#!/bin/sh # Copyright (C) Internet Systems Consortium, Inc. ("ISC") # # SPDX-License-Identifier: MPL-2.0 # # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, you can obtain one at https://mozilla.org/MPL/2.0/. # # See the COPYRIGHT file distributed with this work for additional # information regarding copyright ownership. set -e # shellcheck disable=SC1091 . ../conf.sh common_dig_options="+noadd +nosea +nostat +noquest +nocmd" msg_xfrs_not_allowed=";; zone transfers over the established TLS connection are not allowed" msg_peer_verification_failed=";; TLS peer certificate verification" ca_file="./CA/CA.pem" if [ -x "$PYTHON" ]; then OPENSSL_VERSION=$("$PYTHON" "$TOP_SRCDIR/bin/tests/system/doth/get_openssl_version.py") OPENSSL_VERSION_MAJOR=$(echo "$OPENSSL_VERSION" | cut -d ' ' -f 1) OPENSSL_VERSION_MINOR=$(echo "$OPENSSL_VERSION" | cut -d ' ' -f 2) fi # According to the RFC 8310, Section 8.1, Subject field MUST # NOT be inspected when verifying a hostname when using # DoT. Only SubjectAltName must be checked instead. That is # not the case for HTTPS, though. # Unfortunately, some quite old versions of OpenSSL (< 1.1.1) # might lack the functionality to implement that. It should # have very little real-world consequences, as most of the # production-ready certificates issued by real CAs will have # SubjectAltName set. In such a case, the Subject field is # ignored. # # On the platforms with too old TLS versions, e.g. RedHat 7, we should # ignore the tests checking the correct handling of absence of # SubjectAltName. if [ -n "$OPENSSL_VERSION" ]; then if [ $OPENSSL_VERSION_MAJOR -gt 1 ]; then run_san_tests=1 elif [ $OPENSSL_VERSION_MAJOR -eq 1 ] && [ $OPENSSL_VERSION_MINOR -ge 1 ]; then run_san_tests=1 fi fi dig_with_tls_opts() { # shellcheck disable=SC2086 "$DIG" +tls $common_dig_options -p "${TLSPORT}" "$@" } dig_with_https_opts() { # shellcheck disable=SC2086 "$DIG" +https $common_dig_options -p "${HTTPSPORT}" "$@" } dig_with_http_opts() { # shellcheck disable=SC2086 "$DIG" +http-plain $common_dig_options -p "${HTTPPORT}" "$@" } dig_with_opts() { # shellcheck disable=SC2086 "$DIG" $common_dig_options -p "${PORT}" "$@" } wait_for_tls_xfer() ( srv_number="$1" shift zone_name="$1" shift # Let's bind to .10 to make it possible to easily distinguish dig from NSs in packet traces dig_with_tls_opts -b 10.53.0.10 "@10.53.0.$srv_number" "${zone_name}." AXFR > "dig.out.ns$srv_number.${zone_name}.test$n" || return 1 grep "^;" "dig.out.ns$srv_number.${zone_name}.test$n" > /dev/null && return 1 return 0 ) status=0 n=0 n=$((n+1)) echo_i "testing XoT server functionality (using dig) ($n)" ret=0 dig_with_tls_opts example. -b 10.53.0.10 @10.53.0.1 axfr > dig.out.ns1.test$n || ret=1 grep "^;" dig.out.ns1.test$n | cat_i digcomp example.axfr.good dig.out.ns1.test$n || ret=1 if test $ret != 0 ; then echo_i "failed"; fi status=$((status+ret)) n=$((n+1)) echo_i "testing incoming XoT functionality (from the first secondary) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example; then digcomp example.axfr.good "dig.out.ns2.example.test$n" || ret=1 else echo_i "timed out waiting for zone transfer" grep "^;" "dig.out.ns2.example.test$n" | cat_i ret=1 fi if test $ret != 0 ; then echo_i "failed"; fi status=$((status+ret)) if [ -n "$run_san_tests" ]; then n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, no SubjectAltName, failure expected) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example3; then ret=1 else echo_i "timed out waiting for zone transfer" fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) fi n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, StrictTLS via implicit IP) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example4; then retry_quiet 5 test -f "ns2/example4.db" || ret=1 else echo_i "timed out waiting for zone transfer" grep "^;" "dig.out.ns2.example4.test$n" | cat_i ret=1 fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, StrictTLS via specified IPv4) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example5; then