xcat-core/xCAT-server/lib/xcat/plugins/zvm.pm

4639 lines
152 KiB
Perl

# IBM(c) 2012 EPL license http://www.eclipse.org/legal/epl-v10.html
#-------------------------------------------------------
=head1
xCAT plugin to support z/VM (s390x)
=cut
#-------------------------------------------------------
package xCAT_plugin::zvm;
use xCAT::Client;
use xCAT::zvmUtils;
use xCAT::zvmCPUtils;
use xCAT::MsgUtils;
use Sys::Hostname;
use xCAT::Table;
use xCAT::Utils;
use xCAT::NetworkUtils;
use Getopt::Long;
use strict;
# If the following line is not included, you get:
# /opt/xcat/lib/perl/xCAT_plugin/zvm.pm did not return a true value
1;
#-------------------------------------------------------
=head3 handled_commands
Return list of commands handled by this plugin
=cut
#-------------------------------------------------------
sub handled_commands {
return {
rpower => 'nodehm:power,mgt',
rinv => 'nodehm:mgt',
mkvm => 'nodehm:mgt',
rmvm => 'nodehm:mgt',
lsvm => 'nodehm:mgt',
chvm => 'nodehm:mgt',
rscan => 'nodehm:mgt',
nodeset => 'noderes:netboot',
getmacs => 'nodehm:getmac,mgt',
rnetboot => 'nodehm:mgt',
};
}
#-------------------------------------------------------
=head3 preprocess_request
Check and setup for hierarchy
=cut
#-------------------------------------------------------
sub preprocess_request {
my $req = shift;
my $callback = shift;
# Hash array
my %sn;
# Scalar variable
my $sn;
# Array
my @requests;
# If already preprocessed, go straight to request
if ( $req->{_xcatpreprocessed}->[0] == 1 ) {
return [$req];
}
my $nodes = $req->{node};
my $service = "xcat";
# Find service nodes for requested nodes
# Build an individual request for each service node
if ($nodes) {
$sn = xCAT::Utils->get_ServiceNode( $nodes, $service, "MN" );
# Build each request for each service node
foreach my $snkey ( keys %$sn ) {
my $n = $sn->{$snkey};
print "snkey=$snkey, nodes=@$n\n";
my $reqcopy = {%$req};
$reqcopy->{node} = $sn->{$snkey};
$reqcopy->{'_xcatdest'} = $snkey;
$reqcopy->{_xcatpreprocessed}->[0] = 1;
push @requests, $reqcopy;
}
return \@requests;
}
else {
# Input error
my %rsp;
my $rsp;
$rsp->{data}->[0] = "Input noderange missing. Useage: zvm <noderange> \n";
xCAT::MsgUtils->message( "I", $rsp, $callback, 0 );
return 1;
}
}
#-------------------------------------------------------
=head3 process_request
Process the command. This is the main call.
=cut
#-------------------------------------------------------
sub process_request {
my $request = shift;
my $callback = shift;
my $nodes = $request->{node};
my $command = $request->{command}->[0];
my $args = $request->{arg};
my $envs = $request->{env};
my %rsp;
my $rsp;
my @nodes = @$nodes;
my $host = hostname();
# Directory where executables are on zHCP
$::DIR = "/opt/zhcp/bin";
# Process ID for xfork()
my $pid;
# Child process IDs
my @children;
#*** Power on or off a node ***
if ( $command eq "rpower" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
powerVM( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
# Handle 10 nodes at a time, else you will get errors
if ( !( @children % 10 ) ) {
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
# Clear children
@children = ();
}
} # End of foreach
} # End of case
#*** Hardware and software inventory ***
elsif ( $command eq "rinv" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
inventoryVM( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
} # End of foreach
} # End of case
#*** Create a virtual server ***
elsif ( $command eq "mkvm" ) {
# Determine if the argument is a node
my $clone = 'FALSE';
if ( $args->[0] ) {
$clone = xCAT::zvmUtils->isZvmNode( $args->[0] );
}
#*** Clone virtual server ***
if ( $clone eq 'TRUE' ) {
cloneVM( $callback, \@nodes, $args );
}
#*** Create user entry ***
# Create node based on directory entry
# or create a NOLOG if no entry is provided
else {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
makeVM( $callback, $_, $args );
# Exit process
exit(0);
} # End of elsif
else {
# Ran out of resources
die "Error: Could not fork\n";
}
} # End of foreach
} # End of else
} # End of case
#*** Remove a virtual server ***
elsif ( $command eq "rmvm" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
removeVM( $callback, $_ );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
# Handle 10 nodes at a time, else you will get errors
if ( !( @children % 10 ) ) {
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
# Clear children
@children = ();
}
} # End of foreach
} # End of case
#*** Print the user entry ***
elsif ( $command eq "lsvm" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
listVM( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
# Handle 10 nodes at a time, else you will get errors
if ( !( @children % 10 ) ) {
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
# Clear children
@children = ();
}
} # End of foreach
} # End of case
#*** Change the user entry ***
elsif ( $command eq "chvm" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
changeVM( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
# Handle 10 nodes at a time, else you will get errors
if ( !( @children % 10 ) ) {
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
# Clear children
@children = ();
}
} # End of foreach
} # End of case
#*** Collect node information from zHCP ***
elsif ( $command eq "rscan" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
scanVM( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
} # End of foreach
} # End of case
#*** Set the boot state for a node ***
elsif ( $command eq "nodeset" ) {
foreach (@nodes) {
# Only one file can be punched to reader at a time
# Forking this process is not possible
nodeSet( $callback, $_, $args );
} # End of foreach
} # End of case
#*** Get the MAC address of a node ***
elsif ( $command eq "getmacs" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
getMacs( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
} # End of foreach
} # End of case
#*** Boot from network ***
elsif ( $command eq "rnetboot" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
netBoot( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
# Handle 10 nodes at a time, else you will get errors
if ( !( @children % 10 ) ) {
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
# Clear children
@children = ();
}
} # End of foreach
} # End of case
#*** Update the node (no longer supported) ***
elsif ( $command eq "updatenode" ) {
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
updateNode( $callback, $_, $args );
# Exit process
exit(0);
}
else {
# Ran out of resources
die "Error: Could not fork\n";
}
} # End of foreach
} # End of case
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
return;
}
#-------------------------------------------------------
=head3 removeVM
Description : Delete the user entry from user directory
Arguments : Node to remove
Returns : Nothing
Example : removeVM($callback, $node);
=cut
#-------------------------------------------------------
sub removeVM {
# Get inputs
my ( $callback, $node ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get HCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Power off user ID
my $out = `ssh $hcp "$::DIR/stopvs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
# Delete user entry
$out = `ssh $hcp "$::DIR/deletevs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
# Check for errors
my $rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
return;
}
# Remove node from 'zvm', 'nodelist', 'nodetype', 'noderes', and 'nodehm' tables
# Save node entry in 'mac' table
xCAT::zvmUtils->delTabEntry( 'zvm', 'node', $node );
xCAT::zvmUtils->delTabEntry( 'nodelist', 'node', $node );
xCAT::zvmUtils->delTabEntry( 'nodetype', 'node', $node );
xCAT::zvmUtils->delTabEntry( 'noderes', 'node', $node );
xCAT::zvmUtils->delTabEntry( 'nodehm', 'node', $node );
# Erase old hostname from known_hosts
$out = `ssh-keygen -R $node`;
# Erase hostname from /etc/hosts
$out = `sed -i /$node./d /etc/hosts`;
return;
}
#-------------------------------------------------------
=head3 changeVM
Description : Change a virtual machine's configuration
Arguments : Node
Option
Options supported:
* add3390 [disk pool] [device address] [cylinders] [mode] [read password] [write password] [multi password]
* add3390active [device address] [mode]
* add9336 [disk pool] [virtual device] [block size] [mode] [blocks] [read password] [write password] [multi password]
* addnic [address] [type] [device count]
* addprocessor [address]
* addvdisk [userID] [device address] [size]
* connectnic2guestlan [address] [lan] [owner]
* connectnic2vswitch [address] [vswitch]
* copydisk [target address] [source node] [source address]
* dedicatedevice [virtual device] [real device] [mode]
* deleteipl
* formatdisk [disk address] [multi password]
* disconnectnic [address]
* grantvswitch [VSwitch]
* removedisk [virtual device]
* removenic [address]
* removeprocessor [address]
* replacevs [user directory entry]
* setipl [ipl target] [load parms] [parms]
* setpassword [password]
Returns : Nothing
Example : changeVM($callback, $node, $args);
=cut
#-------------------------------------------------------
sub changeVM {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get HCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Output string
my $out = "";
# add3390 [disk pool] [device address] [cylinders] [mode] [read password] [write password] [multi password]
# [read password] [write password] [multi password] are optional
if ( $args->[0] eq "--add3390" ) {
my $pool = $args->[1];
my $addr = $args->[2];
my $cyl = $args->[3];
my $mode = $args->[4];
my $readPw = $args->[5];
my $writePw = $args->[6];
my $multiPw = $args->[7];
# Add to directory entry
$out = `ssh $hcp "$::DIR/add3390 $userId $pool $addr $cyl $mode $readPw $writePw $multiPw"`;
# Add to active configuration
my $ping = `pping $node`;
if (!($ping =~ m/noping/i)) {
$out .= `ssh $hcp "$::DIR/add3390active $userId $addr $mode"`;
}
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# add3390active [device address] [mode]
elsif ( $args->[0] eq "--add3390active" ) {
my $addr = $args->[1];
my $mode = $args->[2];
$out = `ssh $hcp "$::DIR/add3390active $userId $addr $mode"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# add9336 [disk pool] [virtual device address] [block size] [blocks] [mode] [read password] [write password] [multi password]
# [read password] [write password] [multi password] are optional
elsif ( $args->[0] eq "--add9336" ) {
my $pool = $args->[1];
my $addr = $args->[2];
my $blksize = $args->[3];
my $blks = $args->[4];
my $mode = $args->[5];
my $readPw = $args->[6];
my $writePw = $args->[7];
my $multiPw = $args->[8];
$out = `ssh $hcp "$::DIR/add9336 $userId $pool $addr $blksize $blks $mode $readPw $writePw $multiPw"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# adddisk2pool [function] [region] [volume] [group]
elsif ( $args->[0] eq "--adddisk2pool" ) {
my $funct = $args->[1];
my $region = $args->[2];
my $volume = "";
my $group = "";
# Create an array for regions
my @regions;
if ( $region =~ m/,/i ) {
@regions = split( ',', $region );
} else {
push( @regions, $region );
}
my $tmp;
foreach (@regions) {
$_ = xCAT::zvmUtils->trimStr($_);
# Define region as full volume and add to group
if ($funct eq "4") {
$volume = $args->[3];
$group = $args->[4];
$tmp = `ssh $hcp "$::DIR/adddisk2pool $funct $_ $volume $group"`;
}
# Add existing region to group
elsif($funct eq "5") {
$group = $args->[3];
$tmp = `ssh $hcp "$::DIR/adddisk2pool $funct $_ $group"`;
}
$out .= xCAT::zvmUtils->appendHostname( $node, $tmp );
}
}
# addnic [address] [type] [device count]
elsif ( $args->[0] eq "--addnic" ) {
my $addr = $args->[1];
my $type = $args->[2];
my $devcount = $args->[3];
# Add to active configuration
my $ping = `pping $node`;
if (!($ping =~ m/noping/i)) {
$out = `ssh $node "vmcp define nic $addr type $type"`;
}
# Add to directory entry
$out .= `ssh $hcp "$::DIR/addnic $userId $addr $type $devcount"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# addprocessor [type] address]
elsif ( $args->[0] eq "--addprocessor" ) {
my $type = $args->[1];
my $addr = $args->[2];
$out = `ssh $hcp "$::DIR/addprocessor $userId $type $addr"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# addprocessoractive [address] [type]
elsif ( $args->[0] eq "--addprocessoractive" ) {
my $addr = $args->[1];
my $type = $args->[2];
$out = xCAT::zvmCPUtils->defineCpu( $node, $addr, $type );
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# addvdisk [device address] [size]
elsif ( $args->[0] eq "--addvdisk" ) {
my $addr = $args->[1];
my $size = $args->[2];
$out = `ssh $hcp "$::DIR/addvdisk $userId $addr $size"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# connectnic2guestlan [address] [lan] [owner]
elsif ( $args->[0] eq "--connectnic2guestlan" ) {
my $addr = $args->[1];
my $lan = $args->[2];
my $owner = $args->[3];
# Connect to LAN in active configuration
my $ping = `pping $node`;
if (!($ping =~ m/noping/i)) {
$out = `ssh $node "vmcp couple $addr to $owner $lan"`;
}
$out .= `ssh $hcp "$::DIR/connectnic2guestlan $userId $addr $lan $owner"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# connectnic2vswitch [address] [vswitch]
elsif ( $args->[0] eq "--connectnic2vswitch" ) {
my $addr = $args->[1];
my $vswitch = $args->[2];
# Grant access to VSWITCH for Linux user
$out = "Granting access to VSWITCH for $userId\n ";
$out .= `ssh $hcp "vmcp set vswitch $vswitch grant $userId"`;
# Connect to VSwitch in active configuration
my $ping = `pping $node`;
if (!($ping =~ m/noping/i)) {
$out .= `ssh $node "vmcp couple $addr to system $vswitch"`;
}
# Connect to VSwitch in directory entry
$out .= `ssh $hcp "$::DIR/connectnic2vswitch $userId $addr $vswitch"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# copydisk [target address] [source node] [source address]
elsif ( $args->[0] eq "--copydisk" ) {
my $tgtNode = $node;
my $tgtUserId = $userId;
my $tgtAddr = $args->[1];
my $srcNode = $args->[2];
my $srcAddr = $args->[3];
# Get source userID
@propNames = ( 'hcp', 'userid' );
$propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $srcNode, @propNames );
my $sourceId = $propVals->{'userid'};
#*** Link and copy disk ***
my $rc;
my $try;
my $srcDevNode;
my $tgtDevNode;
# Link source disk to HCP
my $srcLinkAddr;
$try = 5;
while ( $try > 0 ) {
# New disk address
$srcLinkAddr = $srcAddr + 1000;
# Check if new disk address is used (source)
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $srcLinkAddr );
# If disk address is used (source)
while ( $rc == 0 ) {
# Generate a new disk address
# Sleep 5 seconds to let existing disk appear
sleep(5);
$srcLinkAddr = $srcLinkAddr + 1;
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $srcLinkAddr );
}
# Link source disk
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Linking source disk ($srcAddr) as ($srcLinkAddr)" );
$out = `ssh -o ConnectTimeout=5 $hcp "vmcp link $sourceId $srcAddr $srcLinkAddr MR"`;
# If link fails
if ( $out =~ m/not linked/i ) {
# Wait before trying again
sleep(5);
$try = $try - 1;
} else {
last;
}
} # End of while ( $try > 0 )
# Link target disk to HCP
my $tgtLinkAddr;
$try = 5;
while ( $try > 0 ) {
# New disk address
$tgtLinkAddr = $tgtAddr + 2000;
# Check if new disk address is used (target)
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $tgtLinkAddr );
# If disk address is used (target)
while ( $rc == 0 ) {
# Generate a new disk address
# Sleep 5 seconds to let existing disk appear
sleep(5);
$tgtLinkAddr = $tgtLinkAddr + 1;
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $tgtLinkAddr );
}
# Link target disk
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Linking target disk ($tgtAddr) as ($tgtLinkAddr)" );
$out = `ssh -o ConnectTimeout=5 $hcp "vmcp link $tgtUserId $tgtAddr $tgtLinkAddr MR"`;
# If link fails
if ( $out =~ m/not linked/i ) {
# Wait before trying again
sleep(5);
$try = $try - 1;
} else {
last;
}
} # End of while ( $try > 0 )
# If target disk is not linked
if ( $out =~ m/not linked/i ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Failed to link target disk ($tgtAddr)" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Failed" );
# Exit
return;
}
# If source disk is not linked
if ( $out =~ m/not linked/i ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Failed to link source disk ($srcAddr)" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Failed" );
# Exit
return;
}
#*** Use flashcopy ***
# Flashcopy only supports ECKD volumes
my $ddCopy = 0;
$out = `ssh $hcp "vmcp flashcopy"`;
if ( $out =~ m/HCPNFC026E/i ) {
# Flashcopy is supported
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Copying source disk ($srcLinkAddr) to target disk ($tgtLinkAddr) using FLASHCOPY" );
# Check for flashcopy lock
my $wait = 0;
while ( `ssh $hcp "ls /tmp/.flashcopy_lock"` && $wait < 90 ) {
# Wait until the lock dissappears
# 90 seconds wait limit
sleep(2);
$wait = $wait + 2;
}
# If flashcopy locks still exists
if (`ssh $hcp "ls /tmp/.flashcopy_lock"`) {
# Detatch disks from HCP
$out = `ssh $hcp "vmcp det $tgtLinkAddr"`;
$out = `ssh $hcp "vmcp det $srcLinkAddr"`;
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Flashcopy lock is enabled" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Solution) Remove lock by deleting /tmp/.flashcopy_lock on the zHCP. Use caution!" );
return;
} else {
# Enable lock
$out = `ssh $hcp "touch /tmp/.flashcopy_lock"`;
# Flashcopy source disk
$out = xCAT::zvmCPUtils->flashCopy( $hcp, $srcLinkAddr, $tgtLinkAddr );
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
# Detatch disks from HCP
$out = `ssh $hcp "vmcp det $tgtAddr"`;
$out = `ssh $hcp "vmcp det $srcLinkAddr"`;
# Remove lock
$out = `ssh $hcp "rm -f /tmp/.flashcopy_lock"`;
return;
}
# Remove lock
$out = `ssh $hcp "rm -f /tmp/.flashcopy_lock"`;
}
} else {
$ddCopy = 1;
}
# Flashcopy not supported, use Linux dd
if ($ddCopy) {
#*** Use Linux dd to copy ***
xCAT::zvmUtils->printLn( $callback, "$tgtNode: FLASHCOPY not working. Using Linux DD" );
# Enable disks
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", $tgtLinkAddr );
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", $srcLinkAddr );
# Determine source device node
$srcDevNode = xCAT::zvmUtils->getDeviceNode($hcp, $srcLinkAddr);
# Determine target device node
$tgtDevNode = xCAT::zvmUtils->getDeviceNode($hcp, $tgtLinkAddr);
# Format target disk
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Formating target disk ($tgtDevNode)" );
$out = `ssh $hcp "dasdfmt -b 4096 -y -f /dev/$tgtDevNode"`;
# Check for errors
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
return;
}
# Sleep 2 seconds to let the system settle
sleep(2);
# Copy source disk to target disk (4096 block size)
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Copying source disk ($srcDevNode) to target disk ($tgtDevNode)" );
$out = `ssh $hcp "dd if=/dev/$srcDevNode of=/dev/$tgtDevNode bs=4096"`;
# Disable disks
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-d", $tgtLinkAddr );
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-d", $srcLinkAddr );
# Check for error
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
# Detatch disks from HCP
$out = `ssh $hcp "vmcp det $tgtLinkAddr"`;
$out = `ssh $hcp "vmcp det $srcLinkAddr"`;
return;
}
# Sleep 2 seconds to let the system settle
sleep(2);
}
# Detatch disks from HCP
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Detatching target disk ($tgtLinkAddr)" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Detatching source disk ($srcLinkAddr)" );
$out = `ssh $hcp "vmcp det $tgtLinkAddr"`;
$out = `ssh $hcp "vmcp det $srcLinkAddr"`;
$out = "$tgtNode: Done";
}
# dedicatedevice [virtual device] [real device] [mode]
elsif ( $args->[0] eq "--dedicatedevice" ) {
my $vaddr = $args->[1];
my $raddr = $args->[2];
my $mode = $args->[3];
$out = `ssh $hcp "$::DIR/dedicatedevice $userId $vaddr $raddr $mode"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# deleteipl
elsif ( $args->[0] eq "--deleteipl" ) {
$out = `ssh $hcp "$::DIR/deleteipl $userId"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# formatdisk [address] [multi password]
elsif ( $args->[0] eq "--formatdisk" ) {
my $tgtNode = $node;
my $tgtUserId = $userId;
my $tgtAddr = $args->[1];
#*** Link and format disk ***
my $rc;
my $try;
my $tgtDevNode;
# Link target disk to zHCP
my $tgtLinkAddr;
$try = 5;
while ( $try > 0 ) {
# New disk address
$tgtLinkAddr = $tgtAddr + 1000;
# Check if new disk address is used (target)
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $tgtLinkAddr );
# If disk address is used (target)
while ( $rc == 0 ) {
# Generate a new disk address
# Sleep 5 seconds to let existing disk appear
sleep(5);
$tgtLinkAddr = $tgtLinkAddr + 1;
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $tgtLinkAddr );
}
# Link target disk
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Linking target disk ($tgtAddr) as ($tgtLinkAddr)" );
$out = `ssh -o ConnectTimeout=5 $hcp "vmcp link $tgtUserId $tgtAddr $tgtLinkAddr MR"`;
# If link fails
if ( $out =~ m/not linked/i ) {
# Wait before trying again
sleep(5);
$try = $try - 1;
}
else {
last;
}
} # End of while ( $try > 0 )
# If target disk is not linked
if ( $out =~ m/not linked/i ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Failed to link target disk ($tgtAddr)" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Failed" );
# Exit
return;
}
#*** Format disk ***
my @words;
if ( $rc == -1 ) {
# Enable disk
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", $tgtLinkAddr );
# Determine target device node
$tgtDevNode = xCAT::zvmUtils->getDeviceNode($hcp, $tgtLinkAddr);
# Format target disk
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Formating target disk ($tgtDevNode)" );
$out = `ssh $hcp "dasdfmt -b 4096 -y -f /dev/$tgtDevNode"`;
# Check for errors
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
return;
}
# Sleep 2 seconds to let the system settle
sleep(2);
}
# Disable disk
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-d", $tgtLinkAddr );
# Detatch disk from HCP
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Detatching target disk ($tgtLinkAddr)" );
$out = `ssh $hcp "vmcp det $tgtLinkAddr"`;
$out = "$tgtNode: Done";
}
# grantvswitch [VSwitch]
elsif ( $args->[0] eq "--grantvswitch" ) {
my $vsw = $args->[1];
$out = xCAT::zvmCPUtils->grantVSwitch( $callback, $hcp, $userId, $vsw );
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# disconnectnic [address]
elsif ( $args->[0] eq "--disconnectnic" ) {
my $addr = $args->[1];
$out = `ssh $hcp "$::DIR/disconnectnic $userId $addr"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# removediskfrompool [function] [region] [group]
elsif ( $args->[0] eq "--removediskfrompool" ) {
my $funct = $args->[1];
my $region = $args->[2];
my $group = "";
# Create an array for regions
my @regions;
if ( $region =~ m/,/i ) {
@regions = split( ',', $region );
} else {
push( @regions, $region );
}
my $tmp;
foreach ( @regions ) {
$_ = xCAT::zvmUtils->trimStr($_);
# Remove region from group | Remove entire group
if ($funct eq "2" || $funct eq "7") {
$group = $args->[3];
$tmp = `ssh $hcp "$::DIR/removediskfrompool $funct $_ $group"`;
}
# Remove region | Remove region from all groups
elsif ($funct eq "1" || $funct eq "3") {
$tmp = `ssh $hcp "$::DIR/removediskfrompool $funct $_"`;
}
$out .= xCAT::zvmUtils->appendHostname( $node, $tmp );
}
}
# removedisk [virtual device address]
elsif ( $args->[0] eq "--removedisk" ) {
my $addr = $args->[1];
# Remove from active configuration
my $ping = `pping $node`;
if (!($ping =~ m/noping/i)) {
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $node, "-d", $addr );
$out = `ssh $node "vmcp det $addr"`;
}
# Remove from user directory entry
$out = `ssh $hcp "$::DIR/removemdisk $userId $addr"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# removenic [address]
elsif ( $args->[0] eq "--removenic" ) {
my $addr = $args->[1];
# Remove from active configuration
my $ping = `pping $node`;
if (!($ping =~ m/noping/i)) {
$out = `ssh $node "vmcp det nic $addr"`;
}
# Remove from user directory entry
$out = `ssh $hcp "$::DIR/removenic $userId $addr"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# removeprocessor [address]
elsif ( $args->[0] eq "--removeprocessor" ) {
my $addr = $args->[1];
# Remove from user directory entry
$out = `ssh $hcp "$::DIR/removeprocessor $userId $addr"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# replacevs [file]
elsif ( $args->[0] eq "--replacevs" ) {
my $file = $args->[1];
# Target system (HCP), e.g. root@gpok2.endicott.ibm.com
my $target = "root@";
$target .= $hcp;
if ($file) {
# SCP file over to zHCP
$out = `scp $file $target:$file`;
# Replace user directory entry
$out = `ssh $hcp "$::DIR/replacevs $userId $file"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) No directory entry file specified" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Specify a text file containing the updated directory entry" );
return;
}
}
# resetsmapi
elsif ( $args->[0] eq "--resetsmapi" ) {
# Assuming zVM 6.1 or older
# Force each worker machine off
my @workers = ('VSMWORK1', 'VSMWORK2', 'VSMWORK3', 'VSMREQIN', 'VSMREQIU');
foreach ( @workers ) {
$out = `ssh $hcp "vmcp force $_ logoff immediate"`;
}
# Log on VSMWORK1
$out = `ssh $hcp "vmcp xautolog VSMWORK1"`;
$out = "$node: Resetting SMAPI... Done";
}
# setipl [ipl target] [load parms] [parms]
elsif ( $args->[0] eq "--setipl" ) {
my $trgt = $args->[1];
my $loadparms = $args->[2];
my $parms = $args->[3];
$out = `ssh $hcp "$::DIR/setipl $userId $trgt $loadparms $parms"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# setpassword [password]
elsif ( $args->[0] eq "--setpassword" ) {
my $pw = $args->[1];
$out = `ssh $hcp "$::DIR/setpassword $userId $pw"`;
$out = xCAT::zvmUtils->appendHostname( $node, $out );
}
# Otherwise, print out error
else {
$out = "$node: (Error) Option not supported";
}
xCAT::zvmUtils->printLn( $callback, "$out" );
return;
}
#-------------------------------------------------------
=head3 powerVM
Description : Power on or off a given node
Arguments : Node
Option [on|off|reset|stat]
Returns : Nothing
Example : powerVM($callback, $node, $args);
=cut
#-------------------------------------------------------
sub powerVM {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get HCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Output string
my $out;
# Power on virtual server
if ( $args->[0] eq 'on' ) {
$out = `ssh $hcp "$::DIR/startvs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
# Power off virtual server
elsif ( $args->[0] eq 'off' ) {
$out = `ssh $hcp "$::DIR/stopvs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
# Power off virtual server (gracefully)
elsif ( $args->[0] eq 'softoff' ) {
$out = `ssh -o ConnectTimeout=10 $node "shutdown -h now"`;
sleep(90); # Wait 1.5 minutes before logging user off
$out = `ssh $hcp "$::DIR/stopvs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
# Get the status (on|off)
elsif ( $args->[0] eq 'stat' ) {
