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|
#!/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.
SYSTEMTESTTOP=..
. $SYSTEMTESTTOP/conf.sh
status=0
n=0
DIGOPTS="+tcp +noadd +nosea +nostat +nocmd +dnssec -p ${PORT}"
RNDCCMD="$RNDC -c $SYSTEMTESTTOP/common/rndc.conf -p ${CONTROLPORT} -s"
# convert private-type records to readable form
showprivate () {
echo "-- $@ --"
$DIG $DIGOPTS +nodnssec +short @$2 -t type65534 $1 | cut -f3 -d' ' |
while read record; do
$PERL -e 'my $rdata = pack("H*", @ARGV[0]);
die "invalid record" unless length($rdata) == 5;
my ($alg, $key, $remove, $complete) = unpack("CnCC", $rdata);
my $action = "signing";
$action = "removing" if $remove;
my $state = " (incomplete)";
$state = " (complete)" if $complete;
print ("$action: alg: $alg, key: $key$state\n");' $record
done
}
# check that signing records are marked as complete
checkprivate () {
_ret=0
expected="${3:-0}"
x=$(showprivate "$@")
echo $x | grep incomplete > /dev/null && _ret=1
if [ $_ret = $expected ]; then
return 0
fi
echo "$x"
echo_i "failed"
return 1
}
# wait until notifies for zone $1 are sent by server $2. This is an indication
# that the zone is signed with the active keys, and the changes have been
# committed.
wait_for_notifies () {
wait_for_log 10 "zone ${1}/IN: sending notifies" "${2}/named.run" || return 1
}
freq() {
_file=$1
# remove first and last line that has incomplete set and skews the distribution
awk '$4 == "RRSIG" {print substr($9,1,8)}' < "$_file" | sort | uniq -c | sed '1d;$d'
}
# Check the signatures expiration times. First check how many signatures
# there are in total ($rrsigs). Then see what the distribution of signature
# expiration times is ($expiretimes). Ignore the time part for a better
# modelled distribution.
checkjitter () {
_file=$1
_ret=0
if ! command -v bc >/dev/null 2>&1; then
echo_i "skip: bc not available"
return 0
fi
freq "$_file" | cat_i
_expiretimes=$(freq "$_file" | awk '{print $1}')
_count=0
# Check if we have at least 4 days
# This number has been tuned for `sig-validity-interval 10 2`, as
# 1 signature expiration dates should be spread out across at most 8 (10-2) days
# 2. we remove first and last day to remove frequency outlier, we are left with 6 (8-2) days
# 3. we subtract two more days to allow test pass on day boundaries, etc. leaving us with 4 (6-2)
for _num in $_expiretimes
do
_count=$((_count+1))
done
if [ "$_count" -lt 4 ]; then
echo_i "error: not enough categories"
return 1
fi
# Calculate mean
_total=0
for _num in $_expiretimes
do
_total=$((_total+_num))
done
_mean=$(($_total / $_count))
# Calculate stddev
_stddev=0
for _num in $_expiretimes
do
_stddev=$(echo "$_stddev + (($_num - $_mean) * ($_num - $_mean))" | bc)
done
_stddev=$(echo "sqrt($_stddev/$_count)" | bc)
# We expect the number of signatures not to exceed the mean +- 3 * stddev.
_limit=$((_stddev*3))
_low=$((_mean-_limit))
_high=$((_mean+_limit))
# Find outliers.
echo_i "checking whether all frequencies fall into <$_low;$_high> range"
for _num in $_expiretimes
do
if [ $_num -gt $_high ]; then
echo_i "error: too many RRSIG records ($_num) in expiration bucket"
_ret=1
fi
if [ $_num -lt $_low ]; then
echo_i "error: too few RRSIG records ($_num) in expiration bucket"
_ret=1
fi
done
return $_ret
}
#
# The NSEC record at the apex of the zone and its RRSIG records are
# added as part of the last step in signing a zone. We wait for the
# NSEC records to appear before proceeding with a counter to prevent
# infinite loops if there is a error.
#
echo_i "waiting for autosign changes to take effect"
i=0
while [ $i -lt 30 ]
do
ret=0
#
# Wait for the root DNSKEY RRset to be fully signed.
#
$DIG $DIGOPTS . @10.53.0.1 dnskey > dig.out.ns1.test$n || ret=1
grep "ANSWER: 10," dig.out.ns1.test$n > /dev/null || ret=1
for z in .
do
$DIG $DIGOPTS $z @10.53.0.1 nsec > dig.out.ns1.test$n || ret=1
grep "NS SOA" dig.out.ns1.test$n > /dev/null || ret=1
done
for z in bar. example. private.secure.example. optout-with-ent.
do
$DIG $DIGOPTS $z @10.53.0.2 nsec > dig.out.ns2.test$n || ret=1
grep "NS SOA" dig.out.ns2.test$n > /dev/null || ret=1
done
for z in bar. example. inacksk2.example. inacksk3.example \
inaczsk2.example. inaczsk3.example noksk.example nozsk.example
do
$DIG $DIGOPTS $z @10.53.0.3 nsec > dig.out.ns3.test$n || ret=1
grep "NS SOA" dig.out.ns3.test$n > /dev/null || ret=1
done
i=$((i + 1))
if [ $ret = 0 ]; then break; fi
echo_i "waiting ... ($i)"
sleep 2
done
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "done"; fi
status=$((status + ret))
echo_i "Convert optout-with-ent from nsec to nsec3"
($RNDCCMD 10.53.0.2 signing -nsec3param 1 1 1 - optout-with-ent 2>&1 | sed 's/^/ns2 /' | cat_i) || ret=1
echo_i "Initial counts of RRSIG expiry fields values for auto signed zones"
for z in .
do
echo_i zone $z
$DIG $DIGOPTS $z @10.53.0.1 axfr | awk '$4 == "RRSIG" {print $9}' | sort | uniq -c | cat_i
done
for z in bar. example. private.secure.example.
do
echo_i zone $z
$DIG $DIGOPTS $z @10.53.0.2 axfr | awk '$4 == "RRSIG" {print $9}' | sort | uniq -c | cat_i
done
for z in inacksk2.example. inacksk3.example inaczsk2.example. inaczsk3.example
do
echo_i zone $z
$DIG $DIGOPTS $z @10.53.0.3 axfr | awk '$4 == "RRSIG" {print $9}' | sort | uniq -c | cat_i
done
# Set logfile offset for wait_for_log usage.
nextpartreset ns3/named.run
#
# Check that DNSKEY is initially signed with a KSK and not a ZSK.
#
echo_i "check that zone with active and inactive KSK and active ZSK is properly"
echo_ic "resigned after the active KSK is deleted - stage 1: Verify that DNSKEY"
echo_ic "is initially signed with a KSK and not a ZSK. ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 axfr inacksk3.example > dig.out.ns3.test$n
zskid=$(awk '$4 == "DNSKEY" && $5 == 256 { print }' dig.out.ns3.test$n |
$DSFROMKEY -A -2 -f - inacksk3.example | awk '{ print $4}')
grep "DNSKEY ${DEFAULT_ALGORITHM_NUMBER} 2 " dig.out.ns3.test$n > /dev/null || ret=1
pattern="DNSKEY ${DEFAULT_ALGORITHM_NUMBER} 2 [0-9]* [0-9]* [0-9]* ${zskid} "
grep "${pattern}" dig.out.ns3.test$n > /dev/null && ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "RRSIG" && $5 == "DNSKEY" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 1 || ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "DNSKEY" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 3 || ret=1
awk='$4 == "RRSIG" && $5 == "DNSKEY" { printf "%05u\n", $11 }'
id=$(awk "${awk}" dig.out.ns3.test$n)
keyfile=$(printf "ns3/Kinacksk3.example.+%03u+%s" "${DEFAULT_ALGORITHM_NUMBER}" "${id}")
$SETTIME -D now+5 "${keyfile}" > settime.out.test$n || ret=1
($RNDCCMD 10.53.0.3 loadkeys inacksk3.example 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
