp_port1>
6.target1上使用步骤4创建的socket,创建TCP 监听
7.target1上shutdown 步骤4的socket
8.target1上使用步骤4创建的socket,创建TCP 监听
9.target1上使用不存在socket,创建TCP 监听'
sub module: TCP
summary: AP mode, server listen test. use socket in state that can't listen
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0210
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP -w 0
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SOC SOC2 SEND 146000
- [P SOC_COM R *]
- - SSC SSC1 soc -W -s <sock1> -o 1
- ['P SSC1 RE WORKTHREAD:\d+,OK', P SSC1 SL <sock1>+2920]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept成功
4.OK
6.OK
7.收到 146000 数据
'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1. PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket
3.target1上使用步骤2创建的socket去连接 PC的iptest_tcp_port1
4.PC与target1 创建好TCP 连接有ACCEPT
5.target停止调用recv
6.PC send 100 * 1460 data to 8266,
7.target重新调用recv'
sub module: TCP
summary: AP mode, recv buffer test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_TCP_0212
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP -i <target_ap_ip>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -B -t TCP -i <target_ap_ip>
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock2> -i <pc_ip_wifi> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SSC SSC1 soc -D -s <sock2>
- ['R SSC1 RE SHUTDOWN:\d+,OK']
- - SSC SSC1 soc -B -t TCP -p <random_port>
- ['R SSC1 A <sock3>:BIND:(\d+),OK']
- - SSC SSC1 soc -L -s <sock3>
- ['R SSC1 RE LISTEN:\d+,OK']
- - SOC SOC2 CONNECT <random_port> <target_ap_ip> 0 <pc_ip_wifi>
- ['R SSC1 A <sock4>:ACCEPT:(\d+),\d+,.+,\d+']
- - SSC SSC1 soc -I
- ['P SSC1 RE "SOCINFO:%%s,2,%%s,\d+,%%s,%%d"%%(<sock1>,<target_ap_ip>,<pc_ip_wifi>,<test_tcp_port1>)',
'P SSC1 RE "SOCINFO:%%s,2,.+,\d+,.+,\d+"%%(<sock2>)', 'P SSC1 RE "SOCINFO:%%s,82,.+,%%d"%%(<sock3>,<random_port>)',
'P SSC1 RE "SOCINFO:%%s,2,%%s,%%d,%%s,\d+"%%(<sock4>,<target_ap_ip>,<random_port>,<pc_ip_wifi>)']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK,pc tcp server accept成功
4.OK
5.OK
6.OK
7.OK
8.OK
9.PC OK, target1 +ACCEPT:3,2,<pc_ip>,port
10.+SOCINFO:<sock1>,<target_ip>,<pc_ip>,<test_tcp_port1>
+SOCINFO:<sock2>,<target_ip>,<pc_ip>,<test_tcp_port1>
+SOCINFO:<sock3>,<random_port>
+SOCINFO:<sock4>,<target_ip>,<random_port>,<pc_ip>
+SOCINF0ALL'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1,本地ip target_ip\n3.target1上使用步骤2创建的socket1去连接\
\ PC的iptest_tcp_port1,PC有ACCEPT\n4.target1上创建TCP socket2,本地ip target_ip\n5.target1上使用步骤4创建的socket2去连接\
\ PC的iptest_tcp_port1,PC有ACCEPT\n6.target1 shutdown socket2 \n7.target1上创建TCP\
\ socket3,本地端口random_port\n8.target1上使用步骤7创建的socket3去监听\n9.PC CONNECT<random_port>,<target_ip>\
\ ,tcp 连接创建成功创建socket4 \n10.target1 查询the socket information"
sub module: TCP
summary: AP mode, get active socket info test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use TCP SAP (socket/espconn API) in different state
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0401
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 sta -D
- ['P SSC1 C +QAP:OK', 'P SSC1 RE CLOSED:\d+,0']
- - SSC SSC1 soc -S -s <sock1> -l 5
- ['P SSC1 RE SEND:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket1
3.target1上使用步骤2创建的socket1去连接 PC的iptest_tcp_port1
4.PC与target1创建好TCP 连接有ACCEPT
5.断开与AP 连接
6.8266往PC上发送5字节数据'
sub module: TCP
summary: do TCP send after WIFI disconnected
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0402
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 sta -D
- ['P SSC1 C +QAP:OK', 'P SSC1 RE CLOSED:\d+,0']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket1
3.target1上使用步骤2创建的socket1去连接 PC的iptest_tcp_port1
4.PC与target1创建好TCP 连接有ACCEPT
5.断开与AP 连接
6.关闭建立的socket1连接'
sub module: TCP
summary: "close TCP socket after WIFI \ndisconnected"
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0403
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 op -S -o 2
- ['P SSC1 C +MODE:OK', 'P SSC1 RE CLOSED:\d+,0']
- - SSC SSC1 soc -S -s <sock1> -l 5
- ['P SSC1 RE SEND:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1去连接\
\ PC的iptest_tcp_port1\n4.PC与target1创建好TCP 连接有ACCEPT\n5.修改8266的Mode为softAP mode\
\ \n6.8266往PC上发送5字节数据"
sub module: TCP
summary: do TCP send after mode changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0404
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 op -S -o 2
- ['P SSC1 C +MODE:OK', 'P SSC1 RE CLOSED:\d+,0']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1去连接\
\ PC的iptest_tcp_port1\n4.PC与target1创建好TCP 连接有ACCEPT\n5.修改8266的Mode为softAP mode\
\ \n6.关闭建立的socket1连接"
sub module: TCP
summary: close TCP socket after mode changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0405
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - NIC <pc_nic> DISABLED
- [R PC_COM C OK]
- - SSC SSC1 soc -S -s <sock1> -l 1
- ['']
- - DELAY 5400
- ['P SSC1 RE CLOSED:\d+,0']
comment: ''
execution time: 1.5
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.TCP连接断开'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket1
3.target1上使用步骤2创建的socket1去连接 PC的iptest_tcp_port1
4.PC与target1创建好TCP 连接有ACCEPT
5.PC 网卡 disable
6.target1上使用socket1发送数据等待 90 分钟'
sub module: TCP
summary: do TCP send after PC NIC disabled
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0406
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - NIC <pc_nic> DISABLED
- [R PC_COM C OK]
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1去连接\
\ PC的iptest_tcp_port1\n4.PC与target1创建好TCP 连接有ACCEPT\n5.PC上网卡禁止掉 \n6.关闭建立的socket1连接"
sub module: TCP
summary: close TCP socket after PC NIC disabled
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0407
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 dhcp -E -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -o 1 -i 192.168.111.210
- ['P SSC1 C +IP:OK', 'P SSC1 RE CLOSED:\d+,0']
- - SSC SSC1 ip -Q -o 1
- ['R SSC1 C +STAIP:192.168.111.210']
- - SSC SSC1 soc -S -s <sock1> -l 5
- ['P SSC1 RE SEND:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK
7.OK
8.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1去连接\
\ PC的iptest_tcp_port1\n4.PC与target1创建好TCP 连接有ACCEPT\n5.关闭8266的DHCP 1\n6.设置sta\
\ ip \n7.查询sta ip 地址是否生效\n8.8266往PC上发送5字节数据"
sub module: TCP
summary: do TCP send after IP changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0408
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 dhcp -E -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -o 1 -i 192.168.111.210
- ['P SSC1 C +IP:OK', 'P SSC1 RE CLOSED:\d+,0']
- - SSC SSC1 ip -Q -o 1
- ['R SSC1 C +STAIP:192.168.111.210']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK
7.OK
8.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1去连接\
\ PC的iptest_tcp_port1\n4.PC与target1创建好TCP 连接有ACCEPT\n5.关闭8266的DHCP 1\n6.设置sta\
\ ip \n7.查询sta ip 地址是否生效\n8.关闭建立的socket1连接"
sub module: TCP
summary: close TCP socket after IP changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0411
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock2> -l 5
- ['P SSC1 RE SEND:\d+,ERROR']
- - SSC SSC1 soc -S -s <sock1> -l 5
- ['P SSC1 RE SEND:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.ERROR
7.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket1
3.target1上使用步骤2创建的socket1去连接 PC的iptest_tcp_port1
4.PC与target1创建好TCP 连接有ACCEPT
5.target1上创建TCP socket2
6.8266往PC socket2上发送5字节数据
7.8266往PC socket1上发送5字节数据'
sub module: TCP
summary: do TCP send after socket changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_0412
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 LISTEN <test_tcp_port1>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -C -s <sock1> -i <pc_ip> -p <test_tcp_port1>
- ['R SSC1 RE CONNECT:\d+,OK']
- - SOC SOC1 ACCEPT SOC2
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t TCP
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
- - SSC SSC1 soc -T -s <sock2>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK
7.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上建立TCP 监听 test_tcp_port1
2.target1上创建TCP socket1
3.target1上使用步骤2创建的socket1去连接 PC的iptest_tcp_port1
4.PC与target1创建好TCP 连接有ACCEPT
5.target1上创建TCP socket2
6.关闭socket1 连接
7.关闭socket2连接'
sub module: TCP
summary: close TCP send after socket changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: TCP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_5001
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stress
cmd set:
- TCPStress/TCPConnection
- - max_connection = 5
- [dummy]
- - execute_time = 300
- ['']
- - connect_method = ["C_01", "C_02", "C_05", "C_07"]
- ['']
- - disconnect_method = ["D_01", "D_03", "D_05", "D_06"]
- ['']
- - pc_ip = "pc_ip"
- ['']
- - target_ip = "target_ip"
- ['']
comment: ''
execution time: 5.0
expected result: 1. succeed
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on
level: Integration
module: TCPIP
steps: '1. random choose connect method to do connect, random choose a method to
close
Loop executing step 1'
sub module: TCP
summary: test possible TCP connect/disconnect method
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: function + stress
test point 2: TCP connect and disconnect test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_5101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stable
cmd set:
- TCPStress/TCPAPNSTA
- - send_len = 1460
- [dummy]
- - test_time = 720
- ['']
- - server_port = "<test_tcp_port1>"
- ['']
- - server_echo = True
- ['']
- - sta_number = 4
- ['']
- - send_delay = 50
- ['']
- - ap_ip = "<target_ap_ip>"
- ['']
comment: ''
execution time: 12.0
expected result: '1. succeed
2. succeed
3. succeed
4. all TCP connection not disconnected'
initial condition: None
initial condition description (auto): none
level: Integration
module: TCPIP
steps: '1. all sta connect to softap
2. create tcp server on softap
3. all sta connect to softap tcp server
4. do bi-direction send on all tcp connections'
sub module: TCP
summary: 1 AP 4 STA TCP stable test
test environment: SSC_T5_1
test environment description (auto): 5 SSC target connect with PC by UART.
