676 lines
27 KiB
Bash
676 lines
27 KiB
Bash
#!/bin/sh
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#
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# Copyright (c) 2019 Kungliga Tekniska Högskolan
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# (Royal Institute of Technology, Stockholm, Sweden).
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions
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# are met:
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#
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# 1. Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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#
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# 2. Redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in the
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# documentation and/or other materials provided with the distribution.
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#
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# 3. Neither the name of the Institute nor the names of its contributors
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# may be used to endorse or promote products derived from this software
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# without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
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# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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# ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
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# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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# SUCH DAMAGE.
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top_builddir="@top_builddir@"
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env_setup="@env_setup@"
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objdir="@objdir@"
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testfailed="echo test failed; cat messages.log; exit 1"
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. ${env_setup}
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# If there is no useful db support compiled in, disable test
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${have_db} || exit 77
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R=TEST.H5L.SE
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DCs="DC=test,DC=h5l,DC=se"
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port=@port@
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bx509port=@bx509port@
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kadmin="${kadmin} -l -r $R"
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bx509d="${bx509d} --reverse-proxied -p $bx509port"
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kdc="${kdc} --addresses=localhost -P $port"
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server=datan.test.h5l.se
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otherserver=other.test.h5l.se
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cachefile="${objdir}/cache.krb5"
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cache="FILE:${cachefile}"
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cachefile2="${objdir}/cache2.krb5"
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cache2="FILE:${cachefile2}"
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keyfile="${hx509_data}/key.der"
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keyfile2="${hx509_data}/key2.der"
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kt=${objdir}/kt
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keytab=FILE:${kt}
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ukt=${objdir}/ukt
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ukeytab=FILE:${ukt}
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kinit="${kinit} -c $cache ${afs_no_afslog}"
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klist2="${klist} --hidden -v -c $cache2"
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klistjson="${klist} --json -c $cache"
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klist="${klist} --hidden -v -c $cache"
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kgetcred="${kgetcred} -c $cache"
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kdestroy="${kdestroy} -c $cache ${afs_no_unlog}"
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kx509="${kx509} -c $cache"
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KRB5_CONFIG="${objdir}/krb5-bx509.conf"
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export KRB5_CONFIG
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rsa=yes
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pkinit=no
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if ${hxtool} info | grep 'rsa: hx509 null RSA' > /dev/null ; then
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rsa=no
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fi
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if ${hxtool} info | grep 'rand: not available' > /dev/null ; then
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rsa=no
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fi
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if ${kinit} --help 2>&1 | grep "CA certificates" > /dev/null; then
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pkinit=yes
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fi
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# If we doesn't support pkinit and have RSA, give up
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if test "$pkinit" != yes -o "$rsa" != yes ; then
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exit 77
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fi
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rm -f current-db*
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rm -f out-*
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rm -f mkey.file*
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rm -f *.pem *.crt *.der
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rm -rf simple_csr_authz
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mkdir -p simple_csr_authz
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> messages.log
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# We'll avoid using a KDC for now. For testing /bx509 we only need keys for
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# Negotiate tokens, and we'll use ktutil and kimpersonate to make it possible
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# to create and accept those without a KDC. When we test /bnegotiate, however,
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# we'll start a KDC.
