blob: 334386ea96bd192f217aec4562d8c07ee8902022 [file] [log] [blame]
*** Settings ***
Resource ../lib/utils.robot
Resource ../lib/connection_client.robot
Resource ../lib/boot_utils.robot
Library ../lib/gen_misc.py
Library ../lib/utils.py
Library ../lib/bmc_network_utils.py
*** Variables ***
# MAC input from user.
${MAC_ADDRESS} ${EMPTY}
*** Keywords ***
Check And Reset MAC
[Documentation] Update BMC with user input MAC address.
[Arguments] ${mac_address}=${MAC_ADDRESS}
# Description of argument(s):
# mac_address The mac address (e.g. 00:01:6c:80:02:28).
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
Should Not Be Empty ${mac_address}
Open Connection And Log In
${bmc_mac_addr} ${stderr} ${rc}= BMC Execute Command
... cat /sys/class/net/${ethernet_interface}/address
Run Keyword If '${mac_address.lower()}' != '${bmc_mac_addr.lower()}'
... Set MAC Address
Set MAC Address
[Documentation] Update eth0 with input MAC address.
[Arguments] ${mac_address}=${MAC_ADDRESS}
# Description of argument(s):
# mac_address The mac address (e.g. 00:01:6c:80:02:28).
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
Write fw_setenv ethaddr ${mac_address}
OBMC Reboot (off)
# Take SSH session post BMC reboot.
Open Connection And Log In
${bmc_mac_addr} ${stderr} ${rc}= BMC Execute Command
... cat /sys/class/net/${ethernet_interface}/address
Should Be Equal ${bmc_mac_addr} ${mac_address} ignore_case=True
Get BMC IP Info
[Documentation] Get system IP address and prefix length.
# Get system IP address and prefix length details using "ip addr"
# Sample Output of "ip addr":
# 1: eth0: <BROADCAST,MULTIAST> mtu 1500 qdisc mq state UP qlen 1000
# link/ether xx:xx:xx:xx:xx:xx brd ff:ff:ff:ff:ff:ff
# inet xx.xx.xx.xx/24 brd xx.xx.xx.xx scope global eth0
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
${cmd_output} ${stderr} ${rc}= BMC Execute Command
... /sbin/ip addr | grep ${ethernet_interface}
# Get line having IP address details.
${lines}= Get Lines Containing String ${cmd_output} inet
# List IP address details.
@{ip_components}= Split To Lines ${lines}
@{ip_data}= Create List
# Get all IP addresses and prefix lengths on system.
FOR ${ip_component} IN @{ip_components}
@{if_info}= Split String ${ip_component}
${ip_n_prefix}= Get From List ${if_info} 1
Append To List ${ip_data} ${ip_n_prefix}
END
[Return] ${ip_data}
Get BMC Route Info
[Documentation] Get system route info.
# Sample output of "ip route":
# default via xx.xx.xx.x dev eth0
# xx.xx.xx.0/23 dev eth0 src xx.xx.xx.xx
# xx.xx.xx.0/24 dev eth0 src xx.xx.xx.xx
${cmd_output} ${stderr} ${rc}= BMC Execute Command
... /sbin/ip route
[Return] ${cmd_output}
# TODO: openbmc/openbmc-test-automation#1331
Get BMC MAC Address
[Documentation] Get system MAC address.
# Sample output of "ip addr | grep ether":
# link/ether xx.xx.xx.xx.xx.xx brd ff:ff:ff:ff:ff:ff
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
${cmd_output} ${stderr} ${rc}= BMC Execute Command
... /sbin/ip addr | grep ${ethernet_interface} -A 1 | grep ether
# Split the line and return MAC address.
# Split list data:
# link/ether | xx:xx:xx:xx:xx:xx | brd | ff:ff:ff:ff:ff:ff
@{words}= Split String ${cmd_output}
[Return] ${words[1]}
Get BMC MAC Address List
[Documentation] Get system MAC address
# Sample output of "ip addr | grep ether":
# link/ether xx.xx.xx.xx.xx.xx brd ff:ff:ff:ff:ff:ff
${cmd_output} ${stderr} ${rc}= BMC Execute Command
... /sbin/ip addr | grep ether
# Split the line and return MAC address.
# Split list data:
# link/ether | xx:xx:xx:xx:xx:xx | brd | ff:ff:ff:ff:ff:ff
# link/ether | xx:xx:xx:xx:xx:xx | brd | ff:ff:ff:ff:ff:ff
${mac_list}= Create List
@{lines}= Split To Lines ${cmd_output}
FOR ${line} IN @{lines}
@{words}= Split String ${line}
Append To List ${mac_list} ${words[1]}
END
[Return] ${mac_list}
Get BMC Hostname
[Documentation] Get BMC hostname.
