#!/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.
# shellcheck source=conf.sh
# shellcheck source=kasp.sh
SYSTEMTESTTOP=..
. "$SYSTEMTESTTOP/conf.sh"
. "$SYSTEMTESTTOP/kasp.sh"
start_time="$(TZ=UTC date +%s)"
status=0
n=0
###############################################################################
# Utilities #
###############################################################################
# Call dig with default options.
dig_with_opts() {
if [ -n "$TSIG" ]; then
"$DIG" +tcp +noadd +nosea +nostat +nocmd +dnssec -p "$PORT" -y "$TSIG" "$@"
else
"$DIG" +tcp +noadd +nosea +nostat +nocmd +dnssec -p "$PORT" "$@"
fi
}
# RNDC.
rndccmd() {
"$RNDC" -c "$SYSTEMTESTTOP/common/rndc.conf" -p "$CONTROLPORT" -s "$@"
}
# Log error and increment failure rate.
log_error() {
echo_i "error: $1"
ret=$((ret+1))
}
# Default next key event threshold. May be extended by wait periods.
next_key_event_threshold=100
###############################################################################
# Tests #
###############################################################################
#
# dnssec-keygen
#
set_zone "kasp"
set_policy "kasp" "4" "200"
set_server "keys" "10.53.0.1"
n=$((n+1))
echo_i "check that 'dnssec-keygen -k' (configured policy) creates valid files ($n)"
ret=0
$KEYGEN -K keys -k "$POLICY" -l kasp.conf "$ZONE" > "keygen.out.$POLICY.test$n" 2>/dev/null || ret=1
lines=$(wc -l < "keygen.out.$POLICY.test$n")
test "$lines" -eq $NUM_KEYS || log_error "wrong number of keys created for policy kasp: $lines"
# Temporarily don't log errors because we are searching multiple files.
disable_logerror
# Key properties.
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "31536000"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
set_keyrole "KEY2" "ksk"
set_keylifetime "KEY2" "31536000"
set_keyalgorithm "KEY2" "8" "RSASHA256" "2048"
set_keysigning "KEY2" "yes"
set_zonesigning "KEY2" "no"
set_keyrole "KEY3" "zsk"
set_keylifetime "KEY3" "2592000"
set_keyalgorithm "KEY3" "8" "RSASHA256" "2048"
set_keysigning "KEY3" "no"
set_zonesigning "KEY3" "yes"
set_keyrole "KEY4" "zsk"
set_keylifetime "KEY4" "16070400"
set_keyalgorithm "KEY4" "8" "RSASHA256" "3072"
set_keysigning "KEY4" "no"
set_zonesigning "KEY4" "yes"
lines=$(get_keyids "$DIR" "$ZONE" | wc -l)
test "$lines" -eq $NUM_KEYS || log_error "bad number of key ids"
ids=$(get_keyids "$DIR" "$ZONE")
for id in $ids; do
# There are four key files with the same algorithm.
# Check them until a match is found.
ret=0 && check_key "KEY1" "$id"
test "$ret" -eq 0 && continue
ret=0 && check_key "KEY2" "$id"
test "$ret" -eq 0 && continue
ret=0 && check_key "KEY3" "$id"
test "$ret" -eq 0 && continue
ret=0 && check_key "KEY4" "$id"
# If ret is still non-zero, non of the files matched.
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
done
# Turn error logs on again.
enable_logerror
n=$((n+1))
echo_i "check that 'dnssec-keygen -k' (default policy) creates valid files ($n)"
ret=0
set_zone "kasp"
set_policy "default" "1" "3600"
set_server "." "10.53.0.1"
# Key properties.
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
$KEYGEN -G -k "$POLICY" "$ZONE" > "keygen.out.$POLICY.test$n" 2>/dev/null || ret=1
lines=$(wc -l < "keygen.out.$POLICY.test$n")
test "$lines" -eq $NUM_KEYS || log_error "wrong number of keys created for policy default: $lines"
ids=$(get_keyids "$DIR" "$ZONE")
for id in $ids; do
check_key "KEY1" "$id"
test "$ret" -eq 0 && key_save KEY1
check_keytimes
done
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# dnssec-settime
#
# These test builds upon the latest created key with dnssec-keygen and uses the
# environment variables BASE_FILE, KEY_FILE, PRIVATE_FILE and STATE_FILE.
CMP_FILE="${BASE_FILE}.cmp"
n=$((n+1))
echo_i "check that 'dnssec-settime' by default does not edit key state file ($n)"
ret=0
cp "$STATE_FILE" "$CMP_FILE"
$SETTIME -P +3600 "$BASE_FILE" > /dev/null || log_error "settime failed"
grep "; Publish: " "$KEY_FILE" > /dev/null || log_error "mismatch published in $KEY_FILE"
grep "Publish: " "$PRIVATE_FILE" > /dev/null || log_error "mismatch published in $PRIVATE_FILE"
$DIFF "$CMP_FILE" "$STATE_FILE" || log_error "unexpected file change in $STATE_FILE"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "check that 'dnssec-settime -s' also sets publish time metadata and states in key state file ($n)"
ret=0
cp "$STATE_FILE" "$CMP_FILE"
now=$(date +%Y%m%d%H%M%S)
$SETTIME -s -P "$now" -g "omnipresent" -k "rumoured" "$now" -z "omnipresent" "$now" -r "rumoured" "$now" -d "hidden" "$now" "$BASE_FILE" > /dev/null || log_error "settime failed"
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "hidden"
check_key "KEY1" "$id"
test "$ret" -eq 0 && key_save KEY1
set_keytime "KEY1" "PUBLISHED" "${now}"
check_keytimes
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "check that 'dnssec-settime -s' also unsets publish time metadata and states in key state file ($n)"
ret=0
cp "$STATE_FILE" "$CMP_FILE"
$SETTIME -s -P "none" -g "none" -k "none" "$now" -z "none" "$now" -r "none" "$now" -d "none" "$now" "$BASE_FILE" > /dev/null || log_error "settime failed"
set_keystate "KEY1" "GOAL" "none"
set_keystate "KEY1" "STATE_DNSKEY" "none"
set_keystate "KEY1" "STATE_KRRSIG" "none"
set_keystate "KEY1" "STATE_ZRRSIG" "none"
set_keystate "KEY1" "STATE_DS" "none"
check_key "KEY1" "$id"
test "$ret" -eq 0 && key_save KEY1
set_keytime "KEY1" "PUBLISHED" "none"
check_keytimes
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "check that 'dnssec-settime -s' also sets active time metadata and states in key state file (uppercase) ($n)"
ret=0
cp "$STATE_FILE" "$CMP_FILE"
now=$(date +%Y%m%d%H%M%S)
$SETTIME -s -A "$now" -g "HIDDEN" -k "UNRETENTIVE" "$now" -z "UNRETENTIVE" "$now" -r "OMNIPRESENT" "$now" -d "OMNIPRESENT" "$now" "$BASE_FILE" > /dev/null || log_error "settime failed"
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_ZRRSIG" "unretentive"
set_keystate "KEY1" "STATE_DS" "omnipresent"
check_key "KEY1" "$id"
test "$ret" -eq 0 && key_save KEY1
set_keytime "KEY1" "ACTIVE" "${now}"
check_keytimes
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# named
#
# 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 an error.
n=$((n+1))
echo_i "waiting for kasp signing changes to take effect ($n)"
_wait_for_done_apexnsec() {
while read -r zone
do
dig_with_opts "$zone" @10.53.0.3 nsec > "dig.out.ns3.test$n.$zone" || return 1
grep "NS SOA" "dig.out.ns3.test$n.$zone" > /dev/null || return 1
grep "$zone\..*IN.*RRSIG" "dig.out.ns3.test$n.$zone" > /dev/null || return 1
done < ns3/zones
while read -r zone
do
dig_with_opts "$zone" @10.53.0.6 nsec > "dig.out.ns6.test$n.$zone" || return 1
grep "NS SOA" "dig.out.ns6.test$n.$zone" > /dev/null || return 1
grep "$zone\..*IN.*RRSIG" "dig.out.ns6.test$n.$zone" > /dev/null || return 1
done < ns6/zones
return 0
}
retry_quiet 30 _wait_for_done_apexnsec || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Test max-zone-ttl rejects zones with too high TTL.
n=$((n+1))
echo_i "check that max-zone-ttl rejects zones with too high TTL ($n)"
ret=0
set_zone "max-zone-ttl.kasp"
grep "loading from master file ${ZONE}.db failed: out of range" "ns3/named.run" > /dev/null || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Zone: default.kasp.
#
set_keytimes_csk_policy() {
# The first key is immediately published and activated.
created=$(key_get KEY1 CREATED)
set_keytime "KEY1" "PUBLISHED" "${created}"
set_keytime "KEY1" "ACTIVE" "${created}"
# The DS can be published if the DNSKEY and RRSIG records are
# OMNIPRESENT. This happens after max-zone-ttl (1d) plus
# publish-safety (1h) plus zone-propagation-delay (300s) =
# 86400 + 3600 + 300 = 90300.
set_addkeytime "KEY1" "SYNCPUBLISH" "${created}" 90300
# Key lifetime is unlimited, so not setting RETIRED and REMOVED.
}
# Check the zone with default kasp policy has loaded and is signed.
set_zone "default.kasp"
set_policy "default" "1" "3600"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# DNSKEY, RRSIG (ksk), RRSIG (zsk) are published. DS needs to wait.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Trigger a keymgr run. Make sure the key files are not touched if there are
# no modifications to the key metadata.
n=$((n+1))
echo_i "make sure key files are untouched if metadata does not change ($n)"
ret=0
basefile=$(key_get KEY1 BASEFILE)
privkey_stat=$(key_get KEY1 PRIVKEY_STAT)
pubkey_stat=$(key_get KEY1 PUBKEY_STAT)
state_stat=$(key_get KEY1 STATE_STAT)
nextpart $DIR/named.run > /dev/null
rndccmd 10.53.0.3 loadkeys "$ZONE" > /dev/null || log_error "rndc loadkeys zone ${ZONE} failed"
wait_for_log 3 "keymgr: $ZONE done" $DIR/named.run
privkey_stat2=$(key_stat "${basefile}.private")
pubkey_stat2=$(key_stat "${basefile}.key")
state_stat2=$(key_stat "${basefile}.state")
test "$privkey_stat" = "$privkey_stat2" || log_error "wrong private key file stat (expected $privkey_stat got $privkey_stat2)"
test "$pubkey_stat" = "$pubkey_stat2" || log_error "wrong public key file stat (expected $pubkey_stat got $pubkey_stat2)"
test "$state_stat" = "$state_stat2" || log_error "wrong state file stat (expected $state_stat got $state_stat2)"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "again ($n)"
ret=0
nextpart $DIR/named.run > /dev/null
rndccmd 10.53.0.3 loadkeys "$ZONE" > /dev/null || log_error "rndc loadkeys zone ${ZONE} failed"
wait_for_log 3 "keymgr: done" $DIR/named.run
privkey_stat2=$(key_stat "${basefile}.private")
pubkey_stat2=$(key_stat "${basefile}.key")
state_stat2=$(key_stat "${basefile}.state")
test "$privkey_stat" = "$privkey_stat2" || log_error "wrong private key file stat (expected $privkey_stat got $privkey_stat2)"
test "$pubkey_stat" = "$pubkey_stat2" || log_error "wrong public key file stat (expected $pubkey_stat got $pubkey_stat2)"
test "$state_stat" = "$state_stat2" || log_error "wrong state file stat (expected $state_stat got $state_stat2)"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Update zone.
n=$((n+1))
echo_i "modify unsigned zone file and check that new record is signed for zone ${ZONE} ($n)"
ret=0
cp "${DIR}/template2.db.in" "${DIR}/${ZONE}.db"
rndccmd 10.53.0.3 reload "$ZONE" > /dev/null || log_error "rndc reload zone ${ZONE} failed"
update_is_signed() {
ip_a=$1
ip_d=$2
if [ "$ip_a" != "-" ]; then
dig_with_opts "a.${ZONE}" "@${SERVER}" A > "dig.out.$DIR.test$n.a" || return 1
grep "status: NOERROR" "dig.out.$DIR.test$n.a" > /dev/null || return 1
grep "a.${ZONE}\..*${DEFAULT_TTL}.*IN.*A.*${ip_a}" "dig.out.$DIR.test$n.a" > /dev/null || return 1
lines=$(get_keys_which_signed A "dig.out.$DIR.test$n.a" | wc -l)
test "$lines" -eq 1 || return 1
get_keys_which_signed A "dig.out.$DIR.test$n.a" | grep "^${KEY_ID}$" > /dev/null || return 1
fi
if [ "$ip_d" != "-" ]; then
dig_with_opts "d.${ZONE}" "@${SERVER}" A > "dig.out.$DIR.test$n".d || return 1
grep "status: NOERROR" "dig.out.$DIR.test$n".d > /dev/null || return 1
grep "d.${ZONE}\..*${DEFAULT_TTL}.*IN.*A.*${ip_d}" "dig.out.$DIR.test$n".d > /dev/null || return 1
lines=$(get_keys_which_signed A "dig.out.$DIR.test$n".d | wc -l)
test "$lines" -eq 1 || return 1
get_keys_which_signed A "dig.out.$DIR.test$n".d | grep "^${KEY_ID}$" > /dev/null || return 1
fi
}
retry_quiet 10 update_is_signed "10.0.0.11" "10.0.0.44" || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Move the private key file, a rekey event should not introduce replacement
# keys.
ret=0
echo_i "test that if private key files are inaccessible this doesn't trigger a rollover ($n)"
basefile=$(key_get KEY1 BASEFILE)
mv "${basefile}.private" "${basefile}.offline"
rndccmd 10.53.0.3 loadkeys "$ZONE" > /dev/null || log_error "rndc loadkeys zone ${ZONE} failed"
wait_for_log 3 "offline, policy default" $DIR/named.run || ret=1
mv "${basefile}.offline" "${basefile}.private"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Nothing has changed.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: dynamic.kasp
#
set_zone "dynamic.kasp"
set_dynamic
set_policy "default" "1" "3600"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Update zone with nsupdate.
n=$((n+1))
echo_i "nsupdate zone and check that new record is signed for zone ${ZONE} ($n)"
ret=0
(
echo zone ${ZONE}
echo server 10.53.0.3 "$PORT"
echo update del "a.${ZONE}" 300 A 10.0.0.1
echo update add "a.${ZONE}" 300 A 10.0.0.101
echo update add "d.${ZONE}" 300 A 10.0.0.4
echo send
) | $NSUPDATE
retry_quiet 10 update_is_signed "10.0.0.101" "10.0.0.4" || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Update zone with nsupdate (reverting the above change).
n=$((n+1))
echo_i "nsupdate zone and check that new record is signed for zone ${ZONE} ($n)"
ret=0
(
echo zone ${ZONE}
echo server 10.53.0.3 "$PORT"
echo update add "a.${ZONE}" 300 A 10.0.0.1
echo update del "a.${ZONE}" 300 A 10.0.0.101
echo update del "d.${ZONE}" 300 A 10.0.0.4
echo send
) | $NSUPDATE
retry_quiet 10 update_is_signed "10.0.0.1" "-" || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Update zone with freeze/thaw.
n=$((n+1))
echo_i "modify zone file and check that new record is signed for zone ${ZONE} ($n)"
ret=0
rndccmd 10.53.0.3 freeze "$ZONE" > /dev/null || log_error "rndc freeze zone ${ZONE} failed"
sleep 1
echo "d.${ZONE}. 300 A 10.0.0.44" >> "${DIR}/${ZONE}.db"
rndccmd 10.53.0.3 thaw "$ZONE" > /dev/null || log_error "rndc thaw zone ${ZONE} failed"
retry_quiet 10 update_is_signed "10.0.0.1" "10.0.0.44" || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Zone: dynamic-inline-signing.kasp
#
set_zone "dynamic-inline-signing.kasp"
set_dynamic
set_policy "default" "1" "3600"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Update zone with freeze/thaw.
n=$((n+1))
echo_i "modify unsigned zone file and check that new record is signed for zone ${ZONE} ($n)"
ret=0
rndccmd 10.53.0.3 freeze "$ZONE" > /dev/null || log_error "rndc freeze zone ${ZONE} failed"
sleep 1
cp "${DIR}/template2.db.in" "${DIR}/${ZONE}.db"
rndccmd 10.53.0.3 thaw "$ZONE" > /dev/null || log_error "rndc thaw zone ${ZONE} failed"
retry_quiet 10 update_is_signed || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Zone: inline-signing.kasp
#
set_zone "inline-signing.kasp"
set_policy "default" "1" "3600"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: checkds-ksk.kasp.