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# csr_grant ext-type value grantee_principal
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csr_grant() {
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mkdir -p "${objdir}/simple_csr_authz/${3}"
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touch "${objdir}/simple_csr_authz/${3}/${1}-${2}"
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}
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csr_revoke() {
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rm -rf "${objdir}/simple_csr_authz"
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mkdir -p "${objdir}/simple_csr_authz"
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}
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# get_cert "" curl-opts
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# get_cert "&qparams" curl-opts
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get_cert() {
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url="http://${server}:${bx509port}/bx509?csr=$csr${1}"
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shift
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curl -g --resolve ${server}:${bx509port}:127.0.0.1 \
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-H "Authorization: Negotiate $token" \
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"$@" "$url"
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}
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rm -f $kt $ukt
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$ktutil -k $keytab add -r -V 1 -e aes128-cts-hmac-sha1-96 \
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-p HTTP/datan.test.h5l.se@${R} ||
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{ echo "failed to setup kimpersonate credentials"; exit 2; }
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$ktutil -k $keytab list ||
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{ echo "failed to setup kimpersonate credentials"; exit 2; }
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$kimpersonate --ccache=$cache -k $keytab -R -t aes128-cts-hmac-sha1-96 \
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-c foo@${R} -s HTTP/datan.test.h5l.se@${R} ||
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{ echo "failed to setup kimpersonate credentials"; exit 2; }
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$klist ||
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{ echo "failed to setup kimpersonate credentials"; exit 2; }
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echo "Setting up certificates"
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# We need:
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#
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# - a CA certificate for issuing client certificates
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# - a CA certificate for issuing server certificates
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# - a CA certificate for issuing mixed certificates
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# - a certificate for bx509 itself (well, not in reverse proxy mode, but we'll
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# make one anyways)
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# Make the realm's user cert issuer CA certificate.
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#
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# NOTE WELL: We need all three KeyUsage values listed below!
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# We also need this to be of type "pkinit-kdc",
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# which means we'll get an appropriate EKU OID as
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# well.
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$hxtool ca --issue-ca --self-signed --type=pkinit-kdc \
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--ku=digitalSignature --ku=keyCertSign --ku=cRLSign \
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--pk-init-principal=krbtgt/${R}@${R} \
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--generate-key=rsa --key-bits=1024 \
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--subject="OU=Users,CN=KDC,${DCs}" \
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--certificate=PEM-FILE:"${objdir}/user-issuer.pem" ||
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{ echo "failed to setup CA certificate"; exit 2; }
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# We'll use the user cert issuer as the PKINIT anchor, allowing bx509-issued
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# certificates to be used for PKINIT. Though we won't be testing PKINIT here
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# -- we test kx509->PKINIT in check-pkinit.
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cp ${objdir}/user-issuer.pem ${objdir}/pkinit-anchor.pem
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# Put the cert alone in the trust anchors file
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ex "${objdir}/pkinit-anchor.pem" <<"EOF"
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/-----BEGIN CERTIFICATE-----
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1,.-1 d
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wq
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EOF
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$hxtool ca --issue-ca --self-signed \
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--ku=digitalSignature --ku=keyCertSign --ku=cRLSign \
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--generate-key=rsa --key-bits=1024 \
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--subject="OU=Servers,CN=KDC,${DCs}" \
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--certificate=PEM-FILE:"${objdir}/server-issuer.pem" ||
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{ echo "failed to setup CA certificate"; exit 2; }
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$hxtool ca --issue-ca --self-signed \
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--ku=digitalSignature --ku=keyCertSign --ku=cRLSign \
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--generate-key=rsa --key-bits=1024 \
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--subject="OU=Users,CN=KDC,${DCs}" \
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--certificate=PEM-FILE:"${objdir}/mixed-issuer.pem" ||
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{ echo "failed to setup CA certificate"; exit 2; }
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$hxtool ca --issue-ca --type=https-negotiate-server \
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--ca-certificate=PEM-FILE:"${objdir}/server-issuer.pem" \
