libvtop_stable.pm.in 290 KB
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#!/usr/bin/perl -w
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#
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# Copyright (c) 2005-2013 University of Utah and the Flux Group.
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# 
# {{{EMULAB-LICENSE
# 
# This file is part of the Emulab network testbed software.
# 
# This file is free software: you can redistribute it and/or modify it
# under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or (at
# your option) any later version.
# 
# This file is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Affero General Public
# License for more details.
# 
# You should have received a copy of the GNU Affero General Public License
# along with this file.  If not, see <http://www.gnu.org/licenses/>.
# 
# }}}
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#
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package libvtop_stable;
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use strict;
use Exporter;
use vars qw(@ISA @EXPORT @EXPORT_OK
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	    $VTOP_FLAGS_UPDATE $VTOP_FLAGS_VERBOSE $VTOP_FLAGS_QUIET
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	    $VTOP_FLAGS_FIXNODES $VTOP_FLAGS_IMPOTENT $VTOP_FLAGS_ALLOCONLY
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	    $VTOP_FLAGS_REGRESSION $VTOP_FLAGS_FIXLANNODES
	    $VTOP_FLAGS_PREASSIGN);

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@ISA    = "Exporter";
@EXPORT = qw( );

use libdb;
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use libtblog_simple;
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use libtestbed;
use Experiment;
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use EmulabConstants;
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use VirtExperiment;
use Node;
use NodeType;
use Lan;
use OSinfo;
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use Blockstore;
use Image;
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use Port;
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use English;
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use emutil qw(SpanningTree GenFakeMac);
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use Data::Dumper;
use Carp;
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use POSIX;
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use XML::LibXML;
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use XML::Simple;
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# Configure variables
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my $TB		  = "@prefix@";
my $BOSSNODE      = "@BOSSNODE@";
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my $AVAIL         = "$TB/bin/avail";
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my $NALLOC        = "$TB/bin/nalloc";
my $NFREE         = "$TB/bin/nfree";
my $OS_SELECT     = "$TB/bin/os_select";
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my $DELAYCAPACITY = @DELAYCAPACITY@;	# Can be overridden by user.
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my $DELAYTHRESH   = @DELAYTHRESH@;
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my $PGENISUPPORT  = @PROTOGENI_SUPPORT@;
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my $PGENIRACK     = @PROTOGENI_GENIRACK@;
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my $OURDOMAIN     = "@OURDOMAIN@";
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my $MAINSITE      = @TBMAINSITE@;
my $mycmurn       = "";
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if ($PGENISUPPORT) {
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  require GeniHRN;
  $mycmurn = GeniHRN::Generate("@OURDOMAIN@", "authority", "cm");  
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}
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# Flags.
$VTOP_FLAGS_VERBOSE	= 0x01;
$VTOP_FLAGS_UPDATE	= 0x02;
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$VTOP_FLAGS_FIXNODES	= 0x04;
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$VTOP_FLAGS_IMPOTENT	= 0x08;
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$VTOP_FLAGS_REGRESSION  = 0x10;
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$VTOP_FLAGS_QUIET       = 0x20;
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$VTOP_FLAGS_ALLOCONLY	= 0x40;
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$VTOP_FLAGS_FIXLANNODES	= 0x80;
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$VTOP_FLAGS_PREASSIGN	= 0x100;
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@EXPORT_OK = qw($VTOP_FLAGS_UPDATE $VTOP_FLAGS_VERBOSE $VTOP_FLAGS_FIXNODES
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		$VTOP_FLAGS_IMPOTENT $VTOP_FLAGS_REGRESSION $VTOP_FLAGS_QUIET
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		$VTOP_FLAGS_ALLOCONLY $VTOP_FLAGS_FIXLANNODES
		$VTOP_FLAGS_PREASSIGN);
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#
# Create an object representing the stuff we need to create the vtop file.
#
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sub Create($$$$)
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{
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    my ($class, $experiment, $user, $flags) = @_;
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    my $virtexperiment = VirtExperiment->Lookup($experiment);
    if (!defined($virtexperiment)) {
	tberror("Could not load virtual experiment object for $experiment\n");
	return undef;
    }

    my $self              = {};
    $self->{'EXPERIMENT'} = $experiment;
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    $self->{'USER'}       = $user;
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    $self->{'VIRTEXPT'}   = $virtexperiment;
    $self->{'FLAGS'}      = $flags;
    $self->{'VNODES'}     = {};
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    $self->{'DELAYNODES'} = {};
    $self->{'LANNODES'}   = {};
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    $self->{'BRIDGES'}    = {};
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    $self->{'BLOCKSTORES'}= {};
    $self->{'SANHOSTS'}   = {};
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    $self->{'VLANS'}      = {};
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    $self->{'VPATHS'}     = {};
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    $self->{'MEMBEROF'}   = {};
    $self->{'COUNTERS'}   = {};
    $self->{'EXPTSTATS'}  = {};
    $self->{'DELAYLINKS'} = {};
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    $self->{'VLINKS'}     = {};
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    $self->{'OPTIONS'}    = {};
    $self->{'DELAYID'}    = 0;
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    $self->{'PHOSTID'}    = 0;
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    $self->{'IFACEID'}    = 32768;
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    $self->{'PORTBW'}     = {};
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    $self->{'RESULTS'}    = { "nodes"  => [],
			      "links"  => [],
			      "class"  => [],
			      "fixed"  => [] };
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    $self->{'RSPEC'}      = {};
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    $self->{'GENIRSPEC'}  = undef;
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    # Mostly for update mode.
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    $self->{'FIXEDNODES'}  = {};
    $self->{'CURRENT_V2P'} = {};
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    $self->{'CURRENT_V2P'} = {};
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    $self->{'CURRENT_P2V'} = {};
    $self->{'CURRENT_V2V'} = {};
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    $self->{'OLDRSRVCLEAN_FLAG'}  = 0;
    $self->{'OLDRSRVCLEAN_NODES'} = {};
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    # This is just for lannodes.
    $self->{'CURRENT_V2PMAP'} = {};

