#!/usr/bin/perl
# IBM_PROLOG_BEGIN_TAG 
# This is an automatically generated prolog. 
#  
#  
#  
# Licensed Materials - Property of IBM 
#  
# (C) COPYRIGHT International Business Machines Corp. 2008 
# All Rights Reserved 
#  
# US Government Users Restricted Rights - Use, duplication or 
# disclosure restricted by GSA ADP Schedule Contract with IBM Corp. 
#  
# IBM_PROLOG_END_TAG 


###########################################################################
#                                                                         #
# Command: annotatelog                                                    #
#                                                                         #
#-------------------------------------------------------------------------#
#    This xCAT script is used to parse the QLogic log entries in file 
#    /var/log/xcat/errorlog/[xCAT Management Nodes] on CSM Management 
#    Node by subnet manager, IB node, chassis, FRU(Field-Replaceable Unit) or a 
#    particular node. This script is supported by both AIX and Linux MN.
#    From xCAT's point of view, the log to analyze must be xCAT 
#    consolidated log, which means this log file must come from xCAT 
#    syslog/errorlog monitoring mechanism, such as
#    /var/log/xcat/errorlog/[xCAT Management Nodes] file. Since the log format
#    is various, xCAT do not support other log files.
#    Command Syntax:
#    annotatelog -f log_file [-s start_time] [-e end_time]
#                { [-i -g guid_file -l link_file] [-S] [-c] [-u]| [-a -g guid_file -l link_file]}
#                {[-n node_list -g guid_file] [-E]}
#                [-h]
#
#        -A       Output the combination of -i, -S, -c and -u. It should be used with -g and -l flags.
#        -f log_file
#                 Specifies a log file fullpath name to analyze.
#                 Must be xCAT consolidated log got from Qlogic HSM or ESM.
#        -s start_time
#                 Specifies the start time for analysis, where the start_time
#                 variable has the format ddmmyyhh:mm:ss (day, month, year, 
#                 hour, minute, and second), 00:00:00 is valid.
#        -e end_time
#                 Specifies the end time for analysis, where the end_time 
#                 variable has the format ddmmyyhh:mm:ss (day, month, year, 
#                 hour, minute, and second), 00:00:00 is valid.
#        -l link_file
#                 Specifies a link file fullpath name, which concatenates all
#                 '/var/opt/iba/analysis/baseline/fabric*links' files from all fabric management nodes.
#        -g guid_file
#                 Specifies a guid file fullpath name, which has a list of 
#                 GUIDs as obtained from the "getGuids" script.
#        -E       Annotate with node ERRLOG_ON and ERRLOG_OFF information. This
#                 can help determine if a disappearance was caused by a node
#                 disappearing. It is for AIX nodes only and should be used with -x or -n flag.
#        -S       Sort the log entries by subnet manager only.
#        -i       Sort the log entries by IB node only.
#        -c       Sort the log entries by chassis only.
#        -u       Sort the log entries by FRU only.
#        -n node_list
#                 Specifies a comma-separated list of node host names, IP addresses to look up in log entries.
#        -h       Display usage information.
# Exit codes:
#     0 - success
#     1 - fail
###########################################################################

use strict;
use Getopt::Long;
use Time::Local;

#Maps between HCA adapter and connector
%::HCAMAP = (
        "iba0_lsw1" => "C65-T1 (HV=Cx-T1)", "iba0_lsw2" => "C65-T2 (HV=Cx-T2)",
        "iba1_lsw1" => "C65-T3", "iba1_lsw2" => "C65-T4",
        "iba2_lsw1" => "C66-T1", "iba2_lsw2" => "C66-T2",
        "iba3_lsw1" => "C66-T3", "iba3_lsw2" => "C66-T4",
        "ehca0_lsw1" => "C65-T1 (HV=Cx-T1)", "ehca0_lsw2" => "C65-T2 (HV=Cx-T2)",
        "ehca1_lsw1" => "C65-T3", "ehca1_lsw2" => "C65-T4",
        "ehca2_lsw1" => "C66-T1", "ehca2_lsw2" => "C66-T2",
        "ehca3_lsw1" => "C66-T3", "ehca3_lsw2" => "C66-T4",
);

$::OK = 0;
$::NOK = 1;
$::SHSEP = "###############################################################################";
$::DASEP = "-------------------------------------------------------------------------------";

#Logs sorted by kinds of method
%::SMLOGS;
%::FRULOGS;
%::CHASSISLOGS;
%::NODELOGS;
%::NODELOGSBYNAME;
%::OTHERLOGS;
#The start time and end time of logs that will be analyzed
$::Start_Epoch;
$::End_Epoch;
#Record the relationship between guid and it's information 
%::GUIDS;
#Record links between HCA and Switch and links between Switch and Swtich 
%::HCALinks;
#ERRLOG_ON and ERRLOG_OFF information
%::ELOGON;
%::ELOGOFF;
#Information related with a node
%::NodeInfo;
#List of nodes that their logs will be analyzed
@::NodeList;

