#!/usr/bin/perl
#
# Copyright 2005-2013 SPARTA, Inc.  All rights reserved.  See the COPYING
# file distributed with this software for details.
#
#
# rollerd
#
#	This script manages the key rollover process.
#
#	ZSK rollover uses the Pre-Publish Method of rollover and takes
#	place in four phases:
#		- wait until it's time to perform a ZSK rollover
#		- sign the zone with the KSK and Published ZSK
#		- wait for old zone data to expire from caches
#		- sign the zone with the new Current ZSK key
#
#	KSK rollover uses the Double Signature Method of rollover and takes
#	place in seven phases:
#		- wait for cache data to expire
#		- generate a new (published) KSK
#		- wait for the old DNSKEY RRset to expire from caches
#		- roll the KSKs
#		- transfer new keyset to the parent
#			(currently, this is done manually)
#		- wait for parent to publish the new DS record
#			(currently, this is done manually)
#		- reload the zone
#
#	See the pod for much more information.
#

#
# If we're executing from a packed environment, make sure we've got the
# library path for the packed modules.
#
BEGIN
{
	if($ENV{'PAR_TEMP'})
	{
		unshift @INC, ("$ENV{'PAR_TEMP'}/inc/lib");
	}
}


use strict;

use Cwd;
use Getopt::Long qw(:config no_ignore_case_always);

use Net::DNS::SEC::Tools::dnssectools;
use Net::DNS::SEC::Tools::conf;
use Net::DNS::SEC::Tools::defaults;
use Net::DNS::SEC::Tools::keyrec;
use Net::DNS::SEC::Tools::rolllog;
use Net::DNS::SEC::Tools::rollmgr;
use Net::DNS::SEC::Tools::rollrec;
use Net::DNS::SEC::Tools::timetrans;
use Net::DNS::SEC::Tools::tooloptions;
use Net::DNS::SEC::Tools::BootStrap;

use POSIX qw(setsid);
use POSIX qw(setuid);

#
# Version information.
#
my $NAME   = "rollerd";
my $VERS   = "$NAME version: 2.0.0";
my $DTVERS = "DNSSEC-Tools Version: 2.0";

#######################################################################

my $ME		= "rollerd";

#
# Some path variables to be set from the config file.
#
my $dtconfig;				# DNSSEC-Tools configuration file.
my $rndc;				# BIND name server control program.
my $rrchk;				# Rollrec file checking program.
my $zonesigner;				# Zone-signing program.

my $PWD = '/bin/pwd';

my $DEFAULT_NAP	= 60;

##########################################
#
# Method selected for calculating rollover times.
#

my $RM_ENDROLL	  = 1;		# Calculate from end of last roll.
my $RM_KEYGEN	  = 2;		# Calculate from last key generation.
my $RM_STARTROLL  = 3;		# Calculate from start of last roll.  (NYI)

my $krollmethod = $RM_ENDROLL;	# Rollover calculation to use for KSKs.
my $zrollmethod = $RM_ENDROLL;	# Rollover calculation to use for ZSKs.

##########################################
#
# Data required for command line options.
#

my $rollrecfile;			# Rollrec file to be managed.

my %dtconf;				# DNSSEC-Tools config file.
my $DT_LOADZONE	= 'roll_loadzone';
my $DT_LOGFILE	= 'roll_logfile';
my $DT_LOGLEVEL	= 'roll_loglevel';
my $DT_LOGTZ	= 'log_tz';
my $DT_SLEEP	= 'roll_sleeptime';
my $DT_USERNAME	= 'roll_username';

my $OPT_ALWAYSSIGN = 'alwayssign';
my $OPT_AUTOSIGN   = 'autosign';
my $OPT_DIR	   = 'directory';
my $OPT_DISPLAY	   = 'display';
my $OPT_DTCONF	   = 'dtconfig';
my $OPT_FOREGROUND = 'foreground';
my $OPT_HELP	   = 'help';
my $OPT_LOGFILE	   = 'logfile';
my $OPT_LOGLEVEL   = 'loglevel';
my $OPT_LOGTZ	   = 'logtz';
my $OPT_NORELOAD   = 'noreload';
my $OPT_PARAMS	   = 'parameters';
my $OPT_PIDFILE    = 'pidfile';
my $OPT_REALM	   = 'realm';
my $OPT_RRFILE	   = 'rrfile';
my $OPT_SINGLERUN  = 'singlerun';
my $OPT_SLEEP	   = 'sleep';
my $OPT_USERNAME   = 'username';
my $OPT_VERBOSE	   = 'verbose';
my $OPT_VERSION	   = 'Version';
my $OPT_ZONESIGNER = 'zonesigner';
my $OPT_ZSARGS	   = 'zsargs';

my %opts = ();			# Filled option array.
my @opts =
(
	"rrfile=s",			# Rollrec file.
	"directory=s",			# Execution directory.
	"display",			# Use output GUI.
	"logfile=s",			# Log file.
	"loglevel=s",			# Logging level.
	"logtz=s",			# Logging timezone.
	"noreload",			# Don't reload zone files.
	"pidfile=s",			# pid storage file.
	"dtconfig=s",			# dnssec-tools config file to use.
	"sleep=i",			# Sleep amount (in seconds.)
	"parameters",			# Display the parameters and exit.
	"autosign!",			# Autosign flag.
	"singlerun",			# Single run:  process everything once.
	"foreground",			# Run in the foreground; don't fork.
	"alwayssign",			# Always sign when running in singlerun.
	"username=s",			# User name for which to run as.
	"realm=s",			# Realm we're running in.
	"help",				# Give a usage message and exit.
	"verbose",			# Verbose output.
	"Version",			# Display the version number.
	"zonesigner=s",			# Location of zonesigner executable.
	"zsargs=s",			# Arguments for zonesigner.
);

#
# Flag values for the various options.  Variable/option connection should
# be obvious.
#
my $alwayssign = 0;			# Always sign the zone in -singlerun.
my $autosign = 0;			# Autosign updated zones.
my $dtcf;				# DNSSEC-Tools configuration file.
my $foreground = 0;			# Run in the foreground.
my $logfile;				# Log file.
my $loglevel;				# Logging level.
my $loglevel_save;			# Saved logging level.
my $logtz;				# Logging timestamp.
my $zoneload = 1;			# Zone-reload flag.
my $pidfile;				# Pid storage file.
my $realm;				# Our realm.
my $singlerun = 0;			# Single run only.
my $sleep_override = 0;			# Sleep-override flag.
my $sleepcnt;				# Time we've slept so far.
my $sleeptime;				# Sleep interval in seconds.
my $username;				# User name we'll change to.
my $gzsargs = '';			# Global zsargs for zonesigner.
my $verbose = 0;			# Verbose option.

my $display = 0;			# Do display processing.

my $boottime = gmtime();		# Timestamp of rollerd's start time.

my $MIN_SLEEP = 10;			# Minimum time rollerd will sleep.

my $curdir;				# Directory.
my $keyarch;				# Key-archive program.
my $packed = 0;				# Flag indicating if running packed.
my $xqtdir;				# Execution directory.

#######################################################################

my $EVT_FULLLIST   = 1;		# Full list is run every N seconds.
my $EVT_QUEUE_SOON = 2;		# Queues, with "soon" events.

#
# "full list" queue processing is the classic rollerd method of handling its
# queue.  Every N seconds, the entire queue of zones is scanned to see if any
# rollover events must be handled.
#
# "soon" queue processing is experimental.  It maintains a sub-queue of the
# rollover events that must be handled soon.  Rather than processing the full
# queue of managed zones every N seconds, the "soon queue" is handled as the
# events occur.
#
# "soon" processing is still being tested and should *not* be considered
# reliable!  (yet...)
#

my $eventmaster = $EVT_FULLLIST;
# my $eventmaster = $EVT_QUEUE_SOON;

my @event_methods =
(
	"dummy",
	"Full List",
	"Soon Queue",
);

#######################################################################
#
# Soon Queue data.
#

my $QUEUE_ERRTIME = 60;			# Time to sleep on rollrec error.

#
# $QUEUE_SOONLIMIT defines the length of "soon".  When building the soon
# queue, any zone with an event between now and (now + $QUEUE_SOONLIMIT)
# will be added to the soon queue.  This is a seconds count.
#
# This value will depend on the number of managed zones and their lifespans.
# The default value is for a day, which means the soon queue will hold all
# events that will occur within the next 24 hours.
#
my $QUEUE_SOONLIMIT = 86400;

my $QUEUE_RUNSCAN = '<<< run full scan >>>';	# Fake rollrec name to trigger
						# a full scan.

my %queue_eventtimes = ();
my %queue_maxttls    = ();
my %queue_signtimes  = ();
my @queue_allzones   = ();
my @queue_sooners    = ();

my $queue_firstsoon;			# Index of first unprocessed soon entry.
my $queue_lastscan;			# GMT of last full scan.
my $queue_scantime;			# Time taken for last full scan.
my $queue_scanskips;			# Count of zones skipped in scan.
my $queue_soonend;			# End of current "soon" period.

#######################################################################

my $queued_int = 0;			# Queued-SIGINT flag.
my $queued_hup = 0;			# Queued-SIGHUP flag.

my $wassigned;				# Flag indicating zone was signed.

my $ret;				# Return code from main().
my $runerr;				# Execution error -- used in runner().

#
# If we find the rollrec file is empty, we'll give an error message
# only on an occasional pass through the zone list.
#
my $MAXRRFERRS = 5;			# Number of list passes to stay quiet.
my $rrferrors = 0;			# Count of times through list.

#
# Detect required Perl modules.
#
dnssec_tools_load_mods('Date::Parse'	=> "",
		       'Date::Format'	=> "",);

#
# Do Everything.
#
$ret = main();
exit($ret);

#-----------------------------------------------------------------------------
# Routine:	main()
#
# Purpose:	Do Everything.
#
#		basic steps:
#			while rollrec file is not empty
#				read rollrec file
#
#				for each rollrec in the rollrec file
#					handle according to its phase
#
sub main
{
	my $olderr;					# Saved error action.
	my $ret;					# General return code.

	#
	# Initialize a few things...
	#	- force unbuffered output
	#	- default error action
	#	- set run-packed flag
	#
	$| = 1;
	erraction(ERR_MSG);
	$packed = runpacked();

	#
	# Parse our command line into an options hash.
	#
	GetOptions(\%opts,@opts) || usage();

	#
	# Set up the appropriate DNSSEC-Tools config file.  If we're running
	# in a packed configuration, we'll use the config file in the packed
	# environment's directory.
	#
	if($packed)
	{
		$opts{$OPT_DIR} = ".";
		setconffile("$ENV{'PAR_TEMP'}/inc/dnssec-tools.conf");
	}

	#
	# If there's a -dtconfig command line option, we'll use that,
	#
	if(exists($opts{$OPT_DTCONF}))
	{
		setconffile($opts{$OPT_DTCONF});
	}

	#
	# Check our options and arguments.
	#
	optsandargs();

	#
	# Run our configuration checks and make sure any error messages
	# will be printed.
	#
	$olderr = erraction(ERR_MSG);
#	if(dt_confcheck(0) > 0)
#	{
#		dt_confcheck(1);
#		print STDERR "\nrollerd:  configuration checks failed, halting\n";
#		rolllog_log(LOG_ALWAYS,"","rollerd configuration checks failed");
#		cleanup();
#	}
	erraction($olderr);

	#
	# Check our required external commands.
	#
	getprogs();
	cmdcheck(\%opts);

	#
	# Daemonize ourself.
	#
	exit(0) if(!$singlerun && !$foreground && fork());
	POSIX::setsid();

	#
	# Ensure we're the only rollerd running and drop a pid file.
	#
	if(rollmgr_dropid() == 0)
	{
		print STDERR "another rollerd is already running\n";
		rolllog_log(LOG_ALWAYS,"","another rollerd tried to start");
		cleanup();
	}

	#
	# If it hasn't been set yet, get the pathname for zonesigner.
	#
	if(($zonesigner eq '') &&
	   (($zonesigner=dt_cmdpath('zonesigner')) eq ''))
	{
		print STDERR "no absolute path defined for zonesigner; exiting...\n";
		rolllog_log(LOG_ALWAYS,"","no absolute path defined for zonesigner; exiting...");
		cleanup();
	}

	#
	# Tell the log we're up.
	#
	bootmsg(1);

	#
	# Mark the domains as being under our control.
	#
	eminent_domains($rollrecfile);

	#
	# Set up the command channel.
	#
	if(($ret=rollmgr_channel(1)) != 1)
	{
		my @errs =
		    (
			'Unable to connect to the server.',
			'Unable to create a Unix socket.',
			'Unable to bind to the Unix socket.',
			'Unable to change the permissions on the Unix socket.',
			'Unable to listen on the Unix socket.',
			'Communications socket name was longer than allowed for a Unix socket.',
		    );

		#
		# Adjust for array index.
		#
		$ret *= -1;

		rolllog_log(LOG_FATAL,"","unable to create control communications channel:  $errs[$ret]");

		exit(3);
	}

	#
	# Main event loop.  If the rollrec file is okay, we'll read it,
	# check its zones -- rolling 'em if need be -- and saving its state.
	# We'll always check for user commands and then sleep a bit.
	#
	if($eventmaster == $EVT_FULLLIST)
	{
		rolllog_log(LOG_ALWAYS,""," ");

		full_list_event_loop();
	}
	if($eventmaster == $EVT_QUEUE_SOON)
	{
		rolllog_log(LOG_ALWAYS,""," ");
		queue_soon_event_loop();
	}
	else
	{
		rolllog_log(LOG_FATAL,"","invalid event handler specified; cannot continue");
		print STDERR "rollerd:  invalid event handler specified; cannot continue\n";
		exit(1);
	}

}

#-----------------------------------------------------------------------------
# Routine:	eminent_domains()
#
# Purpose:	Mark the domains in the rollrec file as being under our
#		control.
#
sub eminent_domains
{
	my $rrf	 = shift;				# Rollrec file.

	#
	# Exit with failure if the rollrec file is bad.
	#
	if(!rrfokay($rrf,""))
	{
		rolllog_log(LOG_FATAL,'',"rollrec file \"$rrf\" invalid");
		return(0);
	}

	#
	# Get the current contents of the rollrec file.
	#
	rollrec_lock();
	rollrec_read($rollrecfile);

	#
	# For each rollrec entry, get the keyrec file and mark its zone
	# entry as being controlled by us.
	#
	foreach my $rname (rollrec_names())
	{
		my $rrr;		# Reference to rollrec.
		my $prefix;		# Rollrec's directory field.
		my $keyrec;		# Keyrec's filename.

		#
		# Get the rollrec for this name.  If it doesn't have one,
		# whinge and continue to the next.
		#
		$rrr = rollrec_fullrec($rname);
		if(!defined($rrr))
		{
			rolllog_log(LOG_ERR,$rname,"no rollrec defined for zone");
			next;
		}

		#
		# Check for a directory.  We'll use rollerd's execution
		# directory if one isn't defined.
		#
		$prefix = $xqtdir;
		$prefix = $rrr->{'directory'} if(defined($rrr->{'directory'}));

		#
		# Build the keyrec file.
		#
		$keyrec = $rrr->{'keyrec'};
		$keyrec = "$prefix/$keyrec" if($keyrec !~ /^\//);

		#
		# Set the error flag if either the zonefile or the keyrec
		# file don't exist.
		#
		if(! -e $keyrec)
		{
			rolllog_log(LOG_ERR,$rname,"keyrec \"$keyrec\" does not exist");
			next;
		}

		#
		# Mark the keyrec's zone as being under our control.
		#
		keyrec_read($keyrec);
		keyrec_setval('zone',$rrr->{'zonename'},'rollmgr',"rollerd");
		keyrec_close();
	}

	#
	# Save the current rollrec file state.
	#
	rollrec_close();
	rollrec_unlock();

	#
	# Return success.
	#
	return(1);
}

#-----------------------------------------------------------------------------
# Routine:	full_list_event_loop()
#
# Purpose:	Rollover event handler -- full queue.
#
#		Every $sleeptime seconds, it checks the entire set of rollrecs
#		to see if any rollover actions must be taken.
#
#		This method works fine for small numbers of zones; it gets
#		unwieldy as the number of managed zones increases.
#
#		This is the original event-loop code.
#
sub full_list_event_loop
{
	while(42)
	{
# rolllog_log(LOG_ALWAYS,"","looping ----------------------------------------");

		#
		# Turn off signal handlers so they don't interrupt us
		# while we're running the queue.
		#
		controllers(0);
		$sleep_override = 0;

		#
		# Return to our execution directory.
		#
		rolllog_log(LOG_TMI,'',"execution directory:  chdir($xqtdir)");
		chdir($xqtdir);

		#
		# If we have a valid rollrec file, we'll read its contents
		# and handle for expired KSKs and ZSKs.
		#
		if(rrfchk($rollrecfile))
		{
			my $kronos1;			# Check's start time.
			my $kronos2;			# Check's end time.
			my $kronodiff;			# Difference of times.
			my $kronos;			# difference string.

			#
			# Get the contents of the rollrec file and check
			# for expired KSKs and ZSKs.
			#
			rollrec_lock();
			if(rollrec_read($rollrecfile) > 0)
			{
				#
				# Check the zones for expired ZSKs.  We'll also
				# keep track of how long it takes to check the
				# ZSKs.
				#
				$kronos1 = time;
				rollkeys();
				$kronos2 = time;
				$kronodiff = $kronos2 - $kronos1;
				$kronos = timetrans($kronodiff);
				rolllog_log(LOG_TMI,"<timer>","keys checked in $kronos");

				#
				# Save the current rollrec file state.
				#
				rollrec_close();
			}
			rollrec_unlock();
		}

		#
		# Check for user commands.
		#
		commander();

		#
		# We'll stop now if we're only running the queue once.
		#
		if($singlerun)
		{
			rolllog_log(LOG_INFO,"","rollover manager shutting down at end of single-run execution");
			halt_handler();
			exit(0);
		}

		#
		# Turn on our signal handlers and then take a nap.
		#
		controllers(1);
		sleeper($sleeptime);

	}
}

#-----------------------------------------------------------------------------
# Routine:	rollkeys()
#
# Purpose:	Go through the zones in the rollrec file and start rolling
#		the ZSKs and KSKs for those which have expired.
#
sub rollkeys
{
	my @rrfstats;			# Stats for rollrec file.

	#
	# Let the display program know we're starting a roll cycle.
	#
	display("startroll \"<all>\" 0");

	#
	# Check the zones in the rollrec file to see if they're ready
	# to roll.
	#
	foreach my $rname (rollrec_names())
	{
		my $rrr;		# Reference to rollrec.
		my %rr;			# Rollrec hash.

		#
		# Close down if we've received an INT signal.
		#
		if($queued_int)
		{
			rolllog_log(LOG_INFO,$rname,"received immediate shutdown command");
			halt_handler();
		}

		#
		# Return to our execution directory.
		#
		rolllog_log(LOG_TMI,$rname,"execution directory:  chdir($xqtdir)");
		chdir($xqtdir);

		#
		# Ensure the logging level is set correctly.
		#
		$loglevel = $loglevel_save;

		#
		# Get the rollrec for this name.  If it doesn't have one,
		# whinge and continue to the next.
		# (This should never happen, but...)
		#
		$rrr = rollrec_fullrec($rname);
		if(!defined($rrr))
		{
			rolllog_log(LOG_ERR,$rname,"no rollrec defined for zone");
			next;
		}
		%rr = %$rrr;

		#
		# Set the logging level to the rollrec entry's level (if it
		# has one) for the duration of processing this zone.
		#
		$loglevel_save = $loglevel;
		if(defined($rr{'loglevel'}))
		{
			my $llev;			# Logging level.

			$llev = rolllog_num($rr{'loglevel'});
			if($llev != -1)
			{
				$loglevel = $llev;
				rolllog_level($loglevel,0);
			}
			else
			{
				rolllog_log(LOG_ERR,$rname,"invalid rollrec logging level \"$rr{'loglevel'}\"");
			}
		}

		#
		# Don't do anything with skip records.
		#
		if($rr{'rollrec_type'} eq "skip")
		{
			rolllog_log(LOG_TMI,$rname,"is a skip rollrec");
			next;
		}

		#
		# If this rollrec has a directory record, we'll move into that
		# directory for execution; if it doesn't we'll stay put.
		# If the chdir() fails, we'll skip this rollrec.
		#
		next if(chrrdir($rname,$rr{'directory'},'rollkeys:') == 0);

		#
		# If the zone's keyrec file doesn't exist, we'll try to
		# create it with a simple zonesigner call.
		#
		if(! -e $rrr->{'keyrec'})
		{
			rolllog_log(LOG_ERR,$rname,"keyrec \"$rrr->{'keyrec'}\" does not exist; running initial zonesigner");
			signer($rname, "initial", 0);
		}

		#
		# Ensure the record has the KSK and ZSK phase fields.
		#
		if($rr{'kskphase'} == -1)
		{
			rolllog_log(LOG_TMI,$rname,"new kskphase entry");
			nextphase($rname,$rrr,0,'KSK')
		}
		if($rr{'zskphase'} == -1)
		{
			rolllog_log(LOG_TMI,$rname,"new zskphase entry");
			nextphase($rname,$rrr,0,'ZSK')
		}

		#
		# Turn off the flag indicating that the zone was signed.
		#
		$wassigned = 0;

		#
		# If this zone's current KSK has expired, we'll get it rolling.
		#
		if(ksk_expired($rname,$rrr,"kskcur"))
		{
			rolllog_log(LOG_TMI,$rname,"current KSK has expired\n") if($rr{'zskphase'} == 0);

			ksk_phaser($rname,$rrr);
		}
		else
		{
			rolllog_log(LOG_TMI,$rname,"current KSK still valid");
		}

		#
		# If this zone's current ZSK has expired, we'll get it rolling.
		#
		if(zsk_expired($rname,$rrr,"zskcur"))
		{
			rolllog_log(LOG_INFO,$rname,"current ZSK has expired\n") if($rr{'zskphase'} == 0);
			zsk_phaser($rname,$rrr);
		}
		else
		{
			rolllog_log(LOG_TMI,$rname,"current ZSK still valid");
		}

		#
		# If -alwayssign was specified, always sign the zone
		# even if we didn't need to for this period.
		#
		if($alwayssign && !$wassigned)
		{
			my $krr;		# Ref to keyrec data.
			my $extraargs = "";	# Phase-dependent argument.

			rolllog_log(LOG_TMI,$rname, "signing the zone $rrr->{'zonename'} (-alwayssign specified)");

			#
			# Check value and file existence, etc.
			#
			$krr = opts_zonekr($rrr->{'keyrec'},$rrr->{'zonename'});

			#
			# Tell the signer what phase we're in so it
			# can decide what key to use.
			#
			if($rrr->{'zskphase'} > 0)
			{
				$extraargs = "ZSK phase $rrr->{'zskphase'}";
			}
			elsif($rrr->{'kskphase'} > 0)
			{
				$extraargs = "KSK phase $rrr->{'kskphase'}";
			}

			#
			# KSK signing uses double-signature so nothing
			# is needed since zonesigner always uses all
			# available keys.
			#

			#
			# Actually do the signing.
			#
			my $ret = signer($rname, $extraargs, $krr);
			if($ret)
			{
				rolllog_log(LOG_ERR, "signing $rname failed!");
			}
		}

	}

	#
	# Ensure the logging level is set correctly.
	#
	$loglevel = $loglevel_save;
	rolllog_level($loglevel,0);
}

#=============================================================================
#=============================================================================
#=============================================================================
#=============================================================================
#=============================================================================

#-----------------------------------------------------------------------------
# Routine:	queue_soon_event_loop()
#
# Purpose:	Rollover event handler -- timed event queue with "soon" queue.
#
#		Periodically, the entire set of rollrecs is scanned to find
#		the set of events that will occur "soon".  ("soon" may be
#		defined as within the next 12 hours, 24 hours, etc.)
#		These rollrecs are added to a queue in chronological order.
#
#		rollerd will sleep until the next event occurs, then handle
#		those events that have triggered.  The next event-expiration
#		times are recalculated for the list of "soon" events as well
#		as the events which have just been handled.  If the just-
#		handled events fall within the "soon" timeframe, they are
#		reinserted in the "soon" queue.
#
#		Rescanning of the full set of rollrecs must occur periodically
#		in order to keep the "soon" queue populated.
#
#		The definition of "soon" and the rescan time period are not
#		universally definite numbers.  They will almost certainly
#		depend on the numbers of zones managed by each installation,
#		plus the key lifespans for those zones.
#
#		This event loop was added in Spring, 2011.
#
sub queue_soon_event_loop
{
rolllog_log(LOG_ALWAYS,""," ");
rolllog_log(LOG_ALWAYS,"","   not worrying about signal handlers at the moment!");
rolllog_log(LOG_ALWAYS,"","   what should happen with -singlerun?");
rolllog_log(LOG_ALWAYS,""," ");
rolllog_log(LOG_INFO,"","           QUEUE_SOONLIMIT - $QUEUE_SOONLIMIT");
rolllog_log(LOG_ALWAYS,""," ");

	#
	# Time for the Main Event*!
	#
	# * loop
	#
	while(42)
	{
# rolllog_log(LOG_ALWAYS,"","looping full -----------------------------------");

		#
		# Turn off signal handlers while we're reading the rollrec file.
		#
		controllers(0);

		#
		# Return to our execution directory.
		#
		rolllog_log(LOG_TMI,'',"execution directory:  chdir($xqtdir)");
		chdir($xqtdir);

		#
		# If we have a valid rollrec file, we'll read its contents
		# and handle for expired KSKs and ZSKs.
		#
		if(rrfchk($rollrecfile) == 0)
		{
			rolllog_log(LOG_ERR,"","rrfchk($rollrecfile) failed");
			sleeper($QUEUE_ERRTIME);
			next;
		}

		#
		# Read the rollrec file.
		#
		# WARNING:  We're only locking the file while we're reading
		#	    it!  This may not be the safest way to do this.
		#
		rollrec_lock();
		rollrec_read($rollrecfile);
		rollrec_close();
		rollrec_unlock();

		#
		# Turn on signal handlers while we're scanning the full queue.
		#
		controllers(1);

		#
		# Calculate event times for each rollrec entry.
		#
		queue_scanall();

#		queue_prteventtimes();

		#
		# Check all the events that will be happening "soon".
		#
		while(42)
		{
			my $nextrrn;		# Next rollrec to handle.
			my $naptime;		# Time until next event.
			my $now;		# Current time.
			my $ind;		# Loop index.
			my @savenames = ();	# Rollrecs to return to soonlist
			my $kronos1;		# Start time for soon loop.
			my $kronos2;		# End time for soon loop.
			my $kronos;		# Time taken in soon loop.

