xcat-core/perl-xCAT/xCAT/VMCommon.pm

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package xCAT::VMCommon;
use Socket;
use strict;
#Functions common to virtualization management (KVM, Xen, VMware)
sub grab_table_data{ #grab table data relevent to VM guest nodes
my $noderange=shift;
my $cfghash = shift;
my $callback=shift;
my $vmtab = xCAT::Table->new("vm");
my $vpdtab = xCAT::Table->new("vpd");
my $hmtab = xCAT::Table->new("nodehm");
my $nttab = xCAT::Table->new("nodetype");
my $sitetab = xCAT::Table->new("site");
$cfghash->{site}->{genmacprefix} = xCAT::Utils->get_site_attribute('genmacprefix');
if ($hmtab) {
$cfghash->{nodehm} = $hmtab->getNodesAttribs($noderange,['serialspeed']);
}
if ($nttab) {
$cfghash->{nodetype} = $nttab->getNodesAttribs($noderange,['os','arch','profile']); #allow us to guess RTC config
#also needed for vmware guestid and also data for vmmaster
}
unless ($vmtab) {
$callback->({data=>["Cannot open vm table"]});
return;
}
if ($vpdtab) {
$cfghash->{vpd} = $vpdtab->getNodesAttribs($noderange,['uuid']);
}
$cfghash->{vm} = $vmtab->getNodesAttribs($noderange,['node','host','migrationdest','cfgstore','storage','storagemodel','memory','cpus','nics','nicmodel','bootorder','virtflags','datacenter','master']);
my $mactab = xCAT::Table->new("mac",-create=>1);
my $nrtab= xCAT::Table->new("noderes",-create=>1);
$cfghash->{mac} = $mactab->getAllNodeAttribs(['mac'],1);
my $macs;
my $mac;
foreach (keys %{$cfghash->{mac}}) {
$macs=$cfghash->{mac}->{$_}->[0]->{mac};
foreach $mac (split /\|/,$macs) {
$mac =~ s/\!.*//;
if ($cfghash->{usedmacs}->{lc($mac)}) {
$cfghash->{usedmacs}->{lc($mac)} += 1;
} else {
$cfghash->{usedmacs}->{lc($mac)}=1;
}
}
}
}
sub macsAreUnique { #internal function, do not call, argument format may change without warning
#Take a list of macs, ensure that in the table view, they are unique.
#this should be performed after the macs have been committed to
#db
my $cfghash = shift;
my @macs = @_;
my $mactab = xCAT::Table->new("mac",-create=>0);
unless ($mactab) {
return 1;
}
$cfghash->{mac} = $mactab->getAllNodeAttribs(['mac'],1);
$cfghash->{usedmacs} = {};
my $macs;
my $mac;
foreach (keys %{$cfghash->{mac}}) {
$macs=$cfghash->{mac}->{$_}->[0]->{mac};
foreach $mac (split /\|/,$macs) {
$mac =~ s/\!.*//;
if ($cfghash->{usedmacs}->{lc($mac)}) {
$cfghash->{usedmacs}->{lc($mac)} += 1;
} else {
$cfghash->{usedmacs}->{lc($mac)}=1;
}
}
}
foreach $mac (@macs) {
if ($cfghash->{usedmacs}->{lc($mac)} > 1) {
return 0;
}
}
return 1;
}
sub requestMacAddresses {
#This function combs through the list of nodes to assure every vm.nic declared nic has a mac address
my $tablecfg = shift;
my $neededmacs = shift;
my $mactab = xCAT::Table->new("mac",-create=>1);
my $node;
my @allmacs;
my $complete = 0;
my $updatesneeded;
srand(); #Re-seed the rng. This will make the mac address generation less deterministic
while (not $complete and scalar @$neededmacs) {
foreach $node (@$neededmacs) {
my $nicdata = $tablecfg->{vm}->{$node}->[0]->{nics};
unless ($nicdata) { $nicdata = "" }
my @nicsneeded = split /,/,$nicdata;
my $count = scalar(@nicsneeded);
my $macdata = $tablecfg->{mac}->{$node}->[0]->{mac};
unless ($macdata) { $macdata ="" }
my @macs;
my $macaddr;
foreach $macaddr (split /\|/,$macdata) {
$macaddr =~ s/\!.*//;
push @macs,lc($macaddr);
}
$count-=scalar(@macs);
if ($count > 0) {
$updatesneeded->{$node}->{mac}=1;
}
while ($count > 0) { #still need more, autogen
$macaddr = "";
while (not $macaddr) {
$macaddr = lc(genMac($node,$tablecfg->{site}->{genmacprefix}));
push @allmacs,$macaddr;
if ($tablecfg->{usedmacs}->{$macaddr}) {
$macaddr = "";
}
}
$count--;
$tablecfg->{usedmacs}->{$macaddr} = 1;
if (not $macdata) {
$macdata = $macaddr;
} else {
$macdata .= "|".$macaddr."*NOIP*";
}
push @macs,$macaddr;
}
if (defined $updatesneeded->{$node}) {
$updatesneeded->{$node}->{mac}=$macdata;
$tablecfg->{dhcpneeded}->{$node}=1; #at our leisure, this dhcp binding should be updated
}
#TODO: LOCK if a distributed lock management structure goes in place, that may be a faster solution than this
#this code should be safe though as it is, if a tiny bit slower