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--ku=digitalSignature --pk-init-principal=HTTP/${server}@${R}\
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--generate-key=rsa --key-bits=1024 --subject="" \
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--certificate=PEM-FILE:"${objdir}/bx509.pem" ||
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{ echo "failed to setup CA certificate"; exit 2; }
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# XXX Before starting bx509d let us use kdc test programs to check that:
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#
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# - the negotiate token validator plugin works
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# - the simple CSR authorizer plugin works
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# - the KDC CA tester program works
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echo "Check gss-token and Negotiate token validator plugin"
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token=$(KRB5CCNAME=$cache $gsstoken HTTP@$server | tr A B)
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$test_token_validator -a datan.test.h5l.se Negotiate "$token" &&
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{ echo "Negotiate token validator accepted invalid token"; exit 2; }
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token=$(KRB5CCNAME=$cache $gsstoken HTTP@$server)
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$test_token_validator -a datan.test.h5l.se Negotiate "$token" ||
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{ echo "Negotiate token validator failed to validate valid token"; exit 2; }
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echo "Making a plain CSR"
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$hxtool request-create --subject='' --generate-key=rsa --key-bits=1024 \
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--key=FILE:"${objdir}/k.der" "${objdir}/req" ||
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{ echo "Failed to make a CSR"; exit 2; }
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rm -f trivial.pem server.pem email.pem
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echo "Testing plain user cert issuance KDC CA"
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$test_kdc_ca -a bx509 -A foo@${R} PKCS10:${objdir}/req \
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PEM-FILE:${objdir}/trivial.pem ||
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{ echo "Trivial offline CA test failed"; exit 2; }
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$hxtool print --content PEM-FILE:${objdir}/trivial.pem ||
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{ echo "Trivial offline CA test failed"; exit 2; }
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$hxtool acert --end-entity \
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--expr="%{certificate.subject} == \"CN=foo,$DCs\"" \
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-P "foo@${R}" "FILE:${objdir}/trivial.pem" ||
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{ echo "Trivial offline CA test failed"; exit 2; }
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$hxtool acert --expr="%{certificate.subject} == \"OU=Users,CN=KDC,$DCs\"" \
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--lacks-private-key "FILE:${objdir}/trivial.pem" ||
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{ echo "Trivial offline CA test failed (issuer private keys included!!)"; exit 2; }
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echo "Testing other cert issuance KDC CA"
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csr_revoke
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# https server cert
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$hxtool request-create --subject='' --generate-key=rsa --key-bits=1024 \
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--key=FILE:"${objdir}/k.der" \
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--eku=id_pkix_kp_serverAuth \
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--dnsname=foo.test.h5l.se "${objdir}/req" ||
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{ echo "Failed to make a CSR with a dNSName SAN request"; exit 2; }
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$test_kdc_ca -a bx509 foo@${R} PKCS10:${objdir}/req \
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PEM-FILE:${objdir}/server.pem &&
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{ echo "Trivial offline CA test failed: unauthorized issuance (dNSName)"; exit 2; }
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csr_grant dnsname foo.test.h5l.se foo@${R}
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csr_grant eku 1.3.6.1.5.5.7.3.1 foo@${R}
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$test_kdc_ca -a bx509 foo@${R} PKCS10:${objdir}/req \
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PEM-FILE:${objdir}/server.pem ||
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{ echo "Offline CA test failed for explicitly authorized dNSName"; exit 2; }
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$hxtool print --content PEM-FILE:${objdir}/server.pem ||
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{ echo "Offline CA test failed for explicitly authorized dNSName"; exit 2; }
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$hxtool acert --expr="%{certificate.subject} == \"OU=Servers,CN=KDC,$DCs\"" \
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--lacks-private-key "FILE:${objdir}/server.pem" ||
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{ echo "Trivial offline CA test failed (issuer private keys included!!)"; exit 2; }
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# email cert
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$hxtool request-create --subject='' --generate-key=rsa --key-bits=1024 \
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--key=FILE:"${objdir}/k.der" \
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--eku=id_pkix_kp_clientAuth \
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--email=foo@test.h5l.se "${objdir}/req" ||
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{ echo "Failed to make a CSR with an rfc822Name SAN request"; exit 2; }
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$test_kdc_ca -a bx509 foo@${R} PKCS10:${objdir}/req \
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PEM-FILE:${objdir}/email.pem &&
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{ echo "Offline CA test failed: unauthorized issuance (dNSName)"; exit 2; }
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csr_grant email foo@test.h5l.se foo@${R}
