# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html package xCAT::PPC; use strict; use lib "/opt/xcat/lib/perl"; use xCAT::Table; use xCAT::Utils; use xCAT::TableUtils; use xCAT::ServiceNodeUtils; use xCAT::SvrUtils; use xCAT::FSPUtils; use xCAT::Usage; use POSIX "WNOHANG"; use Storable qw(freeze thaw); use Time::HiRes qw(gettimeofday sleep); use IO::Select; use Socket; use xCAT::PPCcli; use xCAT::GlobalDef; use xCAT::DBobjUtils; use xCAT_monitoring::monitorctrl; use Thread qw(yield); use xCAT::PPCdb; #use Data::Dumper; ########################################## # Globals ########################################## my %modules = ( rinv => { hmc => "xCAT::PPCinv", ivm => "xCAT::PPCinv", fsp => "xCAT::FSPinv", bpa => "xCAT::FSPinv", cec => "xCAT::FSPinv", frame => "xCAT::FSPinv", }, rpower => { hmc => "xCAT::PPCpower", ivm => "xCAT::PPCpower", fsp => "xCAT::FSPpower", bpa => "xCAT::FSPpower", cec => "xCAT::FSPpower", frame => "xCAT::FSPpower", }, rvitals => { hmc => "xCAT::PPCvitals", fsp => "xCAT::FSPvitals", bpa => "xCAT::FSPvitals", cec => "xCAT::FSPvitals", frame => "xCAT::FSPvitals", }, rscan => { hmc => "xCAT::PPCscan", fsp => "xCAT::FSPscan", cec => "xCAT::FSPscan", ivm => "xCAT::PPCscan", }, mkvm => { hmc => "xCAT::PPCvm", fsp => "xCAT::FSPvm", cec => "xCAT::FSPvm", }, rmvm => { hmc => "xCAT::PPCvm", }, lsvm => { hmc => "xCAT::PPCvm", fsp => "xCAT::FSPvm", cec => "xCAT::FSPvm", }, chvm => { hmc => "xCAT::PPCvm", fsp => "xCAT::FSPvm", cec => "xCAT::FSPvm", }, rnetboot => { hmc => "xCAT::PPCboot", ivm => "xCAT::PPCboot", fsp => "xCAT::FSPboot", cec => "xCAT::FSPboot", }, getmacs => { hmc => "xCAT::PPCmac", ivm => "xCAT::PPCmac", fsp => "xCAT::FSPmac", cec => "xCAT::FSPmac", }, reventlog => { hmc => "xCAT::PPClog", }, rspconfig => { hmc => "xCAT::PPCcfg", fsp => "xCAT::FSPcfg", bpa => "xCAT::FSPcfg", cec => "xCAT::FSPcfg", blade => "xCAT::FSPcfg", frame => "xCAT::FSPcfg", }, rflash => { hmc => "xCAT::PPCrflash", fsp => "xCAT::FSPflash", bpa => "xCAT::FSPflash", cec => "xCAT::FSPflash", frame => "xCAT::FSPflash", }, mkhwconn => { hmc => "xCAT::PPCconn", fsp => "xCAT::FSPconn", cec => "xCAT::FSPconn", bpa => "xCAT::FSPconn", frame => "xCAT::FSPconn", }, rmhwconn => { hmc => "xCAT::PPCconn", fsp => "xCAT::FSPconn", cec => "xCAT::FSPconn", bpa => "xCAT::FSPconn", frame => "xCAT::FSPconn", }, lshwconn => { hmc => "xCAT::PPCconn", fsp => "xCAT::FSPconn", cec => "xCAT::FSPconn", bpa => "xCAT::FSPconn", frame => "xCAT::FSPconn", }, renergy => { hmc => "xCAT::PPCenergy", fsp => "xCAT::PPCenergy", cec => "xCAT::PPCenergy", }, rbootseq => { fsp => "xCAT::FSPbootseq", cec => "xCAT::FSPbootseq", }, ); ########################################## # Database errors ########################################## my %errmsg = ( NODE_UNDEF =>"Node not defined in '%s' database", NO_ATTR =>"'%s' not defined in '%s' database", NO_UNDEF =>"'%s' not defined in '%s' database for '%s'", DB_UNDEF =>"'%s' database not defined" ); ########################################################################## # Invokes the callback with the specified message ########################################################################## sub send_msg { my $request = shift; my $ecode = shift; my %output; ################################################# # Called from child process - send to parent ################################################# if ( exists( $request->{pipe} )) { my $out = $request->{pipe}; $output{errorcode} = $ecode; $output{data} = \@_; print $out freeze( [\%output] ); print $out "\nENDOFFREEZE6sK4ci\n"; } ################################################# # Called from parent - invoke callback directly ################################################# elsif ( exists( $request->{callback} )) { my $callback = $request->{callback}; $output{errorcode} = $ecode; $output{data} = \@_; $callback->( \%output ); } } ########################################################################## # Fork child to execute remote commands ########################################################################## sub process_command { my $request = shift; my $hcps_will= shift; my $failed_nodes = shift; my $failed_msg = shift; my %nodes = (); my $callback = $request->{callback}; #my $sitetab = xCAT::Table->new( 'site' ); my @site = qw(ppcmaxp ppctimeout maxssh ppcretry fsptimeout powerinterval syspowerinterval); my $start; my $verbose = $request->{verbose}; ####################################### # Default site table attributes ####################################### $request->{ppcmaxp} = 64; $request->{ppctimeout} = 0; $request->{fsptimeout} = 0; $request->{ppcretry} = 3; $request->{maxssh} = 8; $request->{powerinterval} = 0; $request->{syspowerinterval} = 0; ####################################### # Get site table attributes ####################################### foreach ( @site ) { my @val = xCAT::TableUtils->get_site_attribute($_); if ( defined($val[0]) ) { $request->{$_} = $val[0]; } } if ( exists( $request->{verbose} )) { $start = Time::HiRes::gettimeofday(); } ####################################### # Group nodes based on command ####################################### my $nodes; unless ($request->{command} =~ /^rspconfig$/&& exists( $request->{opt}->{resetnet})){ $nodes = preprocess_nodes( $request, $hcps_will ); if ( !defined( $nodes )) { return(1); } } #get new node status my %oldnodestatus=(); #saves the old node status my @allerrornodes=(); my $check=0; my $global_check=1; my @val = xCAT::TableUtils->get_site_attribute("nodestatus"); if (defined($val[0])) { if ($val[0] =~ /0|n|N/) { $global_check=0; } } my $command=$request->{command}; if (($command eq 'rpower') || ($command eq 'rnetboot')) { my $subcommand="temp"; if ($command eq 'rpower') { $subcommand=$request->{op}; } if (($global_check) && ($subcommand ne 'stat') && ($subcommand ne 'status') && ($subcommand ne 'state')) { $check=1; my $noderange = $request->{node}; my @allnodes=@$noderange; #save the old status my $nodelisttab = xCAT::Table->new('nodelist'); if ($nodelisttab) { my $tabdata = $nodelisttab->getNodesAttribs(\@allnodes, ['node', 'status']); foreach my $node (@allnodes) { my $tmp1 = $tabdata->{$node}->[0]; if ($tmp1) { if ($tmp1->{status}) { $oldnodestatus{$node}=$tmp1->{status}; } else { $oldnodestatus{$node}=""; } } } } #print "oldstatus:" . Dumper(\%oldnodestatus); #set the new status to the nodelist.status my %newnodestatus=(); my $newstat; if (($subcommand eq 'off') || ($subcommand eq 'softoff')) { my $newstat=$::STATUS_POWERING_OFF; $newnodestatus{$newstat}=\@allnodes; } else { #get the current nodeset stat if (@allnodes>0) { my $nsh={}; my ($ret, $msg)=xCAT::SvrUtils->getNodesetStates(\@allnodes, $nsh); if (!$ret) { foreach (keys %$nsh) { my $newstat=xCAT_monitoring::monitorctrl->getNodeStatusFromNodesetState($_, $command); $newnodestatus{$newstat}=$nsh->{$_}; } } else { trace( $request, $msg ); } } } #print "newstatus" . Dumper(\%newnodestatus); xCAT_monitoring::monitorctrl::setNodeStatusAttributes(\%newnodestatus, 1); } } ####################################### # Fork process ####################################### my $children = 0; my $fds = new IO::Select; # For the commands getmacs and rnetboot, each time # to fork process, pick out the HMC that has the # least process number created to connect to the HMC. # After the process by preprocess_nodes, the $nodes # variable has following structure: # $nodes # |hcp # |[[hcp,node1_attr], [hcp,node2_attr] ...] # |count //node number managed by the hcp # |runprocess //the process number connect to the hcp # |index //the index of node will be forked of the hcp if ( ($request->{command} =~ /^(getmacs)$/ && exists( $request->{opt}->{D} )) || ($request->{command} =~ /^(rnetboot)$/) || ($request->{command} =~ /^(rbootseq)$/) ) { my %pid_owner = (); $request->{maxssh} = int($request->{maxssh}/2); # Use the CHID signal to control the #connection number of certain hcp $SIG{CHLD} = sub { my $pid = 0; while (($pid = waitpid(-1, WNOHANG)) > 0) { $nodes->{$pid_owner{$pid}}{'runprocess'}--; delete $pid_owner{$pid}; $children--; } }; $SIG{INT} = $SIG{TERM} = sub { #prepare to process job termination and propogate it down foreach (keys %pid_owner) { kill 9, $_; } exit 0; }; my $hasnode = 1; while ($hasnode) { while ( $children >= $request->{ppcmaxp} ) { my $handlednodes={}; child_response( $callback, $fds, $handlednodes, $failed_nodes, $failed_msg, $verbose); #update the node status to the nodelist.status table if ($check) { updateNodeStatus($handlednodes, \@allerrornodes); } Time::HiRes::sleep(0.1); } # Pick out the hcp which has least processes my $least_processes = $request->{maxssh}; my $least_hcp; my $got_one = 0; while (!