[contrib/haskell] typo
[hkl.git] / tests / runtests.c
blob3fd55a5251d24063459bf95e91a14cdf9b77f98b
1 /*
2 * Run a set of tests, reporting results.
4 * Test suite driver that runs a set of tests implementing a subset of the
5 * Test Anything Protocol (TAP) and reports the results.
7 * Any bug reports, bug fixes, and improvements are very much welcome and
8 * should be sent to the e-mail address below. This program is part of C TAP
9 * Harness <https://www.eyrie.org/~eagle/software/c-tap-harness/>.
11 * Copyright 2000-2001, 2004, 2006-2019, 2022 Russ Allbery <eagle@eyrie.org>
13 * Permission is hereby granted, free of charge, to any person obtaining a
14 * copy of this software and associated documentation files (the "Software"),
15 * to deal in the Software without restriction, including without limitation
16 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
17 * and/or sell copies of the Software, and to permit persons to whom the
18 * Software is furnished to do so, subject to the following conditions:
20 * The above copyright notice and this permission notice shall be included in
21 * all copies or substantial portions of the Software.
23 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
24 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
25 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
26 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
27 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
28 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
29 * DEALINGS IN THE SOFTWARE.
31 * SPDX-License-Identifier: MIT
35 * Usage:
37 * runtests [-hv] [-b <build-dir>] [-s <source-dir>] -l <test-list>
38 * runtests [-hv] [-b <build-dir>] [-s <source-dir>] <test> [<test> ...]
39 * runtests -o [-h] [-b <build-dir>] [-s <source-dir>] <test>
41 * In the first case, expects a list of executables located in the given file,
42 * one line per executable, possibly followed by a space-separated list of
43 * options. For each one, runs it as part of a test suite, reporting results.
44 * In the second case, use the same infrastructure, but run only the tests
45 * listed on the command line.
47 * Test output should start with a line containing the number of tests
48 * (numbered from 1 to this number), optionally preceded by "1..", although
49 * that line may be given anywhere in the output. Each additional line should
50 * be in the following format:
52 * ok <number>
53 * not ok <number>
54 * ok <number> # skip
55 * not ok <number> # todo
57 * where <number> is the number of the test. An optional comment is permitted
58 * after the number if preceded by whitespace. ok indicates success, not ok
59 * indicates failure. "# skip" and "# todo" are a special cases of a comment,
60 * and must start with exactly that formatting. They indicate the test was
61 * skipped for some reason (maybe because it doesn't apply to this platform)
62 * or is testing something known to currently fail. The text following either
63 * "# skip" or "# todo" and whitespace is the reason.
65 * As a special case, the first line of the output may be in the form:
67 * 1..0 # skip some reason
69 * which indicates that this entire test case should be skipped and gives a
70 * reason.
72 * Any other lines are ignored, although for compliance with the TAP protocol
73 * all lines other than the ones in the above format should be sent to
74 * standard error rather than standard output and start with #.
76 * This is a subset of TAP as documented in Test::Harness::TAP or
77 * TAP::Parser::Grammar, which comes with Perl.
79 * If the -o option is given, instead run a single test and display all of its
80 * output. This is intended for use with failing tests so that the person
81 * running the test suite can get more details about what failed.
83 * If built with the C preprocessor symbols C_TAP_SOURCE and C_TAP_BUILD
84 * defined, C TAP Harness will export those values in the environment so that
85 * tests can find the source and build directory and will look for tests under
86 * both directories. These paths can also be set with the -b and -s
87 * command-line options, which will override anything set at build time.
89 * If the -v option is given, or the C_TAP_VERBOSE environment variable is set,
90 * display the full output of each test as it runs rather than showing a
91 * summary of the results of each test.
94 /* Required for fdopen(), getopt(), and putenv(). */
95 #if defined(__STRICT_ANSI__) || defined(PEDANTIC)
96 # ifndef _XOPEN_SOURCE
97 # define _XOPEN_SOURCE 500
98 # endif
99 #endif
101 #include <ctype.h>
102 #include <errno.h>
103 #include <fcntl.h>
104 #include <limits.h>
105 #include <stdarg.h>
106 #include <stddef.h>
107 #include <stdio.h>
108 #include <stdlib.h>
109 #include <string.h>
110 #include <strings.h>
111 #include <sys/stat.h>
112 #include <sys/time.h>
113 #include <sys/types.h>
114 #include <sys/wait.h>
115 #include <time.h>
116 #include <unistd.h>
118 /* sys/time.h must be included before sys/resource.h on some platforms. */
119 #include <sys/resource.h>
121 /* AIX 6.1 (and possibly later) doesn't have WCOREDUMP. */
122 #ifndef WCOREDUMP
123 # define WCOREDUMP(status) ((unsigned) (status) &0x80)
124 #endif
127 * POSIX requires that these be defined in <unistd.h>, but they're not always
128 * available. If one of them has been defined, all the rest almost certainly
129 * have.
131 #ifndef STDIN_FILENO
132 # define STDIN_FILENO 0
133 # define STDOUT_FILENO 1
134 # define STDERR_FILENO 2
135 #endif
138 * Used for iterating through arrays. Returns the number of elements in the
139 * array (useful for a < upper bound in a for loop).
141 #define ARRAY_SIZE(array) (sizeof(array) / sizeof((array)[0]))
144 * The source and build versions of the tests directory. This is used to set
145 * the C_TAP_SOURCE and C_TAP_BUILD environment variables (and the SOURCE and
146 * BUILD environment variables set for backward compatibility) and find test
147 * programs, if set. Normally, this should be set as part of the build
148 * process to the test subdirectories of $(abs_top_srcdir) and
149 * $(abs_top_builddir) respectively.
151 #ifndef C_TAP_SOURCE
152 # define C_TAP_SOURCE NULL
153 #endif
154 #ifndef C_TAP_BUILD
155 # define C_TAP_BUILD NULL
156 #endif
158 /* Test status codes. */
159 enum test_status {
160 TEST_FAIL,
161 TEST_PASS,
162 TEST_SKIP,
163 TEST_INVALID
166 /* Really, just a boolean, but this is more self-documenting. */
167 enum test_verbose {
168 CONCISE = 0,
169 VERBOSE = 1
172 /* Indicates the state of our plan. */
173 enum plan_status {
174 PLAN_INIT, /* Nothing seen yet. */
175 PLAN_FIRST, /* Plan seen before any tests. */
176 PLAN_PENDING, /* Test seen and no plan yet. */
177 PLAN_FINAL /* Plan seen after some tests. */
180 /* Error exit statuses for test processes. */
181 #define CHILDERR_DUP 100 /* Couldn't redirect stderr or stdout. */
182 #define CHILDERR_EXEC 101 /* Couldn't exec child process. */
183 #define CHILDERR_STDIN 102 /* Couldn't open stdin file. */
184 #define CHILDERR_STDERR 103 /* Couldn't open stderr file. */
186 /* Structure to hold data for a set of tests. */
187 struct testset {
188 char *file; /* The file name of the test. */
189 char **command; /* The argv vector to run the command. */
190 enum plan_status plan; /* The status of our plan. */
191 unsigned long count; /* Expected count of tests. */
192 unsigned long current; /* The last seen test number. */
193 unsigned int length; /* The length of the last status message. */
194 unsigned long passed; /* Count of passing tests. */
195 unsigned long failed; /* Count of failing lists. */
196 unsigned long skipped; /* Count of skipped tests (passed). */
197 unsigned long allocated; /* The size of the results table. */
198 enum test_status *results; /* Table of results by test number. */
199 unsigned int aborted; /* Whether the set was aborted. */
200 unsigned int reported; /* Whether the results were reported. */
201 int status; /* The exit status of the test. */
202 unsigned int all_skipped; /* Whether all tests were skipped. */
203 char *reason; /* Why all tests were skipped. */
206 /* Structure to hold a linked list of test sets. */
207 struct testlist {
208 struct testset *ts;
209 struct testlist *next;
213 * Usage message. Should be used as a printf format with four arguments: the
214 * path to runtests, given three times, and the usage_description. This is
215 * split into variables to satisfy the pedantic ISO C90 limit on strings.
