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systemd/test/units/TEST-75-RESOLVED.sh
2024-08-27 05:37:34 +09:00

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#!/usr/bin/env bash
# SPDX-License-Identifier: LGPL-2.1-or-later
# vi: ts=4 sw=4 tw=0 et:
# TODO:
# - IPv6-only stack
# - mDNS
# - LLMNR
# - DoT/DoH
set -eux
set -o pipefail
# shellcheck source=test/units/test-control.sh
. "$(dirname "$0")"/test-control.sh
# shellcheck source=test/units/util.sh
. "$(dirname "$0")"/util.sh
# We need at least Knot 3.0 which support (among others) the ds-push directive
if ! knotc -c /usr/lib/systemd/tests/testdata/knot-data/knot.conf conf-check; then
echo "This test requires at least Knot 3.0. skipping..." | tee --append /skipped
exit 77
fi
RUN_OUT="$(mktemp)"
run() {
"$@" |& tee "$RUN_OUT"
}
run_delv() {
# Since [0] delv no longer loads /etc/(bind/)bind.keys by default, so we
# have to do that explicitly for each invocation
run delv -a /etc/bind.keys "$@"
}
disable_ipv6() {
sysctl -w net.ipv6.conf.all.disable_ipv6=1
}
enable_ipv6() {
sysctl -w net.ipv6.conf.all.disable_ipv6=0
networkctl reconfigure dns0
/usr/lib/systemd/systemd-networkd-wait-online --ipv4 --ipv6 --interface=dns0:routable --timeout=30
}
monitor_check_rr() (
set +x
set +o pipefail
local since="${1:?}"
local match="${2:?}"
# Wait until the first mention of the specified log message is
# displayed. We turn off pipefail for this, since we don't care about the
# lhs of this pipe expression, we only care about the rhs' result to be
# clean
timeout -v 30s journalctl -u resolvectl-monitor.service --since "$since" -f --full | grep -m1 "$match"
)
restart_resolved() {
systemctl stop systemd-resolved.service
(! systemctl is-failed systemd-resolved.service)
# Reset the restart counter since we call this method a bunch of times
# and can occasionally hit the default rate limit
systemctl reset-failed systemd-resolved.service
systemctl start systemd-resolved.service
systemctl service-log-level systemd-resolved.service debug
}
setup() {
: "SETUP BEGIN"
: "Setup - Configure network"
hostnamectl hostname ns1.unsigned.test
cat >>/etc/hosts <<EOF
10.0.0.1 ns1.unsigned.test
fd00:dead:beef:cafe::1 ns1.unsigned.test
127.128.0.5 localhost5 localhost5.localdomain localhost5.localdomain4 localhost.localdomain5 localhost5.localdomain5
EOF
mkdir -p /run/systemd/network
cat >/run/systemd/network/10-dns0.netdev <<EOF
[NetDev]
Name=dns0
Kind=dummy
EOF
cat >/run/systemd/network/10-dns0.network <<EOF
[Match]
Name=dns0
[Network]
IPv6AcceptRA=no
Address=10.0.0.1/24
Address=fd00:dead:beef:cafe::1/64
DNSSEC=allow-downgrade
DNS=10.0.0.1
DNS=fd00:dead:beef:cafe::1
EOF
cat >/run/systemd/network/10-dns1.netdev <<EOF
[NetDev]
Name=dns1
Kind=dummy
EOF
cat >/run/systemd/network/10-dns1.network <<EOF
[Match]
Name=dns1
[Network]
IPv6AcceptRA=no
Address=10.99.0.1/24
DNSSEC=no
EOF
systemctl edit --stdin --full --runtime --force "resolved-dummy-server.service" <<EOF
[Service]
Type=notify
Environment=SYSTEMD_LOG_LEVEL=debug
ExecStart=/usr/lib/systemd/tests/unit-tests/manual/test-resolved-dummy-server 10.99.0.1:53
EOF
DNS_ADDRESSES=(
"10.0.0.1"
"fd00:dead:beef:cafe::1"
)
mkdir -p /run/systemd/resolved.conf.d
{
echo "[Resolve]"
echo "FallbackDNS="
echo "DNSSEC=allow-downgrade"
echo "DNSOverTLS=opportunistic"
} >/run/systemd/resolved.conf.d/test.conf
ln -svf /run/systemd/resolve/stub-resolv.conf /etc/resolv.conf
# Override the default NTA list, which turns off DNSSEC validation for (among
# others) the test. domain
mkdir -p "/etc/dnssec-trust-anchors.d/"
echo local >/etc/dnssec-trust-anchors.d/local.negative
# Copy over our knot configuration
mkdir -p /var/lib/knot/zones/ /etc/knot/
cp -rfv /usr/lib/systemd/tests/testdata/knot-data/zones/* /var/lib/knot/zones/
cp -fv /usr/lib/systemd/tests/testdata/knot-data/knot.conf /etc/knot/knot.conf
chgrp -R knot /etc/knot/ /var/lib/knot/
chmod -R ug+rwX /var/lib/knot/
chmod -R g+r /etc/knot/
: "Setup - Sign the root zone"
keymgr . generate algorithm=ECDSAP256SHA256 ksk=yes zsk=yes
# Create a trust anchor for resolved with our root zone
keymgr . ds | sed 's/ DS/ IN DS/g' >/etc/dnssec-trust-anchors.d/root.positive
# Create a bind-compatible trust anchor (for delv)
# Note: the trust-anchors directive is relatively new, so use the original
# managed-keys one until it's widespread enough
{
echo 'managed-keys {'
keymgr . dnskey | sed -r 's/^\. DNSKEY ([0-9]+ [0-9]+ [0-9]+) (.+)$/. static-key \1 "\2";/g'
echo '};'
} >/etc/bind.keys
# Create an /etc/bind/bind.keys symlink, which is used by delv on Ubuntu
mkdir -p /etc/bind
ln -svf /etc/bind.keys /etc/bind/bind.keys
# Start the services
systemctl unmask systemd-networkd
systemctl restart systemd-networkd
/usr/lib/systemd/systemd-networkd-wait-online --interface=dns1:routable --timeout=60
systemctl reload systemd-resolved
systemctl start resolved-dummy-server
# Create knot's runtime dir, since from certain version it's provided only by
# the package and not created by tmpfiles/systemd
if [[ ! -d /run/knot ]]; then
mkdir -p /run/knot
chown -R knot:knot /run/knot
fi
systemctl start knot
# Wait a bit for the keys to propagate
sleep 4
systemctl status resolved-dummy-server
networkctl status
resolvectl status
resolvectl log-level debug
: "Setup - Start monitoring queries"
systemd-run -u resolvectl-monitor.service -p Type=notify resolvectl monitor
systemd-run -u resolvectl-monitor-json.service -p Type=notify resolvectl monitor --json=short
: "Setup - Check if all the zones are valid"
# FIXME: knot, unfortunately, incorrectly complains about missing zone files for zones
# that are forwarded using the `dnsproxy` module. Until the issue is resolved,
# let's fall back to pre-processing the `zone-check` output a bit before checking it
#
# See: https://gitlab.nic.cz/knot/knot-dns/-/issues/913
run knotc zone-check || :
sed -i '/forwarded.test./d' "$RUN_OUT"
[[ ! -s "$RUN_OUT" ]]
# We need to manually propagate the DS records of onlinesign.test. to the parent
# zone, since they're generated online
knotc zone-begin test.
