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gold_bullet.py
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gold_bullet.py
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#!/usr/bin/python
# -*- coding: utf-8 -*-
import pexpect
import os
import time
import commands
import subprocess
import telnetlib
import sys
from subprocess import call
author = 'Noor Al Darraji'
version = '1.0.5'
class bcolors:
MAGENTA = '\033[95m'
NC = '\033[0m'
RED = '\033[31m'
HEART = '\033[1;31m'
GREEN = '\033[32m'
GOLD = '\033[33m'
HGREEN = '\033[92m'
ARROWH = '\033[95m=\033[0m\033[96m>\033[0m'
CYAN = '\033[96m'
M = bcolors.MAGENTA
NOC = bcolors.NC
R = bcolors.RED
GR = bcolors.GREEN
GO = bcolors.GOLD
HG = bcolors.HGREEN
AH = bcolors.ARROWH
H = bcolors.HEART
CYAN = bcolors.CYAN
#grep -A 3 '"C220M4-BIOS-[4,9]' /usr/kcsdist/src/UCS/RACKS/DF/FST/FST_VarInit.spk | grep UDIBmcDiagImage | head -n1 | awk '{gsub(/"/, "");print $2}'
def image_name(file_name='', user=os.environ.get('USER')):
''' Gets the the image file name from gold bullet config file'''
check_file = commands.getoutput('ls /home/' + user + '/gold_bullet_config.txt')
image = ''
if 'cannot access' in check_file:
subprocess.Popen(['cp', '/home/noora/gold_bullet_config.txt', '/home/' + user + '/gold_bullet_config.txt'])
time.sleep(1)
f = subprocess.Popen(['grep', file_name , '/home/' + user + '/gold_bullet_config.txt'], stdout=subprocess.PIPE)
head = subprocess.Popen(['head' , '-n1'], stdin=f.stdout, stdout=subprocess.PIPE)
awk = subprocess.Popen(['awk', '{gsub(/,/, "");print $3}'],stdin=head.stdout, stdout=subprocess.PIPE,)
endOfPipe = awk.stdout
for line in endOfPipe:
image = line.strip()
if image:
return image
if not image:
return image_name(file_name, user='noora')
print (GO +" _______ _ _ ______ _ _"+ NOC)
print (GO +" (_______) | | | | (____ \ | | | _"+ NOC)
print (GO +" _ ___ ___ | | __| | ____) )_ _| | | _____ _| |_"+ NOC)
print (GO +" | | (_ |/ _ \| |/ _ | | __ (| | | | | || ___ (_ _)"+ NOC)
print (GO +" | |___) | | | | ( (_| | | |__) ) |_| | | || ____| | |_"+ NOC)
print (GO +" \______/\___/ \_)____| |______/|____/ \_)_)_____) \___) v" + version + NOC)
print ("")
print (GR + ' Created with ' + R + 'â¤ï¸?' + NOC + GR +' by ' + author + NOC)
#
#â¤ï¸?
#â?¡
print ("")
print (' +------------------------------------------------------------------------------------------------------------------------------------------+')
print (' | CIMC Section [ '+ GO + '#' + NOC +' ] | BMC Shell Section [ ' + GO +'$' + NOC +' ] | BMC DIAG Section [ ' + GO + '%' + NOC +' ] | Linux Shell Section [ ' + GO + '#' + NOC + ' ] | UEFI Section [ ' + GO + '>' + NOC + ' ] |')
print (' +------------------------+-----------------------------+----------------------------+-------------------------------+----------------------+')
print (' | 01 '+AH+' ' + R + 'SHOW SEL LOG ' + NOC +' | 19 '+AH+' '+R+'CLEAR DIMM BLACKLIST '+NOC+' | 04 '+AH+' '+ R +'MODULE LEARN ALL ' +NOC+ ' | 20 '+AH+' '+ R +' BOOT LINUX ' +NOC+ ' | 23 '+AH+' ' + R + 'BOOT EFI ' + NOC +' |')
print (' | 02 '+AH+' ' + R + 'SHOW DIMM PID ' + NOC +' | 46 '+AH+' '+CYAN+'UPDATE BIOS '+NOC+' | 05 '+AH+' '+ R +'NETWORK ' +NOC+ ' | 21 '+AH+' '+ R +' UPGRADE PCIE FW ' +NOC+ ' | 24 '+AH+' ' + R + 'EFI CACHEX64 ' + NOC +' |')
print (' | 03 '+AH+' ' + R + 'SHOW HDD PID ' + NOC +' | | 06 '+AH+' '+ R +'BASEBOARD ' +NOC+ ' | 22 '+AH+' '+ R +' CKPCIE DIAG ' +NOC+ ' | 25 '+AH+' ' + R + 'EFI CPUX64' + NOC +' |')
print (' | 17 '+AH+' ' + R + 'CLEAR SEL LOG ' + NOC +' | | 07 '+AH+' '+ R +'TEMPSENSOR ' +NOC+ ' | 34 '+AH+' '+ R +' DISCOVER HDD' +NOC+ ' | 26 '+AH+' ' + R + 'EFI DISKX64' + NOC +' |')
print (' | 47 '+AH+' ' + CYAN + 'UPDATE BMC FW ' + NOC +' | | 08 '+AH+' '+ R +'VOLTSENSOR ' +NOC+ ' | XX '+AH+' '+ R +' TEST USB ' +NOC+ ' | 27 '+AH+' ' + R + 'EFI GRAPHICX64' + NOC +' |')
print (' | | | 09 '+AH+' '+ R +'CURRENTSENSOR ' +NOC+ '| 36 '+AH+' '+ R +' CHECK BBU ' +NOC+ ' | 28 '+AH+' ' + R + 'EFI PCHX64' + NOC +' |')
print (' | | | 10 '+AH+' '+ R +'POWERSENSOR ' +NOC+ '| XX '+AH+' '+ R +' DISK MARVEL ' +NOC+ ' | 29 '+AH+' ' + R + 'EFI IIOX64' + NOC +' |')
print (' | | | 11 '+AH+' '+ R +'DEVICEINFO ' +NOC+ '| XX '+AH+' '+ R +' DISK STOR ' +NOC+ ' | 30 '+AH+' ' + R + 'EFI LPCX64' + NOC +' |')