# Sample output of "hostname":
# test_hostname
${output} ${stderr} ${rc}= BMC Execute Command hostname
[Return] ${output}
Get FW_Env MAC Address
[Documentation] Get FW_Env MAC address.
# Sample output of "fw_printenv | grep ethaddr"
# ethaddr=xx:xx:xx:xx:xx:xx:xx
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
${ethernet_interface}= Set Variable If
... "${ethernet_interface}"=="eth0" ethaddr eth1addr
${cmd_output} ${stderr} ${rc}= BMC Execute Command /sbin/fw_printenv | grep ${ethernet_interface}
# Split the line and return MAC address.
# Split list data:
# ethaddr | xx:xx:xx:xx:xx:xx:xx
@{words}= Split String ${cmd_output} =
[Return] ${words[1]}
Get List Of IP Address Via REST
[Documentation] Get list of IP address via REST.
[Arguments] @{ip_uri_list}
# Description of argument(s):
# ip_uri_list List of IP objects.
# Example:
# "data": [
# "/xyz/openbmc_project/network/eth0/ipv4/e9767624",
# "/xyz/openbmc_project/network/eth0/ipv4/31f4ce8b"
# ],
${ip_list}= Create List
FOR ${ip_uri} IN @{ip_uri_list}
${ip_addr}= Read Attribute ${ip_uri} Address
Append To List ${ip_list} ${ip_addr}
END
[Return] @{ip_list}
Delete IP And Object
[Documentation] Delete IP and object.
[Arguments] ${ip_addr} @{ip_uri_list}
# Description of argument(s):
# ip_addr IP address to be deleted.
# ip_uri_list List of IP object URIs.
# Find IP object having this IP address.
FOR ${ip_uri} IN @{ip_uri_list}
${ip_addr1}= Read Attribute ${ip_uri} Address
Run Keyword If '${ip_addr}' == '${ip_addr1}' Exit For Loop
END
# If the given IP address is not configured, return.
# Otherwise, delete the IP and object.
Run Keyword And Return If '${ip_addr}' != '${ip_addr1}'
... Pass Execution IP address to be deleted is not configured.
Run Keyword And Ignore Error OpenBMC Delete Request ${ip_uri}
# After any modification on network interface, BMC restarts network
# module, wait until it is reachable. Then wait 15 seconds for new
# configuration to be updated on BMC.
Wait For Host To Ping ${OPENBMC_HOST} ${NETWORK_TIMEOUT}
... ${NETWORK_RETRY_TIME}
Sleep 15s
# Verify whether deleted IP address is removed from BMC system.
${ip_data}= Get BMC IP Info
Should Not Contain Match ${ip_data} ${ip_addr}*
... msg=IP address not deleted.
Get First Non Pingable IP From Subnet
[Documentation] Find first non-pingable IP from the subnet and return it.
[Arguments] ${host}=${OPENBMC_HOST}
# Description of argument(s):
# host Any valid host name or IP address
# (e.g. "machine1" or "9.xx.xx.31").
# Non-pingable IP is unused IP address in the subnet.
${host_name} ${ip_addr}= Get Host Name IP ${host}
# Split IP address into network part and host part.
# IP address will have 4 octets xx.xx.xx.xx.
# Sample output after split:
# split_ip [xx.xx.xx, xx]
${split_ip}= Split String From Right ${ip_addr} . 1
# First element in list is Network part.
${network_part}= Get From List ${split_ip} 0
FOR ${octet4} IN RANGE 1 255
${new_ip}= Catenate ${network_part}.${octet4}
${status}= Run Keyword And Return Status Ping Host ${new_ip}
# If IP is non-pingable, return it.
Return From Keyword If '${status}' == 'False' ${new_ip}
END
Fail msg=No non-pingable IP could be found in subnet ${network_part}.
