X-Git-Url: https://git.exim.org/exim.git/blobdiff_plain/ba86e143c7aeb0d70ea4c9d73a617a98f06f6baa..c1d124daf6ccb5b2ec59cf7fa6c1d76002ab0a42:/test/aux-fixed/exim-ca/genall?ds=sidebyside diff --git a/test/aux-fixed/exim-ca/genall b/test/aux-fixed/exim-ca/genall index 09823704e..25e46c7cf 100755 --- a/test/aux-fixed/exim-ca/genall +++ b/test/aux-fixed/exim-ca/genall @@ -4,17 +4,25 @@ set -e # Debugging. Set V for clica verbosity. -#set -x -V= -#V='-v' +set -x +#V= +V='-v' clica --help >/dev/null 2>&1 -echo Ensure time is set to 2012/11/01 12:34 -echo use - date -u 110112342012 +echo Ensure time is set to 2019/11/01 12:34 +echo use - date -u 110112342019 echo hit return when ready read junk +# Calc number of months from then to (about) Nov 2037. +# We're sticking to a 2038 cutoff for now, to maintain support for 32b systems, +# but will have to give that up in only a few years. +# +tgt_secs=`date -d 'Nov 25 2037' +%s` +now_secs=`date +%s` +diff_months=$(( ($tgt_secs - $now_secs) / 60 / 60 / 24 / 31 )) + # Main suite: RSA certs for tld in com org net do @@ -26,16 +34,29 @@ do rm -fr "$idir" # create CA cert + templates - clica $V -D "$idir" -p password -B 1024 -I -N $iname -F -C http://crl.$iname/latest.crl -O http://oscp.$iname/ - - # create server certs + # -D dir to work in + # -p passwd for cert + # -B keysize in bits + # -I create CA cert + # -N org name + # -F create sub-signing cert + # -C CRL + # -O create OCSP responder cert + # -3 Authority key ID extension + # -8 Subject Alternate Names + + clica $V -D "$idir" -p password -B 2048 -I -N $iname -F -C http://crl.$iname/latest.crl -O http://oscp.$iname/ + + # create server leaf certs # -m - clica $V -D $idir -p password -s 101 -S server1.$iname -m 301 \ + clica $V -D $idir -p password -s 101 -S server1.$iname -m $diff_months \ -8 alternatename.server1.example.$tld,alternatename2.server1.example.$tld,*.test.ex - clica $V -D $idir -p password -s 102 -S revoked1.$iname -m 301 + clica $V -D $idir -p password -s 102 -S revoked1.$iname -m $diff_months clica $V -D $idir -p password -s 103 -S expired1.$iname -m 1 - clica $V -D $idir -p password -s 201 -S server2.$iname -m 301 - clica $V -D $idir -p password -s 202 -S revoked2.$iname -m 301 + + clica $V -D $idir -p password -s 201 -S server2.$iname -m $diff_months \ + -3 "CN=clica CA rsa,O=example.$tld" -8 '*.test.ex' + clica $V -D $idir -p password -s 202 -S revoked2.$iname -m $diff_months clica $V -D $idir -p password -s 203 -S expired2.$iname -m 1 #### @@ -43,11 +64,14 @@ do # openssl seems to generate a file (ca_chain.pam) in an order it # cannot then use (the key applies to the first cert in the file?). # Generate a shuffled one. - cd $idir/server1.$iname - openssl pkcs12 -in server1.$iname.p12 -passin file:pwdfile -cacerts -out cacerts.pem -nokeys - cat server1.$iname.pem cacerts.pem > fullchain.pem + for n in 1 2 + do + cd $idir/server$n.$iname + openssl pkcs12 -in server$n.