# rolllog_log(LOG_ALWAYS,"","looping soon -----------------------");
			#
			# Rescan the entire list of zones if the soon list
			# is empty.
			#
			# This should never happen.  There should always be,
			# at the very least, an entry that schedules the next
			# full scan.
			#
			if(@queue_sooners == 0)
			{
				rolllog_log(LOG_ERR,"","DANGER!!!  soonlist is empty and shouldn't be!");
				goto endsooners;
			}

# queue_prteventtimes();

			#
			# Get the time until the next event.
			#
			$nextrrn = $queue_sooners[0];
			$naptime = $queue_eventtimes{$nextrrn};

			#
			# Turn on our signal handlers and then take a nap.
			#
			controllers(1);

#			$naptime = 60 if($naptime <= 0);
			$sleeptime = $naptime;
# queue_prtsooners();
# rolllog_log(LOG_ALWAYS,"","queue_sooners (" . @queue_sooners . " entries)");
			sleeper($naptime) if($naptime > 0);

			#
			# Turn off signal handlers so they don't interrupt us
			# while we're scanning the soon queue.
			#
			controllers(0);
			$sleep_override = 0;

			#
			# Get this iteration's idea of the current time.
			#
			$now = gmtime(time);
			$now = str2time($now);

			#
			# Calculate the next-event time for each of the zones
			# in the @queue_sooners list.
			#
			rolllog_log(LOG_TMI,"","starting scan of soon queue");
			$kronos1 = time;
			queue_scansooners($now);
			$kronos2 = time;
			$kronos = $kronos2 - $kronos1;
			$kronos = timetrans($kronos);
# rolllog_log(LOG_ALWAYS,"","scanned soon queue (" . @queue_sooners . " zones) in $kronos");

			#
			# Get the rollrec file.
			#
			rollrec_lock();
			if(rollrec_read($rollrecfile) <= 0)
			{
				rolllog_log(LOG_ALWAYS,"","DANGER!!!  rollrec_read($rollrecfile) failed");
				last;
			}

			#
			# Reset the index for the next imminent soon event.
			#
			$queue_firstsoon = 0;

			#
			# Turn on signal handlers so the user can query the
			# queue while we're running the queue.
			#
			controllers(1);

			#
			# Run through our queue of soon-to-happen rollover
			# events.
			#
			$kronos1 = time;
			for($ind=0; $ind < @queue_sooners; $ind++)
			{
				my $rrn = $queue_sooners[$ind];
				my $rrr;
				my $nxt;

				#
				# Check for user commands.
				#
				commander();

				#
				# Rescan the entire list of zones if we've hit
				# the run-scan fake rollrec name.
				#
				#
#				goto endsooners if($rrn eq $QUEUE_RUNSCAN);
				if($rrn eq $QUEUE_RUNSCAN)
				{
					rolllog_log(LOG_TMI,"","RUNSCAN hit!   stopping soon-loop");
					goto endsooners;
				}

				$rrr = rollrec_fullrec($rrn);

				#
				# Skip this zone if this is a skip zone.
				#
				next if($rrr->{'rollrec_type'} eq 'skip');

				#
				# Proceed to the next zone if the zone is in a
				# state that requires administrative attention.
				#
				next if($rrr->{'kskphase'} == 6);

				if($queue_eventtimes{$rrn} > 0)
				{
					rollrec_unlock();
					last;
				}

				#
				# Handle the rollover event.
				#
				queue_rollevent($rrn);
				$queue_firstsoon++;

				#
				# Add this zone to our savelist if it has its
				# next rollover event soon.
				#
				$nxt = queue_scanone($rrn,$now);
				if(($nxt < $queue_eventtimes{$QUEUE_RUNSCAN}) &&
				   (! $singlerun))
				{
					push @savenames, $rrn;
				}

			}
			$kronos2 = time;

			#
			# Save the current rollrec file state and get the
			# time stats.
			#
			rollrec_close();
			rollrec_unlock();
			$kronos = $kronos2 - $kronos1;
			$kronos = timetrans($kronos);

			#
			# Check for user commands.
			#
			commander();

			#
			# We'll stop now if we're only running the queue once.
			#
			if($singlerun)
			{
				rolllog_log(LOG_INFO,"","rollover manager shutting down at end of single-run execution");
				halt_handler();
				exit(0);
			}

			#
			# Remove the zones we've just handled from the sooners
			# list.  Also, add in the zones that we just handled
			# that are still within the "soon" time.
			#
			splice @queue_sooners, 0, $ind;
			$queue_firstsoon = 0;
			push @queue_sooners, @savenames;

			#
			# Sort the sooners list.  The sorting is done based on
			# the amount of time before each zone's next event.
			#
			@queue_sooners  = sort { $queue_eventtimes{$a} <=> $queue_eventtimes {$b} } @queue_sooners;

		}

  endsooners:
		rollrec_unlock();

	}

}

#-----------------------------------------------------------------------------
# Routine:	queue_scanall()
#
# Purpose:	Calculate the next-event time for each of the zones in the
#		rollrec file.  Zones that fall within our "soon" limit, will
#		be added to the @queue_sooners list.
#
sub queue_scanall
{
	my $cronus;					# Current time.
	my $kronos1;					# Scan start time.
	my $kronos2;					# Scan end time.

	my $lasttime;			# Last rollrec's event time.

# rolllog_log(LOG_ALWAYS,"","queue_scanall:  running a full scan");

	#
	# Reset all our queuing lists.
	#
	%queue_eventtimes = ();
	@queue_allzones   = ();
	@queue_sooners    = ();
	$queue_scanskips  = 0;

	#
	# Get the base time.
	#
	$kronos1 = time;
	$cronus = gmtime($kronos1);
	$cronus = str2time($cronus);

	#
	# Recalculate the next-event time for every zone in the rollrec file.
	# If the zone falls within the soon limit, it'll be added to
	# @queue_sooners. All zones will be added to @queue_allzones.
	#
	foreach my $rrn (rollrec_names())
	{
		my $next;

		$next = queue_scanone($rrn,$cronus);

		push @queue_allzones, $rrn;
		push @queue_sooners, $rrn if($next < $QUEUE_SOONLIMIT);
	}

	#
	# Sort the zone lists we'll use for queuing.  The sorting is done
	# based on the amount of time before each zone's next event.
	#
	@queue_allzones = sort { $queue_eventtimes{$a} <=> $queue_eventtimes {$b} } @queue_allzones;
	@queue_sooners  = sort { $queue_eventtimes{$a} <=> $queue_eventtimes {$b} } @queue_sooners;

	#
	# Figure out how long the scan took.
	#
	$queue_lastscan = time;
	$kronos2 = time;
	$queue_scantime = $kronos2 - $kronos1;
	$queue_soonend = $cronus + $QUEUE_SOONLIMIT;

	#
	# Arrange for the next full scan.
	#
	$queue_eventtimes{$QUEUE_RUNSCAN} = $QUEUE_SOONLIMIT;
	push @queue_sooners, $QUEUE_RUNSCAN;

	#
	# If no zones fall within the "soon" timeframe, we'll schedule
	# another scan for shortly before the next zone needs to be handled.
	#
	if(@queue_sooners == 0)
	{
		my $rrn;				# Rollrec name.
		my $nevt;				# Next event time.

		$rrn = @queue_allzones[0];
		$nevt = $queue_eventtimes{$rrn};

		$sleeptime = $nevt - $queue_scantime - 60;
	}

# queue_prteventtimes();
# queue_prtsooners();
}

#-----------------------------------------------------------------------------
# Routine:	queue_scansooners()
#
# Purpose:	Calculate the next-event time for each of the zones in the
#		@queue_sooners list.  If the zone still falls within our
#		"soon" limit, it'll be kept in the @queue_sooners list.
#
sub queue_scansooners
{
	my $cronus = shift;	# Current time.
	my @newsooners = ();	# Temporary list of new sooners.
	my $nextscan;		# Time of next full scan.
	my $tdiff;		# Time difference between now and last scan.

# rolllog_log(LOG_INFO,"","queue_scansooners:  down in");

	#
	# Figure out when the next full scan will take place.
	#
	$tdiff = time - $queue_lastscan;
	$nextscan = $QUEUE_SOONLIMIT - $tdiff;
	$queue_eventtimes{$QUEUE_RUNSCAN} = $nextscan;

	#
	# Recalculate the next-event time for each zone in the @queue_sooners
	# list.  If the zone is still within the soon limit, it'll be kept in
	# @queue_sooners.
	#
	foreach my $rrn (@queue_sooners)
	{
		my $nxt;

		#
		# Close down if we've received an INT signal.
		#
		if($queued_int)
		{
			rolllog_log(LOG_INFO,$rrn,"received immediate shutdown command");
			halt_handler();
		}

		next if($rrn eq $QUEUE_RUNSCAN);

		$nxt = queue_scanone($rrn,$cronus);
		push @newsooners, $rrn if($nxt < $nextscan);
	}

	#
	# Schedule the next full scan.
	#
	push @newsooners, $QUEUE_RUNSCAN;

	#
	# Sort the new list of soon zones.  The sorting is done based
	# on the amount of time before each zone's next event.
	#
	@newsooners = sort { $queue_eventtimes{$a} <=> $queue_eventtimes {$b} } @newsooners;

	#
	# Replace our soon list.
	#
	@queue_sooners = @newsooners;

# queue_prtsooners();
}

#-----------------------------------------------------------------------------
# Routine:	queue_scanone()
#
# Purpose:	Find the number of seconds until the given zone's next event.
#		The event time will be saved in the Big List o' Event Times.
#
sub queue_scanone
{
	my $rrn = shift;			# Rollrec name.
	my $cronus = shift;			# Time to check.

	my $next;				# Rollrec's next event time.

	#
	# Get the zone's next-event time.
	#
	$next = queue_evttime($rrn,$cronus);

	#
	# Set the zone's time data and return the value to our caller.
	#
	$queue_eventtimes{$rrn}	= $next;
	return($next);
}

#-----------------------------------------------------------------------------
# Routine:	queue_evttime()
#
# Purpose:	Find the number of seconds until the given zone's next event.
#		An event is either when a zone moves into key rollover or when
#		a zone already in rollover moves to the next rollover phase.
#
#		If a zone is not in rollover, the event time is calculated by

#		We'll calculate this time based on the maximum TTL in the
#		zone's signed zonefile.  However, if If the signed zonefile
#		hasn't been modified since we last checked, we'll use the
#		maximum TTL we saved the last time we noticed it had been
#		updated.
#
sub queue_evttime
{
	my $rrn	   = shift;			# Name of rollrec to check.
	my $cronus = shift;			# Time to calculate from.

	my %rr;					# Rollrec hash.
	my $rrr;				# Reference to rollrec.

	my $zonefile;				# Zone file.
	my @szstat;				# stat() info for signed zone.
	my $maxttl;				# Zone's maximum TTL value.
	my $phstart;				# Start of zone's phase.

	my $endtime;				# End-date in seconds.
	my $timediff;				# Time until expiration.

	#
	# Get the zone's rollrec.
	#
	$rrr = rollrec_fullrec($rrn);
	%rr  = %$rrr;

	#
	# Get a few fields from the rollrec.
	#
	$zonefile = $rrr->{'zonefile'};
	$phstart  = $rrr->{'phasestart'};

	#
	# If we're not in rollover, the event time is calculated based
	# on key lifetime.
	# If we are in rollover, the event time is calculated based on
	# the maximum TTL of the zone's resource records.
	#
	if(($rr{'kskphase'} == 0) && ($rr{'zskphase'} == 0))
	{
		my $krf;			# Zone's keyrec filename.
		my $krr;			# Zone's keyrec reference.
		my @keys;			# Zone's key lists.
		my $kwait;			# Time until KSK rollover.
		my $zwait;			# Time until ZSK rollover.
		my $kmin = -1;			# Minimum KSK lifetime.
		my $zmin = -1;			# Minimum ZSK lifetime.

		#
		# Get the zone's keyrec.
		#
		$krf = $rrr->{'keyrec'};
		keyrec_read($krf);
		keyrec_close();

		$krr = keyrec_fullrec($rrr->{'zonename'});

		#
		# Find the minimum key lifespan for the keys in the zone's
		# Current KSK set.
		#
		@keys = split / /, keyrec_signset_keys($rrr->{'zonename'}, 'kskcur');
		foreach my $key (@keys)
		{
			my $life = keyrec_recval($key,'ksklife');

			$kmin = $life if($kmin == -1);
			$kmin = $life if($life < $kmin);
		}

		#
		# Find the minimum key lifespan for the keys in the zone's
		# Current ZSK set.
		#
		@keys = split / /, keyrec_signset_keys($rrr->{'zonename'}, 'zskcur');
		foreach my $key (@keys)
		{
			my $life = keyrec_recval($key,'zsklife');

			$zmin = $life if($zmin == -1);
			$zmin = $life if($life < $zmin);
		}

		#
		# Figure out how long we have until the next rollover.
		#
		$kwait = ($rrr->{'ksk_rollsecs'} + $kmin) - $cronus;
		$zwait = ($rrr->{'zsk_rollsecs'} + $zmin) - $cronus;

		#
		# Return the minimum time-until-rollover.
		#
		$timediff = ($kwait < $zwait) ? $kwait : $zwait;
		return($timediff);
	}

	#
	# If the signed zonefile hasn't been modified since we last
	# checked, we'll use the maximum TTL we saved the last time
	# we noticed it had been updated.
	#
	@szstat = stat($zonefile);
	if($szstat[8] > $queue_signtimes{$rrn})
	{
		#
		# Get the signed zonefile's maximum TTL and double it.
		#
		$maxttl	 = queue_maxttl($zonefile);
		$maxttl	*= 2;

		#
		# Squirrel away some values we'll use later.
		#
		$queue_maxttls{$rrn}	= $maxttl;
		$queue_signtimes{$rrn}	= $szstat[8];
	}
	else
	{
		$maxttl = $queue_maxttls{$rrn};
		$queue_scanskips++;
	}

	#
	# Get the zone's "next event" time by adding the start of its
	# last phase-change to twice the maximum TTL.
	#
	$endtime  = str2time($phstart);
	$endtime += $maxttl;

	#
	# Find the difference between the next-event time and now.
	#
	$timediff = $endtime - $cronus;

	return($timediff)
}

#-----------------------------------------------------------------------------
# Routine:	queue_maxttl()
#
# Purpose:	Determine the maximum TTL for the resource records in the zone
#		we were given.  The max TTL will be returned to the caller.
#
sub queue_maxttl
{
	my $signdb = shift;		# Signed zone's db filename.

	my $rrsref;			# Reference to zone's resource records.
	my @rrs;			# Zone's resource records.
	my $numrrs;			# Number of resource records in zone.
	my $rrref;			# Reference to a resource record.
	my %rr;				# A resource record to examine.
	my $maxttl = -1;		# Zone's maximum time-to-live value.
	my $ttl;			# Time-to-live value from a record.

	#
	# Ensure the zone file exists and is readable.
	#
	if((! -e $signdb) || (! -r $signdb))
	{
		return(-1);
	}

	#
	# Get the zone's resource record collection.
	#
	$rrsref = dt_parse_zonefile(file => $signdb);

	#
	# Get the number of resource records in the zone.
	#
	@rrs = @$rrsref;
	$numrrs = @rrs;

	#
	# Look at each resource record and save the largest value.
	#
	for(my $ind=0;$ind<$numrrs;$ind++)
	{
		$rrref = $rrs[$ind];
		%rr = %$rrref;

		$ttl = $rr{'ttl'};
		$maxttl = $ttl if($ttl > $maxttl);
	}

	#
	# Return the zone's maximum TTL value to our caller.
	#
	return($maxttl);
}

#-----------------------------------------------------------------------------
# Routine:	queue_prteventtimes()
#
sub queue_prteventtimes
{
	foreach my $rrn (@queue_allzones)
	{
		my $rrr;
		my $kpflag;
		my $zpflag;

		$rrr = rollrec_fullrec($rrn);

		$kpflag = $rrr->{'kskphase'};
		$zpflag = $rrr->{'zskphase'};
		if($kpflag)
		{
			rolllog_log(LOG_ALWAYS,"","\t$rrn\t$queue_eventtimes{$rrn}\tksk expired\n");
		}
		elsif($zpflag)
		{
			rolllog_log(LOG_ALWAYS,"","\t$rrn\t$queue_eventtimes{$rrn}\tzsk expired\n");
		}
		else
		{
			rolllog_log(LOG_ALWAYS,"","\t$rrn\t$queue_eventtimes{$rrn}\tnormal\n");
		}
	}
}

#-----------------------------------------------------------------------------
# Routine:	queue_prtsooners()
#
sub queue_prtsooners
{
	my $maxind;					# Last index to check.
	my $rrn;					# Zone name.

	rolllog_log(LOG_ALWAYS,"","queue_sooners (" . @queue_sooners . " entries):\n");

	$maxind = (@queue_sooners < 30) ? @queue_sooners : 30;

	for(my $ind=0; $ind < $maxind; $ind++)
	{
		$rrn = $queue_sooners[$ind];
		rolllog_log(LOG_ALWAYS,"","    <$rrn>      $queue_eventtimes{$rrn} seconds until event\n");
	}

	$rrn = "$QUEUE_RUNSCAN";
	rolllog_log(LOG_ALWAYS,"","    <$rrn>      $queue_eventtimes{$rrn} seconds until event\n");

}

#-----------------------------------------------------------------------------
# Routine:      queue_rollevent()
#
# Purpose	Handle the rollover event for a single rollrec entry.
#
sub queue_rollevent
{
	my $rname = shift;		# Rollrec to handle.
	my $rrr;			# Reference to rollrec.
	my %rr;				# Rollrec hash.

	rolllog_log(LOG_TMI,$rname,"queue_rollevent:  rolling $rname");

	#
	# Return to our execution directory.
	#
#	rolllog_log(LOG_TMI,$rname,"execution directory:  chdir($xqtdir)");
	chdir($xqtdir);

	#
	# Ensure the logging level is set correctly.
	#
	$loglevel = $loglevel_save;

	#
	# Get the rollrec for this name.  If it doesn't have one, whinge and
	# continue to the next rollrec.
	# (This should never happen, but...)
	#
	$rrr = rollrec_fullrec($rname);
	if(!defined($rrr))
	{
		rolllog_log(LOG_ERR,$rname,"no rollrec defined for zone");
		return;
	}
	%rr = %$rrr;

	#
	# Don't do anything with skip records.
	#
	if($rrr->{'rollrec_type'} eq "skip")
	{
		rolllog_log(LOG_TMI,$rname,"is a skip rollrec");
		return;
	}

	#
	# Set the logging level to the rollrec entry's level (if it has one)
	# for the duration of processing this zone.
	#
	$loglevel_save = $loglevel;
	if(defined($rr{'loglevel'}))
	{
		my $llev;			# Logging level.

		$llev = rolllog_num($rr{'loglevel'});
		if($llev != -1)
		{
			$loglevel = $llev;
			rolllog_level($loglevel,0);
		}
		else
		{
			rolllog_log(LOG_ERR,$rname,"invalid rollrec logging level \"$rr{'loglevel'}\"");
		}
	}

	#
	# If this rollrec has a directory record, we'll move into that
	# directory for execution; if it doesn't we'll stay put.
	# If the chdir() fails, we'll skip this rollrec.
	#
	return if(chrrdir($rname,$rr{'directory'},'queue_rollevent:') == 0);

	#
	# Ensure the record has the KSK and ZSK phase fields.
	#
	if($rr{'kskphase'} == -1)
	{
		rolllog_log(LOG_TMI,$rname,"new kskphase entry");
		nextphase($rname,$rrr,0,'KSK')
	}
	if($rr{'zskphase'} == -1)
	{
		rolllog_log(LOG_TMI,$rname,"new zskphase entry");
		nextphase($rname,$rrr,0,'ZSK')
	}

	#
	# If this zone's current KSK has expired, we'll get it rolling.
	#
	if(ksk_expired($rname,$rrr,"kskcur"))
	{
		rolllog_log(LOG_TMI,$rname,"current KSK has expired\n") if($rr{'zskphase'} == 0);

		ksk_phaser($rname,$rrr);
	}
	else
	{
		rolllog_log(LOG_TMI,$rname,"current KSK still valid");
	}

	#
	# If this zone's current ZSK has expired, we'll get it rolling.
	#
	if(zsk_expired($rname,$rrr,"zskcur"))
	{
		rolllog_log(LOG_INFO,$rname,"current ZSK has expired\n") if($rr{'zskphase'} == 0);
		zsk_phaser($rname,$rrr);
	}
	else
	{
		rolllog_log(LOG_TMI,$rname,"current ZSK still valid");
	}

	#
	# If -alwayssign was specified, always sign the zone, even if we
	# didn't need to for this period.
	#

	#
	# XXX:  This could double sign if some of the above steps already
	#	signed the zone.  We should only sign if nothing was done above.
	#
	if($alwayssign)
	{
		my $krr;		# Ref to keyrec data.
		my $extraargs = "";	# Phase-dependent argument.

		#
		# This is only safe to do if we're not waiting for caches
		# to expire.
		#
		if(($rrr->{'zskphase'} != 1) &&
		   ($rrr->{'zskphase'} != 3) &&
		   ($rrr->{'kskphase'} != 1) &&
		   ($rrr->{'kskphase'} != 3))
		{
			rolllog_log(LOG_TMI,$rname, "Signing the zone $rrr->{'zonename'} (-alwayssign specified)");

			#
			# Check value and file existence, etc.
			#
			$krr = opts_zonekr($rrr->{'keyrec'},$rrr->{'zonename'});

			#
			# Tell the signer what phase we're in so it
			# can decide what key to use.
			#
			if($rrr->{'zskphase'} > 0)
			{
				$extraargs = "ZSK phase $rrr->{'zskphase'}";
			}
			elsif($rrr->{'kskphase'} > 0)
			{
				$extraargs = "KSK phase $rrr->{'kskphase'}";
			}

			#
			# KSK signing uses double-signature so nothing is needed
			# since zonesigner always uses all available keys.
			#

			#
			# Actually do the signing.
			#
			my $ret = signer($rname, $extraargs, $krr);
			if($ret)
			{
				rolllog_log(LOG_ERR, "signing $rname failed!");
			}
		}
		else
		{
			rolllog_log(LOG_TMI,$rname, "Not signing the zone $rrr->{'zonename'} (-alwayssign was specified but we're awaiting cache timeouts so we can't sign now)");
		}
	}

	#
	# Reset the logging level is set correctly.
	#
	$loglevel = $loglevel_save;
	rolllog_level($loglevel,0);
}

#=============================================================================
#=============================================================================
#=============================================================================
#=============================================================================
#=============================================================================


###############################################################################

#-----------------------------------------------------------------------------
# Routine:	zsk_expired()
#
# Purpose:	This routine returns a boolean indicating if the specified
#		zone has an expired ZSK key of the given type.
#
#		The zone's keyrec file name is taken from the given rollrec
#		entry.  The keyrec file is read and the zone's entry found.
#		The key keyrec of the specified key type (currently, just
#		"zskcur") is pulled from the keyrec file.  Each key in the
#		named signing set will be checked.
#
#		Key expiration is determined by comparing the key keyrec's
#		gensecs field to the current time.  The key hasn't expired
#		if the current time is less than the gensecs; the key has
#		expired if the current time is greater than the gensecs.
#
sub zsk_expired
{
	my $rname = shift;			# Name of rollrec rec.
	my $rrr = shift;			# Reference to rollrec.
	my $keyset = shift;			# Key to check.

	my %rr;					# Rollrec hash.

	my $krname;				# Name of keyrec.
	my $krec;				# Keyrec reference.
	my %set;				# Keyrec hash.

	my $khr;				# Ref to key's hash.
	my %kh;					# Key's hash.

	my @signset;				# Key's signing set.

	my $chronostr;				# Text expiration time.
	my $cronus;				# Current time.
	my $expired = 0;			# Expired-zone flag.
	my $minlife = -1;			# Minimum ZSK life.
	my $minhr;				# Ref to min-key's keyrec.
	my $rolltime;				# Time roll should occur.
	my $starter;				# Time 0 for calc'ing rolltime.
	my $waitsecs;				# Time to expiration.

	#
	# Get the rollrec's hash.
	#
	%rr = %$rrr;

	#
	# If this zone is in the middle of KSK rollover, we'll stop
	# working on ZSK rollover.
	#
	if($rr{'kskphase'} > 0)
	{
		my $pstr;				# Phase string.
		$pstr = ": " . rollmgr_get_phase('KSK', $rr{'kskphase'});
		$pstr = '' if($pstr eq ": ");

		rolllog_log(LOG_TMI,$rname,"in KSK rollover (phase $rr{'kskphase'}$pstr); not attempting ZSK rollover");
		return(0);
	}

	#
	# If this zone is in the middle of rollover processing, we'll
	# immediately assume the key has expired.
	#
	return(1) if($rr{'zskphase'} > 0);

	#
	# Get the rollin' key's keyrec for our zone.
	#
	$krname = $rr{'keyrec'};
	$krec = zonekeykr($rname,$rr{'zonename'},$krname,$keyset);
	if($krec == 0)
	{
		rolllog_log(LOG_ERR,$rname,"unable to find a keyrec for ZSK \"$keyset\" in \"$krname\"");
		return(0);
	}
	%set   = %$krec;

	#
	# Make sure we've got an actual set keyrec and keys.
	#
	if($set{'keyrec_type'} ne 'set')
	{
		rolllog_log(LOG_ERR,$rname,"\"$keyset\"'s keyrec is not a set keyrec");
		return(0);
	}
	if(!defined($set{'keys'}) || ($set{'keys'} eq ""))
	{
		rolllog_log(LOG_ERR,$rname,"\"$krname\" has no keys; unable to check expiration");
		return(0);
	}

	#
	# Ensure that there's a signing set.
	#
	@signset = split / /, $set{'keys'};
	if(@signset == 0)
	{
		rolllog_log(LOG_ERR,$rname,"\"$krname\" has no keys; unable to check expiration");
		return(0);
	}

	#
	# Check each key in the signing set to find the one with the shortest
	# lifespan.  We'll calculate rollover times based on that.
	#
	foreach my $keyname (@signset)
	{
		my $keylife;			# Key's life value.

		#
		# Get the key's keyrec hash.
		#
		$khr = keyrec_fullrec($keyname);
		next if(!$khr);
		%kh = %$khr;

		#
		# Ensure that required keyrec field exists.
		#
		if(!defined($kh{"zsklife"}))
		{
			rolllog_log(LOG_ERR,$rname,"keyrec does not contain a zsklife record");
			return(0);
		}

		#
		# If this key's life is shorter than any we've seen, it
		# becomes the new minimum.  If this is the first key we're
		# looking at, we'll save it as the minimum.
		#
		$keylife = $kh{'zsklife'};
		if($minlife == -1)
		{
			$minlife = $keylife;
			$minhr	 = $khr;
		}
		else
		{
			if($keylife < $minlife)
			{
				$minlife = $keylife;
				$minhr	 = $khr;
			}
		}
	}

if(!defined($minhr))
{
rolllog_log(LOG_ALWAYS,$rname,"--------> zsk_expired:  couldn't find minimum key keyrec");
return(0);
}

	#
	# Get the minimum key's keyrec hash.
	#
	%kh = %$minhr;

	#
	# Get the start time on which the expiration time is based.
	#
	if($zrollmethod == $RM_ENDROLL)
	{
		#
		# Ensure that required rollrec field exists.
		#
		if(!defined($rr{'zsk_rollsecs'}))
		{
			rolllog_log(LOG_INFO,$rname,"creating new zsk_rollsecs record and forcing ZSK rollover");
			rollstamp($rname,'zsk');
			return(0);
		}
		$starter = $rr{'zsk_rollsecs'};
	}
	elsif($zrollmethod == $RM_KEYGEN)
	{
		#
		# Ensure that required keyrec field exists.
		#
		if(!defined($kh{'keyrec_gensecs'}))
		{
			rolllog_log(LOG_ERR,$rname,"keyrec does not contain a keyrec_gensecs record");
			return(0);
		}
		$starter = $kh{'keyrec_gensecs'};
	}
	elsif($zrollmethod == $RM_STARTROLL)
	{
		rolllog_log(LOG_ERR,$rname,"RM_STARTROLL not yet implemented");
		return(0);
	}

	#
	# Don't roll immediately if the rollrec file was newly created.
	#
	if($starter == 0)
	{
		rollstamp($rname,'zsk');
		return(0);
	}

	#
	# Get the key's expiration time.
	#
	$rolltime = $starter + $minlife;

	#
	# Get the current time.
	#
#	$cronus	 = time;
	$cronus = gmtime(time);
	$cronus = str2time($cronus);

	#
	# Figure out the log message we should give.
	#
	$waitsecs = $rolltime - $cronus;
	if($waitsecs >= 0)
	{
		$chronostr = timetrans($waitsecs);
		rolllog_log(LOG_EXPIRE,$rname,"        expiration in $chronostr\n");
		display("expiration \"$rname\" 0 ZSK $waitsecs");
	}
	else
	{
		$waitsecs = $cronus - $rolltime;
		$chronostr = timetrans($waitsecs);
		rolllog_log(LOG_EXPIRE,$rname,"        expired $chronostr ago\n");
		display("zskphase \"$rname\" 0");
	}

	#
	# The keyset has expired if the current time has passed the keyset's
	# lifespan.
	# The keyset has not expired if the keyset's lifespan has yet to reach
	# the current time.
	#
	$expired = 1 if($cronus > $rolltime);

	#
	# If the keyset has not expired and the zone file has been modified,
	# we'll sign the zone file.  We won't created any new keys or take
	# any other rollover actions.
	#
	zonemodified($rrr,$rname) if(!$expired);

	#
	# Return the success/failure indication.
	#
	return($expired);
}

#-----------------------------------------------------------------------------
# Routine:	zsk_phaser()
#
# Purpose:	Move the specified zone's ZSKs through the appropriate phases.
#
sub zsk_phaser
{
	my $rname = shift;		# Zone name.
	my $rrr = shift;		# Reference to rollrec.

	my $ph;				# Zone's current rollover phase.