#can also be sped up by doing it for a noderange in a sweep instead of once per node
#but the current architecture has this called at a place that is unaware of the larger context
#TODO2.4 would be either the lock management or changing this to make large scale mkvm faster
}
if (defined $updatesneeded) {
my $mactab = xCAT::Table->new('mac',-create=>1);
$mactab->setNodesAttribs($updatesneeded);
if(macsAreUnique($tablecfg,@allmacs)) {
$complete=1;
} else { #Throw away ALL macs and try again
#this currently includes manually specified ones
foreach $node (keys %$updatesneeded) {
$tablecfg->{mac}->{$node}->[0]->{mac}="";
}
$tablecfg->{usedmacs} = {};
}
}
}
# $cfghash->{usedmacs}-{lc{$mac}};
}
sub getMacAddresses {
my $tablecfg = shift;
my $node = shift;
my $count = shift;
my $mactab = xCAT::Table->new("mac",-create=>1);
my $macdata = $tablecfg->{mac}->{$node}->[0]->{mac};
unless ($macdata) { $macdata ="" }
my @macs;
my $macaddr;
foreach $macaddr (split /\|/,$macdata) {
$macaddr =~ s/\!.*//;
push @macs,lc($macaddr);
}
$count-=scalar(@macs);
my $updatesneeded=0;
if ($count > 0) {
$updatesneeded = 1;
}
srand(); #Re-seed the rng. This will make the mac address generation less deterministic
while ($count > 0) {
while ($count > 0) { #still need more, autogen
$macaddr = "";
while (not $macaddr) {
$macaddr = lc(genMac($node,$tablecfg->{site}->{genmacprefix}));
if ($tablecfg->{usedmacs}->{$macaddr}) {
$macaddr = "";
}
}
$count--;
$tablecfg->{usedmacs}->{$macaddr} = 1;
if (not $macdata) {
$macdata = $macaddr;
} else {
$macdata .= "|".$macaddr."*NOIP*";
}
push @macs,$macaddr;
}
if ($updatesneeded) {
my $mactab = xCAT::Table->new('mac',-create=>1);
$mactab->setNodeAttribs($node,{mac=>$macdata});
$tablecfg->{dhcpneeded}->{$node}=1; #at our leisure, this dhcp binding should be updated
}
#TODO: LOCK if a distributed lock management structure goes in place, that may be a faster solution than this
#this code should be safe though as it is, if a tiny bit slower
#can also be sped up by doing it for a noderange in a sweep instead of once per node
#but the current architecture has this called at a place that is unaware of the larger context
#TODO2.4 would be either the lock management or changing this to make large scale mkvm faster
unless (macsAreUnique($tablecfg,@macs)) { #Throw away ALL macs and try again
#this currently includes manually specified ones
$count += scalar(@macs);
@macs = ();
$macdata="";
}
}
return @macs;
# $cfghash->{usedmacs}-{lc{$mac}};
}
sub genMac { #Generates a mac address for a node, does NOT assure uniqueness, calling code needs to do that
my $node=shift;
my $prefix = shift;
if ($prefix) { #Specific prefix requested, honor it
my $tail = int(rand(0xffffff)); #With only 24 bits of space, use random bits;
if ($prefix eq '00:50:56') { #vmware reserves certain addresses in their scheme if this prefix used
$tail = $tail&0x3fffff; #mask out the two bits in question
}
$tail = sprintf("%06x",$tail);
$tail =~ s/(..)(..)(..)/:$1:$2:$3/;
return $prefix.$tail;
}
#my $allbutmult = 0xfeff; # to & with a number to ensure multicast bit is *not* set
#my $locallyadministered = 0x200; # to | with the 16 MSBs to indicate a local mac
#my $leading = int(rand(0xffff));
#$leading = $leading & $allbutmult;
#$leading = $leading | $locallyadministered;
#for the header, we used to use all 14 possible bits, however, if a guest mac starts with 0xfe then libvirt will construct a bridge that looks identical
#First thought was to go to 13 bits, but by fixing our generated mac addresses to always start with the same byte and still be unique
#this induces libvirt to do unique TAP mac addresses
my $leading = int(rand(0xff));
$leading = $leading | 0x4200;
#If this nodename is a resolvable name, we'll use that for the other 32 bits
my $low32;
my $n;
if ($n = inet_aton($node)) {
$low32= unpack("N",$n);
}
unless ($low32) { #If that failed, just do 32 psuedo-random bits
$low32 = int(rand(0xffffffff));
}
my $mac;
$mac = sprintf("%04x%08x",$leading,$low32);
$mac =~s/(..)(..)(..)(..)(..)(..)/$1:$2:$3:$4:$5:$6/;
return $mac;
}
1;