#
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
set_zone "checkds-ksk.kasp"
set_policy "checkds-ksk" "2" "303"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "0"
set_keyalgorithm "KEY2" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
# DNSKEY, RRSIG (ksk), RRSIG (zsk) are published. DS needs to wait.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
basefile=$(key_get KEY1 BASEFILE)
_wait_for_metadata() {
_expr=$1
_file=$2
grep "$_expr" $_file > /dev/null || return 1
return 0
}
n=$((n+1))
echo_i "checkds publish correctly sets DSPublish for zone $ZONE ($n)"
now=$(date +%Y%m%d%H%M%S)
rndc_checkds "$SERVER" "$DIR" "-" "$now" "published" "$ZONE"
retry_quiet 3 _wait_for_metadata "DSPublish: $now" "${basefile}.state" || log_error "bad DSPublish in ${basefile}.state"
# DS State should be forced into RUMOURED.
set_keystate "KEY1" "STATE_DS" "rumoured"
check_keys
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "checkds withdraw correctly sets DSRemoved for zone $ZONE ($n)"
now=$(date +%Y%m%d%H%M%S)
rndc_checkds "$SERVER" "$DIR" "-" "$now" "withdrawn" "$ZONE"
retry_quiet 3 _wait_for_metadata "DSRemoved: $now" "${basefile}.state" || log_error "bad DSRemoved in ${basefile}.state"
# DS State should be forced into UNRETENTIVE.
set_keystate "KEY1" "STATE_DS" "unretentive"
check_keys
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Zone: checkds-doubleksk.kasp.
#
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
set_zone "checkds-doubleksk.kasp"
set_policy "checkds-doubleksk" "3" "303"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
set_keyrole "KEY2" "ksk"
set_keylifetime "KEY2" "0"
set_keyalgorithm "KEY2" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY2" "yes"
set_zonesigning "KEY2" "no"
set_keyrole "KEY3" "zsk"
set_keylifetime "KEY3" "0"
set_keyalgorithm "KEY3" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY3" "no"
set_zonesigning "KEY3" "yes"
# DNSKEY, RRSIG (ksk), RRSIG (zsk) are published. DS needs to wait.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_KRRSIG" "rumoured"
set_keystate "KEY2" "STATE_DS" "hidden"
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_ZRRSIG" "rumoured"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
basefile1=$(key_get KEY1 BASEFILE)
basefile2=$(key_get KEY2 BASEFILE)
n=$((n+1))
echo_i "checkds published does not set DSPublish for zone $ZONE (multiple KSK) ($n)"
rndc_checkds "$SERVER" "$DIR" "-" "20200102121314" "published" "$ZONE"
grep "DSPublish:" "${basefile1}.state" > /dev/null && log_error "DSPublish incorrectly set in ${basefile1}"
grep "DSPublish:" "${basefile2}.state" > /dev/null && log_error "DSPublish incorrectly set in ${basefile2}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "checkds withdrawn does not set DSRemoved for zone $ZONE (multiple KSK) ($n)"
rndc_checkds "$SERVER" "$DIR" "-" "20190102121314" "withdrawn" "$ZONE"
grep "DSRemoved:" "${basefile1}.state" > /dev/null && log_error "DSRemoved incorrectly set in ${basefile1}"
grep "DSRemoved:" "${basefile2}.state" > /dev/null && log_error "DSRemoved incorrectly set in ${basefile2}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "checkds published does not set DSPublish for zone $ZONE (wrong algorithm) ($n)"
rndccmd "$SERVER" dnssec -checkds -key $(key_get KEY1 ID) -alg 8 "published" "$ZONE" > rndc.dnssec.checkds.out.$ZONE.$n
grep "DSPublish:" "${basefile1}.state" > /dev/null && log_error "DSPublish incorrectly set in ${basefile1}"
grep "DSPublish:" "${basefile2}.state" > /dev/null && log_error "DSPublish incorrectly set in ${basefile2}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "checkds withdrawn does not set DSRemoved for zone $ZONE (wrong algorithm) ($n)"
rndccmd "$SERVER" dnssec -checkds -key $(key_get KEY1 ID) -alg RSASHA256 "withdrawn" "$ZONE" > rndc.dnssec.checkds.out.$ZONE.$n
grep "DSRemoved:" "${basefile1}.state" > /dev/null && log_error "DSRemoved incorrectly set in ${basefile1}"
grep "DSRemoved:" "${basefile2}.state" > /dev/null && log_error "DSRemoved incorrectly set in ${basefile2}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "checkds published -key correctly sets DSPublish for key $(key_get KEY1 ID) zone $ZONE (multiple KSK) ($n)"
rndc_checkds "$SERVER" "$DIR" KEY1 "20190102121314" "published" "$ZONE"
retry_quiet 3 _wait_for_metadata "DSPublish: 20190102121314" "${basefile1}.state" || log_error "bad DSPublish in ${basefile1}.state"
grep "DSPublish:" "${basefile2}.state" > /dev/null && log_error "DSPublish incorrectly set in ${basefile2}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "checkds withdrawn -key correctly sets DSRemoved for key $(key_get KEY2 ID) zone $ZONE (multiple KSK) ($n)"
rndc_checkds "$SERVER" "$DIR" KEY2 "20200102121314" "withdrawn" "$ZONE"
grep "DSRemoved:" "${basefile1}.state" > /dev/null && log_error "DSPublish incorrectly set in ${basefile1}"
retry_quiet 3 _wait_for_metadata "DSRemoved: 20200102121314" "${basefile2}.state" || log_error "bad DSRemoved in ${basefile2}.state"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Zone: checkds-csk.kasp.
#
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
set_zone "checkds-csk.kasp"
set_policy "checkds-csk" "1" "303"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# DNSKEY, RRSIG (ksk), RRSIG (zsk) are published. DS needs to wait.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
basefile=$(key_get KEY1 BASEFILE)
n=$((n+1))
echo_i "checkds publish correctly sets DSPublish for zone $ZONE ($n)"
rndc_checkds "$SERVER" "$DIR" "-" "20190102121314" "published" "$ZONE"
retry_quiet 3 _wait_for_metadata "DSPublish: 20190102121314" "${basefile}.state" || log_error "bad DSPublish in ${basefile}.state"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "checkds withdraw correctly sets DSRemoved for zone $ZONE ($n)"
rndc_checkds "$SERVER" "$DIR" "-" "20200102121314" "withdrawn" "$ZONE"
retry_quiet 3 _wait_for_metadata "DSRemoved: 20200102121314" "${basefile}.state" || log_error "bad DSRemoved in ${basefile}.state"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Set keytimes for dnssec-policy with various algorithms.
# These all use the same time values.
set_keytimes_algorithm_policy() {
# The first KSK is immediately published and activated.
created=$(key_get KEY1 CREATED)
set_keytime "KEY1" "PUBLISHED" "${created}"
set_keytime "KEY1" "ACTIVE" "${created}"
# Key was pregenerated.
if [ "$1" = "pregenerated" ]; then
keyfile=$(key_get KEY1 BASEFILE)
grep "; Publish:" "${keyfile}.key" > published.test${n}.key1
published=$(awk '{print $3}' < published.test${n}.key1)
set_keytime "KEY1" "PUBLISHED" "${published}"
set_keytime "KEY1" "ACTIVE" "${published}"
fi
published=$(key_get KEY1 PUBLISHED)
# The DS can be published if the DNSKEY and RRSIG records are
# OMNIPRESENT. This happens after max-zone-ttl (1d) plus
# publish-safety (1h) plus zone-propagation-delay (300s) =
# 86400 + 3600 + 300 = 90300.
set_addkeytime "KEY1" "SYNCPUBLISH" "${published}" 90300
# Key lifetime is 10 years, 315360000 seconds.
set_addkeytime "KEY1" "RETIRED" "${published}" 315360000
# The key is removed after the retire time plus DS TTL (1d),
# parent propagation delay (1h), and retire safety (1h) =
# 86400 + 3600 + 3600 = 93600.
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" 93600
# The first ZSKs are immediately published and activated.
created=$(key_get KEY2 CREATED)
set_keytime "KEY2" "PUBLISHED" "${created}"
set_keytime "KEY2" "ACTIVE" "${created}"
# Key was pregenerated.
if [ "$1" = "pregenerated" ]; then
keyfile=$(key_get KEY2 BASEFILE)
grep "; Publish:" "${keyfile}.key" > published.test${n}.key2
published=$(awk '{print $3}' < published.test${n}.key2)
set_keytime "KEY2" "PUBLISHED" "${published}"
set_keytime "KEY2" "ACTIVE" "${published}"
fi
published=$(key_get KEY2 PUBLISHED)
# Key lifetime for KSK2 is 5 years, 157680000 seconds.
set_addkeytime "KEY2" "RETIRED" "${published}" 157680000
# The key is removed after the retire time plus max zone ttl (1d), zone
# propagation delay (300s), retire safety (1h), and sign delay
# (signature validity minus refresh, 9d) =
# 86400 + 300 + 3600 + 777600 = 867900.
retired=$(key_get KEY2 RETIRED)
set_addkeytime "KEY2" "REMOVED" "${retired}" 867900
# Second ZSK (KEY3).
created=$(key_get KEY3 CREATED)
set_keytime "KEY3" "PUBLISHED" "${created}"
set_keytime "KEY3" "ACTIVE" "${created}"
# Key was pregenerated.
if [ "$1" = "pregenerated" ]; then
keyfile=$(key_get KEY3 BASEFILE)
grep "; Publish:" "${keyfile}.key" > published.test${n}.key3
published=$(awk '{print $3}' < published.test${n}.key3)
set_keytime "KEY3" "PUBLISHED" "${published}"
set_keytime "KEY3" "ACTIVE" "${published}"
fi
published=$(key_get KEY3 PUBLISHED)
# Key lifetime for KSK3 is 1 year, 31536000 seconds.
set_addkeytime "KEY3" "RETIRED" "${published}" 31536000
retired=$(key_get KEY3 RETIRED)
set_addkeytime "KEY3" "REMOVED" "${retired}" 867900
}
#
# Zone: rsasha1.kasp.
#
if $SHELL ../testcrypto.sh -q RSASHA1
then
set_zone "rsasha1.kasp"
set_policy "rsasha1" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "315360000"
set_keyalgorithm "KEY1" "5" "RSASHA1" "2048"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "157680000"
set_keyalgorithm "KEY2" "5" "RSASHA1" "2048"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
key_clear "KEY3"
set_keyrole "KEY3" "zsk"
set_keylifetime "KEY3" "31536000"
set_keyalgorithm "KEY3" "5" "RSASHA1" "2000"
set_keysigning "KEY3" "no"
set_zonesigning "KEY3" "yes"
# KSK: DNSKEY, RRSIG (ksk) published. DS needs to wait.
# ZSK: DNSKEY, RRSIG (zsk) published.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_ZRRSIG" "rumoured"
# Three keys only.
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
fi
#
# Zone: unsigned.kasp.
#
set_zone "unsigned.kasp"
set_policy "none" "0" "0"
set_server "ns3" "10.53.0.3"
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
# Make sure the zone file is untouched.
n=$((n+1))
echo_i "Make sure the zonefile for zone ${ZONE} is not edited ($n)"
ret=0
diff "${DIR}/${ZONE}.db.infile" "${DIR}/${ZONE}.db" || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Zone: insecure.kasp.
#
set_zone "insecure.kasp"
set_policy "insecure" "0" "0"
set_server "ns3" "10.53.0.3"
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
#
# Zone: unlimited.kasp.
#
set_zone "unlimited.kasp"
set_policy "unlimited" "1" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# DNSKEY, RRSIG (ksk), RRSIG (zsk) are published. DS needs to wait.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: inherit.kasp.
#
set_zone "inherit.kasp"
set_policy "rsasha256" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "315360000"
set_keyalgorithm "KEY1" "8" "RSASHA256" "2048"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "157680000"
set_keyalgorithm "KEY2" "8" "RSASHA256" "2048"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
key_clear "KEY3"
set_keyrole "KEY3" "zsk"
set_keylifetime "KEY3" "31536000"
set_keyalgorithm "KEY3" "8" "RSASHA256" "3072"
set_keysigning "KEY3" "no"
set_zonesigning "KEY3" "yes"
# KSK: DNSKEY, RRSIG (ksk) published. DS needs to wait.
# ZSK: DNSKEY, RRSIG (zsk) published.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_ZRRSIG" "rumoured"
# Three keys only.
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: dnssec-keygen.kasp.
#
set_zone "dnssec-keygen.kasp"
set_policy "rsasha256" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: some-keys.kasp.
#
set_zone "some-keys.kasp"
set_policy "rsasha256" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy "pregenerated"
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: pregenerated.kasp.
#
# There are more pregenerated keys than needed, hence the number of keys is
# six, not three.
set_zone "pregenerated.kasp"
set_policy "rsasha256" "6" "1234"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy "pregenerated"
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: rumoured.kasp.
#
# There are three keys in rumoured state.
set_zone "rumoured.kasp"
set_policy "rsasha256" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
# Activation date is a day later.
set_addkeytime "KEY1" "ACTIVE" $(key_get KEY1 ACTIVE) 86400
set_addkeytime "KEY1" "RETIRED" $(key_get KEY1 RETIRED) 86400
set_addkeytime "KEY1" "REMOVED" $(key_get KEY1 REMOVED) 86400
set_addkeytime "KEY2" "ACTIVE" $(key_get KEY2 ACTIVE) 86400
set_addkeytime "KEY2" "RETIRED" $(key_get KEY2 RETIRED) 86400
set_addkeytime "KEY2" "REMOVED" $(key_get KEY2 REMOVED) 86400
set_addkeytime "KEY3" "ACTIVE" $(key_get KEY3 ACTIVE) 86400
set_addkeytime "KEY3" "RETIRED" $(key_get KEY3 RETIRED) 86400
set_addkeytime "KEY3" "REMOVED" $(key_get KEY3 REMOVED) 86400
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: secondary.kasp.
#
set_zone "secondary.kasp"
set_policy "rsasha256" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Update zone.
n=$((n+1))
echo_i "check that we correctly sign the zone after IXFR for zone ${ZONE} ($n)"
ret=0
cp ns2/secondary.kasp.db.in2 ns2/secondary.kasp.db
rndccmd 10.53.0.2 reload "$ZONE" > /dev/null || log_error "rndc reload zone ${ZONE} failed"
_wait_for_done_subdomains() {
ret=0
dig_with_opts "a.${ZONE}" "@${SERVER}" A > "dig.out.$DIR.test$n.a" || return 1
grep "status: NOERROR" "dig.out.$DIR.test$n.a" > /dev/null || return 1
grep "a.${ZONE}\..*${DEFAULT_TTL}.*IN.*A.*10\.0\.0\.11" "dig.out.$DIR.test$n.a" > /dev/null || return 1
check_signatures $_qtype "dig.out.$DIR.test$n.a" "ZSK"
if [ $ret -gt 0 ]; then return $ret; fi
dig_with_opts "d.${ZONE}" "@${SERVER}" A > "dig.out.$DIR.test$n.d" || return 1
grep "status: NOERROR" "dig.out.$DIR.test$n.d" > /dev/null || return 1
grep "d.${ZONE}\..*${DEFAULT_TTL}.*IN.*A.*10\.0\.0\.4" "dig.out.$DIR.test$n.d" > /dev/null || return 1
check_signatures $_qtype "dig.out.$DIR.test$n.d" "ZSK"
return $ret
}
retry_quiet 5 _wait_for_done_subdomains || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# TODO: we might want to test:
# - configuring a zone with too many active keys (should trigger retire).
# - configuring a zone with keys not matching the policy.
#
# Zone: rsasha1-nsec3.kasp.
#
if $SHELL ../testcrypto.sh -q RSASHA1
then
set_zone "rsasha1-nsec3.kasp"
set_policy "rsasha1-nsec3" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyalgorithm "KEY1" "7" "NSEC3RSASHA1" "2048"
set_keyalgorithm "KEY2" "7" "NSEC3RSASHA1" "2048"
set_keyalgorithm "KEY3" "7" "NSEC3RSASHA1" "2000"
# Key timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
fi
#
# Zone: rsasha256.kasp.
#
set_zone "rsasha256.kasp"
set_policy "rsasha256" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyalgorithm "KEY1" "8" "RSASHA256" "2048"
set_keyalgorithm "KEY2" "8" "RSASHA256" "2048"
set_keyalgorithm "KEY3" "8" "RSASHA256" "3072"
# Key timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: rsasha512.kasp.
#
set_zone "rsasha512.kasp"
set_policy "rsasha512" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyalgorithm "KEY1" "10" "RSASHA512" "2048"
set_keyalgorithm "KEY2" "10" "RSASHA512" "2048"
set_keyalgorithm "KEY3" "10" "RSASHA512" "3072"
