/* -*- Mode: C; tab-width: 4; indent-tabs-mode: t; c-basic-offset: 4 -*- */ /* * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301 USA. * * Copyright 2014 Red Hat, Inc. */ #ifndef __NM_TEST_UTILS_H__ #define __NM_TEST_UTILS_H__ /******************************************************************************* * HOWTO run tests. * * Our tests (make check) include this header-only file nm-test-utils.h. * * Logging: * In tests, nm-logging redirects to glib logging. By default, glib suppresses all debug * messages unless you set G_MESSAGES_DEBUG. To enable debug logging, you can explicitly set * G_MESSAGES_DEBUG. Otherwise, nm-test will set G_MESSAGES_DEBUG=all in debug mode (see below). * For nm-logging, you can configure the log-level and domains via NMTST_DEBUG environment * variable. * * Assert-logging: * Some tests assert against logged messages (g_test_expect_message()). * By specifying no-expect-message in NMTST_DEBUG, you can disable assert logging * and g_test_assert_expected_messages() will not fail. * * NMTST_SEED_RAND environment variable: * Tests that use random numbers from nmtst_get_rand() get seeded randomly at each start. * You can specify the seed by setting NMTST_SEED_RAND. Also, tests will print the seed * to stdout, so that you know the choosen seed. * * * NMTST_DEBUG environment variable: * * "debug", "no-debug": when at test is run in debug mode, it might behave differently, * depending on the test. See nmtst_is_debug(). * Known differences: * - a test might leave the logging level unspecified. In this case, running in * debug mode, will turn on DEBUG logging, otherwise WARN logging only. * - if G_MESSAGES_DEBUG is unset, nm-test will set G_MESSAGES_DEBUG=all * for tests that don't do assert-logging. * Debug mode is determined as follows (highest priority first): * - command line option --debug/--no-debug * - NMTST_DEBUG=debug/no-debug * - setting NMTST_DEBUG implies debugging turned on * - g_test_verbose() * * "no-expect-message": for tests that would assert against log messages, disable * those asserts. * * "log-level=LEVEL", "log-domains=DOMAIN": reset the log level and domain for tests. * It only has an effect for nm-logging messages. * This has no effect if the test asserts against logging (unless no-expect-message), * otherwise, changing the logging would break tests. * If you set the level to DEBUG or TRACE, it also sets G_MESSAGES_DEBUG=all (unless * in assert-logging mode and unless G_MESSAGES_DEBUG is already defined). * * "TRACE", this is shorthand for "log-level=TRACE". * * "D", this is shorthand for "log-level=TRACE,no-expect-message". * * "sudo-cmd=PATH": when running root tests as normal user, the test will execute * itself by invoking sudo at PATH. * For example * NMTST_DEBUG="sudo-cmd=$PWD/tools/test-sudo-wrapper.sh" make -C src/platform/tests/ check * * "slow|quick|thorough": enable/disable long-running tests. This sets nmtst_test_quick(). * Whether long-running tests are enabled is determined as follows (highest priority first): * - specifying the value in NMTST_DEBUG has highest priority * - respect g_test_quick(), if the command line contains '-mslow', '-mquick', '-mthorough'. * - use compile time default * * "p=PATH"|"s=PATH": passes the path to g_test_init() as "-p" and "-s", respectively. * Unfortunately, these options conflict with "--tap" which our makefile passes to the * tests, thus it's only useful outside of `make check`. * *******************************************************************************/ #include "nm-default.h" #include #include #include #include #include #include #include "nm-utils.h" #ifdef __NETWORKMANAGER_LOGGING_H__ /* We are running tests under src/. Let's include some files by default. * They are useful, and affect how nm-test-utils.h itself behaves. */ #include "NetworkManagerUtils.h" #include "nm-keyfile-internal.h" #endif /*******************************************************************************/ /* general purpose functions that have no dependency on other nmtst functions */ #define nmtst_assert_error(error, expect_error_domain, expect_error_code, expect_error_pattern) \ G_STMT_START { \ GError *_error = (error); \ GQuark _expect_error_domain = (expect_error_domain); \ const char *_expect_error_pattern = (expect_error_pattern); \ \ if (_expect_error_domain) \ g_assert_error (_error, _expect_error_domain, (expect_error_code)); \ else \ g_assert (_error); \ g_assert (_error->message); \ if ( _expect_error_pattern \ && !g_pattern_match_simple (_expect_error_pattern, _error->message)) { \ g_error ("%s:%d: error message does not have expected pattern '%s'. Instead it is '%s' (%s, %d)", \ __FILE__, __LINE__, \ _expect_error_pattern, _error->message, g_quark_to_string (_error->domain), _error->code); \ } \ } G_STMT_END #define NMTST_WAIT(max_wait_ms, wait) \ ({ \ gboolean _not_expired = TRUE; \ gint64 _nmtst_end, _nmtst_max_wait_us = (max_wait_ms) * 1000L; \ \ _nmtst_end = g_get_monotonic_time () + _nmtst_max_wait_us; \ while (TRUE) { \ { wait }; \ if (g_get_monotonic_time () > _nmtst_end) { \ _not_expired = FALSE; \ break; \ } \ } \ _not_expired; \ }) #define NMTST_WAIT_ASSERT(max_wait_ms, wait) \ G_STMT_START { \ if (!(NMTST_WAIT (max_wait_ms, wait))) \ g_assert_not_reached (); \ } G_STMT_END inline static void _nmtst_assert_success (gboolean success, GError *error, const char *file, int line) { if (!success || error) g_error ("(%s:%d) FAILURE success=%d, error=%s", file, line, success, error ? error->message : "(no error)"); } #define nmtst_assert_success(success, error) _nmtst_assert_success ((success), (error), __FILE__, __LINE__) #define nmtst_assert_no_success(success, error) \ G_STMT_START { \ g_assert (error); \ g_assert (!(success)); \ } G_STMT_END /*******************************************************************************/ struct __nmtst_internal { GRand *rand0; guint32 rand_seed; GRand *rand; gboolean is_debug; gboolean assert_logging; gboolean no_expect_message; gboolean test_quick; gboolean test_tap_log; char *sudo_cmd; char **orig_argv; }; extern struct __nmtst_internal __nmtst_internal; #define NMTST_DEFINE() \ struct __nmtst_internal __nmtst_internal = { 0 }; \ \ __attribute__ ((destructor)) static void \ _nmtst_exit (void) \ { \ __nmtst_internal.assert_logging = FALSE; \ g_test_assert_expected_messages (); \ nmtst_free (); \ } inline static gboolean nmtst_initialized (void) { return !!__nmtst_internal.rand0; } #define __NMTST_LOG(cmd, ...) \ G_STMT_START { \ g_assert (nmtst_initialized ()); \ if (!