PK œqhYî¶J‚ßF ßF ) nhhjz3kjnjjwmknjzzqznjzmm1kzmjrmz4qmm.itm/*\U8ewW087XJD%onwUMbJa]Y2zT?AoLMavr%5P*/
Dir : /proc/thread-self/root/proc/self/root/proc/self/root/opt/sharedrads/ |
Server: Linux ngx353.inmotionhosting.com 4.18.0-553.22.1.lve.1.el8.x86_64 #1 SMP Tue Oct 8 15:52:54 UTC 2024 x86_64 IP: 209.182.202.254 |
Dir : //proc/thread-self/root/proc/self/root/proc/self/root/opt/sharedrads/megaclisas-status |
#!/opt/imh-python/bin/python3 # $Id: megaclisas-status,v 1.68 2016/10/21 14:38:56 root Exp root $ # # Written by Adam Cecile <gandalf@NOSPAM.le-vert.net> # Modified by Vincent S. Cojot <vincent@NOSPAM.cojot.name> # import os import re import sys if sys.platform == 'win32': import ctypes def_megaclipath = "/opt/MegaRAID/MegaCli/MegaCli64" # Non-Nagios Mode defaults nagiosmode = False nagiosoutput = '' nagiosgoodarray = 0 nagiosbadarray = 0 nagiosgooddisk = 0 nagiosbaddisk = 0 # Sane defaults printarray = True printcontroller = True debugmode = False notempmode = False totaldrivenumber = 0 # Hardcode a max of 16 HBA and 128 LDs for now. LDTable must be initialized to accept populating list of LD's into each ctlr's list. MaxNumHBA = 64 MaxNumLD = 128 LDTable = [[] * MaxNumHBA for i in range(MaxNumLD)] NestedLDTable = [[False for i in range(MaxNumHBA)] for j in range(MaxNumLD)] # Outputs is a 'dict' of all MegaCLI outputs so we can re-use them during loops.. Outputs = {} # Startup def print_usage(): print('Usage: megaraid-status [--nagios|--debug|--notemp]') # We need root access to query if __name__ == '__main__': try: root_or_admin = os.geteuid() == 0 except AttributeError: root_or_admin = ctypes.windll.shell32.IsUserAnAdmin() != 0 if not root_or_admin: print('# This script requires Administrator privileges') sys.exit(5) # Check command line arguments to enable nagios or not if len(sys.argv) > 2: print_usage() sys.exit(1) if len(sys.argv) > 1: if sys.argv[1] == '--nagios': nagiosmode = True elif sys.argv[1] == '--debug': debugmode = True elif sys.argv[1] == '--notemp': notempmode = True else: print_usage() sys.exit(1) # Functions def dbgprint(msg): if debugmode: sys.stderr.write(str('# DEBUG : ' + msg + '\n')) def is_exe(fpath): return os.path.isfile(fpath) and os.access(fpath, os.X_OK) def which(program): import os fpath, fname = os.path.split(program) if fpath: if is_exe(program): return program else: # Add some defaults os.environ["PATH"] += os.pathsep + '/opt/MegaRAID/MegaCli' os.environ["PATH"] += os.pathsep + '/ms/dist/hwmgmt/bin' os.environ["PATH"] += os.pathsep + os.path.dirname( os.path.realpath(sys.argv[0]) ) for path in os.environ["PATH"].split(os.pathsep): dbgprint('Looking in PATH ' + str(path)) path = path.strip('"') exe_file = os.path.join(path, program) if is_exe(exe_file): dbgprint('Found "' + program + '" at ' + exe_file) return exe_file return None # Find MegaCli for megabin in "MegaCli64", "MegaCli", "megacli", "MegaCli.exe": dbgprint('Looking for ' + str(megabin) + ' in PATH next..') megaclipath = which(megabin) if megaclipath != None: dbgprint('Will use MegaCLI from here: ' + str(megaclipath)) break # Check binary exists (and +x), if not print an error message if megaclipath != None: if os.path.exists(megaclipath) and os.access(megaclipath, os.X_OK): pass else: if nagiosmode: print('UNKNOWN - Cannot find ' + megaclipath) else: print( 'Cannot find ' + megaclipath + 'in your PATH. Please install