test point 1: stable
test point 2: TCP stable test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_5102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stable
cmd set:
- TCPStress/TCPRandomSend
- - delay_config = [0, 0.01, 0.1, 0.5, 1]
- [dummy]
- - send_count = 1000
- ['']
- - test_time = 300
- ['']
comment: ''
execution time: 12.0
expected result: '1. succeed
2. succeed'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on
level: Integration
module: TCPIP
steps: '1. create TCP connection
2. PC send random length data to target'
sub module: TCP
summary: send random length segment to target
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: stable
test point 2: TCP stable test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_5103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stable
cmd set:
- TCPStress/TCPSoftAPSTASendRecv
- - send_len = 1460
- [dummy]
- - test_time = 720
- ['']
- - server_port = "<test_tcp_port1>"
- ['']
- - server_port_2 = "<test_tcp_port2>"
- ['']
- - server_echo = True
- ['']
- - sta_number = 3
- ['']
- - send_delay = 50
- ['']
- - ap_ip = "<target_ap_ip>"
- ['']
comment: ''
execution time: 12.0
expected result: '1. succeed
2. verify reciveid data on target and PC succeed'
initial condition: None
initial condition description (auto): none
level: Integration
module: TCPIP
steps: '1. create TCP connection
2. send specified pattern on both direction'
sub module: TCP
summary: TCP SoftSTA send/recv stress test
test environment: SSC_T5_1
test environment description (auto): 5 SSC target connect with PC by UART.
test point 1: stable
test point 2: TCP stable test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_5201
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stress
cmd set:
- TCPStress/TCPSendRecv
- - send_len = 1460
- [dummy]
- - test_time = 300
- ['']
- - duplex = True
- ['']
- - conn_num = 5
- ['']
- - send_delay = 20
- ['']
comment: ''
execution time: 12.0
expected result: '1. succeed
2. succeed
3. all TCP connection not disconnected'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA
level: Integration
module: TCPIP
steps: '1. sta connect to softap
2. create multiple tcp connection
3. do send/recv on all tcp connections'
sub module: TCP
summary: TCP send/recv stress test
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: stress
test point 2: TCP stress test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: TCPIP_TCP_5202
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stress
cmd set:
- TCPStress/TCPDataValidation
- - test_time = 1440
- [dummy]
- - tx_enable = True
- ['']
- - rx_enable = True
- ['']
- - conn_num = 1
- ['']
- - send_len = 1024
- ['']
comment: ''
execution time: 24.0
expected result: '1. succeed
2. verify reciveid data on target and PC succeed'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on
level: Integration
module: TCPIP
steps: '1. create TCP connection
2. send specified pattern on both direction'
sub module: TCP
summary: TCP send/recv data validation
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: stress
test point 2: TCP stress test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p <test_udp_port2>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 C BIND:ERROR']
- - SSC SSC1 soc -B -t TCP -p <test_udp_port1>
- ['R SSC1 RE BIND:(\d+),OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.ERROR
4.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.target1上UDP传输Bind socket2,本地ip 0.0.0.0 target_udp_port2
3.target1上UDP传输Bind socket1,本地ip target_udp_port1
4.target1上创建TCP socket3, target_udp_port1'
sub module: UDP
summary: STA mode, udp bind test. use different ip, port
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SOC SOC2 BIND <test_udp_port2> <pc_ip2>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 10
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 10]
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip2> -p <test_udp_port2> -l 10
- ['P SSC1 RE SEND:(\d+),OK', P SOC2 UL 10]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.PC上SOC2 UDP传输bing <test_udp_port2> <pc_ip2>
3.target1上UDP传输Bind socket1,本地ip target_udp_port1
4.target1上使用步骤3创建的socket1往pc_iptest_tcp_port1上发送10字节数据
5.target1上使用步骤3创建的socket1往pc_ip2test_tcp_port2上发送10字节数据'
sub module: UDP
summary: STA mode, sendto test. use different ip, port
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 1
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1]
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 1472
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1472]
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 1473
- ['P SSC1 RE SEND:(\d+),OK', P SOC_COM NC SOC_RECVFROM]
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 1472 -n 10 -j 20
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 14720]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK,没有到UDP包
6.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1字节数据
4.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1472字节数据
5.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1473字节数据
6.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1472*10字节数据'
sub module: UDP
summary: STA mode, sendto test with different length
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0104
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SOC SOC1 SENDTO 1 <test_udp_port1> <target_ip>
- [R SSC1 SL <sock1>+1]
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ip>
- ['R SSC1 RE "RECVFROM:%%s,1472,%%s,%%u"%%(<sock1>,<pc_ip>,<test_udp_port1>)']
- - SOC SOC1 SENDTO 1473 <test_udp_port1> <target_ip>
- [P SSC1 NC +RECVFROM, P SOC_COM C OK]
- - SOC SOC2 BIND <test_udp_port2> <pc_ip2>
- [R SOC_COM L OK]
- - SOC SOC2 SENDTO 1472 <test_udp_port1> <target_ip>
- ['R SSC1 RE "RECVFROM:%%s,1472,%%s,%%u"%%(<sock1>,<pc_ip2>,<test_udp_port2>)']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK,没收到UDP包
6.OK
7.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.PC往8266上发送1字节数据
4.PC往8266上发送1472字节数据
5.PC往8266上发送1473字节数据
6.PC上SOC2 UDP传输bing <test_udp_port2> <pc_ip2>
7.PC往8266上发送1472字节数据'
sub module: UDP
summary: STA mode, recvfrom basic test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0105
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.关闭socket1'
sub module: UDP
summary: STA mode, close UDP sockets test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0106
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port2>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port3>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port4>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port5>
- ['R SSC1 RE BIND:(\d+),OK']
comment: ''
execution time: 0.0
expected result: '1.ok
2.ok
3.ok
4.ok
5.ok'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.target1上UDP传输Bind socket2,本地ip target_udp_port2
3.target1上UDP传输Bind socket3,本地ip target_udp_port3
4.target1上UDP传输Bind socket4,本地ip target_udp_port4
5.target1上UDP传输Bind socket5,本地ip target_udp_port5'
sub module: UDP
summary: STA mode, create max udp socket test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0107
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -I
- ['P SSC1 RE "SOCINFO:%%s,1,.+,%%d"%%(<sock1>,<test_udp_port1>)']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.target1上查询创建socket信息'
sub module: UDP
summary: STA mode, get active socket info test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0108
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p <test_udp_port2>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 C BIND:ERROR']
- - SSC SSC1 soc -B -t TCP -p <test_udp_port1>
- ['R SSC1 RE BIND:(\d+),OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.ERROR
4.OK'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.target1上UDP传输Bind socket2,本地ip 0.0.0.0 target_udp_port2
3.target1上UDP传输Bind socket1,本地ip target_udp_port1
4.target1上创建TCP socket3, target_udp_port1'
sub module: UDP
summary: AP mode, udp bind test. use different ip, port
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0109
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - WIFI <pc_wifi_nic> CONN <target_ssid> <target_password> <pc_ip_wifi> <target_auth>
<target_encryption>
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SOC SOC1 BIND <test_udp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC2 ip
- ['R SSC2 A <ssc2_ip>:STAIP:(.+)\r\n']
- - SSC SSC2 soc -B -t UDP -p <test_udp_port2>
- ['R SSC2 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock2> -i <pc_ip_wifi> -p <test_udp_port1> -l 5
- [R SOC1 UL 5]
- - SSC SSC1 soc -S -s <sock2> -i <ssc2_ip> -p <test_udp_port2> -l 5
- ['R SSC2 RE "RECVFROM:%%s,5,%%s,%%u"%%(<sock1>,<target_ap_ip>,<test_udp_port1>)']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK'
initial condition: T2O_1
initial condition description (auto): same as T2_1 but will NOT autogen a TC with
initial condition T2_2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.PC上SOC2 UDP传输bing <test_udp_port2> <pc_ip2>
3.target1上UDP传输Bind socket1,本地ip target_udp_port1
4.target1上使用步骤3创建的socket1往pc_iptest_tcp_port1上发送10字节数据
5.target1上使用步骤3创建的socket1往pc_ip2test_tcp_port2上发送10字节数据'
sub module: UDP
summary: AP mode, sendto test. use different ip, port
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0110
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip_wifi> -p <test_udp_port1> -l 1
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1]
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip_wifi> -p <test_udp_port1> -l 1472