#
# Check that zone is initially signed with a ZSK and not a KSK.
#
echo_i "check that zone with active and inactive ZSK and active KSK is properly"
echo_ic "resigned after the active ZSK is deleted - stage 1: Verify that zone"
echo_ic "is initially signed with a ZSK and not a KSK. ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 axfr inaczsk3.example > dig.out.ns3.test$n
kskid=$(awk '$4 == "DNSKEY" && $5 == 257 { print }' dig.out.ns3.test$n |
$DSFROMKEY -2 -f - inaczsk3.example | awk '{ print $4}' )
grep "CNAME ${DEFAULT_ALGORITHM_NUMBER} 3 " dig.out.ns3.test$n > /dev/null || ret=1
grep "CNAME ${DEFAULT_ALGORITHM_NUMBER} 3 [0-9]* [0-9]* [0-9]* ${kskid} " dig.out.ns3.test$n > /dev/null && ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "RRSIG" && $5 == "CNAME" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 1 || ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "DNSKEY" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 3 || ret=1
id=$(awk '$4 == "RRSIG" && $5 == "CNAME" { printf "%05u\n", $11 }' dig.out.ns3.test$n)
keyfile=$(printf "ns3/Kinaczsk3.example.+%03u+%s" "${DEFAULT_ALGORITHM_NUMBER}" "${id}")
$SETTIME -D now+5 "${keyfile}" > settime.out.test$n || ret=1
($RNDCCMD 10.53.0.3 loadkeys inaczsk3.example 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking NSEC->NSEC3 conversion prerequisites ($n)"
ret=0
# these commands should result in an empty file:
$DIG $DIGOPTS +noall +answer nsec3.example. nsec3param @10.53.0.3 > dig.out.ns3.1.test$n || ret=1
grep "NSEC3PARAM" dig.out.ns3.1.test$n > /dev/null && ret=1
$DIG $DIGOPTS +noall +answer autonsec3.example. nsec3param @10.53.0.3 > dig.out.ns3.2.test$n || ret=1
grep "NSEC3PARAM" dig.out.ns3.2.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking NSEC3->NSEC conversion prerequisites ($n)"
ret=0
$DIG $DIGOPTS +noall +answer nsec3-to-nsec.example. nsec3param @10.53.0.3 > dig.out.ns3.test$n || ret=1
grep "NSEC3PARAM" dig.out.ns3.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "converting zones from nsec to nsec3"
$NSUPDATE > /dev/null 2>&1 <<END || status=1
server 10.53.0.3 ${PORT}
zone nsec3.nsec3.example.
update add nsec3.nsec3.example. 3600 NSEC3PARAM 1 0 10 BEEF
send
zone optout.nsec3.example.
update add optout.nsec3.example. 3600 NSEC3PARAM 1 1 10 BEEF
send
zone nsec3.example.
update add nsec3.example. 3600 NSEC3PARAM 1 0 10 BEEF
send
zone autonsec3.example.
update add autonsec3.example. 3600 NSEC3PARAM 1 0 20 DEAF
send
zone nsec3.optout.example.
update add nsec3.optout.example. 3600 NSEC3PARAM 1 0 10 BEEF
send
zone optout.optout.example.
update add optout.optout.example. 3600 NSEC3PARAM 1 1 10 BEEF
send
zone optout.example.
update add optout.example. 3600 NSEC3PARAM 1 1 10 BEEF
send
END
if $SHELL ../testcrypto.sh -q RSASHA1
then
# try to convert nsec-only.example; this should fail due to
# non-NSEC3 compatible keys
echo_i "preset nsec3param in unsigned zone via nsupdate ($n)"
$NSUPDATE > nsupdate.out 2>&1 <<END
server 10.53.0.3 ${PORT}
zone nsec-only.example.
update add nsec-only.example. 3600 NSEC3PARAM 1 0 10 BEEF
send
END
fi
echo_i "checking for nsec3param in unsigned zone ($n)"
ret=0
$DIG $DIGOPTS +noall +answer autonsec3.example. nsec3param @10.53.0.3 > dig.out.ns3.test$n || ret=1
grep "NSEC3PARAM" dig.out.ns3.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking for nsec3param signing record ($n)"
ret=0
$RNDCCMD 10.53.0.3 signing -list autonsec3.example. > signing.out.test$n 2>&1
grep "Pending NSEC3 chain 1 0 20 DEAF" signing.out.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "resetting nsec3param via rndc signing ($n)"
ret=0
$RNDCCMD 10.53.0.3 signing -clear all autonsec3.example. > /dev/null 2>&1
$RNDCCMD 10.53.0.3 signing -nsec3param 1 1 10 beef autonsec3.example. > /dev/null 2>&1
for i in 0 1 2 3 4 5 6 7 8 9; do
ret=0
$RNDCCMD 10.53.0.3 signing -list autonsec3.example. > signing.out.test$n 2>&1
grep "Pending NSEC3 chain 1 1 10 BEEF" signing.out.test$n > /dev/null || ret=1
num=$(grep "Pending " signing.out.test$n | wc -l)
[ $num -eq 1 ] || ret=1
[ $ret -eq 0 ] && break
echo_i "waiting ... ($i)"
sleep 2
done
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "signing preset nsec3 zone"
zsk=$(cat autozsk.key)
ksk=$(cat autoksk.key)
$SETTIME -K ns3 -P now -A now $zsk > settime.out.test$n.zsk || ret=1
$SETTIME -K ns3 -P now -A now $ksk > settime.out.test$n.ksk || ret=1
($RNDCCMD 10.53.0.3 loadkeys autonsec3.example. 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
echo_i "waiting for changes to take effect"
sleep 3
echo_i "converting zone from nsec3 to nsec"
$NSUPDATE > /dev/null 2>&1 << END || status=1
server 10.53.0.3 ${PORT}
zone nsec3-to-nsec.example.
update delete nsec3-to-nsec.example. NSEC3PARAM
send
END
echo_i "waiting for change to take effect"
sleep 3
missing=$(keyfile_to_key_id "$(cat noksk-ksk.key)")
echo_i "checking that expired RRSIGs from missing KSK $missing are not deleted ($n)"
ret=0
$JOURNALPRINT ns3/noksk.example.db.jnl | \
awk '{if ($1 == "del" && $5 == "RRSIG" && $12 == id) {error=1}} END {exit error}' id=$missing || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
missing=$(keyfile_to_key_id "$(cat nozsk-zsk.key)")
ksk=$(keyfile_to_key_id "$(cat nozsk-ksk.key)")
echo_i "checking that expired RRSIGs from missing ZSK $missing are replaced ($n)"
ret=0
$JOURNALPRINT ns3/nozsk.example.db.jnl | \
awk '{if ($1 == "del" && $5 == "RRSIG" && $12 == id) {ok=1}} END {exit ok?0:1}' id=$missing || ret=1
$JOURNALPRINT ns3/nozsk.example.db.jnl | \
awk '{if ($1 == "add" && $5 == "RRSIG" && $12 == id) {ok=1}} END {exit ok?0:1}' id=$ksk || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
inactive=$(keyfile_to_key_id "$(cat inaczsk-zsk.key)")
ksk=$(keyfile_to_key_id "$(cat inaczsk-ksk.key)")
echo_i "checking that expired RRSIGs from inactive ZSK $inactive are replaced ($n)"
ret=0
$JOURNALPRINT ns3/inaczsk.example.db.jnl | \
awk '{if ($1 == "del" && $5 == "RRSIG" && $12 == id) {ok=1}} END {exit ok?0:1}' id=$inactive || ret=1
$JOURNALPRINT ns3/inaczsk.example.db.jnl | \
awk '{if ($1 == "add" && $5 == "RRSIG" && $12 == id) {ok=1}} END {exit ok?0:1}' id=$ksk || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that replaced RRSIGs are not logged (missing ZSK private key) ($n)"
ret=0
loglines=$(grep "Key nozsk.example/$DEFAULT_ALGORITHM/$missing .* retaining signatures" ns3/named.run | wc -l)
[ "$loglines" -eq 0 ] || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that replaced RRSIGs are not logged (inactive ZSK private key) ($n)"
ret=0
loglines=$(grep "Key inaczsk.example/$DEFAULT_ALGORITHM/$inactive .* retaining signatures" ns3/named.run | wc -l)
[ "$loglines" -eq 0 ] || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# Send rndc sync command to ns1, ns2 and ns3, to force the dynamically
# signed zones to be dumped to their zone files
echo_i "dumping zone files"
($RNDCCMD 10.53.0.1 sync 2>&1 | sed 's/^/ns1 /' | cat_i) || ret=1
($RNDCCMD 10.53.0.2 sync 2>&1 | sed 's/^/ns2 /' | cat_i) || ret=1
($RNDCCMD 10.53.0.3 sync 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
now="$(TZ=UTC date +%Y%m%d%H%M%S)"
check_expiry() (
$DIG $DIGOPTS AXFR oldsigs.example @10.53.0.3 > dig.out.test$n
nearest_expiration="$(awk '$4 == "RRSIG" { print $9 }' < dig.out.test$n | sort -n | head -1)"
if [ "$nearest_expiration" -le "$now" ]; then
echo_i "failed: $nearest_expiration <= $now"
return 1
fi
)
echo_i "checking expired signatures were updated ($n)"
retry 10 check_expiry || ret=1
$DIG $DIGOPTS +noauth a.oldsigs.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.oldsigs.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# Check jitter distribution.