$out = `ssh $hcp "vmcp q user $userId 2>/dev/null" | sed 's/HCPCQU045E.*/off/' | sed 's/$userId.*/on/'`;
# Wait for output
my $max = 0;
while ( !$out && $max < 10 ) {
$out = `ssh $hcp "vmcp q user $userId 2>/dev/null" | sed 's/HCPCQU045E.*/off/' | sed 's/$userId.*/on/'`;
$max++;
}
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
# Reset a virtual server
elsif ( $args->[0] eq 'reset' ) {
$out = `ssh $hcp "$::DIR/stopvs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
# Wait for output
while ( `vmcp q user $userId 2>/dev/null | sed 's/HCPCQU045E.*/Done/'` != "Done" ) {
# Do nothing
}
$out = `ssh $hcp "$::DIR/startvs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Option not supported" );
}
return;
}
#-------------------------------------------------------
=head3 scanVM
Description : Get node information from zHCP
Arguments : zHCP
Returns : Nothing
Example : scanVM($callback, $node, $args);
=cut
#-------------------------------------------------------
sub scanVM {
# Get inputs
my ( $callback, $node, $args ) = @_;
my $write2db = '';
if ($args) {
@ARGV = @$args;
# Parse options
GetOptions( 'w' => \$write2db );
}
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Exit if node is not a HCP
if ( !( $hcp =~ m/$node/i ) ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) $node is not a hardware control point" );
return;
}
# Print output string
# [Node name]:
# objtype=node
# id=[userID]
# arch=[Architecture]
# hcp=[HCP node name]
# groups=[Group]
# mgt=zvm
#
# gpok123:
# objtype=node
# id=LINUX123
# arch=s390x
# hcp=gpok456.endicott.ibm.com
# groups=all
# mgt=zvm
# Output string
my $str = "";
# Get nodes managed by this zHCP
# Look in 'zvm' table
my $tab = xCAT::Table->new( 'zvm', -create => 1, -autocommit => 0 );
my @entries = $tab->getAllAttribsWhere( "hcp like '%" . $hcp . "%'", 'node', 'userid' );
my $out;
my $node;
my $id;
my $os;
my $arch;
my $groups;
# Get node hierarchy from /proc/sysinfo
my $hierarchy;
my $host = xCAT::zvmCPUtils->getHost($hcp);
my $sysinfo = `ssh -o ConnectTimeout=5 $hcp "cat /proc/sysinfo"`;
# Get node CEC
my $cec = `echo "$sysinfo" | grep "Sequence Code"`;
my @args = split( ':', $cec );
# Remove leading spaces and zeros
$args[1] =~ s/^\s*0*//;
$cec = xCAT::zvmUtils->trimStr($args[1]);
# Get node LPAR
my $lpar = `echo "$sysinfo" | grep "LPAR Name"`;
@args = split( ':', $lpar );
$lpar = xCAT::zvmUtils->trimStr($args[1]);
# Save CEC, LPAR, and zVM to 'zvm' table
my %propHash;
if ($write2db) {
# Save CEC to 'zvm' table
%propHash = (
'nodetype' => 'cec',
'parent' => ''
);
xCAT::zvmUtils->setNodeProps( 'zvm', $cec, \%propHash );
# Save LPAR to 'zvm' table
%propHash = (
'nodetype' => 'lpar',
'parent' => $cec
);
xCAT::zvmUtils->setNodeProps( 'zvm', $lpar, \%propHash );
# Save zVM to 'zvm' table
%propHash = (
'nodetype' => 'zvm',
'parent' => $lpar
);
xCAT::zvmUtils->setNodeProps( 'zvm', $host, \%propHash );
}
# Search for nodes managed by given zHCP
# Get 'node' and 'userid' properties
%propHash = ();
foreach (@entries) {
$node = $_->{'node'};
# Get groups
@propNames = ('groups');
$propVals = xCAT::zvmUtils->getNodeProps( 'nodelist', $node, @propNames );
$groups = $propVals->{'groups'};
# Load VMCP module
xCAT::zvmCPUtils->loadVmcp($node);
# Get user ID
@propNames = ('userid');
$propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
$id = $propVals->{'userid'};
if (!$id) {
$id = xCAT::zvmCPUtils->getUserId($node);
}
# Get architecture
$arch = `ssh -o ConnectTimeout=2 $node "uname -p"`;
$arch = xCAT::zvmUtils->trimStr($arch);
if (!$arch) {
# Assume arch is s390x
$arch = 's390x';
}
# Get OS
$os = xCAT::zvmUtils->getOsVersion($node);
# Save node attributes
if ($write2db) {
# Save to 'zvm' table
%propHash = (
'hcp' => $hcp,
'userid' => $id,
'nodetype' => 'vm',
'parent' => $host
);
xCAT::zvmUtils->setNodeProps( 'zvm', $node, \%propHash );
# Save to 'nodetype' table
%propHash = (
'arch' => $arch,
'os' => $os
);
xCAT::zvmUtils->setNodeProps( 'nodetype', $node, \%propHash );
}
# Create output string
$str .= "$node:\n";
$str .= " objtype=node\n";
$str .= " arch=$arch\n";
$str .= " os=$os\n";
$str .= " hcp=$hcp\n";
$str .= " userid=$id\n";
$str .= " nodetype=vm\n";
$str .= " parent=$host\n";
$str .= " groups=$groups\n";
$str .= " mgt=zvm\n\n";
}
xCAT::zvmUtils->printLn( $callback, "$str" );
return;
}
#-------------------------------------------------------
=head3 inventoryVM
Description : Get hardware and software inventory of a given node
Arguments : Node
Type of inventory (config|all)
Returns : Nothing
Example : inventoryVM($callback, $node, $args);
=cut
#-------------------------------------------------------
sub inventoryVM {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Output string
my $str = "";
# Load VMCP module
xCAT::zvmCPUtils->loadVmcp($node);
# Get configuration
if ( $args->[0] eq 'config' ) {
# Get z/VM host for specified node
my $host = xCAT::zvmCPUtils->getHost($node);
# Get architecture
my $arch = xCAT::zvmUtils->getArch($node);
# Get operating system
my $os = xCAT::zvmUtils->getOs($node);
# Get privileges
my $priv = xCAT::zvmCPUtils->getPrivileges($node);
# Get memory configuration
my $memory = xCAT::zvmCPUtils->getMemory($node);
# Get processors configuration
my $proc = xCAT::zvmCPUtils->getCpu($node);
$str .= "z/VM UserID: $userId\n";
$str .= "z/VM Host: $host\n";
$str .= "Operating System: $os\n";
$str .= "Architecture: $arch\n";
$str .= "HCP: $hcp\n";
$str .= "Privileges: \n$priv\n";
$str .= "Total Memory: $memory\n";
$str .= "Processors: \n$proc\n";
}
elsif ( $args->[0] eq 'all' ) {
# Get z/VM host for specified node
my $host = xCAT::zvmCPUtils->getHost($node);
# Get architecture
my $arch = xCAT::zvmUtils->getArch($node);
# Get operating system
my $os = xCAT::zvmUtils->getOs($node);
# Get privileges
my $priv = xCAT::zvmCPUtils->getPrivileges($node);
# Get memory configuration
my $memory = xCAT::zvmCPUtils->getMemory($node);
# Get processors configuration
my $proc = xCAT::zvmCPUtils->getCpu($node);
# Get disks configuration
my $storage = xCAT::zvmCPUtils->getDisks($node);
# Get NICs configuration
my $nic = xCAT::zvmCPUtils->getNic($node);
# Create output string
$str .= "z/VM UserID: $userId\n";
$str .= "z/VM Host: $host\n";
$str .= "Operating System: $os\n";
$str .= "Architecture: $arch\n";
$str .= "HCP: $hcp\n";
$str .= "Privileges: \n$priv\n";
$str .= "Total Memory: $memory\n";
$str .= "Processors: \n$proc\n";
$str .= "Disks: \n$storage\n";
$str .= "NICs: \n$nic\n";
}
else {
$str = "$node: (Error) Option not supported";
xCAT::zvmUtils->printLn( $callback, "$str" );
return;
}
# Append hostname (e.g. gpok3) in front
$str = xCAT::zvmUtils->appendHostname( $node, $str );
xCAT::zvmUtils->printLn( $callback, "$str" );
return;
}
#-------------------------------------------------------
=head3 listVM
Description : Show the info for a given node
Arguments : Node
Option
Options supported:
* getnetworknames
* getnetwork [networkname]
* diskpoolnames
* diskpool [pool name] [space (free or used)]
Returns : Nothing
Example : listVM($callback, $node);
=cut
#-------------------------------------------------------
sub listVM {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Set cache directory
my $cache = '/var/opt/zhcp/cache';
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
my $out;
# Get disk pool names
if ( $args->[0] eq "--diskpoolnames" ) {
# If the cache directory does not exist
if (!(`ssh $hcp "test -d $cache && echo Exists"`)) {
# Create cache directory
$out = `ssh $hcp "mkdir -p $cache"`;
}
my $file = "$cache/diskpoolnames";
# If a cache for disk pool names exists
if (`ssh $hcp "ls $file"`) {
# Get current Epoch
my $curTime = time();
# Get time of last change as seconds since Epoch
my $fileTime = xCAT::zvmUtils->trimStr(`ssh $hcp "stat -c %Z $file"`);
# If the current time is greater than 5 minutes of the file timestamp
my $interval = 300; # 300 seconds = 5 minutes * 60 seconds/minute
if ($curTime > $fileTime + $interval) {
# Get disk pool names and save it in a file
$out = `ssh $hcp "$::DIR/getdiskpoolnames $userId > $file"`;
}
} else {
# Get disk pool names and save it in a file
$out = `ssh $hcp "$::DIR/getdiskpoolnames $userId > $file"`;
}
# Print out the file contents
$out = `ssh $hcp "cat $file"`;
}
# Get disk pool configuration
elsif ( $args->[0] eq "--diskpool" ) {
my $pool = $args->[1];
my $space = $args->[2];
if ($space eq "all") {
$out = `ssh $hcp "$::DIR/getdiskpool $userId $pool free"`;
# Delete 1st line which is header
$out .= `ssh $hcp "$::DIR/getdiskpool $userId $pool used" | sed 1d`;
} else {
$out = `ssh $hcp "$::DIR/getdiskpool $userId $pool $space"`;
}
}
# Get network names
elsif ( $args->[0] eq "--getnetworknames" ) {
$out = xCAT::zvmCPUtils->getNetworkNames($hcp);
}
# Get network
elsif ( $args->[0] eq "--getnetwork" ) {
my $netName = $args->[1];
$out = xCAT::zvmCPUtils->getNetwork( $hcp, $netName );
}
# Get user entry
elsif ( !$args->[0] ) {
$out = `ssh $hcp "$::DIR/getuserentry $userId"`;
}
else {
$out = "$node: (Error) Option not supported";
}
# Append hostname (e.g. gpok3) in front
$out = xCAT::zvmUtils->appendHostname( $node, $out );
xCAT::zvmUtils->printLn( $callback, "$out" );
return;
}
#-------------------------------------------------------
=head3 makeVM
Description : Create a virtual machine
* A unique MAC address will be assigned
Arguments : Node
Directory entry text file (optional)
Returns : Nothing
Example : makeVM($callback, $node, $args);
=cut
#-------------------------------------------------------
sub makeVM {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get HCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Get user entry file (if any)
my $userEntry = $args->[0];
# Create virtual server
my $out;
my @lines;
my @words;
my $target = "root@" . $hcp;
if ($userEntry) {
# Copy user entry
$out = `cp $userEntry /tmp/$node.txt`;
$userEntry = "/tmp/$node.txt";
# Get MAC address in 'mac' table
my $macId;
my $generateNew = 1;
@propNames = ('mac');
$propVals = xCAT::zvmUtils->getNodeProps( 'mac', $node, @propNames );
# If MAC address exists
if ( $propVals->{'mac'} ) {
# Get MAC suffix (MACID)
$macId = $propVals->{'mac'};
$macId = xCAT::zvmUtils->replaceStr( $macId, ":", "" );
$macId = substr( $macId, 6 );
} else {
# Get zHCP MAC address
# The MAC address prefix is the same for all network devices
xCAT::zvmCPUtils->loadVmcp($hcp);
$out = `ssh -o ConnectTimeout=5 $hcp "vmcp q v nic" | grep "MAC:"`;
if ($out) {
@lines = split( "\n", $out );
@words = split( " ", $lines[0] );
# Extract MAC prefix
my $prefix = $words[1];
$prefix = xCAT::zvmUtils->replaceStr( $prefix, "-", "" );
$prefix = substr( $prefix, 0, 6 );
# Generate MAC address
my $mac;
while ($generateNew) {
# If no MACID is found, get one
$macId = xCAT::zvmUtils->getMacID($hcp);
if ( !$macId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Could not generate MACID" );
return;
}
# Create MAC address
$mac = $prefix . $macId;
# If length is less than 12, append a zero
if ( length($mac) != 12 ) {
$mac = "0" . $mac;
}
# Format MAC address
$mac =
substr( $mac, 0, 2 ) . ":"
. substr( $mac, 2, 2 ) . ":"
. substr( $mac, 4, 2 ) . ":"
. substr( $mac, 6, 2 ) . ":"
. substr( $mac, 8, 2 ) . ":"
. substr( $mac, 10, 2 );
# Check 'mac' table for MAC address
my $tab = xCAT::Table->new( 'mac', -create => 1, -autocommit => 0 );
my @entries = $tab->getAllAttribsWhere( "mac = '" . $mac . "'", 'node' );
# If MAC address exists
if (@entries) {
# Generate new MACID
$out = xCAT::zvmUtils->generateMacId($hcp);
$generateNew = 1;
} else {
$generateNew = 0;
# Save MAC address in 'mac' table
xCAT::zvmUtils->setNodeProp( 'mac', $node, 'mac', $mac );
}
} # End of while ($generateNew)
# Generate new MACID
$out = xCAT::zvmUtils->generateMacId($hcp);
} else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Could not find the MAC address of the zHCP" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Verify that the node's zHCP($hcp) is correct, the node is online, and the SSH keys are setup for the zHCP" );
}
}
# If the directory entry contains a NICDEF statement, append MACID to the end
# User must select the right one (layer) based on template chosen
my $line;
$out = `cat $userEntry | egrep -i "NICDEF"`;
if ($out) {
# Get the networks used by the zHCP
my @hcpNets = xCAT::zvmCPUtils->getNetworkNamesArray($hcp);
# Search user entry for network name
my $netName = '';
foreach (@hcpNets) {
if ( $out =~ m/ $_/i ) {
$netName = $_;
last;
}
}
# Find NICDEF statement
my $oldNicDef = `cat $userEntry | egrep -i "NICDEF" | egrep -i "$netName"`;
if ($oldNicDef) {
$oldNicDef = xCAT::zvmUtils->trimStr($oldNicDef);
my $nicDef = xCAT::zvmUtils->replaceStr( $oldNicDef, $netName, "$netName MACID $macId" );
# Append MACID at the end
$out = `sed --in-place -e "s,$oldNicDef,$nicDef,i" $userEntry`;
}
}
# Open user entry
$out = `cat $userEntry`;
@lines = split( '\n', $out );
# Get the userID in user entry
$line = xCAT::zvmUtils->trimStr( $lines[0] );
@words = split( ' ', $line );
my $id = $words[1];
# Change userID in user entry to match userID defined in xCAT
$out = `sed --in-place -e "s,$id,$userId,i" $userEntry`;
# SCP file over to zHCP
$out = `scp $userEntry $target:$userEntry`;
# Create virtual server
$out = `ssh $hcp "$::DIR/createvs $userId $userEntry"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
# Check output
my $rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == 0 ) {
# Get VSwitch of zHCP (if any)
my @vswId = xCAT::zvmCPUtils->getVswitchId($hcp);