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1472]
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip_wifi> -p <test_udp_port1> -l 1473
- ['P SSC1 RE SEND:(\d+),OK', P SOC_COM NC SOC_RECVFROM]
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip_wifi> -p <test_udp_port1> -l 1472 -n 10
-j 20
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 14720]
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK,没收到UDP包
6.OK'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1字节数据
4.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1472字节数据
5.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1473字节数据
6.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送1472*10字节数据'
sub module: UDP
summary: AP mode, sendto test with different length
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0111
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - WIFI <pc_wifi_nic> CONN <target_ssid> <target_password> <pc_ip_wifi> <target_auth>
<target_encryption>
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SOC SOC1 BIND <test_udp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC2 ip
- ['R SSC2 A <ssc2_ip>:STAIP:(.+)\r\n']
- - SSC SSC2 soc -B -t UDP -p <test_udp_port2>
- ['R SSC2 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock2>:BIND:(\d+),OK']
- - SOC SOC1 SENDTO 5 <test_udp_port1> <target_ap_ip>
- ['R SSC1 RE "RECVFROM:%%s,5,%%s,%%u"%%(<sock2>,<pc_ip_wifi>,<test_udp_port1>)']
- - SSC SSC2 soc -S -s <sock1> -i <target_ap_ip> -p <test_udp_port1> -l 5
- ['R SSC1 RE "RECVFROM:%%s,5,%%s,%%u"%%(<sock2>,<ssc2_ip>,<test_udp_port2>)']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK,没收到UDP包
6.OK
7.OK'
initial condition: T2O_1
initial condition description (auto): same as T2_1 but will NOT autogen a TC with
initial condition T2_2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.PC往8266上发送1字节数据
4.PC往8266上发送1472字节数据
5.PC往8266上发送1473字节数据
6.PC上SOC2 UDP传输bing <test_udp_port2> <pc_ip2>
7.PC往8266上发送1472字节数据'
sub module: UDP
summary: AP mode, recvfrom basic test
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0112
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.关闭socket1'
sub module: UDP
summary: AP mode, close UDP sockets test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0113
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port2>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port3>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port4>
- ['R SSC1 RE BIND:(\d+),OK']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port5>
- ['R SSC1 RE BIND:(\d+),OK']
comment: ''
execution time: 0.0
expected result: '1.ok
2.ok
3.ok
4.ok
5.ok'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.target1上UDP传输Bind socket2,本地ip target_udp_port2
3.target1上UDP传输Bind socket3,本地ip target_udp_port3
4.target1上UDP传输Bind socket4,本地ip target_udp_port4
5.target1上UDP传输Bind socket5,本地ip target_udp_port5'
sub module: UDP
summary: AP mode, create max udp socket test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0114
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -I
- ['P SSC1 RE "SOCINFO:%%s,1,.+,%%d"%%(<sock1>,<test_udp_port1>)']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.target1上UDP传输Bind socket1,本地ip target_udp_port1
2.target1上查询创建socket信息'
sub module: UDP
summary: AP mode, get active socket info test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: use UDP SAP (socket/espconn API) with different parameter
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0201
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1> -w 0
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ip>
- ['']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.PC OK
5.PC OK
6.PC OK
7.PC OK
8.PC OK SOC_CLOSE=SOC1'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.target1上关闭工作线程
4.PC往8266上发送1472字节数据
5.PC往8266上发送1472字节数据
6.PC往8266上发送1472字节数据
7.PC往8266上发送1472字节数据
8.PC往8266上发送1472字节数据'
sub module: UDP
summary: STA mode, recv buffer test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: use UDP SAP (socket/espconn API) in different state
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_UDP_0202
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip_wifi>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ap_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ap_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ap_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ap_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ap_ip>
- ['']
- - SOC SOC1 SENDTO 1472 <test_udp_port1> <target_ap_ip>
- ['']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.PC OK
5.PC OK
6.PC OK
7.PC OK
8.PC OK SOC_CLOSE=SOC1'
initial condition: APM2
initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen
a TC with initial condition APSTA2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.target1上关闭工作线程
4.PC往8266上发送1472字节数据
5.PC往8266上发送1472字节数据
6.PC往8266上发送1472字节数据
7.PC往8266上发送1472字节数据
8.PC往8266上发送1472字节数据'
sub module: UDP
summary: AP mode, recv buffer test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: use UDP SAP (socket/espconn API) in different state
version: v2 (2016-10-19)
- CI ready: 'Yes'
ID: TCPIP_UDP_0301
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -i <target_ip> -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5]
- - SSC SSC1 sta -D
- ['P SSC1 C +QAP:OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:\d+,ERROR']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据
4.断开与AP 连接
5.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据'
sub module: UDP
summary: do UDP send after WIFI disconnected
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: UDP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0302
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5]
- - SSC SSC1 sta -D
- ['P SSC1 C +QAP:OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK
'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: '1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>
2.target1上UDP传输Bind socket1,本地ip target_udp_port1
3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据
4.断开与AP 连接
5.关闭建立的socket1连接'
sub module: UDP
summary: "close UDP socket after WIFI \ndisconnected"
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: UDP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0303
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5]
- - SSC SSC1 op -S -o 2
- ['P SSC1 C +MODE:OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.ERROR'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>\n2.target1上UDP传输Bind socket1,本地ip\
\ target_udp_port1\n3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据\n\
4.修改8266的Mode为softAP mode \n5.8266往PC上发送5字节数据"
sub module: UDP
summary: do UDP send after mode changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: UDP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0304
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5]
- - SSC SSC1 op -S -o 2
- ['P SSC1 C +MODE:OK']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>\n2.target1上UDP传输Bind socket1,本地ip\
\ target_udp_port1\n3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据\n\
4.修改8266的Mode为softAP mode \n5.关闭建立的socket1连接"
sub module: UDP
summary: close UDP socket after mode changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: UDP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0305
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5]
- - NIC <pc_nic> DISABLED
- [R PC_COM C OK]
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK
4.OK
5.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>\n2.target1上UDP传输Bind socket1,本地ip\
\ target_udp_port1\n3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据\n\
4.PC上网卡禁止掉 \n5.关闭建立的socket1连接"
sub module: UDP
summary: close UDP socket after PC NIC disabled
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: UDP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0306
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5]
- - SSC SSC1 dhcp -E -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -o 1 -i 192.168.111.210
- ['P SSC1 C +IP:OK']
- - SSC SSC1 ip -Q -o 1
- ['R SSC1 C +STAIP:192.168.111.210']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 1
- ['P SSC1 RE SEND:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK
7.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>\n2.target1上UDP传输Bind socket1,本地ip\
\ target_udp_port1\n3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据\n\
4.关闭8266的DHCP 1\n5.设置sta ip \n6.查询sta ip 地址是否生效\n7.8266往PC上发送5字节数据"
sub module: UDP
summary: do UDP send after IP changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: UDP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_0307
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: 1/5
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SOC SOC1 BIND <test_udp_port1> <pc_ip>
- [R SOC_COM L OK]
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -l 5
- ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5]
- - SSC SSC1 dhcp -E -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 ip -S -o 1 -i 192.168.111.210
- ['P SSC1 C +IP:OK']
- - SSC SSC1 ip -Q -o 1
- ['R SSC1 C +STAIP:192.168.111.210']
- - SSC SSC1 soc -T -s <sock1>
- ['R SSC1 RE CLOSE:\d+,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.OK
3.OK; PC TCP server accept 成功
4.OK
5.OK
6.OK
7.OK'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: TCPIP
steps: "1.PC上SOC1 UDP传输bing <test_udp_port1> <pc_ip>\n2.target1上UDP传输Bind socket1,本地ip\
\ target_udp_port1\n3.target1上使用步骤2创建的socket1往pc_iptest_tcp_port1上发送5字节数据\n\
