# frozen_string_literal: true require_relative "utils" if defined?(OpenSSL) class OpenSSL::TestX509Certificate < OpenSSL::TestCase def setup super @rsa1024 = Fixtures.pkey("rsa1024") @rsa2048 = Fixtures.pkey("rsa2048") @dsa256 = Fixtures.pkey("dsa256") @dsa512 = Fixtures.pkey("dsa512") @ca = OpenSSL::X509::Name.parse("/DC=org/DC=ruby-lang/CN=CA") @ee1 = OpenSSL::X509::Name.parse("/DC=org/DC=ruby-lang/CN=EE1") end def test_serial [1, 2**32, 2**100].each{|s| cert = issue_cert(@ca, @rsa2048, s, [], nil, nil) assert_equal(s, cert.serial) cert = OpenSSL::X509::Certificate.new(cert.to_der) assert_equal(s, cert.serial) } end def test_public_key exts = [ ["basicConstraints","CA:TRUE",true], ["subjectKeyIdentifier","hash",false], ["authorityKeyIdentifier","keyid:always",false], ] [ @rsa1024, @rsa2048, @dsa256, @dsa512, ].each{|pk| cert = issue_cert(@ca, pk, 1, exts, nil, nil) assert_equal(cert.extensions.sort_by(&:to_s)[2].value, OpenSSL::TestUtils.get_subject_key_id(cert)) cert = OpenSSL::X509::Certificate.new(cert.to_der) assert_equal(cert.extensions.sort_by(&:to_s)[2].value, OpenSSL::TestUtils.get_subject_key_id(cert)) } end def test_validity now = Time.at(Time.now.to_i + 0.9) cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil, not_before: now, not_after: now+3600) assert_equal(Time.at(now.to_i), cert.not_before) assert_equal(Time.at(now.to_i+3600), cert.not_after) now = Time.at(now.to_i) cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil, not_before: now, not_after: now+3600) assert_equal(now.getutc, cert.not_before) assert_equal((now+3600).getutc, cert.not_after) now = Time.at(0) cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil, not_before: now, not_after: now) assert_equal(now.getutc, cert.not_before) assert_equal(now.getutc, cert.not_after) now = Time.at(0x7fffffff) cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil, not_before: now, not_after: now) assert_equal(now.getutc, cert.not_before) assert_equal(now.getutc, cert.not_after) end def test_extension ca_exts = [ ["basicConstraints","CA:TRUE",true], ["keyUsage","keyCertSign, cRLSign",true], ["subjectKeyIdentifier","hash",false], ["authorityKeyIdentifier","issuer:always,keyid:always",false], ] ca_cert = issue_cert(@ca, @rsa2048, 1, ca_exts, nil, nil) keyid = get_subject_key_id(ca_cert.to_der, hex: false) assert_equal keyid, ca_cert.authority_key_identifier assert_equal keyid, ca_cert.subject_key_identifier ca_cert.extensions.each_with_index{|ext, i| assert_equal(ca_exts[i].first, ext.oid) assert_equal(ca_exts[i].last, ext.critical?) } ee1_exts = [ ["keyUsage","Non Repudiation, Digital Signature, Key Encipherment",true], ["subjectKeyIdentifier","hash",false], ["authorityKeyIdentifier","issuer:always,keyid:always",false], ["extendedKeyUsage","clientAuth, emailProtection, codeSigning",false], ["subjectAltName","email:ee1@ruby-lang.org",false], ["authorityInfoAccess","caIssuers;URI:http://www.example.com/caIssuers,OCSP;URI:http://www.example.com/ocsp",false], ] ee1_cert = issue_cert(@ee1, @rsa1024, 2, ee1_exts, ca_cert, @rsa2048) assert_equal(ca_cert.subject.to_der, ee1_cert.issuer.to_der) ee1_cert.extensions.each_with_index{|ext, i| assert_equal(ee1_exts[i].first, ext.oid) assert_equal(ee1_exts[i].last, ext.critical?) } assert_nil(ee1_cert.crl_uris) ef = OpenSSL::X509::ExtensionFactory.new ef.config = OpenSSL::Config.parse(<<~_cnf_) [crlDistPts] URI.1 = http://www.example.com/crl URI.2 = ldap://ldap.example.com/cn=ca?certificateRevocationList;binary _cnf_ cdp_cert = generate_cert(@ee1, @rsa1024, 3, ca_cert) ef.subject_certificate = cdp_cert