#!/usr/bin/env perl # IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html package xCAT::Client; BEGIN { $::XCATROOT = $ENV{'XCATROOT'} ? $ENV{'XCATROOT'} : -d '/opt/xcat' ? '/opt/xcat' : '/usr'; } my $inet6support; $inet6support=eval { require Socket6 }; if ($^O =~ /^aix/i) { $inet6support = 0; } if ($inet6support) { $inet6support = eval { require IO::Socket::INET6 }; } if ($inet6support) { $inet6support = eval { require IO::Socket::SSL; IO::Socket::SSL->import('inet6'); }; } unless ($inet6support) { eval { require Socket }; eval { require IO::Socket::INET }; eval { require IO::Socket::SSL; IO::Socket::SSL->import() }; } use XML::Simple; if ($^O =~ /^linux/i) { $XML::Simple::PREFERRED_PARSER='XML::Parser'; } require Data::Dumper; use Storable qw(dclone); my $xcathost='localhost:3001'; my $plugins_dir; my %resps; my $EXITCODE; # save the bitmask of all exit codes returned by calls to handle_response() 1; ################################# # submit_request will take an xCAT command and pass it to the xCAT # server for execution. # # If the XCATBYPASS env var is set, the connection to the server/daemon # will be bypassed and the plugin will be called directly. If it is # set to one or more directories (separated by ":"), all perl modules # in those directories will be loaded in as plugins (for duplicate # commands, last one in wins). If it is set to any other value # (e.g. "yes", "default", whatever string you want) the default plugin # directory /opt/xcat/lib/perl/xCAT_plugin will be used. # # Input: # Request hash - A hash ref containing the input command and args to be # passed to the plugin. The the xcatd daemon (or this routine when # XCATBYPASS) reads the {noderange} entry and builds a flattened array # of nodes that gets added as request->{node} # The format for the request hash is: # { command => [ 'xcatcmd' ], # noderange => [ 'noderange_string' ], # arg => [ 'arg1', 'arg2', '...', 'argn' ] # } # Callback - A subroutine ref that will be called to process the output # from the plugin. # # NOTE: The request hash will get converted to XML when passed to the # xcatd daemon, and will get converted back to a hash before being # passed to the plugin. The XMLin ForceArray option is used to # force all XML constructs to be arrays so that the plugin code # and callback routines can access the data consistently. # The input request and the response hash created by the plugin should # always create hashes with array values. ################################# sub submit_request { my $request = shift; my $callback = shift; my $keyfile = shift; my $certfile = shift; my $cafile = shift; require xCAT::Utils; unless ($keyfile) { $keyfile = xCAT::Utils->getHomeDir()."/.xcat/client-cred.pem"; } unless ($certfile) { $certfile = xCAT::Utils->getHomeDir()."/.xcat/client-cred.pem"; } unless ($cafile) { $cafile = xCAT::Utils->getHomeDir()."/.xcat/ca.pem"; } $xCAT::Client::EXITCODE = 0; # clear out exit code before invoking the plugin # If XCATBYPASS is set, invoke the plugin process_request method directly # without going through the socket connection to the xcatd daemon if ($ENV{XCATBYPASS}) { # Load plugins from either specified or default dir require xCAT::Table; my %cmd_handlers; my @plugins_dirs = split('\:',$ENV{XCATBYPASS}); if (-d $plugins_dirs[0]) { foreach (@plugins_dirs) { $plugins_dir = $_; scan_plugins(); } } else { # figure out default plugins dir my $sitetab=xCAT::Table->new('site'); unless ($sitetab) { print ("ERROR: Unable to open basic site table for configuration\n"); } $plugins_dir=$::XCATROOT.'/lib/perl/xCAT_plugin'; scan_plugins(); } # don't do XML transformation -- assume request is well-formed # my $xmlreq=XMLout($request,RootName=>xcatrequest,NoAttr=>1,KeyAttr=>[]); # $request = XMLin($xmlreq,SuppressEmpty=>undef,ForceArray=>1) ; # Call the plugin directly # ${"xCAT_plugin::".