4.关闭8266的DHCP 1\n5.设置sta ip \n6.查询sta ip 地址是否生效\n7.关闭建立的socket1连接"
sub module: UDP
summary: close UDP socket after IP changed
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: UDP handling abnormal event
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: TCPIP_UDP_5001
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stress
cmd set:
- UDPStress/UDPSendRecv
- - send_len = 1460
- [dummy]
- - test_time = 300
- ['']
- - duplex = True
- ['']
- - conn_num = 5
- ['']
- - send_delay = 20
- ['']
comment: ''
execution time: 12.0
expected result: '1. succeed
2. succeed
3. succeed'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA
level: Integration
module: TCPIP
steps: '1. sta connect to softap
2. create multiple udp
3. do send/recv on all udp'
sub module: UDP
summary: UDP send/recv stress test
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: stress
test point 2: UDP stress test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: WIFI_ADDR_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 op -S -o 3
- ['R SSC1 C +MODE:OK']
- - SSC SSC1 mac -S -o 1 -m 44:55:66:77:88:99
- ['R SSC1 C +MAC:STA,OK']
- - SSC SSC1 mac -S -o 2 -m 22:33:44:55:66:77
- ['R SSC1 C +MAC:AP,OK']
- - SSC SSC1 mac -Q -o 3
- ['R SSC1 C +STAMAC:44:55:66:77:88:99 C +APMAC:22:33:44:55:66:77']
- - SSC SSC1 mac -S -o 1 -m <target_mac>
- ['R SSC1 C +MAC:STA,OK']
- - SSC SSC1 mac -S -o 2 -m <target_ap_mac>
- ['R SSC1 C +MAC:AP,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.ok
3.ok
4.ok
5.ok
6.ok'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: "1.target1 设置mode 为sta+softAP mode\n2.target1 设置sta mode 下的mac \n3.target1\
\ 设置softAP mode 下的mac\n4.target1 查询softAP+sta 下的mac\n5.target1 设置sta mode 下的mac\
\ 为target1_mac\n6.target1 设置softAP mode 下的mac 为target1_ap_mac\n"
sub module: MAC Address
summary: set mac, query mac
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: mac address function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_ADDR_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 mac -S -o 2 -m 44:55:66:77:88:99
- ['R SSC1 C +MAC:AP,OK']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['']
- - SSC SSC2 sta -S -b 44:55:66:77:88:99
- ['R SSC2 RE \+SCAN:.+,44:55:66:77:88:99,']
- - SSC SSC1 mac -S -o 2 -m <target_ap_mac>
- ['R SSC1 C +MAC:AP,OK']
- - SSC SSC2 mac -Q -o 1
- ['R SSC2 A <target2_mac_tmp>:\+STAMAC:(.+)\r\n']
- - SSC SSC2 mac -S -o 1 -m 22:33:44:55:66:77
- ['R SSC2 C +MAC:STA,OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['P SSC2 C +JAP:CONNECTED']
- - SSC SSC1 ap -L
- ['R SSC1 C +LSTA:22:33:44:55:66:77']
- - SSC SSC2 mac -S -o 1 -m <target2_mac>
- ['R SSC2 C +MAC:STA,OK']
comment: ''
execution time: 0.0
expected result: '1.OK
2.ok
3.ok
4.ok
5.ok
6.ok
7.ok
8.ok
9.ok'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: "1.target1 设置sta mode下的mac 44:55:66:77:88:99\n2.target1下设置ssid 和pwd 加密方式\n\
3.target2 查询mac为44:55:66:77:88:99的ssid\n4.target1 设置sta mode下的mac target_ap_mac\n\
5.target2 查询sta mode 下的mac 为target2_mac_tmp\n6.target2 设置sta mode 下的mac 为22:33:44:55:66:77\n\
7.target2 jap target1\n8.target1 查询连接到的sta \n9.target2 设置sta mode 下的mac 为 target2_mac\n"
sub module: MAC Address
summary: set mac and do scan/JAP/SAP
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: mac address function test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -t 0
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t 2
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t 4
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t 1
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S
- ['R SSC2 RE "\+SCAN:%%s,.+,0,\d+"%%(<target_ssid>)']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t 5
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S
- ['R SSC2 RE "\+SCAN:%%s,.+,0,\d+"%%(<target_ssid>)']
comment: ''
execution time: 0.0
expected result: "1.target1 set AP,open, \n2.target 2 jap succeed\n3.target1 set\
\ AP,wpa_psk \n4.target 2 jap succeed\n5.target1 set AP, wpa2_psk \n6.target 2\
\ jap succeed\n7.target1 set AP,wap_wpa2_psk\n8.target 2 jap succeed\n9.target1\
\ set AP,加密方式为t 1\n10.target 2 上查询到target_ssid\n11.target1 set AP,加密方式为t 5\n12.target\
\ 2 上查询到target_ssid"
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: "1.target1下设置ssid 和pwd,加密方式 open\n2.target2 jap target1\n3.target1下设置ssid\
\ 和pwd,加密方式 wpa_psk \n4.target2 jap target1\n5.target1下设置ssid 和pwd,加密方式 wpa2_psk\
\ \n6.target 2 jap target1\n7.target1下设置ssid 和pwd,加密方式 wap_wpa2_psk\n8.target2\
\ jap target1\n9.target1下设置ssid 和pwd,加密方式 wep \n10.target2上查询target_ssid\n11.target1下设置ssid\
\ 和pwd,加密方式 t 5 错误的加密方式\n12.target2上查询 target_ssid"
sub module: WIFI Connect
summary: station SAP+JAP test, different encryption
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: SAP/JAP with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -t 0 -n 1
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC1 ap -S -s <target_ssid> -t 0 -n 13
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC1 ap -S -s <target_ssid> -n 15
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC2 sta -S
- ['R SSC2 RE "\+SCAN:%%s,.+,\d+,1"%%(<target_ssid>)']
comment: ''
execution time: 0.0
expected result: '1. target1 set AP,set channel 1
2.target 2 jap succeed
3.target1 set AP,set channel 10
4.target 2 jap succeed
5.target1 set AP,set channel 15
6.target 2 上查询到target_ssid'
initial condition: T2O_1
initial condition description (auto): same as T2_1 but will NOT autogen a TC with
initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1. target1下设置ssid 和pwd 加密方式,set channel 1
2.target2 jap target 1
3.target1下设置ssid 和pwd 加密方式,set channel 10
4.target2 jap target 1
5.target1下设置ssid 和pwd 加密方式,set channel 15
6.target 2 上查询target_ssid'
sub module: WIFI Connect
summary: station SAP+JAP test, different channel
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: SAP/JAP with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum> -h
0
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S -h 0
- [R SSC2 P <target_ap_mac>, R SSC2 C +SCANDONE]
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum> -h
1
- ['R SSC1 C +SAP:OK']
- - DELAY 3
- ['']
- - SSC SSC2 sta -S -h 0
- [R SSC2 C +SCANDONE]
- - DELAY 3
- ['']
- - SSC SSC2 sta -S -h 0
- [R SSC2 NP <target_ap_mac> C +SCANDONE]
comment: ''
execution time: 0.0
expected result: '1.target1 set AP,set ssid broad cast
2.target 2上scan target_ap_mac
3.target1 set AP,set ssid hidden,
4.target 2上不能scan target_ap_mac'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1. target1下设置ssid 和pwd 加密方式,set ssid broad cast
2.target 2上scan target_ap_mac
3. target1下设置ssid 和pwd 加密方式,set ssid hidden,
4.target 2上scan target_ap_mac'
sub module: WIFI Connect
summary: station SAP+JAP test, ssid hidden
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: SAP/JAP with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0104
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum> -m
1
- ['R SSC1 C +SAP:OK']
- - WIFI <pc_wifi_nic> DISCONN
- ['R PC_COM C +WIFIDISCONN:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - WIFI <pc_wifi_nic> CONN <target_ssid> <target_password> <pc_ip_wifi> <target_auth>
<target_encryption>
- ['R PC_COM C +WIFICONN:ERROR']
comment: ''
execution time: 0.0
expected result: '1. target1 set AP,set max allowed sta as 1
2. use PC disconnect,
3.target 2 jap succeed
4.PC WIFI can not CONN'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1下设置ssid 和pwd 加密方式,set max allowed sta as 1
2.use PC disconnect target1
3.target 2 jap target1
4.PC WIFI CONNECT target1'
sub module: WIFI Connect
summary: station SAP test, max allowed sta
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: SAP/JAP with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0201
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%(<ap_ssid>)']
- - SSC SSC1 sta -Q
- ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%(<ap_ssid>)']
- - SSC SSC1 sta -D
- ['R SSC1 C +QAP:OK']
- - SSC SSC1 sta -Q
- ['R SSC1 C +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: '1.target1 jion AP 成功
2.查询JAP的状态
3.target1 断开AP
4.查询target1 JAP 是DISCONN'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: WIFI MAC
steps: '1.target1 jion AP 成功
2.查询JAP的状态
3.target1 断开AP
4.查询target1 JAP 是DISCONN'
sub module: WIFI Connect
summary: JAP query test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: query JAP status
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0301
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum> -h
0 -m 8
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 ap -Q
- ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,3,0,8,\d+"%%(<target_ssid>,<target_password>)']
comment: ''
execution time: 0.0
expected result: '1. target1 set AP
2.target 1上查询到跟设置AP时一致
'
initial condition: APM1
initial condition description (auto): AP mode, DHCP on, will autogen a TC with initial
condition APSTA1
level: Integration
module: WIFI MAC
steps: '1. target1 set AP
2.target 1上查询到跟设置AP时一致
'
sub module: WIFI Connect
summary: AP config query test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: query AP config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0401
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -R -a 0
- ['R SSC1 C +AUTORECONN:OK']
- - SSC SSC1 sta -R -a 2
- ['R SSC1 C +AUTORECONN:0']
- - SSC SSC1 reboot
- ['']
- - DELAY 15
- ['']
- - SSC SSC1 sta -Q
- ['R SSC1 C JAP:DISCONNECTED']
- - SSC SSC1 sta -R -a 1
- ['R SSC1 C +AUTORECONN:OK']
- - SSC SSC1 sta -R -a 2