print (' | | | 12 '+AH+' '+ R +'SPROM ' +NOC+ '| XX '+AH+' '+ R +' TEST SD ' +NOC+ ' | 31 '+AH+' ' + R + 'EFI PCIX64' + NOC +' |')
print (' | | | 13 '+AH+' '+ R +'NCSI ' +NOC+ '| 40 '+AH+' '+ R +' CPU TEMP ' +NOC+ ' | 32 '+AH+' ' + R + 'EFI QPIX64' + NOC +' |')
print (' | | | 14 '+AH+' '+ R +'FLASH ' +NOC+ '| 41 '+AH+' '+ R +' PMEM2 -m1 -s0 -l2 ' +NOC+ ' | 33 '+AH+' ' + R + 'EFI USBX64' + NOC +' |')
print (' | | | 15 '+AH+' '+ R +'GPIO ' +NOC+ '| 42 '+AH+' '+ R +' PMEM2 -m2 -s0 -l15' +NOC+ ' | |')
print (' | | | 16 '+AH+' '+ R +'PMBUS ' +NOC+ '| 43 '+AH+' '+ R +' PMEM2 -m3 -s0 -l2' +NOC+ ' | |')
print (' | | | | 44 '+AH+' '+ R +' PMEM2 -m4 -s0 -l2' +NOC+ ' | |')
print (' | | | | 45 '+AH+' '+ R +' PMEM2 -m2 -s1 -l2' +NOC+ ' | |')
print (' | | | | | |')
print (' +------------------------+-----------------------------+----------------------------+-------------------------------+----------------------+')
print ("")
test_selection = input('[' + M + '+' + NOC + ']'' Please Select your Test Number : ')
def bmc_sel_test():
ip = input('[' + M + '+' + NOC + ']'' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip )
#c.expect('\?')
#c.sendline('yes')
c.expect('password:', timeout=15)
c.sendline('password')
c.expect('#')
c.sendline('scope sel')
c.expect('#')
c.sendline('show entries | no-more')
c.expect('#')
#c.sendline('ipmi-query sel')
#c.expect('$')
print (c.before)
#.decode('utf-8').split('\r\n')[1]
def bmc_clear_sel_log():
ip = input('[' + M + '+' + NOC + ']'' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip )
#c.expect('\?')
#c.sendline('yes')
c.expect('password:', timeout=15)
c.sendline('password')
print ('[' + M + '+' + NOC + ']' ' Connected through Secure Shell.\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect('#')
c.sendline('scope sel')
c.expect('#')
print ('[' + M + '+' + NOC + ']' ' Clearing the SEL log.\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.sendline('clear')
c.expect('[y|N]', timeout=10)
c.sendline('y')
c.expect('#')
print ('[' + M + '+' + NOC + ']' ' SEL has been cleared.\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
#c.sendline('ipmi-query sel')
#c.expect('$')
#print c.before#.decode('utf-8').split('\r\n')[1]
def clear_dimmbl():
ip = input('[' + M + '+' + NOC + ']'' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip )
#c.expect('\?')
#c.sendline('yes')
c.expect('password:', timeout=15)
c.sendline('password')
print ('[' + M + '+' + NOC + ']' ' Connected through Secure Shell.\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect('#')
c.sendline('connect debug-shell')
c.expect('#')
#print ('[' + M + '+' + NOC + ']' ' Clearing the SEL log.\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.sendline('dimmbl')
c.expect('#')
print ("----------------------------------------------------------------------------------------------------------")
print (c.before)
print ("----------------------------------------------------------------------------------------------------------")
print ("")
clear_dimm_bl = input('[' + M + '+' + NOC + ']' ' Do you want to continue to clear the black list? [Y/n]: ')
print ("")
c.sendline('sldp')
c.expect(']')
if clear_dimm_bl == 'y' or clear_dimm_bl == 'Y':
c.sendline('IPMICmd 36 0 1A FF')
print ('[' + M + '+' + NOC + ']' ' Clearing the DIMM Black List.\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect(']')
print ('[' + M + '+' + NOC + ']' ' Sending IPMI Command..\t\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
print ('[' + M + '+' + NOC + ']' ' DIMM Black List DB has been cleared.\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
print ('[' + M + '+' + NOC + ']' ' Double check for remaining errors.. \t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.sendline('DimmBL-TestTool -R | grep -i "Yes" | wc -l')
c.expect(']')
res = '0'
if res not in c.before:
print ('[' + M + '+' + NOC + ']' + R + ' Not all DIMMs has been cleared, error still exist!\t\t\t\t\t '+ NOC)
elif res in c.before:
print ('[' + M + '+' + NOC + ']' ' All errors has been gone.. \t\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
else:
print ('[' + M + '+' + NOC + ']' " Operation has been cancelled.")
def bmc_mem_test():
ip = input('[' + M + '+' + NOC + ']'' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip )
#c.expect('\?')