	#
	# Get this rollrec record's current phase.
	#
	$ph = $rrr->{'zskphase'};

	#
	# Work on this rollrec's phase.
	#
	$ph = phasecmd(\&nextphase,$rname,$rrr,'normal','ZSK')	if($ph == 0);
	$ph = phasecmd(\&phasewait,$rname,$rrr,'zsk1')		if($ph == 1);
	$ph = phasecmd(\&zsk_phase2,$rname,$rrr,'zsk2')		if($ph == 2);
	$ph = phasecmd(\&phasewait,$rname,$rrr,'zsk3')		if($ph == 3);
	$ph = phasecmd(\&zsk_phase4,$rname,$rrr,'zsk4')		if($ph == 4);
}

#-----------------------------------------------------------------------------
# Routine:	zsk_phase2()
#
# Purpose:	Perform the phase 2 steps of the ZSK rollover.  These are:
#
#			- sign the zone with the KSK and Published ZSK
#			- reload the zone
#			- wait for old zone data to expire
#
sub zsk_phase2
{
	my $rname = shift;		# Name of rollrec.
	my $rrr = shift;		# Reference to rollrec.

	my %rr = %$rrr;			# Rollrec hash.

	my $krf;			# Rollrec's keyrec name.
	my %krf;			# Keyrec hash.
	my $krr;			# Keyrec reference.

	my $ret;			# Result from command executions.

	#
	# Get the rollrec's associated keyrec file and ensure that it exists.
	#
	$krf = $rr{'keyrec'};
	if(!$krf  || ($krf eq ""))
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 2:  no keyrec for zone specified");
		return(2);
	}
	if(! -e $krf)
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 2:  keyrec \"$krf\" for zone does not exist");
		return(2);
	}

	#
	# Get the keyrec.
	#
	$krr = opts_zonekr($krf,$rr{'zonename'});
	%krf = %$krr;

	#
	# Sign the zone with the Published ZSK.
	#
	$ret = signer($rname,"ZSK phase 2",$krr);
	if($ret)
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 2:  unable to sign zone with the Published ZSK");
		return(-1);
	}

	#
	# Re-read the keyrec file, since it was rewritten by zonesigner.
	# Also, we'll get rid of any changes we've made to the keyrec.
	# (This *shouldn't* be a problem; further testing will tell...)
	#
	keyrec_discard();
	$ret = keyrec_read($krf);
	if($ret < 0)
	{
		if($ret == -3)
		{
			rolllog_log(LOG_ERR,$rname,"ZSK phase 2:  keyname collision in keyrec \"$krf\"; marking $rname as skipped");
		}
		else
		{
			rolllog_log(LOG_ERR,$rname,"ZSK phase 2:  unable to read keyrec \"$krf\"; marking $rname as skipped");
		}
		skipnow($rname);
		return(-1);
	}

	#
	# Update the timestamp in the zone's keyrec.
	#
	keyrec_settime("zone",$rrr->{'zonename'});
	keyrec_write();

	#
	# Reload the zone.
	#
	$ret = loadzone($rndc,$rname,$rr{'zonename'},"ZSK phase 2");
	if($ret != 0)
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 2:  unable to reload zone, rc - $ret");
	}

	#
	# Return the next phase number.
	#
	return(3);
}

#-----------------------------------------------------------------------------
# Routine:	zsk_phase4()
#
# Purpose:	Perform the phase 4 steps of the rollover.  These are:
#
#			- juggle the ZSKs in the zone's keyrec
#			- sign the zone with the KSK and new current ZSK
#			- reload the zone
#			- return the zone to the pre-rollover state
#
sub zsk_phase4
{
	my $rname = shift;		# Name of rollrec.
	my $rrr = shift;		# Reference to rollrec.

	my %rr = %$rrr;			# Rollrec hash.

	my $krf;			# Rollrec's keyrec name.
	my $krr;			# Keyrec reference.

	my $ret;			# Result from command executions.

	#
	# Get the rollrec's associated keyrec file and ensure that it
	# exists.
	#
	$krf = $rr{'keyrec'};
	if(!$krf  || ($krf eq ""))
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 4:  no keyrec for zone specified");
		return(-1);
	}
	if(! -e $krf)
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 4:  keyrec \"$krf\" for zone does not exist");
		return(-1);
	}

	#
	# Get the keyrec.
	#
	rolllog_log(LOG_TMI,$rname,"keyrec file is $krf");
	$krr = opts_zonekr($krf,$rr{'zonename'});

	#
	# Adjust ZSKs in the zone's keyrec.
	#
	$ret = signer($rname,"ZSK phase 4a",$krr);
	if($ret)
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 4:  unable to adjust ZSK keyrec");
		return(-1);
	}

	#
	# Sign the zone with the Current ZSK.
	#
	$ret = signer($rname,"ZSK phase 4b",$krr);
	if($ret)
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 4:  unable to sign zone with the Current ZSK");
		return(-1);
	}

	#
	# Reload the zone.
	#
	$ret = loadzone($rndc,$rname,$rr{'zonename'},"ZSK phase 4");
	if($ret != 0)
	{
		rolllog_log(LOG_ERR,$rname,"ZSK phase 4:  unable to reload zone, rc - $ret");
	}

	#
	# Set a timestamp for the completion of the ZSK roll.
	#
	rollstamp($rname,'zsk');
	clearzoneerr($rname,$rrr);
	return(5);
}

###############################################################################

#-----------------------------------------------------------------------------
# Routine:	ksk_expired()
#
# Purpose:	This routine determines if the specified zone has an expired
#		KSK and returns a boolean indicating this.  The given KSK
#		type is checked for expiration.
#
#		The zone's keyrec file name is taken from the given rollrec
#		entry.  The keyrec file is read and the zone's entry found.
#		The key keyrec of the specified key type (currently, just
#		"kskcur") is pulled from the keyrec file.  Each key in the
#		named signing set will be checked.
#
#		Key expiration is determined by comparing the key keyrec's
#		gensecs field to the current time.  The key hasn't expired
#		if the current time is less than the gensecs; the key has
#		expired if the current time is greater than the gensecs.
#
sub ksk_expired
{
	my $rname = shift;			# Name of rollrec rec.
	my $rrr = shift;			# Reference to rollrec.
	my $keyset = shift;			# Key to check.

	my %rr;					# Rollrec hash.

	my $krname;				# Name of keyrec.
	my $krec;				# Keyrec reference.
	my %set;				# Keyrec hash.

	my $khr;				# Ref to key's hash.
	my %kh;					# Key's hash.

	my @signset;				# Key's signing set.

	my $chronostr;				# Text expiration time.
	my $cronus;				# Current time.
	my $expired = 0;			# Expired-zone flag.
	my $minlife = -1;			# Minimum KSK life.
	my $minhr;				# Ref to min-key's keyrec.
	my $rolltime;				# Time roll should occur.
	my $starter;				# Time 0 for calc'ing rolltime.
	my $waitsecs;				# Time to expiration.

	#
	# Get the rollrec's hash.
	#
	%rr = %$rrr;

	#
	# If this zone is in the middle of ZSK rollover, we'll stop
	# working on KSK rollover.
	#
	if($rr{'zskphase'} > 0)
	{
		my $pstr;				# Phase string.

		$pstr = ": " . rollmgr_get_phase('KSK', $rr{'kskphase'});
		$pstr = '' if($pstr eq ": ");

		rolllog_log(LOG_TMI,$rname,"in ZSK rollover (phase $rr{'zskphase'}$pstr); not attempting KSK rollover");
		return(0);
	}

	#
	# If this zone is in the middle of rollover processing, we'll
	# immediately assume the key has expired.
	#
	return(1) if($rr{'kskphase'} > 0);

	#
	# Get the rollin' key's keyrec for our zone.
	#
	$krname = $rr{'keyrec'};
	$krec = zonekeykr($rname,$rr{'zonename'},$krname,$keyset);
	if($krec == 0)
	{
		rolllog_log(LOG_ERR,$rname,"unable to find a KSK keyrec for \"$keyset\" in \"$krname\"");
		return(0);
	}
	%set   = %$krec;

	#
	# Make sure we've got an actual set keyrec and keys.
	#
	if($set{'keyrec_type'} ne 'set')
	{
		rolllog_log(LOG_ERR,$rname,"\"$keyset\"'s keyrec is not a set keyrec");
		return(0);
	}
	if(!defined($set{'keys'}) || ($set{'keys'} eq ""))
	{
		rolllog_log(LOG_ERR,$rname,"\"$krname\" has no keys; unable to check expiration");
		zoneerr($rname,$rrr);
		return(0);
	}

	#
	# Ensure that there's a signing set.
	#
	@signset = split / /, $set{'keys'};
	if(@signset == 0)
	{
		rolllog_log(LOG_ERR,$rname,"\"$krname\" has no keys; unable to check expiration");
		zoneerr($rname,$rrr);
		return(0);
	}

	#
	# Check each key in the signing set to find the one with the shortest
	# lifespan.  We'll calculate rollover times based on that.
	#
	foreach my $keyname (@signset)
	{
		my $keylife;			# Key's life value.

		#
		# Get the key's keyrec hash.
		#
		$khr = keyrec_fullrec($keyname);
		if($khr == 0)
		{
			rolllog_log(LOG_ERR,$rname,"unable to find key \"$keyname\" in keyrec; this should not have happened");
			zoneerr($rname,$rrr);
			return(0);
		}
		%kh = %$khr;

		#
		# Ensure that required keyrec field exists.
		#
		if(!defined($kh{"ksklife"}))
		{
			rolllog_log(LOG_ERR,$rname,"keyrec does not contain a ksklife record");
			zoneerr($rname,$rrr);
			return(0);
		}

		#
		# If this key's life is shorter than any we've seen, it
		# becomes the new minimum.  If this is the first key we're
		# looking at, we'll save it as the minimum.
		#
		$keylife = $kh{'ksklife'};
		if($minlife == -1)
		{
			$minlife = $keylife;
			$minhr	 = $khr;
		}
		else
		{
			if($keylife < $minlife)
			{
				$minlife = $keylife;
				$minhr	 = $khr;
			}
		}
	}

	#
	# Get the minimum key's keyrec hash.
	#
	%kh = %$minhr;

	#
	# Get the start time on which the expiration time is based.
	#
	if($krollmethod == $RM_ENDROLL)
	{
		#
		# Ensure that required rollrec field exists.
		#
		if(!defined($rr{'ksk_rollsecs'}))
		{
			rolllog_log(LOG_INFO,$rname,"creating new ksk_rollsecs record and forcing KSK rollover");
			rollstamp($rname,'ksk');
			return(0);
		}
		$starter = $rr{'ksk_rollsecs'};
	}
	elsif($krollmethod == $RM_KEYGEN)
	{
		#
		# Ensure that required keyrec field exists.
		#
		if(!defined($kh{'keyrec_gensecs'}))
		{
			rolllog_log(LOG_ERR,$rname,"keyrec does not contain a keyrec_gensecs record");
			return(0);
		}
		$starter = $kh{'keyrec_gensecs'};
	}
	elsif($krollmethod == $RM_STARTROLL)
	{
		rolllog_log(LOG_ERR,$rname,"RM_STARTROLL not yet implemented");
		return(0);
	}

	#
	# Don't roll immediately if the rollrec file was newly created.
	#
	if($starter == 0)
	{
		rollstamp($rname,'ksk');
		return(0);
	}

	#
	# Get the key's expiration time.
	#
	$rolltime = $starter + $minlife;

	#
	# Get the current time.
	#
	$cronus = gmtime(time);
	$cronus = str2time($cronus);

	#
	# Figure out the log message we should give.
	#
	$waitsecs = $rolltime - $cronus;
	if($waitsecs >= 0)
	{
		$chronostr = timetrans($waitsecs);
		rolllog_log(LOG_EXPIRE,$rname,"        expiration in $chronostr\n");
		display("expiration \"$rname\" 0 KSK $waitsecs");
	}
	else
	{
		$waitsecs = $cronus - $rolltime;
		$chronostr = timetrans($waitsecs);
		rolllog_log(LOG_EXPIRE,$rname,"        expired $chronostr ago\n");
		display("kskphase \"$rname\" 0");
	}

	#
	# The key has expired if the current time has passed the key's lifespan.
	# The key has not expired if the key's lifespan has yet to reach the
	# current time.
	#
	$expired = 1 if($cronus > $rolltime);

	#
	# If the keyset has not expired and the zone file has been modified,
	# we'll sign the zone file.  We won't created any new keys or take
	# any other rollover actions.
	#
	zonemodified($rrr,$rname) if(!$expired);

	#
	# Return the success/failure indication.
	#
	return($expired);
}

#-----------------------------------------------------------------------------
# Routine:	ksk_phaser()
#
# Purpose:	Move the specified zone's KSKs through the appropriate phases.
#
#		Phases in rollover:
#			1 - wait for cache data to expire
#			2 - generate a new (published) KSK and load zone
#			3 - wait for the old DNSKEY RRset to expire from caches
#			4 - transfer new keyset to the parent
#			5 - wait for parent to publish DS record
#			6 - wait for cache data to expire
#			7 - roll the KSKs and load the zone
#
#
sub ksk_phaser
{
	my $rname = shift;		# Zone name.
	my $rrr	  = shift;		# Reference to rollrec.
	my $ph;				# Zone's current rollover phase.

	#
	# Get this rollrec record's current phase.
	#
	$ph = $rrr->{'kskphase'};

	#
	# Work on this rollrec's phase.
	#
	$ph = phasecmd(\&nextphase,$rname,$rrr,'normal','KSK')	if($ph == 0);
	$ph = phasecmd(\&phasewait, $rname,$rrr,'ksk1')		if($ph == 1);
	$ph = phasecmd(\&ksk_phase2,$rname,$rrr,'ksk2')		if($ph == 2);
	$ph = phasecmd(\&phasewait, $rname,$rrr,'ksk3')		if($ph == 3);
	$ph = phasecmd(\&ksk_phase4,$rname,$rrr,'ksk4')		if($ph == 4);
	$ph = phasecmd(\&ksk_phase5,$rname,$rrr,'ksk5')		if($ph == 5);
	$ph = phasecmd(\&phasewait, $rname,$rrr,'ksk6')		if($ph == 6);
	$ph = phasecmd(\&ksk_phase7,$rname,$rrr,'ksk7')		if($ph == 7);
}

#-----------------------------------------------------------------------------
# Routine:	ksk_phase2()
#
# Purpose:	Perform the phase 2 steps of the KSK rollover.  These are:
#			- generate a new KSK to be the Published KSK
#			- add the new Published KSK to the zone file
#			- re-sign the zone file with the Current KSK, the (new)
#			  Published KSK, and the Current ZSK
#			- reload the zone file
#		The first three steps are handled by zonesigner.
#
sub ksk_phase2
{
	my $rname = shift;		# Name of rollrec.
	my $rrr = shift;		# Reference to rollrec.

	my %rr = %$rrr;			# Rollrec hash.

	my $krf;			# Rollrec's keyrec name.
	my $krr;			# Keyrec reference.

	my $ret;			# Result from command executions.

	#
	# Get the rollrec's associated keyrec file and ensure that it exists.
	#
	$krf = $rr{'keyrec'};
	if(!$krf || ($krf eq ""))
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 2:  no keyrec for zone specified");
		return(-1);
	}
	if(! -e $krf)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 2:  keyrec \"$krf\" for zone does not exist");
		return(-1);
	}

	#
	# Get the keyrec.
	#
	$krr = opts_zonekr($krf,$rr{'zonename'});

	#
	# Sign the zone with a new Published KSK.
	#
	$ret = signer($rname,"KSK phase 2",$krr);
	if($ret)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 2:  unable to sign zone with the Published KSK");
		return(-1);
	}

	#
	# Reload the zone.
	#
	$ret = loadzone($rndc,$rname,$rr{'zonename'},"KSK phase 2");
	if($ret != 0)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 2:  unable to reload zone, rc - $ret");
	}

	#
	# On to the phase 3.
	#
	return(3);
}

#-----------------------------------------------------------------------------
# Routine:	ksk_phase4()
#
# Purpose:	Perform the phase 4 steps of the KSK rollover.  These are:
#			- notify the admin that the new keyset should be
#			  transferred to the parent zone
#
#		This is currently handled by telling the admin to transfer
#		the keyset.  It would be nice to have an automated method
#		of keyset transfer; one may be added in future.
#
#
sub ksk_phase4
{
	my $rname = shift;		# Name of rollrec.
	my $rrr = shift;		# Reference to rollrec.

	my $ret;			# Return code from mail
	my $auto = 0;			# Automatic-transfer flag.

	if($auto)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 4:  automatic keyset transfer not yet supported");
		return(-1);
	}
	elsif(($dtconf{'admin-email'}  eq 'nomail') ||
	      ($rrr->{'administrator'} eq 'nomail'))
	{
		rolllog_log(LOG_INFO,$rname,"KSK phase 4:  admin must transfer keyset");
	}
	else
	{
		my $subject;			# Subject for email to admin.
		my $msg;			# Message to admin.
		my $admin;			# Zone's administrator.

		$subject = "assistance needed with KSK rollover of zone $rname";
		$msg = "
The zone \"$rname\" is in the middle of KSK rollover.  In order for rollover
to continue, its keyset must be transferred to its parent.";

		#
		# If this zone has its own administrator listed, we won't use
		# the default.
		#
		if(exists($rrr->{'administrator'}))
		{
			$admin = $rrr->{'administrator'};
			$ret = dt_adminmail($subject,$msg,$admin);
		}
		else
		{
			$ret = dt_adminmail($subject,$msg);
		}

		if($ret == 1)
		{
			rolllog_log(LOG_INFO,$rname,"KSK phase 4:  admin notified to transfer keyset");
		}
		else
		{
			rolllog_log(LOG_INFO,$rname,"KSK phase 4:  admin must transfer keyset");
			rolllog_log(LOG_ERR,$rname,"KSK phase 4:  invalid admin; unable to notify about transferring keyset");
		}
	}

	#
	# Pressing on to phase 5.
	#
	return(5);
}

#-----------------------------------------------------------------------------
# Routine:	ksk_phase5()
#
# Purpose:	Perform the phase 5 steps of the KSK rollover.  These are:
#			- wait for the parent to publish the DS record
#
#		This is currently handled by the admin telling us that the
#		DS record has been published.  It would be nice to have an
#		automated method of determining this; one may be added in
#		future.
#
sub ksk_phase5
{
	my $rname = shift;		# Name of rollrec.
	my $rrr = shift;		# Reference to rollrec.

	my $auto = 0;			# Automatic-transfer flag.

	if($auto)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 5:  automatic DS-record determination not yet supported");
		return(-1);
	}
	else
	{
		rolllog_log(LOG_INFO,$rname,"KSK phase 5:  waiting for parental publication of DS record");
	}

	return(5);
#	return(6);
}

#-----------------------------------------------------------------------------
# Routine:	ksk_phase7()
#
# Purpose:	Perform the phase 7 steps of the KSK rollover.  These are:
#			- delete the Current KSK from the zone file
#			- move the Published KSK to be the Current KSK
#			- sign the zone file with the (new) Current KSK
#			- load the zone
#			- archive keys that need to be archived
#			- move to phase 0
#			- save a timestamp for rollover completion
#
#		These first three steps are handled by zonesigner.
#
sub ksk_phase7
{
	my $rname = shift;		# Name of rolling rollrec.
	my $rrr = shift;		# Reference to zone's rollrec record.

	my %rr = %$rrr;			# Rollrec hash.
	my $krf;			# Rollrec's keyrec name.
	my $krr;			# Keyrec reference.
	my $zname;			# Name of rolling zone.
	my $keyarch_cmd;		# Keyarch command string.

	my $ret;			# Result from command executions.

	#
	# Get the rollrec's associated keyrec file and ensure that it exists.
	#
	$krf = $rr{'keyrec'};
	if(!$krf || ($krf eq ''))
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 7:  no keyrec for zone specified");
		return(-1);
	}
	if(! -e $krf)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 7:  keyrec \"$krf\" for zone does not exist");
		return(-1);
	}

	#
	# Get the keyrec.
	#
	$krr = opts_zonekr($krf,$rr{'zonename'});

	#
	# Roll the Published KSK to the Current KSK.
	#
	$ret = signer($rname,'KSK phase 7',$krr);
	if($ret)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 7:  unable to roll the Published KSK to the Current KSK");
		return(-1);
	}

	#
	# Reload the zone.
	#
	$ret = loadzone($rndc,$rname,$rr{'zonename'},"KSK phase 7");
	if($ret != 0)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 7:  unable to reload zone, rc - $ret");
	}

	#
	# Set up the keyarch command we'll be executing.
	#
	$zname = $rr{'zonename'};
	$keyarch_cmd = "$keyarch -dtconf $dtcf -zone $zname $krf -verbose";

	rolllog_log(LOG_TMI,$rname,"keyarch:  running <$keyarch_cmd>");
	$ret = runner($rname,"$keyarch_cmd",$krf,1,1);
	if($ret < 0)
	{
		rolllog_log(LOG_ERR,$rname,"KSK phase 7:  unable to archive KSK keys, rc - $ret");

		zoneerr($rname,$rrr);
		return(-1);
	}
	else
	{
		rolllog_log(LOG_INFO,$rname,"KSK phase 7:  zone, key files archived");
		clearzoneerr($rname,$rrr);
	}

	#
	# Set a timestamp for the completion of the KSK roll.
	#
	rollstamp($rname,'ksk');

	#
	# Returning to normal rollover state.
	#
	return(8);
}

###############################################################################

#-----------------------------------------------------------------------------
# Routine:	maxttl()
#
# Purpose:	Calculate the zone's maximum TTL value, based on the largest
#		TTL in its zone file.
#
sub maxttl
{
	my $signdb = shift;		# Signed zone's db filename.

	my $rrsref;			# Reference to zone's resource records.
	my @rrs;			# Zone's resource records.
	my $numrrs;			# Number of resource records in zone.
	my $rrref;			# Reference to a resource record.
	my %rr;				# A resource record to examine.
	my $maxttl = -1;		# Zone's maximum time-to-live value.
	my $ttl;			# Time-to-live value from a record.

	#
	# Ensure the zone file exists.
	#
	if(! -e $signdb)
	{
		rolllog_log(LOG_ERR,$signdb,"zone file \"$signdb\" does not exist");
		return(-1);
	}

	#
	# Get the zone's resource record collection.
	#
	$rrsref = dt_parse_zonefile(file => $signdb);

	#
	# Get the number of resource records in the zone.
	#
	@rrs = @$rrsref;
	$numrrs = @rrs;

	#
	# Look at each resource record and save the largest value.
	#
	for(my $ind=0;$ind<$numrrs;$ind++)
	{
		$rrref = $rrs[$ind];
		%rr = %$rrref;

		$ttl = $rr{'ttl'};
		$maxttl = $ttl if($ttl > $maxttl);
	}

	#
	# Return the zone's maximum TTL value to our caller.
	#
	return($maxttl);
}

#-----------------------------------------------------------------------------
# Routine:	ttlexpire()
#
# Purpose:	Returns a boolean indicating if we can move to the next phase
#		of rollover.  This is calculated by adding twice the TTL
#		length to the time we entered this phase.  If this is greater
#		than the current time, then we must wait a bit longer.  If
#		this is less than the current time, then we can proceed to
#		the next rollover phase.
#
# Return Values:
#		0 - Zone's expiry date has not passed.
#		1 - Zone's expiry date has passed.
#
sub ttlexpire
{
	my $rname   = shift;			# Name of rollrec.
	my $rrr	    = shift;			# Reference to rollrec.
	my $phase   = shift;			# Zone's current phase.
	my $keytype = shift;			# Type of key.

	my $phasedesc = rollmgr_get_phase($keytype, $phase);

	my %rr;					# Rollrec hash.

	my $zonefile;				# Zone file.
	my $maxttl;				# Zone's maximum TTL value.
	my $phstart;				# Start of zone's phase.

	my $curtime;				# Current time string.
	my $curtempus;				# Current time in seconds.
	my $endtempus;				# End-date in seconds.

	my $timediff;				# Time until expiration.
	my $tdstr;				# String of timediff.

