named_setup.in 19.4 KB
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#!/usr/bin/perl -w
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#
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# Copyright (c) 2000-2017 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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use English;
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use Socket;
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use strict;
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#
# Suck out virtual names and create CNAME map entries.
#
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# This script always does the right thing, so it does not matter who calls it. 
#
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# usage: named_setup [-norestart]
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#

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#
# Function phototypes
#

sub assemble_zonefile($);
sub make_forward_zonefile($$$);
sub isroutable($);
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sub IsJailIP($);
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sub process_nodes($);
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sub make_ipv6_reverse_zonefile($$);
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#
# Configure variables
#
my $TB		= "@prefix@";
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my $TBOPS       = "@TBOPSEMAIL@";
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my $USERS	= "@USERNODE@";
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my $DISABLED    = "@DISABLE_NAMED_SETUP@";
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my $OURDOMAIN   = "@OURDOMAIN@";
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my $VIRTNODE_NETWORK   = "@VIRTNODE_NETWORK@";
my $VIRTNODE_NETMASK   = "@VIRTNODE_NETMASK@";
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my $IPV6_ENABLED       = @IPV6_ENABLED@;
my $IPV6_SUBNET_PREFIX = "@IPV6_SUBNET_PREFIX@";
		  
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my $mapdir			= "/etc/namedb";
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my $mapfile			= "${mapdir}/${OURDOMAIN}.db";
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my $mapfiletail			= "$mapfile.tail";
my $mapfile_internal		= "$mapdir/${OURDOMAIN}.internal.db";
my $mapfile_internal_head	= "$mapfile_internal.head";
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my $mapfile_internal_tail	= "$mapfile_internal.tail";
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my $vnodesfile			= "$mapdir/vnodes.${OURDOMAIN}.db";
my $vnodesback 			= "$mapdir/vnodes.${OURDOMAIN}.db.backup";
my $reversedir			= "$mapdir/reverse";
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my $reverse_ipv6		= "$reversedir/${IPV6_SUBNET_PREFIX}.db";
# Switch colon to dot since colon causes gmake to act strange.
$reverse_ipv6 =~ s/\:/./g;
my $reverse_ipv6_head		= "${reverse_ipv6}.head";
my $reverse_ipv6_tail		= "${reverse_ipv6}.tail";
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my $restart_named		= 1;
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my $sortem			= 0; # set to 1 to generated IP-sorted file
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my $dbg	= 0;
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my $domx = 0;
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my @row;

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# If we are disabled, just quietly exit
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if ($DISABLED) {
    exit 0;
}

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# We do not want to run this script unless its the real version.
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if ($EUID != 0) {
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    die("*** $0:\n".
	"    Must be root! Maybe its a development version?\n");
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}
# XXX Hacky!
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if (0 && $TB ne "/usr/testbed") {
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    die("*** $0:\n".
	"    Wrong version. Maybe its a development version?\n");
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}

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# un-taint path
$ENV{'PATH'} = '/bin:/usr/bin:/usr/sbin:/usr/local/bin';
delete @ENV{'IFS', 'CDPATH', 'ENV', 'BASH_ENV'};

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# Turn off line buffering on output
$| = 1;
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# Testbed Support libraries
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use lib "@prefix@/lib";
use libtestbed;
use libdb;
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#
# Check for norestart option.
#
if (@ARGV && $ARGV[0] eq "-norestart") {
    $restart_named = 0;
}

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#
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# We need to serialize this script to avoid a trashed map file.
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#
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if ((my $locked = TBScriptLock("named", 1)) != TBSCRIPTLOCK_OKAY()) {
    exit(0)
        if ($locked == TBSCRIPTLOCK_IGNORE);
    fatal("Could not get the lock after a long time!\n");
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}