#c.sendline('yes')
c.expect('password:', timeout=15)
c.sendline('password')
c.expect('#')
c.sendline('scope chassis')
c.expect('#')
c.sendline('show dimm-pid | no-more')
c.expect('#')
#c.sendline('ipmi-query sel')
#c.expect('$')
print (c.before)#.decode('utf-8').split('\r\n')[1]
def bmc_hdd_test():
ip = input('[' + M + '+' + NOC + ']'' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip )
#c.expect('\?')
#c.sendline('yes')
c.expect('password:', timeout=15)
c.sendline('password')
c.expect('#')
c.sendline('scope chassis')
c.expect('#')
c.sendline('show hdd-pid | no-more')
c.expect('#')
print (c.before)
#c.sendline('ipmi-query sel')
#c.expect('$')
def update_bios():
hostname = input('[' + bcolors.MAGENTA + '+' + bcolors.NC + ']' ' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
default_image = input('[' + bcolors.MAGENTA + '+' + bcolors.NC + ']' ' Do you want to use the BIOS Image in your Gold Bullet config file? [Y/n]: ')
if default_image == 'n' or default_image == 'N':
select_platform = input('[' + bcolors.MAGENTA + '+' + bcolors.NC + ']' ' Please Select the UUT Platform eg. [ ' + GR + 'S3X60M5' + NOC +' ] [ '+ GR +'C480M5' + NOC +' ] [ '+ GR + 'C240M5' + NOC +' ] [ '+ GR +'C220M5'+ NOC +' ]: ')
print
print (' +---------{' + M +' BIOS IMAGES LIST' + NOC +' }----------+')
subprocess.call('ls /tftpboot/ | grep "' + select_platform + '-BIOS"| awk \'{$0=" |\t"$0"\t |"}\'1', shell=True)
print (' +---------------------------------------+')
print
bm = input('[' + bcolors.MAGENTA + '+' + bcolors.NC + ']' ' Enter BIOS Image: ')
pass
else:
bm = image_name('BIOS')
print ('[' + M + '+' + NOC + ']' ' BIOS Image used [ ' + HG + bm + NOC + ' ].\t [ ' + GR + 'OK' + NOC +' ]')
pass
user = ("root")
tn = telnetlib.Telnet('10.1.1.' + hostname)
tn.read_until("login: ")
print ('[' + M + '+' + NOC + ']' ' Connection Established.\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.write(user + "\n")
tn.read_until("]$")
print ('[' + M + '+' + NOC + ']' ' Linux prompt found.\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.write("\n")
tn.write("blade-power off\n")
print ('[' + M + '+' + NOC + ']' ' Powering off the UUT.\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.read_until("[ Success ]")
print ('[' + M + '+' + NOC + ']' ' UUT is now is in power off state. \t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.write("\n")
tn.read_until("]$")
tn.write("\n")
print ('[' + M + '+' + NOC + ']' ' Executing the BIOS-UPDATE command inside the shell. [ ' + GR + 'OK' + NOC +' ]')
tn.write("bios-update -P -M -C -b -f -s -r 10.1.1.1 -u " + bm + "\n")
tn.read_until('[STATUS] = [ Image Download (0 %), OK ]')
sp_to = 3
sp_error_msg = ('Validation Failed, rc=36')
print ('[' + M + '+' + NOC + ']' ' Downloading Image (10 %). \t \t\t\t [ ' + GR + 'OK' + NOC +' ]')
nf_to = 3
nf_error_msg = ('Error code 1: File not found')
try:
nf_error_check = tn.read_until((nf_error_msg), nf_to)
except EOFError as e:
print ("Connection is not poor: %s" % e)
if ((nf_error_msg) in (nf_error_check)):
print ('[' + R + '+' + NOC + ']' ' File Not Found! \t\t\t\t\t [' + R + ' CHECK FILE NAME' + NOC + ' ]')
tn.write("exit\n")
sys.exit()
else:
tn.read_until('[STATUS] = [ Image Signature Validate (0 %), OK ]')
print ('[' + M + '+' + NOC + ']' ' Image Signature Validate (20 %). \t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.read_until('[STATUS] = [ Image Header Verification (0 %), OK ]')
print ('[' + M + '+' + NOC + ']' ' Image Header Verification (41 %). \t\t\t [ ' + GR + 'OK' + NOC +' ]')
# The reason for a seperate Timeout variable is because each failure fail slower than the other, so i keep it like that in case of a change.