# MAIN Main main#
&getArgs();
&getLogs($::LOG_FILE);
&outputLogs();
exit $::OK;

#--------------------------------------------------------------------------------

=head3  getArgs
        Parse the command line and check the values
        Notes:
=cut

#--------------------------------------------------------------------------------
sub getArgs()
{
    $Getopt::Long::ignorecase = 0;
    if (
        !GetOptions(
                    'h'      => \$::HELP,
                    'A'      => \$::ALL,
                    'f=s'    => \$::LOG_FILE,
                    's=s'    => \$::START_TIME,
                    'e=s'    => \$::END_TIME,
                    'g=s'    => \$::GUIDS_FILE,
                    'l=s'    => \$::LINKS_FILE,
                    'E'      => \$::ERRLOG,
                    'S'      => \$::SM,
                    'i'      => \$::IBNODE,
                    'c'      => \$::CHASSIS,
                    'u'      => \$::FRU,
                    'n=s'    => \$::NODE_LIST
         )
       )
    {
        usage();
    	exit $::NOK;
    }
    if ( $::HELP == 1 )
    {
        usage();
        exit $::OK;
    }
    if ( $::LOG_FILE eq "" )
    {
        print "Please use \"-f\" to specify a log file.";
        usage();
    	exit $::NOK;
    }

    if ( $::SM == 0 && $::IBNODE == 0 && $::CHASSIS == 0 && $::FRU == 0 && $::NODE_LIST eq "")
    {
        #If there is no flag specified, -A is default
        $::ALL = 1;
    }
    
    if ( $::ALL == 1 && ($::SM == 1 || $::IBNODE == 1 || $::CHASSIS == 1 || $::FRU == 1))
    {
        print "The flag -i, -S, -c or -u should not be used with -A.";
        usage();
    	exit $::NOK;
    }

    if ( ($::ALL == 1 || $::IBNODE == 1) && ( $::GUIDS_FILE eq "" || $::LINKS_FILE eq ""))
    {
        print "The -g flag and -l flag should be used with -a or -i flag.\n";
        usage();
    	exit $::NOK;
    }

    if ( $::ERRLOG == 1 && ( $::IBNODE == 0 && $::ALL == 0 && $::NODE_LIST eq "") )
    {
        print "The -E flag should be used with -n or -i or -a flag.\n";
        usage();
    	exit $::NOK;
    }
    
    if ( $::NODE_LIST ne "" && $::GUIDS_FILE eq "" )
    {
        print "The -n flag should be used with -g flag.\n";
        usage();
    	exit $::NOK;
    }
    
    if ( $::NODE_LIST ne "")
    {
        @::NodeList = split /,/, $::NODE_LIST;
        #List all nodes in Managed or MinManaged mode
        my @AllNodes = `nodels`; chomp @AllNodes;
        my @NotDefinedNodes;
    	foreach my $node (@::NodeList)
        {
            #If there are IP addresses in NodeList, convert IP to hostname first
            if (isIpaddr($node))
            {
                my ($hostname, $ip) = getHost($node);
                $node = $hostname;
            }
            #Check nodes in NodeList and find those that are not defined in CSM database or not in Managed or MinManaged mode
            if (!(grep {$_ =~ /$node/} @AllNodes))
            {
                push (@NotDefinedNodes, $node);
                next;
            }
    	}
        if (scalar(@NotDefinedNodes))
        {
            my $badnodes = join ",", @NotDefinedNodes;
            print "Could not find Managed Node(s) $badnodes in the node database.  Run lsnode -w \"Mode='Managed' or Mode='MinManaged'\" to see the list of valid node names.\n";
            exit $::NOK;
        }
    }

    if ( $::GUIDS_FILE ne "" ) { %::GUIDS = getGUIDs($::GUIDS_FILE); }
    if ( $::LINKS_FILE ne "" ) { %::HCALinks = getHCALinks($::LINKS_FILE); }

    if ( $::START_TIME ne "" )
    {
        $::Start_Epoch = epochTime($::START_TIME);
    }
    else
    {
        $::Start_Epoch = 0;
    }

    if ( $::END_TIME ne "" )
    {
        $::End_Epoch = epochTime($::END_TIME);
    }
    else
    {
        undef $::End_Epoch;
    }
}

#-------------------------------------------------------------------------------
-

=head3    isIpaddr

    returns 1 if parameter is has a valid IP address form.