if knotc zone-get test. onlinesign.test. ds | grep .; then
# Drop any old DS records, if present (e.g. on test re-run)
knotc zone-unset test. onlinesign.test. ds
fi
: "Setup - Propagate the new DS records"
while read -ra line; do
knotc zone-set test. "${line[0]}" 600 "${line[@]:1}"
done < <(keymgr onlinesign.test. ds)
knotc zone-commit test.
knotc reload
sleep 2
: "SETUP END"
}
# Test for resolvectl, resolvconf
manual_testcase_01_resolvectl() {
ip link add hoge type dummy
ip link add hoge.foo type dummy
# Cleanup
# shellcheck disable=SC2317
cleanup() {
rm -f /run/systemd/resolved.conf.d/mdns-llmnr.conf
ip link del hoge
ip link del hoge.foo
}
trap cleanup RETURN
resolvectl dns hoge 10.0.0.1 10.0.0.2
resolvectl dns hoge.foo 10.0.0.3 10.0.0.4
assert_in '10.0.0.1 10.0.0.2' "$(resolvectl dns hoge)"
assert_in '10.0.0.3 10.0.0.4' "$(resolvectl dns hoge.foo)"
resolvectl dns hoge 10.0.1.1 10.0.1.2
resolvectl dns hoge.foo 10.0.1.3 10.0.1.4
assert_in '10.0.1.1 10.0.1.2' "$(resolvectl dns hoge)"
assert_in '10.0.1.3 10.0.1.4' "$(resolvectl dns hoge.foo)"
if ! RESOLVCONF=$(command -v resolvconf 2>/dev/null); then
TMPDIR=$(mktemp -d -p /tmp resolvconf-tests.XXXXXX)
RESOLVCONF="$TMPDIR"/resolvconf
ln -s "$(command -v resolvectl 2>/dev/null)" "$RESOLVCONF"
fi
# DNS servers
echo nameserver 10.0.2.1 10.0.2.2 | "$RESOLVCONF" -a hoge
echo nameserver 10.0.2.3 10.0.2.4 | "$RESOLVCONF" -a hoge.foo
assert_in '10.0.2.1 10.0.2.2' "$(resolvectl dns hoge)"
assert_in '10.0.2.3 10.0.2.4' "$(resolvectl dns hoge.foo)"
echo nameserver 10.0.3.1 10.0.3.2 | "$RESOLVCONF" -a hoge.inet.ipsec.192.168.35
echo nameserver 10.0.3.3 10.0.3.4 | "$RESOLVCONF" -a hoge.foo.dhcp
assert_in '10.0.3.1 10.0.3.2' "$(resolvectl dns hoge)"
assert_in '10.0.3.3 10.0.3.4' "$(resolvectl dns hoge.foo)"
# domain
# without domain/search clears existing domain
resolvectl domain hoge test-domain.example.com
assert_in 'test-domain.example.com' "$(resolvectl domain hoge)"
echo nameserver 10.0.2.1 10.0.2.2 | "$RESOLVCONF" -a hoge
assert_not_in 'test-domain.example.com' "$(resolvectl domain hoge)"
# cannot set domain without DNS servers
(! echo domain test-domain.example.com | "$RESOLVCONF" -a hoge)
# can set domain with DNS server(s)
echo -e "nameserver 10.0.2.1 10.0.2.2\ndomain test-domain1.example.com test-domain2.example.com\nsearch test-search-domain.example.com" | "$RESOLVCONF" -a hoge
assert_in 'test-domain1.example.com' "$(resolvectl domain hoge)"
assert_in 'test-domain2.example.com' "$(resolvectl domain hoge)"
assert_in 'test-search-domain.example.com' "$(resolvectl domain hoge)"
# Tests for 'resolvconf -x'
echo nameserver 10.0.2.1 | "$RESOLVCONF" -x -a hoge
assert_in '~.' "$(resolvectl domain hoge)"
resolvectl domain hoge "hoge.example.com"
assert_in 'hoge.example.com' "$(resolvectl domain hoge)"
assert_not_in '~.' "$(resolvectl domain hoge)"
echo -e "nameserver 10.0.2.1\ndomain test-domain.example.com" | "$RESOLVCONF" -x -a hoge
assert_in 'test-domain.example.com' "$(resolvectl domain hoge)"
assert_in '~.' "$(resolvectl domain hoge)"
# Tests for 'resolvconf -p'
resolvectl default-route hoge yes
assert_in 'yes' "$(resolvectl default-route hoge)"
echo nameserver 10.0.3.3 10.0.3.4 | "$RESOLVCONF" -p -a hoge
assert_in 'no' "$(resolvectl default-route hoge)"
# Tests for 'resolvconf -d'
resolvectl dns hoge 10.0.3.1 10.0.3.2
resolvectl domain hoge test-domain.example.com
"$RESOLVCONF" -d hoge
assert_not_in '10.0.3.1' "$(resolvectl dns hoge)"
assert_not_in '10.0.3.2' "$(resolvectl dns hoge)"
assert_not_in 'test-domain.example.com' "$(resolvectl domain hoge)"
# Tests for _localdnsstub and _localdnsproxy
assert_in '127.0.0.53' "$(resolvectl query _localdnsstub)"
assert_in '_localdnsstub' "$(resolvectl query 127.0.0.53)"
assert_in '127.0.0.54' "$(resolvectl query _localdnsproxy)"
assert_in '_localdnsproxy' "$(resolvectl query 127.0.0.54)"
assert_in '127.0.0.53' "$(dig @127.0.0.53 _localdnsstub)"
assert_in '_localdnsstub' "$(dig @127.0.0.53 -x 127.0.0.53)"
assert_in '127.0.0.54' "$(dig @127.0.0.53 _localdnsproxy)"
assert_in '_localdnsproxy' "$(dig @127.0.0.53 -x 127.0.0.54)"
}
# Tests for mDNS and LLMNR settings
manual_testcase_02_mdns_llmnr() {
ip link add hoge type dummy
ip link add hoge.foo type dummy
# Cleanup
cleanup() {