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    # Below is for interpretation of assign results.
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    $self->{'PNODES'}      = {};
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    $self->{'SOLUTION'}    = {};
    $self->{'NEWRESERVED'} = {};	# Newly reserved nodes.
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    $self->{'NORECOVER'}   = 0;	
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    bless($self, $class);
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    $virtexperiment->Dump()
	if (0 && $self->verbose());
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    return $self;
}
# accessors
sub experiment($)       { return $_[0]->{'EXPERIMENT'}; }
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sub user($)             { return $_[0]->{'USER'}; }
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sub virtexperiment($)   { return $_[0]->{'VIRTEXPT'}; }
sub flags($)            { return $_[0]->{'FLAGS'}; }
sub vnodes($)           { return $_[0]->{'VNODES'}; }
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sub delaynodes($)       { return $_[0]->{'DELAYNODES'}; }
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sub bridges($)          { return $_[0]->{'BRIDGES'}; }
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sub blockstores($)      { return $_[0]->{'BLOCKSTORES'}; }
sub sanhosts($)         { return $_[0]->{'SANHOSTS'}; }
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sub lannodes($)         { return $_[0]->{'LANNODES'}; }
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sub vlans($)            { return $_[0]->{'VLANS'}; }
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sub memberof($)         { return $_[0]->{'MEMBEROF'}; }
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sub vpaths($)           { return $_[0]->{'VPATHS'}; }
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sub counters($)         { return $_[0]->{'COUNTERS'}; }
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sub counter($$)         { return $_[0]->{'COUNTERS'}->{$_[1]}; }
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sub options($)          { return $_[0]->{'OPTIONS'}; }
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sub option($$)          { return (exists($_[0]->{'OPTIONS'}->{$_[1]}) ?
				  $_[0]->{'OPTIONS'}->{$_[1]} : undef); }
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sub exptstats($)        { return $_[0]->{'EXPTSTATS'}; }
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sub vlinks($)           { return $_[0]->{'VLINKS'}; }
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sub delaylinks($)       { return $_[0]->{'DELAYLINKS'}; }
sub delaynodecount()    { return scalar(keys(%{ $_[0]->delaynodes() })); }
sub portbw($)           { return $_[0]->{'PORTBW'}; }
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sub results($)          { return $_[0]->{'RESULTS'}; }
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sub current_v2p($)      { return $_[0]->{'CURRENT_V2P'}; }
sub current_p2v($)      { return $_[0]->{'CURRENT_P2V'}; }
sub current_v2v($)      { return $_[0]->{'CURRENT_V2V'}; }
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sub current_v2pmap($)   { return $_[0]->{'CURRENT_V2PMAP'}; }
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sub pnodes($)           { return $_[0]->{'PNODES'}; }
sub fixednodes($)       { return $_[0]->{'FIXEDNODES'}; }
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sub newreserved($)      { return $_[0]->{'NEWRESERVED'}; }
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sub rspec($)            { return $_[0]->{'RSPEC'}; }
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sub genirspec($)        { return $_[0]->{'GENIRSPEC'}; }
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sub newreservednodes($) { return keys(%{ $_[0]->{'NEWRESERVED'} }); }
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sub oldreservednodes($) { return $_[0]->{'OLDRSRVCLEAN_NODES'}; }
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sub norecover($)        { return $_[0]->{'norecover'}; }
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sub pid($)		{ return $_[0]->experiment()->pid(); }
sub pid_idx($)		{ return $_[0]->experiment()->pid_idx(); }
sub eid($)		{ return $_[0]->experiment()->eid(); }
sub exptidx($)		{ return $_[0]->experiment()->idx(); }

# The virtual tables from the DB.
sub virt_table($$)      { return $_[0]->virtexperiment()->Table($_[1]); }
sub virt_vtypes($)	{ return $_[0]->virt_table("virt_vtypes"); }
sub virt_nodes($)       { return $_[0]->virt_table("virt_nodes"); }
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sub virt_lans($)        { return $_[0]->virt_table("virt_lans"); }
sub virt_lan_lans($)    { return $_[0]->virt_table("virt_lan_lans"); }
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sub virt_paths($)       { return $_[0]->virt_table("virt_paths"); }
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sub virt_bridges($)     { return $_[0]->virt_table("virt_bridges"); }
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sub virt_desires($)	{ return $_[0]->virt_table("virt_node_desires"); }
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sub virt_attributes($)	{ return $_[0]->virt_table("virt_node_attributes"); }
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sub virt_startloc($)	{ return $_[0]->virt_table("virt_node_startloc"); }
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sub virt_trafgens($)	{ return $_[0]->virt_table("virt_trafgens"); }
sub virt_lan_settings($){ return $_[0]->virt_table("virt_lan_settings"); }
sub virt_lan_member_settings($)	{
    return $_[0]->virt_table("virt_lan_member_settings"); }
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sub virt_blockstores($) { return $_[0]->virt_table("virt_blockstores"); }
sub virt_blockstore_attributes($) {
    return $_[0]->virt_table("virt_blockstore_attributes"); }
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# Given a vname, is it a node in the topo (or something else like a delay).
sub isatoponode($$)     { return exists($_[0]->vnodes()->{$_[1]}); }
sub isadelaynode($$)    { return exists($_[0]->delaynodes()->{$_[1]}); }
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sub isasanhost($$)      { return exists($_[0]->sanhosts()->{$_[1]}); }
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# Debug output.
sub verbose($)		{ return $_[0]->flags() & $VTOP_FLAGS_VERBOSE; }
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sub quiet($)		{ return $_[0]->flags() & $VTOP_FLAGS_QUIET; }
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sub updating($)		{ return $_[0]->flags() & $VTOP_FLAGS_UPDATE; }
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sub fixcurrent($)	{ return $_[0]->flags() & $VTOP_FLAGS_FIXNODES; }
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sub fixlanodes($)	{ return $_[0]->flags() & $VTOP_FLAGS_FIXLANNODES; }
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sub impotent($)		{ return $_[0]->flags() & $VTOP_FLAGS_IMPOTENT; }
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sub alloconly($)	{ return $_[0]->flags() & $VTOP_FLAGS_ALLOCONLY; }
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sub regression($)	{ return $_[0]->flags() & $VTOP_FLAGS_REGRESSION; }
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sub preassign($)	{ return $_[0]->flags() & $VTOP_FLAGS_PREASSIGN; }
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sub printdb($$)		{ print $_[1] if ($_[0]->verbose()); return 1; }
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# We name delay nodes internally as they are needed.
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sub nextdelayname($)    { return "tbdelay" . $_[0]->{'DELAYID'}++; }
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# For when the user wants a specific delay os. Use a desire.
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# sub delay_desire($)	{ return $_[0]->option("delay_desire_string"); }
sub delay_desire_type($)	{ return $_[0]->option("delay_desire_type"); }
sub delay_desire_name($)	{ return $_[0]->option("delay_desire_name"); }
sub delay_desire_penalty($)	{ return $_[0]->option("delay_desire_penalty"); }
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# For XML
sub nextifacenumber($)  { return $_[0]->{'IFACEID'}++; }
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sub nextphostnumber($)  { return $_[0]->{'PHOSTID'}++; }
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# Virtual Types. 
sub virttypeisvtype($$) { return $_[0]->virt_vtypes()->Find($_[1]); }
sub VirtTypes($)        { return $_[0]->virt_vtypes()->Rows(); }

