import urllib
import threading, popen2
import array, struct
-from monitor.wrapper import plc
import base64
from subprocess import PIPE, Popen
import pcucontrol.transports.ssh.pxssh as pxssh
import pcucontrol.transports.ssh.pexpect as pexpect
import socket
-from monitor.util import command
+
# Use our versions of telnetlib and pyssh
import pcucontrol.transports.telnetlib as telnetlib
sys.path.insert(0, os.path.dirname(sys.argv[0]) + "/pyssh")
import pcucontrol.transports.pyssh as pyssh
-from monitor import config
-
# Event class ID from pcu events
#NODE_POWER_CONTROL = 3
#MONITOR_USER_ID = 11142
import logging
-logger = logging.getLogger("monitor")
verbose = 1
#dryrun = 0;
transport.set_debuglevel(self.verbose)
if username is not None:
self.transport = transport
- self.transport.ifThenSend(prompt, username, ExceptionUsername)
+ self.ifThenSend(prompt, username, ExceptionUsername)
elif self.type == self.SSH:
if username is not None:
print r
except urllib2.URLError,err:
- logger.info('Could not open http connection', err)
+ print 'Could not open http connection', err
return "http transport error"
return 0
def reboot(self, node_port, dryrun):
port_list = []
+ # There are two sources of potential ports. Those that are open and
+ # those that are part of the PCU's supported_ports.
+ # I think we should start with supported_ports and then filter that
+ # by the open ports.
+
+ port_list = self.supported_ports
+
if hasattr(self, 'port_status') and self.port_status:
+ # get out the open ports
port_list = filter(lambda x: self.port_status[x] == "open" , self.port_status.keys())
port_list = [ int(x) for x in port_list ]
+ # take only the open ports that are supported_ports
+ port_list = filter(lambda x: x in self.supported_ports, port_list)
if port_list == []:
- raise ExceptionPort("Unsupported Port: No transport from open ports")
- else:
- port_list = self.supported_ports
+ raise ExceptionPort("No Open Port: No transport from open ports")
print port_list
- ret = "could not run"
+ ret = "No implementation for open ports on selected PCU model"
for port in port_list:
if port not in Transport.porttypemap:
continue
type = Transport.porttypemap[port]
self.transport = Transport(type, verbose)
+ print "checking for run_%s" % type
if hasattr(self, "run_%s" % type):
+ print "found run_%s" % type
fxn = getattr(self, "run_%s" % type)
ret = self.catcherror(fxn, node_port, dryrun)
if ret == 0: # NOTE: success!, so stop
except urllib2.URLError, err:
return "URLError: " + str(err)
except EOFError, err:
- if self.verbose:
- logger.debug("reboot: EOF")
- logger.debug(err)
self.transport.close()
import traceback
traceback.print_exc()
return "EOF connection reset" + str(err)
+ except Exception, err:
+ from monitor.common import email_exception
+ email_exception(self.host)
+ raise Exception(err)
+from pcucontrol.util import command
from pcucontrol.models import *
def pcu_name(pcu):
else:
return None
-def get_pcu_values(pcu_id):
- from monitor.database.info.model import FindbadPCURecord
- print "pcuid: %s" % pcu_id
- try:
- pcurec = FindbadPCURecord.get_latest_by(plc_pcuid=pcu_id).first()
- if pcurec:
- values = pcurec.to_dict()
- else:
- values = None
- except:
- values = None
-
- return values
-
-def reboot(nodename):
- return reboot_policy(nodename, True, False)
-
-def reboot_str(nodename):
- global verbose
- continue_probe = True
- dryrun=False
-
- pcu = plc.getpcu(nodename)
- if not pcu:
- logger.debug("no pcu for %s" % nodename)
- print "no pcu for %s" % nodename
- return False # "%s has no pcu" % nodename
-
- values = get_pcu_values(pcu['pcu_id'])
- if values == None:
- logger.debug("No values for pcu probe %s" % nodename)
- print "No values for pcu probe %s" % nodename
- return False #"no info for pcu_id %s" % pcu['pcu_id']
-
- # Try the PCU first
- logger.debug("Trying PCU %s %s" % (pcu['hostname'], pcu['model']))
-
- ret = reboot_test_new(nodename, values, verbose, dryrun)
- return ret
-
-def reboot_policy(nodename, continue_probe, dryrun):
- global verbose
-
- pcu = plc.getpcu(nodename)
- if not pcu:
- logger.debug("no pcu for %s" % nodename)
- print "no pcu for %s" % nodename
- return False # "%s has no pcu" % nodename
-
- values = get_pcu_values(pcu['pcu_id'])
- if values == None:
- logger.debug("No values for pcu probe %s" % nodename)
- print "No values for pcu probe %s" % nodename
- return False #"no info for pcu_id %s" % pcu['pcu_id']
-
- # Try the PCU first
- logger.debug("Trying PCU %s %s" % (pcu['hostname'], pcu['model']))
-
- ret = reboot_test_new(nodename, values, verbose, dryrun)
-
- if ret != 0:
- print ret
- return False
- else:
- print "return true"
- return True
-
class Unknown(PCUControl):
supported_ports = [22,23,80,443,5869,9100,16992]
elif "ePowerSwitch" in modelname:
return ePowerSwitchNew
elif "IPMI" in modelname:
- return IPMI
+ return OpenIPMI
elif "BlackBoxPSMaverick" in modelname:
return BlackBoxPSMaverick
elif "PM211MIP" in modelname:
print "UNKNOWN model %s"%modelname
return Unknown
-def reboot_api(node, pcu): #, verbose, dryrun):
+def reboot_api(node, pcu):
rb_ret = ""
try:
rb_ret = "No modelname in PCU record."