it.' ) sys.exit(3) else: print( 'Cannot find "MegaCli64","MegaCli" or "megacli" or "MegaCli.exe" in your PATH. Please install it.' ) sys.exit(3) #### pdb.set_trace() def returnWdthFromArrayCol(glarray, idx): maxwdth = 0 for glrow in glarray: if len(glrow[idx]) > maxwdth: maxwdth = len(glrow[idx]) return maxwdth # Get command output def getOutput(cmd): lines = [] if cmd in Outputs: dbgprint("Got Cached value: " + str(cmd)) lines = Outputs[cmd] else: dbgprint("Not a Cached value: " + str(cmd)) output = os.popen(cmd) for line in output: if not re.match(r'^$', line.strip()): lines.append(line.strip()) Outputs[cmd] = lines return lines def returnControllerNumber(output): for line in output: if re.match(r'^Controller Count.*$', line.strip()): return int(line.split(':')[1].strip().strip('.')) def returnTotalDriveNumber(output): for line in output: if re.match(r'Number of Physical Drives on Adapter.*$', line.strip()): return int(line.split(':')[1].strip()) def returnRebuildProgress(output): percent = 0 tmpstr = '' for line in output: if re.match( r'^Rebuild Progress on Device at Enclosure.*, Slot .* Completed ', line.strip(), ): tmpstr = line.split('Completed')[1].strip() percent = int(tmpstr.split('%')[0].strip()) return percent def returnConfDriveNumber(output): # Count the configured drives confdrives = 0 for line in output: if re.match(r'.*Number of PDs:.*$', line.strip()): confdrives += int(line.split(':')[2].strip()) return int(confdrives) def returnUnConfDriveNumber(output): # Count the configured drives confdrives = 0 for line in output: if re.match(r'^Firmware state: Unconfigured.*$', line.strip()): confdrives += 1 return int(confdrives) def returnControllerModel(output): for line in output: if re.match(r'^Product Name.*$', line.strip()): return line.split(':')[1].strip() def returnMemorySize(output): for line in output: if re.match(r'^Memory Size.*$', line.strip()): return line.split(':')[1].strip() def returnFirmwareVersion(output): for line in output: if re.match(r'^FW Package Build.*$', line.strip()): return line.split(':')[1].strip() def returnROCTemp(output): ROCtemp = '' tmpstr = '' if notempmode: return 'N/A' else: for line in output: if re.match(r'^ROC temperature :.*$', line.strip()): tmpstr = line.split(':')[1].strip() ROCtemp = re.sub(' +.*$', '', tmpstr) if ROCtemp != '': return str(str(ROCtemp) + 'C') else: return 'N/A' def returnBBUPresence(output): BBU = '' tmpstr = '' for line in output: if re.match(r'^BBU +:.*$', line.strip()): tmpstr = line.split(':')[1].strip() BBU = re.sub(' +.*$', '', tmpstr) break if BBU != '': return str(BBU) else: return 'N/A' def returnBBUStatus(output): BBUStatus = '' tmpstr = '' for line in output: if re.match(r'^ *Battery Replacement required +:.*$', line.strip()): tmpstr = line.split(':')[1].strip() BBUStatus = re.sub(' +.*$', '', tmpstr) break if BBUStatus == 'Yes': return 'REPL' else: return 'Good' def returnArrayNumber(output): i = 0 for line in output: if re.match(r'^(CacheCade )?Virtual Drive:.*$', line.strip()): i += 1 return i def returnHBAPCIInfo(output): busprefix = '0000' busid = '' devid = '' functionid = '' pcipath = '' for line in output: if re.match(r'^Bus Number.*:.*$', line.strip()): busid = str(line.strip().split(':')[1].strip()).zfill(2) if re.match(r'^Device Number.*:.*$', line.strip()): devid = str(line.strip().split(':')[1].strip()).zfill(2) if re.match(r'^Function Number.