/* * (C) 2015 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include "../cli/cli.h" #include "tests.h" #include #include #include #include #include #include #include #include #include #include #if defined(BOTAN_HAS_HMAC_DRBG) #include #endif #if defined(BOTAN_HAS_SYSTEM_RNG) #include #endif #if defined(BOTAN_HAS_AUTO_SEEDING_RNG) #include #endif namespace { class Test_Runner : public Botan_CLI::Command { public: Test_Runner() : Command("test --threads=0 --run-long-tests --run-online-tests --drbg-seed= --data-dir= --pkcs11-lib= --log-success *suites") {} std::string help_text() const override { std::ostringstream err; const std::string& spec = cmd_spec(); err << "Usage: botan-test" << spec.substr(spec.find_first_of(' '), std::string::npos) << "\n\nAvailable test suites\n" << "----------------\n"; size_t line_len = 0; for(auto&& test : Botan_Tests::Test::registered_tests()) { err << test << " "; line_len += test.size() + 1; if(line_len > 64) { err << "\n"; line_len = 0; } } if(line_len > 0) { err << "\n"; } return err.str(); } void go() override { const size_t threads = get_arg_sz("threads"); const std::string drbg_seed = get_arg("drbg-seed"); const bool log_success = flag_set("log-success"); const bool run_online_tests = flag_set("run-online-tests"); const bool run_long_tests = flag_set("run-long-tests"); const std::string data_dir = get_arg_or("data-dir", "src/tests/data"); const std::string pkcs11_lib = get_arg("pkcs11-lib"); std::vector req = get_arg_list("suites"); if(req.empty()) { /* If nothing was requested on the command line, run everything. First run the "essentials" to smoke test, then everything else in alphabetical order. */ req = {"block", "stream", "hash", "mac", "modes", "aead" "kdf", "pbkdf", "hmac_drbg", "x931_rng", "util"}; std::set all_others = Botan_Tests::Test::registered_tests(); if(pkcs11_lib.empty()) { // do not run pkcs11 tests by default unless pkcs11-lib set for(std::set::iterator iter = all_others.begin(); iter != all_others.end();) { if((*iter).find("pkcs11") != std::string::npos) { iter = all_others.erase(iter); } else { ++iter; } } } for(auto f : req) { all_others.erase(f); } req.insert(req.end(), all_others.begin(), all_others.end()); } else if(req.size() == 1 && req.at(0) == "pkcs11") { req = {"pkcs11-manage", "pkcs11-module", "pkcs11-slot", "pkcs11-session", "pkcs11-object", "pkcs11-rsa", "pkcs11-ecdsa", "pkcs11-ecdh", "pkcs11-rng", "pkcs11-x509"}; } output() << "Testing " << Botan::version_string() << "\n"; output() << "Starting tests"; if(threads > 1) output() << " threads:" << threads; if(!pkcs11_lib.empty()) { output() << " pkcs11 library:" << pkcs11_lib; } std::unique_ptr rng; #if defined(BOTAN_HAS_HMAC_DRBG) && defined(BOTAN_HAS_SHA2_64) std::vector seed = Botan::hex_decode(drbg_seed); if(seed.empty()) { const uint64_t ts = Botan_Tests::Test::timestamp(); seed.resize(8); Botan::store_be(ts, seed.data()); } output() << " rng:HMAC_DRBG with seed '" << Botan::hex_encode(seed) << "'"; // Expand out the seed to 512 bits to make the DRBG happy std::unique_ptr sha512(Botan::HashFunction::create("SHA-512")); sha512->update(seed); seed.resize(sha512->output_length()); sha512->final(seed.data()); std::unique_ptr drbg(new Botan::HMAC_DRBG("SHA-384")); drbg->initialize_with(seed.data(), seed.size()); rng.reset(new Botan::Serialized_RNG(drbg.release())); #else if(drbg_seed != "") throw Botan_Tests::Test_Error("HMAC_DRBG disabled in build, cannot specify DRBG seed"); #if defined(BOTAN_HAS_SYSTEM_RNG) output() << " rng:system"; rng.reset(new Botan::System_RNG); #elif defined(BOTAN_HAS_AUTO_SEEDING_RNG) output() << " rng:autoseeded"; rng.reset(new