#!/bin/sh # Copyright (C) Internet Systems Consortium, Inc. ("ISC") # # SPDX-License-Identifier: MPL-2.0 # # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, you can obtain one at https://mozilla.org/MPL/2.0/. # # See the COPYRIGHT file distributed with this work for additional # information regarding copyright ownership. set -e . ../conf.sh DIGOPTS="-p ${PORT}" RNDCCMD="$RNDC -c ../common/rndc.conf -p ${CONTROLPORT} -s" # # Uncomment when creating credential cache files. # # KRB5_CONFIG="$(pwd)/krb/krb5.conf" # # Cd krb and run krb/setup.sh to create new keys. # Run nsupdate system test. # Kill the krb5kdc server started by krb/setup.sh. # Check the expiry date on the cached machine.ccache with klist is in 2038. # Comment out KRB5_CONFIG. # Re-run nsupdate system test to confirm everything still works. # git add and commit the resulting ns*/machine.ccache and ns*/dns.keytab files. # Clean up krb. # status=0 n=0 nextpartreset ns3/named.run # wait for zone transfer to complete tries=0 while true; do if [ $tries -eq 10 ] then exit 1 fi if grep "example.nil/IN.*Transfer status" ns2/named.run > /dev/null then break else echo_i "zones are not fully loaded, waiting..." tries=$((tries + 1)) sleep 1 fi done has_positive_response() { zone=$1 type=$2 ns=$3 $DIG $DIGOPTS +tcp +norec $zone $type @$ns > dig.out.post.test$n || return 1 grep "status: NOERROR" dig.out.post.test$n > /dev/null || return 1 grep "ANSWER: 0," dig.out.post.test$n > /dev/null && return 1 return 0 } ret=0 echo_i "fetching first copy of zone before update" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd example.nil.\ @10.53.0.1 axfr > dig.out.ns1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "fetching second copy of zone before update" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd example.nil.\ @10.53.0.2 axfr > dig.out.ns2 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "comparing pre-update copies to known good data" digcomp knowngood.ns1.before dig.out.ns1 || ret=1 digcomp knowngood.ns1.before dig.out.ns2 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "ensure an unrelated zone is mentioned in its NOTAUTH log" $NSUPDATE -k ns1/ddns.key > nsupdate.out 2>&1 << END && ret=1 server 10.53.0.1 ${PORT} zone unconfigured.test update add unconfigured.test 600 IN A 10.53.0.1 send END grep NOTAUTH nsupdate.out > /dev/null 2>&1 || ret=1 grep ' unconfigured.test: not authoritative' ns1/named.run \ > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "ensure a subdomain is mentioned in its NOTAUTH log" $NSUPDATE -k ns1/ddns.key > nsupdate.out 2>&1 << END && ret=1 server 10.53.0.1 ${PORT} zone sub.sub.example.nil update add sub.sub.sub.example.nil 600 IN A 10.53.0.1 send END grep NOTAUTH nsupdate.out > /dev/null 2>&1 || ret=1 grep ' sub.sub.example.nil: not authoritative' ns1/named.run \ > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "updating zone" # nsupdate will print a ">" prompt to stdout as it gets each input line. $NSUPDATE -k ns1/ddns.key < /dev/null || ret=1 server 10.53.0.1 ${PORT} update add updated.example.nil. 600 A 10.10.10.1 add updated.example.nil. 600 TXT Foo delete t.example.nil. END [ $ret = 0 ] || { echo_i "failed"; status=1; } echo_i "sleeping 5 seconds for server to incorporate changes" sleep 5 ret=0 echo_i "fetching first copy of zone after update" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd example.nil.\ @10.53.0.1 axfr > dig.out.ns1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "fetching second copy of zone after update" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd example.nil.\ @10.53.0.2 axfr > dig.out.ns2 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "comparing post-update copies to known good data" digcomp knowngood.ns1.after dig.out.ns1 || ret=1 digcomp knowngood.ns1.after dig.out.ns2 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "testing local update policy" pre=$($DIG $DIGOPTS +short new.other.nil. @10.53.0.1 a) || ret=1 [ -z "$pre" ] || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "updating zone" # nsupdate will print a ">" prompt to stdout as it gets each input line. $NSUPDATE -4 -l -p ${PORT} -k ns1/session.key > /dev/null < nsupdate.out 2>&1 << END && ret=1 update add other.nil. 600 in ns ns3.other.nil. send END grep REFUSED nsupdate.out > /dev/null 2>&1 || ret=1 # ...but should work if an A record is inserted first: $NSUPDATE -4 -l -p ${PORT} -k ns1/session.key > nsupdate.out 2>&1 << END || ret=1 update add ns4.other.nil 600 in a 10.53.0.1 send update add other.nil. 600 in ns ns4.other.nil. send END grep REFUSED nsupdate.out > /dev/null 2>&1 && ret=1 # ...or if an AAAA record does: $NSUPDATE -4 -l -p ${PORT} -k ns1/session.key > nsupdate.out 2>&1 << END || ret=1 update add ns5.other.nil 600 in aaaa 2001:db8::1 send update add other.nil. 600 in ns ns5.other.nil. send END grep REFUSED nsupdate.out > /dev/null 2>&1 && ret=1 # ...or if the NS and A/AAAA are inserted together: $NSUPDATE -4 -l -p ${PORT} -k ns1/session.key > nsupdate.out 2>&1 << END || ret=1 update add other.nil. 600 in ns ns6.other.nil. update add ns6.other.nil 600 in a 10.53.0.1 send END grep REFUSED nsupdate.out > /dev/null 2>&1 && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } echo_i "sleeping 5 seconds for server to incorporate changes" sleep 5 ret=0 echo_i "checking result of update" $DIG $DIGOPTS +short @10.53.0.1 ns other.nil > dig.out.ns1 || ret=1 grep ns3.other.nil dig.out.ns1 > /dev/null 2>&1 && ret=1 grep ns4.other.nil dig.out.ns1 > /dev/null 2>&1 || ret=1 grep ns5.other.nil dig.out.ns1 > /dev/null 2>&1 || ret=1 grep ns6.other.nil dig.out.ns1 > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "ensure 'check-mx ignore' allows adding MX records containing an address without a warning" $NSUPDATE -k ns1/ddns.key > nsupdate.out 2>&1 << END || ret=1 server 10.53.0.1 ${PORT} update add mx03.example.nil 600 IN MX 10 10.53.0.1 send END grep REFUSED nsupdate.out > /dev/null 2>&1 && ret=1 grep "mx03.example.nil/MX:.*MX is an address" ns1/named.run > /dev/null 2>&1 && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "ensure 'check-mx warn' allows adding MX records containing an address with a warning" $NSUPDATE -4 -l -p ${PORT} -k ns1/session.key > nsupdate.out 2>&1 << END || ret=1 update add mx03.other.nil 600 IN MX 10 10.53.0.1 send END grep REFUSED nsupdate.out > /dev/null 2>&1 && ret=1 grep "mx03.other.nil/MX:.*MX is an address" ns1/named.run > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "ensure 'check-mx fail' prevents adding MX records containing an address with a warning" $NSUPDATE > nsupdate.out 2>&1 << END && ret=1 server 10.53.0.1 ${PORT} update add mx03.update.nil 600 IN MX 10 10.53.0.1 send END grep REFUSED nsupdate.out > /dev/null 2>&1 || ret=1 grep "mx03.update.nil/MX:.*MX is an address" ns1/named.run > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "check SIG(0) key is accepted" key=$($KEYGEN -q -a ${DEFAULT_ALGORITHM} -T KEY -n ENTITY xxx) echo "" | $NSUPDATE -k ${key}.private > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check TYPE=0 update is rejected by nsupdate ($n)" $NSUPDATE < nsupdate.out 2>&1 && ret=1 server 10.53.0.1 ${PORT} ttl 300 update add example.nil. in type0 "" send END grep "unknown class/type" nsupdate.out > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check TYPE=0 prerequisite is handled ($n)" $NSUPDATE -k ns1/ddns.key < nsupdate.out 2>&1 || ret=1 server 10.53.0.1 ${PORT} prereq nxrrset example.nil. type0 send END $DIG $DIGOPTS +tcp version.bind txt ch @10.53.0.1 > dig.out.ns1.$n grep "status: NOERROR" dig.out.ns1.$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that TYPE=0 update is handled ($n)" echo "a0e4280000010000000100000000060001c00c000000fe000000000000" | $PERL ../packet.pl -a 10.53.0.1 -p ${PORT} -t tcp > /dev/null || ret=1 $DIG $DIGOPTS +tcp version.bind txt ch @10.53.0.1 > dig.out.ns1.