Validate MAC On BMC
[Documentation] Validate MAC on BMC.
[Arguments] ${mac_addr}
# Description of argument(s):
# mac_addr MAC address of the BMC.
${system_mac}= Get BMC MAC Address
${mac_new_addr}= Truncate MAC Address ${system_mac} ${mac_addr}
${status}= Compare MAC Address ${system_mac} ${mac_new_addr}
Should Be True ${status}
... msg=MAC address ${system_mac} does not match ${mac_new_addr}.
Validate MAC On FW_Env
[Documentation] Validate MAC on FW_Env.
[Arguments] ${mac_addr}
# Description of argument(s):
# mac_addr MAC address of the BMC.
${fw_env_addr}= Get FW_Env MAC Address
${mac_new_addr}= Truncate MAC Address ${fw_env_addr} ${mac_addr}
${status}= Compare MAC Address ${fw_env_addr} ${mac_new_addr}
Should Be True ${status}
... msg=MAC address ${fw_env_addr} does not match ${mac_new_addr}.
Truncate MAC Address
[Documentation] Truncates and returns user provided MAC address.
[Arguments] ${sys_mac_addr} ${user_mac_addr}
# Description of argument(s):
# sys_mac_addr MAC address of the BMC.
# user_mac_addr user provided MAC address.
${mac_byte}= Set Variable ${0}
@{user_mac_list}= Split String ${user_mac_addr} :
@{sys_mac_list}= Split String ${sys_mac_addr} :
${user_new_mac_list} Create List
# Truncate extra bytes and bits from MAC address
FOR ${mac_item} IN @{sys_mac_list}
${invalid_mac_byte} = Get Regexp Matches ${user_mac_list}[${mac_byte}] [^A-Za-z0-9]+
Return From Keyword If ${invalid_mac_byte} ${user_mac_addr}
${mac_int} = Convert To Integer ${user_mac_list}[${mac_byte}] 16
${user_mac_len} = Get Length ${user_mac_list}
${user_mac_byte}= Run Keyword IF
... ${mac_int} >= ${256} Truncate MAC Bits ${user_mac_list}[${mac_byte}]
... ELSE Set Variable ${user_mac_list}[${mac_byte}]
Append To List ${user_new_mac_list} ${user_mac_byte}
${mac_byte} = Set Variable ${mac_byte + 1}
Exit For Loop If '${mac_byte}' == '${user_mac_len}'
END
${user_new_mac_string}= Evaluate ":".join(${user_new_mac_list})
[Return] ${user_new_mac_string}
Truncate MAC Bits
[Documentation] Truncates user provided MAC address byte to bits.
[Arguments] ${user_mac_addr_byte}
# Description of argument(s):
# user_mac_addr_byte user provided MAC address byte to truncate bits
${user_mac_addr_int}= Convert To List ${user_mac_addr_byte}
${user_mac_addr_byte}= Get Slice From List ${user_mac_addr_int} 0 2
${user_mac_addr_byte_string}= Evaluate "".join(${user_mac_addr_byte})
[Return] ${user_mac_addr_byte_string}
Run Build Net
[Documentation] Run build_net to preconfigure the ethernet interfaces.
OS Execute Command build_net help y y
# Run pingum to check if the "build_net" was run correctly done.
${output} ${stderr} ${rc}= OS Execute Command pingum
Should Contain ${output} All networks ping Ok
Configure Hostname
[Documentation] Configure hostname on BMC via Redfish.
[Arguments] ${hostname} ${status_code}=[${HTTP_OK}, ${HTTP_NO_CONTENT}]
# Description of argument(s):
# hostname A hostname value which is to be configured on BMC.
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
${data}= Create Dictionary HostName=${hostname}
Redfish.patch ${REDFISH_NW_ETH_IFACE}${ethernet_interface} body=&{data}
... valid_status_codes=${status_code}
Verify IP On BMC
[Documentation] Verify IP on BMC.
[Arguments] ${ip}
# Description of argument(s):
# ip IP address to be verified (e.g. "10.7.7.7").
# Get IP address details on BMC using IP command.
@{ip_data}= Get BMC IP Info
Should Contain Match ${ip_data} ${ip}/*
... msg=IP address does not exist.
