def open_ipmi_lan_connection(self, host, target_address, user='', password='',
routing_information=None, port=623, interface_type='ipmitool',
alias=None):
"""Opens a LAN connection to an IPMI shelf manager.
`host` is the IP or hostname of the shelf manager. `target_address` the
IPMI address to which the command should be sent. `user` and `password`
are used to authenticate against the shelf manager.
"""
host = str(host)
target_address = int_any_base(target_address)
user = str(user)
password = str(password)
port = int_any_base(port)
interface = pyipmi.interfaces.create_interface(interface_type, 'lanplus')
ipmi = pyipmi.create_connection(interface)
ipmi.session.set_session_type_rmcp(host, port)
ipmi.session.set_auth_type_user(user, password)
self._info('Opening IPMI connection to %s:%d/%02Xh' % (host,
port, target_address))
ipmi.session.establish()
target = pyipmi.Target(target_address, routing_information)
ipmi.target = target
connection = IpmiConnection(ipmi, target)
self._active_connection = connection
return self._cache.register(connection, alias)
def __new__(cls, *args, **kwargs):
if not cls._instanceAardvark:
cls._instanceAardvark = super(InvokeAadvark,
cls).__new__(cls, *args, **kwargs)
try:
jsonpath = os.path.abspath(
os.path.dirname(__file__).replace('buildingblocks', '') +
r'workthreads/Json/Device.json')
config = json.loads(open(jsonpath).read())
slave = int(config['devices'][0]['slaveaddress'], 16)
port = int(config['devices'][0]['port'], 16)
bridge = int(config['bridge'], 16) # 0x06
target = int(config['target'], 16) # 0x2c
interface = pyipmi.interfaces.create_interface(
'aardvark', slave, port, None)
cls._instanceAardvark._target = Target(target)
connection = pyipmi.create_connection(interface)
connection.target = cls._instanceAardvark._target
connection.target.set_routing([(0, bridge)])
connection.session.establish()
cls._instanceAardvark._connection = connection
cls._instanceAardvark._interface = interface
cls._instanceAardvark._rc = 0
cls._aadVarkMutex = Lock()
except Exception as e:
print(str(e))
return cls._instanceAardvark
def __init__(
self,
host,
user,
password,
bridge=None, #0x06,
target=None, #0x2c,
port=623,
toolname='ipmitool',
interfacetype='lanplus',
delay=1):
self._interfacetype = interfacetype
self._delay = delay
try:
interface = pyipmi.interfaces.create_interface(
toolname, self._interfacetype)
self._target = None
if target is not None:
self._target = Target(target)
connection = pyipmi.create_connection(interface)
connection.target = self._target
if target is not None:
connection.target.set_routing([(0, bridge)])
connection.session.set_session_type_rmcp(host, port)
connection.session.set_auth_type_user(user, password)
connection.session.establish()
self._connection = connection
self._interface = interface
self._rc = 0
except Exception as e:
self._connection = None
print(str(e))
def connect(self, test=False):
"Function creates connection to given device"
try:
interface = pyipmi.interfaces.create_interface(
interface='ipmitool', interface_type='lanplus')
except Exception as ex:
LOGGER.error(f"Error while logging in\n{ex}")
return False
# create connection on that interface
ipmi = pyipmi.create_connection(interface)
ipmi.session.set_session_type_rmcp(host=self.address,
port=int(self.port))
ipmi.session.set_auth_type_user(username=self.credentials.username,
password=self.credentials.password)
ipmi.target = pyipmi.Target(ipmb_address=0x20)
ipmi.session.establish()
try:
ipmi.session.rmcp_ping()
except IpmiTimeoutError:
return False
if test:
return True
self.connected = True
self.interface = interface
self.ipmi = ipmi
return True
def open_ipmi_lan_connection(self, host, target_address, user='', password='',
routing_information=None, port=623, interface_type='ipmitool',
alias=None):
"""Opens a LAN connection to an IPMI shelf manager.
`host` is the IP or hostname of the shelf manager. `target_address` the
IPMI address to which the command should be sent. `user` and `password`
are used to authenticate against the shelf manager.
