Mini Shell
#!/usr/bin/env python3
# Copyright (c) 2014 Kontron Europe GmbH
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
from __future__ import print_function
import sys
import getopt
import json
import logging
import traceback
import pprint
from array import array
from collections import namedtuple
import pyipmi
import pyipmi.interfaces
from pyipmi.utils import py3_array_tobytes
json_output = False
Command = namedtuple('Command', 'name fn')
CommandHelp = namedtuple('CommandHelp', 'name arguments help')
def _print(s):
print(s)
def _get_command_function(name):
for cmd in COMMANDS:
if cmd.name == name:
return cmd.fn
return None
def cmd_bmc_info(ipmi, args):
device_id = ipmi.get_device_id()
print('''
Device ID: %(device_id)s
Device Revision: %(revision)s
Firmware Revision: %(fw_revision)s
IPMI Version: %(ipmi_version)s
Manufacturer ID: %(manufacturer_id)d (0x%(manufacturer_id)04x)
Product ID: %(product_id)d (0x%(product_id)04x)
Device Available: %(available)d
Provides SDRs: %(provides_sdrs)d
Additional Device Support:
'''[1:-1] % device_id.__dict__)
functions = (
('SENSOR', 'Sensor Device'),
('SDR_REPOSITORY', 'SDR Repository Device'),
('SEL', 'SEL Device'),
('FRU_INVENTORY', 'FRU Inventory Device'),
('IPMB_EVENT_RECEIVER', 'IPMB Event Receiver'),
('IPMB_EVENT_GENERATOR', 'IPMB Event Generator'),
('BRIDGE', 'Bridge'),
('CHASSIS', 'Chassis Device')
)
for n, s in functions:
if device_id.supports_function(n):
print(' %s' % s)
if device_id.aux is not None:
print('Aux Firmware Rev Info: [{:s}]'.format(
' '.join('%02x' % d for d in device_id.aux)))
def cmd_sel_clear(ipmi, args):
ipmi.clear_sel()
def cmd_sensor_rearm(ipmi, args):
if len(args) < 1:
return
number = int(args[0], 0)
ipmi.rearm_sensor_events(number)
def sdr_show(ipmi, s):
print("SDR record ID: 0x%04x" % s.id)
print("SDR type: 0x%02x" % s.type)
print("Device Id string: %s" % s.device_id_string)
print("Entity: %s.%s" % (s.entity_id, s.entity_instance))
if s.type is pyipmi.sdr.SDR_TYPE_FULL_SENSOR_RECORD:
(raw, states) = ipmi.get_sensor_reading(s.number, s.owner_lun)
value = s.convert_sensor_raw_to_value(raw)
if value is None:
value = "na"
t_unr = s.convert_sensor_raw_to_value(s.threshold['unr'])
t_ucr = s.convert_sensor_raw_to_value(s.threshold['ucr'])
t_unc = s.convert_sensor_raw_to_value(s.threshold['unc'])
t_lnc = s.convert_sensor_raw_to_value(s.threshold['lnc'])
t_lcr = s.convert_sensor_raw_to_value(s.threshold['lcr'])
t_lnr = s.convert_sensor_raw_to_value(s.threshold['lnr'])
print("Reading value: %s" % value)
print("Reading state: 0x%x" % states)
print("UNR: %s" % t_unr)
print("UCR: %s" % t_ucr)
print("UNC: %s" % t_unc)
print("LNC: %s" % t_lnc)
print("LCR: %s" % t_lcr)
print("LNR: %s" % t_lnr)
elif s.type is pyipmi.sdr.SDR_TYPE_COMPACT_SENSOR_RECORD:
(raw, states) = ipmi.get_sensor_reading(s.number)
print("Reading: %s" % raw)
print("Reading state: 0x%x" % states)
def cmd_sdr_show_raw(ipmi, args):
if len(args) != 1:
usage()
return
try:
sdr = ipmi.get_device_sdr(int(args[0], 0))
print(' '.join(['0x%02x' % b for b in sdr.data]))
except ValueError:
print('')
def cmd_sdr_show(ipmi, args):
if len(args) != 1:
usage()
return
try:
s = ipmi.get_device_sdr(int(args[0], 0))
sdr_show(ipmi, s)
except ValueError:
print('')
def cmd_sdr_show_all(ipmi, args):
for s in ipmi.device_sdr_entries():
try:
sdr_show(ipmi, s)
except ValueError:
print('')
print("\n")
def print_sdr_list_entry(record_id, number, id_string, value, states):
if number:
number = str(number)
else:
number = 'na'
if states:
states = hex(states)
else:
states = 'na'
print("0x%04x | %3s | %-18s | %9s | %s" % (record_id, number,