    Arguments:
        dot qulaified IP address: e.g. 1.2.3.4
    Returns:
        1 - if legal IP address
        0 - if not legal IP address.
    Globals:
        none
    Error:
        none
    Example:
         if ($ipAddr) { blah; }
    Comments:
        Doesn't test if the IP address is on the network,
        just tests its form.

=cut

#-------------------------------------------------------------------------------
-
sub isIpaddr
{
    my ($class, $addr) = @_;

    #print "addr=$addr\n";
    if ($addr !~ /^(\d+)\.(\d+)\.(\d+)\.(\d+)$/)
    {
        return 0;
    }

    if ($1 > 255 || $1 == 0 || $2 > 255 || $3 > 255 || $4 > 255)
    {
        return 0;
    }
    else
    {
        return 1;
    }
}

#-------------------------------------------------------------------------------
-

#-------------------------------------------------------------------------------
-

=head3    getHost

    Return primary hostname and ip address for the given hostname or
    ip address and die if hostname resolution fails.

    Arguments:
        A string: either an Ip Address or a HostName.
    Returns:
         ($nodename, $nodeip) as strings
    Error:
        returns 0;
    Example:
        my ($nodename, $nodeip) = getHost($node);
    Comments:
        none

=cut

#-------------------------------------------------------------------------------
-

sub getHost
{
    my ($class, $arg, $live) = @_;

    #print "arg=$arg\n";
    my ($hostname, $ipaddr);
    if (isIpaddr($arg))
    {
        $ipaddr = $arg;
        my $packedaddr = inet_aton($ipaddr);
        $hostname = gethostbyaddr($packedaddr, AF_INET);
        if (!$hostname)
        {
            $hostname = $ipaddr;
        }

        #print "hostname=$hostname\n";
    else    # they specified a hostname
    {
        $hostname = $arg;    # this may be a short hostname
        my ($name, $aliases, $addrtype, $length, @addrs) =
        gethostbyname($hostname);

        #print "name=$name, # of addrs=$#addrs.\n";
        my $packedaddr = $addrs[0];
        $ipaddr   = inet_ntoa($packedaddr);
        $hostname =
          $name; # they may have specified a shorter or non-primary name
        #print "ipaddr=$ipaddr, hostname=$hostname\n";
    }
    if $ipaddr =~ /127\.0\.0/;
    return ($hostname, $ipaddr);
}

#--------------------------------------------------------------------------------

=head3  getLogs
        Parse the logs
        Notes:
Arguments:
        $logfile - The file name of log file
Returns:

=cut

#--------------------------------------------------------------------------------
sub getLogs
{
    my ($logfile) = @_;
    my $tsepoch;
    unless (open(LOGFILE, $logfile))
    {
        print "Can't open '$logfile':\n\t$!";
        exit $::NOK;
    }
	
    foreach my $line (<LOGFILE>)
    {
        chomp $line;
        $tsepoch = 0;
        # only work with local6 logs
        #if ( $line =~ /local6/ ) {
        # parse up log entries
            if ($line =~ /SM:.*COND:#12/ and ($::ALL == 1 || $::SM == 1))
            {
				my ($ts, $level, $sm, $cond, $node, $linkedto, $detail);
                #Parse a line of logs
                #The DETAIL is not always there
                if ( $line =~ /(.........:..:..).*MSG:(\w*)\|SM:(.*)\|COND:(.*)\|NODE:(.*)\|LINKEDTO:(.*)\|DETAIL:(.*)/ )
                {
                    ($ts, $level, $sm, $cond, $node, $linkedto, $detail) = ($1, $2, $3, $4, $5, $6, $7);
                }
                elsif ($line =~ /(.........:..:..).*MSG:(\w*)\|SM:(.*)\|COND:(.*)\|NODE:(.*)\|DETAIL:(.*)/)
                {
                    ($ts, $level, $sm, $cond, $node, $detail) = ($1, $2, $3, $4, $5, $6);
                }

                $tsepoch = epochTime($ts) if($ts);
                #Check the time of this log is in the period specified
                if ( $tsepoch >= $::Start_Epoch && (!defined($::End_Epoch) || ($ts && $tsepoch <= $::End_Epoch)) )
                {
                    $::SMLOGS{$sm} = "$::SMLOGS{$sm}\n$line";
                }
                next;
            }

            if ($line =~ /CHASSIS:/ and ($::ALL == 1 || $::CHASSIS == 1 || $::FRU == 1))
            {
				my ($ts, $level, $chassis, $cond, $FRU, $pn, $details);
                if ( $line =~ /(.........:..:..).*MSG:(\w*)\|CHASSIS:(.*)\|COND:(.*)\|FRU:(.*)\|PN:(.*)\|DETAIL:(.*)/ )
                {
                    ($ts, $level, $chassis, $cond, $FRU, $pn, $details) = ($1, $2, $3, $4, $5, $6, $7);
                }
                elsif ($line =~ /(.........:..:..).*MSG:(\w*)\|CHASSIS:(.*)\|COND:(.*)\|FRU:(.*)\|PN:(.*)/)
                {
                    ($ts, $level, $chassis, $cond, $FRU, $pn) = ($1, $2, $3, $4, $5, $6);
                }

