File: ssl_generate_certificate.vtc

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#REGTEST_TYPE=devel

# This reg-test checks that the 'generate-certificates' SSL option works
# properly. This option allows to generate server-side certificates on the fly
# for clients that use an SNI for which no certificate was specified in the
# configuration file.
# This test also aims at checking that the 'generate-certificates' and the
# 'ecdhe' bind options work correctly together.
# Any bind line having a 'generate-certificates' needs to have a ca-sign-file
# option as well that specifies the path to a CA pem file (containing a
# certificate as well as its private key). For this reason, a new
# ssl_gen_ca.pem CA certificate was created, along with the ssl_gen_server.pem
# server certificate signed by the CA. This server certificate will be used as
# a default certificate and will serve as a base for any newly created
# certificate.

varnishtest "Test the 'generate-certificates' SSL option"
feature cmd "$HAPROXY_PROGRAM -cc 'feature(OPENSSL) && !ssllib_name_startswith(wolfSSL)'"
feature cmd "command -v openssl && command -v grep"
feature ignore_unknown_macro

server s1 -repeat 6 {
  rxreq
  txresp
} -start


haproxy h1 -conf {
    global
    .if feature(THREAD)
        thread-groups 1
    .endif

    .if !ssllib_name_startswith(AWS-LC)
        tune.ssl.default-dh-param 2048
    .endif
        tune.ssl.capture-buffer-size 2048

    defaults
        mode http
        option httpslog
        log stderr local0 debug err
        option logasap
        timeout connect "${HAPROXY_TEST_TIMEOUT-5s}"
        timeout client  "${HAPROXY_TEST_TIMEOUT-5s}"
        timeout server  "${HAPROXY_TEST_TIMEOUT-5s}"

    listen clear-lst
        bind "fd@${clearlst}"
        http-request set-var(sess.sni) hdr(x-sni)

        use_backend P-384_backend if { path /P-384 }
        default_backend default_backend

    backend default_backend
        server s1 "${tmpdir}/ssl.sock" ssl verify none ssl-max-ver TLSv1.2 sni var(sess.sni)

    backend P-384_backend
        server s1 "${tmpdir}/ssl_P-384.sock" ssl verify none ssl-max-ver TLSv1.2 sni var(sess.sni)

    listen ssl-lst
        bind "${tmpdir}/ssl.sock" ssl generate-certificates crt ${testdir}/generate_certificates/gen_cert_server.pem ca-sign-file ${testdir}/generate_certificates/gen_cert_ca.pem ca-file ${testdir}/generate_certificates/gen_cert_ca.pem verify optional
        http-response add-header x-ssl-s_dn %[ssl_f_s_dn(CN)]
        http-response add-header x-ssl-i_dn %[ssl_f_i_dn(CN)]
        http-response add-header x-ssl-sig_alg %[ssl_f_sig_alg]
        http-response add-header x-ssl-key_alg %[ssl_f_key_alg]
        http-response add-header x-ssl-sha1 %[ssl_f_sha1,hex]

        server s1 ${s1_addr}:${s1_port}

    listen ssl-lst-P-384
        bind "${tmpdir}/ssl_P-384.sock" ssl generate-certificates crt ${testdir}/generate_certificates/gen_cert_server.pem ca-sign-file ${testdir}/generate_certificates/gen_cert_ca.pem ca-file ${testdir}/generate_certificates/gen_cert_ca.pem verify optional ecdhe secp384r1
        http-response add-header x-ssl-s_dn %[ssl_f_s_dn(CN)]
        http-response add-header x-ssl-i_dn %[ssl_f_i_dn(CN)]
        http-response add-header x-ssl-sig_alg %[ssl_f_sig_alg]
        http-response add-header x-ssl-key_alg %[ssl_f_key_alg]
        http-response add-header x-ssl-sha1 %[ssl_f_sha1,hex]

        server s1 ${s1_addr}:${s1_port}

} -start

# Use default certificate
client c1 -connect ${h1_clearlst_sock} {
  txreq
  rxresp
  expect resp.status == 200
  expect resp.http.x-ssl-sig_alg == "ecdsa-with-SHA256"
  expect resp.http.x-ssl-i_dn == "ECDSA CA"
  expect resp.http.x-ssl-s_dn  == "server.ecdsa.com"
  expect resp.http.x-ssl-key_alg == "id-ecPublicKey"
  expect resp.http.x-ssl-sha1 == "66AC64728CEA0C1F614A89C278FA2F94EDE9AB11"
} -run