rm -f /run/systemd/resolved.conf.d/mdns-llmnr.conf
ip link del hoge
ip link del hoge.foo
}
trap cleanup RETURN
mkdir -p /run/systemd/resolved.conf.d
{
echo "[Resolve]"
echo "MulticastDNS=no"
echo "LLMNR=no"
} >/run/systemd/resolved.conf.d/mdns-llmnr.conf
restart_resolved
# make sure networkd is not running.
systemctl stop systemd-networkd.service
assert_in 'no' "$(resolvectl mdns hoge)"
assert_in 'no' "$(resolvectl llmnr hoge)"
# Tests that reloading works
{
echo "[Resolve]"
echo "MulticastDNS=yes"
echo "LLMNR=yes"
} >/run/systemd/resolved.conf.d/mdns-llmnr.conf
systemctl reload systemd-resolved.service
# defaults to yes (both the global and per-link settings are yes)
assert_in 'yes' "$(resolvectl mdns hoge)"
assert_in 'yes' "$(resolvectl llmnr hoge)"
# set per-link setting
resolvectl mdns hoge yes
resolvectl llmnr hoge yes
assert_in 'yes' "$(resolvectl mdns hoge)"
assert_in 'yes' "$(resolvectl llmnr hoge)"
resolvectl mdns hoge resolve
resolvectl llmnr hoge resolve
assert_in 'resolve' "$(resolvectl mdns hoge)"
assert_in 'resolve' "$(resolvectl llmnr hoge)"
resolvectl mdns hoge no
resolvectl llmnr hoge no
assert_in 'no' "$(resolvectl mdns hoge)"
assert_in 'no' "$(resolvectl llmnr hoge)"
# downgrade global setting to resolve
{
echo "[Resolve]"
echo "MulticastDNS=resolve"
echo "LLMNR=resolve"
} >/run/systemd/resolved.conf.d/mdns-llmnr.conf
systemctl reload systemd-resolved.service
# set per-link setting
resolvectl mdns hoge yes
resolvectl llmnr hoge yes
assert_in 'resolve' "$(resolvectl mdns hoge)"
assert_in 'resolve' "$(resolvectl llmnr hoge)"
resolvectl mdns hoge resolve
resolvectl llmnr hoge resolve
assert_in 'resolve' "$(resolvectl mdns hoge)"
assert_in 'resolve' "$(resolvectl llmnr hoge)"
resolvectl mdns hoge no
resolvectl llmnr hoge no
assert_in 'no' "$(resolvectl mdns hoge)"
assert_in 'no' "$(resolvectl llmnr hoge)"
# downgrade global setting to no
{
echo "[Resolve]"
echo "MulticastDNS=no"
echo "LLMNR=no"
} >/run/systemd/resolved.conf.d/mdns-llmnr.conf
systemctl reload systemd-resolved.service
# set per-link setting
resolvectl mdns hoge yes
resolvectl llmnr hoge yes
assert_in 'no' "$(resolvectl mdns hoge)"
assert_in 'no' "$(resolvectl llmnr hoge)"
resolvectl mdns hoge resolve
resolvectl llmnr hoge resolve
assert_in 'no' "$(resolvectl mdns hoge)"
assert_in 'no' "$(resolvectl llmnr hoge)"
resolvectl mdns hoge no
resolvectl llmnr hoge no
assert_in 'no' "$(resolvectl mdns hoge)"
assert_in 'no' "$(resolvectl llmnr hoge)"
}
testcase_03_23951() {
: "--- nss-resolve/nss-myhostname tests"
# Sanity check
TIMESTAMP=$(date '+%F %T')
# Issue: https://github.com/systemd/systemd/issues/23951
# With IPv6 enabled
run getent -s resolve ahosts ns1.unsigned.test
grep -qE "^fd00:dead:beef:cafe::1\s+STREAM\s+ns1\.unsigned\.test" "$RUN_OUT"
monitor_check_rr "$TIMESTAMP" "ns1.unsigned.test IN AAAA fd00:dead:beef:cafe::1"
# With IPv6 disabled
# Issue: https://github.com/systemd/systemd/issues/23951
disable_ipv6
run getent -s resolve ahosts ns1.unsigned.test
grep -qE "^10\.0\.0\.1\s+STREAM\s+ns1\.unsigned\.test" "$RUN_OUT"
(! grep -qE "fd00:dead:beef:cafe::1" "$RUN_OUT")
monitor_check_rr "$TIMESTAMP" "ns1.unsigned.test IN A 10.0.0.1"
enable_ipv6
}
testcase_04_18812() {
# Issue: https://github.com/systemd/systemd/issues/18812
# PR: https://github.com/systemd/systemd/pull/18896
# Follow-up issue: https://github.com/systemd/systemd/issues/23152
# Follow-up PR: https://github.com/systemd/systemd/pull/23161
# With IPv6 enabled
run getent -s resolve ahosts localhost
grep -qE "^::1\s+STREAM\s+localhost" "$RUN_OUT"
run getent -s myhostname ahosts localhost
grep -qE "^::1\s+STREAM\s+localhost" "$RUN_OUT"
# With IPv6 disabled
disable_ipv6
run getent -s resolve ahosts localhost
grep -qE "^127\.0\.0\.1\s+STREAM\s+localhost" "$RUN_OUT"
(! grep -qE "::1" "$RUN_OUT")
run getent -s myhostname ahosts localhost
grep -qE "^127\.0\.0\.1\s+STREAM\s+localhost" "$RUN_OUT"
enable_ipv6
}
testcase_05_25088() {
# Issue: https://github.com/systemd/systemd/issues/25088
run getent -s resolve hosts 127.128.0.5
grep -qEx '127\.128\.0\.5\s+localhost5(\s+localhost5?\.localdomain[45]?){4}' "$RUN_OUT"
[ "$(wc -l <"$RUN_OUT")" -eq 1 ]
}
testcase_06_20158() {
# Issue: https://github.com/systemd/systemd/issues/20158
run dig +noall +answer +additional localhost5.
