/* vim:expandtab:shiftwidth=2:tabstop=2:smarttab: * * Data Differential YATL (i.e. libtest) library * * Copyright (C) 2012 Data Differential, http://datadifferential.com/ * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * * The names of its contributors may not be used to endorse or * promote products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include "libtest/yatlcon.h" #include #if defined(HAVE_LIBMEMCACHED_1_0_TYPES_RETURN_H) && HAVE_LIBMEMCACHED_1_0_TYPES_RETURN_H # include #endif #if defined(HAVE_LIBGEARMAN_1_0_RETURN_H) && HAVE_LIBGEARMAN_1_0_RETURN_H # include #endif #include #include #if defined(__linux__) # define TRUE_CMD "/bin/true" #else # define TRUE_CMD "/usr/bin/true" #endif using namespace libtest; static std::string testing_service; // Used to track setups where we see if failure is happening static uint32_t fatal_calls= 0; static test_return_t getenv_TEST(void *) { #if 0 for (char **ptr= environ; *ptr; ptr++) { Error << *ptr; } #endif return TEST_SUCCESS; } static test_return_t LIBTOOL_COMMAND_test(void *) { ASSERT_TRUE(getenv("LIBTOOL_COMMAND")); return TEST_SUCCESS; } static test_return_t VALGRIND_COMMAND_test(void *) { ASSERT_TRUE(getenv("VALGRIND_COMMAND")); return TEST_SUCCESS; } static test_return_t VALGRIND_CHECK_TEST(void *) { SKIP_IF(bool(getenv("VALGRIND_COMMAND")) == false); SKIP_IF(bool(getenv("LOG_COMPILER")) == false); if (getenv("LOG_COMPILER") && strstr(getenv("LOG_COMPILER"), "valgrind")) { ASSERT_TRUE(valgrind_is_caller()); } return TEST_SUCCESS; } static test_return_t HELGRIND_COMMAND_test(void *) { ASSERT_TRUE(getenv("HELGRIND_COMMAND")); return TEST_SUCCESS; } static test_return_t GDB_COMMAND_test(void *) { ASSERT_TRUE(getenv("GDB_COMMAND")); return TEST_SUCCESS; } static test_return_t test_success_equals_one_test(void *) { test_skip(HAVE_LIBMEMCACHED, 1); #if defined(HAVE_LIBMEMCACHED_1_0_TYPES_RETURN_H) && HAVE_LIBMEMCACHED_1_0_TYPES_RETURN_H test_zero(MEMCACHED_SUCCESS); #endif return TEST_SUCCESS; } static test_return_t test_success_test(void *) { return TEST_SUCCESS; } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunreachable-code" static test_return_t test_throw_success_TEST(void *) { try { _SUCCESS; } catch (const libtest::__success&) { return TEST_SUCCESS; } catch (...) { return TEST_FAILURE; } return TEST_FAILURE; } #pragma GCC diagnostic pop static test_return_t test_throw_skip_macro_TEST(void *) { try { SKIP_IF(true); } catch (const libtest::__skipped&) { return TEST_SUCCESS; } catch (...) { FAIL("SLIP_IF() failed to throw libtest::_skipped"); } FAIL("SLIP_IF() failed to throw"); return TEST_FAILURE; } static test_return_t test_throw_skip_unless_macro_TEST(void *) { try { SKIP_UNLESS(false); } catch (const libtest::__skipped&) { return TEST_SUCCESS; } catch (...) { FAIL("SLIP_UNLESS() failed to throw libtest::_skipped"); } FAIL("SLIP_UNLESS() failed to throw"); return TEST_FAILURE; } static test_return_t test_throw_skip_TEST(void *) { try { throw libtest::__skipped(LIBYATL_DEFAULT_PARAM, "basic test"); } catch (const libtest::__skipped&) { return TEST_SUCCESS; } catch (...) { FAIL("SLIP_IF() failed to throw libtest::_skipped"); } FAIL("SLIP_IF() failed to throw"); return TEST_FAILURE; } static test_return_t test_throw_fail_TEST(void *) { try { FAIL("test message!"); } catch (const libtest::__failure& e) { std::string compare_message("test message!"); test_zero(compare_message.compare(e.what())); return