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csr_grant eku 1.3.6.1.5.5.7.3.2 foo@${R}
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$test_kdc_ca -a bx509 foo@${R} PKCS10:${objdir}/req \
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PEM-FILE:${objdir}/email.pem ||
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{ echo "Offline CA test failed for explicitly authorized dNSName"; exit 2; }
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$hxtool print --content PEM-FILE:${objdir}/email.pem ||
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{ echo "Offline CA test failed for explicitly authorized dNSName"; exit 2; }
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$hxtool acert --expr="%{certificate.subject} == \"OU=Users,CN=KDC,$DCs\"" \
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--lacks-private-key "FILE:${objdir}/email.pem" ||
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{ echo "Offline CA test failed (issuer private keys included!!)"; exit 2; }
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if ! which curl; then
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echo "curl is not available -- not testing bx509d"
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exit 77
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fi
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if ! test -x ${objdir}/../../kdc/bx509d; then
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echo "Configured w/o libmicrohttpd -- not testing bx509d"
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exit 77
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fi
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echo "Creating database"
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${kadmin} init \
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--realm-max-ticket-life=1day \
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--realm-max-renewable-life=1month \
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${R} || exit 1
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${kadmin} add -r --use-defaults foo@${R} || exit 1
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${kadmin} add -r --use-defaults bar@${R} || exit 1
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${kadmin} modify --pkinit-acl="CN=foo,DC=test,DC=h5l,DC=se" foo@${R} || exit 1
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echo "Starting bx509d"
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${bx509d} -H $server --cert=${objdir}/bx509.pem -t --daemon ||
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{ echo "bx509 failed to start"; exit 2; }
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bx509pid=`getpid bx509d`
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trap "kill -9 ${bx509pid}; echo signal killing bx509d; exit 1;" EXIT
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ec=0
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rm -f trivial.pem server.pem email.pem
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echo "Making a plain CSR"
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csr_revoke
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$hxtool request-create --subject='' --generate-key=rsa --key-bits=1024 \
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--key=FILE:"${objdir}/k.der" "${objdir}/req" ||
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{ echo "Failed to make a CSR"; exit 2; }
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csr=$($rkbase64 -- ${objdir}/req | $rkvis -h --stdin)
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# XXX Add autoconf check for curl?
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# Create a barebones bx509 HTTP/1.1 client test program?
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echo "Fetching a trivial user certificate"
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token=$(KRB5CCNAME=$cache $gsstoken HTTP@$server)
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if (set -vx; get_cert '' -sf -o "${objdir}/trivial.pem"); then
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$hxtool print --content "FILE:${objdir}/trivial.pem"
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if $hxtool acert --end-entity \
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--expr="%{certificate.subject} == \"CN=foo,$DCs\"" \
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-P "foo@${R}" "FILE:${objdir}/trivial.pem"; then
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echo 'Successfully obtained a trivial client certificate!'
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else
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echo 'FAIL: Obtained a trivial client certificate w/o expected PKINIT SAN)'
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exit 1
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fi
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if $hxtool acert --expr="%{certificate.subject} == \"OU=Users,$DCs\"" \
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--has-private-key "FILE:${objdir}/trivial.pem"; then
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echo 'Successfully obtained a trivial client certificate!'
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fi
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else
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echo 'Failed to get a certificate!'
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exit 1
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fi
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echo "Checking that authorization is enforced"
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csr_revoke
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get_cert '&rfc822Name=foo@bar.example' -vvv -o "${objdir}/bad1.pem"
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if (set -vx; get_cert '&rfc822Name=foo@bar.example' -sf -o "${objdir}/trivial.pem"); then
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$hxtool print --content "FILE:${objdir}/bad1.pem"
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echo 'Obtained a client certificate for a non-granted name!'
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exit 1
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else
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echo 'Correctly failed to get a client certificate for a non-granted name'
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fi
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if (set -vx; get_cert "&dNSName=$server" -sf -o "${objdir}/bad2.pem"); then
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$hxtool print --content "FILE:${objdir}/bad2.pem"
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echo 'Obtained a server certificate for a non-granted name!'