Verify Gateway On BMC
[Documentation] Verify gateway on BMC.
[Arguments] ${gateway_ip}=0.0.0.0
# Description of argument(s):
# gateway_ip Gateway IP address.
${route_info}= Get BMC Route Info
# If gateway IP is empty or 0.0.0.0 it will not have route entry.
Run Keyword If '${gateway_ip}' == '0.0.0.0'
... Pass Execution Gateway IP is "0.0.0.0".
... ELSE
... Should Contain ${route_info} ${gateway_ip}
... msg=Gateway IP address not matching.
Get BMC DNS Info
[Documentation] Get system DNS info.
# Sample output of "resolv.conf":
# ### Generated manually via dbus settings ###
# nameserver 8.8.8.8
${cmd_output} ${stderr} ${rc}= BMC Execute Command
... cat /etc/resolv.conf
[Return] ${cmd_output}
CLI Get Nameservers
[Documentation] Get the nameserver IPs from /etc/resolv.conf and return as a list.
# Example of /etc/resolv.conf data:
# nameserver x.x.x.x
# nameserver y.y.y.y
${stdout} ${stderr} ${rc}= BMC Execute Command
... egrep nameserver /etc/resolv.conf | cut -f2- -d ' '
${nameservers}= Split String ${stdout}
[Return] ${nameservers}
Get Network Configuration
[Documentation] Get network configuration.
# Sample output:
#{
# "@odata.context": "/redfish/v1/$metadata#EthernetInterface.EthernetInterface",
# "@odata.id": "/redfish/v1/Managers/${MANAGER_ID}/EthernetInterfaces/eth0",
# "@odata.type": "#EthernetInterface.v1_2_0.EthernetInterface",
# "Description": "Management Network Interface",
# "IPv4Addresses": [
# {
# "Address": "169.254.xx.xx",
# "AddressOrigin": "IPv4LinkLocal",
# "Gateway": "0.0.0.0",
# "SubnetMask": "255.255.0.0"
# },
# {
# "Address": "xx.xx.xx.xx",
# "AddressOrigin": "Static",
# "Gateway": "xx.xx.xx.1",
# "SubnetMask": "xx.xx.xx.xx"
# }
# ],
# "Id": "eth0",
# "MACAddress": "xx:xx:xx:xx:xx:xx",
# "Name": "Manager Ethernet Interface",
# "SpeedMbps": 0,
# "VLAN": {
# "VLANEnable": false,
# "VLANId": 0
# }
[Arguments] ${network_active_channel}=${CHANNEL_NUMBER}
# Description of argument(s):
# network_active_channel Ethernet channel number (eg. 1 or 2)
${active_channel_config}= Get Active Channel Config
${resp}= Redfish.Get
... ${REDFISH_NW_ETH_IFACE}${active_channel_config['${network_active_channel}']['name']}
@{network_configurations}= Get From Dictionary ${resp.dict} IPv4StaticAddresses
[Return] @{network_configurations}
Add IP Address
[Documentation] Add IP Address To BMC.
[Arguments] ${ip} ${subnet_mask} ${gateway}
... ${valid_status_codes}=${HTTP_OK}
# Description of argument(s):
# ip IP address to be added (e.g. "10.7.7.7").
# subnet_mask Subnet mask for the IP to be added
# (e.g. "255.255.0.0").
# gateway Gateway for the IP to be added (e.g. "10.7.7.1").
# valid_status_codes Expected return code from patch operation
# (e.g. "200"). See prolog of rest_request
# method in redfish_plus.py for details.
${empty_dict}= Create Dictionary
${ip_data}= Create Dictionary Address=${ip}
... SubnetMask=${subnet_mask} Gateway=${gateway}
${patch_list}= Create List
${network_configurations}= Get Network Configuration
${num_entries}= Get Length ${network_configurations}
FOR ${INDEX} IN RANGE 0 ${num_entries}
Append To List ${patch_list} ${empty_dict}
END
${valid_status_codes}= Run Keyword If '${valid_status_codes}' == '${HTTP_OK}'