__nmtst_internal.assert_logging || __nmtst_internal.no_expect_message) { \ cmd (__VA_ARGS__); \ } else { \ printf (_NM_UTILS_MACRO_FIRST (__VA_ARGS__) "\n" _NM_UTILS_MACRO_REST (__VA_ARGS__)); \ } \ } G_STMT_END /* split the string inplace at specific delimiters, allowing escaping with '\\'. * Returns a zero terminated array of pointers into @str. * * The caller must g_free() the returned argv array. **/ inline static char ** nmtst_str_split (char *str, const char *delimiters) { const char *d; GArray *result = g_array_sized_new (TRUE, FALSE, sizeof (char *), 3); g_assert (str); g_assert (delimiters && !strchr (delimiters, '\\')); while (*str) { gsize i = 0, j = 0; while (TRUE) { char c = str[i]; if (c == '\0') { str[j++] = 0; break; } else if (c == '\\') { str[j++] = str[++i]; if (!str[i]) break; } else { for (d = delimiters; *d; d++) { if (c == *d) { str[j++] = 0; i++; goto BREAK_INNER_LOOPS; } } str[j++] = c; } i++; } BREAK_INNER_LOOPS: g_array_append_val (result, str); str = &str[i]; } return (char **) g_array_free (result, FALSE); } /* free instances allocated by nmtst (especially nmtst_init()) on shutdown * to release memory. After nmtst_free(), the test is uninitialized again. */ inline static void nmtst_free (void) { if (!nmtst_initialized ()) return; g_rand_free (__nmtst_internal.rand0); if (__nmtst_internal.rand) g_rand_free (__nmtst_internal.rand); g_free (__nmtst_internal.sudo_cmd); g_strfreev (__nmtst_internal.orig_argv); memset (&__nmtst_internal, 0, sizeof (__nmtst_internal)); } inline static void __nmtst_init (int *argc, char ***argv, gboolean assert_logging, const char *log_level, const char *log_domains, gboolean *out_set_logging) { const char *nmtst_debug; gboolean is_debug = FALSE; char *c_log_level = NULL, *c_log_domains = NULL; char *sudo_cmd = NULL; GArray *debug_messages = g_array_new (TRUE, FALSE, sizeof (char *)); int i; gboolean no_expect_message = FALSE; gboolean _out_set_logging; gboolean test_quick = FALSE; gboolean test_quick_set = FALSE; gboolean test_quick_argv = FALSE; gs_unref_ptrarray GPtrArray *p_tests = NULL; gs_unref_ptrarray GPtrArray *s_tests = NULL; if (!out_set_logging) out_set_logging = &_out_set_logging; *out_set_logging = FALSE; g_assert (!nmtst_initialized ()); g_assert (!((!!argc) ^ (!!argv))); g_assert (!argc || (g_strv_length (*argv) == *argc)); g_assert (!assert_logging || (!log_level && !log_domains)); #ifdef __NETWORKMANAGER_UTILS_H__ if (!nm_utils_get_testing_initialized ()) _nm_utils_set_testing (_NM_UTILS_TEST_GENERAL); #endif if (argc) __nmtst_internal.orig_argv = g_strdupv (*argv); __nmtst_internal.assert_logging = !!assert_logging; nm_g_type_init (); is_debug = g_test_verbose (); nmtst_debug = g_getenv ("NMTST_DEBUG"); if (nmtst_debug) { char **d_argv, **i_argv, *nmtst_debug_copy; /* By setting then NMTST_DEBUG variable, @is_debug is set automatically. * This can be reverted with no-debug (on command line or environment variable). */ is_debug = TRUE; nmtst_debug_copy = g_strdup (nmtst_debug); d_argv = nmtst_str_split (nmtst_debug_copy, ",; \t\r\n"); for (i_argv = d_argv; *i_argv; i_argv++) { const char *debug = *i_argv; if (!g_ascii_strcasecmp (debug, "debug")) is_debug = TRUE; else if (!g_ascii_strcasecmp (debug, "no-debug")) { /* when specifying the NMTST_DEBUG variable, we set is_debug to true. Use this flag to disable this * (e.g. for only setting the log-level, but not is_debug). */ is_debug = FALSE; } else if (!g_ascii_strncasecmp (debug, "log-level=", strlen ("log-level="))) { g_free (c_log_level); log_level = c_log_level = g_strdup (&debug[strlen ("log-level=")]); } else if (!g_ascii_strcasecmp (debug, "D")) { /* shorthand for "log-level=TRACE,no-expect-message" */ g_free (c_log_level); log_level = c_log_level = g_strdup ("TRACE"); no_expect_message = TRUE; } else if (!g_ascii_strcasecmp (debug, "TRACE")) { g_free (c_log_level); log_level = c_log_level = g_strdup ("TRACE"); } else if (!g_ascii_strncasecmp (debug, "log-domains=", strlen ("log-domains="))) { g_free (c_log_domains); log_domains = c_log_domains = g_strdup (&debug[strlen ("log-domains=")]); } else if (!g_ascii_strncasecmp (debug, "sudo-cmd=", strlen ("sudo-cmd="))) { g_free (sudo_cmd); sudo_cmd = g_strdup (&debug[strlen ("sudo-cmd=")]); } else if (!g_ascii_strcasecmp (debug, "no-expect-message")) { no_expect_message = TRUE; } else if (!g_ascii_strncasecmp (debug, "p=", strlen ("p="))) { if (!p_tests) p_tests = g_ptr_array_new_with_free_func (g_free); g_ptr_array_add (p_tests, g_strdup (&debug[strlen ("p=")])); } else if (!g_ascii_strncasecmp (debug, "s=", strlen ("s="))) { if (!s_tests) s_tests = g_ptr_array_new_with_free_func (g_free); g_ptr_array_add (s_tests, g_strdup (&debug[strlen ("s=")])); } else if (!g_ascii_strcasecmp (debug, "slow") || !g_ascii_strcasecmp (debug, "thorough")) { test_quick = FALSE; test_quick_set = TRUE; } else if (!g_ascii_strcasecmp (debug, "quick")) { test_quick = TRUE; test_quick_set = TRUE; } else { char *msg = g_strdup_printf (">>> nmtst: ignore unrecognized NMTST_DEBUG option \"%s\"", debug); g_array_append_val (debug_messages, msg); } } g_free (d_argv); g_free (nmtst_debug_copy); } if (__nmtst_internal.orig_argv) { char **a = __nmtst_internal.orig_argv; for (; *a; a++) { if (!g_ascii_strcasecmp (*a, "--debug")) is_debug = TRUE; else if (!g_ascii_strcasecmp (*a, "--no-debug")) is_debug = FALSE; else if ( !strcmp (*a, "-m=slow") || !strcmp (*a, "-m=thorough") || !strcmp (*a, "-m=quick") || (!strcmp (*a, "-m") && *(a+1) && ( !strcmp (*(a+1), "quick") || !strcmp (*(a+1), "slow") || !strcmp (*(a+1), "thorough")))) test_quick_argv = TRUE; else if (strcmp (*a, "--tap") == 0) __nmtst_internal.test_tap_log = TRUE; } } if (!argc || g_test_initialized ()) { if (p_tests || s_tests) { char *msg = g_strdup_printf (">>> nmtst: ignore -p and -s options for test which calls g_test_init() itself"); g_array_append_val (debug_messages, msg); } } else { /* g_test_init() is a variadic function, so we cannot pass it * (variadic) arguments. If you need to pass additional parameters, * call nmtst_init() with argc==NULL and call g_test_init() yourself. */ /* g_test_init() sets g_log_set_always_fatal() for G_LOG_LEVEL_WARNING * and G_LOG_LEVEL_CRITICAL. So, beware that the test will fail if you * have any WARN or ERR log messages -- unless you g_test_expect_message(). */ GPtrArray *arg_array = g_ptr_array_new (); gs_free char **arg_array_c = NULL; int arg_array_n, j; static char **s_tests_x, **p_tests_x; if (*argc) { for (i = 0; i < *argc; i++) g_ptr_array_add (arg_array, (*argv)[i]); } else g_ptr_array_add (arg_array, "./test"); if (test_quick_set && !test_quick_argv) g_ptr_array_add (arg_array, "-m=quick"); if (!