$modname."::"}{process_request}->($request,$callback); plugin_command($request,undef,$callback); return 0; } # No XCATBYPASS, so establish a socket connection with the xcatd daemon # and submit the request if ($ENV{XCATHOST}) { $xcathost=$ENV{XCATHOST}; } my $client; if (-r $keyfile and -r $certfile and -r $cafile) { $client = IO::Socket::SSL->new( PeerAddr => $xcathost, SSL_key_file => $keyfile, SSL_cert_file => $certfile, SSL_ca_file => $cafile, SSL_use_cert => 1, ); } else { $client = IO::Socket::SSL->new( PeerAddr => $xcathost ); } unless ($client) { if ($@ =~ /SSL Timeout/) { die "Connection failure: SSL Timeout or incorrect certificates in ~/.xcat"; } else { die "Connection failure: $@" } } my $msg=XMLout($request,RootName=>'xcatrequest',NoAttr=>1,KeyAttr=>[]); $SIG{TERM} = $SIG{INT} = sub { print $client XMLout({abortcommand=>1},RootName=>'xcatrequest',NoAttr=>1,KeyAttr=>[]); exit 0; }; print $client $msg; my $response; my $rsp; my $cleanexit=0; while (<$client>) { $response .= $_; if ($response =~ m/<\/xcatresponse>/) { $rsp = XMLin($response,SuppressEmpty=>undef,ForceArray=>1); $response=''; $callback->($rsp); if ($rsp->{serverdone}) { $cleanexit=1; last; } } } unless ($cleanexit) { print STDERR "ERROR/WARNING: communication with the xCAT server seems to have been ended prematurely\n"; } ################################### # scan_plugins # will load all plugin perl modules and build a list of supported # commands # # NOTE: This is copied from xcatd (last merge 5/21/08). # TODO: Will eventually move to using common source.... ################################### sub scan_plugins { my @plugins=glob($plugins_dir."/*.pm"); foreach (@plugins) { /.*\/([^\/]*).pm$/; my $modname = $1; require "$_"; no strict 'refs'; my $cmd_adds=${"xCAT_plugin::".$modname."::"}{handled_commands}->(); foreach (keys %$cmd_adds) { my $value = $_; if (defined($cmd_handlers{$_})) { my $add=1; #This next bit of code iterates through the handlers. #If the value doesn't contain an equal, and has an equivalent entry added by # another plugin already, don't add (otherwise would hit the DB multiple times) # a better idea, restructure the cmd_handlers as a multi-level hash # prove out this idea real quick before doing that foreach (@{$cmd_handlers{$_}}) { if (($_->[1] eq $cmd_adds->{$value}) and (($cmd_adds->{$value} !~ /=/) or ($_->[0] eq $modname))) { $add = 0; } } if ($add) { push @{$cmd_handlers{$_}},[$modname,$cmd_adds->{$_}]; } #die "Conflicting handler information from $modname"; } else { $cmd_handlers{$_} = [ [$modname,$cmd_adds->{$_}] ]; } } } } ################################### # plugin_command # will invoke the correct plugin # # NOTE: This is copied from xcatd (last merge 5/21/08). # TODO: Will eventually move to using common source.... ################################### sub plugin_command { my $req = shift; my $sock = shift; my $callback = shift; my %handler_hash; # We require these only in bypass mode to reduce start up time for the normal case #use lib "$::XCATROOT/lib/perl"; #use xCAT::NodeRange; require lib; lib->import("$::XCATROOT/lib/perl"); require xCAT::NodeRange; require xCAT::Table; $Main::resps={}; my @nodes; if ($req->{node}) { @nodes = @{$req->{node}}; } elsif ($req->{noderange} and $req->{noderange}->[0]) { @nodes = xCAT::NodeRange::noderange($req->{noderange}->[0]); if (xCAT::NodeRange::nodesmissed()) { # my $rsp = {errorcode=>1,error=>"Invalid nodes in noderange:".join(',',xCAT::NodeRange::nodesmissed)}; # my $rsp->{serverdone} = {}; print "Invalid nodes in noderangex:".join(',',xCAT::NodeRange::nodesmissed())."