# Key timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: ecdsa256.kasp.
#
set_zone "ecdsa256.kasp"
set_policy "ecdsa256" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keyalgorithm "KEY2" "13" "ECDSAP256SHA256" "256"
set_keyalgorithm "KEY3" "13" "ECDSAP256SHA256" "256"
# Key timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: ecdsa512.kasp.
#
set_zone "ecdsa384.kasp"
set_policy "ecdsa384" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyalgorithm "KEY1" "14" "ECDSAP384SHA384" "384"
set_keyalgorithm "KEY2" "14" "ECDSAP384SHA384" "384"
set_keyalgorithm "KEY3" "14" "ECDSAP384SHA384" "384"
# Key timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone: ed25519.kasp.
#
if [ -f ed25519-supported.file ]; then
set_zone "ed25519.kasp"
set_policy "ed25519" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyalgorithm "KEY1" "15" "ED25519" "256"
set_keyalgorithm "KEY2" "15" "ED25519" "256"
set_keyalgorithm "KEY3" "15" "ED25519" "256"
# Key timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
fi
#
# Zone: ed448.kasp.
#
if [ -f ed448-supported.file ]; then
set_zone "ed448.kasp"
set_policy "ed448" "3" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
set_keyalgorithm "KEY1" "16" "ED448" "456"
set_keyalgorithm "KEY2" "16" "ED448" "456"
set_keyalgorithm "KEY3" "16" "ED448" "456"
# Key timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_algorithm_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
fi
# Set key times for 'autosign' policy.
set_keytimes_autosign_policy() {
# The KSK was published six months ago (with settime).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "PUBLISHED" "${created}" -15552000
set_addkeytime "KEY1" "ACTIVE" "${created}" -15552000
set_addkeytime "KEY1" "SYNCPUBLISH" "${created}" -15552000
# Key lifetime is 2 years, 63072000 seconds.
active=$(key_get KEY1 ACTIVE)
set_addkeytime "KEY1" "RETIRED" "${active}" 63072000
# The key is removed after the retire time plus DS TTL (1d),
# parent propagation delay (1h), retire safety (1h) =
# 86400 + 3600 + 3600 = 93600
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" 93600
# The ZSK was published six months ago (with settime).
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -15552000
set_addkeytime "KEY2" "ACTIVE" "${created}" -15552000
# Key lifetime for KSK2 is 1 year, 31536000 seconds.
active=$(key_get KEY2 ACTIVE)
set_addkeytime "KEY2" "RETIRED" "${active}" 31536000
# The key is removed after the retire time plus:
# TTLsig (RRSIG TTL): 1 day (86400 seconds)
# Dprp (propagation delay): 5 minutes (300 seconds)
# retire-safety: 1 hour (3600 seconds)
# Dsgn (sign delay): 7 days (604800 seconds)
# Iret: 695100 seconds.
retired=$(key_get KEY2 RETIRED)
set_addkeytime "KEY2" "REMOVED" "${retired}" 695100
}
#
# Zone: expired-sigs.autosign.
#
set_zone "expired-sigs.autosign"
set_policy "autosign" "2" "300"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "63072000"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "31536000"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
# Both KSK and ZSK stay OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# Expect only two keys.
key_clear "KEY3"
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_autosign_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Verify all signatures have been refreshed.
check_rrsig_refresh() {
# Apex.
_qtypes="DNSKEY SOA NS NSEC"
for _qtype in $_qtypes
do
n=$((n+1))
echo_i "check ${_qtype} rrsig is refreshed correctly for zone ${ZONE} ($n)"
ret=0
dig_with_opts "$ZONE" "@${SERVER}" "$_qtype" > "dig.out.$DIR.test$n" || log_error "dig ${ZONE} ${_qtype} failed"
grep "status: NOERROR" "dig.out.$DIR.test$n" > /dev/null || log_error "mismatch status in DNS response"
grep "${ZONE}\..*IN.*RRSIG.*${_qtype}.*${ZONE}" "dig.out.$DIR.test$n" > "rrsig.out.$ZONE.$_qtype" || log_error "missing RRSIG (${_qtype}) record in response"
# If this exact RRSIG is also in the zone file it is not refreshed.
_rrsig=$(cat "rrsig.out.$ZONE.$_qtype")
grep "${_rrsig}" "${DIR}/${ZONE}.db" > /dev/null && log_error "RRSIG (${_qtype}) not refreshed in zone ${ZONE}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
done
# Below apex.
_labels="a b c ns3"
for _label in $_labels;
do
_qtypes="A NSEC"
for _qtype in $_qtypes
do
n=$((n+1))
echo_i "check ${_label} ${_qtype} rrsig is refreshed correctly for zone ${ZONE} ($n)"
ret=0
dig_with_opts "${_label}.${ZONE}" "@${SERVER}" "$_qtype" > "dig.out.$DIR.test$n" || log_error "dig ${_label}.${ZONE} ${_qtype} failed"
grep "status: NOERROR" "dig.out.$DIR.test$n" > /dev/null || log_error "mismatch status in DNS response"
grep "${ZONE}\..*IN.*RRSIG.*${_qtype}.*${ZONE}" "dig.out.$DIR.test$n" > "rrsig.out.$ZONE.$_qtype" || log_error "missing RRSIG (${_qtype}) record in response"
_rrsig=$(cat "rrsig.out.$ZONE.$_qtype")
grep "${_rrsig}" "${DIR}/${ZONE}.db" > /dev/null && log_error "RRSIG (${_qtype}) not refreshed in zone ${ZONE}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
done
done
}
check_rrsig_refresh
#
# Zone: fresh-sigs.autosign.
#
set_zone "fresh-sigs.autosign"
set_policy "autosign" "2" "300"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_autosign_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Verify signature reuse.
check_rrsig_reuse() {
# Apex.
_qtypes="NS NSEC"
for _qtype in $_qtypes
do
n=$((n+1))
echo_i "check ${_qtype} rrsig is reused correctly for zone ${ZONE} ($n)"
ret=0
dig_with_opts "$ZONE" "@${SERVER}" "$_qtype" > "dig.out.$DIR.test$n" || log_error "dig ${ZONE} ${_qtype} failed"
grep "status: NOERROR" "dig.out.$DIR.test$n" > /dev/null || log_error "mismatch status in DNS response"
grep "${ZONE}\..*IN.*RRSIG.*${_qtype}.*${ZONE}" "dig.out.$DIR.test$n" > "rrsig.out.$ZONE.$_qtype" || log_error "missing RRSIG (${_qtype}) record in response"
# If this exact RRSIG is also in the signed zone file it is not refreshed.
_rrsig=$(awk '{print $5, $6, $7, $8, $9, $10, $11, $12, $13, $14;}' < "rrsig.out.$ZONE.$_qtype")
$CHECKZONE -f raw -F text -s full -o zone.out.${ZONE}.test$n "${ZONE}" "${DIR}/${ZONE}.db.signed" > /dev/null
grep "${_rrsig}" zone.out.${ZONE}.test$n > /dev/null || log_error "RRSIG (${_qtype}) not reused in zone ${ZONE}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
done
# Below apex.
_labels="a b c ns3"
for _label in $_labels;
do
_qtypes="A NSEC"
for _qtype in $_qtypes
do
n=$((n+1))
echo_i "check ${_label} ${_qtype} rrsig is reused correctly for zone ${ZONE} ($n)"
ret=0
dig_with_opts "${_label}.${ZONE}" "@${SERVER}" "$_qtype" > "dig.out.$DIR.test$n" || log_error "dig ${_label}.${ZONE} ${_qtype} failed"
grep "status: NOERROR" "dig.out.$DIR.test$n" > /dev/null || log_error "mismatch status in DNS response"
grep "${ZONE}\..*IN.*RRSIG.*${_qtype}.*${ZONE}" "dig.out.$DIR.test$n" > "rrsig.out.$ZONE.$_qtype" || log_error "missing RRSIG (${_qtype}) record in response"
# If this exact RRSIG is also in the signed zone file it is not refreshed.
_rrsig=$(awk '{print $5, $6, $7, $8, $9, $10, $11, $12, $13, $14;}' < "rrsig.out.$ZONE.$_qtype")
$CHECKZONE -f raw -F text -s full -o zone.out.${ZONE}.test$n "${ZONE}" "${DIR}/${ZONE}.db.signed" > /dev/null
grep "${_rrsig}" zone.out.${ZONE}.test$n > /dev/null || log_error "RRSIG (${_qtype}) not reused in zone ${ZONE}"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
done
done
}
check_rrsig_reuse
#
# Zone: unfresh-sigs.autosign.
#
set_zone "unfresh-sigs.autosign"
set_policy "autosign" "2" "300"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_autosign_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
check_rrsig_refresh
#
# Zone: ksk-missing.autosign.
#
set_zone "ksk-missing.autosign"
set_policy "autosign" "2" "300"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
# Skip checking the private file, because it is missing.
key_set "KEY1" "PRIVATE" "no"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Restore the PRIVATE variable.
key_set "KEY1" "PRIVATE" "yes"
#
# Zone: zsk-missing.autosign.
#
set_zone "zsk-missing.autosign"
set_policy "autosign" "2" "300"
set_server "ns3" "10.53.0.3"
# Key properties, timings and states same as above.
# Skip checking the private file, because it is missing.
key_set "KEY2" "PRIVATE" "no"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# For the apex, we expect the SOA to be signed with the KSK because the ZSK is
# offline. Temporary treat KEY1 as a zone signing key too.
set_keyrole "KEY1" "csk"
set_zonesigning "KEY1" "yes"
set_zonesigning "KEY2" "no"
check_apex
set_keyrole "KEY1" "ksk"
set_zonesigning "KEY1" "no"
set_zonesigning "KEY2" "yes"
check_subdomain
dnssec_verify
# Restore the PRIVATE variable.
key_set "KEY2" "PRIVATE" "yes"
#
# Zone: zsk-retired.autosign.
#
set_zone "zsk-retired.autosign"
set_policy "autosign" "3" "300"
set_server "ns3" "10.53.0.3"
# The third key is not yet expected to be signing.
set_keyrole "KEY3" "zsk"
set_keylifetime "KEY3" "31536000"
set_keyalgorithm "KEY3" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY3" "no"
set_zonesigning "KEY3" "no"
# The ZSK goal is set to HIDDEN but records stay OMNIPRESENT until the new ZSK
# is active.
set_keystate "KEY2" "GOAL" "hidden"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# A new ZSK should be introduced, so expect a key with goal OMNIPRESENT,
# the DNSKEY introduced (RUMOURED) and the signatures HIDDEN.
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_ZRRSIG" "hidden"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_autosign_policy
# The old ZSK is retired.
created=$(key_get KEY2 CREATED)
set_keytime "KEY2" "RETIRED" "${created}"
set_addkeytime "KEY2" "REMOVED" "${created}" 695100
# The new ZSK is immediately published.
created=$(key_get KEY3 CREATED)
set_keytime "KEY3" "PUBLISHED" "${created}"
# And becomes active after Ipub:
# DNSKEY TTL: 300 seconds
# zone-propagation-delay 5 minutes (300 seconds)
# publish-safety: 1 hour (3600 seconds)
# Ipub: 4200 seconds
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "ACTIVE" "${published}" 4200
# Lzsk: 1 year (31536000 seconds)
active=$(key_get KEY3 ACTIVE)
set_addkeytime "KEY3" "RETIRED" "${active}" 31536000
# Iret: 695100 seconds.
retired=$(key_get KEY3 RETIRED)
set_addkeytime "KEY3" "REMOVED" "${retired}" 695100
check_keytimes
check_apex
check_subdomain
dnssec_verify
check_rrsig_refresh
#
# Zone: legacy-keys.kasp.
#
set_zone "legacy-keys.kasp"
# This zone has two active keys and two old keys left in key directory, so
# expect 4 key files.
set_policy "migrate-to-dnssec-policy" "4" "1234"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "16070400"
set_keyalgorithm "KEY1" "8" "RSASHA256" "2048"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "16070400"
set_keyalgorithm "KEY2" "8" "RSASHA256" "2048"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
# KSK: DNSKEY, RRSIG (ksk) published. DS needs to wait.
# ZSK: DNSKEY, RRSIG (zsk) published.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
# Two keys only.
key_clear "KEY3"
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Make sure the correct legacy keys were used (and not the removed predecessor
# keys).
n=$((n+1))
echo_i "check correct keys were used when migrating zone ${ZONE} to dnssec-policy ($n)"
ret=0
kskfile=$(cat ns3/legacy-keys.kasp.ksk)
basefile=$(key_get KEY1 BASEFILE)
echo_i "filename: $basefile (expect $kskfile)"
test "$DIR/$kskfile" = "$basefile" || ret=1
zskfile=$(cat ns3/legacy-keys.kasp.zsk)
basefile=$(key_get KEY2 BASEFILE)
echo_i "filename: $basefile (expect $zskfile)"
test "$DIR/$zskfile" = "$basefile" || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# KSK times.
created=$(key_get KEY1 CREATED)
keyfile=$(key_get KEY1 BASEFILE)
grep "; Publish:" "${keyfile}.key" > published.test${n}.key1
published=$(awk '{print $3}' < published.test${n}.key1)
set_keytime "KEY1" "PUBLISHED" "${published}"
set_keytime "KEY1" "ACTIVE" "${published}"
published=$(key_get KEY1 PUBLISHED)
# The DS can be published if the DNSKEY and RRSIG records are OMNIPRESENT.
# This happens after max-zone-ttl (1d) plus publish-safety (1h) plus
# zone-propagation-delay (300s) = 86400 + 3600 + 300 = 90300.
set_addkeytime "KEY1" "SYNCPUBLISH" "${published}" 90300
# Key lifetime is 6 months, 315360000 seconds.
set_addkeytime "KEY1" "RETIRED" "${published}" 16070400
# The key is removed after the retire time plus DS TTL (1d), parent
# propagation delay (1h), and retire safety (1h) = 86400 + 3600 + 3600 = 93600.
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" 93600
# ZSK times.
created=$(key_get KEY2 CREATED)
keyfile=$(key_get KEY2 BASEFILE)
grep "; Publish:" "${keyfile}.key" > published.test${n}.key2
published=$(awk '{print $3}' < published.test${n}.key2)
set_keytime "KEY2" "PUBLISHED" "${published}"
set_keytime "KEY2" "ACTIVE" "${published}"
published=$(key_get KEY2 PUBLISHED)
# Key lifetime is 6 months, 315360000 seconds.
set_addkeytime "KEY2" "RETIRED" "${published}" 16070400
# The key is removed after the retire time plus max zone ttl (1d), zone
# propagation delay (300s), retire safety (1h), and sign delay (signature
# validity minus refresh, 9d) = 86400 + 300 + 3600 + 777600 = 867900.
retired=$(key_get KEY2 RETIRED)
set_addkeytime "KEY2" "REMOVED" "${retired}" 867900
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Test dnssec-policy inheritance.