"""
host = str(host)
target_address = int_any_base(target_address)
user = str(user)
password = str(password)
port = int_any_base(port)
interface = pyipmi.interfaces.create_interface(interface_type)
ipmi = pyipmi.create_connection(interface)
ipmi.session.set_session_type_rmcp(host, port)
ipmi.session.set_auth_type_user(user, password)
self._info('Opening IPMI connection to %s:%d/%02Xh' % (host,
port, target_address))
ipmi.session.establish()
target = pyipmi.Target(target_address, routing_information)
ipmi.target = target
connection = IpmiConnection(ipmi, target)
self._active_connection = connection
return self._cache.register(connection, alias)
def createSession(host, port, user, password):
interface = pyipmi.interfaces.create_interface('rmcp',
slave_address=0x81,
host_target_address=0x20,
keep_alive_interval=0)
ipmi = pyipmi.create_connection(interface)
ipmi.session.set_session_type_rmcp(host, port)
ipmi.session.set_auth_type_user(user, password)
ipmi.session.establish()
ipmi.target = pyipmi.Target(ipmb_address=0x20)
return ipmi
def test_ipmi_send_message_retry_error():
req = GetDeviceIdReq()
rsp = GetDeviceIdRsp()
interface = interfaces.create_interface('mock')
cc = CompletionCodeError(CC_NODE_BUSY)
mock = MagicMock(side_effect=(cc, cc, cc))
mock.return_value = rsp
interface.send_and_receive = mock
ipmi = create_connection(interface)
ipmi.target = None
ipmi.send_message(req)
def test_ipmi_send_message_retry_error():
req = GetDeviceIdReq()
rsp = GetDeviceIdRsp()
interface = interfaces.create_interface('mock')
cc = CompletionCodeError(CC_NODE_BUSY)
mock = MagicMock(side_effect=(cc, cc, cc))
mock.return_value = rsp
interface.send_and_receive = mock
ipmi = create_connection(interface)
ipmi.target = None
ipmi.send_message(req)
def test_set_sensor_thresholds():
rsp = SetSensorThresholdsRsp()
rsp.completion_code = 0
mock_send_recv = MagicMock()
mock_send_recv.return_value = rsp
interface = interfaces.create_interface('mock')
ipmi = create_connection(interface)
ipmi.send_message = mock_send_recv
ipmi.set_sensor_thresholds(sensor_number=5, lun=1)
args, kwargs = mock_send_recv.call_args
req = args[0]
eq_(req.lun, 1)
eq_(req.sensor_number, 5)
ipmi.set_sensor_thresholds(sensor_number=0, unr=10)
args, kwargs = mock_send_recv.call_args
req = args[0]
eq_(req.set_mask.unr, 1)
eq_(req.threshold.unr, 10)
eq_(req.set_mask.ucr, 0)
eq_(req.threshold.ucr, 0)
eq_(req.set_mask.unc, 0)
eq_(req.threshold.unc, 0)
eq_(req.set_mask.lnc, 0)
eq_(req.threshold.lnc, 0)
eq_(req.set_mask.lcr, 0)
eq_(req.threshold.lcr, 0)
eq_(req.set_mask.lnr, 0)
eq_(req.threshold.lnr, 0)
ipmi.set_sensor_thresholds(sensor_number=5, ucr=11)
args, kwargs = mock_send_recv.call_args
req = args[0]
eq_(req.lun, 0)
eq_(req.set_mask.unr, 0)
eq_(req.threshold.unr, 0)
eq_(req.set_mask.ucr, 1)
eq_(req.threshold.ucr, 11)
eq_(req.set_mask.unc, 0)
eq_(req.threshold.unc, 0)
eq_(req.set_mask.lnc, 0)
eq_(req.threshold.lnc, 0)
eq_(req.set_mask.lcr, 0)
eq_(req.threshold.lcr, 0)
eq_(req.set_mask.lnr, 0)
eq_(req.threshold.lnr, 0)
def test_set_sensor_thresholds():
rsp = SetSensorThresholdsRsp()
rsp.completion_code = 0
mock_send_recv = MagicMock()
mock_send_recv.return_value = rsp