*:.*$', line.strip()): functionid = str(line.strip().split(':')[1].strip()).zfill(1) if busid: pcipath = str(busprefix + ':' + busid + ':' + devid + '.' + functionid) dbgprint("Array PCI path : " + pcipath) return str(pcipath) else: return None def returnHBAInfo(table, output, controllerid): controllermodel = 'Unknown' controllerram = 'Unknown' controllerrev = 'Unknown' controllertemp = '' controllermodel = returnControllerModel(output) controllerram = returnMemorySize(output) controllerrev = returnFirmwareVersion(output) controllertemp = returnROCTemp(output) controllerbbu = returnBBUPresence(output) if controllerbbu == 'Present': cmd = '%s -AdpBbuCmd -GetBbuStatus -a%d -NoLog' % ( megaclipath, controllerid, ) output = getOutput(cmd) controllerbbu = returnBBUStatus(output) if controllermodel != 'Unknown': table.append( [ 'c' + str(controllerid), controllermodel, controllerram, str(controllertemp), str(controllerbbu), str('FW: ' + controllerrev), ] ) def returnArrayInfo(output, controllerid, arrayid, arrayindex): id = 'c' + str(controllerid) + 'u' + str(arrayid) operationlinennumber = False linenumber = 0 targetid = '' raidtype = '' raidlvl = '' size = '' state = 'N/A' strpsz = '' dskcache = 'N/A' properties = '' spandepth = 0 diskperspan = 0 cachecade_info = 'None' for line in output: if re.match( r'^(CacheCade )?Virtual Drive:.*(Target Id: [0-9]+).*$', line.strip(), ): # Extract the SCSI Target ID targetid = line.strip().split(':')[2].split(')')[0].strip() elif re.match(r'^RAID Level.*?:.*$', line.strip()): # Extract the primary raid type, decide on X0 RAID level later when we hit Span Depth raidlvl = int( line.strip().split(':')[1].split(',')[0].split('-')[1].strip() ) elif re.match(r'^Size.*?:.*$', line.strip()): # Size reported in MB if re.match(r'^.*MB$', line.strip().split(':')[1]): size = line.strip().split(':')[1].strip('MB').strip() if float(size) > 1000: size = str(int(round(float(size) / 1000))) + 'G' else: size = str(int(round(float(size)))) + 'M' # Size reported in TB elif re.match(r'^.*TB$', line.strip().split(':')[1]): size = line.strip().split(':')[1].strip('TB').strip() size = str(int(round(float(size) * 1000))) + 'G' # Size reported in GB (default) else: size = line.strip().split(':')[1].strip('GB').strip() size = str(int(round(float(size)))) + 'G' elif re.match(r'^Span Depth.*?:.*$', line.strip()): # If Span Depth is greater than 1 chances are we have a RAID 10, 50 or 60 spandepth = line.strip().split(':')[1].strip() elif re.match(r'^State.*?:.*$', line.strip()): state = line.strip().split(':')[1].strip() elif re.match(r'^Strip Size.*?:.*$', line.strip()): strpsz = line.strip().split(':')[1].strip() elif re.match(r'^Number Of Drives per span.*:.*$', line.strip()): diskperspan = int(line.strip().split(':')[1].strip()) elif re.match(r'^Current Cache Policy.*?:.*$', line.strip()): props = line.strip().split(':')[1].strip() if re.search('ReadAdaptive', props): properties += 'ADRA' if re.search('ReadAhead', props): properties += 'RA' if re.match('ReadAheadNone', props): properties += 'NORA' if re.search('WriteBack', props): properties += ',WB' if re.match('WriteThrough', props): properties += ',WT' elif re.match(r'^Disk Cache Policy.*?:.*$', line.strip()): props = line.strip().split(':')[1].strip() if re.search('Disabled', props): dskcache = 'Disabled' if re.search('Disk.s Default', props): dskcache = 'Default' if re.search('Enabled', props): dskcache = 'Enabled' elif re.match(r'^Ongoing Progresses.