#
# These zones should be unsigned:
# ns2/unsigned.tld
# ns4/none.inherit.signed
# ns4/none.override.signed
# ns4/inherit.none.signed
# ns4/none.none.signed
# ns5/inherit.inherit.unsigned
# ns5/none.inherit.unsigned
# ns5/none.override.unsigned
# ns5/inherit.none.unsigned
# ns5/none.none.unsigned
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
set_zone "unsigned.tld"
set_policy "none" "0" "0"
set_server "ns2" "10.53.0.2"
TSIG=""
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "none.inherit.signed"
set_policy "none" "0" "0"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha1:sha1:$SHA1"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "none.override.signed"
set_policy "none" "0" "0"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha224:sha224:$SHA224"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "inherit.none.signed"
set_policy "none" "0" "0"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha256:sha256:$SHA256"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "none.none.signed"
set_policy "none" "0" "0"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha256:sha256:$SHA256"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "inherit.inherit.unsigned"
set_policy "none" "0" "0"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha1:sha1:$SHA1"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "none.inherit.unsigned"
set_policy "none" "0" "0"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha1:sha1:$SHA1"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "none.override.unsigned"
set_policy "none" "0" "0"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha224:sha224:$SHA224"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "inherit.none.unsigned"
set_policy "none" "0" "0"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha256:sha256:$SHA256"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
set_zone "none.none.unsigned"
set_policy "none" "0" "0"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha256:sha256:$SHA256"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
# These zones should be signed with the default policy:
# ns2/signed.tld
# ns4/override.inherit.signed
# ns4/inherit.override.signed
# ns5/override.inherit.signed
# ns5/inherit.override.signed
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
set_zone "signed.tld"
set_policy "default" "1" "3600"
set_server "ns2" "10.53.0.2"
TSIG=""
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "override.inherit.signed"
set_policy "default" "1" "3600"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha1:sha1:$SHA1"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "inherit.override.signed"
set_policy "default" "1" "3600"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha224:sha224:$SHA224"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "override.inherit.unsigned"
set_policy "default" "1" "3600"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha1:sha1:$SHA1"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "inherit.override.unsigned"
set_policy "default" "1" "3600"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha224:sha224:$SHA224"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# These zones should be signed with the test policy:
# ns4/inherit.inherit.signed
# ns4/override.override.signed
# ns4/override.none.signed
# ns5/override.override.unsigned
# ns5/override.none.unsigned
# ns4/example.net (both views)
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "14" "ECDSAP384SHA384" "384"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
set_zone "inherit.inherit.signed"
set_policy "test" "1" "3600"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha1:sha1:$SHA1"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "override.override.signed"
set_policy "test" "1" "3600"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha224:sha224:$SHA224"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "override.none.signed"
set_policy "test" "1" "3600"
set_server "ns4" "10.53.0.4"
TSIG="hmac-sha256:sha256:$SHA256"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "override.override.unsigned"
set_policy "test" "1" "3600"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha224:sha224:$SHA224"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
set_zone "override.none.unsigned"
set_policy "test" "1" "3600"
set_server "ns5" "10.53.0.5"
TSIG="hmac-sha256:sha256:$SHA256"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
set_keytimes_csk_policy
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Test with views.
set_zone "example.net"
set_server "ns4" "10.53.0.4"
TSIG="$DEFAULT_HMAC:keyforview1:$VIEW1"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE" "example1"
set_keytimes_csk_policy
check_keytimes
check_apex
dnssec_verify
# check zonestatus
n=$((n+1))
echo_i "check $ZONE (view example1) zonestatus ($n)"
ret=0
check_isdynamic "$SERVER" "$ZONE" "example1" || log_error "zone not dynamic"
check_inlinesigning "$SERVER" "$ZONE" "example1" && log_error "inline-signing enabled, expected disabled"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# check subdomain
n=$((n+1))
echo_i "check TXT example.net (view example1) rrset is signed correctly ($n)"
ret=0
dig_with_opts "view.${ZONE}" "@${SERVER}" TXT > "dig.out.$DIR.test$n.txt" || log_error "dig view.${ZONE} TXT failed"
grep "status: NOERROR" "dig.out.$DIR.test$n.txt" > /dev/null || log_error "mismatch status in DNS response"
grep "view.${ZONE}\..*${DEFAULT_TTL}.*IN.*TXT.*view1" "dig.out.$DIR.test$n.txt" > /dev/null || log_error "missing view.${ZONE} TXT record in response"
check_signatures TXT "dig.out.$DIR.test$n.txt" "ZSK"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
TSIG="$DEFAULT_HMAC:keyforview2:$VIEW2"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE" "example2"
check_apex
dnssec_verify
# check zonestatus
n=$((n+1))
echo_i "check $ZONE (view example2) zonestatus ($n)"
ret=0
check_isdynamic "$SERVER" "$ZONE" "example2" && log_error "zone dynamic, but not expected"
check_inlinesigning "$SERVER" "$ZONE" "example2" || log_error "inline-signing disabled, expected enabled"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# check subdomain
n=$((n+1))
echo_i "check TXT example.net (view example2) rrset is signed correctly ($n)"
ret=0
dig_with_opts "view.${ZONE}" "@${SERVER}" TXT > "dig.out.$DIR.test$n.txt" || log_error "dig view.${ZONE} TXT failed"
grep "status: NOERROR" "dig.out.$DIR.test$n.txt" > /dev/null || log_error "mismatch status in DNS response"
grep "view.${ZONE}\..*${DEFAULT_TTL}.*IN.*TXT.*view2" "dig.out.$DIR.test$n.txt" > /dev/null || log_error "missing view.${ZONE} TXT record in response"
check_signatures TXT "dig.out.$DIR.test$n.txt" "ZSK"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
TSIG="$DEFAULT_HMAC:keyforview3:$VIEW3"
wait_for_nsec
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE" "example3"
check_apex
dnssec_verify
# check zonestatus
n=$((n+1))
echo_i "check $ZONE (view example3) zonestatus ($n)"
ret=0
check_isdynamic "$SERVER" "$ZONE" "example3" && log_error "zone dynamic, but not expected"
check_inlinesigning "$SERVER" "$ZONE" "example3" || log_error "inline-signing disabled, expected enabled"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# check subdomain
n=$((n+1))
echo_i "check TXT example.net (view example3) rrset is signed correctly ($n)"
ret=0
dig_with_opts "view.${ZONE}" "@${SERVER}" TXT > "dig.out.$DIR.test$n.txt" || log_error "dig view.${ZONE} TXT failed"
grep "status: NOERROR" "dig.out.$DIR.test$n.txt" > /dev/null || log_error "mismatch status in DNS response"
grep "view.${ZONE}\..*${DEFAULT_TTL}.*IN.*TXT.*view2" "dig.out.$DIR.test$n.txt" > /dev/null || log_error "missing view.${ZONE} TXT record in response"
check_signatures TXT "dig.out.$DIR.test$n.txt" "ZSK"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
# Clear TSIG.
TSIG=""
#
# Testing RFC 8901 Multi-Signer Model 2.
#
set_zone "multisigner-model2.kasp"
set_policy "multisigner-model2" "2" "3600"
set_server "ns3" "10.53.0.3"
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# Key properties.
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "0"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Check that the ZSKs from the other provider are published.
zsks_are_published() {
dig_with_opts +short "$ZONE" "@${SERVER}" DNSKEY > "dig.out.$DIR.test$n" || return 1
# We should have three ZSKs.
lines=$(grep "256 3 13" dig.out.$DIR.test$n | wc -l)
test "$lines" -eq 3 || return 1
# And one KSK.
lines=$(grep "257 3 13" dig.out.$DIR.test$n | wc -l)
test "$lines" -eq 1 || return 1
}
n=$((n+1))
echo_i "update zone with ZSK from another provider for zone ${ZONE} ($n)"
ret=0
(
echo zone ${ZONE}
echo server 10.53.0.3 "$PORT"
echo update add $(cat "${DIR}/${ZONE}.zsk2")
echo send
) | $NSUPDATE
retry_quiet 10 zsks_are_published || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Testing manual rollover.
#
set_zone "manual-rollover.kasp"
set_policy "manual-rollover" "2" "3600"
set_server "ns3" "10.53.0.3"
key_clear "KEY1"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# Key properties.
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "0"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
# During set up everything was set to OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# The first keys were published and activated a day ago.
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "PUBLISHED" "${created}" -86400
set_addkeytime "KEY1" "SYNCPUBLISH" "${created}" -86400
set_addkeytime "KEY1" "ACTIVE" "${created}" -86400
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -86400
set_addkeytime "KEY2" "ACTIVE" "${created}" -86400
# Key lifetimes are unlimited, so not setting RETIRED and REMOVED.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Schedule KSK rollover in six months (15552000 seconds).
active=$(key_get KEY1 ACTIVE)
set_addkeytime "KEY1" "RETIRED" "${active}" 15552000
retired=$(key_get KEY1 RETIRED)
rndc_rollover "$SERVER" "$DIR" $(key_get KEY1 ID) "${retired}" "$ZONE"
# Rollover starts in six months, but lifetime is set to six months plus
# prepublication duration = 15552000 + 7500 = 15559500 seconds.
set_keylifetime "KEY1" "15559500"
set_addkeytime "KEY1" "RETIRED" "${active}" 15559500
retired=$(key_get KEY1 RETIRED)
# Retire interval of this policy is 26h (93600 seconds).
set_addkeytime "KEY1" "REMOVED" "${retired}" 93600
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Schedule KSK rollover now.
set_policy "manual-rollover" "3" "3600"
set_keystate "KEY1" "GOAL" "hidden"
# This key was activated one day ago, so lifetime is set to 1d plus
# prepublication duration (7500 seconds) = 93900 seconds.
set_keylifetime "KEY1" "93900"
created=$(key_get KEY1 CREATED)
set_keytime "KEY1" "RETIRED" "${created}"
rndc_rollover "$SERVER" "$DIR" $(key_get KEY1 ID) "${created}" "$ZONE"
# New key is introduced.
set_keyrole "KEY3" "ksk"
set_keylifetime "KEY3" "0"
set_keyalgorithm "KEY3" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY3" "yes"
set_zonesigning "KEY3" "no"
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_KRRSIG" "rumoured"
set_keystate "KEY3" "STATE_DS" "hidden"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Schedule ZSK rollover now.
set_policy "manual-rollover" "4" "3600"
set_keystate "KEY2" "GOAL" "hidden"
# This key was activated one day ago, so lifetime is set to 1d plus
# prepublication duration (7500 seconds) = 93900 seconds.
set_keylifetime "KEY2" "93900"
created=$(key_get KEY2 CREATED)
set_keytime "KEY2" "RETIRED" "${created}"
rndc_rollover "$SERVER" "$DIR" $(key_get KEY2 ID) "${created}" "$ZONE"
# New key is introduced.
set_keyrole "KEY4" "zsk"
set_keylifetime "KEY4" "0"
set_keyalgorithm "KEY4" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY4" "no"
set_zonesigning "KEY4" "no" # not yet, first prepublish DNSKEY.
set_keystate "KEY4" "GOAL" "omnipresent"
set_keystate "KEY4" "STATE_DNSKEY" "rumoured"
set_keystate "KEY4" "STATE_ZRRSIG" "hidden"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Try to schedule a ZSK rollover for an inactive key (should fail).
n=$((n+1))
echo_i "check that rndc dnssec -rollover fails if key is inactive ($n)"
ret=0
rndccmd "$SERVER" dnssec -rollover -key $(key_get KEY4 ID) "$ZONE" > rndc.dnssec.rollover.out.$ZONE.$n
grep "key is not actively signing" rndc.dnssec.rollover.out.$ZONE.$n > /dev/null || log_error "bad error message"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
#
# Testing DNSSEC introduction.
#
#
# Zone: step1.enable-dnssec.autosign.
#
set_zone "step1.enable-dnssec.autosign"
set_policy "enable-dnssec" "1" "300"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# The DNSKEY and signatures are introduced first, the DS remains hidden.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
# This policy lists only one key (CSK).
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The first key is immediately published and activated.
created=$(key_get KEY1 CREATED)
set_keytime "KEY1" "PUBLISHED" "${created}"
set_keytime "KEY1" "ACTIVE" "${created}"
# - The DS can be published if the DNSKEY and RRSIG records are
# OMNIPRESENT. This happens after max-zone-ttl (12h) plus
# publish-safety (5m) plus zone-propagation-delay (5m) =
# 43200 + 300 + 300 = 43800.
set_addkeytime "KEY1" "SYNCPUBLISH" "${created}" 43800
# - Key lifetime is unlimited, so not setting RETIRED and REMOVED.
# Various signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
_check_next_key_event() {
_expect=$1
grep "zone ${ZONE}.*: next key event in .* seconds" "${DIR}/named.run" > "keyevent.out.$ZONE.test$n" || return 1
# Get the latest next key event.
if [ "${DYNAMIC}" = "yes" ]; then
_time=$(awk '{print $9}' < "keyevent.out.$ZONE.test$n" | tail -1)
else
# inline-signing zone adds "(signed)"
_time=$(awk '{print $10}' < "keyevent.out.$ZONE.test$n" | tail -1)
fi
# The next key event time must within threshold of the
# expected time.
_expectmin=$((_expect-next_key_event_threshold))
_expectmax=$((_expect+next_key_event_threshold))
test $_expectmin -le "$_time" || return 1
test $_expectmax -ge "$_time" || return 1
return 0
}
check_next_key_event() {
n=$((n+1))
echo_i "check next key event for zone ${ZONE} ($n)"
ret=0
retry_quiet 3 _check_next_key_event $1 || log_error "bad next key event time for zone ${ZONE} (expect ${_expect})"
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
}
# Next key event is when the DNSKEY RRset becomes OMNIPRESENT: DNSKEY TTL plus
# publish safety plus the zone propagation delay: 900 seconds.
check_next_key_event 900
#
# Zone: step2.enable-dnssec.autosign.
#
set_zone "step2.enable-dnssec.autosign"
set_policy "enable-dnssec" "1" "300"
set_server "ns3" "10.53.0.3"
# The DNSKEY is omnipresent, but the zone signatures not yet.
# Thus, the DS remains hidden.
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The key was published and activated 900 seconds ago (with settime).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "PUBLISHED" "${created}" -900
set_addkeytime "KEY1" "ACTIVE" "${created}" -900
set_addkeytime "KEY1" "SYNCPUBLISH" "${created}" 43800
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the zone signatures become OMNIPRESENT: max-zone-ttl
# plus zone propagation delay plus retire safety minus the already elapsed
# 900 seconds: 12h + 300s + 20m - 900 = 44700 - 900 = 43800 seconds
check_next_key_event 43800
#
# Zone: step3.enable-dnssec.autosign.
#
set_zone "step3.enable-dnssec.autosign"
set_policy "enable-dnssec" "1" "300"
set_server "ns3" "10.53.0.3"
# All signatures should be omnipresent, so the DS can be submitted.
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "rumoured"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The key was published and activated 44700 seconds ago (with settime).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "PUBLISHED" "${created}" -44700
set_addkeytime "KEY1" "ACTIVE" "${created}" -44700
set_keytime "KEY1" "SYNCPUBLISH" "${created}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Check that CDS publication is logged.
check_cdslog "$DIR" "$ZONE" KEY1
# The DS can be introduced. We ignore any parent registration delay, so set
# the DS publish time to now.
rndc_checkds "$SERVER" "$DIR" KEY1 "now" "published" "$ZONE"
# Next key event is when the DS can move to the OMNIPRESENT state. This occurs
# when the parent propagation delay have passed, plus the DS TTL and retire
# safety delay: 1h + 2h + 20m = 3h20m = 12000 seconds
check_next_key_event 12000
#
# Zone: step4.enable-dnssec.autosign.
#
set_zone "step4.enable-dnssec.autosign"
set_policy "enable-dnssec" "1" "300"
set_server "ns3" "10.53.0.3"
# The DS is omnipresent.
set_keystate "KEY1" "STATE_DS" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The key was published and activated 56700 seconds ago (with settime).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "PUBLISHED" "${created}" -56700
set_addkeytime "KEY1" "ACTIVE" "${created}" -56700
set_addkeytime "KEY1" "SYNCPUBLISH" "${created}" -12000
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is never, the zone dnssec-policy has been established. So we
# fall back to the default loadkeys interval.
check_next_key_event 3600
#
# Testing ZSK Pre-Publication rollover.
#
# Policy parameters.
# Lksk: 2 years (63072000 seconds)
# Lzsk: 30 days (2592000 seconds)
# Iret(KSK): DS TTL (1d) + DprpP (1h) + retire-safety (2d)
# Iret(KSK): 3d1h (262800 seconds)
# Iret(ZSK): RRSIG TTL (1d) + Dprp (1h) + Dsgn (1w) + retire-safety (2d)
# Iret(ZSK): 10d1h (867600 seconds)
Lksk=63072000
Lzsk=2592000
IretKSK=262800
IretZSK=867600
#
# Zone: step1.zsk-prepub.autosign.
#
set_zone "step1.zsk-prepub.autosign"
set_policy "zsk-prepub" "2" "3600"
set_server "ns3" "10.53.0.3"
set_retired_removed() {
_Lkey=$2
_Iret=$3
_active=$(key_get $1 ACTIVE)
set_addkeytime "${1}" "RETIRED" "${_active}" "${_Lkey}"
_retired=$(key_get $1 RETIRED)
set_addkeytime "${1}" "REMOVED" "${_retired}" "${_Iret}"
}
rollover_predecessor_keytimes() {
_addtime=$1
_created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "PUBLISHED" "${_created}" "${_addtime}"
set_addkeytime "KEY1" "SYNCPUBLISH" "${_created}" "${_addtime}"
set_addkeytime "KEY1" "ACTIVE" "${_created}" "${_addtime}"
[ "$Lksk" = 0 ] || set_retired_removed "KEY1" "${Lksk}" "${IretKSK}"
_created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${_created}" "${_addtime}"
set_addkeytime "KEY2" "ACTIVE" "${_created}" "${_addtime}"
[ "$Lzsk" = 0 ] || set_retired_removed "KEY2" "${Lzsk}" "${IretZSK}"
}
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "${Lksk}"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "${Lzsk}"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
# Both KSK (KEY1) and ZSK (KEY2) start in OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# Initially only two keys.
key_clear "KEY3"
key_clear "KEY4"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# These keys are immediately published and activated.