grep -qEx 'localhost5\.\s+0\s+IN\s+A\s+127\.128\.0\.5' "$RUN_OUT"
[ "$(wc -l <"$RUN_OUT")" -eq 1 ]
run dig +noall +answer +additional localhost5.localdomain4.
grep -qEx 'localhost5\.localdomain4\.\s+0\s+IN\s+CNAME\s+localhost5\.' "$RUN_OUT"
grep -qEx 'localhost5\.\s+0\s+IN\s+A\s+127\.128\.0\.5' "$RUN_OUT"
[ "$(wc -l <"$RUN_OUT")" -eq 2 ]
}
testcase_07_22229() {
: "--- Basic resolved tests ---"
# Issue: https://github.com/systemd/systemd/issues/22229
# PR: https://github.com/systemd/systemd/pull/22231
FILTERED_NAMES=(
"0.in-addr.arpa"
"255.255.255.255.in-addr.arpa"
"0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.ip6.arpa"
"hello.invalid"
"hello.alt"
)
for name in "${FILTERED_NAMES[@]}"; do
(! run host "$name")
grep -qF "NXDOMAIN" "$RUN_OUT"
done
# Follow-up
# Issue: https://github.com/systemd/systemd/issues/22401
# PR: https://github.com/systemd/systemd/pull/22414
run dig +noall +authority +comments SRV .
grep -qF "status: NOERROR" "$RUN_OUT"
grep -qE "IN\s+SOA\s+ns1\.unsigned\.test\." "$RUN_OUT"
}
testcase_08_resolved() {
run resolvectl query -t SVCB svcb.test
grep -qF 'alpn="dot"' "$RUN_OUT"
grep -qF "ipv4hint=10.0.0.1" "$RUN_OUT"
run resolvectl query -t HTTPS https.test
grep -qF 'alpn="h2,h3"' "$RUN_OUT"
: "--- ZONE: unsigned.test. ---"
run dig @ns1.unsigned.test +short unsigned.test A unsigned.test AAAA
grep -qF "10.0.0.101" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::101" "$RUN_OUT"
run resolvectl query unsigned.test
grep -qF "10.0.0.10" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::101" "$RUN_OUT"
grep -qF "authenticated: no" "$RUN_OUT"
run dig @ns1.unsigned.test +short MX unsigned.test
grep -qF "15 mail.unsigned.test." "$RUN_OUT"
run resolvectl query --legend=no -t MX unsigned.test
grep -qF "unsigned.test IN MX 15 mail.unsigned.test" "$RUN_OUT"
: "--- ZONE: signed.test (static DNSSEC) ---"
# Check the trust chain (with and without systemd-resolved in between
# Issue: https://github.com/systemd/systemd/issues/22002
# PR: https://github.com/systemd/systemd/pull/23289
run_delv @ns1.unsigned.test signed.test
grep -qF "; fully validated" "$RUN_OUT"
run_delv signed.test
grep -qF "; fully validated" "$RUN_OUT"
for addr in "${DNS_ADDRESSES[@]}"; do
run_delv "@$addr" -t A mail.signed.test
grep -qF "; fully validated" "$RUN_OUT"
run_delv "@$addr" -t AAAA mail.signed.test
grep -qF "; fully validated" "$RUN_OUT"
done
run resolvectl query mail.signed.test
grep -qF "10.0.0.11" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::11" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
run dig +short signed.test
grep -qF "10.0.0.10" "$RUN_OUT"
run resolvectl query signed.test
grep -qF "signed.test: 10.0.0.10" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
run dig @ns1.unsigned.test +short MX signed.test
grep -qF "10 mail.signed.test." "$RUN_OUT"
run resolvectl query --legend=no -t MX signed.test
grep -qF "signed.test IN MX 10 mail.signed.test" "$RUN_OUT"
# Check a non-existent domain
run dig +dnssec this.does.not.exist.signed.test
grep -qF "status: NXDOMAIN" "$RUN_OUT"
# Check a wildcard record
run resolvectl query -t TXT this.should.be.authenticated.wild.signed.test
grep -qF 'this.should.be.authenticated.wild.signed.test IN TXT "this is a wildcard"' "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
# Check SRV support
run resolvectl service _mysvc._tcp signed.test
grep -qF "myservice.signed.test:1234" "$RUN_OUT"
grep -qF "10.0.0.20" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::17" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
# Test service resolve over Varlink
run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveService '{"name":"","type":"_mysvc._tcp","domain":"signed.test"}'
grep -qF '"services":[{"priority":10,"weight":5,"port":1234,"hostname":"myservice.signed.test","canonicalName":"myservice.signed.test","addresses":[{"ifindex":' "$RUN_OUT"
grep -qF '"family":10,"address":[253,0,222,173,190,239,202,254,0,0,0,0,0,0,0,23]' "$RUN_OUT"
grep -qF '"family":2,"address":[10,0,0,20]' "$RUN_OUT"
grep -qF '}]}],"txt":["This is TXT for myservice"],"canonical":{"name":null,"type":"_mysvc._tcp","domain":"signed.test"},"flags":' "$RUN_OUT"