pf_to = 3
pf_error_msg = ('[STATUS] = [ Error, Image not for this platform ]')
hw1_to = 3
hw1_error_msg = ('[STATUS] = [ Error, CPU ID file read failed ]')
hw2_to = 3
hw2_error_msg = ('[STATUS] = [ Error, CPU ID mis-match between uploaded image and the platform ]')
hw_all_to = 3
hw_all_error_msg = ('[STATUS] = [ Error,')
try:
platform_error_check = tn.read_until((pf_error_msg), pf_to)
except EOFError as n:
print ("Image not matching the platform: %" % n)
if ((pf_error_msg) in (platform_error_check)):
print ('[' + R + '+' + NOC + ']' ' Image Verification error \t\t\t\t [' + R + ' This Image is not for this Platform!' + NOC + ' ]')
tn.write("exit\n")
sys.exit()
platform_error_check = tn.read_until((hw1_error_msg), hw1_to)
elif ((hw1_error_msg) in (platform_error_check)):
print ('[' + R + '+' + NOC + ']' ' CPU ID cannot be found! \t\t\t\t [' + R + ' Possible Hardware Error!' + NOC + ' ]')
tn.write("exit\n")
sys.exit()
platform_error_check = tn.read_until((hw2_error_msg), hw2_to)
elif ((hw2_error_msg) in (platform_error_check)):
print ('[' + R + '+' + NOC + ']' ' CPU ID mis-match between uploaded image and the platform! \t\t [' + R + ' Possible Hardware Error!' + NOC + ' ]')
tn.write("exit\n")
sys.exit()
platform_error_check = tn.read_until((hw_all_error_msg), hw_all_to)
elif ((hw_all_error_msg) in (platform_error_check)):
print ('[' + R + '+' + NOC + ']' ' Error accrued during BIOS Update \t\t\t\t [' + R + ' Possible Hardware Error!' + NOC + ' ]')
tn.write("exit\n")
sys.exit()
else:
tn.read_until('[STATUS] = [ Write Host Flash (50 %), OK ]')
print ('[' + M + '+' + NOC + ']' ' Write Host Flash (90 %). \t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.read_until("Install Done")
print ('[' + M + '+' + NOC + ']' ' Install done. \t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.write("\n")
print ('[' + M + '+' + NOC + ']' ' Activating the BIOS image. \t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
tn.write("bios-update -a 0 -s\n")
tn.read_until('Activation Done')
print ('[' + M + '+' + NOC + ']' ' Image activated. \t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
print ('[' + M + '+' + NOC + ']' ' Firmware Update completed successfully. \t\t [ ' + GR + 'OK' + NOC +' ]')
tn.write("\n")
tn.write("exit\n")
def update_bmc():
ip = input('[' + bcolors.MAGENTA + '+' + bcolors.NC + ']' ' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
fw = image_name('cimc')
print ('[' + M + '+' + NOC + ']' ' Connecting..')
child = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip)
child.expect('password:', timeout=20)
child.sendline('password')
#child.logfile = sys.stdout
child.expect('#')
print ('[' + M + '+' + NOC + ']' ' Connected.')
print ('[' + M + '+' + NOC + ']' ' Updating the UUT using the Firmware file name in gold bullet config [ ' + HG + fw + NOC + ' ]')
child.sendline('scope cimc/firmware')
child.expect('#')
#print ('[' + M + '+' + NOC + ']' ' UUT Firmware is Updating to [ '+ GR + fw + NOC +' ]')
child.sendline('update tftp 10.1.1.1 ' + fw)
child.expect('#')
child.sendline('show detail | grep Prog')
while True:
child.expect('#')
child.sendline('show detail | grep Prog')
notpr = child.before.decode('utf-8').split('\r\n')[1]
pr_output = ('%s') % notpr.split(' ')[6]
if pr_output != "100":
print ('[' + M + '+' + NOC + ']' ' Update Progress:' ' %s' ) % pr_output
time.sleep(25)
elif pr_output == "100":
print ('[' + M + '+' + NOC + ']' ' Update Progress:' ' %s' ) % pr_output
print ('[' + M + '+' + NOC + ']' ' Firmware has been Updated Successfully!' )
child.sendline('activate')
child.expect('#')
child.sendline('y')
child.expect('#')
print ('[' + M + '+' + NOC + ']' ' Activation Done.' )
break
def bmc_diag(
run_test_name='',
print_test_name='',
timeout_1='',
timeout_2='',
timeout_3='',
timeout_4='',
image_name=''
):
ip = input('[' + M + '+' + NOC + ']'' Please enter the UUT IP Address: ' + HG + '10.1.1.' + NOC)
c = pexpect.spawn('/bin/telnet 10.1.1.' + ip )
c.expect('login:')
c.sendline('root')
c.expect(']', timeout_1)
print ('[' + M + '+' + NOC + ']' ' Linux prompt found.\t\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
print ('[' + M + '+' + NOC + ']' ' Configued DIAG File '+ HG + image_name + NOC + '\t [ ' + GR + 'OK' + NOC +' ]')
c.sendline('cd /usr/local/bin/')
print ('[' + M + '+' + NOC + ']' ' Changing location to binray directory \t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect(']')
c.sendline('ls udi*')
c.expect(']')
#print c.before.split(' ')
if image_name not in c.before:
#c.expect(']', timeout_2)
c.sendline('tftp -gr ' + image_name + ' 10.1.1.1')
print ('[' + M + '+' + NOC + ']' ' Downloading the BMC DIAG Image to the UUT. \t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect(']', timeout_3)
print ('[' + M + '+' + NOC + ']' ' Image Download complete. \t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.sendline('chmod 777 ' + image_name)
c.expect(']', timeout_4)
pass
#else:
c.sendline('./'+ image_name )
print ('[' + M + '+' + NOC + ']' ' Image Executed. \t\t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect('%')
