#!/usr/bin/env python3 r""" Provide useful ipmi functions. """ from robot.libraries.BuiltIn import BuiltIn import re import gen_print as gp import gen_misc as gm import gen_cmd as gc import gen_robot_keyword as grk import gen_robot_utils as gru import bmc_ssh_utils as bsu import var_funcs as vf import ipmi_client as ic import tempfile import json gru.my_import_resource("ipmi_client.robot") def get_sol_info(): r""" Get all SOL info and return it as a dictionary. Example use: Robot code: ${sol_info}= get_sol_info Rpvars sol_info Output: sol_info: sol_info[Info]: SOL parameter 'Payload Channel (7)' not supported - defaulting to 0x0e sol_info[Character Send Threshold]: 1 sol_info[Force Authentication]: true sol_info[Privilege Level]: USER sol_info[Set in progress]: set-complete sol_info[Retry Interval (ms)]: 100 sol_info[Non-Volatile Bit Rate (kbps)]: IPMI-Over-Serial-Setting sol_info[Character Accumulate Level (ms)]: 100 sol_info[Enabled]: true sol_info[Volatile Bit Rate (kbps)]: IPMI-Over-Serial-Setting sol_info[Payload Channel]: 14 (0x0e) sol_info[Payload Port]: 623 sol_info[Force Encryption]: true sol_info[Retry Count]: 7 """ status, ret_values = grk.run_key_u("Run IPMI Standard Command sol info") # Create temp file path. temp = tempfile.NamedTemporaryFile() temp_file_path = temp.name # Write sol info to temp file path. text_file = open(temp_file_path, "w") text_file.write(ret_values) text_file.close() # Use my_parm_file to interpret data. sol_info = gm.my_parm_file(temp_file_path) return sol_info def set_sol_setting(setting_name, setting_value): r""" Set SOL setting with given value. # Description of argument(s): # setting_name SOL setting which needs to be set (e.g. # "retry-count"). # setting_value Value which needs to be set (e.g. "7"). """ status, ret_values = grk.run_key_u("Run IPMI Standard Command sol set " + setting_name + " " + setting_value) return status def execute_ipmi_cmd(cmd_string, ipmi_cmd_type='inband', print_output=1, ignore_err=0, **options): r""" Run the given command string as an IPMI command and return the stdout, stderr and the return code. Description of argument(s): cmd_string The command string to be run as an IPMI command. ipmi_cmd_type 'inband' or 'external'. print_output If this is set, this function will print the stdout/stderr generated by the IPMI command. ignore_err Ignore error means that a failure encountered by running the command string will not be raised as a python exception. options These are passed directly to the create_ipmi_ext_command_string function. See that function's prolog for details. """ if ipmi_cmd_type == 'inband': IPMI_INBAND_CMD = BuiltIn().get_variable_value("${IPMI_INBAND_CMD}") cmd_buf = IPMI_INBAND_CMD + " " + cmd_string return bsu.os_execute_command(cmd_buf, print_out=print_output, ignore_err=ignore_err) if ipmi_cmd_type == 'external': cmd_buf = ic.create_ipmi_ext_command_string(cmd_string, **options) rc, stdout, stderr = gc.shell_cmd(cmd_buf, print_output=print_output, ignore_err=ignore_err, return_stderr=1) return stdout, stderr, rc def get_lan_print_dict(channel_number='', ipmi_cmd_type='external'): r""" Get IPMI 'lan print' output and return it as a dictionary. Here is an example of the IPMI lan print output: Set in Progress : Set Complete Auth Type Support : MD5 Auth Type Enable : Callback : MD5 : User : MD5 : Operator : MD5 : Admin : MD5 : OEM : MD5 IP Address Source : Static Address IP Address : x.x.x.x Subnet Mask : x.x.x.x MAC Address : xx:xx:xx:xx:xx:xx Default Gateway IP : x.x.x.x 802.1q VLAN ID : Disabled Cipher Suite Priv Max : Not Available Bad Password Threshold : Not Available Given that data, this function will return the following dictionary. lan_print_dict: [Set in Progress]: Set Complete [Auth Type Support]: MD5 [Auth Type Enable]: [Callback]: MD5 [User]: MD5 [Operator]: MD5 [Admin]: MD5 [OEM]: MD5 [IP Address Source]: Static Address [IP Address]: x.x.x.x [Subnet Mask]: x.x.x.x [MAC Address]: xx:xx:xx:xx:xx:xx [Default Gateway IP]: x.x.x.x [802.1q VLAN ID]: Disabled [Cipher Suite Priv Max]: Not Available [Bad Password Threshold]: Not Available Description of argument(s): ipmi_cmd_type The type of ipmi command to use (e.g. 