TEST_SUCCESS; } catch (...) { return TEST_FAILURE; } return TEST_FAILURE; } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstack-protector" #ifdef __clang__ # pragma GCC diagnostic ignored "-Wformat-security" #endif static test_return_t ASSERT_FALSE__TEST(void *) { try { ASSERT_FALSE(true); } catch (const libtest::__failure& e) { ASSERT_STREQ(e.what(), "Assertion '!true'"); return TEST_SUCCESS; } catch (...) { return TEST_FAILURE; } return TEST_FAILURE; } #pragma GCC diagnostic pop static test_return_t ASSERT_NOT_NULL_FAIL_TEST(void *) { const char *valid_ptr= NULL; try { ASSERT_NOT_NULL(valid_ptr); } catch (const libtest::__failure& e) { return TEST_SUCCESS; } catch (...) { return TEST_FAILURE; } return TEST_FAILURE; } static test_return_t ASSERT_NEQ_FAIL_TEST(void *) { try { ASSERT_NEQ(1,1); } catch (const libtest::__failure& e) { ASSERT_STREQ(e.what(), "Assertion '1' == '1'"); return TEST_SUCCESS; } catch (...) { return TEST_FAILURE; } return TEST_FAILURE; } static test_return_t ASSERT_NEQ_TEST(void *) { ASSERT_NEQ(1,0); return TEST_SUCCESS; } static test_return_t ASSERT_FALSE_TEST(void *) { try { FAIL(__func__); } catch (const libtest::__failure& e) { ASSERT_STREQ(e.what(), __func__); return TEST_SUCCESS; } catch (...) { return TEST_FAILURE; } return TEST_FAILURE; } static test_return_t test_failure_test(void *) { try { ASSERT_EQ(1, 2); } catch (...) { return TEST_SUCCESS; } return TEST_FAILURE; } static test_return_t local_test(void *) { if (getenv("LIBTEST_LOCAL")) { ASSERT_TRUE(test_is_local()); } else { test_false(test_is_local()); } return TEST_SUCCESS; } static test_return_t local_not_test(void *) { return TEST_SKIPPED; #if 0 std::string temp; const char *ptr; if ((ptr= getenv("LIBTEST_LOCAL")) == NULL) { temp.append(ptr); } // unsetenv() will cause issues with valgrind _compare(__FILE__, __LINE__, __func__, 0, unsetenv("LIBTEST_LOCAL"), true); ASSERT_EQ(0, unsetenv("LIBTEST_LOCAL")); test_false(test_is_local()); ASSERT_EQ(0, setenv("LIBTEST_LOCAL", "1", 1)); ASSERT_TRUE(test_is_local()); if (temp.empty()) { ASSERT_EQ(0, unsetenv("LIBTEST_LOCAL")); } else { char *old_string= strdup(temp.c_str()); ASSERT_EQ(0, setenv("LIBTEST_LOCAL", old_string, 1)); } return TEST_SUCCESS; #endif } static test_return_t var_exists_test(void *) { ASSERT_EQ(0, access("var", R_OK | W_OK | X_OK)); return TEST_SUCCESS; } static test_return_t var_tmp_exists_test(void *) { ASSERT_EQ(0, access("var/tmp", R_OK | W_OK | X_OK)); return TEST_SUCCESS; } static test_return_t var_run_exists_test(void *) { ASSERT_EQ(0, access("var/run", R_OK | W_OK | X_OK)); return TEST_SUCCESS; } static test_return_t var_log_exists_test(void *) { ASSERT_EQ(0, access("var/log", R_OK | W_OK | X_OK)); return TEST_SUCCESS; } static test_return_t var_drizzle_exists_test(void *) { ASSERT_EQ(0, access("var/drizzle", R_OK | W_OK | X_OK)); return TEST_SUCCESS; } static test_return_t var_tmp_test(void *) { FILE *file= fopen("var/tmp/junk", "w+"); ASSERT_TRUE(file); fclose(file); return TEST_SUCCESS; } static test_return_t var_run_test(void *) { FILE *file= fopen("var/run/junk", "w+"); ASSERT_TRUE(file); fclose(file); return TEST_SUCCESS; } static test_return_t var_log_test(void *) { FILE *file= fopen("var/log/junk", "w+"); ASSERT_TRUE(file); fclose(file); return TEST_SUCCESS; } static test_return_t var_drizzle_test(void *) { FILE *file= fopen("var/drizzle/junk", "w+"); ASSERT_TRUE(file); fclose(file); return TEST_SUCCESS; } static test_return_t var_tmp_rm_test(void *) { ASSERT_TRUE(unlink("var/tmp/junk") == 0); return TEST_SUCCESS; } static test_return_t var_run_rm_test(void *) { ASSERT_TRUE(unlink("var/run/junk") == 0); return TEST_SUCCESS; } static test_return_t var_log_rm_test(void *) { ASSERT_TRUE(unlink("var/log/junk") == 0); return TEST_SUCCESS; } static test_return_t var_drizzle_rm_test(void *) { ASSERT_TRUE(unlink("var/drizzle/junk") == 0); return TEST_SUCCESS; } static test_return_t _compare_test_return_t_test(void *) { ASSERT_EQ(TEST_SUCCESS, TEST_SUCCESS); return TEST_SUCCESS; } static test_return_t _compare_memcached_return_t_test(void *) { test_skip(HAVE_LIBMEMCACHED, true); #if defined(HAVE_LIBMEMCACHED_1_0_TYPES_RETURN_H) && HAVE_LIBMEMCACHED_1_0_TYPES_RETURN_H ASSERT_EQ(MEMCACHED_SUCCESS, MEMCACHED_SUCCESS); #endif return TEST_SUCCESS; } static test_return_t _compare_gearman_return_t_test(void *) { test_skip(HAVE_LIBGEARMAN, true); #if defined(HAVE_LIBGEARMAN_1_0_RETURN_H) && HAVE_LIBGEARMAN_1_0_RETURN_H ASSERT_EQ(GEARMAN_SUCCESS, GEARMAN_SUCCESS); #endif return TEST_SUCCESS; } static test_return_t drizzled_cycle_test(void *object) { server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers and servers->validate()); #if defined(HAVE_GEARMAND_BINARY) && HAVE_GEARMAND_BINARY ASSERT_TRUE(has_drizzled()); #endif test_skip(true, has_drizzled()); test_skip(true, server_startup(*servers, "drizzled", get_free_port(), NULL)); return TEST_SUCCESS; } static test_return_t gearmand_cycle_test(void *object) { server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers and servers->validate()); test_skip(true, has_gearmand()); test_skip(true, server_startup(*servers, "gearmand", get_free_port(), NULL)); servers->clear(); return TEST_SUCCESS; } static test_return_t skip_shim(bool a, bool b) { test_skip(a, b); return TEST_SUCCESS; } static test_return_t test_skip_true_TEST(void*) { ASSERT_EQ(true, true); ASSERT_EQ(false, false); ASSERT_EQ(TEST_SUCCESS, skip_shim(true, true)); ASSERT_EQ(TEST_SUCCESS, skip_shim(false, false)); return TEST_SUCCESS; } static test_return_t test_skip_false_TEST(void*) { ASSERT_EQ(TEST_SKIPPED, skip_shim(true, false)); ASSERT_EQ(TEST_SKIPPED, skip_shim(false, true)); return TEST_SUCCESS; } static test_return_t server_startup_fail_TEST(void *object) { server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers); fatal::disable(); ASSERT_EQ(servers->start_server(testing_service, LIBTEST_FAIL_PORT, NULL), true); fatal::enable(); return TEST_SUCCESS; } static test_return_t server_startup_TEST(void *object) { server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers); ASSERT_EQ(servers->start_server(testing_service, get_free_port(), NULL), true); ASSERT_TRUE(servers->last()); pid_t last_pid= servers->last()->pid(); ASSERT_EQ(servers->last()->pid(), last_pid); ASSERT_TRUE(last_pid > 1); ASSERT_EQ(kill(last_pid, 0), 0); ASSERT_TRUE(servers->shutdown()); #if 0 ASSERT_EQ(servers->last()->pid(), -1); ASSERT_EQ(kill(last_pid, 0), -1); #endif return TEST_SUCCESS; } static test_return_t socket_server_startup_TEST(void *object) { server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers); ASSERT_TRUE(servers->start_socket_server(testing_service, get_free_port(), NULL)); return TEST_SUCCESS; } #if 0 static test_return_t memcached_sasl_test(void *object) { server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers); test_skip(false, bool(getenv("LOG_COMPILER"))); if (MEMCACHED_SASL_BINARY) { if (HAVE_LIBMEMCACHED) { ASSERT_TRUE(has_memcached_sasl()); ASSERT_TRUE(server_startup(*servers, "memcached-sasl", get_free_port(), NULL)); return TEST_SUCCESS; } } return TEST_SKIPPED; } #endif static test_return_t application_true_BINARY(void *) { test_skip(0, access(TRUE_CMD, X_OK )); Application true_app(TRUE_CMD); ASSERT_EQ(Application::SUCCESS, true_app.run()); ASSERT_EQ(Application::SUCCESS, true_app.join()); return TEST_SUCCESS; } static test_return_t application_gdb_true_BINARY2(void *) { test_skip(0, access("/usr/bin/gdb", X_OK )); test_skip(0, access(TRUE_CMD, X_OK )); Application true_app(TRUE_CMD); true_app.use_gdb(true); ASSERT_EQ(Application::SUCCESS, true_app.run()); ASSERT_EQ(Application::SUCCESS, true_app.join()); return TEST_SUCCESS; } static test_return_t application_gdb_true_BINARY(void *) { test_skip(0, access("/usr/bin/gdb", X_OK )); test_skip(0, access(TRUE_CMD, X_OK )); Application true_app(TRUE_CMD); true_app.use_gdb(true); const char *args[]= { "--fubar", 0 }; ASSERT_EQ(Application::SUCCESS, true_app.run(args)); ASSERT_EQ(Application::SUCCESS, true_app.join()); return TEST_SUCCESS; } static test_return_t application_true_fubar_BINARY(void *) { test_skip(0, access(TRUE_CMD, X_OK )); Application true_app(TRUE_CMD); const char *args[]= { "--fubar", 0 }; ASSERT_EQ(Application::SUCCESS, true_app.run(args)); ASSERT_EQ(Application::SUCCESS, true_app.join()); test_zero(true_app.stdout_result().size()); return TEST_SUCCESS; } static test_return_t application_doesnotexist_BINARY(void *) { test_skip_valgrind(); Application true_app("doesnotexist"); true_app.will_fail(); const char *args[]= { "--fubar", 0 }; #if ((defined(__APPLE__) && __APPLE__) || (defined(__FreeBSD__) && __FreeBSD__)) ASSERT_EQ(Application::INVALID_POSIX_SPAWN, true_app.run(args)); #else /* true_app.run(args) returns INVALID_POSIX_SPAWN here on Ubuntu 18.04, but it returns SUCCESS on older Linux distributions such as Ubuntu 14.04 and 16.04, where one needs to follow up with true_app.join() to get INVALID_POSIX_SPAWN. */ Application::error_t return_value = true_app.run(args); if (return_value == Application::INVALID_POSIX_SPAWN) { ASSERT_EQ(Application::INVALID_POSIX_SPAWN, return_value); } else { ASSERT_EQ(Application::SUCCESS, return_value); ASSERT_EQ(Application::INVALID_POSIX_SPAWN, true_app.join()); } #endif test_zero(true_app.stdout_result().size()); return TEST_SUCCESS; } static test_return_t GET_TEST(void *) { libtest::http::GET get("http://foo.example.com/"); ASSERT_EQ(false, get.execute()); return TEST_SUCCESS; } static test_return_t POST_TEST(void *) { libtest::vchar_t body; libtest::http::POST post("http://foo.example.com/", body); ASSERT_EQ(false, post.execute()); return TEST_SUCCESS; } static test_return_t TRACE_TEST(void *) { libtest::vchar_t body; libtest::http::TRACE trace("http://foo.example.com/", body); ASSERT_EQ(false, trace.execute()); return TEST_SUCCESS; } static test_return_t vchar_t_TEST(void *) { libtest::vchar_t response; libtest::make_vector(response, test_literal_param("fubar\n")); ASSERT_EQ(response, response); return TEST_SUCCESS; } static test_return_t vchar_t_make_append_TEST(void *) { libtest::vchar_t hostname; libtest::vchar::make(hostname, 23); libtest::vchar::append(hostname, ".com"); ASSERT_EQ(28, hostname.size()); ASSERT_EQ(0, hostname[27]); return