rollover_predecessor_keytimes 0
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor ZSK needs to be published. That is
# the ZSK lifetime - prepublication time. The prepublication time is DNSKEY
# TTL plus publish safety plus the zone propagation delay. For the
# zsk-prepub policy that means: 30d - 3600s + 1d + 1h = 2498400 seconds.
check_next_key_event 2498400
#
# Zone: step2.zsk-prepub.autosign.
#
set_zone "step2.zsk-prepub.autosign"
set_policy "zsk-prepub" "3" "3600"
set_server "ns3" "10.53.0.3"
# New ZSK (KEY3) is prepublished, but not yet signing.
key_clear "KEY3"
set_keyrole "KEY3" "zsk"
set_keylifetime "KEY3" "${Lzsk}"
set_keyalgorithm "KEY3" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY3" "no"
set_zonesigning "KEY3" "no"
# Key states.
set_keystate "KEY2" "GOAL" "hidden"
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_ZRRSIG" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated 694 hours ago (2498400 seconds).
rollover_predecessor_keytimes -2498400
# - The new ZSK is published now.
created=$(key_get KEY3 CREATED)
set_keytime "KEY3" "PUBLISHED" "${created}"
# - The new ZSK becomes active when the DNSKEY is OMNIPRESENT.
# Ipub: TTLkey (1h) + Dprp (1h) + publish-safety (1d)
# Ipub: 26 hour (93600 seconds).
IpubZSK=93600
set_addkeytime "KEY3" "ACTIVE" "${created}" "${IpubZSK}"
set_retired_removed "KEY3" "${Lzsk}" "${IretZSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor ZSK becomes OMNIPRESENT. That is the
# DNSKEY TTL plus the zone propagation delay, plus the publish-safety. For
# the zsk-prepub policy, this means: 3600s + 1h + 1d = 93600 seconds.
check_next_key_event 93600
#
# Zone: step3.zsk-prepub.autosign.
#
set_zone "step3.zsk-prepub.autosign"
set_policy "zsk-prepub" "3" "3600"
set_server "ns3" "10.53.0.3"
# ZSK (KEY2) no longer is actively signing, RRSIG state in UNRETENTIVE.
# New ZSK (KEY3) is now actively signing, RRSIG state in RUMOURED.
set_zonesigning "KEY2" "no"
set_keystate "KEY2" "STATE_ZRRSIG" "unretentive"
set_zonesigning "KEY3" "yes"
set_keystate "KEY3" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY3" "STATE_ZRRSIG" "rumoured"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys are activated 30 days ago (2592000 seconds).
rollover_predecessor_keytimes -2592000
# - The new ZSK is published 26 hours ago (93600 seconds).
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -93600
set_keytime "KEY3" "ACTIVE" "${created}"
set_retired_removed "KEY3" "${Lzsk}" "${IretZSK}"
# Continue signing policy checks.
check_keytimes
check_apex
# Subdomain still has good signatures of ZSK (KEY2).
# Set expected zone signing on for KEY2 and off for KEY3,
# testing whether signatures which are still valid are being reused.
set_zonesigning "KEY2" "yes"
set_zonesigning "KEY3" "no"
check_subdomain
# Restore the expected zone signing properties.
set_zonesigning "KEY2" "no"
set_zonesigning "KEY3" "yes"
dnssec_verify
# Next key event is when all the RRSIG records have been replaced with
# signatures of the new ZSK, in other words when ZRRSIG becomes OMNIPRESENT.
# That is Dsgn plus the maximum zone TTL plus the zone propagation delay plus
# retire-safety. For the zsk-prepub policy that means: 1w (because 2w validity
# and refresh within a week) + 1d + 1h + 2d = 10d1h = 867600 seconds.
check_next_key_event 867600
#
# Zone: step4.zsk-prepub.autosign.
#
set_zone "step4.zsk-prepub.autosign"
set_policy "zsk-prepub" "3" "3600"
set_server "ns3" "10.53.0.3"
# ZSK (KEY2) DNSKEY is no longer needed.
# ZSK (KEY3) is now actively signing, RRSIG state in RUMOURED.
set_keystate "KEY2" "STATE_DNSKEY" "unretentive"
set_keystate "KEY2" "STATE_ZRRSIG" "hidden"
set_keystate "KEY3" "STATE_ZRRSIG" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys are activated 961 hours ago (3459600 seconds).
rollover_predecessor_keytimes -3459600
# - The new ZSK is published 267 hours ago (961200 seconds).
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -961200
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "ACTIVE" "${published}" "${IpubZSK}"
set_retired_removed "KEY3" "${Lzsk}" "${IretZSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the DNSKEY enters the HIDDEN state. This is the
# DNSKEY TTL plus zone propagation delay. For the zsk-prepub policy this is:
# 3600s + 1h = 7200s
check_next_key_event 7200
#
# Zone: step5.zsk-prepub.autosign.
#
set_zone "step5.zsk-prepub.autosign"
set_policy "zsk-prepub" "3" "3600"
set_server "ns3" "10.53.0.3"
# ZSK (KEY2) DNSKEY is now completely HIDDEN and removed.
set_keystate "KEY2" "STATE_DNSKEY" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys are activated 962 hours ago (3463200 seconds).
rollover_predecessor_keytimes -3463200
# - The new ZSK is published 268 hours ago (964800 seconds).
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -964800
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "ACTIVE" "${published}" "${IpubZSK}"
set_retired_removed "KEY3" "${Lzsk}" "${IretZSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the new successor needs to be published. This is the
# ZSK lifetime minus Iret minus Ipub minus DNSKEY TTL. For the zsk-prepub
# policy this is: 30d - 867600s - 93600s - 3600s = 1627200 seconds.
check_next_key_event 1627200
#
# Zone: step6.zsk-prepub.autosign.
#
set_zone "step6.zsk-prepub.autosign"
set_policy "zsk-prepub" "2" "3600"
set_server "ns3" "10.53.0.3"
# ZSK (KEY2) DNSKEY is purged.
key_clear "KEY2"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
#
# Testing KSK Double-KSK rollover.
#
# Policy parameters.
# Lksk: 60 days (16070400 seconds)
# Lzsk: 1 year (31536000 seconds)
# Iret(KSK): DS TTL (1h) + DprpP (1h) + retire-safety (2d)
# Iret(KSK): 50h (180000 seconds)
# Iret(ZSK): RRSIG TTL (1d) + Dprp (1h) + Dsgn (1w) + retire-safety (2d)
# Iret(ZSK): 10d1h (867600 seconds)
Lksk=5184000
Lzsk=31536000
IretKSK=180000
IretZSK=867600
#
# Zone: step1.ksk-doubleksk.autosign.
#
set_zone "step1.ksk-doubleksk.autosign"
set_policy "ksk-doubleksk" "2" "7200"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "${Lksk}"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "${Lzsk}"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
# Both KSK (KEY1) and ZSK (KEY2) start in OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# Initially only two keys.
key_clear "KEY3"
key_clear "KEY4"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# These keys are immediately published and activated.
rollover_predecessor_keytimes 0
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor KSK needs to be published. That is
# the KSK lifetime - prepublication time. The prepublication time is
# DNSKEY TTL plus publish safety plus the zone propagation delay.
# For the ksk-doubleksk policy that means: 60d - (1d3h) = 5086800 seconds.
check_next_key_event 5086800
#
# Zone: step2.ksk-doubleksk.autosign.
#
set_zone "step2.ksk-doubleksk.autosign"
set_policy "ksk-doubleksk" "3" "7200"
set_server "ns3" "10.53.0.3"
# New KSK (KEY3) is prepublished (and signs DNSKEY RRset).
key_clear "KEY3"
set_keyrole "KEY3" "ksk"
set_keylifetime "KEY3" "${Lksk}"
set_keyalgorithm "KEY3" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY3" "yes"
set_zonesigning "KEY3" "no"
# Key states.
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_KRRSIG" "rumoured"
set_keystate "KEY3" "STATE_DS" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated 1413 hours ago (5086800 seconds).
rollover_predecessor_keytimes -5086800
# - The new KSK is published now.
created=$(key_get KEY3 CREATED)
set_keytime "KEY3" "PUBLISHED" "${created}"
# The new KSK should publish the CDS after the prepublication time.
# TTLkey: 2h
# DprpC: 1h
# publish-safety: 1d
# IpubC: 27h (97200 seconds)
IpubC=97200
set_addkeytime "KEY3" "SYNCPUBLISH" "${created}" "${IpubC}"
set_addkeytime "KEY3" "ACTIVE" "${created}" "${IpubC}"
set_retired_removed "KEY3" "${Lksk}" "${IretKSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor KSK becomes OMNIPRESENT. That is the
# DNSKEY TTL plus the zone propagation delay, plus the publish-safety. For
# the ksk-doubleksk policy, this means: 7200s + 1h + 1d = 97200 seconds.
check_next_key_event 97200
#
# Zone: step3.ksk-doubleksk.autosign.
#
set_zone "step3.ksk-doubleksk.autosign"
set_policy "ksk-doubleksk" "3" "7200"
set_server "ns3" "10.53.0.3"
# The DNSKEY RRset has become omnipresent.
# Check keys before we tell named that we saw the DS has been replaced.
set_keystate "KEY3" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY3" "STATE_KRRSIG" "omnipresent"
# The old DS (KEY1) can be withdrawn and the new DS (KEY3) can be introduced.
set_keystate "KEY1" "STATE_DS" "unretentive"
set_keystate "KEY3" "STATE_DS" "rumoured"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Check that CDS publication is logged.
check_cdslog "$DIR" "$ZONE" KEY3
# Set expected key times:
# - The old keys were activated 60 days ago (5184000 seconds).
rollover_predecessor_keytimes -5184000
# - The new KSK is published 27 hours ago (97200 seconds).
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -97200
# - The new KSK CDS is published now.
set_keytime "KEY3" "SYNCPUBLISH" "${created}"
syncpub=$(key_get KEY3 SYNCPUBLISH)
set_keytime "KEY3" "ACTIVE" "${syncpub}"
set_retired_removed "KEY3" "${Lksk}" "${IretKSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# We ignore any parent registration delay, so set the DS publish time to now.
rndc_checkds "$SERVER" "$DIR" KEY1 "now" "withdrawn" "$ZONE"
rndc_checkds "$SERVER" "$DIR" KEY3 "now" "published" "$ZONE"
# Next key event is when the predecessor DS has been replaced with the
# successor DS and enough time has passed such that the all validators that
# have this DS RRset cached only know about the successor DS. This is the
# the retire interval, which is the parent propagation delay plus the DS TTL
# plus the retire-safety. For the ksk-double-ksk policy this means:
# 1h + 3600s + 2d = 2d2h = 180000 seconds.
check_next_key_event 180000
#
# Zone: step4.ksk-doubleksk.autosign.
#
set_zone "step4.ksk-doubleksk.autosign"
set_policy "ksk-doubleksk" "3" "7200"
set_server "ns3" "10.53.0.3"
# KSK (KEY1) DNSKEY can be removed.
set_keysigning "KEY1" "no"
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_KRRSIG" "unretentive"
set_keystate "KEY1" "STATE_DS" "hidden"
# New KSK (KEY3) DS is now OMNIPRESENT.
set_keystate "KEY3" "STATE_DS" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated 1490 hours ago (5364000 seconds).
rollover_predecessor_keytimes -5364000
# - The new KSK is published 77 hours ago (277200 seconds).
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -277200
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "SYNCPUBLISH" "${published}" "${IpubC}"
syncpub=$(key_get KEY3 SYNCPUBLISH)
set_keytime "KEY3" "ACTIVE" "${syncpub}"
set_retired_removed "KEY3" "${Lksk}" "${IretKSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the DNSKEY enters the HIDDEN state. This is the
# DNSKEY TTL plus zone propagation delay. For the ksk-doubleksk policy this is:
# 7200s + 1h = 10800s
check_next_key_event 10800
#
# Zone: step5.ksk-doubleksk.autosign.
#
set_zone "step5.ksk-doubleksk.autosign"
set_policy "ksk-doubleksk" "3" "7200"
set_server "ns3" "10.53.0.3"
# KSK (KEY1) DNSKEY is now HIDDEN.
set_keystate "KEY1" "STATE_DNSKEY" "hidden"
set_keystate "KEY1" "STATE_KRRSIG" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old KSK is activated 1492 hours ago (5371200 seconds).
rollover_predecessor_keytimes -5371200
# - The new KSK is published 79 hours ago (284400 seconds).
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -284400
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "SYNCPUBLISH" "${published}" "${IpubC}"
syncpub=$(key_get KEY3 SYNCPUBLISH)
set_keytime "KEY3" "ACTIVE" "${syncpub}"
set_retired_removed "KEY3" "${Lksk}" "${IretKSK}"
# Various signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the new successor needs to be published. This is the
# KSK lifetime minus Ipub minus Iret minus DNSKEY TTL. For the
# ksk-doubleksk this is: 60d - 1d3h - 1d - 2d2h - 2h =
# 5184000 - 97200 - 180000 - 7200 = 4813200 seconds.
check_next_key_event 4899600
#
# Zone: step6.ksk-doubleksk.autosign.
#
set_zone "step6.ksk-doubleksk.autosign"
set_policy "ksk-doubleksk" "2" "7200"
set_server "ns3" "10.53.0.3"
# KSK (KEY1) DNSKEY is purged.
key_clear "KEY1"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
#
# Testing CSK key rollover (1).
#
# Policy parameters.
# Lcsk: 186 days (5184000 seconds)
# Iret(KSK): DS TTL (1h) + DprpP (1h) + retire-safety (2h)
# Iret(KSK): 4h (14400 seconds)
# Iret(ZSK): RRSIG TTL (1d) + Dprp (1h) + Dsgn (25d) + retire-safety (2h)
# Iret(ZSK): 26d3h (2257200 seconds)
Lcsk=16070400
IretKSK=14400
IretZSK=2257200
IretCSK=$IretZSK
csk_rollover_predecessor_keytimes() {
_addtime=$1
_created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "PUBLISHED" "${_created}" "${_addtime}"
set_addkeytime "KEY1" "SYNCPUBLISH" "${_created}" "${_addtime}"
set_addkeytime "KEY1" "ACTIVE" "${_created}" "${_addtime}"
[ "$Lcsk" = 0 ] || set_retired_removed "KEY1" "${Lcsk}" "${IretCSK}"
}
#
# Zone: step1.csk-roll.autosign.
#
set_zone "step1.csk-roll.autosign"
set_policy "csk-roll" "1" "3600"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "${Lcsk}"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# The CSK (KEY1) starts in OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
# Initially only one key.
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# This key is immediately published and activated.
csk_rollover_predecessor_keytimes 0
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor CSK needs to be published.