interface = interfaces.create_interface('mock')
ipmi = create_connection(interface)
ipmi.send_message = mock_send_recv
ipmi.set_sensor_thresholds(sensor_number=5, lun=1)
args, _ = mock_send_recv.call_args
req = args[0]
eq_(req.lun, 1)
eq_(req.sensor_number, 5)
ipmi.set_sensor_thresholds(sensor_number=0, unr=10)
args, _ = mock_send_recv.call_args
req = args[0]
eq_(req.set_mask.unr, 1)
eq_(req.threshold.unr, 10)
eq_(req.set_mask.ucr, 0)
eq_(req.threshold.ucr, 0)
eq_(req.set_mask.unc, 0)
eq_(req.threshold.unc, 0)
eq_(req.set_mask.lnc, 0)
eq_(req.threshold.lnc, 0)
eq_(req.set_mask.lcr, 0)
eq_(req.threshold.lcr, 0)
eq_(req.set_mask.lnr, 0)
eq_(req.threshold.lnr, 0)
ipmi.set_sensor_thresholds(sensor_number=5, ucr=11)
args, _ = mock_send_recv.call_args
req = args[0]
eq_(req.lun, 0)
eq_(req.set_mask.unr, 0)
eq_(req.threshold.unr, 0)
eq_(req.set_mask.ucr, 1)
eq_(req.threshold.ucr, 11)
eq_(req.set_mask.unc, 0)
eq_(req.threshold.unc, 0)
eq_(req.set_mask.lnc, 0)
eq_(req.threshold.lnc, 0)
eq_(req.set_mask.lcr, 0)
eq_(req.threshold.lcr, 0)
eq_(req.set_mask.lnr, 0)
eq_(req.threshold.lnr, 0)
def test_ipmi_send_message_with_name():
rsp = GetDeviceIdRsp()
rsp.completion_code = 0
mock_send_message = MagicMock()
mock_send_message.return_value = rsp
interface = interfaces.create_interface('mock')
ipmi = create_connection(interface)
ipmi.send_message = mock_send_message
ipmi.send_message_with_name('GetDeviceId')
args, kwargs = mock_send_message.call_args
req = args[0]
ok_(isinstance(req, GetDeviceIdReq))
def test_ipmi_send_message_with_name():
rsp = GetDeviceIdRsp()
rsp.completion_code = 0
mock_send_message = MagicMock()
mock_send_message.return_value = rsp
interface = interfaces.create_interface('mock')
ipmi = create_connection(interface)
ipmi.send_message = mock_send_message
ipmi.send_message_with_name('GetDeviceId')
args, kwargs = mock_send_message.call_args
req = args[0]
ok_(isinstance(req, GetDeviceIdReq))
def test_ipmi_send_message_with_name_and_kwargs():
rsp = GetSensorReadingRsp()
rsp.completion_code = 0
mock_send_message = MagicMock()
mock_send_message.return_value = rsp
interface = interfaces.create_interface('mock')
ipmi = create_connection(interface)
ipmi.send_message = mock_send_message
ipmi.send_message_with_name('GetSensorReading', sensor_number=5, lun=2)
args, kwargs = mock_send_message.call_args
req = args[0]
ok_(isinstance(req, GetSensorReadingReq))
eq_(req.sensor_number, 5)
eq_(req.lun, 2)
def test_ipmi_send_message_with_name_and_kwargs():
rsp = GetSensorReadingRsp()
rsp.completion_code = 0
mock_send_message = MagicMock()
mock_send_message.return_value = rsp
interface = interfaces.create_interface('mock')
ipmi = create_connection(interface)
ipmi.send_message = mock_send_message
ipmi.send_message_with_name('GetSensorReading', sensor_number=5, lun=2)
args, kwargs = mock_send_message.call_args
req = args[0]
ok_(isinstance(req, GetSensorReadingReq))
eq_(req.sensor_number, 5)
eq_(req.lun, 2)
def open_ipmi_aardvark_connection(self,
port_or_serial,
target_address,
slave_address=0x20,
routing_information=None,
alias=None,
enable_i2c_pullups=True):
"""Opens an Aardvark connection to the IPMB.