echo_i "checking expired signatures were jittered correctly ($n)"
ret=0
$DIG $DIGOPTS axfr oldsigs.example @10.53.0.3 > dig.out.ns3.test$n || ret=1
checkjitter dig.out.ns3.test$n || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking NSEC->NSEC3 conversion succeeded ($n)"
ret=0
$DIG $DIGOPTS nsec3.example. nsec3param @10.53.0.3 > dig.out.ns3.ok.test$n || ret=1
grep "status: NOERROR" dig.out.ns3.ok.test$n > /dev/null || ret=1
$DIG $DIGOPTS +noauth q.nsec3.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth q.nsec3.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking direct NSEC3 autosigning succeeded ($n)"
ret=0
$DIG $DIGOPTS +noall +answer autonsec3.example. nsec3param @10.53.0.3 > dig.out.ns3.ok.test$n || ret=1
[ -s dig.out.ns3.ok.test$n ] || ret=1
grep "NSEC3PARAM" dig.out.ns3.ok.test$n > /dev/null || ret=1
$DIG $DIGOPTS +noauth q.autonsec3.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth q.autonsec3.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking NSEC->NSEC3 conversion failed with NSEC-only key ($n)"
ret=0
if $SHELL ../testcrypto.sh -q RSASHA1
then
grep "failed: REFUSED" nsupdate.out > /dev/null || ret=1
else
echo_i "skip: RSASHA1 not supported"
fi
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking NSEC3->NSEC conversion succeeded ($n)"
ret=0
# this command should result in an empty file:
$DIG $DIGOPTS +noall +answer nsec3-to-nsec.example. nsec3param @10.53.0.3 > dig.out.ns3.nx.test$n || ret=1
grep "NSEC3PARAM" dig.out.ns3.nx.test$n > /dev/null && ret=1
$DIG $DIGOPTS +noauth q.nsec3-to-nsec.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth q.nsec3-to-nsec.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking NSEC3->NSEC conversion with 'rndc signing -nsec3param none' ($n)"
ret=0
$RNDCCMD 10.53.0.3 signing -nsec3param none autonsec3.example. > /dev/null 2>&1
# this command should result in an empty file:
no_nsec3param() (
$DIG $DIGOPTS +noall +answer autonsec3.example. nsec3param @10.53.0.3 > dig.out.ns3.nx.test$n || return 1
grep "NSEC3PARAM" dig.out.ns3.nx.test$n > /dev/null && return 1
return 0
)
retry_quiet 10 no_nsec3param || ret=1
$DIG $DIGOPTS +noauth q.autonsec3.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth q.autonsec3.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking TTLs of imported DNSKEYs (no default) ($n)"
ret=0
$DIG $DIGOPTS +tcp +noall +answer dnskey ttl1.example. @10.53.0.3 > dig.out.ns3.test$n || ret=1
[ -s dig.out.ns3.test$n ] || ret=1
(awk 'BEGIN {r=0} $2 != 300 {r=1; print "found TTL " $2} END {exit r}' dig.out.ns3.test$n | cat_i) || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking TTLs of imported DNSKEYs (with default) ($n)"
ret=0
$DIG $DIGOPTS +tcp +noall +answer dnskey ttl2.example. @10.53.0.3 > dig.out.ns3.test$n || ret=1
[ -s dig.out.ns3.test$n ] || ret=1
(awk 'BEGIN {r=0} $2 != 60 {r=1; print "found TTL " $2} END {exit r}' dig.out.ns3.test$n | cat_i) || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking TTLs of imported DNSKEYs (mismatched) ($n)"
ret=0
$DIG $DIGOPTS +tcp +noall +answer dnskey ttl3.example. @10.53.0.3 > dig.out.ns3.test$n || ret=1
[ -s dig.out.ns3.test$n ] || ret=1
(awk 'BEGIN {r=0} $2 != 30 {r=1; print "found TTL " $2} END {exit r}' dig.out.ns3.test$n | cat_i) || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking TTLs of imported DNSKEYs (existing RRset) ($n)"
ret=0
$DIG $DIGOPTS +tcp +noall +answer dnskey ttl4.example. @10.53.0.3 > dig.out.ns3.test$n || ret=1
[ -s dig.out.ns3.test$n ] || ret=1
(awk 'BEGIN {r=0} $2 != 30 {r=1; print "found TTL " $2} END {exit r}' dig.out.ns3.test$n | cat_i) || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking positive validation NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.example. @10.53.0.2 a > dig.out.ns2.test$n || ret=1
$DIG $DIGOPTS +noauth a.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns2.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking positive validation NSEC3 ($n)"
ret=0
$DIG $DIGOPTS +noauth a.nsec3.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.nsec3.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking positive validation OPTOUT ($n)"
ret=0
$DIG $DIGOPTS +noauth a.optout.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.optout.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking negative validation NXDOMAIN NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth q.example. @10.53.0.2 a > dig.out.ns2.test$n || ret=1
$DIG $DIGOPTS +noauth q.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns2.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking negative validation NXDOMAIN NSEC3 ($n)"
ret=0
$DIG $DIGOPTS +noauth q.nsec3.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth q.nsec3.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking negative validation NXDOMAIN OPTOUT ($n)"
ret=0
$DIG $DIGOPTS +noauth q.optout.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth q.optout.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
# Note - this is looking for failure, hence the &&
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking negative validation NODATA NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.example. @10.53.0.2 txt > dig.out.ns2.test$n || ret=1
$DIG $DIGOPTS +noauth a.example. @10.53.0.4 txt > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns2.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "ANSWER: 0" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking negative validation NODATA NSEC3 ($n)"
ret=0
$DIG $DIGOPTS +noauth a.nsec3.example. \
@10.53.0.3 txt > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.nsec3.example. \
@10.53.0.4 txt > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "ANSWER: 0" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking negative validation NODATA OPTOUT ($n)"
ret=0
$DIG $DIGOPTS +noauth a.optout.example. \
@10.53.0.3 txt > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.optout.example. \
@10.53.0.4 txt > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "ANSWER: 0" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# Check the insecure.example domain
echo_i "checking 1-server insecurity proof NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.insecure.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.insecure.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
# Note - this is looking for failure, hence the &&
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking 1-server negative insecurity proof NSEC ($n)"
ret=0
$DIG $DIGOPTS q.insecure.example. a @10.53.0.3 \
> dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS q.insecure.example. a @10.53.0.4 \
> dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
# Note - this is looking for failure, hence the &&
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# Check the secure.example domain
echo_i "checking multi-stage positive validation NSEC/NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.secure.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.secure.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation NSEC/NSEC3 ($n)"
ret=0
$DIG $DIGOPTS +noauth a.nsec3.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.nsec3.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation NSEC/OPTOUT ($n)"
ret=0
$DIG $DIGOPTS +noauth a.optout.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.optout.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation NSEC3/NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.secure.nsec3.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.secure.nsec3.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation NSEC3/NSEC3 ($n)"
ret=0
$DIG $DIGOPTS +noauth a.nsec3.nsec3.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.nsec3.nsec3.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation NSEC3/OPTOUT ($n)"