$got_one) { $hasnode = 0; foreach my $hcp (keys %$nodes) { if ($nodes->{$hcp}{'index'} < $nodes->{$hcp}{'count'}) { $hasnode = 1; if ($nodes->{$hcp}{'runprocess'} < $least_processes) { $least_processes = $nodes->{$hcp}{'runprocess'}; $least_hcp = $hcp; } } } if (!$hasnode) { # There are no node in the $nodes goto ENDOFFORK; } if ($least_processes < $request->{maxssh}) { $got_one = 1; } else { my $handlednodes={}; child_response( $callback, $fds, $handlednodes, $failed_nodes, $failed_msg, $verbose); #update the node status to the nodelist.status table if ($check) { updateNodeStatus($handlednodes, \@allerrornodes); } Time::HiRes::sleep(0.1); } } Time::HiRes::sleep(0.1); my ($pipe, $pid) = fork_cmd( $nodes->{$least_hcp}{'nodegroup'}->[$nodes->{$least_hcp}{'index'}]->[0], $nodes->{$least_hcp}{'nodegroup'}->[$nodes->{$least_hcp}{'index'}]->[1], $request ); if ($pid) { $pid_owner{$pid} = $least_hcp; $nodes->{$least_hcp}{'index'}++; $nodes->{$least_hcp}{'runprocess'}++; } if ( $pipe ) { $fds->add( $pipe ); $children++; } } } elsif ( $request->{command} =~ /^(getmacs)$/ && exists( $request->{opt}->{arp} ) ) { my $display = ""; if (defined($request->{opt}->{d})) { $display = "yes"; } my $output = xCAT::SvrUtils->get_mac_by_arp($nodes, $display); my $rsp = (); foreach my $node (keys %{$output}) { push @{$rsp->{node}}, {name => [$node], data => [$output->{$node}]}; } $rsp->{errorcode} = 0; $callback->($rsp); } elsif ( $request->{command} =~ /^rpower$/ ) { my $hw; my $sessions; my $pid_owner; my $remain_node = $nodes; my $num = 0; while ( scalar($remain_node) ) { $remain_node = (); foreach my $hash ( @$nodes ) { $SIG{CHLD} = sub { my $pid = 0; while (($pid = waitpid(-1, WNOHANG)) > 0) { $hw->{$pid_owner->{$pid}}--; $children--; } }; $SIG{INT} = $SIG{TERM} = $SIG{KILL} = sub { #prepare to process job termination and propogate it down foreach my $pid (keys %{$pid_owner}) { &kill_children_by_pid($pid); } exit 0; }; while ( $children >= $request->{ppcmaxp} ) { my $handlednodes={}; child_response( $callback, $fds, $handlednodes, $failed_nodes, $failed_msg, $verbose); #update the node status to the nodelist.status table if ($check) { updateNodeStatus($handlednodes, \@allerrornodes); } Time::HiRes::sleep(0.1); } if ( $hw->{@$hash[0]} >= $request->{maxssh} ) { my $handlednodes={}; child_response( $callback, $fds, $handlednodes, $failed_nodes, $failed_msg, $verbose); #update the node status to the nodelist.status table if ($check) { updateNodeStatus($handlednodes, \@allerrornodes); } Time::HiRes::sleep(0.1); push( @$remain_node, [@$hash[0], @$hash[1]] ); next; } if( $num > 0 && $request->{op} =~ /^on/ && $request->{fsp_api} == 1) { my $t_hash = @$hash[1]; my $one_key_in_thash = (keys %$t_hash)[0]; my $one_d = $t_hash->{$one_key_in_thash}; #print Dumper($one_d); if($$one_d[4] =~ /^fsp$/ || $$one_d[4] =~ /^cec$/) { if( $request->{syspowerinterval} > 0) { no_interrupt_sleep($request->{syspowerinterval}); } } } my ($pipe,$pid) = fork_cmd( @$hash[0], @$hash[1], $request ); $num++; if ($pid) { $pid_owner->{$pid} = @$hash[0]; $hw->{@$hash[0]}++; } if ( $pipe ) { $fds->add( $pipe ); $children++; } } $nodes = $remain_node; } } elsif ( $request->{command} =~ /^rspconfig$/&& exists( $request->{opt}->{resetnet} ) ) { runcmd( $request ); } else { my %pid_owner = (); $SIG{CHLD} = sub { while (waitpid(-1, WNOHANG) > 0) { $children--; } }; $SIG{INT} = $SIG{TERM} = $SIG{KILL} = sub { #prepare to process job termination and propogate it down foreach my $pid (keys %pid_owner) { &kill_children_by_pid($pid); } exit 0; }; my $hw; my $sessions; foreach ( @$nodes ) { while ( $children >= $request->{ppcmaxp} ) { my $handlednodes={}; child_response( $callback, $fds, $handlednodes, $failed_nodes, $failed_msg, $verbose); #update the node status to the nodelist.status table if ($check) { updateNodeStatus($handlednodes, \@allerrornodes); } Time::HiRes::sleep(0.1); } ################################### # sleep between connects to same # HMC/IVM so as not to overwelm it ################################### if ( $hw ne @$_[0] ) { $sessions = 1; } elsif ( $sessions++ >= $request->{maxssh} ) { sleep(1); $sessions = 1; } $hw = @$_[0]; my ($pipe,$pid) = fork_cmd( @$_[0], @$_[1], $request ); if ( $pipe ) { $pid_owner{$pid} = $pid; $fds->add( $pipe ); $children++; } } } ENDOFFORK: ####################################### # Process responses from children ####################################### while ( $fds->count > 0 or $children > 0 ) { my $handlednodes={}; child_response( $callback, $fds, $handlednodes, $failed_nodes, $failed_msg, $verbose); #update the node status to the nodelist.status table if ($check) { updateNodeStatus($handlednodes, \@allerrornodes); } Time::HiRes::sleep(0.1); } #drain one more time my $rc=1; while ( $rc>0 ) { my $handlednodes={}; $rc=child_response( $callback, $fds, $handlednodes, $failed_nodes, $failed_msg, $verbose); #update the node status to the nodelist.status table if ($check) { updateNodeStatus($handlednodes, \@allerrornodes); } } if ( exists( $request->{verbose} )) { my $elapsed = Time::HiRes::gettimeofday() - $start; my $msg = sprintf( "Total Elapsed Time: %.3f sec\n", $elapsed ); trace( $request, $msg ); } if ($check) { #print "allerrornodes=@allerrornodes\n"; #revert the status back for there is no-op for the nodes my %old=(); foreach my $node (@allerrornodes) { my $stat=$oldnodestatus{$node}; if (exists($old{$stat})) { my $pa=$old{$stat}; push(@$pa, $node); } else { $old{$stat}=[$node]; } } xCAT_monitoring::monitorctrl::setNodeStatusAttributes(\%old, 1); } return(0); } sub no_interrupt_sleep { my $sleep_time = shift; my $sleep_end = time + $sleep_time; while (1) { my $sleep_duration = $sleep_end - time; last if $sleep_duration <= 0; Time::HiRes::sleep($sleep_duration); } } sub kill_children_by_pid { my $pid = shift; my @pids = `ps -o pid,ppid -e`; for my $a_pid (@pids) { if( $a_pid =~ /\s*(\d*)\s*(\d*)/ ) { my $tmp_pid = $1; my $tmp_ppid = $2; if($tmp_ppid == $pid) { kill 9, $tmp_pid; } } } } ########################################################################## # updateNodeStatus ########################################################################## sub updateNodeStatus { my $handlednodes=shift; my $allerrornodes=shift; foreach my $node (keys(%$handlednodes)) { if ($handlednodes->{$node} == -1) { push(@$allerrornodes, $node); } } } ########################################################################## # Verbose mode (-V) ########################################################################## sub trace { my $request = shift; my $msg = shift; my ($sec,$min,$hour,$mday,$mon,$yr,$wday,$yday,$dst) = localtime(time); my $formatted = sprintf "%02d:%02d:%02d %5d %s", $hour,$min,$sec,$$,$msg; my $callback = $request->{callback}; $callback->( {data=>[$formatted]} ); } ########################################################################## # Send response from child process back to xCAT client ########################################################################## sub child_response { my $callback = shift; my $fds = shift; my $errornodes=shift; my $failed_nodes=shift; my $failed_msg=shift; my $verbose=shift; my @ready_fds = $fds->can_read(1); my $rc = @ready_fds; my $mkvm_cec; foreach my $rfh (@ready_fds) { my $data = <$rfh>; ################################# # Read from child process ################################# if ( defined( $data )) { while ($data !~ /ENDOFFREEZE6sK4ci/) { $data .= <$rfh>; } my $responses = thaw($data); my @nodes; foreach ( @$responses ) { my $node = $_->{node}->[0]->{name}->[0]; if (! grep /^$node$/, @nodes) { push (@nodes, $node); } } foreach ( sort @nodes ) { my $nodename = $_; foreach ( @$responses ) { if ($nodename eq $_->{node}->[0]->{name}->[0]) { # One special case for mkvm to output some messages if((exists($_->{errorcode})) && ($_->{errorcode} eq "mkvm" )) { $mkvm_cec = $nodename; next; } #save the nodes that has errors for node status monitoring if ((exists($_->{errorcode})) && ($_->{errorcode} != 0)) { #if($$failed_nodes[0] !