# without name
run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveService '{"type":"_mysvc._tcp","domain":"signed.test"}'
# without txt (SD_RESOLVE_NO_TXT)
run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveService '{"type":"_mysvc._tcp","domain":"signed.test","flags":64}'
(! grep -qF '"txt"' "$RUN_OUT")
# without address (SD_RESOLVE_NO_ADDRESS)
run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveService '{"type":"_mysvc._tcp","domain":"signed.test","flags":128}'
(! grep -qF '"addresses"' "$RUN_OUT")
# without txt and address
run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveService '{"type":"_mysvc._tcp","domain":"signed.test","flags":192}'
(! grep -qF '"txt"' "$RUN_OUT")
(! grep -qF '"addresses"' "$RUN_OUT")
(! run resolvectl service _invalidsvc._udp signed.test)
grep -qE "invalidservice\.signed\.test' not found" "$RUN_OUT"
run resolvectl service _untrustedsvc._udp signed.test
grep -qF "myservice.untrusted.test:1111" "$RUN_OUT"
grep -qF "10.0.0.123" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::123" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
# Check OPENPGPKEY support
run_delv -t OPENPGPKEY 5a786cdc59c161cdafd818143705026636962198c66ed4c5b3da321e._openpgpkey.signed.test
grep -qF "; fully validated" "$RUN_OUT"
run resolvectl openpgp mr.smith@signed.test
grep -qF "5a786cdc59c161cdafd818143705026636962198c66ed4c5b3da321e._openpgpkey.signed.test" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
# Check zone transfers (AXFR/IXFR)
# Note: since resolved doesn't support zone transfers, let's just make sure it
# simply refuses such requests without choking on them
# See: https://github.com/systemd/systemd/pull/30809#issuecomment-1880102804
run dig @ns1.unsigned.test AXFR signed.test
grep -qE "SOA\s+ns1.unsigned.test. root.unsigned.test." "$RUN_OUT"
run dig AXFR signed.test
grep -qF "; Transfer failed" "$RUN_OUT"
run dig @ns1.unsigned.test IXFR=43 signed.test
grep -qE "SOA\s+ns1.unsigned.test. root.unsigned.test." "$RUN_OUT"
run dig IXFR=43 signed.test
grep -qF "; Transfer failed" "$RUN_OUT"
# DNSSEC validation with multiple records of the same type for the same name
# Issue: https://github.com/systemd/systemd/issues/22002
# PR: https://github.com/systemd/systemd/pull/23289
check_domain() {
local domain="${1:?}"
local record="${2:?}"
local message="${3:?}"
local addr
for addr in "${DNS_ADDRESSES[@]}"; do
run_delv "@$addr" -t "$record" "$domain"
grep -qF "$message" "$RUN_OUT"
done
run_delv -t "$record" "$domain"
grep -qF "$message" "$RUN_OUT"
run resolvectl query "$domain"
grep -qF "authenticated: yes" "$RUN_OUT"
}
check_domain "dupe.signed.test" "A" "; fully validated"
check_domain "dupe.signed.test" "AAAA" "; negative response, fully validated"
check_domain "dupe-ipv6.signed.test" "AAAA" "; fully validated"
check_domain "dupe-ipv6.signed.test" "A" "; negative response, fully validated"
check_domain "dupe-mixed.signed.test" "A" "; fully validated"
check_domain "dupe-mixed.signed.test" "AAAA" "; fully validated"
# Test resolution of CNAME chains
TIMESTAMP=$(date '+%F %T')
run resolvectl query -t A cname-chain.signed.test
grep -qF "follow14.final.signed.test IN A 10.0.0.14" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
monitor_check_rr "$TIMESTAMP" "follow10.so.close.signed.test IN CNAME follow11.yet.so.far.signed.test"
monitor_check_rr "$TIMESTAMP" "follow11.yet.so.far.signed.test IN CNAME follow12.getting.hot.signed.test"
monitor_check_rr "$TIMESTAMP" "follow12.getting.hot.signed.test IN CNAME follow13.almost.final.signed.test"
monitor_check_rr "$TIMESTAMP" "follow13.almost.final.signed.test IN CNAME follow14.final.signed.test"
monitor_check_rr "$TIMESTAMP" "follow14.final.signed.test IN A 10.0.0.14"
# Non-existing RR + CNAME chain
#run dig +dnssec AAAA cname-chain.signed.test
#grep -qF "status: NOERROR" "$RUN_OUT"
#grep -qE "^follow14\.final\.signed\.test\..+IN\s+NSEC\s+" "$RUN_OUT"
: "--- ZONE: onlinesign.test (dynamic DNSSEC) ---"
# Check the trust chain (with and without systemd-resolved in between
# Issue: https://github.com/systemd/systemd/issues/22002
# PR: https://github.com/systemd/systemd/pull/23289
run_delv @ns1.unsigned.test sub.onlinesign.test
grep -qF "; fully validated" "$RUN_OUT"