id_string, value, states))
def cmd_sdr_list(ipmi, args):
iter_fct = None
device_id = ipmi.get_device_id()
if device_id.supports_function('sdr_repository'):
iter_fct = ipmi.sdr_repository_entries
elif device_id.supports_function('sensor'):
iter_fct = ipmi.device_sdr_entries
print("SDR-ID | | Device String |")
print("=======|=====|====================|====================")
for s in iter_fct():
try:
number = None
value = None
states = None
if s.type is pyipmi.sdr.SDR_TYPE_FULL_SENSOR_RECORD:
(value, states) = ipmi.get_sensor_reading(s.number)
number = s.number
if value is not None:
value = s.convert_sensor_raw_to_value(value)
elif s.type is pyipmi.sdr.SDR_TYPE_COMPACT_SENSOR_RECORD:
(value, states) = ipmi.get_sensor_reading(s.number)
number = s.number
id_string = getattr(s, 'device_id_string', None)
print_sdr_list_entry(s.id, number, id_string, value, states)
except pyipmi.errors.CompletionCodeError as e:
if s.type in (pyipmi.sdr.SDR_TYPE_COMPACT_SENSOR_RECORD,
pyipmi.sdr.SDR_TYPE_FULL_SENSOR_RECORD):
print('0x{:04x} | {:3d} | {:18s} | ERR: CC=0x{:02x}'.format(
s.id,
s.number,
s.device_id_string,
e.cc))
def cmd_fru_print(ipmi, args):
fru_id = 0
print_all = False
if len(args) > 0:
fru_id = int(args[0])
if len(args) > 1 and args[1] == 'all':
print_all = True
inv = ipmi.get_fru_inventory(fru_id)
# Chassis Info Area
area = inv.chassis_info_area
if area:
print('''
Chassis Info Area:
Type: %(type)d
Part Number: %(part_number)s
Serial Number: %(serial_number)s
'''[1:-1] % area.__dict__)
if len(area.custom_chassis_info) != 0:
print(' Custom Chassis Info Records:')
for field in area.custom_chassis_info:
print(' %s' % field)
# Board Info Area
area = inv.board_info_area
if area:
print('''
Board Info Area:
Mfg. Date / Time: %(mfg_date)s
Manufacturer: %(manufacturer)s
Product Name: %(product_name)s
Serial Number: %(serial_number)s
Part Number: %(part_number)s
FRU File ID: %(fru_file_id)s
'''[1:-1] % area.__dict__)
if len(area.custom_mfg_info) != 0:
print(' Custom Board Info Records:')
for field in area.custom_mfg_info:
print(' %s' % field)
# Product Info Area
area = inv.product_info_area
if area:
print('''
Product Info Area:
Manufacturer: %(manufacturer)s
Name: %(name)s
Part/Model Number: %(part_number)s
Version: %(version)s
Serial Number: %(serial_number)s
Asset: %(asset_tag)s
FRU File ID: %(fru_file_id)s
'''[1:-1] % area.__dict__)
if len(area.custom_mfg_info) != 0:
print(' Custom Board Info Records:')
for field in area.custom_mfg_info:
print(' %s' % field)
# Multirecords
area = inv.multirecord_area
if area:
print('Multirecord Area:')
if print_all:
for record in area.records:
print(' %s' % record)
else:
print(' Skipped. Use "print <fruid> all"')
def cmd_raw(ipmi, args):
lun = 0
if len(args) > 1 and args[0] == 'lun':
lun = int(args[1], 0)
args = args[2:]
if len(args) < 2:
usage()
return
netfn = int(args[0], 0)
raw_bytes = array('B', [int(d, 0) for d in args[1:]])
rsp = ipmi.raw_command(lun, netfn, py3_array_tobytes(raw_bytes))
print(' '.join('%02x' % d for d in array('B', rsp)))
def cmd_hpm_capabilities(ipmi, args):
cap = ipmi.get_target_upgrade_capabilities()
for c in cap.components:
properties = ipmi.get_component_properties(c)
print("Component ID: %d" % c)
for prop in properties:
print(" %s" % prop)
def cmd_hpm_check_file(ipmi, args):
if len(args) < 1:
return
cap = ipmi.open_upgrade_image(args[0])
print(cap.header)
for action in cap.actions:
print(action)
def cmd_hpm_install(ipmi, args):
if len(args) < 2:
print('missing argument')
return
ipmi.install_component_from_file(args[0], int(args[1]))
def cmd_chassis_status(ipmi, args):