\n"; # if ($sock) { # print $sock XMLout($rsp,RootName=>'xcatresponse' ,NoAttr=>1); # } # return ($rsp); return 1; } unless (@nodes) { $req->{emptynoderange} = [1]; } } if (@nodes) { $req->{node} = \@nodes; } my %unhandled_nodes; foreach (@nodes) { $unhandled_nodes{$_}=1; } my $useunhandled=0; if (defined($cmd_handlers{$req->{command}->[0]})) { my $hdlspec; foreach (@{$cmd_handlers{$req->{command}->[0]}}) { $hdlspec =$_->[1]; my $ownmod = $_->[0]; if ($hdlspec =~ /:/) { #Specificed a table lookup path for plugin name $useunhandled=1; my $table; my $cols; ($table,$cols) = split(/:/,$hdlspec); my @colmns=split(/,/,$cols); my @columns; my $hdlrtable=xCAT::Table->new($table); unless ($hdlrtable) { #TODO: proper error handling } my $node; my $colvals = {}; foreach my $colu (@colmns) { if ($colu =~ /=/) { #a value redirect to a pattern/specific name my $coln; my $colv; ($coln,$colv) = split(/=/,$colu,2); $colvals->{$coln} = $colv; push (@columns,$coln); } else { push (@columns,$colu); } } unless (@nodes) { #register the plugin in the event of usage $handler_hash{$ownmod} = 1; } foreach $node (@nodes) { my $attribs = $hdlrtable->getNodeAttribs($node,\@columns); unless (defined($attribs)) { next; } #TODO: This really ought to craft an unsupported response for this request foreach (@columns) { my $col=$_; if (defined($attribs->{$col})) { if ($colvals->{$col}) { #A pattern match style request. if ($attribs->{$col} =~ /$colvals->{$col}/) { $handler_hash{$ownmod}->{$node} = 1; delete $unhandled_nodes{$node}; last; } } else { $handler_hash{$attribs->{$col}}->{$node} = 1; delete $unhandled_nodes{$node}; last; } } } } $hdlrtable->close; } else { unless (@nodes) { $handler_hash{$hdlspec} = 1; } foreach (@nodes) { #Specified a specific plugin, not a table lookup $handler_hash{$hdlspec}->{$_} = 1; } } } } else { print "$req->{command}->[0] xCAT command not found \n"; return 1; #TODO: error back that request has no known plugin for it } if ($useunhandled) { my $queuelist; foreach (@{$cmd_handlers{$req->{command}->[0]}->[0]}) { unless (/:/) { next; } $queuelist .= "$_,"; } $queuelist =~ s/,$//; $queuelist =~ s/:/./g; foreach (keys %unhandled_nodes) { # if ($sock) { # print $sock XMLout({node=>[{name=>[$_],data=>["Unable to identify plugin for this command, check relevant tables: $queuelist"],errorcode=>[1]}]},NoAttr=>1,RootName=>'xcatresponse'); # } else { $callback->({node=>[{name=>[$_],data=>['Unable to identify plugin for this command, check relevant tables'],errorcode=>[1]}]}); # } } } ## FOR NOW, DON'T FORK CHILD PROCESS TO MAKE BYPASS SIMPLER AND EASIER TO DEBUG # $plugin_numchildren=0; # %plugin_children=(); # $SIG{CHLD} = \&plugin_reaper; #sub {my $plugpid; while (($plugpid = waitpid(-1, WNOHANG)) > 0) { if ($plugin_children{$plugpid}) { delete $plugin_children{$plugpid}; $plugin_numchildren--; } } }; # my $check_fds; # if ($sock) { # $check_fds = new IO::Select; # } foreach (keys %handler_hash) { my $modname = $_; if (-r $plugins_dir."/".$modname.".pm") { require $plugins_dir."/".$modname.".pm"; # $plugin_numchildren++; # my $pfd; #will be referenced for inter-process messaging. # my $parfd; #not causing a problem that I discern yet, but theoretically # my $child; # if ($sock) { #If $sock not passed in, don't fork.. # socketpair($pfd, $parfd,AF_UNIX,SOCK_STREAM,PF_UNSPEC) or die "socketpair: $!"; # #pipe($pfd,$cfd); # $parfd->autoflush(1); # $pfd->autoflush(1); # $child = xCAT::Utils->xfork; # } else { # $child = 0; # } # unless (defined $child) { die "Fork failed"; } # if ($child == 0) { # $parent_fd = $parfd; my $oldprogname=$$progname; $$progname=$oldprogname.": $modname instance"; # if ($sock) { close $pfd; } unless ($handler_hash{$_} == 1) { my @nodes = sort {($a =~ /(\d+)/)[0] <=> ($b =~ /(\d+)/)[0] || $a cmp $b } (keys %{$handler_hash{$_}}); $req->{node}=\@nodes; } no strict "refs"; # if ($dispatch_requests) { dispatch_request($req,$callback,$modname); # } else { # undef $SIG{CHLD}; # ${"xCAT_plugin::".$modname."::"}{process_request}->($req,$callback,\&do_request); # } $$progname=$oldprogname; # if ($sock) { # close($parent_fd); # xexit(0); # } # } else { # $plugin_children{$child}=1; # close $parfd; # $check_fds->add($pfd); # } } else { my $pm_name = $plugins_dir."/".