/* Authors: Pavel Březina Copyright (C) 2014 Red Hat This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include #include #include #include #include "providers/dp_backend.h" #include "providers/dp_ptask_private.h" #include "providers/dp_ptask.h" #include "tests/cmocka/common_mock.h" #include "tests/common.h" #define DELAY 2 #define PERIOD 10 #define new_test(test) \ unit_test_setup_teardown(test_ ## test, test_setup, test_teardown) struct test_ctx { struct be_ctx *be_ctx; time_t when; bool done; bool add_online_cb_called; bool add_offline_cb_called; }; #define mark_online(test_ctx) do { \ test_ctx->be_ctx->offstat.went_offline = 0; \ test_ctx->be_ctx->offstat.offline = false; \ } while (0) #define mark_offline(test_ctx) do { \ test_ctx->be_ctx->offstat.went_offline = time(NULL); \ test_ctx->be_ctx->offstat.offline = true; \ } while (0) /* Since both test_ctx->done and ptask->req is marked as finished already * in the sync _send function before a new execution is scheduled we need to * rely on the fact that ptask->req is set to zero when a new timer is * created. This way we guarantee that the condition is true only when * the ptask is executed and a new one is scheduled. */ #define is_sync_ptask_finished(test_ctx, ptask) \ (test_ctx->done && ptask->req == NULL) /* Mock few backend functions so we don't have to bring the whole * data provider into this test. */ bool be_is_offline(struct be_ctx *ctx) { return ctx->offstat.offline; } int be_add_online_cb(TALLOC_CTX *mem_ctx, struct be_ctx *ctx, be_callback_t cb, void *pvt, struct be_cb **online_cb) { struct test_ctx *test_ctx = NULL; test_ctx = sss_mock_ptr_type(struct test_ctx *); test_ctx->add_online_cb_called = true; return ERR_OK; } int be_add_offline_cb(TALLOC_CTX *mem_ctx, struct be_ctx *ctx, be_callback_t cb, void *pvt, struct be_cb **offline_cb) { struct test_ctx *test_ctx = NULL; test_ctx = sss_mock_ptr_type(struct test_ctx *); test_ctx->add_offline_cb_called = true; return ERR_OK; } struct test_be_ptask_state { struct test_ctx *test_ctx; }; struct tevent_req * test_be_ptask_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev, struct be_ctx *be_ctx, struct be_ptask *be_ptask, void *pvt) { struct test_be_ptask_state *state = NULL; struct test_ctx *test_ctx = NULL; struct tevent_req *req = NULL; assert_non_null(ev); assert_non_null(be_ctx); assert_non_null(be_ptask); assert_non_null(pvt); test_ctx = talloc_get_type(pvt, struct test_ctx); assert_non_null(test_ctx); test_ctx->when = time(NULL); req = tevent_req_create(mem_ctx, &state, struct test_be_ptask_state); assert_non_null(req); state->test_ctx = test_ctx; tevent_req_done(req); tevent_req_post(req, ev); return req; } struct tevent_req * test_be_ptask_null_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev, struct be_ctx *be_ctx, struct be_ptask *be_ptask, void *pvt) { struct test_ctx *test_ctx = NULL; assert_non_null(ev); assert_non_null(be_ctx); assert_non_null(be_ptask); assert_non_null(pvt); test_ctx = talloc_get_type(pvt, struct test_ctx); assert_non_null(test_ctx); test_ctx->when = time(NULL); test_ctx->done = true; return NULL; } struct tevent_req * test_be_ptask_timeout_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev, struct be_ctx *be_ctx, struct be_ptask *be_ptask, void *pvt) { struct test_be_ptask_state *state = NULL; struct test_ctx *test_ctx = NULL; struct tevent_req *req = NULL; assert_non_null(ev); assert_non_null(be_ctx); assert_non_null(be_ptask); assert_non_null(pvt); test_ctx = talloc_get_type(pvt, struct test_ctx); assert_non_null(test_ctx); test_ctx->when = time(NULL); req = tevent_req_create(mem_ctx, &state, struct test_be_ptask_state); assert_non_null(req); state->test_ctx = test_ctx; /* we won't finish the request */ return req; } errno_t test_be_ptask_recv(struct tevent_req *req) { struct test_be_ptask_state *state = NULL; state = tevent_req_data(req, struct test_be_ptask_state); assert_non_null(state); state->test_ctx->done = true; TEVENT_REQ_RETURN_ON_ERROR(req); return ERR_OK; } errno_t test_be_ptask_error_recv(struct tevent_req *req) { struct test_be_ptask_state *state = NULL; state = tevent_req_data(req, struct test_be_ptask_state); assert_non_null(state); state->test_ctx->done = true; return ERR_INTERNAL; } errno_t test_be_ptask_sync(TALLOC_CTX *mem_ctx, struct tevent_context *ev, struct be_ctx *be_ctx, struct be_ptask *be_ptask, void *pvt) { struct test_ctx *test_ctx = NULL; assert_non_null(ev); assert_non_null(be_ctx); assert_non_null(be_ptask); assert_non_null(pvt); test_ctx = talloc_get_type(pvt, struct test_ctx); assert_non_null(test_ctx); test_ctx->when = time(NULL); test_ctx->done = true; return ERR_OK; } errno_t test_be_ptask_sync_error(TALLOC_CTX *mem_ctx, struct tevent_context *ev, struct be_ctx *be_ctx, struct be_ptask *be_ptask, void *pvt) { struct test_ctx *test_ctx = NULL; assert_non_null(ev); assert_non_null(be_ctx); assert_non_null(be_ptask); assert_non_null(pvt); test_ctx = talloc_get_type(pvt, struct test_ctx); assert_non_null(test_ctx); test_ctx->when = time(NULL); test_ctx->done = true; return ERR_INTERNAL; } void test_setup(void **state) { struct test_ctx *test_ctx = NULL; assert_true(leak_check_setup()); test_ctx = talloc_zero(global_talloc_context, struct test_ctx); assert_non_null(test_ctx); /* create be_ctx, only ev and offline field should be used */ test_ctx->be_ctx = talloc_zero(test_ctx, struct be_ctx); assert_non_null(test_ctx->be_ctx); test_ctx->be_ctx->ev = tevent_context_init(test_ctx->be_ctx); assert_non_null(test_ctx->be_ctx->ev); *state = test_ctx; } void test_teardown(void **state) { talloc_zfree(*state); assert_true(leak_check_teardown()); } void test_be_ptask_create_einval_be(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; ret = be_ptask_create(test_ctx, NULL, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, NULL, "Test ptask", &ptask); assert_int_equal(ret, EINVAL); assert_null(ptask); } void test_be_ptask_create_einval_period(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, 0, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, NULL, "Test ptask", &ptask); assert_int_equal(ret, EINVAL); assert_null(ptask); } void test_be_ptask_create_einval_send(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, NULL, test_be_ptask_recv, NULL, "Test ptask", &ptask); assert_int_equal(ret, EINVAL); assert_null(ptask); } void test_be_ptask_create_einval_recv(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, NULL, NULL, "Test ptask", &ptask); assert_int_equal(ret, EINVAL); assert_null(ptask); } void test_be_ptask_create_einval_name(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, NULL, NULL, &ptask); assert_int_equal(ret, EINVAL); assert_null(ptask); } void test_be_ptask_create_no_delay(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now; errno_t ret; now = time(NULL); ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now <= ptask->last_execution); assert_true(now <= test_ctx->when); assert_true(ptask->last_execution <= test_ctx->when); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_create_first_delay(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now; errno_t ret; now = time(NULL); ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, DELAY, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now + DELAY <= ptask->last_execution); assert_true(now + DELAY <= test_ctx->when); assert_true(ptask->last_execution <= test_ctx->when); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_disable(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); be_ptask_disable(ptask); assert_null(ptask->timer); assert_false(ptask->enabled); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_enable(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now; errno_t ret; now = time(NULL); ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); be_ptask_disable(ptask); now = time(NULL); be_ptask_enable(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now <= ptask->last_execution); assert_true(now <= test_ctx->when); assert_true(ptask->last_execution <= test_ctx->when); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_enable_delay(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, DELAY, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } be_ptask_disable(ptask); test_ctx->done = false; now = time(NULL); be_ptask_enable(ptask); while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now + DELAY <= ptask->last_execution); assert_true(now + DELAY <= test_ctx->when); assert_true(ptask->last_execution <= test_ctx->when); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_offline_skip(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t next_execution; time_t now; errno_t ret; mark_offline(test_ctx); now = time(NULL); ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); next_execution = ptask->next_execution; assert_true(now <= next_execution); while (ptask->next_execution == next_execution && !test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(next_execution + PERIOD <= ptask->next_execution); assert_true(ptask->enabled); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_offline_disable(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; mark_offline(test_ctx); will_return(be_add_online_cb, test_ctx); will_return(be_add_offline_cb, test_ctx); ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_DISABLE, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); assert_true(test_ctx->add_online_cb_called); assert_true(test_ctx->add_offline_cb_called); while (ptask->enabled && !test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_false(ptask->enabled); assert_false(test_ctx->done); assert_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_offline_execute(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; errno_t ret; mark_offline(test_ctx); ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_EXECUTE, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(ptask->enabled); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_reschedule_ok(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t next_execution; time_t now; errno_t ret; now = time(NULL); ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); next_execution = ptask->next_execution; while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now <= ptask->last_execution); assert_true(now <= test_ctx->when); assert_true(ptask->last_execution <= test_ctx->when); assert_true(next_execution + PERIOD <= ptask->next_execution); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_reschedule_null(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now = 0; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_null_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { now = time(NULL); tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now + PERIOD <= ptask->next_execution); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_reschedule_error(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now = 0; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_error_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { now = time(NULL); tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now + PERIOD <= ptask->next_execution); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_reschedule_timeout(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now = 0; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 1, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_timeout_send, test_be_ptask_error_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); /* first iterate until the task is executed */ while (!test_ctx->done && ptask->req == NULL) { tevent_loop_once(test_ctx->be_ctx->ev); } /* then iterate until the request is destroyed */ while (!test_ctx->done && ptask->req != NULL) { now = time(NULL); tevent_loop_once(test_ctx->be_ctx->ev); } assert_false(test_ctx->done); assert_true(now + PERIOD <= ptask->next_execution); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_get_period(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t out_period; errno_t ret; ret = be_ptask_create(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_send, test_be_ptask_recv, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); out_period = be_ptask_get_period(ptask); assert_true(PERIOD == out_period); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_create_sync(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now; errno_t ret; now = time(NULL); ret = be_ptask_create_sync(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_sync, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!test_ctx->done) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now <= ptask->last_execution); assert_true(now <= test_ctx->when); assert_true(ptask->last_execution <= test_ctx->when); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_sync_reschedule_ok(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t next_execution; time_t now; errno_t ret; now = time(NULL); ret = be_ptask_create_sync(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_sync, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); next_execution = ptask->next_execution; while (!is_sync_ptask_finished(test_ctx, ptask)) { tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now <= ptask->last_execution); assert_true(now <= test_ctx->when); assert_true(ptask->last_execution <= test_ctx->when); assert_true(next_execution + PERIOD <= ptask->next_execution); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } void test_be_ptask_sync_reschedule_error(void **state) { struct test_ctx *test_ctx = (struct test_ctx *)(*state); struct be_ptask *ptask = NULL; time_t now = 0; errno_t ret; ret = be_ptask_create_sync(test_ctx, test_ctx->be_ctx, PERIOD, 0, 0, 0, 0, BE_PTASK_OFFLINE_SKIP, 0, test_be_ptask_sync_error, test_ctx, "Test ptask", &ptask); assert_int_equal(ret, ERR_OK); assert_non_null(ptask); assert_non_null(ptask->timer); while (!is_sync_ptask_finished(test_ctx, ptask)) { now = time(NULL); tevent_loop_once(test_ctx->be_ctx->ev); } assert_true(now + PERIOD <= ptask->next_execution); assert_non_null(ptask->timer); be_ptask_destroy(&ptask); assert_null(ptask); } int main(int argc, const char *argv[]) { poptContext pc; int opt; struct poptOption long_options[] = { POPT_AUTOHELP SSSD_DEBUG_OPTS POPT_TABLEEND }; const UnitTest tests[] = { new_test(be_ptask_create_einval_be), new_test(be_ptask_create_einval_period), new_test(be_ptask_create_einval_send), new_test(be_ptask_create_einval_recv), new_test(be_ptask_create_einval_name), new_test(be_ptask_create_no_delay), new_test(be_ptask_create_first_delay), new_test(be_ptask_disable), new_test(be_ptask_enable), new_test(be_ptask_enable_delay), new_test(be_ptask_offline_skip), new_test(be_ptask_offline_disable), new_test(be_ptask_offline_execute), new_test(be_ptask_reschedule_ok), new_test(be_ptask_reschedule_null), new_test(be_ptask_reschedule_error), new_test(be_ptask_reschedule_timeout), new_test(be_ptask_get_period), new_test(be_ptask_create_sync), new_test(be_ptask_sync_reschedule_ok), new_test(be_ptask_sync_reschedule_error) }; /* Set debug level to invalid value so we can deside if -d 0 was used. */ debug_level = SSSDBG_INVALID; pc = poptGetContext(argv[0], argc, argv, long_options, 0); while((opt = poptGetNextOpt(pc)) != -1) { switch(opt) { default: fprintf(stderr, "\nInvalid option %s: %s\n\n", poptBadOption(pc, 0), poptStrerror(opt)); poptPrintUsage(pc, stderr, 0); return 1; } } poptFreeContext(pc); DEBUG_CLI_INIT(debug_level); return run_tests(tests); }