xcat-core/xCAT-probe/subcmds/code_template

#!/usr/bin/perl
# IBM(c) 2016 EPL license http://www.eclipse.org/legal/epl-v10.html

#--------------------------------------------------------
#This is a template for developing a probe sub_command.
#This template mainly implement the sub_comamd dispatch in hierarchical structure
#Developer only need to focus on main probe job (by implement do_main_job function) and friendly output (by implement summary_all_jobs_output function) for user
#This template can also be used in flat structure. but if developer think it's too heavy in flat, it's fine to develop sub command directly.
#But in hierarchical structure, we strongly recommand using this template.
#The main dispatch policy are:
#1. if there isn't noderange input from commmand line. if there are service nodes defined in current MN,
#   we dispatch exact same command input from STDIN to all SNs and current MN. if there isn't service nodes defined,
#   just hanld command input from STDIN in current MN
#2. If there is noderange input from command line by opion "-n", we will dispatch the command input from STDIN to SN which can hanle these ndoes
#   For example, if we got command from STDIN like "probecommand -n test[1-15] -V" and test[1-5] 's SN is SN1, test[6-10]'s SN is SN2
#   The dispatch result will be:
#   For MN run:  probecommand -n test[11-15] -V
#   For SN1 run: probecommand -n test[1-5] -V
#   For SN2 run: probecommand -n test[6-10] -V
#3. All the return message from SNs and MN will be saved in hash %summaryoutput, develper can use it while implement summary_all_jobs_output function
#--------------------------------------------------------


BEGIN { $::XCATROOT = $ENV{'XCATROOT'} ? $ENV{'XCATROOT'} : -d '/opt/xcat' ? '/opt/xcat' : '/usr'; }

use lib "$::XCATROOT/probe/lib/perl";
use probe_utils;
use xCAT::ServiceNodeUtils;
use File::Basename;
use Getopt::Long qw(:config no_ignore_case);
use IO::Select;
use Data::Dumper;

my $program_name = basename("$0");    #current sub_command name
my $help    = 0;    #command line attribute '-h', get usage information
my $test    = 0;    #command line attribute '-T'
my $verbose = 0;    #command line attribute '-V'
my $noderange;      #command line attribute '-n'
my $output = "stdout"; #used by probe_utils->send_msg("$output", "o", "xxxxxxxxxx"); print output to STDOUT
my $is_sn  = 0;        #flag current server is SN
my $rst    = 0;        #the exit code of current command
my $terminal = 0;      #means get INT signal from STDIN

#save all output from commands running on SNs and MN
# one example:
# $summaryoutput{mn} = @mn_output_history
# $summaryoutput{SN1} = @SN1_output_history
my %summaryoutput;

#a map of SNs and command which will be dispatched to current SN
# one example:
# $dispatchcmd{SN1} = "probecommand -n test[1-5] -V"
# $dispatchcmd{SN2} = "probecommand -n test[6-10] -V"
my %dispatchcmd;

#save command line attributes from STDIN
my @tmpargv;

#--------------------------------
# below are some options rules used by default
#     -h : Get usage information of current sub command
#     -V : Output more information for debug
#     -T : To verify if $program_name can work, reserve option for probe framework, dosen't use by customer
#     -n : In xCAT probe, -n is uesd to specify node range uniformly
#--------------------------------
$::USAGE = "Usage:
    $program_name -h
    $program_name [-V]

Description:
    This is a template for developing a probe sub_command.
    <# ADD DESCRIPTION FOR YOUR COMMAND #>

Options:
    -h : Get usage information of $program_name
    -V : Output more information for debug
";

#------------------------------------
# Please implement the main checking job of current command in do_main_job function
# If $outputtarget has input value, that means do_main_job is running on MN, so every message needed to print on STDOUT should be written into pipe $outputtarget.
# If $outputtarget has no value, that means do_main_job is running on SN, all message just need to print on STDOUT
# Recommand to use probe_utils->send_msg() to handle message you plan to print out
# A simple example has been written in funciton.
#------------------------------------
sub do_main_job {
    my $outputtarget = shift;
    $outputtarget = "stdout" if (!$outputtarget);
    my $rst = 0;

    probe_utils->send_msg($outputtarget, "o", "I reveive node range is $noderange");

    #<#DO YOUR OWN CHECKING JOB1#>
    probe_utils->send_msg($outputtarget, "o", "first checking point");

    #<#DO YOUR OWN CHECKING JOB2#>
    probe_utils->send_msg($outputtarget, "f", "second checking point");

    return $rst;
}

#-------------------------------------
# When this command return from all SNs and MN, you need to generate a summary
# All history outpout from SNs and MN are saved in globle hash %summaryoutput.
# $summaryoutput{mn} = @mnhistory
# $summaryoutput{snname1} = @snname1history;
# The entry in each histroy array isn't categorized, the message coming early is arranged before the one coming later.
# A simple example of how to dump %summaryoutput has been written in function
#-------------------------------------
sub summary_all_jobs_output {
    my $rst = 0;