- ['R SSC1 C +AUTORECONN:1']
- - SSC SSC1 reboot
- ['R SSC1 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: '1.设置autoreconn,关闭
2.查询当前autoreconn状态是否关闭
3.重启系统等待15s
4.查询target1 未自动重连AP
5.设置autoreconn,开启
6.查询当前autoreconn状态是否开启
7.系统重启后target1 自动重连AP'
initial condition: STAM2
initial condition description (auto): sta mode, join AP, DHCP on, will autogen a
TC with initial condition STAAP2
level: Integration
module: WIFI MAC
steps: '1.设置autoreconn,关闭
2.查询当前autoreconn状态是否关闭
3.重启系统等待15s
4.查询target1 未自动重连AP
5.设置autoreconn,开启
6.查询当前autoreconn状态是否开启
7.系统重启后target1 自动重连AP'
sub module: WIFI Connect
summary: auto reconnect test
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: power on auto reconnect test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0501
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC2 sta -R -r 1
- ['R SSC2 C +RECONN:OK']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%(<target_ssid>)']
- - SSC SSC1 op -S -o 1
- ['R SSC1 C +MODE:OK']
- - DELAY 10
- ['']
- - SSC SSC1 op -S -o 2
- ['R SSC1 C +MODE:OK']
- - DELAY 15
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 sta -R -r 0
- ['R SSC2 C +RECONN:OK']
- - SSC SSC2 sta -R -r 2
- ['R SSC2 C +RECONN:0']
- - SSC SSC1 op -S -o 1
- ['R SSC1 C +MODE:OK']
- - DELAY 10
- ['']
- - SSC SSC1 op -S -o 2
- ['R SSC1 C +MODE:OK']
- - DELAY 15
- [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED']
- - SSC SSC2 sta -R -r 1
- ['R SSC2 C +RECONN:OK']
comment: ''
execution time: 0.0
expected result: '1.设置reconn,开启(此功能不需要重启系统)
2.target1 set AP
3.target2 JAP target1 成功
4.target2 断开target1 连接
5.等待10starget2 自动重连target1
6.成功
7.查询reconn状态关闭
8.修改mode 成功
9.等待15starget2 不会自动重连target1'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: "1.设置reconn,开启(此功能不需要重启系统)\n2.target1下设置ssid 和pwd 加密方式\n3.target2 JAP target1\
\ \n4.target1 修改mode 为sta mode\n5.等待10starget1 修改mode 为softAP mode\n6.设置reconn关闭\n\
7.查询reconn状态关闭\n8.target1 修改mode 为sta mode\n9.等待15starget1 修改mode 为softAP mode"
sub module: WIFI Connect
summary: reconnect policy test
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: reconnect policy test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0502
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 sta -R -r 1
- ['R SSC2 C +RECONN:OK']
- - SSC SSC1 op -S -o 1
- ['R SSC1 C +MODE:OK']
- - DELAY 5
- ['R SSC2 C +JAP:DISCONNECTED']
- - SSC SSC1 op -S -o 2
- ['R SSC1 C +MODE:OK']
- - DELAY 10
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC2 sta -D
- ['R SSC2 C +QAP:OK']
- - DELAY 10
- [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: '1.target1 set AP
2.target2 jap target 1
3.设置reconn,开启(此功能不需要重启系统)
4.target2 断开target1 连接
5.等待10starget2 自动重连target1
6.target2 断开target1 连接'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1下设置ssid 和pwd 加密方式
2.target2 jap target 1
3.设置reconn,开启(此功能不需要重启系统)
4.target2 断开target1 连接
5.等待10starget2 自动重连target1
6.target2 断开target1 连接'
sub module: WIFI Connect
summary: will not do reconnect after manually disconnected
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: abnormal/special use
test point 2: reconnect policy test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0601
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - WIFI <pc_wifi_nic> CONN <target_ssid> <target_password> <pc_ip_wifi> <target_auth>
<target_encryption>
- ['R PC_COM C +WIFICONN:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 ap -L
- ['R SSC1 C +LSTA:', 'R SSC1 C +LSTA:', R SSC1 C +LSTADONE]
comment: ''
execution time: 0.0
expected result: '1.target1 set AP
2.PC WIFI CONNECTED
3.target2 jap target 1
4.查询到两个sta 连接到target1 上'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1. target1下设置ssid 和pwd 加密方式
2.PC WIFI CONNECTED target1
3.target2 jap target 1
4.查询到两个sta 连接到target1 上'
sub module: WIFI Connect
summary: list stations connected to soft ap test
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: list SoftAP connected station
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0801
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 0
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 2
- ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,2,0']
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 3
- ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,3,2']
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 4
- ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,4,3']
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 0
- ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,0,4']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. succeed
3. auth change event old mode 0 new mode 2
4. auth change event old mode 2 new mode 3
5. auth change event old mode 3 new mode 4
6. auth change event old mode 4 new mode 0'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1. set target1 softap auth mode 0
2. target2 connect to target1
3. set target1 softap auth mode 2, wait sta connected
4. set target1 softap auth mode 3, wait sta connected
5. set target1 softap auth mode 4, wait sta connected
6. set target1 softap auth mode 0, wait sta connected'
sub module: WIFI Connect
summary: test auth change event
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: wifi auth changed event test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0901
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: basic function
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC1 sta -D
- ['R SSC1 RE JAP:DISCONNECTED,\d+,8']
- - SSC SSC1 sta -C -s <ap_ssid> -p <random_string>
- ['R SSC1 RE JAP:DISCONNECTED,\d+,15']
- - SSC SSC1 sta -C -s <random_string> -p <ap_password>
- ['R SSC1 RE JAP:DISCONNECTED,\d+,201']
comment: ''
execution time: 0.0
expected result: '1. disconnect event reason REASON_ASSOC_LEAVE
2. disconnect event reason REASON_4WAY_HANDSHAKE_TIMEOUT
3. disconnect event reason REASON_NO_AP_FOUND'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: WIFI MAC
steps: '1. sta connect to AP, and disconnect
2. connect to AP with wrong password
3. connect to AP not exist'
sub module: WIFI Connect
summary: test wifi disconnect reason REASON_ASSOC_LEAVE, REASON_4WAY_HANDSHAKE_TIMEOUT,
REASON_NO_AP_FOUND
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: wifi disconnect reason test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0902
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 C +JAP:CONNECTED']
- - APC <APC1> OFF <ap_apc>
- [P PC_COM L OK, 'R SSC1 RE JAP:DISCONNECTED,\d+,200']
- - APC <APC1> ON <ap_apc>
- [P PC_COM L OK]
comment: ''
execution time: 0.0
expected result: '1. succeed
2. disconnect event REASON_BEACON_TIMEOUT'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: WIFI MAC
steps: '1. connect to AP
2. AP power off'
sub module: WIFI Connect
summary: test wifi disconnect reason REASON_BEACON_TIMEOUT
test environment: SSC_T1_APC
test environment description (auto): "PC has 1 wired NIC connected to AP.\nPC has\
\ 1 wired NIC connected to APC (static IP within the same subnet with APC). \n\
APC control AP power supply. \nPC has 1 WiFi NIC. \n1 SSC target connect with\
\ PC by UART."
test point 1: basic function
test point 2: wifi disconnect reason test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_0904
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 3 -m 1
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <random_string> -p 1234567890
- ['R SSC2 RE JAP:DISCONNECTED,\d+,204']
- - SSC SSC2 sta -D
- ['R SSC2 C +QAP:OK']
- - WIFI <pc_wifi_nic> CONN <random_string> <random_string> <pc_ip_wifi>
- ['R PC_COM NC ERROR C +WIFICONN:OK']
- - SSC SSC2 sta -C -s <random_string> -p <random_string>
- ['R SSC2 RE JAP:DISCONNECTED,\d+,5']
- - WIFI <pc_wifi_nic> DISCONN
- [P PC_COM C OK, 'R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 ap -S -s <random_string> -p <random_string> -t 3 -m 1
- ['P SSC1 C +SAP:OK', 'P SSC2 RE JAP:DISCONNECTED,\d+,4']
comment: ''
execution time: 0.0
expected result: '1. succeed
2. disconnect event REASON_HANDSHAKE_TIMEOUT
3. succeed
4. succeed
5. disconnect event REASON_ASSOC_TOOMANY
6. succeed, target2 connect succeed
7. disconnect event REASON_ASSOC_EXPIRE'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1. config target1 softap max sta allowed 1
2. target2 connect to target1 with wrong password
3. target2 disconnect
4. PC WIFI NIC connect to target1
5. target2 connect to target1 with correct password
6. PC WIFI NIC disconnect
7. reconfig softap'
sub module: WIFI Connect
summary: test wifi disconnect reason REASON_ASSOC_TOOMANY, REASON_HANDSHAKE_TIMEOUT,
REASON_ASSOC_EXPIRE
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: wifi disconnect reason test
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_CONN_5101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
auto test: 'Yes'
category: Stress
cmd set:
- WiFiStress/SoftAPNSTA
- - sta_num = 4
- [dummy]
- - max_sta = 4
- ['']
- - test_time = 300
- ['']
- - delay1 = [0, 1]
- ['']
- - delay2 = [0, 1]
- ['']
- - change_mac = True
- ['']
- - channel = 1
- ['']
comment: ''
execution time: 5.0
expected result: '1. succeed
2. JAP succeed'
initial condition: None
initial condition description (auto): none
level: Integration
module: WIFI MAC
steps: '1. 1 target set to softap mode and rest set to sta mode
2. all sta random join and disconnect from softap
Loop step 2'
sub module: WIFI Connect
summary: max sta connect to SotfAP and disconnect
test environment: SSC_T5_1
test environment description (auto): 5 SSC target connect with PC by UART.