# Grant access to VSwitch for Linux user
# GuestLan do not need permissions
foreach (@vswId) {
xCAT::zvmUtils->printLn( $callback, "$node: Granting VSwitch ($_) access for $userId" );
$out = xCAT::zvmCPUtils->grantVSwitch( $callback, $hcp, $userId, $_ );
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
# Remove user entry file (on zHCP)
$out = `ssh -o ConnectTimeout=5 $hcp "rm $userEntry"`;
}
# Remove user entry on xCAT
$out = `rm $userEntry`;
} else {
# Create NOLOG virtual server
$out = `ssh $hcp "$::DIR/createvs $userId"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
return;
}
#-------------------------------------------------------
=head3 cloneVM
Description : Clone a virtual server
Arguments : Node
Disk pool
Disk password
Returns : Nothing
Example : cloneVM($callback, $targetNode, $args);
=cut
#-------------------------------------------------------
sub cloneVM {
# Get inputs
my ( $callback, $nodes, $args ) = @_;
# Get nodes
my @nodes = @$nodes;
# Return code for each command
my $rc;
my $out;
# Child process IDs
my @children;
# Process ID for xfork()
my $pid;
# Get source node
my $sourceNode = $args->[0];
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $sourceNode, @propNames );
# Get zHCP
my $srcHcp = $propVals->{'hcp'};
# Get node user ID
my $sourceId = $propVals->{'userid'};
# Capitalize user ID
$sourceId =~ tr/a-z/A-Z/;
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: Cloning $sourceNode" );
# Exit if missing source node
if ( !$sourceNode ) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) Missing source node" );
return;
}
# Exit if missing source HCP
if ( !$srcHcp ) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) Missing source node HCP" );
return;
}
# Exit if missing source user ID
if ( !$sourceId ) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) Missing source user ID" );
return;
}
# Get target node
@propNames = ( 'hcp', 'userid' );
$propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $_, @propNames );
# Get target HCP
my $tgtHcp = $propVals->{'hcp'};
# Get node userID
my $tgtId = $propVals->{'userid'};
# Capitalize userID
$tgtId =~ tr/a-z/A-Z/;
# Exit if missing target zHCP
if ( !$tgtHcp ) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) Missing target node HCP" );
return;
}
# Exit if missing target user ID
if ( !$tgtId ) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) Missing target user ID" );
return;
}
# Exit if source and target zHCP are not equal
if ( $srcHcp ne $tgtHcp ) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) Source and target HCP are not equal" );
xCAT::zvmUtils->printLn( $callback, "$_: (Solution) Set the source and target HCP appropriately in the zvm table" );
return;
}
#*** Get MAC address ***
my $targetMac;
my $macId;
my $generateNew = 0; # Flag to generate new MACID
@propNames = ('mac');
$propVals = xCAT::zvmUtils->getNodeProps( 'mac', $_, @propNames );
if ( !$propVals->{'mac'} ) {
# If no MACID is found, get one
$macId = xCAT::zvmUtils->getMacID($tgtHcp);
if ( !$macId ) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) Could not generate MACID" );
return;
}
# Create MAC address (target)
$targetMac = xCAT::zvmUtils->createMacAddr( $_, $macId );
# Save MAC address in 'mac' table
xCAT::zvmUtils->setNodeProp( 'mac', $_, 'mac', $targetMac );
# Generate new MACID
$out = xCAT::zvmUtils->generateMacId($tgtHcp);
}
}
#*** Link source disks ***
# Get MDisk statements of source node
my @words;
my $addr;
my $type;
my $srcMultiPw;
my $linkAddr;
# Load vmcp module
xCAT::zvmCPUtils->loadVmcp($sourceNode);
# Hash table of source disk addresses
# $srcLinkAddr[$addr] = $linkAddr
my %srcLinkAddr;
my %srcDiskSize;
# Hash table of source disk type
# $srcLinkAddr[$addr] = $type
my %srcDiskType;
my @srcDisks = xCAT::zvmUtils->getMdisks( $callback, $sourceNode );
foreach (@srcDisks) {
# Get disk address
@words = split( ' ', $_ );
$addr = $words[1];
$type = $words[2];
$srcMultiPw = $words[9];
# Add 0 in front if address length is less than 4
while (length($addr) < 4) {
$addr = '0' . $addr;
}
# Get disk type
$srcDiskType{$addr} = $type;
# Get disk size (cylinders or blocks)
# ECKD or FBA disk
if ( $type eq '3390' || $type eq '9336' ) {
$out = `ssh -o ConnectTimeout=5 $sourceNode "vmcp q v dasd" | grep "DASD $addr"`;
@words = split( ' ', $out );
$srcDiskSize{$addr} = xCAT::zvmUtils->trimStr( $words[5] );
}
# If source disk is not linked
my $try = 5;
while ( $try > 0 ) {
# New disk address
$linkAddr = $addr + 1000;
# Check if new disk address is used (source)
$rc = xCAT::zvmUtils->isAddressUsed( $srcHcp, $linkAddr );
# If disk address is used (source)
while ( $rc == 0 ) {
# Generate a new disk address
# Sleep 5 seconds to let existing disk appear
sleep(5);
$linkAddr = $linkAddr + 1;
$rc = xCAT::zvmUtils->isAddressUsed( $srcHcp, $linkAddr );
}
$srcLinkAddr{$addr} = $linkAddr;
# Link source disk to HCP
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: Linking source disk ($addr) as ($linkAddr)" );
}
$out = `ssh -o ConnectTimeout=5 $srcHcp "vmcp link $sourceId $addr $linkAddr RR $srcMultiPw"`;
if ( $out =~ m/not linked/i ) {
# Do nothing
} else {
last;
}
$try = $try - 1;
# Wait before next try
sleep(5);
} # End of while ( $try > 0 )
# If source disk is not linked
if ( $out =~ m/not linked/i ) {
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: Failed" );
}
# Exit
return;
}
# Enable source disk
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $srcHcp, "-e", $linkAddr );
} # End of foreach (@srcDisks)
# Get the networks the HCP is on
my @hcpNets = xCAT::zvmCPUtils->getNetworkNamesArray($srcHcp);
# Get the NICDEF address of the network on the source node
my @tmp;
my $i;
my $hcpNicAddr = '';
my $hcpNetName = '';
# Find the NIC address
xCAT::zvmCPUtils->loadVmcp($sourceNode);
$out = `ssh $sourceNode "vmcp q v nic"`;
my @lines = split( '\n', $out );
# Loop through each line
my $line;
for ( $i = 0 ; $i < @lines ; $i++ ) {
# Loop through each network name
foreach (@hcpNets) {
# If the network is found
if ( $lines[$i] =~ m/ $_/i ) {
# Save network name
$hcpNetName = $_;
# Get NIC address
$line = xCAT::zvmUtils->trimStr( $lines[ $i - 1 ] );
@words = split( ' ', $line );
@tmp = split( /\./, $words[1] );
$hcpNicAddr = $tmp[0];
last;
}
}
}
# If no network name is found, exit
if (!$hcpNetName || !$hcpNicAddr) {
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: (Error) No suitable network device found in user directory entry" );
xCAT::zvmUtils->printLn( $callback, "$_: (Solution) Verify that the node has one of the following network devices: @hcpNets" );
}
return;
}
# Get VSwitch of source node (if any)
my @srcVswitch = xCAT::zvmCPUtils->getVswitchId($sourceNode);
# Get device address that is the root partition (/)
my $srcRootPartAddr = xCAT::zvmUtils->getRootDeviceAddr($sourceNode);
# Get source node OS
my $srcOs = xCAT::zvmUtils->getOs($sourceNode);
# Get source MAC address in 'mac' table
my $srcMac;
@propNames = ('mac');
$propVals = xCAT::zvmUtils->getNodeProps( 'mac', $sourceNode, @propNames );
if ( $propVals->{'mac'} ) {
# Get MAC address
$srcMac = $propVals->{'mac'};
}
# Get network configuration file
# Location of this file depends on the OS
my $srcIfcfg = xCAT::zvmUtils->getIfcfgByNic( $sourceNode, "0.0." . $hcpNicAddr );
# Get source hardware configuration (SUSE only)
my $srcHwcfg = '';
if ( $srcOs =~ m/SUSE/i ) {
$srcHwcfg = xCAT::zvmUtils->getHwcfg($sourceNode);
}
# Get user entry of source node
my $srcUserEntry = "/tmp/$sourceNode.txt";
$out = `rm $srcUserEntry`;
$out = xCAT::zvmUtils->getUserEntryWODisk( $callback, $sourceNode, $srcUserEntry );
# Check if user entry is valid
$out = `cat $srcUserEntry`;
# If output contains USER LINUX123, then user entry is good
if ( $out =~ m/USER $sourceId/i ) {
# Turn off source node
$out = `ssh -o ConnectTimeout=10 $sourceNode "shutdown -h now"`;
sleep(90); # Wait 1.5 minutes before logging user off
$out = `ssh $srcHcp "$::DIR/stopvs $sourceId"`;
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: $out" );
}
#*** Clone source node ***
# Remove flashcopy lock (if any)
$out = `ssh $srcHcp "rm -f /tmp/.flashcopy_lock"`;
foreach (@nodes) {
$pid = xCAT::Utils->xfork();
# Parent process
if ($pid) {
push( @children, $pid );
}
# Child process
elsif ( $pid == 0 ) {
clone(
$callback, $_, $args, \@srcDisks, \%srcLinkAddr, \%srcDiskSize, \%srcDiskType,
$hcpNicAddr, $hcpNetName, \@srcVswitch, $srcOs, $srcMac, $srcRootPartAddr, $srcIfcfg,
$srcHwcfg
);
# Exit process
exit(0);
}
# End of elsif
else {
# Ran out of resources
die "Error: Could not fork\n";
}
# Clone 4 nodes at a time
# If you handle more than this, some nodes will not be cloned
# You will get errors because SMAPI cannot handle many nodes
if ( !( @children % 4 ) ) {
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
# Clear children
@children = ();
}
} # End of foreach
# Handle the remaining nodes
# Wait for all processes to end
foreach (@children) {
waitpid( $_, 0 );
}
# Remove source user entry
$out = `rm $srcUserEntry`;
} # End of if
#*** Detatch source disks ***
for $addr ( keys %srcLinkAddr ) {
$linkAddr = $srcLinkAddr{$addr};
# Disable and detatch source disk
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $srcHcp, "-d", $linkAddr );
$out = `ssh -o ConnectTimeout=5 $srcHcp "vmcp det $linkAddr"`;
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: Detatching source disk ($addr) at ($linkAddr)" );
}
}
# Turn back on source node
$out = `ssh $srcHcp "$::DIR/startvs $sourceId"`;
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: $out" );
}
#*** Done ***
foreach (@nodes) {
xCAT::zvmUtils->printLn( $callback, "$_: Done" );
}
return;
}
#-------------------------------------------------------
=head3 clone
Description : Clone a virtual server
Arguments : Target node
Disk pool
Disk password (optional)
Source disks
Source disk link addresses
Source disk sizes
NIC address
Network name
VSwitch names (if any)
Operating system
MAC address
Root parition device address
Path to network configuration file
Path to hardware configuration file (SUSE only)
Returns : Nothing
Example : clone($callback, $_, $args, \@srcDisks, \%srcLinkAddr, \%srcDiskSize,
$hcpNicAddr, $hcpNetName, \@srcVswitch, $srcOs, $srcMac,
$srcRootPartAddr, $srcIfcfg, $srcHwcfg);
=cut
#-------------------------------------------------------
sub clone {
# Get inputs
my (
$callback, $tgtNode, $args, $srcDisksRef, $srcLinkAddrRef, $srcDiskSizeRef, $srcDiskTypeRef,
$hcpNicAddr, $hcpNetName, $srcVswitchRef, $srcOs, $srcMac, $srcRootPartAddr, $srcIfcfg, $srcHwcfg
)
= @_;
# Get source node properties from 'zvm' table
my $sourceNode = $args->[0];
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $sourceNode, @propNames );
# Get zHCP
my $srcHcp = $propVals->{'hcp'};
# Get node user ID
my $sourceId = $propVals->{'userid'};
# Capitalize user ID
$sourceId =~ tr/a-z/A-Z/;
# Get source disks
my @srcDisks = @$srcDisksRef;
my %srcLinkAddr = %$srcLinkAddrRef;
my %srcDiskSize = %$srcDiskSizeRef;
my %srcDiskType = %$srcDiskTypeRef;
my @srcVswitch = @$srcVswitchRef;
# Return code for each command
my $rc;
# Get node properties from 'zvm' table
@propNames = ( 'hcp', 'userid' );
$propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $tgtNode, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $tgtUserId = $propVals->{'userid'};
if ( !$tgtUserId ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$tgtUserId =~ tr/a-z/A-Z/;
# Exit if source node HCP is not the same as target node HCP
if ( !( $srcHcp eq $hcp ) ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Source node HCP ($srcHcp) is not the same as target node HCP ($hcp)" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Solution) Set the source and target HCP appropriately in the zvm table" );
return;
}
# Get target IP from /etc/hosts
my $targetIp = xCAT::zvmUtils->getIp($tgtNode);
if ( !$targetIp ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Missing IP for $tgtNode in /etc/hosts" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Solution) Verify that the node's IP address is specified in the hosts table and then run makehosts" );
return;
}
my $out;
my @lines;
my @words;
# Get disk pool and multi password
my $i;
my %inputs;
foreach $i ( 1 .. 2 ) {
if ( $args->[$i] ) {
# Split parameters by '='
@words = split( "=", $args->[$i] );
# Create hash array
$inputs{ $words[0] } = $words[1];
}
}
# Get disk pool
my $pool = $inputs{"pool"};
if ( !$pool ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Missing disk pool. Please specify one." );
return;
}
# Get multi password
# It is Ok not have a password
my $tgtPw = $inputs{"pw"};
# Set IP address
my $sourceIp = xCAT::zvmUtils->getIp($sourceNode);
# Save user directory entry as /tmp/hostname.txt, e.g. /tmp/gpok3.txt
# The source user entry is retrieved in cloneVM()
my $userEntry = "/tmp/$tgtNode.txt";
my $srcUserEntry = "/tmp/$sourceNode.txt";
# Remove existing user entry if any
$out = `rm $userEntry`;
$out = `ssh -o ConnectTimeout=5 $hcp "rm $userEntry"`;
# Copy user entry of source node
$out = `cp $srcUserEntry $userEntry`;
# Replace source userID with target userID
$out = `sed --in-place -e "s,$sourceId,$tgtUserId,i" $userEntry`;
# Get target MAC address in 'mac' table
my $targetMac;
my $macId;
my $generateNew = 0; # Flag to generate new MACID
@propNames = ('mac');
$propVals = xCAT::zvmUtils->getNodeProps( 'mac', $tgtNode, @propNames );
if ($propVals) {
# Get MACID
$targetMac = $propVals->{'mac'};
$macId = $propVals->{'mac'};
$macId = xCAT::zvmUtils->replaceStr( $macId, ":", "" );