# This is Lcsk - Ipub - Dreg.
# Lcsk: 186d (16070400 seconds)
# Ipub: 3h (10800 seconds)
check_next_key_event 16059600
#
# Zone: step2.csk-roll.autosign.
#
set_zone "step2.csk-roll.autosign"
set_policy "csk-roll" "2" "3600"
set_server "ns3" "10.53.0.3"
# New CSK (KEY2) is prepublished (signs DNSKEY RRset, but not yet other RRsets).
key_clear "KEY2"
set_keyrole "KEY2" "csk"
set_keylifetime "KEY2" "16070400"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "yes"
set_zonesigning "KEY2" "no"
# Key states.
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_KRRSIG" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "hidden"
set_keystate "KEY2" "STATE_DS" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 4461 hours ago (16059600 seconds).
csk_rollover_predecessor_keytimes -16059600
# - The new CSK is published now.
created=$(key_get KEY2 CREATED)
set_keytime "KEY2" "PUBLISHED" "${created}"
# - The new CSK should publish the CDS after the prepublication time.
# Ipub: 3 hour (10800 seconds)
Ipub="10800"
set_addkeytime "KEY2" "SYNCPUBLISH" "${created}" "${Ipub}"
set_addkeytime "KEY2" "ACTIVE" "${created}" "${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor CSK becomes OMNIPRESENT. That is the
# DNSKEY TTL plus the zone propagation delay, plus the publish-safety. For
# the csk-roll policy, this means 3 hours = 10800 seconds.
check_next_key_event 10800
#
# Zone: step3.csk-roll.autosign.
#
set_zone "step3.csk-roll.autosign"
set_policy "csk-roll" "2" "3600"
set_server "ns3" "10.53.0.3"
# Swap zone signing role.
set_zonesigning "KEY1" "no"
set_zonesigning "KEY2" "yes"
# CSK (KEY1) will be removed, so moving to UNRETENTIVE.
set_keystate "KEY1" "STATE_ZRRSIG" "unretentive"
# New CSK (KEY2) DNSKEY is OMNIPRESENT, so moving ZRRSIG to RUMOURED.
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
# The old DS (KEY1) can be withdrawn and the new DS (KEY2) can be introduced.
set_keystate "KEY1" "STATE_DS" "unretentive"
set_keystate "KEY2" "STATE_DS" "rumoured"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Check that CDS publication is logged.
check_cdslog "$DIR" "$ZONE" KEY2
# Set expected key times:
# - This key was activated 186 days ago (16070400 seconds).
csk_rollover_predecessor_keytimes -16070400
# - The new CSK is published three hours ago, CDS must be published now.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" "-${Ipub}"
set_keytime "KEY2" "SYNCPUBLISH" "${created}"
# - Also signatures are being introduced now.
set_keytime "KEY2" "ACTIVE" "${created}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
# Subdomain still has good signatures of old CSK (KEY1).
# Set expected zone signing on for KEY1 and off for KEY2,
# testing whether signatures which are still valid are being reused.
set_zonesigning "KEY1" "yes"
set_zonesigning "KEY2" "no"
check_subdomain
# Restore the expected zone signing properties.
set_zonesigning "KEY1" "no"
set_zonesigning "KEY2" "yes"
dnssec_verify
# We ignore any parent registration delay, so set the DS publish time to now.
rndc_checkds "$SERVER" "$DIR" KEY1 "now" "withdrawn" "$ZONE"
rndc_checkds "$SERVER" "$DIR" KEY2 "now" "published" "$ZONE"
# Next key event is when the predecessor DS has been replaced with the
# successor DS and enough time has passed such that the all validators that
# have this DS RRset cached only know about the successor DS. This is the
# the retire interval, which is the parent propagation delay plus the DS TTL
# plus the retire-safety. For the csk-roll policy this means:
# 1h + 1h + 2h = 4h = 14400 seconds.
check_next_key_event 14400
#
# Zone: step4.csk-roll.autosign.
#
set_zone "step4.csk-roll.autosign"
set_policy "csk-roll" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) is no longer signing the DNSKEY RRset.
set_keysigning "KEY1" "no"
# The old CSK (KEY1) DS is hidden. We still need to keep the DNSKEY public
# but can remove the KRRSIG records.
set_keystate "KEY1" "STATE_KRRSIG" "unretentive"
set_keystate "KEY1" "STATE_DS" "hidden"
# The new CSK (KEY2) DS is now OMNIPRESENT.
set_keystate "KEY2" "STATE_DS" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 4468 hours ago (16084800 seconds).
csk_rollover_predecessor_keytimes -16084800
# - The new CSK started signing 4h ago (14400 seconds).
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "ACTIVE" "${created}" -14400
set_addkeytime "KEY2" "SYNCPUBLISH" "${created}" -14400
syncpub=$(key_get KEY2 SYNCPUBLISH)
set_addkeytime "KEY2" "PUBLISHED" "${syncpub}" "-${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the KRRSIG enters the HIDDEN state. This is the
# DNSKEY TTL plus zone propagation delay. For the csk-roll policy this is:
# 1h + 1h = 7200 seconds.
check_next_key_event 7200
#
# Zone: step5.csk-roll.autosign.
#
set_zone "step5.csk-roll.autosign"
set_policy "csk-roll" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) KRRSIG records are now all hidden.
set_keystate "KEY1" "STATE_KRRSIG" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 4470 hours ago (16092000 seconds).
csk_rollover_predecessor_keytimes -16092000
# - The new CSK started signing 6h ago (21600 seconds).
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "ACTIVE" "${created}" -21600
set_addkeytime "KEY2" "SYNCPUBLISH" "${created}" -21600
syncpub=$(key_get KEY2 SYNCPUBLISH)
set_addkeytime "KEY2" "PUBLISHED" "${syncpub}" "-${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the DNSKEY can be removed. This is when all ZRRSIG
# records have been replaced with signatures of the new CSK. We have
# calculated the interval to be 26d3h of which 4h (Iret(KSK)) plus
# 2h (DNSKEY TTL + Dprp) have already passed. So next key event is in
# 26d3h - 4h - 2h = 621h = 2235600 seconds.
check_next_key_event 2235600
#
# Zone: step6.csk-roll.autosign.
#
set_zone "step6.csk-roll.autosign"
set_policy "csk-roll" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) ZRRSIG records are now all hidden (so the DNSKEY can
# be removed).
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_ZRRSIG" "hidden"
# The new CSK (KEY2) is now fully OMNIPRESENT.
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times
# - This key was activated 5091 hours ago (18327600 seconds).
csk_rollover_predecessor_keytimes -18327600
# - The new CSK is activated 627 hours ago (2257200 seconds).
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "ACTIVE" "${created}" -2257200
set_addkeytime "KEY2" "SYNCPUBLISH" "${created}" -2257200
syncpub=$(key_get KEY2 SYNCPUBLISH)
set_addkeytime "KEY2" "PUBLISHED" "${syncpub}" "-${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the DNSKEY enters the HIDDEN state. This is the
# DNSKEY TTL plus zone propagation delay. For the csk-roll policy this is:
# 1h + 1h = 7200 seconds.
check_next_key_event 7200
#
# Zone: step7.csk-roll.autosign.
#
set_zone "step7.csk-roll.autosign"
set_policy "csk-roll" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) is now completely HIDDEN.
set_keystate "KEY1" "STATE_DNSKEY" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 5093 hours ago (18334800 seconds).
csk_rollover_predecessor_keytimes -18334800
# - The new CSK is activated 629 hours ago (2264400 seconds).
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "ACTIVE" "${created}" -2264400
set_addkeytime "KEY2" "SYNCPUBLISH" "${created}" -2264400
syncpub=$(key_get KEY2 SYNCPUBLISH)
set_addkeytime "KEY2" "PUBLISHED" "${syncpub}" "-${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the new successor needs to be published.
# This is the Lcsk, minus time passed since the key started signing,
# minus the prepublication time.
# Lcsk: 186d (16070400 seconds)
# Time passed: 629h (2264400 seconds)
# Ipub: 3h (10800 seconds)
check_next_key_event 13795200
#
# Zone: step8.csk-roll.autosign.
#
set_zone "step8.csk-roll.autosign"
set_policy "csk-roll" "1" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) is purged.
key_clear "KEY1"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
#
# Testing CSK key rollover (2).
#
# Policy parameters.
# Lcsk: 186 days (16070400 seconds)
# Dreg: N/A
# Iret(KSK): DS TTL (1h) + DprpP (1w) + retire-safety (1h)
# Iret(KSK): 170h (61200 seconds)
# Iret(ZSK): RRSIG TTL (1d) + Dprp (1h) + Dsgn (12h) + retire-safety (1h)
# Iret(ZSK): 38h (136800 seconds)
Lcsk=16070400
IretKSK=612000
IretZSK=136800
IretCSK=$IretKSK
#
# Zone: step1.csk-roll2.autosign.
#
set_zone "step1.csk-roll2.autosign"
set_policy "csk-roll2" "1" "3600"
set_server "ns3" "10.53.0.3"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "16070400"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# The CSK (KEY1) starts in OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
# Initially only one key.
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# This key is immediately published and activated.
csk_rollover_predecessor_keytimes 0
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor CSK needs to be published.
# This is Lcsk - Ipub.
# Lcsk: 186d (16070400 seconds)
# Ipub: 3h (10800 seconds)
# Total: 186d3h (16059600 seconds)
check_next_key_event 16059600
#
# Zone: step2.csk-roll2.autosign.
#
set_zone "step2.csk-roll2.autosign"
set_policy "csk-roll2" "2" "3600"
set_server "ns3" "10.53.0.3"
# New CSK (KEY2) is prepublished (signs DNSKEY RRset, but not yet other RRsets).
key_clear "KEY2"
set_keyrole "KEY2" "csk"
set_keylifetime "KEY2" "16070400"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "yes"
set_zonesigning "KEY2" "no"
# Key states.
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_KRRSIG" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "hidden"
set_keystate "KEY2" "STATE_DS" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 4461 hours ago (16059600 seconds).
csk_rollover_predecessor_keytimes -16059600
# - The new CSK is published now.
created=$(key_get KEY2 CREATED)
set_keytime "KEY2" "PUBLISHED" "${created}"
# - The new CSK should publish the CDS after the prepublication time.
# - Ipub: 3 hour (10800 seconds)
Ipub="10800"
set_addkeytime "KEY2" "SYNCPUBLISH" "${created}" "${Ipub}"
set_addkeytime "KEY2" "ACTIVE" "${created}" "${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor CSK becomes OMNIPRESENT. That is the
# DNSKEY TTL plus the zone propagation delay, plus the publish-safety. For
# the csk-roll2 policy, this means 3h hours = 10800 seconds.
check_next_key_event 10800
#
# Zone: step3.csk-roll2.autosign.
#
set_zone "step3.csk-roll2.autosign"
set_policy "csk-roll2" "2" "3600"
set_server "ns3" "10.53.0.3"
# CSK (KEY1) can be removed, so move to UNRETENTIVE.
set_zonesigning "KEY1" "no"
set_keystate "KEY1" "STATE_ZRRSIG" "unretentive"
# New CSK (KEY2) DNSKEY is OMNIPRESENT, so move ZRRSIG to RUMOURED state.
set_zonesigning "KEY2" "yes"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
# The old DS (KEY1) can be withdrawn and the new DS (KEY2) can be introduced.
set_keystate "KEY1" "STATE_DS" "unretentive"
set_keystate "KEY2" "STATE_DS" "rumoured"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Check that CDS publication is logged.
check_cdslog "$DIR" "$ZONE" KEY2
# Set expected key times:
# - This key was activated 186 days ago (16070400 seconds).
csk_rollover_predecessor_keytimes -16070400
# - The new CSK is published three hours ago, CDS must be published now.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" "-${Ipub}"
set_keytime "KEY2" "SYNCPUBLISH" "${created}"
# - Also signatures are being introduced now.
set_keytime "KEY2" "ACTIVE" "${created}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
# Subdomain still has good signatures of old CSK (KEY1).
# Set expected zone signing on for KEY1 and off for KEY2,
# testing whether signatures which are still valid are being reused.
set_zonesigning "KEY1" "yes"
set_zonesigning "KEY2" "no"
check_subdomain
# Restore the expected zone signing properties.
set_zonesigning "KEY1" "no"
set_zonesigning "KEY2" "yes"
dnssec_verify
# We ignore any parent registration delay, so set the DS publish time to now.
rndc_checkds "$SERVER" "$DIR" KEY1 "now" "withdrawn" "$ZONE"
rndc_checkds "$SERVER" "$DIR" KEY2 "now" "published" "$ZONE"
# Next key event is when the predecessor ZRRSIG records have been replaced
# with that of the successor and enough time has passed such that the all
# validators that have such signed RRsets in cache only know about the
# successor signatures. This is the retire interval: Dsgn plus the
# maximum zone TTL plus the zone propagation delay plus retire-safety. For the
# csk-roll2 policy that means: 12h (because 1d validity and refresh within
# 12 hours) + 1d + 1h + 1h = 38h = 136800 seconds. Prevent intermittent false
# positives on slow platforms by subtracting the number of seconds which
# passed between key creation and invoking 'rndc dnssec -checkds'.
now="$(TZ=UTC date +%s)"
time_passed=$((now-start_time))
next_time=$((136800-time_passed))
check_next_key_event $next_time
#
# Zone: step4.csk-roll2.autosign.
#
set_zone "step4.csk-roll2.autosign"
set_policy "csk-roll2" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) ZRRSIG is now HIDDEN.
set_keystate "KEY1" "STATE_ZRRSIG" "hidden"
# The new CSK (KEY2) ZRRSIG is now OMNIPRESENT.
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 4502 hours ago (16207200 seconds).
csk_rollover_predecessor_keytimes -16207200
# - The new CSK was published 41 hours (147600 seconds) ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -147600
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" "${Ipub}"
set_addkeytime "KEY2" "ACTIVE" "${published}" "${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the predecessor DS has been replaced with the
# successor DS and enough time has passed such that the all validators that
# have this DS RRset cached only know about the successor DS. This is the
# registration delay plus the retire interval, which is the parent
# propagation delay plus the DS TTL plus the retire-safety. For the
# csk-roll2 policy this means: 1w + 1h + 1h = 170h = 612000 seconds.
# However, 136800 seconds have passed already, so 478800 seconds left.
check_next_key_event 475200
#
# Zone: step5.csk-roll2.autosign.
#
set_zone "step5.csk-roll2.autosign"
set_policy "csk-roll2" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) DNSKEY can be removed.
set_keysigning "KEY1" "no"
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_KRRSIG" "unretentive"
set_keystate "KEY1" "STATE_DS" "hidden"
# The new CSK (KEY2) is now fully OMNIPRESENT.
set_keystate "KEY2" "STATE_DS" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 4634 hours ago (16682400 seconds).
csk_rollover_predecessor_keytimes -16682400
# - The new CSK was published 173 hours (622800 seconds) ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -622800
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" "${Ipub}"
set_addkeytime "KEY2" "ACTIVE" "${published}" "${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the DNSKEY enters the HIDDEN state. This is the
# DNSKEY TTL plus zone propagation delay. For the csk-roll policy this is:
# 1h + 1h = 7200 seconds.
check_next_key_event 7200
#
# Zone: step6.csk-roll2.autosign.
#
set_zone "step6.csk-roll2.autosign"
set_policy "csk-roll2" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) is now completely HIDDEN.
set_keystate "KEY1" "STATE_DNSKEY" "hidden"
set_keystate "KEY1" "STATE_KRRSIG" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - This key was activated 4636 hours ago (16689600 seconds).
csk_rollover_predecessor_keytimes -16689600
# - The new CSK was published 175 hours (630000 seconds) ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -630000
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" "${Ipub}"
set_addkeytime "KEY2" "ACTIVE" "${published}" "${Ipub}"
set_retired_removed "KEY2" "${Lcsk}" "${IretCSK}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the new successor needs to be published.
# This is the Lcsk, minus time passed since the key was published.
# Lcsk: 186d (16070400 seconds)
# Time passed: 175h (630000 seconds)
check_next_key_event 15440400
#
# Zone: step7.csk-roll2.autosign.
#
set_zone "step7.csk-roll2.autosign"
set_policy "csk-roll2" "2" "3600"
set_server "ns3" "10.53.0.3"
# The old CSK (KEY1) could have been purged, but purge-keys is disabled.
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
#
# Test #2375: Scheduled rollovers are happening faster than they can finish
#
set_zone "step1.three-is-a-crowd.kasp"
set_policy "default" "1" "3600"
set_server "ns3" "10.53.0.3"
# TODO (GL #2471).
# Test dynamic zones that switch to inline-signing.
set_zone "dynamic2inline.kasp"
set_policy "default" "1" "3600"
set_server "ns6" "10.53.0.6"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# The CSK is rumoured.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
#
# Testing algorithm rollover.
#
Lksk=0
Lzsk=0
IretKSK=0
IretZSK=0
#
# Zone: step1.algorithm-roll.kasp
#
set_zone "step1.algorithm-roll.kasp"
set_policy "rsasha256" "2" "3600"
set_server "ns6" "10.53.0.6"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "8" "RSASHA256" "2048"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "0"
set_keyalgorithm "KEY2" "8" "RSASHA256" "2048"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
key_clear "KEY3"
key_clear "KEY4"
# The KSK (KEY1) and ZSK (KEY2) start in OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# These keys are immediately published and activated.
rollover_predecessor_keytimes 0
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor keys need to be published.
# Since the lifetime of the keys are unlimited, so default to loadkeys
# interval.
check_next_key_event 3600
#
# Zone: step1.csk-algorithm-roll.kasp
#
set_zone "step1.csk-algorithm-roll.kasp"
set_policy "csk-algoroll" "1" "3600"
set_server "ns6" "10.53.0.6"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "8" "RSASHA256" "2048"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# The CSK (KEY1) starts in OMNIPRESENT.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# This key is immediately published and activated.
Lcsk=0
IretCSK=0
csk_rollover_predecessor_keytimes 0
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the successor keys need to be published.