                $tsepoch = epochTime($ts) if($ts);
                if ( $tsepoch >= $::Start_Epoch && (!defined($::End_Epoch) || ($ts && $tsepoch <= $::End_Epoch)) )
                {
                    $FRU = "$chassis - $FRU";
                    $::FRULOGS{$FRU} = "$::FRULOGS{$FRU}\n$line" if ($::ALL == 1 || $::FRU == 1);
                    $::CHASSISLOGS{$chassis} = "$::CHASSISLOGS{$chassis}\n$line" if ($::ALL == 1 || $::CHASSIS == 1);
                }
                next;
            }

            if ($line =~ /SM:/ && ($::ALL == 1 || $::SM == 1 || $::IBNODE == 1 || $::NODE_LIST ne ""))
            {
                my $guid;
                my $port;
                my $guidref;
                my $realguid;
                my $lsw;
                my $lswref;
                my $hcaphys;
                my $host;
                my $elog_entry;
                my ($ts, $level, $sm, $cond, $node, $linkedto, $detail);
                if ( $line =~ /(.........:..:..).*MSG:(\w*)\|SM:(.*)\|COND:(.*)\|NODE:(.*)\|LINKEDTO:(.*)\|DETAIL:(.*)/)
                {
                    ($ts, $level, $sm, $cond, $node, $linkedto, $detail) = ($1, $2, $3, $4, $5, $6, $7);
                }
                elsif ( $line =~ /(.........:..:..).*MSG:(\w*)\|SM:(.*)\|COND:(.*)\|NODE:(.*)\|LINKEDTO:(.*)/ )
                {
                    ($ts, $level, $sm, $cond, $node, $linkedto) = ($1, $2, $3, $4, $5, $6);
                }
                elsif ( $line =~ /(.........:..:..).*MSG:(\w*)\|SM:(.*)\|COND:(.*)\|NODE:(.*)\|DETAIL:(.*)/ )
                {
                    ($ts, $level, $sm, $cond, $node, $detail) = ($1, $2, $3, $4, $5, $6);
                }
                elsif ( $line =~ /(.........:..:..).*MSG:(\w*)\|SM:(.*)\|COND:(.*)\|NODE:(.*)/ )
                {
                    ($ts, $level, $sm, $cond, $node) = ($1, $2, $3, $4, $5);
                }
				if ( $sm eq "") { $sm = "Other"; }
                
                $tsepoch = epochTime($ts) if($ts);
                if ( $tsepoch >= $::Start_Epoch && (!defined($::End_Epoch) || ($ts && $tsepoch <= $::End_Epoch)) )
                {
                    if ($node =~ /IBM .*Logical/ && ($::ALL == 1 || $::IBNODE == 1 || $::NODE_LIST ne ""))
                    {
                        $guid = $node;
                        $guid =~ s/.*:0x//;
                        $port = $node;
                        $port =~ s/.*port //;
                        $port =~ s/:.*//;
                        if ( $node =~ /IBM .*Logical Switch/ )
                        {
                            #It's for Logical Switch
                            $realguid = $guid;
                            $guid =~ s/..$/00/;
                            $node =~ /.*Switch (\d):.*/;
                            $lsw = $1;
                            #The key for HCALinks to find the next link of this Logical Switch
                            $guidref = "$realguid:1";
                        }
                        else
                        {
                            #It's for Logical HCA
                            $::GUIDS{$guid}{type} =~ /.*(\d+)/;
                            $lsw = $1;
                            #The key for HCALinks to find the linked Logical Switch of this Logical HCA
                            $guidref = "$guid:$port";
                            $lswref = $::HCALinks{$guidref};
                            $lswref =~ /.*GUID\s*0x(\w+).*/;
                            $lswref = $1;
                            #The key for HCALinks to find the next link of the Logical Switch
                            $lswref = "$lswref:1";
                        }
                        my $hcadev = $::GUIDS{$guid}{dev};
                        my $hcalu = "${hcadev}_lsw${lsw}";
                        #Find the connector
                        $hcaphys = $::HCAMAP{$hcalu};