... Set Variable ${HTTP_OK},${HTTP_NO_CONTENT}
... ELSE Set Variable ${valid_status_codes}
# We need not check for existence of IP on BMC while adding.
Append To List ${patch_list} ${ip_data}
${data}= Create Dictionary IPv4StaticAddresses=${patch_list}
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
Redfish.patch ${REDFISH_NW_ETH_IFACE}${ethernet_interface} body=&{data}
... valid_status_codes=[${valid_status_codes}]
Return From Keyword If '${valid_status_codes}' != '${HTTP_OK},${HTTP_NO_CONTENT}'
# Note: Network restart takes around 15-18s after patch request processing.
Sleep ${NETWORK_TIMEOUT}s
Wait For Host To Ping ${OPENBMC_HOST} ${NETWORK_TIMEOUT}
Verify IP On BMC ${ip}
Validate Network Config On BMC
Delete IP Address
[Documentation] Delete IP Address Of BMC.
[Arguments] ${ip} ${valid_status_codes}=${HTTP_OK}
# Description of argument(s):
# ip IP address to be deleted (e.g. "10.7.7.7").
# valid_status_codes Expected return code from patch operation
# (e.g. "200"). See prolog of rest_request
# method in redfish_plus.py for details.
${empty_dict}= Create Dictionary
${patch_list}= Create List
@{network_configurations}= Get Network Configuration
FOR ${network_configuration} IN @{network_configurations}
Run Keyword If '${network_configuration['Address']}' == '${ip}'
... Append To List ${patch_list} ${null}
... ELSE Append To List ${patch_list} ${empty_dict}
END
${ip_found}= Run Keyword And Return Status List Should Contain Value
... ${patch_list} ${null} msg=${ip} does not exist on BMC
Pass Execution If ${ip_found} == ${False} ${ip} does not exist on BMC
# Run patch command only if given IP is found on BMC
${data}= Create Dictionary IPv4StaticAddresses=${patch_list}
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
Redfish.patch ${REDFISH_NW_ETH_IFACE}${ethernet_interface} body=&{data}
... valid_status_codes=[${valid_status_codes}]
# Note: Network restart takes around 15-18s after patch request processing
Sleep ${NETWORK_TIMEOUT}s
Wait For Host To Ping ${OPENBMC_HOST} ${NETWORK_TIMEOUT}
${delete_status}= Run Keyword And Return Status Verify IP On BMC ${ip}
Run Keyword If '${valid_status_codes}' == '${HTTP_OK}'
... Should Be True '${delete_status}' == '${False}'
... ELSE Should Be True '${delete_status}' == '${True}'
Validate Network Config On BMC
Validate Network Config On BMC
[Documentation] Check that network info obtained via redfish matches info
... obtained via CLI.
@{network_configurations}= Get Network Configuration
${ip_data}= Get BMC IP Info
FOR ${network_configuration} IN @{network_configurations}
Should Contain Match ${ip_data} ${network_configuration['Address']}/*
... msg=IP address does not exist.
END
Create VLAN
[Documentation] Create a VLAN.
[Arguments] ${id} ${interface}=eth0 ${expected_result}=valid
# Description of argument(s):
# id The VLAN ID (e.g. '53').
# interface The physical interface for the VLAN(e.g. 'eth0').
# expected_result Expected status of VLAN configuration.
@{data_vlan_id}= Create List ${interface} ${id}
${data}= Create Dictionary data=@{data_vlan_id}
${resp}= OpenBMC Post Request ${vlan_resource} data=${data}
${resp.status_code}= Convert To String ${resp.status_code}
${status}= Run Keyword And Return Status
... Valid Value resp.status_code ["${HTTP_OK}"]
Run Keyword If '${expected_result}' == 'error'
... Should Be Equal ${status} ${False}
... msg=Configuration of an invalid VLAN ID Failed.
... ELSE
... Should Be Equal ${status} ${True}
... msg=Configuration of a valid VLAN ID Failed.
Sleep ${NETWORK_TIMEOUT}s
Configure Network Settings On VLAN
[Documentation] Configure network settings.