$n grep "status: NOERROR" dig.out.ns1.$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that TYPE=0 additional data is handled ($n)" echo "a0e4280000010000000000010000060001c00c000000fe000000000000" | $PERL ../packet.pl -a 10.53.0.1 -p ${PORT} -t tcp > /dev/null || ret=1 $DIG $DIGOPTS +tcp version.bind txt ch @10.53.0.1 > dig.out.ns1.$n grep "status: NOERROR" dig.out.ns1.$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that update to undefined class is handled ($n)" echo "a0e4280000010001000000000000060101c00c000000fe000000000000" | $PERL ../packet.pl -a 10.53.0.1 -p ${PORT} -t tcp > /dev/null || ret=1 $DIG $DIGOPTS +tcp version.bind txt ch @10.53.0.1 > dig.out.ns1.$n grep "status: NOERROR" dig.out.ns1.$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that address family mismatch is handled ($n)" $NSUPDATE < /dev/null 2>&1 && ret=1 server ::1 local 127.0.0.1 update add 600 txt.example.nil in txt "test" send END [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that unixtime serial number is correctly generated ($n)" $DIG $DIGOPTS +short unixtime.nil. soa @10.53.0.1 > dig.out.old.test$n || ret=1 oldserial=$(awk '{print $3}' dig.out.old.test$n) || ret=1 start=$($PERL -e 'print time()."\n";') $NSUPDATE < /dev/null 2>&1 || ret=1 server 10.53.0.1 ${PORT} ttl 600 update add new.unixtime.nil in a 1.2.3.4 send END now=$($PERL -e 'print time()."\n";') sleep 1 $DIG $DIGOPTS +short unixtime.nil. soa @10.53.0.1 > dig.out.new.test$n || ret=1 serial=$(awk '{print $3}' dig.out.new.test$n) || ret=1 [ "$oldserial" = "$serial" ] && { echo_i "oldserial == serial"; ret=1; } if [ "$serial" -lt "$start" ]; then echo_i "out-of-range serial=$serial < start=$start"; ret=1; elif [ "$serial" -gt "$now" ]; then echo_i "out-of-range serial=$serial > now=$now"; ret=1; fi [ $ret = 0 ] || { echo_i "failed"; status=1; } if $PERL -e 'use Net::DNS;' 2>/dev/null then n=$((n + 1)) ret=0 echo_i "running update.pl test ($n)" $PERL update_test.pl -s 10.53.0.1 -p ${PORT} update.nil. > perl.update_test.out || ret=1 [ $ret -eq 1 ] && { echo_i "failed"; status=1; } if $PERL -e 'use Net::DNS; die "Net::DNS too old ($Net::DNS::VERSION < 1.01)" if ($Net::DNS::VERSION < 1.01)' > /dev/null then n=$((n + 1)) ret=0 echo_i "check for too many NSEC3 iterations log ($n)" grep "updating zone 'update.nil/IN': too many NSEC3 iterations (151)" ns1/named.run > /dev/null || ret=1 [ $ret -eq 1 ] && { echo_i "failed"; status=1; } fi else echo_i "The second part of this test requires the Net::DNS library." >&2 fi n=$((n + 1)) ret=0 echo_i "fetching first copy of test zone ($n)" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd example.nil.\ @10.53.0.1 axfr > dig.out.ns1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "fetching second copy of test zone ($n)" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd example.nil.\ @10.53.0.2 axfr > dig.out.ns2 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "comparing zones ($n)" digcomp dig.out.ns1 dig.out.ns2 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } echo_i "SIGKILL and restart server ns1" cd ns1 kill -KILL $(cat named.pid) rm named.pid cd .. sleep 10 if start_server --noclean --restart --port ${PORT} ns1 then echo_i "restarted server ns1" else echo_i "could not restart server ns1" exit 1 fi sleep 10 n=$((n + 1)) ret=0 echo_i "fetching ns1 after hard restart ($n)" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd example.nil.\ @10.53.0.1 axfr > dig.out.ns1.after || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "comparing zones ($n)" digcomp dig.out.ns1 dig.out.ns1.after || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } echo_i "begin RT #482 regression test" n=$((n + 1)) ret=0 echo_i "update primary ($n)" $NSUPDATE -k ns1/ddns.key < /dev/null || ret=1 server 10.53.0.1 ${PORT} update add updated2.example.nil. 600 A 10.10.10.2 update add updated2.example.nil. 600 TXT Bar update delete c.example.nil. send END [ $ret = 0 ] || { echo_i "failed"; status=1; } sleep 5 echo_i "SIGHUP secondary" kill -HUP $(cat ns2/named.pid) sleep 5 n=$((n + 1)) ret=0 echo_i "update primary again ($n)" $NSUPDATE -k ns1/ddns.key < /dev/null || ret=1 server 10.53.0.1 ${PORT} update add updated3.example.nil. 600 A 10.10.10.3 update add updated3.example.nil. 600 TXT Zap del d.example.nil. send END [ $ret = 0 ] || { echo_i "failed"; status=1; } sleep 5 echo_i "SIGHUP secondary again" kill -HUP $(cat ns2/named.pid) sleep 5 n=$((n + 1)) echo_i "check to 'out of sync' message ($n)" if grep "out of sync" ns2/named.run then echo_i "failed (found 'out of sync')" status=1 fi echo_i "end RT #482 regression test" n=$((n + 1)) ret=0 echo_i "remove nonexistent PTR record ($n)" $NSUPDATE -k ns1/ddns.key -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 server 10.53.0.1 ${PORT} zone example.nil. update delete nonexistent.example.nil. 0 IN PTR foo. send EOF [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "remove nonexistent SRV record ($n)" $NSUPDATE -k ns1/ddns.key -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 server 10.53.0.1 ${PORT} zone example.nil. update delete nonexistent.example.nil. 0 IN SRV 0 0 0 foo. send EOF [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "start NSEC3PARAM changes via UPDATE on a unsigned zone test ($n)" $NSUPDATE << EOF server 10.53.0.3 ${PORT} update add example 3600 nsec3param 1 0 0 - send EOF # the zone is not signed. The nsec3param records should be removed. # this also proves that the server is still running. $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocmd +norec example.\ @10.53.0.3 nsec3param > dig.out.ns3.$n || ret=1 grep "ANSWER: 0," dig.out.ns3.$n > /dev/null || ret=1 grep "flags:[^;]* aa[ ;]" dig.out.ns3.$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "change the NSEC3PARAM ttl via update ($n)" $NSUPDATE << EOF server 10.53.0.3 ${PORT} update add nsec3param.test 3600 NSEC3PARAM 1 0 1 - send EOF $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocmd +norec nsec3param.test.\ @10.53.0.3 nsec3param > dig.out.ns3.$n || ret=1 grep "ANSWER: 1," dig.out.ns3.$n > /dev/null || ret=1 grep "3600.*NSEC3PARAM" dig.out.ns3.$n > /dev/null || ret=1 grep "flags:[^;]* aa[ ;]" dig.out.ns3.$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "add a new NSEC3PARAM via update ($n)" $NSUPDATE << EOF server 10.53.0.3 ${PORT} update add nsec3param.test 3600 NSEC3PARAM 1 0 4 - send EOF _ret=1 for i in 0 1 2 3 4 5 6 7 8 9; do $DIG $DIGOPTS +tcp +norec +time=1 +tries=1 @10.53.0.3 nsec3param.test. NSEC3PARAM > dig.out.ns3.$n || _ret=1 if grep "ANSWER: 2," dig.out.ns3.$n > /dev/null; then _ret=0 break fi sleep 1 done if [ $_ret -ne 0 ]; then ret=1; fi grep "NSEC3PARAM 1 0 4 -" dig.out.ns3.$n > /dev/null || ret=1 grep "flags:[^;]* aa[ ;]" dig.out.ns3.$n > /dev/null || ret=1 if [ $ret != 0 ] ; then echo_i "failed"; status=$((ret + status)); fi n=$((n + 1)) ret=0 echo_i "add, delete and change the ttl of the NSEC3PARAM rrset via update ($n)" $NSUPDATE << EOF server 10.53.0.3 ${PORT} update delete nsec3param.test NSEC3PARAM update add nsec3param.test 7200 NSEC3PARAM 1 0 5 - send EOF _ret=1 for i in 0 1 2 3 4 5 6 7 8 9; do $DIG $DIGOPTS +tcp +norec +time=1 +tries=1 @10.53.0.3 nsec3param.test. NSEC3PARAM > dig.out.ns3.$n || _ret=1 if grep "ANSWER: 1," dig.out.ns3.$n > /dev/null; then _ret=0 break fi sleep 1 done if [ $_ret -ne 0 ]; then ret=1; fi grep "7200.*NSEC3PARAM 1 0 5 -" dig.out.ns3.$n > /dev/null || ret=1 grep "flags:[^;]* aa[ ;]" dig.out.ns3.$n > /dev/null || ret=1 $JOURNALPRINT ns3/nsec3param.test.db.signed.jnl > jp.out.ns3.$n # intermediate TTL changes. grep "add nsec3param.test. 7200 IN NSEC3PARAM 1 0 4 -" jp.out.ns3.