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# Caller will want these.
sub minimum_nodes($)    { return $_[0]->counter("minimum_nodes"); }
sub maximum_nodes($)    { return $_[0]->counter("maximum_nodes"); }
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sub nodecount($)	{ return $_[0]->counter("nodecount"); }
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sub plabcount($)	{ return $_[0]->counter("plabcount"); }
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sub genicount($)	{ return $_[0]->counter("genicount"); }
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sub virtnodecount($)	{ return $_[0]->counter("virtcount"); }
sub simnodecount($)	{ return $_[0]->counter("simcount"); }
sub remotenodecount($)	{ return $_[0]->counter("remotecount"); }
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sub sharednodecount($)	{ return $_[0]->counter("sharedcount"); }
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sub bstorecount($)	{ return $_[0]->counter("bstorecount"); }
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sub createLink($$$$$$$$$)
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{
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    # $others here will be a hashtable for the link flags.  The table
    # could also contain non-default values for latency and
    # packet_loss
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    my ($self, $name, $plink, $cm, $src, $dst, $bw, $type, $others) = @_;
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    my $ref = {
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	'virtual_id'     => $name,
	'plink'		 => $plink,
	'manager_urn'    => $cm,
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	'link_type'      => $type,
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	'interface_ref'  => [$src, $dst],
	'capacity'       => $bw,
	'packet_loss'    => "0",
	'latency'        => "0"
    };
    
    if ($others) {
	while ( my ($key, $value) = each %{$others} ) {
	    $ref->{$key} = $value;
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	}
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    }
    if (!exists($self->rspec()->{'link'})) {
	$self->rspec()->{'link'} = [];
    }
    push(@{ $self->rspec()->{'link'} }, $ref);
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}

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sub createNode ($$$$$$$;$)
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{
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    # $others here will be a hashtable for the desires
    # The key will be the desire name and the value will be a pair
    # of the desire type and the penalty
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    my ($self, $name, $cm, $type, $typecount, $desires, $others, $ifaces) = @_;
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    my $ref = {
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	'virtual_id'    => $name,
	'manager_urn'   => $cm,
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    };
    
    my $typename = $type;
    my $typeslots = $typecount;
    my $isstatic = 0;
    if ($typename =~ /^\*([-\w]*)$/) {
	$typename = $1;
	$isstatic = 1;
    }
    if ($typecount eq '*') {
	$typeslots = 'unlimited';
    }
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    # We will need this to generate interface names later
    $ref->{'interface_count'} = 0;
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    $ref->{'interfaces'} = $ifaces;
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    $ref->{'node_type'} = $typename;
    $ref->{'type_slots'} = $typecount;
    $ref->{'node_static'} = $isstatic;

    my $desiretable = {};
    if ($desires) {
	while ( my ($key, $value) = each %{$desires} ) {
	    $desiretable->{$key} = $value;
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	}
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    }
    $ref->{'desires'} = $desiretable;
    
    if ($others) {
	while ( my ($key, $value) = each %{$others} ) {
	    $ref->{$key} = $value;
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	}
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    }
    
    if (!exists($self->rspec()->{'node'})) {
	$self->rspec()->{'node'} = [];
    }
    push(@{ $self->rspec()->{'node'} }, $ref);
}

sub createVClass ($$$$)
{
    my ($self, $name, $weight, $members) = @_;
    my $ref = {
	'name'    => $name,
	'weight'  => $weight,
	'members' => $members
    };
    if (!exists($self->rspec()->{'vclass'})) {
	$self->rspec()->{'vclass'} = [];
    }
    push(@{ $self->rspec()->{'vclass'} }, $ref);
}

sub createFixedNode ($$$)
{
    my ($self, $vnode, $pnode) = @_;
    my $ref = { 'vnode' => $vnode,
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		# XXX Going to need a URN in rspec output ...
		'pnode' => $pnode,
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    };
    if (!exists($self->rspec()->{'fixed'})) {
	$self->rspec()->{'fixed'} = [];
    }
    push(@{ $self->rspec()->{'fixed'} }, $ref);
}

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###############################################################################
# Virtual Nodes. A separate package so we can create objects for each one
# and then add local stuff to them.
#
package libvtop::virt_node;
use Carp;
use vars qw($AUTOLOAD);
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use overload ('""' => 'Stringify');
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# To avoid wrtting out all the methods.
sub AUTOLOAD {
    my $self = shift;
    my $type = ref($self) or croak "$self is not an object";

    my $name = $AUTOLOAD;
    $name =~ s/.*://;   # strip fully-qualified portion

    if (@_) {
	return $self->{'HASH'}->{$name} = shift;
    }
    elsif (exists($self->{'HASH'}->{$name})) {
	return $self->{'HASH'}->{$name};
    }
    else {
	return $self->virt_node()->$name();
    }
}

