/* * (C) 2006,2011,2012,2014,2015 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include "tests.h" #if defined(BOTAN_HAS_X509_CERTIFICATES) #include #include #include #include #include #include #include #include #include #include #include #include #include #include #endif namespace Botan_Tests { namespace { #if defined(BOTAN_HAS_X509_CERTIFICATES) && defined(BOTAN_TARGET_OS_HAS_FILESYSTEM) #if defined(BOTAN_HAS_RSA) && defined(BOTAN_HAS_EMSA_PKCS1) std::map read_results(const std::string& results_file, const char delim = ':') { std::ifstream in(results_file); if(!in.good()) { throw Test_Error("Failed reading " + results_file); } std::map m; std::string line; while(in.good()) { std::getline(in, line); if(line == "") { continue; } if(line[0] == '#') { continue; } std::vector parts = Botan::split_on(line, delim); if(parts.size() != 2) { throw Test_Error("Invalid line " + line); } m[parts[0]] = parts[1]; } return m; } class X509test_Path_Validation_Tests final : public Test { public: std::vector run() override { std::vector results; // Test certs generated by https://github.com/yymax/x509test std::map expected = read_results(Test::data_file("x509/x509test/expected.txt")); // Current tests use SHA-1 const Botan::Path_Validation_Restrictions restrictions(false, 80); Botan::X509_Certificate root(Test::data_file("x509/x509test/root.pem")); Botan::Certificate_Store_In_Memory trusted; trusted.add_certificate(root); auto validation_time = Botan::calendar_point(2016, 10, 21, 4, 20, 0).to_std_timepoint(); for(auto i = expected.begin(); i != expected.end(); ++i) { Test::Result result("X509test path validation"); result.start_timer(); const std::string filename = i->first; const std::string expected_result = i->second; std::vector certs = load_cert_file(Test::data_file("x509/x509test/" + filename)); if(certs.empty()) { throw Test_Error("Failed to read certs from " + filename); } Botan::Path_Validation_Result path_result = Botan::x509_path_validate( certs, restrictions, trusted, "www.tls.test", Botan::Usage_Type::TLS_SERVER_AUTH, validation_time); if(path_result.successful_validation() && path_result.trust_root() != root) { path_result = Botan::Path_Validation_Result(Botan::Certificate_Status_Code::CANNOT_ESTABLISH_TRUST); } result.test_eq("test " + filename, path_result.result_string(), expected_result); result.test_eq("test no warnings string", path_result.warnings_string(), ""); result.confirm("test no warnings", path_result.no_warnings()); result.end_timer(); results.push_back(result); } // test softfail { Test::Result result("X509test path validation softfail"); result.start_timer(); // this certificate must not have a OCSP URL const std::string filename = "ValidAltName.pem"; std::vector certs = load_cert_file(Test::data_file("x509/x509test/" + filename)); if(certs.empty()) { throw Test_Error("Failed to read certs from " + filename); } Botan::Path_Validation_Result path_result = Botan::x509_path_validate( certs, restrictions, trusted, "www.tls.test", Botan::Usage_Type::TLS_SERVER_AUTH, validation_time, /* activate check_ocsp_online */ std::chrono::milliseconds(1000), {}); if(path_result.successful_validation() && path_result.trust_root() != root) { path_result = Botan::Path_Validation_Result(Botan::Certificate_Status_Code::CANNOT_ESTABLISH_TRUST); } // certificate verification succeed even if no OCSP URL (softfail) result.confirm("test success", path_result.successful_validation()); result.test_eq("test " + filename, path_result.result_string(), "Verified"); #if defined(BOTAN_TARGET_OS_HAS_THREADS) && defined(BOTAN_HAS_HTTP_UTIL) // if softfail, there is warnings result.confirm("test warnings", !path_result.no_warnings()); result.test_eq("test warnings string", path_result.warnings_string(), "[0] OCSP URL not available"); #endif result.end_timer(); results.push_back(result); } return results; } private: std::vector load_cert_file(const std::string& filename) { Botan::DataSource_Stream in(filename); std::vector certs; while(!in.end_of_data()) { try { certs.emplace_back(in); } catch(Botan::Decoding_Error&) {} } return certs; } }; BOTAN_REGISTER_TEST("x509_path_x509test", X509test_Path_Validation_Tests); class NIST_Path_Validation_Tests final : public Test { public: std::vector run() override; }; std::vector