$modname.".pm"; foreach my $node (keys %{$handler_hash{$_}}) { if ($sock) { print $sock XMLout({node=>[{name=>[$node],data=>["Cannot find the perl module to complete the operation: $pm_name"],errorcode=>[1]}]},NoAttr=>1,RootName=>'xcatresponse'); } else { $callback->({node=>[{name=>[$node],data=>["Cannot find the perl module to complete the operation: $pm_name"],errorcode=>[1]}]}); } } } } unless ($sock) { return $Main::resps }; # while (($plugin_numchildren > 0) and ($check_fds->count > 0)) { #this tracks end of useful data from children much more closely # relay_fds($check_fds,$sock); # } # #while (relay_fds($check_fds,$sock)) {} # my %done; # $done{serverdone} = {}; # if ($req->{transid}) { # $done{transid}=$req->{transid}->[0]; # } # if ($sock) { print $sock XMLout(\%done,RootName => 'xcatresponse',NoAttr=>1); } } ################################### # dispatch_request # dispatch the requested command # # NOTE: This is copied from xcatd (last merge 5/21/08). # All we really need from this subroutine is to call preprocess_request # and to only run the command for nodes handled by the local server # Will eventually move to using common source.... ################################### sub dispatch_request { # %dispatched_children=(); my $req = shift; $dispatch_cb = shift; my $modname = shift; my $reqs = []; # my $child_fdset = new IO::Select; no strict "refs"; #Hierarchy support. Originally, the default scope for noderange commands was #going to be the servicenode associated unless overriden. #However, assume for example that you have blades and a blade is the service node #rpower being executed by the servicenode for one of its subnodes would have to #reach it's own management module. This has the potential to be non-trivial for some quite possible network configurations. #Since plugins may commonly experience this, a preprocess_request implementation #will for now be required for a command to be scaled through service nodes #If the plugin offers a preprocess method, use it to set the request array if (defined(${"xCAT_plugin::".$modname."::"}{preprocess_request})) { undef $SIG{CHLD}; $reqs = ${"xCAT_plugin::".$modname."::"}{preprocess_request}->($req,$dispatch_cb,\&do_request); } else { #otherwise, pass it in without hierarchy support $reqs = [$req]; } # $dispatch_children=0; # $SIG{CHLD} = \&dispatch_reaper; #sub {my $cpid; while (($cpid =waitpid(-1, WNOHANG)) > 0) { if ($dispatched_children{$cpid}) { delete $dispatched_children{$cpid}; $dispatch_children--; } } }; foreach (@{$reqs}) { # my $pfd; # my $parfd; #use a private variable so it won't trounce itself recursively # my $child; delete $_->{noderange}; #----- added to Client.pm -----# if ($_->{node}) { $_->{noderange}->[0]=join(',',@{$_->{node}}); } # socketpair($pfd, $parfd,AF_UNIX,SOCK_STREAM,PF_UNSPEC) or die "socketpair: $!"; # $parfd->autoflush(1); # $pfd->autoflush(1); # $child = xCAT::Utils->xfork; # if ($child) { # $dispatch_children++; # $dispatched_children{$child}=1; # $child_fdset->add($pfd); # next; # } # unless (defined $child) { # $dispatch_cb->({error=>['Fork failure dispatching request'],errorcode=>[1]}); # } # undef $SIG{CHLD}; # $dispatch_parentfd = $parfd; if ($_->{'_xcatdest'} and thishostisnot($_->{'_xcatdest'})) { #----- added to Client.pm -----# $dispatch_cb->({warning=>['XCATBYPASS is set, skipping hierarchy call to '.$_->{'_xcatdest'}.'']}); # $ENV{XCATHOST} = ( $_->{'_xcatdest'} =~ /:/ ? $_->{'_xcatdest'} : $_->{'_xcatdest'}.":3001" ); # $$progname.=": connection to ".$ENV{XCATHOST}; # eval { # undef $_->{'_xcatdest'}; # xCAT::Client::submit_request($_,\&dispatch_callback,$xcatdir."/cert/server-cred.pem",$xcatdir."/cert/server-cred.pem",$xcatdir."/cert/ca.pem"); # }; # if ($@) { # dispatch_callback({error=>["Error dispatching command to ".$ENV{XCATHOST}.""],errorcode=>[1]}); # syslog("local4|err","Error dispatching request: ".$@); # } } else { $$progname.=": locally executing"; undef $SIG{CHLD}; ${"xCAT_plugin::".