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exit 1
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else
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echo 'Correctly failed to get a server certificate for a non-granted name'
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fi
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echo "Fetching a server certificate with one dNSName SAN"
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csr_grant dnsname $server foo@${R}
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if (set -vx; get_cert "&dNSName=$server" -sf -o "${objdir}/server.pem"); then
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$hxtool print --content "FILE:${objdir}/server.pem"
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if (set -vx; $hxtool acert --expr="%{certificate.subject} == \"\"" \
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--end-entity -P foo@${R} \
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"FILE:${objdir}/server.pem"); then
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echo 'Got a broken server certificate (has PKINIT SAN)'
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exit 1
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elif $hxtool acert --end-entity -D $server "FILE:${objdir}/server.pem"; then
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echo 'Successfully obtained a server certificate!'
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else
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echo 'Got a broken server certificate'
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exit 1
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fi
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else
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echo 'Failed to get a server certificate!'
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exit 1
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fi
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echo "Fetching a server certificate with two dNSName SANs"
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csr_grant dnsname "second-$server" foo@${R}
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if (set -vx;
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get_cert "&dNSName=${server}&dNSName=second-$server" -sf \
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-o "${objdir}/server2.pem"); then
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$hxtool print --content "FILE:${objdir}/server2.pem"
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if $hxtool acert --expr="%{certificate.subject} == \"\"" \
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--end-entity -P foo@${R} \
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"FILE:${objdir}/server2.pem"; then
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echo 'Got a broken server certificate (has PKINIT SAN)'
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exit 1
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elif $hxtool acert --end-entity -D "$server" \
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-D "second-$server" \
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"FILE:${objdir}/server2.pem"; then
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echo 'Successfully obtained a server certificate with two dNSName SANs!'
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else
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echo 'Got a broken server certificate (wanted two dNSName SANs)'
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exit 1
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fi
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else
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echo 'Failed to get a server certificate with two dNSName SANs!'
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exit 1
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fi
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echo "Fetching an email certificate"
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csr_grant email foo@bar.example foo@${R}
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if (set -vx; get_cert "&rfc822Name=foo@bar.example" -sf -o "${objdir}/email.pem"); then
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$hxtool print --content "FILE:${objdir}/email.pem"
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if $hxtool acert --end-entity -P "foo@${R}" "FILE:${objdir}/email.pem"; then
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echo 'Got a broken email certificate (has PKINIT SAN)'
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exit 1
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elif $hxtool acert --expr="%{certificate.subject} == \"\"" \
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--end-entity -M foo@bar.example \
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"FILE:${objdir}/email.pem"; then
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echo 'Successfully obtained a email certificate!'
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else
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echo 'Got a broken email certificate'
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exit 1
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fi
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else
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echo 'Failed to get an email certificate!'
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exit 1
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fi
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|
# Need to start a KDC to test this.
|
|
rm -f $kt $ukt
|
|
${kdestroy}
|
|
${kadmin} add -r --use-defaults HTTP/${server}@${R} || exit 1
|
|
${kadmin} ext_keytab -r -k $keytab HTTP/${server}@${R} || exit 1
|
|
${kadmin} add -r --use-defaults HTTP/${otherserver}@${R} || exit 1
|
|
${kadmin} ext_keytab -r -k $ukeytab foo@${R} || exit 1
|
|
|
|
echo "Starting kdc";
|
|
${kdc} --detach --testing || { echo "kdc failed to start"; cat messages.log; exit 1; }
|
|
kdcpid=`getpid kdc`
|
|
trap "kill -9 ${kdcpid} ${bx509pid}; echo signal killing kdc and bx509d; exit 1;" EXIT
|
|
|
|
${kinit} -kt $ukeytab foo@${R} || exit 1
|
|
$klist || { echo "failed to setup kimpersonate credentials"; exit 2; }
|
|
|
|
echo "Fetch TGT (not granted for other)"
|
|
token=$(KRB5CCNAME=$cache $gsstoken HTTP@$server)
|
|
if (set -vx;
|
|
curl -o "${cachefile2}" -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/get-tgt?cname=bar@${R}&address=8.8.8.8"); then
|
|
echo "Got a TGT with /get-tgt end-point when not granted!"