cdp_cert.add_extension(ef.create_extension("crlDistributionPoints", "@crlDistPts")) cdp_cert.sign(@rsa2048, "sha256") assert_equal( ["http://www.example.com/crl", "ldap://ldap.example.com/cn=ca?certificateRevocationList;binary"], cdp_cert.crl_uris ) ef = OpenSSL::X509::ExtensionFactory.new aia_cert = generate_cert(@ee1, @rsa1024, 4, ca_cert) ef.subject_certificate = aia_cert aia_cert.add_extension( ef.create_extension( "authorityInfoAccess", "caIssuers;URI:http://www.example.com/caIssuers," \ "caIssuers;URI:ldap://ldap.example.com/cn=ca?authorityInfoAccessCaIssuers;binary," \ "OCSP;URI:http://www.example.com/ocsp," \ "OCSP;URI:ldap://ldap.example.com/cn=ca?authorityInfoAccessOcsp;binary", false ) ) aia_cert.sign(@rsa2048, "sha256") assert_equal( ["http://www.example.com/caIssuers", "ldap://ldap.example.com/cn=ca?authorityInfoAccessCaIssuers;binary"], aia_cert.ca_issuer_uris ) assert_equal( ["http://www.example.com/ocsp", "ldap://ldap.example.com/cn=ca?authorityInfoAccessOcsp;binary"], aia_cert.ocsp_uris ) no_exts_cert = issue_cert(@ca, @rsa2048, 5, [], nil, nil) assert_equal nil, no_exts_cert.authority_key_identifier assert_equal nil, no_exts_cert.subject_key_identifier assert_equal nil, no_exts_cert.crl_uris assert_equal nil, no_exts_cert.ca_issuer_uris assert_equal nil, no_exts_cert.ocsp_uris end def test_invalid_extension integer = OpenSSL::ASN1::Integer.new(0) invalid_exts_cert = generate_cert(@ee1, @rsa1024, 1, nil) ["subjectKeyIdentifier", "authorityKeyIdentifier", "crlDistributionPoints", "authorityInfoAccess"].each do |ext| invalid_exts_cert.add_extension( OpenSSL::X509::Extension.new(ext, integer.to_der) ) end assert_raise(OpenSSL::ASN1::ASN1Error, "invalid extension") { invalid_exts_cert.authority_key_identifier } assert_raise(OpenSSL::ASN1::ASN1Error, "invalid extension") { invalid_exts_cert.subject_key_identifier } assert_raise(OpenSSL::ASN1::ASN1Error, "invalid extension") { invalid_exts_cert.crl_uris } assert_raise(OpenSSL::ASN1::ASN1Error, "invalid extension") { invalid_exts_cert.ca_issuer_uris } assert_raise(OpenSSL::ASN1::ASN1Error, "invalid extension") { invalid_exts_cert.ocsp_uris } end def test_sign_and_verify_rsa_sha1 cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil, digest: "sha1") assert_equal(false, cert.verify(@rsa1024)) assert_equal(true, cert.verify(@rsa2048)) assert_equal(false, certificate_error_returns_false { cert.verify(@dsa256) }) assert_equal(false, certificate_error_returns_false { cert.verify(@dsa512) }) cert.serial = 2 assert_equal(false, cert.verify(@rsa2048)) end def test_sign_and_verify_rsa_md5 cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil, digest: "md5") assert_equal(false, cert.verify(@rsa1024)) assert_equal(true, cert.verify(@rsa2048)) assert_equal(false, certificate_error_returns_false { cert.verify(@dsa256) }) assert_equal(false, certificate_error_returns_false { cert.verify(@dsa512) }) cert.subject = @ee1 assert_equal(false, cert.verify(@rsa2048)) rescue OpenSSL::X509::CertificateError # RHEL7 disables MD5 end def test_sign_and_verify_dsa cert = issue_cert(@ca, @dsa512, 1, [], nil, nil) assert_equal(false, certificate_error_returns_false { cert.verify(@rsa1024) }) assert_equal(false, certificate_error_returns_false { cert.verify(@rsa2048) }) assert_equal(false, cert.verify(@dsa256)) assert_equal(true, cert.verify(@dsa512)) cert.not_after = Time.now assert_equal(false, cert.verify(@dsa512)) end def test_sign_and_verify_rsa_dss1 cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil, digest: OpenSSL::Digest.new('DSS1')) assert_equal(false, cert.verify(@rsa1024)) assert_equal(true, cert.verify(@rsa2048)) assert_equal(false, certificate_error_returns_false { cert.verify(@dsa256) }) assert_equal(false, certificate_error_returns_false { cert.verify(@dsa512) }) cert.subject = @ee1 assert_equal(false, cert.verify(@rsa2048)) rescue OpenSSL::X509::CertificateError end if defined?