#
# Wrap up a virt node.
#
sub Create($$$)
{
    my ($class, $vtop, $virt_node) = @_;

    my $self = {};
    bless($self, $class);

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    $self->{'VIRTNODE'}   = $virt_node;
    $self->{'VTOP'}       = $vtop;
    $self->{'HASH'}       = {};
    # The virtlans this virtnode is a member of. 
    $self->{'MEMBERSHIP'} = {};
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    return $self;
}
# accessors
sub virt_node($)	{ return $_[0]->{'VIRTNODE'}; }
sub vtop($)		{ return $_[0]->{'VTOP'}; }
sub hash($)		{ return $_[0]->{'HASH'}; }
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sub membership($)       { return $_[0]->{'MEMBERSHIP'}; }
sub memberlist($)       { return values(%{ $_[0]->{'MEMBERSHIP'} }); }
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# Break circular reference someplace to avoid exit errors.
sub DESTROY {
    my $self = shift;

    $self->{'VIRTNODE'}   = undef;
    $self->{'VTOP'}       = undef;
    $self->{'HASH'}       = undef;
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    $self->{'MEMBERSHIP'} = undef;
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}

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sub Stringify($)
{
    my ($self) = @_;
    my $vname  = $self->vname();

    return "[vnode:$vname]";
}

###############################################################################
# Virtual Lans. This wraps up the virt_lan_lan table, and allows storing
# the members (virt_lans table entries).
#
package libvtop::virt_lan;
use Carp;
use vars qw($AUTOLOAD);
use overload ('""' => 'Stringify');

# To avoid wrtting out all the methods.
sub AUTOLOAD {
    my $self = shift;
    my $type = ref($self) or croak "$self is not an object";

    my $name = $AUTOLOAD;
    $name =~ s/.*://;   # strip fully-qualified portion

    if (@_) {
	return $self->{'HASH'}->{$name} = shift;
    }
    elsif (exists($self->{'HASH'}->{$name})) {
	return $self->{'HASH'}->{$name};
    }
    else {
	return $self->virt_lanlan()->$name();
    }
}

#
# Wrap up a virt lan.
#
sub Create($$$$)
{
    my ($class, $vtop, $virt_lanlan) = @_;

    my $self = {};
    bless($self, $class);

    $self->{'VIRTLANLAN'}    = $virt_lanlan;
    $self->{'VTOP'}          = $vtop;
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    $self->{'MEMBERHASH'}    = {};
    $self->{'MEMBERLIST'}    = [];
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    $self->{'SHAPEDMEMBERS'} = {};
    $self->{'HASH'}          = {};

    return $self;
}
# accessors
sub virt_lanlan($)	{ return $_[0]->{'VIRTLANLAN'}; }
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sub members($)		{ return $_[0]->{'MEMBERHASH'}; }
sub memberlist($)       { return @{ $_[0]->{'MEMBERLIST'} }; }
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sub member($$)          { return @{ $_[0]->{'MEMBERLIST'} }[$_[1]]; }
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sub shapedmembers($)	{ return $_[0]->{'SHAPEDMEMBERS'}; }
sub vtop($)		{ return $_[0]->{'VTOP'}; }
sub hash($)		{ return $_[0]->{'HASH'}; }
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sub islink($)           { return (@{ $_[0]->{'MEMBERLIST'} } == 2 ? 1 : 0); }
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# Break circular reference someplace to avoid exit errors.
sub DESTROY {
    my $self = shift;

    $self->{'VIRTLANLAN'} = undef;
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    $self->{'MEMBERHASH'} = undef;
    $self->{'MEMBERLIST'} = undef;
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    $self->{'VTOP'}       = undef;
    $self->{'HASH'}       = undef;
}

sub Stringify($)
{
    my ($self) = @_;
    my $vname  = $self->vname();

    return "[vlan:$vname]";
}

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sub addmember($$)
{
    my ($self, $vlanmember) = @_;
    
    $self->members()->{$vlanmember->member()} = $vlanmember;
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    @{ $self->{'MEMBERLIST'} }[$vlanmember->vindex()] = $vlanmember;
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    return 0;
}

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#
# Other support functions.
#
sub usevirtiface($)
{
    my ($self) = @_;
    my $encap  = $self->_encapstyle();

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    return ($encap eq "veth-ne" || $encap eq "vlan");
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}
sub membershaped($$) {
    my ($self, $member) = @_;
    return $self->shapedmembers()->{"$member"};
}
sub setmembershaped($$) {
    my ($self, $member) = @_;
    $self->shapedmembers()->{"$member"} = 1;
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    $member->_shaped(1);
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}

###############################################################################
# Virtual Lans Member. A separate package so we can create objects for
# each one and then add local stuff to them.
#
package libvtop::virt_lan_member;
use Carp;
use vars qw($AUTOLOAD);
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use overload ('""' => 'Stringify', 'eq' => 'StringEQ');
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# To avoid wrtting out all the methods.
sub AUTOLOAD {
    my $self = shift;
    my $type = ref($self) or croak "$self is not an object";

    my $name = $AUTOLOAD;
    $name =~ s/.*://;   # strip fully-qualified portion

    if (@_) {
	return $self->{'HASH'}->{$name} = shift;
    }
    elsif (exists($self->{'HASH'}->{$name})) {
	return $self->{'HASH'}->{$name};
    }
    else {
	return $self->virt_member()->$name();
    }
}

#
# Wrap up a virt lan member.
#
sub Create($$$$)
{
    my ($class, $vtop, $virt_member, $virt_lan) = @_;

    my $self = {};
    bless($self, $class);