~ /^noloop$/) { #if (!grep /^$nodename$/, @$failed_nodes) { # push(@$failed_nodes, $nodename); #} #if( defined( $failed_msg->{$nodename} )) { # my $f = $failed_msg->{$nodename}; # my $c = scalar(@$f); # $failed_msg->{$nodename}->[$c] = $_; #} else { # $failed_msg->{$nodename}->[0] = $_; #} #} else { #$callback->( $_ ); #} if ($errornodes) { $errornodes->{$_->{node}->[0]->{name}->[0]}=-1; } #if verbose, print all the message; #if not, print successful mesg for success, or all the failed mesg for failed. #if ( $verbose ) { # $callback->( $_ ); # } } else { if ($errornodes) { $errornodes->{$_->{node}->[0]->{name}->[0]}=1; } #$callback->( $_ ); } $callback->( $_ ); } } } if( defined($mkvm_cec)) { my $r; $r->{errorcode}=0; $r->{node}->[0]->{name}->[0] = $mkvm_cec; $r->{node}->[0]->{data}->[0]->{contents}->[0]="Please reboot the CEC $mkvm_cec firstly, and then use chvm to assign the I/O slots to the LPARs"; $callback->($r); } next; } ################################# # Done - close handle ################################# $fds->remove($rfh); close($rfh); } yield; #Try to avoid useless iterations as much as possible return $rc; } ########################################################################## # Finds attributes for given node is various databases ########################################################################## sub resolve_hcp { my $request = shift; my $noderange = shift; my @nodegroup = (); my $tab = ($request->{hwtype} eq "fsp" or $request->{hwtype} eq "bpa") ? "ppcdirect" : "ppchcp"; my $db = xCAT::Table->new( $tab ); #################################### # Database not defined #################################### if ( !defined( $db )) { send_msg( $request, 1, sprintf( $errmsg{DB_UNDEF}, $tab )); return undef; } #################################### # Process each node #################################### foreach my $hcp ( @$noderange ) { # my ($ent) = $db->getAttribs( {hcp=>$hcp},"hcp" ); # my ($ent) = $db->getNodeAttribs( $hcp, ["hcp"]); # if ( !defined( $ent )) { # my $msg = sprintf( "$hcp: $errmsg{NODE_UNDEF}", $tab ); # send_msg( $request, 1, $msg ); # next; # } ################################ # Get userid and password ################################ my @cred = xCAT::PPCdb::credentials( $hcp, $request->{hwtype} ); $request->{$hcp}{cred} = \@cred; ################################ # Save values ################################ push @nodegroup,[$hcp]; } return( \@nodegroup ); } ########################################################################## # Group nodes depending on command ########################################################################## sub preprocess_nodes { my $request = shift; my $hcps_will = shift; my $noderange = $request->{node}; my $method = $request->{method}; my %nodehash = (); my @nodegroup = (); my %hcpgroup = (); my %tabs = (); my $netwk; ######################################## # Special cases # rscan - Nodes are hardware control pts # FSPpower, FSPinv and FSPrflash ######################################## if (( !$request->{hcp} && ($request->{hcp} ne "hmc" )) and ($request->{command} !~ /^renergy$/) and (( $request->{command} =~ /^(rscan|rspconfig)$/ ) or ($request->{hwtype} eq "fsp" or $request->{hwtype} eq "bpa" ) or ($request->{command} eq 'lshwconn' and $request->{nodetype} eq 'hmc')) and ($request->{fsp_api} != 1) ) { my $result = resolve_hcp( $request, $noderange ); return( $result ); } ########################################## # Special processing - rnetboot ########################################## if ( $request->{command} eq "rnetboot" || $request->{command} eq "rbootseq" ) { $netwk = resolve_netwk( $request, $noderange ); if ( !( %$netwk )) { return undef; } } ########################################## # Open databases needed ########################################## foreach ( qw(ppc vpd nodetype) ) { $tabs{$_} = xCAT::Table->new($_); if ( !exists( $tabs{$_} )) { send_msg( $request, 1, sprintf( $errmsg{DB_UNDEF}, $_ )); return undef; } } ########################################################## # For DFM actions, all the IPs of the FSPs/BPAs corresponding CECs/Frames will be used to do the # comminucation with the hdwr_svr. So use the gethcpAttribs() to collect the CECs' FSPs, and Frames' # BPA here for process fork . # In the HMC hardware control environment, the mkhwconn/rmhwconn commands will use the FSPs' IPs or # the BPAs' IPs. So it also need to collect the CECs' FSPs, and Frames' BPA here. ########################################################## if ( $request->{fsp_api} == 1 || $request->{command} =~ /^(mkhwconn|rmhwconn|lshwconn)$/) { xCAT::FSPUtils::getHcpAttribs($request, \%tabs); } ########################################## # Group nodes. The first key is hcp, and the second kery is mtms. # All the attributs collected here will be used for the different commands Grcup Nodes later. ########################################## foreach my $node ( @$noderange ) { my $d = resolve( $request, $node, \%tabs ); ###################################### # Error locating node attributes ###################################### if ( ref($d) ne 'ARRAY' ) { send_msg( $request, 1, "$node: $d"); next; } ###################################### # Get data values ###################################### my $hcp = @$d[3]; #my $hcp = $hcps_will->{$node}; #@$d[3] = $hcp; my $mtms = @$d[2]; ###################################### # Special case for mkhwconn with -p. The hcp in the command is specified by the users, # not in the DB, and the hcp value is stored in $request->{opt}->{p}. # So set the $request->{opt}->{p} as the key the %nodehash directly. ###################################### if ( $request->{command} eq "mkhwconn" and exists $request->{opt}->{p}) { $nodehash{ $request->{opt}->{p}}{$mtms}{$node} = $d; } ###################################### #The common case ###################################### else { $nodehash{$hcp}{$mtms}{$node} = $d; } } ########################################## # Get userid and password ########################################## while (my ($hcp,$hash) = each(%nodehash) ) { my @cred; if( $request->{fsp_api} != 1 ) { if ($request->{hcp} && ($request->{hcp} eq "hmc" )) { @cred = xCAT::PPCdb::credentials( $hcp, $request->{hcp} ); } else { @cred = xCAT::PPCdb::credentials( $hcp, $request->{hwtype} ); } $request->{$hcp}{cred} = \@cred; } ###################################################### #In DFM suppport, only the mkhwconn command need the userid/password to #create the connection between hdwr_svr and FSPs/BPAs ###################################################### if( $request->{fsp_api} == 1 && $request->{command} eq "mkhwconn") { my $user; while( my($mtms, $h) = each(%$hash) ) { while(my($node, $tmp_d) = each(%$h) ) { my $type = $$tmp_d[4]; ############### #For NGP, get the passwd of the cmm's username USERID ############### if($type && $type =~ /^blade$/) { $user = "USERID"; my $cmm = $$tmp_d[5]; @cred = xCAT::PPCdb::credentials( $cmm, $type, $user ); $request->{$cmm}{cred} = \@cred; } ############################ #For P7 IH DFM, get the password of the CEC's/Frame's username HMC ########################### if($type && $type =~ /^(fsp|bpa|cec|frame)$/) { $user = "HMC"; @cred = xCAT::PPCdb::credentials( $hcp, $type, $user ); $request->{$hcp}{cred} = \@cred; } } } } } ########################################## # Group the nodes - we will fork one # process per nodegroup array element. ########################################## ########################################## # These commands are grouped on an # LPAR-by-LPAR basis - fork one process # per LPAR. ########################################## if ( ($method =~ /^(getmacs)$/ && exists( $request->{opt}->{D} )) || ($method =~ /^(rnetboot)$/) || $method =~ /^(rbootseq)$/ ) { while (my ($hcp,$hash) = each(%nodehash) ) { @nodegroup = (); while (my ($mtms,$h) = each(%$hash) ) { while (my ($lpar,$d) = each(%$h)) { push @$d, $lpar; ########################## # Save network info ########################## if ( $method =~ /^rnetboot$/ || $method =~ /^(rbootseq)$/ ) { push @$d, $netwk->{$lpar}; } push @nodegroup,[$hcp,$d]; } } $hcpgroup{$hcp}{'nodegroup'} = [@nodegroup]; $hcpgroup{$hcp}{'count'} = $#nodegroup + 1; $hcpgroup{$hcp}{'runprocess'} = 0; $hcpgroup{$hcp}{'index'} = 0; } return( \%hcpgroup ); } elsif ( $method =~ /^(getmacs)$/ && exists( $request->{opt}->{arp} ) ) { return( $noderange ); } ########################################## # Power control commands are grouped # by CEC which is the smallest entity # that commands can be sent to in parallel. # If commands are sent in parallel to a # single CEC, the CEC itself will serialize # them - fork one process per CEC. ########################################## elsif ( $method =~ /^powercmd/ || $method =~ /^renergy/ ) { while (my ($hcp,$hash) = each(%nodehash) ) { while (my ($mtms,$h) = each(%$hash) ) { push @nodegroup,[$hcp,$h]; } } return( \@nodegroup ); } ########################################## # All other commands are grouped by # hardware control point - fork one # process per hardware control point. ########################################## while (my ($hcp,$hash) = each(%nodehash) ) { push @nodegroup,[$hcp,$hash]; } return( \@nodegroup ); } ########################################################################## # Finds attributes for given node is various databases ########################################################################## sub resolve_netwk { my $request = shift; my $noderange = shift; my %nethash = xCAT::DBobjUtils->getNetwkInfo( $noderange ); my $tab = xCAT::Table->new( 'mac' ); my %result = (); my $ip; ##################################### # Network attributes undefined ##################################### if ( !