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AUTHORS: Add Shu Shen.
[mirror_ovs.git] / tests / test-util.c
1 /*
2 * Copyright (c) 2011, 2012, 2013, 2014 Nicira, Inc.
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at:
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #include <config.h>
18 #undef NDEBUG
19 #include "util.h"
20 #include <assert.h>
21 #include <getopt.h>
22 #include <inttypes.h>
23 #include <limits.h>
24 #include <stdio.h>
25 #include <stdlib.h>
26 #include "byte-order.h"
27 #include "command-line.h"
28 #include "ovstest.h"
29 #include "random.h"
30 #include "vlog.h"
31
32 static void
33 check_log_2_floor(uint32_t x, int n)
34 {
35 if (log_2_floor(x) != n) {
36 fprintf(stderr, "log_2_floor(%"PRIu32") is %d but should be %d\n",
37 x, log_2_floor(x), n);
38 abort();
39 }
40 }
41
42 static void
43 test_log_2_floor(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
44 {
45 int n;
46
47 for (n = 0; n < 32; n++) {
48 /* Check minimum x such that f(x) == n. */
49 check_log_2_floor(1 << n, n);
50
51 /* Check maximum x such that f(x) == n. */
52 check_log_2_floor((1 << n) | ((1 << n) - 1), n);
53
54 /* Check a random value in the middle. */
55 check_log_2_floor((random_uint32() & ((1 << n) - 1)) | (1 << n), n);
56 }
57
58 /* log_2_floor(0) is undefined, so don't check it. */
59 }
60
61 static void
62 check_ctz32(uint32_t x, int n)
63 {
64 if (ctz32(x) != n) {
65 fprintf(stderr, "ctz32(%"PRIu32") is %d but should be %d\n",
66 x, ctz32(x), n);
67 abort();
68 }
69 }
70
71 static void
72 check_ctz64(uint64_t x, int n)
73 {
74 if (ctz64(x) != n) {
75 fprintf(stderr, "ctz64(%"PRIu64") is %d but should be %d\n",
76 x, ctz64(x), n);
77 abort();
78 }
79 }
80
81 static void
82 test_ctz(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
83 {
84 int n;
85
86 for (n = 0; n < 32; n++) {
87 /* Check minimum x such that f(x) == n. */
88 check_ctz32(1 << n, n);
89
90 /* Check maximum x such that f(x) == n. */
91 check_ctz32(UINT32_MAX << n, n);
92
93 /* Check a random value in the middle. */
94 check_ctz32((random_uint32() | 1) << n, n);
95 }
96
97
98 for (n = 0; n < 64; n++) {
99 /* Check minimum x such that f(x) == n. */
100 check_ctz64(UINT64_C(1) << n, n);
101
102 /* Check maximum x such that f(x) == n. */
103 check_ctz64(UINT64_MAX << n, n);
104
105 /* Check a random value in the middle. */
106 check_ctz64((random_uint64() | UINT64_C(1)) << n, n);
107 }
108
109 /* Check ctz(0). */
110 check_ctz32(0, 32);
111 check_ctz64(0, 64);
112 }
113
114 static void
115 check_clz32(uint32_t x, int n)
116 {
117 if (clz32(x) != n) {
118 fprintf(stderr, "clz32(%"PRIu32") is %d but should be %d\n",
119 x, clz32(x), n);
120 abort();
121 }
122 }
123
124 static void
125 check_clz64(uint64_t x, int n)
126 {
127 if (clz64(x) != n) {
128 fprintf(stderr, "clz64(%"PRIu64") is %d but should be %d\n",
129 x, clz64(x), n);
130 abort();
131 }
132 }
133
134 static void
135 test_clz(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
136 {
137 int n;
138
139 for (n = 0; n < 32; n++) {
140 /* Check minimum x such that f(x) == n. */