    $self->{'VIRTMEMBER'} = $virt_member;
    $self->{'VIRTLAN'}    = $virt_lan;
    $self->{'VIRTNODE'}   = $vtop->vnodes()->{$virt_member->vnode()};
    $self->{'VTOP'}       = $vtop;
    $self->{'HASH'}       = {};

    return $self;
}
# accessors
sub virt_member($)	{ return $_[0]->{'VIRTMEMBER'}; }
sub virt_lan($)		{ return $_[0]->{'VIRTLAN'}; }
sub virt_node($)	{ return $_[0]->{'VIRTNODE'}; }
sub vtop($)		{ return $_[0]->{'VTOP'}; }
sub hash($)		{ return $_[0]->{'HASH'}; }

# Break circular reference someplace to avoid exit errors.
sub DESTROY {
    my $self = shift;

    $self->{'VIRTLAN'}    = undef;
    $self->{'VIRTNODE'}   = undef;
    $self->{'VIRTMEMBER'} = undef;
    $self->{'VTOP'}       = undef;
    $self->{'HASH'}       = undef;
}

sub Stringify($)
{
    my ($self) = @_;
    my $vnode  = $self->vnode();
    my $vport  = $self->vport();

    return "$vnode:$vport";
}

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sub StringEQ($$)
{
    my ($self, $other) = @_;

    return ($self->Stringify() eq "$other" ? 1 : 0);
}

sub usevirtiface($)
{
    my ($self) = @_;
    my $encap  = $self->_encapstyle();

    return ($encap eq "veth-ne" || $encap eq "vlan");
}

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###############################################################################
# Virtual Paths This wraps up the virt_paths table
#
package libvtop::virt_path;
use Carp;
use vars qw($AUTOLOAD);
use overload ('""' => 'Stringify');

# To avoid wrtting out all the methods.
sub AUTOLOAD {
    my $self = shift;
    my $type = ref($self) or croak "$self is not an object";

    my $name = $AUTOLOAD;
    $name =~ s/.*://;   # strip fully-qualified portion

    if (@_) {
	return $self->{'HASH'}->{$name} = shift;
    }
    elsif (exists($self->{'HASH'}->{$name})) {
	return $self->{'HASH'}->{$name};
    }
    else {
	return $self->virt_path()->$name();
    }
}

#
# Wrap up a virt path
#
sub Create($$$$)
{
    my ($class, $vtop, $pathname, $layer) = @_;

    my $self = {};
    bless($self, $class);

    $self->{'PATHNAME'}      = $pathname;
    $self->{'LAYER'}         = $layer;
    $self->{'VTOP'}          = $vtop;
    $self->{'MEMBERHASH'}    = {};
    $self->{'MEMBERLIST'}    = [];
    $self->{'VIRTLANHASH'}   = {};
    $self->{'VIRTLANLIST'}   = [];
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    $self->{'IMPLEMENTS'}    = {};
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    $self->{'HASH'}          = {};

    return $self;
}
# accessors
sub pathname($)		{ return $_[0]->{'PATHNAME'}; }
sub layer($)		{ return $_[0]->{'LAYER'}; }
sub members($)		{ return $_[0]->{'MEMBERHASH'}; }
sub memberlist($)       { return @{ $_[0]->{'MEMBERLIST'} }; }
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sub virtlanlist($)      { return @{ $_[0]->{'VIRTLANLIST'} }; }
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sub member($$)		{ return $_[0]->{'MEMBERLIST'}->[$_[1]]; }
sub lanlink($$)		{ return $_[0]->{'VIRTLANLIST'}->[$_[1]]; }
sub vtop($)		{ return $_[0]->{'VTOP'}; }
sub hash($)		{ return $_[0]->{'HASH'}; }
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sub implements($)	{ return $_[0]->{'IMPLEMENTS'}; }
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# Break circular reference someplace to avoid exit errors.
sub DESTROY {
    my $self = shift;

    $self->{'LAYER'}      = undef;
    $self->{'PATHNAME'}   = undef;
    $self->{'MEMBERHASH'} = undef;
    $self->{'MEMBERLIST'} = undef;
    $self->{'VIRTLANHASH'} = undef;
    $self->{'VIRTLANLIST'} = undef;
    $self->{'VTOP'}       = undef;
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    $self->{'IMPLEMENTS'} = undef;
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    $self->{'HASH'}       = undef;
}

sub Stringify($)
{
    my ($self) = @_;
    my $vname  = $self->pathname();
    my $layer  = $self->layer();

    return "[vpath:$vname:$layer]";
}

sub addmember($$$)
{
    my ($self, $vpath, $virtlan) = @_;
    
    $self->members()->{$vpath->segmentname()} = $vpath;
    $self->{'VIRTLANHASH'}->{$vpath->segmentname()} = $virtlan;
    # We care about this ordering.
    $self->{'MEMBERLIST'}->[$vpath->segmentindex()]  = $vpath;
    $self->{'VIRTLANLIST'}->[$vpath->segmentindex()] = $virtlan;
    return 0;
}

sub firstmember($)
{
    my ($self) = @_;

    # The lanlink for the first segment.
    my $virtlan = $self->lanlink(0);

    # Both members of a link.
    my ($member0,$member1) = $virtlan->memberlist();

    # The first member.
    return $member0;
}

sub lastmember($)
{
    my ($self) = @_;

    # The lanlink for the last segment.
    my $virtlan = $self->lanlink(scalar($self->memberlist()) - 1);

    # Both members of a link.
    my ($member0,$member1) = $virtlan->memberlist();

    # The last member.
    return $member1;
}
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sub addimplements($$)
{
    my ($self, $virtlan) = @_;

    $self->implements()->{$virtlan->vname()} = $virtlan;
}
sub doesimplement($$)
{
    my ($self, $virtlan) = @_;

    return exists($self->implements()->{$virtlan->vname()});
}

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#############################################################################
# Back to the main package.
#
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package libvtop_stable;
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#
# Load some physical info (for types, interfaces, speeds).
#
sub LoadPhysInfo($)
{
    my ($self) = @_;

    $self->printdb("Loading physical info\n");

    #
    # Interface capabilities, for getting speeds.
    #
    my %interface_capabilities = ();

    my $query_result =
	DBQueryWarn("select * from interface_capabilities");
    return -1
	if (!$query_result);

    while (my ($type, $capkey, $capval) = $query_result->fetchrow()) {
	$interface_capabilities{$type} = {}
  	    if (!defined($interface_capabilities{$type}));
	$interface_capabilities{$type}->{$capkey} = $capval;
    }