run_delv sub.onlinesign.test
grep -qF "; fully validated" "$RUN_OUT"
run dig +short sub.onlinesign.test
grep -qF "10.0.0.133" "$RUN_OUT"
run resolvectl query sub.onlinesign.test
grep -qF "sub.onlinesign.test: 10.0.0.133" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
run dig @ns1.unsigned.test +short TXT onlinesign.test
grep -qF '"hello from onlinesign"' "$RUN_OUT"
run resolvectl query --legend=no -t TXT onlinesign.test
grep -qF 'onlinesign.test IN TXT "hello from onlinesign"' "$RUN_OUT"
for addr in "${DNS_ADDRESSES[@]}"; do
run_delv "@$addr" -t A dual.onlinesign.test
grep -qF "10.0.0.135" "$RUN_OUT"
run_delv "@$addr" -t AAAA dual.onlinesign.test
grep -qF "fd00:dead:beef:cafe::135" "$RUN_OUT"
run_delv "@$addr" -t ANY ipv6.onlinesign.test
grep -qF "fd00:dead:beef:cafe::136" "$RUN_OUT"
done
run resolvectl query dual.onlinesign.test
grep -qF "10.0.0.135" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::135" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
run resolvectl query ipv6.onlinesign.test
grep -qF "fd00:dead:beef:cafe::136" "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
# Check a non-existent domain
# Note: mod-onlinesign utilizes Minimally Covering NSEC Records, hence the
# different response than with "standard" DNSSEC
run dig +dnssec this.does.not.exist.onlinesign.test
grep -qF "status: NOERROR" "$RUN_OUT"
grep -qF "NSEC \\000.this.does.not.exist.onlinesign.test." "$RUN_OUT"
# Check a wildcard record
run resolvectl query -t TXT this.should.be.authenticated.wild.onlinesign.test
grep -qF 'this.should.be.authenticated.wild.onlinesign.test IN TXT "this is an onlinesign wildcard"' "$RUN_OUT"
grep -qF "authenticated: yes" "$RUN_OUT"
# Resolve via dbus method
TIMESTAMP=$(date '+%F %T')
run busctl call org.freedesktop.resolve1 /org/freedesktop/resolve1 org.freedesktop.resolve1.Manager ResolveHostname 'isit' 0 secondsub.onlinesign.test 0 0
grep -qF '10 0 0 134 "secondsub.onlinesign.test"' "$RUN_OUT"
monitor_check_rr "$TIMESTAMP" "secondsub.onlinesign.test IN A 10.0.0.134"
: "--- ZONE: untrusted.test (DNSSEC without propagated DS records) ---"
# Issue: https://github.com/systemd/systemd/issues/23955
# FIXME
resolvectl flush-caches
#run dig +short untrusted.test A untrusted.test AAAA
#grep -qF "10.0.0.121" "$RUN_OUT"
#grep -qF "fd00:dead:beef:cafe::121" "$RUN_OUT"
run resolvectl query untrusted.test
grep -qF "untrusted.test:" "$RUN_OUT"
grep -qF "10.0.0.121" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::121" "$RUN_OUT"
grep -qF "authenticated: no" "$RUN_OUT"
run resolvectl service _mysvc._tcp untrusted.test
grep -qF "myservice.untrusted.test:1234" "$RUN_OUT"
grep -qF "10.0.0.123" "$RUN_OUT"
grep -qF "fd00:dead:beef:cafe::123" "$RUN_OUT"
# Issue: https://github.com/systemd/systemd/issues/19472
# 1) Query for a non-existing RR should return NOERROR + NSEC (?), not NXDOMAIN
# FIXME: re-enable once the issue is resolved
#run dig +dnssec AAAA untrusted.test
#grep -qF "status: NOERROR" "$RUN_OUT"
#grep -qE "^untrusted\.test\..+IN\s+NSEC\s+" "$RUN_OUT"
## 2) Query for a non-existing name should return NXDOMAIN, not SERVFAIL
#run dig +dnssec this.does.not.exist.untrusted.test
#grep -qF "status: NXDOMAIN" "$RUN_OUT"
: "--- ZONE: forwarded.test (queries forwarded to our dummy test server) ---"
JOURNAL_CURSOR="$(mktemp)"
journalctl -n0 -q --cursor-file="$JOURNAL_CURSOR"
# See "test-resolved-dummy-server.c" for the server part
(! run resolvectl query nope.forwarded.test)
grep -qF "nope.forwarded.test" "$RUN_OUT"
grep -qF "not found" "$RUN_OUT"
# SERVFAIL + EDE code 6: DNSSEC Bogus
(! run resolvectl query edns-bogus-dnssec.forwarded.test)
grep -qE "^edns-bogus-dnssec.forwarded.test:.+: upstream-failure \(DNSSEC Bogus\)" "$RUN_OUT"
# Same thing, but over Varlink
(! run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveHostname '{"name" : "edns-bogus-dnssec.forwarded.test"}')
grep -qF "io.systemd.Resolve.DNSSECValidationFailed" "$RUN_OUT"
grep -qF '{"result":"upstream-failure","extendedDNSErrorCode":6}' "$RUN_OUT"
journalctl --sync
journalctl -u systemd-resolved.service --cursor-file="$JOURNAL_CURSOR" --grep "Server returned error: SERVFAIL \(DNSSEC Bogus\). Lookup failed."