	#
	# Get a few fields from the rollrec.
	#
	%rr = %$rrr;
	$zonefile = $rr{'zonefile'};
	$phstart  = $rr{'phasestart'};

	#
	# Get the signed zonefile's maximum TTL and save it into the
	# rollrec.  We'll then double it as a safety margin.
	#
	$maxttl	= maxttl($zonefile);
	rollrec_setval($rname,"maxttl",$maxttl);
	$maxttl	*= 2;

	#
	# Get the current time in seconds.
	#
	$curtime = gmtime;
	$curtempus = str2time($curtime);

	#
	# Get the phase's end time by adding its start time (in seconds)
	# to the TTL.
	#
	$endtempus = str2time($phstart);
	$endtempus += $maxttl;

	#
	# Give any desired verbose output.
	#
	if($verbose)
	{
		my $endtime;				# End-date string.

		$endtime = ctime($endtempus);
		chomp $endtime;

		rolllog_log(LOG_TMI,$rname,"$keytype phase $phase rollover TTL check");
		rolllog_log(LOG_TMI,$rname,"$keytype phase $phase endtime\t$endtime");
		rolllog_log(LOG_TMI,$rname,"$keytype phase $phase curtime\t$curtime");
	}

	#
	# Return success if we've passed the zone's adjusted end-date.
	# Return failure (not expired) if the zone's adjusted end-date
	# is in the future.
	#
	return(1) if($curtempus >= $endtempus);

	$timediff = $endtempus - $curtempus;
	$tdstr = timetrans($timediff);

	$phasedesc = " ($phasedesc)";
	$phasedesc = '' if($phasedesc eq ' ()');

	rolllog_log(LOG_INFO,$rname,"$keytype phase $phase$phasedesc; cache expires in $tdstr");
	display("expiration \"$rname\" $phase $keytype $timediff");

	return(0)
}

#-----------------------------------------------------------------------------
# Routine:	holddownexpire()
#
# Purpose:	Returns a boolean indicating if we can move to the next phase
#		of rollover based on the hold-down timer of RFC5011,
#		which is 30 days long.
#
# Return Values:
#		0 - Zone's hold-down timer is still active.
#		1 - Zone's hold-down timer date/time has passed.
#
sub holddownexpire
{
	my $rname   = shift;			# Name of rollrec.
	my $rrr	    = shift;			# Reference to rollrec.
	my $phase   = shift;			# Zone's current phase.
	my $keytype = shift;			# Type of key.

	my $phasedesc = rollmgr_get_phase($keytype, $phase);

	my %rr;					# Rollrec hash.

	my $zonefile;				# Zone file.
	my $maxttl;				# Zone's maximum TTL value.
	my $phstart;				# Start of zone's phase.
	my $holddowntime;			# Hold-down time.

	my $curtime;				# Current time string.
	my $curtempus;				# Current time in seconds.
	my $endtempus;				# End-date in seconds.

	my $timediff;				# Time until expiration.
	my $tdstr;				# String of timediff.

	my $addholddown;

	#
	# This is only needed for phase 3 (currently, at least.)
	#
	return(1) if($phase != 3);

	#
	# Get a few fields from the rollrec.
	#
	%rr = %$rrr;
	$zonefile = $rr{'zonefile'};
	$phstart  = $rr{'phasestart'};

	#
	# By default, we use a hold-down time of 60 days which is twice what
	# is required for validators to use as a add-hold-time (RFC5011).
	# (Ideally this should be longer and can be set by the user if needed.)
	#
	$holddowntime = dt_parse_duration($rr{'holddowntime'});

	#
	# Default to 60 days.
	# lsdnssec should change too if this default is changed.
	#
	$holddowntime ||= 2 * 30 * 24 * 60 * 60;

	#
	# Get the current time in seconds.
	#
	$curtime = gmtime;
	$curtempus = str2time($curtime);

	#
	# Get the phase's end time (in seconds) and add the hold-down.
	#
	$endtempus = str2time($phstart);
	$endtempus += $holddowntime;

	#
	# Give any desired verbose output.
	#
	if($verbose)
	{
		my $endtime;				# End-date string.

		$endtime = ctime($endtempus);
		chomp $endtime;

		rolllog_log(LOG_TMI,$rname,"$keytype phase $phase hold-down time check");
		rolllog_log(LOG_TMI,$rname,"$keytype phase $phase endtime\t$endtime");
		rolllog_log(LOG_TMI,$rname,"$keytype phase $phase curtime\t$curtime");
	}

	#
	# Return success if we've passed the zone's adjusted end-date.
	# Return failure (not expired) if the zone's adjusted end-date
	# is in the future.
	#
	return(1) if($curtempus >= $endtempus);

	$timediff = $endtempus - $curtempus;
	$tdstr = timetrans($timediff);

	$phasedesc = " ($phasedesc)";
	$phasedesc = '' if($phasedesc eq ' ()');

	rolllog_log(LOG_INFO,$rname,"$keytype phase $phase$phasedesc; hold-down timer expires in $tdstr");
	display("holddown \"$rname\" $phase $keytype $timediff");

	return(0)
}

#-----------------------------------------------------------------------------
# Routine:	rollstamp()
#
# Purpose:	This routine sets the timestamp records for a KSK or
#		ZSK roll in the rollrec file.
#
sub rollstamp
{
	my $rname  = shift;			# Rollrec name.
	my $prefix = shift;			# Key-type prefix.

	my $date;				# Date key.
	my $secs;				# Seconds key.

	my $timesecs;				# Current-time seconds count.
	my $timestr;				# Current-time string.

	#
	# Build the rollrec keys we'll be using.
	#
	$date = $prefix . "_rolldate";
	$secs = $prefix . "_rollsecs";

	#
	# Get the timestamps.
	#
#	$timesecs = time();
#	$timestr  = gmtime($timesecs);
	$timestr = gmtime(time);
	$timesecs = str2time($timestr);

	#
	# Set the rollrec records to now and write the file.
	#
	rollrec_setval($rname,$date,$timestr);
	rollrec_setval($rname,$secs,$timesecs);
	rollrec_write();
}

#-----------------------------------------------------------------------------
# Routine:	phasecmd()
#
# Purpose:	Run a list of commands for this rollover phase.  If a list is
#		not defined for this phase, then we'll use the default action.
#
sub phasecmd
{
	my $phasefunc = shift;		# Reference to phase function.
	my $rname = shift;		# Zone name.
	my $rrr = shift;		# Reference to rollrec.
	my $phase = shift;		# Phase we're handling.
	my $ptaux = shift;		# Auxiliary phase type.

	my $progkey = "prog-$phase";	# Config. key for phase's programs.
	my $cmdlist;			# Execution flag.
	my @cmds;			# List of commands to run for phase.
	my $ret;			# Return value from phase function.

	my %rr = %$rrr;			# Rollrec hash.
	my $cmdargs;			# Arguments to the command.
	my $phasetype;			# Phase type.
	my $phasenum;			# Phase number.
	my $newphase;			# New phase number.

	#
	# Get the command list for this rollover phase.  Force the default
	# if a command list isn't defined for the phase.
	#
	if(!defined($dtconf{$progkey}) || ($dtconf{$progkey} eq ''))
	{
		$cmdlist = 'default';
	}
	else
	{
		$cmdlist = $dtconf{$progkey}
	}
	@cmds = split /!/, $cmdlist;

	#
	# Break out the phase atoms.  If this is a normal phase, then
	# we'll be alchemists and transmute the atoms we need.
	#
	if($phase eq 'normal')
	{
		$phasetype = 'normal';
		$phasenum  = 1;
	}
	else
	{
		$phase = lc($phase);
		$phase =~ /([kz]sk)(\d)/;
		$phasetype = $1;
		$phasenum  = $2;

		#
		# Set a variable for phasewait().
		#
		$ptaux = $phasetype if(! defined($ptaux));
	}

	#
	# Run the commands defined for this phase.  The default commands
	# are handled internally to rollerd.
	#
	foreach my $cmd (@cmds)
	{
		#
		# Get rid of any leading or trailing blanks.
		#
		$cmd =~ s/^\s*(.*?)\s*$/$1/;

		#
		# Take this phase's normal rollover action if the command
		# is "default".
		#
		if($cmd =~ /^default$/i)
		{
			#
			# Run the phase-specific routine.
			#
			# When this change was made, nextphase() (and the old
			# kskphase() and zskphase()) were the only phasefuncs
			# that used the third and fourth arguments.  The fourth
			# was originally $phasetype, but it's being changed to
			# $ptaux.
			#
			$ret = $phasefunc->($rname,$rrr,$phasenum,$ptaux);
			return($phasenum) if($ret < 0);

			#
			# This is a special case for when we're in normal
			# rollover.
			# (Yes, in this situation, normal is a special case.)
			#
			$phasenum = 0 if($phase eq '0');

			#
			# Save the return code as our new phase.
			#
			$newphase = $ret;
		}
		else
		{
			#
			# Set up the arguments for the command.
			#
			$cmdargs = "$rr{'zonename'} $phase $rname $rollrecfile $rr{'keyrec'}";

			#
			# Execute the phase's locally defined program.
			#
			$ret = localprog($rname,$cmd,$cmdargs,$phase);

			#
			# Stay in this phase if this command didn't succeed.
			#
			return($phasenum) if($ret != 0);
		}


	}

	#
	# If we've reached the final rollover phase, we'll go to non-rollover.
	#
	if(($phase eq 'ksk7') || ($phase eq 'zsk4'))
	{
		$newphase = 0;
	}

	#
	# Special handling if the phase has changed, followed by special
	# handling if it hasn't.
	#
	if($phasenum != $newphase)
	{
		#
		# Set the new KSK phase.
		#
		if($phase =~ /^ksk/)
		{
			nextphase($rname,$rrr,$newphase,'KSK');
		}

		#
		# Set the new ZSK phase.
		#
		if($phase =~ /^zsk/)
		{
			nextphase($rname,$rrr,$newphase,'ZSK');
		}

		zonemodified($rrr,$rname) if($newphase == 0);
	}
	else
	{
		#
		# Re-sign the zone file if it has been modified more recently
		# than the signed zone file.
		#
		zonemodified($rrr,$rname);
	}

	#
	# Return the phase number we should be in.
	#
	return($newphase);
}

#-----------------------------------------------------------------------------
# Routine:	phasewait()
#
# Purpose:	Check if this zone's rollover wait phase is over.
#		The zone's phase number -- current or new -- is returned.
#		KSKs will also be checked for trust-anchorship and if the
#		hold-down timer has expired.
#
sub phasewait
{
	my $rname     = shift;			# Name of rollrec.
	my $rrr	      = shift;			# Reference to rollrec.
	my $phase     = shift;			# Rollover phase.
	my $phasetype = shift;			# Rollover phase type.

	#
	# Make sure we've got the latest and greatest rollrec.
	#
	$rrr = rollrec_fullrec($rname);

	#
	# Check if we can go to the next rollover phase.  If not, we'll
	# go to the next rollrec entry and return to this later.
	#
	if($phasetype =~ /zsk/i)
	{
		if(!ttlexpire($rname,$rrr,$phase,'ZSK'))
		{
			return($phase);
		}
	}
	else
	{
		return($phase) if(!ttlexpire($rname,$rrr,$phase,'KSK'));
		return($phase) if((boolconvert($rrr->{'istrustanchor'}) == 1) &&
				  !holddownexpire($rname,$rrr,$phase));
	}

	#
	# Return the next phase number.
	#
	return($phase + 1);
}

#-----------------------------------------------------------------------------
# Routine:	nextphase()
#
# Purpose:	Moves a rollrec into the next rollover phase, setting both the
#		phase number and the phase start time.
#
sub nextphase
{
	my $rname	= shift;			# Name of rollrec.
	my $rrr		= shift;			# Rollrec reference.
	my $phase	= shift;			# New phase.
	my $phasetype	= shift;			# Type of rollover.

	my $phasedesc;					# Human phase descr.
	my $ptlc;					# Lowercase phasetype.
	my $phasekey;					# Phase hashkey.
	my $phaselife;					# Life hashkey.
	my $curphase;					# Current phase hashkey.

	my %rr = %$rrr;					# Rollrec hash.

	my $krname;					# Name of key's rollrec.
	my $krec;					# Key's keyrec.

	my $setrec;					# Set's keyrec.
	my $setlist;					# Set's key list.

	my $exptime;					# Key's time to expiry.
	my $chronostr;					# Pretty rollover time.

	#
	# Set up the phase description.
	#
	$phasedesc = rollmgr_get_phase($phasetype,$phase);
	$phasedesc = " ($phasedesc)";
	$phasedesc = '' if($phasedesc eq ' ()');

	#
	# Set up some phasetype-based hash keys.
	#
	$ptlc = lc($phasetype);
	$phasekey = $ptlc . 'phase';
	$phaselife = $ptlc . 'life';
	$curphase = $ptlc . 'cur';

	#
	# Give a log message about this rollover phase.
	#
	if($phase == 1)
	{
		rolllog_log(LOG_TMI,$rname,"starting $phasetype rollover");
	}
	else
	{
		rolllog_log(LOG_TMI,$rname,"moving to $phasetype phase $phase$phasedesc");
	}

	#
	# This is the source of the log messages that look like
	# "KSK phase 3" and "ZSK phase 4".
	#
	rolllog_log(LOG_PHASE,$rname,"$phasetype phase $phase$phasedesc");

	#
	# Get the latest and greatest rollrec file.
	#
	rollrec_close();
	rollrec_read($rollrecfile);

	#
	# Change the zone's phase and plop it on disk.
	#
	$rrr->{$phasekey} = $phase;
	rollrec_setval($rname,$phasekey,$phase);
	rollrec_settime($rname);
	rollrec_write();
	rollrec_close();
	rollrec_read($rollrecfile);

	#
	# Get the rollin' key's keyrec for our zone.
	#
	$krname = $rr{'keyrec'};
	$setrec = zonekeykr($rname,$rr{'zonename'},$krname,$curphase);
	if($setrec == 0)
	{
		rolllog_log(LOG_ERR,$rname,"unable to find a keyrec for the $curphase signing set in \"$krname\"");
		return(0);
	}

	#
	# Make sure we've got an actual set keyrec and keys.
	#
	if($setrec->{'keyrec_type'} ne 'set')
	{
		rolllog_log(LOG_ERR,$rname,"\"$krname\"'s keyrec is not a set keyrec; unable to move to $phasetype phase $phase");
		return(0);
	}
	if(!defined($setrec->{'keys'}) || ($setrec->{'keys'} eq ""))
	{
		rolllog_log(LOG_ERR,$rname,"\"$krname\" has no keys; unable to move to $phasetype phase $phase");
		return(0);
	}

	#
	# Find the key with the shortest lifetime.
	#
	$setlist = $setrec->{'keys'};
	foreach my $key (split / /, $setlist)
	{
		my $lifetime = keyrec_recval($key,$phaselife);
		if(($exptime == 0) || ($lifetime < $exptime))
		{
			$exptime = $lifetime;
		}
	}

	#
	# Send phase info to the display program.
	#
	$exptime = ($rrr->{'maxttl'} * 2) if($phase != 0);
	display("$phasekey \"$rname\" $phase $exptime");

	$chronostr = timetrans($exptime);
	rolllog_log(LOG_INFO,$rname,"    $phasetype expiration in $chronostr");

	#
	# Reset the phasestart field if we've completed a rollover cycle.
	#
	if($phase == 0)
	{
		rollrec_settime($rname);
		rollrec_write();
		rollrec_close();
		rollrec_read($rollrecfile);
	}
	return(0);
}

#-----------------------------------------------------------------------------
# Routine:	localprog()
#
# Purpose:	This routine runs a locally-configured command as part or all
#		of a rollover phase.  The programs must be configured in the
#		dnssec-tools.conf file in order to be run here.
#
sub localprog
{
	my $rname = shift;			# Rollrec name.
	my $cmd = shift;			# Command.
	my $cmdargs = shift;			# Command arguments.
	my $phase = shift;			# Phase we're in.
	my $out = '';				# Command output.
	my $ret;				# Execution return code.

	#
	# Tell the world about this command.
	#
	rolllog_log(LOG_INFO,$rname,"executing local program \"$cmd $cmdargs\"");

	#
	# Execute the local command.  We'll save the stdout and stderr output
	# in case it's needed later.  (Well..., we don't do anything with it
	# right now, but someone might someday want it.
	#
	open(LPROG,"$cmd $cmdargs 2>&1 |");
	while(<LPROG>)
	{
		$out .= $_;
	}
	chomp $out;
	close(LPROG);
	$ret = $? >> 8;

	#
	# Give a message based on return code.
	#
	if($ret > 0)
	{
		rolllog_log(LOG_ERR,$rname,"$phase command $cmd returned error $ret");
	}
	else
	{
		rolllog_log(LOG_INFO,$rname,"$phase command $cmd succeeded");
	}

	return($ret);
}

#-----------------------------------------------------------------------------
# Routine:	signer()
#
# Purpose:	Signs a zone with a specified ZSK.
#
#		On success, the return value of the zone-signing command
#			is returned.
#		On failure, "" is returned.
#
sub signer
{
	my $rname  = shift;			# Name of rollrec.
	my $zsflag = shift;			# Flag for key generation.
	my $krr	   = shift;			# Reference to zone's keyrec.

	my $rrr;				# Reference to zone's rollrec.
	my $zsargs;				# Zonesigner args from rollrec.

	my $zonefile;				# Zone file from keyrec.
	my $zonesigned;				# Signed zone file from keyrec.
	my $cmdstr;				# Command to be executed.
	my $initial = 0;			# Initial-signing flag.
	my $signonly = '';			# Sign-only flag.

	#
	# If we've been requested to sign a quiescent zone, we'll set a
	# flag and remove the marker from the phase indicator.
	#
	if($zsflag =~ / -signonly/)
	{
		$signonly = '-signonly';
		$zsflag =~ s/ -signonly//;
	}

	#
	# Convert the caller's version of $zsflag into what it actually
	# means for the zonesigner execution.
	#
	if($zsflag eq 'KSK phase 2')
	{
		$zsflag = '-newpubksk';
	}
	elsif($zsflag eq 'KSK phase 7')
	{
		$zsflag = '-rollksk';
	}
	elsif($zsflag eq 'ZSK phase 2' || $zsflag eq 'ZSK phase 3')
	{
		$zsflag = '-usezskpub';
	}
	elsif($zsflag eq 'ZSK phase 4')
	{
		signer($rname,'ZSK phase 4a',$krr);
		signer($rname,'ZSK phase 4b',$krr);
		return;
	}
	elsif($zsflag eq 'ZSK phase 4a')
	{
		$zsflag = '-rollzsk';
	}
	elsif($zsflag eq 'ZSK phase 4b')
	{
		$zsflag = '';
	}
	elsif($zsflag eq 'always-sign')
	{
		$zsflag = '-usezskpub';
	}
	elsif($zsflag eq 'initial')
	{
		$zsflag	 = '-genkeys';
		$initial = 1;
	}
	elsif($zsflag =~ /[KZ]SK phase [013567]/)
	{
		$zsflag	 = '';
	}

	#
	# Get the rollrec and any user-specified zonesigner arguments
	# for this zone.
	#
	$rrr = rollrec_fullrec($rname);
	$zsargs = $rrr->{'zsargs'};

	#
	# If there are any user-specified zonesigner arguments, add them
	# to the zonesigner options.  If there aren't any, we'll add
	# any global zonesigner args (from rollerd's -zsargs option).
	#
	if($zsargs ne '')
	{
		$zsflag = "$zsflag $zsargs";
	}
	else
	{
		$zsflag .= " $gzsargs" if($gzsargs ne '');
	}

	#
	# If the -zone flag wasn't specified, we'll force it in here.
	#
	if($zsflag !~ /-zone/)
	{
		$zsflag .= " -zone $rrr->{'zonename'}";
	}

	#
	# If the -krf flag wasn't specified, we'll force it in here.
	#
	if($zsflag !~ /-krf/)
	{
		$zsflag .= " -krf $rrr->{'keyrec'}";
	}

	#
	# If the -krf flag wasn't specified, we'll force it in here.
	#
	if($signonly)
	{
		$zsflag .= " -signonly";
	}

	#
	# Set up a few data for the zonesigner command.  Normally, these
	# will be taken from the keyrec file.  In the unusual(?) case of
	# needing an initial signing, these will be generated.
	#
	if($initial)
	{
		$zonefile   = $rrr->{'zonename'};
		$zonesigned = '';
	}
	else
	{
		#
		# Dig a few data out of the zone's keyrec file.
		#
		$zonefile = getkrval($rname,$krr,"zonefile");
		return("") if($zonefile eq "");

		$zonesigned = getkrval($rname,$krr,"signedzone");
		return("") if($zonesigned eq "");
	}

	#
	# Build the command to execute.
	#
	$cmdstr = "$zonesigner -rollmgr rollerd -dtconfig $dtcf $zsflag $zonefile $zonesigned";

	rolllog_log(LOG_INFO,$rname,"executing \"$cmdstr\"");

	#
	# Have zonesigner sign the zone for us.
	#
	$ret = runner($rname,$cmdstr,$rrr->{'keyrec'},1,0);
	$ret >>= 8;

	if($ret != 0)
	{
		skipnow($rname);
		zoneerr($rname,$rrr);
	}
	else
	{
		$rrr->{'signed'} = 1;
		$wassigned = 1;
	}

	return($ret);
}

#-----------------------------------------------------------------------------
# Routine:	runner()
#
# Purpose:	This routine executes another command.
#
sub runner
{
	my $rname = shift;			# Name of rollrec rec.
	my $cmd = shift;			# Command to execute.
	my $krf = shift;			# Zone's keyrec file.
	my $errflag = shift;			# On-error flag.
	my $negerrflag = shift;			# Only-negative-error flag.

	my $ret;				# Command's return code.
	my $out = '';				# Command's output.

	#
	# Close the current keyrec file.
	#
	keyrec_discard();

	#
	# Execute the specific command.
	#
	rolllog_log(LOG_TMI,$rname,"executing \"$cmd\"");

	#
	# Execute the given command.  We'll save the stdout and stderr
	# output in case it's needed later.
	#
	$runerr = 0;
	open(ZS,"$cmd 2>&1 |") || runerr();
	while(<ZS>)
	{
		$out .= $_;
	}
	chomp $out;
	close(ZS);
	$ret = $? >> 8;

	#
	# If the error flag is set and the command exited with an error,
	# we'll log the output.
	#
	if($errflag)
	{
		if((! $negerrflag && ($runerr != 0)) ||
		   (  $negerrflag && ($runerr <  0)))
		{
			$out =~ s/^	if zonesigner appears hung, .*\n$//ms;
			$out =~ s/^	\(see the \"Entropy\" section .*\n$//ms;

			rolllog_log(LOG_ERR,$rname,"execution error for command \"$cmd\"");
			rolllog_log(LOG_ERR,$rname,"error output - \"$out\"");
		}
	}

	#
	# Re-read current keyrec file.
	#
	keyrec_read($krf);

	return($runerr);
}

#-----------------------------------------------------------------------------
# Routine:	runerr()
#
# Purpose:	This routine sets a global flag indicating an error has
#		been encountered when running an external command.
#
sub runerr
{
	$runerr = 1;
}

#-----------------------------------------------------------------------------
# Routine:	zonekeykr()
#
# Purpose:	This routine returns the specified key's keyrec from the
#		specified zone from the specified keyrec file.
#		This routine is big on specified things.
#
sub zonekeykr
{
	my $rname = shift;			# Name of rollrec record.
	my $zname = shift;			# Name of zone.
	my $krname = shift;			# Name of keyrec.
	my $key = shift;			# Key to check.

	my $ret;				# Return code.
	my $krec;				# Keyrec reference.
	my %kh;					# Keyrec hash.

	#
	# Close the open keyrec file.
	#
	keyrec_discard();

	#
	# Read the keyrec file.
	#
	$ret = keyrec_read($krname);
	if($ret < 0)
	{
		if($ret == -3)
		{
			rolllog_log(LOG_ERR,$rname,"keyname collision in keyrec \"$krname\"; marking rollrec as skipped");
		}
		else
		{
			rolllog_log(LOG_ERR,$rname,"unable to read keyrec \"$krname\"; marking rollrec as skipped");
		}
		skipnow($rname);
	}

	#
	# Get the zone's keyrec and complain if it doesn't exist.
	#
	$krec = keyrec_fullrec($zname);
	if(!defined($krec))
	{
		rolllog_log(LOG_ERR,$rname,"keyrec file \"$krname\" does not contain a keyrec for zone \"$zname\"");
		return(0);
	}
	%kh   = %$krec;

	#
	# Get the key's keyrec and complain if it doesn't exist.
	#
	$key = $kh{$key};
	$krec = keyrec_fullrec($key);
	if(!defined($krec))
	{
		rolllog_log(LOG_ERR,$rname,"keyrec file \"$krname\" does not contain a keyrec for key \"$key\"");
		return(0);
	}

	#
	# Return the keyrec reference.
	#
	return($krec);
}

#-----------------------------------------------------------------------------
# Routine:	getkrval()
#
# Purpose:	This routine returns the value of a specified field in a
#		keyrec.  Error checking is performed to ensure that the
#		field exists in the keyrec and that it doesn't have an
#		empty value.
#
sub getkrval
{
	my $rname = shift;				# Rollrec's name.
	my $krr	  = shift;				# Keyrec reference.
	my $field = shift;				# Keyrec's field.

	my %kh = %$krr;					# Keyrec hash.
	my $val;					# Field's value.

	#
	# Ensure that the requested field exists.
	#
	if(!defined($kh{$field}))
	{
		rolllog_log(LOG_ERR,$rname,"keyrec has no entry for \"$field\"");
		return("");
	}

	#
	# Get the field from the keyrec.
	#
	$val = $kh{$field};

	#
	# Give an error if the value is empty.
	#
	if($val eq "")
	{
		rolllog_log(LOG_ERR,$rname,"keyrec has an empty entry for \"$field\"");
	}

	#
	# Return the keyrec field.
	#
	return($val);
}

##############################################################################

#-----------------------------------------------------------------------------
# Routine:	optsandargs()
#
# Purpose:	Parse our options and arguments.
#
sub optsandargs
{
	my $argc = @ARGV;		# Number of arguments.
	my $opterrs = 0;		# Count of option-related errors.

	#
	# Get the base values.
	#
	$dtconfig = getconffile();
	%dtconf = parseconfig();

	#
	# Check our options.
	#
	opts_onerr(0);

	#
	# Get a bunch of option values.
	#
	$singlerun  = $opts{$OPT_SINGLERUN};
	$foreground = $opts{$OPT_FOREGROUND};
	$alwayssign = $opts{$OPT_ALWAYSSIGN} || 0;
	$pidfile    = $opts{$OPT_PIDFILE};
	$realm	    = $opts{$OPT_REALM};
	$verbose    = $opts{$OPT_VERBOSE};
	$logfile    = $opts{$OPT_LOGFILE}    || $dtconf{$DT_LOGFILE};
	$loglevel   = $opts{$OPT_LOGLEVEL}   || $dtconf{$DT_LOGLEVEL} || LOG_DEFAULT;
	$logtz	    = $opts{$OPT_LOGTZ}	     || $dtconf{$DT_LOGTZ};
	$sleeptime  = $opts{$OPT_SLEEP}	     || $dtconf{$DT_SLEEP}    || $DEFAULT_NAP;
	$dtcf	    = $opts{$OPT_DTCONF}     || getconffile();
	$display    = $opts{$OPT_DISPLAY}    || 0;
	$gzsargs    = $opts{$OPT_ZSARGS}     || '';
	$username   = $opts{$OPT_USERNAME}   || $dtconf{$DT_USERNAME} || '';
	$xqtdir	    = $opts{$OPT_DIR}	     || '.';
	$zonesigner = $opts{$OPT_ZONESIGNER} || $dtconf{$OPT_ZONESIGNER} || '';

	#
	# Check for autosign presence or absence.
	#
	$autosign  = defined($opts{'autosign'}) ?
				$opts{$OPT_AUTOSIGN} :
				(defined($dtconf{'autosign'}) ?
					$dtconf{$OPT_AUTOSIGN} :
					dnssec_tools_default("autosign"));

	#
	# Determine whether or not we'll load zones.
	#
	$zoneload = dnssec_tools_default($DT_LOADZONE);
	$zoneload = $dtconf{$DT_LOADZONE} if(defined($dtconf{$DT_LOADZONE}));
	$zoneload = 0 if(defined($opts{$OPT_NORELOAD}));
	$zoneload = boolconvert($zoneload);

	#
	# Show the version number if requested
	#
	usage()   if(defined($opts{$OPT_HELP}));
	version() if(defined($opts{$OPT_VERSION}));

	#
	# Check for a rollrec file name.
	#
	$rollrecfile = $opts{$OPT_RRFILE} || rollrec_default();
	$curdir = getcwd();
	if($rollrecfile !~ /^\//)
	{
		$rollrecfile = "$curdir/$rollrecfile";
	}

	#
	# Validate and switch to the given username -- if we can.
	#
	if($username ne '')
	{
		my $uid;			# Uid we're switching to.
		my $ret;			# Return from setuid().