ret=0
$DIG $DIGOPTS +noauth a.optout.nsec3.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.optout.nsec3.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation OPTOUT/NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.secure.optout.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.secure.optout.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation OPTOUT/NSEC3 ($n)"
ret=0
$DIG $DIGOPTS +noauth a.nsec3.optout.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.nsec3.optout.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking multi-stage positive validation OPTOUT/OPTOUT ($n)"
ret=0
$DIG $DIGOPTS +noauth a.optout.optout.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.optout.optout.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking empty NODATA OPTOUT ($n)"
ret=0
$DIG $DIGOPTS +noauth empty.optout.example. \
@10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth empty.optout.example. \
@10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
#grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# Check the insecure.secure.example domain (insecurity proof)
echo_i "checking 2-server insecurity proof ($n)"
ret=0
$DIG $DIGOPTS +noauth a.insecure.secure.example. @10.53.0.2 a \
> dig.out.ns2.test$n || ret=1
$DIG $DIGOPTS +noauth a.insecure.secure.example. @10.53.0.4 a \
> dig.out.ns4.test$n || ret=1
digcomp dig.out.ns2.test$n dig.out.ns4.test$n || ret=1
grep "status: NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
# Note - this is looking for failure, hence the &&
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# Check a negative response in insecure.secure.example
echo_i "checking 2-server insecurity proof with a negative answer ($n)"
ret=0
$DIG $DIGOPTS q.insecure.secure.example. @10.53.0.2 a > dig.out.ns2.test$n \
|| ret=1
$DIG $DIGOPTS q.insecure.secure.example. @10.53.0.4 a > dig.out.ns4.test$n \
|| ret=1
digcomp dig.out.ns2.test$n dig.out.ns4.test$n || ret=1
grep "status: NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
# Note - this is looking for failure, hence the &&
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking security root query ($n)"
ret=0
$DIG $DIGOPTS . @10.53.0.4 key > dig.out.ns4.test$n || ret=1
grep "NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking positive validation RSASHA256 NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.rsasha256.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.rsasha256.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking positive validation RSASHA512 NSEC ($n)"
ret=0
$DIG $DIGOPTS +noauth a.rsasha512.example. @10.53.0.3 a > dig.out.ns3.test$n || ret=1
$DIG $DIGOPTS +noauth a.rsasha512.example. @10.53.0.4 a > dig.out.ns4.test$n || ret=1
digcomp dig.out.ns3.test$n dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that positive validation in a privately secure zone works ($n)"
ret=0
$DIG $DIGOPTS +noauth a.private.secure.example. a @10.53.0.2 \
> dig.out.ns2.test$n || ret=1
$DIG $DIGOPTS +noauth a.private.secure.example. a @10.53.0.4 \
> dig.out.ns4.test$n || ret=1
digcomp dig.out.ns2.test$n dig.out.ns4.test$n || ret=1
grep "NOERROR" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that negative validation in a privately secure zone works ($n)"
ret=0
$DIG $DIGOPTS +noauth q.private.secure.example. a @10.53.0.2 \
> dig.out.ns2.test$n || ret=1
$DIG $DIGOPTS +noauth q.private.secure.example. a @10.53.0.4 \
> dig.out.ns4.test$n || ret=1
digcomp dig.out.ns2.test$n dig.out.ns4.test$n || ret=1
grep "NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
# Note - this is looking for failure, hence the &&
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking privately secure to nxdomain works ($n)"
ret=0
$DIG $DIGOPTS +noauth private2secure-nxdomain.private.secure.example. SOA @10.53.0.4 > dig.out.ns4.test$n || ret=1
grep "NXDOMAIN" dig.out.ns4.test$n > /dev/null || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# Try validating with a revoked trusted key.
# This should fail.
echo_i "checking that validation returns insecure due to revoked trusted key ($n)"
ret=0
$DIG $DIGOPTS example. soa @10.53.0.5 > dig.out.ns5.test$n || ret=1
grep "flags:.*; QUERY" dig.out.ns5.test$n > /dev/null || ret=1
grep "flags:.* ad.*; QUERY" dig.out.ns5.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that revoked key is present ($n)"
ret=0
id=$(cat rev.key)
$DIG $DIGOPTS +multi dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep '; key id = '"$id"'$' dig.out.ns1.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that revoked key self-signs ($n)"
ret=0
id=$(cat rev.key)
$DIG $DIGOPTS dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $id "'\. ' dig.out.ns1.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking for unpublished key ($n)"
ret=0
id=$(keyfile_to_key_id "$(cat unpub.key)")
$DIG $DIGOPTS +multi dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep '; key id = '"$id"'$' dig.out.ns1.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking for activated but unpublished key ($n)"
ret=0
id=$(keyfile_to_key_id "$(cat activate-now-publish-1day.key)")
$DIG $DIGOPTS +multi dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep '; key id = '"$id"'$' dig.out.ns1.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that standby key does not sign records ($n)"
ret=0
id=$(keyfile_to_key_id "$(cat standby.key)")
$DIG $DIGOPTS dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $id "'\. ' dig.out.ns1.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that deactivated key does not sign records ($n)"
ret=0
id=$(keyfile_to_key_id "$(cat inact.key)")
$DIG $DIGOPTS dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $id "'\. ' dig.out.ns1.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking insertion of public-only key ($n)"
ret=0
id=$(keyfile_to_key_id "$(cat nopriv.key)")
file="ns1/$(cat nopriv.key).key"
keydata=$(grep DNSKEY $file)
$NSUPDATE > /dev/null 2>&1 <<END || status=1
server 10.53.0.1 ${PORT}
zone .
ttl 3600
update add $keydata
send
END
sleep 1
$DIG $DIGOPTS dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $id "'\. ' dig.out.ns1.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking key deletion ($n)"
ret=0
id=$(keyfile_to_key_id "$(cat del.key)")
$DIG $DIGOPTS +multi dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep '; key id = '"$id"'$' dig.out.ns1.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking secure-to-insecure transition, nsupdate ($n)"
ret=0
$NSUPDATE > /dev/null 2>&1 <<END || status=1
server 10.53.0.3 ${PORT}
zone secure-to-insecure.example
update delete secure-to-insecure.example dnskey
send
END
for i in 0 1 2 3 4 5 6 7 8 9; do
ret=0
$DIG $DIGOPTS axfr secure-to-insecure.example @10.53.0.3 > dig.out.ns3.test$n || ret=1
grep -E '(RRSIG|DNSKEY|NSEC)' dig.out.ns3.test$n > /dev/null && ret=1
[ $ret -eq 0 ] && break
echo_i "waiting ... ($i)"
sleep 2
done
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking secure-to-insecure transition, scheduled ($n)"
ret=0
file="ns3/$(cat del1.key).key"
$SETTIME -I now -D now $file > settime.out.test$n.1 || ret=1
file="ns3/$(cat del2.key).key"
$SETTIME -I now -D now $file > settime.out.test$n.2 || ret=1
($RNDCCMD 10.53.0.3 sign secure-to-insecure2.example. 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
for i in 0 1 2 3 4 5 6 7 8 9; do
ret=0
$DIG $DIGOPTS axfr secure-to-insecure2.example @10.53.0.3 > dig.out.ns3.test$n || ret=1
grep -E '(RRSIG|DNSKEY|NSEC3)' dig.out.ns3.test$n > /dev/null && ret=1
[ $ret -eq 0 ] && break
echo_i "waiting ... ($i)"
sleep 2
done
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking jitter in a newly signed NSEC3 zone ($n)"
ret=0
# Use DNS UPDATE to add an NSEC3PARAM record into the zone.
$NSUPDATE > nsupdate.out.test$n 2>&1 <<END || ret=1
server 10.53.0.3 ${PORT}
zone jitter.nsec3.example.