$n > /dev/null || ret=1 grep "add nsec3param.test. 7200 IN NSEC3PARAM 1 0 1 -" jp.out.ns3.$n > /dev/null || ret=1 # delayed adds and deletes. grep "add nsec3param.test. 0 IN TYPE65534 .# 6 000180000500" jp.out.ns3.$n > /dev/null || ret=1 grep "add nsec3param.test. 0 IN TYPE65534 .# 6 000140000100" jp.out.ns3.$n > /dev/null || ret=1 grep "add nsec3param.test. 0 IN TYPE65534 .# 6 000140000400" jp.out.ns3.$n > /dev/null || ret=1 if [ $ret != 0 ] ; then echo_i "failed"; status=$((ret + status)); fi ret=0 echo_i "testing that rndc stop updates the file" $NSUPDATE -k ns1/ddns.key < /dev/null || ret=1 server 10.53.0.1 ${PORT} update add updated4.example.nil. 600 A 10.10.10.3 send END sleep 3 stop_server --use-rndc --port ${CONTROLPORT} ns1 sleep 3 # Removing the journal file and restarting the server means # that the data served by the new server process are exactly # those dumped to the file by "rndc stop". rm -f ns1/*jnl start_server --noclean --restart --port ${PORT} ns1 for try in 0 1 2 3 4 5 6 7 8 9; do iret=0 $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ updated4.example.nil. @10.53.0.1 a > dig.out.ns1 || iret=1 digcomp knowngood.ns1.afterstop dig.out.ns1 || iret=1 [ "$iret" -eq 0 ] && break sleep 1 done [ "$iret" -ne 0 ] && ret=1 [ "$ret" -eq 0 ] || { echo_i "failed"; status=1; } ret=0 echo_i "check that 'nsupdate -l' with a missing keyfile reports the missing file" $NSUPDATE -4 -p ${PORT} -l -k ns1/nonexistent.key 2> nsupdate.out < /dev/null && ret=1 grep ns1/nonexistent.key nsupdate.out > /dev/null || ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that 'update-policy local' works from localhost address ($n)" $NSUPDATE -k ns5/session.key > nsupdate.out.$n 2>&1 << END || ret=1 server 10.53.0.5 ${PORT} local 127.0.0.1 update add fromlocal.local.nil. 600 A 1.2.3.4 send END grep REFUSED nsupdate.out.$n > /dev/null 2>&1 && ret=1 $DIG $DIGOPTS @10.53.0.5 \ +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ fromlocal.local.nil. > dig.out.ns5.$n || ret=1 grep fromlocal dig.out.ns5.$n > /dev/null 2>&1 || ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that 'update-policy local' fails from non-localhost address ($n)" grep 'match on session key not from localhost' ns5/named.run > /dev/null && ret=1 $NSUPDATE -k ns5/session.key > nsupdate.out.$n 2>&1 << END && ret=1 server 10.53.0.5 ${PORT} local 10.53.0.1 update add nonlocal.local.nil. 600 A 4.3.2.1 send END grep REFUSED nsupdate.out.$n > /dev/null 2>&1 || ret=1 grep 'match on session key not from localhost' ns5/named.run > /dev/null || ret=1 $DIG $DIGOPTS @10.53.0.5 \ +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ nonlocal.local.nil. > dig.out.ns5.$n || ret=1 grep nonlocal dig.out.ns5.$n > /dev/null 2>&1 && ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that 'update-policy tcp-self' refuses update of records via UDP ($n)" $NSUPDATE > nsupdate.out.$n 2>&1 << END && ret=1 server 10.53.0.6 ${PORT} local 127.0.0.1 update add 1.0.0.127.in-addr.arpa. 600 PTR localhost. send END grep REFUSED nsupdate.out.$n > /dev/null 2>&1 || ret=1 $DIG $DIGOPTS @10.53.0.6 \ +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ -x 127.0.0.1 > dig.out.ns6.$n grep localhost. dig.out.ns6.$n > /dev/null 2>&1 && ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that 'update-policy tcp-self' permits update of records for the client's own address via TCP ($n)" $NSUPDATE -v > nsupdate.out.$n 2>&1 << END || ret=1 server 10.53.0.6 ${PORT} local 127.0.0.1 update add 1.0.0.127.in-addr.arpa. 600 PTR localhost. send END grep REFUSED nsupdate.out.$n > /dev/null 2>&1 && ret=1 $DIG $DIGOPTS @10.53.0.6 \ +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ -x 127.0.0.1 > dig.out.ns6.$n || ret=1 grep localhost. dig.out.ns6.$n > /dev/null 2>&1 || ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that 'update-policy tcp-self' refuses update of records for a different address from the client's own address via TCP ($n)" $NSUPDATE -v > nsupdate.out.$n 2>&1 << END && ret=1 server 10.53.0.6 ${PORT} local 127.0.0.1 update add 1.0.168.192.in-addr.arpa. 600 PTR localhost. send END grep REFUSED nsupdate.out.$n > /dev/null 2>&1 || ret=1 $DIG $DIGOPTS @10.53.0.6 \ +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ -x 192.168.0.1 > dig.out.ns6.$n grep localhost. dig.out.ns6.$n > /dev/null 2>&1 && ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that 'update-policy subdomain' is properly enforced ($n)" # "restricted.example.nil" matches "grant ... subdomain restricted.example.nil" # and thus this UPDATE should succeed. $NSUPDATE -d < nsupdate.out1-$n 2>&1 || ret=1 server 10.53.0.1 ${PORT} key restricted.example.nil 1234abcd8765 update add restricted.example.nil 0 IN TXT everywhere. send END $DIG $DIGOPTS +tcp @10.53.0.1 restricted.example.nil TXT > dig.out.1.test$n || ret=1 grep "TXT.*everywhere" dig.out.1.test$n > /dev/null || ret=1 # "example.nil" does not match "grant ... subdomain restricted.example.nil" and # thus this UPDATE should fail. $NSUPDATE -d < nsupdate.out2-$n 2>&1 && ret=1 server 10.53.0.1 ${PORT} key restricted.example.nil 1234abcd8765 update add example.nil 0 IN TXT everywhere. send END $DIG $DIGOPTS +tcp @10.53.0.1 example.nil TXT > dig.out.2.test$n || ret=1 grep "TXT.*everywhere" dig.out.2.test$n > /dev/null && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that 'update-policy zonesub' is properly enforced ($n)" # grant zonesub-key.example.nil zonesub TXT; # the A record update should be rejected as it is not in the type list $NSUPDATE -d < nsupdate.out1-$n 2>&1 && ret=1 server 10.53.0.1 ${PORT} key zonesub-key.example.nil 1234subk8765 update add zonesub.example.nil 0 IN A 1.2.3.4 send END $DIG $DIGOPTS +tcp @10.53.0.1 zonesub.example.nil A > dig.out.1.test$n || ret=1 grep "status: REFUSED" nsupdate.out1-$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.1.test$n > /dev/null || ret=1 # the TXT record update should be accepted as it is in the type list $NSUPDATE -d < nsupdate.out2-$n 2>&1 || ret=1 server 10.53.0.1 ${PORT} key zonesub-key.example.nil 1234subk8765 update add zonesub.example.nil 0 IN TXT everywhere. send END $DIG $DIGOPTS +tcp @10.53.0.1 zonesub.example.nil TXT > dig.out.2.test$n || ret=1 grep "status: REFUSED" nsupdate.out2-$n > /dev/null && ret=1 grep "ANSWER: 1," dig.out.2.test$n > /dev/null || ret=1 grep "TXT.*everywhere" dig.out.2.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check 'grant' in deny name + grant subdomain ($n)" $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 key hmac-sha256:subkey 1234abcd8765 server 10.53.0.9 ${PORT} zone denyname.example update add foo.denyname.example 3600 IN TXT added send EOF $DIG $DIGOPTS +tcp @10.53.0.9 foo.denyname.example TXT > dig.out.ns9.test$n grep "added" dig.out.ns9.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check 'deny' in deny name + grant subdomain ($n)" $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 key hmac-sha256:subkey 1234abcd8765 server 10.53.0.9 ${PORT} zone denyname.example update add denyname.example 3600 IN TXT added send EOF $DIG $DIGOPTS +tcp @10.53.0.9 denyname.example TXT > dig.out.ns9.test$n grep "added" dig.out.ns9.test$n > /dev/null && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that changes to the DNSKEY RRset TTL do not have side effects ($n)" $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd dnskey.test. \ @10.53.0.3 dnskey | \ awk -v port="${PORT}" 'BEGIN { print "server 10.53.0.3", port; } $2 == 10 && $3 == "IN" && $4 == "DNSKEY" { $2 = 600; print "update add", $0 } END { print "send" }' > update.in.$n $NSUPDATE update.in.$n $DIG $DIGOPTS +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd dnskey.test. \ @10.53.0.3 any > dig.out.ns3.$n grep "600.*DNSKEY" dig.out.ns3.$n > /dev/null || ret=1 grep TYPE65534 dig.out.ns3.