217 static const char usage_message[] = "\
218 Usage: %s [-hv] [-b <build-dir>] [-s <source-dir>] <test> ...\n\
219 %s [-hv] [-b <build-dir>] [-s <source-dir>] -l <test-list>\n\
220 %s -o [-h] [-b <build-dir>] [-s <source-dir>] <test>\n\
222 Options:\n\
223 -b <build-dir> Set the build directory to <build-dir>\n\
224 %s";
225 static const char usage_extra[] = "\
226 -l <list> Take the list of tests to run from <test-list>\n\
227 -o Run a single test rather than a list of tests\n\
228 -s <source-dir> Set the source directory to <source-dir>\n\
229 -v Show the full output of each test\n\
231 runtests normally runs each test listed on the command line. With the -l\n\
232 option, it instead runs every test listed in a file. With the -o option,\n\
233 it instead runs a single test and shows its complete output.\n";
236 * Header used for test output. %s is replaced by the file name of the list
237 * of tests.
239 static const char banner[] = "\n\
240 Running all tests listed in %s. If any tests fail, run the failing\n\
241 test program with runtests -o to see more details.\n\n";
243 /* Header for reports of failed tests. */
244 static const char header[] = "\n\
245 Failed Set Fail/Total (%) Skip Stat Failing Tests\n\
246 -------------------------- -------------- ---- ---- ------------------------";
248 /* Include the file name and line number in malloc failures. */
249 #define xcalloc(n, type) \
250 ((type *) x_calloc((n), sizeof(type), __FILE__, __LINE__))
251 #define xmalloc(size) ((char *) x_malloc((size), __FILE__, __LINE__))
252 #define xstrdup(p) x_strdup((p), __FILE__, __LINE__)
253 #define xstrndup(p, size) x_strndup((p), (size), __FILE__, __LINE__)
254 #define xreallocarray(p, n, type) \
255 ((type *) x_reallocarray((p), (n), sizeof(type), __FILE__, __LINE__))
258 * __attribute__ is available in gcc 2.5 and later, but only with gcc 2.7
259 * could you use the __format__ form of the attributes, which is what we use
260 * (to avoid confusion with other macros).
262 #ifndef __attribute__
263 # if __GNUC__ < 2 || (__GNUC__ == 2 && __GNUC_MINOR__ < 7)
264 # define __attribute__(spec) /* empty */
265 # endif
266 #endif
269 * We use __alloc_size__, but it was only available in fairly recent versions
270 * of GCC. Suppress warnings about the unknown attribute if GCC is too old.
271 * We know that we're GCC at this point, so we can use the GCC variadic macro
272 * extension, which will still work with versions of GCC too old to have C99
273 * variadic macro support.
275 #if !defined(__attribute__) && !defined(__alloc_size__)
276 # if defined(__GNUC__) && !defined(__clang__)
277 # if __GNUC__ < 4 || (__GNUC__ == 4 && __GNUC_MINOR__ < 3)
278 # define __alloc_size__(spec, args...) /* empty */
279 # endif
280 # endif
281 #endif
284 * Suppress the argument to __malloc__ in Clang (not supported in at least
285 * version 13) and GCC versions prior to 11.
287 #if !defined(__attribute__) && !defined(__malloc__)
288 # if defined(__clang__) || __GNUC__ < 11
289 # define __malloc__(dalloc) __malloc__
290 # endif
291 #endif
294 * LLVM and Clang pretend to be GCC but don't support all of the __attribute__
295 * settings that GCC does. For them, suppress warnings about unknown
296 * attributes on declarations. This unfortunately will affect the entire
297 * compilation context, but there's no push and pop available.
299 #if !defined(__attribute__) && (defined(__llvm__) || defined(__clang__))
300 # pragma GCC diagnostic ignored "-Wattributes"
301 #endif
303 /* Declare internal functions that benefit from compiler attributes. */
304 static void die(const char *, ...)
305 __attribute__((__nonnull__, __noreturn__, __format__(printf, 1, 2)));
306 static void sysdie(const char *, ...)
307 __attribute__((__nonnull__, __noreturn__, __format__(printf, 1, 2)));
308 static void *x_calloc(size_t, size_t, const char *, int)
309 __attribute__((__alloc_size__(1, 2), __malloc__(free), __nonnull__));
310 static void *x_malloc(size_t, const char *, int)
311 __attribute__((__alloc_size__(1), __malloc__(free), __nonnull__));
312 static void *x_reallocarray(void *, size_t, size_t, const char *, int)
313 __attribute__((__alloc_size__(2, 3), __malloc__(free), __nonnull__(4)));
314 static char *x_strdup(const char *, const char *, int)
315 __attribute__((__malloc__(free), __nonnull__));
316 static char *x_strndup(const char *, size_t, const char *, int)
317 __attribute__((__malloc__(free), __nonnull__));
321 * Report a fatal error and exit.
323 static void
324 die(const char *format, ...)
326 va_list args;
328 fflush(stdout);
329 fprintf(stderr, "runtests: ");
330 va_start(args, format);
331 vfprintf(stderr, format, args);
332 va_end(args);
333 fprintf(stderr, "\n");
334 exit(1);
339 * Report a fatal error, including the results of strerror, and exit.
341 static void
342 sysdie(const char *format, ...)
344 int oerrno;
345 va_list args;
347 oerrno = errno;
348 fflush(stdout);
349 fprintf(stderr, "runtests: ");
350 va_start(args, format);
351 vfprintf(stderr, format, args);
352 va_end(args);
353 fprintf(stderr, ": %s\n", strerror(oerrno));
354 exit(1);
359 * Allocate zeroed memory, reporting a fatal error and exiting on failure.
361 static void *
362 x_calloc(size_t n, size_t size, const char *file, int line)
364 void *p;
366 n = (n > 0) ? n : 1;
367 size = (size > 0) ? size : 1;
368 p = calloc(n, size);
369 if (p == NULL)
370 sysdie("failed to calloc %lu bytes at %s line %d",
371 (unsigned long) size, file, line);
372 return p;
377 * Allocate memory, reporting a fatal error and exiting on failure.