		#
		# If the username is really a uid, we'll convert it to a name.
		#
		if($username =~ /^[0-9]+$/)
		{
			$username = getpwuid($username);
		}

		#
		# Convert the name to a uid.
		#
		$uid = getpwnam($username);
		if($uid eq '')
		{
			print STDERR "rollerd:  unknown user \"$username\"\n";
			$opterrs++;
		}

		#
		# Change the uid of the process.
		#
		$! = '';
		$> = $uid;
#		POSIX::setuid($uid);
		$ret = $!;
		if($ret ne '')
		{
			print STDERR "rollerd:  unable to switch to user \"$username\" -- $ret\n";
			$opterrs++;
		}
	}

	#
	# Build a global zonesigner argument string.  We'll convert the
	# internal equals signs to dashes or spaces, as appropriate.
	#
	if($gzsargs ne '')
	{
		my @args = split / /, $gzsargs;		# Argument array.

		#
		# Put the arguments into the form zonesigner is expecting
		# and join up the bits into a single argument string.
		#
		for(my $ind=0; $ind < @args; $ind++)
		{
			$args[$ind] =~ s/^=/-/;
			$args[$ind] =~ s/=/ /g;
		}

		$gzsargs = join ' ', @args;
	}

	#
	# Validate our execution directory.
	#
	if($xqtdir eq ".")
	{
		$xqtdir = `$PWD`;
		chomp($xqtdir);
	}
	if(!defined($xqtdir))
	{
		print STDERR "rollerd:  no execution directory defined\n";
		$opterrs++;
	}
	if(! -e $xqtdir)
	{
		print STDERR "rollerd:  execution directory \"$xqtdir\" does not exist\n";
		$opterrs++;
	}
	if(! -d $xqtdir)
	{
		print STDERR "rollerd:  execution directory \"$xqtdir\" is not a directory\n";
		$opterrs++;
	}

	#
	# If the user only wants the parameters, print 'em and exit.
	#
	if($opts{$OPT_PARAMS})
	{
		print "$ME parameters:\n";
		print "\trollrec file   \"$rollrecfile\"\n";
		print "\tdirectory      \"$xqtdir\"\n";
		print "\tconfig file    \"$dtconfig\"\n";
		print "\tlogfile        \"$logfile\"\n";
		print "\tloglevel       \"$loglevel\"\n";
		print "\tlogtz          \"$logtz\"\n";
		print "\tautosign       \"$autosign\"\n";
		print "\tzone reload    \"$zoneload\"\n";
		print "\tsleeptime      \"$sleeptime\"\n";
		exit(0)
	}

	#
	# Whine if the rollrec file doesn't exist.
	#
	if(!rrfokay($rollrecfile,""))
	{
		print STDERR "rollerd:  rollrec file \"$rollrecfile\" does not exist\n\n";
		print STDERR "rollerd:  not stopping execution; waiting for a rollrec\n";
	}

	#
	# Move into our execution directory.
	#
	chdir($xqtdir);

	#
	# Ensure a log file was given on the command line or in the config file.
	#
	if(!defined($logfile))
	{
		print STDERR "rollerd:  no logfile specified on command line or in dnssec-tools.conf\n";
		$opterrs++;
	}

	#
	# Ensure the log file's directory actually exists.
	#
	if($logfile =~ /\//)
	{
		my @logbits;			# Components of logfile's path.
		my $logdir;			# Logfile's directory.

		#
		# Get the log directory without the logfile.
		#
		@logbits = split /\//, $logfile;
		pop @logbits;
		$logdir = join '/', @logbits;
		$logdir = '/' if($logdir eq '');

		#
		# Check for the existence of the log directory.
		#
		if(! -e $logdir)
		{
			print STDERR "rollerd:  logfile's directory \"$logdir\" does not exist\n";
			$opterrs++;
		}
	}

	#
	# If a pid file was specified, we'll pass it to the rollmgr module.
	#
	if(defined($pidfile) && ($pidfile ne ''))
	{
		rollmgr_set_idfile($pidfile);
	}

	#
	# Set the logging level and file.
	#
	$loglevel_save = $loglevel;
	rolllog_level($loglevel,1);
	rolllog_file($logfile,1);

	#
	# Set a dummy value to turn off KSK phase 5 mail, iff no recipient
	# has been set.
	#
	if(!exists($dtconf{'admin-email'}))
	{
		$dtconf{'admin-email'} = 'nomail';
	}

	#
	# Set the logging timezone.
	#
	if(rolllog_settz($logtz) eq '')
	{
		print STDERR "rollerd:  invalid log timezone \"$logtz\"\n";
		$opterrs++;
	}

	#
	# Exit if there were any option-related errors.
	#
	exit(1) if($opterrs > 0);

	#
	# Start up our display program if -display was given.
	#
	displayer($display);

}

#-----------------------------------------------------------------------------
# Routine:	getprogs()
#
# Purpose:	Get some program paths.
#
sub getprogs
{
	#
	# If we're running packed, we'll force the command paths to be taken
	# from the packed versions.
	#
	#	NOTE:  In this version of packed rollerd, we're assuming
	#	       that rollerd will not be interacting with named.
	#	       Consequently, we won't be using rndc.
	#
	if($packed)
	{
		$rndc 	    = '';
		$keyarch    = "$ENV{'PAR_TEMP'}/inc/keyarch";
		$rrchk	    = "$ENV{'PAR_TEMP'}/inc/rollchk";
		$zonesigner = "$ENV{'PAR_TEMP'}/inc/zonesigner";

		delete($opts{'rndc'});
		$opts{'keyarch'}     = "keyarch";
		$opts{'rollchk'}     = "rollchk";
		$opts{'zonesigner'}  = "zonesigner";
		$opts{'keygen'}	     = "dnssec-keygen";
		$opts{'zonesign'}    = "dnssec-signzone";
		$opts{'zonecheck'}   = "named-checkzone";

		return;
	}

	#
	# Get the paths to the external commands.  If they aren't defined,
	# use the default command names.
	#
	$keyarch = $dtconf{'keyarch'}	  || dnssec_tools_default("keyarch");
	$rndc 	 = $dtconf{'rndc'}	  || dnssec_tools_default("rndc");
	$rrchk	 = $dtconf{'rollrec_chk'} || dnssec_tools_default("rollrec_check");
}

#-----------------------------------------------------------------------------
# Routine:	bootmsg()
#
# Purpose:	Write a start-up message to the log.
#
sub bootmsg
{
	my $bootflag = shift;				# Boot flag.

	if($bootflag)
	{
		rolllog_log(LOG_ALWAYS,"","$ME starting " . ("-" x 40));
	}
	else
	{
		rolllog_log(LOG_ALWAYS,"","$ME changing logfiles " . ("-" x 31));
	}

	rolllog_log(LOG_ALWAYS,"","$ME parameters:");
	rolllog_log(LOG_ALWAYS,"","	rollrec file	\"$rollrecfile\"");
	rolllog_log(LOG_ALWAYS,"","	realm       	\"$realm\"");
	rolllog_log(LOG_ALWAYS,"","	directory	\"$xqtdir\"");
	rolllog_log(LOG_ALWAYS,"","	config file	\"$dtconfig\"");
	rolllog_log(LOG_ALWAYS,"","	logfile		\"$logfile\"");
	rolllog_log(LOG_ALWAYS,"","	loglevel	\"$loglevel\"");
	rolllog_log(LOG_ALWAYS,"","	logtz		\"$logtz\"");
	rolllog_log(LOG_ALWAYS,"","	always-sign	\"". $alwayssign ."\"");
	rolllog_log(LOG_ALWAYS,"","	autosign	\"$autosign\"");
	rolllog_log(LOG_ALWAYS,"","	single-run	\"$singlerun\"");
	rolllog_log(LOG_ALWAYS,"","	zone reload	\"$zoneload\"");
	if($eventmaster == $EVT_FULLLIST)
	{
		rolllog_log(LOG_ALWAYS,"","	sleeptime	\"$sleeptime\"");
	}
	rolllog_log(LOG_ALWAYS,"","	zone reload	\"$zoneload\"");
	rolllog_log(LOG_ALWAYS,"","	event method	\"$event_methods[$eventmaster]\"");

	if($username ne '')
	{
		rolllog_log(LOG_ALWAYS,"","		running as	\"$username\"");
	}

	rolllog_log(LOG_ALWAYS,""," ");
}

#-----------------------------------------------------------------------------
# Routine:	rrfchk()
#
# Purpose:	This routine performs initial checking of the rollrec file.
#		Several errors and problems are checked for in each rollrec
#		marked as a a roll rollrec.
#
#		Errors:
#			The following errors are checked:
#				- the zonefile exists
#				- the keyrec file exists
#
#			If any of these are violated, the rollrec's type will
#			be changed to a skip rollrec.  This prevents lots of
#			unnecessary repeated log messages of an invalid rollrec.
#
#		Problems:
#			The following problems are checked:
#				- no zonename field exists
#
#			If any of these problems are found, they will be fixed.
#
sub rrfchk
{
	my $rrf	 = shift;				# Rollrec file.
	my $modified = 0;				# Modified flag.

	#
	# Return failure if the rollrec file is bad.
	#
	if(!rrfokay($rrf,""))
	{
		return(0);
	}

	#
	# Get the current contents of the rollrec file.
	#
	rollrec_lock();
	rollrec_read($rollrecfile);

	#
	# For each roll rollrec, check if its zonefile and keyrec file exist.
	# If not, we'll change it to being a skip rollrec.
	#
	foreach my $rname (rollrec_names())
	{
		my $rrr;		# Reference to rollrec.
		my %rr;			# Rollrec hash.
		my $phase;		# Rollrec's phase.

		my $errs = 0;		# Missing file errors.
		my $prefix;		# Rollrec's directory field.
		my $keyrec;		# Keyrec's filename.
		my $zonefile;		# Zone's filename.

		#
		# Get the rollrec for this name.  If it doesn't have one,
		# whinge and continue to the next.
		#
		$rrr = rollrec_fullrec($rname);
		if(!defined($rrr))
		{
			rolllog_log(LOG_ERR,$rname,"no rollrec defined for zone");
			next;
		}
		%rr = %$rrr;

		#
		# Don't look at skip records.
		#
		next if($rr{'rollrec_type'} eq "skip");

		#
		# Check for a directory.  We'll use rollerd's execution
		# directory if one isn't defined.
		#
		$prefix = $xqtdir;
		$prefix = $rr{'directory'} if(defined($rr{'directory'}));

		#--------------------------------------------------
		# Errors...
		#

		#
		# Get our important files.
		#
		$zonefile = $rr{'zonefile'};
		$zonefile = "$prefix/$zonefile" if($zonefile !~ /^\//);
		$keyrec	  = $rr{'keyrec'};
		$keyrec	  = "$prefix/$keyrec" if($keyrec !~ /^\//);

		#
		# Set the error flag if either the zonefile or the keyrec
		# file don't exist.
		#
		if(! -e $zonefile)
		{
			rolllog_log(LOG_ERR,$rname,"keyrec \"$rrr->{'keyrec'}\" does not exist; running initial zonesigner");
			if(signer($rname, "initial", 0) != 0)
			{
				rolllog_log(LOG_ERR,$rname,"unable to do an initial signing of zone");
				$errs++;
			}
		}
		if(! -e $keyrec)
		{
			rolllog_log(LOG_ERR,$rname,"keyrec \"$keyrec\" does not exist");
			$errs++;
		}

		#--------------------------------------------------
		# Problems...
		#

		#
		# Add a zonename field to the file and our rollrec hash
		# if it isn't already in the hash.
		#
		if(!defined($rr{'zonename'}))
		{
			rolllog_log(LOG_INFO,$rname,"adding missing zonename field ($rname) to rollrec");
			$rr{'zonename'} = $rname;
			rollrec_setval($rname,'zonename',$rname);
		}

		#
		# Get our important files.
		#
		$zonefile = $rr{'zonefile'};
		$zonefile = "$prefix/$zonefile" if($zonefile !~ /^\//);
		$keyrec	  = $rr{'keyrec'};
		$keyrec	  = "$prefix/$keyrec" if($keyrec !~ /^\//);

		#
		# Skip this record if the zonefile and keyrec file exist.
		#
		next if(!$errs);

		#
		# If one of the files doesn't exist, then change the rollrec
		# to a skip record.  There's no reason we should bang our
		# head against non-existent files.
		#
		rolllog_log(LOG_ERR,$rname,"changing roll record to a skip record");
		rollrec_rectype($rname,"skip");
		$modified++;
		display("badzone \"$rname\" 0");

	}

	#
	# Save the current rollrec file state.
	#
	rollrec_close();
	rollrec_unlock();

	#
	# Return success.
	#
	return(1);
}

#-----------------------------------------------------------------------------
# Routine:	rrfokay()
#
# Purpose:	This routine checks to see if a rollrec file is okay.
#
#		Returns:
#			0 - file is in error
#			1 - file is okay
#
sub rrfokay
{
	my $rrf = shift;				# Rollrec file to check.
	my $mp  = shift;				# Message prefix.
	my $ret = 1;					# Return code.
	my $err;					# Error message.

	#
	# Check that the file exists and is non-zero in length.  If one of
	# those conditions fails, we'll set an error message and return code.
	#
	if(! -e $rrf)
	{
		$err = "rollrec file \"$rrf\" does not exist";
		$ret = 0;
	}
	elsif(-z $rrf)
	{
		$err = "rollrec file \"$rrf\" is zero length";
		$ret = 0;
	}

	#
	# If we found an error, we'll (maybe) give an error message and
	# bump our error count.
	#
	if($ret == 0)
	{
		if($rrferrors == 0)
		{
			rolllog_log(LOG_ERR,$mp,$err);
			$rrferrors = $MAXRRFERRS;
		}
		else
		{
			$rrferrors--;
		}

		return(0);
	}

	#
	# Reset our error count and return success.
	#
	$rrferrors = 0;
	return(1);
}

#-----------------------------------------------------------------------------
# Routine:	clearzoneerr()
#
# Purpose:	Reset a zone's error count.
#
sub clearzoneerr
{
	my $rname = shift;			# Name of rollrec rec.
	my $rrr = shift;			# Reference to rollrec.
	my %rr;					# Rollrec hash.

	#
	# Get the rollrec's hash.
	#
	%rr = %$rrr;

	if($rr{'curerrors'} != 0)
	{
		rollrec_setval($rname,'curerrors',0);

		rolllog_log(LOG_TMI,$rname,"resetting the error count");
	}
}

#-----------------------------------------------------------------------------
# Routine:	zoneerr()
#
# Purpose:	Increment a zone's error count.  If the count of maximum
#		consecutive errors is exceeded, the zone is changed to
#		be a roll zone.
#
sub zoneerr
{
	my $rname = shift;			# Name of rollrec rec.
	my $rrr = shift;			# Reference to rollrec.

	my %rr;					# Rollrec hash.
	my $curerrs = 0;			# Zone's current error count.
	my $maxerrs;				# Zone's maximum error count.

	#
	# Get the rollrec's hash.
	#
	%rr = %$rrr;

	#
	# Get the zone's maximum error count.
	#
	$maxerrs = $rr{'maxerrors'};
	$maxerrs = $dtconf{'zone_errors'}	if(! exists($rr{'maxerrors'}));

	#
	# If there's a maximum error count set for this zone, we'll increase
	# the count and see if we need to stop worrying about this zone.
	#
	if($maxerrs > 0)
	{
		#
		# Increment the zone's maximum error count.
		#
		$curerrs = $rr{'curerrors'} + 1;

		#
		# Save the new value.
		#
		$rr{'curerrors'} = $curerrs;
		rollrec_setval($rname,'curerrors',$curerrs);
		rollrec_write();

		#
		# If we've exceeded the maximum error count, change the zone
		# to a skip zone.
		#
		if($curerrs > $maxerrs)
		{
			rolllog_log(LOG_INFO,$rname,"too many errors, zone will now be skipped");
			skipnow($rname);
		}
	}

}

#-----------------------------------------------------------------------------
# Routine:	sleeper()
#
# Purpose:	Sleep for a specific amount of time.  This will take into
#		account interrupts we've taken from rollctl.
#		We may be overridden by a rollctl command.
#
sub sleeper
{
	my $nap;				# Time left to sleep.

	return if($sleep_override);

	rolllog_log(LOG_TMI,"","sleeping for $sleeptime seconds");

	$sleepcnt = 0;

	while($sleepcnt < $sleeptime)
	{
		$nap = $sleeptime - $sleepcnt;

		$sleepcnt += sleep($nap);
	}
}

#-----------------------------------------------------------------------------
# Routine:	sleeper_awake()
#
# Purpose:	This routine forces rollerd to run its queue.  It does this
#		by setting the elapsed-sleep-time equal to the time-to-sleep.
#
sub sleeper_awake
{
	$sleepcnt = $sleeptime;
}

#-----------------------------------------------------------------------------
# Routine:	sleeper_override()
#
# Purpose:	This routine sets the sleep-override flag.
#
sub sleeper_override
{
	$sleep_override = 1;
}

#-----------------------------------------------------------------------------
# Routine:	commander()
#
# Purpose:	Get any commands sent to rollerd's command socket.
#
sub commander
{
	my $cmd;				# Client's command.
	my $data;				# Command's data.
	my $gstr = ROLLMGR_GROUP;		# Group command indicator.

	rolllog_log(LOG_TMI,'<command>',"checking commands");

	#
	# Read and handle all the commands we've been sent.
	#
	while(42)
	{
		#
		# Get the command, return if there wasn't one.
		#
		($cmd,$data) = rollmgr_getcmd(5);
		return if(!defined($cmd));

		rolllog_log(LOG_TMI,'<command>',"cmd   - \"$cmd\"");
		rolllog_log(LOG_TMI,'<command>',"data  - \"$data\"") if($data ne "");

		#
		# Deal with the command as zone-related or as a group command.
		#
		if($cmd =~ /^$gstr/)
		{

			$cmd =~ s/^$gstr//;
			groupcmd($cmd,$data);
		}
		else
		{
			if(singlecmd($cmd,$data) == 1)
			{
				last;
			}
		}

		rollmgr_closechan();
	}
}

#-----------------------------------------------------------------------------
# Routine:	groupcmd()
#
# Purpose:	Execute a command for each zone in a zone group.
#
sub groupcmd
{
	my $cmd = shift;			# Client's command.
	my $data = shift;			# Command's data.
	my %zgcmds;				# Zone group commands.
	my @zonegroup;				# Zones in the named group.

	#
	# Get the list of recognized zone-group commands.  If the requested
	# command isn't allowed for zone groups, we'll quietly run it as
	# a regular command.
	#
	%zgcmds = rollrec_zonegroup_cmds();
	if(! defined($zgcmds{$cmd}))
	{
		singlecmd($cmd,$data);
		return;
	}

	#
	# Run the named command on each zone in the specified zone group.
	#
	@zonegroup = rollrec_zonegroup($data);
	foreach my $zn (@zonegroup)
	{
		singlecmd($cmd,$zn);
	}

}

#-----------------------------------------------------------------------------
# Routine:	singlecmd()
#
# Purpose:	Execute a single command.
#
sub singlecmd
{
	my $cmd = shift;				# Client's command.
	my $data = shift;				# Command's data.

	if($cmd eq ROLLCMD_DISPLAY())
	{
		cmd_display($data);
	}
	elsif($cmd eq ROLLCMD_DSPUB())
	{
		cmd_dspub($data);
	}
	elsif($cmd eq ROLLCMD_DSPUBALL())
	{
		cmd_dspuball();
	}
	elsif($cmd eq ROLLCMD_LOGFILE())
	{
		cmd_logfile($data);
	}
	elsif($cmd eq ROLLCMD_LOGLEVEL())
	{
		cmd_loglevel($data);
	}
	elsif($cmd eq ROLLCMD_LOGMSG())
	{
		cmd_logmsg($data);
	}
	elsif($cmd eq ROLLCMD_LOGTZ())
	{
		cmd_logtz($data);
	}
	elsif($cmd eq ROLLCMD_MERGERRFS())
	{
		cmd_mergerrfs($data);
	}
	elsif($cmd eq ROLLCMD_PHASEMSG())
	{
		cmd_phasemsg($data);
	}
	elsif($cmd eq ROLLCMD_ROLLALL())
	{
		cmd_rollall();
	}
	elsif($cmd eq ROLLCMD_ROLLALLKSKS())
	{
		cmd_rollallksks();
	}
	elsif($cmd eq ROLLCMD_ROLLALLZSKS())
	{
		cmd_rollallzsks();
	}
	elsif($cmd eq ROLLCMD_ROLLREC())
	{
		return(1) if(cmd_rollrec($data));
	}
	elsif($cmd eq ROLLCMD_ROLLKSK())
	{
		cmd_rollnow($data,'KSK');
	}
	elsif($cmd eq ROLLCMD_ROLLZONE())
	{
		cmd_rollzone($data);
	}
	elsif($cmd eq ROLLCMD_ROLLZSK())
	{
		cmd_rollnow($data,'ZSK');
	}
	elsif($cmd eq ROLLCMD_RUNQUEUE())
	{
		cmd_runqueue($data);
	}
	elsif($cmd eq ROLLCMD_QUEUELIST())
	{
		cmd_queuelist($data);
	}
	elsif($cmd eq ROLLCMD_QUEUESTATUS())
	{
		cmd_queuestatus($data);
	}
	elsif($cmd eq ROLLCMD_SHUTDOWN())
	{
		cmd_shutdown($data);
	}
	elsif($cmd eq ROLLCMD_SIGNZONE())
	{
		cmd_signzone($data);
	}
	elsif($cmd eq ROLLCMD_SIGNZONES())
	{
		cmd_signzones($data);
	}
	elsif($cmd eq ROLLCMD_SKIPALL())
	{
		cmd_skipall();
	}
	elsif($cmd eq ROLLCMD_SKIPZONE())
	{
		cmd_skipzone($data);
	}
	elsif($cmd eq ROLLCMD_SLEEPTIME())
	{
		cmd_sleeptime($data);
	}
	elsif($cmd eq ROLLCMD_SPLITRRF())
	{
		cmd_splitrrf($data);
	}
	elsif($cmd eq ROLLCMD_STATUS())
	{
		cmd_status($data);
	}
	elsif($cmd eq ROLLCMD_ZONEGROUP())
	{
		cmd_zonegroup($data);
	}
	elsif($cmd eq ROLLCMD_ZONELOG())
	{
		cmd_zonelog($data);
	}
	elsif($cmd eq ROLLCMD_ZONESTATUS())
	{
		cmd_zonestatus($data);
	}
	elsif($cmd eq ROLLCMD_ZSARGS())
	{
		cmd_zsargs($data);
	}
	else
	{
		rolllog_log(LOG_ERR,'<command>',"invalid command  - \"$cmd\"");
	}

	return(0);
}

#-----------------------------------------------------------------------------
# Routine:	cmd_display()
#
# Purpose:	Start or stop the rollerd display program.
#
sub cmd_display
{
	my $onflag = shift;				# Display-on flag.

	rolllog_log(LOG_TMI,'<command>',"display command received; status flag - \"$onflag\"");

	#
	# Do nothing if the we're already doing what the user wants.
	#
	if($display == $onflag)
	{
		if($display == 1)
		{
			rolllog_log(LOG_INFO,'<command>',"graphical display is already on");
		}
		else
		{
			rolllog_log(LOG_INFO,'<command>',"graphical display is already off");
		}
		rollmgr_sendresp(ROLLCMD_RC_DISPLAY,"display status already as requested");
		return;
	}

	#
	# Change the logfile and give an appropriate set of log messages.
	#
	if($onflag)
	{
		displayer(1);
		rolllog_log(LOG_INFO,'<command>',"rollerd display started");
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"rollerd display started");
	}
	else
	{
		displayer(0);
		rolllog_log(LOG_INFO,'<command>',"rollerd display stopped");
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"rollerd display stopped");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_dspub()
#
# Purpose:	Move a zone from KSK rollover phase 5 to phase 6.
#
sub cmd_dspub
{
	my $zone = shift;				# Command's data.
	my $curdir;					# Current directory.

	rolllog_log(LOG_TMI,'<command>',"dspub command received; zone - \"$zone\"");

	#
	# Move the zone to KSK phase 6.  This might also do some directory
	# swapping, so we'll save the current directory as well.
	#
	$curdir = cwd();
	dspubber('dspub',$zone);

	#
	# Return to the previous directory.
	#
	chdir($curdir);

	sleeper_override();
}

#-----------------------------------------------------------------------------
# Routine:	cmd_dspuball()
#
# Purpose:	Move all zones that are currently in KSK rollover phase 5
#		to phase 6.
#
sub cmd_dspuball
{
	my $rrr;					# Reference to rollrec.
	my $phase;					# Zone's phase.
	my $curdir;					# Current directory.

	rolllog_log(LOG_TMI,'<command>',"dspuball command received");

	#
	# This might do some directory swapping, so we'll save the
	# current directory.
	#
	$curdir = cwd();

	#
	# Move all the zones in KSK phase 5 over to KSK phase 6.
	#
	foreach my $zone (sort(rollrec_names()))
	{
		dspubber('dspuball',$zone);
	}

	#
	# Return to the previous directory.
	#
	chdir($curdir);

	sleeper_override();
}

#-----------------------------------------------------------------------------
# Routine:	cmd_logfile()
#
# Purpose:	Set the logfile to the user's specified file.  Nothing is done
#		if the user requests the same log file as is currently in use.
#
sub cmd_logfile
{
	my $newlog = shift;				# New log file.
	my $oldlog;					# Old log file.

	rolllog_log(LOG_TMI,'<command>',"logfile command received; new log file - \"$newlog\"");

	#
	# Do nothing if the new logfile is the same as the current logfile.
	#
	$oldlog = rolllog_file();
	if($oldlog eq $newlog)
	{
		rolllog_log(LOG_INFO,'<command>',"new logfile ($newlog) same as the old logfile");
		return;
	}

	#
	# Change the logfile and give an appropriate set of log messages.
	#
	rolllog_log(LOG_INFO,'<command>',"logfile changed from $oldlog to $newlog");
	rolllog_log(LOG_INFO,'<command>',"closing logfile $oldlog");
	$oldlog = rolllog_file($newlog,0);
	if($oldlog ne "")
	{
		rolllog_log(LOG_INFO,'<command>',"logfile changed from $oldlog to $newlog");
		bootmsg(0);
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"logfile changed to \"$newlog\"");
	}
	else
	{
		rolllog_log(LOG_ERR,'<command>',"unable to change logfile to $newlog");
		rollmgr_sendresp(ROLLCMD_RC_BADFILE,"unable to change logfile to \"$newlog\"");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_loglevel()
#
# Purpose:	Set the logging level to the user's specified level.
#
sub cmd_loglevel
{
	my $newlvl = shift;				# New level.
	my $oldlvl;					# Old level.

	my $oldstr;					# Old level's string.
	my $newstr;					# New level's string.