TEST_SUCCESS; } static test_return_t vchar_t_compare_neg_TEST(void *) { libtest::vchar_t response; libtest::vchar_t response2; libtest::make_vector(response, test_literal_param("fubar\n")); libtest::make_vector(response2, test_literal_param(__func__)); ASSERT_TRUE(response != response2); return TEST_SUCCESS; } static test_return_t application_echo_fubar_BINARY(void *) { if (0) { test_skip(0, access("/bin/echo", X_OK )); Application true_app("/bin/echo"); const char *args[]= { "fubar", 0 }; ASSERT_EQ(Application::SUCCESS, true_app.run(args)); while (true_app.slurp() == false) {} ; libtest::vchar_t response; make_vector(response, test_literal_param("fubar\n")); ASSERT_EQ(response, true_app.stdout_result()); } return TEST_SUCCESS; } static test_return_t application_echo_fubar_BINARY2(void *) { if (0) { test_skip(0, access("/bin/echo", X_OK )); Application true_app("/bin/echo"); true_app.add_option("fubar"); ASSERT_EQ(Application::SUCCESS, true_app.run()); ASSERT_EQ(Application::SUCCESS, true_app.join()); libtest::vchar_t response; make_vector(response, test_literal_param("fubar\n")); ASSERT_EQ(response, true_app.stdout_result()); } return TEST_SUCCESS; } static test_return_t echo_fubar_BINARY(void *) { const char *args[]= { "fubar", 0 }; ASSERT_EQ(EXIT_SUCCESS, exec_cmdline("/bin/echo", args)); return TEST_SUCCESS; } static test_return_t core_count_BINARY(void *) { const char *args[]= { 0 }; ASSERT_EQ(EXIT_SUCCESS, exec_cmdline("libtest/core-count", args, true)); return TEST_SUCCESS; } static test_return_t wait_BINARY(void *) { const char *args[]= { "--quiet", 0 }; ASSERT_EQ(EXIT_FAILURE, exec_cmdline("libtest/wait", args, true)); return TEST_SUCCESS; } static test_return_t wait_help_BINARY(void *) { const char *args[]= { "--quiet", "--help", 0 }; ASSERT_EQ(EXIT_SUCCESS, exec_cmdline("libtest/wait", args, true)); return TEST_SUCCESS; } static test_return_t wait_version_BINARY(void *) { const char *args[]= { "--quiet", "--version", 0 }; ASSERT_EQ(EXIT_SUCCESS, exec_cmdline("libtest/wait", args, true)); return TEST_SUCCESS; } static test_return_t wait_services_BINARY(void *) { test_skip(0, access("/etc/services", R_OK )); const char *args[]= { "--quiet", "/etc/services", 0 }; ASSERT_EQ(EXIT_SUCCESS, exec_cmdline("libtest/wait", args, true)); return TEST_SUCCESS; } static test_return_t wait_services_BINARY2(void *) { test_skip(0, access("/etc/services", R_OK )); const char *args[]= { "/etc/services", 0 }; ASSERT_EQ(EXIT_SUCCESS, exec_cmdline("libtest/wait", args, true)); return TEST_SUCCESS; } static test_return_t wait_services_appliction_TEST(void *) { test_skip(0, access("/etc/services", R_OK )); test_skip(0, access("/usr/bin/gdb", X_OK )); test_skip(0, access("libtest/wait", X_OK )); libtest::Application wait_app("libtest/wait", true); wait_app.use_gdb(true); const char *args[]= { "/etc/services", 0 }; ASSERT_EQ(Application::SUCCESS, wait_app.run(args)); ASSERT_EQ(Application::SUCCESS, wait_app.join()); return TEST_SUCCESS; } static test_return_t gdb_wait_services_appliction_TEST(void *) { test_skip(true, false); #if defined(__APPLE__) && __APPLE__ test_skip(0, __APPLE__); #endif test_skip(0, access("/etc/services", R_OK )); test_skip(0, access("/usr/bin/gdb", X_OK )); test_skip(0, access("libtest/wait", X_OK )); libtest::Application wait_app("libtest/wait", true); wait_app.use_gdb(true); const char *args[]= { "/etc/services", 0 }; ASSERT_EQ(Application::SUCCESS, wait_app.run(args)); ASSERT_EQ(Application::SUCCESS, wait_app.join()); return TEST_SUCCESS; } static test_return_t gdb_abort_services_appliction_TEST(void *) { test_skip(0, access("/usr/bin/gdb", X_OK )); test_skip(0, access("libtest/abort", X_OK )); test_skip(true, false); #if defined(__APPLE__) && __APPLE__ test_skip(0, __APPLE__); #endif libtest::Application abort_app("libtest/abort", true); abort_app.use_gdb(true); ASSERT_EQ(Application::SUCCESS, abort_app.run()); ASSERT_EQ(Application::SUCCESS, abort_app.join()); std::string gdb_filename= abort_app.gdb_filename(); test_skip(0, access(gdb_filename.c_str(), R_OK )); const char *args[]= { "SIGABRT", gdb_filename.c_str(), 0 }; ASSERT_EQ(EXIT_SUCCESS, exec_cmdline("grep", args)); // Sanity test args[0]= "THIS_WILL_NOT_BE_FOUND"; ASSERT_EQ(EXIT_FAILURE, exec_cmdline("grep", args)); return TEST_SUCCESS; } static test_return_t get_free_port_TEST(void *) { in_port_t ret_port; ASSERT_TRUE((ret_port= get_free_port())); ASSERT_TRUE(get_free_port() != default_port()); ASSERT_TRUE(get_free_port() != get_free_port()); return TEST_SUCCESS; } static test_return_t fatal_TEST(void *) { ASSERT_EQ(fatal_calls++, fatal::disabled_counter()); throw libtest::fatal(LIBYATL_DEFAULT_PARAM, "Testing va_args based fatal(): %d", 10); } static test_return_t number_of_cpus_TEST(void *) { ASSERT_TRUE(number_of_cpus() >= 1); return TEST_SUCCESS; } static test_return_t check_dns_TEST(void *) { test_warn(libtest::check_dns(), "Broken DNS server/no DNS server found"); return TEST_SUCCESS; } static test_return_t Timer_TEST(void *) { int64_t minutes= random() % 50; minutes++; Timer check; check.reset(); check.offset(minutes, 2, 200); ASSERT_EQ(check.minutes(), minutes); return TEST_SUCCESS; } static test_return_t lookup_true_TEST(void *) { test_warn(libtest::lookup("exist.gearman.info"), "dns is not currently working"); return TEST_SUCCESS; } static test_return_t lookup_false_TEST(void *) { SKIP_IF_(libtest::lookup("does_not_exist.gearman.info"), "Broken DNS server detected"); return TEST_SUCCESS; } static test_return_t create_tmpfile_TEST(void *) { test_skip(0, access("/usr/bin/touch", X_OK )); std::string tmp= create_tmpfile(__func__); ASSERT_EQ(-1, access(tmp.c_str(), R_OK)); ASSERT_EQ(-1, access(tmp.c_str(), F_OK)); Application touch_app("/usr/bin/touch"); const char *args[]= { tmp.c_str(), 0 }; ASSERT_EQ(Application::SUCCESS, touch_app.run(args)); ASSERT_EQ(Application::SUCCESS, touch_app.join()); ASSERT_EQ(0, access(tmp.c_str(), R_OK)); ASSERT_EQ(0, unlink(tmp.c_str())); return TEST_SUCCESS; } static test_return_t fatal_message_TEST(void *) { ASSERT_EQ(fatal_calls++, fatal::disabled_counter()); FATAL("Fatal test"); return TEST_SUCCESS; } static test_return_t default_port_TEST(void *) { in_port_t ret_port= default_port(); ASSERT_EQ(ret_port, libtest::default_port()); ASSERT_EQ(ret_port, libtest::default_port()); return TEST_SUCCESS; } static test_return_t check_for_VALGRIND(void *) { test_skip_valgrind(); return TEST_SUCCESS; } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunreachable-code" static test_return_t check_for_gearman(void *) { test_skip(true, HAVE_LIBGEARMAN); test_skip(true, has_gearmand()); #if defined(HAVE_GEARMAND_BINARY) && HAVE_GEARMAND_BINARY if (GEARMAND_BINARY) { if (strcmp(GEARMAND_BINARY, "./gearmand/gearmand")) { test_zero(access(GEARMAND_BINARY, X_OK )); } } else { return TEST_SKIPPED; } #endif testing_service= "gearmand"; return TEST_SUCCESS; } #pragma GCC diagnostic pop static test_return_t check_for_drizzle(void *) { #if defined(HAVE_WOLFSSL) && HAVE_WOLFSSL SKIP_IF(HAVE_WOLFSSL); #endif test_skip(true, has_drizzled()); testing_service= "drizzled"; return TEST_SUCCESS; } test_st drizzled_tests[] ={ {"drizzled startup-shutdown", 0, drizzled_cycle_test }, {0, 0, 0} }; test_st gearmand_tests[] ={ #if 0 {"pause", 0, pause_test }, #endif {"gearmand startup-shutdown", 0, gearmand_cycle_test }, {"_compare(gearman_return_t)", 0, _compare_gearman_return_t_test }, {"server_startup(fail)", 0, server_startup_fail_TEST }, {0, 0, 0} }; static test_return_t clear_servers(void* object) { server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers); servers->clear(); testing_service.clear(); return TEST_SUCCESS; } static test_return_t check_for_memcached(void* object) { #if defined(HAVE_WOLFSSL) && HAVE_WOLFSSL SKIP_IF(HAVE_WOLFSSL); #endif test_skip(true, has_memcached()); server_startup_st *servers= (server_startup_st*)object; ASSERT_TRUE(servers); servers->clear(); testing_service= "memcached"; return TEST_SUCCESS; } test_st memcached_TESTS[] ={ {"memcached startup-shutdown", 0, server_startup_TEST }, {"memcached(socket file) startup-shutdown", 0, socket_server_startup_TEST }, {"_compare(memcached_return_t)", 0, _compare_memcached_return_t_test }, {"server_startup(fail)", 0, server_startup_fail_TEST }, {0, 0, 0} }; test_st test_skip_TESTS[] ={ {"true, true", 0, test_skip_true_TEST }, {"true, false", 0, test_skip_false_TEST }, {0, 0, 0} }; test_st environment_tests[] ={ {"getenv()", 0, getenv_TEST }, {"LIBTOOL_COMMAND", 0, LIBTOOL_COMMAND_test }, {"VALGRIND_COMMAND", 0, VALGRIND_COMMAND_test }, {"HELGRIND_COMMAND", 0, HELGRIND_COMMAND_test }, {"GDB_COMMAND", 0, GDB_COMMAND_test }, {"valgrind_is_caller()", 0, VALGRIND_CHECK_TEST }, {0, 0, 0} }; test_st tests_log[] ={ {"TEST_SUCCESS", false, test_success_test }, {"TEST_FAILURE", false, test_failure_test }, {"TEST_SUCCESS == 0", false, test_success_equals_one_test }, {"SUCCESS", false, test_throw_success_TEST }, {"libtest::__skipped", false, test_throw_skip_TEST }, {"SKIP_IF", false, test_throw_skip_macro_TEST }, {"SKIP_UNLESS", false, test_throw_skip_unless_macro_TEST }, {"FAIL", false, test_throw_fail_TEST }, {"ASSERT_FALSE_", false, ASSERT_FALSE__TEST }, {"ASSERT_FALSE", false, ASSERT_FALSE_TEST }, {"ASSERT_NEQ", false, ASSERT_NEQ_TEST }, {"ASSERT_NEQ FAIL", false, ASSERT_NEQ_FAIL_TEST }, {"ASSERT_NOT_NULL FAIL", false, ASSERT_NOT_NULL_FAIL_TEST }, {0, 0, 0} }; test_st local_log[] ={ {"test_is_local()", 0, local_test }, {"test_is_local(NOT)", 0, local_not_test }, {0, 0, 0} }; test_st directories_tests[] ={ {"var exists", 0, var_exists_test }, {"var/tmp exists", 0, var_tmp_exists_test }, {"var/run exists", 0, var_run_exists_test }, {"var/log exists", 0, var_log_exists_test }, {"var/drizzle exists", 0, var_drizzle_exists_test }, {"var/tmp", 0, var_tmp_test }, {"var/run", 0, var_run_test }, {"var/log", 0, var_log_test }, {"var/drizzle", 0, var_drizzle_test }, {"var/tmp rm", 0, var_tmp_rm_test }, {"var/run rm", 0, var_run_rm_test }, {"var/log rm", 0, var_log_rm_test }, {"var/drizzle rm", 0, var_drizzle_rm_test }, {0, 0, 0} }; test_st comparison_tests[] ={ {"_compare(test_return_t)", 0, _compare_test_return_t_test }, {0, 0, 0} }; test_st