379 static void *
380 x_malloc(size_t size, const char *file, int line)
382 void *p;
384 p = malloc(size);
385 if (p == NULL)
386 sysdie("failed to malloc %lu bytes at %s line %d",
387 (unsigned long) size, file, line);
388 return p;
393 * Reallocate memory, reporting a fatal error and exiting on failure.
395 * We should technically use SIZE_MAX here for the overflow check, but
396 * SIZE_MAX is C99 and we're only assuming C89 + SUSv3, which does not
397 * guarantee that it exists. They do guarantee that UINT_MAX exists, and we
398 * can assume that UINT_MAX <= SIZE_MAX. And we should not be allocating
399 * anything anywhere near that large.
401 * (In theory, C89 and C99 permit size_t to be smaller than unsigned int, but
402 * I disbelieve in the existence of such systems and they will have to cope
403 * without overflow checks.)
405 static void *
406 x_reallocarray(void *p, size_t n, size_t size, const char *file, int line)
408 n = (n > 0) ? n : 1;
409 size = (size > 0) ? size : 1;
411 if (UINT_MAX / n <= size)
412 sysdie("realloc too large at %s line %d", file, line);
413 p = realloc(p, n * size);
414 if (p == NULL)
415 sysdie("failed to realloc %lu bytes at %s line %d",
416 (unsigned long) (n * size), file, line);
417 return p;
422 * Copy a string, reporting a fatal error and exiting on failure.
424 static char *
425 x_strdup(const char *s, const char *file, int line)
427 char *p;
428 size_t len;
430 len = strlen(s) + 1;
431 p = (char *) malloc(len);
432 if (p == NULL)
433 sysdie("failed to strdup %lu bytes at %s line %d", (unsigned long) len,
434 file, line);
435 memcpy(p, s, len);
436 return p;
441 * Copy the first n characters of a string, reporting a fatal error and
442 * existing on failure.
444 * Avoid using the system strndup function since it may not exist (on Mac OS
445 * X, for example), and there's no need to introduce another portability
446 * requirement.
448 char *
449 x_strndup(const char *s, size_t size, const char *file, int line)
451 const char *p;
452 size_t len;
453 char *copy;
455 /* Don't assume that the source string is nul-terminated. */
456 for (p = s; (size_t) (p - s) < size && *p != '\0'; p++)
458 len = (size_t) (p - s);
459 copy = (char *) malloc(len + 1);
460 if (copy == NULL)
461 sysdie("failed to strndup %lu bytes at %s line %d",
462 (unsigned long) len, file, line);
463 memcpy(copy, s, len);
464 copy[len] = '\0';
465 return copy;
470 * Form a new string by concatenating multiple strings. The arguments must be
471 * terminated by (const char *) 0.
473 * This function only exists because we can't assume asprintf. We can't
474 * simulate asprintf with snprintf because we're only assuming SUSv3, which
475 * does not require that snprintf with a NULL buffer return the required
476 * length. When those constraints are relaxed, this should be ripped out and
477 * replaced with asprintf or a more trivial replacement with snprintf.
479 static char *
480 concat(const char *first, ...)
482 va_list args;
483 char *result;
484 const char *string;
485 size_t offset;
486 size_t length = 0;
489 * Find the total memory required. Ensure we don't overflow length. We
490 * aren't guaranteed to have SIZE_MAX, so use UINT_MAX as an acceptable
491 * substitute (see the x_nrealloc comments).
493 va_start(args, first);
494 for (string = first; string != NULL; string = va_arg(args, const char *)) {
495 if (length >= UINT_MAX - strlen(string)) {
496 errno = EINVAL;
497 sysdie("strings too long in concat");
499 length += strlen(string);
501 va_end(args);
502 length++;
504 /* Create the string. */
505 result = xmalloc(length);
506 va_start(args, first);
507 offset = 0;
508 for (string = first; string != NULL; string = va_arg(args, const char *)) {
509 memcpy(result + offset, string, strlen(string));
510 offset += strlen(string);
512 va_end(args);
513 result[offset] = '\0';
514 return result;
519 * Given a struct timeval, return the number of seconds it represents as a
520 * double. Use difftime() to convert a time_t to a double.
522 static double
523 tv_seconds(const struct timeval *tv)
525 return difftime(tv->tv_sec, 0) + (double) tv->tv_usec * 1e-6;
530 * Given two struct timevals, return the difference in seconds.
532 static double
533 tv_diff(const struct timeval *tv1, const struct timeval *tv0)
535 return tv_seconds(tv1) - tv_seconds(tv0);
540 * Given two struct timevals, return the sum in seconds as a double.
542 static double
543 tv_sum(const struct timeval *tv1, const struct timeval *tv2)
545 return tv_seconds(tv1) + tv_seconds(tv2);
550 * Given a pointer to a string, skip any leading whitespace and return a
551 * pointer to the first non-whitespace character.
553 static const char *
554 skip_whitespace(const char *p)
556 while (isspace((unsigned char) (*p)))
557 p++;
558 return p;
563 * Given a pointer to a string, skip any non-whitespace characters and return
564 * a pointer to the first whitespace character, or to the end of the string.
566 static const char *
567 skip_non_whitespace(const char *p)
569 while (*p != '\0' && !isspace((unsigned char) (*p)))
570 p++;
571 return p;
576 * Start a program, connecting its stdout to a pipe on our end and its stderr
577 * to /dev/null, and storing the file descriptor to read from in the two
578 * argument. Returns the PID of the new process. Errors are fatal.
580 static pid_t
581 test_start(char *const *command, int *fd)
583 int fds[2], infd, errfd;
584 pid_t child;
586 /* Create a pipe used to capture the output from the test program. */
587 if (pipe(fds) == -1) {
588 puts("ABORTED");
589 fflush(stdout);
590 sysdie("can't create pipe");
593 /* Fork a child process, massage the file descriptors, and exec. */
594 child = fork();
595 switch (child) {
596 case -1:
597 puts("ABORTED");
598 fflush(stdout);
599 sysdie("can't fork");
601 /* In the child. Set up our standard output. */
602 case 0:
603 close(fds[0]);
604 close(STDOUT_FILENO);
605 if (dup2(fds[1], STDOUT_FILENO) < 0)
606 _exit(CHILDERR_DUP);
607 close(fds[1]);
609 /* Point standard input at /dev/null. */
610 close(STDIN_FILENO);
611 infd = open("/dev/null", O_RDONLY);
612 if (infd < 0)
613 _exit(CHILDERR_STDIN);
614 if (infd != STDIN_FILENO) {
615 if (dup2(infd, STDIN_FILENO) < 0)
616 _exit(CHILDERR_DUP);
617 close(infd);
620 /* Point standard error at /dev/null. */
621 close(STDERR_FILENO);
622 errfd = open("/dev/null", O_WRONLY);
623 if (errfd < 0)
624 _exit(CHILDERR_STDERR);
625 if (errfd != STDERR_FILENO) {
626 if (dup2(errfd, STDERR_FILENO) < 0)
627 _exit(CHILDERR_DUP);
628 close(errfd);
631 /* Now, exec our process. */
632 if (execv(command[0], command) == -1)
633 _exit(CHILDERR_EXEC);
634 break;
636 /* In parent. Close the extra file descriptor. */
637 default:
638 close(fds[1]);
639 break;
641 *fd = fds[0];
642 return child;
647 * Back up over the output saying what test we were executing.