	$newstr = rolllog_str($newlvl);
	rolllog_log(LOG_TMI,'<command>',"loglevel command received; new logging level - \"$newstr\"");

	$oldlvl = rolllog_level($newlvl,0);
	if($oldlvl >= 0)
	{
		$oldstr = rolllog_str($oldlvl);

		rolllog_log(LOG_INFO,'<command>',"loglevel changed from $oldstr to $newstr");
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"loglevel changed from \"$oldstr\" to \"$newstr\"");

		$loglevel	= $newlvl;
		$loglevel_save	= $newlvl;
	}
	else
	{
		rolllog_log(LOG_ERR,'<command>',"unable to change loglevel to $newlvl");
		rollmgr_sendresp(ROLLCMD_RC_BADLEVEL,"invalid loglevel \"$newlvl\"");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_logmsg()
#
# Purpose:	Write a log message to the log file.
#
#		The way we check for a valid log level is only good in a
#		single-threaded environment.
#
sub cmd_logmsg
{
	my $logstr = shift;			# Log level and message.

	my $loglvl;				# Logging level.
	my $logmsg;				# Log message.

	my $oldlvl;				# Real logging level.
	my $goodlvl;				# Real version of new level.

	rolllog_log(LOG_TMI,'<command>',"logmsg command received");

	#
	# Dig the log level and message out of our argument.
	#
	$logstr =~ /^\((\w+)\)(.*)$/;
	$loglvl = $1;
	$logmsg = $2;

	#
	# Check the validity of the caller's log level.  If it's invalid,
	# rolllog_level() will return a failure and we'll return.
	#
	$oldlvl = rolllog_level($loglvl,0);
	if($oldlvl < 0)
	{
		rolllog_log(LOG_INFO,'<command>',"invalid loglevel ($loglvl) specified for logmsg command");
		rollmgr_sendresp(ROLLCMD_RC_BADLEVEL,"invalid loglevel \"$loglvl\"");
		return;
	}

	#
	# Reset the logging level and write the caller's message.
	#
	$goodlvl = rolllog_level($oldlvl,0);
	rolllog_log($goodlvl,"<user msg>",$logmsg);
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"message written to log");
}

#-----------------------------------------------------------------------------
# Routine:	cmd_logtz()
#
# Purpose:	Set the timezone for log messages' timestamps.
#
sub cmd_logtz
{
	my $newtz = shift;			# New logging timezone.

	my $oldtz;				# Current logging timezone.

	rolllog_log(LOG_TMI,'<command>',"logtz command received");

	#
	# Set the new timezone for log messages.  If it's invalid, we'll
	# return a failure and then return.
	#
	$oldtz = rolllog_settz($newtz);
	if($oldtz eq '')
	{
		rolllog_log(LOG_INFO,'<command>',"invalid timezone ($newtz) specified for logtz command");
		rollmgr_sendresp(ROLLCMD_RC_BADTZ,"invalid logtz \"$newtz\"");
		return;
	}

	#
	# Let the user know all's well.
	#
	rolllog_log(LOG_INFO,"<command>","logging timezone set to $newtz");
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"new logging timezone set");
}

#-----------------------------------------------------------------------------
# Routine:	cmd_mergerrfs()
#
# Purpose:	Merge a set of rollrec files into the current rollrec and
#		start rollover for those zones.
#
sub cmd_mergerrfs
{
	my $rrfs = shift;			# New rollrec files.
	my @rrfs;				# List of rollrec files.

	rolllog_log(LOG_TMI,'<command>',"mergerrfs command received");

	#
	# Divide the string of rollrec files into a list.
	#
	@rrfs = split ':', $rrfs;

	#
	# Merge the new rollrecs with the current one.
	#
	if(rollrec_merge($rollrecfile,@rrfs) < 0)
	{
		rolllog_log(LOG_INFO,'<command>',"unable to merge rollrecs ($rrfs) with current rollrec file");
		rollmgr_sendresp(ROLLCMD_RC_BADFILE,"unable to merge rollrecs \"$rrfs\"");
		return;
	}

	#
	# Let the user know all's well.
	#
	rolllog_log(LOG_INFO,"<command>","zone files merged");
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"zonefiles merged");
	display("readrrf \"dummy\" 0");
}

#-----------------------------------------------------------------------------
# Routine:	cmd_phasemsg()
#
# Purpose:	Set the phase-message length for log messages.
#
sub cmd_phasemsg
{
	my $pmsg = shift;			# Phase-message length.

	rolllog_log(LOG_TMI,'<command>',"phasemsg command received");

	#
	# Set our phase-message length.
	#
	if(rollmgr_phasemsg($pmsg) == 1)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,'phase-message length set');
		return;
	}

	#
	# If it fails, return the failure to the caller.
	#
	rolllog_log(LOG_INFO,'<command>',"invalid phase-message ($pmsg)");
	rollmgr_sendresp(ROLLCMD_RC_BADLEVEL,"invalid phase-message length \"$pmsg\"");
}

#-----------------------------------------------------------------------------
# Routine:	cmd_rollall()
#
# Purpose:	This command resumes rollover for all suspended zones in the
#		rollrec file.  The zones' rollrec records are marked as being
#		"roll" records, which will cause rollerd to start working on
#		them.  This change is reflected in the rollrec file.  rollnow()
#		is called for each suspended zone, in order to resume rollover.
#		We'll also keep track of the suspended zones we were and weren't
#		able to stop and report them to the caller.
#
sub cmd_rollall
{
	my $good = "";					# Resumed zones.
	my $bad	 = "";					# Unresumed zones.

	my $cnt	 = 0;					# Total count.
	my $gcnt = 0;					# Resumed count.
	my $bcnt = 0;					# Unresumed count.

	rolllog_log(LOG_TMI,'<command>',"rollall command received");

	#
	# Each suspended zone in the rollrec file will be returned to the
	# rollover process.  We'll keep track of the suspended zones that were
	# resumed and those that weren't in order to provide an appropriate
	# response message.
	#
	foreach my $zone (rollrec_names())
	{
		$cnt++;

		#
		# If the resume worked, increment the good count and add
		# the domain name to the list of good zones.  If it didn't
		# work, do the same for the bad count and bad-zone list.
		#
		if(rollnow($zone,'restart',1) == 1)
		{
			$gcnt++;
			$good .= "$zone ";
		}
		else
		{
			$bcnt++;
			$bad .= "$zone ";
		}
	}

	#
	# Get rid of trailing whitespace.
	#
	chomp $good;
	chomp $bad;

	#
	# Send a response message to the caller.
	#
	if($gcnt == $cnt)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,$good);
	}
	else
	{
		my $resp;				# Response message.

		$resp = "unable to resume roll process for zones:  $bad\n";

		#
		# If there were any zones that were resumed, we'll add them
		# to the message as well.
		#
		if($gcnt > 0)
		{
			$resp .= "zones now resumed:  $good\n";
		}

		chomp $resp;
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,$resp);
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_rollallksks()
#
# Purpose:	This command moves all the zones in the rollrec file into
#		immediate KSK rollover.
#
sub cmd_rollallksks
{
	rolllog_log(LOG_TMI,'<command>',"rollallksks command received");
	rollemall('KSK');
}

#-----------------------------------------------------------------------------
# Routine:	cmd_rollallzsks()
#
# Purpose:	This command moves all the zones in the rollrec file into
#		immediate ZSK rollover.
#
sub cmd_rollallzsks
{
	rolllog_log(LOG_TMI,'<command>',"rollallzsks command received");
	rollemall('ZSK');
}

#-----------------------------------------------------------------------------
# Routine:	cmd_rollrec()
#
# Purpose:	This routine changes the rollrec file being used by rollerd.
#		If this command is successful, then the communications channel
#		will be closed.
#
sub cmd_rollrec
{
	my $rrf = shift;				# New rollrec file.

	rolllog_log(LOG_TMI,'<command>',"rollrec command received; rollrec file - \"$rrf\"");

	if(rrfokay($rrf,'<command>'))
	{
		rolllog_log(LOG_INFO,'<command>',"------------------------------------------------");
		rolllog_log(LOG_INFO,'<command>',"setting rollrec file from \"$rollrecfile\" to \"$rrf\"");
		$rollrecfile = $rrf;

		rollmgr_sendresp(ROLLCMD_RC_OKAY,"rollerd now using rollrec file $rrf");
		display("rollrec \"$rrf\" 0");

		#
		# Close the channel and return success.
		#
		rollmgr_closechan();
		return(1);
	}

	rolllog_log(LOG_ERR,'<command>',"invalid rollrec file \"$rrf\"");
	rollmgr_sendresp(ROLLCMD_RC_BADROLLREC,"invalid rollrec file \"$rrf\"");
	return(0);
}

#-----------------------------------------------------------------------------
# Routine:	cmd_rollnow()
#
# Purpose:	This command moves a zone into immediate KSK or ZSK rollover.
#		It calls rollnow() to move the zone into immediate rollover.
#
sub cmd_rollnow
{
	my $zone = shift;				# Command's data.
	my $rolltype = shift;				# Type of rollover.

	my $rtlc;					# LC rollover type.
	my $rollret;					# Retcode from rolling.
	my $rrr;					# Rollrec reference.
	my %rr;						# Rollrec hash.

	$rtlc = lc($rolltype);
	rolllog_log(LOG_TMI,'<command>',"roll" . $rtlc . " command received; zone - \"$zone\"");

	#
	# Get the zone's rollrec.
	#
	$rrr = rollrec_fullrec($zone);
	if(!defined($rrr))
	{
		rolllog_log(LOG_ERR,'<command>',"no rollrec defined for zone $zone");
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"$zone not in rollrec file $rollrecfile");
		return(0);
	}
	%rr = %$rrr;

	#
	# Don't proceed if this zone is in the middle of KSK rollover.
	#
	if($rr{'kskphase'} > 0)
	{
		rolllog_log(LOG_TMI,'<command>',"in KSK rollover (phase $rr{'kskphase'}); not attempting ZSK rollover");
		rollmgr_sendresp(ROLLCMD_RC_KSKROLL,"$zone is already engaged in a KSK rollover");
		return(0);
	}

	#
	# Don't proceed if this zone is in the middle of ZSK rollover.
	#
	if($rr{'zskphase'} > 0)
	{
		rolllog_log(LOG_TMI,'<command>',"in ZSK rollover (phase $rr{'zskphase'}); not attempting ZSK rollover");
		rollmgr_sendresp(ROLLCMD_RC_ZSKROLL,"$zone is already engaged in a ZSK rollover");
		return(0);
	}

	#
	# Do the rollover and send an appropriate response.
	#
	$rollret = rollnow($zone,$rolltype,1);
	if($rollret == 1)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"$zone $rolltype rollover started");
	}
	elsif($rollret == 0)
	{
		rolllog_log(LOG_ERR,'<command>',"$zone not in rollrec file $rollrecfile");
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"$zone not in rollrec file $rollrecfile");
	}
	elsif($rollret == -1)
	{
		rolllog_log(LOG_ERR,'<command>',"$zone has bad values in rollrec file $rollrecfile");
		rollmgr_sendresp(ROLLCMD_RC_BADZONEDATA,"$zone has bad values in rollrec file $rollrecfile");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_rollzone()
#
# Purpose:	This command restores a skipped zone to rollover processing.
#
sub cmd_rollzone
{
	my $zone = shift;				# Command's data.

	rolllog_log(LOG_TMI,'<command>',"rollzone command received; zone - \"$zone\"");

	if(rollnow($zone,'restart',1) == 1)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"$zone rollover started");
	}
	else
	{
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"$zone not in rollrec file $rollrecfile");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_rollzsk()
#
# Purpose:	This command moves a zone into immediate rollover.  It calls
#		rollnow() to move the zone into immediate ZSK rollover.
#
sub cmd_rollzsk
{
	my $zone = shift;				# Command's data.
	my $rollret;					# Retcode from rolling.

	my $rrr;					# Rollrec reference.
	my %rr;						# Rollrec hash.

	rolllog_log(LOG_TMI,'<command>',"rollzsk command received; zone - \"$zone\"");

	#
	# Get the zone's rollrec.
	#
	$rrr = rollrec_fullrec($zone);
	if(!defined($rrr))
	{
		rolllog_log(LOG_ERR,'<command>',"no rollrec defined for zone $zone");
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"$zone not in rollrec file $rollrecfile");
	}
	%rr = %$rrr;

	#
	# Don't proceed if this zone is in the middle of KSK rollover.
	#
	if($rr{'kskphase'} > 0)
	{
		rolllog_log(LOG_TMI,'<command>',"in KSK rollover (phase $rr{'kskphase'}); not attempting ZSK rollover");
		rollmgr_sendresp(ROLLCMD_RC_KSKROLL,"$zone is already engaged in a KSK rollover");
		return(0);
	}

	#
	# Don't proceed if this zone is in the middle of ZSK rollover.
	#
	if($rr{'zskphase'} > 0)
	{
		rolllog_log(LOG_TMI,'<command>',"in ZSK rollover (phase $rr{'zskphase'}); not attempting ZSK rollover");
		rollmgr_sendresp(ROLLCMD_RC_ZSKROLL,"$zone is already engaged in a ZSK rollover");
		return(0);
	}

	#
	# Do the ZSK rollover and send an appropriate response.
	#
	$rollret = rollnow($zone,'ZSK',1);
	if($rollret == 1)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"$zone ZSK rollover started");
	}
	elsif($rollret == 0)
	{
		rolllog_log(LOG_ERR,'<command>',"$zone not in rollrec file $rollrecfile");
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"$zone not in rollrec file $rollrecfile");
	}
	elsif($rollret == -1)
	{
		rolllog_log(LOG_ERR,'<command>',"$zone has bad values in rollrec file $rollrecfile");
		rollmgr_sendresp(ROLLCMD_RC_BADZONEDATA,"$zone has bad values in rollrec file $rollrecfile");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_runqueue()
#
# Purpose:	This command forces rollerd to run its queue.  It does this
#		by setting the elapsed-sleep-time equal to the time-to-sleep.
#		Upon return, sleeper() will see that sleepers must awake,
#		and rollerd will go run its rollrec queue.
#
sub cmd_runqueue
{
	rolllog_log(LOG_TMI,'<command>',"runqueue command received");

	rolllog_log(LOG_INFO,'<command>',"checking rollrec queue");
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"rollerd checking rollrec queue");
	sleeper_awake();
}

#-----------------------------------------------------------------------------
# Routine:	cmd_queuelist()
#
# Purpose:	This command returns the soon queue.  The zones and times
#		until their next events are returned.
#
sub cmd_queuelist
{
	my $zncnt;				# Number of zones we'll report.
	my $outstr = '';			# Response to caller.

	rolllog_log(LOG_TMI,'<command>',"queuelist command received");

	#
	# Ensure that this command makes sense to respond to.
	#
	if($eventmaster != $EVT_QUEUE_SOON)
	{
		rollmgr_sendresp(ROLLCMD_RC_BADEVENT,"rollerd not running the queue-soon event handler");
		return;
	}

	$zncnt = @queue_sooners - $queue_firstsoon;

	$outstr = "Soon-Queue List  ($zncnt zones)\n";

	for(my $ind = $queue_firstsoon; $ind < @queue_sooners; $ind++)
	{
		my $zn = $queue_sooners[$ind];
		$outstr .= "    $zn    " . timetrans($queue_eventtimes{$zn}) . " until next event\n";
	}

	rollmgr_sendresp(ROLLCMD_RC_OKAY,$outstr);
}

#-----------------------------------------------------------------------------
# Routine:	cmd_queuestatus()
#
# Purpose:	This command returns the status of the queuing system.
#
sub cmd_queuestatus
{
	my $allcnt;			# Count of all zones we're managing.
	my $sooncnt;			# Count of zones that will roll soon.
	my $scantime;			# Time until next full scan.
	my $nexttime;			# Time until next rollover event.
	my $fprdtime;			# Time between full scans.
	my $soonend;			# End of current soon period.

	my $nextzone;			# Zone with next rollover event.
	my $outstr;			# Response to caller.

	rolllog_log(LOG_TMI,'<command>',"queuestatus command received");

	#
	# Ensure that this command makes sense to respond to.
	#
	if($eventmaster != $EVT_QUEUE_SOON)
	{
		rollmgr_sendresp(ROLLCMD_RC_BADEVENT,"rollerd not running the queue-soon event handler");
		return;
	}

	#
	# Get the data we'll need...
	#
	$allcnt	  = @queue_allzones;
	$sooncnt  = @queue_sooners;
	$soonend  = time + $queue_eventtimes{$QUEUE_RUNSCAN};
	$soonend  = localtime($soonend);

	$scantime = timetrans($queue_eventtimes{$QUEUE_RUNSCAN});
	$nextzone = $queue_sooners[$queue_firstsoon];

	$nexttime = $queue_eventtimes{$nextzone};
	if($nexttime <= 0)
	{
		$nexttime = "happening now";
	}
	else
	{
		$nexttime = "in " . timetrans($nexttime);
	}

	$fprdtime = timetrans($QUEUE_SOONLIMIT);

	#
	# ... and build a response.
	#
	$outstr  = "$event_methods[$eventmaster] queuing method\n";
	$outstr  = "$fprdtime between FULL scans\n";
	$outstr .= "$allcnt zones managed\n";
	$outstr .= "$sooncnt zones with SOON rollover events\n";
	$outstr .= "\n";
	$outstr .= "next FULL zone scan in $scantime\n";
	$outstr .= "end of current SOON scan period $soonend (local)\n";
	$outstr .= "next rollover event $nexttime  ($nextzone)\n";

	rollmgr_sendresp(ROLLCMD_RC_OKAY,$outstr);
}

#-----------------------------------------------------------------------------
# Routine:	cmd_shutdown()
#
# Purpose:	This command forces rollerd to shut down.
#
sub cmd_shutdown
{
	rolllog_log(LOG_TMI,'<command>',"shutdown command received");
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"rollerd shutting down");

	halt_handler();
}

#-----------------------------------------------------------------------------
# Routine:	cmd_signzone()
#
# Purpose:	This command causes a zone signing, without any key creation
#		or rolling.
#
sub cmd_signzone
{
	my $zone = shift;				# Command's data.

	my $rrr;					# Rollrec reference.
	my $krr;					# Keyrec reference.
	my $phasestr;					# Phase argument.

	rolllog_log(LOG_TMI,'<command>',"signzone command received");

	#
	# Get the current phase values for the zone.
	#
	$rrr = rollrec_fullrec($zone);

	#
	# Get the phase string we'll use for signing.
	#
	$phasestr = phaseargs($rrr->{'kskphase'},$rrr->{'zskphase'});

	#
	# Check value and file existence, etc.
	#
	$krr = opts_zonekr($rrr->{'keyrec'},$zone);

	#
	# Sign the zone.
	#
	rolllog_log(LOG_PHASE,'<command>',"mid-phase, user-initiated signing of $zone");
	if(signer($zone,$phasestr,$krr) == 0)
	{
		rolllog_log(LOG_TMI,'<command>',"rollerd signed zone $zone");
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"rollerd signed zone $zone");
	}
	else
	{
		rolllog_log(LOG_ERR,'<command>',"unable to sign zone $zone");
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"unable to sign zone $zone");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_signzones()
#
# Purpose:	This command causes all unskipped zones to be signed, without
#		any key creation or rolling.
#
sub cmd_signzones
{
	my $skipflag = shift;				# Command's data.

	my $rrr;					# Rollrec reference.
	my $krr;					# Keyrec reference.
	my $phasestr;					# Phase argument.
	my @errzones = ();				# Unsigned zones.

	rolllog_log(LOG_TMI,'<command>',"signzones command received; data - \"$skipflag\"");

	#
	# Convert the textual zone-skip flag into an easy-to-use boolean.
	#
	$skipflag = ($skipflag eq 'active') ? 1 : 0;

	#
	# Sign each active zone in the rollrec file.  Any skipped zones will
	# not be signed.
	#
	foreach my $zone (rollrec_names())
	{
		#
		# Get the current rollrec for this zone and (maybe) skip
		# any skipped zones.
		#
		$rrr = rollrec_fullrec($zone);
		next if($skipflag && ($rrr->{'rollrec_type'} eq 'skip'));

		#
		# Get the phase string we'll use for signing.
		#
		$phasestr = phaseargs($rrr->{'kskphase'},$rrr->{'zskphase'});

		#
		# Check value and file existence, etc.
		#
		$krr = opts_zonekr($rrr->{'keyrec'},$zone);

		#
		# Sign the zone.
		#
		rolllog_log(LOG_PHASE,'<command>',"mid-phase, user-initiated signing of $zone");
		if(signer($zone,$phasestr,$krr) != 0)
		{
			push @errzones, $zone;
		}
	}

	#
	# If we signed all the zones, we'll send a success message.
	# If we couldn't sign any zones, we'll return the list of bad
	# zones to the caller.
	#
	if(@errzones == 0)
	{
		rolllog_log(LOG_TMI,'<command>',"rollerd signed all zones");
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"rollerd signed all zones");
	}
	else
	{
		my $errstr = join(', ', @errzones);
		rolllog_log(LOG_ERR,'<command>',"unable to sign all zones:  $errstr");
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"unable to sign all zones:  $errstr");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_skipall()
#
# Purpose:	This command stops rollover for all the zones in the rollrec
#		file.  The zones' rollrec records are marked as being "skip"
#		records, which will cause rollerd to ignore them.  This change
#		is reflected in the rollrec file.  skipnow() is called for each
#		zone, in order to stop rollover.  We'll also keep track of the
#		zones we were and weren't able to stop and report them to the
#		caller.
#
sub cmd_skipall
{
	my $good = "";					# Skipped zones.
	my $bad	 = "";					# Unskipped zones.

	my $cnt	 = 0;					# Total count.
	my $gcnt = 0;					# Skipped count.
	my $bcnt = 0;					# Unskipped count.

	rolllog_log(LOG_TMI,'<command>',"skipall command received");

	#
	# Each zone in the rollrec file will be removed from the rollover
	# process.  We'll keep track of the zones that were skipped and those
	# that weren't in order to provide an appropriate response message.
	#
	foreach my $zone (rollrec_names())
	{
		$cnt++;

		#
		# If the skip worked, increment the good count and add
		# the domain name to the list of good zones.  If it didn't
		# work, do the same for the bad count and bad-zone list.
		#
		if(skipnow($zone) == 1)
		{
			$gcnt++;
			$good .= "$zone ";
		}
		else
		{
			$bcnt++;
			$bad .= "$zone ";
		}
	}

	#
	# We still don't need no steenkin' trailing whitespace.
	#
	chomp $good;
	chomp $bad;

	#
	# Send a response message to the caller.
	#
	if($gcnt == $cnt)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,$good);
	}
	else
	{
		my $resp;				# Response message.

		$resp = "zones not in rollrec file $rollrecfile:  $bad\n";

		#
		# If there were any zones that were removed from rollover,
		# we'll add them to the message as well.
		#
		if($gcnt > 0)
		{
			$resp .= "zones now skipped:  $good\n";
		}

		rollmgr_sendresp(ROLLCMD_RC_BADZONE,$resp);
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_skipzone()
#
# Purpose:	This command removes a zone from rollover processing.
#
sub cmd_skipzone
{
	my $zone = shift;				# Command's data.

	rolllog_log(LOG_TMI,'<command>',"skipzone command received; zone - \"$zone\"");

	if(skipnow($zone) == 1)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,"$zone rollover stopped");
	}
	else
	{
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"$zone not in rollrec file $rollrecfile");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_sleeptime()
#
# Purpose:	This command sets rollerd's time-to-sleep to the user's
#		specified value.  This must be above a "constant" minimum
#		sleep time in order to prevent malicious users from making
#		rollerd continually run its queue without any resting.
#
#		It might be good to also enforce a maximum sleep time.
#
sub cmd_sleeptime
{
	my $newnap = shift;				# New sleep time.

	rolllog_log(LOG_TMI,'<command>',"sleeptime command received; new sleep time - \"$newnap\"");

	if($newnap < $MIN_SLEEP)
	{
		rolllog_log(LOG_ERR,'<command>',"sleep-time must be >= $MIN_SLEEP");
		rollmgr_sendresp(ROLLCMD_RC_BADSLEEP,"invalid sleep-time \"$newnap\"");
	}
	else
	{
		rolllog_log(LOG_INFO,'<command>',"setting sleep-time to $newnap");
		$sleeptime = $newnap;
		$sleepcnt  = $newnap;

		rollmgr_sendresp(ROLLCMD_RC_OKAY,"sleep-time set to $newnap");
		display("sleeptime \"all\" $sleeptime");
	}
}

#-----------------------------------------------------------------------------
# Routine:	cmd_splitrrf()
#
# Purpose:	Split the current rollrec file in two.  The specified rollrec
#		entries are moved into a new file.
#
sub cmd_splitrrf
{
	my $args = shift;			# New rollrec file and rollrecs.
	my $newrrf;				# New rollrec file.
	my @rrfs;				# Rollrec entries to move.

	rolllog_log(LOG_TMI,'<command>',"splitrrf command received");

	#
	# Divide the string of arguments into a list.
	#
	@rrfs = split ':', $args;

	#
	# Get the new rollrec file name from the front of the list.
	#
	$newrrf = shift @rrfs;

	#
	# Lock the file so others can't use it.  We'll also read the file
	# to make sure we have the current version.
	#
	rollrec_lock();
	rollrec_close();
	rollrec_read($rollrecfile);

	#
	# Split the rollrecs into the new file.
	#
	if(rollrec_split($newrrf,@rrfs) < 0)
	{
		rolllog_log(LOG_INFO,'<command>',"unable to split rollrec from current rollrec file to \"$newrrf\"");
		rollmgr_sendresp(ROLLCMD_RC_BADFILE,"unable to split current rollrec to \"$newrrf\"");
		return;
	}

	#
	# Unlock the file so others can use it.
	#
	rollrec_unlock();

	#
	# Let the user know all's well.
	#
	rolllog_log(LOG_INFO,"<command>","current rollrec split to \"$newrrf\"");
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"zonefiles split");
	display("readrrf \"dummy\" 0");
}

#-----------------------------------------------------------------------------
# Routine:	cmd_status()
#
# Purpose:	Give a caller some rollerd settings.
#
sub cmd_status
{
	my $data = shift;				# Command's data.

	my $lfile;					# Log file.
	my $lvl;					# Logging level.
	my $lvlstr;					# Logging level string.
	my $tz;						# Logging timezone.
	my $outbuf = "";				# Response buffer.

	#
	# Get the info to report.
	#
	$lfile	= rolllog_file();
	$lvl	= rolllog_level();
	$lvlstr	= rolllog_str($lvl);
	$tz     = rolllog_gettz();

	#
	# Build status report.
	#
	$outbuf  = "boot-time:          $boottime\n";
	$outbuf .= "realm:              $realm\n";
	$outbuf .= "directory:          $curdir\n";
	$outbuf .= "rollrec file:       $rollrecfile\n";
	$outbuf .= "config file:        $dtconfig\n";
	$outbuf .= "logfile:            $lfile\n";
	$outbuf .= "loglevel:           $lvl\n";
	$outbuf .= "logtz:              $tz\n";
	$outbuf .= "always-sign:        $alwayssign\n";
	$outbuf .= "autosign:           $autosign\n";
	$outbuf .= "zone reload:        $zoneload\n";

	if($eventmaster == $EVT_FULLLIST)
	{
		$outbuf .= "sleeptime:          $sleeptime\n";
	}

	$outbuf .= "event method:       $event_methods[$eventmaster]\n";

	if($username ne '')
	{
		$outbuf .= "running as:         $username\n";
	}

	$outbuf	.= "\n";
	$outbuf	.= "$VERS\n";
	$outbuf	.= "$DTVERS\n";

	#
	# Send the status report to the caller.
	#
	rolllog_log(LOG_TMI,'<command>',"status command received");
	rollmgr_sendresp(ROLLCMD_RC_OKAY,$outbuf);
}

#-----------------------------------------------------------------------------
# Routine:	cmd_zonegroup()
#
# Purpose:	Give a caller info about the zone groups or the list of zone
#		in a specified group.
#
sub cmd_zonegroup
{
	my $data = shift;				# Command's data.
	my $outbuf = '';				# Response buffer.
	my $errbuf = '';				# Error buffer.

	#
	# Get the info to report.
	#
	if($data eq '')
	{
		my %zgroups;				# Zone groups.

		#
		# Get the list of zone groups.
		#
		%zgroups = rollrec_zonegroups();

		#
		# Build the list of zone groups and count of zones in
		# that group.
		#
		foreach my $zg (sort(keys(%zgroups)))
		{
			$outbuf .= "$zg:\t$zgroups{$zg} zones\n";
		}

		#
		# Mark an error if there are no zone groups.
		#
		if($outbuf eq '')
		{
			$errbuf = "no zone groups defined";
		}
	}
	else
	{
		my @zgroup;				# Zone group.