$macId = substr( $macId, 6 );
}
else {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Missing target MAC address" );
return;
}
# If the user entry contains a NICDEF statement
$out = `cat $userEntry | egrep -i "NICDEF"`;
if ($out) {
# Get the networks used by the zHCP
my @hcpNets = xCAT::zvmCPUtils->getNetworkNamesArray($hcp);
# Search user entry for network name
my $hcpNetName = '';
foreach (@hcpNets) {
if ( $out =~ m/ $_/i ) {
$hcpNetName = $_;
last;
}
}
# If the user entry contains a MACID
$out = `cat $userEntry | egrep -i "MACID"`;
if ($out) {
my $pos = rindex( $out, "MACID" );
my $oldMacId = substr( $out, $pos + 6, 12 );
$oldMacId = xCAT::zvmUtils->trimStr($oldMacId);
# Replace old MACID
$out = `sed --in-place -e "s,$oldMacId,$macId,i" $userEntry`;
} else {
# Find NICDEF statement
my $oldNicDef = `cat $userEntry | egrep -i "NICDEF" | egrep -i "$hcpNetName"`;
$oldNicDef = xCAT::zvmUtils->trimStr($oldNicDef);
my $nicDef = xCAT::zvmUtils->replaceStr( $oldNicDef, $hcpNetName, "$hcpNetName MACID $macId" );
# Append MACID at the end
$out = `sed --in-place -e "s,$oldNicDef,$nicDef,i" $userEntry`;
}
}
# SCP user entry file over to HCP
xCAT::zvmUtils->sendFile( $hcp, $userEntry, $userEntry );
#*** Create new virtual server ***
my $try = 5;
while ( $try > 0 ) {
if ( $try > 4 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Creating user directory entry" );
}
else {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Trying again ($try) to create user directory entry" );
}
$out = `ssh $hcp "$::DIR/createvs $tgtUserId $userEntry"`;
# Check if user entry is created
$out = `ssh $hcp "$::DIR/getuserentry $tgtUserId"`;
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
# Wait before trying again
sleep(5);
$try = $try - 1;
}
else {
last;
}
}
# Remove user entry
$out = `rm $userEntry`;
$out = `ssh -o ConnectTimeout=5 $hcp "rm $userEntry"`;
# Exit on bad output
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Could not create user entry" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Solution) Verify that the node's zHCP and its zVM's SMAPI are both online" );
return;
}
# Load VMCP module on HCP and source node
xCAT::zvmCPUtils->loadVmcp($hcp);
# Grant access to VSwitch for Linux user
# GuestLan do not need permissions
foreach (@srcVswitch) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Granting VSwitch ($_) access for $tgtUserId" );
$out = xCAT::zvmCPUtils->grantVSwitch( $callback, $hcp, $tgtUserId, $_ );
# Check for errors
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
# Exit on bad output
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
return;
}
} # End of foreach (@vswitchId)
#*** Add MDisk to target user entry ***
my $addr;
my @tgtDisks;
my $type;
my $mode;
my $cyl;
my $srcMultiPw;
foreach (@srcDisks) {
# Get disk address
@words = split( ' ', $_ );
$addr = $words[1];
push( @tgtDisks, $addr );
$type = $words[2];
$mode = $words[6];
$srcMultiPw = $words[9];
# Add 0 in front if address length is less than 4
while (length($addr) < 4) {
$addr = '0' . $addr;
}
# Add ECKD disk
if ( $type eq '3390' ) {
# Get disk size (cylinders)
$cyl = $srcDiskSize{$addr};
$try = 5;
while ( $try > 0 ) {
# Add ECKD disk
if ( $try > 4 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Adding minidisk ($addr)" );
}
else {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Trying again ($try) to add minidisk ($addr)" );
}
$out = `ssh $hcp "$::DIR/add3390 $tgtUserId $pool $addr $cyl $mode $tgtPw $tgtPw $tgtPw"`;
# Check output
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
# Wait before trying again
sleep(5);
# One less try
$try = $try - 1;
}
else {
# If output is good, exit loop
last;
}
} # End of while ( $try > 0 )
# Exit on bad output
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Could not add minidisk ($addr)" );
return;
}
} # End of if ( $type eq '3390' )
# Add FBA disk
elsif ( $type eq '9336' ) {
# Get disk size (blocks)
my $blkSize = '512';
my $blks = $srcDiskSize{$addr};
$try = 10;
while ( $try > 0 ) {
# Add FBA disk
if ( $try > 9 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Adding minidisk ($addr)" );
}
else {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Trying again ($try) to add minidisk ($addr)" );
}
$out = `ssh $hcp "$::DIR/add9336 $tgtUserId $pool $addr $blkSize $blks $mode $tgtPw $tgtPw $tgtPw"`;
# Check output
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
# Wait before trying again
sleep(5);
# One less try
$try = $try - 1;
}
else {
# If output is good, exit loop
last;
}
} # End of while ( $try > 0 )
# Exit on bad output
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Could not add minidisk ($addr)" );
return;
}
} # End of elsif ( $type eq '9336' )
}
# Check if the number of disks in target user entry
# is equal to the number of disks added
my @disks;
$try = 10;
while ( $try > 0 ) {
# Get disks within user entry
$out = `ssh $hcp "$::DIR/getuserentry $tgtUserId" | grep "MDISK"`;
@disks = split( '\n', $out );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Disks added (" . @tgtDisks . "). Disks in user entry (" . @disks . ")" );
if ( @disks != @tgtDisks ) {
$try = $try - 1;
# Wait before trying again
sleep(5);
}
else {
last;
}
}
# Exit if all disks are not present
if ( @disks != @tgtDisks ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Disks not present in user entry" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Solution) Verify disk pool($pool) has free disks" );
return;
}
#*** Link, format, and copy source disks ***
my $srcAddr;
my $tgtAddr;
my $srcDevNode;
my $tgtDevNode;
my $tgtDiskType;
foreach (@tgtDisks) {
#*** Link target disk ***
$try = 10;
while ( $try > 0 ) {
# Add 0 in front if address length is less than 4
while (length($_) < 4) {
$_ = '0' . $_;
}
# New disk address
$srcAddr = $srcLinkAddr{$_};
$tgtAddr = $_ + 2000;
# Check if new disk address is used (target)
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $tgtAddr );
# If disk address is used (target)
while ( $rc == 0 ) {
# Generate a new disk address
# Sleep 5 seconds to let existing disk appear
sleep(5);
$tgtAddr = $tgtAddr + 1;
$rc = xCAT::zvmUtils->isAddressUsed( $hcp, $tgtAddr );
}
# Link target disk
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Linking target disk ($_) as ($tgtAddr)" );
$out = `ssh -o ConnectTimeout=5 $hcp "vmcp link $tgtUserId $_ $tgtAddr MR $tgtPw"`;
# If link fails
if ( $out =~ m/not linked/i ) {
# Wait before trying again
sleep(5);
$try = $try - 1;
}
else {
last;
}
} # End of while ( $try > 0 )
# If target disk is not linked
if ( $out =~ m/not linked/i ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Failed to link target disk ($_)" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Failed" );
# Exit
return;
}
# Get disk type (3390 or 9336)
$tgtDiskType = $srcDiskType{$_};
#*** Use flashcopy ***
# Flashcopy only supports ECKD volumes
my $ddCopy = 0;
$out = `ssh $hcp "vmcp flashcopy"`;
if ( ($out =~ m/HCPNFC026E/i) && ($tgtDiskType eq '3390')) {
# Flashcopy is supported
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Copying source disk ($srcAddr) to target disk ($tgtAddr) using FLASHCOPY" );
# Check for flashcopy lock
my $wait = 0;
while ( `ssh $hcp "ls /tmp/.flashcopy_lock"` && $wait < 90 ) {
# Wait until the lock dissappears
# 90 seconds wait limit
sleep(2);
$wait = $wait + 2;
}
# If flashcopy locks still exists
if (`ssh $hcp "ls /tmp/.flashcopy_lock"`) {
# Detatch disks from HCP
$out = `ssh $hcp "vmcp det $tgtAddr"`;
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Flashcopy lock is enabled" );
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Solution) Remove lock by deleting /tmp/.flashcopy_lock on the zHCP. Use caution!" );
return;
}
else {
# Enable lock
$out = `ssh $hcp "touch /tmp/.flashcopy_lock"`;
# Flashcopy source disk
$out = xCAT::zvmCPUtils->flashCopy( $hcp, $srcAddr, $tgtAddr );
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
# Try Linux dd
$ddCopy = 1;
}
# Wait a while for flashcopy to completely finish
sleep(10);
# Remove lock
$out = `ssh $hcp "rm -f /tmp/.flashcopy_lock"`;
}
} else {
$ddCopy = 1;
}
# Flashcopy not supported, use Linux dd
if ($ddCopy) {
#*** Use Linux dd to copy ***
xCAT::zvmUtils->printLn( $callback, "$tgtNode: FLASHCOPY not working. Using Linux DD" );
# Enable target disk
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", $tgtAddr );
# Determine source device node
$srcDevNode = xCAT::zvmUtils->getDeviceNode($hcp, $srcAddr);
# Determine target device node
$tgtDevNode = xCAT::zvmUtils->getDeviceNode($hcp, $tgtAddr);
# Format target disk
# Only ECKD disks need to be formated
if ($tgtDiskType eq '3390') {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Formating target disk ($tgtAddr)" );
$out = `ssh $hcp "dasdfmt -b 4096 -y -f /dev/$tgtDevNode"`;
# Check for errors
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
return;
}
# Sleep 2 seconds to let the system settle
sleep(2);
# Copy source disk to target disk
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Copying source disk ($srcAddr) to target disk ($tgtAddr)" );
$out = `ssh $hcp "dd if=/dev/$srcDevNode of=/dev/$tgtDevNode bs=4096"`;
} else {
# Copy source disk to target disk
# Block size = 512
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Copying source disk ($srcAddr) to target disk ($tgtAddr)" );
$out = `ssh $hcp "dd if=/dev/$srcDevNode of=/dev/$tgtDevNode bs=512"`;
# Force Linux to re-read partition table
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Forcing Linux to re-read partition table" );
$out =
`ssh $hcp "cat<<EOM | fdisk /dev/$tgtDevNode
p
w
EOM"`;
}
# Check for error
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
return;
}
# Sleep 2 seconds to let the system settle
sleep(2);
}
# Disable and enable target disk
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-d", $tgtAddr );
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", $tgtAddr );
# Determine target device node (it might have changed)
$tgtDevNode = xCAT::zvmUtils->getDeviceNode($hcp, $tgtAddr);
# Get disk address that is the root partition (/)
if ( $_ eq $srcRootPartAddr ) {
# Mount target disk
my $cloneMntPt = "/mnt/$tgtUserId";
$tgtDevNode .= "1";
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Mounting /dev/$tgtDevNode to $cloneMntPt" );
# Check the disk is mounted
$try = 10;
while ( !(`ssh $hcp "ls $cloneMntPt/etc/"`) && $try > 0 ) {
$out = `ssh $hcp "mkdir -p $cloneMntPt"`;
$out = `ssh $hcp "mount /dev/$tgtDevNode $cloneMntPt"`;
# Wait before trying again
sleep(10);
$try = $try - 1;
}
# If the disk is not mounted
if ( !(`ssh $hcp "ls $cloneMntPt/etc/"`) ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Could not mount /dev/$tgtDevNode" );
# Flush disk
$out = `ssh $hcp "sync"`;
# Unmount disk
$out = `ssh $hcp "umount $cloneMntPt"`;
# Remove mount point
$out = `ssh $hcp "rm -rf $cloneMntPt"`;
# Disable disks
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-d", $tgtAddr );
# Detatch disks from HCP
$out = `ssh $hcp "vmcp det $tgtAddr"`;
return;
}
#*** Set network configuration ***
# Set hostname
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Setting network configuration" );
$out = `ssh $hcp sed --in-place -e "s/$sourceNode/$tgtNode/i" $cloneMntPt/etc/HOSTNAME`;
# If Red Hat - Set hostname in /etc/sysconfig/network
if ( $srcOs =~ m/Red Hat/i ) {
$out = `ssh $hcp sed --in-place -e "s/$sourceNode/$tgtNode/i" $cloneMntPt/etc/sysconfig/network`;
}
# Get network configuration file
# Location of this file depends on the OS
my $ifcfgPath = $cloneMntPt;
$ifcfgPath .= $srcIfcfg;
$out = `ssh $hcp sed --in-place -e "s/$sourceNode/$tgtNode/i" \ -e "s/$sourceIp/$targetIp/i" $cloneMntPt/etc/hosts`;
$out = `ssh $hcp sed --in-place -e "s/$sourceIp/$targetIp/i" \ -e "s/$sourceNode/$tgtNode/i" $ifcfgPath`;
# Get network layer
my $layer = xCAT::zvmCPUtils->getNetworkLayer( $hcp, $hcpNetName );
# Set MAC address
my $networkFile = $tgtNode . "NetworkConfig";
if ( $srcOs =~ m/Red Hat/i ) {
# Red Hat only
$out = `ssh $hcp "cat $ifcfgPath" | grep -v "MACADDR" > /tmp/$networkFile`;
$out = `echo "MACADDR='$targetMac'" >> /tmp/$networkFile`;
}
else {
# SUSE only
$out = `ssh $hcp "cat $ifcfgPath" | grep -v "LLADDR" | grep -v "UNIQUE" > /tmp/$networkFile`;
# Set to MAC address (only for layer 2)
if ( $layer == 2 ) {
$out = `echo "LLADDR='$targetMac'" >> /tmp/$networkFile`;
$out = `echo "UNIQUE=''" >> /tmp/$networkFile`;
}
}
xCAT::zvmUtils->sendFile( $hcp, "/tmp/$networkFile", $ifcfgPath );
# Remove network file from /tmp
$out = `rm /tmp/$networkFile`;
# Set to hardware configuration (only for layer 2)
if ( $layer == 2 ) {
#*** Red Hat ***
if ( $srcOs =~ m/Red Hat/i ) {
my $srcMac;
# Get source MAC address in 'mac' table
@propNames = ('mac');
$propVals = xCAT::zvmUtils->getNodeProps( 'mac', $sourceNode, @propNames );
if ($propVals) {
# Get MAC address
$srcMac = $propVals->{'mac'};
}
else {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: (Error) Could not find MAC address of $sourceNode" );
# Unmount disk
$out = `ssh $hcp "umount $cloneMntPt"`;
# Disable disks
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-d", $tgtAddr );
# Detatch disks from HCP
$out = `ssh $hcp "vmcp det $tgtAddr"`;
return;
}
# Set MAC address
$out = `ssh $hcp sed --in-place -e "s/$srcMac/$targetMac/i" $ifcfgPath`;
}
#*** SUSE ***
else {
# Get hardware configuration
my $hwcfgPath = $cloneMntPt;
# Set layer 2 support
$hwcfgPath .= $srcHwcfg;
my $hardwareFile = $tgtNode . "HardwareConfig";
$out = `ssh $hcp "cat $hwcfgPath" | grep -v "QETH_LAYER2_SUPPORT" > /tmp/$hardwareFile`;