'inband', 'external'). """ channel_number = str(channel_number) # Notice in the example of data above that 'Auth Type Enable' needs some # special processing. We essentially want to isolate its data and remove # the 'Auth Type Enable' string so that key_value_outbuf_to_dict can # process it as a sub-dictionary. cmd_buf = "lan print " + channel_number + " | grep -E '^(Auth Type Enable)" +\ "?[ ]+: ' | sed -re 's/^(Auth Type Enable)?[ ]+: //g'" stdout1, stderr, rc = execute_ipmi_cmd(cmd_buf, ipmi_cmd_type, print_output=0) # Now get the remainder of the data and exclude the lines with no field # names (i.e. the 'Auth Type Enable' sub-fields). cmd_buf = "lan print " + channel_number + " | grep -E -v '^[ ]+: '" stdout2, stderr, rc = execute_ipmi_cmd(cmd_buf, ipmi_cmd_type, print_output=0) # Make auth_type_enable_dict sub-dictionary... auth_type_enable_dict = vf.key_value_outbuf_to_dict(stdout1, to_lower=0, underscores=0) # Create the lan_print_dict... lan_print_dict = vf.key_value_outbuf_to_dict(stdout2, to_lower=0, underscores=0) # Re-assign 'Auth Type Enable' to contain the auth_type_enable_dict. lan_print_dict['Auth Type Enable'] = auth_type_enable_dict return lan_print_dict def get_ipmi_power_reading(strip_watts=1): r""" Get IPMI power reading data and return it as a dictionary. The data is obtained by issuing the IPMI "power reading" command. An example is shown below: Instantaneous power reading: 234 Watts Minimum during sampling period: 234 Watts Maximum during sampling period: 234 Watts Average power reading over sample period: 234 Watts IPMI timestamp: Thu Jan 1 00:00:00 1970 Sampling period: 00000000 Seconds. Power reading state is: deactivated For the data shown above, the following dictionary will be returned. result: [instantaneous_power_reading]: 238 Watts [minimum_during_sampling_period]: 238 Watts [maximum_during_sampling_period]: 238 Watts [average_power_reading_over_sample_period]: 238 Watts [ipmi_timestamp]: Thu Jan 1 00:00:00 1970 [sampling_period]: 00000000 Seconds. [power_reading_state_is]: deactivated Description of argument(s): strip_watts Strip all dictionary values of the trailing " Watts" substring. """ status, ret_values = \ grk.run_key_u("Run IPMI Standard Command dcmi power reading") result = vf.key_value_outbuf_to_dict(ret_values) if strip_watts: result.update((k, re.sub(' Watts$', '', v)) for k, v in result.items()) return result def get_mc_info(): r""" Get IPMI mc info data and return it as a dictionary. The data is obtained by issuing the IPMI "mc info" command. An example is shown below: Device ID : 0 Device Revision : 0 Firmware Revision : 2.01 IPMI Version : 2.0 Manufacturer ID : 42817 Manufacturer Name : Unknown (0xA741) Product ID : 16975 (0x424f) Product Name : Unknown (0x424F) Device Available : yes Provides Device SDRs : yes Additional Device Support : Sensor Device SEL Device FRU Inventory Device Chassis Device Aux Firmware Rev Info : 0x00 0x00 0x00 0x00 For the data shown above, the following dictionary will be returned. mc_info: [device_id]: 0 [device_revision]: 0 [firmware_revision]: 2.01 [ipmi_version]: 2.0 [manufacturer_id]: 42817 [manufacturer_name]: Unknown (0xA741) [product_id]: 16975 (0x424f) [product_name]: Unknown (0x424F) [device_available]: yes [provides_device_sdrs]: yes [additional_device_support]: [additional_device_support][0]: Sensor Device [additional_device_support][1]: SEL Device [additional_device_support][2]: FRU Inventory Device [additional_device_support][3]: Chassis Device [aux_firmware_rev_info]: [aux_firmware_rev_info][0]: 0x00 [aux_firmware_rev_info][1]: 0x00 [aux_firmware_rev_info][2]: 0x00 [aux_firmware_rev_info][3]: 0x00 """ status, ret_values = \ grk.run_key_u("Run IPMI Standard Command mc info") result = vf.key_value_outbuf_to_dict(ret_values, process_indent=1) return result def get_sdr_info(): r""" Get IPMI sdr info data and return it as a dictionary. The data is obtained by issuing the IPMI "sdr info" command. An example is shown below: SDR Version : 0x51 