649 static void
650 test_backspace(struct testset *ts)
652 unsigned int i;
654 if (!isatty(STDOUT_FILENO))
655 return;
656 for (i = 0; i < ts->length; i++)
657 putchar('\b');
658 for (i = 0; i < ts->length; i++)
659 putchar(' ');
660 for (i = 0; i < ts->length; i++)
661 putchar('\b');
662 ts->length = 0;
667 * Allocate or resize the array of test results to be large enough to contain
668 * the test number in.
670 static void
671 resize_results(struct testset *ts, unsigned long n)
673 unsigned long i;
674 size_t s;
676 /* If there's already enough space, return quickly. */
677 if (n <= ts->allocated)
678 return;
681 * If no space has been allocated, do the initial allocation. Otherwise,
682 * resize. Start with 32 test cases and then add 1024 with each resize to
683 * try to reduce the number of reallocations.
685 if (ts->allocated == 0) {
686 s = (n > 32) ? n : 32;
687 ts->results = xcalloc(s, enum test_status);
688 } else {
689 s = (n > ts->allocated + 1024) ? n : ts->allocated + 1024;
690 ts->results = xreallocarray(ts->results, s, enum test_status);
693 /* Set the results for the newly-allocated test array. */
694 for (i = ts->allocated; i < s; i++)
695 ts->results[i] = TEST_INVALID;
696 ts->allocated = s;
701 * Report an invalid test number and set the appropriate flags. Pulled into a
702 * separate function since we do this in several places.
704 static void
705 invalid_test_number(struct testset *ts, long n, enum test_verbose verbose)
707 if (!verbose)
708 test_backspace(ts);
709 printf("ABORTED (invalid test number %ld)\n", n);
710 ts->aborted = 1;
711 ts->reported = 1;
716 * Read the plan line of test output, which should contain the range of test
717 * numbers. We may initialize the testset structure here if we haven't yet
718 * seen a test. Return true if initialization succeeded and the test should
719 * continue, false otherwise.
721 static int
722 test_plan(const char *line, struct testset *ts, enum test_verbose verbose)
724 long n;
727 * Accept a plan without the leading 1.. for compatibility with older
728 * versions of runtests. This will only be allowed if we've not yet seen
729 * a test result.
731 line = skip_whitespace(line);
732 if (strncmp(line, "1..", 3) == 0)
733 line += 3;
736 * Get the count and check it for validity.
738 * If we have something of the form "1..0 # skip foo", the whole file was
739 * skipped; record that. If we do skip the whole file, zero out all of
740 * our statistics, since they're no longer relevant.
742 * strtol is called with a second argument to advance the line pointer
743 * past the count to make it simpler to detect the # skip case.
745 n = strtol(line, (char **) &line, 10);
746 if (n == 0) {
747 line = skip_whitespace(line);
748 if (*line == '#') {
749 line = skip_whitespace(line + 1);
750 if (strncasecmp(line, "skip", 4) == 0) {
751 line = skip_whitespace(line + 4);
752 if (*line != '\0') {
753 ts->reason = xstrdup(line);
754 ts->reason[strlen(ts->reason) - 1] = '\0';
756 ts->all_skipped = 1;
757 ts->aborted = 1;
758 ts->count = 0;
759 ts->passed = 0;
760 ts->skipped = 0;
761 ts->failed = 0;
762 return 0;
766 if (n <= 0) {
767 puts("ABORTED (invalid test count)");
768 ts->aborted = 1;
769 ts->reported = 1;
770 return 0;
774 * If we are doing lazy planning, check the plan against the largest test
775 * number that we saw and fail now if we saw a check outside the plan
776 * range.
778 if (ts->plan == PLAN_PENDING && (unsigned long) n < ts->count) {
779 invalid_test_number(ts, (long) ts->count, verbose);
780 return 0;
784 * Otherwise, allocated or resize the results if needed and update count,
785 * and then record that we've seen a plan.
787 resize_results(ts, (unsigned long) n);
788 ts->count = (unsigned long) n;
789 if (ts->plan == PLAN_INIT)
790 ts->plan = PLAN_FIRST;
791 else if (ts->plan == PLAN_PENDING)
792 ts->plan = PLAN_FINAL;
793 return 1;
798 * Given a single line of output from a test, parse it and return the success
799 * status of that test. Anything printed to stdout not matching the form
800 * /^(not )?ok \d+/ is ignored. Sets ts->current to the test number that just
801 * reported status.
803 static void
804 test_checkline(const char *line, struct testset *ts, enum test_verbose verbose)
806 enum test_status status = TEST_PASS;
807 const char *bail;
808 char *end;
809 long number;
810 unsigned long current;
811 int outlen;
813 /* Before anything, check for a test abort. */
814 bail = strstr(line, "Bail out!");
815 if (bail != NULL) {
816 bail = skip_whitespace(bail + strlen("Bail out!"));
817 if (*bail != '\0') {
818 size_t length;
820 length = strlen(bail);
821 if (bail[length - 1] == '\n')
822 length--;
823 if (!verbose)
824 test_backspace(ts);
825 printf("ABORTED (%.*s)\n", (int) length, bail);
826 ts->reported = 1;
828 ts->aborted = 1;
829 return;
833 * If the given line isn't newline-terminated, it was too big for an
834 * fgets(), which means ignore it.
836 if (line[strlen(line) - 1] != '\n')
837 return;
839 /* If the line begins with a hash mark, ignore it. */
840 if (line[0] == '#')
841 return;
843 /* If we haven't yet seen a plan, look for one. */
844 if (ts->plan == PLAN_INIT && isdigit((unsigned char) (*line))) {
845 if (!test_plan(line, ts, verbose))
846 return;
847 } else if (strncmp(line, "1..", 3) == 0) {
848 if (ts->plan == PLAN_PENDING) {
849 if (!test_plan(line, ts, verbose))
850 return;
851 } else {
852 if (!verbose)
853 test_backspace(ts);
854 puts("ABORTED (multiple plans)");
855 ts->aborted = 1;
856 ts->reported = 1;
857 return;
861 /* Parse the line, ignoring something we can't parse. */
862 if (strncmp(line, "not ", 4) == 0) {
863 status = TEST_FAIL;
864 line += 4;
866 if (strncmp(line, "ok", 2) != 0)
867 return;
868 line = skip_whitespace(line + 2);
869 errno = 0;
870 number = strtol(line, &end, 10);
871 if (errno != 0 || end == line)
872 current = ts->current + 1;
873 else if (number <= 0) {
874 invalid_test_number(ts, number, verbose);
875 return;
876 } else
877 current = (unsigned long) number;
878 if (current > ts->count && ts->plan == PLAN_FIRST) {
879 invalid_test_number(ts, (long) current, verbose);
880 return;
883 /* We have a valid test result. Tweak the results array if needed. */
884 if (ts->plan == PLAN_INIT || ts->plan == PLAN_PENDING) {
885 ts->plan = PLAN_PENDING;
886 resize_results(ts, current);
887 if (current > ts->count)
888 ts->count = current;
892 * Handle directives. We should probably do something more interesting
893 * with unexpected passes of todo tests.