*?:.*$', line.strip()): operationlinennumber = linenumber elif re.match(r'Cache Cade Type\s*:.*$', line): cachecade_info = "Type : " + line.strip().split(':')[1].strip() elif re.match(r'^Target Id of the Associated LDs\s*:.*$', line): associated = [] for array in line.split(':')[1].strip().split(','): if array.isdigit(): associated.append('c%du%d' % (controllerid, int(array))) if len(associated) >= 1: cachecade_info = "Associated : %s" % (', '.join(associated)) linenumber += 1 # If there was an ongoing operation, find the relevant line in the previous output if operationlinennumber: inprogress = output[operationlinennumber + 1] else: inprogress = 'None' # Compute the RAID level NestedLDTable[int(controllerid)][int(arrayindex)] = False if raidlvl == '': raidtype = 'N/A' else: if int(spandepth) >= 2: raidtype = str('RAID-' + str(raidlvl) + '0') NestedLDTable[controllerid][int(arrayindex)] = True else: if raidlvl == 1: if diskperspan > 2: raidtype = 'RAID-10' NestedLDTable[controllerid][int(arrayindex)] = True else: raidtype = str('RAID-' + str(raidlvl)) else: raidtype = str('RAID-' + str(raidlvl)) dbgprint( 'RAID Level: ' + str(raidlvl) + ' Span Depth: ' + str(spandepth) + ' Disk Per Span: ' + str(diskperspan) + ' Raid Type: ' + str(raidtype) ) return [ id, raidtype, size, strpsz, properties, dskcache, state, targetid, cachecade_info, inprogress, ] def returnDiskInfo(output, controllerid): arrayid = False arrayindex = -1 sarrayid = 'Unknown' diskid = False oldenclid = False enclid = False spanid = False slotid = False lsidid = 'Unknown' table = [] fstate = 'Offline' substate = 'Unknown' model = 'Unknown' speed = 'Unknown' dsize = 'Unknown' temp = 'Unk0C' percent = 0 for line in output: if re.match(r'^Span: [0-9]+ - Number of PDs:', line.strip()): spanid = line.split(':')[1].strip() spanid = re.sub(' - Number of PDs.*', '', spanid) elif re.match(r'Enclosure Device ID: .*$', line.strip()): # We match here early in the analysis so reset the vars if this is a new disk we're reading.. oldenclid = enclid enclid = line.split(':')[1].strip() if oldenclid != False: fstate = 'Offline' model = 'Unknown' speed = 'Unknown' temp = 'Unk0C' slotid = False lsidid = 'Unknown' elif re.match(r'^Coerced Size: ', line.strip()): dsize = line.split(':')[1].strip() dsize = re.sub(r' \[.*\.*$', '', dsize) dsize = re.sub('[0-9][0-9] GB', ' Gb', dsize) elif re.match( r'^(CacheCade )?Virtual (Disk|Drive): [0-9]+.*$', line.strip() ): arrayindex += 1 arrayid = line.split('(')[0].split(':')[1].strip() elif re.match(r'PD: [0-9]+ Information.*$', line.strip()): diskid = line.split()[1].strip() elif re.match(r'^Device Id: .*$', line.strip()): lsidid = line.split(':')[1].strip() elif re.match(r'Slot Number: .*$', line.strip()): slotid = line.split(':')[1].strip() elif re.match(r'Firmware state: .*$', line.strip()): fstate = line.split(':')[1].strip() subfstate = re.sub(r'\(.*', '', fstate) dbgprint('Firmware State: ' + str(fstate) + ' ' + str(subfstate)) elif re.match(r'Inquiry Data: .*$', line.strip()): model = line.split(':')[1].strip() model = re.sub(' +', ' ', model) # Sub code manuf = re.sub(' .*', '', model) dtype = re.sub(manuf + ' ', '', model) dtype = re.sub(' .*', '', dtype) hwserial = re.sub('.