Record Count : 216 Free Space : unspecified Most recent Addition : Most recent Erase : SDR overflow : no SDR Repository Update Support : unspecified Delete SDR supported : no Partial Add SDR supported : no Reserve SDR repository supported : no SDR Repository Alloc info supported : no For the data shown above, the following dictionary will be returned. mc_info: [sdr_version]: 0x51 [record_Count]: 216 [free_space]: unspecified [most_recent_addition]: [most_recent_erase]: [sdr_overflow]: no [sdr_repository_update_support]: unspecified [delete_sdr_supported]: no [partial_add_sdr_supported]: no [reserve_sdr_repository_supported]: no [sdr_repository_alloc_info_supported]: no """ status, ret_values = \ grk.run_key_u("Run IPMI Standard Command sdr info") result = vf.key_value_outbuf_to_dict(ret_values, process_indent=1) return result def get_aux_version(version_id): r""" Get IPMI Aux version info data and return it. Description of argument(s): version_id The data is obtained by from BMC /etc/os-release (e.g. "xxx-v2.1-438-g0030304-r3-gfea8585"). In the prior example, the 3rd field is "438" is the commit version and the 5th field is "r3" and value "3" is the release version. Aux version return from this function 4380003. """ # Commit version. count = re.findall("-(\\d{1,4})-", version_id) # Release version. release = re.findall("-r(\\d{1,4})", version_id) if release: aux_version = count[0] + "{0:0>4}".format(release[0]) else: aux_version = count[0] + "0000" return aux_version def get_fru_info(): r""" Get fru info and return it as a list of dictionaries. The data is obtained by issuing the IPMI "fru print -N 50" command. An example is shown below: FRU Device Description : Builtin FRU Device (ID 0) Device not present (Unspecified error) FRU Device Description : cpu0 (ID 1) Board Mfg Date : Sun Dec 31 18:00:00 1995 Board Mfg : Board Product : PROCESSOR MODULE Board Serial : YA1934315964 Board Part Number : 02CY209 FRU Device Description : cpu1 (ID 2) Board Mfg Date : Sun Dec 31 18:00:00 1995 Board Mfg : Board Product : PROCESSOR MODULE Board Serial : YA1934315965 Board Part Number : 02CY209 For the data shown above, the following list of dictionaries will be returned. fru_obj: fru_obj[0]: [fru_device_description]: Builtin FRU Device (ID 0) [state]: Device not present (Unspecified error) fru_obj[1]: [fru_device_description]: cpu0 (ID 1) [board_mfg_date]: Sun Dec 31 18:00:00 1995 [board_mfg]: [board_product]: PROCESSOR MODULE [board_serial]: YA1934315964 [board_part_number]: 02CY209 fru_obj[2]: [fru_device_description]: cpu1 (ID 2) [board_mfg_date]: Sun Dec 31 18:00:00 1995 [board_mfg]: [board_product]: PROCESSOR MODULE [board_serial]: YA1934315965 [board_part_number]: 02CY209 """ status, ret_values = \ grk.run_key_u("Run IPMI Standard Command fru print -N 50") # Manipulate the "Device not present" line to create a "state" key. ret_values = re.sub("Device not present", "state : Device not present", ret_values) return [vf.key_value_outbuf_to_dict(x) for x in re.split("\n\n", ret_values)] def get_component_fru_info(component='cpu', fru_objs=None): r""" Get fru info for the given component and return it as a list of dictionaries. This function calls upon get_fru_info and then filters out the unwanted entries. See get_fru_info's prolog for a layout of the data. Description of argument(s): component The component (e.g. "cpu", "dimm", etc.). fru_objs A fru_objs list such as the one returned by get_fru_info. If this is None, then this function will call get_fru_info to obtain such a list. Supplying this argument may improve performance if this function is to be called multiple times. """ if fru_objs is None: fru_objs = get_fru_info() return\ [x for x in fru_objs if re.match(component + '([0-9]+)? ', x['fru_device_description'])] def get_user_info(userid, channel_number=1): r""" Get user info using channel command and return it as a dictionary. Description of argument(s): userid The userid (e.g. "1", "2", etc.). channel_number The user's channel number (e.g. "1"). Note: If userid is blank, this function will return a list of dictionaries. Each