status = ipmi.get_chassis_status()
if json_output:
status = {
'power_on': status.power_on,
'overload': status.overload,
'interlock': status.interlock,
'fault': status.fault,
'ctrl_fault': status.control_fault,
'restore_policy': status.restore_policy
}
print(json.dumps(status))
pass
else:
print('''
Power ON: %(power_on)s
Overload: %(overload)s
Interlock: %(interlock)s
Fault: %(fault)s
Ctrl Fault: %(control_fault)s
Restore Policy: %(restore_policy)s
'''[1:-1] % status.__dict__)
for event in status.last_event:
print(event)
for state in status.chassis_state:
print(state)
def cmd_picmg_get_power(ipmi, args):
pwr = ipmi.get_power_level(0, 0)
print(pwr)
def print_link_state(p, s):
intf_str = pyipmi.picmg.LinkDescriptor().get_interface_string(p.interface)
link_str = pyipmi.picmg.LinkDescriptor().get_link_type_string(
p.type, p.extension, p.sig_class)
print('CH=%02d INTF=%d FLAGS=0x%x TYPE=%d SIG=%d EXT=%d STATE=%d (%s/%s)'
% (p.channel, p.interface, p.link_flags, p.type, p.sig_class,
p.extension, s, intf_str, link_str))
def cmd_picmg_get_portstate_all(ipmi, args):
for interface in range(3):
for channel in range(16):
try:
(p, s) = ipmi.get_port_state(channel, interface)
print_link_state(p, s)
except pyipmi.errors.CompletionCodeError as e:
if e.cc == 0xcc:
continue
def cmd_picmg_get_portstate(ipmi, args):
if len(args) < 2:
return
channel = int(args[0])
interface = int(args[1])
(p, s) = ipmi.get_port_state(channel, interface)
print_link_state(p, s)
def cmd_picmg_getpower_channel_status(ipmi, args):
ret = ipmi.get_power_channel_status(int(args[0]))
pprint.pprint(vars(ret))
def cmd_picmg_frucontrol_cold_reset(ipmi, args):
ipmi.fru_control_cold_reset(0)
def cmd_picmg_send_pm_heartbeat(ipmi, args):
ipmi.send_pm_heartbeat()
def cmd_picmg_send_channel_power(ipmi, args):
ipmi.send_channel_power(int(args[0]))
def usage(toplevel=False):
commands = []
maxlen = 0
if toplevel:
argv = []
else:
argv = sys.argv[1:]
# (1) try to find help for commands on exactly one level above
for cmd in COMMAND_HELP:
subcommands = cmd.name.split(' ')
if (len(subcommands) == len(argv) + 1
and subcommands[:len(argv)] == argv):
commands.append(cmd)
if cmd.arguments:
maxlen = max(maxlen, len(cmd.name)+len(cmd.arguments)+1)
else:
maxlen = max(maxlen, len(cmd.name))
# (2) if nothing found, try to find help on any level above
if maxlen == 0:
for cmd in COMMAND_HELP:
subcommands = cmd.name.split(' ')
if (len(subcommands) > len(argv) + 1
and subcommands[:len(argv)] == argv):
commands.append(cmd)
if cmd.arguments:
maxlen = max(maxlen, len(cmd.name)+len(cmd.arguments)+1)
else:
maxlen = max(maxlen, len(cmd.name))
# (3) find help on same level
if maxlen == 0:
for cmd in COMMAND_HELP:
subcommands = cmd.name.split(' ')
if (len(subcommands) == len(argv)
and subcommands[:len(argv)] == argv):
commands.append(cmd)
if cmd.arguments:
maxlen = max(maxlen, len(cmd.name)+len(cmd.arguments)+1)
else:
maxlen = max(maxlen, len(cmd.name))
# if still nothing found, print toplevel usage
if maxlen == 0:
usage(toplevel=True)
return
if len(argv) == 0:
version()
print('usage: ipmitool [options...] <command>')
print('''
Options:
-t <addr> Set target IPMB address
-b <channel> Set target channel
-r <rtr> Set target routing (not supported atm)
-h Show this help
-v Be verbose
-V Print version
-I <interface> Set interface (available: rmcp, aardvark, ipmitool, ipmbdev)
-H <host> Set RMCP host
-U <user> Set RMCP user
-L <level> Set RMCP priviledge level
-P <password> Set RMCP password
-o <options> Set interface specific options (name=value, separated
by commas, see below for available options).