cmdline_tests[] ={ {"echo fubar", 0, echo_fubar_BINARY }, {"core-count", 0, core_count_BINARY }, {"wait --quiet", 0, wait_BINARY }, {"wait --quiet --help", 0, wait_help_BINARY }, {"wait --quiet --version", 0, wait_version_BINARY }, {"wait --quiet /etc/services", 0, wait_services_BINARY }, {"wait /etc/services", 0, wait_services_BINARY2 }, {"wait /etc/services", 0, wait_services_appliction_TEST }, {"gdb wait /etc/services", 0, gdb_wait_services_appliction_TEST }, {"gdb abort", 0, gdb_abort_services_appliction_TEST }, {0, 0, 0} }; test_st get_free_port_TESTS[] ={ {"get_free_port()", 0, get_free_port_TEST }, {"default_port()", 0, default_port_TEST }, {0, 0, 0} }; test_st fatal_message_TESTS[] ={ {"libtest::fatal", 0, fatal_TEST }, {"fatal_message()", 0, fatal_message_TEST }, {0, 0, 0} }; test_st number_of_cpus_TESTS[] ={ {"libtest::number_of_cpus()", 0, number_of_cpus_TEST }, {0, 0, 0} }; test_st create_tmpfile_TESTS[] ={ {"libtest::create_tmpfile()", 0, create_tmpfile_TEST }, {0, 0, 0} }; test_st timer_TESTS[] ={ {"libtest::Timer", 0, Timer_TEST }, {0, 0, 0} }; test_st dns_TESTS[] ={ {"libtest::lookup(true)", 0, lookup_true_TEST }, {"libtest::lookup(false)", 0, lookup_false_TEST }, {"libtest::check_dns()", 0, check_dns_TEST }, {0, 0, 0} }; test_st application_tests[] ={ {"vchar_t", 0, vchar_t_TEST }, {"vchar_t make() append()", 0, vchar_t_make_append_TEST }, {"vchar_t compare()", 0, vchar_t_compare_neg_TEST }, {"true", 0, application_true_BINARY }, {"gbd true --fubar", 0, application_gdb_true_BINARY }, {"gbd true", 0, application_gdb_true_BINARY2 }, {"true --fubar", 0, application_true_fubar_BINARY }, {"doesnotexist --fubar", 0, application_doesnotexist_BINARY }, {"echo fubar", 0, application_echo_fubar_BINARY }, {"echo fubar (as option)", 0, application_echo_fubar_BINARY2 }, {0, 0, 0} }; static test_return_t check_for_curl(void *) { test_skip_valgrind(); test_skip(true, HAVE_LIBCURL); return TEST_SUCCESS; } static test_return_t disable_fatal_exception(void *) { fatal_calls= 0; fatal::disable(); return TEST_SUCCESS; } static test_return_t enable_fatal_exception(void *) { fatal::enable(); return TEST_SUCCESS; } test_st http_tests[] ={ {"GET", 0, GET_TEST }, {"POST", 0, POST_TEST }, {"TRACE", 0, TRACE_TEST }, {0, 0, 0} }; collection_st collection[] ={ {"environment", 0, 0, environment_tests}, {"return values", 0, 0, tests_log}, {"test_skip()", 0, 0, test_skip_TESTS }, {"local", 0, 0, local_log}, {"directories", 0, 0, directories_tests}, {"comparison", 0, 0, comparison_tests}, {"gearmand", check_for_gearman, clear_servers, gearmand_tests}, {"memcached", check_for_memcached, clear_servers, memcached_TESTS }, {"drizzled", check_for_drizzle, clear_servers, drizzled_tests}, {"cmdline", 0, 0, cmdline_tests}, {"application", 0, 0, application_tests}, {"http", check_for_curl, 0, http_tests}, {"http", check_for_curl, 0, http_tests}, {"get_free_port()", 0, 0, get_free_port_TESTS }, {"fatal", disable_fatal_exception, enable_fatal_exception, fatal_message_TESTS }, {"number_of_cpus()", 0, 0, number_of_cpus_TESTS }, {"create_tmpfile()", 0, 0, create_tmpfile_TESTS }, {"dns", check_for_VALGRIND, 0, dns_TESTS }, {"libtest::Timer", 0, 0, timer_TESTS }, {0, 0, 0, 0} }; static void *world_create(server_startup_st& servers, test_return_t&) { return &servers; } void get_world(libtest::Framework *world) { world->collections(collection); world->create(world_create); }