$n > /dev/null && ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check notify with TSIG worked ($n)" # if the alternate view received a notify--meaning, the notify was # validly signed by "altkey"--then the zonefile update.alt.bk will # will have been created. [ -f ns2/update.alt.bk ] || ret=1 if [ $ret -ne 0 ]; then echo_i "failed" status=1 fi n=$((n + 1)) ret=0 echo_i "check type list options ($n)" $NSUPDATE -T > typelist.out.T.${n} || { ret=1; echo_i "nsupdate -T failed"; } $NSUPDATE -P > typelist.out.P.${n} || { ret=1; echo_i "nsupdate -P failed"; } $NSUPDATE -TP > typelist.out.TP.${n} || { ret=1; echo_i "nsupdate -TP failed"; } grep ANY typelist.out.T.${n} > /dev/null && { ret=1; echo_i "failed: ANY found (-T)"; } grep ANY typelist.out.P.${n} > /dev/null && { ret=1; echo_i "failed: ANY found (-P)"; } grep ANY typelist.out.TP.${n} > /dev/null && { ret=1; echo_i "failed: ANY found (-TP)"; } grep KEYDATA typelist.out.T.${n} > /dev/null && { ret=1; echo_i "failed: KEYDATA found (-T)"; } grep KEYDATA typelist.out.P.${n} > /dev/null && { ret=1; echo_i "failed: KEYDATA found (-P)"; } grep KEYDATA typelist.out.TP.${n} > /dev/null && { ret=1; echo_i "failed: KEYDATA found (-TP)"; } grep AAAA typelist.out.T.${n} > /dev/null || { ret=1; echo_i "failed: AAAA not found (-T)"; } grep AAAA typelist.out.P.${n} > /dev/null && { ret=1; echo_i "failed: AAAA found (-P)"; } grep AAAA typelist.out.TP.${n} > /dev/null || { ret=1; echo_i "failed: AAAA not found (-TP)"; } if [ $ret -ne 0 ]; then echo_i "failed" status=1 fi n=$((n + 1)) ret=0 echo_i "check command list ($n)" ( while read cmd do { echo "$cmd" | $NSUPDATE > /dev/null 2>&1; rc=$?; } || true if test $rc -gt 1 ; then echo_i "failed ($cmd)" ret=1 fi { echo "$cmd " | $NSUPDATE > /dev/null 2>&1; rc=$?; } || true if test $rc -gt 1 ; then echo_i "failed ($cmd)" ret=1 fi done exit $ret ) < commandlist || ret=1 if [ $ret -ne 0 ]; then status=1 fi n=$((n + 1)) ret=0 n=$((n + 1)) ret=0 echo_i "check TSIG key algorithms using legacy K file pairs (nsupdate -k) ($n)" if $FEATURETEST --md5 then ALGS="157 161 162 163 164 165" else ALGS="161 162 163 164 165" echo_i "skipping disabled md5 (157) algorithm" fi for alg in $ALGS; do $NSUPDATE -k ns1/legacy/Klegacy-${alg}.+${alg}+*.key < nsupdate.alg-$alg.out 2>&1 || ret=1 server 10.53.0.1 ${PORT} update add ${alg}.keytests.nil. 600 A 10.10.10.3 send END done sleep 2 for alg in $ALGS; do $DIG $DIGOPTS +short @10.53.0.1 ${alg}.keytests.nil | grep 10.10.10.3 > /dev/null 2>&1 || ret=1 grep "Use of K\* file pairs for HMAC is deprecated" nsupdate.alg-$alg.out > /dev/null || ret=1 done if [ $ret -ne 0 ]; then echo_i "failed" status=1 fi n=$((n + 1)) ret=0 echo_i "check TSIG key algorithms (nsupdate -k) ($n)" if $FEATURETEST --md5 then ALGS="md5 sha1 sha224 sha256 sha384 sha512" else ALGS="sha1 sha224 sha256 sha384 sha512" echo_i "skipping disabled md5 algorithm" fi for alg in $ALGS; do $NSUPDATE -k ns1/${alg}.key < /dev/null || ret=1 server 10.53.0.1 ${PORT} update add ${alg}.keytests.nil. 600 A 10.10.10.3 send END done sleep 2 for alg in $ALGS; do $DIG $DIGOPTS +short @10.53.0.1 ${alg}.keytests.nil | grep 10.10.10.3 > /dev/null 2>&1 || ret=1 done if [ $ret -ne 0 ]; then echo_i "failed" status=1 fi n=$((n + 1)) ret=0 echo_i "check TSIG key algorithms (nsupdate -y) ($n)" for alg in md5 sha1 sha224 sha256 sha384 sha512; do secret=$(sed -n 's/.*secret "\(.*\)";.*/\1/p' ns1/${alg}.key) $NSUPDATE -y "hmac-${alg}:${alg}-key:$secret" < /dev/null || ret=1 server 10.53.0.1 ${PORT} update add ${alg}.keytests.nil. 600 A 10.10.10.50 send END done sleep 2 for alg in md5 sha1 sha224 sha256 sha384 sha512; do $DIG $DIGOPTS +short @10.53.0.1 ${alg}.keytests.nil | grep 10.10.10.50 > /dev/null 2>&1 || ret=1 done if [ $ret -ne 0 ]; then echo_i "failed" status=1 fi n=$((n + 1)) ret=0 echo_i "check that ttl is capped by max-ttl ($n)" $NSUPDATE < /dev/null || ret=1 server 10.53.0.1 ${PORT} update add cap.max-ttl.nil. 600 A 10.10.10.3 update add nocap.max-ttl.nil. 150 A 10.10.10.3 send END sleep 2 $DIG $DIGOPTS @10.53.0.1 cap.max-ttl.nil | grep "^cap.max-ttl.nil. 300" > /dev/null 2>&1 || ret=1 $DIG $DIGOPTS @10.53.0.1 nocap.max-ttl.nil | grep "^nocap.max-ttl.nil. 150" > /dev/null 2>&1 || ret=1 if [ $ret -ne 0 ]; then echo_i "failed" status=1 fi n=$((n + 1)) ret=0 echo_i "add a record which is truncated when logged. ($n)" $NSUPDATE verylarge || ret=1 $DIG $DIGOPTS +tcp @10.53.0.1 txt txt.update.nil > dig.out.ns1.test$n grep "ANSWER: 1," dig.out.ns1.test$n > /dev/null || ret=1 grep "adding an RR at 'txt.update.nil' TXT .* \[TRUNCATED\]" ns1/named.run > /dev/null || ret=1 if [ $ret -ne 0 ]; then echo_i "failed" status=1 fi n=$((n + 1)) ret=0 echo_i "check that yyyymmddvv serial number is correctly generated ($n)" oldserial=$($DIG $DIGOPTS +short yyyymmddvv.nil. soa @10.53.0.1 | awk '{print $3}') || ret=1 $NSUPDATE < /dev/null 2>&1 || ret=1 server 10.53.0.1 ${PORT} ttl 600 update add new.yyyymmddvv.nil in a 1.2.3.4 send END now=$($PERL -e '@lt=localtime(); printf "%.4d%0.2d%0.2d00\n",$lt[5]+1900,$lt[4]+1,$lt[3];') sleep 1 serial=$($DIG $DIGOPTS +short yyyymmddvv.nil. soa @10.53.0.1 | awk '{print $3}') || ret=1 [ "$oldserial" -ne "$serial" ] || ret=1 [ "$serial" -eq "$now" ] || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } # # Refactor to use perl to launch the parallel updates. # if false then n=$((n + 1)) echo_i "send many simultaneous updates via a update forwarder ($n)" ret=0 for i in 0 1 2 3 4 5 6 7 do ( for j in 0 1 2 3 4 5 6 7 do ( $NSUPDATE << EOF server 10.53.0.3 ${PORT} zone many.test update add $i-$j.many.test 0 IN A 1.2.3.4 send EOF ) & done wait ) & done wait dig axfr many.test @10.53.0.1 > dig.out.test$n lines=$(awk '$4 == "A" { l++ } END { print l }' dig.out.test$n) test ${lines:-0} -eq 64 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } fi n=$((n + 1)) echo_i "check max-journal-size limits ($n)" ret=0 rm -f nsupdate.out1-$n # add one record $NSUPDATE << EOF >> nsupdate.out1-$n 2>&1 server 10.53.0.1 ${PORT} zone maxjournal.test update add z.maxjournal.test 300 IN A 10.20.30.40 send EOF for i in 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20; do # repeatedly add and remove the same set of records to fill up # the journal file without changing the zone content $NSUPDATE << EOF >> nsupdate.out1-$n 2>&1 server 10.53.0.1 ${PORT} zone maxjournal.test update add a.maxjournal.test 300 IN A 1.2.3.4 update add b.maxjournal.test 300 IN A 1.2.3.4 update add c.maxjournal.test 300 IN A 1.2.3.4 update add d.maxjournal.test 300 IN A 1.2.3.4 send update del a.maxjournal.test update del b.maxjournal.test update del c.maxjournal.test update del d.maxjournal.test send EOF done # check that the journal is big enough to require truncation. size=$($PERL -e 'use File::stat; my $sb = stat(@ARGV[0]); printf("%s\n", $sb->size);' ns1/maxjournal.db.jnl) [ "$size" -gt 6000 ] || ret=1 sleep 1 $RNDCCMD 10.53.0.1 sync maxjournal.test check_size_lt_5000() ( size=$($PERL -e 'use File::stat; my $sb = stat(@ARGV[0]); printf("%s\n", $sb->size);' ns1/maxjournal.db.jnl) [ "$size" -lt 5000 ] ) retry_quiet 20 check_size_lt_5000 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) echo_i "check check-names processing ($n)" ret=0 $NSUPDATE << EOF > nsupdate.out1-$n 2>&1 && ret=1 update add # 0 in a 1.2.3.4 EOF grep "bad owner" nsupdate.out1-$n > /dev/null || ret=1 $NSUPDATE << EOF > nsupdate.out2-$n 2>&1 || ret=1 check-names off update add # 0 in a 1.2.3.4 EOF grep "bad owner" nsupdate.out2-$n > /dev/null && ret=1 $NSUPDATE << EOF > nsupdate.out3-$n 2>&1 && ret=1 update add . 0 in mx 0 # EOF grep "bad name" nsupdate.out3-$n > /dev/null || ret=1 $NSUPDATE << EOF > nsupdate.out4-$n 2>&1 || ret=1 check-names off update add . 