update add jitter.nsec3.example. 3600 NSEC3PARAM 1 0 10 BEEF
send
END
[ $ret != 0 ] && echo_i "error: dynamic update add NSEC3PARAM failed"
# Create DNSSEC keys in the zone directory.
$KEYGEN -a $DEFAULT_ALGORITHM -3 -q -K ns3 jitter.nsec3.example > /dev/null
# Trigger zone signing.
($RNDCCMD 10.53.0.3 sign jitter.nsec3.example. 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
# Wait until zone has been signed.
check_if_nsec3param_exists() {
$DIG $DIGOPTS NSEC3PARAM jitter.nsec3.example @10.53.0.3 > dig.out.ns3.1.test$n || return 1
grep -q "^jitter\.nsec3\.example\..*NSEC3PARAM" dig.out.ns3.1.test$n || return 1
}
retry_quiet 40 check_if_nsec3param_exists || {
echo_i "error: NSEC3PARAM not present yet"
ret=1
}
$DIG $DIGOPTS AXFR jitter.nsec3.example @10.53.0.3 > dig.out.ns3.2.test$n || ret=1
# Check jitter distribution.
checkjitter dig.out.ns3.2.test$n || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that serial number and RRSIGs are both updated (rt21045) ($n)"
ret=0
oldserial=$($DIG $DIGOPTS +short soa prepub.example @10.53.0.3 | awk '$0 !~ /SOA/ {print $3}')
oldinception=$($DIG $DIGOPTS +short soa prepub.example @10.53.0.3 | awk '/SOA/ {print $6}' | sort -u)
$KEYGEN -a $DEFAULT_ALGORITHM -3 -q -K ns3 -P 0 -A +6d -I +38d -D +45d prepub.example > /dev/null
($RNDCCMD 10.53.0.3 sign prepub.example 2>&1 | sed 's/^/ns1 /' | cat_i) || ret=1
newserial=$oldserial
try=0
while [ $oldserial -eq $newserial -a $try -lt 42 ]
do
newserial=$($DIG $DIGOPTS +short soa prepub.example @10.53.0.3 |
awk '$0 !~ /SOA/ {print $3}')
sleep 1
try=$((try + 1))
done
newinception=$($DIG $DIGOPTS +short soa prepub.example @10.53.0.3 | awk '/SOA/ {print $6}' | sort -u)
#echo "$oldserial : $newserial"
#echo "$oldinception : $newinception"
[ "$oldserial" = "$newserial" ] && ret=1
[ "$oldinception" = "$newinception" ] && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "preparing to test key change corner cases"
echo_i "removing a private key file"
file="ns1/$(cat vanishing.key).private"
rm -f $file
echo_i "preparing ZSK roll"
starttime=$($PERL -e 'print time(), "\n";')
oldfile=$(cat active.key)
oldid=$(keyfile_to_key_id "$(cat active.key)")
newfile=$(cat standby.key)
newid=$(keyfile_to_key_id "$(cat standby.key)")
$SETTIME -K ns1 -I now+2s -D now+25 $oldfile > settime.out.test$n.1 || ret=1
$SETTIME -K ns1 -i 0 -S $oldfile $newfile > settime.out.test$n.2 || ret=1
# note previous zone serial number
oldserial=$($DIG $DIGOPTS +short soa . @10.53.0.1 | awk '{print $3}')
($RNDCCMD 10.53.0.1 loadkeys . 2>&1 | sed 's/^/ns1 /' | cat_i) || ret=1
sleep 4
echo_i "revoking key to duplicated key ID"
$SETTIME -R now -K ns2 Kbar.+013+59973.key > settime.out.test$n.3 || ret=1
($RNDCCMD 10.53.0.2 loadkeys bar. 2>&1 | sed 's/^/ns2 /' | cat_i) || ret=1
echo_i "waiting for changes to take effect"
sleep 5
echo_i "checking former standby key $newid is now active ($n)"
ret=0
$DIG $DIGOPTS dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $newid "'\. ' dig.out.ns1.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking former standby key has only signed incrementally ($n)"
ret=0
$DIG $DIGOPTS txt . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $newid "'\. ' dig.out.ns1.test$n > /dev/null && ret=1
grep 'RRSIG.*'" $oldid "'\. ' dig.out.ns1.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that signing records have been marked as complete ($n)"
ret=0
checkprivate . 10.53.0.1 || ret=1
checkprivate bar 10.53.0.2 || ret=1
checkprivate example 10.53.0.2 || ret=1
checkprivate private.secure.example 10.53.0.3 || ret=1
checkprivate nsec3.example 10.53.0.3 || ret=1
checkprivate nsec3.nsec3.example 10.53.0.3 || ret=1
checkprivate nsec3.optout.example 10.53.0.3 || ret=1
checkprivate nsec3-to-nsec.example 10.53.0.3 || ret=1
if $SHELL ../testcrypto.sh -q RSASHA1
then
checkprivate nsec-only.example 10.53.0.3 || ret=1
fi
checkprivate oldsigs.example 10.53.0.3 || ret=1
checkprivate optout.example 10.53.0.3 || ret=1
checkprivate optout.nsec3.example 10.53.0.3 || ret=1
checkprivate optout.optout.example 10.53.0.3 || ret=1
checkprivate prepub.example 10.53.0.3 1 || ret=1
checkprivate rsasha256.example 10.53.0.3 || ret=1
checkprivate rsasha512.example 10.53.0.3 || ret=1
checkprivate secure.example 10.53.0.3 || ret=1
checkprivate secure.nsec3.example 10.53.0.3 || ret=1
checkprivate secure.optout.example 10.53.0.3 || ret=1
checkprivate secure-to-insecure2.example 10.53.0.3 || ret=1
checkprivate secure-to-insecure.example 10.53.0.3 || ret=1
checkprivate ttl1.example 10.53.0.3 || ret=1
checkprivate ttl2.example 10.53.0.3 || ret=1
checkprivate ttl3.example 10.53.0.3 || ret=1
checkprivate ttl4.example 10.53.0.3 || ret=1
n=$((n + 1))
status=$((status + ret))
echo_i "forcing full sign"
($RNDCCMD 10.53.0.1 sign . 2>&1 | sed 's/^/ns1 /' | cat_i) || ret=1
echo_i "waiting for change to take effect"
sleep 5
echo_i "checking former standby key has now signed fully ($n)"
ret=0
$DIG $DIGOPTS txt . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $newid "'\. ' dig.out.ns1.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking SOA serial number has been incremented ($n)"
ret=0
newserial=$($DIG $DIGOPTS +short soa . @10.53.0.1 | awk '{print $3}')
[ "$newserial" != "$oldserial" ] || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking delayed key publication/activation ($n)"
ret=0
zsk=$(cat delayzsk.key)
ksk=$(cat delayksk.key)
# publication and activation times should be unset
$SETTIME -K ns3 -pA -pP $zsk > settime.out.test$n.zsk || ret=1
grep -v UNSET settime.out.test$n.zsk >/dev/null && ret=1
$SETTIME -K ns3 -pA -pP $ksk > settime.out.test$n.ksk || ret=1
grep -v UNSET settime.out.test$n.ksk >/dev/null && ret=1
$DIG $DIGOPTS +noall +answer dnskey delay.example. @10.53.0.3 > dig.out.ns3.test$n || ret=1
# DNSKEY not expected:
awk 'BEGIN {r=1} $4=="DNSKEY" {r=0} END {exit r}' dig.out.ns3.test$n && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking scheduled key publication, not activation ($n)"