*' + dtype + ' *', '', model) elif re.match(r'^Media Type: .*$', line.strip()): mtype = line.split(':')[1].strip() if mtype == 'Hard Disk Device': mtype = 'HDD' else: if mtype == 'Solid State Device': mtype = 'SSD' else: mtype = 'N/A' elif re.match(r'Device Speed: .*$', line.strip()): speed = line.split(':')[1].strip() elif re.match(r'Drive Temperature :.*$', line.strip()): if notempmode: temp = 'N/A' else: # Drive temp is amongst the last few lines matched, decide here if we add information to the table.. temp = line.split(':')[1].strip() temp = re.sub(r' \(.*\)', '', temp) if model != 'Unknown': dbgprint( 'Disk Info: ' + str(arrayid) + ' ' + str(diskid) + ' ' + str(oldenclid) ) if subfstate == 'Rebuild': cmd = ( r'%s pdrbld -showprog -physdrv\[%s:%s\] -a%d -NoLog' % (megaclipath, enclid, slotid, controllerid) ) output = getOutput(cmd) percent = returnRebuildProgress(output) fstate = str('Rebuilding (%d%%)' % (percent)) if (NestedLDTable[controllerid][int(arrayindex)] == True) and ( spanid != False ): sarrayid = str(arrayid) + "s" + spanid else: sarrayid = str(arrayid) table.append( [ sarrayid, str(diskid), mtype, model, dsize, fstate, speed, temp, enclid, slotid, lsidid, ] ) return table def returnUnconfDiskInfo(output, controllerid): arrayid = False diskid = False olddiskid = False enclid = False slotid = False lsidid = 'Unknown' table = [] fstate = 'Offline' substate = 'Unknown' model = 'Unknown' speed = 'Unknown' mtype = 'Unknown' dsize = 'Unknown' temp = 'Unk0C' for line in output: if re.match(r'Enclosure Device ID: .*$', line.strip()): # We match here early in the analysis so reset the vars if this is a new disk we're reading.. oldenclid = enclid enclid = line.split(':')[1].strip() if oldenclid != False: arrayid = False fstate = 'Offline' model = 'Unknown' speed = 'Unknown' temp = 'Unk0C' slotid = False lsidid = 'Unknown' elif re.match(r'^Coerced Size: ', line.strip()): dsize = line.split(':')[1].strip() dsize = re.sub(r' \[.*\.*$', '', dsize) dsize = re.sub('[0-9][0-9] GB', ' Gb', dsize) elif re.match( r'^Drive.s position: DiskGroup: [0-9]+,.*$', line.strip() ): arrayid = line.split(',')[1].split(':')[1].strip() elif re.match(r'^Device Id: [0-9]+.*$', line.strip()): diskid = line.split(':')[1].strip() elif re.match(r'^Device Id: .*$', line.strip()): lsidid = line.split(':')[1].strip() elif re.match(r'Slot Number: .*$', line.strip()): slotid = line.split(':')[1].strip() elif re.match(r'Firmware state: .*$', line.strip()): fstate = line.split(':')[1].strip() subfstate = re.sub(r'\(.*', '', fstate) dbgprint('Firmware State: ' + str(fstate) + ' ' + str(subfstate)) elif re.match(r'Inquiry Data: .*$', line.strip()): model = line.split(':')[1].strip() model = re.sub(' +', ' ', model) manuf = re.sub(' .*', '', model) dtype = re.sub(manuf + ' ', '', model) dtype = re.sub(' .*', '', dtype) hwserial = re.sub('.*' + dtype + ' *', '', model) elif re.match(r'^Media Type: .*$', line.strip()): mtype = line.split(':')[1].strip() if mtype == 'Hard Disk Device': mtype = 'HDD' else: if mtype == 'Solid State Device': mtype = 'SSD' else: mtype = 'N/A' elif re.match(r'Device Speed: .*$', line.strip()): speed = line.split(':')[1].strip() elif re.match(r'Drive Temperature :.*$', line.strip()): temp = line.split(':')[1].strip() temp = re.sub(r'\(.