$iname.p12 -passin file:pwdfile -cacerts -out cacerts.pem -nokeys + cat server$n.$iname.pem cacerts.pem > fullchain.pem rm cacerts.pem - cd ../.. + cd ../.. + done #### @@ -64,6 +88,7 @@ do # create OCSP reqs & resps CADIR=$idir/CA + #give ourselves an OSCP key to work with pk12util -o $CADIR/OCSP.p12 -n 'OCSP Signer rsa' -d $CADIR -K password -W password openssl pkcs12 -in $CADIR/OCSP.p12 -passin pass:password -passout pass:password -nodes -nocerts -out $CADIR/OCSP.key @@ -72,12 +97,17 @@ do pk12util -o $CADIR/Signer.p12 -n 'Signing Cert rsa' -d $CADIR -K password -W password openssl pkcs12 -in $CADIR/Signer.p12 -passin pass:password -passout pass:password -nodes -nocerts -out $CADIR/Signer.key + # ditto for CA + # - the "-n names" here appear to be hardcoded in clica + pk12util -o $CADIR/CA.p12 -n 'Certificate Authority rsa' -d $CADIR -K password -W password + openssl pkcs12 -in $CADIR/CA.p12 -passin pass:password -passout pass:password -nodes -nocerts -out $CADIR/CA.key + # create some index files for the ocsp responder to work with -# tab-sep +# tab-sep, and fields can be empty # 0: Revoked/Expired/Valid letter # 1: Expiry date (ASN1_UTCTIME) # 2: Revocation date -# 3: Serial no. (unique) +# 3: Serial no. (unique, in hex) # 4: file # 5: DN, index @@ -88,6 +118,8 @@ V 130110200751Z 67 unknown CN=expired1.$iname V 130110200751Z c9 unknown CN=server2.$iname V 130110200751Z ca unknown CN=revoked2.$iname V 130110200751Z cb unknown CN=expired2.$iname +V 130110200751Z 42 unknown CN=clica Signing Cert rsa +V 130110200751Z 41 unknown CN=clica CA rsa EOF cat >$CADIR/index.revoked.txt < $CADIR/index.valid.txt.attr + echo "unique_subject = yes" > $CADIR/index.revoked.txt.attr + for server in server1 revoked1 expired1 server2 revoked2 expired2 do SPFX=$idir/$server.$iname/$server.$iname - openssl ocsp -issuer $CADIR/Signer.pem -cert $SPFX.pem -no_nonce -sha256 -reqout $SPFX.ocsp.req + openssl ocsp -issuer $CADIR/Signer.pem -cert $SPFX.pem -no_nonce -reqout $SPFX.ocsp.req REQIN="-reqin $SPFX.ocsp.req" + # These ones get used by the "traditional" testcases. OCSP resp signed by a cert which is + # signed by the signer of the leaf-cert being attested to. OGENCOMMON="-rsigner $CADIR/OCSP.pem -rkey $CADIR/OCSP.key -CA $CADIR/Signer.pem -noverify" - openssl ocsp $IVALID $OGENCOMMON -ndays 3652 -sha256 $REQIN -respout $SPFX.ocsp.good.resp - openssl ocsp $IVALID $OGENCOMMON -ndays 30 -sha256 $REQIN -respout $SPFX.ocsp.dated.resp - openssl ocsp $IREVOKED $OGENCOMMON -ndays 3652 -sha256 $REQIN -respout $SPFX.ocsp.revoked.resp + + openssl ocsp $IVALID $OGENCOMMON -ndays 3652 $REQIN -respout $SPFX.ocsp.good.resp + openssl ocsp $IVALID $OGENCOMMON -ndays 30 $REQIN -respout $SPFX.ocsp.dated.resp + openssl ocsp $IREVOKED $OGENCOMMON -ndays 3652 $REQIN -respout $SPFX.ocsp.revoked.resp OGENCOMMON="-rsigner $CADIR/Signer.pem -rkey $CADIR/Signer.key -CA $CADIR/Signer.pem -noverify" - openssl