$modname."::"}{process_request}->($_,$dispatch_cb,\&do_request); } # xexit; } #while (($dispatch_children > 0) and ($child_fdset->count > 0)) { relay_dispatch($child_fdset) } #while (relay_dispatch($child_fdset)) { } #Potentially useless drain. } ################################### # thishostisnot # does the requested IP belong to this local host? # # NOTE: This is copied from xcatd (last merge 5/21/08). # Will eventually move to using common source.... ################################### sub thishostisnot { my $comparison = shift; # use "ip addr" for linux, since ifconfig # doesn't list "ip addr add" aliases for linux # my $cmd = ($^O !~ /^aix/i) ? "/sbin/ip addr" : "ifconfig -a"; my @ips = split /\n/,`$cmd`; #### # TODO: AIX will hang on the inet_aton call if it gets passed an IPv6 # address, since we have not added INET6 support to AIX yet. # The ifconfig -a output may contain an IPv6 address for localhost. # This code should only get called if using hierarchy #### my $comp=IO::Socket::inet_aton($comparison); foreach (@ips) { if (xCAT::Utils->isAIX()) { # don't want "inet6" entry - causes error in inet_aton if (/^\s*inet\s+/) { my @ents = split(/\s+/); my $ip=$ents[2]; $ip =~ s/\/.*//; if (IO::Socket::inet_aton($ip) eq $comp) { return 0; } } } else { if (/^\s*inet/) { my @ents = split(/\s+/); my $ip=$ents[2]; $ip =~ s/\/.*//; if (IO::Socket::inet_aton($ip) eq $comp) { return 0; } } } } return 1; } ################################### # do_request # called from a plugin to execute another xCAT plugin command internally # # NOTE: This is copied from xcatd (last merge 5/21/08). # Will eventually move to using common source.... ################################### sub do_request { my $req = shift; my $second = shift; my $rsphandler = \&build_response; my $sock = undef; if ($second) { if (ref($second) eq "CODE") { $rsphandler = $second; } elsif (ref($second) eq "GLOB") { $sock = $second; } } #my $sock = shift; #If no sock, will return a response hash if ($cmd_handlers{$req->{command}->[0]}) { return plugin_command($req,$sock,$rsphandler); } elsif ($req->{command}->[0] eq "noderange" and $req->{noderange}) { my @nodes = xCAT::NodeRange::noderange($req->{noderange}->[0]); my %resp; if (xCAT::NodeRange::nodesmissed()) { $resp{warning}="Invalid nodes in noderange:".join ',',xCAT::NodeRange::nodesmissed() ."\n"; } $resp{serverdone} = {}; @{$resp{node}}=@nodes; if ($req->{transid}) { $resp{transid}=$req->{transid}->[0]; } if ($sock) { print $sock XMLout(\%resp,RootName => 'xcatresponse',NoAttr=>1); } else { return (\%resp); } } else { my %resp=(error=>"Unsupported request"); $resp{serverdone} = {}; if ($req->{transid}) { $resp{transid}=$req->{transid}->[0]; } if ($sock) { print $sock XMLout(\%resp,RootName => 'xcatresponse',NoAttr=>1); } else { return (\%resp); } } } ################################### # build_response # This callback handles responses from nested level plugin calls. # It builds a merged hash of all responses that gets passed back # to the calling plugin. # Note: Need to create a "deep clone" of this response to add to the # return, otherwise next time through the referenced data is overwritten # ################################### sub build_response { my $rsp = shift; foreach (keys %$rsp) { my $subresp = dclone($rsp->{$_}); push (@{$Main::resps->{$_}}, @{$subresp}); } } } # end of submit_request() ########################################## # handle_response is a default callback that can be passed into submit_response() # It is invoked repeatedly by submit_response() to print out the data returned by # the plugin. # # The normal flow is: # -> client cmd (e.g. nodels, which is just a link to xcatclient) # -> xcatclient # -> submit_request() # -> send xml request to xcatd # -> xcatd # -> process_request() of the plugin # <- plugin callback # <- xcatd # <- xcatd sends xml response to client # <- submit_request() read response # <- handle_response() prints