|
|
exit 2
|
|
fi
|
|
|
|
echo "Fetch TGT"
|
|
(set -vx; csr_grant pkinit foo@${R} foo@${R})
|
|
(set -vx; csr_grant eku 1.3.6.1.5.2.3.4 foo@${R})
|
|
token=$(KRB5CCNAME=$cache $gsstoken HTTP@$server)
|
|
if ! (set -vx;
|
|
curl -o "${cachefile2}" -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/get-tgt?address=8.8.8.8"); then
|
|
echo "Failed to get a TGT with /get-tgt end-point"
|
|
exit 2
|
|
fi
|
|
|
|
${klist2} | grep Addresses:.IPv4:8.8.8.8 ||
|
|
{ echo "Failed to get a TGT with /get-tgt end-point with addresses"; exit 2; }
|
|
|
|
echo "Fetch TGT (inception)"
|
|
${kdestroy}
|
|
token=$(KRB5CCNAME=$cache2 $gsstoken HTTP@$server)
|
|
if ! (set -vx;
|
|
curl -o "${cachefile}" -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/get-tgt?address=8.8.8.8"); then
|
|
echo "Failed to get a TGT with /get-tgt end-point"
|
|
exit 2
|
|
fi
|
|
${kgetcred} -H HTTP/${server}@${R} ||
|
|
{ echo "Trivial offline CA test failed (TGS)"; exit 2; }
|
|
${klist} | grep Addresses:.IPv4:8.8.8.8 ||
|
|
{ echo "Failed to get a TGT with /get-tgt end-point with addresses"; exit 2; }
|
|
|
|
echo "Fetch TGT (for other)"
|
|
(set -vx; csr_grant pkinit bar@${R} foo@${R})
|
|
${kdestroy}
|
|
token=$(KRB5CCNAME=$cache2 $gsstoken HTTP@$server)
|
|
if ! (set -vx;
|
|
curl -o "${cachefile}" -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/get-tgt?cname=bar@${R}&address=8.8.8.8"); then
|
|
echo "Failed to get a TGT with /get-tgt end-point"
|
|
exit 2
|
|
fi
|
|
${kgetcred} -H HTTP/${server}@${R} ||
|
|
{ echo "Trivial offline CA test failed (TGS)"; exit 2; }
|
|
${klist} | grep Addresses:.IPv4:8.8.8.8 ||
|
|
{ echo "Failed to get a TGT with /get-tgt end-point with addresses"; exit 2; }
|
|
|
|
echo "Fetch TGT (for other, w/ lifetime req under max)"
|
|
${kadmin} modify --max-ticket-life=10d krbtgt/${R}@${R}
|
|
(set -vx; csr_grant pkinit bar@${R} foo@${R})
|
|
${kdestroy}
|
|
token=$(KRB5CCNAME=$cache2 $gsstoken HTTP@$server)
|
|
if ! (set -vx;
|
|
curl -o "${cachefile}" -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/get-tgt?cname=bar@${R}&address=8.8.8.8&lifetime=3d"); then
|
|
echo "Failed to get a TGT with /get-tgt end-point"
|
|
exit 2
|
|
fi
|
|
${kgetcred} -H HTTP/${server}@${R} ||
|
|
{ echo "Trivial offline CA test failed (TGS)"; exit 2; }
|
|
if which jq >/dev/null; then
|
|
if ! ${klistjson} | jq -e '
|
|
(reduce (.tickets[0]|(.Issued,.Expires)|
|
|
strptime("%b %e %H:%M:%S %Y")|mktime) as $t
|
|
(0; if .==0 then $t else $t - . end) / 86400) | floor |
|
|
. == 3'; then
|
|
echo "Incorrect lifetime"
|
|
exit 2
|
|
fi
|
|
fi
|
|
|
|
echo "Fetch TGT (for other, w/ lifetime req over max)"
|
|
${kadmin} modify --max-ticket-life=10d krbtgt/${R}@${R}
|
|
(set -vx; csr_grant pkinit bar@${R} foo@${R})
|
|
${kdestroy}
|
|
token=$(KRB5CCNAME=$cache2 $gsstoken HTTP@$server)
|
|
if ! (set -vx;
|
|