ocsp $IVALID $OGENCOMMON -ndays 3652 -sha256 $REQIN -respout $SPFX.ocsp.signer.good.resp - openssl ocsp $IVALID $OGENCOMMON -ndays 30 -sha256 $REQIN -respout $SPFX.ocsp.signer.dated.resp - openssl ocsp $IREVOKED $OGENCOMMON -ndays 3652 -sha256 $REQIN -respout $SPFX.ocsp.signer.revoked.resp + openssl ocsp $IVALID $OGENCOMMON -ndays 3652 $REQIN -respout $SPFX.ocsp.signer.good.resp + openssl ocsp $IVALID $OGENCOMMON -ndays 30 $REQIN -respout $SPFX.ocsp.signer.dated.resp + openssl ocsp $IREVOKED $OGENCOMMON -ndays 3652 $REQIN -respout $SPFX.ocsp.signer.revoked.resp + # These ones get used by the "LetsEncrypt mode" testcases. OCSP resp is signed directly by the + # signer of the leaf-cert being attested to. OGENCOMMON="-rsigner $CADIR/Signer.pem -rkey $CADIR/Signer.key -CA $CADIR/Signer.pem -resp_no_certs -noverify" - openssl ocsp $IVALID $OGENCOMMON -ndays 3652 -sha256 $REQIN -respout $SPFX.ocsp.signernocert.good.resp - openssl ocsp $IVALID $OGENCOMMON -ndays 30 -sha256 $REQIN -respout $SPFX.ocsp.signernocert.dated.resp - openssl ocsp $IREVOKED $OGENCOMMON -ndays 3652 -sha256 $REQIN -respout $SPFX.ocsp.signernocert.revoked.resp + openssl ocsp $IVALID $OGENCOMMON -ndays 3652 $REQIN -respout $SPFX.ocsp.signernocert.good.resp + openssl ocsp $IVALID $OGENCOMMON -ndays 30 $REQIN -respout $SPFX.ocsp.signernocert.dated.resp + openssl ocsp $IREVOKED $OGENCOMMON -ndays 3652 $REQIN -respout $SPFX.ocsp.signernocert.revoked.resp done + + # convert one good leaf-resp to PEM + server=server1 + RESP=$idir/$server.$iname/$server.$iname.ocsp.signernocert.good.resp + ocsptool -S $RESP -j > $RESP.pem + + # Then, ocsp request and (valid, revoked) responses for the signer cert + REQ=$CADIR/Signer.ocsp.req + RESP=$CADIR/Signer.ocsp.signernocert.good.resp + openssl ocsp -issuer $CADIR/CA.pem -sha256 -cert $CADIR/Signer.pem -no_nonce -reqout $REQ + openssl ocsp $IVALID -rsigner $CADIR/CA.pem -rkey $CADIR/CA.key -CA $CADIR/CA.pem -resp_no_certs -noverify \ + -ndays 3652 -reqin $REQ -respout $RESP + ocsptool -S $RESP -j > $RESP.pem + + RESP=$CADIR/Signer.ocsp.signernocert.revoked.resp + openssl ocsp $IREVOKED -rsigner $CADIR/CA.pem -rkey $CADIR/CA.key -CA $CADIR/CA.pem -resp_no_certs -noverify \ + -ndays 3652 -reqin $REQ -respout $RESP + ocsptool -S $RESP -j > $RESP.pem + + # Finally, a full-chain all-good request and response + REQ=$idir/$server.$iname/fullchain.ocsp.req + leafcert=$idir/$server.$iname/$server.$iname.pem + signercert=$CADIR/Signer.pem + cacert=$CADIR/CA.pem + openssl ocsp -sha256 -no_nonce -reqout $REQ \ + -issuer $signercert -cert $leafcert \ + -issuer $cacert -cert $CADIR/Signer.pem -cert $CADIR/CA.pem + + RESP=$idir/$server.$iname/fullchain.ocsp.resp + authorities=$idir/$server.