retry_quiet 5 test -f "ns2/example5.db" || ret=1 else echo_i "timed out waiting for zone transfer" grep "^;" "dig.out.ns2.example5.test$n" | cat_i ret=1 fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, StrictTLS via specified IPv6) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example6; then retry_quiet 5 test -f "ns2/example6.db" || ret=1 else echo_i "timed out waiting for zone transfer" grep "^;" "dig.out.ns2.example6.test$n" | cat_i ret=1 fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, wrong hostname, failure expected) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example7; then ret=1 else echo_i "timed out waiting for zone transfer" fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, expired certificate, failure expected) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example8; then ret=1 else echo_i "timed out waiting for zone transfer" fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, MutualTLS) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example9; then retry_quiet 5 test -f "ns2/example9.db" || ret=1 else echo_i "timed out waiting for zone transfer" grep "^;" "dig.out.ns2.example9.test$n" | cat_i ret=1 fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, MutualTLS, no client cert, failure expected) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example10; then ret=1 else echo_i "timed out waiting for zone transfer" fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "testing incoming XoT functionality (from the first secondary, MutualTLS, expired client cert, failure expected) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 2 example11; then ret=1 else echo_i "timed out waiting for zone transfer" fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n+1)) echo_i "testing incoming XoT functionality (from the second secondary) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 3 example; then digcomp example.axfr.good "dig.out.ns3.example.test$n" || ret=1 else echo_i "timed out waiting for zone transfer" grep "^;" "dig.out.ns3.example.test$n" | cat_i ret=1 fi if test $ret != 0 ; then echo_i "failed"; fi status=$((status+ret)) n=$((n+1)) echo_i "testing incoming XoT functionality (from the second secondary, mismatching ciphers, failure expected) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 3 example2; then ret=1 else echo_i "timed out waiting for zone transfer" fi if test $ret != 0 ; then echo_i "failed"; fi status=$((status+ret)) n=$((n+1)) echo_i "testing incoming XoT functionality (from the third secondary) ($n)" ret=0 if retry_quiet 10 wait_for_tls_xfer 4 example; then digcomp example.axfr.good "dig.out.ns4.example.test$n" || ret=1 else echo_i "timed out waiting for zone transfer" grep "^;" "dig.out.ns4.example.test$n" | cat_i ret=1 fi if test $ret != 0 ; then echo_i "failed"; fi status=$((status+ret)) n=$((n + 1)) echo_i "checking DoT query (ephemeral key) ($n)" ret=0 dig_with_tls_opts @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query via IPv6 (ephemeral key) ($n)" ret=0 dig_with_tls_opts -6 @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query (static key) ($n)" ret=0 dig_with_tls_opts @10.53.0.2 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query via IPv6 (static key) ($n)" ret=0 dig_with_tls_opts -6 @fd92:7065:b8e:ffff::2 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT XFR ($n)" ret=0 dig_with_tls_opts +comm @10.53.0.1 . AXFR > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) # zone transfers are allowed only via TLS n=$((n+1)) echo_i "testing zone transfer over Do53 server functionality (using dig, failure expected) ($n)" ret=0 dig_with_opts example. -b 10.53.0.10 @10.53.0.1 axfr > dig.out.ns1.test$n || ret=1 grep "; Transfer failed." dig.out.ns1.