%nethash ) { send_msg( $request,1,sprintf( $errmsg{NODE_UNDEF}, "networks" )); return undef; } ##################################### # mac database undefined ##################################### if ( !defined( $tab )) { send_msg( $request, 1, sprintf( $errmsg{DB_UNDEF}, "mac" )); return undef; } foreach ( @$noderange ) { ################################# # Get gateway (-G) ################################# if ( !exists( $nethash{$_} )) { my $msg = sprintf( "$_: $errmsg{NODE_UNDEF}", "networks"); send_msg( $request, 1, $msg ); next; } my $gateway = $nethash{$_}{gateway}; my $gateway_ip; if ( defined( $gateway )) { $ip = xCAT::NetworkUtils::toIP( $gateway ); if ( @$ip[0] != 0 ) { send_msg( $request, 1, "$_: Cannot resolve '$gateway'" ); next; } $gateway_ip = @$ip[1]; } my $netmask = $nethash{$_}{mask}; if ( !defined( $netmask )) { my $msg = sprintf("$_: $errmsg{NO_ATTR}","mask","networks"); send_msg( $request, 1, $msg ); next; } ################################# # Get server (-S) ################################# my $server = xCAT::TableUtils->GetMasterNodeName( $_ ); if ( $server == 1 ) { send_msg( $request, 1, "$_: Unable to identify master" ); next; } $ip = xCAT::NetworkUtils::toIP( $server ); if ( @$ip[0] != 0 ) { send_msg( $request, 1, "$_: Cannot resolve '$server'" ); next; } my $server_ip = @$ip[1]; ################################# # Get client (-C) ################################# $ip = xCAT::NetworkUtils::toIP( $_ ); if ( @$ip[0] != 0 ) { send_msg( $request, 1, "$_: Cannot resolve '$_'" ); next; } my $client_ip = @$ip[1]; ################################# # Get mac-address (-m) ################################# my ($ent) = $tab->getNodeAttribs( $_, ['mac'] ); if ( !defined($ent) ) { my $msg = sprintf( "$_: $errmsg{NO_ATTR}","mac","mac"); send_msg( $request, 1, $msg ); next; } ################################# # Save results ################################# $result{$_}{gateway} = $gateway_ip; $result{$_}{server} = $server_ip; $result{$_}{client} = $client_ip; $result{$_}{mac} = $ent->{mac}; $result{$_}{netmask} = $netmask; } return( \%result ); } ########################################################################## # Finds attributes for given node is various databases ########################################################################## sub resolve { my $request = shift; my $node = shift; my $tabs = shift; my @attribs = qw(id pprofile parent hcp); my @values = (); ################################# # Get node type ################################# #my $ent = $tabs->{nodetype}->getNodeAttribs($node,[qw(nodetype node)]); #if ( !defined( $ent )) { # return( sprintf( $errmsg{NODE_UNDEF}, "nodetype" )); #} ################################# # Check for type ################################# #if ( !exists( $ent->{nodetype} )) { # return( sprintf( $errmsg{NO_ATTR}, "nodetype","nodetype" )); #} ################################# # Check for valid "type" ################################# my $ttype = xCAT::DBobjUtils->getnodetype($node, "ppc"); my ($type) = grep( /^$::NODETYPE_LPAR|$::NODETYPE_OSI|$::NODETYPE_BPA|$::NODETYPE_FSP|$::NODETYPE_CEC|$::NODETYPE_FRAME|$::NODETYPE_BLADE$/, #split /,/, $ent->{nodetype} ); split /,/, $ttype); if ( !defined( $type )) { #return( "Invalid node type: $ent->{nodetype}" ); return( "Invalid node type: $ttype" ); } ################################# # Get attributes ################################# my ($att) = $tabs->{ppc}->getNodeAttribs( $node, \@attribs ); if ( !defined( $att )) { return( sprintf( $errmsg{NODE_UNDEF}, "ppc" )); } ################################# # Special lpar processing ################################# if ( $type =~ /^$::NODETYPE_OSI|$::NODETYPE_LPAR$/ ) { $att->{bpa} = 0; $att->{type} = "lpar"; $att->{node} = $att->{parent}; if ( !exists( $att->{parent} )) { return( sprintf( $errmsg{NO_ATTR}, "parent", "ppc" )); } ############################# # Get BPA (if any) #DFM doesn't support rvitals with temp, so add the if fsp_api != 1 #It will improve the performance of rvitals with all ############################# if (( $request->{command} eq "rvitals" ) && ( $request->{method} =~ /^all|temp$/ ) && $request->{fsp_api} != 1 ) { my ($ent) = $tabs->{ppc}->getNodeAttribs( $att->{parent},['parent']); ############################# # Find MTMS in vpd database ############################# if (( defined( $ent )) && exists( $ent->{parent} )) { my @attrs = qw(mtm serial); my ($vpd) = $tabs->{vpd}->getNodeAttribs($ent->{parent},\@attrs); ######################## # Verify attributes ######################## foreach ( @attrs ) { if ( !defined( $vpd ) || !exists( $vpd->{$_} )) { return( sprintf( $errmsg{NO_UNDEF}, $_, "vpd", $ent->{parent} )); } } $att->{bpa} = "$vpd->{mtm}*$vpd->{serial}"; } } } ################################# # Optional and N/A fields ################################# elsif ( $type =~ /^$::NODETYPE_FSP$/ ) { $att->{pprofile} = 0; $att->{id} = 0; $att->{fsp} = 0; $att->{node} = $node; $att->{type} = $type; $att->{parent} = exists($att->{parent}) ? $att->{parent} : 0; $att->{bpa} = $att->{parent}; my $ntype; if ( exists( $att->{parent} )) { $ntype = xCAT::DBobjUtils->getnodetype($att->{parent}, "ppc"); } if (( $request->{command} eq "rvitals" ) && ( $request->{method} =~ /^all|temp$/ && $ntype =~ /^cec$/ ) && $request->{fsp_api} != 1 ) { my ($ent) = $tabs->{ppc}->getNodeAttribs( $att->{parent},['parent']); ############################# # Find MTMS in vpd database ############################# if (( defined( $ent )) && exists( $ent->{parent} )) { my @attrs = qw(mtm serial); my ($vpd) = $tabs->{vpd}->getNodeAttribs($ent->{parent},\@attrs); ######################## # Verify attributes ######################## foreach ( @attrs ) { if ( !defined( $vpd ) || !exists( $vpd->{$_} )) { return( sprintf( $errmsg{NO_UNDEF}, $_, "vpd", $ent->{parent} )); } } $att->{bpa} = "$vpd->{mtm}*$vpd->{serial}"; } } elsif (( $request->{command} eq "rvitals" ) && ( $request->{method} =~ /^all|temp$/ && $ntype =~ /^bpa$/ ) && $request->{fsp_api} != 1) { my @attrs = qw(mtm serial); my ($vpd) = $tabs->{vpd}->getNodeAttribs($att->{parent},\@attrs); ######################## # Verify attributes ######################## foreach my $attr ( @attrs ) { if ( !defined( $vpd ) || !exists( $vpd->{$attr} )) { return( sprintf( $errmsg{NO_UNDEF}, $attr, "vpd", $att->{parent} )); } } $att->{bpa} = "$vpd->{mtm}*$vpd->{serial}"; } } elsif ( $type =~ /^$::NODETYPE_BPA$/ ) { $att->{pprofile} = 0; $att->{id} = 0; $att->{bpa} = 0; $att->{parent} = 0; $att->{fsp} = 0; $att->{node} = $node; $att->{type} = $type; } elsif ( $type =~ /^$::NODETYPE_CEC|$::NODETYPE_BLADE$/ ) { $att->{pprofile} = 0; if( $type =~ /^$::NODETYPE_CEC$/) { $att->{id} = 0; } $att->{fsp} = 0; $att->{node} = $node; $att->{type} = $type; $att->{parent} = exists($att->{parent}) ? $att->{parent} : 0; $att->{bpa} = $att->{parent}; if (( $request->{command} eq "rvitals" ) && ( $request->{method} =~ /^all|temp$/ ) && $request->{fsp_api} != 1) { ############################# # Find MTMS in vpd database ############################# if ( exists( $att->{parent} )) { my @attrs = qw(mtm serial); my ($vpd) = $tabs->{vpd}->getNodeAttribs($att->{parent},\@attrs); ######################## # Verify attributes ######################## foreach ( @attrs ) { if ( !defined( $vpd ) || !exists( $vpd->{$_} )) { return( sprintf( $errmsg{NO_UNDEF}, $_, "vpd", $att->{parent} )); } } $att->{bpa} = "$vpd->{mtm}*$vpd->{serial}"; } } } elsif ( $type =~ /^$::NODETYPE_FRAME$/ ) { $att->{pprofile} = 0; $att->{id} = 0; $att->{bpa} = 0; $att->{parent} = 0; $att->{fsp} = 0; $att->{node} = $node; $att->{type} = $type; } ################################# # Find MTMS in vpd database ################################# my @attrs = qw(mtm serial); my ($vpd) = $tabs->{vpd}->getNodeAttribs($att->{node}, \@attrs ); if ( !defined( $vpd )) { return( sprintf( $errmsg{NODE_UNDEF}, "vpd: ($att->{node})" )); } ################################ # Verify both vpd attributes ################################ foreach ( @attrs ) { if ( !exists( $vpd->{$_} )) { return( sprintf( $errmsg{NO_ATTR}, $_, "vpd: ($att->{node})" )); } } $att->{fsp} = "$vpd->{mtm}*$vpd->{serial}"; ################################# # Verify required attributes ################################# foreach my $at ( @attribs ) { if ( !exists( $att->{$at} )) { if( !