#!/bin/sh # # Copyright (C) Internet Systems Consortium, Inc. ("ISC") # # 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 http://mozilla.org/MPL/2.0/. # # See the COPYRIGHT file distributed with this work for additional # information regarding copyright ownership. SYSTEMTESTTOP=.. . $SYSTEMTESTTOP/conf.sh DIGOPTS="+short -p ${PORT}" RNDCCMD="$RNDC -p ${CONTROLPORT} -c ../common/rndc.conf" status=0 for bad in bad-*.conf do ret=0 echo_i "checking that named-checkconf detects error in $bad" $CHECKCONF $bad > /dev/null 2>&1 if [ $? != 1 ]; then echo_i "failed"; ret=1; fi status=`expr $status + $ret` done for good in good-*.conf do ret=0 echo_i "checking that named-checkconf detects no error in $good" $CHECKCONF $good > /dev/null 2>&1 if [ $? != 0 ]; then echo_i "failed"; ret=1; fi status=`expr $status + $ret` done $DIG $DIGOPTS @10.53.0.3 a.example > dig.out # check three different dnstap reopen/roll methods: # ns1: dnstap-reopen; ns2: dnstap -reopen; ns3: dnstap -roll mv ns1/dnstap.out ns1/dnstap.out.save mv ns2/dnstap.out ns2/dnstap.out.save if [ -n "$FSTRM_CAPTURE" ] ; then $FSTRM_CAPTURE -t protobuf:dnstap.Dnstap -u ns4/dnstap.out \ -w dnstap.out > fstrm_capture.out 2>&1 & fstrm_capture_pid=$! fi $RNDCCMD -s 10.53.0.1 dnstap-reopen | sed 's/^/ns1 /' | cat_i $RNDCCMD -s 10.53.0.2 dnstap -reopen | sed 's/^/ns2 /' | cat_i $RNDCCMD -s 10.53.0.3 dnstap -roll | sed 's/^/ns3 /' | cat_i $RNDCCMD -s 10.53.0.4 dnstap -reopen | sed 's/^/ns4 /' | cat_i $DIG $DIGOPTS @10.53.0.3 a.example > dig.out # XXX: file output should be flushed once a second according # to the libfstrm source, but it doesn't seem to happen until # enough data has accumulated. to get all the output, we stop # the name servers, forcing a flush on shutdown. it would be # nice to find a better way to do this. $RNDCCMD -s 10.53.0.1 stop | sed 's/^/ns1 /' | cat_i $RNDCCMD -s 10.53.0.2 stop | sed 's/^/ns2 /' | cat_i $RNDCCMD -s 10.53.0.3 stop | sed 's/^/ns3 /' | cat_i sleep 1 echo_i "checking initial message counts" udp1=`$DNSTAPREAD ns1/dnstap.out.save | grep "UDP " | wc -l` tcp1=`$DNSTAPREAD ns1/dnstap.out.save | grep "TCP " | wc -l` aq1=`$DNSTAPREAD ns1/dnstap.out.save | grep "AQ " | wc -l` ar1=`$DNSTAPREAD ns1/dnstap.out.save | grep "AR " | wc -l` cq1=`$DNSTAPREAD ns1/dnstap.out.save | grep "CQ " | wc -l` cr1=`$DNSTAPREAD ns1/dnstap.out.save | grep "CR " | wc -l` rq1=`$DNSTAPREAD ns1/dnstap.out.save | grep "RQ " | wc -l` rr1=`$DNSTAPREAD ns1/dnstap.out.save | grep "RR " | wc -l` udp2=`$DNSTAPREAD ns2/dnstap.out.save | grep "UDP " | wc -l` tcp2=`$DNSTAPREAD ns2/dnstap.out.save | grep "TCP " | wc -l` aq2=`$DNSTAPREAD ns2/dnstap.out.save | grep "AQ " | wc -l` ar2=`$DNSTAPREAD ns2/dnstap.out.save | grep "AR " | wc -l` cq2=`$DNSTAPREAD ns2/dnstap.out.save | grep "CQ " | wc -l` cr2=`$DNSTAPREAD ns2/dnstap.out.save | grep "CR " | wc -l` rq2=`$DNSTAPREAD ns2/dnstap.out.save | grep "RQ " | wc -l` rr2=`$DNSTAPREAD ns2/dnstap.out.save | grep "RR " | wc -l` mv ns3/dnstap.out.0 ns3/dnstap.out.save udp3=`$DNSTAPREAD ns3/dnstap.out.save | grep "UDP " | wc -l` tcp3=`$DNSTAPREAD ns3/dnstap.out.save | grep "TCP " | wc -l` aq3=`$DNSTAPREAD ns3/dnstap.out.save | grep "AQ " | wc -l` ar3=`$DNSTAPREAD ns3/dnstap.out.save | grep "AR " | wc -l` cq3=`$DNSTAPREAD ns3/dnstap.out.save | grep "CQ " | wc -l` cr3=`$DNSTAPREAD ns3/dnstap.out.save | grep "CR " | wc -l` rq3=`$DNSTAPREAD ns3/dnstap.out.save | grep "RQ " | wc -l` rr3=`$DNSTAPREAD ns3/dnstap.out.save | grep "RR " | wc -l` echo_i "checking UDP message counts" ret=0 [ $udp1 -eq 0 ] || { echo_i "ns1 $udp1 expected 0" ret=1 } [ $udp2 -eq 2 ] || { echo_i "ns2 $udp2 expected 2" ret=1 } [ $udp3 -eq 4 ] || { echo_i "ns3 $udp3 expected 4" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking TCP message counts" ret=0 [ $tcp1 -eq 6 ] || { echo_i "ns1 $tcp1 expected 6" ret=1 } [ $tcp2 -eq 2 ] || { echo_i "ns2 $tcp2 expected 2" ret=1 } [ $tcp3 -eq 6 ] || { echo_i "ns3 $tcp3 expected 6" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_QUERY message counts" ret=0 [ $aq1 -eq 2 ] || { echo_i "ns1 $aq1 exepcted 2" ret=1 } [ $aq2 -eq 1 ] || { echo_i "ns2 $aq2 expected 1" ret=1 } [ $aq3 -eq 0 ] || { echo_i "ns3 $aq3 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_RESPONSE message counts" ret=0 [ $ar1 -eq 2 ] || { echo_i "ns1 $ar1 expected 2" ret=1 } [ $ar2 -eq 1 ] || { echo_i "ns2 $ar2 expected 1" ret=1 } [ $ar3 -eq 0 ] || { echo_i "ns3 $ar3 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_QUERY message counts" ret=0 [ $cq1 -eq 1 ] || { echo_i "ns1 $cq1 expected 1" ret=1 } [ $cq2 -eq 1 ] || { echo_i "ns2 $cq2 expected 1" ret=1 } [ $cq3 -eq 2 ] || { echo_i "ns3 $cq3 expected 2" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_RESPONSE message counts" ret=0 [ $cr1 -eq 1 ] || { echo_i "ns1 $cr1 expected 1" ret=1 } [ $cr2 -eq 1 ] || { echo_i "ns2 $cr2 expected 1" ret=1 } [ $cr3 -eq 2 ] || { echo_i "ns3 $cr3 expected 2" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_QUERY message counts" ret=0 [ $rq1 -eq 0 ] || { echo_i "ns1 $rq1 expected 0" ret=1 } [ $rq2 -eq 0 ] || { echo_i "ns2 $rq2 expected 0" ret=1 } [ $rq3 -eq 3 ] || { echo_i "ns3 $rq3 expected 3" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_RESPONSE message counts" ret=0 [ $rr1 -eq 0 ] || { echo_i "ns1 $rr1 expected 0" ret=1 } [ $rr2 -eq 0 ] || { echo_i "ns2 $rr2 expected 0" ret=1 } [ $rr3 -eq 3 ] || { echo_i "ns3 $rr3 expected 3" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking reopened message counts" udp1=`$DNSTAPREAD ns1/dnstap.out | grep "UDP " | wc -l` tcp1=`$DNSTAPREAD ns1/dnstap.out | grep "TCP " | wc -l` aq1=`$DNSTAPREAD ns1/dnstap.out | grep "AQ " | wc -l` ar1=`$DNSTAPREAD ns1/dnstap.out | grep "AR " | wc -l` cq1=`$DNSTAPREAD ns1/dnstap.out | grep "CQ " | wc -l` cr1=`$DNSTAPREAD ns1/dnstap.out | grep "CR " | wc -l` rq1=`$DNSTAPREAD ns1/dnstap.out | grep "RQ " | wc -l` rr1=`$DNSTAPREAD ns1/dnstap.out | grep "RR " | wc -l` udp2=`$DNSTAPREAD ns2/dnstap.out | grep "UDP " | wc -l` tcp2=`$DNSTAPREAD ns2/dnstap.out | grep "TCP " | wc -l` aq2=`$DNSTAPREAD ns2/dnstap.out | grep "AQ " | wc -l` ar2=`$DNSTAPREAD ns2/dnstap.out | grep "AR " | wc -l` cq2=`$DNSTAPREAD ns2/dnstap.out | grep "CQ " | wc -l` cr2=`$DNSTAPREAD ns2/dnstap.out | grep "CR " | wc -l` rq2=`$DNSTAPREAD ns2/dnstap.out | grep "RQ " | wc -l` rr2=`$DNSTAPREAD ns2/dnstap.out | grep "RR " | wc -l` udp3=`$DNSTAPREAD ns3/dnstap.out | grep "UDP " | wc -l` tcp3=`$DNSTAPREAD ns3/dnstap.out | grep "TCP " | wc -l` aq3=`$DNSTAPREAD ns3/dnstap.out | grep "AQ " | wc -l` ar3=`$DNSTAPREAD ns3/dnstap.out | grep "AR " | wc -l` cq3=`$DNSTAPREAD ns3/dnstap.out | grep "CQ " | wc -l` cr3=`$DNSTAPREAD ns3/dnstap.out | grep "CR " | wc -l` rq3=`$DNSTAPREAD ns3/dnstap.out | grep "RQ " | wc -l` rr3=`$DNSTAPREAD ns3/dnstap.out | grep "RR " | wc -l` echo_i "checking UDP message counts" ret=0 [ $udp1 -eq 0 ] || { echo_i "ns1 $udp1 expected 0" ret=1 } [ $udp2 -eq 0 ] || { echo_i "ns2 $udp2 expected 0" ret=1 } [ $udp3 -eq 2 ] || { echo_i "ns3 $udp3 expected 2" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking TCP message counts" ret=0 [ $tcp1 -eq 0 ] || { echo_i "ns1 $tcp1 expected 0" ret=1 } [ $tcp2 -eq 0 ] || { echo_i "ns2 $tcp2 expected 0" ret=1 } [ $tcp3 -eq 0 ] || { echo_i "ns3 $tcp3 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_QUERY message counts" ret=0 [ $aq1 -eq 0 ] || { echo_i "ns1 $aq1 exepcted 0" ret=1 } [ $aq2 -eq 0 ] || { echo_i "ns2 $aq2 expected 0" ret=1 } [ $aq3 -eq 0 ] || { echo_i "ns3 $aq3 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_RESPONSE message counts" ret=0 [ $ar1 -eq 0 ] || { echo_i "ns1 $ar1 expected 0" ret=1 } [ $ar2 -eq 0 ] || { echo_i "ns2 $ar2 expected 0" ret=1 } [ $ar3 -eq 0 ] || { echo_i "ns3 $ar3 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_QUERY message counts" ret=0 [ $cq1 -eq 0 ] || { echo_i "ns1 $cq1 expected 0" ret=1 } [ $cq2 -eq 0 ] || { echo_i "ns2 $cq2 expected 0" ret=1 } [ $cq3 -eq 1 ] || { echo_i "ns3 $cq3 expected 1" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_RESPONSE message counts" ret=0 [ $cr1 -eq 0 ] || { echo_i "ns1 $cr1 expected 0" ret=1 } [ $cr2 -eq 0 ] || { echo_i "ns2 $cr2 expected 0" ret=1 } [ $cr3 -eq 1 ] || { echo_i "ns3 $cr3 expected 1" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_QUERY message counts" ret=0 [ $rq1 -eq 0 ] || { echo_i "ns1 $rq1 expected 0" ret=1 } [ $rq2 -eq 0 ] || { echo_i "ns2 $rq2 expected 0" ret=1 } [ $rq3 -eq 0 ] || { echo_i "ns3 $rq3 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_RESPONSE message counts" ret=0 [ $rr1 -eq 0 ] || { echo_i "ns1 $rr1 expected 0" ret=1 } [ $rr2 -eq 0 ] || { echo_i "ns2 $rr2 expected 0" ret=1 } [ $rr3 -eq 0 ] || { echo_i "ns3 $rr3 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` HAS_PYYAML=0 if [ -n "$PYTHON" ] ; then $PYTHON -c "import yaml" 2> /dev/null && HAS_PYYAML=1 fi if [ $HAS_PYYAML -ne 0 ] ; then echo_i "checking dnstap-read YAML output" ret=0 { $PYTHON ydump.py "$DNSTAPREAD" "ns3/dnstap.out.save" > ydump.out || ret=1 } | cat_i if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` fi if [ -n "$FSTRM_CAPTURE" ] ; then $DIG $DIGOPTS @10.53.0.4 a.example > dig.out echo_i "checking unix socket message counts" sleep 2 kill $fstrm_capture_pid wait udp4=`$DNSTAPREAD dnstap.out | grep "UDP " | wc -l` tcp4=`$DNSTAPREAD dnstap.out | grep "TCP " | wc -l` aq4=`$DNSTAPREAD dnstap.out | grep "AQ " | wc -l` ar4=`$DNSTAPREAD dnstap.out | grep "AR " | wc -l` cq4=`$DNSTAPREAD dnstap.out | grep "CQ " | wc -l` cr4=`$DNSTAPREAD dnstap.out | grep "CR " | wc -l` rq4=`$DNSTAPREAD dnstap.out | grep "RQ " | wc -l` rr4=`$DNSTAPREAD dnstap.out | grep "RR " | wc -l` echo_i "checking UDP message counts" ret=0 [ $udp4 -eq 2 ] || { echo_i "ns4 $udp4 expected 2" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking TCP message counts" ret=0 [ $tcp4 -eq 0 ] || { echo_i "ns4 $tcp4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_QUERY message counts" ret=0 [ $aq4 -eq 0 ] || { echo_i "ns4 $aq4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_RESPONSE message counts" ret=0 [ $ar4 -eq 0 ] || { echo_i "ns4 $ar4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_QUERY message counts" ret=0 [ $cq4 -eq 1 ] || { echo_i "ns4 $cq4 expected 1" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_RESPONSE message counts" ret=0 [ $cr4 -eq 1 ] || { echo_i "ns4 $cr4 expected 1" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_QUERY message counts" ret=0 [ $rq4 -eq 0 ] || { echo_i "ns4 $rq4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_RESPONSE message counts" ret=0 [ $rr4 -eq 0 ] || { echo_i "ns4 $rr4 expected 0" ret=1 } mv dnstap.out dnstap.out.save $FSTRM_CAPTURE -t protobuf:dnstap.Dnstap -u ns4/dnstap.out \ -w dnstap.out > fstrm_capture.out 2>&1 & fstrm_capture_pid=$! $RNDCCMD -s 10.53.0.4 dnstap -reopen | sed 's/^/ns4 /' | cat_i $DIG $DIGOPTS @10.53.0.4 a.example > dig.out echo_i "checking reopened unix socket message counts" sleep 2 kill $fstrm_capture_pid wait udp4=`$DNSTAPREAD dnstap.out | grep "UDP " | wc -l` tcp4=`$DNSTAPREAD dnstap.out | grep "TCP " | wc -l` aq4=`$DNSTAPREAD dnstap.out | grep "AQ " | wc -l` ar4=`$DNSTAPREAD dnstap.out | grep "AR " | wc -l` cq4=`$DNSTAPREAD dnstap.out | grep "CQ " | wc -l` cr4=`$DNSTAPREAD dnstap.out | grep "CR " | wc -l` rq4=`$DNSTAPREAD dnstap.out | grep "RQ " | wc -l` rr4=`$DNSTAPREAD dnstap.out | grep "RR " | wc -l` echo_i "checking UDP message counts" ret=0 [ $udp4 -eq 2 ] || { echo_i "ns4 $udp4 expected 2" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking TCP message counts" ret=0 [ $tcp4 -eq 0 ] || { echo_i "ns4 $tcp4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_QUERY message counts" ret=0 [ $aq4 -eq 0 ] || { echo_i "ns4 $aq4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking AUTH_RESPONSE message counts" ret=0 [ $ar4 -eq 0 ] || { echo_i "ns4 $ar4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_QUERY message counts" ret=0 [ $cq4 -eq 1 ] || { echo_i "ns4 $cq4 expected 1" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking CLIENT_RESPONSE message counts" ret=0 [ $cr4 -eq 1 ] || { echo_i "ns4 $cr4 expected 1" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_QUERY message counts" ret=0 [ $rq4 -eq 0 ] || { echo_i "ns4 $rq4 expected 0" ret=1 } if [ $ret != 0 ]; then echo_i "failed"; fi status=`expr $status + $ret` echo_i "checking RESOLVER_RESPONSE message counts" ret=0 [ $rr4 -eq 0 ] || { echo_i "ns4 $rr4 expected 0" ret=1 } fi echo_i "exit status: $status" [ $status -eq 0 ] || exit 1