curl -o "${cachefile}" -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/get-tgt?cname=bar@${R}&address=8.8.8.8&lifetime=10d"); then
|
|
echo "Failed to get a TGT with /get-tgt end-point"
|
|
exit 2
|
|
fi
|
|
${kgetcred} -H HTTP/${server}@${R} ||
|
|
{ echo "Trivial offline CA test failed (TGS)"; exit 2; }
|
|
if which jq >/dev/null; then
|
|
if ! ${klistjson} | jq -e '
|
|
(reduce (.tickets[0]|(.Issued,.Expires)|
|
|
strptime("%b %e %H:%M:%S %Y")|mktime) as $t
|
|
(0; if .==0 then $t else $t - . end) / 86400) | floor |
|
|
. == 5'; then
|
|
echo "Incorrect lifetime"
|
|
exit 2
|
|
fi
|
|
fi
|
|
|
|
echo "Fetch TGT (for other, w/ lifetime req under max)"
|
|
${kadmin} modify --max-ticket-life=10d krbtgt/${R}@${R}
|
|
(set -vx; csr_grant pkinit bar@${R} foo@${R})
|
|
${kdestroy}
|
|
token=$(KRB5CCNAME=$cache2 $gsstoken HTTP@$server)
|
|
if ! (set -vx;
|
|
curl -o "${cachefile}" -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/get-tgt?cname=bar@${R}&address=8.8.8.8&address=8.9.10.11&address=11.11.11.11&address=12.12.12.12&lifetime=5d"); then
|
|
echo "Failed to get a TGT with /get-tgt end-point"
|
|
exit 2
|
|
fi
|
|
${kgetcred} -H HTTP/${server}@${R} ||
|
|
{ echo "Trivial offline CA test failed (TGS)"; exit 2; }
|
|
if which jq >/dev/null; then
|
|
if ! ${klistjson} | jq -e '
|
|
(reduce (.tickets[0]|(.Issued,.Expires)|
|
|
strptime("%b %e %H:%M:%S %Y")|mktime) as $t
|
|
(0; if .==0 then $t else $t - . end) / 86400) |
|
|
. >= 4'; then
|
|
echo "Failed to get a TGT with /get-tgt end-point with addresses"
|
|
exit 2
|
|
fi
|
|
fi
|
|
|
|
echo "Fetch negotiate token (pre-test)"
|
|
# Do what /bnegotiate does, roughly, prior to testing /bnegotiate
|
|
$hxtool request-create --subject='' --generate-key=rsa --key-bits=1024 \
|
|
--key=PEM-FILE:"${objdir}/k.pem" "${objdir}/req" ||
|
|
{ echo "Failed to make a CSR"; exit 2; }
|
|
$test_kdc_ca -a bx509 -A foo@${R} PKCS10:${objdir}/req \
|
|
PEM-FILE:${objdir}/pkinit-test.pem ||
|
|
{ echo "Trivial offline CA test failed (CA)"; exit 2; }
|
|
cat ${objdir}/k.pem >> ${objdir}/pkinit-test.pem
|
|
${kinit} -C PEM-FILE:${objdir}/pkinit-test.pem foo@${R} ||
|
|
{ echo "Trivial offline CA test failed (PKINIT)"; exit 2; }
|
|
${kgetcred} -H HTTP/${server}@${R} ||
|
|
{ echo "Trivial offline CA test failed (TGS)"; exit 2; }
|
|
KRB5CCNAME=$cache $gsstoken HTTP@$server | KRB5_KTNAME="$keytab" $gsstoken -r ||
|
|
{ echo "Trivial offline CA test failed (gss-token)"; exit 2; }
|
|
|
|
# Check that we get up to three tixaddrs k/v in the log
|
|
grep 'REQ.*wrongaddr=true' ${objdir}/messages.log |
|
|
grep 'tixaddrs=IPv4:11.11.11.11' ||
|
|
{ echo "KDC not warning about requests from wrong address"; exit 2; }
|
|
|
|
echo "Fetching a Negotiate token"
|
|
token=$(KRB5CCNAME=$cache $gsstoken HTTP@$server)
|
|
if (set -vx;
|
|
curl -o negotiate-token -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/bnegotiate?target=HTTP%40${server}"); then