0 in mx 0 # EOF grep "bad name" nsupdate.out4-$n > /dev/null && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) echo_i "check adding of delegating NS records processing ($n)" ret=0 $NSUPDATE -v << EOF > nsupdate.out.test$n 2>&1 || ret=1 server 10.53.0.3 ${PORT} zone delegation.test. update add child.delegation.test. 3600 NS foo.example.net. update add child.delegation.test. 3600 NS bar.example.net. send EOF $DIG $DIGOPTS +tcp @10.53.0.3 ns child.delegation.test > dig.out.ns1.test$n grep "status: NOERROR" dig.out.ns1.test$n > /dev/null 2>&1 || ret=1 grep "AUTHORITY: 2" dig.out.ns1.test$n > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) echo_i "check deleting of delegating NS records processing ($n)" ret=0 $NSUPDATE -v << EOF > nsupdate.out.test$n 2>&1 || ret=1 server 10.53.0.3 ${PORT} zone delegation.test. update del child.delegation.test. 3600 NS foo.example.net. update del child.delegation.test. 3600 NS bar.example.net. send EOF $DIG $DIGOPTS +tcp @10.53.0.3 ns child.delegation.test > dig.out.ns1.test$n grep "status: NXDOMAIN" dig.out.ns1.test$n > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) echo_i "check that adding too many records is blocked ($n)" ret=0 $NSUPDATE -v << EOF > nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.3 ${PORT} zone too-big.test. update add r1.too-big.test 3600 IN TXT r1.too-big.test send EOF grep "update failed: SERVFAIL" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.3 r1.too-big.test TXT > dig.out.ns3.test$n grep "status: NXDOMAIN" dig.out.ns3.test$n > /dev/null || ret=1 grep "records in zone (4) exceeds max-records (3)" ns3/named.run > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check whether valid addresses are used for primary failover (UDP with defaults) ($n)" t1=$($PERL -e 'print time()') $NSUPDATE < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.4 ${PORT} zone unreachable. update add unreachable. 600 A 192.0.2.1 send END t2=$($PERL -e 'print time()') grep "; Communication with 10.53.0.4#${PORT} failed: timed out" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 grep "not implemented" nsupdate.out.test$n > /dev/null 2>&1 && ret=1 elapsed=$((t2 - t1)) # Check that default timeout value is respected, there should be 4 tries with 3 seconds each. test $elapsed -lt 12 && ret=1 test $elapsed -gt 15 && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check whether valid addresses are used for primary failover (UDP with -u udptimeout) ($n)" t1=$($PERL -e 'print time()') $NSUPDATE -u 4 -r 1 < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.4 ${PORT} zone unreachable. update add unreachable. 600 A 192.0.2.1 send END t2=$($PERL -e 'print time()') grep "; Communication with 10.53.0.4#${PORT} failed: timed out" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 grep "not implemented" nsupdate.out.test$n > /dev/null 2>&1 && ret=1 elapsed=$((t2 - t1)) # Check that given timeout value is respected, there should be 2 tries with 4 seconds each. test $elapsed -lt 8 && ret=1 test $elapsed -gt 12 && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check whether valid addresses are used for primary failover (UDP with -t timeout) ($n)" t1=$($PERL -e 'print time()') $NSUPDATE -u 0 -t 8 -r 1 < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.4 ${PORT} zone unreachable. update add unreachable. 600 A 192.0.2.1 send END t2=$($PERL -e 'print time()') grep "; Communication with 10.53.0.4#${PORT} failed: timed out" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 grep "not implemented" nsupdate.out.test$n > /dev/null 2>&1 && ret=1 elapsed=$((t2 - t1)) # Check that given timeout value is respected, there should be 2 tries with 4 seconds each. test $elapsed -lt 8 && ret=1 test $elapsed -gt 12 && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check whether valid addresses are used for primary failover (UDP with -u udptimeout -t timeout) ($n)" t1=$($PERL -e 'print time()') $NSUPDATE -u 4 -t 30 -r 1 < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.4 ${PORT} zone unreachable. update add unreachable. 600 A 192.0.2.1 send END t2=$($PERL -e 'print time()') grep "; Communication with 10.53.0.4#${PORT} failed: timed out" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 grep "not implemented" nsupdate.out.test$n > /dev/null 2>&1 && ret=1 elapsed=$((t2 - t1)) # Check that given timeout value is respected, there should be 2 tries with 4 seconds each, as -u takes precedence over -t. test $elapsed -lt 8 && ret=1 test $elapsed -gt 12 && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check whether valid addresses are used for primary failover (TCP with -t timeout) ($n)" t1=$($PERL -e 'print time()') $NSUPDATE -t 8 -v < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.4 ${PORT} zone unreachable. update add unreachable. 600 A 192.0.2.1 send END t2=$($PERL -e 'print time()') grep "; Communication with 10.53.0.4#${PORT} failed: timed out" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 grep "not implemented" nsupdate.out.test$n > /dev/null 2>&1 && ret=1 elapsed=$((t2 - t1)) # Check that given timeout value is respected, there should be 1 try with 8 seconds. test $elapsed -lt 8 && ret=1 test $elapsed -gt 12 && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "ensure bad owner name is fatal in non-interactive mode ($n)" $NSUPDATE < nsupdate.out 2>&1 && ret=1 update add emptylabel..nil. 600 A 10.10.10.1 END grep "invalid owner name: empty label" nsupdate.out > /dev/null || ret=1 grep "syntax error" nsupdate.out > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "ensure bad owner name is not fatal in interactive mode ($n)" $NSUPDATE -i < nsupdate.out 2>&1 || ret=1 update add emptylabel..nil. 600 A 10.10.10.1 END grep "invalid owner name: empty label" nsupdate.out > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "ensure invalid key type is fatal in non-interactive mode ($n)" $NSUPDATE < nsupdate.out 2>&1 && ret=1 key badkeytype:example abcd12345678 END grep "unknown key type 'badkeytype'" nsupdate.out > /dev/null || ret=1 grep "syntax error" nsupdate.out > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "ensure invalid key type is not fatal in interactive mode ($n)" $NSUPDATE -i < nsupdate.out 2>&1 || ret=1 key badkeytype:example abcd12345678 END grep "unknown key type 'badkeytype'" nsupdate.out > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "ensure unresolvable server name is fatal in non-interactive mode ($n)" $NSUPDATE < nsupdate.out 2>&1 && ret=1 server unresolvable.. END grep "couldn't get address for 'unresolvable..':" nsupdate.out > /dev/null || ret=1 grep "syntax error" nsupdate.out > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "ensure unresolvable server name is not fatal in interactive mode ($n)" $NSUPDATE -i < nsupdate.out 2>&1 || ret=1 server unresolvable.. END grep "couldn't get address for 'unresolvable..':" nsupdate.out > /dev/null || ret=1 grep "syntax error" nsupdate.out > /dev/null && ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check nsupdate -4 -6 ($n)" $NSUPDATE -4 -6 < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.3 ${PORT} zone delegation.test. update del child.delegation.test. 3600 NS foo.example.net. update del child.delegation.test. 3600 NS bar.example.net. send END grep "only one of -4 and -6 allowed" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check nsupdate -4 with an IPv6 server address ($n)" $NSUPDATE -4 < nsupdate.out.test$n 2>&1 && ret=1 server fd92:7065:b8e:ffff::2 ${PORT} zone delegation.test. update del child.delegation.test. 3600 NS foo.example.net. update del child.delegation.test. 3600 NS bar.example.net. send END grep "address family not supported" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that TKEY in a update is rejected ($n)" $NSUPDATE -d < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.3 ${PORT} update add tkey.example 0 in tkey invalid.algorithm. 