    #
    # Now get interface speeds for each type/class. We use this for
    # determining if a delay node is required. Very hacky, quite
    # wrong.
    #
    my %node_type_linkbw = ();
    
    $query_result =
	DBQueryWarn("select distinct i.interface_type,n.type ".
		    "  from interfaces as i ".
		    "left join nodes as n on n.node_id=i.node_id ".
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		    "where n.type is not null and ".
		    "      (i.role='" . TBDB_IFACEROLE_EXPERIMENT . "' or ".
		    "       i.role='" . TBDB_IFACEROLE_CONTROL . "')");

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    return -1
	if (!$query_result);

    # XXX Special hack for sim nodes.
    $node_type_linkbw{"sim"} = {};

    while (my ($iface_type, $node_type) = $query_result->fetchrow()) {
	my $typeinfo = NodeType->Lookup($node_type);
	if (!defined($typeinfo)) {
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	    warn("No type info for node type $node_type\n");
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	    return -1;
	}
	my $node_class = $typeinfo->class();

	$node_type_linkbw{$node_type} = {}
	    if (!defined($node_type_linkbw{$node_type}));
	$node_type_linkbw{$node_class} = {}
	    if (!defined($node_type_linkbw{$node_class}));

	if (!defined($interface_capabilities{$iface_type}->{"protocols"})) {
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	    warn("No protocols listed in capabilities for $iface_type!\n");
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	    return -1;
	}
	my @protolist =
	    split(",", $interface_capabilities{$iface_type}->{"protocols"});

	foreach my $proto (@protolist) {
	    my $def_speed =
		$interface_capabilities{$iface_type}->{"${proto}_defspeed"};

	    if (!defined($def_speed)) {
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		warn("No default speed in capabilites for $iface_type!\n");
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		return -1;
	    }

	    my $auxspeeds =
		$interface_capabilities{$iface_type}->{"${proto}_auxspeeds"};
	    my @auxspeedlist = ();
	    if ($auxspeeds) {
		@auxspeedlist = split(",", $auxspeeds);
	    }

	    foreach my $speed ($def_speed, @auxspeedlist) {
		$node_type_linkbw{$node_type}{$proto}->{$speed} = 1;
		$node_type_linkbw{$node_class}{$proto}->{$speed} = 1;

		#
		# If the type/class has a non-zero simnode capacity, then add
		# entries for the interface speed so that requires_delay can
		# figure out interface speeds the underlying node type
		# supports.
		#
		if ($typeinfo->simnode_capacity()) {
		    $node_type_linkbw{"sim"}{$proto}->{$speed} = 1;
		}
	    }
	}
    }
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    #
    # Ug, it just gets worse and worse. We also need to map between the
    # auxtypes that a node (its physical type) can take on. For example,
    # a link between two pcvm nodes is really a link between a pc600 and
    # pc850.
    #
    $query_result =
	DBQueryFatal("select distinct n.type,at.type from node_auxtypes as at ".
		     "left join nodes as n on n.node_id=at.node_id");

    while (my ($phystype, $auxtype) = $query_result->fetchrow()) {
	next
	    if (!exists($node_type_linkbw{$phystype}));
	
	$node_type_linkbw{$auxtype} = $node_type_linkbw{$phystype};
    }

    #
    # Here it goes getting even worse - we have to do a similar thing for
    # vtypes.
    #
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    foreach my $ref ($self->VirtTypes()) {
	my $vtype   = $ref->name();
	my @members = split(" ", $ref->members());
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	foreach my $phystype (@members) {
	    next
		if (!exists($node_type_linkbw{$phystype}));

	    $node_type_linkbw{$vtype} = {}
	        if (!defined($node_type_linkbw{$vtype}));

	    foreach my $protocol (keys(%{ $node_type_linkbw{$phystype} })) {
		my @list = keys(%{ $node_type_linkbw{$phystype}{$protocol} });
		foreach my $speed (@list) {
		    $node_type_linkbw{$vtype}{$protocol}->{$speed} = 1;
		}
	    }
	}
    }

    if ($self->verbose()) {
	$self->printdb("Interface Speeds:\n");
	foreach my $type (keys(%node_type_linkbw)) {
	    foreach my $protocol (keys(%{ $node_type_linkbw{$type} })) {
		my @list = keys(%{ $node_type_linkbw{$type}{$protocol} });

		$self->printdb(" $type:$protocol - @list\n");
	    }
	}
    }
    
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    $self->{'IFACECAPS'}  = \%interface_capabilities;
    $self->{'TYPELINKBW'} = \%node_type_linkbw;
    
    return 0;
}
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sub interfacespeedmbps($$$)
{
    my ($self, $type, $which) = @_;
        
    return $self->{'IFACECAPS'}->{$type}->{"${which}_defspeed"}/1000.0;
}
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#
# When updating with fixednodes turned on, we need the current set
# of nodes that need to be fixed.
#
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sub LoadCurrentResources($)
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{
    my ($self) = @_;
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    my $exptidx = $self->exptidx();
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    $self->counters()->{'reserved_simcount'}  = 0;
    $self->counters()->{'reserved_virtcount'} = 0;
    $self->counters()->{'reserved_physcount'} = 0;

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    $self->printdb("Loading current resources" .
		   ($self->regression() ? " in regression mode" : "") . "\n");
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    my @nodelist = $self->experiment()->NodeList(0, 1);
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    return 0
	if (!@nodelist);

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    if ($self->regression()) {
	#
	# In regression mode, we just store the p2v mapping for fixnode.
	#
	foreach my $pnode (@nodelist) {
	    my $vname   = $pnode->vname();
	    my $node_id = $pnode->node_id();

	    if ($pnode->isvirtnode()) {
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		$node_id = $pnode->phys_nodeid();
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	    }
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	    $self->fixednodes()->{$vname} = $node_id;
	    $self->printdb("  fixing $vname -> $node_id\n");
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	}
	return 0;
    }