NIST_Path_Validation_Tests::run() { if(Botan::has_filesystem_impl() == false) { return {Test::Result::Note("NIST path validation", "Skipping due to missing filesystem access")}; } std::vector results; /** * Code to run the X.509v3 processing tests described in "Conformance * Testing of Relying Party Client Certificate Path Proccessing Logic", * which is available on NIST's web site. * * Known Failures/Problems: * - Policy extensions are not implemented, so we skip tests #34-#53. * - Tests #75 and #76 are skipped as they make use of relatively * obscure CRL extensions which are not supported. */ const std::string nist_test_dir = Test::data_dir() + "/x509/nist"; std::map expected = read_results(Test::data_file("x509/nist/expected.txt")); const Botan::X509_Certificate root_cert(nist_test_dir + "/root.crt"); const Botan::X509_CRL root_crl(nist_test_dir + "/root.crl"); const auto validation_time = Botan::calendar_point(2018,4,1,9,30,33).to_std_timepoint(); for(auto i = expected.begin(); i != expected.end(); ++i) { Test::Result result("NIST path validation"); result.start_timer(); const std::string test_name = i->first; try { const std::string expected_result = i->second; const std::string test_dir = nist_test_dir + "/" + test_name; const std::vector all_files = Botan::get_files_recursive(test_dir); if(all_files.empty()) { result.test_failure("No test files found in " + test_dir); results.push_back(result); continue; } Botan::Certificate_Store_In_Memory store; store.add_certificate(root_cert); store.add_crl(root_crl); for(auto const& file : all_files) { if(file.find(".crt") != std::string::npos && file != "end.crt") { store.add_certificate(Botan::X509_Certificate(file)); } else if(file.find(".crl") != std::string::npos) { Botan::DataSource_Stream in(file, true); Botan::X509_CRL crl(in); store.add_crl(crl); } } Botan::X509_Certificate end_user(test_dir + "/end.crt"); // 1024 bit root cert Botan::Path_Validation_Restrictions restrictions(true, 80); Botan::Path_Validation_Result validation_result = Botan::x509_path_validate(end_user, restrictions, store, "", Botan::Usage_Type::UNSPECIFIED, validation_time); result.test_eq(test_name + " path validation result", validation_result.result_string(), expected_result); } catch(std::exception& e) { result.test_failure(test_name, e.what()); } result.end_timer(); results.push_back(result); } return results; } BOTAN_REGISTER_TEST("x509_path_nist", NIST_Path_Validation_Tests); class Extended_Path_Validation_Tests final : public Test { public: std::vector run() override; }; std::vector Extended_Path_Validation_Tests::run() { if(Botan::has_filesystem_impl() == false) { return {Test::Result::Note("Extended x509 path validation", "Skipping due to missing filesystem access")}; } std::vector results; const std::string extended_x509_test_dir = Test::data_dir() + "/x509/extended"; std::map expected = read_results(Test::data_file("x509/extended/expected.txt")); auto validation_time = Botan::calendar_point(2017,9,1,9,30,33).to_std_timepoint(); for(auto i = expected.begin(); i != expected.end(); ++i) { const std::string test_name = i->first; const std::string expected_result = i->second; const std::string test_dir = extended_x509_test_dir + "/" + test_name; Test::Result result("Extended X509 path validation"); result.start_timer(); const std::vector all_files = Botan::get_files_recursive(test_dir); if(all_files.empty()) { result.test_failure("No test files found in " + test_dir); results.push_back(result); continue; } Botan::Certificate_Store_In_Memory store; for(auto const& file : all_files) { if(file.find(".crt") != std::string::npos && file != "end.crt") { store.add_certificate(Botan::X509_Certificate(file)); } } Botan::X509_Certificate end_user(test_dir + "/end.crt"); Botan::Path_Validation_Restrictions restrictions; Botan::Path_Validation_Result validation_result = Botan::x509_path_validate(end_user, restrictions, store, "", Botan::Usage_Type::UNSPECIFIED, validation_time); result.test_eq(test_name + " path validation result", validation_result.result_string(), expected_result); result.end_timer(); results.push_back(result); } return results; } BOTAN_REGISTER_TEST("x509_path_extended", Extended_Path_Validation_Tests); class PSS_Path_Validation_Tests : public Test { public: std::vector run() override; }; std::vector PSS_Path_Validation_Tests::run() { if(Botan::has_filesystem_impl() == false) { return {Test::Result::Note("RSA-PSS X509 signature validation", "Skipping due to missing filesystem access")}; } std::vector results; const std::string pss_x509_test_dir = Test::data_dir() + "/x509/pss_certs"; std::map expected = read_results(Test::data_file("x509/pss_certs/expected.txt")); std::map validation_times = read_results(Test::data_file("x509/pss_certs/validation_times.txt")); auto validation_times_iter = validation_times.begin(); for(auto i = expected.begin(); i != expected.end(); ++i) { const std::string test_name = i->first; const std::string expected_result = i->second; const std::string test_dir = pss_x509_test_dir + "/" + test_name; Test::Result result("RSA-PSS X509 signature validation"); result.start_timer(); const std::vector all_files = Botan::get_files_recursive(test_dir); if(all_files.empty()) { result.test_failure("No test files found in " + test_dir); results.push_back(result); continue; } std::shared_ptr crl; std::shared_ptr end; std::shared_ptr root; Botan::Certificate_Store_In_Memory store; std::shared_ptr csr; auto validation_time = Botan::calendar_point(std::atoi((validation_times_iter++)->second.c_str()), 0, 0, 0, 0, 0).to_std_timepoint(); for(auto const& file : all_files) { if(file.find("end.crt") != std::string::npos) { end.reset(new Botan::X509_Certificate(file)); } else if(file.find("root.crt") != std::string::npos) { root.reset(new Botan::X509_Certificate(file)); store.add_certificate(*root); } else if(file.find(".crl") != std::string::npos) { crl.reset(new Botan::X509_CRL(file)); } else if(file.find(".csr") != std::string::npos) { csr.reset(new Botan::PKCS10_Request(file)); } } if(end && crl && root) // CRL tests { const std::vector> cert_path = { end, root }; const std::vector> crls = { crl }; auto crl_status = Botan::PKIX::check_crl(cert_path, crls, validation_time); // alternatively we could just call crl.check_signature( root_pubkey ) result.test_eq(test_name + " check_crl result", Botan::Path_Validation_Result::status_string(Botan::PKIX::overall_status(crl_status)), expected_result); } else if(end && root) // CRT chain tests { // sha-1 is used Botan::Path_Validation_Restrictions restrictions(false, 80); Botan::Path_Validation_Result validation_result = Botan::x509_path_validate(*end, restrictions, store, "", Botan::Usage_Type::UNSPECIFIED, validation_time); result.test_eq(test_name + " path validation result", validation_result.result_string(), expected_result); } else if(end && !root) // CRT self signed tests { std::unique_ptr pubkey(end->subject_public_key()); result.test_eq(test_name + " verify signature", end->check_signature(*pubkey), !!(std::stoi(expected_result))); } else if(csr) // PKCS#10 Request { std::unique_ptr pubkey(csr->subject_public_key()); result.test_eq(test_name + " verify signature", csr->check_signature(*pubkey), !!(std::stoi(expected_result))); } result.end_timer(); results.push_back(result); } return results; } BOTAN_REGISTER_TEST("x509_path_rsa_pss", PSS_Path_Validation_Tests); class Validate_V1Cert_Test final : public Test { public: std::vector run() override; }; std::vector Validate_V1Cert_Test::run() { if(Botan::has_filesystem_impl() == false) { return {Test::Result::Note("BSI path validation", "Skipping due to missing filesystem access")}; } std::vector results; const std::string root_crt = Test::data_file("/x509/misc/v1ca/root.pem"); const std::string int_crt = Test::data_file("/x509/misc/v1ca/int.pem"); const std::string ee_crt = Test::data_file("/x509/misc/v1ca/ee.pem"); auto validation_time = Botan::calendar_point(2019, 4, 19, 23, 0, 0).to_std_timepoint(); Botan::X509_Certificate root(root_crt); Botan::X509_Certificate intermediate(int_crt); Botan::X509_Certificate ee_cert(ee_crt); Botan::Certificate_Store_In_Memory trusted; trusted.add_certificate(root); std::vector chain = { ee_cert, intermediate }; Botan::Path_Validation_Restrictions restrictions; Botan::Path_Validation_Result validation_result = Botan::x509_path_validate(chain, restrictions, trusted, "", Botan::Usage_Type::UNSPECIFIED, validation_time); Test::Result result("Verifying using v1 certificate"); result.test_eq("Path