#
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# Grab the list of all nodes with proper control network interfaces.
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#
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my $db_result =
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    DBQueryFatal("select n.node_id, n.role, null, i.IP, i.role, ".
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                 "    r.inner_elab_role, i.IPaliases, i.mac ".
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		 "  from nodes as n join interfaces as i ".
		 "left join reserved as r on r.node_id=n.node_id ".
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		 "where (n.node_id=i.node_id and ".
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                 "       (n.role='powerctrl' or n.role='testnode' or n.role='virtnode')) ".
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		 "    and i.IP is not null ".
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		 "    and (i.role='" . TBDB_IFACEROLE_CONTROL() . "' or " .
		 "         i.role='" . TBDB_IFACEROLE_MANAGEMENT() . "')");
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my %routable;
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my %unroutable;
my %reverse;
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process_nodes($db_result);
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#
# Now get the static virtnodes and older dynamic virtnodes that used
# jailip. The i2 join is to weed out the dynamic virtnodes we got in
# the above query (nodes with a dynamic control network interface).
#
$db_result =
    DBQueryFatal("select n.node_id, n.role, n.jailip, i.IP, i.role, ".
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                 "    r.inner_elab_role, null ".
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                 "  from nodes as n ".
                 "left join interfaces as i on i.node_id=n.phys_nodeid ".
                 "left join interfaces as i2 on i2.node_id=n.node_id ".
                 "left join reserved as r on r.node_id=n.node_id ".
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                 "where n.role='virtnode' and i2.iface is null and ".
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                 "      (i.IP is not null or n.jailip is not null) and ".
                 "      i.role='" . TBDB_IFACEROLE_CONTROL() . "'");

process_nodes($db_result);

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#
# For IXPs we also need their gateway addresses as well
#
$db_result =
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    DBQueryFatal("select n.node_id, n.role, n.jailip, i.IP, i.role, null,null ".
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		 "  from nodes as n ".
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		 "left join interfaces as i ".
		 "on n.phys_nodeid=i.node_id and n.node_id!=i.node_id ". 
		 "where n.role='testnode' ".
		 "    and (i.IP is not null or n.jailip is not null) ".
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		 "    and (i.iface is null or ".
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		 "         i.role='" . TBDB_IFACEROLE_GW() . "') ");
process_nodes($db_result);
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# Get the v2pmap table since that holds the additional name mappings.
my %p2vmap = ();
$db_result =
    DBQueryFatal("select v.vname,v.node_id from reserved as r ".
                 "left join v2pmap as v on v.node_id=r.node_id and ".
                 "     v.exptidx=r.exptidx and v.vname!=r.vname ".
                 "where v.vname is not null");
while (my ($vname,$node_id) = $db_result->fetchrow_array()) {
    $p2vmap{$node_id} = []
        if (!exists($p2vmap{$node_id}));
    push(@{ $p2vmap{$node_id} }, $vname);
}

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#
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# Get the list of currently-reserved nodes so that we can make CNAMEs for them
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#
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$db_result =
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    DBQueryFatal("select node_id,pid,eid,vname,inner_elab_role from reserved");
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my %cnames;
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while (my ($node_id,$pid,$eid,$vname,$erole) = $db_result->fetchrow_array()) {
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    #
    # Handle some rare cases where a node can get reserved without a vname -
    # such as calling nalloc directly
    #
    if (!defined($vname)) {
	$vname = $node_id;
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    }
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    push @{$cnames{$node_id}}, "$vname.$eid.$pid";
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    # Temp hack for Leigh
    if ($pid eq "testbed" and $eid eq "xen-leelab") {
        push @{$cnames{$node_id}}, "${vname}.xenlab.$pid";

        if (defined($erole) && $erole =~ /boss/) {
            push @{$cnames{$node_id}}, "www.xenlab.$pid";
        }
    }