responses and saves exit codes # <- xcatclient gets exit code and exits # # But in XCATBYPASS mode, the flow is: # -> client cmd (e.g. nodels, which is just a link to xcatclient) # -> xcatclient # -> submit_request() # -> process_request() of the plugin # <- handle_response() prints responses and saves exit codes # <- xcatclient gets exit code and exits # # Format of the response hash: # {data => [ 'data str1', 'data str2', '...' ] } # # Results are printed as: # data str1 # data str2 # # or: # {data => [ {desc => [ 'desc1' ], # contents => [ 'contents1' ] }, # {desc => [ 'desc2 ], # contents => [ 'contents2' ] } # : # ] } # NOTE: In this format, only the data array can have more than one # element. All other arrays are assumed to be a single element. # Results are printed as: # desc1: contents1 # desc2: contents2 # # or: # {node => [ {name => ['node1'], # data => [ {desc => [ 'node1 desc' ], # contents => [ 'node1 contents' ] } ] }, # {name => ['node2'], # data => [ {desc => [ 'node2 desc' ], # contents => [ 'node2 contents' ] } ] }, # : # ] } # NOTE: Only the node array can have more than one element. # All other arrays are assumed to be a single element. # # This was generated from the corresponding XML: # # # node1 # # node1 desc # node1 contents # # # # node2 # # node2 desc # node2 contents # # # # # Results are printed as: # node_name: desc: contents ########################################## sub handle_response { my $rsp = shift; #print "in handle_response\n"; # Handle errors if ($rsp->{errorcode}) { if (ref($rsp->{errorcode}) eq 'ARRAY') { foreach my $ecode (@{$rsp->{errorcode}}) { $xCAT::Client::EXITCODE |= $ecode; } } else { $xCAT::Client::EXITCODE |= $rsp->{errorcode}; } # assume it is a non-reference scalar } if ($rsp->{error}) { #print "printing error\n"; if (ref($rsp->{error}) eq 'ARRAY') { foreach my $text (@{$rsp->{error}}) { print STDERR "Error: $text\n"; } } else { print ("Error: ".$rsp->{error}."\n"); } } if ($rsp->{warning}) { #print "printing warning\n"; if (ref($rsp->{warning}) eq 'ARRAY') { foreach my $text (@{$rsp->{warning}}) { print STDERR "Warning: $text\n"; } } else { print ("Warning: ".$rsp->{warning}."\n"); } } if ($rsp->{info}) { #print "printing info\n"; if (ref($rsp->{info}) eq 'ARRAY') { foreach my $text (@{$rsp->{info}}) { print "$text\n"; } } else { print ($rsp->{info}."\n"); } } if ($rsp->{sinfo}) { if (ref($rsp->{sinfo}) eq 'ARRAY') { foreach my $text (@{$rsp->{sinfo}}) { print "$text\r"; $|++; } } else { print ($rsp->{sinfo}."\r"); $|++; } } # Handle {node} structure my $errflg=0; if (scalar @{$rsp->{node}}) { #print "printing node\n"; my $nodes=($rsp->{node}); my $node; foreach $node (@$nodes) { my $desc=$node->{name}->[0]; if ($node->{errorcode}) { if (ref($node->{errorcode}) eq 'ARRAY') { foreach my $ecode (@{$node->{errorcode}}) { $xCAT::Client::EXITCODE |= $ecode; } } else { $xCAT::Client::EXITCODE |= $node->{errorcode}; } # assume it is a non-reference scalar } if ($node->{error}) { $desc.=": Error: ".$node->{error}->[0]; $errflg=1; } if ($node->{data}) { if (ref(\($node->{data}->[0])) eq 'SCALAR') { $desc=$desc.": ".$node->{data}->[0]; } else { if ($node->{data}->[0]->{desc}) { $desc=$desc.": ".$node->{data}->[0]->{desc}->[0]; } if ($node->{data}->[0]->{contents}) { $desc="$desc: ".$node->{data}->[0]->{contents}->[0]; } } } if ($desc) { if ($errflg == 1) { print STDERR ("$desc\n"); } else { print "$desc\n"; } } } } # Handle {data} structure with no nodes if ($rsp->{data}) { #print "printing data\n"; my $data=($rsp->{data}); my $data_entry; foreach $data_entry (@$data) { my $desc; if (ref(\($data_entry)) eq 'SCALAR') { $desc=$data_entry; } else { if ($data_entry->{desc}) { $desc=$data_entry->{desc}->[0]; } if ($data_entry->{contents}) { if ($desc) { $desc="$desc: ".$data_entry->{contents}->[0]; } else { $desc=$data_entry->{contents}->[0]; } } } if ($desc) { print "$desc\n"; } } } } # end of handle_response