#!@PYTHON@ -tt # The Following agent has been tested on: # IBM iPDU model 46M4002 # Firmware release OPDP_sIBM_v01.2_1 # import sys import atexit import logging sys.path.append("@FENCEAGENTSLIBDIR@") from fencing import * from fencing import fail_usage from fencing_snmp import FencingSnmp ### CONSTANTS ### # oid defining fence device OID_SYS_OBJECT_ID = '.1.3.6.1.2.1.1.2.0' ### GLOBAL VARIABLES ### # Device - see IBM iPDU device = None # Port ID port_id = None # Switch ID switch_id = None # Classes describing Device params class IBMiPDU(object): # iPDU status_oid = '.1.3.6.1.4.1.2.6.223.8.2.2.1.11.%d' control_oid = '.1.3.6.1.4.1.2.6.223.8.2.2.1.11.%d' outlet_table_oid = '.1.3.6.1.4.1.2.6.223.8.2.2.1.2' ident_str = "IBM iPDU" state_on = 1 state_off = 0 turn_on = 1 turn_off = 0 has_switches = False ### FUNCTIONS ### def ipdu_set_device(conn, options): global device agents_dir = {'.1.3.6.1.4.1.2.6.223':IBMiPDU, None:IBMiPDU} # First resolve type of PDU device pdu_type = conn.walk(OID_SYS_OBJECT_ID) if not ((len(pdu_type) == 1) and (pdu_type[0][1] in agents_dir)): pdu_type = [[None, None]] device = agents_dir[pdu_type[0][1]] logging.debug("Trying %s"%(device.ident_str)) def ipdu_resolv_port_id(conn, options): global port_id, switch_id if device == None: ipdu_set_device(conn, options) # Now we resolv port_id/switch_id if options["--plug"].isdigit() and ((not device.has_switches) or (options["--switch"].isdigit())): port_id = int(options["--plug"]) if device.has_switches: switch_id = int(options["--switch"]) else: table = conn.walk(device.outlet_table_oid, 30) for x in table: if x[1].strip('"') == options["--plug"]: t = x[0].split('.') if device.has_switches: port_id = int(t[len(t)-1]) switch_id = int(t[len(t)-3]) else: port_id = int(t[len(t)-1]) if port_id == None: fail_usage("Can't find port with name %s!"%(options["--plug"])) def get_power_status(conn, options): if port_id == None: ipdu_resolv_port_id(conn, options) oid = ((device.has_switches) and device.status_oid%(switch_id, port_id) or device.status_oid%(port_id)) (oid, status) = conn.get(oid) return status == str(device.state_on) and "on" or "off" def set_power_status(conn, options): if port_id == None: ipdu_resolv_port_id(conn, options) oid = ((device.has_switches) and device.control_oid%(switch_id, port_id) or device.control_oid%(port_id)) conn.set(oid, (options["--action"] == "on" and device.turn_on or device.turn_off)) def get_outlets_status(conn, options): result = {} if device == None: ipdu_set_device(conn, options) res_ports = conn.walk(device.outlet_table_oid, 30) for x in res_ports: t = x[0].split('.') port_num = ((device.has_switches) and "%s:%s"%(t[len(t)-3], t[len(t)-1]) or "%s"%(t[len(t)-1])) port_name = x[1].strip('"') port_status = "" result[port_num] = (port_name, port_status) return result # Main agent method def main(): global device device_opt = ["ipaddr", "login", "passwd", "no_login", "no_password", \ "port", "snmp_version", "snmp"] atexit.register(atexit_handler) all_opt["snmp_version"]["default"] = "3" all_opt["community"]["default"] = "private" all_opt["switch"]["default"] = "1" device = IBMiPDU options = check_input(device_opt, process_input(device_opt)) docs = {} docs["shortdesc"] = "Fence agent for iPDU over SNMP" docs["longdesc"] = "fence_ipdu is an I/O Fencing agent \ which can be used with the IBM iPDU network power switch. It logs \ into a device via SNMP and reboots a specified outlet. It supports \ SNMP v3 with all combinations of authenticity/privacy settings." docs["vendorurl"] = "http://www.ibm.com" show_docs(options, docs) # Operate the fencing device result = fence_action(FencingSnmp(options), options, set_power_status, get_power_status, get_outlets_status) sys.exit(result) if __name__ == "__main__": main()