1516055980 1516140801 1 0 16 gRof8D2BFKvl/vrr9Lmnjw== 16 gRof8D2BFKvl/vrr9Lmnjw== send END grep "UPDATE, status: NOERROR" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 grep "UPDATE, status: FORMERR" nsupdate.out.test$n > /dev/null 2>&1 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that max records is enforced ($n)" nextpart ns6/named.run > /dev/null $NSUPDATE -v > nsupdate.out.$n 2>&1 << END server 10.53.0.6 ${PORT} local 10.53.0.5 update del 5.0.53.10.in-addr.arpa. update add 5.0.53.10.in-addr.arpa. 600 PTR localhost. update add 5.0.53.10.in-addr.arpa. 600 PTR other. send END $DIG $DIGOPTS @10.53.0.6 \ +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ -x 10.53.0.5 > dig.out.ns6.$n # the policy is 'grant * tcp-self . PTR(1) ANY(2) A;' so only the # first PTR record should be added. grep localhost. dig.out.ns6.$n > /dev/null 2>&1 || ret=1 grep other. dig.out.ns6.$n > /dev/null 2>&1 && ret=1 nextpart ns6/named.run > nextpart.out.$n grep "attempt to add more records than permitted by policy" nextpart.out.$n > /dev/null || ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that max records for ANY is enforced ($n)" nextpart ns6/named.run > /dev/null $NSUPDATE -v > nsupdate.out.$n 2>&1 << END server 10.53.0.6 ${PORT} local 10.53.0.5 update del 5.0.53.10.in-addr.arpa. update add 5.0.53.10.in-addr.arpa. 600 A 1.2.3.4 update add 5.0.53.10.in-addr.arpa. 600 A 1.2.3.3 update add 5.0.53.10.in-addr.arpa. 600 A 1.2.3.2 update add 5.0.53.10.in-addr.arpa. 600 AAAA ::ffff:1.2.3.4 update add 5.0.53.10.in-addr.arpa. 600 AAAA ::ffff:1.2.3.3 update add 5.0.53.10.in-addr.arpa. 600 AAAA ::ffff:1.2.3.2 send END $DIG $DIGOPTS @10.53.0.6 \ +tcp +noadd +nosea +nostat +noquest +nocomm +nocmd \ ANY -x 10.53.0.5 > dig.out.ns6.test$n nextpart ns6/named.run > nextpart.out.test$n grep "attempt to add more records than permitted by policy" nextpart.out.test$n > /dev/null || ret=1 # the policy is 'grant * tcp-self . PTR(1) ANY(2) A;' so all the A # records should have been added as there is no limit and the first 2 # of the AAAA records added as they match ANY(2). c1=$(awk '$4 == "A" { print }' dig.out.ns6.test$n | wc -l) c2=$(awk '$4 == "AAAA" { print }' dig.out.ns6.test$n | wc -l) test "$c1" -eq 3 -a "$c2" -eq 2 || ret=1 grep "::ffff:1.2.3.2" dig.out.ns6.test$n && ret=1 if test $ret -ne 0 then echo_i "failed"; status=1 fi n=$((n + 1)) ret=0 echo_i "check that DS to the zone apex is ignored ($n)" $DIG $DIGOPTS +tcp +norec example DS @10.53.0.3 > dig.out.pre.test$n || ret=1 grep "status: NOERROR" dig.out.pre.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.pre.test$n > /dev/null || ret=1 nextpart ns3/named.run > /dev/null # specify zone to override the default of adding to parent zone $NSUPDATE -d < nsupdate.out.test$n 2>&1 || ret=1 server 10.53.0.3 ${PORT} zone example update add example 0 in DS 14364 10 2 FD03B2312C8F0FE72C1751EFA1007D743C94EC91594FF0047C23C37CE119BA0C send END msg=": attempt to add a DS record at zone apex ignored" nextpart ns3/named.run | grep "$msg" > /dev/null || ret=1 $DIG $DIGOPTS +tcp +norec example DS @10.53.0.3 > dig.out.post.test$n || ret=1 grep "status: NOERROR" dig.out.post.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.post.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that CDS with mismatched algorithm to DNSSEC multisigner zone is not allowed ($n)" $DIG $DIGOPTS +tcp +norec multisigner.test CDS @10.53.0.3 > dig.out.pre.test$n || ret=1 grep "status: NOERROR" dig.out.pre.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.pre.test$n > /dev/null || ret=1 $NSUPDATE -d < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.3 ${PORT} zone multisigner.test update add multisigner.test 3600 IN CDS 14364 14 2 FD03B2312C8F0FE72C1751EFA1007D743C94EC91594FF0047C23C37CE119BA0C send END msg=": bad CDS RRset" nextpart ns3/named.run | grep "$msg" > /dev/null || ret=1 $DIG $DIGOPTS +tcp +norec multisigner.test CDS @10.53.0.3 > dig.out.post.test$n || ret=1 grep "status: NOERROR" dig.out.post.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.post.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that CDNSKEY with mismatched algorithm to DNSSEC multisigner zone is not allowed ($n)" $DIG $DIGOPTS +tcp +norec multisigner.test CDNSKEY @10.53.0.3 > dig.out.pre.test$n || ret=1 grep "status: NOERROR" dig.out.pre.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.pre.test$n > /dev/null || ret=1 nextpart ns3/named.run > /dev/null $NSUPDATE -d < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.3 ${PORT} zone multisigner.test update add multisigner.test 3600 IN CDNSKEY 257 3 14 d0NQ5PKmDz6P0B1WPMH9/UKRux/toSFwV2nTJYPA1Cx8pB0sJGTXbVhG U+6gye7VCHDhGIn9CjVfb2RJPW7GnQ== send END msg=": bad CDNSKEY RRset" nextpart ns3/named.run | grep "$msg" > /dev/null || ret=1 $DIG $DIGOPTS +tcp +norec multisigner.test CDNSKEY @10.53.0.3 > dig.out.post.test$n || ret=1 grep "status: NOERROR" dig.out.post.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.post.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that CDS to DNSSEC multisigner zone is allowed ($n)" $DIG $DIGOPTS +tcp +norec multisigner.test CDS @10.53.0.3 > dig.out.pre.test$n || ret=1 grep "status: NOERROR" dig.out.pre.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.pre.test$n > /dev/null || ret=1 $NSUPDATE -d < nsupdate.out.test$n 2>&1 || ret=1 server 10.53.0.3 ${PORT} zone multisigner.test update add multisigner.test 3600 IN CDS 14364 13 2 FD03B2312C8F0FE72C1751EFA1007D743C94EC91594FF0047C23C37CE119BA0C send END retry_quiet 5 has_positive_response multisigner.test CDS 10.53.0.3 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that CDNSKEY to DNSSEC multisigner zone is allowed ($n)" $DIG $DIGOPTS +tcp +norec multisigner.test CDNSKEY @10.53.0.3 > dig.out.pre.test$n || ret=1 grep "status: NOERROR" dig.out.pre.test$n > /dev/null || ret=1 grep "ANSWER: 0," dig.out.pre.test$n > /dev/null || ret=1 $NSUPDATE -d < nsupdate.out.test$n 2>&1 || ret=1 server 10.53.0.3 ${PORT} zone multisigner.test update add multisigner.test 3600 IN CDNSKEY 257 3 13 d0NQ5PKmDz6P0B1WPMH9/UKRux/toSFwV2nTJYPA1Cx8pB0sJGTXbVhG U+6gye7VCHDhGIn9CjVfb2RJPW7GnQ== send END retry_quiet 5 has_positive_response multisigner.test CDNSKEY 10.53.0.3 || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that excessive NSEC3PARAM iterations are rejected by nsupdate ($n)" $NSUPDATE -d < nsupdate.out.test$n 2>&1 && ret=1 server 10.53.0.3 ${PORT} zone example update add example 0 in NSEC3PARAM 1 0 151 - END grep "NSEC3PARAM has excessive iterations (> 150)" nsupdate.out.test$n >/dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check nsupdate retries with another server on REFUSED response ($n)" # resolv.conf uses 10.53.0.1 followed by 10.53.0.3; example is only # served by 10.53.0.3, so we should fail over to the second server; # that's what we're testing for. (failure is still expected, however, # because the address lookup for the primary doesn't use the overridden # resolv.conf file). $NSUPDATE -D -C resolv.conf -p ${PORT} << EOF > nsupdate.out.test$n 2>&1 && ret=1 zone example update add a 3600 IN A 1.2.3.4 send EOF grep '10.53.0.1.*REFUSED' nsupdate.out.test$n > /dev/null || ret=1 grep 'Reply from SOA query' nsupdate.out.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that update is rejected if query is not allowed ($n)" { $NSUPDATE -d < nsupdate.out.test$n 2>&1 grep 'failed: REFUSED' nsupdate.out.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check that update is rejected if quota is exceeded ($n)" for loop in 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20; do { $NSUPDATE -4 -l -p ${PORT} -k ns1/session.key > /dev/null 2>&1 < nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com send EOF grep "response to GSS-TSIG query was unsuccessful (REFUSED)" nsupdate.out.