141 check_clz32((1u << 31) >> n, n);
142
143 /* Check maximum x such that f(x) == n. */
144 check_clz32(UINT32_MAX >> n, n);
145
146 /* Check a random value in the middle. */
147 check_clz32((random_uint32() | 1u << 31) >> n, n);
148 }
149
150 for (n = 0; n < 64; n++) {
151 /* Check minimum x such that f(x) == n. */
152 check_clz64((UINT64_C(1) << 63) >> n, n);
153
154 /* Check maximum x such that f(x) == n. */
155 check_clz64(UINT64_MAX >> n, n);
156
157 /* Check a random value in the middle. */
158 check_clz64((random_uint64() | UINT64_C(1) << 63) >> n, n);
159 }
160
161 /* Check clz(0). */
162 check_clz32(0, 32);
163 check_clz64(0, 64);
164 }
165
166 /* Returns a random number in the range 'min'...'max' inclusive. */
167 static uint32_t
168 random_in_range(uint32_t min, uint32_t max)
169 {
170 return min == max ? min : min + random_range(max - min + 1);
171 }
172
173 static void
174 check_rup2(uint32_t x, int n)
175 {
176 uint32_t rup2 = ROUND_UP_POW2(x);
177 if (rup2 != n) {
178 fprintf(stderr, "ROUND_UP_POW2(%#"PRIx32") is %#"PRIx32" "
179 "but should be %#"PRIx32"\n", x, rup2, n);
180 abort();
181 }
182 }
183
184 static void
185 test_round_up_pow2(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
186 {
187 int n;
188
189 for (n = 0; n < 32; n++) {
190 /* Min, max value for which ROUND_UP_POW2 should yield (1 << n). */
191 uint32_t min = ((1u << n) >> 1) + 1;
192 uint32_t max = 1u << n;
193
194 check_rup2(min, 1u << n);
195 check_rup2(max, 1u << n);
196 check_rup2(random_in_range(min, max), 1u << n);
197 }
198 check_rup2(0, 0);
199 }
200
201 static void
202 check_rdp2(uint32_t x, int n)
203 {
204 uint32_t rdp2 = ROUND_DOWN_POW2(x);
205 if (rdp2 != n) {
206 fprintf(stderr, "ROUND_DOWN_POW2(%#"PRIx32") is %#"PRIx32" "
207 "but should be %#"PRIx32"\n", x, rdp2, n);
208 abort();
209 }
210 }
211
212 static void
213 test_round_down_pow2(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
214 {
215 int n;
216
217 for (n = 0; n < 32; n++) {
218 /* Min, max value for which ROUND_DOWN_POW2 should yield (1 << n). */
219 uint32_t min = 1u << n;
220 uint32_t max = ((1u << n) << 1) - 1;
221
222 check_rdp2(min, 1u << n);
223 check_rdp2(max, 1u << n);
224 check_rdp2(random_in_range(min, max), 1u << n);
225 }
226 check_rdp2(0, 0);
227 }
228
229 static void
230 shuffle(uint64_t *p, size_t n)
231 {
232 for (; n > 1; n--, p++) {
233 uint64_t *q = &p[random_range(n)];
234 uint64_t tmp = *p;
235 *p = *q;
236 *q = tmp;
237 }
238 }
239
240 static void
241 check_count_1bits(uint64_t x, int n)
242 {
243 if (count_1bits(x) != n) {
244 fprintf(stderr, "count_1bits(%#"PRIx64") is %d but should be %d\n",
245 x, count_1bits(x), n);
246 abort();
247 }
248 }
249
250 static void
251 test_count_1bits(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
252 {
253 uint64_t bits[64];
254 int i;
255
256 for (i = 0; i < ARRAY_SIZE(bits); i++) {
257 bits[i] = UINT64_C(1) << i;
258 }
259
260 check_count_1bits(0, 0);
261
262 for (i = 0; i < 1000; i++) {
263 uint64_t x = 0;
264 int j;
265
266 shuffle(bits, ARRAY_SIZE(bits));