                        $host = $::GUIDS{$guid}{host};
                        #If this it a log for HCA, the guid can be translated to a hostname using GUIDS map
                        $node = "$host :port $port:0x$guid" if($host);
                        if ( $::NODE_LIST ne "" )
                        {
                            if ( grep {$host =~ /$_/ || $_ =~ /$host/} @::NodeList )
                            {
                                $::NODELOGSBYNAME{$host} = "$::NODELOGSBYNAME{$host}\n$line";
                            }
                        }
                        #If -E is specified, get the ERRLOG_ON and ERRLOG_OFF information
                        if ( $::ERRLOG == 1 && $host && ($::ALL == 1 || $::IBNODE == 1 || ($::NODE_LIST ne "" && grep {$host =~ /$_/ || $_ =~ /$host/} @::NodeList)))
                        {
                            if ( ! exists $::ELOGON{$host})
                            {
                                my $ret = getERRLOG($host);
                                ($::ELOGON{$host}, $::ELOGOFF{$host}) = split/[_]/, $ret;
                            }
                            $elog_entry = "\n# ERRLOG_ON: $::ELOGON{$host}\n# ERRLOG_OFF: $::ELOGOFF{$host}";
                        }
                        if ($::ALL == 1 || $::IBNODE == 1)
                        {
                            $::HCALinks{$guidref} =~ /(.+)\s*port.*/;
                            my $swname = $1;
                            my $lswn = $::HCALinks{$guidref} ? $::HCALinks{$guidref} : "Not Found";
                            my $swn = $::HCALinks{$lswref} ? $::HCALinks{$lswref} : "Not Found";
                            
                            if ( (! exists $::NodeInfo{$node}) && $node)
                            {
                                if ( $node =~ /IBM .*Logical Switch/ )
                                {
                                    $::NodeInfo{$node} = "- <-> $lswn";
                                }
                                else
                                {
                                    $::NodeInfo{$node} = "- $::GUIDS{$guid}{dev} <-> $lswn\n" .
                                                         "- Connector is $hcaphys\n" .
                                                         "- $swname<-> $swn";
                                    if ( ($::ALL == 1 || $::IBNODE == 1) && $::ERRLOG == 1 )
                                    {
                                        $::NodeInfo{$node} = $::NodeInfo{$node} . "\n$::DASEP\n# $host$elog_entry";
                                    }
                                }
                            }
                        }
                        if ($::ERRLOG == 1 && $host && $::NODE_LIST ne "" && (grep {$host =~ /$_/ || $_ =~ /$host/} @::NodeList))
                        {
                            $::NodeInfo{$host} = "$elog_entry";
                        }
                    }
                    
                    $::SMLOGS{$sm} = "$::SMLOGS{$sm}\n$line" if ($::ALL == 1 || $::SM == 1);
                    $::NODELOGS{$node} = "$::NODELOGS{$node}\n$line" if ($::ALL == 1 || $::IBNODE == 1);
                }
                next;
            }
			if ($line =~ /.*/ and ($::ALL == 1))
            {
                $line =~ /(.........:..:..).*/;
                my $tsepoch = epochTime($1) if($1);
                if ( $tsepoch >= $::Start_Epoch && (!defined($::End_Epoch) || ($1 && $tsepoch <= $::End_Epoch)) )
                {
                    $::OTHERLOGS{"others"} = "$::OTHERLOGS{\"others\"}\n$line";
                }
			}
        #}
    }
    close LOGFILE;
    return;
}

#--------------------------------------------------------------------------------

=head3  outputLogs
        Output the results of logs analysis
        Notes:
=cut

#--------------------------------------------------------------------------------
sub outputLogs
{
    my $SMLOGHDR = "Logs by Subnet Manager";
    my $SMLOGSECT = "Reported by subnet manager: ";
    my $IBNODEHDR = "Logs by IB node";
    my $IBNODESECT = "Reported by IB node: ";
    my $IBNODEHDRBYNAME = "Logs for special nodes";
    my $CHLOGHDR = "Logs by CHASSIS";
    my $CHLOGSECT = "Reported by chassis: ";
    my $FRULOGHDR = "Logs by FRUS from CHASSIS";
    my $FRULOGSECT = "Associated with FRU: ";
    my $OTLOGHDR = "Logs by Others";
    my $OTLOGSECT = "";

    print <<EOUT;
###############################################################################
Order of log output:
EOUT

    my $nout = 1;
    if ( $::SM == 1 or $::ALL == 1)
    {
        print <<SOUT;
$nout. SM log organized by subnet manager location (Fabric/MS or switch)
   Look for: "$SMLOGHDR" to start the SM logs.
   Each section begins with "$SMLOGSECT".
SOUT

        $nout++;
    }

    if ( $::IBNODE == 1 or $::ALL == 1)
    {
        print <<SOUT;
$nout. SM log organized by IB node (switch, logical switch, logical HCA, CA)
   Look for: "$IBNODEHDR" to start the IB Node logs.
   Each section begins with "$IBNODESECT".
SOUT