# Since the lifetime of the keys are unlimited, so default to loadkeys
# interval.
check_next_key_event 3600
#
# Testing going insecure.
#
#
# Zone step1.going-insecure.kasp
#
set_zone "step1.going-insecure.kasp"
set_policy "unsigning" "2" "7200"
set_server "ns6" "10.53.0.6"
# Policy parameters.
# Lksk: 0
# Lzsk: 60 days (5184000 seconds)
# Iret(KSK): DS TTL (1d) + DprpP (1h) + retire-safety (1h)
# Iret(KSK): 1d2h (93600 seconds)
# Iret(ZSK): RRSIG TTL (1d) + Dprp (5m) + Dsgn (9d) + retire-safety (1h)
# Iret(ZSK): 10d1h5m (867900 seconds)
Lksk=0
Lzsk=5184000
IretKSK=93600
IretZSK=867900
init_migration_insecure() {
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "${Lksk}"
set_keyalgorithm "KEY1" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "${Lzsk}"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
key_clear "KEY3"
key_clear "KEY4"
}
init_migration_insecure
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# We have set the timing metadata to now - 10 days (864000 seconds).
rollover_predecessor_keytimes -864000
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone step1.going-insecure-dynamic.kasp
#
set_zone "step1.going-insecure-dynamic.kasp"
set_dynamic
set_policy "unsigning" "2" "7200"
set_server "ns6" "10.53.0.6"
init_migration_insecure
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# We have set the timing metadata to now - 10 days (864000 seconds).
rollover_predecessor_keytimes -864000
check_keytimes
check_apex
check_subdomain
dnssec_verify
#
# Zone step1.going-straight-to-none.kasp
#
set_zone "step1.going-straight-to-none.kasp"
set_policy "default" "1" "3600"
set_server "ns6" "10.53.0.6"
# Key properties.
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# DNSKEY, RRSIG (ksk), RRSIG (zsk) are published. DS needs to wait.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
# This policy only has one key.
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# The first key is immediately published and activated.
created=$(key_get KEY1 CREATED)
set_keytime "KEY1" "PUBLISHED" "${created}"
set_keytime "KEY1" "ACTIVE" "${created}"
set_keytime "KEY1" "SYNCPUBLISH" "${created}"
# Key lifetime is unlimited, so not setting RETIRED and REMOVED.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Reconfig dnssec-policy (triggering algorithm roll and other dnssec-policy
# changes).
echo_i "reconfig dnssec-policy to trigger algorithm rollover"
copy_setports ns6/named2.conf.in ns6/named.conf
rndc_reconfig ns6 10.53.0.6
# Calculate time passed to correctly check for next key events.
now="$(TZ=UTC date +%s)"
time_passed=$((now-start_time))
echo_i "${time_passed} seconds passed between start of tests and reconfig"
# Wait until we have seen "zone_rekey done:" message for this key.
_wait_for_done_signing() {
_zone=$1
_ksk=$(key_get $2 KSK)
_zsk=$(key_get $2 ZSK)
if [ "$_ksk" = "yes" ]; then
_role="KSK"
_expect_type=EXPECT_KRRSIG
elif [ "$_zsk" = "yes" ]; then
_role="ZSK"
_expect_type=EXPECT_ZRRSIG
fi
if [ "$(key_get ${2} $_expect_type)" = "yes" ] && [ "$(key_get $2 $_role)" = "yes" ]; then
_keyid=$(key_get $2 ID)
_keyalg=$(key_get $2 ALG_STR)
echo_i "wait for zone ${_zone} is done signing with $2 ${_zone}/${_keyalg}/${_keyid}"
grep "zone_rekey done: key ${_keyid}/${_keyalg}" "${DIR}/named.run" > /dev/null || return 1
fi
return 0
}
wait_for_done_signing() {
n=$((n+1))
echo_i "wait for zone ${ZONE} is done signing ($n)"
ret=0
retry_quiet 30 _wait_for_done_signing ${ZONE} KEY1 || ret=1
retry_quiet 30 _wait_for_done_signing ${ZONE} KEY2 || ret=1
retry_quiet 30 _wait_for_done_signing ${ZONE} KEY3 || ret=1
retry_quiet 30 _wait_for_done_signing ${ZONE} KEY4 || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
}
# Test dynamic zones that switch to inline-signing.
set_zone "dynamic2inline.kasp"
set_policy "default" "1" "3600"
set_server "ns6" "10.53.0.6"
# Key properties.
key_clear "KEY1"
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# The CSK is rumoured.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "rumoured"
set_keystate "KEY1" "STATE_KRRSIG" "rumoured"
set_keystate "KEY1" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY1" "STATE_DS" "hidden"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
#
# Testing going insecure.
#
#
# Zone: step1.going-insecure.kasp
#
set_zone "step1.going-insecure.kasp"
set_policy "insecure" "2" "7200"
set_server "ns6" "10.53.0.6"
# Expect a CDS/CDNSKEY Delete Record.
set_cdsdelete
# Key goal states should be HIDDEN.
init_migration_insecure
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY2" "GOAL" "hidden"
# The DS may be removed if we are going insecure.
set_keystate "KEY1" "STATE_DS" "unretentive"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Tell named that the DS has been removed.
rndc_checkds "$SERVER" "$DIR" "KEY1" "now" "withdrawn" "$ZONE"
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Next key event is when the DS becomes HIDDEN. This happens after the
# parent propagation delay, retire safety delay, and DS TTL:
# 1h + 1h + 1d = 26h = 93600 seconds.
check_next_key_event 93600
#
# Zone: step2.going-insecure.kasp
#
set_zone "step2.going-insecure.kasp"
set_policy "insecure" "2" "7200"
set_server "ns6" "10.53.0.6"
# The DS is long enough removed from the zone to be considered HIDDEN.
# This means the DNSKEY and the KSK signatures can be removed.
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_KRRSIG" "unretentive"
set_keysigning "KEY1" "no"
set_keystate "KEY2" "STATE_DNSKEY" "unretentive"
set_keystate "KEY2" "STATE_ZRRSIG" "unretentive"
set_zonesigning "KEY2" "no"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
# Next key event is when the DNSKEY becomes HIDDEN. This happens after the
# propagation delay, plus DNSKEY TTL:
# 5m + 2h = 125m = 7500 seconds.
check_next_key_event 7500
#
# Zone: step1.going-insecure-dynamic.kasp
#
set_zone "step1.going-insecure-dynamic.kasp"
set_dynamic
set_policy "insecure" "2" "7200"
set_server "ns6" "10.53.0.6"
# Expect a CDS/CDNSKEY Delete Record.
set_cdsdelete
# Key goal states should be HIDDEN.
init_migration_insecure
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY2" "GOAL" "hidden"
# The DS may be removed if we are going insecure.
set_keystate "KEY1" "STATE_DS" "unretentive"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Tell named that the DS has been removed.
rndc_checkds "$SERVER" "$DIR" "KEY1" "now" "withdrawn" "$ZONE"
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
dnssec_verify
# Next key event is when the DS becomes HIDDEN. This happens after the
# parent propagation delay, retire safety delay, and DS TTL:
# 1h + 1h + 1d = 26h = 93600 seconds.
check_next_key_event 93600
#
# Zone: step2.going-insecure-dynamic.kasp
#
set_zone "step2.going-insecure-dynamic.kasp"
set_dynamic
set_policy "insecure" "2" "7200"
set_server "ns6" "10.53.0.6"
# The DS is long enough removed from the zone to be considered HIDDEN.
# This means the DNSKEY and the KSK signatures can be removed.
set_keystate "KEY1" "STATE_DS" "hidden"
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_KRRSIG" "unretentive"
set_keysigning "KEY1" "no"
set_keystate "KEY2" "STATE_DNSKEY" "unretentive"
set_keystate "KEY2" "STATE_ZRRSIG" "unretentive"
set_zonesigning "KEY2" "no"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
check_apex
check_subdomain
# Next key event is when the DNSKEY becomes HIDDEN. This happens after the
# propagation delay, plus DNSKEY TTL:
# 5m + 2h = 125m = 7500 seconds.
check_next_key_event 7500
#
# Zone: step1.going-straight-to-none.kasp
#
set_zone "step1.going-straight-to-none.kasp"
set_policy "none" "1" "3600"
set_server "ns6" "10.53.0.6"
# The zone will go bogus after signatures expire, but remains validly signed for now.
# Key properties.
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# DNSKEY, RRSIG (ksk), RRSIG (zsk) are published. DS needs to wait.
set_keystate "KEY1" "GOAL" "omnipresent"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
# This policy only has one key.
key_clear "KEY2"
key_clear "KEY3"
key_clear "KEY4"
# Various signing policy checks.
check_keys
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
dnssec_verify
#
# Testing KSK/ZSK algorithm rollover.
#
# Policy parameters.
# Lksk: unlimited
# Lzsk: unlimited
Lksk=0
Lzsk=0
#
# Zone: step1.algorithm-roll.kasp
#
set_zone "step1.algorithm-roll.kasp"
set_policy "ecdsa256" "4" "3600"
set_server "ns6" "10.53.0.6"
# Old RSASHA1 keys.
key_clear "KEY1"
set_keyrole "KEY1" "ksk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "8" "RSASHA256" "2048"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "no"
key_clear "KEY2"
set_keyrole "KEY2" "zsk"
set_keylifetime "KEY2" "0"
set_keyalgorithm "KEY2" "8" "RSASHA256" "2048"
set_keysigning "KEY2" "no"
set_zonesigning "KEY2" "yes"
# New ECDSAP256SHA256 keys.
key_clear "KEY3"
set_keyrole "KEY3" "ksk"
set_keylifetime "KEY3" "0"
set_keyalgorithm "KEY3" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY3" "yes"
set_zonesigning "KEY3" "no"
key_clear "KEY4"
set_keyrole "KEY4" "zsk"
set_keylifetime "KEY4" "0"
set_keyalgorithm "KEY4" "13" "ECDSAP256SHA256" "256"
set_keysigning "KEY4" "no"
set_zonesigning "KEY4" "yes"
# The RSAHSHA1 keys are outroducing.
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
set_keystate "KEY2" "GOAL" "hidden"
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# The ECDSAP256SHA256 keys are introducing.
set_keystate "KEY3" "GOAL" "omnipresent"
set_keystate "KEY3" "STATE_DNSKEY" "rumoured"
set_keystate "KEY3" "STATE_KRRSIG" "rumoured"
set_keystate "KEY3" "STATE_DS" "hidden"
set_keystate "KEY4" "GOAL" "omnipresent"
set_keystate "KEY4" "STATE_DNSKEY" "rumoured"
set_keystate "KEY4" "STATE_ZRRSIG" "rumoured"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys are published and activated.
rollover_predecessor_keytimes 0
# - KSK must be retired since it no longer matches the policy.
keyfile=$(key_get KEY1 BASEFILE)
grep "; Inactive:" "${keyfile}.key" > retired.test${n}.ksk
retired=$(awk '{print $3}' < retired.test${n}.ksk)
set_keytime "KEY1" "RETIRED" "${retired}"
# - The key is removed after the retire interval:
# IretKSK = TTLds + DprpP + retire-safety
# TTLds: 2h (7200 seconds)
# DprpP: 1h (3600 seconds)
# retire-safety: 2h (7200 seconds)
# IretKSK: 5h (18000 seconds)
IretKSK=18000
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretKSK}"
# - ZSK must be retired since it no longer matches the policy.
keyfile=$(key_get KEY2 BASEFILE)
grep "; Inactive:" "${keyfile}.key" > retired.test${n}.zsk
retired=$(awk '{print $3}' < retired.test${n}.zsk)
set_keytime "KEY2" "RETIRED" "${retired}"
# - The key is removed after the retire interval:
# IretZSK = TTLsig + Dprp + Dsgn + retire-safety
# TTLsig: 6h (21600 seconds)
# Dprp: 1h (3600 seconds)
# Dsgn: 25d (2160000 seconds)
# retire-safety: 2h (7200 seconds)
# IretZSK: 25d9h (2192400 seconds)
IretZSK=2192400
set_addkeytime "KEY2" "REMOVED" "${retired}" "${IretZSK}"
# - The new KSK is published and activated.
created=$(key_get KEY3 CREATED)
set_keytime "KEY3" "PUBLISHED" "${created}"
set_keytime "KEY3" "ACTIVE" "${created}"
# - It takes TTLsig + Dprp + publish-safety hours to propagate the zone.
# TTLsig: 6h (39600 seconds)
# Dprp: 1h (3600 seconds)
# publish-safety: 1h (3600 seconds)
# Ipub: 8h (28800 seconds)
Ipub=28800
set_addkeytime "KEY3" "SYNCPUBLISH" "${created}" "${Ipub}"
# - The new ZSK is published and activated.
created=$(key_get KEY4 CREATED)
set_keytime "KEY4" "PUBLISHED" "${created}"
set_keytime "KEY4" "ACTIVE" "${created}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the ecdsa256 keys have been propagated.
# This is the DNSKEY TTL plus publish safety plus zone propagation delay:
# 3 times an hour: 10800 seconds.
check_next_key_event 10800
#
# Zone: step2.algorithm-roll.kasp
#
set_zone "step2.algorithm-roll.kasp"
set_policy "ecdsa256" "4" "3600"
set_server "ns6" "10.53.0.6"
# The RSAHSHA1 keys are outroducing, but need to stay present until the new
# algorithm chain of trust has been established. Thus the properties, timings
# and states of the KEY1 and KEY2 are the same as above.
# The ECDSAP256SHA256 keys are introducing. The DNSKEY RRset is omnipresent,
# but the zone signatures are not.
set_keystate "KEY3" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY3" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY4" "STATE_DNSKEY" "omnipresent"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated three hours ago (10800 seconds).
rollover_predecessor_keytimes -10800
# - KSK must be retired since it no longer matches the policy.
created=$(key_get KEY1 CREATED)
set_keytime "KEY1" "RETIRED" "${created}"
set_addkeytime "KEY1" "REMOVED" "${created}" "${IretKSK}"
# - ZSK must be retired since it no longer matches the policy.
created=$(key_get KEY2 CREATED)
set_keytime "KEY2" "RETIRED" "${created}"
set_addkeytime "KEY2" "REMOVED" "${created}" "${IretZSK}"
# - The new keys are published 3 hours ago.
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -10800
set_addkeytime "KEY3" "ACTIVE" "${created}" -10800
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "SYNCPUBLISH" "${published}" "${Ipub}"
created=$(key_get KEY4 CREATED)
set_addkeytime "KEY4" "PUBLISHED" "${created}" -10800
set_addkeytime "KEY4" "ACTIVE" "${created}" -10800
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when all zone signatures are signed with the new
# algorithm. This is the max-zone-ttl plus zone propagation delay
# plus retire safety: 6h + 1h + 2h. But three hours have already passed
# (the time it took to make the DNSKEY omnipresent), so the next event
# should be scheduled in 6 hour: 21600 seconds. Prevent intermittent
# false positives on slow platforms by subtracting the number of seconds
# which passed between key creation and invoking 'rndc reconfig'.
next_time=$((21600-time_passed))
check_next_key_event $next_time
#
# Zone: step3.algorithm-roll.kasp
#
set_zone "step3.algorithm-roll.kasp"
set_policy "ecdsa256" "4" "3600"
set_server "ns6" "10.53.0.6"
# The ECDSAP256SHA256 keys are introducing.
set_keystate "KEY4" "STATE_ZRRSIG" "omnipresent"
# The DS can be swapped.
set_keystate "KEY1" "STATE_DS" "unretentive"
set_keystate "KEY3" "STATE_DS" "rumoured"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Check that CDS publication is logged.
check_cdslog "$DIR" "$ZONE" KEY3
# Set expected key times:
# - The old keys were activated 9 hours ago (32400 seconds).
rollover_predecessor_keytimes -32400
# - And retired 6 hours ago (21600 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -21600
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretKSK}"
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "RETIRED" "${created}" -21600
retired=$(key_get KEY2 RETIRED)
set_addkeytime "KEY2" "REMOVED" "${retired}" "${IretZSK}"
# - The new keys are published 9 hours ago.
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -32400
set_addkeytime "KEY3" "ACTIVE" "${created}" -32400
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "SYNCPUBLISH" "${published}" ${Ipub}
created=$(key_get KEY4 CREATED)
set_addkeytime "KEY4" "PUBLISHED" "${created}" -32400
set_addkeytime "KEY4" "ACTIVE" "${created}" -32400
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Tell named we "saw" the parent swap the DS and see if the next key event is
# scheduled at the correct time.
rndc_checkds "$SERVER" "$DIR" KEY1 "now" "withdrawn" "$ZONE"
rndc_checkds "$SERVER" "$DIR" KEY3 "now" "published" "$ZONE"
# Next key event is when the DS becomes OMNIPRESENT. This happens after the
# parent propagation delay, retire safety delay, and DS TTL:
# 1h + 2h + 2h = 5h = 18000 seconds.
check_next_key_event 18000
#
# Zone: step4.algorithm-roll.kasp
#
set_zone "step4.algorithm-roll.kasp"
set_policy "ecdsa256" "4" "3600"
set_server "ns6" "10.53.0.6"
# The old DS is HIDDEN, we can remove the old algorithm DNSKEY/RRSIG records.
set_keysigning "KEY1" "no"
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_KRRSIG" "unretentive"
set_keystate "KEY1" "STATE_DS" "hidden"
set_zonesigning "KEY2" "no"
set_keystate "KEY2" "GOAL" "hidden"
set_keystate "KEY2" "STATE_DNSKEY" "unretentive"
set_keystate "KEY2" "STATE_ZRRSIG" "unretentive"
# The ECDSAP256SHA256 DS is now OMNIPRESENT.
set_keystate "KEY3" "STATE_DS" "omnipresent"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated 38 hours ago (136800 seconds).