list entry represents one userid record. The data is obtained by issuing the IPMI "channel getaccess" command. An example is shown below for user id 1 and channel number 1. Maximum User IDs : 15 Enabled User IDs : 1 User ID : 1 User Name : root Fixed Name : No Access Available : callback Link Authentication : enabled IPMI Messaging : enabled Privilege Level : ADMINISTRATOR Enable Status : enabled For the data shown above, the following dictionary will be returned. user_info: [maximum_userids]: 15 [enabled_userids: 1 [userid] 1 [user_name] root [fixed_name] No [access_available] callback [link_authentication] enabled [ipmi_messaging] enabled [privilege_level] ADMINISTRATOR [enable_status] enabled """ status, ret_values = grk.run_key_u("Run IPMI Standard Command channel getaccess " + str(channel_number) + " " + str(userid)) if userid == "": return vf.key_value_outbuf_to_dicts(ret_values, process_indent=1) else: return vf.key_value_outbuf_to_dict(ret_values, process_indent=1) def channel_getciphers_ipmi(): r""" Run 'channel getciphers ipmi' command and return the result as a list of dictionaries. Example robot code: ${ipmi_channel_ciphers}= Channel Getciphers IPMI Rprint Vars ipmi_channel_ciphers Example output: ipmi_channel_ciphers: [0]: [id]: 3 [iana]: N/A [auth_alg]: hmac_sha1 [integrity_alg]: hmac_sha1_96 [confidentiality_alg]: aes_cbc_128 [1]: [id]: 17 [iana]: N/A [auth_alg]: hmac_sha256 [integrity_alg]: sha256_128 [confidentiality_alg]: aes_cbc_128 """ cmd_buf = "channel getciphers ipmi | sed -re 's/ Alg/_Alg/g'" stdout, stderr, rc = execute_ipmi_cmd(cmd_buf, "external", print_output=0) return vf.outbuf_to_report(stdout) def get_device_id_config(): r""" Get the device id config data and return as a dictionary. Example: dev_id_config = get_device_id_config() print_vars(dev_id_config) dev_id_config: [manuf_id]: 7244 [addn_dev_support]: 141 [prod_id]: 16976 [aux]: 0 [id]: 32 [revision]: 129 [device_revision]: 1 """ stdout, stderr, rc = bsu.bmc_execute_command("cat /usr/share/ipmi-providers/dev_id.json") result = json.loads(stdout) # Create device revision field for the user. # Reference IPMI specification v2.0 "Get Device ID Command" # [7] 1 = device provides Device SDRs # 0 = device does not provide Device SDRs # [6:4] reserved. Return as 0. # [3:0] Device Revision, binary encoded. result['device_revision'] = result['revision'] & 0x0F return result def get_chassis_status(): r""" Get IPMI chassis status data and return it as a dictionary. The data is obtained by issuing the IPMI "chassis status" command. An example is shown below: System Power : off Power Overload : false Power Interlock : inactive Main Power Fault : false Power Control Fault : false Power Restore Policy : previous Last Power Event : Chassis Intrusion : inactive Front-Panel Lockout : inactive Drive Fault : false Cooling/Fan Fault : false Sleep Button Disable : not allowed Diag Button Disable : not allowed Reset Button Disable : not allowed Power Button Disable : allowed Sleep Button Disabled : false Diag Button Disabled : false Reset Button Disabled : false Power Button Disabled : false For the data shown above, the following dictionary will be returned. chassis_status: [system_power]: off [power_overload]: false [power_interlock]: inactive [main_power_fault]: false [power_control_fault]: false [power_restore_policy]: previous [last_power_event]: [chassis_intrusion]: inactive [front-panel_lockout]: inactive [drive_fault]: false [cooling/fan_fault]: false [sleep_button_disable]: not allowed [diag_button_disable]: not allowed [reset_button_disable]: not allowed [power_button_disable]: allowed [sleep_button_disabled]: false [diag_button_disabled]: false [reset_button_disabled]: false [power_button_disabled]: false """ status, ret_values = \ grk.run_key_u("Run IPMI Standard Command chassis status") result = vf.key_value_outbuf_to_dict(ret_values, process_indent=1) return result def get_channel_info(channel_number=1): r""" Get the channel info and return as a dictionary. Example: channel_info: [channel_0x2_info]: [channel_medium_type]: 802.3 LAN [channel_protocol_type]: IPMB-1.0 [session_support]: multi-session [active_session_count]: 0 [protocol_vendor_id]: 7154 [volatile(active)_settings]: [alerting]: enabled [per-message_auth]: enabled [user_level_auth]: enabled [access_mode]: always available [non-volatile_settings]: [alerting]: enabled [per-message_auth]: enabled [user_level_auth]: enabled [access_mode]: always available """ status, ret_values = \ grk.run_key_u("Run IPMI Standard Command channel info " + str(channel_number)) key_var_list = list(filter(None, ret_values.split("\n"))) # To match the dict format, add a colon after 'Volatile(active) Settings' and 'Non-Volatile Settings' # respectively. key_var_list[6] = 'Volatile(active) Settings:' key_var_list[11] = 'Non-Volatile Settings:' result = vf.key_value_list_to_dict(key_var_list, process_indent=1) return result def get_user_access_ipmi(channel_number=1): r""" Run 'user list []' command and return the result as a list of dictionaries. Example robot code: ${users_access}= user list 1 Rprint Vars users_access Example output: users: [0]: [id]: 1 [name]: root [callin]: false [link]: true [auth]: true [ipmi]: ADMINISTRATOR [1]: [id]: 2 [name]: axzIDwnz [callin]: true [link]: false [auth]: true [ipmi]: ADMINISTRATOR """ cmd_buf = "user list " + str(channel_number) stdout, stderr, rc = execute_ipmi_cmd(cmd_buf, "external", print_output=0) return vf.outbuf_to_report(stdout) def get_channel_auth_capabilities(channel_number=1, privilege_level=4): r""" Get the channel authentication capabilities and return as a dictionary. Example: channel_auth_cap: [channel_number]: 2 [ipmi_v1.5__auth_types]: [kg_status]: default (all zeroes) [per_message_authentication]: enabled [user_level_authentication]: enabled [non-null_user_names_exist]: yes [null_user_names_exist]: no [anonymous_login_enabled]: no [channel_supports_ipmi_v1.5]: no [channel_supports_ipmi_v2.0]: yes """ status, ret_values = \ grk.run_key_u("Run IPMI Standard Command channel authcap " + str(channel_number) + " " + str(privilege_level)) result = vf.key_value_outbuf_to_dict(ret_values, process_indent=1) return result def fetch_date(date): r""" Removes prefix 0 in a date in given date Example : 08/12/2021 then returns 8/12/2021 """ date = date.lstrip("0") return date def fetch_added_sel_date(entry): r""" Split sel entry string with with | and join only the date with space Example : If entry given is, "a | 02/14/2020 | 01:16:58 | Sensor_type #0x17 | | Asserted" Then the result will be "02/14/2020 01:16:58" """ temp = entry.split(" | ") date = temp[1] + " " + temp[2] print(date) return date def prefix_bytes(listx): r""" prefixes byte strings in list Example: ${listx} = ['01', '02', '03'] ${listx}= Prefix Bytes ${listx} then, ${listx}= ['0x01', '0x02', '0x03'] """ listy = [] for item in listx: item = "0x" + item listy.append(item) return listy def modify_and_fetch_threshold(old_threshold, threshold_list): r""" Description of argument(s): old_threshold List of threshold values of sensor, threshold_list List of higher and lower of critical and non-critical values. i,e [ "lcr", "lnc", "unc", "ucr" ] Gets old threshold values from sensor and threshold levels, then returns the list of new threshold and the dict of threshold levels For example : 1. If old_threshold list is [ 1, 2, 3, 4] then the newthreshold_list will be [ 101, 102, 103, 104 ]. If old_threshold has 'na' the same will be appended to new list, eg: [ 101, 102, 103, 104, 'na']. 2. The newthreshold_list will be zipped to dictionary with threshold_list levels, Example : threshold_dict = { 'lcr': 101, 'lnc': 102, 'unc': 103, 'ucr': 104 } """ # Adding the difference of 100 as less than this value, # may not have greater impact as the sensor considered is a fan sensor. # The set threshold may round off for certain values below 100. n = 100 newthreshold_list = [] for th in old_threshold: th = th.strip() if th == 'na': newthreshold_list.append('na') else: x = int(float(th)) + n newthreshold_list.append(x) n = n + 100 threshold_dict = dict(zip(threshold_list, newthreshold_list)) return newthreshold_list, threshold_dict