# SERVFAIL + EDE code 16: Censored + extra text
(! run resolvectl query edns-extra-text.forwarded.test)
grep -qE "^edns-extra-text.forwarded.test.+: SERVFAIL \(Censored: Nothing to see here!\)" "$RUN_OUT"
(! run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveHostname '{"name" : "edns-extra-text.forwarded.test"}')
grep -qF "io.systemd.Resolve.DNSError" "$RUN_OUT"
grep -qF '{"rcode":2,"extendedDNSErrorCode":16,"extendedDNSErrorMessage":"Nothing to see here!"}' "$RUN_OUT"
journalctl --sync
journalctl -u systemd-resolved.service --cursor-file="$JOURNAL_CURSOR" --grep "Server returned error: SERVFAIL \(Censored: Nothing to see here!\)"
# SERVFAIL + EDE code 0: Other + extra text
(! run resolvectl query edns-code-zero.forwarded.test)
grep -qE "^edns-code-zero.forwarded.test:.+: SERVFAIL \(Other: 🐱\)" "$RUN_OUT"
(! run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveHostname '{"name" : "edns-code-zero.forwarded.test"}')
grep -qF "io.systemd.Resolve.DNSError" "$RUN_OUT"
grep -qF '{"rcode":2,"extendedDNSErrorCode":0,"extendedDNSErrorMessage":"🐱"}' "$RUN_OUT"
journalctl --sync
journalctl -u systemd-resolved.service --cursor-file="$JOURNAL_CURSOR" --grep "Server returned error: SERVFAIL \(Other: 🐱\)"
# SERVFAIL + invalid EDE code
(! run resolvectl query edns-invalid-code.forwarded.test)
grep -qE "^edns-invalid-code.forwarded.test:.+: SERVFAIL \([0-9]+\)" "$RUN_OUT"
(! run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveHostname '{"name" : "edns-invalid-code.forwarded.test"}')
grep -qF "io.systemd.Resolve.DNSError" "$RUN_OUT"
grep -qE '{"rcode":2,"extendedDNSErrorCode":[0-9]+}' "$RUN_OUT"
journalctl --sync
journalctl -u systemd-resolved.service --cursor-file="$JOURNAL_CURSOR" --grep "Server returned error: SERVFAIL \(\d+\)"
# SERVFAIL + invalid EDE code + extra text
(! run resolvectl query edns-invalid-code-with-extra-text.forwarded.test)
grep -qE '^edns-invalid-code-with-extra-text.forwarded.test:.+: SERVFAIL \([0-9]+: Hello \[#\]\$%~ World\)' "$RUN_OUT"
(! run varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveHostname '{"name" : "edns-invalid-code-with-extra-text.forwarded.test"}')
grep -qF "io.systemd.Resolve.DNSError" "$RUN_OUT"
grep -qE '{"rcode":2,"extendedDNSErrorCode":[0-9]+,"extendedDNSErrorMessage":"Hello \[#\]\$%~ World"}' "$RUN_OUT"
journalctl --sync
journalctl -u systemd-resolved.service --cursor-file="$JOURNAL_CURSOR" --grep "Server returned error: SERVFAIL \(\d+: Hello \[\#\]\\$%~ World\)"
}
testcase_09_resolvectl_showcache() {
### Test resolvectl show-cache
run resolvectl show-cache
run resolvectl show-cache --json=short
run resolvectl show-cache --json=pretty
}
testcase_10_resolvectl_json() {
# Issue: https://github.com/systemd/systemd/issues/29580 (part #1)
dig @127.0.0.54 signed.test
systemctl stop resolvectl-monitor.service
systemctl stop resolvectl-monitor-json.service
# Issue: https://github.com/systemd/systemd/issues/29580 (part #2)
#
# Check for any warnings regarding malformed messages
(! journalctl -u resolvectl-monitor.service -u reseolvectl-monitor-json.service -p warning --grep malformed)
# Verify that all queries recorded by `resolvectl monitor --json` produced a valid JSON
# with expected fields
journalctl -p info -o cat _SYSTEMD_UNIT="resolvectl-monitor-json.service" | while read -r line; do
# Check that both "question" and "answer" fields are arrays
#
# The expression is slightly more complicated due to the fact that the "answer" field is optional,
# so we need to select it only if it's present, otherwise the type == "array" check would fail
echo "$line" | jq -e '[. | .question, (select(has("answer")) | .answer) | type == "array"] | all'
done
}
# Test serve stale feature and NFTSet= if nftables is installed
testcase_11_nft() {
if ! command -v nft >/dev/null; then
echo "nftables is not installed. Skipped serve stale feature and NFTSet= tests."
return 0
fi
### Test without serve stale feature ###
NFT_FILTER_NAME=dns_port_filter
drop_dns_outbound_traffic() {
nft add table inet $NFT_FILTER_NAME
nft add chain inet $NFT_FILTER_NAME output \{ type filter hook output priority 0 \; \}
nft add rule inet $NFT_FILTER_NAME output ip daddr 10.0.0.1 udp dport 53 drop
nft add rule inet $NFT_FILTER_NAME output ip daddr 10.0.0.1 tcp dport 53 drop
nft add rule inet $NFT_FILTER_NAME output ip6 daddr fd00:dead:beef:cafe::1 udp dport 53 drop
nft add rule inet $NFT_FILTER_NAME output ip6 daddr fd00:dead:beef:cafe::1 tcp dport 53 drop
}
run dig stale1.unsigned.test -t A
grep -qE "NOERROR" "$RUN_OUT"
sleep 2
drop_dns_outbound_traffic
set +e
# Make sure we give sd-resolved enough time to timeout (5-10s) before giving up
# See: https://github.com/systemd/systemd/issues/31639#issuecomment-2009152617
run dig +tries=1 +timeout=15 stale1.unsigned.test -t A
set -eux
grep -qE "no servers could be reached" "$RUN_OUT"
nft flush ruleset
### Test TIMEOUT with serve stale feature ###
mkdir -p /run/systemd/resolved.conf.d
{
echo "[Resolve]"
echo "StaleRetentionSec=1d"
} >/run/systemd/resolved.conf.d/test.conf
ln -svf /run/systemd/resolve/stub-resolv.conf /etc/resolv.conf
systemctl reload systemd-resolved.service
run dig stale1.unsigned.test -t A
grep -qE "NOERROR" "$RUN_OUT"
sleep 2
drop_dns_outbound_traffic