# TODO: how to handle the weird, georgetown pcus, the drac faults, and ilo faults
except Exception, err:
- rb_ret = str(err)
+ rb_ret = "Exception Model(%s): " % modelname
+ rb_ret += str(err)
return rb_ret
+def convert_oldmodelname_to_newmodelname(oldmodelname, pcu_id):
+ newmodelname = None
+ update = { 'AP79xx' : 'APCControl13p13',
+ 'Masterswitch' : 'APCControl13p13',
+ 'DS4-RPC' : 'BayTech',
+ 'IP-41x_IP-81x' : 'IPAL',
+ 'DRAC3' : 'DRAC',
+ 'DRAC4' : 'DRAC',
+ 'ePowerSwitch' : 'ePowerSwitchOld',
+ 'ilo2' : 'HPiLO',
+ 'ilo1' : 'HPiLO',
+ 'PM211-MIP' : 'PM211MIP',
+ 'AMT2.5' : 'IntelAMT',
+ 'AMT3.0' : 'IntelAMT',
+ 'WTI_IPS-4' : 'WTIIPS4',
+ 'unknown' : 'ManualPCU',
+ 'DRAC5' : 'DRAC',
+ 'ipmi' : 'OpenIPMI',
+ 'bbsemaverick' : 'BlackBoxPSMaverick',
+ 'manualadmin' : 'ManualPCU',
+ }
+
+ if oldmodelname in update:
+ newmodelname = update[oldmodelname]
+ else:
+ newmodelname = oldmodelname
+
+ if pcu_id in [1102,1163,1055,1111,1231,1113,1127,1128,1148]:
+ newmodelname = 'APCControl12p3'
+ elif pcu_id in [1110,86]:
+ newmodelname = 'APCControl1p4'
+ elif pcu_id in [1221,1225,1220,1192]:
+ newmodelname = 'APCControl121p3'
+ elif pcu_id in [1173,1240,47,1363,1405,1401,1372,1371]:
+ newmodelname = 'APCControl121p1'
+ elif pcu_id in [1056,1237,1052,1209,1002,1008,1013,1022]:
+ newmodelname = 'BayTechCtrlC'
+ elif pcu_id in [93]:
+ newmodelname = 'BayTechRPC3NC'
+ elif pcu_id in [1057]:
+ newmodelname = 'BayTechCtrlCUnibe'
+ elif pcu_id in [1012]:
+ newmodelname = 'BayTechRPC16'
+ elif pcu_id in [1089, 1071, 1046, 1035, 1118]:
+ newmodelname = 'ePowerSwitchNew'
+
+ return newmodelname
+
def reboot_test_new(nodename, values, verbose, dryrun):
rb_ret = ""
if 'plc_pcu_stats' in values:
values.update(values['plc_pcu_stats'])
try:
+ #modelname = convert_oldmodelname_to_newmodelname(values['model'], values['pcu_id'])
modelname = values['model']
if modelname:
- object = eval('%s(values, verbose, ["22", "23", "80", "443", "9100", "16992", "5869"])' % modelname)
+ object = eval('%s(values, verbose)' % modelname)
rb_ret = object.reboot(values[nodename], dryrun)
else:
rb_ret = "Not_Run"
return rb_ret
def main():
- logger.setLevel(logging.DEBUG)
- ch = logging.StreamHandler()
- ch.setLevel(logging.DEBUG)
- formatter = logging.Formatter('LOGGER - %(message)s')
- ch.setFormatter(formatter)
- logger.addHandler(ch)
-
- try:
- if "test" in sys.argv:
- dryrun = True
- else:
- dryrun = False
-
- for node in sys.argv[1:]:
- if node == "test": continue
-
- print "Rebooting %s" % node
- if reboot_policy(node, True, dryrun):
- print "success"
- else:
- print "failed"
- except Exception, err:
- import traceback; traceback.print_exc()
- print err
+ print "this does not work."
if __name__ == '__main__':
- logger = logging.getLogger("monitor")
main()
- f = open("/tmp/rebootlog", 'a')
- f.write("reboot %s\n" % sys.argv)
- f.close()