$iname/ca_chain.pem + openssl ocsp $IVALID -rsigner $CADIR/CA.pem -rkey $CADIR/CA.key -CA $authorities -resp_no_certs -noverify \ + -ndays 3652 -reqin $REQ -respout $RESP + ocsptool -S $RESP -j > $RESP.pem + #### done # Create one EC leaf cert in the RSA cert tree. It will have an EC pubkey but be signed using its parent # therefore its parent's algo, RSA. -clica $V -D example.com -p password -k ec -q nistp521 -s 1101 -S server1_ec.example.com -m 301 -8 'server1.example.com,*.test.ex' +clica $V -D example.com -p password -k ec -q nistp521 -s 1101 -S server1_ec.example.com -m $diff_months -8 'server1.example.com,*.test.ex' SDIR=example.com/server1_ec.example.com SPFX=$SDIR/server1_ec.example.com openssl ec -in $SPFX.key -passin file:$SDIR/pwdfile -out $SPFX.unlocked.key @@ -151,13 +227,13 @@ do rm -fr "$idir" # create CA cert + templates - clica $V -D "$idir" -p password -B 1024 -I -N $iname -F \ + clica $V -D "$idir" -p password -B 2048 -I -N $iname -F \ -k ec -q nistp521 \ -C http://crl.example.$tld/latest.crl -O http://oscp.example.$tld/ # create server certs # -m - clica $V -D $idir -p password -s 2101 -S server1.$iname -m 301 \ + clica $V -D $idir -p password -s 2101 -S server1.$iname -m $diff_months \ -k ec -q nistp521 \ -8 server1.example.$tld,alternatename.server1.example.$tld,alternatename2.server1.example.$tld,*.test.ex @@ -180,9 +256,41 @@ do SDIR=$idir/$server.$iname SPFX=$SDIR/$server.$iname openssl ec -in $SPFX.key -passin file:$SDIR/pwdfile -out $SPFX.unlocked.key - cat $SPFX.pem example.$tld/CA/Signer.pem >$SPFX.chain.pem + cat $SPFX.pem $idir/CA/Signer.pem >$SPFX.chain.pem done +#### + # create OCSP reqs & resps + CADIR=$idir/CA + #give ourselves an OSCP key to work with + pk12util -o $CADIR/OCSP.p12 -n 'OCSP Signer ec' -d $CADIR -K password -W password + openssl pkcs12 -in $CADIR/OCSP.p12 -passin pass:password -passout pass:password -nodes -nocerts -out $CADIR/OCSP.key + + # create some index files for the ocsp responder to work with +# tab-sep +# 0: Revoked/Expired/Valid letter +# 1: Expiry date (ASN1_UTCTIME) +# 2: Revocation date +# 3: Serial no. (unique) +# 4: file +# 5: DN, index + + cat >$CADIR/index.valid.txt <$CRLIN crlutil -G -d $CADIR -f $CADIR/pwdfile \ -n 'Signing Cert rsa' -c $CRLIN -o $CADIR/crl.empty openssl crl -in $CADIR/crl.empty -inform der -out $CADIR/crl.empty.pem done sleep 2 +DATENOW=`date -u +%Y%m%d%H%M%SZ` for tld in com org net do CADIR=example.$tld/CA CRLIN=$CADIR/crl.v2.in.txt - DATENOW=`date -u +%Y%m%d%H%M%SZ` echo "update=$DATENOW " >$CRLIN echo "addcert 102 $DATENOW" >>$CRLIN echo "addcert 202 $DATENOW" >>$CRLIN crlutil -G -d $CADIR -f $CADIR/pwdfile \ -n 'Signing Cert rsa' -c $CRLIN -o $CADIR/crl.v2 openssl crl -in $CADIR/crl.v2 -inform der -out $CADIR/crl.v2.pem + + CRLIN=$CADIR/crl.Signer.in.txt + echo "update=$DATENOW " >$CRLIN + crlutil -G -d $CADIR -f $CADIR/pwdfile \ + -n 'Certificate Authority rsa' -c $CRLIN -o $CADIR/crl.Signer + openssl crl -in $CADIR/crl.Signer -inform der -out $CADIR/crl.Signer.pem + + cat $CADIR/crl.Signer.pem $CADIR/crl.v2.pem > $CADIR/crl.chain.pem done # Finally, a single certificate-directory