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    #
    # Special case for inner elab boss; add CNAME for www.
    #
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    if (defined($erole) && $erole =~ /boss/) {
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        push @{$cnames{$node_id}}, "www.$eid.$pid";
    }
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    #
    # Special case for inner elab ops; add CNAME for event-server.
    #
    if (defined($erole) &&
        ($erole eq "ops" || $erole eq "ops+fs")) {
        push @{$cnames{$node_id}}, "event-server.$eid.$pid";
    }
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    #
    # And add additional names in v2pmap, which can happen for delay and
    # bridge nodes.
    #
    if (exists($p2vmap{$node_id})) {
        my @extras = @{ $p2vmap{$node_id} };

	foreach my $extra (@extras) {
            next
		if ($extra eq $vname);

	    push @{$cnames{$node_id}}, "$extra.$eid.$pid";
	}
    }
}
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#
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# Make the zone file for routable IP addresses
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#
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make_forward_zonefile($mapfiletail,\%routable,\%cnames);
assemble_zonefile($mapfile);
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#
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# Make the zone file that includes both routable and unroutable IP addresses,
# if the site has a .head file for it
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#
if (-e $mapfile_internal_head) {
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    make_forward_zonefile($mapfile_internal_tail,
	{%routable, %unroutable},\%cnames);
    assemble_zonefile($mapfile_internal);
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}
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#
# Look for reverse zone files that we may need to make
#
opendir(DIR,$reversedir) or fatal("Unable to open directory $reversedir\n");
while (my $dirent = readdir(DIR)) {
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    if (! (($dirent =~ /((\d+\.\d+\.\d+).*\.db)\.head/) ||
           ($dirent =~ /((\d+\.\d+).*\.db)\.head/))) {
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	next;
    }
    my $subnet = $2;
    my $basename = $1;

    my $filename = "$reversedir/$basename.tail";
    open MAP, ">$filename" || fatal("Couldn't open $filename: $!\n");
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    if (exists($reverse{$subnet})) {
        if ($subnet =~ /^(\d+)\.(\d+)$/) {
            my $classb = $reverse{$subnet};
            foreach my $classc (keys(%{$reverse{$subnet}})) {
                print MAP "\$ORIGIN ${classc}.${2}.${1}.in-addr.arpa.\n";
                foreach my $aref (@{$reverse{$subnet}->{$classc}}) {
	            my ($host, $name) = @$aref;
	            printf MAP "$host\tIN\tPTR\t$name.$OURDOMAIN.\n";
                }
                print MAP "\n";
            }
        }
        else {
	    foreach my $aref (sort {$$a[0] <=> $$b[0]} @{$reverse{$subnet}}) {
	        my ($host, $name) = @$aref;
	        printf MAP "$host\tIN\tPTR\t$name.$OURDOMAIN.\n";
	    }
        }
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    }
    close MAP;

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    assemble_zonefile("$reversedir/$basename");
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}

if ($IPV6_ENABLED) {
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    require Net::IP;

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    make_ipv6_reverse_zonefile($reverse_ipv6_tail,\%routable);
    assemble_zonefile($reverse_ipv6);
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}
closedir DIR;

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#
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# Get the nameserver to reload the zone files.
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# This is better than HUPing the nameserver directly. Note that we look
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# for a local port of named first.
#
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if ($restart_named) {
    if (-x "/usr/local/sbin/rndc") {
	system("/usr/local/sbin/rndc reload > /dev/null") == 0 or
	    fatal("/usr/local/sbin/rndc reload failed!\n");
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    }
    # XXX named.reload went away circa FBSD 9
    elsif (-x "/usr/sbin/named.reload") {
	system("/usr/sbin/named.reload > /dev/null") == 0 or
	    fatal("/usr/sbin/named.reload failed!\n");
    }
    # try standard rndc
    else {
	system("/usr/sbin/rndc reload > /dev/null") == 0 or
	    fatal("/usr/sbin/rndc failed!\n");
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    }
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}
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TBScriptUnlock();
exit(0);
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#
# Sort out the routable and unroutable addresses from a DB query,
# and make a map for reversing them
#
sub process_nodes($) {
    while (my @row = $db_result->fetchrow_array()) {
	my $node_id = $row[0];
	my $nrole   = $row[1];
	my $jailIP  = $row[2];
	my $IP      = $row[3];
	my $irole   = $row[4];
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	my $inner_elab_role = $row[5];
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	my $IPaliases = $row[6];
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	my $mac	    = $row[7];
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	#
	# For most nodes, we get the IP address from the interfaces table;
	# but, for virtual nodes, we get it from the jailip column
	#
	if (defined($jailIP)) {
	    $IP = $jailIP;
	}
	if (!$IP) {
	    warn "named_setup: No IP for node $node_id!\n";
	    next;
	}
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	#
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	# Special treatment for gateway interfaces - we give act as if they
	# are a separate node
	#
	if ($irole && $irole eq TBDB_IFACEROLE_GW()) {
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	    $node_id = "${node_id}-gw";
	}
	# Ditto for management interface.
	if ($irole && $irole eq TBDB_IFACEROLE_MANAGEMENT()) {
	    $node_id = "${node_id}-mng";
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	}