    #DO SUMMARY DEPENDING ON YOUR SUB_COMMAND NEED
    probe_utils->send_msg("$output", "d", "======================do summary=====================");
    foreach my $sn (keys %summaryoutput) {
        probe_utils->send_msg("$output", "d", "[$sn]");
        foreach my $log (@{ $summaryoutput{$sn} }) {
            probe_utils->send_msg("$output", "d", "$log");
        }
    }
    return $rst;
}

#-------------------------------------
# Each probe sub command is supposed to support hierarchical.
# This funtion is used to calclulate which SN should be dispatched which command
#-------------------------------------
sub calculate_dispatch_cmd {
    my @snlist = xCAT::ServiceNodeUtils->getAllSN();
    if ($noderange) {
        my @nodes = `nodels $noderange 2>&1`;

        #if there is error in noderange
        if ($?) {
            my $error = join(" ", @nodes);
            if ($error =~ /Error: Invalid nodes and\/or groups in noderange: (.+)/) {
                probe_utils->send_msg("$output", "f", "There are invaild nodes ($1) in command line attribute node range");
            } else {
                probe_utils->send_msg("$output", "f", "There is error in command line attribute node range, please using nodels to check");
            }
            return 1;
        } else {

            #calculate the mapping between SN and the nodes which belong to it.
            chomp foreach (@nodes);
            my $snnodemap = xCAT::ServiceNodeUtils->get_ServiceNode(\@nodes, "xcat", "MN");

            #print Dumper $snnodemap;
            my %newsnnodemap;
            foreach my $sn (keys %$snnodemap) {
                if (grep(/^$sn$/, @snlist)) {   # the node just belong to one SN
                    push(@{ $newsnnodemap{$sn} }, @{ $snnodemap->{$sn} });
                } elsif ($sn =~ /(\w+),.+/) { # the node belong to more than one SN, count it into first SN
                    if(grep(/^$1$/, @snlist)){
                        push(@{ $newsnnodemap{$1} }, @{ $snnodemap->{$sn} });
                    }else{
                        probe_utils->send_msg("$output", "f", "The value $1  of 'servicenode' isn't a service node"); 
                    }
                } else { # the nodes don't belong to any SN will be handled by MN
                    push(@{ $newsnnodemap{mn} }, @{ $snnodemap->{$sn} });
                }
            }

            #print Dumper \%newsnnodemap;
            #generate new command for each SN, replace noderange
            foreach my $sn (keys %newsnnodemap) {
                my $nodes = join(",", @{ $newsnnodemap{$sn} });
                if ($sn eq "mn") {
                    $noderange = $nodes;
                } else {
                    for (my $i = 0 ; $i <= $#tmpargv ; $i++) {
                        if ($tmpargv[$i] eq "-n") {
                            $tmpargv[ $i + 1 ] = $nodes;
                            last;
                        }
                    }
                    my $args = join(" ", @tmpargv);
                    $dispatchcmd{$sn} = "$::XCATROOT/probe/subcmds/$program_name $args 2>&1";
                }
            }
        }
    } else {

        #there isn't noderange input from STDIN, dispatch command to all SN if there are SN defined in MN
        if (@snlist) {
            my $args = join(" ", @tmpargv);
            my $sns  = join(",", @snlist);
            $dispatchcmd{$sns} = "$::XCATROOT/probe/subcmds/$program_name $args 2>&1" if (!$?);
        }
    }
    return 0;
}



#-------------------------------------
# main process start
#-------------------------------------
@tmpargv = @ARGV;
if (
    !GetOptions("--help|h" => \$help,
        "T"   => \$test,
        "n=s" => \$noderange,
        "V"   => \$verbose))
{
    probe_utils->send_msg("$output", "f", "Invalid parameter for $program_name");
    probe_utils->send_msg("$output", "d", "$::USAGE");
    exit 1;
}

if ($help) {
    if ($output ne "stdout") {
        probe_utils->send_msg("$output", "d", "$::USAGE");
    } else {
        print "$::USAGE";
    }
    exit 0;
}

if ($test) {
    probe_utils->send_msg("$output", "o", "This isn't a probe tool, this is just a template for sub command coding. Using it to develop sub command which need to cover hierarchical cluster");
    exit 0;
}

#Handle the interrupt signal from STDIN
$SIG{TERM} = $SIG{INT} = sub {
    $terminal = 1;
};

#--------------------------------------------
#  To confirm what current node is, MN or SN
#--------------------------------------------
$is_sn = 1 if (-e "/etc/xCATSN");

#if this node is SN, just run job, not to do dispatch
if ($is_sn) {
    $rst = do_main_job();
    exit $rst;
}

#--------------------------------------------
# calculate which command should be dispatched to which SN
#--------------------------------------------
$rst = calculate_dispatch_cmd();

#print Dumper \%dispatchcmd;
#print "nodes left to mn : $noderange\n";
#print "========================\n";
exit $rst if ($rst);