`target_address` is the IPMB address to which the command should be
sent. With the `serial_number` the aardvark device can be specified. If
`None` is set the first is selected.
"""
target_address = int_any_base(target_address)
slave_address = int_any_base(slave_address)
if isinstance(port_or_serial, basestring) and '-' in port_or_serial:
serial = port_or_serial
port = None
self._info('Opening Aardvark adapter with serial %s' %
(port_or_serial, ))
else:
port = int(port_or_serial)
serial = None
self._info('Opening Aardvark adapter on port %d' % (port, ))
interface = pyipmi.interfaces.create_interface(
'aardvark',
slave_address=slave_address,
port=port,
serial_number=serial,
enable_i2c_pullups=enable_i2c_pullups)
ipmi = pyipmi.create_connection(interface)
target = pyipmi.Target(target_address, routing_information)
ipmi.target = target
self._info('Opening IPMI aardvark connection to %02Xh' %
target_address)
connection = IpmiConnection(ipmi, target)
self._active_connection = connection
return self._cache.register(connection, alias)
def get_ipmi_ctx(self, host, user, password):
"""
Function to get ipmi handler
Args:
host (str): Host mgmt address
user (str): User Name for accessing mgmt console
password (str): Password for accessing mgmt console
Returns (object): ipmi handler
"""
interface = pyipmi.interfaces.create_interface(
"ipmitool", interface_type=defaults.IPMI_INTERFACE_TYPE
)
ipmi = pyipmi.create_connection(interface)
ipmi.session.set_session_type_rmcp(host, port=defaults.IPMI_RMCP_PORT)
ipmi.session.set_auth_type_user(user, password)
ipmi.session.establish()
ipmi.target = pyipmi.Target(ipmb_address=defaults.IPMI_IPMB_ADDRESS)
return ipmi
def clean_nodes(inventory):
inv_dict = utils.parse_yaml(inventory)
if inv_dict is None or 'nodes' not in inv_dict:
logging.error("Inventory file is empty or missing nodes definition")
sys.exit(1)
for node, node_info in inv_dict['nodes'].items():
logging.info("Cleaning node: {}".format(node))
try:
interface = pyipmi.interfaces.create_interface(
'ipmitool', interface_type='lanplus')
connection = pyipmi.create_connection(interface)
connection.session.set_session_type_rmcp(node_info['ipmi_ip'])
connection.target = pyipmi.Target(0x20)
connection.session.set_auth_type_user(node_info['ipmi_user'],
node_info['ipmi_pass'])
connection.session.establish()
connection.chassis_control_power_down()
except Exception as e:
logging.error("Failure while shutting down node {}".format(e))
sys.exit(1)
def clean_nodes(inventory):
inv_dict = utils.parse_yaml(inventory)
if inv_dict is None or 'nodes' not in inv_dict:
logging.error("Inventory file is empty or missing nodes definition")
sys.exit(1)
for node, node_info in inv_dict['nodes'].items():
logging.info("Cleaning node: {}".format(node))
try:
interface = pyipmi.interfaces.create_interface(
'ipmitool', interface_type='lanplus')
connection = pyipmi.create_connection(interface)
connection.session.set_session_type_rmcp(node_info['ipmi_ip'])
connection.target = pyipmi.Target(0x20)
connection.session.set_auth_type_user(node_info['ipmi_user'],
node_info['ipmi_pass'])
connection.session.establish()
connection.chassis_control_power_down()
except Exception as e:
logging.error("Failure while shutting down node {}".format(e))
sys.exit(1)
def get_ipmi_connection(self, bmc_addr, node_name):
type_position = bmc_addr.find("://")
if type_position == -1:
host = bmc_addr
else:
host = bmc_addr[type_position + 3 :]
port_position = host.find(":")
if port_position == -1:
port = 623
else:
port = int(host[port_position + 1 :])
host = host[0:port_position]