ret=0
# Ensure initial zone is loaded.
wait_for_notifies "delay.example" "ns3" || ret=1
$SETTIME -K ns3 -P now+3s -A none $zsk > settime.out.test$n.zsk || ret=1
$SETTIME -K ns3 -P now+3s -A none $ksk > settime.out.test$n.ksk || ret=1
($RNDCCMD 10.53.0.3 loadkeys delay.example. 2>&1 | sed 's/^/ns2 /' | cat_i) || ret=1
echo_i "waiting for changes to take effect"
sleep 3
wait_for_notifies "delay.example" "ns3" || ret=1
$DIG $DIGOPTS +noall +answer dnskey delay.example. @10.53.0.3 > dig.out.ns3.test$n || ret=1
# DNSKEY expected:
awk 'BEGIN {r=1} $4=="DNSKEY" {r=0} END {exit r}' dig.out.ns3.test$n || ret=1
# RRSIG not expected:
awk 'BEGIN {r=1} $4=="RRSIG" {r=0} END {exit r}' dig.out.ns3.test$n && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking scheduled key activation ($n)"
ret=0
$SETTIME -K ns3 -A now+3s $zsk > settime.out.test$n.zsk || ret=1
$SETTIME -K ns3 -A now+3s $ksk > settime.out.test$n.ksk || ret=1
($RNDCCMD 10.53.0.3 loadkeys delay.example. 2>&1 | sed 's/^/ns2 /' | cat_i) || ret=1
echo_i "waiting for changes to take effect"
sleep 3
wait_for_log 10 "add delay\.example\..*NSEC.a\.delay\.example\. NS SOA RRSIG NSEC DNSKEY" ns3/named.run
check_is_signed() {
$DIG $DIGOPTS +noall +answer dnskey delay.example. @10.53.0.3 > dig.out.ns3.1.test$n || return 1
# DNSKEY expected:
awk 'BEGIN {r=1} $4=="DNSKEY" {r=0} END {exit r}' dig.out.ns3.1.test$n || return 1
# RRSIG expected:
awk 'BEGIN {r=1} $4=="RRSIG" {r=0} END {exit r}' dig.out.ns3.1.test$n || return 1
$DIG $DIGOPTS +noall +answer a a.delay.example. @10.53.0.3 > dig.out.ns3.2.test$n || return 1
# A expected:
awk 'BEGIN {r=1} $4=="A" {r=0} END {exit r}' dig.out.ns3.2.test$n || return 1
# RRSIG expected:
awk 'BEGIN {r=1} $4=="RRSIG" {r=0} END {exit r}' dig.out.ns3.2.test$n || return 1
return 0
}
retry_quiet 5 check_is_signed || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking former active key was removed ($n)"
#
# Work out how long we need to sleep. Allow 4 seconds for the records
# to be removed.
#
now=$($PERL -e 'print time(), "\n";')
sleep=$((starttime + 29 - now))
case $sleep in
-*|0);;
*) echo_i "waiting for timer to have activated"; sleep $sleep;;
esac
ret=0
$DIG $DIGOPTS +multi dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep '; key id = '"$oldid"'$' dig.out.ns1.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking private key file removal caused no immediate harm ($n)"
ret=0
id=$(keyfile_to_key_id "$(cat vanishing.key)")
$DIG $DIGOPTS dnskey . @10.53.0.1 > dig.out.ns1.test$n || ret=1
grep 'RRSIG.*'" $id "'\. ' dig.out.ns1.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking revoked key with duplicate key ID ($n)"
ret=0
id=59973
rid=60101
$DIG $DIGOPTS +multi dnskey bar @10.53.0.2 > dig.out.ns2.test$n || ret=1
grep '; key id = '"$id"'$' dig.out.ns2.test$n > /dev/null && ret=1
keys=$(grep '; key id = '"$rid"'$' dig.out.ns2.test$n | wc -l)
test $keys -eq 2 || ret=1
$DIG $DIGOPTS dnskey bar @10.53.0.4 > dig.out.ns4.test$n || ret=1
grep "flags:.*ad.*QUERY" dig.out.ns4.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking key event timers are always set ($n)"
ret=0
# this is a regression test for a bug in which the next key event could
# be scheduled for the present moment, and then never fire. check for
# visible evidence of this error in the logs:
awk '/next key event/ {if ($1 == $8 && $2 == $9) exit 1}' */named.run || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
# this confirms that key events are never scheduled more than
# 'dnssec-loadkeys-interval' minutes in the future, and that the
# event scheduled is within 10 seconds of expected interval.
check_interval () {
awk '/next key event/ {print $2 ":" $9}' $1/named.run |
sed -e 's/\.//g' -e 's/:0\{1,4\}/:/g' |
awk -F: '
{
x = ($6+ $5*60000 + $4*3600000) - ($3+ $2*60000 + $1*3600000);
# abs(x) < 1000 ms treat as 'now'
if (x < 1000 && x > -1000)
x = 0;
# convert to seconds
x = x/1000;
# handle end of day roll over
if (x < 0)
x = x + 24*3600;
# handle log timestamp being a few milliseconds later
if (x != int(x))
x = int(x + 1);
if (int(x) > int(interval))
exit (1);
}
END { if (int(x) > int(interval) || int(x) < int(interval-10)) exit(1) }' interval=$2
return $?
}
echo_i "checking automatic key reloading interval ($n)"
ret=0
check_interval ns1 3600 || ret=1
check_interval ns2 1800 || ret=1
check_interval ns3 600 || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking for key reloading loops ($n)"
ret=0
# every key event should schedule a successor, so these should be equal
rekey_calls=$(grep "reconfiguring zone keys" ns*/named.run | wc -l)
rekey_events=$(grep "next key event" ns*/named.run | wc -l)
[ "$rekey_calls" = "$rekey_events" ] || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "forcing full sign with unreadable keys ($n)"
ret=0
chmod 0 ns1/K.+*+*.key ns1/K.+*+*.private || ret=1
($RNDCCMD 10.53.0.1 sign . 2>&1 | sed 's/^/ns1 /' | cat_i) || ret=1
$DIG $DIGOPTS . @10.53.0.1 dnskey > dig.out.ns1.test$n || ret=1
grep "status: NOERROR" dig.out.ns1.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "test turning on auto-dnssec during reconfig ($n)"
ret=0
# first create a zone that doesn't have auto-dnssec
($RNDCCMD 10.53.0.3 addzone reconf.example '{ type primary; file "reconf.example.db"; };' 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
rekey_calls=$(grep "zone reconf.example.*next key event" ns3/named.run | wc -l)
[ "$rekey_calls" -eq 0 ] || ret=1
# ...then we add auto-dnssec and reconfigure
($RNDCCMD 10.53.0.3 modzone reconf.example '{ type primary; file "reconf.example.db"; allow-update { any; }; auto-dnssec maintain; };' 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
rndc_reconfig ns3 10.53.0.3
for i in 0 1 2 3 4 5 6 7 8 9; do
lret=0
rekey_calls=$(grep "zone reconf.example.*next key event" ns3/named.run | wc -l)
[ "$rekey_calls" -gt 0 ] || lret=1
if [ "$lret" -eq 0 ]; then break; fi
echo_i "waiting ... ($i)"
sleep 1
done
n=$((n + 1))
if [ "$lret" != 0 ]; then ret=$lret; fi
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "test CDS and CDNSKEY auto generation ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 sync.example cds > dig.out.ns3.cdstest$n
$DIG $DIGOPTS @10.53.0.3 sync.example cdnskey > dig.out.ns3.cdnskeytest$n
grep -i "sync.example.*in.cds.*[1-9][0-9]* " dig.out.ns3.cdstest$n > /dev/null || ret=1
grep -i "sync.example.*in.cdnskey.*257 " dig.out.ns3.cdnskeytest$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "test 'dnssec-dnskey-kskonly no' affects DNSKEY/CDS/CDNSKEY ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 sync.example dnskey > dig.out.ns3.dnskeytest$n
$DIG $DIGOPTS @10.53.0.3 sync.example cdnskey > dig.out.ns3.cdnskeytest$n