print ('[' + M + '+' + NOC + ']' ' BMC DIAG Shell Received. \t\t\t\t\t [ ' + GR + 'OK' + NOC +' ]')
# c.sendline('exec blade-power cycle')
# c.expect('%', timeout=40)
# print ('PCD')
# time.sleep(5)
# count = 600
#while count > 1:
# c.sendline('exec cat /proc/nuova/gpio/fm_bios_post_cmplt')
# c.expect('%', timeout=15)
#print c.before.split('\n')
# if '0' in c.before:
# #print ("DID NOT COMPLETE POST")
# count - 1
# continue
# else:
c.sendline('module learn all')
print ('[' + M + '+' + NOC + ']' ' Executed learn Modules all Command. \t\t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect('%')
c.sendline('verbosity enable verbose')
print ('[' + M + '+' + NOC + ']' ' Executed verbosity enable verbose command. \t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect('%')
c.sendline(run_test_name)
print ('[' + M + '+' + NOC + ']' ' ' + print_test_name +' test executed, waiting for results... \t\t [ ' + GR + 'OK' + NOC +' ]')
c.expect('%')
print ("----------------------------------------------------------------------------------------------------------")
print (c.before)
print ("----------------------------------------------------------------------------------------------------------")
# break
def mount(
ip_address,
host_test_name,
host_boot_order,
host_boot_mode,
post_prompt,
post_state,
first_command,
second_command,
third_command,
fourth_command,
first_test_prompt,
second_test_prompt
):
#print ('[' + M + '+' + NOC + ']' ' UUT is already mounted with the configured image '+NOC)
"""
here we are going to connect to the unit and set some options so the unit is able to boot to Linux
"""
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip_address )
print ('[' + M + '+' + NOC + ']'' Connecting to UUT')
c.expect('password:', timeout=15)
to = timeout=15
c.sendline('password')
c.expect('#', timeout=15)
print ('[' + M + '+' + NOC + ']'+ HG + ' Connected.' + NOC)
c.sendline('scope bios')
c.expect('#')
#print c.before
print ('[' + M + '+' + NOC + ']'' Entered BIOS setting')
c.sendline('set boot-order ' + host_boot_order)
print ('[' + M + '+' + NOC + ']'' Set BIOS boot order to ' + host_boot_order)
c.expect('#', timeout=15)
print ('[' + M + '+' + NOC + ']'' Commiting change.')
#c.expect('#', to)
#print c.before
#if 'require a reboot' in c.before:
print ('[' + M + '+' + NOC + ']'' UUT Requires reboot')
c.sendline('commit')
#c.expect('#', timeout=15)
#print c.before
print ('[' + M + '+' + NOC + ']'' A system reboot has been initiated')
#elif 'invalid command' in c.before:
time.sleep(2)
c.sendline('y')
time.sleep(2)
c.expect('#')
c.sendline('set boot-mode ' + host_boot_mode)
print ('[' + M + '+' + NOC + ']'' Set BIOS boot mode to ' + host_boot_mode)
c.expect('#', timeout=15)
if 'require a reboot' in c.before:
print ('[' + M + '+' + NOC + ']'' UUT Requires reboot')
c.sendline('y')
c.expect('#', timeout=15)
#print c.before
print ('[' + M + '+' + NOC + ']'' A system reboot has been initiated')
else:
c.sendline('top')
c.expect('#')
c.sendline('scope sol')
c.expect('#')
#print c.before
print ('[' + M + '+' + NOC + ']'' Entered Serial Over Lan setting')
c.sendline('set enabled yes')
c.expect('#')
time.sleep(1)
c.sendline('commit')
c.expect('#', timeout=60)
#print c.before
print ('[' + M + '+' + NOC + ']'' Set SOL enabled')
c.sendline('top')
c.expect('#')
c.sendline('scope bios')
c.expect('#')
c.sendline('scope server-management')
c.expect('#')
#print c.beforei
print ('[' + M + '+' + NOC + ']'' Set Console Redirection to COM0')
c.sendline('set ConsoleRedir COM_0')
c.expect('#')
time.sleep(3)
c.sendline('commit')
#print c.before
if 'require a reboot' in c.before:
print ('[' + M + '+' + NOC + ']'' UUT Requires reboot')
c.sendline('y')
c.expect('#')
#print c.before
print ('[' + M + '+' + NOC + ']'' A system reboot has been initiated')
else:
c.sendline('top')
c.expect('#')
#print c.before
#c.expect('#')
c.sendline('connect debug-shell')
c.expect(']')
print ('[' + M + '+' + NOC + ']'' Connected to debug shell')
#print c.before
c.sendline('sldp')
c.expect(']', to)
c.sendline('blade-power cycle')
c.expect('Success', timeout=60)
c.expect(']', timeout=25)
print ('[' + M + '+' + NOC + ']'' Sending Power Cycle signal to the UUT..')
c.sendline('exit')
time.sleep(4)
c.expect('#', timeout=60)
c.sendline('exit')
c.expect('#')
print ('[' + M + '+' + NOC + ']'' Connecting to UUT Host through Serial Over Lan')
c.sendline('connect host')
c.sendline('\n\n')
#c.interact()
#print(pexpect.EOF)
#time.sleep(15)
c.expect('Configuring and testing memory..', timeout=500)
print ('[' + M + '+' + NOC + ']'' Configuring and testing memory')
c.expect('Configuring platform hardware...', timeout=500)
print ('[' + M + '+' + NOC + ']'' Configuring and testing hardware..')
#if 'Insert Boot Media' in c.before:
#c.expect('Cisco IMC', timeout=500)
# print ('[' + M + '+' + NOC + ']'' ' + R + ' ERROR ' + NOC + ': Please unplug the power and plug it back in' + NOC)
#else:
#c.expect('Cisco IMC', timeout=500)
'''
DIMMs comparsion need to be done later.