# Determine correct username and password
# If specified, uses device-specific user/pass. Else uses the global one.
if self.bm_info is not None and node_name in self.bm_info:
user = self.bm_info[node_name].get("bmc_user", self.user)
passwd = self.bm_info[node_name].get("bmc_password", self.passwd)
else:
user = self.user
passwd = self.passwd
if user is None or passwd is None:
logging.error(
"Missing IPMI BMI user and/or password for baremetal cloud. "
"Please specify either a global or per-machine user and pass"
)
sys.exit(1)
# Establish connection
interface = pyipmi.interfaces.create_interface("ipmitool", interface_type="lanplus")
connection = pyipmi.create_connection(interface)
connection.target = pyipmi.Target(ipmb_address=0x20)
connection.session.set_session_type_rmcp(host, port)
connection.session.set_auth_type_user(user, passwd)
connection.session.establish()
return connection
def open_ipmi_aardvark_connection(self, port_or_serial, target_address,
slave_address=0x20, routing_information=None, alias=None,
enable_i2c_pullups=True):
"""Opens an Aardvark connection to the IPMB.
`target_address` is the IPMB address to which the command should be
sent. With the `serial_number` the aardvark device can be specified. If
`None` is set the first is selected.
"""
target_address = int_any_base(target_address)
slave_address = int_any_base(slave_address)
if isinstance(port_or_serial, basestring) and '-' in port_or_serial:
serial = port_or_serial
port = None
self._info('Opening Aardvark adapter with serial %s' %
(port_or_serial,))
else:
port = int(port_or_serial)
serial = None
self._info('Opening Aardvark adapter on port %d' % (port,))
interface = pyipmi.interfaces.create_interface('aardvark',
slave_address=slave_address, port=port, serial_number=serial,
enable_i2c_pullups=enable_i2c_pullups)
ipmi = pyipmi.create_connection(interface)
target = pyipmi.Target(target_address, routing_information)
ipmi.target = target
self._info('Opening IPMI aardvark connection to %02Xh' % target_address)
connection = IpmiConnection(ipmi, target)
self._active_connection = connection
return self._cache.register(connection, alias)
def main():
interface = pyipmi.interfaces.create_interface('ipmitool', interface_type='lanplus')
connection = pyipmi.create_connection(interface)
connection.target = pyipmi.Target(0x20)
connection.session.set_session_type_rmcp('192.168.65.27', port=623)
connection.session.set_auth_type_user('admin', 'adminoseasy')
connection.session.establish()
ret = connection.get_fru_inventory(fru_id=0)
b = ret.board_info_area
print 'board_info_area:'
print ' custom_mfg_info:', b.custom_mfg_info
print ' format_version:', b.format_version
print ' fru_file_id:', b.fru_file_id.value
print ' language_code:', b.language_code
print ' manufacturer:', b.manufacturer.value
print ' mfg_date:', b.mfg_date
print ' part_number:', b.part_number.value
print ' product_name:', b.product_name.value
print ' serial_number:', b.serial_number.value
c = ret.chassis_info_area
if c is not None:
print 'chassis_info_area:', dir(c)
print ' custom_chassis_info:', c.custom_chassis_info
print ' format_version:', c.format_version
print ' part_number:', c.part_number.value
print ' serial_number:', c.serial_number.value
print ' type:', c.type
for t in (
'TYPE_ALL_IN_ONE', 'TYPE_BUS_EXPANSION_CHASSIS', 'TYPE_DESKTOP',
'TYPE_DOCKING_STATION', 'TYPE_EXPANSION_CHASSIS', 'TYPE_HAND_HELD',
'TYPE_LAPTOP', 'TYPE_LOW_PROFILE_DESKTOP', 'TYPE_LUNCH_BOX',
'TYPE_MAIN_SERVER_CHASSIS', 'TYPE_MINI_TOWER', 'TYPE_NOTEBOOK',
'TYPE_OTHER', 'TYPE_PERIPHERAL_CHASSIS', 'TYPE_PIZZA_BOX',
'TYPE_PORTABLE', 'TYPE_RACK_MOUNT_CHASSIS', 'TYPE_RAID_CHASSIS',
'TYPE_SPACE_SAVING', 'TYPE_SUB_CHASSIS', 'TYPE_SUB_NOTEBOOK',
'TYPE_TOWER', 'TYPE_UNKNOWN',
):
print ' ', t, getattr(c, t)