        $nout++;
    }

    if ( $::CHASSIS == 1 or $::ALL == 1)
    {
        print <<SOUT;
$nout. Chassis logs organized by chassis (good for switch FRU problems; not links)
   Look for: "$CHLOGHDR" to start the Chassis logs.
   Each section begins with "$CHLOGSECT".
SOUT

        $nout++;
    }

    if ( $::FRU == 1 or $::ALL == 1)
    {
        print <<SOUT;
$nout. Chassis logs organized by FRU in chassis
   Look for: "$FRULOGHDR" to start the FRU based chassis logs.
   Each section begins with "$FRULOGSECT".
SOUT

        $nout++;
    }
    
    if ( $::ALL == 1)
    {
        print <<SOUT;
$nout. Other logs
SOUT

        $nout++;
    }
    
    if ( $::NODE_LIST ne "")
    {
        print <<SOUT;
$nout. SM log organized by special nodes (switch, logical switch, logical HCA, CA)
   Look for: "$IBNODEHDR" to start the IB Node logs.
   Each section begins with "$IBNODESECT".
SOUT

        $nout++;
    }
    
    print "###############################################################################";

    if ( $::SM == 1 or $::ALL == 1)
    {
        outputEntries($SMLOGHDR, $SMLOGSECT, %::SMLOGS);
    }
    if ( $::IBNODE == 1 or $::ALL == 1)
    {
        outputEntries($IBNODEHDR, $IBNODESECT, %::NODELOGS);
    }
    if ($::CHASSIS == 1 or $::ALL == 1)
    {
        outputEntries($CHLOGHDR, $CHLOGSECT, %::CHASSISLOGS);
    }
    if ($::FRU == 1 or $::ALL == 1)
    {
        outputEntries($FRULOGHDR, $FRULOGSECT, %::FRULOGS);
    }
    if ($::ALL == 1)
    {
        outputEntries($OTLOGHDR, $OTLOGSECT, %::OTHERLOGS);
    }
    if ( $::NODE_LIST ne "" )
    {
        outputEntries($IBNODEHDRBYNAME, $IBNODESECT, %::NODELOGSBYNAME);
    }
    return;
}

#--------------------------------------------------------------------------------

=head3  outputEntries
        Output logs sorted by one method 
        Notes:
=cut

#--------------------------------------------------------------------------------
sub outputEntries
{
    my ($title, $prefix, %log) = @_;
    print "\n$::SHSEP\n$title\n$::SHSEP\n";
    for my $k ( keys %log )
    {  
        print "\n$::DASEP\n$prefix'$k'\n" if ( $prefix ne "");
		if ( exists $::NodeInfo{$k} )
        { 
		    print "$::NodeInfo{$k}\n";
        }
		print "$::DASEP\n" if ( $prefix ne "");
        print "$log{$k}\n";
    }
    return;
};

#--------------------------------------------------------------------------------

=head3  epochTime
        Convert a time string to numberic style
        Notes:
Arguments:
        $timestring - A time string
Returns:
        $epoch - Time in numberic style
=cut

#--------------------------------------------------------------------------------
sub epochTime
{
    my ($timestring) = @_;
    my $ots = $timestring;
    my $epoch = "";
    my $formaterror = 0;
    my %themon = ( "Jan" => 0, "Feb" => 1, "Mar" => 2, "Apr" => 3, "May" => 4,
        "Jun" => 5, "Jul" => 6, "Aug" => 7, "Sep" => 8, "Oct" => 9,
        "Nov" => 10, "Dec" => 11,
    );

    if ( length($timestring) > 1 )
    {
        #If the time string is not of ddmmyyhh:mm:ss format, it will be a time stamp of a log
        if ( $timestring =~ /\S+\s+\d+\s+\d+:\d+:\d+/ )
        {
            my $mont = substr $timestring, 0, 3;
            my $dayt = substr $timestring, 4, 2;
            my $time = substr $timestring, 7;
            if (exists $themon{$mont})
            {
                $mont = $themon{$mont} + 1;
            }
            my ($psec, $pmin, $phour, $pmday, $pmon, $pyear, $pwday, $pyday, $pisdst) = localtime();
            $pyear = $pyear + 1900;
            my $year = substr $pyear, 2, 2;
            if ($dayt < 10) { $dayt =~ s/ /0/g; }
            if ($mont < 10) { $mont = "0$mont"; }
            #Format the timestring to ddmmyyhh:mm:ss
            $timestring = "$dayt$mont$year$time";
        }
    }