|
|
# bx509 sends us a token w/o a newline for now; we add one because
|
|
# gss-token expects it.
|
|
test -s negotiate-token && echo >> negotiate-token
|
|
if test -s negotiate-token && KRB5_KTNAME="$keytab" $gsstoken -Nr < negotiate-token; then
|
|
echo 'Successfully obtained a Negotiate token!'
|
|
else
|
|
echo 'Failed to get a Negotiate token (got an unacceptable token)!'
|
|
exit 1
|
|
fi
|
|
else
|
|
echo 'Failed to get a Negotiate token!'
|
|
exit 1
|
|
fi
|
|
|
|
referer=https://${otherserver}/blah
|
|
redirect=$(${rkvis} -h https://${otherserver}/blah?q=whatever)
|
|
if (set -vx;
|
|
curl -o negotiate-token -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/bnegotiate?target=HTTP%40${server}&redirect=${redirect}"); then
|
|
echo "Error: /bnegotiate with target and redirect succeeded"
|
|
exit 1
|
|
fi
|
|
|
|
if (set -vx;
|
|
curl -o negotiate-token -Lgsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
"http://${server}:${bx509port}/bnegotiate?redirect=${redirect}"); then
|
|
echo "Error: /bnegotiate with redirect but no Referer succeeded"
|
|
exit 1
|
|
fi
|
|
|
|
referer=http://${otherserver}/blah
|
|
redirect=$(${rkvis} -h http://${otherserver}/blah?q=whatever)
|
|
if (set -vx;
|
|
curl -gsf \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
-H "Referer: $referer" \
|
|
"http://${server}:${bx509port}/bnegotiate?redirect=${redirect}"); then
|
|
echo "Error: redirect for non-https referer"
|
|
exit 1
|
|
fi
|
|
|
|
referer=https://${otherserver}/blah
|
|
redirect=$(${rkvis} -h https://${otherserver}/blah?q=whatever)
|
|
if (set -vx;
|
|
curl -gfs -D curlheaders \
|
|
--resolve ${server}:${bx509port}:127.0.0.1 \
|
|
-H "Authorization: Negotiate $token" \
|
|
-H "Referer: $referer" \
|
|
"http://${server}:${bx509port}/bnegotiate?redirect=${redirect}"); then
|
|
read junk code junk < curlheaders
|
|
if test "$code" = 307; then
|
|
echo "Got a proper redirect"
|
|
else
|
|
echo "Error: unexpected status code $code (wanted 307)"
|
|
fi
|
|
else
|
|
echo "Error: no redirect"
|
|
exit 1
|
|
fi
|
|
|
|
echo "killing kdc (${kdcpid}) and bx509d (${bx509pid})"
|
|
sh ${leaks_kill} kdc $kdcpid || ec=1
|
|
sh ${leaks_kill} bx509d $bx509pid || ec=1
|
|
|
|
trap "" EXIT
|
|
|
|
exit $ec
|