$DIG $DIGOPTS @10.53.0.3 sync.example cds > dig.out.ns3.cdstest$n
lines=$(awk '$4 == "RRSIG" && $5 == "DNSKEY" {print}' dig.out.ns3.dnskeytest$n | wc -l)
test ${lines:-0} -eq 2 || ret=1
lines=$(awk '$4 == "RRSIG" && $5 == "CDNSKEY" {print}' dig.out.ns3.cdnskeytest$n | wc -l)
test ${lines:-0} -eq 2 || ret=1
lines=$(awk '$4 == "RRSIG" && $5 == "CDS" {print}' dig.out.ns3.cdstest$n | wc -l)
test ${lines:-0} -eq 2 || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "test 'dnssec-dnskey-kskonly yes' affects DNSKEY/CDS/CDNSKEY ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 kskonly.example dnskey > dig.out.ns3.dnskeytest$n
$DIG $DIGOPTS @10.53.0.3 kskonly.example cdnskey > dig.out.ns3.cdnskeytest$n
$DIG $DIGOPTS @10.53.0.3 kskonly.example cds > dig.out.ns3.cdstest$n
lines=$(awk '$4 == "RRSIG" && $5 == "DNSKEY" {print}' dig.out.ns3.dnskeytest$n | wc -l)
test ${lines:-0} -eq 1 || ret=1
lines=$(awk '$4 == "RRSIG" && $5 == "CDNSKEY" {print}' dig.out.ns3.cdnskeytest$n | wc -l)
test ${lines:-0} -eq 1 || ret=1
lines=$(awk '$4 == "RRSIG" && $5 == "CDS" {print}' dig.out.ns3.cdstest$n | wc -l)
test ${lines:-0} -eq 1 || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "setting CDS and CDNSKEY deletion times and calling 'rndc loadkeys'"
$SETTIME -D sync now $(cat sync.key) > settime.out.test$n || ret=1
($RNDCCMD 10.53.0.3 loadkeys sync.example | sed 's/^/ns3 /' | cat_i) || ret=1
echo_i "checking that the CDS and CDNSKEY are deleted ($n)"
ret=0
ensure_cds_and_cdnskey_are_deleted() {
$DIG $DIGOPTS @10.53.0.3 sync.example. CDS > dig.out.ns3.cdstest$n || return 1
awk '$1 == "sync.example." && $4 == "CDS" { exit 1; }' dig.out.ns3.cdstest$n || return 1
$DIG $DIGOPTS @10.53.0.3 sync.example. CDNSKEY > dig.out.ns3.cdnskeytest$n || return 1
awk '$1 == "sync.example." && $4 == "CDNSKEY" { exit 1; }' dig.out.ns3.cdnskeytest$n || return 1
}
retry 10 ensure_cds_and_cdnskey_are_deleted || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "check that dnssec-settime -p Dsync works ($n)"
ret=0
$SETTIME -p Dsync $(cat sync.key) > settime.out.test$n || ret=1
grep "SYNC Delete:" settime.out.test$n >/dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "check that dnssec-settime -p Psync works ($n)"
ret=0
$SETTIME -p Psync $(cat sync.key) > settime.out.test$n || ret=1
grep "SYNC Publish:" settime.out.test$n >/dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "check that zone with inactive KSK and active ZSK is properly autosigned ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 axfr inacksk2.example > dig.out.ns3.test$n
zskid=$(awk '$4 == "DNSKEY" && $5 == 256 { print }' dig.out.ns3.test$n |
$DSFROMKEY -A -2 -f - inacksk2.example | awk '{ print $4}' )
pattern="DNSKEY ${DEFAULT_ALGORITHM_NUMBER} 2 [0-9]* [0-9]* [0-9]* ${zskid} "
grep "${pattern}" dig.out.ns3.test$n > /dev/null || ret=1
kskid=$(awk '$4 == "DNSKEY" && $5 == 257 { print }' dig.out.ns3.test$n |
$DSFROMKEY -2 -f - inacksk2.example | awk '{ print $4}' )
pattern="DNSKEY ${DEFAULT_ALGORITHM_NUMBER} 2 [0-9]* [0-9]* [0-9]* ${kskid} "
grep "${pattern}" dig.out.ns3.test$n > /dev/null && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "check that zone with inactive ZSK and active KSK is properly autosigned ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 axfr inaczsk2.example > dig.out.ns3.test$n
grep "SOA ${DEFAULT_ALGORITHM_NUMBER} 2" dig.out.ns3.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
#
# Check that DNSKEY is now signed with the ZSK.
#
echo_i "check that zone with active and inactive KSK and active ZSK is properly"
echo_ic "resigned after the active KSK is deleted - stage 2: Verify that DNSKEY"
echo_ic "is now signed with the ZSK. ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 axfr inacksk3.example > dig.out.ns3.test$n
zskid=$(awk '$4 == "DNSKEY" && $5 == 256 { print }' dig.out.ns3.test$n |
$DSFROMKEY -A -2 -f - inacksk3.example | awk '{ print $4}' )
pattern="DNSKEY ${DEFAULT_ALGORITHM_NUMBER} 2 [0-9]* [0-9]* [0-9]* ${zskid} "
grep "${pattern}" dig.out.ns3.test$n > /dev/null || ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "RRSIG" && $5 == "DNSKEY" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 1 || ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "DNSKEY" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 2 || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
#
# Check that zone is now signed with the KSK.
#
echo_i "check that zone with active and inactive ZSK and active KSK is properly"
echo_ic "resigned after the active ZSK is deleted - stage 2: Verify that zone"
echo_ic "is now signed with the KSK. ($n)"
ret=0
$DIG $DIGOPTS @10.53.0.3 axfr inaczsk3.example > dig.out.ns3.test$n
kskid=$(awk '$4 == "DNSKEY" && $5 == 257 { print }' dig.out.ns3.test$n |
$DSFROMKEY -2 -f - inaczsk3.example | awk '{ print $4}' )
grep "CNAME ${DEFAULT_ALGORITHM_NUMBER} 3 [0-9]* [0-9]* [0-9]* ${kskid} " dig.out.ns3.test$n > /dev/null || ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "RRSIG" && $5 == "CNAME" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 1 || ret=1
count=$(awk 'BEGIN { count = 0 }
$4 == "DNSKEY" { count++ }
END {print count}' dig.out.ns3.test$n)
test $count -eq 2 || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking for out-of-zone NSEC3 records after ZSK removal ($n)"
ret=0
# Switch the zone over to NSEC3 and wait until the transition is complete.
$RNDCCMD 10.53.0.3 signing -nsec3param 1 1 10 12345678 delzsk.example. > signing.out.1.test$n 2>&1 || ret=1
for i in 0 1 2 3 4 5 6 7 8 9; do
_ret=1
$DIG $DIGOPTS delzsk.example NSEC3PARAM @10.53.0.3 > dig.out.ns3.1.test$n 2>&1 || ret=1
grep "NSEC3PARAM.*12345678" dig.out.ns3.1.test$n > /dev/null 2>&1
if [ $? -eq 0 ]; then
$RNDCCMD 10.53.0.3 signing -list delzsk.example > signing.out.2.test$n 2>&1
grep "Creating NSEC3 chain " signing.out.2.test$n > /dev/null 2>&1
if [ $? -ne 0 ]; then
_ret=0
break
fi
fi
sleep 1
done
if [ $_ret -ne 0 ]; then
echo_i "timed out waiting for NSEC3 chain creation"
ret=1
fi
# Mark the inactive ZSK as pending removal.
file="ns3/$(cat delzsk.key).key"
$SETTIME -D now-1h $file > settime.out.test$n || ret=1
# Trigger removal of the inactive ZSK and wait until its completion.
($RNDCCMD 10.53.0.3 loadkeys delzsk.example 2>&1 | sed 's/^/ns3 /' | cat_i) || ret=1
for i in 0 1 2 3 4 5 6 7 8 9; do
_ret=1
$RNDCCMD 10.53.0.3 signing -list delzsk.example > signing.out.3.test$n 2>&1
grep "Signing " signing.out.3.test$n > /dev/null 2>&1
if [ $? -ne 0 ]; then
if [ $(grep "Done signing " signing.out.3.test$n | wc -l) -eq 2 ]; then
_ret=0
break
fi
fi
sleep 1
done
if [ $_ret -ne 0 ]; then
echo_i "timed out waiting for key removal"