($request->{fsp_api} == 1 && !exists($att->{pprofile}))) { #for p7 ih, there is no pprofile attribute return( sprintf( $errmsg{NO_ATTR}, $at, "ppc" )); } } } ############################ #Specail case for mkhwconn/lshwconn/rmhwconn with -s . The sfp value( always the hmc) should #be set as the hcp. ############################ if( $request->{command} =~ /^(mkhwconn|lshwconn|rmhwconn)$/ && grep (/^-s$/, @{$request->{arg}})) { my $sfp; unless ( $request->{sfp} ) { my $ent = $tabs->{ppc}->getNodeAttribs( $node, [qw(sfp)]); if( $request->{command} =~ /^(lshwconn|rmhwconn)$/ && !defined($ent)) { return( "$node: No sfp defined in the ppc table."); } $sfp = $ent->{sfp}; } else { $sfp = $request->{sfp}; } if( $request->{command} =~ /^(mkhwconn)$/ && !defined($sfp)) { return("$node: Please specify the sfp in the commands or in the ppc table."); } $request->{fsp_api} = 0; $request->{hwtype} = "hmc"; $att->{hcp} = $sfp; } ################################# # Build array of data ################################# foreach ( qw(id pprofile fsp hcp type bpa) ) { push @values, $att->{$_}; } return( \@values ); } ########################################################################## # Forks a process to run the ssh command ########################################################################## sub fork_cmd { my $host = shift; my $nodes = shift; my $request = shift; ####################################### # Pipe childs output back to parent ####################################### my $parent; my $child; pipe $parent, $child; my $pid = xCAT::Utils->xfork; if ( !defined($pid) ) { ################################### # Fork error ################################### send_msg( $request, 1, "Fork error: $!" ); return undef; } elsif ( $pid == 0 ) { ################################### # Child process ################################### close( $parent ); $request->{pipe} = $child; invoke_cmd( $host, $nodes, $request ); exit(0); } else { ################################### # Parent process ################################### close( $child ); return( $parent, $pid ); } return(0); } sub handle_cmd { my $server = shift; my $host = shift; my $request = shift; my $verbose = $request->{verbose}; eval { require xCAT::PPCfsp }; if ( $@ ) { send_msg( $request, 1, $@ ); return; } my @exp = xCAT::PPCfsp::connect( $request, $server ); #################################### # Error connecting #################################### if ( ref($exp[0]) ne "LWP::UserAgent" ) { #send_msg( $request, 1, $exp[0] ); my @output_array; my $methods = $request->{method}; foreach ( keys %$methods) { my %output; $output{node}->[0]->{name}->[0] = "$host"; $output{node}->[0]->{data}->[0]->{contents}->[0] = "$server: $exp[0]"; $output{node}->[0]->{cmd}->[0] = $_; $output{errorcode} = 128; push @output_array, \%output; } return \@output_array; } $request->{host} = $host; my $result = xCAT::PPCfsp::handler( $server, $request, \@exp); #################################### # Output verbose Perl::LWP #################################### if ( $verbose ) { my $verbose_log = $exp[3]; my $output = shift @$result; $output->{data} = [$$verbose_log]; unshift @$result, \%$output; } return $result; } sub handle_find_hw_children { my $host = shift; my $child_type = shift; my @children = (); my $vpdtab = xCAT::Table->new("vpd"); if (!defined($vpdtab) or !defined($child_type)) { return undef; } my $mtms = $vpdtab->getNodeAttribs($host, qw(serial mtm)); if (!defined($mtms)) { return undef; } my @nodearray = $vpdtab->getAttribs({serial=>$mtms->{serial}, mtm=>$mtms->{mtm}}, qw(node side)); # need regx if (!(@nodearray)) { return undef; } my @tempnodes; foreach (@nodearray) { push @tempnodes, $_->{node}; } my $typehash = xCAT::DBobjUtils->getnodetype(\@tempnodes, "ppc"); foreach my $node (@nodearray) { my $n_type = $$typehash{$node->{node}}; if ($n_type !~ /^$child_type$/ or !defined($node->{side})) { next; } push @children, $node; } if (scalar(@children) eq '0') { return undef; } return \@children; } sub print_res { my $request = shift; my $host = shift; my $res_array = shift; if (!defined($res_array) or ref($res_array) ne 'ARRAY') { return; } my $out = $request->{pipe}; print $out freeze( $res_array ); print $out "\nENDOFFREEZE6sK4ci\n"; return ; } sub get_dirindex_from_side { my $side = shift; my $dir = undef; if ($side =~ /(a+)-\d*/i) { $dir = '0'; } elsif ($side =~ /(b+)-\d*/i) { $dir = '1'; } else { $dir = '2'; } return $dir; } sub reorgnize_res_for_handle_cmd { my $request = shift; my $host = shift; my $output = shift; my $methods = $request->{method}; my %re_output = (); my %succ_side = (); my $dir = undef; foreach my $side (keys %$output) { my $res = $output->{$side}; foreach my $index (@$$res) { $dir = &get_dirindex_from_side($side); my $cmd = $index->{node}->[0]->{cmd}->[0]; if (($index->{node}->[0]->{data}->[0]->{contents}->[0]) =~ /feature is not available/) { $dir = '0'; } if (!defined($succ_side{$cmd}{$dir}{done})) { if (defined($re_output{$cmd}{$dir})) { my $array = $re_output{$cmd}{$dir}; my $n = scalar(@$array); $array->[$n] = $index; } else { $re_output{$cmd}{$dir}[0] = $index; } } else { next; } if ($index->{errorcode} eq '0') { @{$re_output{$cmd}{$dir}} = (); $re_output{$cmd}{$dir}[0] = $index; $succ_side{$cmd}{$dir}{done}++; } } } foreach my $method (keys %re_output) { my $value = $re_output{$method}; foreach my $side (keys %$value) { my $res_array = $value->{$side}; &print_res($request, $host, $res_array); } } return undef; } sub process_children { my $request = shift; my $host = shift; my $node_array = shift; my %output = (); my %conn_flag = (); foreach my $index (@$node_array) { my $side = $index->{side}; my $dir = &get_dirindex_from_side($side); if (defined($conn_flag{$dir})) { next; } $request->{$index->{node}}{cred} = $request->{$host}{cred}; my $res = &handle_cmd($index->{node}, $host, $request); $output{$side} = \$res; if ($res->[0]->{errorcode} ne '128') { $conn_flag{$dir} = 1; } } &reorgnize_res_for_handle_cmd($request, $host, \%output); return undef; } my %children_type = ( cec => "fsp", frame => "bpa" ); sub handle_redundance_fsps { my $host = shift; my $hwtype = shift; my $request = shift; my $res = undef; if ($hwtype =~ /^(bpa|fsp)$/) { $res = &handle_cmd($host, $host, $request); &print_res($request, $host, $res); } elsif ($hwtype =~ /^(cec|frame)$/){ my $child_type = $children_type{$hwtype}; my $children = &handle_find_hw_children($host, $child_type); if (!defined($children)) { send_msg($request, 1, "Not found any $child_type for $host"); } else { &process_children($request, $host, $children); } } else { send_msg( $request, 1, "$hwtype not support!"); } return undef; } sub check_node_info { my $hash = shift; my $if_lpar = undef; while (my ($mtms, $h) = each(%$hash)) { while (my($name, $d) = each(%$h)) { my $node_type = @$d[4]; if ($node_type =~ /^lpar$/) { $if_lpar = $name; last; } } } return $if_lpar; } ########################################################################## # Run the command, process the response, and send to parent ########################################################################## sub invoke_cmd { my $host = shift; my $nodes = shift; my $request = shift; my $hwtype = $request->{hwtype}; my $verbose = $request->{verbose}; my $cmd = $request->{command}; my $power = $request->{hcp}; my @exp; my $verbose_log; my @outhash; ######################################## # If the request command is renergy, just # uses the xCAT CIM Client to handle it ######################################## if ( $request->{command} eq "renergy" ) { my $result = &runcmd($request, $host, $nodes); ######################################## # Format and send back to parent ######################################## foreach