895 while (isdigit((unsigned char) (*line)))
896 line++;
897 line = skip_whitespace(line);
898 if (*line == '#') {
899 line = skip_whitespace(line + 1);
900 if (strncasecmp(line, "skip", 4) == 0)
901 status = TEST_SKIP;
902 if (strncasecmp(line, "todo", 4) == 0)
903 status = (status == TEST_FAIL) ? TEST_SKIP : TEST_FAIL;
906 /* Make sure that the test number is in range and not a duplicate. */
907 if (ts->results[current - 1] != TEST_INVALID) {
908 if (!verbose)
909 test_backspace(ts);
910 printf("ABORTED (duplicate test number %lu)\n", current);
911 ts->aborted = 1;
912 ts->reported = 1;
913 return;
916 /* Good results. Increment our various counters. */
917 switch (status) {
918 case TEST_PASS:
919 ts->passed++;
920 break;
921 case TEST_FAIL:
922 ts->failed++;
923 break;
924 case TEST_SKIP:
925 ts->skipped++;
926 break;
927 case TEST_INVALID:
928 break;
930 ts->current = current;
931 ts->results[current - 1] = status;
932 if (!verbose && isatty(STDOUT_FILENO)) {
933 test_backspace(ts);
934 if (ts->plan == PLAN_PENDING)
935 outlen = printf("%lu/?", current);
936 else
937 outlen = printf("%lu/%lu", current, ts->count);
938 ts->length = (outlen >= 0) ? (unsigned int) outlen : 0;
939 fflush(stdout);
945 * Print out a range of test numbers, returning the number of characters it
946 * took up. Takes the first number, the last number, the number of characters
947 * already printed on the line, and the limit of number of characters the line
948 * can hold. Add a comma and a space before the range if chars indicates that
949 * something has already been printed on the line, and print ... instead if
950 * chars plus the space needed would go over the limit (use a limit of 0 to
951 * disable this).
953 static unsigned int
954 test_print_range(unsigned long first, unsigned long last, unsigned long chars,
955 unsigned int limit)
957 unsigned int needed = 0;
958 unsigned long n;
960 for (n = first; n > 0; n /= 10)
961 needed++;
962 if (last > first) {
963 for (n = last; n > 0; n /= 10)
964 needed++;
965 needed++;
967 if (chars > 0)
968 needed += 2;
969 if (limit > 0 && chars + needed > limit) {
970 needed = 0;
971 if (chars <= limit) {
972 if (chars > 0) {
973 printf(", ");
974 needed += 2;
976 printf("...");
977 needed += 3;
979 } else {
980 if (chars > 0)
981 printf(", ");
982 if (last > first)
983 printf("%lu-", first);
984 printf("%lu", last);
986 return needed;
991 * Summarize a single test set. The second argument is 0 if the set exited
992 * cleanly, a positive integer representing the exit status if it exited
993 * with a non-zero status, and a negative integer representing the signal
994 * that terminated it if it was killed by a signal.
996 static void
997 test_summarize(struct testset *ts, int status)
999 unsigned long i;
1000 unsigned long missing = 0;
1001 unsigned long failed = 0;
1002 unsigned long first = 0;
1003 unsigned long last = 0;
1005 if (ts->aborted) {
1006 fputs("ABORTED", stdout);
1007 if (ts->count > 0)
1008 printf(" (passed %lu/%lu)", ts->passed, ts->count - ts->skipped);
1009 } else {
1010 for (i = 0; i < ts->count; i++) {
1011 if (ts->results[i] == TEST_INVALID) {
1012 if (missing == 0)
1013 fputs("MISSED ", stdout);
1014 if (first && i == last)
1015 last = i + 1;
1016 else {
1017 if (first)
1018 test_print_range(first, last, missing - 1, 0);
1019 missing++;
1020 first = i + 1;
1021 last = i + 1;
1025 if (first)
1026 test_print_range(first, last, missing - 1, 0);
1027 first = 0;
1028 last = 0;
1029 for (i = 0; i < ts->count; i++) {
1030 if (ts->results[i] == TEST_FAIL) {
1031 if (missing && !failed)
1032 fputs("; ", stdout);
1033 if (failed == 0)
1034 fputs("FAILED ", stdout);
1035 if (first && i == last)
1036 last = i + 1;
1037 else {
1038 if (first)
1039 test_print_range(first, last, failed - 1, 0);
1040 failed++;
1041 first = i + 1;
1042 last = i + 1;
1046 if (first)
1047 test_print_range(first, last, failed - 1, 0);
1048 if (!missing && !failed) {
1049 fputs(!status ? "ok" : "dubious", stdout);
1050 if (ts->skipped > 0) {
1051 if (ts->skipped == 1)
1052 printf(" (skipped %lu test)", ts->skipped);
1053 else
1054 printf(" (skipped %lu tests)", ts->skipped);
1058 if (status > 0)
1059 printf(" (exit status %d)", status);
1060 else if (status < 0)
1061 printf(" (killed by signal %d%s)", -status,
1062 WCOREDUMP(ts->status) ? ", core dumped" : "");
1063 putchar('\n');
1068 * Given a test set, analyze the results, classify the exit status, handle a
1069 * few special error messages, and then pass it along to test_summarize() for
1070 * the regular output. Returns true if the test set ran successfully and all
1071 * tests passed or were skipped, false otherwise.
1073 static int
1074 test_analyze(struct testset *ts)
1076 if (ts->reported)
1077 return 0;
1078 if (ts->all_skipped) {
1079 if (ts->reason == NULL)
1080 puts("skipped");
1081 else
1082 printf("skipped (%s)\n", ts->reason);
1083 return 1;
1084 } else if (WIFEXITED(ts->status) && WEXITSTATUS(ts->status) != 0) {
1085 switch (WEXITSTATUS(ts->status)) {
1086 case CHILDERR_DUP:
1087 if (!ts->reported)
1088 puts("ABORTED (can't dup file descriptors)");
1089 break;
1090 case CHILDERR_EXEC:
1091 if (!ts->reported)
1092 puts("ABORTED (execution failed -- not found?)");
1093 break;
1094 case CHILDERR_STDIN:
1095 case CHILDERR_STDERR:
1096 if (!ts->reported)
1097 puts("ABORTED (can't open /dev/null)");
1098 break;
1099 default:
1100 test_summarize(ts, WEXITSTATUS(ts->status));
1101 break;
1103 return 0;
1104 } else if (WIFSIGNALED(ts->status)) {
1105 test_summarize(ts, -WTERMSIG(ts->status));
1106 return 0;
1107 } else if (ts->plan != PLAN_FIRST && ts->plan != PLAN_FINAL) {
1108 puts("ABORTED (no valid test plan)");
1109 ts->aborted = 1;
1110 return 0;
1111 } else {
1112 test_summarize(ts, 0);
1113 return (ts->failed == 0);
1119 * Runs a single test set, accumulating and then reporting the results.