rollover_predecessor_keytimes -136800
# - And retired 35 hours ago (126000 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -126000
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretKSK}"
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "RETIRED" "${created}" -126000
retired=$(key_get KEY2 RETIRED)
set_addkeytime "KEY2" "REMOVED" "${retired}" "${IretZSK}"
# - The new keys are published 38 hours ago.
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -136800
set_addkeytime "KEY3" "ACTIVE" "${created}" -136800
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "SYNCPUBLISH" "${published}" ${Ipub}
created=$(key_get KEY4 CREATED)
set_addkeytime "KEY4" "PUBLISHED" "${created}" -136800
set_addkeytime "KEY4" "ACTIVE" "${created}" -136800
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the old DNSKEY becomes HIDDEN. This happens after the
# DNSKEY TTL plus zone propagation delay (2h).
check_next_key_event 7200
#
# Zone: step5.algorithm-roll.kasp
#
set_zone "step5.algorithm-roll.kasp"
set_policy "ecdsa256" "4" "3600"
set_server "ns6" "10.53.0.6"
# The DNSKEY becomes HIDDEN.
set_keystate "KEY1" "STATE_DNSKEY" "hidden"
set_keystate "KEY1" "STATE_KRRSIG" "hidden"
set_keystate "KEY2" "STATE_DNSKEY" "hidden"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated 40 hours ago (144000 seconds)
rollover_predecessor_keytimes -144000
# - And retired 37 hours ago (133200 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -133200
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretKSK}"
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "RETIRED" "${created}" -133200
retired=$(key_get KEY2 RETIRED)
set_addkeytime "KEY2" "REMOVED" "${retired}" "${IretZSK}"
# The new keys are published 40 hours ago.
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -144000
set_addkeytime "KEY3" "ACTIVE" "${created}" -144000
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "SYNCPUBLISH" "${published}" ${Ipub}
created=$(key_get KEY4 CREATED)
set_addkeytime "KEY4" "PUBLISHED" "${created}" -144000
set_addkeytime "KEY4" "ACTIVE" "${created}" -144000
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the RSASHA1 signatures become HIDDEN. This happens
# after the max-zone-ttl plus zone propagation delay plus retire safety
# (6h + 1h + 2h) minus the time already passed since the UNRETENTIVE state has
# been reached (2h): 9h - 2h = 7h = 25200 seconds. Prevent intermittent
# false positives on slow platforms by subtracting the number of seconds
# which passed between key creation and invoking 'rndc reconfig'.
next_time=$((25200-time_passed))
check_next_key_event $next_time
#
# Zone: step6.algorithm-roll.kasp
#
set_zone "step6.algorithm-roll.kasp"
set_policy "ecdsa256" "4" "3600"
set_server "ns6" "10.53.0.6"
# The old zone signatures (KEY2) should now also be HIDDEN.
set_keystate "KEY2" "STATE_ZRRSIG" "hidden"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated 47 hours ago (169200 seconds)
rollover_predecessor_keytimes -169200
# - And retired 44 hours ago (158400 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -158400
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretKSK}"
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "RETIRED" "${created}" -158400
retired=$(key_get KEY2 RETIRED)
set_addkeytime "KEY2" "REMOVED" "${retired}" "${IretZSK}"
# The new keys are published 47 hours ago.
created=$(key_get KEY3 CREATED)
set_addkeytime "KEY3" "PUBLISHED" "${created}" -169200
set_addkeytime "KEY3" "ACTIVE" "${created}" -169200
published=$(key_get KEY3 PUBLISHED)
set_addkeytime "KEY3" "SYNCPUBLISH" "${published}" ${Ipub}
created=$(key_get KEY4 CREATED)
set_addkeytime "KEY4" "PUBLISHED" "${created}" -169200
set_addkeytime "KEY4" "ACTIVE" "${created}" -169200
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is never since we established the policy and the keys have
# an unlimited lifetime. Fallback to the default loadkeys interval.
check_next_key_event 3600
#
# Testing CSK algorithm rollover.
#
# Policy parameters.
# Lcsk: unlimited
Lcksk=0
#
# Zone: step1.csk-algorithm-roll.kasp
#
set_zone "step1.csk-algorithm-roll.kasp"
set_policy "csk-algoroll" "2" "3600"
set_server "ns6" "10.53.0.6"
# Old RSASHA1 key.
key_clear "KEY1"
set_keyrole "KEY1" "csk"
set_keylifetime "KEY1" "0"
set_keyalgorithm "KEY1" "8" "RSASHA256" "2048"
set_keysigning "KEY1" "yes"
set_zonesigning "KEY1" "yes"
# New ECDSAP256SHA256 key.
key_clear "KEY2"
set_keyrole "KEY2" "csk"
set_keylifetime "KEY2" "0"
set_keyalgorithm "KEY2" "$DEFAULT_ALGORITHM_NUMBER" "$DEFAULT_ALGORITHM" "$DEFAULT_BITS"
set_keysigning "KEY2" "yes"
set_zonesigning "KEY2" "yes"
key_clear "KEY3"
key_clear "KEY4"
# The RSAHSHA1 key is outroducing.
set_keystate "KEY1" "GOAL" "hidden"
set_keystate "KEY1" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY1" "STATE_KRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_ZRRSIG" "omnipresent"
set_keystate "KEY1" "STATE_DS" "omnipresent"
# The ECDSAP256SHA256 key is introducing.
set_keystate "KEY2" "GOAL" "omnipresent"
set_keystate "KEY2" "STATE_DNSKEY" "rumoured"
set_keystate "KEY2" "STATE_KRRSIG" "rumoured"
set_keystate "KEY2" "STATE_ZRRSIG" "rumoured"
set_keystate "KEY2" "STATE_DS" "hidden"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - CSK must be retired since it no longer matches the policy.
csk_rollover_predecessor_keytimes 0
keyfile=$(key_get KEY1 BASEFILE)
grep "; Inactive:" "${keyfile}.key" > retired.test${n}.ksk
retired=$(awk '{print $3}' < retired.test${n}.ksk)
set_keytime "KEY1" "RETIRED" "${retired}"
# - The key is removed after the retire interval:
# IretZSK = TTLsig + Dprp + Dsgn + retire-safety
# TTLsig: 6h (21600 seconds)
# Dprp: 1h (3600 seconds)
# Dsgn: 25d (2160000 seconds)
# retire-safety: 2h (7200 seconds)
# IretZSK: 25d9h (2192400 seconds)
IretCSK=2192400
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretCSK}"
# - The new CSK is published and activated.
created=$(key_get KEY2 CREATED)
set_keytime "KEY2" "PUBLISHED" "${created}"
set_keytime "KEY2" "ACTIVE" "${created}"
# - It takes TTLsig + Dprp + publish-safety hours to propagate the zone.
# TTLsig: 6h (39600 seconds)
# Dprp: 1h (3600 seconds)
# publish-safety: 1h (3600 seconds)
# Ipub: 8h (28800 seconds)
Ipub=28800
set_addkeytime "KEY2" "SYNCPUBLISH" "${created}" "${Ipub}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the new key has been propagated.
# This is the DNSKEY TTL plus publish safety plus zone propagation delay:
# 3 times an hour: 10800 seconds.
check_next_key_event 10800
#
# Zone: step2.csk-algorithm-roll.kasp
#
set_zone "step2.csk-algorithm-roll.kasp"
set_policy "csk-algoroll" "2" "3600"
set_server "ns6" "10.53.0.6"
# The RSAHSHA1 key is outroducing, but need to stay present until the new
# algorithm chain of trust has been established. Thus the properties, timings
# and states of KEY1 is the same as above.
#
# The ECDSAP256SHA256 keys are introducing. The DNSKEY RRset is omnipresent,
# but the zone signatures are not.
set_keystate "KEY2" "STATE_DNSKEY" "omnipresent"
set_keystate "KEY2" "STATE_KRRSIG" "omnipresent"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old key was activated three hours ago (10800 seconds).
csk_rollover_predecessor_keytimes -10800
# - CSK must be retired since it no longer matches the policy.
created=$(key_get KEY1 CREATED)
set_keytime "KEY1" "RETIRED" "${created}"
set_addkeytime "KEY1" "REMOVED" "${created}" "${IretCSK}"
# - The new key was published 3 hours ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -10800
set_addkeytime "KEY2" "ACTIVE" "${created}" -10800
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" "${Ipub}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when all zone signatures are signed with the new
# algorithm. This is the max-zone-ttl plus zone propagation delay
# plus retire safety: 6h + 1h + 2h. But three hours have already passed
# (the time it took to make the DNSKEY omnipresent), so the next event
# should be scheduled in 6 hour: 21600 seconds. Prevent intermittent
# false positives on slow platforms by subtracting the number of seconds
# which passed between key creation and invoking 'rndc reconfig'.
next_time=$((21600-time_passed))
check_next_key_event $next_time
#
# Zone: step3.csk-algorithm-roll.kasp
#
set_zone "step3.csk-algorithm-roll.kasp"
set_policy "csk-algoroll" "2" "3600"
set_server "ns6" "10.53.0.6"
# The RSAHSHA1 key is outroducing, and it is time to swap the DS.
# The ECDSAP256SHA256 key is introducing. The DNSKEY RRset and all signatures
# are now omnipresent, so the DS can be introduced.
set_keystate "KEY2" "STATE_ZRRSIG" "omnipresent"
# The old DS (KEY1) can be withdrawn and the new DS (KEY2) can be introduced.
set_keystate "KEY1" "STATE_DS" "unretentive"
set_keystate "KEY2" "STATE_DS" "rumoured"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Check that CDS publication is logged.
check_cdslog "$DIR" "$ZONE" KEY2
# Set expected key times:
# - The old key was activated 9 hours ago (32400 seconds).
csk_rollover_predecessor_keytimes -32400
# - And was retired 6 hours ago (21600 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -21600
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretCSK}"
# - The new key was published 9 hours ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -32400
set_addkeytime "KEY2" "ACTIVE" "${created}" -32400
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" "${Ipub}"
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# We ignore any parent registration delay, so set the DS publish time to now.
rndc_checkds "$SERVER" "$DIR" KEY1 "now" "withdrawn" "$ZONE"
rndc_checkds "$SERVER" "$DIR" KEY2 "now" "published" "$ZONE"
# Next key event is when the DS becomes OMNIPRESENT. This happens after the
# parent propagation delay, retire safety delay, and DS TTL:
# 1h + 2h + 2h = 5h = 18000 seconds.
check_next_key_event 18000
#
# Zone: step4.csk-algorithm-roll.kasp
#
set_zone "step4.csk-algorithm-roll.kasp"
set_policy "csk-algoroll" "2" "3600"
set_server "ns6" "10.53.0.6"
# The old DS is HIDDEN, we can remove the old algorithm DNSKEY/RRSIG records.
set_keysigning "KEY1" "no"
set_zonesigning "KEY1" "no"
set_keystate "KEY1" "STATE_DNSKEY" "unretentive"
set_keystate "KEY1" "STATE_KRRSIG" "unretentive"
set_keystate "KEY1" "STATE_ZRRSIG" "unretentive"
set_keystate "KEY1" "STATE_DS" "hidden"
# The ECDSAP256SHA256 DS is now OMNIPRESENT.
set_keystate "KEY2" "STATE_DS" "omnipresent"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old key was activated 38 hours ago (136800 seconds)
csk_rollover_predecessor_keytimes -136800
# - And retired 35 hours ago (126000 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -126000
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretCSK}"
# - The new key was published 38 hours ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -136800
set_addkeytime "KEY2" "ACTIVE" "${created}" -136800
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" ${Ipub}
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the old DNSKEY becomes HIDDEN. This happens after the
# DNSKEY TTL plus zone propagation delay (2h).
check_next_key_event 7200
#
# Zone: step5.csk-algorithm-roll.kasp
#
set_zone "step5.csk-algorithm-roll.kasp"
set_policy "csk-algoroll" "2" "3600"
set_server "ns6" "10.53.0.6"
# The DNSKEY becomes HIDDEN.
set_keystate "KEY1" "STATE_DNSKEY" "hidden"
set_keystate "KEY1" "STATE_KRRSIG" "hidden"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old key was activated 40 hours ago (144000 seconds)
csk_rollover_predecessor_keytimes -144000
# - And retired 37 hours ago (133200 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -133200
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretCSK}"
# - The new key was published 40 hours ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -144000
set_addkeytime "KEY2" "ACTIVE" "${created}" -144000
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" ${Ipub}
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is when the RSASHA1 signatures become HIDDEN. This happens
# after the max-zone-ttl plus zone propagation delay plus retire safety
# (6h + 1h + 2h) minus the time already passed since the UNRETENTIVE state has
# been reached (2h): 9h - 2h = 7h = 25200 seconds. Prevent intermittent
# false positives on slow platforms by subtracting the number of seconds
# which passed between key creation and invoking 'rndc reconfig'.
next_time=$((25200-time_passed))
check_next_key_event $next_time
#
# Zone: step6.csk-algorithm-roll.kasp
#
set_zone "step6.csk-algorithm-roll.kasp"
set_policy "csk-algoroll" "2" "3600"
set_server "ns6" "10.53.0.6"
# The zone signatures should now also be HIDDEN.
set_keystate "KEY1" "STATE_ZRRSIG" "hidden"
# Various signing policy checks.
check_keys
wait_for_done_signing
check_dnssecstatus "$SERVER" "$POLICY" "$ZONE"
# Set expected key times:
# - The old keys were activated 47 hours ago (169200 seconds)
csk_rollover_predecessor_keytimes -169200
# - And retired 44 hours ago (158400 seconds).
created=$(key_get KEY1 CREATED)
set_addkeytime "KEY1" "RETIRED" "${created}" -158400
retired=$(key_get KEY1 RETIRED)
set_addkeytime "KEY1" "REMOVED" "${retired}" "${IretCSK}"
# - The new key was published 47 hours ago.
created=$(key_get KEY2 CREATED)
set_addkeytime "KEY2" "PUBLISHED" "${created}" -169200
set_addkeytime "KEY2" "ACTIVE" "${created}" -169200
published=$(key_get KEY2 PUBLISHED)
set_addkeytime "KEY2" "SYNCPUBLISH" "${published}" ${Ipub}
# Continue signing policy checks.
check_keytimes
check_apex
check_subdomain
dnssec_verify
# Next key event is never since we established the policy and the keys have
# an unlimited lifetime. Fallback to the default loadkeys interval.
check_next_key_event 3600
_check_soa_ttl() {
dig_with_opts @10.53.0.6 example SOA > dig.out.ns6.test$n.soa2 || return 1
soa1=$(awk '$4 == "SOA" { print $7 }' dig.out.ns6.test$n.soa1)
soa2=$(awk '$4 == "SOA" { print $7 }' dig.out.ns6.test$n.soa2)
ttl1=$(awk '$4 == "SOA" { print $2 }' dig.out.ns6.test$n.soa1)
ttl2=$(awk '$4 == "SOA" { print $2 }' dig.out.ns6.test$n.soa2)
test ${soa1:-1000} -lt ${soa2:-0} || return 1
test ${ttl1:-0} -eq $1 || return 1
test ${ttl2:-0} -eq $2 || return 1
}
n=$((n+1))
echo_i "Check that 'rndc reload' of just the serial updates the signed instance ($n)"
TSIG=
ret=0
dig_with_opts @10.53.0.6 example SOA > dig.out.ns6.test$n.soa1 || ret=1
cp ns6/example2.db.in ns6/example.db || ret=1
nextpart ns6/named.run > /dev/null
rndccmd 10.53.0.6 reload || ret=1
wait_for_log 3 "all zones loaded" ns6/named.run
# Check that the SOA SERIAL increases and check the TTLs (should be 300 as
# defined in ns6/example2.db.in).
retry_quiet 10 _check_soa_ttl 300 300 || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
n=$((n+1))
echo_i "Check that restart with zone changes and deleted journal works ($n)"
TSIG=
ret=0
dig_with_opts @10.53.0.6 example SOA > dig.out.ns6.test$n.soa1 || ret=1
stop_server --use-rndc --port ${CONTROLPORT} ns6
# TTL of all records change from 300 to 400
cp ns6/example3.db.in ns6/example.db || ret=1
rm ns6/example.db.jnl
nextpart ns6/named.run > /dev/null
start_server --noclean --restart --port ${PORT} ns6
wait_for_log 3 "all zones loaded" ns6/named.run
# Check that the SOA SERIAL increases and check the TTLs (should be changed
# from 300 to 400 as defined in ns6/example3.db.in).
retry_quiet 10 _check_soa_ttl 300 400 || ret=1
test "$ret" -eq 0 || echo_i "failed"
status=$((status+ret))
echo_i "exit status: $status"
[ $status -eq 0 ] || exit 1