# Make sure we give sd-resolved enough time to timeout (5-10s) and serve the stale data (see above)
run dig +tries=1 +timeout=15 stale1.unsigned.test -t A
grep -qE "NOERROR" "$RUN_OUT"
grep -qE "10.0.0.112" "$RUN_OUT"
nft flush ruleset
### Test NXDOMAIN with serve stale feature ###
# NXDOMAIN response should replace the cache with NXDOMAIN response
run dig stale1.unsigned.test -t A
grep -qE "NOERROR" "$RUN_OUT"
# Delete stale1 record from zone
knotc zone-begin unsigned.test
knotc zone-unset unsigned.test stale1 A
knotc zone-commit unsigned.test
knotc reload
sleep 2
run dig stale1.unsigned.test -t A
grep -qE "NXDOMAIN" "$RUN_OUT"
nft flush ruleset
### NFTSet= test
nft add table inet sd_test
nft add set inet sd_test c '{ type cgroupsv2; }'
nft add set inet sd_test u '{ typeof meta skuid; }'
nft add set inet sd_test g '{ typeof meta skgid; }'
# service
systemd-run --unit test-nft.service --service-type=exec -p DynamicUser=yes \
-p 'NFTSet=cgroup:inet:sd_test:c user:inet:sd_test:u group:inet:sd_test:g' sleep 10000
run nft list set inet sd_test c
grep -qF "test-nft.service" "$RUN_OUT"
uid=$(getent passwd test-nft | cut -d':' -f3)
run nft list set inet sd_test u
grep -qF "$uid" "$RUN_OUT"
gid=$(getent passwd test-nft | cut -d':' -f4)
run nft list set inet sd_test g
grep -qF "$gid" "$RUN_OUT"
systemctl stop test-nft.service
# scope
run systemd-run --scope -u test-nft.scope -p 'NFTSet=cgroup:inet:sd_test:c' nft list set inet sd_test c
grep -qF "test-nft.scope" "$RUN_OUT"
mkdir -p /run/systemd/system
# socket
{
echo "[Socket]"
echo "ListenStream=12345"
echo "BindToDevice=lo"
echo "NFTSet=cgroup:inet:sd_test:c"
} >/run/systemd/system/test-nft.socket
{
echo "[Service]"
echo "ExecStart=/usr/bin/sleep 10000"
} >/run/systemd/system/test-nft.service
systemctl daemon-reload
systemctl start test-nft.socket
systemctl status test-nft.socket
run nft list set inet sd_test c
grep -qF "test-nft.socket" "$RUN_OUT"
systemctl stop test-nft.socket
rm -f /run/systemd/system/test-nft.{socket,service}
# slice
mkdir /run/systemd/system/system.slice.d
{
echo "[Slice]"
echo "NFTSet=cgroup:inet:sd_test:c"
} >/run/systemd/system/system.slice.d/00-test-nft.conf
systemctl daemon-reload
run nft list set inet sd_test c
grep -qF "system.slice" "$RUN_OUT"
rm -rf /run/systemd/system/system.slice.d
nft flush ruleset
}
# Test resolvectl show-server-state
testcase_12_resolvectl2() {
run resolvectl show-server-state
grep -qF "10.0.0.1" "$RUN_OUT"
grep -qF "Interface" "$RUN_OUT"
run resolvectl show-server-state --json=short
grep -qF "10.0.0.1" "$RUN_OUT"
grep -qF "Interface" "$RUN_OUT"
run resolvectl show-server-state --json=pretty
grep -qF "10.0.0.1" "$RUN_OUT"
grep -qF "Interface" "$RUN_OUT"
### Test resolvectl statistics ###
run resolvectl statistics
grep -qF "Transactions" "$RUN_OUT"
grep -qF "Cache" "$RUN_OUT"
grep -qF "Failure Transactions" "$RUN_OUT"
grep -qF "DNSSEC Verdicts" "$RUN_OUT"
run resolvectl statistics --json=short
grep -qF "transactions" "$RUN_OUT"
grep -qF "cache" "$RUN_OUT"
grep -qF "dnssec" "$RUN_OUT"
run resolvectl statistics --json=pretty
grep -qF "transactions" "$RUN_OUT"
grep -qF "cache" "$RUN_OUT"
grep -qF "dnssec" "$RUN_OUT"
### Test resolvectl reset-statistics ###
run resolvectl reset-statistics
run resolvectl reset-statistics --json=pretty
run resolvectl reset-statistics --json=short
test "$(resolvectl --json=short query -t AAAA localhost)" == '{"key":{"class":1,"type":28,"name":"localhost"},"address":[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1]}'
test "$(resolvectl --json=short query -t A localhost)" == '{"key":{"class":1,"type":1,"name":"localhost"},"address":[127,0,0,1]}'
# Test ResolveRecord RR resolving via Varlink
test "$(varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveRecord '{"name":"localhost","type":1}' --json=short | jq -rc 'del(.rrs | .[] | .ifindex)')" == '{"rrs":[{"rr":{"key":{"class":1,"type":1,"name":"localhost"},"address":[127,0,0,1]},"raw":"CWxvY2FsaG9zdAAAAQABAAAAAAAEfwAAAQ=="}],"flags":786945}'
test "$(varlinkctl call /run/systemd/resolve/io.systemd.Resolve io.systemd.Resolve.ResolveRecord '{"name":"localhost","type":28}' --json=short | jq -rc 'del(.rrs | .[] | .ifindex)')" == '{"rrs":[{"rr":{"key":{"class":1,"type":28,"name":"localhost"},"address":[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1]},"raw":"CWxvY2FsaG9zdAAAHAABAAAAAAAQAAAAAAAAAAAAAAAAAAAAAQ=="}],"flags":786945}'
# Ensure that reloading keeps the manually configured address
{
echo "[Resolve]"
echo "DNS=8.8.8.8"
} >/run/systemd/resolved.conf.d/reload.conf
resolvectl dns dns0 1.1.1.1
systemctl reload systemd-resolved.service
resolvectl status
resolvectl dns dns0 | grep -qF "1.1.1.1"
# For some reason piping this last command to grep fails with:
# 'resolvectl[1378]: Failed to print table: Broken pipe'
# so use an intermediate file in /tmp/
resolvectl >/tmp/output
grep -qF "DNS Servers: 8.8.8.8" /tmp/output
# Check if resolved exits cleanly.
restart_resolved
}
# PRE-SETUP
systemctl unmask systemd-resolved.service
systemctl enable --now systemd-resolved.service
systemctl service-log-level systemd-resolved.service debug
# Need to be run before SETUP, otherwise things will break
manual_testcase_01_resolvectl
manual_testcase_02_mdns_llmnr
# Run setup
setup
# Run tests
run_testcases
touch /testok