1120 * Returns true if the test set was successfully run and all tests passed,
1121 * false otherwise.
1123 static int
1124 test_run(struct testset *ts, enum test_verbose verbose)
1126 pid_t testpid, child;
1127 int outfd, status;
1128 unsigned long i;
1129 FILE *output;
1130 char buffer[BUFSIZ];
1132 /* Run the test program. */
1133 testpid = test_start(ts->command, &outfd);
1134 output = fdopen(outfd, "r");
1135 if (!output) {
1136 puts("ABORTED");
1137 fflush(stdout);
1138 sysdie("fdopen failed");
1142 * Pass each line of output to test_checkline(), and print the line if
1143 * verbosity is requested.
1145 while (!ts->aborted && fgets(buffer, sizeof(buffer), output)) {
1146 if (verbose)
1147 printf("%s", buffer);
1148 test_checkline(buffer, ts, verbose);
1150 if (ferror(output) || ts->plan == PLAN_INIT)
1151 ts->aborted = 1;
1152 if (!verbose)
1153 test_backspace(ts);
1156 * Consume the rest of the test output, close the output descriptor,
1157 * retrieve the exit status, and pass that information to test_analyze()
1158 * for eventual output.
1160 while (fgets(buffer, sizeof(buffer), output))
1161 if (verbose)
1162 printf("%s", buffer);
1163 fclose(output);
1164 child = waitpid(testpid, &ts->status, 0);
1165 if (child == (pid_t) -1) {
1166 if (!ts->reported) {
1167 puts("ABORTED");
1168 fflush(stdout);
1170 sysdie("waitpid for %u failed", (unsigned int) testpid);
1172 if (ts->all_skipped)
1173 ts->aborted = 0;
1174 status = test_analyze(ts);
1176 /* Convert missing tests to failed tests. */
1177 for (i = 0; i < ts->count; i++) {
1178 if (ts->results[i] == TEST_INVALID) {
1179 ts->failed++;
1180 ts->results[i] = TEST_FAIL;
1181 status = 0;
1184 return status;
1188 /* Summarize a list of test failures. */
1189 static void
1190 test_fail_summary(const struct testlist *fails)
1192 struct testset *ts;
1193 unsigned int chars;
1194 unsigned long i, first, last, total;
1195 double failed;
1197 puts(header);
1199 /* Failed Set Fail/Total (%) Skip Stat Failing (25)
1200 -------------------------- -------------- ---- ---- -------------- */
1201 for (; fails; fails = fails->next) {
1202 ts = fails->ts;
1203 total = ts->count - ts->skipped;
1204 failed = (double) ts->failed;
1205 printf("%-26.26s %4lu/%-4lu %3.0f%% %4lu ", ts->file, ts->failed,
1206 total, total ? (failed * 100.0) / (double) total : 0,
1207 ts->skipped);
1208 if (WIFEXITED(ts->status))
1209 printf("%4d ", WEXITSTATUS(ts->status));
1210 else
1211 printf(" -- ");
1212 if (ts->aborted) {
1213 puts("aborted");
1214 continue;
1216 chars = 0;
1217 first = 0;
1218 last = 0;
1219 for (i = 0; i < ts->count; i++) {
1220 if (ts->results[i] == TEST_FAIL) {
1221 if (first != 0 && i == last)
1222 last = i + 1;
1223 else {
1224 if (first != 0)
1225 chars += test_print_range(first, last, chars, 19);
1226 first = i + 1;
1227 last = i + 1;
1231 if (first != 0)
1232 test_print_range(first, last, chars, 19);
1233 putchar('\n');
1239 * Check whether a given file path is a valid test. Currently, this checks
1240 * whether it is executable and is a regular file. Returns true or false.
1242 static int
1243 is_valid_test(const char *path)
1245 struct stat st;
1247 if (access(path, X_OK) < 0)
1248 return 0;
1249 if (stat(path, &st) < 0)
1250 return 0;
1251 if (!S_ISREG(st.st_mode))
1252 return 0;
1253 return 1;
1258 * Given the name of a test, a pointer to the testset struct, and the source
1259 * and build directories, find the test. We try first relative to the current
1260 * directory, then in the build directory (if not NULL), then in the source
1261 * directory. In each of those directories, we first try a "-t" extension and
1262 * then a ".t" extension. When we find an executable program, we return the
1263 * path to that program. If none of those paths are executable, just fill in
1264 * the name of the test as is.
1266 * The caller is responsible for freeing the path member of the testset
1267 * struct.
1269 static char *
1270 find_test(const char *name, const char *source, const char *build)
1272 char *path = NULL;
1273 const char *bases[3], *suffix, *base;
1274 unsigned int i, j;
1275 const char *suffixes[3] = {"-t", ".t", ""};
1277 /* Possible base directories. */
1278 bases[0] = ".";
1279 bases[1] = build;
1280 bases[2] = source;
1282 /* Try each suffix with each base. */
1283 for (i = 0; i < ARRAY_SIZE(suffixes); i++) {
1284 suffix = suffixes[i];
1285 for (j = 0; j < ARRAY_SIZE(bases); j++) {
1286 base = bases[j];
1287 if (base == NULL)
1288 continue;
1289 path = concat(base, "/", name, suffix, (const char *) 0);
1290 if (is_valid_test(path))
1291 return path;
1292 free(path);
1293 path = NULL;
1296 if (path == NULL)
1297 path = xstrdup(name);
1298 return path;
1303 * Parse a single line of a test list and store the test name and command to
1304 * execute it in the given testset struct.
1306 * Normally, each line is just the name of the test, which is located in the
1307 * test directory and turned into a command to run. However, each line may
1308 * have whitespace-separated options, which change the command that's run.
1309 * Current supported options are:
1311 * valgrind
1312 * Run the test under valgrind if C_TAP_VALGRIND is set. The contents
1313 * of that environment variable are taken as the valgrind command (with
1314 * options) to run. The command is parsed with a simple split on
1315 * whitespace and no quoting is supported.
1317 * libtool
1318 * If running under valgrind, use libtool to invoke valgrind. This avoids
1319 * running valgrind on the wrapper shell script generated by libtool. If
1320 * set, C_TAP_LIBTOOL must be set to the full path to the libtool program
1321 * to use to run valgrind and thus the test. Ignored if the test isn't
1322 * being run under valgrind.