test point 1: stress
test point 2: SoftAP WIFI connect/disconnect stress test
version: v2 (2016-11-15)
- CI ready: 'Yes'
ID: WIFI_MODE_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 op -S -o 1
- ['R SSC1 C +MODE:OK']
- - SSC SSC1 dhcp -S -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%(<ap_ssid>)']
- - SSC SSC2 sta -S
- [R SSC2 NP <target_ssid> C +SCANDONE]
- - SSC SSC1 sta -D
- ['R SSC1 C +QAP:OK']
comment: ''
execution time: 0.0
expected result: '1.target1下设置ssid 和pwd 、加密方式成功
2.修改target 1的mode 为sta mode
3.target1的dhcp打开
4.target1成功连接上AP
5.target2上不能查询到target_ssid
6.target1断开AP'
initial condition: T2O_1
initial condition description (auto): same as T2_1 but will NOT autogen a TC with
initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1下设置ssid 和pwd 加密方式
2.修改target1的mode 为sta mode
3.target1的dhcp打开
4.target1连接AP
5.target2查询target_ssid
6.target1断开AP'
sub module: WIFI Mode
summary: mode switch test (sta mode)
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: wifi mode fucntion
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_MODE_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S
- [R SSC2 P <target_ssid>, R SSC2 C +SCANDONE]
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 C +JAP:ERROR']
- - SSC SSC1 sta -D
- ['R SSC1 C +QAP:ERROR']
comment: ''
execution time: 0.0
expected result: '1. target1 set AP
2.target 2 上查询到target_ssid
3. target1 can''t join AP
4. target1 can''t QAP'
initial condition: T2O_1
initial condition description (auto): same as T2_1 but will NOT autogen a TC with
initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1下设置ssid 和pwd 加密方式
2.target 2 上查询target_ssid
3.target1 join AP
4.target1 DISCONN AP'
sub module: WIFI Mode
summary: mode switch test (AP mode)
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: wifi mode fucntion
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_MODE_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 op -S -o 3
- ['R SSC1 C +MODE:OK']
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC1 dhcp -S -o 1
- ['R SSC1 C +DHCP:STA,OK']
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%(<ap_ssid>)']
- - SSC SSC2 sta -S
- [R SSC2 P <target_ssid>, R SSC2 C +SCANDONE]
comment: ''
execution time: 0.0
expected result: '1.target1 change to AP mode
2.target1 set AP
3.target 1 的dhcp 打开
4.target 1 成功连接上AP
5.target 2 上查询到target_ssid'
initial condition: T2O_1
initial condition description (auto): same as T2_1 but will NOT autogen a TC with
initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1 change to AP mode
2.target1下设置ssid 和pwd 加密方式
3.target1 的dhcp 打开
4.target1 连接AP
5.target2 上查询target_ssid'
sub module: WIFI Mode
summary: mode switch test (STA+AP mode)
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: wifi mode fucntion
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0401
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 20
- ['R SSC2 C +PHY:OK']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht20> -p <ap_password_phy>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['']
- - DELAY 10
- ['P SSC1 NC +JAP:DISCONNECTED', 'P SSC2 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, both bandwidth 20M, STA not disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht20, in channel1, ext AP 11n ht20, in channel2
2. STA connect to ext AP
3. AP get connected'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, both bandwidth 20M, STA connect to
AP then Softap get connected
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0402
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 20
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['P SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht20> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 NC +JAP:DISCONNECTED', 'P SSC1 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, both bandwidth 20M, SoftAP not get
disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht20, in channel1, ext AP 11n ht20, in channel2
2. AP get connected
3. STA connect to ext AP'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, both bandwidth 20M, Softap get connected
than STA connect to AP
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0403
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 20
- ['R SSC2 C +PHY:OK']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['']
- - DELAY 10
- ['P SSC1 NC +JAP:DISCONNECTED', 'P SSC2 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, SoftAP 20M, STA 40M, STA not disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht20, in channel1, ext AP 11n ht40, in channel2
2. STA connect to ext AP
3. AP get connected'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, SoftAP 20M, ext AP 40M, STA connect
to AP then Softap get connected
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0404
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 20
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['P SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 NC +JAP:DISCONNECTED', 'P SSC1 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, SoftAP 20M, STA 40M, SoftAP not
get disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht20, in channel1, ext AP 11n ht40, in channel2
2. AP get connected
3. STA connect to ext AP'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, SoftAP 20M, ext AP 40M, Softap get
connected than STA connect to AP
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0405
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 40
- ['R SSC2 C +PHY:OK']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht20> -p <ap_password_phy>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['']
- - DELAY 10
- ['P SSC1 NC +JAP:DISCONNECTED', 'P SSC2 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, both bandwidth 40M, STA not disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht40, in channel1, ext AP 11n ht40, in channel2
2. STA connect to ext AP
3. AP get connected'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, both bandwidth 40M, STA connect to
AP then Softap get connected
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0406
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 40
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['P SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht20> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 NC +JAP:DISCONNECTED', 'P SSC1 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, both bandwidth 40M, SoftAP not get
disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht40, in channel1, ext AP 11n ht40, in channel2
2. AP get connected
3. STA connect to ext AP'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, both bandwidth 40M, Softap get connected
than STA connect to AP
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0407
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 40
- ['R SSC2 C +PHY:OK']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['']
- - DELAY 10
- ['P SSC1 NC +JAP:DISCONNECTED', 'P SSC2 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, SoftAP 40M, STA 20M, STA not disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht40, in channel1, ext AP 11n ht20, in channel2
2. STA connect to ext AP
3. AP get connected'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, SoftAP 40M, ext AP 20M, STA connect
to AP then Softap get connected
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0408
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 phy -S -o 1 -m n -b 40
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['P SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 NC +JAP:DISCONNECTED', 'P SSC1 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: 3. SoftAP and STA in channel2, SoftAP 40M, STA 20M, SoftAP not
get disconnected
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. SoftAP 11n ht40, in channel1, ext AP 11n ht20, in channel2
2. AP get connected
3. STA connect to ext AP'
sub module: Phy Mode
summary: SoftAP ext AP in defferent channel, SoftAP 40M, ext AP 20M, Softap get
connected than STA connect to AP
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP initial channel test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0501
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 sta -C -s <ap_ssid_c1_ht20> -p <ap_password_phy>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <target2_ssid> -p <target2_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC3 sta -C -s <target_ssid> -p <target_password>
- ['R SSC3 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <ap_ssid_c2_ht20> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 C +JAP:CONNECTED', 'P SSC[1,3] NC +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: 4. all STA not get disconnected; target 1 SoftAP and STA both in
channel2 20M
initial condition: T3_PHY1
initial condition description (auto): '1. target 1 and target 2 set to AP+STA mode,
target 3 set to STA mode
2. all interface of target 2,3 set to 11n ht40
3. config softAP of target 1 and target 2'
level: Integration
module: WIFI MAC
steps: '1. target 1 STA and SoftAP set to 20M
2. target 2 STA connect to ap_channel1_20
3. target 1/3 STA connect to target 2/1 SoftAP
4. target 2 STA connect to ap_channel2_20'
sub module: Phy Mode
summary: SoftAP STA in channel1 20M, STA changed to channel2 20M
test environment: SSC_T3_PhyMode
test environment description (auto): '3 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with (HT20, channel1), (HT20, channel2), (HT40, channel1), (HT40, channel2).
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP dynamic channel switch test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0502
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 sta -C -s <ap_ssid_c1_ht20> -p <ap_password_phy>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <target2_ssid> -p <target2_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC3 sta -C -s <target_ssid> -p <target_password>
- ['R SSC3 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <ap_ssid_c2_ht40> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 C +JAP:CONNECTED', 'P SSC[1,3] NC +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: 4. all STA not get disconnected; target 1 SoftAP and STA both in
channel2; SoftAP in 20M, STA in 40M
initial condition: T3_PHY1
initial condition description (auto): '1. target 1 and target 2 set to AP+STA mode,
target 3 set to STA mode
2. all interface of target 2,3 set to 11n ht40
3. config softAP of target 1 and target 2'
level: Integration
module: WIFI MAC
steps: '1. target 1 STA set to 40M, SoftAP set to 20M
2. target 2 STA connect to ap_channel1_20
3. target 1/3 STA connect to target 2/1 SoftAP
4. target 2 STA connect to ap_channel2_40'
sub module: Phy Mode
summary: SoftAP STA in channel1 20M, STA changed to channel2 40M
test environment: SSC_T3_PhyMode
test environment description (auto): '3 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with (HT20, channel1), (HT20, channel2), (HT40, channel1), (HT40, channel2).