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) # querying zones is still allowed via UDP/TCP n=$((n + 1)) echo_i "checking Do53 query ($n)" ret=0 dig_with_opts @10.53.0.1 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) # In this test we are trying to establish a DoT connection over the # DoH port. That is intentional, as dig should fail right after # handshake has happened and before sending any queries, as XFRs, per # the RFC, could happen only over a connection where "dot" ALPN token # was negotiated. over DoH it cannot happen, as only "h2" token could # be selected for a DoH connection. n=$((n + 1)) echo_i "checking DoT XFR with wrong ALPN token (h2, failure expected) ($n)" ret=0 # shellcheck disable=SC2086 "$DIG" +tls $common_dig_options -p "${HTTPSPORT}" +comm @10.53.0.1 . AXFR > dig.out.test$n grep "$msg_xfrs_not_allowed" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) # Let's try to issue an HTTP/2 query over TLS port to check if dig # will detect ALPN token negotiation problem. n=$((n + 1)) echo_i "checking DoH query when ALPN is expected to fail (dot, failure expected) ($n)" ret=0 # shellcheck disable=SC2086 "$DIG" +https $common_dig_options -p "${TLSPORT}" "$@" @10.53.0.1 . SOA > dig.out.test$n && ret=1 grep "ALPN for HTTP/2 failed." dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (POST) ($n)" ret=0 dig_with_https_opts +stat @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTPS)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (POST) ($n)" ret=0 dig_with_https_opts +stat -6 @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTPS)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (POST, static key) ($n)" ret=0 dig_with_https_opts @10.53.0.2 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (POST, static key) ($n)" ret=0 dig_with_https_opts -6 @fd92:7065:b8e:ffff::2 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (POST, nonstandard endpoint) ($n)" ret=0 dig_with_https_opts +https=/alter @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (POST, nonstandard endpoint) ($n)" ret=0 dig_with_https_opts -6 +https=/alter @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (POST, undefined endpoint, failure expected) ($n)" ret=0 dig_with_https_opts +tries=1 +time=1 +https=/fake @10.53.0.1 . SOA > dig.out.test$n && ret=1 grep "communications error" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (POST, undefined endpoint, failure expected) ($n)" ret=0 dig_with_https_opts -6 +tries=1 +time=1 +https=/fake @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n && ret=1 grep "communications error" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH XFR (POST) (failure expected) ($n)" ret=0 dig_with_https_opts +comm @10.53.0.1 . AXFR > dig.out.test$n || ret=1 grep "; Transfer failed." dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (GET) ($n)" ret=0 dig_with_https_opts +stat +https-get @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTPS-GET)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (GET) ($n)" ret=0 dig_with_https_opts -6 +stat +https-get @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTPS-GET)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (GET, static key) ($n)" ret=0 dig_with_https_opts +https-get @10.53.0.2 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (GET, static key) ($n)" ret=0 dig_with_https_opts -6 +https-get @fd92:7065:b8e:ffff::2 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (GET, nonstandard endpoint) ($n)" ret=0 dig_with_https_opts +https-get=/alter @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (GET, nonstandard endpoint) ($n)" ret=0 dig_with_https_opts -6 +https-get=/alter @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (GET, undefined endpoint, failure expected) ($n)" ret=0 dig_with_https_opts +tries=1 +time=1 +https-get=/fake @10.53.0.1 . SOA > dig.out.test$n && ret=1 grep "communications error" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 (GET, undefined endpoint, failure expected) ($n)" ret=0 dig_with_https_opts -6 +tries=1 +time=1 +https-get=/fake @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n && ret=1 grep "communications error" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH XFR (GET) (failure expected) ($n)" ret=0 