c = ret.common_header
print 'common_header:'
print ' board_info_area_offset:', c.board_info_area_offset
print ' chassis_info_area_offset:', c.chassis_info_area_offset
print ' format_version:', c.format_version
print ' internal_use_area_offset:', c.internal_use_area_offset
print ' multirecord_area_offset:', c.multirecord_area_offset
print ' product_info_area_offset:', c.product_info_area_offset
print 'multirecord_area:', ret.multirecord_area
p = ret.product_info_area
print 'product_info_area:'
print ' asset_tag:', p.asset_tag.value
print ' custom_mfg_info:', p.custom_mfg_info
print ' format_version:', p.format_version
print ' fru_file_id:', p.fru_file_id.value
print ' language_code:', p.language_code
print ' manufacturer:', p.manufacturer.value
print ' name:', p.name.value
print ' part_number:', p.part_number.value
print ' serial_number:', p.serial_number.value
print ' version:', p.version.value
return
def main():
try:
opts, args = getopt.getopt(sys.argv[1:], 't:hvVI:H:U:P:o:b:p:r:')
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 = ''
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 == '-I':
interface_name = a
elif o == '-o':
interface_options = a
#interface_options = a.split(',')
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)
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 as e:
print('Command timed out')
if verbose:
traceback.print_exc()
sys.exit(1)
except KeyboardInterrupt as e:
if verbose:
traceback.print_exc()
sys.exit(1)
finally:
if rmcp_host is not None:
ipmi.session.close()
try:
if interface_name == 'aardvark':
interface = pyipmi.interfaces.create_interface(interface_name,
serial_number=aardvark_serial)
else:
interface = pyipmi.interfaces.create_interface(interface_name)
except RuntimeError, e:
print e
sys.exit(1)
if aardvark_pullups:
interface.enable_pullups(aardvark_pullups)
if aardvark_target_power:
interface.enable_target_power(target_power)
ipmi = pyipmi.create_connection(interface)
ipmi.target = pyipmi.Target(target_address)
ipmi.target.set_routing_information(target_routing)
if rmcp_host is not None:
ipmi.session.set_session_type_rmcp(rmcp_host)
ipmi.session.set_auth_type_user(rmcp_user, rmcp_password)
ipmi.session.establish()
try:
cmd(ipmi, args)
except pyipmi.errors.CompletionCodeError, e:
print 'Command returned with completion code 0x%02x' % e.cc
if verbose:
traceback.print_exc()
sys.exit(1)
def main():
try:
opts, args = getopt.getopt(sys.argv[1:], 't:hvVI:H:U:P:o:b:')
except getopt.GetoptError as err:
print(str(err))
usage()
sys.exit(2)
verbose = False
interface_name = 'aardvark'
target_address = 0x20
target_routing = [(0x20, 0)]
rmcp_host = None
rmcp_user = ''
rmcp_password = ''
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))]
elif o == '-H':
rmcp_host = a
elif o == '-U':
rmcp_user = a
elif o == '-P':
rmcp_password = a
elif o == '-I':
interface_name = a
elif o == '-o':
interface_options = a.split(',')
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)
aardvark_serial = None
aardvark_pullups = None
aardvark_target_power = None
for option in interface_options:
(name, value) = option.split('=', 1)
if (interface_name, name) == ('aardvark', 'serial'):
aardvark_serial = value
elif (interface_name, name, value) == ('aardvark', 'pullups', 'on'):
aardvark_pullups = True
elif (interface_name, name, value) == ('aardvark', 'pullups', 'off'):
aardvark_pullups = False
elif (interface_name, name, value) == ('aardvark', 'power', 'on'):
aardvark_target_power = True
elif (interface_name, name, value) == ('aardvark', 'power', 'off'):
aardvark_target_power = False
else:
print('Warning: unknown option %s' % name)
try:
if interface_name == 'aardvark':
interface = pyipmi.interfaces.create_interface(
interface_name, serial_number=aardvark_serial)
else:
interface = pyipmi.interfaces.create_interface(interface_name)
except RuntimeError as e:
print(e)
sys.exit(1)
if aardvark_pullups:
interface.enable_pullups(aardvark_pullups)
if aardvark_target_power:
interface.enable_target_power(aardvark_target_power)
ipmi = pyipmi.create_connection(interface)
ipmi.target = pyipmi.Target(target_address)
ipmi.target.set_routing(target_routing)
if rmcp_host is not None:
ipmi.session.set_session_type_rmcp(rmcp_host)
ipmi.session.set_auth_type_user(rmcp_user, rmcp_password)
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.TimeoutError as e:
print('Command timed out')
if verbose:
traceback.print_exc()
sys.exit(1)
except KeyboardInterrupt as e:
if verbose:
traceback.print_exc()
sys.exit(1)
if rmcp_host is not None:
ipmi.session.close()
for option in interface_options:
(name, value) = option.split('=', 1)
if (interface_name, name) == ('aardvark', 'pullups'):
if value == 'on':
interface.enable_pullups(True)
else:
interface.enable_pullups(False)
elif (interface_name, name) == ('aardvark', 'power'):
if value == 'on':
interface.enable_target_power(True)
else:
interface.enable_target_power(False)
else:
print 'Warning: unknown option %s' % name
ipmi = pyipmi.create_connection(interface)
ipmi.target = pyipmi.Target(target_address)
ipmi.target.set_routing_information(target_routing)
if rmcp_host is not None:
ipmi.session.set_session_type_rmcp(rmcp_host)
ipmi.session.set_auth_type_user(rmcp_user, rmcp_password)
ipmi.session.establish()
try:
cmd(ipmi, args)
except pyipmi.errors.CompletionCodeError, e:
print 'Command returned with completion code 0x%02x' % e.cc
if verbose:
traceback.print_exc()
sys.exit(1)
def main():
try:
opts, args = getopt.getopt(sys.argv[1:], 't:hvVI:H:U:P:o:b:')
except getopt.GetoptError as err:
print(str(err))
usage()
sys.exit(2)
verbose = False
interface_name = 'aardvark'
target_address = 0x20
target_routing = [(0x20, 0)]
rmcp_host = None
rmcp_user = ''
rmcp_password = ''
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))]
elif o == '-H':
rmcp_host = a
elif o == '-U':
rmcp_user = a
elif o == '-P':
rmcp_password = a
elif o == '-I':
interface_name = a
elif o == '-o':
interface_options = a.split(',')
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)
aardvark_serial = None
aardvark_pullups = None
aardvark_target_power = None
for option in interface_options:
(name, value) = option.split('=', 1)
if (interface_name, name) == ('aardvark', 'serial'):
aardvark_serial = value
elif (interface_name, name, value) == ('aardvark', 'pullups', 'on'):
aardvark_pullups = True
elif (interface_name, name, value) == ('aardvark', 'pullups', 'off'):
aardvark_pullups = False
elif (interface_name, name, value) == ('aardvark', 'power', 'on'):
aardvark_target_power = True
elif (interface_name, name, value) == ('aardvark', 'power', 'off'):
aardvark_target_power = False
else:
print('Warning: unknown option %s' % name)
try:
if interface_name == 'aardvark':
interface = pyipmi.interfaces.create_interface(
interface_name,
serial_number=aardvark_serial)
else:
interface = pyipmi.interfaces.create_interface(interface_name)
except RuntimeError as e:
print(e)
sys.exit(1)
if aardvark_pullups:
interface.enable_pullups(aardvark_pullups)
if aardvark_target_power:
interface.enable_target_power(aardvark_target_power)
ipmi = pyipmi.create_connection(interface)
ipmi.target = pyipmi.Target(target_address)
ipmi.target.set_routing(target_routing)
if rmcp_host is not None:
ipmi.session.set_session_type_rmcp(rmcp_host)
ipmi.session.set_auth_type_user(rmcp_user, rmcp_password)
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 as e:
print('Command timed out')
if verbose:
traceback.print_exc()
sys.exit(1)
except KeyboardInterrupt as e:
if verbose:
traceback.print_exc()
sys.exit(1)
if rmcp_host is not None:
ipmi.session.close()