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP dynamic channel switch test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0503
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <target2_ssid> -p <target2_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC3 sta -C -s <target_ssid> -p <target_password>
- ['R SSC3 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <ap_ssid_c2_ht20> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 C +JAP:CONNECTED', 'P SSC[1,3] NC +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: 4. all STA not get disconnected; target 1 SoftAP and STA both in
channel2 20M
initial condition: T3_PHY1
initial condition description (auto): '1. target 1 and target 2 set to AP+STA mode,
target 3 set to STA mode
2. all interface of target 2,3 set to 11n ht40
3. config softAP of target 1 and target 2'
level: Integration
module: WIFI MAC
steps: '1. target 1 STA set to 40M, SoftAP set to 20M
2. target 2 STA connect to ap_channel1_40
3. target 1/3 STA connect to target 2/1 SoftAP
4. target 2 STA connect to ap_channel2_20'
sub module: Phy Mode
summary: SoftAP STA in channel1, SoftAP 20M, STA 40M, STA changed to channel2 20M
test environment: SSC_T3_PhyMode
test environment description (auto): '3 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with (HT20, channel1), (HT20, channel2), (HT40, channel1), (HT40, channel2).
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP dynamic channel switch test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0504
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <target2_ssid> -p <target2_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC3 sta -C -s <target_ssid> -p <target_password>
- ['R SSC3 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <ap_ssid_c2_ht20> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 C +JAP:CONNECTED', 'P SSC[1,3] NC +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: 4. all STA not get disconnected; target 1 SoftAP and STA both in
channel2 20M
initial condition: T3_PHY1
initial condition description (auto): '1. target 1 and target 2 set to AP+STA mode,
target 3 set to STA mode
2. all interface of target 2,3 set to 11n ht40
3. config softAP of target 1 and target 2'
level: Integration
module: WIFI MAC
steps: '1. target 1 STA and SoftAP set to 40M
2. target 2 STA connect to ap_channel1_40
3. target 1/3 STA connect to target 2/1 SoftAP
4. target 2 STA connect to ap_channel2_20'
sub module: Phy Mode
summary: SoftAP STA in channel1, SoftAP 20M, STA 40M, STA changed to channel2 40M
test environment: SSC_T3_PhyMode
test environment description (auto): '3 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with (HT20, channel1), (HT20, channel2), (HT40, channel1), (HT40, channel2).
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP dynamic channel switch test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0505
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <target2_ssid> -p <target2_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC3 sta -C -s <target_ssid> -p <target_password>
- ['R SSC3 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <ap_ssid_c2_ht20> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 C +JAP:CONNECTED', 'P SSC[1,3] NC +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: 4. all STA not get disconnected; target 1 SoftAP and STA both in
channel2; SoftAP in 20M, STA in 40M
initial condition: T3_PHY1
initial condition description (auto): '1. target 1 and target 2 set to AP+STA mode,
target 3 set to STA mode
2. all interface of target 2,3 set to 11n ht40
3. config softAP of target 1 and target 2'
level: Integration
module: WIFI MAC
steps: '1. target 1 STA set to 40M ,SoftAP set to 20M
2. target 2 STA connect to ap_channel1_40
3. target 1/3 STA connect to target 2/1 SoftAP
4. target 2 STA connect to ap_channel2_20'
sub module: Phy Mode
summary: SoftAP STA in channel1, SoftAP 40M, STA 40M, STA changed to channel2 20M
test environment: SSC_T3_PhyMode
test environment description (auto): '3 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with (HT20, channel1), (HT20, channel2), (HT40, channel1), (HT40, channel2).
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP dynamic channel switch test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_PHY_0506
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 phy -S -o 2 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC2 sta -C -s <ap_ssid_c1_ht40> -p <ap_password_phy>
- ['R SSC2 C +JAP:CONNECTED']
- - SSC SSC1 sta -C -s <target2_ssid> -p <target2_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC3 sta -C -s <target_ssid> -p <target_password>
- ['R SSC3 C +JAP:CONNECTED']
- - SSC SSC2 sta -C -s <ap_ssid_c2_ht40> -p <ap_password_phy>
- ['']
- - DELAY 10
- ['P SSC2 C +JAP:CONNECTED', 'P SSC[1,3] NC +JAP:DISCONNECTED']
comment: ''
execution time: 0.0
expected result: 4. all STA not get disconnected; target 1 SoftAP and STA both in
channel2 40M
initial condition: T3_PHY1
initial condition description (auto): '1. target 1 and target 2 set to AP+STA mode,
target 3 set to STA mode
2. all interface of target 2,3 set to 11n ht40
3. config softAP of target 1 and target 2'
level: Integration
module: WIFI MAC
steps: '1. target 1 STA and SoftAP set to 40M
2. target 2 STA connect to ap_channel1_40
3. target 1/3 STA connect to target 2/1 SoftAP
4. target 2 STA connect to ap_channel2_40'
sub module: Phy Mode
summary: SoftAP STA in channel1, SoftAP 40M, STA 40M, STA changed to channel2 40M
test environment: SSC_T3_PhyMode
test environment description (auto): '3 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with (HT20, channel1), (HT20, channel2), (HT40, channel1), (HT40, channel2).
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: STA+SoftAP dynamic channel switch test
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0101
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC2 sta -S -s .,juhg123
- ['R SSC2 NC +SCAN: C +SCANDONE']
- - SSC SSC1 ap -S -s <target_tmp_ssid> -p 123456789 -t 3
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S -s <target_tmp_ssid>
- ['R SSC2 C +SCAN:', R SSC2 P <target_tmp_ssid>, 'R SSC2 NC +SCAN: C +SCANDONE']
comment: ''
execution time: 0.0
expected result: '1.target 2上不能scan .,juhg123
2.target1 set AP
3.target2上查询到<target_tmp_ssid>'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target 2 scan .,juhg123
2.target1下设置ssid 和pwd 加密方式
3.target2 scan <target_tmp_ssid>'
sub module: WIFI Scan
summary: scan with scan config ssid
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: scan with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0102
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC2 sta -S -b ff:ff:ff:ff:ff:11
- ['R SSC2 NC +SCAN: C +SCANDONE']
- - SSC SSC2 sta -S -b <target_ap_mac>
- ['R SSC2 RE "\+SCAN:.+,%%s"%%(<target_ap_mac>)', 'R SSC2 NC +SCAN: C +SCANDONE']
comment: ''
execution time: 0.0
expected result: '1.target2 上不能查询到此mac
2.target2上查询到<target_ap_mac>'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target2 上查询此macff:ff:ff:ff:ff:11
2.target2上查询<target_ap_mac>'
sub module: WIFI Scan
summary: scan with scan config bssid
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: scan with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0103
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -D
- ['R SSC1 C +QAP:']
- - SSC SSC1 ap -S -s <target_tmp_ssid> -p 123456789 -t 3 -n 6
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S -n 5
- [R SSC2 NP <target_tmp_ssid> C +SCANDONE]
- - SSC SSC2 sta -S -n 6
- ['R SSC2 C +SCAN:', R SSC2 P <target_tmp_ssid>]
comment: ''
execution time: 0.0
expected result: '1.target1 QAP
2. target1 set AP,set channel 6
3.target2 上scan不到 channel 5
4.target2 上查询channel 6的<target_tmp_ssid>'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1 断开连接AP
2.target1下设置ssid 和pwd 加密方式,set channel 6
3.target2 上scan channel 5
4.target2 上查询channel 6的<target_tmp_ssid>'
sub module: WIFI Scan
summary: scan with scan config channel
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: scan with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0104
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_tmp_ssid> -p 123456789 -t 3 -h 0
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S -h 0
- [R SSC2 P <target_tmp_ssid> C +SCANDONE]
- - SSC SSC2 sta -S -h 1
- [R SSC2 P <target_tmp_ssid> C +SCANDONE]
- - SSC SSC1 ap -S -s <target_tmp_ssid> -p 123456789 -h 1
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S -h 0
- [R SSC2 NP <target_tmp_ssid> C +SCANDONE]
- - SSC SSC2 sta -S -h 1
- [R SSC2 P <target_ap_mac> C +SCANDONE]
comment: ''
execution time: 0.0
expected result: '1.target1 set AP,set ssid broad cast
2.target 2上scan <target_tmp_ssid>
3.target 2上scan <target_tmp_ssid>