$out = `echo "QETH_LAYER2_SUPPORT='1'" >> /tmp/$hardwareFile`;
xCAT::zvmUtils->sendFile( $hcp, "/tmp/$hardwareFile", $hwcfgPath );
# Remove hardware file from /tmp
$out = `rm /tmp/$hardwareFile`;
}
} # End of if ( $layer == 2 )
# Remove old SSH keys
$out = `ssh $hcp "rm -f $cloneMntPt/etc/ssh/ssh_host_*"`;
# Flush disk
$out = `ssh $hcp "sync"`;
# Unmount disk
$out = `ssh $hcp "umount $cloneMntPt"`;
# Remove mount point
$out = `ssh $hcp "rm -rf $cloneMntPt"`;
}
# Disable disks
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-d", $tgtAddr );
# Detatch disks from HCP
$out = `ssh $hcp "vmcp det $tgtAddr"`;
sleep(5);
} # End of foreach (@tgtDisks)
# Update DHCP
$out = `makedhcp -a`;
# Power on target virtual server
xCAT::zvmUtils->printLn( $callback, "$tgtNode: Powering on" );
$out = `ssh $hcp "$::DIR/startvs $tgtUserId"`;
# Check for error
$rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$tgtNode: $out" );
return;
}
}
#-------------------------------------------------------
=head3 nodeSet
Description : Set the boot state for a node
* Punch initrd, kernel, and parmfile to node reader
* Layer 2 and 3 VSwitch/Lan supported
Arguments : Node
Returns : Nothing
Example : nodeSet($callback, $node, $args);
=cut
#-------------------------------------------------------
sub nodeSet {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Get install directory and domain from site table
my $siteTab = xCAT::Table->new('site');
my $installDirHash = $siteTab->getAttribs( { key => "installdir" }, 'value' );
my $installDir = $installDirHash->{'value'};
my $domainHash = $siteTab->getAttribs( { key => "domain" }, 'value' );
my $domain = $domainHash->{'value'};
my $masterHash = $siteTab->getAttribs( { key => "master" }, 'value' );
my $master = $masterHash->{'value'};
my $xcatdPortHash = $siteTab->getAttribs( { key => "xcatdport" }, 'value' );
my $xcatdPort = $xcatdPortHash->{'value'};
# Get node OS, arch, and profile from 'nodetype' table
@propNames = ( 'os', 'arch', 'profile' );
$propVals = xCAT::zvmUtils->getNodeProps( 'nodetype', $node, @propNames );
my $os = $propVals->{'os'};
my $arch = $propVals->{'arch'};
my $profile = $propVals->{'profile'};
# If no OS, arch, or profile is found
if ( !$os || !$arch || !$profile ) {
# Exit
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node OS, arch, and profile in nodetype table" );
return;
}
# Get action
my $action = $args->[0];
my $out;
if ( $action eq "install" ) {
# Get node root password
@propNames = ('password');
$propVals = xCAT::zvmUtils->getTabPropsByKey( 'passwd', 'key', 'system', @propNames );
my $passwd = $propVals->{'password'};
if ( !$passwd ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing root password for this node" );
return;
}
# Get node OS base
my @tmp;
if ( $os =~ m/sp/i ) {
@tmp = split( /sp/, $os );
} else {
@tmp = split( /\./, $os );
}
my $osBase = $tmp[0];
# Get node distro
my $distro = "";
if ( $os =~ m/sles/i ) {
$distro = "sles";
} elsif ( $os =~ m/rhel/i ) {
$distro = "rh";
} else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Unable to determine node Linux distribution" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Verify the node Linux distribution is either sles* or rh*" );
return;
}
# Get autoyast/kickstart template
my $tmpl;
# Check for $profile.$os.$arch.tmpl
if ( -e "$installDir/custom/install/$distro/$profile.$os.$arch.tmpl" ) {
$tmpl = "$profile.$os.$arch.tmpl";
}
# Check for $profile.$osBase.$arch.tmpl
elsif ( -e "$installDir/custom/install/$distro/$profile.$osBase.$arch.tmpl" ) {
$tmpl = "$profile.$osBase.$arch.tmpl";
}
# Check for $profile.$arch.tmpl
elsif ( -e "$installDir/custom/install/$distro/$profile.$arch.tmpl" ) {
$tmpl = "$profile.$arch.tmpl";
}
# Check for $profile.tmpl second
elsif ( -e "$installDir/custom/install/$distro/$profile.tmpl" ) {
$tmpl = "$profile.tmpl";
}
else {
# No template exists
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing autoyast/kickstart template" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Create a template under $installDir/custom/install/$distro/" );
return;
}
# Get host IP and hostname from /etc/hosts
$out = `cat /etc/hosts | grep "$node "`;
my @words = split( ' ', $out );
my $hostIP = $words[0];
my $hostname = $words[2];
if ( !$hostIP || !$hostname ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing IP for $node in /etc/hosts" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Verify that the nodes IP address is specified in the hosts table and then run makehosts" );
return;
}
# Check template if DHCP is used
my $dhcp = 0;
if ($distro eq "sles") {
# Check autoyast template
if ( -e "$installDir/custom/install/sles/$tmpl" ) {
$out = `cat $installDir/custom/install/sles/$tmpl | egrep -i "<bootproto>"`;
if ($out =~ m/dhcp/i) {
$dhcp = 1;
}
}
} elsif ($distro eq "rh") {
# Check kickstart template
if ( -e "$installDir/custom/install/rh/$tmpl" ) {
$out = `cat $installDir/custom/install/rh/$tmpl | egrep -ie "--bootproto dhcp"`;
if ($out =~ m/dhcp/i) {
$dhcp = 1;
}
}
}
# Get the networks used by the zHCP
my @hcpNets = xCAT::zvmCPUtils->getNetworkNamesArray($hcp);
my $hcpNetName = '';
my $channel;
my $layer;
my $i;
# Search directory entry for network name
my $userEntry = `ssh $hcp "$::DIR/getuserentry $userId"`;
$out = `echo "$userEntry" | grep "NICDEF"`;
my @lines = split( '\n', $out );
# Go through each line
for ( $i = 0 ; $i < @lines ; $i++ ) {
# Go through each network device attached to zHCP
foreach (@hcpNets) {
# If network device is found
if ( $lines[$i] =~ m/ $_/i ) {
# Get network layer
$layer = xCAT::zvmCPUtils->getNetworkLayer($hcp, $_);
# If template using DHCP, layer must be 2
if ((!$dhcp && $layer != 2) || (!$dhcp && $layer == 2) || ($dhcp && $layer == 2)) {
# Save network name
$hcpNetName = $_;
# Get network virtual address
@words = split( ' ', $lines[$i] );
# Get virtual address (channel)
# Convert subchannel to decimal
$channel = sprintf('%d', hex($words[1]));
last;
} else {
# Go to next network available
$hcpNetName = ''
}
}
}
}
# If network device is not found
if (!$hcpNetName) {
# Check for user profile
my $profileName = `echo "$userEntry" | grep "INCLUDE"`;
if ($profileName) {
@words = split( ' ', xCAT::zvmUtils->trimStr($profileName) );
# Get user profile
my $userProfile = xCAT::zvmUtils->getUserProfile($hcp, $words[1]);
# Get the NICDEF statement containing the HCP network
$out = `echo "$userProfile" | grep "NICDEF"`;
@lines = split( '\n', $out );
# Go through each line
for ( $i = 0 ; $i < @lines ; $i++ ) {
# Go through each network device attached to zHCP
foreach (@hcpNets) {
# If network device is found
if ( $lines[$i] =~ m/ $_/i ) {
# Get network layer
$layer = xCAT::zvmCPUtils->getNetworkLayer($hcp, $_);
# If template using DHCP, layer must be 2
if ((!$dhcp && $layer != 2) || (!$dhcp && $layer == 2) || ($dhcp && $layer == 2)) {
# Save network name
$hcpNetName = $_;
# Get network virtual address
@words = split( ' ', $lines[$i] );
# Get virtual address (channel)
# Convert subchannel to decimal
$channel = sprintf('%d', hex($words[1]));
last;
} else {
# Go to next network available
$hcpNetName = '';
}
}
} # End of foreach
} # End of for
} # End of if
}
# Exit if no suitable network found
if (!$hcpNetName) {
if ($dhcp) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) The template selected uses DHCP. A layer 2 VSWITCH or GLAN is required. None were found." );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Modify the template to use <bootproto>static</bootproto> or change the network device attached to virtual machine" );
} else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) No suitable network device found in user directory entry" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Verify that the node has one of the following network devices: @hcpNets" );
}
return;
}
xCAT::zvmUtils->printLn( $callback, "$node: Setting up networking on $hcpNetName (layer:$layer | DHCP:$dhcp)" );
# Generate read, write, and data channels
my $readChannel = "0.0." . ( sprintf('%X', $channel + 0) );
if ( length($readChannel) < 8 ) {
# Prepend a zero
$readChannel = "0.0.0" . ( sprintf('%X', $channel + 0) );
}
my $writeChannel = "0.0." . ( sprintf('%X', $channel + 1) );
if ( length($writeChannel) < 8 ) {
# Prepend a zero
$writeChannel = "0.0.0" . ( sprintf('%X', $channel + 1) );
}
my $dataChannel = "0.0." . ( sprintf('%X', $channel + 2) );
if ( length($dataChannel) < 8 ) {
# Prepend a zero
$dataChannel = "0.0.0" . ( sprintf('%X', $channel + 2) );
}
# Get MAC address (Only for layer 2)
my $mac = "";
my @propNames;
my $propVals;
if ( $layer == 2 ) {
# Search 'mac' table for node
@propNames = ('mac');
$propVals = xCAT::zvmUtils->getTabPropsByKey( 'mac', 'node', $node, @propNames );
$mac = $propVals->{'mac'};
# If no MAC address is found, exit
# MAC address should have been assigned to the node upon creation
if ( !$mac ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing MAC address of node" );
return;
}
}
# Get networks in 'networks' table
my $entries = xCAT::zvmUtils->getAllTabEntries('networks');
# Go through each network
my $network = "";
my $mask;
foreach (@$entries) {
# Get network and mask
$network = $_->{'net'};
$mask = $_->{'mask'};
# If the host IP address is in this subnet, return
if (xCAT::NetworkUtils->ishostinsubnet($hostIP, $mask, $network)) {
# Exit loop
last;
}
else {
$network = "";
}
}
# If no network found
if ( !$network ) {
# Exit
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Node does not belong to any network in the networks table" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Specify the subnet in the networks table. The mask, gateway, tftpserver, and nameservers must be specified for the subnet." );
return;
}
@propNames = ( 'mask', 'gateway', 'tftpserver', 'nameservers' );
$propVals = xCAT::zvmUtils->getTabPropsByKey( 'networks', 'net', $network, @propNames );
my $mask = $propVals->{'mask'};
my $gateway = $propVals->{'gateway'};
# Convert <xcatmaster> to nameserver IP
my $nameserver;
if ($propVals->{'nameservers'} eq '<xcatmaster>') {
$nameserver = xCAT::InstUtils->convert_xcatmaster();
} else {
$nameserver = $propVals->{'nameservers'};
}
if ( !$network || !$mask || !$nameserver ) {
# It is acceptable to not have a gateway
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing network information" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Specify the mask, gateway, and nameservers for the subnet in the networks table" );
return;
}
@propNames = ( 'nfsserver' );
$propVals = xCAT::zvmUtils->getNodeProps( 'noderes', $node, @propNames );
my $nfs = $propVals->{'nfsserver'};
if ( !$nfs ) {
$nfs = $master;
}
# Combine NFS server and installation directory, e.g. 10.0.0.1/install
$nfs .= $installDir;
# Get broadcast address of NIC
my $ifcfg = xCAT::zvmUtils->getIfcfgByNic( $hcp, $readChannel );
$out = `ssh $hcp "cat $ifcfg" | grep "BROADCAST"`;
@words = split( '=', $out );
my $broadcast = $words[1];
$broadcast = xCAT::zvmUtils->trimStr($broadcast);
$broadcast =~ s;"|';;g;
# Load VMCP module on HCP
xCAT::zvmCPUtils->loadVmcp($hcp);
# Sample paramter file exists in installation CD (Use that as a guide)
my $sampleParm;
my $parmHeader;
my $parms;
my $parmFile;
my $kernelFile;
my $initFile;
# If punch is successful - Look for this string
my $searchStr = "created and transferred";
# Default parameters - SUSE
my $instNetDev = "osa"; # Only OSA interface type is supported
my $osaInterface = "qdio"; # OSA interface = qdio or lcs
my $osaMedium = "eth"; # OSA medium = eth (ethernet) or tr (token ring)
# Default parameters - RHEL
my $netType = "qeth";
my $portName = "FOOBAR";
my $portNo = "0";
# Get postscript content
my $postScript;
if ( $os =~ m/sles10/i ) {
$postScript = "/opt/xcat/share/xcat/install/scripts/post.sles10.s390x";
} elsif ( $os =~ m/sles11/i ) {
$postScript = "/opt/xcat/share/xcat/install/scripts/post.sles11.s390x";
} elsif ( $os =~ m/rhel5/i ) {
$postScript = "/opt/xcat/share/xcat/install/scripts/post.rhel5.s390x";
} elsif ( $os =~ m/rhel6/i ) {
$postScript = "/opt/xcat/share/xcat/install/scripts/post.rhel6.s390x";
} else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) No postscript available for $os" );
return;
}
# SUSE installation
my $customTmpl;
my $pkglist;
my $patterns = '';
my $packages = '';
if ( $os =~ m/sles/i ) {
# Create directory in FTP root (/install) to hold template
$out = `mkdir -p $installDir/custom/install/sles`;
# Copy autoyast template
$customTmpl = "$installDir/custom/install/sles/" . $node . "." . $profile . ".tmpl";
if ( -e "$installDir/custom/install/sles/$tmpl" ) {
$out = `cp $installDir/custom/install/sles/$tmpl $customTmpl`;
}
else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) An autoyast template does not exist for $os in $installDir/custom/install/sles/. Please create one." );
return;
}
# Get pkglist from /install/custom/install/sles/compute.sles11.s390x.otherpkgs.pkglist
# Original one is in /opt/xcat/share/xcat/install/sles/compute.sles11.s390x.otherpkgs.pkglist
$pkglist = "/install/custom/install/sles/" . $profile . "." . $osBase . "." . $arch . ".pkglist";
if ( !(-e $pkglist) ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing package list for $os in /install/custom/install/sles/" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Please create one or copy default one from /opt/xcat/share/xcat/install/sles/" );
return;
}
# Read in each software pattern or package
open (FILE, $pkglist);
while (<FILE>) {
chomp;