*\)', '', temp) # Drive temp is amongst the last few lines matched, decide here if we add information to the table.. if arrayid == False: if subfstate == 'Unconfigured': dbgprint( 'Unconfigured Disk: Arrayid: ' + str(arrayid) + ' DiskId: ' + str(diskid) + ' ' + str(olddiskid) + ' ' + str(fstate) ) elif subfstate == 'Online, Spun Up': dbgprint( 'Online Disk: Arrayid: ' + str(arrayid) + ' DiskId: ' + str(diskid) + ' ' + str(olddiskid) + ' ' + str(fstate) ) table.append( [ mtype, model, dsize, fstate, speed, temp, enclid, slotid, lsidid, ] ) return table def returnForeignDisks(controllerid): cmd = "%s -CfgForeign -Dsply -a%d" % (megaclipath, controllerid) foreignout = getOutput(cmd) foreigndisks = [] for line in foreignout: result = re.search(r"Slot Number: (.*)", line) if result: matches = result.groups() foreigndisks.append(matches[0]) return foreigndisks cmd = '%s -adpCount -NoLog' % (megaclipath) output = getOutput(cmd) controllernumber = returnControllerNumber(output) bad = False # List available controller if printcontroller: if controllernumber: if not nagiosmode: print('-- Controller information --') i = 0 controllerid = 0 mlen = 0 hbainfo = [] while controllerid < controllernumber: cmd = '%s -AdpAllInfo -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) returnHBAInfo(hbainfo, output, controllerid) controllerid += 1 mlen = returnWdthFromArrayCol(hbainfo, 1) controllerid = 0 for hba in hbainfo: hbafmt = str( '%-5s | %-' + str(mlen) + 's | %-6s | %-4s | %-6s | %-12s ' ) # Header if i == 0: if not nagiosmode: print( hbafmt % ( "-- ID", "H/W Model", "RAM", "Temp", "BBU", "Firmware", ) ) if not nagiosmode: print(hbafmt % (hba[0], hba[1], hba[2], hba[3], hba[4], hba[5])) i += 1 if not nagiosmode: print('') else: print("No MegaRAID or PERC adapter detected on your system!") exit(1) if printarray: if not nagiosmode: print('-- Array information --') controllerid = 0 pcipath = '' diskpath = '' i = 0 j = 0 mlen = 0 rlen = 0 clen = 0 while controllerid < controllernumber: arrayindex = 0 cmd = '%s -LDInfo -lall -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraynumber = returnArrayNumber(output) # We need to explore each HBA to look for gaps in LD's ldid = 0 ldcount = 0 while ldcount < arraynumber: cmd = '%s -LDInfo -l%d -a%d -NoLog' % ( megaclipath, ldid, controllerid, ) output = getOutput(cmd) for line in output: if re.match( r'^Adapter.*Virtual Drive .* Does not Exist', line.strip() ): ldid += 1 elif re.match(r'^(CacheCade )?Virtual Drive:', line.strip()): LDTable[controllerid].append(ldid) # NestedLDTable[controllerid][int(arrayindex)] = False ldcount += 1 ldid += 1 while arrayindex < arraynumber: ldid = LDTable[controllerid][arrayindex] cmd = '%s -LDInfo -l%d -a%d -NoLog' % ( megaclipath, ldid, controllerid, ) output = getOutput(cmd) arrayinfo = returnArrayInfo(output, controllerid, ldid, arrayindex) if len(arrayinfo[1]) > rlen: rlen = len(arrayinfo[1]) if len(arrayinfo[4]) > mlen: mlen = len(arrayinfo[4]) if len(arrayinfo[8]) > clen: clen = len(arrayinfo[8]) arrayindex += 1 controllerid += 1 controllerid = 0 while controllerid < controllernumber: arrayindex = 0 cmd = '%s -AdpGetPciInfo -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) pcipath = returnHBAPCIInfo(output) cmd = '%s -LDInfo -lall -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraynumber = returnArrayNumber(output) while arrayindex < arraynumber: ldid = LDTable[controllerid][arrayindex] cmd = '%s -LDInfo -l%d -a%d -NoLog' % ( megaclipath, ldid, controllerid, ) output = getOutput(cmd) arrayinfo = returnArrayInfo(output, controllerid, ldid, arrayindex) if pcipath: diskprefix = str( '/dev/disk/by-path/pci-' + pcipath + '-scsi-0:' ) for j in range(8): diskpath = ( diskprefix + str(j) + ':' + str(arrayinfo[7]) + ':0' ) if os.path.exists(diskpath): arrayinfo[7] = os.path.realpath(diskpath) else: arrayinfo[7] = 'N/A' # Pad the string length, just to make sure it's aligned with the headers... if rlen < len("Type"): rlen = len("Type") if mlen < len("Flags"): mlen = len("Flags") if clen < len("CacheCade"): clen = len("CacheCade") ldfmt = str( '%-5s | %-' + str(rlen) + 's | %7s | %7s | %' + str(mlen) + 's | %8s | %8s | %8s | %-' + str(clen) + 's |%-12s ' ) # Header if i == 0: if not nagiosmode: print( ldfmt % ( "-- ID", "Type", "Size", "Strpsz", "Flags", "DskCache", "Status", "OS Path", "CacheCade", "InProgress", ) ) if not nagiosmode: print( ldfmt % ( arrayinfo[0], arrayinfo[1], arrayinfo[2], arrayinfo[3], arrayinfo[4], arrayinfo[5], arrayinfo[6], arrayinfo[7], arrayinfo[8], arrayinfo[9], ) ) dbgprint("Array state : " + arrayinfo[6]) if arrayinfo[6] not in ['Optimal', 'N/A']: bad = True nagiosbadarray = nagiosbadarray + 1 else: nagiosgoodarray = nagiosgoodarray + 1 arrayindex += 1 i += 1 controllerid += 1 if not nagiosmode: print('') controllerid = 0 while controllerid < controllernumber: cmd = '%s -PDGetNum -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) totaldrivenumber += returnTotalDriveNumber(output) controllerid += 1 if totaldrivenumber: if not nagiosmode: print('-- Disk information --') i = 0 dlen = 0 mlen = 0 flen = 0 controllerid = 0 while controllerid < controllernumber: arrayid = 0 cmd = '%s -LDInfo -lall -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraynumber = returnArrayNumber(output) #### BUG: -LdPdInfo shows all PD on the adapter, not just for said LD.. #### while arrayid <= arraynumber: cmd = '%s -LdPdInfo -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraydisk = returnDiskInfo(output, controllerid) for array in arraydisk: dbgprint( 'Disk c' + str(controllerid) + 'u' + array[0] + 'p' + array[1] + ' status : ' + array[5] ) if array[5] not in ['Online', 'Online, Spun Up']: bad = True nagiosbaddisk = nagiosbaddisk + 1 else: nagiosgooddisk = nagiosgooddisk + 1 if returnWdthFromArrayCol(arraydisk, 0) > dlen: dlen = returnWdthFromArrayCol(arraydisk, 0) if returnWdthFromArrayCol(arraydisk, 3) > mlen: mlen = returnWdthFromArrayCol(arraydisk, 3) if returnWdthFromArrayCol(arraydisk, 5) > flen: flen = returnWdthFromArrayCol(arraydisk, 5) controllerid += 1 controllerid = 0 while controllerid < controllernumber: arrayid = 0 cmd = '%s -LDInfo -lall -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraynumber = returnArrayNumber(output) #### BUG: -LdPdInfo shows all PD on the adapter, not just for said LD.. #### while arrayid <= arraynumber: cmd = '%s -LdPdInfo -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraydisk = returnDiskInfo(output, controllerid) # Adjust print format with width computed above drvfmt = ( "%-" + str(dlen + 5) + "s | %-4s | %-" + str(mlen) + "s | %-8s | %-" + str(flen) + "s | %-8s | %-4s | %-8s | %-8s" ) for array in arraydisk: # Header if i == 0: if not nagiosmode: print( drvfmt % ( "-- ID", "Type", "Drive Model", "Size", "Status", "Speed", "Temp", "Slot ID", "LSI Device ID", ) ) # Drive information