[Arguments] ${id} ${ip_addr} ${prefix_len} ${gateway_ip}=${gateway}
... ${expected_result}=valid ${interface}=eth0
# Description of argument(s):
# id The VLAN ID (e.g. '53').
# ip_addr IP address of VLAN Interface.
# prefix_len Prefix length of VLAN Interface.
# gateway_ip Gateway IP address of VLAN Interface.
# expected_result Expected status of network setting configuration.
# interface Physical Interface on which the VLAN is defined.
@{ip_parm_list}= Create List ${network_resource}
... ${ip_addr} ${prefix_len} ${gateway_ip}
${data}= Create Dictionary data=@{ip_parm_list}
Run Keyword And Ignore Error OpenBMC Post Request
... ${NETWORK_MANAGER}${interface}_${id}/action/IP data=${data}
# After any modification on network interface, BMC restarts network
# module, wait until it is reachable. Then wait 15 seconds for new
# configuration to be updated on BMC.
Wait For Host To Ping ${OPENBMC_HOST} ${NETWORK_TIMEOUT}
... ${NETWORK_RETRY_TIME}
Sleep ${NETWORK_TIMEOUT}s
# Verify whether new IP address is populated on BMC system.
# It should not allow to configure invalid settings.
${status}= Run Keyword And Return Status
... Verify IP On BMC ${ip_addr}
Run Keyword If '${expected_result}' == 'error'
... Should Be Equal ${status} ${False}
... msg=Configuration of invalid IP Failed.
... ELSE
... Should Be Equal ${status} ${True}
... msg=Configuration of valid IP Failed.
Get BMC Default Gateway
[Documentation] Get system default gateway.
${route_info}= Get BMC Route Info
${lines}= Get Lines Containing String ${route_info} default via
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
# Extract the corresponding default gateway for eth0 and eth1
${default_gw_line}= Get Lines Containing String ${lines} ${ethernet_interface}
${default_gw}= Split String ${default_gw_line}
# Example of the output
# default_gw:
# [0]: default
# [1]: via
# [2]: xx.xx.xx.1
# [3]: dev
# [4]: eth1
[Return] ${default_gw[2]}
Validate Hostname On BMC
[Documentation] Verify that the hostname read via Redfish is the same as the
... hostname configured on system.
[Arguments] ${hostname}
# Description of argument(s):
# hostname A hostname value which is to be compared to the hostname
# configured on system.
${sys_hostname}= Get BMC Hostname
Should Be Equal ${sys_hostname} ${hostname}
... ignore_case=True msg=Hostname does not exist.
Get Channel Number For All Interface
[Documentation] Gets the Interface name and returns the channel number for the given interface.
${valid_channel_number_interface_names}= Get Channel Config
${valid_channel_number_interface_names}= Convert To Dictionary ${valid_channel_number_interface_names}
[Return] ${valid_channel_number_interface_names}
Get Valid Channel Number
[Documentation] Get Valid Channel Number.
[Arguments] ${valid_channel_number_interface_names}
#Description of argument(s):
#valid_channel_number_interface_names Contains channel names in dict.
&{valid_channel_number_interface_name}= Create Dictionary
FOR ${key} ${values} IN &{valid_channel_number_interface_names}
Run Keyword If '${values['is_valid']}' == 'True'
... Set To Dictionary ${valid_channel_number_interface_name} ${key} ${values}
END
[Return] ${valid_channel_number_interface_name}
Get Invalid Channel Number List
[Documentation] Get Invalid Channel and return as list.
${available_channels}= Get Channel Number For All Interface
# Get the channel which medium_type as 'reserved' and append it to a list.
@{invalid_channel_number_list}= Create List
FOR ${channel_number} ${values} IN &{available_channels}
Run Keyword If '${values['channel_info']['medium_type']}' == 'reserved'
... Append To List ${invalid_channel_number_list} ${channel_number}
END
[Return] ${invalid_channel_number_list}
Get Channel Number For Valid Ethernet Interface
[Documentation] Get channel number for all ethernet interface.
[Arguments] ${valid_channel_number_interface_name}
# Description of argument(s):
# channel_number_list Contains channel names in list.
@{channel_number_list}= Create List
FOR ${channel_number} ${values} IN &{valid_channel_number_interface_name}
${usb_interface_status}= Run Keyword And Return Status Should Not Contain ${values['name']} usb
Continue For Loop IF ${usb_interface_status} == False
Run Keyword If '${values['channel_info']['medium_type']}' == 'lan-802.3'
... Append To List ${channel_number_list} ${channel_number}
END
[Return] ${channel_number_list}
Get Current Channel Name List
[Documentation] Get Current Channel name and append it to active channel list.