validation result", validation_result.result_string(), "Verified"); Botan::Certificate_Store_In_Memory empty; std::vector new_chain = { ee_cert, intermediate, root }; Botan::Path_Validation_Result validation_result2 = Botan::x509_path_validate(new_chain, restrictions, empty, "", Botan::Usage_Type::UNSPECIFIED, validation_time); result.test_eq("Path validation result", validation_result2.result_string(), "Cannot establish trust"); return {result}; } BOTAN_REGISTER_TEST("x509_v1_ca", Validate_V1Cert_Test); class BSI_Path_Validation_Tests final : public Test { public: std::vector run() override; }; std::vector BSI_Path_Validation_Tests::run() { if(Botan::has_filesystem_impl() == false) { return {Test::Result::Note("BSI path validation", "Skipping due to missing filesystem access")}; } std::vector results; const std::string bsi_test_dir = Test::data_dir() + "/x509/bsi"; const std::map expected = read_results( Test::data_file("/x509/bsi/expected.txt"), '$'); for(auto& i : expected) { const std::string test_name = i.first; std::string expected_result = i.second; #if !defined(BOTAN_HAS_MD5) if(expected_result == "Hash function used is considered too weak for security") expected_result = "Certificate signed with unknown/unavailable algorithm"; #endif const std::string test_dir = bsi_test_dir + "/" + test_name; Test::Result result("BSI path validation"); result.start_timer(); const std::vector all_files = Botan::get_files_recursive(test_dir); if(all_files.empty()) { result.test_failure("No test files found in " + test_dir); results.push_back(result); continue; } Botan::Certificate_Store_In_Memory trusted; std::vector certs; auto validation_time = Botan::calendar_point(2017, 8, 19, 12, 0, 0).to_std_timepoint(); // By convention: if CRL is a substring if the directory name, // we need to check the CRLs bool use_crl = false; if(test_dir.find("CRL") != std::string::npos) { use_crl = true; } try { for(auto const& file : all_files) { // found a trust anchor if(file.find("TA") != std::string::npos) { trusted.add_certificate(Botan::X509_Certificate(file)); } // found the target certificate. It needs to be at the front of certs else if(file.find("TC") != std::string::npos) { certs.insert(certs.begin(), Botan::X509_Certificate(file)); } // found a certificate that might be part of a valid certificate chain to the trust anchor else if(file.find(".crt") != std::string::npos) { certs.push_back(Botan::X509_Certificate(file)); } else if(file.find(".crl") != std::string::npos) { trusted.add_crl(Botan::X509_CRL(file)); } } Botan::Path_Validation_Restrictions restrictions(use_crl, 79, use_crl); /* * Following the test document, the test are executed 16 times with * randomly chosen order of the available certificates. However, the target * certificate needs to stay in front. * For certain test, the order in which the certificates are given to * the validation function may be relevant, i.e. if issuer DNs are * ambiguous. */ struct random_bit_generator { using result_type = size_t; static constexpr result_type min() { return 0; } static constexpr result_type max() { return std::numeric_limits::max(); } result_type operator()() { size_t s; Test::rng().randomize(reinterpret_cast(&s), sizeof(s)); return s; } } rbg; for(size_t r = 0; r < 16; r++) { std::shuffle(++(certs.begin()), certs.end(), rbg); Botan::Path_Validation_Result validation_result = Botan::x509_path_validate(certs, restrictions, trusted, "", Botan::Usage_Type::UNSPECIFIED, validation_time); // We expect to be warned if(expected_result.find("Warning: ") == 0) { std::string stripped = expected_result.substr(std::string("Warning: ").size()); bool found_warning = false; for(const auto& warning_set : validation_result.warnings()) { for(const auto& warning : warning_set) { std::string warning_str(Botan::to_string(warning)); if(stripped == warning_str) { result.test_eq(test_name + " path validation result", warning_str, stripped); found_warning = true; } } } if(!found_warning) { result.test_failure(test_name,"Did not receive the expected warning: " + stripped); } } else { result.test_eq(test_name + " path validation result", validation_result.result_string(), expected_result); } } } /* Some certificates are rejected when executing the X509_Certificate