#--------------------------------------------
# dispatch job to MN and SN
#--------------------------------------------
my $mnjobpid   = 0;
my @snsjobpids = ();
my @snsjobfds  = ();
my $pipe_parent_read;
my $pipe_child_write;
pipe $pipe_parent_read, $pipe_child_write;
{
    #handle job in MN
    $mnjobpid = fork();
    if (!defined($mnjobpid)) {
        probe_utils->send_msg("$output", "f", "fork process to handle MN job failed: $!");
        $rst = 1;
        last;
    } elsif ($mnjobpid == 0) {
        $SIG{TERM} = $SIG{INT} = sub {
            exit 1;
        };

        close $pipe_parent_read;
        $rst = do_main_job($pipe_child_write);
        exit $rst;
    }
    $SIG{CHLD} = sub { waitpid($mnjobpid, WNOHANG) };
    close $pipe_child_write;

    #handle job dispatch to SN
    foreach my $sn (keys %dispatchcmd) {
        my $snjobcmd = "xdsh $sn -s \"$dispatchcmd{$sn}\" 2>&1";

        #print "$sn = $snjobcmd\n";
        my $snjobfd;
        my $snjobpid;
        if (!($snjobpid = open($snjobfd, "$snjobcmd |"))) {
            probe_utils->send_msg("$output", "f", "fork process to dispatch cmd $snjobcmd to $sn failed: $!");
            next;
        }
        push(@snsjobpids, $snjobpid);
        push(@snsjobfds,  $snjobfd);
    }

    my $select = new IO::Select;
    $select->add(\*$pipe_parent_read) if ($pipe_parent_read);
    $select->add(\*$_) foreach (@snsjobfds);
    $| = 1;

    my $line;
    my %pipeisnonull;
    $pipeisnonull{mn} = 1;
    $pipeisnonull{$_} = 1 foreach (@snsjobfds);
    my $onepipeisnonull = 1;
    while ($onepipeisnonull) {
        if (@hdls = $select->can_read(0)) {
            foreach $hdl (@hdls) {
                if ($pipeisnonull{mn} && $hdl == \*$pipe_parent_read) {
                    if (eof($pipe_parent_read)) {
                        $pipeisnonull{mn} = 0;
                    } else {
                        chomp($line = <$pipe_parent_read>);
                        print "$line\n";
                        push @{ $summaryoutput{mn} }, $line;
                    }
                } else {
                    foreach my $fd (@snsjobfds) {
                        if ($pipeisnonull{$fd} && $hdl == \*$fd) {
                            if (eof($fd)) {
                                $pipeisnonull{$fd} = 0;
                            } else {
                                chomp($line = <$fd>);
                                if ($line =~ /(Error:)\s+(\w+)\s+(.+)/i) {
                                    push @{ $summaryoutput{$2} }, $line;
                                    #if need to print to STDIN in real time, can make below line available
                                    #print "[failed] :$2: $line\n";
                                } elsif ($line =~ /^(\w+)\s*:\s(.*)/) {
                                    push @{ $summaryoutput{$1} }, $2;
                                    #if need to print to STDIN in real time, can make below lines available
                                    #$line = "$2:$1: $3" if ($line =~ /^(\w+)\s*:\s*(\[\w+\]\s*):\s*(.*)/);
                                    #print "$line\n";
                                }
                            }
                        }
                    }
                }
            }
            $onepipeisnonull = 0;
            $onepipeisnonull |= $pipeisnonull{$_} foreach (keys %pipeisnonull);
        }
        last if ($terminal);
        sleep 1;
    }
}
close($pipe_child_write) if ($pipe_child_write);
close($pipe_parent_read) if ($pipe_parent_read);
close($_) foreach (@snsjobfds);

#start to clear up all sub processes
my %runningpid;
$runningpid{$mnjobpid} = 1 if ($mnjobpid);
$runningpid{$_} = 1 foreach (@snsjobpids);
my $existrunningpid = 0;
$existrunningpid = 1 if (%runningpid);

my $trytime = 0;
while ($existrunningpid) {

    #send terminal signal to all running process at same time
    #try INT 5 up to 5 times
    if ($try < 5) {
        foreach my $pid (keys %runningpid) {
            kill 'INT', $pid if ($runningpid{$pid});
        }

        #try TERM 5 up to 5 times
    } elsif ($try < 10) {
        foreach my $pid (keys %runningpid) {
            kill 'TERM', $pid if ($runningpid{$pid});
        }

        #try KILL 1 time
    } else {
        foreach my $pid (keys %runningpid) {
            kill 'KILL', $pid if ($runningpid{$pid});
        }
    }
    ++$try;

    sleep 1;

    #To check how many process exit, set the flag of exited process to 0
    foreach my $pid (keys %runningpid) {
        $runningpid{$pid} = 0 if (waitpid($pid, WNOHANG));
    }

    #To check if there are processes still running, if there are, try kill again in next loop
    $existrunningpid = 0;
    $existrunningpid |= $runningpid{$_} foreach (keys %runningpid);

    #just try 10 times, if still can't kill some process, give up
    if ($try > 10) {
        my $leftpid;
        foreach my $pid (keys %runningpid) {
            $leftpid .= "$pid " if ($runningpid{$pid});
        }
        print "Can't stop process $leftpid, please handle manually.\n";
        last;
    }
}

#-------------------------------------
# summary all jobs output to display
#-------------------------------------
$rst = summary_all_jobs_output();

exit $rst;