'''
#eff = c.before.decode('utf-8').split(' GB')[-2]
#effective_memory = eff.split(' ')[-1]
#ins = c.before.decode('utf-8').split(' = ')[-2]
#installed_memory = ins.split(' ')[0]
#print c.before.decode('utf-8').split('Memory')[-3]
#installed_memory = c.before.decode('utf-8').split(' ')[-11]
#effective_memory = c.before.decode('utf-8').split(' ')[-6]
#print('[' + M + '+' + NOC + ']'' Installed Memory = '+ HG + installed_memory + NOC)
#if installed_memory not in effective_memory:
#print('[' + M + '+' + NOC + ']'' Effective Memory = '+ R + effective_memory + NOC)
#else:
# print('[' + M + '+' + NOC + ']'' Effective Memory = '+ HG + effective_memory + NOC)
# post_prompt='', post_state='', first_command='', second_command='', third_command='', fourth_command='', first_test_prompt='', second_test_prompt=''
#time.sleep(120)
#print c.before
c.expect(post_prompt, timeout=1000)
print ('[' + M + '+' + NOC + ']' + HG +' UUT Successfully completed the POST.' + NOC)
time.sleep(10)
print ('[' + M + '+' + NOC + ']'' UUT Started to load '+ post_state +'.')
time.sleep(10)
print ('[' + M + '+' + NOC + ']'' Interactive Shell or Test Results will be deployed once the ' + post_state + ' completes loading.')
time.sleep(5)
print ('[' + M + '+' + NOC + ']'' Please wait for a few minutes..')
#c.expect('Shell> ', timeout=600)
c.sendline('\n')
#c.expect(prompt, timeout=1000) # EFI or Linux Shell
c.sendline(first_command)
c.expect(first_test_prompt, timeout=1000) # Mostly for EFI fs0 [\>]
c.sendline(second_command)
c.expect(second_test_prompt, timeout=1000) # Mostly for EFI fs0 [SRV>]
c.sendline(third_command)
c.expect(second_test_prompt, timeout=1000) # Mostly for EFI fs0 [SRV>]
c.sendline(fourth_command)
c.expect(second_test_prompt, timeout=1000) # Mostly for EFI fs0 [SRV>]
c.sendline(host_test_name) # run test name
time.sleep(1)
print ('[' + M + '+' + NOC + ']'+ HG + ' Deploying shell in 3 seconds...' + NOC)
time.sleep(1)
print ('[' + M + '+' + NOC + ']'+ HG + ' Deploying shell in 2 seconds..' + NOC)
time.sleep(1)
print ('[' + M + '+' + NOC + ']'+ HG + ' Deploying shell in 1 seconds.' + NOC)
print ("----------------------------------------------------------------------------------------------------------")
c.interact()
#print c.before.decode('utf-8').split('\r\n')
'''
post_prompt='',
post_state='',
first_command='',
second_command='',
third_command='',
fourth_command='',
first_test_prompt='',
second_test_prompt=''
'''
def host_boot(
vmedia_ip_address='',
vmedia_password='',
image='',
host_test_name='',
host_boot_order='',
host_boot_mode='',
post_prompt='',
post_state='',
first_command='',
second_command='',
third_command='',
fourth_command='',
first_test_prompt='',
second_test_prompt=''
):
ip_address = input('[' + M + '+' + NOC + ']'' Please enter the last block of the UUT IP Address: ' + HG + '10.1.1.' + NOC)
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no root@'+ vmedia_ip_address)
c.expect('password', timeout=15)
c.sendline(vmedia_password)
c.expect('#')
print ('[' + M + '+' + NOC + ']'' Connected to VMedia Server')
print ('[' + M + '+' + NOC + ']'' Checking Image presence [ '+ GO + image + NOC +' ]')
c.sendline ('ls ' + image)
c.expect('#')
if 'cannot access' in c.before:
print ('[' + M + '+' + NOC + '] ' + R + 'The '+ NOC + image + R + ' dose not exist in the VMedia server' + NOC)
print ('[' + M + '+' + NOC + '] ' 'Please copy the file into your vmedia server and try again')
else:
c.sendline ('ps -ef | grep 10.1.1.' + ip_address + ' | grep -v grep')
c.expect('#')
if "10.1.1.%s" % ip_address and image not in c.before:
try:
process_id = c.before.decode('utf-8').split(' ')[1]
if process_id is not None or ' ':
for i in process_id.decode('utf-8').split(' '):
if i is not None:
cleared_process_id = i
print ('[' + M + '+' + NOC + ']'' UUT is Mounted with a different image than the config file.')
time.sleep(1)
#print cleared_process_id
c.sendline ('kill -9 ' + process_id)
print ('[' + M + '+' + NOC + ']'' Killing the old mount process..')
c.expect('#')
print ('[' + M + '+' + NOC + ']'' Process [ ' + cleared_process_id + ' ] has been killed')
time.sleep(1)
#print process_id
print ('[' + M + '+' + NOC + ']' ' Mounting the ISO image using config.txt as a resource.'+NOC)
c.sendline ('./vmediactl -ip 10.1.1.%s -user admin -password password -f %s &' % (ip_address, image))
print ('[' + M + '+' + NOC + ']' ' Mounting ['+ GR +' '+ image +' ' + NOC +']')
c.expect('#')
time.sleep(3)
c.sendline('\n\n')
c.expect('#')
time.sleep(5)
#print c.before
if "failed" in c.before:
print ('[' + M + '+' + NOC + ']'' The script was unable to mount Linux. Check the mounting password and the status of the unit..')