1324 static void
1325 parse_test_list_line(const char *line, struct testset *ts, const char *source,
1326 const char *build)
1328 const char *p, *end, *option, *libtool;
1329 const char *valgrind = NULL;
1330 unsigned int use_libtool = 0;
1331 unsigned int use_valgrind = 0;
1332 size_t len, i;
1334 /* Determine the name of the test. */
1335 p = skip_non_whitespace(line);
1336 ts->file = xstrndup(line, p - line);
1338 /* Check if any test options are set. */
1339 p = skip_whitespace(p);
1340 while (*p != '\0') {
1341 end = skip_non_whitespace(p);
1342 if (strncmp(p, "libtool", end - p) == 0) {
1343 use_libtool = 1;
1344 } else if (strncmp(p, "valgrind", end - p) == 0) {
1345 valgrind = getenv("C_TAP_VALGRIND");
1346 use_valgrind = (valgrind != NULL);
1347 } else {
1348 option = xstrndup(p, end - p);
1349 die("unknown test list option %s", option);
1351 p = skip_whitespace(end);
1354 /* Construct the argv to run the test. First, find the length. */
1355 len = 1;
1356 if (use_valgrind && valgrind != NULL) {
1357 p = skip_whitespace(valgrind);
1358 while (*p != '\0') {
1359 len++;
1360 p = skip_whitespace(skip_non_whitespace(p));
1362 if (use_libtool)
1363 len += 2;
1366 /* Now, build the command. */
1367 ts->command = xcalloc(len + 1, char *);
1368 i = 0;
1369 if (use_valgrind && valgrind != NULL) {
1370 if (use_libtool) {
1371 libtool = getenv("C_TAP_LIBTOOL");
1372 if (libtool == NULL)
1373 die("valgrind with libtool requested, but C_TAP_LIBTOOL is not"
1374 " set");
1375 ts->command[i++] = xstrdup(libtool);
1376 ts->command[i++] = xstrdup("--mode=execute");
1378 p = skip_whitespace(valgrind);
1379 while (*p != '\0') {
1380 end = skip_non_whitespace(p);
1381 ts->command[i++] = xstrndup(p, end - p);
1382 p = skip_whitespace(end);
1385 if (i != len - 1)
1386 die("internal error while constructing command line");
1387 ts->command[i++] = find_test(ts->file, source, build);
1388 ts->command[i] = NULL;
1393 * Read a list of tests from a file, returning the list of tests as a struct
1394 * testlist, or NULL if there were no tests (such as a file containing only
1395 * comments). Reports an error to standard error and exits if the list of
1396 * tests cannot be read.
1398 static struct testlist *
1399 read_test_list(const char *filename, const char *source, const char *build)
1401 FILE *file;
1402 unsigned int line;
1403 size_t length;
1404 char buffer[BUFSIZ];
1405 const char *start;
1406 struct testlist *listhead, *current;
1408 /* Create the initial container list that will hold our results. */
1409 listhead = xcalloc(1, struct testlist);
1410 current = NULL;
1413 * Open our file of tests to run and read it line by line, creating a new
1414 * struct testlist and struct testset for each line.
1416 file = fopen(filename, "r");
1417 if (file == NULL)
1418 sysdie("can't open %s", filename);
1419 line = 0;
1420 while (fgets(buffer, sizeof(buffer), file)) {
1421 line++;
1422 length = strlen(buffer) - 1;
1423 if (buffer[length] != '\n') {
1424 fprintf(stderr, "%s:%u: line too long\n", filename, line);
1425 exit(1);
1427 buffer[length] = '\0';
1429 /* Skip comments, leading spaces, and blank lines. */
1430 start = skip_whitespace(buffer);
1431 if (strlen(start) == 0)
1432 continue;
1433 if (start[0] == '#')
1434 continue;
1436 /* Allocate the new testset structure. */
1437 if (current == NULL)
1438 current = listhead;
1439 else {
1440 current->next = xcalloc(1, struct testlist);
1441 current = current->next;
1443 current->ts = xcalloc(1, struct testset);
1444 current->ts->plan = PLAN_INIT;
1446 /* Parse the line and store the results in the testset struct. */
1447 parse_test_list_line(start, current->ts, source, build);
1449 fclose(file);
1451 /* If there were no tests, current is still NULL. */
1452 if (current == NULL) {
1453 free(listhead);
1454 return NULL;
1457 /* Return the results. */
1458 return listhead;
1463 * Build a list of tests from command line arguments. Takes the argv and argc
1464 * representing the command line arguments and returns a newly allocated test
1465 * list, or NULL if there were no tests. The caller is responsible for
1466 * freeing.
1468 static struct testlist *
1469 build_test_list(char *argv[], int argc, const char *source, const char *build)
1471 int i;
1472 struct testlist *listhead, *current;
1474 /* Create the initial container list that will hold our results. */
1475 listhead = xcalloc(1, struct testlist);
1476 current = NULL;
1478 /* Walk the list of arguments and create test sets for them. */
1479 for (i = 0; i < argc; i++) {
1480 if (current == NULL)
1481 current = listhead;
1482 else {
1483 current->next = xcalloc(1, struct testlist);
1484 current = current->next;
1486 current->ts = xcalloc(1, struct testset);
1487 current->ts->plan = PLAN_INIT;
1488 current->ts->file = xstrdup(argv[i]);
1489 current->ts->command = xcalloc(2, char *);
1490 current->ts->command[0] = find_test(current->ts->file, source, build);
1491 current->ts->command[1] = NULL;
1494 /* If there were no tests, current is still NULL. */
1495 if (current == NULL) {
1496 free(listhead);
1497 return NULL;
1500 /* Return the results. */
1501 return listhead;
1505 /* Free a struct testset. */
1506 static void
1507 free_testset(struct testset *ts)
1509 size_t i;
1511 free(ts->file);
1512 for (i = 0; ts->command[i] != NULL; i++)
1513 free(ts->command[i]);
1514 free(ts->command);
1515 free(ts->results);
1516 free(ts->reason);
1517 free(ts);
1522 * Run a batch of tests. Takes two additional parameters: the root of the
1523 * source directory and the root of the build directory. Test programs will
1524 * be first searched for in the current directory, then the build directory,
1525 * then the source directory. Returns true iff all tests passed, and always
1526 * frees the test list that's passed in.
1528 static int
1529 test_batch(struct testlist *tests, enum test_verbose verbose)
1531 size_t length, i;
1532 size_t longest = 0;
1533 unsigned int count = 0;
1534 struct testset *ts;
1535 struct timeval start, end;
1536 struct rusage stats;
1537 struct testlist *failhead = NULL;
1538 struct testlist *failtail = NULL;
1539 struct testlist *current, *next;
1540 int succeeded;
1541 unsigned long total = 0;
1542 unsigned long passed = 0;
1543 unsigned long skipped = 0;
1544 unsigned long failed = 0;
1545 unsigned long aborted = 0;
1547 /* Walk the list of tests to find the longest name. */
1548 for (current = tests; current != NULL; current = current->next) {
1549 length = strlen(current->ts->file);
1550 if (length > longest)
1551 longest = length;
1555 * Add two to longest and round up to the nearest tab stop. This is how
1556 * wide the column for printing the current test name will be.