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    foreach my $pnode (@nodelist) {
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	my $vname   = $pnode->vname();
	my $node_id = $pnode->node_id();
	my $rsrv    = $pnode->ReservedTableEntry();

	# A list of vnodes on this pnode.
	$self->current_p2v()->{$pnode->phys_nodeid()} = []
	    if (! exists($self->current_p2v()->{$pnode->phys_nodeid()}));
	$self->pnodes()->{$node_id} = $pnode;

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	#
	# WIDEAREA nodes are going to break.
	#
	if ($pnode->isremotenode() &&
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	    !($pnode->isplabdslice() || $pnode->isfednode() ||
	      $pnode->isdedicatedremote())) {
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	    tberror("Cannot update widearea nodes yet!\n");
	    return -1;
	}
	if ($pnode->isvirtnode()) {
	    $self->counters()->{'reserved_virtcount'}++;
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	    # Get the underlying physical node.
	    my $ppnode = Node->Lookup($pnode->phys_nodeid());
	    if (!defined($ppnode)) {
		tberror("Cannot map $pnode to its real physnode");
		return -1;
	    }
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	    my $ppnode_id = $ppnode->node_id();
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	    $self->fixednodes()->{$vname} = $ppnode_id
		if ($self->fixcurrent());
	    
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	    #
	    # Record the mappings. 
	    #
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	    $self->current_v2v()->{$vname} = $pnode->node_id();
	    $self->current_v2p()->{$vname} = $ppnode->node_id();
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	    push(@{ $self->current_p2v()->{$ppnode->node_id()} }, $vname);
	    
	    # Mark the node as unused until later.
	    $pnode->_reuse("unused");
	    $ppnode->_reuse("unused");
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	    #
	    # Add the pnode node to the oldreserved list for nfree.
	    # See the comment below. We cannot use p2v because we
	    # might not own all those nodes, if on a shared node.
	    # We do not add the ppnode. It will get added in the
	    # next clause if we actually own it.
	    #
	    $self->oldreservednodes()->{$pnode->node_id()} = $pnode;
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	    $self->printdb("current v2p: $node_id ($ppnode_id) -> $vname\n");
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	}
	else {
	    #
	    # All the sim stuff is bit rotting cause no one understands it.
	    #
	    if ($rsrv->{'erole'} eq TBDB_RSRVROLE_SIMHOST) {
		tberror("Cannot update sim nodes yet!\n");
		return -1;
	    }
	    else {
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		$self->fixednodes()->{$vname} = $pnode->node_id()
		    if ($self->fixcurrent());
		
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		$self->counters()->{'reserved_physcount'}++;
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		#
		# Record the mapping. 
		#
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		$self->current_v2p()->{$vname} = $pnode->node_id();
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		push(@{ $self->current_p2v()->{$node_id} }, $vname);
		# Mark the node as unused until later.
		$pnode->_reuse("unused");

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		#
		# Add the pnode node to the oldreserved list for nfree.
		# See the comment below. We cannot use p2v because we
		# might not own all those nodes, if on a shared node.
		#
		$self->oldreservednodes()->{$pnode->node_id()} = $pnode;

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		$self->printdb("current v2p: $node_id -> $vname\n");
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	    }
	}
    }
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    #
    # Grab the v2pmap table so we can find out where lan nodes were
    # assigned last time.
    #
    my $query_result =
	DBQueryWarn("select vname,node_id from v2pmap where exptidx='$exptidx'");
    return -1
	if (!$query_result);

    while (my ($vname,$nodeid) = $query_result->fetchrow_array()) {
	$self->printdb("current v2p: $nodeid -> $vname\n");
	
	$self->current_v2pmap()->{$vname} = $nodeid;
    }
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    return 0;
}

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sub LoadVirtNodes($)
{
    my ($self) = @_;
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    my $gotgeninodes = 0;
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    $self->printdb("Loading virtual nodes\n");

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    my $pid    = $self->pid();
    my $eid    = $self->eid();
    my $table  = $self->virt_nodes();

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    foreach my $virt_node ($table->Rows()) {
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	my $vnode    = libvtop::virt_node->Create($self, $virt_node);
	my $vname    = $vnode->vname();
	my $desires  = {};
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	my $attrs    = {};
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	my $startloc = undef;
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	# Other fields we need.
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	my $ips     = $vnode->ips() || "";
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	my $type    = $vnode->type();
	my $fixed   = $vnode->fixed();
	my $osname  = $vnode->osname();
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	my $parent_osname  = $vnode->parent_osname();
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	# XXX
	# If its a vtype, there will not be any node_type data. This
	# can break things, if one were to mix a virt/remote type with
	# a nonvirt/local type! Need to actually verify the vtypes
	# for consistency. 
	#
	my $isremote= 0;
	my $isvirt  = 0;
	my $issub   = 0;
	my $isplab  = 0;
	my $issim   = 0;
	my $isdyn   = 0;	# Only virtnodes are dynamic.
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	my $isvtyped= 0;
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	my $isded   = 0;
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	my $isgeni  = 0;
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	# If we have a real type or auxtype ...
	my $nodetype = NodeType->LookupAny($type);
	if (!defined($nodetype)) {
	    my $vtype = $self->virttypeisvtype($type);
	    if (!defined($vtype)) {
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		warn("Improper type $type for node $vnode!\n");
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		return -1;
	    }
	    #
	    # For now, just pick the first member type.
	    #
	    my @memberlist = split(" ", $vtype->members());
	    my $vtypename  = $memberlist[0];

	    $nodetype = NodeType->LookupAny($vtypename);
	    if (!defined($nodetype)) {
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		warn("Improper type $vtypename in vtypes for node $vnode!\n");
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		return -1;
	    }
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	    $isvtyped = 1;
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	}
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	$vnode->_typeinfo($nodetype);
	
