/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright (C) 2016 Red Hat, Inc. */ #include "nm-default.h" #include "systemd/nm-sd.h" #include "systemd/nm-sd-utils-shared.h" #include "nm-test-utils-core.h" /***************************************************************************** * Stub implementations of libNetworkManagerBase symbols *****************************************************************************/ gboolean nm_utils_get_testing_initialized(void) { return TRUE; } void _nm_utils_set_testing(NMUtilsTestFlags flags) { g_assert_not_reached(); } gint32 nm_utils_get_monotonic_timestamp_sec(void) { return 1; } NMLogDomain _nm_logging_enabled_state[_LOGL_N_REAL]; gboolean _nm_log_enabled_impl(gboolean mt_require_locking, NMLogLevel level, NMLogDomain domain) { return FALSE; } void _nm_log_impl(const char *file, guint line, const char *func, gboolean mt_require_locking, NMLogLevel level, NMLogDomain domain, int error, const char *ifname, const char *con_uuid, const char *fmt, ...) {} gboolean nm_logging_setup(const char *level, const char *domains, char **bad_domains, GError **error) { return TRUE; } const char * nm_strerror_native(int errsv) { return g_strerror(errsv); } /*****************************************************************************/ static void test_dhcp_create(void) { sd_dhcp_client *client4 = NULL; int r; r = sd_dhcp_client_new(&client4, FALSE); g_assert(r == 0); g_assert(client4); if (/* never true */ client4 == (gpointer) &r) { /* we don't want to call this, but ensure that the linker * includes all these symbols. */ sd_dhcp_client_start(client4); } sd_dhcp_client_unref(client4); } /*****************************************************************************/ static void test_lldp_create(void) { sd_lldp *lldp = NULL; int r; r = sd_lldp_new(&lldp); g_assert(r == 0); g_assert(lldp); sd_lldp_unref(lldp); } /*****************************************************************************/ typedef struct { GMainLoop * mainloop; sd_event_source *event_source; } TestSdEventData; static int _test_sd_event_timeout_cb(sd_event_source *s, uint64_t usec, void *userdata) { TestSdEventData *user_data = userdata; g_assert(user_data); g_assert(user_data->mainloop); g_assert(user_data->event_source); user_data->event_source = sd_event_source_unref(user_data->event_source); g_main_loop_quit(user_data->mainloop); return 0; } static void test_sd_event(void) { int repeat; for (repeat = 0; repeat < 2; repeat++) { guint sd_id = 0; int r; int i, n; sd_event * other_events[3] = {NULL}, *event = NULL; TestSdEventData user_data = {0}; g_assert_cmpint(sd_event_default(NULL), ==, 0); for (i = 0, n = (nmtst_get_rand_uint32() % (G_N_ELEMENTS(other_events) + 1)); i < n; i++) { r = sd_event_default(&other_events[i]); g_assert(r >= 0 && other_events[i]); } sd_id = nm_sd_event_attach_default(); r = sd_event_default(&event); g_assert(r >= 0 && event); r = sd_event_add_time(event, &user_data.event_source, CLOCK_MONOTONIC, 1, 0, _test_sd_event_timeout_cb, &user_data); g_assert(r >= 0 && user_data.event_source); user_data.mainloop = g_main_loop_new(NULL, FALSE); g_main_loop_run(user_data.mainloop); g_main_loop_unref(user_data.mainloop); g_assert(!user_data.event_source); event = sd_event_unref(event); for (i = 0, n = (nmtst_get_rand_uint32() % (G_N_ELEMENTS(other_events) + 1)); i < n; i++) other_events[i] = sd_event_unref(other_events[i]); nm_clear_g_source(&sd_id); for (i = 0, n = G_N_ELEMENTS(other_events); i < n; i++) other_events[i] = sd_event_unref(other_events[i]); g_assert_cmpint(sd_event_default(NULL), ==, 0); } } /*****************************************************************************/ static void test_path_equal(void) { #define _path_equal_check1(path, kill_dots, expected) \ G_STMT_START \ { \ const gboolean _kill_dots = (kill_dots); \ const char * _path0 = (path); \ const char * _expected = (expected); \ gs_free char * _path = g_strdup(_path0); \ const char * _path_result; \ \ if (!