		@zgroup = rollrec_zonegroup($data);

		#
		# Buid the list of zones in this group.  If there are no
		# zones in this group, this isn't really a zone group.
		#
		if(@zgroup > 0)
		{
			$outbuf = join("\n",@zgroup);
		}
		else
		{
			$errbuf = "invalid zone group \"$data\"";
		}

	}

	#
	# Send the status report to the caller.
	#
	chomp $outbuf;
	if($outbuf ne '')
	{
		rolllog_log(LOG_TMI,'<command>',"zonegroup($data) command received");
		rollmgr_sendresp(ROLLCMD_RC_OKAY,$outbuf);
	}
	else
	{
		rolllog_log(LOG_INFO,'<command>',$errbuf);
		rollmgr_sendresp(ROLLCMD_RC_BADZONEGROUP,$errbuf);
	}

}

#-----------------------------------------------------------------------------
# Routine:	cmd_zonelog()
#
# Purpose:	Set the logging level for a zone.
#
sub cmd_zonelog
{
	my $data = shift;				# Command's data.

	my $rrr;					# Reference to rollrec.
	my %rr;						# Rollrec hash.

	my $zone;					# User's zone.
	my $llev;					# User's logging level.
	my $llevstr;					# String of log level.

	rolllog_log(LOG_TMI,'<command>',"zonelog command received");

	#
	# Get the zone and logging level from the command data.
	#
	$data =~ /^(.*):(.*)$/;
	$zone = $1;
	$llev = $2;

	#
	# Convert the user's logging level to its numeric form.
	#
	$llev = rolllog_num($llev);

	#
	# Ensure that the logging level is valid.
	#
	if($llev == -1)
	{
		rollmgr_sendresp(ROLLCMD_RC_BADLEVEL,"invalid logging level \"$llev\"");
		rolllog_log(LOG_ALWAYS,'<command>',"invalid logging level \"$llev\" specified for zone \"$zone\"\n");
		return;
	}

	#
	# Read the rollrec file.  Complain and return if we couldn't.
	#
	rollrec_lock();
	if(rollrec_read($rollrecfile) <= 0)
	{
		rollrec_unlock();
		rollmgr_sendresp(ROLLCMD_RC_RRFOPEN,"unable to open rollrec file $rollrecfile");
		rolllog_log(LOG_ALWAYS,'<command>',"unable to open rollrec file $rollrecfile\n");
		return;
	}

	#
	# Get the specified zone's roll record.
	#
	$rrr = rollrec_fullrec($zone);
	if(!defined($rrr))
	{
		rollrec_unlock();
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"invalid zone \"$zone\" specified");
		rolllog_log(LOG_ALWAYS,'<command>',"invalid zone \"$zone\" specified for zonelog command\n");
		return;
	}
	%rr = %$rrr;

	#
	# Set the zone's logging level.
	#
	rollrec_setval($zone,"loglevel",$llev);

	#
	# Write and unlock the rollrec file.
	#
	rollrec_close();
	rollrec_unlock();

	#
	# Report the command and return.
	#
	$llevstr = rolllog_str($llev);
	rolllog_log(LOG_INFO,'<command>',"set the logging level for zone $zone to $llevstr");
	return(1);
}

#-----------------------------------------------------------------------------
# Routine:	cmd_zonestatus()
#
# Purpose:	Return zone status to the control program.
#
sub cmd_zonestatus
{
	my $data = shift;				# Command's data.

	my $cnt = 0;					# Zone count.
	my $outbuf = "";				# Zone status line.

	rolllog_log(LOG_TMI,'<command>',"zonestatus command received");

	rollrec_lock();

	#
	# Read the rollrec file.  If we couldn't, complain and return.
	#
	if(rollrec_read($rollrecfile) <= 0)
	{
		rollrec_unlock();
		rollmgr_sendresp(ROLLCMD_RC_RRFOPEN,"unable to open rollrec file $rollrecfile");
		rolllog_log(LOG_ALWAYS,'<command>',"unable to open rollrec file $rollrecfile\n");
		return;
	}

#	rolllog_log(LOG_ALWAYS,'<command>',"zone status:");

	#
	# Add the status of each zone in the rollrec file to our output buffer.
	#
	foreach my $rname (rollrec_names())
	{
		my $rrr;		# Reference to rollrec.
		my %rr;			# Rollrec hash.

		my $phase;		# Rollrec's phase.
		my $pstr;		# Phase string.

		my $rtype;		# Rollrec's record type.

		#
		# Get the rollrec for this name.
		#
		$rrr = rollrec_fullrec($rname);
		next if(!defined($rrr));
		%rr = %$rrr;

		#
		# Get the data we're interested in.
		#
		if($rr{'kskphase'} > 0)
		{
			$phase = 'KSK ' . $rr{'kskphase'};
			$pstr = rollmgr_get_phase('KSK', $rr{'kskphase'});
		}
		else
		{
			$phase = 'ZSK ' . $rr{'zskphase'};
			$pstr = rollmgr_get_phase('ZSK', $rr{'zskphase'});
		}

		$phase = "$phase: $pstr" if($pstr ne '');
		$rtype = $rr{'rollrec_type'};
		$phase = '-' if($rtype eq 'skip');

		#
		# Add the data to the output buffer and bump our zone count.
		#
		$outbuf .= "$rname/$rr{'zonename'}\t$rtype\t$phase\n";
#		rolllog_log(LOG_ALWAYS,'<command>',"\t$rname/$rr{'zonename'}\t$rtype\t$phase\n");
		$cnt++;
	}

	#
	# Send a response to the control program.
	#
	if($cnt == 0)
	{
		rollmgr_sendresp(ROLLCMD_RC_NOZONES,"no zones defined in $rollrecfile");
		rolllog_log(LOG_ALWAYS,'<command>',"no zones defined in $rollrecfile\n");
	}
	else
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,$outbuf);
	}

	rollrec_unlock();
}

#-----------------------------------------------------------------------------
# Routine:	cmd_zsargs()
#
# Purpose:	Set zone-specific arguments.
#
sub cmd_zsargs
{
	my $data = shift;			# Command's data.

	my @args = ();				# Command's split args.
	my @zsargs = ();			# Zonesigner's args.
	my @zones = ();				# Zones to modify.
	my @badzones = ();			# Invalid zones.

	my $zsargstr = '';			# Final argument string.
	my $clear = 0;				# Flag for zapping argstr.

	rolllog_log(LOG_TMI,'<command>',"zsargs command received");

	#
	# Split the argument into its molecules.
	#
	@args = split /,/, $data;

	#
	# Divide up the arguments between zones and zonesigner arguments.
	# Zonesigner arguments have equal signs; zones don't.
	#
	foreach my $arg (@args)
	{
		if($arg =~ /\=/)
		{
			push @zsargs, $arg;
		}
		else
		{
			push @zones, $arg;
		}
	}

	#
	# Ensure we've got both zones and zonesigner arguments.
	#
	if(@zsargs == 0)
	{
		rollmgr_sendresp(ROLLCMD_RC_NOARGS,"no arguments given to zsargs command");
		rolllog_log(LOG_ALWAYS,'<command>',"no arguments given to zsargs command\n");
		return;
	}
	if(@zones == 0)
	{
		rollmgr_sendresp(ROLLCMD_RC_NOZONES,"no zones given to zsargs command");
		rolllog_log(LOG_ALWAYS,'<command>',"no zones given to zsargs command\n");
		return;
	}

	#
	# Put the arguments into the form zonesigner is expecting and join
	# up the bits into a single argument string.
	#
	for(my $ind=0; $ind < @zsargs; $ind++)
	{
		$zsargs[$ind] =~ s/^=/-/;
		$zsargs[$ind] =~ s/=/ /;
	}

	$zsargstr = join ' ', @zsargs;

	#
	# Set the "clear argument" flag if the fake "clear" option is given.
	#
	$clear = 1 if($zsargstr =~ /-clear/);

	#
	# Read the rollrec file.  If we couldn't read it, complain and return.
	#
	rollrec_lock();
	if(rollrec_read($rollrecfile) <= 0)
	{
		rollrec_unlock();
		rollmgr_sendresp(ROLLCMD_RC_RRFOPEN,"unable to open rollrec file $rollrecfile");
		rolllog_log(LOG_ALWAYS,'<command>',"unable to open rollrec file $rollrecfile\n");
		return;
	}

	#
	# Ensure the specified zones are in the rollrec file.
	#
	foreach my $rname (@zones)
	{
		my $rrr;		# Reference to rollrec.

		$rrr = rollrec_fullrec($rname);
		if(!defined($rrr))
		{
			push @badzones, $rname;
		}
	}

	#
	# Return an error if any zones were specified that aren't in the
	# rollrec file,
	#
	if(@badzones > 0)
	{
		rollrec_unlock();
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"non-existent zones specified - @badzones");
		rolllog_log(LOG_ALWAYS,'<command>',"non-existent zones specified - @badzones\n");
		return;
	}

	#
	# Set (or clear) the new zsargs field in the rollrec entries for the
	# given zones.
	#
	foreach my $zone (@zones)
	{
		if($clear)
		{
			rollrec_delfield($zone,"zsargs");
			rolllog_log(LOG_INFO,'<command>',"clearing zsargs from zone $zone to $zsargstr");
		}
		else
		{
			rollrec_setval($zone,"zsargs",$zsargstr);
			rolllog_log(LOG_INFO,'<command>',"setting zsargs for zone $zone to $zsargstr");
		}
	}

	#
	# Tidy up the rollrec file and tell the user we're done.
	#
	rollrec_write();
	rollrec_close();
	rollrec_unlock();
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"zsargs command completed\n");
}

#-----------------------------------------------------------------------------
# Routine:	dspubber()
#
# Purpose:	Move the specified zone to KSK rollover phase 6, but only if
#		it's in KSK phase 5.
#
#		If the zone isn't in KSK phase 5, then the zone's phase will
#		be left alone.  If the call came from cmd_dspub(), then error
#		messages will be generated; if it came from cmd_dspuball(),
#		then no error messages will be given.
#
#		WARNING:  dspubber() calls chrrdir() to move into a zone's
#			  directory.  After doing its job, it does *not*
#			  return to the previous directory and it expects the
#			  caller to do so.  This is to minimize the number of
#			  chdir()'s done when the caller is cmd_dspuball().
#
sub dspubber
{
	my $cmd = shift;			# Command we were called from.
	my $rname = shift;			# Command's data.
	my $rrr;				# Reference to rollrec.
	my $phase;				# Zone's phase.

	#
	# Get the zone's rollrec.
	#
	$rrr = rollrec_fullrec($rname);
	if(!defined($rrr))
	{
		rolllog_log(LOG_ERR,'<command>',"no rollrec defined for zone \"$rname\"");
		rollmgr_sendresp(ROLLCMD_RC_BADZONE,"\"$rname\" not in rollrec file $rollrecfile");
		return;
	}

	#
	# Ensure we're in the proper KSK-rollover phase to do this command.
	#
	$phase = rollrec_recval($rname,'kskphase');
	if($phase != 5)
	{
		if($cmd eq 'dspub')
		{
			rolllog_log(LOG_INFO,'<command>',"\"$rname\" not in KSK-rollover phase 5");
			rollmgr_sendresp(ROLLCMD_RC_BADZONEDATA,"\"$rname\" not in KSK-rollover phase 5");
		}
		return;
	}

	#
	# Move to the zone's directory.
	#
	if(chrrdir($rname,$rrr->{'directory'},"$cmd:") == 0)
	{
		rolllog_log(LOG_INFO,'<command>',"unable to move to \"$rname\" directory \"$rrr->{'directory'}\"");
		rollmgr_sendresp(ROLLCMD_RC_BADROLLREC,"unable to move to $rname's directory \"$rrr->{'directory'}\"");
		return;
	}

	#
	# Change the zone's rollover phase to phase 6.
	#
	nextphase($rname,$rrr,6,'KSK');
	rollmgr_sendresp(ROLLCMD_RC_OKAY,"zone \"$rname\" now in KSK rollover phase 6");

}

#-----------------------------------------------------------------------------
# Routine:	rollemall()
#
# Purpose:	This command moves all the zones in the rollrec file into
#		immediate rollover.  The type of rollover is specified by the
#		caller.  rollnow() is called for each zone, in order to start
#		rollover.  We'll also keep track of the zones we were and
#		weren't able to put in rollover, and report them to the caller.
#
sub rollemall
{
	my $rt = shift;					# Rollover type.

	my $good = '';					# Rolled zones.
	my $bad	 = '';					# Unrolled zones.

	my $cnt	 = 0;					# Total count.
	my $gcnt = 0;					# Rolled count.
	my $bcnt = 0;					# Unrolled count.

	#
	# Each zone in the rollrec file will be put in the rollover process,
	# starting after that initial wait period.  We'll keep track of the
	# zones that were rolled and those that weren't in order to provide
	# an appropriate response message.
	#
	foreach my $zone (rollrec_names())
	{
		$cnt++;

		#
		# If the rollover worked, increment the good count and add
		# the domain name to the list of good zones.  If it didn't
		# work, do the same for the bad count and bad-zone list.
		#
		if(rollnow($zone,$rt,0) == 1)
		{
			$gcnt++;
			$good .= "$zone ";
		}
		else
		{
			$bcnt++;
			$bad .= "$zone ";
		}
	}

	#
	# We don't need no steenkin' trailing whitespace.
	#
	chomp $good;
	chomp $bad;

	#
	# Send a response message to the caller.
	#
	if($gcnt == $cnt)
	{
		rollmgr_sendresp(ROLLCMD_RC_OKAY,$good);
	}
	else
	{
		my $resp;				# Response message.

		$resp = "zones not in rollrec file $rollrecfile:  $bad\n";

		#
		# If there were any zones that were put into rollover,
		# we'll add them to the message as well.
		#
		if($gcnt > 0)
		{
			$resp .= "zones now in $rt rollover:  $good\n";
		}

		rollmgr_sendresp(ROLLCMD_RC_BADZONE,$resp);
	}
}

#-----------------------------------------------------------------------------
# Routine:	rollnow()
#
# Purpose:	This command moves a zone into immediate rollover for the
#		specified key type.  It doesn't sit in the initial waiting
#		period, but starts right off in rollover phase 2.
#
sub rollnow
{
	my $zone     = shift;			# Zone to roll.
	my $rolltype = shift;			# Type of roll to start.
	my $force    = shift;			# Force-rollover flag.
	my $rollstr;				# String of roll type.

	#
	# Re-read the rollrec file and change the record's type.  We'll
	# also move the zone to phase 2 of rollover.
	#
	rollrec_lock();
	if(rollrec_read($rollrecfile) > 0)
	{
		my $rrr;				# Reference to rollrec.
		my %rr;					# Rollrec hash.

		my $dir;				# Zone's directory.
		my $krf;				# Zone's keyrec.
		my $znf;				# Zone's zonefile.

		#
		# Get the rollrec for the zone.
		#
		$rrr = rollrec_fullrec($zone);
		if(!defined($rrr))
		{
			rolllog_log(LOG_ERR,'<command>',"no rollrec defined for zone $zone");
			rollrec_close();
			rollrec_unlock();
			return(0);
		}
		%rr = %$rrr;

		#
		# If the caller isn't demanding a rollover, we'll make sure
		# the zone isn't already rolling.
		#
		if(! $force)
		{
			if($rr{'kskphase'} > 0)
			{
				rolllog_log(LOG_TMI,'<command>',"in KSK rollover (phase $rr{'kskphase'}); not attempting rollover");
				rollrec_close();
				rollrec_unlock();
				return(0);
			}

			if($rr{'zskphase'} > 0)
			{
				rolllog_log(LOG_TMI,'<command>',"in ZSK rollover (phase $rr{'zskphase'}); not attempting rollover");
				rollrec_close();
				rollrec_unlock();
				return(0);
			}

		}

		#
		# Do a few very simple validation checks.
		#
		$dir = '.';
		$krf = $rr{'keyrec'};
		$znf = $rr{'zonefile'};
		if(exists($rr{'directory'}))
		{
			$dir = $rr{'directory'};
			$krf = "$dir/$krf" if($krf !~ /^\//);
			$znf = "$dir/$znf" if($znf !~ /^\//);
		}
		if((! -e $dir) || (! -e $krf) || (! -e $znf))
		{
			rollrec_close();
			rollrec_unlock();
			return(-1);
		}

		#
		# A skip record is changed to a regular rollrec.
		#
		if($rr{'rollrec_type'} eq 'skip')
		{
			rolllog_log(LOG_INFO,'<command>',"$zone skip rollrec changed to a roll rollrec");
			rollrec_rectype($zone,"roll");
			$rrr = rollrec_fullrec($zone);
		}

		#
		# Change the zone's phase to rollover phase 1 (starting).
		#
		# WJH: This used to be set to phase 2 to bypass
		# the initial rollover waiting period and get right to the
		# nitty gritty of doing a rollover.  But I changed it back
		# to phase one, which is especially important for frequent
		# or sudden rollovers.
		#
		if($rolltype eq 'KSK')
		{
			nextphase($zone,$rrr,1,'KSK');
			$rollstr = 'KSK rollover';
		}
		elsif($rolltype eq 'ZSK')
		{
			nextphase($zone,$rrr,1,'ZSK');
			$rollstr = 'ZSK rollover';
		}
		elsif($rolltype eq 'restart')
		{
			# Do nothing, just move from skip to roll.
			$rollstr = 'restart';
		}

		#
		# Write the rollrec file.
		#
		rollrec_write();
	}

	#
	# Unlock the rollrec file.
	#
	rollrec_close();
	rollrec_unlock();

	#
	# Set the sleep values such that the queue will be run.
	#
	sleeper_awake();
	rolllog_log(LOG_INFO,'<command>',"forcing a $rollstr for zone $zone");

	#
	# This is probably not the right thing to do.
	#
	display("startroll \"$zone\" 0");
	return(1);
}

#-----------------------------------------------------------------------------
# Routine:	skipnow()
#
# Purpose:	This command prevents a zone from rolling over.  It is marked
#		as a skip record in the rollrec file.
#
sub skipnow
{
	my $zone = shift;				# Command's data.
	my $rrr;					# Reference to rollrec.
	my %rr;						# Rollrec hash.

	#
	# Get the rollrec for the zone.
	#
	$rrr = rollrec_fullrec($zone);
	if(!defined($rrr))
	{
		rolllog_log(LOG_ERR,'<command>',"no rollrec defined for zone $zone");
		return(0);
	}
	%rr = %$rrr;

	#
	# Re-read the rollrec file and change the record's type.  We'll
	# also move the zone to phase 0 of both KSK and ZSK rollover.
	#
	rollrec_lock();
	if(rollrec_read($rollrecfile) > 0)
	{
		#
		# A roll record is changed to a skip rollrec and its
		# phases set to 0.
		#
		if($rr{'rollrec_type'} eq "roll")
		{
			rolllog_log(LOG_INFO,'<command>',"$zone roll rollrec changed to a skip rollrec");

			rollrec_rectype($zone,"skip");
			display("stoproll \"$zone\" 0");
		}

		#
		# Set the zone's KSK and ZSK rollover phases to 0.
		#
#		rollrec_setval($zone,"kskphase",0);
#		rollrec_setval($zone,"zskphase",0);

		#
		# Write the rollrec file.
		#
		rollrec_write();

	}

	#
	# Unlock the rollrec file.
	#
	rollrec_close();
	rollrec_unlock();

	#
	# Log the event and return success.
	#
	rolllog_log(LOG_INFO,'<command>',"forcing a skiproll for zone $zone");
	return(1);
}

#-----------------------------------------------------------------------------
# Routine:	controllers()
#
# Purpose:	Initialize handlers for our externally provided commands.
#
sub controllers
{
	my $onflag = shift;				# Handler on/off flag.

	#
	# Set the signal handlers that will manage incoming commands.
	#
	if($onflag)
	{
		if($queued_int)
		{
			$queued_int = 0;
			halt_handler();
		}

		if($queued_hup)
		{
			$queued_hup = 0;
			intcmd_handler();
		}

		$SIG{'HUP'} = \&intcmd_handler;
		$SIG{'INT'} = \&halt_handler;
	}
	else
	{
		$SIG{'HUP'} = \&queue_hup_handler;
		$SIG{'INT'} = \&queue_int_handler;
	}
}

#-----------------------------------------------------------------------------
# Routine:	loadzone()
#
# Purpose:	Initiates zone-reload, but obeys the $zoneload flag.
#
sub loadzone
{
	my $rndc = shift;				# Zone-loading program.
	my $rname = shift;				# Rollrec name of zone.
	my $zonename = shift;				# Zone to reload.
	my $phase = shift;				# Zone's current phase.
	my $ret;					# Return code.

	#
	# If the user doesn't want to reload the zone, we'll pretend we have.
	#
	if(!$zoneload)
	{
		rolllog_log(LOG_INFO,$rname,"not reloading zone for $phase\n");
		return(0);
	}

	#
	# Reload the zone for real.
	#
	rolllog_log(LOG_INFO,$rname,"reloading zone for $phase\n");
	$ret = rollmgr_loadzone($rndc,$zonename);
	return($ret);
}

#-----------------------------------------------------------------------------
# Routine:	zonemodified()
#
# Purpose:	Checks if a zone file has been modified more recently than
#		its signed version.  If so, then the zone file will be
#		re-signed -- without any keys created or other rollover
#		actions taken.
#
#		The "more recent" check is performed by comparing the date
#		of last modification for the two zone files.  If the unsigned
#		zonefile's date is greater than the signed zonefile's date,
#		then it is assumed the unsigned zonefile was modified.
#
#		This only works if the signed and unsigned zonefiles are
#		in different files.
#
sub zonemodified
{
	my $rrr = shift;			# Rollrec reference.
	my $rname = shift;			# Zone under consideration.

	my $krf = $rrr->{'keyrec'};		# Zone's keyrec file.
	my $zfs;				# Signed zonefile.
	my $zfu;				# Unsigned zonefile.
	my @zfst;				# Zonefile stat info.
	my $zfstime;				# Update time of signed zone.
	my $zfutime;				# Update time of unsigned zone.

	#
	# Go no further here if we aren't autosigning.
	#
	return if(! $autosign);

	#
	# Make sure we've got the correct keyrec file.
	#
	keyrec_read($krf);

	#
	# Get the name of the zonefile.  If the name is null, we'll read
	# the keyrec and get the name again.
	#
	if(($zfu = keyrec_recval($rrr->{'zonename'},'zonefile')) eq '')
	{
		keyrec_read($krf);
		$zfu = keyrec_recval($rrr->{'zonename'},'zonefile');
	}

	#
	# Now we'll get the name of the signed zonefile.
	#
	$zfs = keyrec_recval($rrr->{'zonename'},'signedzone');
	if($zfs ne $rrr->{'zonefile'})
	{
		rolllog_log(LOG_ERR,$rname,"rollrec and keyrec disagree about name of signed zone file");
		rolllog_log(LOG_ERR,$rname,"  rollrec's signed zone file - $rrr->{'zonefile'}");
		rolllog_log(LOG_ERR,$rname,"  keyrec's signed zone file  - $zfs");
	}

	#
	# Get the last modification time of the signed zonefile.
	#
	@zfst = stat($zfs);
	$zfstime = @zfst[9];

	#
	# Get the last modification time of the unsigned zonefile.
	#
	@zfst = stat($zfu);
	$zfutime = @zfst[9];

	#
	# Check the last modification times, and sign the zonefile if it's
	# been changed more recently than the unsigned zonefile.
	#
	if($zfutime > $zfstime)
	{
		my $krr;			# Ref to zone's keyrec.
		my $pstr;			# Phase string.

		rolllog_log(LOG_PHASE,$rname,"zonefile modified; re-signing");

		#
		# Get the current phase (in string form) and a ref
		# to the keyrec.
		#
		$pstr = phaseargs($rrr->{'kskphase'},$rrr->{'zskphase'});
		$krr = keyrec_fullrec($rname);

		#
		# Sign -- just sign -- the zone.
		#
		if(signer($rname,$pstr,$krr) == 0)
		{
			rolllog_log(LOG_TMI,$rname,"rollerd signed zone");
		}
		else
		{
			rolllog_log(LOG_ERR,$rname,"unable to sign zone");
		}
	}
}

#-----------------------------------------------------------------------------
# Routine:	phaseargs()
#
# Purpose:	Translates the KSK phase or ZSK phase into the appropriate
#		arguments for a sign-only zonesigner call.
#
sub phaseargs
{
	my $kpval = shift;			# KSK phase value.
	my $zpval = shift;			# ZSK phase value.
	my $phasestr;				# Translated argument list.

	#
	# Set up the appropriate arguments to sign with.
	#
	if($kpval)
	{
		$phasestr = "KSK phase $kpval -signonly";
	}
	elsif($zpval)
	{
		$phasestr = "ZSK phase $zpval -signonly";
	}
	else
	{
		$phasestr = ' -signonly';
	}

	return($phasestr);
}

#-----------------------------------------------------------------------------
# Routine:	queue_int_handler()
#
# Purpose:	Remember that a sig INT was received for later processing.
#
sub queue_int_handler
{
	$queued_int = 1;
}

#-----------------------------------------------------------------------------
# Routine:	queue_hup_handler()
#
# Purpose:	Remember that a sig HUP was received for later processing.
#
sub queue_hup_handler
{
	$queued_hup = 1;
}

#-----------------------------------------------------------------------------
# Routine:	intcmd_handler()
#
# Purpose:	Handle an interrupt and get a command.
#
sub intcmd_handler
{
	rolllog_log(LOG_TMI,'<command>',"rollover manager:  got a command interrupt\n");

	controllers(0);
	commander();
	controllers(1);
}

#-----------------------------------------------------------------------------
# Routine:	halt_handler()
#
# Purpose:	Handle the "halt" command.
#
sub halt_handler
{
	display("halt \"rollerd\" 0");

	rolllog_log(LOG_ALWAYS,"","rollover manager shutting down...\n");
	rollrec_write(1);	# dump the current file with commands
	rollmgr_rmid();
	exit(0);
}

#-----------------------------------------------------------------------------
# Routine:	chrrdir()
#
# Purpose:	Move into a rollrec's directory, if it has one defined.
#
sub chrrdir
{
	my $rname = shift;			# Rollrec's name.
	my $rrdir = shift;			# Rollrec's directory.
	my $id = shift;				# Call identity.  (optional)

	#
	# Don't do anything if the rollrec doesn't have a directory defined.
	#
	return(1) if(!defined($rrdir));

	#
	# Ensure we've got some trailing space at the end of the id string.
	#
	$id .= '  ' if($id !~ /\s$/);

	#
	# First we'll move into the execution directory, in case the rollrec
	# directory isn't absolute.
	#
	chdir($xqtdir);

	#
	# Try to move into the rollrec's directory.  If we can't, we'll
	# return a failure.
	#
	if(chdir($rrdir) == 0)
	{

		rolllog_log(LOG_ERR,$rname,$id . "invalid rollrec directory \"$rrdir\"; skipping...");

		return(0);
	}

	rolllog_log(LOG_TMI,$rname,$id . "using rollrec directory \"$rrdir\"");
	return(1);
}

#-----------------------------------------------------------------------------
# Routine:	cleanup()
#
# Purpose:	Perform whatever clean-up is required.
#
sub cleanup
{
	rolllog_log(LOG_ALWAYS,"cleaning up...") if($loglevel == LOG_TMI);
	rollmgr_rmid();
	exit(0);
}

#-----------------------------------------------------------------------------
# Routine:	displayer()
#
# Purpose:	Turn on/off the graphical display, depending on the display
#		flag.
#
sub displayer
{
	#
	# Set the global display flag to an argument -- iff we got one.
	#
	if(@_ == 1)
	{
		$display = shift;
	}

	#
	# Turn on or off the graphical display, depending on the display flag.
	#
	if($display)
	{
		open(DISPLAY, "|blinkenlights $rollrecfile");
	}
	else
	{
		display("halt \"rollerd\" 1");
		close(DISPLAY);
	}
}

#-----------------------------------------------------------------------------
# Routine:	display()
#
# Purpose:	Send a message to the display program iff the display flag
#		is on.  If we couldn't send the message, then we'll turn
#		the flag off.
#
sub display
{
	my $dmsg = shift;				# Message to send.
	my $savedsel;					# Saved descriptor.
	my $ret;					# Retcode from print.