    if ( ! ($timestring =~ /^\d+:\d+:\d+$/) )
    {
        print "Invalid time '$ots'\n";
        exit $::NOK;
    }
        
    my $day = substr $timestring, 0, 2;
    if ( !($day =~ /^\d+$/) || $day < 1 || $day > 31 )
    {
        $formaterror = 1;
    }
    my $mon = substr $timestring, 2, 2;
    if ( !($mon =~ /^\d+$/) || $mon < 1 || $mon > 12 )
    {
        $formaterror = 1;
    }
    $mon = $mon - 1;
    my $year = substr $timestring, 4, 2;
    if ( !($year =~ /^\d+$/) )
    {
        $formaterror = 1;
    }
    $year = $year - 1900;
    if ( $year < 0 ) { $year = $year + 2000 }
    if ( $year > 138 ) { $formaterror = 1; }
    my $hour = substr $timestring, 6, 2;
    if ( !($hour =~ /^\d+$/) || $hour < 0 || $hour > 23 )
    {
        $formaterror = 1;
    }
    my $min = substr $timestring, 9, 2;
    if ( !($min =~ /^\d+$/) || $min < 0 || $min > 59 )
    {
        $formaterror = 1;
    }
    my $sec = substr $timestring, 12, 2;
    if ( !($sec =~ /^\d+$/) || $sec < 0 || $sec > 59 )
    {
        $formaterror = 1;
    }
    if($formaterror)
    {
        print "Invalid time '$ots'\n";
        exit $::NOK;
    }
    $epoch = timegm($sec, $min, $hour, $day, $mon, $year);

    return ($epoch);
}

#--------------------------------------------------------------------------------

=head3  usage

        usage for annotatelog

=cut

#--------------------------------------------------------------------------------
sub usage
{

 print <<EFMT;

Usage: annotatelog -f log_file [-s start_time] [-e end_time]
                   { [-i -g guid_file -l link_file] [-S] [-c] [-u]| [-a -g guid_file -l link_file]}
                   {[-n node_list -g guid_file] [-E]}
                   [-h]

        -A       Output the combination of -i, -S, -c and -u. It should be used with -g and -l flags.
        -f log_file
                 Specifies a log file fullpath name to analyze.
                 Must be CSM consolidated log got from Qlogic HSM or ESM.
        -s start_time
                 Specifies the start time for analysis, where the start_time
                 variable has the format ddmmyyhh:mm:ss (day, month, year, 
                 hour, minute, and second), 00:00:00 is valid.
        -e end_time
                 Specifies the end time for analysis, where the end_time 
                 variable has the format ddmmyyhh:mm:ss (day, month, year, 
                 hour, minute, and second), 00:00:00 is valid.
        -l link_file
                 Specifies a link file fullpath name, which concatenates all
                 '/var/opt/iba/analysis/baseline/fabric*links' files from all fabric management nodes.
        -g guid_file
                 Specifies a guid file fullpath name, which has a list of 
                 GUIDs as obtained from the "getGuids" script.
        -E       Annotate with node ERRLOG_ON and ERRLOG_OFF information. This
                 can help determine if a disappearance was caused by a node
                 disappearing. It is for AIX nodes only and should be used with -x or -n flag.
        -S       Sort the log entries by subnet manager only.
        -i       Sort the log entries by IB node only.
        -c       Sort the log entries by chassis only.
        -u       Sort the log entries by FRU only.
        -n node_list
                 Specifies a comma-separated list of node host names, IP addresses to look up in log entries.
        -h       Display usage information.

EFMT

 return;
}

#--------------------------------------------------------------------------------

=head3  getERRLOG
        Use dsh to run errpt command to get the ERRLOG_ON and ERRLOG_OFF information
        Notes:
Arguments:
        $host - Host that the ERRLOG_ON and ERRLOG_OFF information is get from
Returns:
        $ret - ERRLOG_ON and ERRLOG_OFF information
=cut

#--------------------------------------------------------------------------------
sub getERRLOG
{
    my ($host) = @_;
    print "Getting errpt on $host\n";
    my $rc = checkDshReachability($host);
    if ( $rc != 0 )
    {
        print "Warning: The dsh is unreachable for the node: $host. Run updatenode to configure dsh for that node.\n";
		return "";
    }
    my $cmd = "dsh -w $host 'errpt -J \"ERRLOG_ON ERRLOG_OFF\"'";
    my $out = `$cmd`;
	if ($? != 0)
    {
	    print "Errors occured when running command: $cmd. The node $host may be not AIX node.\n";
		return "";
	}
    my $osep = "";
    my $fsep = "";
    my $logon = "";
    my $logoff = "";
    my $ts = "";