_kill_dots && !nm_sd_utils_path_equal(_path0, _expected)) \ g_error("Paths \"%s\" and \"%s\" don't compare equal", _path0, _expected); \ \ _path_result = nm_sd_utils_path_simplify(_path, _kill_dots); \ g_assert(_path_result == _path); \ g_assert_cmpstr(_path, ==, _expected); \ } \ G_STMT_END #define _path_equal_check(path, expected_no_kill_dots, expected_kill_dots) \ G_STMT_START \ { \ _path_equal_check1(path, FALSE, expected_no_kill_dots); \ _path_equal_check1(path, TRUE, expected_kill_dots ?: expected_no_kill_dots); \ } \ G_STMT_END _path_equal_check("", "", NULL); _path_equal_check(".", ".", NULL); _path_equal_check("..", "..", NULL); _path_equal_check("/..", "/..", NULL); _path_equal_check("//..", "/..", NULL); _path_equal_check("/.", "/.", "/"); _path_equal_check("./", ".", "."); _path_equal_check("./.", "./.", "."); _path_equal_check(".///.", "./.", "."); _path_equal_check(".///./", "./.", "."); _path_equal_check(".////", ".", "."); _path_equal_check("//..//foo/", "/../foo", NULL); _path_equal_check("///foo//./bar/.", "/foo/./bar/.", "/foo/bar"); _path_equal_check(".//./foo//./bar/.", "././foo/./bar/.", "foo/bar"); } /*****************************************************************************/ static void _test_unbase64char(char ch, gboolean maybe_invalid) { int r; r = nm_sd_utils_unbase64char(ch, FALSE); if (ch == '=') { g_assert(!maybe_invalid); g_assert_cmpint(r, <, 0); g_assert_cmpint(nm_sd_utils_unbase64char(ch, TRUE), ==, G_MAXINT); } else { g_assert_cmpint(r, ==, nm_sd_utils_unbase64char(ch, TRUE)); if (r >= 0) g_assert_cmpint(r, <=, 255); if (!maybe_invalid) g_assert_cmpint(r, >=, 0); } } static void _test_unbase64mem_mem(const char *base64, const guint8 *expected_arr, gsize expected_len) { gs_free char *expected_base64 = NULL; int r; gs_free guint8 *exp2_arr = NULL; gs_free guint8 *exp3_arr = NULL; gsize exp2_len; gsize exp3_len; gsize i; expected_base64 = g_base64_encode(expected_arr, expected_len); for (i = 0; expected_base64[i]; i++) _test_unbase64char(expected_base64[i], FALSE); r = nm_sd_utils_unbase64mem(expected_base64, strlen(expected_base64), TRUE, &exp2_arr, &exp2_len); g_assert_cmpint(r, ==, 0); g_assert_cmpmem(expected_arr, expected_len, exp2_arr, exp2_len); if (!nm_streq(base64, expected_base64)) { r = nm_sd_utils_unbase64mem(base64, strlen(base64), TRUE, &exp3_arr, &exp3_len); g_assert_cmpint(r, ==, 0); g_assert_cmpmem(expected_arr, expected_len, exp3_arr, exp3_len); } } #define _test_unbase64mem(base64, expected_str) \ _test_unbase64mem_mem(base64, (const guint8 *) "" expected_str "", NM_STRLEN(expected_str)) static void _test_unbase64mem_inval(const char *base64) { gs_free guint8 *exp_arr = NULL; gsize exp_len = 0; int r; r = nm_sd_utils_unbase64mem(base64, strlen(base64), TRUE, &exp_arr, &exp_len); g_assert_cmpint(r, <, 0); g_assert(!exp_arr); g_assert(exp_len == 0); } static void test_nm_sd_utils_unbase64mem(void) { gs_free char *rnd_base64 = NULL; guint8 rnd_buf[30]; guint i, rnd_len; _test_unbase64mem("", ""); _test_unbase64mem(" ", ""); _test_unbase64mem(" Y Q == ", "a"); _test_unbase64mem(" Y WJjZGV mZ 2g = ", "abcdefgh"); _test_unbase64mem_inval(" Y %WJjZGV mZ 2g = "); _test_unbase64mem_inval(" Y %WJjZGV mZ 2g = a"); _test_unbase64mem("YQ==", "a"); _test_unbase64mem_inval("YQ==a"); rnd_len = nmtst_get_rand_uint32() % sizeof(rnd_buf); for (i = 0; i < rnd_len; i++) rnd_buf[i] = nmtst_get_rand_uint32() % 256; rnd_base64 = g_base64_encode(rnd_buf, rnd_len); _test_unbase64mem_mem(rnd_base64, rnd_buf, rnd_len); _test_unbase64char('=', FALSE); for (i = 0; i < 10; i++) { char ch = nmtst_get_rand_uint32() % 256; if (ch != '=') _test_unbase64char(ch, TRUE); } } /*****************************************************************************/ NMTST_DEFINE(); int main(int argc, char **argv) { nmtst_init_assert_logging(&argc, &argv, "INFO", "ALL"); g_test_add_func("/systemd/dhcp/create", test_dhcp_create); g_test_add_func("/systemd/lldp/create", test_lldp_create); g_test_add_func("/systemd/sd-event", test_sd_event); g_test_add_func("/systemd/test_path_equal", test_path_equal); g_test_add_func("/systemd/test_nm_sd_utils_unbase64mem", test_nm_sd_utils_unbase64mem); return g_test_run(); }