1558 longest += 2;
1559 if (longest % 8)
1560 longest += 8 - (longest % 8);
1562 /* Start the wall clock timer. */
1563 gettimeofday(&start, NULL);
1565 /* Now, plow through our tests again, running each one. */
1566 for (current = tests; current != NULL; current = current->next) {
1567 ts = current->ts;
1569 /* Print out the name of the test file. */
1570 fputs(ts->file, stdout);
1571 if (verbose)
1572 fputs("\n\n", stdout);
1573 else
1574 for (i = strlen(ts->file); i < longest; i++)
1575 putchar('.');
1576 if (isatty(STDOUT_FILENO))
1577 fflush(stdout);
1579 /* Run the test. */
1580 succeeded = test_run(ts, verbose);
1581 fflush(stdout);
1582 if (verbose)
1583 putchar('\n');
1585 /* Record cumulative statistics. */
1586 aborted += ts->aborted;
1587 total += ts->count + ts->all_skipped;
1588 passed += ts->passed;
1589 skipped += ts->skipped + ts->all_skipped;
1590 failed += ts->failed;
1591 count++;
1593 /* If the test fails, we shuffle it over to the fail list. */
1594 if (!succeeded) {
1595 if (failhead == NULL) {
1596 failhead = xcalloc(1, struct testlist);
1597 failtail = failhead;
1598 } else {
1599 failtail->next = xcalloc(1, struct testlist);
1600 failtail = failtail->next;
1602 failtail->ts = ts;
1603 failtail->next = NULL;
1606 total -= skipped;
1608 /* Stop the timer and get our child resource statistics. */
1609 gettimeofday(&end, NULL);
1610 getrusage(RUSAGE_CHILDREN, &stats);
1612 /* Summarize the failures and free the failure list. */
1613 if (failhead != NULL) {
1614 test_fail_summary(failhead);
1615 while (failhead != NULL) {
1616 next = failhead->next;
1617 free(failhead);
1618 failhead = next;
1622 /* Free the memory used by the test lists. */
1623 while (tests != NULL) {
1624 next = tests->next;
1625 free_testset(tests->ts);
1626 free(tests);
1627 tests = next;
1630 /* Print out the final test summary. */
1631 putchar('\n');
1632 if (aborted != 0) {
1633 if (aborted == 1)
1634 printf("Aborted %lu test set", aborted);
1635 else
1636 printf("Aborted %lu test sets", aborted);
1637 printf(", passed %lu/%lu tests", passed, total);
1638 } else if (failed == 0)
1639 fputs("All tests successful", stdout);
1640 else
1641 printf("Failed %lu/%lu tests, %.2f%% okay", failed, total,
1642 (double) (total - failed) * 100.0 / (double) total);
1643 if (skipped != 0) {
1644 if (skipped == 1)
1645 printf(", %lu test skipped", skipped);
1646 else
1647 printf(", %lu tests skipped", skipped);
1649 puts(".");
1650 printf("Files=%u, Tests=%lu", count, total);
1651 printf(", %.2f seconds", tv_diff(&end, &start));
1652 printf(" (%.2f usr + %.2f sys = %.2f CPU)\n", tv_seconds(&stats.ru_utime),
1653 tv_seconds(&stats.ru_stime),
1654 tv_sum(&stats.ru_utime, &stats.ru_stime));
1655 return (failed == 0 && aborted == 0);
1660 * Run a single test case. This involves just running the test program after
1661 * having done the environment setup and finding the test program.
1663 static void
1664 test_single(const char *program, const char *source, const char *build)
1666 char *path;
1668 path = find_test(program, source, build);
1669 if (execl(path, path, (char *) 0) == -1)
1670 sysdie("cannot exec %s", path);
1675 * Main routine. Set the C_TAP_SOURCE, C_TAP_BUILD, SOURCE, and BUILD
1676 * environment variables and then, given a file listing tests, run each test
1677 * listed.
1680 main(int argc, char *argv[])
1682 int option;
1683 int status = 0;
1684 int single = 0;
1685 enum test_verbose verbose = CONCISE;
1686 char *c_tap_source_env = NULL;
1687 char *c_tap_build_env = NULL;
1688 char *source_env = NULL;
1689 char *build_env = NULL;
1690 const char *program;
1691 const char *shortlist;
1692 const char *list = NULL;
1693 const char *source = C_TAP_SOURCE;
1694 const char *build = C_TAP_BUILD;
1695 struct testlist *tests;
1697 program = argv[0];
1698 while ((option = getopt(argc, argv, "b:hl:os:v")) != EOF) {
1699 switch (option) {
1700 case 'b':
1701 build = optarg;
1702 break;
1703 case 'h':
1704 printf(usage_message, program, program, program, usage_extra);
1705 exit(0);
1706 case 'l':
1707 list = optarg;
1708 break;
1709 case 'o':
1710 single = 1;
1711 break;
1712 case 's':
1713 source = optarg;
1714 break;
1715 case 'v':
1716 verbose = VERBOSE;
1717 break;
1718 default:
1719 exit(1);
1722 argv += optind;
1723 argc -= optind;
1724 if ((list == NULL && argc < 1) || (list != NULL && argc > 0)) {
1725 fprintf(stderr, usage_message, program, program, program, usage_extra);
1726 exit(1);
1730 * If C_TAP_VERBOSE is set in the environment, that also turns on verbose
1731 * mode.
1733 if (getenv("C_TAP_VERBOSE") != NULL)
1734 verbose = VERBOSE;
1737 * Set C_TAP_SOURCE and C_TAP_BUILD environment variables. Also set
1738 * SOURCE and BUILD for backward compatibility, although we're trying to
1739 * migrate to the ones with a C_TAP_* prefix.
1741 if (source != NULL) {
1742 c_tap_source_env = concat("C_TAP_SOURCE=", source, (const char *) 0);
1743 if (putenv(c_tap_source_env) != 0)
1744 sysdie("cannot set C_TAP_SOURCE in the environment");
1745 source_env = concat("SOURCE=", source, (const char *) 0);
1746 if (putenv(source_env) != 0)
1747 sysdie("cannot set SOURCE in the environment");
1749 if (build != NULL) {
1750 c_tap_build_env = concat("C_TAP_BUILD=", build, (const char *) 0);
1751 if (putenv(c_tap_build_env) != 0)
1752 sysdie("cannot set C_TAP_BUILD in the environment");
1753 build_env = concat("BUILD=", build, (const char *) 0);
1754 if (putenv(build_env) != 0)
1755 sysdie("cannot set BUILD in the environment");
1758 /* Run the tests as instructed. */
1759 if (single)
1760 test_single(argv[0], source, build);
1761 else if (list != NULL) {
1762 shortlist = strrchr(list, '/');
1763 if (shortlist == NULL)
1764 shortlist = list;
1765 else
1766 shortlist++;
1767 printf(banner, shortlist);
1768 tests = read_test_list(list, source, build);
1769 status = test_batch(tests, verbose) ? 0 : 1;
1770 } else {
1771 tests = build_test_list(argv, argc, source, build);
1772 status = test_batch(tests, verbose) ? 0 : 1;
1775 /* For valgrind cleanliness, free all our memory. */
1776 if (source_env != NULL) {
1777 putenv((char *) "C_TAP_SOURCE=");
1778 putenv((char *) "SOURCE=");
1779 free(c_tap_source_env);
1780 free(source_env);
1782 if (build_env != NULL) {
1783 putenv((char *) "C_TAP_BUILD=");
1784 putenv((char *) "BUILD=");
1785 free(c_tap_build_env);
1786 free(build_env);
1788 exit(status);