(OpenSSL::Digest::DSS1) def test_sign_and_verify_dsa_md5 assert_raise(OpenSSL::X509::CertificateError){ issue_cert(@ca, @dsa512, 1, [], nil, nil, digest: "md5") } end def test_dsa_with_sha2 cert = issue_cert(@ca, @dsa256, 1, [], nil, nil, digest: "sha256") assert_equal("dsa_with_SHA256", cert.signature_algorithm) # TODO: need more tests for dsa + sha2 # SHA1 is allowed from OpenSSL 1.0.0 (0.9.8 requires DSS1) cert = issue_cert(@ca, @dsa256, 1, [], nil, nil, digest: "sha1") assert_equal("dsaWithSHA1", cert.signature_algorithm) end def test_check_private_key cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil) assert_equal(true, cert.check_private_key(@rsa2048)) end def test_read_from_file cert = issue_cert(@ca, @rsa2048, 1, [], nil, nil) Tempfile.create("cert") { |f| f << cert.to_pem f.rewind assert_equal cert.to_der, OpenSSL::X509::Certificate.new(f).to_der } end def test_read_der_then_pem cert1 = issue_cert(@ca, @rsa2048, 1, [], nil, nil) exts = [ # A new line before PEM block ["nsComment", "Another certificate:\n" + cert1.to_pem], ] cert2 = issue_cert(@ca, @rsa2048, 2, exts, nil, nil) assert_equal cert2, OpenSSL::X509::Certificate.new(cert2.to_der) assert_equal cert2, OpenSSL::X509::Certificate.new(cert2.to_pem) end def test_eq now = Time.now cacert = issue_cert(@ca, @rsa1024, 1, [], nil, nil, not_before: now, not_after: now + 3600) cert1 = issue_cert(@ee1, @rsa2048, 2, [], cacert, @rsa1024, not_before: now, not_after: now + 3600) cert2 = issue_cert(@ee1, @rsa2048, 2, [], cacert, @rsa1024, not_before: now, not_after: now + 3600) cert3 = issue_cert(@ee1, @rsa2048, 3, [], cacert, @rsa1024, not_before: now, not_after: now + 3600) cert4 = issue_cert(@ee1, @rsa2048, 2, [], cacert, @rsa1024, digest: "sha512", not_before: now, not_after: now + 3600) assert_equal false, cert1 == 12345 assert_equal true, cert1 == cert2 assert_equal false, cert1 == cert3 assert_equal false, cert1 == cert4 assert_equal false, cert3 == cert4 end def test_marshal now = Time.now cacert = issue_cert(@ca, @rsa1024, 1, [], nil, nil, not_before: now, not_after: now + 3600) cert = issue_cert(@ee1, @rsa2048, 2, [], cacert, @rsa1024, not_before: now, not_after: now + 3600) deserialized = Marshal.load(Marshal.dump(cert)) assert_equal cert.to_der, deserialized.to_der end def test_load_file_empty_pem empty_path = Fixtures.file_path("pkey", "empty.pem") assert_raise(OpenSSL::X509::CertificateError) do OpenSSL::X509::Certificate.load_file(empty_path) end end def test_load_file_fullchain_pem fullchain_path = Fixtures.file_path("pkey", "fullchain.pem") certificates = OpenSSL::X509::Certificate.load_file(fullchain_path) assert_equal 2, certificates.size assert_equal "/CN=www.codeotaku.com", certificates[0].subject.to_s assert_equal "/C=US/O=Let's Encrypt/CN=R3", certificates[1].subject.to_s end def test_load_file_certificate_der fullchain_path = Fixtures.file_path("pkey", "certificate.der") certificates = OpenSSL::X509::Certificate.load_file(fullchain_path) # DER encoding can only contain one certificate: assert_equal 1, certificates.size assert_equal "/CN=www.codeotaku.com", certificates[0].subject.to_s end def test_load_file_fullchain_garbage fullchain_path = Fixtures.file_path("pkey", "garbage.txt") assert_raise(OpenSSL::X509::CertificateError) do OpenSSL::X509::Certificate.load_file(fullchain_path) end end private def certificate_error_returns_false yield rescue OpenSSL::X509::CertificateError false end end end