#REGTEST_TYPE=devel # This reg-test uses the "set ssl cert" command to update a multi-certificate # bundle over the CLI. # It requires socat to upload the certificate # # This regtests loads a multi-certificates bundle "cert1-example.com.pem" # composed of a .rsa and a .ecdsa # # After verifying that the RSA and ECDSA algorithms were avalailble with the # right certificate, the test changes the certificates and try new requests. # # If this test does not work anymore: # - Check that you have socat # - Check that you have at least OpenSSL 1.1.1 varnishtest "Test the 'set ssl cert' feature of the CLI with bundles" # could work with haproxy 2.3 but the -cc is not available feature cmd "$HAPROXY_PROGRAM -cc 'version_atleast(2.5-dev9)'" feature cmd "$HAPROXY_PROGRAM -cc 'feature(OPENSSL) && ssllib_name_startswith(OpenSSL) && openssl_version_atleast(1.1.1)'" feature cmd "command -v socat" feature ignore_unknown_macro server s1 -repeat 9 { rxreq txresp } -start haproxy h1 -conf { global tune.ssl.default-dh-param 2048 tune.ssl.capture-buffer-size 1 stats socket "${tmpdir}/h1/stats" level admin crt-base ${testdir} defaults mode http option httplog log stderr local0 debug err option logasap timeout connect 100ms timeout client 1s timeout server 1s listen clear-lst bind "fd@${clearlst}" balance roundrobin http-response set-header X-SSL-Server-SHA1 %[ssl_s_sha1,hex] retries 0 # 2nd SSL connection must fail so skip the retry server s1 "${tmpdir}/ssl.sock" ssl verify none sni str(example.com) force-tlsv12 ciphers ECDHE-RSA-AES128-GCM-SHA256 server s2 "${tmpdir}/ssl.sock" ssl verify none sni str(example.com) force-tlsv12 ciphers ECDHE-ECDSA-AES256-GCM-SHA384 server s3 "${tmpdir}/ssl.sock" ssl verify none sni str(example.com) force-tlsv12 ciphers ECDHE-RSA-AES128-GCM-SHA256 server s4 "${tmpdir}/ssl.sock" ssl verify none sni str(example.com) force-tlsv12 ciphers ECDHE-ECDSA-AES256-GCM-SHA384 listen ssl-lst bind "${tmpdir}/ssl.sock" ssl crt ${testdir}/cert1-example.com.pem server s1 ${s1_addr}:${s1_port} } -start haproxy h1 -cli { send "show ssl cert ${testdir}/cert1-example.com.pem.rsa" expect ~ ".*SHA1 FingerPrint: 94F720DACA71B8B1A0AC9BD48C65BA688FF047DE" send "show ssl cert ${testdir}/cert1-example.com.pem.ecdsa" expect ~ ".*SHA1 FingerPrint: C1BA055D452F92EB02D449F0498C289F50698300" } client c1 -connect ${h1_clearlst_sock} { # RSA txreq rxresp expect resp.http.X-SSL-Server-SHA1 == "94F720DACA71B8B1A0AC9BD48C65BA688FF047DE" expect resp.status == 200 # ECDSA txreq rxresp expect resp.http.X-SSL-Server-SHA1 == "C1BA055D452F92EB02D449F0498C289F50698300" expect resp.status == 200 } -run shell { printf "set ssl cert ${testdir}/cert1-example.com.pem.rsa <<\n$(cat ${testdir}/cert2-example.com.pem.rsa)\n\n" | socat "${tmpdir}/h1/stats" - echo "commit ssl cert ${testdir}/cert1-example.com.pem.rsa" | socat "${tmpdir}/h1/stats" - printf "set ssl cert ${testdir}/cert1-example.com.pem.ecdsa <<\n$(cat ${testdir}/cert2-example.com.pem.ecdsa)\n\n" | socat "${tmpdir}/h1/stats" - echo "commit ssl cert ${testdir}/cert1-example.com.pem.ecdsa" | socat "${tmpdir}/h1/stats" - } haproxy h1 -cli { send "show ssl cert ${testdir}/cert1-example.com.pem.rsa" expect ~ ".*SHA1 FingerPrint: ADC863817FC40C2A9CA913CE45C9A92232558F90" send "show ssl cert ${testdir}/cert1-example.com.pem.ecdsa" expect ~ ".*SHA1 FingerPrint: F49FFA446D072262445C197B85D2F400B3F58808" } client c1 -connect ${h1_clearlst_sock} { # RSA txreq rxresp expect resp.http.X-SSL-Server-SHA1 == "ADC863817FC40C2A9CA913CE45C9A92232558F90" expect resp.status == 200 # ECDSA txreq rxresp expect resp.http.X-SSL-Server-SHA1 == "F49FFA446D072262445C197B85D2F400B3F58808" expect resp.status == 200 } -run