267 for (j = 0; j < 64; j++) {
268 x |= bits[j];
269 check_count_1bits(x, j + 1);
270 }
271 assert(x == UINT64_MAX);
272
273 shuffle(bits, ARRAY_SIZE(bits));
274 for (j = 63; j >= 0; j--) {
275 x &= ~bits[j];
276 check_count_1bits(x, j);
277 }
278 assert(x == 0);
279 }
280 }
281
282 /* Returns the sum of the squares of the first 'n' positive integers. */
283 static unsigned int
284 sum_of_squares(int n)
285 {
286 return n * (n + 1) * (2 * n + 1) / 6;
287 }
288
289 static void
290 test_bitwise_copy(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
291 {
292 unsigned int n_loops;
293 int src_ofs;
294 int dst_ofs;
295 int n_bits;
296
297 n_loops = 0;
298 for (n_bits = 0; n_bits <= 64; n_bits++) {
299 for (src_ofs = 0; src_ofs < 64 - n_bits; src_ofs++) {
300 for (dst_ofs = 0; dst_ofs < 64 - n_bits; dst_ofs++) {
301 ovs_be64 src = htonll(random_uint64());
302 ovs_be64 dst = htonll(random_uint64());
303 ovs_be64 orig_dst = dst;
304 ovs_be64 expect;
305
306 if (n_bits == 64) {
307 expect = dst;
308 } else {
309 uint64_t mask = (UINT64_C(1) << n_bits) - 1;
310 expect = orig_dst & ~htonll(mask << dst_ofs);
311 expect |= htonll(((ntohll(src) >> src_ofs) & mask)
312 << dst_ofs);
313 }
314
315 bitwise_copy(&src, sizeof src, src_ofs,
316 &dst, sizeof dst, dst_ofs,
317 n_bits);
318 if (expect != dst) {
319 fprintf(stderr,"copy_bits(0x%016"PRIx64",8,%d, "
320 "0x%016"PRIx64",8,%d, %d) yielded 0x%016"PRIx64" "
321 "instead of the expected 0x%016"PRIx64"\n",
322 ntohll(src), src_ofs,
323 ntohll(orig_dst), dst_ofs,
324 n_bits,
325 ntohll(dst), ntohll(expect));
326 abort();
327 }
328
329 n_loops++;
330 }
331 }
332 }
333
334 if (n_loops != sum_of_squares(64)) {
335 abort();
336 }
337 }
338
339 static void
340 test_bitwise_zero(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
341 {
342 unsigned int n_loops;
343 int dst_ofs;
344 int n_bits;
345
346 n_loops = 0;
347 for (n_bits = 0; n_bits <= 64; n_bits++) {
348 for (dst_ofs = 0; dst_ofs < 64 - n_bits; dst_ofs++) {
349 ovs_be64 dst = htonll(random_uint64());
350 ovs_be64 orig_dst = dst;
351 ovs_be64 expect;
352
353 if (n_bits == 64) {
354 expect = htonll(0);
355 } else {
356 uint64_t mask = (UINT64_C(1) << n_bits) - 1;
357 expect = orig_dst & ~htonll(mask << dst_ofs);
358 }
359
360 bitwise_zero(&dst, sizeof dst, dst_ofs, n_bits);
361 if (expect != dst) {
362 fprintf(stderr,"bitwise_zero(0x%016"PRIx64",8,%d, %d) "
363 "yielded 0x%016"PRIx64" "
364 "instead of the expected 0x%016"PRIx64"\n",
365 ntohll(orig_dst), dst_ofs,
366 n_bits,
367 ntohll(dst), ntohll(expect));
368 abort();
369 }
370
371 n_loops++;
372 }
373 }
374
375 if (n_loops != 64 * (64 + 1) / 2) {
376 abort();
377 }
378 }
379
380 static void
381 test_bitwise_one(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
382 {
383 unsigned int n_loops;
384 int dst_ofs;
385 int n_bits;
386
387 n_loops = 0;
388 for (n_bits = 0; n_bits <= 64; n_bits++) {
389 for (dst_ofs = 0; dst_ofs < 64 - n_bits; dst_ofs++) {
390 ovs_be64 dst = htonll(random_uint64());
391 ovs_be64 orig_dst = dst;
392 ovs_be64 expect;