my $line ( @$result ) { my %output; $output{node}->[0]->{name}->[0] = @$line[0]; $output{node}->[0]->{data}->[0]->{contents}->[0] = @$line[1]; $output{errorcode} = @$line[2]; push @outhash, \%output; } my $out = $request->{pipe}; print $out freeze( [@outhash] ); print $out "\nENDOFFREEZE6sK4ci\n"; return; } ######################################## # Direct-attached FSP handler ######################################## if ( ($power ne "hmc") && ( $hwtype =~ /^(fsp|bpa|cec|frame|blade)$/) && $request->{fsp_api} == 0) { if ($request->{command} eq 'rpower') { my $check = &check_node_info($nodes); if (defined($check)) { my %output; $output{node}->[0]->{name}->[0] = $check; $output{node}->[0]->{data}->[0]->{contents}->[0] = "Error: $request->{command} not support on lpar in ASMI mode"; $output{node}->[0]->{cmd}->[0] = $request->{method}; $output{errorcode} = 1; my $out = $request->{pipe}; print $out freeze( [\%output] ); print $out "\nENDOFFREEZE6sK4ci\n"; return ; } if (ref($request->{method}) ne 'HASH') { my %method_hash = (); my $method = $request->{method}; $method_hash{$method} = undef; $request->{method} = \%method_hash; } } &handle_redundance_fsps($host, $hwtype, $request); return; } ######################################## # HMC and IVM-managed handler # Connect to list of remote servers ######################################## if ( $request->{fsp_api} == 0 ) { foreach ( split /,/, $host ) { if ( $power ne "hmc" ) { @exp = xCAT::PPCcli::connect( $request, $hwtype, $_ ); } else { @exp = xCAT::PPCcli::connect( $request, $power, $_); } #################################### # Successfully connected #################################### if ( ref($exp[0]) eq "Expect" ) { last; } } ######################################## # Error connecting ######################################## if ( ref($exp[0]) ne "Expect" ) { send_msg( $request, 1, $exp[0] ); return; } } ######################################## # Process specific command ######################################## my $result = runcmd( $request, $nodes, \@exp ); ######################################## # Close connection to remote server ######################################## if( $request->{fsp_api} == 0 ) { xCAT::PPCcli::disconnect( \@exp ); } ######################################## # Get verbose Expect output ######################################## if ( $verbose ) { $verbose_log = $exp[6]; } ######################################## # Return error ######################################## if ( ref($result) ne 'ARRAY' ) { send_msg( $request, 1, $$verbose_log.$result ); return; } ######################################## # Prepend verbose output ######################################## if ( defined( $verbose_log )) { my %output; $output{data} = [$$verbose_log]; push @outhash, \%output; } ######################################## # Send result back to parent process ######################################## if ( @$result[0] eq "FORMATDATA6sK4ci" ) { my $out = $request->{pipe}; push @outhash, @$result[1]; print $out freeze( [@outhash] ); print $out "\nENDOFFREEZE6sK4ci\n"; return; } ######################################## # Format and send back to parent ######################################## foreach ( @$result ) { my %output; $output{node}->[0]->{name}->[0] = @$_[0]; #$output{node}->[0]->{data}->[0]->{contents}->[0] = @$_[1]; $output{errorcode} = @$_[2]; if($output{errorcode} != 0) { if($request->{fsp_api} == 1) { #$output{node}->[0]->{data}->[0]->{contents}->[0] = "(trying fsp-api)@$_[1]"; $output{node}->[0]->{data}->[0]->{contents}->[0] = "@$_[1]"; } else { #$output{node}->[0]->{data}->[0]->{contents}->[0] = "(trying HMC )@$_[1]"; $output{node}->[0]->{data}->[0]->{contents}->[0] = "@$_[1]"; } } else { $output{node}->[0]->{data}->[0]->{contents}->[0] = @$_[1]; } push @outhash, \%output; } my $out = $request->{pipe}; print $out freeze( [@outhash] ); print $out "\nENDOFFREEZE6sK4ci\n"; } ########################################################################## # Run the command method specified ########################################################################## sub runcmd { my $request = shift; my $cmd = $request->{command}; my $method = $request->{method}; my $hwtype = $request->{hwtype}; #my $modname = $modules{$cmd}; my $modname = $modules{$cmd}{$hwtype}; ###################################### # Command not supported ###################################### if ( !defined( $modname )) { return( ["$cmd not a supported command by $hwtype method"] ); } ###################################### # Load specific module ###################################### eval "require $modname"; if ( $@ ) { return( [$@] ); } ###################################### # Invoke method ###################################### no strict 'refs'; my $result = ${$modname."::"}{$method}->($request,@_); use strict; return( $result ); } ########################################################################## # Pre-process request from xCat daemon. Send the request to the the service # nodes of the HCPs. ########################################################################## sub preprocess_request { my $package = shift; my $req = shift; #if ($req->{_xcatdest}) { return [$req]; } #exit if preprocessed if ($req->{_xcatpreprocessed}->[0] == 1 ) { return [$req]; } my $callback = shift; my $subreq = shift; my @requests; ##################################### # Parse arguments ##################################### my $opt = parse_args($package, $req, $callback); if ( ref($opt) eq 'ARRAY' ) { send_msg( $req, 1, @$opt ); delete($req->{callback}); # if not, it will cause an error -- "Can't encode a value of type: CODE" in hierairchy. return(1); } delete($req->{callback}); # remove 'callback' => sub { "DUMMY" } in hierairchy. $req->{opt} = $opt; if ( exists( $req->{opt}->{V} )) { $req->{verbose} = 1; } #################################### # Get hwtype #################################### $package =~ s/xCAT_plugin:://; my $deps; my $nodeseq; if (($req->{command}->[0] eq 'rpower') && (!grep(/^--nodeps$/, @{$req->{arg}})) && (($req->{op}->[0] eq 'on') || ($req->{op}->[0] eq 'off') || ($req->{op}->[0] eq 'softoff') || ($req->{op}->[0] eq 'reset'))) { $deps = xCAT::SvrUtils->build_deps($req->{node}, $req->{op}->[0]); # no dependencies at all if (!defined($deps)) { foreach my $node (@{$req->{node}}) { $nodeseq->[0]->{$node} = 1; } } else { $nodeseq = xCAT::SvrUtils->handle_deps($deps, $req->{node}, $callback); } } if ($nodeseq == 1) { return undef; } # no dependency defined in deps table, # generate the $nodeseq hash if (!$nodeseq) { foreach my $node (@{$req->{node}}) { $nodeseq->[0]->{$node} = 1; } } my $i = 0; for ($i = 0; $i < scalar(@{$nodeseq}); $i++) { #reset the @requests for this loop @requests = (); #################################### # Prompt for usage if needed and on MN #################################### my @dnodes = keys(%{$nodeseq->[$i]}); if (scalar(@dnodes) == 0) { next; } if (scalar(@{$nodeseq}) > 1) { my %output; my $cnodes = join(',', @dnodes); $output{data} = ["Performing action against the following nodes: $cnodes"]; $callback->( \%output ); } my $noderange = \@dnodes; $req->{node} = \@dnodes; #Should be arrayref #$req->{noderange} = \@dnodes; #Should be arrayref my $command = $req->{command}->[0]; my $extrargs = $req->{arg}; my @exargs=($req->{arg}); if (ref($extrargs)) { @exargs=@$extrargs; } if ($ENV{'XCATBYPASS'}){ my $usage_string=xCAT::Usage->parseCommand($command, @exargs); if ($usage_string) { $callback->({data=>[$usage_string]}); $req = {}; return ; } if (!