# Use default certificate's sni
client c2 -connect ${h1_clearlst_sock} {
  txreq -hdr "x-sni: server.ecdsa.com"
  rxresp
  expect resp.status == 200
  expect resp.http.x-ssl-sig_alg == "ecdsa-with-SHA256"
  expect resp.http.x-ssl-i_dn == "ECDSA CA"
  expect resp.http.x-ssl-s_dn  == "server.ecdsa.com"
  expect resp.http.x-ssl-key_alg == "id-ecPublicKey"
  expect resp.http.x-ssl-sha1 == "66AC64728CEA0C1F614A89C278FA2F94EDE9AB11"
} -run



# Use another SNI - the server certificate should be generated and different
# than the default one
client c3 -connect ${h1_clearlst_sock} {
  txreq -hdr "x-sni: unknown-sni.com"
  rxresp
  expect resp.status == 200
  expect resp.http.x-ssl-sig_alg == "ecdsa-with-SHA256"
  expect resp.http.x-ssl-i_dn == "ECDSA CA"
  expect resp.http.x-ssl-s_dn  == "ECDSA CA"
  expect resp.http.x-ssl-key_alg == "id-ecPublicKey"
  expect resp.http.x-ssl-sha1 != "66AC64728CEA0C1F614A89C278FA2F94EDE9AB11"
} -run


# Use default certificate
client c4 -connect ${h1_clearlst_sock} {
  txreq -url "/P-384"
  rxresp
  expect resp.status == 200
  expect resp.http.x-ssl-sig_alg == "ecdsa-with-SHA256"
  expect resp.http.x-ssl-i_dn == "ECDSA CA"
  expect resp.http.x-ssl-s_dn  == "server.ecdsa.com"
  expect resp.http.x-ssl-key_alg == "id-ecPublicKey"
  expect resp.http.x-ssl-sha1 == "66AC64728CEA0C1F614A89C278FA2F94EDE9AB11"
} -run


# Use default certificate's sni
client c5 -connect ${h1_clearlst_sock} {
  txreq -url "/P-384" -hdr "x-sni: server.ecdsa.com"
  rxresp
  expect resp.status == 200
  expect resp.http.x-ssl-sig_alg == "ecdsa-with-SHA256"
  expect resp.http.x-ssl-i_dn == "ECDSA CA"
  expect resp.http.x-ssl-s_dn  == "server.ecdsa.com"
  expect resp.http.x-ssl-key_alg == "id-ecPublicKey"
  expect resp.http.x-ssl-sha1 == "66AC64728CEA0C1F614A89C278FA2F94EDE9AB11"
} -run


# Use another SNI - the server certificate should be generated and different
# than the default one
client c6 -connect ${h1_clearlst_sock} {
  txreq -url "/P-384" -hdr "x-sni: sni-longer-sni-longer-sni-longer.sni-longer-than-64-bytes-unknown-sni.com"
  rxresp
  expect resp.status == 200
  expect resp.http.x-ssl-sig_alg == "ecdsa-with-SHA256"
  expect resp.http.x-ssl-i_dn == "ECDSA CA"
  expect resp.http.x-ssl-s_dn  == "ECDSA CA"
  expect resp.http.x-ssl-key_alg == "id-ecPublicKey"
  expect resp.http.x-ssl-sha1 != "66AC64728CEA0C1F614A89C278FA2F94EDE9AB11"
} -run

# Check that the curves that the server accepts to use correspond to what we
# expect it to be (according to ecdhe option).
# The curve with the highest priority is X25519 for OpenSSL 1.1.1 and later,
# and P-256 for OpenSSL 1.0.2.
shell {
    echo "Q" | openssl s_client -unix "${tmpdir}/ssl.sock" -servername server.ecdsa.com -tls1_2 2>/dev/null | grep -E "(Server|Peer) Temp Key: (ECDH, P-256, 256 bits|ECDH, prime256v1, 256 bits|X25519, 253 bits)"
}

shell {
    echo "Q" | openssl s_client -unix "${tmpdir}/ssl_P-384.sock" -servername server.ecdsa.com 2>/dev/null| grep -E "Temp Key: ECDH,.+, 384 bits"
}