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } copy_setports ns7/named2.conf.in ns7/named.conf rndc_reload ns7 10.53.0.7 n=$((n + 1)) ret=0 echo_i "check krb5-self match ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add machine.example.com 3600 IN A 10.53.0.7 send EOF $DIG $DIGOPTS +tcp @10.53.0.7 machine.example.com A > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "machine.example.com..*A.*10.53.0.7" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check krb5-self no-match ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add foo.example.com 3600 IN A 10.53.0.7 send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 foo.example.com A > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check krb5-subdomain match ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add _xxx._tcp.example.com 3600 IN SRV 0 0 0 machine.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.7 _xxx._tcp.example.com SRV > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "_xxx._tcp.example.com.*SRV.*0 0 0 machine.example.com" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check krb5-subdomain no-match ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add _xxx._udp.example.com 3600 IN SRV 0 0 0 machine.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 _xxx._udp.example.com SRV > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs match PTR ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone in-addr.arpa update add 4.3.2.1.in-addr.arpa 3600 IN PTR machine.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.7 4.3.2.1.in-addr.arpa PTR > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "4.3.2.1.in-addr.arpa.*PTR.*machine.example.com" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs no-match PTR ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone in-addr.arpa update add 5.3.2.1.in-addr.arpa 3600 IN PTR notme.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 5.3.2.1.in-addr.arpa PTR > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs match SRV ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add _xxx.self-srv.example.com 3600 IN SRV 0 0 0 machine.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.7 _xxx.self-srv.example.com ANY > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "_xxx.self-srv.example.com.*SRV.*0 0 0 machine.example.com" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs no listed types match (SRV & TXT) ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add _xxx.self-srv-no-type.example.com 3600 IN SRV 0 0 0 machine.example.com update add _xxx.self-srv-no-type.example.com 3600 IN TXT a txt record send EOF $DIG $DIGOPTS +tcp @10.53.0.7 _xxx.self-srv-no-type.example.com ANY > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep '_xxx.self-srv-no-type.example.com.*SRV.*0 0 0 machine.example.com' dig.out.ns7.test$n > /dev/null || ret=1 grep '_xxx.self-srv-no-type.example.com.*TXT.*"a" "txt" "record"' dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs no-match RDATA (SRV) ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add _yyy.self-srv.example.com 3600 IN SRV 0 0 0 notme.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 _yyy.self-srv.example.com SRV > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs no-match TYPE (TXT) ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update add _yyy.self-srv.example.com 3600 IN TXT a-txt-record send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 _yyy.self-srv.example.com TXT > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete PTR (matching PTR) ($n)" $DIG $DIGOPTS +tcp @10.53.0.7 single.ptr.self-ptr.in-addr.arpa PTR > dig.out.ns7.pre.test$n grep "status: NOERROR" dig.out.ns7.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns7.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone in-addr.arpa update delete single.ptr.self-ptr.in-addr.arpa PTR send EOF $DIG $DIGOPTS +tcp @10.53.0.7 single.ptr.self-ptr.in-addr.arpa PTR > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete PTR (matching PTR with non-matching PTR) ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone in-addr.arpa update delete many.ptr.self-ptr.in-addr.arpa PTR send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 many.ptr.self-ptr.in-addr.arpa PTR > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete ANY (matching PTR) ($n)" $DIG $DIGOPTS +tcp @10.53.0.7 single.any.self-ptr.in-addr.arpa PTR > dig.out.ns7.pre.test$n grep "status: NOERROR" dig.out.ns7.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns7.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone in-addr.arpa update delete single.any.self-ptr.in-addr.arpa send EOF $DIG $DIGOPTS +tcp @10.53.0.7 single.any.self-ptr.in-addr.arpa PTR > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete ANY (matching PTR with non-matching PTR) ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone in-addr.arpa update delete many.any.self-ptr.in-addr.arpa send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 many.any.self-ptr.in-addr.arpa PTR > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete SRV (matching SRV) ($n)" $DIG $DIGOPTS +tcp @10.53.0.7 single.srv.self-srv.example.com SRV > dig.out.ns7.pre.test$n grep "status: NOERROR" dig.out.ns7.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns7.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update delete single.srv.self-srv.example.com SRV send EOF $DIG $DIGOPTS +tcp @10.53.0.7 single.srv.self-srv.example.com SRV > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete SRV (matching SRV with non-matching SRV) ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update delete many.srv.self-srv.example.com SRV send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 many.srv.self-srv.example.com SRV > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete ANY (matching SRV) ($n)" $DIG $DIGOPTS +tcp @10.53.0.7 single.any.self-srv.example.com SRV > dig.out.ns7.pre.test$n grep "status: NOERROR" dig.out.ns7.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns7.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update delete single.any.self-srv.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.7 single.any.self-srv.example.com SRV > dig.out.ns7.test$n grep "status: NXDOMAIN" dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check krb5-subdomain-self-rhs delete ANY (matching SRV with non-matching SRV) ($n)" KRB5CCNAME="FILE:$(pwd)/ns7/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.7 ${PORT} zone example.com update delete many.any.self-srv.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.7 many.any.self-srv.example.com SRV > dig.out.ns7.test$n grep "status: NOERROR" dig.out.ns7.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns7.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check krb5-selfsub match ($n)" KRB5CCNAME="FILE:$(pwd)/ns8/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.8 ${PORT} zone example.com update add xxx.machine.example.com 3600 IN A 10.53.0.8 send EOF $DIG $DIGOPTS +tcp @10.53.0.8 xxx.machine.example.com A > dig.out.ns8.test$n grep "status: NOERROR" dig.out.ns8.test$n > /dev/null || ret=1 grep "xxx.machine.example.com..*A.*10.53.0.8" dig.out.ns8.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check krb5-selfsub no-match ($n)" KRB5CCNAME="FILE:$(pwd)/ns8/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.8 ${PORT} zone example.com update add foo.example.com 3600 IN A 10.53.0.8 send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.8 foo.example.com A > dig.out.ns8.test$n grep "status: NXDOMAIN" dig.out.ns8.