dig_with_https_opts +https-get +comm @10.53.0.1 . AXFR > dig.out.test$n || ret=1 grep "; Transfer failed." dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query (POST) ($n)" ret=0 dig_with_http_opts +stat @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTP)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query via IPv6 (POST) ($n)" ret=0 dig_with_http_opts -6 +stat @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTP)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query (GET) ($n)" ret=0 dig_with_http_opts +stat +http-plain-get @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTP-GET)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query via IPv6 (GET) ($n)" ret=0 dig_with_http_opts -6 +stat +http-plain-get @fd92:7065:b8e:ffff::1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep -F "(HTTP-GET)" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH XFR (failure expected) ($n)" ret=0 dig_with_http_opts +comm @10.53.0.1 . AXFR > dig.out.test$n || ret=1 grep "; Transfer failed." dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query for a large answer (POST) ($n)" ret=0 dig_with_https_opts @10.53.0.1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 for a large answer (POST) ($n)" ret=0 dig_with_https_opts -6 @fd92:7065:b8e:ffff::1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query for a large answer (GET) ($n)" ret=0 dig_with_https_opts +https-get @10.53.0.1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query via IPv6 for a large answer (GET) ($n)" ret=0 dig_with_https_opts -6 +https-get @fd92:7065:b8e:ffff::1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query for a large answer (POST) ($n)" ret=0 dig_with_http_opts @10.53.0.1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query via IPv6 for a large answer (POST) ($n)" ret=0 dig_with_http_opts -6 @fd92:7065:b8e:ffff::1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query for a large answer (GET) ($n)" ret=0 dig_with_http_opts +http-plain-get @10.53.0.1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unencrypted DoH query via IPv6 for a large answer (GET) ($n)" ret=0 dig_with_http_opts -6 +http-plain-get @fd92:7065:b8e:ffff::1 biganswer.example A > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 grep "ANSWER: 2500" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) wait_for_tlsctx_update_ns4 () { grep "updating TLS context on 10.53.0.4#${HTTPSPORT}" ns4/named.run > /dev/null || return 1 grep "updating TLS context on 10.53.0.4#${TLSPORT}" ns4/named.run > /dev/null || return 1 return 0 } n=$((n + 1)) echo_i "doing rndc reconfig to see that queries keep being served after that ($n)" ret=0 rndc_reconfig ns4 10.53.0.4 60 retry_quiet 15 wait_for_tlsctx_update_ns4 || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query after a reconfiguration ($n)" ret=0 dig_with_tls_opts @10.53.0.4 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (POST) after a reconfiguration ($n)" ret=0 dig_with_https_opts @10.53.0.4 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "doing rndc reconfig to see if HTTP endpoints have gotten reconfigured ($n)" ret=0 # 'sed -i ...' is not portable. Sigh... sed 's/\/dns-query/\/dns-query-test/g' "ns4/named.conf" > "ns4/named.conf.sed" mv -f "ns4/named.conf.sed" "ns4/named.conf" rndc_reconfig ns4 10.53.0.4 60 retry_quiet 15 wait_for_tlsctx_update_ns4 || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (POST) to verify HTTP endpoint reconfiguration ($n)" ret=0 dig_with_https_opts +https='/dns-query-test' @10.53.0.4 example SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query (with TLS verification enabled) ($n)" ret=0 dig_with_tls_opts +tls-ca="$ca_file" +tls-hostname="srv01.crt01.example.com" @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (with TLS verification enabled, self-signed cert, failure expected) ($n)" ret=0 dig_with_https_opts +tls-ca="$ca_file" +tls-hostname="srv01.crt01.example.com" @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "$msg_peer_verification_failed" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query (with TLS verification using the system's CA store, failure expected) ($n)" ret=0 dig_with_tls_opts +tls-ca +tls-hostname="srv01.crt01.example.com" @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "$msg_peer_verification_failed" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (with TLS verification using the system's CA store, failure expected) ($n)" ret=0 dig_with_https_opts +tls-ca +tls-hostname="srv01.crt01.example.com" @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "$msg_peer_verification_failed" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) # the primary server's certificate contains the IP address in the # SubjectAltName section n=$((n + 1)) echo_i "checking DoT query (with TLS verification, hostname is not specified, IP address is used instead) ($n)" ret=0 dig_with_tls_opts +tls-ca="$ca_file" @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "$msg_peer_verification_failed" dig.out.test$n > /dev/null && ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) if [ -n "$run_san_tests" ]; then # SubjectAltName is required for DoT as according to RFC 8310, Subject # field MUST NOT be inspected when verifying hostname for DoT. n=$((n + 1)) echo_i "checking DoT query (with TLS verification enabled when SubjectAltName is not set, failure expected) ($n)" ret=0 dig_with_tls_opts +tls-ca="$ca_file" +tls-hostname="srv01.crt02-no-san.example.com" @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "$msg_peer_verification_failed" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT XFR over a TLS port where SubjectAltName is not set (failure expected) ($n)" ret=0 # shellcheck disable=SC2086 dig_with_tls_opts +tls-ca="$ca_file" +tls-hostname="srv01.crt02-no-san.example.com" -p "${EXTRAPORT2}" +comm @10.53.0.1 . AXFR > dig.out.test$n || ret=1 grep "$msg_peer_verification_failed" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) fi # SubjectAltName is not required for HTTPS. Having a properly set # Common Name in the Subject field is enough. n=$((n + 1)) echo_i "checking DoH query (when SubjectAltName is not set) ($n)" ret=0 dig_with_https_opts +tls-ca="$ca_file" +tls-hostname="srv01.crt02-no-san.example.com" -p "${EXTRAPORT3}" +comm @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query (expired certificate, Opportunistic TLS) ($n)" ret=0 dig_with_tls_opts +tls -p "${EXTRAPORT4}" +comm @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoT query (expired certificate, Strict TLS, failure expected) ($n)" ret=0 dig_with_tls_opts +tls-ca="$ca_file" -p "${EXTRAPORT4}" +comm @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "$msg_peer_verification_failed" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n+1)) echo_i "testing XoT server functionality (using dig, client certificate required, failure expected) ($n)" ret=0 dig_with_tls_opts +tls-ca="$ca_file" -p "${EXTRAPORT5}" example8. -b 10.53.0.10 @10.53.0.1 axfr > dig.out.ns1.test$n || ret=1 grep "; Transfer failed." dig.out.ns1.test$n > /dev/null || ret=1 if test $ret != 0 ; then echo_i "failed"; fi status=$((status + ret)) n=$((n+1)) echo_i "testing XoT server functionality (using dig, client certificate used) ($n)" ret=0 dig_with_tls_opts +tls-ca="$ca_file" +tls-certfile="./CA/certs/srv01.client01.example.com.pem" +tls-keyfile="./CA/certs/srv01.client01.example.com.key" -p "${EXTRAPORT5}" example8. -b 10.53.0.10 @10.53.0.1 axfr > dig.out.ns1.test$n || ret=1 digcomp dig.out.ns1.test$n example8.axfr.good > /dev/null || ret=1 if test $ret != 0 ; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (client certificate required, failure expected) ($n)" ret=0 dig_with_https_opts +tls-ca="$ca_file" -p "${EXTRAPORT6}" +comm @10.53.0.1 . SOA > dig.out.test$n && ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null && ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking DoH query (client certificate used) ($n)" ret=0 # shellcheck disable=SC2086 dig_with_https_opts +https +tls-ca="$ca_file" +tls-certfile="./CA/certs/srv01.client01.example.com.pem" +tls-keyfile="./CA/certs/srv01.client01.example.com.key" -p "${EXTRAPORT6}" +comm @10.53.0.1 . SOA > dig.out.test$n || ret=1 grep "status: NOERROR" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) # send two requests one after another so that session resumption will happen n=$((n + 1)) echo_i "checking DoH query (client certificate used - session resumption when using Mutual TLS) ($n)" ret=0 # shellcheck disable=SC2086 dig_with_https_opts +https +tls-ca="$ca_file" +tls-certfile="./CA/certs/srv01.client01.example.com.pem" +tls-keyfile="./CA/certs/srv01.client01.example.com.key" -p "${EXTRAPORT6}" +comm @10.53.0.1 . SOA . SOA > dig.out.test$n || ret=1 grep "TLS error" dig.out.test$n > /dev/null && ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) test_opcodes() { EXPECT_STATUS="$1" shift for op in "$@"; do n=$((n + 1)) echo_i "checking unexpected opcode query over DoH for opcode $op ($n)" ret=0 dig_with_https_opts +https @10.53.0.1 +opcode="$op" > dig.out.test$n || ret=1 grep "status: $EXPECT_STATUS" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unexpected opcode query over DoH via IPv6 for opcode $op ($n)" ret=0 dig_with_https_opts -6 +https @fd92:7065:b8e:ffff::1 +opcode="$op" > dig.out.test$n || ret=1 grep "status: $EXPECT_STATUS" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unexpected opcode query over DoH without encryption for opcode $op ($n)" ret=0 dig_with_http_opts +http-plain @10.53.0.1 +opcode="$op" > dig.out.test$n || ret=1 grep "status: $EXPECT_STATUS" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unexpected opcode query over DoH via IPv6 without encryption for opcode $op ($n)" ret=0 dig_with_http_opts -6 +http-plain @fd92:7065:b8e:ffff::1 +opcode="$op" > dig.out.test$n || ret=1 grep "status: $EXPECT_STATUS" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unexpected opcode query over DoT for opcode $op ($n)" ret=0 dig_with_tls_opts +tls @10.53.0.1 +opcode="$op" > dig.out.test$n || ret=1 grep "status: $EXPECT_STATUS" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking unexpected opcode query over DoT via IPv6 for opcode $op ($n)" ret=0 dig_with_tls_opts -6 +tls @fd92:7065:b8e:ffff::1 +opcode="$op" > dig.out.test$n || ret=1 grep "status: $EXPECT_STATUS" dig.out.test$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) done } test_opcodes NOERROR 0 test_opcodes NOTIMP 1 2 3 6 7 8 9 10 11 12 13 14 15 test_opcodes FORMERR 4 5 n=$((n + 1)) echo_i "checking server quotas for both encrypted and unencrypted HTTP ($n)" ret=0 if [ -x "$PYTHON" ]; then BINDHOST="10.53.0.1" "$PYTHON" "$TOP_SRCDIR/bin/tests/system/doth/stress_http_quota.py" || ret=$? else echo_i "Python is not available. Skipping the test..." fi if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) # check whether we can use curl for sending test queries. if [ -x "${CURL}" ] ; then CURL_HTTP2="$(${CURL} --version | grep -E '^Features:.* HTTP2( |$)' || true)" if [ -n "$CURL_HTTP2" ]; then testcurl=1 else echo_i "The available version of CURL does not have HTTP/2 support" fi fi # Note: see README.curl for information on how to generate curl # queries. if [ -n "$testcurl" ]; then n=$((n + 1)) echo_i "checking max-age for positive answer ($n)" ret=0 # use curl to query for 'example/SOA' $CURL -kD headers.$n "https://10.53.0.1:${HTTPSPORT}/dns-query?dns=AAEAAAABAAAAAAAAB2V4YW1wbGUAAAYAAQ" > /dev/null 2>&1 || ret=1 grep "cache-control: max-age=86400" headers.$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) n=$((n + 1)) echo_i "checking max-age for negative answer ($n)" ret=0 # use curl to query for 'fake.example/TXT' $CURL -kD headers.$n "https://10.53.0.1:${HTTPSPORT}/dns-query?dns=AAEAAAABAAAAAAAABGZha2UHZXhhbXBsZQAAEAAB" > /dev/null 2>&1 || ret=1 grep "cache-control: max-age=3600" headers.$n > /dev/null || ret=1 if [ $ret != 0 ]; then echo_i "failed"; fi status=$((status + ret)) fi echo_i "exit status: $status" [ $status -eq 0 ] || exit 1