libs/gst/check/libcheck/check_run.c - mtk-gstreamer-debian - Git at Google

 /*
  * 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 <sys/types.h>
 #include <time.h>
 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>
 #include <stdarg.h>
 #include <signal.h>
 #include <setjmp.h>

 #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;

 #if defined(HAVE_SIGACTION) && defined(HAVE_FORK)
 static struct sigaction old_action[3];
 static struct sigaction new_action[3];
 #endif /* HAVE_SIGACTION && HAVE_FORK */

 static void CK_ATTRIBUTE_UNUSED
 sig_handler (int sig_nr)
 {
   switch (sig_nr) {
     case SIGALRM:
       alarm_received = 1;
       killpg (group_pid, SIGKILL);
       break;
     case SIGTERM:
     case SIGINT:{
       pid_t own_group_pid;
       int idx;
       int child_sig;

       if (sig_nr == SIGINT) {
         idx = 1;
         child_sig = SIGKILL;
       } else {                  /* if (sig_nr == SIGTERM) */

         idx = 2;
         child_sig = SIGTERM;
       }

       killpg (group_pid, child_sig);

       /* Restore old signal handler... */
       sigaction (sig_nr, &old_action[idx], NULL);

       /* ... and call it. POSIX says that calling killpg(0)
        * does not necessarily mean to call it on the callers
        * group pid! */
       own_group_pid = getpgrp ();
       killpg (own_group_pid, sig_nr);
       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);
       tr->rtype = CK_FAILURE;   /* normal exit status */
     }
   }
 }

 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)
 {
   /* 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[0].sa_handler = sig_handler;
   sigaction (SIGALRM, &new_action[0], &old_action[0]);
   new_action[1].sa_handler = sig_handler;
   sigaction (SIGINT, &new_action[1], &old_action[1]);
   new_action[2].sa_handler = sig_handler;
   sigaction (SIGTERM, &new_action[2], &old_action[2]);
 #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[0], NULL);
   sigaction (SIGINT, &old_action[1], NULL);
   sigaction (SIGTERM, &old_action[2], 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 */
 }
	/*
	* 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 <sys/types.h>
	#include <time.h>
	#include <stdlib.h>
	#include <stdio.h>
	#include <string.h>
	#include <stdarg.h>
	#include <signal.h>
	#include <setjmp.h>

	#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;

	#if defined(HAVE_SIGACTION) && defined(HAVE_FORK)
	static struct sigaction old_action[3];
	static struct sigaction new_action[3];
	#endif /* HAVE_SIGACTION && HAVE_FORK */

	static void CK_ATTRIBUTE_UNUSED
	sig_handler (int sig_nr)
	{
	switch (sig_nr) {
	case SIGALRM:
	alarm_received = 1;
	killpg (group_pid, SIGKILL);
	break;
	case SIGTERM:
	case SIGINT:{
	pid_t own_group_pid;
	int idx;
	int child_sig;

	if (sig_nr == SIGINT) {
	idx = 1;
	child_sig = SIGKILL;
	} else { /* if (sig_nr == SIGTERM) */

	idx = 2;
	child_sig = SIGTERM;
	}

	killpg (group_pid, child_sig);

	/* Restore old signal handler... */
	sigaction (sig_nr, &old_action[idx], NULL);

	/* ... and call it. POSIX says that calling killpg(0)
	* does not necessarily mean to call it on the callers
	* group pid! */
	own_group_pid = getpgrp ();
	killpg (own_group_pid, sig_nr);
	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);
	tr->rtype = CK_FAILURE; /* normal exit status */
	}
	}
	}

	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)
	{
	/* 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[0].sa_handler = sig_handler;
	sigaction (SIGALRM, &new_action[0], &old_action[0]);
	new_action[1].sa_handler = sig_handler;
	sigaction (SIGINT, &new_action[1], &old_action[1]);
	new_action[2].sa_handler = sig_handler;
	sigaction (SIGTERM, &new_action[2], &old_action[2]);
	#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[0], NULL);
	sigaction (SIGINT, &old_action[1], NULL);
	sigaction (SIGTERM, &old_action[2], 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 */
	}