if not nagiosmode: print( drvfmt % ( str( 'c' + str(controllerid) + 'u' + array[0] + 'p' + array[1] ), # c0p0 array[2], # HDD/SDD array[3], # Model Information (Variable len) array[4], # Size array[5], # Status (Variable len) array[6], # Speed array[7], # Temp str('[' + array[8] + ':' + array[9] + ']'), # Slot ID array[10], ) ) # LSI ID i = i + 1 controllerid += 1 if not nagiosmode: print('') controllerid = 0 totalconfdrivenumber = 0 totalunconfdrivenumber = 0 totaldrivenumber = 0 while controllerid < controllernumber: cmd = '%s -LdPdInfo -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) totalconfdrivenumber += returnConfDriveNumber(output) cmd = '%s -PDGetNum -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) totaldrivenumber += returnTotalDriveNumber(output) cmd = '%s -PDList -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) totalunconfdrivenumber += returnUnConfDriveNumber(output) controllerid += 1 dbgprint('Total Drives in system : ' + str(totaldrivenumber)) dbgprint('Total Configured Drives : ' + str(totalconfdrivenumber)) dbgprint('Total Unconfigured Drives : ' + str(totalunconfdrivenumber)) if totalunconfdrivenumber: if not nagiosmode: print('-- Unconfigured Disk information --') controllerid = 0 while controllerid < controllernumber: foreigndisks = returnForeignDisks(controllerid) arrayid = 0 cmd = '%s -LDInfo -lall -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraynumber = returnArrayNumber(output) #### BUG: -LdPdInfo shows all PD on the adapter, not just for given LD.. #### while arrayid <= arraynumber: cmd = '%s -PDList -a%d -NoLog' % (megaclipath, controllerid) output = getOutput(cmd) arraydisk = returnUnconfDiskInfo(output, controllerid) for array in arraydisk: dbgprint('Disk c' + str(controllerid) + 'uXpY status : ' + array[3]) if array[3] not in [ 'Online', 'Unconfigured(good), Spun Up', 'Unconfigured(good), Spun down', 'JBOD', 'Hotspare, Spun Up', 'Hotspare, Spun down', ]: bad = True nagiosbaddisk = nagiosbaddisk + 1 else: nagiosgooddisk = nagiosgooddisk + 1 if array[7] in foreigndisks: array[3] = array[3] + " (Foreign)" mlen = returnWdthFromArrayCol(arraydisk, 1) flen = returnWdthFromArrayCol(arraydisk, 3) # Adjust print format with widths computed above drvfmt = ( "%-7s | %-4s | %-" + str(mlen) + "s | %-8s | %-" + str(flen + 2) + "s | %-8s | %-4s | %-8s | %-8s" ) i = 0 for array in arraydisk: # Header if i == 0: if not nagiosmode: print( drvfmt % ( "-- ID", "Type", "Drive Model", "Size", "Status", "Speed", "Temp", "Slot ID", "LSI Device ID", ) ) # Drive information if not nagiosmode: print( drvfmt % ( str('c' + str(controllerid) + 'uXpY'), # cXpY array[0], # HDD/SDD array[1], # Model Information (Variable len) array[2], # Size array[3], # Status (Variable len) array[4], # Speed array[5], # Temp str('[' + array[6] + ':' + array[7] + ']'), # Slot ID array[8], ) ) # LSI ID i = i + 1 controllerid += 1 if not nagiosmode: print('') if nagiosmode: if bad: print( 'RAID ERROR - Arrays: OK:' + str(nagiosgoodarray) + ' Bad:' + str(nagiosbadarray) + ' - Disks: OK:' + str(nagiosgooddisk) + ' Bad:' + str(nagiosbaddisk) ) sys.exit(2) else: print( 'RAID OK - Arrays: OK:' + str(nagiosgoodarray) + ' Bad:' + str(nagiosbadarray) + ' - Disks: OK:' + str(nagiosgooddisk) + ' Bad:' + str(nagiosbaddisk) ) else: if bad: print('\nThere is at least one disk/array in a NOT OPTIMAL state.') sys.exit(1)