	#
	# Make a little structure so that we can make decisions later about
	# this node (ie. handling virt nodes differently)
	#
	my $node_rec = {
	    IP   => $IP,
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	    role => $nrole,
	    inner_elab_role => $inner_elab_role
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	};

	#
	# Sort it into the right pile based on whether or not it's routable
	#
	if (isroutable($IP)) {
	    $routable{$node_id} = $node_rec;
	} else {
	    $unroutable{$node_id} = $node_rec;
	}

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	#
	# Special treatment for virtnodes with private IP addresses;
	# If there is an IPaliases defined, add a entry for that too,
	# but only to the other map. In other words, if the IP is
	# unroutable and the ipalias is routable, then we can have
	# two entries, one of which is routable.
	#
	if (defined($IPaliases) && $IPaliases ne "") {
	    my @ipaliases = split(',', $IPaliases);
	    my $ipalias   = $ipaliases[0];

	    if (!isroutable($IP) && isroutable($ipalias)) {
		$routable{$node_id} = {
		    IP   => $ipalias,
		    role => $nrole,
		    inner_elab_role => $inner_elab_role
		};
	    }
	}
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	if ($IPV6_ENABLED && $mac) {
	    # Calculate modified EUI-64 from MAC address
	    my $v = substr($mac, 1, 1);
	    $v = unpack("B4", pack("H1", $v));
	    if (substr($v, 2, 1) == '0') {
		substr($v, 2, 1, '1');
	    }
	    else {
		substr($v, 2, 1, '0');
	    }
	    $v = unpack("H1", pack("B4", $v));

	    my $IP6 = $IPV6_SUBNET_PREFIX . ':' . substr($mac,0,1) . $v .
		substr($mac,2,2) . ':' . substr($mac,4,2) . 'ff:fe' .
		substr($mac,6,2) . ':' . substr($mac,8,4);
	    
	    # Make new node_rec with IP6 address in IP field
	    my $node_rec6 = {
		IP   => $IP6,
		role => $nrole,
		inner_elab_role => $inner_elab_role,
	    };

	    # Push it to the routable & unroutable stack, add prefix to create
	    # a different node_id key
	    $routable{"_V6_" . $node_id} = $node_rec6;
	    $unroutable{"_V6_" . $node_id} = $node_rec6;
	}
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	#
	# Put it into a map so we can generate the reverse zone file later
	#
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	# We use a Class C for the jail network, which complicates the
	# reverse zone generation.
	#
	if (IsJailIP($IP)) {
	    $IP =~ /(\d+\.\d+)\.(\d+)\.(\d+)/;
	    my $classb = $1;
	    my $subnet = $2;
	    my $host   = $3;

	    if (!exists($reverse{"$classb"})) {
		$reverse{"$classb"} = {};
	    }
	    if (!exists($reverse{"$classb"}->{$subnet})) {
		$reverse{"$classb"}->{$subnet} = [];
	    }
	    push(@{$reverse{"$classb"}->{$subnet}}, [$host, $node_id]);
	}
	elsif ($IP =~ /(\d+\.\d+\.\d+)\.(\d+)/) {
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	    my $subnet = $1;
	    my $host = $2;
	    push @{$reverse{$subnet}}, [$host, $node_id];
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	}
	else {
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	    warn "Poorly formed IP address $IP\n";
	}
    }
}