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check ms-self match ($n)" KRB5CCNAME="FILE:$(pwd)/ns9/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.9 ${PORT} zone example.com update add machine.example.com 3600 IN A 10.53.0.9 send EOF $DIG $DIGOPTS +tcp @10.53.0.9 machine.example.com A > dig.out.ns9.test$n grep "status: NOERROR" dig.out.ns9.test$n > /dev/null || ret=1 grep "machine.example.com..*A.*10.53.0.9" dig.out.ns9.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check ms-self no-match ($n)" KRB5CCNAME="FILE:$(pwd)/ns9/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.9 ${PORT} zone example.com update add foo.example.com 3600 IN A 10.53.0.9 send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.9 foo.example.com A > dig.out.ns9.test$n grep "status: NXDOMAIN" dig.out.ns9.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check ms-subdomain match ($n)" KRB5CCNAME="FILE:$(pwd)/ns9/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.9 ${PORT} zone example.com update add _xxx._tcp.example.com 3600 IN SRV 0 0 0 machine.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.9 _xxx._tcp.example.com SRV > dig.out.ns9.test$n grep "status: NOERROR" dig.out.ns9.test$n > /dev/null || ret=1 grep "_xxx._tcp.example.com.*SRV.*0 0 0 machine.example.com" dig.out.ns9.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check ms-subdomain no-match ($n)" KRB5CCNAME="FILE:$(pwd)/ns9/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.9 ${PORT} zone example.com update add _xxx._udp.example.com 3600 IN SRV 0 0 0 machine.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.9 _xxx._udp.example.com SRV > dig.out.ns9.test$n grep "status: NXDOMAIN" dig.out.ns9.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs match (PTR) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone in-addr.arpa update add 4.3.2.1.in-addr.arpa 3600 IN PTR machine.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.10 4.3.2.1.in-addr.arpa PTR > dig.out.ns10.test$n grep "status: NOERROR" dig.out.ns10.test$n > /dev/null || ret=1 grep "4.3.2.1.in-addr.arpa.*PTR.*machine.example.com" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs no-match (PTR) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone in-addr.arpa update add 5.3.2.1.in-addr.arpa 3600 IN PTR notme.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.10 5.3.2.1.in-addr.arpa PTR > dig.out.ns10.test$n grep "status: NXDOMAIN" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs match (SRV) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update add _xxx.self-srv.example.com 3600 IN SRV 0 0 0 machine.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.10 _xxx.self-srv.example.com SRV > dig.out.ns10.test$n grep "status: NOERROR" dig.out.ns10.test$n > /dev/null || ret=1 grep "_xxx.self-srv.example.com.*SRV.*0 0 0 machine.example.com" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs no-match (SRV) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update add _yyy.self-srv.example.com 3600 IN SRV 0 0 0 notme.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.10 _yyy.self-srv.example.com SRV > dig.out.ns10.test$n grep "status: NXDOMAIN" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete SRV (matching SRV) ($n)" $DIG $DIGOPTS +tcp @10.53.0.10 single.srv.self-srv.example.com SRV > dig.out.ns10.pre.test$n grep "status: NOERROR" dig.out.ns10.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns10.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update delete single.srv.self-srv.example.com SRV send EOF $DIG $DIGOPTS +tcp @10.53.0.10 single.srv.self-srv.example.com SRV > dig.out.ns10.test$n grep "status: NXDOMAIN" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete SRV (matching SRV with non-matching SRV) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update delete many.srv.self-srv.example.com SRV send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.10 many.srv.self-srv.example.com SRV > dig.out.ns10.test$n grep "status: NOERROR" dig.out.ns10.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete PTR (matching PTR) ($n)" $DIG $DIGOPTS +tcp @10.53.0.10 single.ptr.self-ptr.in-addr.arpa PTR > dig.out.ns10.pre.test$n grep "status: NOERROR" dig.out.ns10.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns10.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone in-addr.arpa update delete single.ptr.self-ptr.in-addr.arpa PTR send EOF $DIG $DIGOPTS +tcp @10.53.0.10 single.ptr.self-ptr.in-addr.arpa PTR > dig.out.ns10.test$n grep "status: NXDOMAIN" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete PTR (matching PTR with non-matching PTR) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone in-addr.arpa update delete many.ptr.self-ptr.in-addr.arpa PTR send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.10 many.ptr.self-ptr.in-addr.arpa PTR > dig.out.ns10.test$n grep "status: NOERROR" dig.out.ns10.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete ANY (matching PTR) ($n)" $DIG $DIGOPTS +tcp @10.53.0.10 single.any.self-ptr.in-addr.arpa PTR > dig.out.ns10.pre.test$n grep "status: NOERROR" dig.out.ns10.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns10.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone in-addr.arpa update delete single.any.self-ptr.in-addr.arpa send EOF $DIG $DIGOPTS +tcp @10.53.0.10 single.any.self-ptr.in-addr.arpa PTR > dig.out.ns10.test$n grep "status: NXDOMAIN" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete ANY (matching PTR with non-matching PTR) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone in-addr.arpa update delete many.any.self-ptr.in-addr.arpa send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.10 many.any.self-ptr.in-addr.arpa PTR > dig.out.ns10.test$n grep "status: NOERROR" dig.out.ns10.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete ANY (matching SRV) ($n)" $DIG $DIGOPTS +tcp @10.53.0.10 single.any.self-srv.example.com SRV > dig.out.ns10.pre.test$n grep "status: NOERROR" dig.out.ns10.pre.test$n > /dev/null || ret=1 grep "ANSWER: 1," dig.out.ns10.pre.test$n > /dev/null || ret=1 KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update delete single.any.self-srv.example.com send EOF $DIG $DIGOPTS +tcp @10.53.0.10 single.any.self-srv.example.com SRV > dig.out.ns10.test$n grep "status: NXDOMAIN" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n+1)) ret=0 echo_i "check ms-subdomain-self-rhs delete ANY (matching SRV with non-matching SRV) ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update delete many.any.self-srv.example.com send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.10 many.any.self-srv.example.com SRV > dig.out.ns10.test$n grep "status: NOERROR" dig.out.ns10.test$n > /dev/null || ret=1 grep "ANSWER: 2," dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check ms-selfsub match ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE -d << EOF > nsupdate.out.test$n 2>&1 || ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update add xxx.machine.example.com 3600 IN A 10.53.0.10 send EOF $DIG $DIGOPTS +tcp @10.53.0.10 xxx.machine.example.com A > dig.out.ns10.test$n grep "status: NOERROR" dig.out.ns10.test$n > /dev/null || ret=1 grep "xxx.machine.example.com..*A.*10.53.0.10" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } n=$((n + 1)) ret=0 echo_i "check ms-selfsub no-match ($n)" KRB5CCNAME="FILE:$(pwd)/ns10/machine.ccache" export KRB5CCNAME $NSUPDATE << EOF > nsupdate.out.test$n 2>&1 && ret=1 gsstsig realm EXAMPLE.COM server 10.53.0.10 ${PORT} zone example.com update add foo.example.com 3600 IN A 10.53.0.10 send EOF grep "update failed: REFUSED" nsupdate.out.test$n > /dev/null || ret=1 $DIG $DIGOPTS +tcp @10.53.0.10 foo.example.com A > dig.out.ns10.test$n grep "status: NXDOMAIN" dig.out.ns10.test$n > /dev/null || ret=1 [ $ret = 0 ] || { echo_i "failed"; status=1; } fi echo_i "exit status: $status" [ $status -eq 0 ] || exit 1