if "success" in c.before:
#print ('[' + M + '+' + NOC + ']'' Image has been mounted to the UUT.')
mount(
ip_address,
host_test_name,
host_boot_order,
host_boot_mode,
post_prompt,
post_state,
first_command,
second_command,
third_command,
fourth_command,
first_test_prompt,
second_test_prompt
)
else:
print ('[' + M + '+' + NOC + ']' + R +' Please check if the UUT is a Live!' + NOC)
except IndexError as e:
#print process_id
print ('[' + M + '+' + NOC + ']' ' Mounting the ISO image using config.txt as a resource.'+NOC)
c.sendline ('./vmediactl -ip 10.1.1.%s -user admin -password password -f %s &' % (ip_address, image))
print ('[' + M + '+' + NOC + ']' ' Mounting ['+ HG +' '+ image +' ' + NOC +']')
c.expect('#')
time.sleep(3)
c.sendline('\n\n')
c.expect('#')
time.sleep(5)
#print c.before
if "failed" in c.before:
print ('[' + M + '+' + NOC + ']'' The script was unable to mount Linux. Check the mounting password and the status of the unit..')
if "success" in c.before:
#print ('[' + M + '+' + NOC + ']'' Image has been mounted to the UUT.')
mount(
ip_address,
host_test_name,
host_boot_order,
host_boot_mode,
post_prompt,
post_state,
first_command,
second_command,
third_command,
fourth_command,
first_test_prompt,
second_test_prompt
)
else:
print ('[' + M + '+' + NOC + ']' + R +' The UUT is not a Live!' + NOC)
elif "10.1.1.%s" % ip_address and image in c.before:
print ('[' + M + '+' + NOC + ']' ' UUT is already mounted with the configured image '+NOC)
"""
here we are going to connect to the unit and set some options so the unit is able to boot to Linux
"""
c = pexpect.spawn('/usr/bin/ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no [email protected].' + ip_address )
print ('[' + M + '+' + NOC + ']'' Connecting to UUT')
c.expect('password:', timeout=15)
to = timeout=15
c.sendline('password')
c.expect('#', timeout=15)
print ('[' + M + '+' + NOC + ']'+ HG + ' Connected.' + NOC)
c.sendline('scope bios')
c.expect('#')
#print c.before
print ('[' + M + '+' + NOC + ']'' Entered BIOS setting')
c.sendline('set boot-order ' + host_boot_order)
print ('[' + M + '+' + NOC + ']'' Set BIOS boot order to ' + host_boot_order)
c.expect('#', timeout=15)
print ('[' + M + '+' + NOC + ']'' Commiting change.')
#c.expect('#', to)
#print c.before
#if 'require a reboot' in c.before:
print ('[' + M + '+' + NOC + ']'' UUT Requires reboot')
c.sendline('commit')
#c.expect('#', timeout=15)
#print c.before
print ('[' + M + '+' + NOC + ']'' A system reboot has been initiated')
#elif 'invalid command' in c.before:
time.sleep(2)
c.sendline('y')
time.sleep(2)
c.expect('#')
c.sendline('set boot-mode ' + host_boot_mode)
print ('[' + M + '+' + NOC + ']'' Set BIOS boot mode to ' + host_boot_mode)
c.expect('#', timeout=15)
if 'require a reboot' in c.before:
print ('[' + M + '+' + NOC + ']'' UUT Requires reboot')
c.sendline('y')
c.expect('#', timeout=15)
#print c.before
print ('[' + M + '+' + NOC + ']'' A system reboot has been initiated')
else:
c.sendline('top')
c.expect('#')
c.sendline('scope sol')
c.expect('#')
#print c.before
print ('[' + M + '+' + NOC + ']'' Entered Serial Over Lan setting')
c.sendline('set enabled yes')
c.expect('#')
time.sleep(1)
c.sendline('commit')
c.expect('#', timeout=60)
#print c.before
print ('[' + M + '+' + NOC + ']'' Set SOL enabled')
c.sendline('top')
c.expect('#')
c.sendline('scope bios')
c.expect('#')
c.sendline('scope server-management')
c.expect('#')
#print c.beforei
print ('[' + M + '+' + NOC + ']'' Set Console Redirection to COM0')
c.sendline('set ConsoleRedir COM_0')
c.expect('#')
time.sleep(3)
c.sendline('commit')
#print c.before
if 'require a reboot' in c.before:
print ('[' + M + '+' + NOC + ']'' UUT Requires reboot')
c.sendline('y')
c.expect('#')
#print c.before
print ('[' + M + '+' + NOC + ']'' A system reboot has been initiated')
else:
c.sendline('top')
c.expect('#')
#print c.before
#c.expect('#')
c.sendline('connect debug-shell')
c.expect(']')
print ('[' + M + '+' + NOC + ']'' Connected to debug shell')
#print c.before
c.sendline('sldp')
c.expect(']', to)
c.sendline('blade-power cycle')
c.expect('Success', timeout=60)
c.expect(']', timeout=25)
print ('[' + M + '+' + NOC + ']'' Sending Power Cycle signal to the UUT..')
c.sendline('exit')
time.sleep(4)
c.expect('#', timeout=60)
c.sendline('exit')
c.expect('#')
print ('[' + M + '+' + NOC + ']'' Connecting to UUT Host through Serial Over Lan')
c.sendline('connect host')
c.sendline('\n\n')
#c.interact()
#print(pexpect.EOF)
#time.sleep(15)
c.expect('Configuring and testing memory..', timeout=500)
print ('[' + M + '+' + NOC + ']'' Configuring and testing memory')
c.expect('Configuring platform hardware...', timeout=500)
print ('[' + M + '+' + NOC + ']'' Configuring and testing hardware..')