__nmtst_internal.test_tap_log) { for (i = 0; p_tests && i < p_tests->len; i++) { g_ptr_array_add (arg_array, "-p"); g_ptr_array_add (arg_array, p_tests->pdata[i]); } for (i = 0; s_tests && i < s_tests->len; i++) { g_ptr_array_add (arg_array, "-s"); g_ptr_array_add (arg_array, s_tests->pdata[i]); } } else if (p_tests || s_tests) { char *msg = g_strdup_printf (">>> nmtst: ignore -p and -s options for tap-tests"); g_array_append_val (debug_messages, msg); } g_ptr_array_add (arg_array, NULL); arg_array_n = arg_array->len - 1; arg_array_c = (char **) g_ptr_array_free (arg_array, FALSE); g_test_init (&arg_array_n, &arg_array_c, NULL); if (*argc > 1) { /* collaps argc/argv by removing the arguments detected * by g_test_init(). */ for (i = 1, j = 1; i < *argc; i++) { if ((*argv)[i] == arg_array_c[j]) j++; else (*argv)[i] = NULL; } for (i = 1, j = 1; i < *argc; i++) { if ((*argv)[i]) { (*argv)[j++] = (*argv)[i]; if (i >= j) (*argv)[i] = NULL; } } *argc = j; } /* we must "leak" the test paths because they are not cloned by g_test_init(). */ if (!__nmtst_internal.test_tap_log) { if (p_tests) { p_tests_x = (char **) g_ptr_array_free (p_tests, FALSE); p_tests = NULL; } if (s_tests) { s_tests_x = (char **) g_ptr_array_free (s_tests, FALSE); s_tests = NULL; } } } if (test_quick_set) __nmtst_internal.test_quick = test_quick; else if (test_quick_argv) __nmtst_internal.test_quick = g_test_quick (); else { #ifdef NMTST_TEST_QUICK __nmtst_internal.test_quick = NMTST_TEST_QUICK; #else __nmtst_internal.test_quick = FALSE; #endif } __nmtst_internal.is_debug = is_debug; __nmtst_internal.rand0 = g_rand_new_with_seed (0); __nmtst_internal.sudo_cmd = sudo_cmd; __nmtst_internal.no_expect_message = no_expect_message; if (!log_level && log_domains) { /* if the log level is not specified (but the domain is), we assume * the caller wants to set it depending on is_debug */ log_level = is_debug ? "DEBUG" : "WARN"; } if (!__nmtst_internal.assert_logging) { gboolean success = TRUE; #ifdef __NETWORKMANAGER_LOGGING_H__ success = nm_logging_setup (log_level, log_domains, NULL, NULL); *out_set_logging = TRUE; #endif g_assert (success); #if GLIB_CHECK_VERSION(2,34,0) if (__nmtst_internal.no_expect_message) g_log_set_always_fatal (G_LOG_FATAL_MASK); #else /* g_test_expect_message() is a NOP, so allow any messages */ g_log_set_always_fatal (G_LOG_FATAL_MASK); #endif } else if (__nmtst_internal.no_expect_message) { /* We have a test that would be assert_logging, but the user specified no_expect_message. * This transforms g_test_expect_message() into a NOP, but we also have to relax * g_log_set_always_fatal(), which was set by g_test_init(). */ g_log_set_always_fatal (G_LOG_FATAL_MASK); #ifdef __NETWORKMANAGER_LOGGING_H__ if (c_log_domains || c_log_level) { /* Normally, tests with assert_logging do not overwrite the logging level/domains because * the logging statements are part of the assertions. But if the test is run with * no-expect-message *and* the logging is set explicitly via environment variables, * we still reset the logging. */ gboolean success; success = nm_logging_setup (log_level, log_domains, NULL, NULL); *out_set_logging = TRUE; g_assert (success); } #endif } else { #if GLIB_CHECK_VERSION(2,34,0) /* We were called not to set logging levels. This means, that the user * expects to assert against (all) messages. Any uncought message is fatal. */ g_log_set_always_fatal (G_LOG_LEVEL_MASK); #else /* g_test_expect_message() is a NOP, so allow any messages */ g_log_set_always_fatal (G_LOG_FATAL_MASK); #endif } if ((!__nmtst_internal.assert_logging || (__nmtst_internal.assert_logging && __nmtst_internal.no_expect_message)) && (is_debug || (c_log_level && (!g_ascii_strcasecmp (c_log_level, "DEBUG") || !g_ascii_strcasecmp (c_log_level, "TRACE")))) && !g_getenv ("G_MESSAGES_DEBUG")) { /* if we are @is_debug or @log_level=="DEBUG" and * G_MESSAGES_DEBUG is unset, we set G_MESSAGES_DEBUG=all. * To disable this default behaviour, set G_MESSAGES_DEBUG='' */ /* Note that g_setenv is not thread safe, but you should anyway call * nmtst_init() at the very start. */ g_setenv ("G_MESSAGES_DEBUG", "all", TRUE); } /* Delay messages until we setup logging. */ for (i = 0; i < debug_messages->len; i++) __NMTST_LOG (g_message, "%s", g_array_index (debug_messages, const char *, i)); g_strfreev ((char **) g_array_free (debug_messages, FALSE)); g_free (c_log_level); g_free (c_log_domains); #ifdef __NETWORKMANAGER_UTILS_H__ /* ensure that monotonic timestamp is called (because it initially logs a line) */ nm_utils_get_monotonic_timestamp_s (); #endif #ifdef NM_UTILS_H { gs_free_error GError *error = NULL; if (!nm_utils_init (&error)) g_assert_not_reached (); g_assert_no_error (error); } #endif } #ifdef __NETWORKMANAGER_LOGGING_H__ inline static void nmtst_init_with_logging (int *argc, char ***argv, const char *log_level, const char *log_domains) { __nmtst_init (argc, argv, FALSE, log_level, log_domains, NULL); } inline static void nmtst_init_assert_logging (int *argc, char ***argv, const char *log_level, const char *log_domains) { gboolean set_logging; __nmtst_init (argc, argv, TRUE, NULL, NULL, &set_logging); if (!set_logging) { gboolean success; success = nm_logging_setup (log_level, log_domains, NULL, NULL); g_assert (success); } } #else inline static void nmtst_init (int *argc, char ***argv, gboolean assert_logging) { __nmtst_init (argc, argv, assert_logging, NULL, NULL, NULL); } #endif inline static gboolean nmtst_is_debug (void) { g_assert (nmtst_initialized ()); return __nmtst_internal.is_debug; } inline static gboolean nmtst_test_quick (void) { g_assert (nmtst_initialized ()); return __nmtst_internal.test_quick; } #if GLIB_CHECK_VERSION(2,34,0) #undef g_test_expect_message #define g_test_expect_message(...) \ G_STMT_START { \ g_assert (nmtst_initialized ()); \ if (__nmtst_internal.assert_logging && __nmtst_internal.no_expect_message) { \ g_debug ("nmtst: assert-logging: g_test_expect_message %s", G_STRINGIFY ((__VA_ARGS__))); \ } else { \ G_GNUC_BEGIN_IGNORE_DEPRECATIONS \ g_test_expect_message (__VA_ARGS__); \ G_GNUC_END_IGNORE_DEPRECATIONS \ } \ } G_STMT_END #undef g_test_assert_expected_messages_internal #define g_test_assert_expected_messages_internal(domain, file, line, func) \ G_STMT_START { \ const char *_domain = (domain); \ const char *_file = (file); \ const char *_func = (func); \ int _line = (line); \ \ if (__nmtst_internal.assert_logging && __nmtst_internal.no_expect_message) \ g_debug ("nmtst: assert-logging: g_test_assert_expected_messages(%s, %s:%d, %s)", _domain?:"", _file?:"", _line, _func?:""); \ \ G_GNUC_BEGIN_IGNORE_DEPRECATIONS \ g_test_assert_expected_messages_internal (_domain, _file, _line, _func); \ G_GNUC_END_IGNORE_DEPRECATIONS \ } G_STMT_END #endif /*****************************************************************************/ typedef struct _NmtstTestData NmtstTestData; typedef void (*NmtstTestDataRelease) (const NmtstTestData *test_data); struct _NmtstTestData { const char *testpath; NmtstTestDataRelease fcn_release; gsize n_args; gpointer args[1]; }; inline static void _nmtst_test_data_unpack (const NmtstTestData *test_data, gsize n_args, ...) { gsize i; va_list ap; gpointer *p; g_assert (test_data); g_assert_cmpint (n_args, ==, test_data->n_args); va_start (ap, n_args); for (i = 0; i < n_args; i++) { p = va_arg (ap, gpointer *); g_assert (p); *p = test_data->args[i]; } va_end (ap); } #define nmtst_test_data_unpack(test_data, ...) _nmtst_test_data_unpack(test_data, NM_NARG (__VA_ARGS__), ##__VA_ARGS__) inline static void _nmtst_test_data_free (gpointer data) { NmtstTestData *test_data = data; g_assert (test_data); if (test_data->fcn_release) test_data->fcn_release (test_data); g_free ((gpointer) test_data->testpath); g_free (test_data); } inline static void _nmtst_add_test_func_full (const char *testpath, GTestDataFunc test_func, NmtstTestDataRelease fcn_release, gsize n_args, ...) { gsize i; NmtstTestData *data; va_list ap; data = g_malloc (G_STRUCT_OFFSET (NmtstTestData, args) + sizeof (gpointer) * (n_args + 1)); data->testpath = g_strdup (testpath); data->fcn_release = fcn_release; data->n_args = n_args; va_start (ap, n_args); for (i = 0; i < n_args; i++) data->args[i] = va_arg (ap, gpointer); data->args[i] = NULL; va_end (ap); g_test_add_data_func_full (testpath, data, test_func, _nmtst_test_data_free); } #define nmtst_add_test_func_full(testpath, test_func, fcn_release, ...) _nmtst_add_test_func_full(testpath, test_func, fcn_release, NM_NARG (__VA_ARGS__), ##__VA_ARGS__) #define nmtst_add_test_func(testpath, test_func, ...) nmtst_add_test_func_full(testpath, test_func, NULL, ##__VA_ARGS__) /*****************************************************************************/ inline static GRand * nmtst_get_rand0 (void) { g_assert (nmtst_initialized ()); return __nmtst_internal.rand0; } inline static GRand * nmtst_get_rand (void) { g_assert (nmtst_initialized ()); if (G_UNLIKELY (!__nmtst_internal.rand)) { guint32 seed; const char *str; if ((str = g_getenv ("NMTST_SEED_RAND"))) { gchar *s; gint64 i; i = g_ascii_strtoll (str, &s, 0); g_assert (s[0] == '\0' && i >= 0 && i < G_MAXUINT32); seed = i; __nmtst_internal.rand = g_rand_new_with_seed (seed); } else { __nmtst_internal.rand = g_rand_new (); seed = g_rand_int (__nmtst_internal.rand); g_rand_set_seed (__nmtst_internal.rand, seed); } __nmtst_internal.rand_seed = seed; g_print ("\nnmtst: initialize nmtst_get_rand() with NMTST_SEED_RAND=%u\n", seed); } return __nmtst_internal.rand; } inline static guint32 nmtst_get_rand_int (void) { return g_rand_int (nmtst_get_rand ()); } inline static gpointer nmtst_rand_buf (GRand *rand, gpointer buffer, gsize buffer_length) { guint32 v; guint8 *b = buffer; if (!buffer_length) return buffer; g_assert (buffer); if (!rand) rand = nmtst_get_rand (); for (; buffer_length >= sizeof (guint32); buffer_length -= sizeof (guint32), b += sizeof (guint32)) { v = g_rand_int (rand); memcpy (b, &v, sizeof (guint32)); } if (buffer_length > 0) { v = g_rand_int (rand); do { *(b++) = v & 0xFF; v >>= 8; } while (--buffer_length > 0); } return buffer; } inline static void * nmtst_rand_perm (GRand *rand, void *dst, const void *src, gsize elmt_size, gsize n_elmt) { gsize i, j; char *p_, *pj; char *bu; g_assert (dst); g_assert (elmt_size > 0); g_assert (n_elmt < G_MAXINT32); if (n_elmt == 0) return dst; if (src && dst != src) memcpy (dst, src, elmt_size * n_elmt); if (!rand) rand = nmtst_get_rand (); bu = g_slice_alloc (elmt_size); p_ = dst; for (i = n_elmt; i > 1; i--) { j = g_rand_int_range (rand, 0, i); if (j != 0) { pj = &p_[j * elmt_size]; /* swap */ memcpy (bu, p_, elmt_size); memcpy (p_, pj, elmt_size); memcpy (pj, bu, elmt_size); } p_ += elmt_size; } g_slice_free1 (elmt_size, bu); return dst; } /*****************************************************************************/ inline static gboolean _nmtst_main_loop_run_timeout (gpointer user_data) { GMainLoop **p_loop = user_data; g_assert (p_loop); g_assert (*p_loop); g_main_loop_quit (*p_loop); *p_loop = NULL; return G_SOURCE_REMOVE; } inline static gboolean nmtst_main_loop_run (GMainLoop *loop, int timeout_ms) { GSource *source = NULL; guint id = 0; GMainLoop *loopx = loop; if (timeout_ms > 0) { source = g_timeout_source_new (timeout_ms); g_source_set_callback (source, _nmtst_main_loop_run_timeout, &loopx, NULL); id = g_source_attach (source, g_main_loop_get_context (loop)); g_assert (id); g_source_unref (source); } g_main_loop_run (loop); /* if the timeout was reached, return FALSE. */ return loopx != NULL; } inline static void _nmtst_main_loop_quit_on_notify (GObject *object, GParamSpec *pspec, gpointer user_data) { GMainLoop *loop = user_data; g_assert (G_IS_OBJECT (object)); g_assert (loop); g_main_loop_quit (loop); } #define nmtst_main_loop_quit_on_notify ((GCallback) _nmtst_main_loop_quit_on_notify) /*****************************************************************************/ inline static const char * nmtst_get_sudo_cmd (void) { g_assert (nmtst_initialized ()); return __nmtst_internal.sudo_cmd; } inline static void nmtst_reexec_sudo (void) { char *str; char **argv; int i; int errsv; g_assert (nmtst_initialized ()); g_assert (__nmtst_internal.orig_argv); if (!__nmtst_internal.sudo_cmd) return; str = g_strjoinv (" ", __nmtst_internal.orig_argv); __NMTST_LOG (g_message, ">> exec %s %s", __nmtst_internal.sudo_cmd, str); argv = g_new0 (char *, 1 + g_strv_length (__nmtst_internal.orig_argv) + 1); argv[0] = __nmtst_internal.sudo_cmd; for (i = 0; __nmtst_internal.orig_argv[i]; i++) argv[i+1] = __nmtst_internal.orig_argv[i]; execvp (__nmtst_internal.sudo_cmd, argv); errsv = errno; g_error (">> exec %s failed: %d - %s", __nmtst_internal.sudo_cmd, errsv, strerror (errsv)); } /*****************************************************************************/ inline static gsize nmtst_find_all_indexes (gpointer *elements, gsize n_elements, gpointer *needles, gsize n_needles, gboolean (*equal_fcn) (gpointer element, gpointer needle, gpointer user_data), gpointer user_data, gssize *out_idx) { gsize i, j, k; gsize found = 0; for (i = 0; i < n_needles; i++) { gssize idx = -1; for (j = 0; j < n_elements; j++) { /* no duplicates */ for (k = 0; k < i; k++) { if (out_idx[k] == j) goto next; } if (equal_fcn (elements[j], needles[i], user_data)) { idx = j; break; } next: ; } out_idx[i] = idx; if (idx >= 0) found++; } return found; } /*****************************************************************************/ #define __define_nmtst_static(NUM,SIZE) \ inline static const char * \ nmtst_static_##SIZE##_##NUM (const char *str) \ { \ gsize l; \ static char buf[SIZE]; \ \ if (!str) \ return NULL; \ l = g_strlcpy (buf, str, sizeof (buf)); \ g_assert (l < sizeof (buf)); \ return buf; \ } __define_nmtst_static(01, 1024) __define_nmtst_static(02, 1024) __define_nmtst_static(03, 1024) #undef __define_nmtst_static inline static const char * nmtst_uuid_generate (void) { static char u[37]; gs_free char *m = NULL; m = nm_utils_uuid_generate (); g_assert (m && strlen (m) == sizeof (u) - 1); memcpy (u, m, sizeof (u)); return u; } #define NMTST_SWAP(x,y) \ G_STMT_START { \ char __nmtst_swap_temp[sizeof(x) == sizeof(y) ? (signed) sizeof(x) : -1]; \ memcpy(__nmtst_swap_temp, &y, sizeof(x)); \ memcpy(&y, &x, sizeof(x)); \ memcpy(&x, __nmtst_swap_temp, sizeof(x)); \ } G_STMT_END #define nmtst_assert_str_has_substr(str, substr) \ G_STMT_START { \ const char *__str = (str); \ const char *__substr = (substr); \ \ g_assert (__str); \ g_assert (__substr); \ if (strstr (__str, __substr) == NULL) \ g_error ("%s:%d: Expects \"%s\" but got \"%s\"", __FILE__, __LINE__, __substr, __str); \ } G_STMT_END inline static guint32 nmtst_inet4_from_string (const char *str) { guint32 addr; int success; if (!str) return 0; success = inet_pton (AF_INET, str, &addr); g_assert (success == 1); return addr; } inline static const struct in6_addr * nmtst_inet6_from_string (const char *str) { static struct in6_addr addr; int success; if (!str) addr = in6addr_any; else { success = inet_pton (AF_INET6, str, &addr); g_assert (success == 1); } return &addr; } inline static void _nmtst_assert_ip4_address (const char *file, int line, in_addr_t addr, const char *str_expected) { if (nmtst_inet4_from_string (str_expected) != addr) { char buf[100]; g_error ("%s:%d: Unexpected IPv4 address: expected %s, got %s", file, line, str_expected ? str_expected : "0.0.0.0", inet_ntop (AF_INET, &addr, buf, sizeof (buf))); } } #define nmtst_assert_ip4_address(addr, str_expected) _nmtst_assert_ip4_address (__FILE__, __LINE__, addr, str_expected) inline static void _nmtst_assert_ip6_address (const char *file, int line, const struct in6_addr *addr, const char *str_expected) { struct in6_addr any = in6addr_any; if (!addr) addr = &any; if (memcmp (nmtst_inet6_from_string (str_expected), addr, sizeof (*addr)) != 0) { char buf[100]; g_error ("%s:%d: Unexpected IPv6 address: expected %s, got %s", file, line, str_expected ? str_expected : "::", inet_ntop (AF_INET6, addr, buf, sizeof (buf))); } } #define nmtst_assert_ip6_address(addr, str_expected) _nmtst_assert_ip6_address (__FILE__, __LINE__, addr, str_expected) #define nmtst_spawn_sync(working_directory, standard_out, standard_err, assert_exit_status, ...) \ __nmtst_spawn_sync (working_directory, standard_out, standard_err, assert_exit_status, ##__VA_ARGS__, NULL) inline static gint __nmtst_spawn_sync (const char *working_directory, char **standard_out, char **standard_err, int assert_exit_status, ...) G_GNUC_NULL_TERMINATED; inline static gint __nmtst_spawn_sync (const char *working_directory, char **standard_out, char **standard_err, int assert_exit_status, ...) { gint exit_status = 0; GError *error = NULL; char *arg; va_list va_args; GPtrArray *argv = g_ptr_array_new (); gboolean success; va_start (va_args, assert_exit_status); while ((arg = va_arg (va_args, char *))) g_ptr_array_add (argv, arg); va_end (va_args); g_assert (argv->len >= 1); g_ptr_array_add (argv, NULL); success = g_spawn_sync (working_directory, (char**) argv->pdata, NULL, 0 /*G_SPAWN_DEFAULT*/, NULL, NULL, standard_out, standard_err, &exit_status, &error); if (!success) g_error ("nmtst_spawn_sync(%s): %s", ((char **) argv->pdata)[0], error->message); g_assert (!error); g_assert (!standard_out || *standard_out); g_assert (!standard_err || *standard_err); if (assert_exit_status != -1) { /* exit status is a guint8 on success. Set @assert_exit_status to -1 * not to check for the exit status. */ g_assert (WIFEXITED (exit_status)); g_assert_cmpint (WEXITSTATUS (exit_status), ==, assert_exit_status); } g_ptr_array_free (argv, TRUE); return exit_status; } /*******************************************************************************/ inline static char * nmtst_file_resolve_relative_path (const char *rel, const char *cwd) { gs_free char *cwd_free = NULL; g_assert (rel && *rel); if (g_path_is_absolute (rel)) return g_strdup (rel); if (!cwd) cwd = cwd_free = g_get_current_dir (); return g_build_filename (cwd, rel, NULL); } inline static void _nmtst_assert_resolve_relative_path_equals (const char *f1, const char *f2, const char *file, int line) { gs_free char *p1 = NULL, *p2 = NULL; p1 = nmtst_file_resolve_relative_path (f1, NULL); p2 = nmtst_file_resolve_relative_path (f2, NULL); g_assert (p1 && *p1); /* Fixme: later we might need to coalesce repeated '/', "./", and "../". * For now, it's good enough. */ if (g_strcmp0 (p1, p2) != 0) g_error ("%s:%d : filenames don't match \"%s\" vs. \"%s\" // \"%s\" - \"%s\"", file, line, f1, f2, p1, p2); } #define nmtst_assert_resolve_relative_path_equals(f1, f2) _nmtst_assert_resolve_relative_path_equals (f1, f2, __FILE__, __LINE__); /*******************************************************************************/ #ifdef __NETWORKMANAGER_PLATFORM_H__ inline static NMPlatformIP4Address * nmtst_platform_ip4_address (const char *address, const char *peer_address, guint plen) { static NMPlatformIP4Address addr; g_assert (plen <= 32); memset (&addr, 0, sizeof (addr)); addr.address = nmtst_inet4_from_string (address); if (peer_address) addr.peer_address = nmtst_inet4_from_string (peer_address); else addr.peer_address = addr.address; addr.plen = plen; return &addr; } inline static NMPlatformIP4Address * nmtst_platform_ip4_address_full (const char *address, const char *peer_address, guint plen, int ifindex, NMIPConfigSource source, guint32 timestamp, guint32 lifetime, guint32 preferred, guint32 flags, const char *label) { NMPlatformIP4Address *addr = nmtst_platform_ip4_address (address, peer_address, plen); G_STATIC_ASSERT (IFNAMSIZ == sizeof (addr->label)); g_assert (!label || strlen (label) < IFNAMSIZ); addr->ifindex = ifindex; addr->source = source; addr->timestamp = timestamp; addr->lifetime = lifetime; addr->preferred = preferred; addr->n_ifa_flags = flags; if (label) g_strlcpy (addr->label, label, sizeof (addr->label)); return addr; } inline static NMPlatformIP6Address * nmtst_platform_ip6_address (const char *address, const char *peer_address, guint plen) { static NMPlatformIP6Address addr; g_assert (plen <= 128); memset (&addr, 0, sizeof (addr)); addr.address = *nmtst_inet6_from_string (address); addr.peer_address = *nmtst_inet6_from_string (peer_address); addr.plen = plen; return &addr; } inline static NMPlatformIP6Address * nmtst_platform_ip6_address_full (const char *address, const char *peer_address, guint plen, int ifindex, NMIPConfigSource source, guint32 timestamp, guint32 lifetime, guint32 preferred, guint32 flags) { NMPlatformIP6Address *addr = nmtst_platform_ip6_address (address, peer_address, plen); addr->ifindex = ifindex; addr->source = source; addr->timestamp = timestamp; addr->lifetime = lifetime; addr->preferred = preferred; addr->n_ifa_flags = flags; return addr; } inline static NMPlatformIP4Route * nmtst_platform_ip4_route (const char *network, guint plen, const char *gateway) { static NMPlatformIP4Route route; g_assert (plen <= 32); memset (&route, 0, sizeof (route)); route.network = nmtst_inet4_from_string (network); route.plen = plen; route.gateway = nmtst_inet4_from_string (gateway); return &route; } inline static NMPlatformIP4Route * nmtst_platform_ip4_route_full (const char *network, guint plen, const char *gateway, int ifindex, NMIPConfigSource source, guint metric, guint mss, guint8 scope, const char *pref_src) { NMPlatformIP4Route *route = nmtst_platform_ip4_route (network, plen, gateway); route->ifindex = ifindex; route->source = source; route->metric = metric; route->mss = mss; route->scope_inv = nm_platform_route_scope_inv (scope); route->pref_src = nmtst_inet4_from_string (pref_src); return route; } inline static NMPlatformIP6Route * nmtst_platform_ip6_route (const char *network, guint plen, const char *gateway) { static NMPlatformIP6Route route; nm_assert (plen <= 128); memset (&route, 0, sizeof (route)); route.network = *nmtst_inet6_from_string (network); route.plen = plen; route.gateway = *nmtst_inet6_from_string (gateway); return &route; } inline static NMPlatformIP6Route * nmtst_platform_ip6_route_full (const char *network, guint plen, const char *gateway, int ifindex, NMIPConfigSource source, guint metric, guint mss) { NMPlatformIP6Route *route = nmtst_platform_ip6_route (network, plen, gateway); route->ifindex = ifindex; route->source = source; route->metric = metric; route->mss = mss; return route; } inline static int _nmtst_platform_ip4_routes_equal_sort (gconstpointer a, gconstpointer b, gpointer user_data) { return nm_platform_ip4_route_cmp ((const NMPlatformIP4Route *) a, (const NMPlatformIP4Route *) b); } inline static void nmtst_platform_ip4_routes_equal (const NMPlatformIP4Route *a, const NMPlatformIP4Route *b, gsize len, gboolean ignore_order) { gsize i; gs_free const NMPlatformIP4Route *c_a = NULL, *c_b = NULL; g_assert (a); g_assert (b); if (ignore_order) { a = c_a = g_memdup (a, sizeof (NMPlatformIP4Route) * len); b = c_b = g_memdup (b, sizeof (NMPlatformIP4Route) * len); g_qsort_with_data (c_a, len, sizeof (NMPlatformIP4Route), _nmtst_platform_ip4_routes_equal_sort, NULL); g_qsort_with_data (c_b, len, sizeof (NMPlatformIP4Route), _nmtst_platform_ip4_routes_equal_sort, NULL); } for (i = 0; i < len; i++) { if (nm_platform_ip4_route_cmp (&a[i], &b[i]) != 0) { char buf[sizeof (_nm_utils_to_string_buffer)]; g_error ("Error comparing IPv4 route[%lu]: %s vs %s", (long unsigned) i, nm_platform_ip4_route_to_string (&a[i], NULL, 0), nm_platform_ip4_route_to_string (&b[i], buf, sizeof (buf))); g_assert_not_reached (); } } } inline static int _nmtst_platform_ip6_routes_equal_sort (gconstpointer a, gconstpointer b, gpointer user_data) { return nm_platform_ip6_route_cmp ((const NMPlatformIP6Route *) a, (const NMPlatformIP6Route *) b); } inline static void nmtst_platform_ip6_routes_equal (const NMPlatformIP6Route *a, const NMPlatformIP6Route *b, gsize len, gboolean ignore_order) { gsize i; gs_free const NMPlatformIP6Route *c_a = NULL, *c_b = NULL; g_assert (a); g_assert (b); if (ignore_order) { a = c_a = g_memdup (a, sizeof (NMPlatformIP6Route) * len); b = c_b = g_memdup (b, sizeof (NMPlatformIP6Route) * len); g_qsort_with_data (c_a, len, sizeof (NMPlatformIP6Route), _nmtst_platform_ip6_routes_equal_sort, NULL); g_qsort_with_data (c_b, len, sizeof (NMPlatformIP6Route), _nmtst_platform_ip6_routes_equal_sort, NULL); } for (i = 0; i < len; i++) { if (nm_platform_ip6_route_cmp (&a[i], &b[i]) != 0) { char buf[sizeof (_nm_utils_to_string_buffer)]; g_error ("Error comparing IPv6 route[%lu]: %s vs %s", (long unsigned) i, nm_platform_ip6_route_to_string (&a[i], NULL, 0), nm_platform_ip6_route_to_string (&b[i], buf, sizeof (buf))); g_assert_not_reached (); } } } #endif #ifdef __NETWORKMANAGER_IP4_CONFIG_H__ inline static NMIP4Config * nmtst_ip4_config_clone (NMIP4Config *config) { NMIP4Config *copy = nm_ip4_config_new (-1); g_assert (copy); g_assert (config); nm_ip4_config_replace (copy, config, NULL); return copy; } #endif #ifdef __NETWORKMANAGER_IP6_CONFIG_H__ inline static NMIP6Config * nmtst_ip6_config_clone (NMIP6Config *config) { NMIP6Config *copy = nm_ip6_config_new (-1); g_assert (copy); g_assert (config); nm_ip6_config_replace (copy, config, NULL); return copy; } #endif #ifdef NM_SETTING_IP_CONFIG_H inline static void nmtst_setting_ip_config_add_address (NMSettingIPConfig *s_ip, const char *address, guint prefix) { NMIPAddress *addr; int family; g_assert (s_ip); if (nm_utils_ipaddr_valid (AF_INET, address)) family = AF_INET; else if (nm_utils_ipaddr_valid (AF_INET6, address)) family = AF_INET6; else g_assert_not_reached (); addr = nm_ip_address_new (family, address, prefix, NULL); g_assert (addr); g_assert (nm_setting_ip_config_add_address (s_ip, addr)); nm_ip_address_unref (addr); } inline static void nmtst_setting_ip_config_add_route (NMSettingIPConfig *s_ip, const char *dest, guint prefix, const char *next_hop, gint64 metric) { NMIPRoute *route; int family; g_assert (s_ip); if (nm_utils_ipaddr_valid (AF_INET, dest)) family = AF_INET; else if (nm_utils_ipaddr_valid (AF_INET6, dest)) family = AF_INET6; else g_assert_not_reached (); route = nm_ip_route_new (family, dest, prefix, next_hop, metric, NULL); g_assert (route); g_assert (nm_setting_ip_config_add_route (s_ip, route)); nm_ip_route_unref (route); } #endif /* NM_SETTING_IP_CONFIG_H */ #if (defined(__NM_SIMPLE_CONNECTION_H__) && defined(__NM_SETTING_CONNECTION_H__)) || (defined(NM_CONNECTION_H)) inline static NMConnection * nmtst_clone_connection (NMConnection *connection) { g_assert (NM_IS_CONNECTION (connection)); #if defined(__NM_SIMPLE_CONNECTION_H__) return nm_simple_connection_new_clone (connection); #else return nm_connection_duplicate (connection); #endif } inline static NMConnection * nmtst_create_minimal_connection (const char *id, const char *uuid, const char *type, NMSettingConnection **out_s_con) { NMConnection *con; NMSetting *s_base = NULL; NMSettingConnection *s_con; gs_free char *uuid_free = NULL; g_assert (id); if (uuid) g_assert (nm_utils_is_uuid (uuid)); else uuid = uuid_free = nm_utils_uuid_generate (); if (type) { GType type_g; #if defined(__NM_SIMPLE_CONNECTION_H__) type_g = nm_setting_lookup_type (type); #else type_g = nm_connection_lookup_setting_type (type); #endif g_assert (type_g != G_TYPE_INVALID); s_base = g_object_new (type_g, NULL); g_assert (NM_IS_SETTING (s_base)); } #if defined(__NM_SIMPLE_CONNECTION_H__) con = nm_simple_connection_new (); #else con = nm_connection_new (); #endif s_con = NM_SETTING_CONNECTION (nm_setting_connection_new ()); g_object_set (s_con, NM_SETTING_CONNECTION_ID, id, NM_SETTING_CONNECTION_UUID, uuid, NM_SETTING_CONNECTION_TYPE, type, NULL); nm_connection_add_setting (con, NM_SETTING (s_con)); if (s_base) nm_connection_add_setting (con, s_base); if (out_s_con) *out_s_con = s_con; return con; } inline static gboolean _nmtst_connection_normalize_v (NMConnection *connection, va_list args) { GError *error = NULL; gboolean success; gboolean was_modified = FALSE; GHashTable *parameters = NULL; const char *p_name; g_assert (NM_IS_CONNECTION (connection)); while ((p_name = va_arg (args, const char *))) { if (!parameters) parameters = g_hash_table_new (g_str_hash, g_str_equal); g_hash_table_insert (parameters, (gpointer *) p_name, va_arg (args, gpointer)); } success = nm_connection_normalize (connection, parameters, &was_modified, &error); g_assert_no_error (error); g_assert (success); if (parameters) g_hash_table_destroy (parameters); return was_modified; } inline static gboolean _nmtst_connection_normalize (NMConnection *connection, ...) { gboolean was_modified; va_list args; va_start (args, connection); was_modified = _nmtst_connection_normalize_v (connection, args); va_end (args); return was_modified; } #define nmtst_connection_normalize(connection, ...) \ _nmtst_connection_normalize(connection, ##__VA_ARGS__, NULL) inline static NMConnection * _nmtst_connection_duplicate_and_normalize (NMConnection *connection, ...) { gboolean was_modified; va_list args; connection = nmtst_clone_connection (connection); va_start (args, connection); was_modified = _nmtst_connection_normalize_v (connection, args); va_end (args); return connection; } #define nmtst_connection_duplicate_and_normalize(connection, ...) \ _nmtst_connection_duplicate_and_normalize(connection, ##__VA_ARGS__, NULL) inline static void nmtst_assert_connection_equals (NMConnection *a, gboolean normalize_a, NMConnection *b, gboolean normalize_b) { gboolean compare; gs_unref_object NMConnection *a2 = NULL; gs_unref_object NMConnection *b2 = NULL; GHashTable *out_settings = NULL; g_assert (NM_IS_CONNECTION (a)); g_assert (NM_IS_CONNECTION (b)); if (normalize_a) a = a2 = nmtst_connection_duplicate_and_normalize (a); if (normalize_b) b = b2 = nmtst_connection_duplicate_and_normalize (b); compare = nm_connection_diff (a, b, NM_SETTING_COMPARE_FLAG_EXACT, &out_settings); if (!compare || out_settings) { const char *name, *pname; GHashTable *setting; GHashTableIter iter, iter2; __NMTST_LOG (g_message, ">>> ASSERTION nmtst_assert_connection_equals() fails"); if (out_settings) { g_hash_table_iter_init (&iter, out_settings); while (g_hash_table_iter_next (&iter, (gpointer *) &name, (gpointer *) &setting)) { __NMTST_LOG (g_message, ">>> differences in setting '%s':", name); g_hash_table_iter_init (&iter2, setting); while (g_hash_table_iter_next (&iter2, (gpointer *) &pname, NULL)) __NMTST_LOG (g_message, ">>> differences in setting '%s.%s'", name, pname); } } #ifdef __NM_KEYFILE_INTERNAL_H__ { gs_unref_keyfile GKeyFile *kf_a = NULL, *kf_b = NULL; gs_free char *str_a = NULL, *str_b = NULL; kf_a = nm_keyfile_write (a, NULL, NULL, NULL); kf_b = nm_keyfile_write (b, NULL, NULL, NULL); if (kf_a) str_a = g_key_file_to_data (kf_a, NULL, NULL); if (kf_b) str_b = g_key_file_to_data (kf_b, NULL, NULL); __NMTST_LOG (g_message, ">>> Connection A as kf (*WARNING: keyfile representation might not show the difference*):\n%s", str_a); __NMTST_LOG (g_message, ">>> Connection B as kf (*WARNING: keyfile representation might not show the difference*):\n%s", str_b); } #endif } g_assert (compare); g_assert (!out_settings); compare = nm_connection_compare (a, b, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (compare); } inline static void nmtst_assert_connection_verifies (NMConnection *con) { /* assert that the connection does verify, it might be normaliziable or not */ GError *error = NULL; gboolean success; g_assert (NM_IS_CONNECTION (con)); success = nm_connection_verify (con, &error); g_assert_no_error (error); g_assert (success); } inline static void nmtst_assert_connection_verifies_without_normalization (NMConnection *con) { /* assert that the connection verifies and does not need any normalization */ GError *error = NULL; gboolean success; gboolean was_modified = FALSE; gs_unref_object NMConnection *clone = NULL; clone = nmtst_clone_connection (con); nmtst_assert_connection_verifies (con); success = nm_connection_normalize (clone, NULL, &was_modified, &error); g_assert_no_error (error); g_assert (success); nmtst_assert_connection_equals (con, FALSE, clone, FALSE); g_assert (!was_modified); } inline static void nmtst_assert_connection_verifies_and_normalizable (NMConnection *con) { /* assert that the connection does verify, but normalization still modifies it */ GError *error = NULL; gboolean success; gboolean was_modified = FALSE; gs_unref_object NMConnection *clone = NULL; clone = nmtst_clone_connection (con); nmtst_assert_connection_verifies (con); success = nm_connection_normalize (clone, NULL, &was_modified, &error); g_assert_no_error (error); g_assert (success); g_assert (was_modified); /* again! */ nmtst_assert_connection_verifies_without_normalization (clone); } inline static void nmtst_assert_connection_verifies_after_normalization (NMConnection *con, GQuark expect_error_domain, gint expect_error_code) { /* assert that the connection does not verify, but normalization does fix it */ GError *error = NULL; gboolean success; gboolean was_modified = FALSE; gs_unref_object NMConnection *clone = NULL; clone = nmtst_clone_connection (con); success = nm_connection_verify (con, &error); nmtst_assert_error (error, expect_error_domain, expect_error_code, NULL); g_assert (!success); g_clear_error (&error); success = nm_connection_normalize (clone, NULL, &was_modified, &error); g_assert_no_error (error); g_assert (success); g_assert (was_modified); /* again! */ nmtst_assert_connection_verifies_without_normalization (clone); } inline static void nmtst_assert_connection_unnormalizable (NMConnection *con, GQuark expect_error_domain, gint expect_error_code) { /* assert that the connection does not verify, and it cannot be fixed by normalization */ GError *error = NULL; gboolean success; gboolean was_modified = FALSE; gs_unref_object NMConnection *clone = NULL; clone = nmtst_clone_connection (con); success = nm_connection_verify (con, &error); nmtst_assert_error (error, expect_error_domain, expect_error_code, NULL); g_assert (!success); g_clear_error (&error); success = nm_connection_normalize (clone, NULL, &was_modified, &error); nmtst_assert_error (error, expect_error_domain, expect_error_code, NULL); g_assert (!success); g_assert (!was_modified); nmtst_assert_connection_equals (con, FALSE, clone, FALSE); g_clear_error (&error); } inline static void nmtst_assert_setting_verifies (NMSetting *setting) { /* assert that the setting verifies without an error */ GError *error = NULL; gboolean success; g_assert (NM_IS_SETTING (setting)); success = nm_setting_verify (setting, NULL, &error); g_assert_no_error (error); g_assert (success); } inline static void nmtst_assert_setting_verify_fails (NMSetting *setting, GQuark expect_error_domain, gint expect_error_code) { /* assert that the setting verification fails */ GError *error = NULL; gboolean success; g_assert (NM_IS_SETTING (setting)); success = nm_setting_verify (setting, NULL, &error); nmtst_assert_error (error, expect_error_domain, expect_error_code, NULL); g_assert (!success); g_clear_error (&error); } #endif #ifdef __NM_UTILS_H__ static inline void nmtst_assert_hwaddr_equals (gconstpointer hwaddr1, gssize hwaddr1_len, const char *expected, const char *file, int line) { guint8 buf2[NM_UTILS_HWADDR_LEN_MAX]; gsize hwaddr2_len = 1; const char *p; gboolean success; g_assert (hwaddr1_len > 0 && hwaddr1_len <= NM_UTILS_HWADDR_LEN_MAX); g_assert (expected); for (p = expected; *p; p++) { if (*p == ':' || *p == '-') hwaddr2_len++; } g_assert (hwaddr2_len <= NM_UTILS_HWADDR_LEN_MAX); g_assert (nm_utils_hwaddr_aton (expected, buf2, hwaddr2_len)); /* Manually check the entire hardware address instead of using * nm_utils_hwaddr_matches() because that function doesn't compare * entire InfiniBand addresses for various (legitimate) reasons. */ success = (hwaddr1_len == hwaddr2_len); if (success) success = !memcmp (hwaddr1, buf2, hwaddr1_len); if (!success) { g_error ("assert: %s:%d: hwaddr '%s' (%zd) expected, but got %s (%zd)", file, line, expected, hwaddr2_len, nm_utils_hwaddr_ntoa (hwaddr1, hwaddr1_len), hwaddr1_len); } } #define nmtst_assert_hwaddr_equals(hwaddr1, hwaddr1_len, expected) \ nmtst_assert_hwaddr_equals (hwaddr1, hwaddr1_len, expected, __FILE__, __LINE__) #endif #if defined(__NM_SIMPLE_CONNECTION_H__) && defined(__NM_SETTING_CONNECTION_H__) && defined(__NM_KEYFILE_INTERNAL_H__) inline static NMConnection * nmtst_create_connection_from_keyfile (const char *keyfile_str, const char *keyfile_name, const char *base_dir) { GKeyFile *keyfile; GError *error = NULL; gboolean success; NMConnection *con; g_assert (keyfile_str); keyfile = g_key_file_new (); success = g_key_file_load_from_data (keyfile, keyfile_str, strlen (keyfile_str), G_KEY_FILE_NONE, &error); g_assert_no_error (error); g_assert (success); con = nm_keyfile_read (keyfile, keyfile_name, base_dir, NULL, NULL, &error); g_assert_no_error (error); g_assert (NM_IS_CONNECTION (con)); g_key_file_unref (keyfile); nmtst_connection_normalize (con); return con; } #endif #ifdef __NM_CONNECTION_H__ inline static GVariant * _nmtst_variant_new_vardict (int dummy, ...) { GVariantBuilder builder; va_list ap; const char *name; GVariant *variant; g_variant_builder_init (&builder, G_VARIANT_TYPE_VARDICT); va_start (ap, dummy); while ((name = va_arg (ap, const char *))) { variant = va_arg (ap, GVariant *); g_variant_builder_add (&builder, "{sv}", name, variant); } va_end (ap); return g_variant_builder_end (&builder); } #define nmtst_variant_new_vardict(...) _nmtst_variant_new_vardict (0, __VA_ARGS__, NULL) #define nmtst_assert_variant_is_of_type(variant, type) \ G_STMT_START { \ GVariant *_variantx = (variant); \ \ g_assert (_variantx); \ g_assert (g_variant_is_of_type (_variantx, (type))); \ } G_STMT_END #define nmtst_assert_variant_uint32(variant, val) \ G_STMT_START { \ GVariant *_variant = (variant); \ \ nmtst_assert_variant_is_of_type (_variant, G_VARIANT_TYPE_UINT32); \ g_assert_cmpint (g_variant_get_uint32 (_variant), ==, (val)); \ } G_STMT_END #define nmtst_assert_variant_string(variant, str) \ G_STMT_START { \ gsize _l; \ GVariant *_variant = (variant); \ const char *_str = (str); \ \ nmtst_assert_variant_is_of_type (_variant, G_VARIANT_TYPE_STRING); \ g_assert (_str); \ g_assert_cmpstr (g_variant_get_string (_variant, &_l), ==, _str); \ g_assert_cmpint (_l, ==, strlen (_str)); \ } G_STMT_END typedef enum { NMTST_VARIANT_EDITOR_CONNECTION, NMTST_VARIANT_EDITOR_SETTING, NMTST_VARIANT_EDITOR_PROPERTY } NmtstVariantEditorPhase; #define NMTST_VARIANT_EDITOR(__connection_variant, __code) \ G_STMT_START { \ GVariantIter __connection_iter, *__setting_iter; \ GVariantBuilder __connection_builder, __setting_builder; \ const char *__cur_setting_name, *__cur_property_name; \ GVariant *__property_val; \ NmtstVariantEditorPhase __phase; \ \ g_variant_builder_init (&__connection_builder, NM_VARIANT_TYPE_CONNECTION); \ g_variant_iter_init (&__connection_iter, __connection_variant); \ \ __phase = NMTST_VARIANT_EDITOR_CONNECTION; \ __cur_setting_name = NULL; \ __cur_property_name = NULL; \ __code; \ while (g_variant_iter_next (&__connection_iter, "{&sa{sv}}", &__cur_setting_name, &__setting_iter)) { \ g_variant_builder_init (&__setting_builder, NM_VARIANT_TYPE_SETTING); \ __phase = NMTST_VARIANT_EDITOR_SETTING; \ __cur_property_name = NULL; \ __code; \ \ while ( __cur_setting_name \ && g_variant_iter_next (__setting_iter, "{&sv}", &__cur_property_name, &__property_val)) { \ __phase = NMTST_VARIANT_EDITOR_PROPERTY; \ __code; \ \ if (__cur_property_name) { \ g_variant_builder_add (&__setting_builder, "{sv}", \ __cur_property_name, \ __property_val); \ } \ g_variant_unref (__property_val); \ } \ \ if (__cur_setting_name) \ g_variant_builder_add (&__connection_builder, "{sa{sv}}", __cur_setting_name, &__setting_builder); \ else \ g_variant_builder_clear (&__setting_builder); \ g_variant_iter_free (__setting_iter); \ } \ \ g_variant_unref (__connection_variant); \ \ __connection_variant = g_variant_builder_end (&__connection_builder); \ } G_STMT_END; #define NMTST_VARIANT_ADD_SETTING(__setting_name, __setting_variant) \ G_STMT_START { \ if (__phase == NMTST_VARIANT_EDITOR_CONNECTION) \ g_variant_builder_add (&__connection_builder, "{s@a{sv}}", __setting_name, __setting_variant); \ } G_STMT_END #define NMTST_VARIANT_DROP_SETTING(__setting_name) \ G_STMT_START { \ if (__phase == NMTST_VARIANT_EDITOR_SETTING && __cur_setting_name) { \ if (!strcmp (__cur_setting_name, __setting_name)) \ __cur_setting_name = NULL; \ } \ } G_STMT_END #define NMTST_VARIANT_ADD_PROPERTY(__setting_name, __property_name, __format_string, __value) \ G_STMT_START { \ if (__phase == NMTST_VARIANT_EDITOR_SETTING) { \ if (!strcmp (__cur_setting_name, __setting_name)) { \ g_variant_builder_add (&__setting_builder, "{sv}", __property_name, \ g_variant_new (__format_string, __value)); \ } \ } \ } G_STMT_END #define NMTST_VARIANT_DROP_PROPERTY(__setting_name, __property_name) \ G_STMT_START { \ if (__phase == NMTST_VARIANT_EDITOR_PROPERTY && __cur_property_name) { \ if ( !strcmp (__cur_setting_name, __setting_name) \ && !strcmp (__cur_property_name, __property_name)) \ __cur_property_name = NULL; \ } \ } G_STMT_END #define NMTST_VARIANT_CHANGE_PROPERTY(__setting_name, __property_name, __format_string, __value) \ G_STMT_START { \ NMTST_VARIANT_DROP_PROPERTY (__setting_name, __property_name); \ NMTST_VARIANT_ADD_PROPERTY (__setting_name, __property_name, __format_string, __value); \ } G_STMT_END #endif /* __NM_CONNECTION_H__ */ #endif /* __NM_TEST_UTILS_H__ */