$noderange) { $usage_string="Missing noderange"; $callback->({data=>[$usage_string]}); $req = {}; return ; } } ################################################################## # get the HCPs for the LPARs in order to figure out which service # nodes to send the requests to ################################################################### #my $hcptab_name = ($package eq "fsp" or $package eq "bpa") ? "ppcdirect" : "ppchcp"; #my $hcptab = xCAT::Table->new( $hcptab_name ); #unless ($hcptab ) { # $callback->({data=>["Cannot open $hcptab_name table"]}); # $req = {}; # return; #} # Check if each node is hcp my %hcp_hash=(); my @missednodes=(); my $support_hcp_type; # in the DFM model, cec/fsp/Frame/bpa can be hcp. if ($package eq "fsp" or $package eq "bpa") { $support_hcp_type = "(fsp|cec|bpa|frame|blade)"; # in the HMC model, only hmc can be hcp. } elsif ($package eq "hmc") { $support_hcp_type = "hmc"; # package equal 'ivm', only ivm can be hcp. } else { $support_hcp_type = "ivm"; } my $typehash = xCAT::DBobjUtils->getnodetype(\@$noderange) ; foreach ( @$noderange ) { my $nodetype = $$typehash{$_}; if ($nodetype and $nodetype =~ /$support_hcp_type/) { push @{$hcp_hash{$_}{nodes}}, $_; } else { push @missednodes, $_; } } #foreach ( @$noderange ) { # my ($ent) = $hcptab->getNodeAttribs( $_,"hcp" ); # if ( !defined( $ent )) { # push @missednodes, $_; # next; # } # push @{$hcp_hash{$_}{nodes}}, $_; #} #check if the left-over nodes are lpars if (@missednodes > 0) { my $ppctab = xCAT::Table->new("ppc"); unless ($ppctab) { $callback->({data=>["Cannot open ppc table"]}); $req = {}; return; } foreach my $node (@missednodes) { my $ent=$ppctab->getNodeAttribs($node,['hcp']); #if (defined($ent->{hcp})) { push @{$hcp_hash{$ent->{hcp}}{nodes}}, $node;} if (defined($ent->{hcp})) { #for multiple hardware control points, the hcps should be split to nodes my @h = split(",", $ent->{hcp}); foreach my $hcp (@h) { push @{$hcp_hash{$hcp}{nodes}}, $node; } } else { $callback->({data=>["The node $node is neither a hcp nor an lpar"]}); $req = {}; return; } } } my @masters = xCAT::TableUtils->get_site_attribute("master"); #When run mkhwconn/lshwconn/rmhwconn with -T fnm for CNM, it will send the command to CEC/Frame direclty, #not through the service node if specified. if ($req->{command}->[0] =~ /^(mkhwconn|lshwconn|rmhwconn|rpower)$/ && ( $req->{opt}->{T} == 1) ) { #for fnm my $reqcopy = {%$req}; #my @masters = xCAT::TableUtils->get_site_attribute("master"); if( $masters[0] ) { $reqcopy->{'_xcatdest'} = $masters[0]; push @requests,$reqcopy; } else { $callback->({data=>["The value of the attribute master in the site table is NOT set"]}); $req = {}; return; } } else { # find service nodes for the HCPs # build an individual request for each service node my $service = "xcat"; my @hcps=keys(%hcp_hash); my $sn; my @dfmdispatch = xCAT::TableUtils->get_site_attribute("hwctrldispatch"); if (defined($dfmdispatch[0]) and ($dfmdispatch[0] =~ /0|n/i)) { if ($masters[0]) { push @{$sn->{$masters[0]}}, @hcps; } else { $callback->({data=>["The value of the attribute master in the site table is NOT set"]}); $req = {}; return; } } else { $sn = xCAT::ServiceNodeUtils->get_ServiceNode(\@hcps, $service, "MN"); } # build each request for each service node foreach my $snkey (keys %$sn) { #$callback->({data=>["The service node $snkey "]}); my $reqcopy = {%$req}; $reqcopy->{'_xcatdest'} = $snkey; $reqcopy->{_xcatpreprocessed}->[0] = 1; my $hcps1=$sn->{$snkey}; my @nodes=(); foreach (@$hcps1) { push @nodes, @{$hcp_hash{$_}{nodes}}; } @nodes = sort @nodes; my %hash = map{$_=>1} @nodes; #remove the repeated node for multiple hardware control points @nodes =keys %hash; $reqcopy->{node} = \@nodes; #print "nodes=@nodes\n"; push @requests, $reqcopy; if(($req->{command}->[0] eq "rflash") && ( exists( $req->{opt}->{activate} ) ) ) { my $linuxrequired = 0; if ( xCAT::Utils->isLinux() ) { my @installloc = xCAT::TableUtils->get_site_attribute("installloc"); if (! ($installloc[0])) { $linuxrequired = 1; } } if ( ($linuxrequired || xCAT::Utils->isAIX()) && ( $masters[0] ne $snkey )) { my $install_dir = xCAT::TableUtils->getInstallDir(); my $cmd = "$::XCATROOT/bin/xdcp $snkey -R $install_dir/packages_fw $install_dir/"; my $result = xCAT::Utils->runcmd("$cmd", -1); if ($::RUNCMD_RC != 0) { $callback->({data=>["$result. Could not copy rpms in the $install_dir/packages_fw to $snkey.\n"]}); $req = {}; return; } } } } } # No dependency, use the original logic if (scalar(@{$nodeseq}) == 1) { return \@requests; } # do all the new request entries in this loop my $j = 0; for ($j = 0; $j < scalar(@requests); $j++) { $subreq->(\%{$requests[$j]}, $callback); } # We can not afford waiting 'msdelay' for each node, # for performance considerations, # use the maximum msdelay for all nodes my $delay = 0; # do not need to calculate msdelay for the last loop if ($i < scalar(@{$nodeseq})) { foreach my $reqnode (@{$req->{node}}) { foreach my $depnode (keys %{$deps}) { foreach my $depent (@{$deps->{$depnode}}) { # search if the 'nodedep' includes the $reqnode # do not use grep, performance problem! foreach my $depentnode (split(/,/, $depent->{'nodedep'})) { if ($depentnode eq $reqnode) { if ($depent->{'msdelay'} > $delay) { $delay = $depent->{'msdelay'}; } } } } } } } if ($ENV{'XCATDEBUG'}) { my %output; $output{data} = ["delay = $delay"]; $callback->( \%output ); } #convert from millisecond to second $delay /= 1000.0; if ($delay && ($i < scalar(@{$nodeseq}))) { my %output; $output{data} = ["Waiting $delay seconds for node dependencies\n"]; $callback->( \%output ); if ($ENV{'XCATDEBUG'}) { $output{data} = ["Before sleep $delay seconds"]; $callback->( \%output ); } Time::HiRes::sleep($delay); if ($ENV{'XCATDEBUG'}) { $output{data} = ["Wake up!"]; $callback->( \%output ); } } } return undef; } #################################### # Parse arguments #################################### sub parse_args { my $package = shift; my $req = shift; my $callback= shift; $package =~ s/xCAT_plugin:://; # if ( exists $req->{opt}) # { # return $req->{opt}; # } ################################# # To match the old logic ################################## my $command = $req->{command}->[0]; my $stdin = $req->{stdin}->[0]; $req->{command} = $command; $req->{stdin} = $stdin; $req->{hwtype} = $package; $req->{callback} = $callback; $req->{method} = "parse_args"; my $opt = runcmd( $req); $req->{command} = [ $command]; $req->{stdin} = [ $stdin]; $req->{method} = [$req->{method}]; $req->{op} = [$req->{op}]; return $opt; } ########################################################################## # Process request from xCat daemon ########################################################################## sub process_request { my $package = shift; my $req = shift; my $callback = shift; my $subreq = shift; #################################### # Get hwtype #################################### $package =~ s/xCAT_plugin:://; #################################### # Build hash to pass around #################################### my $request = {%$req}; $request->{command} = $req->{command}->[0]; $request->{stdin} = $req->{stdin}->[0]; $request->{method} = $req->{method}->[0]; $request->{op} = $req->{op}->[0]; $request->{enableASMI} = $req->{enableASMI}; #support more options in hierachy if( ref( $req->{opt}) eq 'ARRAY' ) { my $h = $req->{opt}->[0]; my %t = (); foreach my $k(keys %$h){ $t{$k} = $h->{$k}->[0]; } $request->{opt} = \%t; } if (ref($req->{hwtype}) eq 'ARRAY') { $request->{hwtype} = $req->{hwtype}->[0]; } # $request->{hwtype} = $package; $request->{callback}= $callback; $request->{subreq} = $subreq; ######################### #This is a special case for rspconfig and mkhwconn, #we shouldn't set hwtype as$package. and reserved for other commands. #probably for all HW ctrl commands it still true? ######################### if($request->{command} ne "rspconfig" and $request->{command} ne "mkhwconn") { $request->{hwtype} = $package; } #################################### # Option -V for verbose output #################################### if ( exists( $request->{opt}->{V} )) { $request->{verbose} = 1; } #if( $request->{hwtype} ne 'hmc' ) { if( $request->{hwtype} !