# Create <xml> tags, e.g.
# <package>apache</package>
# <pattern>directory_server</pattern>
$_ = xCAT::zvmUtils->trimStr($_);
if ($_ && $_ =~ /@/) {
$_ =~ s/@//g;
$patterns .= "<pattern>$_</pattern>";
} elsif ($_) {
$packages .= "<package>$_</package>";
}
}
close (FILE);
# Add appropriate software packages or patterns
$out = `sed --in-place -e "s,replace_software_packages,$packages,g" \ -e "s,replace_software_patterns,$patterns,g" $customTmpl`;
# Copy postscript into template
$out = `sed --in-place -e "/<scripts>/r $postScript" $customTmpl`;
# Edit template
my $device;
my $chanIds = "$readChannel $writeChannel $dataChannel";
# SLES 11
if ( $os =~ m/sles11/i ) {
$device = "eth0";
} else {
# SLES 10
$device = "qeth-bus-ccw-$readChannel";
}
$out =
`sed --in-place -e "s,replace_host_address,$hostIP,g" \ -e "s,replace_long_name,$hostname,g" \ -e "s,replace_short_name,$node,g" \ -e "s,replace_domain,$domain,g" \ -e "s,replace_hostname,$node,g" \ -e "s,replace_nameserver,$nameserver,g" \ -e "s,replace_broadcast,$broadcast,g" \ -e "s,replace_device,$device,g" \ -e "s,replace_ipaddr,$hostIP,g" \ -e "s,replace_lladdr,$mac,g" \ -e "s,replace_netmask,$mask,g" \ -e "s,replace_network,$network,g" \ -e "s,replace_ccw_chan_ids,$chanIds,g" \ -e "s,replace_ccw_chan_mode,FOOBAR,g" \ -e "s,replace_gateway,$gateway,g" \ -e "s,replace_root_password,$passwd,g" \ -e "s,replace_nic_addr,$readChannel,g" \ -e "s,replace_master,$master,g" \ -e "s,replace_install_dir,$installDir,g" $customTmpl`;
# Read sample parmfile in /install/sles10.2/s390x/1/boot/s390x/
$sampleParm = "$installDir/$os/s390x/1/boot/s390x/parmfile";
open( SAMPLEPARM, "<$sampleParm" );
# Search parmfile for -- ramdisk_size=65536 root=/dev/ram1 ro init=/linuxrc TERM=dumb
while (<SAMPLEPARM>) {
# If the line contains 'ramdisk_size'
if ( $_ =~ m/ramdisk_size/i ) {
$parmHeader = xCAT::zvmUtils->trimStr($_);
}
}
# Close sample parmfile
close(SAMPLEPARM);
# Create parmfile -- Limited to 10 lines
# End result should be:
# ramdisk_size=65536 root=/dev/ram1 ro init=/linuxrc TERM=dumb
# HostIP=10.0.0.5 Hostname=gpok5.endicott.ibm.com
# Gateway=10.0.0.1 Netmask=255.255.255.0
# Broadcast=10.0.0.0 Layer2=1 OSAHWaddr=02:00:01:FF:FF:FF
# ReadChannel=0.0.0800 WriteChannel=0.0.0801 DataChannel=0.0.0802
# Nameserver=10.0.0.1 Portname=OSAPORT Portno=0
# Install=ftp://10.0.0.1/sles10.2/s390x/1/
# UseVNC=1 VNCPassword=12345678
# InstNetDev=osa OsaInterface=qdio OsaMedium=eth Manual=0
my $ay = "http://$nfs/custom/install/sles/" . $node . "." . $profile . ".tmpl";
$parms = $parmHeader . "\n";
$parms = $parms . "AutoYaST=$ay\n";
$parms = $parms . "HostIP=$hostIP Hostname=$hostname\n";
$parms = $parms . "Gateway=$gateway Netmask=$mask\n";
# Set layer in autoyast profile
if ( $layer == 2 ) {
$parms = $parms . "Broadcast=$broadcast Layer2=1 OSAHWaddr=$mac\n";
}
else {
$parms = $parms . "Broadcast=$broadcast Layer2=0\n";
}
$parms = $parms . "ReadChannel=$readChannel WriteChannel=$writeChannel DataChannel=$dataChannel\n";
$parms = $parms . "Nameserver=$nameserver Portname=$portName Portno=0\n";
$parms = $parms . "Install=http://$nfs/$os/s390x/1/\n";
$parms = $parms . "UseVNC=1 VNCPassword=12345678\n";
$parms = $parms . "InstNetDev=$instNetDev OsaInterface=$osaInterface OsaMedium=$osaMedium Manual=0\n";
# Write to parmfile
$parmFile = "/tmp/" . $node . "Parm";
open( PARMFILE, ">$parmFile" );
print PARMFILE "$parms";
close(PARMFILE);
# Send kernel, parmfile, and initrd to reader to HCP
$kernelFile = "/tmp/" . $node . "Kernel";
$initFile = "/tmp/" . $node . "Initrd";
$out = `cp $installDir/$os/s390x/1/boot/s390x/vmrdr.ikr $kernelFile`;
$out = `cp $installDir/$os/s390x/1/boot/s390x/initrd $initFile`;
xCAT::zvmUtils->sendFile( $hcp, $kernelFile, $kernelFile );
xCAT::zvmUtils->sendFile( $hcp, $parmFile, $parmFile );
xCAT::zvmUtils->sendFile( $hcp, $initFile, $initFile );
# Set the virtual unit record devices online on HCP
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", "c" );
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", "d" );
# Purge reader
$out = xCAT::zvmCPUtils->purgeReader( $hcp, $userId );
xCAT::zvmUtils->printLn( $callback, "$node: Purging reader... Done" );
# Punch kernel to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $kernelFile, "sles.kernel", "" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching kernel to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Punch parm to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $parmFile, "sles.parm", "-t" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching parm to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Punch initrd to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $initFile, "sles.initrd", "" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching initrd to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Remove kernel, parmfile, and initrd from /tmp
$out = `rm $parmFile $kernelFile $initFile`;
$out = `ssh -o ConnectTimeout=5 $hcp "rm $parmFile $kernelFile $initFile"`;
xCAT::zvmUtils->printLn( $callback, "$node: Kernel, parm, and initrd punched to reader. Ready for boot." );
}
# RHEL installation
elsif ( $os =~ m/rhel/i ) {
# Create directory in FTP root (/install) to hold template
$out = `mkdir -p $installDir/custom/install/rh`;
# Copy kickstart template
$customTmpl = "$installDir/custom/install/rh/" . $node . "." . $profile . ".tmpl";
if ( -e "$installDir/custom/install/rh/$tmpl" ) {
$out = `cp $installDir/custom/install/rh/$tmpl $customTmpl`;
}
else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) An kickstart template does not exist for $os in $installDir/custom/install/rh/" );
return;
}
# Get pkglist from /install/custom/install/rh/compute.rhel6.s390x.otherpkgs.pkglist
# Original one is in /opt/xcat/share/xcat/install/rh/compute.rhel6.s390x.otherpkgs.pkglist
$pkglist = "/install/custom/install/rh/" . $profile . "." . $osBase . "." . $arch . ".pkglist";
if ( !(-e $pkglist) ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing package list for $os in /install/custom/install/rh/" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Please create one or copy default one from /opt/xcat/share/xcat/install/rh/" );
return;
}
# Read in each software pattern or package
open (FILE, $pkglist);
while (<FILE>) {
chomp;
$_ = xCAT::zvmUtils->trimStr($_);
$packages .= "$_\\n";
}
close (FILE);
# Add appropriate software packages or patterns
$out = `sed --in-place -e "s,replace_software_packages,$packages,g" $customTmpl`;
# Copy postscript into template
$out = `sed --in-place -e "/%post/r $postScript" $customTmpl`;
# Edit template
my $url = "http://$nfs/$os/s390x/";
$out =
`sed --in-place -e "s,replace_url,$url,g" \ -e "s,replace_ip,$hostIP,g" \ -e "s,replace_netmask,$mask,g" \ -e "s,replace_gateway,$gateway,g" \ -e "s,replace_nameserver,$nameserver,g" \ -e "s,replace_hostname,$hostname,g" \ -e "s,replace_rootpw,$passwd,g" \ -e "s,replace_master,$master,g" \ -e "s,replace_install_dir,$installDir,g" $customTmpl`;
# Read sample parmfile in /install/rhel5.3/s390x/images
$sampleParm = "$installDir/$os/s390x/images/generic.prm";
open( SAMPLEPARM, "<$sampleParm" );
# Search parmfile for -- root=/dev/ram0 ro ip=off ramdisk_size=40000
while (<SAMPLEPARM>) {
# If the line contains 'ramdisk_size'
if ( $_ =~ m/ramdisk_size/i ) {
$parmHeader = xCAT::zvmUtils->trimStr($_);
# RHEL 6.1 needs cio_ignore in order to install
if ( !($os =~ m/rhel6.1/i) ) {
$parmHeader =~ s/cio_ignore=all,!0.0.0009//g;
}
}
}
# Close sample parmfile
close(SAMPLEPARM);
# Get mdisk virtual address
my @mdisks = xCAT::zvmUtils->getMdisks( $callback, $node );
my $dasd = "";
my $i = 0;
foreach (@mdisks) {
$i = $i + 1;
@words = split( ' ', $_ );
# Do not put a comma at the end of the last disk address
if ( $i == @mdisks ) {
$dasd = $dasd . "0.0.$words[1]";
} else {
$dasd = $dasd . "0.0.$words[1],";
}
}
# Get dedicated virtual address
my @dedicates = xCAT::zvmUtils->getDedicates( $callback, $node );
$i = 0;
foreach (@dedicates) {
$i = $i + 1;
@words = split( ' ', $_ );
# Do not put a comma at the end of the last disk address
if ( $i == @dedicates ) {
$dasd = $dasd . "0.0.$words[1]";
} else {
$dasd = $dasd . "0.0.$words[1],";
}
}
# Create parmfile -- Limited to 80 characters/line, maximum of 11 lines
# End result should be:
# ramdisk_size=40000 root=/dev/ram0 ro ip=off
# ks=ftp://10.0.0.1/rhel5.3/s390x/compute.rhel5.s390x.tmpl
# RUNKS=1 cmdline
# DASD=0.0.0100 HOSTNAME=gpok4.endicott.ibm.com
# NETTYPE=qeth IPADDR=10.0.0.4
# SUBCHANNELS=0.0.0800,0.0.0801,0.0.0800
# NETWORK=10.0.0.0 NETMASK=255.255.255.0
# SEARCHDNS=endicott.ibm.com BROADCAST=10.0.0.255
# GATEWAY=10.0.0.1 DNS=9.0.2.11 MTU=1500
# PORTNAME=UNASSIGNED PORTNO=0 LAYER2=0
# vnc vncpassword=12345678
my $ks = "http://$nfs/custom/install/rh/" . $node . "." . $profile . ".tmpl";
$parms = $parmHeader . "\n";
$parms = $parms . "ks=$ks\n";
$parms = $parms . "RUNKS=1 cmdline\n";
$parms = $parms . "DASD=$dasd HOSTNAME=$hostname\n";
$parms = $parms . "NETTYPE=$netType IPADDR=$hostIP\n";
$parms = $parms . "SUBCHANNELS=$readChannel,$writeChannel,$dataChannel\n";
$parms = $parms . "NETWORK=$network NETMASK=$mask\n";
$parms = $parms . "SEARCHDNS=$domain BROADCAST=$broadcast\n";
$parms = $parms . "GATEWAY=$gateway DNS=$nameserver MTU=1500\n";
# Set layer in kickstart profile
if ( $layer == 2 ) {
$parms = $parms . "PORTNAME=$portName PORTNO=$portNo LAYER2=1 MACADDR=$mac\n";
}
else {
$parms = $parms . "PORTNAME=$portName PORTNO=$portNo LAYER2=0\n";
}
$parms = $parms . "vnc vncpassword=12345678\n";
# Write to parmfile
$parmFile = "/tmp/" . $node . "Parm";
open( PARMFILE, ">$parmFile" );
print PARMFILE "$parms";
close(PARMFILE);
# Send kernel, parmfile, conf, and initrd to reader to HCP
$kernelFile = "/tmp/" . $node . "Kernel";
$initFile = "/tmp/" . $node . "Initrd";
$out = `cp $installDir/$os/s390x/images/kernel.img $kernelFile`;
$out = `cp $installDir/$os/s390x/images/initrd.img $initFile`;
xCAT::zvmUtils->sendFile( $hcp, $kernelFile, $kernelFile );
xCAT::zvmUtils->sendFile( $hcp, $parmFile, $parmFile );
xCAT::zvmUtils->sendFile( $hcp, $initFile, $initFile );
# Set the virtual unit record devices online
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", "c" );
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", "d" );
# Purge reader
$out = xCAT::zvmCPUtils->purgeReader( $hcp, $userId );
xCAT::zvmUtils->printLn( $callback, "$node: Purging reader... Done" );
# Punch kernel to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $kernelFile, "rhel.kernel", "" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching kernel to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Punch parm to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $parmFile, "rhel.parm", "-t" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching parm to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Punch initrd to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $initFile, "rhel.initrd", "" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching initrd to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Remove kernel, parmfile, and initrd from /tmp
$out = `rm $parmFile $kernelFile $initFile`;
$out = `ssh -o ConnectTimeout=5 $hcp "rm $parmFile $kernelFile $initFile"`;
xCAT::zvmUtils->printLn( $callback, "$node: Kernel, parm, and initrd punched to reader. Ready for boot." );
}
}
elsif ( $action eq "statelite" ) {
# Get node group from 'nodelist' table
@propNames = ('groups');
$propVals = xCAT::zvmUtils->getTabPropsByKey( 'nodelist', 'node', $node, @propNames );
my $group = $propVals->{'groups'};
# Get node statemnt (statelite mount point) from 'statelite' table
@propNames = ('statemnt');
$propVals = xCAT::zvmUtils->getTabPropsByKey( 'statelite', 'node', $node, @propNames );
my $stateMnt = $propVals->{'statemnt'};
if ( !$stateMnt ) {
$propVals = xCAT::zvmUtils->getTabPropsByKey( 'statelite', 'node', $group, @propNames );
$stateMnt = $propVals->{'statemnt'};
if ( !$stateMnt ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node statemnt in statelite table. Please specify one." );
return;
}
}
# Netboot directory
my $netbootDir = "$installDir/netboot/$os/$arch/$profile";
my $kernelFile = "$netbootDir/kernel";
my $parmFile = "$netbootDir/parm-statelite";
my $initFile = "$netbootDir/initrd-statelite.gz";
# If parmfile exists
if ( -e $parmFile ) {
# Do nothing
}
else {
xCAT::zvmUtils->printLn( $callback, "$node: Creating parmfile" );
my $sampleParm;
my $parmHeader;
my $parms;
if ( $os =~ m/sles/i ) {
if ( -e "$installDir/$os/s390x/1/boot/s390x/parmfile" ) {
# Read sample parmfile in /install/sles11.1/s390x/1/boot/s390x/
$sampleParm = "$installDir/$os/s390x/1/boot/s390x/parmfile";
} else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing $installDir/$os/s390x/1/boot/s390x/parmfile" );
return;
}
}
elsif ( $os =~ m/rhel/i ) {
if ( -e "$installDir/$os/s390x/images/generic.prm" ) {
# Read sample parmfile in /install/rhel5.3/s390x/images
$sampleParm = "$installDir/$os/s390x/images/generic.prm";
} else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing $installDir/$os/s390x/images/generic.prm" );
return;
}
}
open( SAMPLEPARM, "<$sampleParm" );
# Search parmfile for -- ramdisk_size=65536 root=/dev/ram1 ro init=/linuxrc TERM=dumb
while (<SAMPLEPARM>) {
# If the line contains 'ramdisk_size'
if ( $_ =~ m/ramdisk_size/i ) {
$parmHeader = xCAT::zvmUtils->trimStr($_);
}
}
# Close sample parmfile
close(SAMPLEPARM);
# Create parmfile
# End result should be:
# ramdisk_size=65536 root=/dev/ram1 ro init=/linuxrc TERM=dumb
# NFSROOT=10.1.100.1:/install/netboot/sles11.1.1/s390x/compute
# STATEMNT=10.1.100.1:/lite/state XCAT=10.1.100.1:3001
$parms = $parmHeader . "\n";
$parms = $parms . "NFSROOT=$master:$netbootDir\n";
$parms = $parms . "STATEMNT=$stateMnt XCAT=$master:$xcatdPort\n";
# Write to parmfile
open( PARMFILE, ">$parmFile" );
print PARMFILE "$parms";
close(PARMFILE);
}
# Temporary kernel, parmfile, and initrd
my $tmpKernelFile = "/tmp/$os-kernel";
my $tmpParmFile = "/tmp/$os-parm-statelite";
my $tmpInitFile = "/tmp/$os-initrd-statelite.gz";
if (`ssh -o ConnectTimeout=5 $hcp "ls /tmp" | grep "$os-kernel"`) {
# Do nothing
} else {