Botan::Serialized_RNG(new Botan::AutoSeeded_RNG)); #endif #endif output() << "\n"; Botan_Tests::Test::setup_tests(log_success, run_online_tests, run_long_tests, data_dir, pkcs11_lib, rng.get()); const size_t failed = run_tests(req, output(), threads); // Throw so main returns an error if(failed) throw Botan_Tests::Test_Error("Test suite failure"); } private: std::string report_out(const std::vector& results, size_t& tests_failed, size_t& tests_ran) { std::ostringstream out; std::map combined; for(auto&& result : results) { const std::string who = result.who(); auto i = combined.find(who); if(i == combined.end()) { combined.insert(std::make_pair(who, Botan_Tests::Test::Result(who))); i = combined.find(who); } i->second.merge(result); } for(auto&& result : combined) { out << result.second.result_string(verbose()); tests_failed += result.second.tests_failed(); tests_ran += result.second.tests_run(); } return out.str(); } size_t run_tests(const std::vector& tests_to_run, std::ostream& out, size_t threads) { size_t tests_ran = 0, tests_failed = 0; const uint64_t start_time = Botan_Tests::Test::timestamp(); if(threads <= 1) { for(auto&& test_name : tests_to_run) { try { const auto results = Botan_Tests::Test::run_test(test_name, false); out << report_out(results, tests_failed, tests_ran) << std::flush; } catch(std::exception& e) { out << "Test " << test_name << " failed with exception " << e.what() << std::flush; } } } else { /* We're not doing this in a particularly nice way, and variance in time is high so commonly we'll 'run dry' by blocking on the first future. But plain C++11 is missing a lot of tools we'd need (like wait_for_any on a set of futures) and there is no point pulling in an additional dependency just for this. In any case it helps somewhat (50-100% speedup) and provides a proof of concept for parallel testing. */ typedef std::future> FutureResults; std::deque fut_results; for(auto&& test_name : tests_to_run) { auto run_it = [test_name]() -> std::vector { try { return Botan_Tests::Test::run_test(test_name, false); } catch(std::exception& e) { Botan_Tests::Test::Result r(test_name); r.test_failure("Exception thrown", e.what()); return std::vector{r}; } }; fut_results.push_back(std::async(std::launch::async, run_it)); while(fut_results.size() > threads) { out << report_out(fut_results[0].get(), tests_failed, tests_ran) << std::flush; fut_results.pop_front(); } } while(fut_results.size() > 0) { out << report_out(fut_results[0].get(), tests_failed, tests_ran) << std::flush; fut_results.pop_front(); } } const uint64_t total_ns = Botan_Tests::Test::timestamp() - start_time; out << "Tests complete ran " << tests_ran << " tests in " << Botan_Tests::Test::format_time(total_ns) << " "; if(tests_failed > 0) { out << tests_failed << " tests failed"; } else if(tests_ran > 0) { out << "all tests ok"; } out << std::endl; return tests_failed; } }; BOTAN_REGISTER_COMMAND("test", Test_Runner); } int main(int argc, char* argv[]) { std::cerr << Botan::runtime_version_check(BOTAN_VERSION_MAJOR, BOTAN_VERSION_MINOR, BOTAN_VERSION_PATCH); try { std::unique_ptr cmd(Botan_CLI::Command::get_cmd("test")); if(!cmd) { std::cout << "Unable to retrieve testing helper (program bug)\n"; // WTF return 1; } std::vector args(argv + 1, argv + argc); return cmd->run(args); } catch(Botan::Exception& e) { std::cout << "Exiting with library exception " << e.what() << std::endl; } catch(std::exception& e) { std::cout << "Exiting with std exception " << e.what() << std::endl; } catch(...) { std::cout << "Exiting with unknown exception\n"; } }