[Arguments] ${channel_list} ${channel_config_json}
# Description of Arguments
# ${channel_list} - list Contains all available active channels.
# ${channel_config_json} - output of /usr/share/ipmi-providers/channel_config.json file.
FOR ${channel_number} ${values} IN &{channel_config_json}
Run Keyword If '${values['name']}' == 'SELF'
... Run Keyword Append To List ${channel_list} ${channel_number}
END
[Return] ${channel_list}
Get Active Ethernet Channel List
[Documentation] Get Available channels from channel_config.json file and return as list.
[Arguments] ${current_channel}=${0}
${valid_channel_number_interface_names}= Get Channel Number For All Interface
${valid_channel_number_interface_name}= Get Valid Channel Number ${valid_channel_number_interface_names}
${channel_number_list}= Get Channel Number For Valid Ethernet Interface
... ${valid_channel_number_interface_name}
Return From Keyword If ${current_channel} == 0 ${channel_number_list}
${channel_number_list}= Get Current Channel Name List
... ${channel_number_list} ${valid_channel_number_interface_names}
[Return] ${channel_number_list}
Update IP Address
[Documentation] Update and verify IP address of BMC.
[Arguments] ${ip} ${new_ip} ${netmask} ${gw_ip}
... ${valid_status_codes}=[${HTTP_OK}, ${HTTP_NO_CONTENT}]
# Description of argument(s):
# ip IP address to be replaced (e.g. "10.7.7.7").
# new_ip New IP address to be configured.
# netmask Netmask value.
# gw_ip Gateway IP address.
# valid_status_codes Expected return code from patch operation
# (e.g. "200"). See prolog of rest_request
# method in redfish_plus.py for details.
${empty_dict}= Create Dictionary
${patch_list}= Create List
${ip_data}= Create Dictionary
... Address=${new_ip} SubnetMask=${netmask} Gateway=${gw_ip}
# Find the position of IP address to be modified.
@{network_configurations}= Get Network Configuration
FOR ${network_configuration} IN @{network_configurations}
Run Keyword If '${network_configuration['Address']}' == '${ip}'
... Append To List ${patch_list} ${ip_data}
... ELSE Append To List ${patch_list} ${empty_dict}
END
# Modify the IP address only if given IP is found
${ip_found}= Run Keyword And Return Status List Should Contain Value
... ${patch_list} ${ip_data} msg=${ip} does not exist on BMC
Pass Execution If ${ip_found} == ${False} ${ip} does not exist on BMC
${data}= Create Dictionary IPv4StaticAddresses=${patch_list}
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
Redfish.patch ${REDFISH_NW_ETH_IFACE}${ethernet_interface}
... body=&{data} valid_status_codes=${valid_status_codes}
# Note: Network restart takes around 15-18s after patch request processing.
Sleep ${NETWORK_TIMEOUT}s
Wait For Host To Ping ${OPENBMC_HOST} ${NETWORK_TIMEOUT}
Verify IP On BMC ${new_ip}
Validate Network Config On BMC
Get IPv4 DHCP Enabled Status
[Documentation] Return IPv4 DHCP enabled status from redfish URI.
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
${resp}= Redfish.Get Attribute ${REDFISH_NW_ETH_IFACE}${ethernet_interface} DHCPv4
Return From Keyword ${resp['DHCPEnabled']}
Get DHCP IP Info
[Documentation] Return DHCP IP address, gateway and subnetmask from redfish URI.
${active_channel_config}= Get Active Channel Config
${ethernet_interface}= Set Variable ${active_channel_config['${CHANNEL_NUMBER}']['name']}
${resp_list}= Redfish.Get Attribute ${REDFISH_NW_ETH_IFACE}${ethernet_interface} IPv4Addresses
FOR ${resp} IN @{resp_list}
Continue For Loop If '${resp['AddressOrigin']}' != 'DHCP'
${ip_addr}= Set Variable ${resp['Address']}
${gateway}= Set Variable ${resp['Gateway']}
${subnetmask}= Set Variable ${resp['SubnetMask']}
Return From Keyword ${ip_addr} ${gateway} ${subnetmask}
END