/* * Check: a unit test framework for C * Copyright (C) 2001, 2002 Arien Malec * * 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 2.1 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 St, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "libcompat.h" #include #include #include #include #include #include #include #include #include "internal-check.h" #include "check_error.h" #include "check_list.h" #include "check_impl.h" #include "check_msg.h" #include "check_log.h" enum rinfo { CK_R_SIG, CK_R_PASS, CK_R_EXIT, CK_R_FAIL_TEST, CK_R_FAIL_FIXTURE }; enum tf_type { CK_FORK_TEST, CK_NOFORK_TEST, CK_NOFORK_FIXTURE }; /* all functions are defined in the same order they are declared. functions that depend on forking are gathered all together. non-static functions are at the end of the file. */ static void srunner_run_init (SRunner * sr, enum print_output print_mode); static void srunner_run_end (SRunner * sr, enum print_output print_mode); static void srunner_iterate_suites (SRunner * sr, const char *sname, const char *tcname, enum print_output print_mode); static void srunner_iterate_tcase_tfuns (SRunner * sr, TCase * tc); static void srunner_add_failure (SRunner * sr, TestResult * tf); static TestResult *srunner_run_setup (List * func_list, enum fork_status fork_usage, const char *test_name, const char *setup_name); static int srunner_run_unchecked_setup (SRunner * sr, TCase * tc); static TestResult *tcase_run_checked_setup (SRunner * sr, TCase * tc); static void srunner_run_teardown (List * fixture_list, enum fork_status fork_usage); static void srunner_run_unchecked_teardown (SRunner * sr, TCase * tc); static void tcase_run_checked_teardown (TCase * tc); static void srunner_run_tcase (SRunner * sr, TCase * tc); static TestResult *tcase_run_tfun_nofork (SRunner * sr, TCase * tc, TF * tf, int i); static TestResult *receive_result_info_nofork (const char *tcname, const char *tname, int iter, int duration); static void set_nofork_info (TestResult * tr); static char *pass_msg (void); #if defined(HAVE_FORK) && HAVE_FORK==1 static TestResult *tcase_run_tfun_fork (SRunner * sr, TCase * tc, TF * tf, int i); static TestResult *receive_result_info_fork (const char *tcname, const char *tname, int iter, int status, int expected_signal, signed char allowed_exit_value); static void set_fork_info (TestResult * tr, int status, int expected_signal, signed char allowed_exit_value); static char *signal_msg (int sig); static char *signal_error_msg (int signal_received, int signal_expected); static char *exit_msg (int exitstatus); static int waserror (int status, int expected_signal); static int alarm_received; static pid_t group_pid; static void CK_ATTRIBUTE_UNUSED sig_handler (int sig_nr) { switch (sig_nr) { case SIGALRM: alarm_received = 1; killpg (group_pid, SIGKILL); break; default: eprintf ("Unhandled signal: %d", __FILE__, __LINE__, sig_nr); break; } } #endif /* HAVE_FORK */ #define MSG_LEN 100 static void srunner_run_init (SRunner * sr, enum print_output print_mode) { set_fork_status (srunner_fork_status (sr)); setup_messaging (); srunner_init_logging (sr, print_mode); log_srunner_start (sr); } static void srunner_run_end (SRunner * sr, enum print_output CK_ATTRIBUTE_UNUSED print_mode) { log_srunner_end (sr); srunner_end_logging (sr); teardown_messaging (); set_fork_status (CK_FORK); } static void srunner_iterate_suites (SRunner * sr, const char *sname, const char *tcname, enum print_output CK_ATTRIBUTE_UNUSED print_mode) { List *slst; List *tcl; TCase *tc; slst = sr->slst; for (check_list_front (slst); !check_list_at_end (slst); check_list_advance (slst)) { Suite *s = (Suite *) check_list_val (slst); if (((sname != NULL) && (strcmp (sname, s->name) != 0)) || ((tcname != NULL) && (!suite_tcase (s, tcname)))) continue; log_suite_start (sr, s); tcl = s->tclst; for (check_list_front (tcl); !check_list_at_end (tcl); check_list_advance (tcl)) { tc = (TCase *) check_list_val (tcl); if ((tcname != NULL) && (strcmp (tcname, tc->name) != 0)) { continue; } srunner_run_tcase (sr, tc); } log_suite_end (sr, s); } } static void srunner_iterate_tcase_tfuns (SRunner * sr, TCase * tc) { List *tfl; TF *tfun; TestResult *tr = NULL; tfl = tc->tflst; for (check_list_front (tfl); !check_list_at_end (tfl); check_list_advance (tfl)) { int i; tfun = (TF *) check_list_val (tfl); for (i = tfun->loop_start; i < tfun->loop_end; i++) { log_test_start (sr, tc, tfun); switch (srunner_fork_status (sr)) { case CK_FORK: #if defined(HAVE_FORK) && HAVE_FORK==1 tr = tcase_run_tfun_fork (sr, tc, tfun, i); #else /* HAVE_FORK */ eprintf ("This version does not support fork", __FILE__, __LINE__); #endif /* HAVE_FORK */ break; case CK_NOFORK: tr = tcase_run_tfun_nofork (sr, tc, tfun, i); break; case CK_FORK_GETENV: default: eprintf ("Bad fork status in SRunner", __FILE__, __LINE__); } if (NULL != tr) { srunner_add_failure (sr, tr); log_test_end (sr, tr); } } } } static void srunner_add_failure (SRunner * sr, TestResult * tr) { check_list_add_end (sr->resultlst, tr); sr->stats->n_checked++; /* count checks during setup, test, and teardown */ if (tr->rtype == CK_FAILURE) sr->stats->n_failed++; else if (tr->rtype == CK_ERROR) sr->stats->n_errors++; } static TestResult * srunner_run_setup (List * fixture_list, enum fork_status fork_usage, const char *test_name, const char *setup_name) { TestResult *tr = NULL; Fixture *setup_fixture; if (fork_usage == CK_FORK) { send_ctx_info (CK_CTX_SETUP); } for (check_list_front (fixture_list); !check_list_at_end (fixture_list); check_list_advance (fixture_list)) { setup_fixture = (Fixture *) check_list_val (fixture_list); if (fork_usage == CK_NOFORK) { send_ctx_info (CK_CTX_SETUP); if (0 == setjmp (error_jmp_buffer)) { setup_fixture->fun (); } /* Stop the setup and return the failure in nofork mode. */ tr = receive_result_info_nofork (test_name, setup_name, 0, -1); if (tr->rtype != CK_PASS) { break; } free (tr->file); free (tr->msg); free (tr); tr = NULL; } else { setup_fixture->fun (); } } return tr; } static int srunner_run_unchecked_setup (SRunner * sr, TCase * tc) { TestResult *tr = NULL; int rval = 1; set_fork_status (CK_NOFORK); tr = srunner_run_setup (tc->unch_sflst, CK_NOFORK, tc->name, "unchecked_setup"); set_fork_status (srunner_fork_status (sr)); if (tr != NULL && tr->rtype != CK_PASS) { srunner_add_failure (sr, tr); rval = 0; } return rval; } static TestResult * tcase_run_checked_setup (SRunner * sr, TCase * tc) { TestResult *tr = srunner_run_setup (tc->ch_sflst, srunner_fork_status (sr), tc->name, "checked_setup"); return tr; } static void srunner_run_teardown (List * fixture_list, enum fork_status fork_usage) { Fixture *fixture; for (check_list_front (fixture_list); !check_list_at_end (fixture_list); check_list_advance (fixture_list)) { fixture = (Fixture *) check_list_val (fixture_list); send_ctx_info (CK_CTX_TEARDOWN); if (fork_usage == CK_NOFORK) { if (0 == setjmp (error_jmp_buffer)) { fixture->fun (); } else { /* Abort the remaining teardowns */ break; } } else { fixture->fun (); } } } static void srunner_run_unchecked_teardown (SRunner * sr, TCase * tc) { srunner_run_teardown (tc->unch_tflst, srunner_fork_status (sr)); } static void tcase_run_checked_teardown (TCase * tc) { srunner_run_teardown (tc->ch_tflst, CK_NOFORK); } static void srunner_run_tcase (SRunner * sr, TCase * tc) { if (srunner_run_unchecked_setup (sr, tc)) { srunner_iterate_tcase_tfuns (sr, tc); srunner_run_unchecked_teardown (sr, tc); } } static TestResult * tcase_run_tfun_nofork (SRunner * sr, TCase * tc, TF * tfun, int i) { TestResult *tr; struct timespec ts_start = { 0, 0 }, ts_end = { 0, 0}; tr = tcase_run_checked_setup (sr, tc); if (tr == NULL) { clock_gettime (check_get_clockid (), &ts_start); if (0 == setjmp (error_jmp_buffer)) { tfun->fn (i); } clock_gettime (check_get_clockid (), &ts_end); tcase_run_checked_teardown (tc); return receive_result_info_nofork (tc->name, tfun->name, i, DIFF_IN_USEC (ts_start, ts_end)); } return tr; } static TestResult * receive_result_info_nofork (const char *tcname, const char *tname, int iter, int duration) { TestResult *tr; tr = receive_test_result (0); if (tr == NULL) { eprintf ("Failed to receive test result", __FILE__, __LINE__); } else { tr->tcname = tcname; tr->tname = tname; tr->iter = iter; tr->duration = duration; set_nofork_info (tr); } return tr; } static void set_nofork_info (TestResult * tr) { if (tr->msg == NULL) { tr->rtype = CK_PASS; tr->msg = pass_msg (); } else { tr->rtype = CK_FAILURE; } } static char * pass_msg (void) { return strdup ("Passed"); } #if defined(HAVE_FORK) && HAVE_FORK==1 static TestResult * tcase_run_tfun_fork (SRunner * sr, TCase * tc, TF * tfun, int i) { pid_t pid_w; pid_t pid; int status = 0; struct timespec ts_start = { 0, 0 }, ts_end = { 0, 0}; timer_t timerid; struct itimerspec timer_spec; TestResult *tr; pid = fork (); if (pid == -1) eprintf ("Error in call to fork:", __FILE__, __LINE__ - 2); if (pid == 0) { setpgid (0, 0); group_pid = getpgrp (); tr = tcase_run_checked_setup (sr, tc); free (tr); clock_gettime (check_get_clockid (), &ts_start); tfun->fn (i); clock_gettime (check_get_clockid (), &ts_end); tcase_run_checked_teardown (tc); send_duration_info (DIFF_IN_USEC (ts_start, ts_end)); exit (EXIT_SUCCESS); } else { group_pid = pid; } alarm_received = 0; if (timer_create (check_get_clockid (), NULL /* fire SIGALRM if timer expires */ , &timerid) == 0) { /* Set the timer to fire once */ timer_spec.it_value = tc->timeout; timer_spec.it_interval.tv_sec = 0; timer_spec.it_interval.tv_nsec = 0; if (timer_settime (timerid, 0, &timer_spec, NULL) == 0) { do { pid_w = waitpid (pid, &status, 0); } while (pid_w == -1); } else { eprintf ("Error in call to timer_settime:", __FILE__, __LINE__); } /* If the timer has not fired, disable it */ timer_delete (timerid); } else { eprintf ("Error in call to timer_create:", __FILE__, __LINE__); } killpg (pid, SIGKILL); /* Kill remaining processes. */ return receive_result_info_fork (tc->name, tfun->name, i, status, tfun->signal, tfun->allowed_exit_value); } static TestResult * receive_result_info_fork (const char *tcname, const char *tname, int iter, int status, int expected_signal, signed char allowed_exit_value) { TestResult *tr; tr = receive_test_result (waserror (status, expected_signal)); if (tr == NULL) { eprintf ("Failed to receive test result", __FILE__, __LINE__); } else { tr->tcname = tcname; tr->tname = tname; tr->iter = iter; set_fork_info (tr, status, expected_signal, allowed_exit_value); } return tr; } static void set_fork_info (TestResult * tr, int status, int signal_expected, signed char allowed_exit_value) { int was_sig = WIFSIGNALED (status); int was_exit = WIFEXITED (status); signed char exit_status = WEXITSTATUS (status); int signal_received = WTERMSIG (status); if (was_sig) { if (signal_expected == signal_received) { if (alarm_received) { /* Got alarm instead of signal */ tr->rtype = CK_ERROR; if (tr->msg != NULL) { free (tr->msg); } tr->msg = signal_error_msg (signal_received, signal_expected); } else { tr->rtype = CK_PASS; if (tr->msg != NULL) { free (tr->msg); } tr->msg = pass_msg (); } } else if (signal_expected != 0) { /* signal received, but not the expected one */ tr->rtype = CK_ERROR; if (tr->msg != NULL) { free (tr->msg); } tr->msg = signal_error_msg (signal_received, signal_expected); } else { /* signal received and none expected */ tr->rtype = CK_ERROR; if (tr->msg != NULL) { free (tr->msg); } tr->msg = signal_msg (signal_received); } } else if (signal_expected == 0) { if (was_exit && exit_status == allowed_exit_value) { tr->rtype = CK_PASS; if (tr->msg != NULL) { free (tr->msg); } tr->msg = pass_msg (); } else if (was_exit && exit_status != allowed_exit_value) { if (tr->msg == NULL) { /* early exit */ tr->rtype = CK_ERROR; tr->msg = exit_msg (exit_status); } else { tr->rtype = CK_FAILURE; } } } else { /* a signal was expected and none raised */ if (was_exit) { if (tr->msg != NULL) { free (tr->msg); } tr->msg = exit_msg (exit_status); if (exit_status == allowed_exit_value) { tr->rtype = CK_FAILURE; /* normal exit status */ } else { tr->rtype = CK_FAILURE; /* early exit */ } } } } static char * signal_msg (int signal) { char *msg = (char *) emalloc (MSG_LEN); /* free'd by caller */ if (alarm_received) { snprintf (msg, MSG_LEN, "Test timeout expired"); } else { snprintf (msg, MSG_LEN, "Received signal %d (%s)", signal, strsignal (signal)); } return msg; } static char * signal_error_msg (int signal_received, int signal_expected) { char *sig_r_str; char *sig_e_str; char *msg = (char *) emalloc (MSG_LEN); /* free'd by caller */ sig_r_str = strdup (strsignal (signal_received)); sig_e_str = strdup (strsignal (signal_expected)); if (alarm_received) { snprintf (msg, MSG_LEN, "Test timeout expired, expected signal %d (%s)", signal_expected, sig_e_str); } else { snprintf (msg, MSG_LEN, "Received signal %d (%s), expected %d (%s)", signal_received, sig_r_str, signal_expected, sig_e_str); } free (sig_r_str); free (sig_e_str); return msg; } static char * exit_msg (int exitval) { char *msg = (char *) emalloc (MSG_LEN); /* free'd by caller */ snprintf (msg, MSG_LEN, "Early exit with return value %d", exitval); return msg; } static int waserror (int status, int signal_expected) { int was_sig = WIFSIGNALED (status); int was_exit = WIFEXITED (status); int exit_status = WEXITSTATUS (status); int signal_received = WTERMSIG (status); return ((was_sig && (signal_received != signal_expected)) || (was_exit && exit_status != 0)); } #endif /* HAVE_FORK */ enum fork_status srunner_fork_status (SRunner * sr) { if (sr->fstat == CK_FORK_GETENV) { char *env = getenv ("CK_FORK"); if (env == NULL) #if defined(HAVE_FORK) && HAVE_FORK==1 return CK_FORK; #else return CK_NOFORK; #endif if (strcmp (env, "no") == 0) return CK_NOFORK; else { #if defined(HAVE_FORK) && HAVE_FORK==1 return CK_FORK; #else /* HAVE_FORK */ eprintf ("This version does not support fork", __FILE__, __LINE__); return CK_NOFORK; #endif /* HAVE_FORK */ } } else return sr->fstat; } void srunner_set_fork_status (SRunner * sr, enum fork_status fstat) { #if !defined(HAVE_FORK) || HAVE_FORK==0 /* If fork() is unavailable, do not allow a fork mode to be set */ if (fstat != CK_NOFORK) { eprintf ("This version does not support fork", __FILE__, __LINE__); } #endif /* ! HAVE_FORK */ sr->fstat = fstat; } void srunner_run_all (SRunner * sr, enum print_output print_mode) { srunner_run (sr, NULL, /* All test suites. */ NULL, /* All test cases. */ print_mode); } void srunner_run (SRunner * sr, const char *sname, const char *tcname, enum print_output print_mode) { #if defined(HAVE_SIGACTION) && defined(HAVE_FORK) struct sigaction old_action; struct sigaction new_action; #endif /* HAVE_SIGACTION && HAVE_FORK */ /* Get the selected test suite and test case from the environment. */ if (!tcname) tcname = getenv ("CK_RUN_CASE"); if (!sname) sname = getenv ("CK_RUN_SUITE"); if (sr == NULL) return; if (print_mode >= CK_LAST) { eprintf ("Bad print_mode argument to srunner_run_all: %d", __FILE__, __LINE__, print_mode); } #if defined(HAVE_SIGACTION) && defined(HAVE_FORK) memset (&new_action, 0, sizeof new_action); new_action.sa_handler = sig_handler; sigaction (SIGALRM, &new_action, &old_action); #endif /* HAVE_SIGACTION && HAVE_FORK */ srunner_run_init (sr, print_mode); srunner_iterate_suites (sr, sname, tcname, print_mode); srunner_run_end (sr, print_mode); #if defined(HAVE_SIGACTION) && defined(HAVE_FORK) sigaction (SIGALRM, &old_action, NULL); #endif /* HAVE_SIGACTION && HAVE_FORK */ } pid_t check_fork (void) { #if defined(HAVE_FORK) && HAVE_FORK==1 pid_t pid = fork (); /* Set the process to a process group to be able to kill it easily. */ if (pid >= 0) { setpgid (pid, group_pid); } return pid; #else /* HAVE_FORK */ eprintf ("This version does not support fork", __FILE__, __LINE__); return 0; #endif /* HAVE_FORK */ } void check_waitpid_and_exit (pid_t pid CK_ATTRIBUTE_UNUSED) { #if defined(HAVE_FORK) && HAVE_FORK==1 pid_t pid_w; int status; if (pid > 0) { do { pid_w = waitpid (pid, &status, 0); } while (pid_w == -1); if (waserror (status, 0)) { exit (EXIT_FAILURE); } } exit (EXIT_SUCCESS); #else /* HAVE_FORK */ eprintf ("This version does not support fork", __FILE__, __LINE__); #endif /* HAVE_FORK */ }