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	$isremote = $nodetype->isremotenode();
	$isvirt   = $nodetype->isvirtnode();
	$issub    = $nodetype->issubnode();
	$isplab   = $nodetype->isplabdslice();
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	$isgeni   = $nodetype->isfednode();
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	$issim    = $nodetype->issimnode();
	$isdyn    = $nodetype->isdynamic();
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	$isded    = $nodetype->isdedicatedremote();
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	# Mark this as being a virtual typed node.
	$vnode->_isvtyped($isvtyped);

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	# dynamic inclusion below.
	$gotgeninodes++ if ($isgeni);

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	# All this info is stashed in our local object.
	$vnode->_nodeweight(undef);
	$vnode->_isremotenode($isremote);
	$vnode->_isvirtnode($isvirt);
	$vnode->_issubnode($issub);
	$vnode->_isplabnode($isplab);
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	$vnode->_isgeninode($isgeni);
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	$vnode->_issimnode($issim);
	$vnode->_isdynamic($isdyn);
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	$vnode->_isdedremote($isded);
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	# Set below from a desire.
	$vnode->_sharedokay(0);
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	$vnode->_fixedvm(undef);
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	$vnode->_isbridge(($vnode->role() eq "bridge" ? 1 : 0));
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	$vnode->_blockstore(undef);
	$vnode->_blockstore_attributes(undef);
	$vnode->_sanhostname(undef);

	#
	# Explicit type request desire to match feature.
	#
	my $explict_type_request;
	$nodetype->GetAttribute("explicit_request", \$explict_type_request);
	$vnode->_explicit_type_request($explict_type_request);
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	# For a list of interfaces on this node, as for rspec generation
	$vnode->_virtifaces([]);

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	# dynamic inclusion below.
	$gotgeninodes++ if ($isgeni);

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	# The mapped osname to actual osinfo structure.
	$vnode->_osinfo(undef);
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	# If the virtnode tries to specify its parent os in addition
	# to its own, store that osinfo here.
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	$vnode->_parent_osinfo(undef);
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	# Eventual physical mapping. 
	$vnode->_physnode(undef);
	# Handy to combine these.
	$vnode->_settings([ $vnode->cmd_line(),
			    $vnode->rpms(),
			    $vnode->startupcmd(),
			    $vnode->tarfiles(),
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			    $vnode->loadlist(),
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			    $vnode->failureaction(),
			    $vnode->routertype() ]);

	#
	# If a subnode, kill the fixed mapping. That was just to
	# tell us the connection. We do not want to overload "fixed"
	# within assign wrapper since its already overloaded.
	#
	if ($issub) {
	    # Must be a parent. Set in the parser, either explicitly, or else
	    # one is created if the user leaves it out.
	    if (!defined($fixed) || $fixed eq "") {
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		warn("Subnode $vname must be fixed to its parent!\n");
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		return -1;
	    }
	    $vnode->_parent($fixed);
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	    $vnode->fixed(undef);
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	    undef($fixed);
	}

	# Can fixed really get set to ""?
	if (defined($fixed) && $fixed ne "") {
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	    # Store the name since we use FIXED_NODES for delay nodes too.
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	    $self->fixednodes()->{$vname} = $fixed;
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	    # We do not know until all the nodes are loaded, if fixing
	    # to a physical node or another node in the topology. See
	    # the post pass loop below.
	    $vnode->_fixedvm($fixed)
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		if ($isvirt && !$isgeni);
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	}
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	else {
	    $vnode->fixed(undef);
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	    undef($fixed);
	}

	# For the moment, geni nodes must be bound to a CM.
	if ($isgeni) {
	    if (!defined($fixed) || $fixed eq "") {
		tberror("Geninode $vnode must be fixed to a CM.");
		return -1;
	    }
	    my ($authority,$gtype,undef) = GeniHRN::Parse($fixed);
	    #
	    # We allow an authority instead of a node urn. This is just a
	    # kludge so I can test against the AM interface. 
	    #
	    if ($gtype eq "node") {
		$vnode->_cmurn(GeniHRN::Generate($authority,
						 "authority", "cm"));
	    }
	    elsif ($gtype eq "authority") {
		$vnode->_cmurn($fixed);
		$fixed = GeniHRN::Generate($authority, "node", "*");
		$vnode->fixed($fixed);
	    }
	}
	else {
	    $vnode->_cmurn($mycmurn);
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	}
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	$self->printdb("  $vname type:$type ips:$ips\n");
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	$self->printdb("         isrem:$isremote isvirt:$isvirt");
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	$self->printdb(" fixed:$fixed")
	    if (defined($fixed) && $fixed ne "");
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	$self->printdb("\n");
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	# We need to check the names to make sure they do not clash with
	# our internal delay node names.
	if (($vname =~ /^tbdelay\d+/) ||
	    ($vname =~ /^tbsdelay\d+/)) {
	    print "Warning: $vname is a reserved name. Working around it.\n";
	    my ($num) = ($vname =~ /(\d+)/);
	    $self->delayid($num + 1);
	}

	# Take apart the IP list.
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	my @iplist  = split(" ", $ips);
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	foreach my $ipinfo (@iplist) {
	    my ($port,$ip) = split(":",$ipinfo);
	    
	    $self->{'IPS'}->{"$vname:$port"} = $ip;
	}

	#
	# Map the osname to an OSID now so that we can check max_concurrent.
	# This also avoids the work and *check* later after we have done 90%
	# of assign_wrapper. If no osname was specified, we have to wait and
	# use the default for the type of phys node that assign picks.
	#
	if (defined($osname) && $osname ne "") {
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	    my $osinfo;
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	    if ($osname =~ /^(ftp|http|https):/) {
		my $image = Image->LookupByURL($osname);
		if (!defined($image)) {
		    tberror("Invalid os url $osname!\n");
		}
		$osinfo = OSinfo->Lookup($image->imageid());
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	    }
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	    elsif ($osname =~ /^(.*)\/(.*)$/) {
		$osinfo = OSinfo->Lookup($osname);
	    }
	    else {
		$osinfo = OSinfo->Lookup($pid, $osname);
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		if (!defined($osinfo)) {
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		    $osinfo = OSinfo->LookupByName($osname);
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		}
	    }