	#
	# Don't try anything if we aren't connected to a display program.
	#
#	return if(!$display);
	return if(fileno(DISPLAY) == -1);

	#
	# Force this message to be unbuffered.
	#
	$savedsel = select(DISPLAY);
	$| = 1;
	$ret = print DISPLAY "$dmsg\n";
	select($savedsel);

	if(!$ret)
	{
		rolllog_log(LOG_INFO,'<command>',"unable to send message to blinkenlights; turning off display");
		$display = 0;
	}
}

#----------------------------------------------------------------------
# Routine:	version()
#
# Purpose:	Print the version number(s) and exit.
#
sub version
{
	print STDERR "$VERS\n";
	print STDERR "$DTVERS\n";

	exit(0);
}

#-----------------------------------------------------------------------------
# Routine:	usage()
#
# Purpose:	Print a usage message and exit.
#
sub usage
{
	print STDERR "usage:  rollerd [options]\n";
	print STDERR "\toptions:\n";
	print STDERR "\t\t-rrfile <rollrec-file>\n";
	print STDERR "\t\t-directory <dir>\n";
	print STDERR "\t\t-logfile <logfile>\n";
	print STDERR "\t\t-loglevel <level>\n";
	print STDERR "\t\t-noreload\n";
	print STDERR "\t\t-pidfile <pidfile>\n";
	print STDERR "\t\t-sleep <sleeptime>\n";
	print STDERR "\t\t-dtconfig <dnssec-tools-config-file>\n";
	print STDERR "\t\t-zonesigner <full-path-to-zonesigner>\n";
	print STDERR "\t\t-display\n";
	print STDERR "\t\t-parameters\n";
	print STDERR "\t\t-autosign | -noautosign\n";
	print STDERR "\t\t-singlerun\n";
	print STDERR "\t\t-foreground\n";
	print STDERR "\t\t-alwayssign\n";
	print STDERR "\t\t-username <username>\n";
	print STDERR "\t\t-zsargs <argument-list>\n";
	print STDERR "\t\t-verbose\n";
	print STDERR "\t\t-Version\n";
	print STDERR "\t\t-help\n";
	exit(0);
}

1;

##############################################################################
#

=pod

=head1 NAME

rollerd - DNSSEC-Tools daemon to manage DNSSEC key rollover

=head1 SYNOPSIS

  rollerd [-options] -rrfile <rollrec_file>

=head1 DESCRIPTION

The B<rollerd> daemon manages key rollover for zones.  B<rollerd> is just a
scheduler for zone rollover; it uses B<zonesigner> to perform the actual key
generation, zone signing, and key manipulation.

B<rollerd> manages both KSK and ZSK rollover, though only one rollover type
per zone may take place at a time.  Initiation of KSK rollovers takes
precedence over the initiation of ZSK rollovers.

B<rollerd> uses two methods of key rollover.  The Pre-Publish Method of key
rollover is used for ZSK key rollovers.  The Double Signature Method of key
rollover is used for KSK rollovers.  These methods are described more fully
below.

B<rollerd> maintains zone rollover state in files called I<rollrec> files;
zone/key mappings are stored in I<keyrec> files.  B<rollerd> only modifies
I<rollrec> files.  For the most part, B<rollerd> does not modify I<keyrec>
directly, but relies on B<zonesigner> to update those files as needed.
(The exceptions where B<rollerd> modifies I<keyrec> files.  At start-up,
it will mark each managed zone's I<keyrec> file to indicate the zone is under
B<rollerd>'s control.  During the course of rollover, B<rollerd> will also
update a zone's rollover times in its I<keyrec> file.)

The administrator may control B<rollerd> with the B<rollctl> command.  A large
number of commands are available to control and modify B<rollerd>'s operation,
as well as to retrieve information about rollover and daemon status.

The zone administrator will need to update their zone files periodically.  If
B<rollerd> is managing zones, then problems could arise if modified zones were
signed without B<rollerd>'s knowledge.  To prevent such problems, B<rollerd>
can be configured to automatically re-sign a zone when its zonefile is found
to be newer than its corresponding signed zonefile.  (The files' "last
modification" timestamps are compared.)  The zone will be re-signed without
any other rollover actions taking place, so no new keys will be generated, no
key rollovers will occur, and the various rollover timers will be unaffected.

B<rollerd> will perform these re-signs by default, but this can be further
controlled by the I<autosign> configuration parameter and B<rollerd>'s
B<-autosign>/B<-noautosign> command line options.  If B<rollerd> is configured
to not perform automatic re-signing, the administrator can still get this
controlled behavior by use of the B<zonesigner> or B<rollctl> commands.

If the B<rollrec> file does not exist or is of zero length, B<rollerd> will
give an error message and continue running.  It will periodically wake up and
check for a usable B<rollrec> file.  Once it finds the specified B<rollrec>
file exists and isn't empty, then it will proceed with normal rollover
management.

=head2 ZSK Rollover Using the Pre-Publish Method

The Pre-Publish Method has four phases that are entered when it is time to
perform ZSK rollover:

    1. wait for old zone data to expire from caches
    2. sign the zone with the KSK and Published ZSK
    3. wait for old zone data to expire from caches
    4. adjust keys in keyrec and sign the zone with new Current ZSK

B<rollerd> uses the B<zonesigner> command during ZSK rollover phases 2 and 4.
B<zonesigner> will generate keys as required and sign the zone during these
two phases.

The Pre-Publish Method of key rollover is defined in the Step-by-Step DNS
Security Operator Guidance Document.  See that document for more detailed
information.

=head2 KSK Rollover Using the Double Signature Method

The Double Signature Method has seven phases that are entered when it is time
to perform KSK rollover:

    1 - wait for cache data to expire
    2 - generate a new (published) KSK and load zone
    3 - wait for the old DNSKEY RRset to expire from caches
    4 - transfer new keyset to the parent
    5 - wait for parent to publish DS record
    6 - wait for cache data to expire
    7 - roll the KSKs and load the zone

This is a modification of the original Double Signature Method.  In the
original method, the KSK keys were rolled before the new keyset was
transferred to the parent.  The new method rolls the KSK keys after the
parent has published the new DS records and old data has expired for caches.
This addresses a potential problem with signing zones during key rollovers.

B<rollerd> uses the B<zonesigner> command during KSK rollover phases 2 and 7.
B<zonesigner> will generate keys as required and sign the zone during these
two phases.

Currently, leaving the waiting period in step 5 is handled manually.  In step
4, B<rollerd> informs the administrator via email that the zone's keyset must
be transferred to its parent in order for rollover to continue.  In step 5,
after the keyset has been transferred to the parent and the parent has
published a new DS record, the administrator uses B<rollctl> to inform
B<rollerd> that the DS record has been published and rollover may continue.

The Double Signature Method of key rollover is defined in the Step-by-Step
DNS Security Operator Guidance Document.  See that document for more detailed
information.

=head2 KSK Rollover Using the Double Signature Method and RFC5011

RFC5011 describes how remote-validating resolvers must track KSK changes
within a zone.  If configured for RFC5011 behavior, B<rollerd> and
B<zonesigner> add an extra-long period of time between the point a new KSK is
created and published and the point where the actual switch to using it takes
place.  RFC5011 specifies that remote validators should add a "hold-down
timer" to the rollover process, such that the new key is not added as a
trust-anchor until 30 days have past.  Thus, B<rollerd> will wait for 60 days
(by default) during phase 3 of the KSK rollover process if the "istrustanchor"
field of the I<rollrec> definition has been set to either 1 or "yes".  To wait
for a different length of time other than 60 days, use the B<holddowntime>
field.

At this time, the other conventions of RFC5011 are not being followed.
Specifically, it's not waiting for a while before removing the old key
and it's not adding the revoke bit to the old key after switching.

=head2 Site-Specific Rollover Actions

An administrator can specify site-specific commands to be run during the
various rollover phases.  The commands can be run in place of the default
B<rollerd> rollover actions, or in addition to them.  This subsection
describes how to make use of site-specific rollover actions.

This capability is provided to allow different installations to handle
rollover according to their specific needs.  For example, it is anticipated
that this might be helpful to sites using HSM hardware, or to allow for
enhanced reporting to administrators.  This has been used with simple test
programs to ensure that it actually works.  However, it has not yet been used
in actual HSM environment or with other production-level software
replacements.

See the I<ZSK Rollover Using the Pre-Publish Method> and I<KSK Rollover
Using the Double Signature Method> sections for descriptions of the default
rollover actions.

B<WARNING:> This has the potential of being a dangerous capability.  Be
I<very> careful when setting up and using it.  Take care with the site-specific
commands to be executed and the permissions and ownership of B<rollerd> and
its data files.

=head3 DNSSEC-Tools Configuration File Changes

The DNSSEC-Tools configuration file must be modified to tell B<rollerd> what
must be run for the non-default rollover phase actions.  Key/value pairs may
be set for each rollover phase to control how that phase differs from the
default.

The value portion of the configuration entry contains the path to the
site-specific phase command, along with any arguments it might need.
Multiple commands are separated by bangs.

The reserved I<default> command tells B<rollerd> to use its normal rollover
action for a particular phase.  This may be combined with other commands to
provide things such as specialized logging or notifications.

B<rollerd> will only alter the behavior of a rollover phase if the
configuration file contains an entry for that phase.  If not, the default
action will be taken.

For example, this configuration line tells B<rollerd> that for ZSK rollover
phase 2, instead of using its normal B<zonesigner> executions it should run
the B<hsm-signer> command.

    prog-zsk2        hsm-signer

In this example, this configuration line informs B<rollerd> that when entering
KSK rollover phase 1 and ZSK rollover phase 1, it should execute the
B<log-and-mail> command, then use the normal rollover action for those phases.

    prog-ksk1        /usr/local/sbin/log-and-mail mary ! default
    prog-zsk1        /usr/local/sbin/log-and-mail bob!default

The following configuration keys are used for controlling KSK rollover
phases: I<prog-ksk1>, I<prog-ksk2>, I<prog-ksk3>, I<prog-ksk4>, I<prog-ksk5>,
I<prog-ksk6>, and I<prog-ksk7>,

The following configuration keys are used for controlling ZSK rollover phases:
I<prog-zsk1>, I<prog-zsk2>, I<prog-zsk3>, and I<prog-zsk4>.

The I<prog-normal> configuration key controls the normal, non-rollover state.

=head3 Site-Specific Commands

To be generally useful, the site-specific commands executed by B<rollerd>
will be given a standard set of arguments, and a standard set of exit
values will be recognized.

The standard arguments from B<rollerd> are:
    1. zonename - Zone to be handled.
    2. phase - Zone's current rollover phase (e.g., zsk1, ksk6, normal.)
    3. rollrec name - Zone's entry key in the rollrec file.
    4. rollrec file - The path to the rollrec file.
    5. keyrec file - The path to the zone's keyrec file.

The I<prog-phase> entry in the configuration file may specify additional
options and arguments for a command.  These will be included on the execution
command line I<prior> to the standard arguments.

The standard exit values expected by B<rollerd> are:
    0. The zone can move to the next rollover phase.
       This is only applicable to the current command; other
       commands in this phase's command list must still be run.
    1. The zone should stay in the current rollover phase.
       This is not necessarily the result of an error.
    2. An error was found in the arguments given to the command.
    3. An error was encountered during execution.

If a rollover phase's configuration entry lists multiple commands, they will
be executed in the order listed.  If any command in that command list fails,
processing stops there.

The B<rp-wrapper> command shows how a site-specific command may be written.
B<rp-wrapper> may be used as a skeleton on which to build a more useful
rollover-phase command.

=head3 Considerations for Site-Specific Commands

The following should be taken into consideration when writing a site-specific
command for a rollover phase.

=over 4

=item execution length

A phase command should not execute very long.  As currently written, B<rollerd>
serializes zone rollover.  So the longer a phase command takes to execute, the
longer it will take to get to the next zone.  If a phase command sleeps or
actively waits, so to speak, for the next phase timeout, then every zone
B<rollerd> manages will be left waiting.

=item follow interface guidelines

Follow the standards for arguments and exit values.  Not following the
standards is likely to negatively affect zone rollover.

=item frequency of command execution

If B<rollerd> is operating in its traditional "full list" processing mode, a
phase command list will be executed every time B<rollerd> cycles through its
zone list and a zone is in that particular command's phase.  For example, if
<i>prog_zsk1</i> is defined for example.com, that command list will be
executed for example.com every time B<rollerd> runs its zone list and finds
example.com is in the ZSK phase 1 rollover state.  A phase command B<must> take
this into account so it doesn't perform its actions more frequently than
necessary.  This is most likely an issue for the various rollover wait states,
and possibly the normal state.

If B<rollerd> is operating in the experimental "soon queue" processing mode, a
phase command list will be executed for a zone only when a phase change
occurs.  Since phase changes are time queued, this should not happen more than
once per phase.  A phase command B<should> take this into account, in case the
soon queue is reordered before the zone leaves the queue, or queue timing is
relatively swift.  This is most likely an issue for the various rollover wait
states.

B<WARNING:>  "soon queue" processing is I<experimental>.  Care should be taken
when using this processing method, as it may still have some lingering bugs.

=back

=head2 Zone Reloading

B<rollerd> has the opportunity to inform the DNS daemon to reload a zone in
KSK phase 2, KSK phase 7, ZSK phase 2, and ZSK phase 4.  This is the
B<rollerd>'s default behavior.  However, there are situations where this
shouldn't be done, such as for off-line signing.

The B<roll_loadzone> field of the DNSSEC-Tools configuration file is a boolean
field that overrides the default to force the zone-reload behavior either on
or off.  This field takes precedence over the default.

Similarly, the B<-noreload> option prevents B<rollerd> from requesting a zone
reload, and it takes precedence over the B<roll_loadzone> configuration field
and the default.

=head2 I<rollrec> Files

The zones to be managed by B<rollerd> are described in a I<rollrec>
file.  Generally speaking most people will want to use the B<rollinit>
command to create an initial I<rollrec> file instead of typing their
own from scratch.  See the INITIALIZATION AND USAGE section below and
the B<rollinit> manual page for details. Each zone's entry contains
data needed by B<rollerd> and some data useful to a user.  Below is a
sample I<rollrec> entry:

	roll "example.com"
		zonename        "example.com"
		zonefile        "example.com.signed"
		keyrec          "example.com.krf"
		zonegroup       "demo-zones"
		directory	"dir-example.com"
		kskphase        "0"
		zskphase        "3"
		ksk_rollsecs    "1172614842"
		ksk_rolldate    "Tue Feb 27 22:20:42 2007"
		zsk_rollsecs    "1172615087"
		zsk_rolldate    "Tue Feb 27 22:24:47 2007"
		maxttl          "60"
		display         "1"
		phasestart      "Tue Feb 27 22:25:07 2007"
        	# optional records for RFC5011 rolling:
		istrustanchor   "no"
        	holddowntime    "60D"

The first line gives the I<rollrec> entry's name.  The name distinguishes it
from other I<rollrec> entries and must be unique.  This may be the zone's
name, but this is not a requirement.  The following lines give the zone's
name, the zone's signed zone file, I<keyrec> file, the current rollover
phases, the rollover timestamps, and other information.  The zone group is
optional and allows a set of related zones to be controlled with a single
B<rollctl> execution, rather than one execution per zone.

If either of the I<zonefile> or I<keyrec> files do not exist, then a "roll"
I<rollrec> will be changed into a "skip" I<rollrec>.  That record will not be
processed.

A more detailed explanation may be found in I<rollrec(5)>.

=head2 Directories

B<rollerd>'s execution directory is either the directory in which it is
executed or the directory passed in the B<-directory> command-line option.
Any files used by B<rollerd> that were not specified with absolute paths use
this directory as their base.

A I<rollrec> file's I<directory> field informs B<rollerd> where the zone's
files may be found.  For that zone, B<rollerd> will move into that directory,
then return to its execution directory when it finishes rollover operations
for that zone.  If the I<directory> value is a relative path, it will be
appended to B<rollerd>'s execution directory.  If the I<directory> value is an
absolute path, it will be used as is.

=head2 Controlling B<rollerd> with B<rollctl>

The B<rollctl> command is used to control the behavior of B<rollerd>.  A
number of commands are available, such as starting or stopping rollover for a
selected zone or all zones, turning on or off a GUI rollover display, and
halting B<rollerd> execution.  The communications path between B<rollerd> and
B<rollctl> is operating system-dependent.  On Unix-like systems, it is a Unix
pipe that should B<only> be writable by the user which runs I<rollerd>.  A
more detailed explanation of B<rollctl> may be found in I<rollctl(8)>.

=head2 A Note About Files and Filenames

There are a number of files and filenames used by B<rollerd> and
B<zonesigner>.  The user must be aware of the files used by these programs,
where the files are located, and where the programs are executed.

By default, B<rollerd> will change directory to the DNSSEC-Tools directory,
though this may be changed by the B<-directory> option.  Any programs started
by B<rollerd>, most importantly B<zonesigner>, will run in this same
directory.  If files and directories referenced by these programs are named
with relative paths, those paths must be relative to this directory.

The I<rollrec> entry name is used as a key to the I<rollrec> file and to the
zone's I<keyrec> file.  This entry does not have to be the name of the
entry's domain, but it is a very good idea to make it so.  Whatever is used
for this entry name, the same name B<must> be used for the zone I<keyrec> in
that zone's I<keyrec> file.

It is probably easiest to store I<rollrec> files, I<keyrec> files, zone
files, and key files in a single directory.

=head1 INITIALIZATION AND USAGE

The following steps must be taken to initialize and use B<rollerd>.  This
assumes that zone files have been created, and that BIND and DNSSEC-Tools
have been installed.

=over 4

=item 0. sign zones

The zones to be managed by B<rollerd> must be signed.  Use B<zonesigner> to
create the signed zone files and the I<keyrec> files needed by B<rollerd>.
The I<rollrec> file created in the next step B<must> use the I<keyrec> file
names and the signed zone file names created here.

This step is optional.  If it is bypassed, then (in step 4 and later)
B<rollerd> will perform the initial key creation and zone signing of your
zones using the defaults found in the DNSSEC-Tools configuration file.
B<rollerd> determines if it must perform these initial operations by whether
it can find the I<keyrec> file for a zone (as specified in the I<rollrec>
file.  If it can't, it performs the initial operations; if it can, it assumes
the zone's initial operations have been performed.

=item 1. create I<rollrec> file

Before B<rollerd> may be used, a I<rollrec> file must first be created.
While this file may be built by hand, the B<rollinit> command was
written specifically to build the file.

=item 2. select operational parameters

A number of B<rollerd>'s operational parameters are taken from the
DNSSEC-Tools configuration file.  However, these may be overridden
by command-line options.  See the OPTIONS section below for more details.
If non-standard parameters are desired to always be used, the appropriate
fields in the DNSSEC-Tools configuration file may be modified to use these
values.

=item 3. install the rollover configuration

The complete rollover configuration -- B<rollerd>, I<rollrec> file,
DNSSEC-Tools configuration file values, zone files -- should be installed.
The appropriate places for these locations are both installation-dependent
and operating system-dependent.

=item 4. test the rollover configuration

The complete rollover configuration should be tested.

Edit the zone files so that their zones have short TTL values.  A minute TTL
should be sufficient.  Test rollovers of this speed should B<only> be done
in a test environment without the real signed zone.

Run the following command:

    rollerd -rrfile test.rollrec -logfile - -loglevel info -sleep 60

This command assumes the test I<rollrec> file is B<test.rollrec>.  It writes
a fair amount of log messages to the terminal, and checks its queue every 60
seconds.  Follow the messages to ensure that the appropriate actions, as
required by the Pre-Publish Method, are taking place.

=item 5. set B<rollerd> to start at boot

Once the configuration is found to work, B<rollerd> should be set to start
at system boot.  The actual operations required for this step are operating
system-dependent.

=item 6. reboot and verify

The system should be rebooted and the B<rollerd> logfile checked to ensure
that B<rollerd> is operating properly.

=back

=head1 OPTIONS

There are a number of operational parameters that define how B<rollerd> works.
These parameters define things such as the I<rollrec> file, the logging level,
and the log file.  These parameters can be set in the DNSSEC-Tools
configuration file or given as options on the B<rollerd> command line.
The command line options override values in the configuration file.

The following options are recognized:

=over 4

=item B<-alwayssign>

Tells B<rollerd> to sign the zones that aren't in the middle of being
rolled.  This allows B<rollerd> to refresh signed zone signatures and
allows complete management of zone signing to be taken over by B<rollerd>.

The downside to using this option is that all the non-rolling zones will be
signed after every sleep, which may be expensive computationally.

Note:  The zone files are not updated or installed at this time.
Manual copying and installation are still needed.

=item B<-autosign> | B<-noautosign>

Automatic zone-signing flag.  If this is set, then a zone's zonefile will
be re-signed (and only re-signed) if it is found to be newer than the
corresponding signed zonefile.

=item B<-directory dir>

Sets the B<rollerd> execution directory.  This must be a valid directory.

=item B<-display>

Starts the B<blinkenlights> graphical display program to show the status of
zones managed by B<rollerd>.

=item B<-dtconfig config_file>

Name of an alternate DNSSEC-Tools configuration file to be processed.
If specified, this configuration file is used I<in place> of the normal
DNSSEC-Tools configuration file B<not> in addition to it.  Also, it will be
handled prior to I<keyrec> files, I<rollrec> files, and command-line options.

=item B<-foreground>

Run in the foreground and do not fork into a daemon.

=item B<-logfile log_file>

Sets the B<rollerd> log file to I<log_file>.
This must be a valid logging file, meaning that if I<log_file> already
exists, it must be a regular file.  The only exceptions to this are if
I<logfile> is B</dev/stdout>, B</dev/tty>, B<->.  Of these three, using a
I<log_file> of B<-> is preferable since Perl will properly convert the B<->
to the process' standard output.

=item B<-loglevel level>

Sets B<rollerd>'s logging level to I<level>.  B<rollmgr.pm(3)> contains a list
of the valid logging levels.

=item B<-noreload>

Prevents B<rollerd> from telling the DNS daemon to reload zones.

=item B<-parameters>

Prints a set of B<rollerd> parameters and then exits.  This shows the
parameters with which B<rollerd> will execute, but very little parameter
validation is performed.

=item B<-pidfile pid_file>

Stores the running process PID into I<pid_file>.  This defaults to
B</var/run/rollerd.pid> on most systems.

=item B<-rrfile rollrec_file>

Name of the I<rollrec> file to be processed.  This is the only required
"option".

=item B<-realm realm_name>

Name of the realm in which B<rollerd> is running.  This is for use with the
DNSSEC-Tools realms facility as a means of easily identifying different
instantiations of B<rollerd>.  It is informational only (e.g., B<ps> output
and log files) and is not used for anything else.

=item B<-singlerun>

Processes all needed steps once and exits.  This is not the ideal way to run
B<rollerd>, but it is potentially useful for environments where keying
material is only available when specific hardware tokens have been made
available.

The timing between the steps will be potentially longer since the
time between B<rollerd> runs is dependent on when B<rollerd> is executed.
"cmd" lines must be added to the I<rollrec> file to do particular actions.

The following lines should serve as examples:

  cmd "rollzsk example.com"
  cmd "rollksk example.com"
  cmd "dspub example.com"   # (for when the parent publishes
			    # the new ksk)

The I<-singlerun> option implicitly implies I<-foreground> as well.

=item B<-sleep sleeptime>

Sets B<rollerd>'s sleep time to I<sleeptime>.  The sleep time is the amount
of time (in seconds) B<rollerd> waits between processing its I<rollrec>-based
queue.

=item B<-username username>

B<username> is the user for which the B<rollerd> daemon will be executed.
The B<rollerd> process' effective uid will be set to the uid corresponding
to B<username>.

If B<username> is a username, it must correspond to a valid uid; if it is
a uid, it must correspond to a valid username.

If B<rollerd> does not have the appropriate O/S magic (e.g., for Unix,
installed as I<setuid> program and owned by root) then it will only be able
to switch to those users to which the executing user has privilege to switch.
This restriction is dependent on the operating system and the manner by which
B<rollerd> is installed.

When using this option, the target user must have access to the various
directories, logs, and data files that B<rollerd> requires to execute.
Without this access, proper execution cannot occur.

=item B<-zsargs arglist>

Additional B<zonesigner> arguments that will be passed to all B<zonesigner>
executions. These arguments will override the corresponding arguments in the
DNSSEC-Tools configuration file, and the zones' I<keyrec> files.  If a zone's
B<rollrec> entry contains a I<zsargs> field, then it will be used instead of
those specified by this argument.

Given the B<rollerd> argument processing, the new arguments for B<zonesigner>
cannot be specified as expected.  Instead, the arguments should be given in
the following manner.  The leading dash should be replaced with an equals sign.
If the option takes an argument, the space that would separate the option from
the option's argument should also be replaced by an equals sign.  If multiple
arguments will be passed via B<-zsargs>, quotes must be used to group them
into a single argument.

B<rollerd> translates these arguments to the appropriate format for
B<zonesigner>.  These examples should clarify the modifications:

    normal zonesigner option     rollerd -zsargs option
    ------------------------     ----------------------
    -nokrfile                    -zsargs =nokrfile
    -zskcount 5 -kskcount 3      -zsargs "=zskcount=5 =kskcount=3"

=item B<-Version>

Displays the version information for B<rollerd> and the DNSSEC-Tools package.

=item B<-help>

Display a usage message.

=item B<-verbose>

Verbose output will be given.

=back

=head1 ASSUMPTIONS

B<rollerd> uses the B<rndc> command to communicate with the BIND
B<named> daemon.  Therefore, it assumes that appropriate measures have been
taken so that this communication is possible.

=head1 KNOWN PROBLEMS

The following problems (or potential problems) are known:

=over 4

=item -

Any process that can write to the rollover socket can send commands to
B<rollerd>.  This is probably not a Good Thing.

=back

=head1 COPYRIGHT

Copyright 2005-2013 SPARTA, Inc.  All rights reserved.
See the COPYING file included with the DNSSEC-Tools package for details.

=head1 AUTHOR

Wayne Morrison, tewok@tislabs.com

=head1 SEE ALSO

B<blinkenlights(8)>,
B<dtrealms(8)>,
B<named(8)>,
B<rndc(8)>,
B<rp-wrapper(8)>,
B<rollchk(8)>,
B<rollctl(8)>,
B<rollinit(8)>,
B<zonesigner(8)>

B<Net::DNS::SEC::Tools::conf.pm(3)>,
B<Net::DNS::SEC::Tools::defaults.pm(3)>,
B<Net::DNS::SEC::Tools::keyrec.pm(3)>,
B<Net::DNS::SEC::Tools::rolllog.pm(3)>,
B<Net::DNS::SEC::Tools::rollmgr.pm(3)>,
B<Net::DNS::SEC::Tools::rollrec.pm(3)>

B<rollrec(5)>

=cut