ret=1
fi
# Check whether key removal caused NSEC3 records to be erroneously created for
# glue records due to a secure delegation already being signed by the active key
# (i.e. a key other than the one being removed but using the same algorithm).
#
# For reference:
#
# $ nsec3hash 12345678 1 10 ns.sub.delzsk.example.
# 589R358VSPJUFVAJU949JPVF74D9PTGH (salt=12345678, hash=1, iterations=10)
#
$DIG $DIGOPTS delzsk.example AXFR @10.53.0.3 > dig.out.ns3.3.test$n || ret=1
grep "589R358VSPJUFVAJU949JPVF74D9PTGH" dig.out.ns3.3.test$n > /dev/null 2>&1 && ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "check that DNAME at apex with NSEC3 is correctly signed (auto-dnssec maintain) ($n)"
ret=0
$DIG $DIGOPTS txt dname-at-apex-nsec3.example @10.53.0.3 > dig.out.ns3.test$n || ret=1
grep "RRSIG NSEC3 ${DEFAULT_ALGORITHM_NUMBER} 3 600" dig.out.ns3.test$n > /dev/null || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that DNAME is not treated as a delegation when signing ($n)"
ret=0
$DIG $DIGOPTS dname-and-txt.secure.example. DNAME @10.53.0.3 > dig.out.ns3.1.test$n || ret=1
grep "dname-and-txt.secure.example.*RRSIG.*DNAME" dig.out.ns3.1.test$n > /dev/null 2>&1 || ret=1
$DIG $DIGOPTS dname-and-txt.secure.example. TXT @10.53.0.3 > dig.out.ns3.2.test$n || ret=1
grep "dname-and-txt.secure.example.*RRSIG.*TXT" dig.out.ns3.2.test$n > /dev/null 2>&1 || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking key maintenance events were logged correctly ($n)"
ret=0
pub=$(grep "DNSKEY .* is now published" ns1/named.run | wc -l)
[ "$pub" -eq 6 ] || ret=1
act=$(grep "DNSKEY .* is now active" ns1/named.run | wc -l)
[ "$act" -eq 5 ] || ret=1
rev=$(grep "DNSKEY .* is now revoked" ns1/named.run | wc -l)
[ "$rev" -eq 1 ] || ret=1
inac=$(grep "DNSKEY .* is now inactive" ns1/named.run | wc -l)
[ "$inac" -eq 1 ] || ret=1
del=$(grep "DNSKEY .* is now deleted" ns1/named.run | wc -l)
[ "$del" -eq 1 ] || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that CDS (DELETE) persists after zone sign ($n)"
echo_i "update add cds-delete.example. CDS 0 0 00"
ret=0
$NSUPDATE > nsupdate.out 2>&1 <<END
server 10.53.0.3 ${PORT}
zone cds-delete.example.
update add cds-delete.example. 3600 CDS 0 0 0 00
send
END
_cds_delete() (
$DIG $DIGOPTS +noall +answer $1 cds @10.53.0.3 > dig.out.ns3.test$n || return 1
grep "CDS.*0.*0.*0.*00" dig.out.ns3.test$n > /dev/null 2>&1 || return 1
return 0
)
_cdnskey_delete_nx() {
$DIG $DIGOPTS +noall +answer $1 cdnskey @10.53.0.3 > dig.out.ns3.test$n || return 1
grep "CDNSKEY.*0.*3.*0.*AA==" dig.out.ns3.test$n > /dev/null 2>&1 && return 1
return 0
}
echo_i "query cds-delete.example. CDS"
retry_quiet 10 _cds_delete cds-delete.example. || ret=1
echo_i "query cds-delete.example. CDNSKEY"
retry_quiet 1 _cdnskey_delete_nx cds-delete.example. || ret=1
echo_i "sign cds-delete.example."
nextpart ns3/named.run >/dev/null
$RNDCCMD 10.53.0.3 sign cds-delete.example > /dev/null 2>&1 || ret=1
wait_for_log 10 "zone cds-delete.example/IN: next key event" ns3/named.run
# The CDS (DELETE) record should still be here.
echo_i "query cds-delete.example. CDS"
retry_quiet 1 _cds_delete cds-delete.example. || ret=1
# The CDNSKEY (DELETE) record should still not be added.
echo_i "query cds-delete.example. CDNSKEY"
retry_quiet 1 _cdnskey_delete_nx cds-delete.example. || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "checking that CDNSKEY (DELETE) persists after zone sign ($n)"
echo_i "update add cdnskey-delete.example. CDNSKEY 0 3 0 AA=="
ret=0
$NSUPDATE > nsupdate.out 2>&1 <<END
server 10.53.0.3 ${PORT}
zone cdnskey-delete.example.
update add cdnskey-delete.example. 3600 CDNSKEY 0 3 0 AA==
send
END
_cds_delete_nx() (
$DIG $DIGOPTS +noall +answer $1 cds @10.53.0.3 > dig.out.ns3.test$n || return 1
grep "CDS.*0.*0.*0.*00" dig.out.ns3.test$n > /dev/null 2>&1 && return 1
return 0
)
_cdnskey_delete() {
$DIG $DIGOPTS +noall +answer $1 cdnskey @10.53.0.3 > dig.out.ns3.test$n || return 1
grep "CDNSKEY.*0.*3.*0.*AA==" dig.out.ns3.test$n > /dev/null 2>&1 || return 1
return 0
}
echo_i "query cdnskey-delete.example. CDNSKEY"
retry_quiet 10 _cdnskey_delete cdnskey-delete.example. || ret=1
echo_i "query cdnskey-delete.example. CDS"
retry_quiet 1 _cds_delete_nx cdnskey-delete.example. || ret=1
echo_i "sign cdsnskey-delete.example."
nextpart ns3/named.run >/dev/null
$RNDCCMD 10.53.0.3 sign cdnskey-delete.example > /dev/null 2>&1 || ret=1
wait_for_log 10 "zone cdnskey-delete.example/IN: next key event" ns3/named.run
# The CDNSKEY (DELETE) record should still be here.
echo_i "query cdnskey-delete.example. CDNSKEY"
retry_quiet 1 _cdnskey_delete cdnskey-delete.example. || ret=1
# The CDS (DELETE) record should still not be added.
echo_i "query cdnskey-delete.example. CDS"
retry_quiet 1 _cds_delete_nx cdnskey-delete.example. || ret=1
n=$((n + 1))
if [ $ret != 0 ]; then echo_i "failed"; fi
status=$((status + ret))
echo_i "check removal of ENT NSEC3 records when opt out delegations are removed ($n)"
ret=0
zone=optout-with-ent
hash=JTR8R6AVFULU0DQH9I6HNN2KUK5956EL
# check that NSEC3 for ENT is present
$DIG $DIGOPTS @10.53.0.2 a "ent.${zone}" > dig.out.pre.ns2.test$n
grep "status: NOERROR" dig.out.pre.ns2.test$n >/dev/null || ret=1
grep "ANSWER: 0, AUTHORITY: 4, " dig.out.pre.ns2.test$n > /dev/null || ret=1
grep "^${hash}.${zone}." dig.out.pre.ns2.test$n > /dev/null || ret=1
# remove first delegation of two delegations, NSEC3 for ENT should remain.
(
echo zone $zone
echo server 10.53.0.2 "$PORT"
echo update del sub1.ent.$zone NS
echo send
) | $NSUPDATE
# check that NSEC3 for ENT is still present
$DIG $DIGOPTS @10.53.0.2 a "ent.${zone}" > dig.out.pre.ns2.test$n
$DIG $DIGOPTS @10.53.0.2 a "ent.${zone}" > dig.out.mid.ns2.test$n
grep "status: NOERROR" dig.out.mid.ns2.test$n >/dev/null || ret=1
grep "ANSWER: 0, AUTHORITY: 4, " dig.out.mid.ns2.test$n > /dev/null || ret=1
grep "^${hash}.${zone}." dig.out.mid.ns2.test$n > /dev/null || ret=1
# remove second delegation of two delegations, NSEC3 for ENT should be deleted.
(
echo zone $zone
echo server 10.53.0.2 "$PORT"
echo update del sub2.ent.$zone NS
echo send
) | $NSUPDATE
# check that NSEC3 for ENT is gone present
$DIG $DIGOPTS @10.53.0.2 a "ent.${zone}" > dig.out.post.ns2.test$n
grep "status: NXDOMAIN" dig.out.post.ns2.test$n >/dev/null || ret=1
grep "ANSWER: 0, AUTHORITY: 4, " dig.out.post.ns2.test$n > /dev/null || ret=1
grep "^${hash}.${zone}." dig.out.post.ns2.test$n > /dev/null && ret=1
$DIG $DIGOPTS @10.53.0.2 axfr "${zone}" > dig.out.axfr.ns2.test$n
grep "^${hash}.${zone}." dig.out.axfr.ns2.test$n > /dev/null && ret=1
n=$((n+1))
if [ "$ret" -ne 0 ]; then echo_i "failed"; fi
status=$((status+ret))
echo_i "exit status: $status"
[ $status -eq 0 ] || exit 1
|