4.target1 set AP,set ssid hidden,
5.target 2上不能查询到 <target_tmp_ssid>
6.target 2上查询到<target_ap_mac>'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1下设置ssid 和pwd 加密方式,set ssid broad cast
2.target 2上scan <target_tmp_ssid>
3.target 2上scan <target_tmp_ssid>
4.target1下设置ssid 和pwd 加密方式,set ssid hidden,
5.target 2上查询 <target_tmp_ssid>
6.target 2上查询<target_ap_mac>'
sub module: WIFI Scan
summary: scan with scan config show hidden
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: scan with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0105
SDK: '8266_NonOS
8266_RTOS
ESP32_IDF'
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -D
- ['R SSC1 C +QAP:']
- - SSC SSC1 ap -S -s <target_tmp_ssid> -p 123456789 -t 3 -h 0 -n 11
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -S -s <target_tmp_ssid> -b <target_ap_mac> -n 11
- [R SSC2 P <target_tmp_ssid> C +SCANDONE]
- - SSC SSC2 sta -S -s <target_ssid> -b <target_ap_mac> -n 11
- [R SSC2 NP <target_tmp_ssid> C +SCANDONE]
- - SSC SSC2 sta -S -s <target_tmp_ssid> -b ff:ff:ff:ff:ff:11 -n 11
- [R SSC2 P <target_tmp_ssid>, R SSC2 NP <target_tmp_ssid> C +SCANDONE]
- - SSC SSC2 sta -S -s <target_tmp_ssid> -b <target_ap_mac> -n 10
- [R SSC2 P <target_tmp_ssid>, R SSC2 NP <target_tmp_ssid> C +SCANDONE]
comment: ''
execution time: 0.0
expected result: '1.target1 QAP
2. target1 set AP,set ssid broad cast,set channel 11
3.target2 上查询到<target_tmp_ssid>
4.target2 上查询不到<target_tmp_ssid>
5.target2 上查询不到<target_tmp_ssid>
6.target2 上查询不到<target_tmp_ssid>'
initial condition: T2_1
initial condition description (auto): target 1 as SoftAP, target 2 as STA, will
autogen a TC with initial condition T2_2
level: Integration
module: WIFI MAC
steps: '1.target1 QAP
2. target1 set AP,set ssid broad cast,set channel 11
3.target2 上查询到<target_tmp_ssid>
4.target2 上查询不到<target_tmp_ssid>
5.target2 上查询不到<target_tmp_ssid>
6.target2 上查询不到<target_tmp_ssid>'
sub module: WIFI Scan
summary: scan with several configs
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: basic function
test point 2: scan with different config
version: v1 (2016-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0201
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 phy -S -o 1 -m b
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 sta -S
- [R SSC1 P <ap_ssid_11b> P <ap_ssid_11g> P <ap_ssid_11n_ht20> P <ap_ssid_11n_ht40>]
- - SSC SSC1 phy -S -o 1 -m g
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 sta -S
- [R SSC1 P <ap_ssid_11b> P <ap_ssid_11g> P <ap_ssid_11n_ht20> P <ap_ssid_11n_ht40>]
- - SSC SSC1 phy -S -o 1 -m n -b 20
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 sta -S
- [R SSC1 P <ap_ssid_11b> P <ap_ssid_11g> P <ap_ssid_11n_ht20> P <ap_ssid_11n_ht40>]
- - SSC SSC1 phy -S -o 1 -m n -b 40
- ['R SSC1 C +PHY:OK']
- - SSC SSC1 sta -S
- [R SSC1 P <ap_ssid_11b> P <ap_ssid_11g> P <ap_ssid_11n_ht20> P <ap_ssid_11n_ht40>]
comment: ''
execution time: 0.0
expected result: '3. find all 3 ext APs
5. find all 3 ext APs
7. find all 3 ext APs
9. find all 3 ext APs'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: WIFI MAC
steps: '1. 3 ext APs in 11b, 11g, 11n mode
2. STA in 11b mode
3. do all channel scan
4. STA in 11g mode
5. do all channel scan
6. STA in 11n ht20 mode
7. do all channel scan
8. STA in 11n ht40 mode
9. do all channel scan'
sub module: WIFI Scan
summary: STA in differnt PHY mode to scan AP in different PHY mode
test environment: SSC_T2_PhyMode
test environment description (auto): '2 SSC target connect with PC by UART.
PC has one WiFi NIC support capture wlan packet using libpcap.
Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40.
Put 4 APs near SSC targets.'
test point 1: basic function
test point 2: Scan in different mode and channel
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0301
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -S
- ['']
- - SSC SSC1 sta -S
- [P SSC1 C +SCANFAIL, 'P SSC1 C +SCAN:', R SSC1 C +SCANDONE]
comment: ''
execution time: 0.0
expected result: '1. second scan failed
2. first scan succeed'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: WIFI MAC
steps: '1. do all channel scan
2. do scan before scan finished'
sub module: WIFI Scan
summary: reject scan request before scan finished
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: interaction
test point 2: Scan interact with other WiFi operation
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0302
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 C +JAP:CONNECTED']
- - SSC SSC1 soc -B -t UDP -p <test_udp_port1>
- ['R SSC1 A <sock1>:BIND:(\d+),OK']
- - SSC SSC1 soc -S -s <sock1> -i <pc_ip> -p <test_udp_port1> -n 1000000 -j 5
- ['']
- - SSC SSC2 phy -S -o 1 -m b
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -S -n <ap_channel>
- [R SSC2 P <ap_ssid>]
- - SSC SSC2 phy -S -o 1 -m g
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -S -n <ap_channel>
- [R SSC2 P <ap_ssid>]
- - SSC SSC2 phy -S -o 1 -m n -b 20
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -S -n <ap_channel>
- [R SSC2 P <ap_ssid>]
- - SSC SSC2 phy -S -o 1 -m n -b 40
- ['R SSC2 C +PHY:OK']
- - SSC SSC2 sta -S -n <ap_channel>
- [R SSC2 P <ap_ssid>]
comment: ''
execution time: 0.0
expected result: 3. target 2 able to scan AP
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. target 1 connect to AP
2. target 1 start sending UDP packets
3. target 2 scan in AP channel in 11b.g,n,ht40 mode'
sub module: WIFI Scan
summary: scan in congest channel
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: interaction
test point 2: Scan interact with other WiFi operation
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0303
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- ['R SSC1 C +JAP:OK']
- - SSC SSC1 sta -S
- [P SSC1 C +SCANDONE, 'P SSC1 C +JAP:CONNECTED']
- - SSC SSC1 sta -D
- ['R SSC1 C +QAP:OK']
- - SSC SSC1 sta -S
- ['']
- - SSC SSC1 sta -C -s <ap_ssid> -p <ap_password>
- [P SSC1 C +SCANDONE, 'P SSC1 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: '2. scan succeed, JAP succeed
5. JAP succeed, scan succeed'
initial condition: STAM1
initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a
TC with initial condition STAAP1
level: Integration
module: WIFI MAC
steps: '1. target 1 STA join AP
2. target 1 STA scan before JAP succeed
3. target 1 quite AP
4. target 1 scan
5. target 1 JAP before scan succeed'
sub module: WIFI Scan
summary: scan during JAP
test environment: SSC_T1_1
test environment description (auto): 'PC has 2 wired NIC connected to AP.
PC has 1 WiFi NIC.
1 SSC target connect with PC by UART.'
test point 1: interaction
test point 2: Scan interact with other WiFi operation
version: v1 (2015-8-15)
- CI ready: 'Yes'
ID: WIFI_SCAN_0304
SDK: ESP32_IDF
Test App: SSC
allow fail: ''
auto test: 'Yes'
category: Function
cmd set:
- ''
- - SSC SSC1 ap -S -s <target_ssid> -p <target_password> -t <target_auth_enum>
- ['R SSC1 C +SAP:OK']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- ['R SSC2 C +JAP:OK']
- - SSC SSC1 sta -S
- [P SSC1 C +SCANDONE, 'P SSC2 C +JAP:CONNECTED']
- - SSC SSC2 sta -D
- ['R SSC2 C +QAP:OK']
- - SSC SSC1 sta -S
- ['']
- - SSC SSC2 sta -C -s <target_ssid> -p <target_password>
- [P SSC1 C +SCANDONE, 'P SSC2 C +JAP:CONNECTED']
comment: ''
execution time: 0.0
expected result: '2. scan succeed, JAP succeed
5. JAP succeed, scan succeed'
initial condition: T2_2
initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen)
level: Integration
module: WIFI MAC
steps: '1. target 2 STA join target 1 SoftAP
2. target 1 STA scan before target 2 JAP succeed
3. target 2 STA QAP
4. target 1 STA scan
5. target 2 STA JAP before target 1 STA scan succeed'
sub module: WIFI Scan
summary: scan during ext STA join SoftAP
test environment: SSC_T2_1
test environment description (auto): 'PC has 1 wired NIC connected to AP.
PC has 1 WiFi NIC.
2 SSC target connect with PC by UART.'
test point 1: interaction
test point 2: Scan interact with other WiFi operation
version: v1 (2015-8-15)
- ID: SYS_NVS_01001
SDK: ESP32_IDF
Test App: SSC_BLE_WIFI
auto test: 'Yes'
category: Function
test point 1: compatiable test
test point 2: test if latest SDK work with pervious version of NVS data
summary: use old NVS data WIFI function test
steps: |
1. get NVS data from earlier released branches and last master
2. download each NVS data to target
3. check if auto connected to the same AP
4. check if SoftAP config is correct
expected result: |
1. succeed
2. succeed
3. succeed
4. succeed
initial condition: None
test environment: SSC_T1_1
execution time: 0
module: System
sub module: NVS
version: v1 (2017-06-01)
CI ready: 'SpecialJob'
level: Integration
allow fail: ''
cmd set:
- "NVSTest/NVSCompatibleWiFi"
- - nvs_path = "nvs_bin_folder"
- ['']