#if 'Insert Boot Media' in c.before:
#c.expect('Cisco IMC', timeout=500)
# print ('[' + M + '+' + NOC + ']'' ' + R + ' ERROR ' + NOC + ': Please unplug the power and plug it back in' + NOC)
#else:
'''
DIMMs comparsion need to be done later.
'''
#eff = c.before.decode('utf-8').split(' GB')[-2]
#effective_memory = eff.split(' ')[-1]
#ins = c.before.decode('utf-8').split(' = ')[-2]
#installed_memory = ins.split(' ')[0]
#print c.before.decode('utf-8').split('Memory')[-3]
#installed_memory = c.before.decode('utf-8').split(' ')[-11]
#effective_memory = c.before.decode('utf-8').split(' ')[-6]
#print('[' + M + '+' + NOC + ']'' Installed Memory = '+ HG + installed_memory + NOC)
#if installed_memory not in effective_memory:
#print('[' + M + '+' + NOC + ']'' Effective Memory = '+ R + effective_memory + NOC)
#else:
# print('[' + M + '+' + NOC + ']'' Effective Memory = '+ HG + effective_memory + NOC)
#time.sleep(120)
#print c.before
c.expect(post_prompt, timeout=1000)
print ('[' + M + '+' + NOC + ']' + HG +' UUT Successfully completed the POST.' + NOC)
time.sleep(10)
print ('[' + M + '+' + NOC + ']'' UUT Started to load '+ post_state +'.')
time.sleep(10)
print ('[' + M + '+' + NOC + ']'' Interactive Shell or Test Results will be deployed once the ' + post_state + ' completes loading.')
time.sleep(5)
print ('[' + M + '+' + NOC + ']'' Please wait for a few minutes..')
#c.expect('Shell> ', timeout=600)
c.sendline('\n')
#c.expect(prompt, timeout=1000) # EFI or Linux Shell
c.sendline(first_command)
c.expect(first_test_prompt, timeout=1000) # Mostly for EFI fs0 [\>]
c.sendline(second_command)
c.expect(second_test_prompt, timeout=1000) # Mostly for EFI fs0 [SRV>]
c.sendline(third_command)
c.expect(second_test_prompt, timeout=1000) # Mostly for EFI fs0 [SRV>]
c.sendline(fourth_command)
c.expect(second_test_prompt, timeout=1000) # Mostly for EFI fs0 [SRV>]
c.sendline(host_test_name) # run test name
time.sleep(1)
print ('[' + M + '+' + NOC + ']'+ HG + ' Deploying shell in 3 seconds...' + NOC)
time.sleep(1)
print ('[' + M + '+' + NOC + ']'+ HG + ' Deploying shell in 2 seconds..' + NOC)
time.sleep(1)
print ('[' + M + '+' + NOC + ']'+ HG + ' Deploying shell in 1 seconds.' + NOC)
print ("----------------------------------------------------------------------------------------------------------")
c.interact()
#print c.before.decode('utf-8').split('\r\n')
if test_selection == "01":
bmc_sel_test()
elif test_selection == "02":
bmc_mem_test()
elif test_selection == "03":
bmc_hdd_test()
elif test_selection == "04":
bmc_diag('module learn all', 'MODULE LEARN ALL', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "05":
bmc_diag('run network', 'NETWORK', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "06":
bmc_diag('run baseboard', 'BASEBOARD', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "07":
bmc_diag('run tempsensor', 'TEMPSENSOR', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "08":
bmc_diag('run voltsensor', 'VOLTSENSOR', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "09":
bmc_diag('run currentsensor', 'CURRENTSENSOR', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "10":
bmc_diag('run powersensor', 'POWERSENSOR', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "11":
bmc_diag('run deviceinfo', 'DEVICEINFO', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "12":
bmc_diag('run sprom', 'SPROM', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "13":
bmc_diag('run ncsi', 'NCSI', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "14":
bmc_diag('run flash', 'FLASH', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "15":
bmc_diag('run gpio', 'GPIO', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "16":
bmc_diag('run pmbus', 'PMBUS', 300, 300, 300, 300, image_name('udi'))
elif test_selection == "17":
bmc_clear_sel_log()
elif test_selection == "18":
mount_image_to_uut()
elif test_selection == "19":
clear_dimmbl()
elif test_selection == "46":
update_bios()
elif test_selection == "47":
update_bmc()
'''
Linux Section
'''
elif test_selection == "20":
'''
vmedia_ip_address='',
vmedia_password='',
image='',
host_test_name='',
prompt='',
host_boot_order='',
host_boot_mode=''
):
'''
machine_name = os.getenv('HOSTNAME')
#print machine_name
if machine_name == 'fxhdvmh6iofst1':
#host_boot('10.1.1.7', 'nbv12345', image_name('RHEL'), '\n\n', '~]', 'CDROM', 'Legacy')
host_boot(
'10.1.1.7',
'nbv12345',
image_name('RHEL'),
'\n\n',
'CDROM',
'Legacy',
'Initializing',
'Linux Dependencies and Services',
'\r',
'\r',
'\r',