    foreach my $line (split /[\n]/, $out)
    {
        chomp $line;
        if ($line =~/.*TIMESTAMP/) { next;}
        if ($line =~ /.*ON/)
        {
            if ($line =~ /(\S*) *(\S*) *(\w*) .*/)
            {
                my ($junk, $junk, $ts) = ($1, $2, $3);
                $ts = neatTime($ts);
                $logon = "$logon$osep$ts";
                $osep = "; ";
            }
        }
        if ($line =~ /.*OFF/)
        {
            if ($line =~ /(\S*) *(\S*) *(\w*) .*/)
            {
                my ($junk, $junk, $ts) = ($1, $2, $3);
                $ts = neatTime($ts);
                $logoff = "$logoff$fsep$ts";
                $fsep = "; ";
            }
        }
    }
    my $ret = "${logon}_${logoff}";
    return ($ret);
}

#--------------------------------------------------------------------------------

=head3  neatTime
        Convert the time stamp of ERRLOG_ON and ERRLOG_OFF information into mm/dd/yy hh:mm format
        Notes:
Arguments:
        $timein - Time stamp of ERRLOG_ON and ERRLOG_OFF information
Returns:
        $neattime - Formatted time
=cut

#--------------------------------------------------------------------------------
sub neatTime
{
    my ($timein) = @_;
    my $m = substr $timein, 0, 2;
    my $d = substr $timein, 2, 2;
    my $h = substr $timein, 4, 2;
    my $mn = substr $timein, 6, 2;
    my $y = substr $timein, 8, 2;
    my $neattime = "$m/$d/$y $h:$mn";

    return $neattime;
}

#--------------------------------------------------------------------------------

=head3  getGUIDs
        Get guid maps
        Notes:
Arguments:
        $guidfile - A guid file fullpath name, which has a list of GUIDs as obtained from the "getGuids" script.
Returns:
        %guids - A hash table recording guid maps
=cut

#--------------------------------------------------------------------------------
sub getGUIDs
{
    my ($guidfile) = @_;
    my %guids;
    unless(open(GUIDSFILE, $guidfile))
    {
        print "Can't open guid file '$guidfile':\n\t$!";
        exit $::NOK;
    }

    foreach my $line (<GUIDSFILE>)
    {
        chomp $line;
        if ($line =~ /(\S*): (\S*): (\S*): (\w*$)/)
        {
            my ($host, $dev, $type, $guid) = ($1, $2, $3, $4);
            $guids{$guid}{host} = $host;
            $guids{$guid}{dev} = $dev;
            $guids{$guid}{type} = $type;
        }
    }
	close GUIDSFILE;
    return %guids;
}

#--------------------------------------------------------------------------------

=head3  getHCALinks
        Get links between HCA and Switch and links between Switch and Swtich 
        Notes:
Arguments:
        $hcalfile - A link file fullpath name, which concatenates all '/var/opt/iba/analysis/baseline/fabric*links' files from all fabric management nodes.
Returns:
        %hcalinks - A hash table recording links
=cut

#--------------------------------------------------------------------------------

sub getHCALinks
{
    my ($hcalfile) = @_;
    my $getit = 0;
    my $hcaport = "";
    my %hcalinks;

    unless(open(LINKS, $hcalfile))
    {
        print "Can't open HCA Links file '$hcalfile':\n\t$!";
        exit $::NOK;
    }
    foreach my $line (<LINKS>)
    {
        if ( $getit == 1  )
        {
            if ($line =~ /.*0x(\S*)\s+(\d+)\s+(\w+)\s+(.*)/)
            {
                my ($guid, $port, $type, $name) = ($1, $2, $3, $4);
                $hcalinks{$hcaport} = "$name port $port (GUID 0x$guid)";
                $getit = 0;
            }
        }
        if ($line =~ /g.*IBM.*Logical/)
        {
            if ($line =~ /.*g 0x(\S*) *(\d*) .*/)
            {
                my $port;
                ($hcaport, $port) = ($1, $2);
                $hcaport = "$hcaport:$port";
                $getit = 1;
            }
        }
        else
        {
            $getit = 0;
        }
    }
    
    foreach my $key (keys %::HCALinks)
    {
        print "$key -> $hcalinks{$key}\n";
    }
    close LINKS;
    return %hcalinks;
}

#--------------------------------------------------------------------------------

=head3   checkDshReachability

        Notes: Check the dsh reachability between the Management Nodes
               and node.

Arguments:
        $node - the remote node hostname.

Returns:
        $::OK - The remote node is reachable through dsh.
        $::NOK - The remote node is unreachable through dsh.

=cut

#--------------------------------------------------------------------------------
sub checkDshReachability()
{
    my ($node) = @_;
    my $output = `dsh -Q -n $node date 2>/dev/null`;
    return $?;
}