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#
# Die and tell someone about it
#
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sub fatal {
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    my $msg = $_[0];
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    TBScriptUnlock();
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    SENDMAIL($TBOPS, "Named Setup Failed", $msg);
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    die($msg);
}
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#
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# Put together a zone file from its consituent head and tail pieces
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#
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sub assemble_zonefile($) {
    my ($mapfile) = @_;
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    my $mapfileback = "$mapfile.backup";
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    my $mapfilehead = "$mapfile.head";
    my $mapfiletail = "$mapfile.tail";
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    my $mapfilefrag = "$mapfile.local";
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    #
    # Concat the head and tail files to create the new map.
    #
    if (-e $mapfile) {
	system("mv -f $mapfile $mapfileback") == 0 or
	fatal("Could not back up $mapfile to $mapfileback\n");
    }

    #
    # Generate a warning so that no one tries to edit the file by hand
    #
    open(MAP, ">$mapfile") || fatal("Couldn't open $mapfile\n");
    print MAP
    ";\n".
    "; ******************************************************************\n".
    "; DO NOT EDIT THIS FILE. IT IS A CREATION, A FIGMENT, A CONTRIVANCE!\n".
    ";\n".
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    "; Edit the \"head\" file, then run ${TB}/bin/named_setup.\n".
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    "; ******************************************************************\n".
    ";\n";

    #
    # Now copy in the head part of the map, looking for the serial
    # number so it can be bumped up.
    #
    open(MAPHEAD, "<$mapfilehead") || fatal("Couldn't open $mapfilehead\n");
    while (<MAPHEAD>) {
	if ( /;\s*Serial\s+/i ) {
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	    my $serial = `date +%s`;
	    chomp($serial);
	    $serial = $serial | 0x70000000;
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	    print MAP "\t\t\t$serial\t; Serial Number -- DO NOT EDIT\n";
	}
	else {
	    print MAP "$_";
	}
    }
    close(MAPHEAD);
    close(MAP);

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    # Give local admin a place to add static stuff to the head.
    if (-e $mapfilefrag) {
	system("echo '' >> $mapfile");
	system("echo ';' >> $mapfile");
	system("echo '; This is a local fragment; $mapfilefrag' >> $mapfile");
	system("echo ';' >> $mapfile");
	system("cat $mapfilefrag >> $mapfile") == 0 or
	    fatal("Failed to concat $mapfilefrag to $mapfile\n");
	system("echo '; End of local fragment; $mapfilefrag' >> $mapfile");
	system("echo '' >> $mapfile");
    }

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    #
    # Now the tail of the map.
    # 
    system("cat $mapfiletail >> $mapfile") == 0 or
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	fatal("Failed to concat $mapfiletail to $mapfile\n");
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}
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my $laddrs;
sub byip {
    my @aa = split '\.', $$laddrs{$a}->{IP};
    my @bb = split '\.', $$laddrs{$b}->{IP};
    return $aa[0] <=> $bb[0] ||
	$aa[1] <=> $bb[1] ||
	    $aa[2] <=> $bb[2] ||
		$aa[3] <=> $bb[3];
}

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#
# Make Reverse IPv6 zonefile
#

sub make_ipv6_reverse_zonefile($$) {
    my ($filename, $addresses) = @_;
    open(MAP, ">$filename") || fatal("Couldn't open $filename\n");
    print MAP "\n";
    print MAP ";\n";
    print MAP "; DO NOT EDIT below this point. Auto generated map entries!\n";
    print MAP ";\n";
    print MAP "\n";
    print MAP "\n";
    print MAP ";\n";
    print MAP "; Nodes\n";
    print MAP ";\n";
    print MAP "\n";
    my @list = keys(%$addresses);
    if ($sortem) {
        $laddrs = $addresses;
        @list = sort byip @list;
    }
    for my $node_id (@list) {
        my $node_rec = $$addresses{$node_id};

	if ($node_id =~ /^_V6_(.*)$/) {
	    $node_id = $1;
	    my $ipv6 = $node_rec->{IP};
	    $ipv6 =~ s/[\n|\r]//g;
	    my $convert_ip = new Net::IP ($ipv6)
		or die (Net::IP::Error());
	    print MAP $convert_ip->reverse_ip() . "\tIN\tPTR\t" .
		$node_id . "." . $OURDOMAIN . ".\n";
	}
    }