constructor * by throwing a Decoding_Error exception. */ catch(const Botan::Exception& e) { if(e.error_type() == Botan::ErrorType::DecodingFailure) { result.test_eq(test_name + " path validation result", e.what(), expected_result); } else { result.test_failure(test_name, e.what()); } } result.end_timer(); results.push_back(result); } return results; } BOTAN_REGISTER_TEST("x509_path_bsi", BSI_Path_Validation_Tests); class Path_Validation_With_OCSP_Tests final : public Test { public: Botan::X509_Certificate load_test_X509_cert(const std::string& path) { return Botan::X509_Certificate(Test::data_file(path)); } std::shared_ptr load_test_OCSP_resp(const std::string& path) { return std::make_shared(Test::read_binary_data_file(path)); } Test::Result validate_with_ocsp_with_next_update_without_max_age() { Test::Result result("path check with ocsp with next_update w/o max_age"); Botan::Certificate_Store_In_Memory trusted; auto restrictions = Botan::Path_Validation_Restrictions(false, 110, false); auto ee = load_test_X509_cert("x509/ocsp/randombit.pem"); auto ca = load_test_X509_cert("x509/ocsp/letsencrypt.pem"); auto trust_root = load_test_X509_cert("x509/ocsp/identrust.pem"); trusted.add_certificate(trust_root); const std::vector cert_path = { ee, ca, trust_root }; std::shared_ptr ocsp = load_test_OCSP_resp("x509/ocsp/randombit_ocsp.der"); auto check_path = [&](const std::chrono::system_clock::time_point valid_time, const Botan::Certificate_Status_Code expected) { const auto path_result = Botan::x509_path_validate(cert_path, restrictions, trusted, "", Botan::Usage_Type::UNSPECIFIED, valid_time, std::chrono::milliseconds(0), {ocsp}); return result.confirm(std::string("Status: '") + Botan::to_string(expected) + "' should match '" + Botan::to_string(path_result.result()) + "'", path_result.result()==expected); }; check_path(Botan::calendar_point(2016, 11, 11, 12, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OCSP_NOT_YET_VALID); check_path(Botan::calendar_point(2016, 11, 18, 12, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OK); check_path(Botan::calendar_point(2016, 11, 20, 8, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OK); check_path(Botan::calendar_point(2016, 11, 28, 8, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OCSP_HAS_EXPIRED); return result; } Test::Result validate_with_ocsp_with_next_update_with_max_age() { Test::Result result("path check with ocsp with next_update with max_age"); Botan::Certificate_Store_In_Memory trusted; auto restrictions = Botan::Path_Validation_Restrictions(false, 110, false, std::chrono::minutes(59)); auto ee = load_test_X509_cert("x509/ocsp/randombit.pem"); auto ca = load_test_X509_cert("x509/ocsp/letsencrypt.pem"); auto trust_root = load_test_X509_cert("x509/ocsp/identrust.pem"); trusted.add_certificate(trust_root); const std::vector cert_path = { ee, ca, trust_root }; std::shared_ptr ocsp = load_test_OCSP_resp("x509/ocsp/randombit_ocsp.der"); auto check_path = [&](const std::chrono::system_clock::time_point valid_time, const Botan::Certificate_Status_Code expected) { const auto path_result = Botan::x509_path_validate(cert_path, restrictions, trusted, "", Botan::Usage_Type::UNSPECIFIED, valid_time, std::chrono::milliseconds(0), {ocsp}); return result.confirm(std::string("Status: '") + Botan::to_string(expected) + "' should match '" + Botan::to_string(path_result.result()) + "'", path_result.result()==expected); }; check_path(Botan::calendar_point(2016, 11, 11, 12, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OCSP_NOT_YET_VALID); check_path(Botan::calendar_point(2016, 11, 18, 12, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OK); check_path(Botan::calendar_point(2016, 11, 20, 8, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OK); check_path(Botan::calendar_point(2016, 11, 28, 8, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OCSP_HAS_EXPIRED); return result; } Test::Result validate_with_ocsp_without_next_update_without_max_age() { Test::Result result("path check with ocsp w/o next_update w/o max_age"); Botan::Certificate_Store_In_Memory trusted; auto restrictions = Botan::Path_Validation_Restrictions(false, 110, false); auto ee = load_test_X509_cert("x509/ocsp/patrickschmidt.pem"); auto ca = load_test_X509_cert("x509/ocsp/bdrive_encryption.pem"); auto trust_root = load_test_X509_cert("x509/ocsp/bdrive_root.pem"); trusted.add_certificate(trust_root); const std::vector cert_path = { ee, ca, trust_root }; std::shared_ptr ocsp = load_test_OCSP_resp("x509/ocsp/patrickschmidt_ocsp.der"); auto check_path = [&](const std::chrono::system_clock::time_point valid_time, const Botan::Certificate_Status_Code expected) { const auto path_result = Botan::x509_path_validate(cert_path, restrictions, trusted, "", Botan::Usage_Type::UNSPECIFIED, valid_time, std::chrono::milliseconds(0), {ocsp}); return result.confirm(std::string("Status: '") + Botan::to_string(expected) + "' should match '" + Botan::to_string(path_result.result()) + "'", path_result.result()==expected); }; check_path(Botan::calendar_point(2019, 5, 28, 7, 0, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OCSP_NOT_YET_VALID); check_path(Botan::calendar_point(2019, 5, 28, 7, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OK); check_path(Botan::calendar_point(2019, 5, 28, 8, 0, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OK); return result; } Test::Result validate_with_ocsp_without_next_update_with_max_age() { Test::Result result("path check with ocsp w/o next_update with max_age"); Botan::Certificate_Store_In_Memory trusted; auto restrictions = Botan::Path_Validation_Restrictions(false, 110, false, std::chrono::minutes(59)); auto ee = load_test_X509_cert("x509/ocsp/patrickschmidt.pem"); auto ca = load_test_X509_cert("x509/ocsp/bdrive_encryption.pem"); auto trust_root = load_test_X509_cert("x509/ocsp/bdrive_root.pem"); trusted.add_certificate(trust_root); const std::vector cert_path = { ee, ca, trust_root }; std::shared_ptr ocsp = load_test_OCSP_resp("x509/ocsp/patrickschmidt_ocsp.der"); auto check_path = [&](const std::chrono::system_clock::time_point valid_time, const Botan::Certificate_Status_Code expected) { const auto path_result = Botan::x509_path_validate(cert_path, restrictions, trusted, "", Botan::Usage_Type::UNSPECIFIED, valid_time, std::chrono::milliseconds(0), {ocsp}); return result.confirm(std::string("Status: '") + Botan::to_string(expected) + "' should match '" + Botan::to_string(path_result.result()) + "'", path_result.result()==expected); }; check_path(Botan::calendar_point(2019, 5, 28, 7, 0, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OCSP_NOT_YET_VALID); check_path(Botan::calendar_point(2019, 5, 28, 7, 30, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OK); check_path(Botan::calendar_point(2019, 5, 28, 8, 0, 0).to_std_timepoint(), Botan::Certificate_Status_Code::OCSP_IS_TOO_OLD); return result; } std::vector run() override { return {validate_with_ocsp_with_next_update_without_max_age(), validate_with_ocsp_with_next_update_with_max_age(), validate_with_ocsp_without_next_update_without_max_age(), validate_with_ocsp_without_next_update_with_max_age()}; } }; BOTAN_REGISTER_TEST("x509_path_with_ocsp", Path_Validation_With_OCSP_Tests); #endif #if defined(BOTAN_HAS_XMSS_RFC8391) class XMSS_Path_Validation_Tests final : public Test { public: Test::Result validate_self_signed(const std::string& name, const std::string& file) { Test::Result result(name); Botan::Path_Validation_Restrictions restrictions; auto self_signed = Botan::X509_Certificate(Test::data_dir() + "/x509/xmss/" + file); auto cert_path = std::vector>{ std::make_shared(self_signed)}; auto valid_time = Botan::calendar_point(2019, 10, 8, 4, 45, 0).to_std_timepoint(); auto status = Botan::PKIX::overall_status(Botan::PKIX::check_chain(cert_path, valid_time, "", Botan::Usage_Type::UNSPECIFIED, restrictions.minimum_key_strength(), restrictions.trusted_hashes())); result.test_eq("Cert validation status", Botan::to_string(status), "Verified"); return result; } std::vector run() override { if(Botan::has_filesystem_impl() == false) { return {Test::Result::Note("XMSS path validation", "Skipping due to missing filesystem access")}; } return {validate_self_signed("XMSS path validation with certificate created by ISARA corp", "xmss_isara_root.pem"), validate_self_signed("XMSS path validation with certificate created by BouncyCastle", "xmss_bouncycastle_sha256_10_root.pem")}; } }; BOTAN_REGISTER_TEST("x509_path_xmss", XMSS_Path_Validation_Tests); #endif #endif } }