'''[1:])
print('''
Aardvark interface options:
serial=<SN> Serial number of the device
pullups=<on|off> Enable/disable pullups
power=<on|off> Enable/disable target power
fastmode=<on|off> Enable/disable 400kHz I2C bitrate (Default 100kHz)
Ipmitool interface options:
interface_type Set the interface type to be used (lan, lanplus, serial, open)
Ipmbdev interface options:
port=<path> Specify path to Linux IPMB device (/dev/ipmb-0 by default)
'''[1:])
print('Commands:')
for cmd in commands:
name = cmd.name
if cmd.arguments:
name = '%s %s' % (name, cmd.arguments)
print(' %-*s %s' % (maxlen, name, cmd.help))
def version():
print('ipmitool v%s' % pyipmi.__version__)
def parse_interface_options(interface_name, options):
if options:
options = options.split(',')
interface_options = {}
for option in options:
(name, value) = option.split('=', 1)
if interface_name == 'aardvark':
if name == 'serial':
interface_options['serial_number'] = value
elif (name, value) == ('pullups', 'on'):
interface_options['enable_i2c_pullups'] = True
elif (name, value) == ('pullups', 'off'):
interface_options['enable_i2c_pullups'] = False
elif (name, value) == ('power', 'on'):
interface_options['enable_target_power'] = True
elif (name, value) == ('power', 'off'):
interface_options['enable_target_power'] = False
elif (name, value) == ('fastmode', 'on'):
interface_options['enable_fastmode'] = True
elif (name, value) == ('fastmode', 'off'):
interface_options['enable_fastmode'] = False
else:
print('Warning: unknown option %s' % name)
elif interface_name == 'ipmitool':
if name == 'interface_type':
interface_options['interface_type'] = value
else:
print('Warning: unknown option %s' % name)
elif interface_name == 'ipmbdev':
if name == 'port':
interface_options['port'] = value
return interface_options
def main():
try:
opts, args = getopt.getopt(sys.argv[1:], 't:hvVI:H:U:P:L:o:b:p:r:J')
except getopt.GetoptError as err:
print(str(err))
usage()
sys.exit(2)
verbose = False
interface_name = 'aardvark'
target_address = 0x20
target_routing = None
rmcp_host = None
rmcp_port = 623
rmcp_user = ''
rmcp_password = ''
rmcp_priv_level = None
interface_options = list()
for o, a in opts:
if o == '-v':
verbose = True
elif o == '-h':
usage()
sys.exit()
elif o == '-V':
version()
sys.exit()
elif o == '-t':
target_address = int(a, 0)
elif o == '-b':
target_routing = [(0x20, int(a), 0)]
elif o == '-r':
target_routing = a
elif o == '-H':
rmcp_host = a
elif o == '-p':
rmcp_port = int(a, 0)
elif o == '-U':
rmcp_user = a
elif o == '-P':
rmcp_password = a
elif o == '-L':
rmcp_priv_level = a
elif o == '-I':
interface_name = a
elif o == '-o':
interface_options = a
elif o == '-J':
global json_output
json_output = True
else:
assert False, 'unhandled option'
# fake sys.argv
sys.argv = [sys.argv[0]] + args
if len(args) == 0:
usage()
sys.exit(1)
handler = logging.StreamHandler()
if verbose:
handler.setLevel(logging.DEBUG)
else:
handler.setLevel(logging.INFO)
pyipmi.logger.add_log_handler(handler)
pyipmi.logger.set_log_level(logging.DEBUG)
for i in range(len(args)):
cmd = _get_command_function(' '.join(args[0:i+1]))
if cmd is not None:
args = args[i+1:]
break
else:
usage()
sys.exit(1)
interface_options = parse_interface_options(interface_name,
interface_options)
try:
interface = pyipmi.interfaces.create_interface(interface_name,
**interface_options)
except RuntimeError as e:
print(e)
sys.exit(1)
ipmi = pyipmi.create_connection(interface)
ipmi.target = pyipmi.Target(target_address)
if target_routing is not None:
ipmi.target.set_routing(target_routing)
if rmcp_host is not None:
ipmi.session.set_session_type_rmcp(rmcp_host, rmcp_port)
ipmi.session.set_auth_type_user(rmcp_user, rmcp_password)
if rmcp_priv_level is not None:
ipmi.session.set_priv_level(rmcp_priv_level)
ipmi.session.establish()
try:
cmd(ipmi, args)
except pyipmi.errors.CompletionCodeError as e:
print('Command returned with completion code 0x%02x' % e.cc)
if verbose:
traceback.print_exc()
sys.exit(1)
except pyipmi.errors.IpmiTimeoutError:
print('Command timed out')
if verbose:
traceback.print_exc()
sys.exit(1)
except KeyboardInterrupt:
if verbose:
traceback.print_exc()
sys.exit(1)
finally:
if rmcp_host is not None:
ipmi.session.close()
COMMANDS = (
Command('bmc info', cmd_bmc_info),
Command('bmc reset cold', lambda i, a: i.cold_reset()),
Command('bmc reset warm', lambda i, a: i.warm_reset()),
Command('sel list', lambda i, a: list(map(_print, i.sel_entries()))),
Command('sel clear', cmd_sel_clear),
Command('sensor rearm', cmd_sensor_rearm),
Command('sdr list', cmd_sdr_list),
Command('sdr raw', cmd_sdr_show_raw),
Command('sdr show', cmd_sdr_show),
Command('sdr showall', cmd_sdr_show_all),
Command('fru print', cmd_fru_print),
Command('picmg frucontrol cr', cmd_picmg_frucontrol_cold_reset),
Command('picmg power get', cmd_picmg_get_power),
Command('picmg portstate get', cmd_picmg_get_portstate),
Command('picmg portstate getall', cmd_picmg_get_portstate_all),
Command('picmg channel status', cmd_picmg_getpower_channel_status),
Command('picmg send heartbeat', cmd_picmg_send_pm_heartbeat),
Command('picmg channel power', cmd_picmg_send_channel_power),
Command('raw', cmd_raw),
Command('hpm capabilities', cmd_hpm_capabilities),
Command('hpm check', cmd_hpm_check_file),
Command('hpm install', cmd_hpm_install),
Command('chassis status', cmd_chassis_status),
Command('chassis power off',
lambda i, a: i.chassis_control_power_down()),
Command('chassis power on',
lambda i, a: i.chassis_control_power_up()),
Command('chassis power cycle',
lambda i, a: i.chassis_control_power_cycle()),
Command('chassis power reset',
lambda i, a: i.chassis_control_hard_reset()),
Command('chassis power diag',
lambda i, a: i.chassis_control_power_diagnostic_interrupt()),
Command('chassis power soft',
lambda i, a: i.chassis_control_power_soft_shutdown()),
)
COMMAND_HELP = (
CommandHelp('raw', None, 'Send a RAW IPMI request and print response'),
CommandHelp('fru', None,
'Print built-in FRU and scan SDR for FRU locators'),
CommandHelp('sensor', None, None),
CommandHelp('sensor rearm', '<sensor-numer>', 'Rearm Sensor Events'),
CommandHelp('sel', None, 'Print System Event Log (SEL)'),
CommandHelp('sel list', None, 'List all SEL entries'),
CommandHelp('sel clear', None, 'Clear SEL'),
CommandHelp('sdr', None,
'Print Sensor Data Repository entries and readings'),
CommandHelp('sdr list', None, 'List all SDRs'),
CommandHelp('sdr raw', '<sdr-id>', 'Show SDR raw data'),
CommandHelp('sdr show', '<sdr-id>', 'Show detail for one SDR'),
CommandHelp('sdr showall', None, 'Show detail for all SDRs'),
CommandHelp('bmc', None,
'Management Controller status and global enables'),
CommandHelp('bmc info', None, 'BMC Device ID inforamtion'),
CommandHelp('bmc reset', '<cold|warm>', 'BMC reset control'),
CommandHelp('picmg', None, 'PICMG commands'),
CommandHelp('picmg frucontrol', '<cr>', 'Issue frucontrol'),
CommandHelp('picmg power get', 'get PICMG power level',
'Request the power level'),
CommandHelp('picmg portstate getall', '',
'Request all portstates for all interfaces'),
CommandHelp('picmg portstate get', '<channel> <interface>',
'Request the portstate for an interface'),
CommandHelp('hpm', None, 'HPM.1 commands'),
CommandHelp('hpm capabilities', 'HPM.1 target upgrade capabilities',
'Request the target upgrade capabilities'),
CommandHelp('hpm check', 'HPM.1 file check',
'Check the specified HPM.1 file'),
CommandHelp('hpm install', '<file> <component id>',
'Install the specified HPM.1 file to the controller'),
CommandHelp('chassis', None, 'Get chassis status and set power state'),
CommandHelp('chassis status', '', 'Get chassis status'),
CommandHelp('chassis power', '<on|off|cycle|reset|diag|soft>',
'Set power state')
)
if __name__ == '__main__':
main()
Zerion Mini Shell 1.0