# Send kernel to reader to HCP
xCAT::zvmUtils->sendFile( $hcp, $kernelFile, $tmpKernelFile );
}
if (`ssh -o ConnectTimeout=5 $hcp "ls /tmp" | grep "$os-parm-statelite"`) {
# Do nothing
} else {
# Send parmfile to reader to HCP
xCAT::zvmUtils->sendFile( $hcp, $parmFile, $tmpParmFile );
}
if (`ssh -o ConnectTimeout=5 $hcp "ls /tmp" | grep "$os-initrd-statelite.gz"`) {
# Do nothing
} else {
# Send initrd to reader to HCP
xCAT::zvmUtils->sendFile( $hcp, $initFile, $tmpInitFile );
}
# Set the virtual unit record devices online
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", "c" );
$out = xCAT::zvmUtils->disableEnableDisk( $callback, $hcp, "-e", "d" );
# Purge reader
$out = xCAT::zvmCPUtils->purgeReader( $hcp, $userId );
xCAT::zvmUtils->printLn( $callback, "$node: Purging reader... Done" );
# Kernel, parm, and initrd are in /install/netboot/<os>/<arch>/<profile>
# Punch kernel to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $tmpKernelFile, "sles.kernel", "" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching kernel to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Punch parm to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $tmpParmFile, "sles.parm", "-t" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching parm to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
# Punch initrd to reader on HCP
$out = xCAT::zvmCPUtils->punch2Reader( $hcp, $userId, $tmpInitFile, "sles.initrd", "" );
xCAT::zvmUtils->printLn( $callback, "$node: Punching initrd to reader... $out" );
if ( $out =~ m/Failed/i ) {
return;
}
xCAT::zvmUtils->printLn( $callback, "$node: Kernel, parm, and initrd punched to reader. Ready for boot." );
}
else {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Option not supported" );
return;
}
return;
}
#-------------------------------------------------------
=head3 getMacs
Description : Get the MAC address of a given node
* Requires the node be online
* Saves MAC address in 'mac' table
Arguments : Node
Returns : Nothing
Example : getMacs($callback, $node, $args);
=cut
#-------------------------------------------------------
sub getMacs {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Get MAC address in 'mac' table
@propNames = ('mac');
$propVals = xCAT::zvmUtils->getNodeProps( 'mac', $node, @propNames );
my $mac;
if ( $propVals->{'mac'} ) {
# Get MAC address
$mac = $propVals->{'mac'};
xCAT::zvmUtils->printLn( $callback, "$node: $mac" );
return;
}
# If MAC address is not in the 'mac' table, get it using VMCP
xCAT::zvmCPUtils->loadVmcp($node);
# Get xCat MN Lan/VSwitch name
my $out = `vmcp q v nic | egrep -i "VSWITCH|LAN"`;
my @lines = split( '\n', $out );
my @words;
# Go through each line and extract VSwitch and Lan names
# and create search string
my $searchStr = "";
my $i;
for ( $i = 0 ; $i < @lines ; $i++ ) {
# Extract VSwitch name
if ( $lines[$i] =~ m/VSWITCH/i ) {
@words = split( ' ', $lines[$i] );
$searchStr = $searchStr . "$words[4]";
}
# Extract Lan name
elsif ( $lines[$i] =~ m/LAN/i ) {
@words = split( ' ', $lines[$i] );
$searchStr = $searchStr . "$words[4]";
}
if ( $i != ( @lines - 1 ) ) {
$searchStr = $searchStr . "|";
}
}
# Get MAC address of node
# This node should be on only 1 of the networks that the xCAT MN is on
$out = `ssh -o ConnectTimeout=5 $node "vmcp q v nic" | egrep -i "$searchStr"`;
if ( !$out ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Failed to find MAC address" );
return;
}
@lines = split( '\n', $out );
@words = split( ' ', $lines[0] );
$mac = $words[1];
# Replace - with :
$mac = xCAT::zvmUtils->replaceStr( $mac, "-", ":" );
xCAT::zvmUtils->printLn( $callback, "$node: $mac" );
# Save MAC address and network interface into 'mac' table
xCAT::zvmUtils->setNodeProp( 'mac', $node, 'mac', $mac );
return;
}
#-------------------------------------------------------
=head3 netBoot
Description : Boot from network
Arguments : Node
Address to IPL from
Returns : Nothing
Example : netBoot($callback, $node, $args);
=cut
#-------------------------------------------------------
sub netBoot {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Get IPL
my @ipl = split( '=', $args->[0] );
if ( !( $ipl[0] eq "ipl" ) ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing IPL" );
return;
}
# Boot node
my $out = `ssh $hcp "$::DIR/startvs $userId"`;
my $rc = xCAT::zvmUtils->checkOutput( $callback, $out );
if ( $rc == -1 ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Boot failed" );
return;
}
else {
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
# IPL when virtual server is online
sleep(5);
$out = xCAT::zvmCPUtils->sendCPCmd( $hcp, $userId, "IPL $ipl[1]" );
xCAT::zvmUtils->printLn( $callback, "$node: Booting from $ipl[1]... Done" );
return;
}
#-------------------------------------------------------
=head3 updateNode (No longer supported)
Description : Update node
Arguments : Node
Option
Options supported:
* release [updated version]
Returns : Nothing
Example : updateNode($callback, $node, $args);
=cut
#-------------------------------------------------------
sub updateNode {
# Get inputs
my ( $callback, $node, $args ) = @_;
# Get node properties from 'zvm' table
my @propNames = ( 'hcp', 'userid' );
my $propVals = xCAT::zvmUtils->getNodeProps( 'zvm', $node, @propNames );
# Get zHCP
my $hcp = $propVals->{'hcp'};
if ( !$hcp ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing node HCP" );
return;
}
# Get node user ID
my $userId = $propVals->{'userid'};
if ( !$userId ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing user ID" );
return;
}
# Capitalize user ID
$userId =~ tr/a-z/A-Z/;
# Get install directory
my $siteTab = xCAT::Table->new('site');
my $installDirHash = $siteTab->getAttribs( { key => "installdir" }, 'value' );
my $installDir = $installDirHash->{'value'};
# Get host IP and hostname from /etc/hosts
my $out = `cat /etc/hosts | grep $node`;
my @words = split( ' ', $out );
my $hostIP = $words[0];
my $hostname = $words[2];
if ( !$hostIP || !$hostname ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing IP for $node in /etc/hosts" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Verify that the node's IP address is specified in the hosts table and then run makehosts" );
return;
}
# Get first 3 octets of node IP (IPv4)
@words = split( /\./, $hostIP );
my $octets = "$words[0].$words[1].$words[2]";
# Get networks in 'networks' table
my $entries = xCAT::zvmUtils->getAllTabEntries('networks');
# Go through each network
my $network;
foreach (@$entries) {
# Get network
$network = $_->{'net'};
# If networks contains the first 3 octets of the node IP
if ( $network =~ m/$octets/i ) {
# Exit loop
last;
} else {
$network = "";
}
}
# If no network found
if ( !$network ) {
# Exit
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Node does not belong to any network in the networks table" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Specify the subnet in the networks table. The mask, gateway, tftpserver, and nameservers must be specified for the subnet." );
return;
}
# Get FTP server
@propNames = ('tftpserver');
$propVals = xCAT::zvmUtils->getTabPropsByKey( 'networks', 'net', $network, @propNames );
my $nfs = $propVals->{'tftpserver'};
if ( !$nfs ) {
# It is acceptable to not have a gateway
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing FTP server" );
xCAT::zvmUtils->printLn( $callback, "$node: (Solution) Specify the tftpserver for the subnet in the networks table" );
return;
}
# Update node operating system
if ( $args->[0] eq "--release" ) {
my $version = $args->[1];
if ( !$version ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Missing operating system release. Please specify one." );
return;
}
# Get node operating system
my $os = xCAT::zvmUtils->getOs($node);
# Check node OS is the same as the version OS given
# You do not want to update a SLES with a RHEL
if ( ( ( $os =~ m/SUSE/i ) && !( $version =~ m/sles/i ) ) || ( ( $os =~ m/Red Hat/i ) && !( $version =~ m/rhel/i ) ) ) {
xCAT::zvmUtils->printLn( $callback, "$node: (Error) Node operating system is different from the operating system given to upgrade to. Please correct." );
return;
}
# Generate FTP path to operating system image
my $path;
if ( $version =~ m/sles/i ) {
# The following only applies to SLES 10
# SLES 11 requires zypper
# SuSE Enterprise Linux path - ftp://10.0.0.1/sles10.3/s390x/1/
$path = "http://$nfs/install/$version/s390x/1/";
# Add installation source using rug
$out = `ssh $node "rug sa -t zypp $path $version"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
# Subscribe to catalog
$out = `ssh $node "rug sub $version"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
# Refresh services
$out = `ssh $node "rug ref"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
# Update
$out = `ssh $node "rug up -y"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
else {
# Red Hat Enterprise Linux path - ftp://10.0.0.1/rhel5.4/s390x/Server/
$path = "http://$nfs/install/$version/s390x/Server/";
# Check if file.repo already has this repository location
$out = `ssh $node "cat /etc/yum.repos.d/file.repo"`;
if ( $out =~ m/[$version]/i ) {
# Send over release key
my $key = "$installDir/$version/s390x/RPM-GPG-KEY-redhat-release";
my $tmp = "/tmp/RPM-GPG-KEY-redhat-release";
xCAT::zvmUtils->sendFile( $node, $key, $tmp );
# Import key
$out = `ssh $node "rpm --import /tmp/$key"`;
# Upgrade
$out = `ssh $node "yum upgrade -y"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
else {
# Create repository
$out = `ssh $node "echo [$version] >> /etc/yum.repos.d/file.repo"`;
$out = `ssh $node "echo baseurl=$path >> /etc/yum.repos.d/file.repo"`;
$out = `ssh $node "echo enabled=1 >> /etc/yum.repos.d/file.repo"`;
# Send over release key
my $key = "$installDir/$version/s390x/RPM-GPG-KEY-redhat-release";
my $tmp = "/tmp/RPM-GPG-KEY-redhat-release";
xCAT::zvmUtils->sendFile( $node, $key, $tmp );
# Import key
$out = `ssh $node "rpm --import $tmp"`;
# Upgrade
$out = `ssh $node "yum upgrade -y"`;
xCAT::zvmUtils->printLn( $callback, "$node: $out" );
}
}
}
# Otherwise, print out error
else {
$out = "$node: (Error) Option not supported";
}
xCAT::zvmUtils->printLn( $callback, "$out" );
return;
}
#-------------------------------------------------------
=head3 listTree
Description : Show the nodes hierarchy tree
Arguments : Node range (zHCP)
Returns : Nothing
Example : listHierarchy($callback, $nodes, $args);
=cut
#-------------------------------------------------------
sub listTree {
# Get inputs
my ( $callback, $nodes, $args ) = @_;
my @nodes = @$nodes;
my $option = '';
if ($args) {
@ARGV = @$args;
# Parse options
GetOptions( 'o' => \$option );
}
# In order for this command to work, issue under /opt/xcat/bin:
# ln -s /opt/xcat/bin/xcatclient lstree
my %tree;
my $node;
my $parent;
my $found;
# Create hierachy structure: CEC -> LPAR -> zVM -> VM
# Get table
my $tab = xCAT::Table->new( 'zvm', -create => 1, -autocommit => 0 );
# Get CEC entries
# There should be few of these nodes
my @entries = $tab->getAllAttribsWhere( "nodetype = 'cec'", 'node', 'parent' );
foreach (@entries) {
$node = $_->{'node'};
# Make CEC the tree root
$tree{$node} = {};
}
# Get LPAR entries
# There should be a couple of these nodes
@entries = $tab->getAllAttribsWhere( "nodetype = 'lpar'", 'node', 'parent' );
foreach (@entries) {
$node = $_->{'node'}; # LPAR
$parent = $_->{'parent'}; # CEC
# Add LPAR branch
$tree{$parent}{$node} = {};
}
# Get zVM entries
# There should be a couple of these nodes
$found = 0;
@entries = $tab->getAllAttribsWhere( "nodetype = 'zvm'", 'node', 'parent' );
foreach (@entries) {
$node = $_->{'node'}; # zVM
$parent = $_->{'parent'}; # LPAR
# Find CEC root based on LPAR
# CEC -> LPAR
$found = 0;
foreach my $cec(sort keys %tree) {
foreach my $lpar(sort keys %{$tree{$cec}}) {
if ($lpar eq $parent) {
# Add LPAR branch
$tree{$cec}{$parent}{$node} = {};
$found = 1;
last;
}
# Handle second level zVM
foreach my $vm(sort keys %{$tree{$cec}{$lpar}}) {
if ($vm eq $parent) {
# Add VM branch
$tree{$cec}{$lpar}{$parent}{$node} = {};
$found = 1;
last;
}
} # End of foreach zVM
} # End of foreach LPAR
# Exit loop if LPAR branch added
if ($found) {
last;
}
} # End of foreach CEC
}
# Get VM entries
# There should be many of these nodes
$found = 0;
@entries = $tab->getAllAttribsWhere( "nodetype = 'vm'", 'node', 'parent', 'userid' );
foreach (@entries) {
$node = $_->{'node'}; # VM
$parent = $_->{'parent'}; # zVM
# Skip node if it is not in noderange
if (!xCAT::zvmUtils->inArray($node, @nodes)) {
next;
}
# Find CEC/LPAR root based on zVM
# CEC -> LPAR -> zVM
$found = 0;
foreach my $cec(sort keys %tree) {
foreach my $lpar(sort keys %{$tree{$cec}}) {
foreach my $zvm(sort keys %{$tree{$cec}{$lpar}}) {
if ($zvm eq $parent) {
# Add zVM branch
$tree{$cec}{$lpar}{$parent}{$node} = $_->{'userid'};
$found = 1;
last;
}
# Handle second level zVM
foreach my $vm(sort keys %{$tree{$cec}{$lpar}{$zvm}}) {
if ($vm eq $parent) {
# Add VM branch
$tree{$cec}{$lpar}{$zvm}{$parent}{$node} = $_->{'userid'};
$found = 1;
last;
}
} # End of foreach VM
} # End of foreach zVM
# Exit loop if zVM branch added
if ($found) {
last;
}
} # End of foreach LPAR
# Exit loop if zVM branch added
if ($found) {
last;
}
} # End of foreach CEC
} # End of foreach VM node
# Print tree
# Loop through CECs
foreach my $cec(sort keys %tree) {
xCAT::zvmUtils->printLn( $callback, "CEC: $cec" );
# Loop through LPARs
foreach my $lpar(sort keys %{$tree{$cec}}) {
xCAT::zvmUtils->printLn( $callback, "|__LPAR: $lpar" );
# Loop through zVMs
foreach my $zvm(sort keys %{$tree{$cec}{$lpar}}) {
xCAT::zvmUtils->printLn( $callback, " |__zVM: $zvm" );
# Loop through VMs
foreach my $vm(sort keys %{$tree{$cec}{$lpar}{$zvm}}) {
# Handle second level zVM
if (ref($tree{$cec}{$lpar}{$zvm}{$vm}) eq 'HASH') {
xCAT::zvmUtils->printLn( $callback, " |__zVM: $vm" );
foreach my $vm2(sort keys %{$tree{$cec}{$lpar}{$zvm}{$vm}}) {
xCAT::zvmUtils->printLn( $callback, " |__VM: $vm2 ($tree{$cec}{$lpar}{$zvm}{$vm}{$vm2})" );
}
} else {
xCAT::zvmUtils->printLn( $callback, " |__VM: $vm ($tree{$cec}{$lpar}{$zvm}{$vm})" );
}
} # End of foreach VM
} # End of foreach zVM
} # End of foreach LPAR
} # End of foreach CEC
return;
}