    print MAP "\n";
    close(MAP);
}


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#
# Make a forward zone file, from the given map of addresses and CNAMEs
#
sub make_forward_zonefile($$$) {
    my ($filename, $addresses, $cnames) = @_;
    open(MAP, ">$filename") || fatal("Couldn't open $filename\n");
    print MAP "\n";
    print MAP ";\n";
    print MAP "; DO NOT EDIT below this point. Auto generated map entries!\n";
    print MAP ";\n";
    print MAP "\n";

    #
    # Start out with the A records for the nodes
    #
    print MAP "\n";
    print MAP ";\n";
    print MAP "; Nodes\n";
    print MAP ";\n";
    print MAP "\n";
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    my @list = keys(%$addresses);
    if ($sortem) {
	$laddrs = $addresses;
	@list = sort byip @list;
    }
    for my $node_id (@list) {
	my $node_rec = $$addresses{$node_id};
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	#
	# Special treatment for virtual nodes - we only bother to print them
	# out if some has reserved them (ie. if they have a CNAME)
	#
	if (($node_rec->{role} eq "virtnode") && (!$cnames->{$node_id})) {
	    next;
	}
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	if ($node_id =~ /^_V6_(.*)$/) {
	    $node_id = $1;
	    print MAP $node_id . "\tIN\tAAAA\t$node_rec->{IP}\n";
	}
	else {
	    print MAP "$node_id\tIN\tA\t$node_rec->{IP}\n";
	}
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	if ($domx) {
	    if (defined($node_rec->{inner_elab_role}) &&
		($node_rec->{inner_elab_role} eq "ops" ||
		 $node_rec->{inner_elab_role} eq "ops+fs")) {
		print MAP "\tIN\tMX 10\t$node_id\n";
	    }
	    else {
		print MAP "\tIN\tMX 10\t$USERS.\n";
	    }
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	}
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    }

    #
    # Switch the TTL to 1 second for CNAMEs so that people will changes quickly
    # as experiments swap in and out
    #
    print MAP "\n";
    print MAP "\$TTL\t1\n\n";

    print MAP "\n";
    print MAP ";\n";
    print MAP "; CNAMEs for reserved nodes\n";
    print MAP ";\n";
    print MAP "\n";

    while (my ($pname, $vnames) = each %$cnames) {
	#
	# Only print out CNAMEs for nodes that are actually going into this map
	#
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	next unless ($addresses->{$pname} || $addresses->{"_V6_" . $pname});
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	#
	# Write out every CNAME for this pnode
	#
	foreach my $vname (@$vnames) {
	    my $formatted_vname = sprintf "%-50s", $vname;
	    print MAP "$formatted_vname\tIN\tCNAME\t$pname\n";
	}
    }

    print MAP "\n";
    close(MAP);
}

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#
# Is an IP routable?
#
sub isroutable($)
{
    my ($IP)  = @_;
    my ($a,$b,$c,$d) = ($IP =~ /^(\d*)\.(\d*)\.(\d*)\.(\d*)/);

    #
    # These are unroutable:
    # 10.0.0.0        -   10.255.255.255  (10/8 prefix)
    # 172.16.0.0      -   172.31.255.255  (172.16/12 prefix)
    # 192.168.0.0     -   192.168.255.255 (192.168/16 prefix)
    #

    # Easy tests.
    return 0
	if (($a eq "10") ||
	    ($a eq "192" && $b eq "168"));

    # Lastly
    return 0
	if (inet_ntoa((inet_aton($IP) & inet_aton("255.240.0.0"))) eq
	    "172.16.0.0");

    return 1;
}
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#
# IsJailIP()
#
sub IsJailIP($)
{
    my ($IP)  = @_;

    return 1
	if (inet_ntoa((inet_aton($IP) & inet_aton($VIRTNODE_NETMASK))) eq
	    $VIRTNODE_NETWORK);

    return 0;
}