~ /hmc|ivm/ ) { $request->{fsp_api} = 1; #For using rspconfig to disable/enable dev/celogin1 through ASMI my $arg = $request->{arg}; if($request->{command} eq "rspconfig" and grep(/^(dev|celogin1)/, @$arg)) { $request->{fsp_api} = 0; } } else { $request->{fsp_api} = 0; } #print Dumper($request); process_command( $request ); return; #################################### # Process remote command #################################### #process_command( $request ); #The following code will not be used in xCAT 2.7 #The following code supports for Multiple hardware control points. #use @failed_nodes to store the nodes which need to be run. #print "before process_command\n"; #print Dumper($request); my %failed_msg = (); # store the error msgs my $t = $request->{node}; my @failed_nodes = @$t; #print "-------failed nodes-------\n"; #print Dumper(\@failed_nodes); my $hcps = getHCPsOfNodes(\@failed_nodes, $callback, $request); if( !defined($hcps)) { #Not found the hcp for one node $request = {}; return; } ##################### #print Dumper($hcps); #$VAR1 = { # 'lpar01' => { # 'num' => 2, # 'hcp' => [ # 'Server-9110-51A-SN1075ECF', # 'c76v2hmc02' # ] # } # }; ###################### while(1) { my $lasthcp_type; my %hcps_will = (); my @next = (); my $count; #to count the nodes who doesn't have hcp in the $hcps if( @failed_nodes == 0 ) { #all nodes succeeded --- no node in @$failed_nodes; return ; } foreach my $node (@failed_nodes) { #for multiple, get the first hcp in the $hcps{$node}. my $hcp_list = $hcps->{$node}->{hcp}; #print Dumper($hcp_list); my $thishcp= shift( @$hcp_list ); if(!defined($thishcp) ) { #if no hcp, count++; $count++; if($count == @failed_nodes) { # all the hcps of the nodes are tried. But still failed. so output the error msg and exit. #print Dumper(\%failed_msg); #prompt all the error msg. foreach my $failed_node (@failed_nodes) { my $msg = $failed_msg{$failed_node}; foreach my $item (@$msg) { if($item) { #print Dumper($item); $callback->($item); } # end of if } # end of foreach }#end of foreach #output all the msgs of the failed nodes, so return return ; }#end of if #if $count != @failed_nodes, let's check next node next; }#end of if #print "thishcp:$thishcp\n"; #get the nodetype of hcp: #my $thishcp_type = xCAT::FSPUtils->getTypeOfNode($thishcp,$callback); my $thishcp_type = xCAT::DBobjUtils->getnodetype($thishcp, "ppc"); if(!defined($thishcp_type)) { my %output = (); $output{node}->[0]->{name} = [$node]; $output{node}->[0]->{data} = ["the type of $node\'s hcp is not defined in the 'ppc' table."]; $output{errorcode} = '1'; $callback-> (\%output); next; } #print "lasthcp_type:$lasthcp_type ;thishcp_type:$thishcp_type\n"; if(defined($lasthcp_type)) { if ( ($lasthcp_type =~ /^(hmc)$/ && $thishcp_type =~ /^(fsp|bpa|cec)$/) or (($lasthcp_type =~ /^(fsp|bpa|cec)$/ ) && ($thishcp_type =~ /^(hmc)$/ )) ) { $callback->({data=>["the $node\'s hcp type is different from the other's in the specified noderange in the 'ppc' table."]}); return; } } $lasthcp_type = $thishcp_type; $hcps_will{$node} = $thishcp; push(@next, $node); } #end of foreach my $request_new; %$request_new =%$request; $request_new->{node} = \@next; $request_new->{fsp_api} = 0; if($lasthcp_type =~ /^(fsp|bpa|cec|frame)$/ ) { #my $fsp_api = check_fsp_api($request); #if($fsp_api == 0 ) { $request_new->{fsp_api} = 1; # } } #For mkhwconn .... if( $request->{hwtype} ne 'hmc' ) { $request_new->{hwtype} = $lasthcp_type; } else { $request_new->{fsp_api} = 0; } #print Dumper($request_new); @failed_nodes = () ; if( $hcps->{maxnum} == 1 && $request_new->{command} !~ /^(rspconfig|rpower|reventlog)$/ ) { push @failed_nodes, "noloop"; # if each node only has one hcp, it will return immediately. } #For rspconfig to use ASMI if (defined($request->{enableASMI}) && ($request->{enableASMI} eq "1")) { $request_new->{fsp_api} = 0; } process_command( $request_new , \%hcps_will, \@failed_nodes, \%failed_msg); #print "after result:\n"; #print Dumper(\@failed_nodes); if($lasthcp_type =~ /^(fsp|bpa|cec|frame)$/ && $request->{hwtype} ne 'hmc' && $request_new->{fsp_api} ne '0') { if ($request_new->{command} =~ /^(rspconfig|rpower|reventlog)$/){ my @enableASMI = xCAT::TableUtils->get_site_attribute("enableASMI"); if (defined($enableASMI[0])) { if (($request_new->{command} !~ /^rspconfig$/) || (ref($request_new->{method} eq 'HASH'))) { $enableASMI[0] =~ tr/a-z/A-Z/; # convert to upper if (($enableASMI[0] eq "1") || ($enableASMI[0] eq "YES")) { #through asmi ...... $request_new->{fsp_api} = 0; if(@failed_nodes != 0) { my @temp = @failed_nodes; @failed_nodes = (); $request_new->{node} = \@temp; process_command( $request_new , \%hcps_will, \@failed_nodes, \%failed_msg); } #end of if } #end of if } # end of if } #end of if } } #end of if } #end of while(1) } ########################################################################## # connect hmc via ssh and execute remote command ########################################################################## sub sshcmds_on_hmc { my $ip = shift; my $user = shift; my $password = shift; my @cmds = @_; my %handled; my @data; my @exp; for my $cmd (@cmds) { if ( $cmd =~ /(.+?)=(.*)/) { my ($command,$value) = ($1,$2); $handled{$command} = $value; } } my %request = ( ppcretry => 1, verbose => 0, ppcmaxp => 64, ppctimeout => 0, fsptimeout => 0, ppcretry => 3, maxssh => 8 ); my $valid_ip; foreach my $individual_ip ( split /,/, $ip ) { ################################ # Get userid and password ################################ my @cred = ($user, $password); $request{$individual_ip}{cred} = \@cred; @exp = xCAT::PPCcli::connect( \%request, 'hmc', $individual_ip); #################################### # Successfully connected #################################### if ( ref($exp[0]) eq "Expect" ) { $valid_ip = $individual_ip; last; } } ######################################## # Error connecting ######################################## if ( ref($exp[0]) ne "Expect" ) { return ([1,@cmds]); } ######################################## # Process specific command ######################################## for my $cmd ( keys %handled) { my $result; if ($cmd eq 'network_reset') { $result = xCAT::PPCcli::network_reset( \@exp, $valid_ip, $handled{$cmd}); my $RC = shift( @$result); } push @data, @$result[0]; } ######################################## # Close connection to remote server ######################################## xCAT::PPCcli::disconnect( \@exp ); return ([0, undef, \@data]); } sub check_fsp_api { my $request = shift; # my $fsp_api = "/opt/xcat/sbin/fsp-api"; my $fsp_api = ($::XCATROOT) ? "$::XCATROOT/sbin/fsp-api" : "/opt/xcat/sbin/fsp-api"; #my $libfsp = "/usr/lib/libfsp.a"; my $libfsp_aix = ($::XCATROOT) ? "$::XCATROOT/lib/libfsp.so" : "/opt/xcat/lib/libfsp.so"; my $libfsp_linux = ($::XCATROOT) ? "$::XCATROOT/lib/libfsp.a" : "/opt/xcat/lib/libfsp.a"; # my $libfsp = "/opt/xcat/lib/libfsp.a"; # my $libfsp = ($::XCATROOT) ? "$::XCATROOT/lib/libfsp.a" : "/opt/xcat/lib/libfsp.a"; # my $hw_svr = "/opt/csm/csmbin/hdwr_svr"; my $msg = (); # if((-e $fsp_api) && (-x $fsp_api)&& (-e $libfsp) && (-e $hw_svr)) { if((-e $fsp_api) && (-x $fsp_api)&& ((-e $libfsp_aix) || (-e $libfsp_linux) )) { return 0; } return -1; } sub getHCPsOfNodes { my $nodes = shift; my $callback = shift; my $request = shift; my %hcps; if ($request->{command} eq "mkhwconn" or $request->{command} eq "lshwconn" or $request->{command} eq "rmhwconn") { if ( grep (/^-s$/, @{$request->{arg}}) ) { my $ppctab = xCAT::Table->new('ppc'); my %newhcp; if ( $ppctab ) { my $typeref = xCAT::DBobjUtils->getnodetype($nodes, "ppc"); my $i = 0; unless ( $request->{sfp} ) { for my $n (@$nodes) { if ($$typeref{$n} =~ /^fsp|bpa$/) { my $np = $ppctab->getNodeAttribs( $n, [qw(parent)]); if ($np) { # use parent(frame/cec)'s sfp attributes first,for high end machine with 2.5/2.6+ database my $psfp = $ppctab->getNodeAttribs( $np->{parent}, [qw(sfp)]); $newhcp{$n}{hcp} = [$psfp->{sfp}] if ($psfp); } else { # if the node don't have a parent,for low end machine with 2.5 database my $psfp = $ppctab->getNodeAttribs( $n, [qw(sfp)]); $newhcp{$n}{hcp} = [$psfp->{sfp}] if ($psfp); } } else { my $psfp = $ppctab->getNodeAttribs( $n, [qw(sfp)]); $newhcp{$n}{hcp} = [$psfp->{sfp}] if($psfp); } $newhcp{$n}{num} = 1; } return \%newhcp; } else { my $sfp = $request->{sfp}; my %sfphash; for my $n (@$nodes) { # record hcp $newhcp{$n}{hcp} = [$sfp]; $newhcp{$n}{num} = 1; # set the sfp attribute to the database if ($$typeref{$n} =~ /^fsp|bpa$/) { my $np = $ppctab->getNodeAttribs( $n, [qw(parent)]); $sfphash{$np}{sfp} = $sfp if ( $np ); } $sfphash{$n}{sfp} = $sfp; } $ppctab->setNodesAttribs(\%sfphash); return \%newhcp; } }else { $callback->({data=>["Could not open the ppc table"]}); return undef; } } } $hcps{maxnum} = 0; #get hcp from ppc. foreach my $node( @$nodes) { #my $thishcp_type = xCAT::FSPUtils->getTypeOfNode($node, $callback); my $thishcp_type = xCAT::DBobjUtils->getnodetype($node, "ppc"); if( $thishcp_type eq "hmc") { $hcps{$node}{hcp} = [$node]; $hcps{$node}{num} = 1; } else { my $ppctab = xCAT::Table->new( 'ppc'); unless($ppctab) { $callback->({data=>["Cannot open ppc table"]}); return undef; } #xCAT::MsgUtils->message('E', "Failed to open table 'ppc'.") if ( ! $ppctab); my $hcp_hash = $ppctab->getNodeAttribs( $node,[qw(hcp)]); my $hcp = $hcp_hash->{hcp}; if ( !$hcp) { #xCAT::MsgUtils->message('E', "Not found the hcp of $node"); $callback->({data=>["Not found the hcp of $node"]}); return undef; } #print "hcp:\n"; #print Dumper($hcp); my @h = split(",", $hcp); $hcps{$node}{hcp} = \@h; $hcps{$node}{num} = @h; } if( $hcps{maxnum} < $hcps{$node}{num}) { $hcps{maxnum} = $hcps{$node}{num}; } } #print "in getHCPsOfNodes\n"; #print Dumper(\%hcps); return \%hcps; } 1;