393
394 if (n_bits == 64) {
395 expect = OVS_BE64_MAX;
396 } else {
397 uint64_t mask = (UINT64_C(1) << n_bits) - 1;
398 expect = orig_dst | htonll(mask << dst_ofs);
399 }
400
401 bitwise_one(&dst, sizeof dst, dst_ofs, n_bits);
402 if (expect != dst) {
403 fprintf(stderr,"bitwise_one(0x%016"PRIx64",8,%d, %d) "
404 "yielded 0x%016"PRIx64" "
405 "instead of the expected 0x%016"PRIx64"\n",
406 ntohll(orig_dst), dst_ofs,
407 n_bits,
408 ntohll(dst), ntohll(expect));
409 abort();
410 }
411
412 n_loops++;
413 }
414 }
415
416 if (n_loops != 64 * (64 + 1) / 2) {
417 abort();
418 }
419 }
420
421 static void
422 test_bitwise_is_all_zeros(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
423 {
424 int n_loops;
425
426 for (n_loops = 0; n_loops < 100; n_loops++) {
427 ovs_be64 x = htonll(0);
428 int i;
429
430 for (i = 0; i < 64; i++) {
431 ovs_be64 bit;
432 int ofs, n;
433
434 /* Change a random 0-bit into a 1-bit. */
435 do {
436 bit = htonll(UINT64_C(1) << (random_range(64)));
437 } while (x & bit);
438 x |= bit;
439
440 for (ofs = 0; ofs < 64; ofs++) {
441 for (n = 0; n <= 64 - ofs; n++) {
442 bool expect;
443 bool answer;
444
445 expect = (n == 64
446 ? x == 0
447 : !(x & htonll(((UINT64_C(1) << n) - 1)
448 << ofs)));
449 answer = bitwise_is_all_zeros(&x, sizeof x, ofs, n);
450 if (expect != answer) {
451 fprintf(stderr,
452 "bitwise_is_all_zeros(0x%016"PRIx64",8,%d,%d "
453 "returned %s instead of %s\n",
454 ntohll(x), ofs, n,
455 answer ? "true" : "false",
456 expect ? "true" : "false");
457 abort();
458 }
459 }
460 }
461 }
462 }
463 }
464
465 static void
466 test_follow_symlinks(int argc, char *argv[])
467 {
468 int i;
469
470 for (i = 1; i < argc; i++) {
471 char *target = follow_symlinks(argv[i]);
472 puts(target);
473 free(target);
474 }
475 }
476
477 static void
478 test_assert(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
479 {
480 ovs_assert(false);
481 }
482
483 static void
484 test_ovs_scan(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
485 {
486 char str[16], str2[16], str3[16];
487 long double ld, ld2;
488 long long ll, ll2;
489 signed char c, c2;
490 ptrdiff_t pd, pd2;
491 intmax_t im, im2;
492 size_t sz, sz2;
493 int n, n2, n3;
494 double d, d2;
495 short s, s2;
496 float f, f2;
497 long l, l2;
498 int i, i2;
499
500 ovs_assert(ovs_scan("", ""));
501 ovs_assert(ovs_scan("", " "));
502 ovs_assert(ovs_scan(" ", " "));
503 ovs_assert(ovs_scan(" ", " "));
504 ovs_assert(ovs_scan(" \t ", " "));
505
506 ovs_assert(ovs_scan("xyzzy", "xyzzy"));
507 ovs_assert(ovs_scan("xy%zzy", "xy%%zzy"));
508 ovs_assert(!ovs_scan(" xy%zzy", "xy%%zzy"));
509 ovs_assert(ovs_scan(" xy%\tzzy", " xy%% zzy"));
510
511 ovs_assert(ovs_scan("123", "%d", &i));
512 ovs_assert(i == 123);
513 ovs_assert(ovs_scan("0", "%d", &i));
514 ovs_assert(i == 0);
515 ovs_assert(!ovs_scan("123", "%d%d", &i, &i2));
516 ovs_assert(ovs_scan("+123", "%d", &i));
517 ovs_assert(i == 123);
518 ovs_assert(ovs_scan("-123", "%d", &i));
519 ovs_assert(i == -123);
520 ovs_assert(ovs_scan("0123", "%d", &i));
521 ovs_assert(i == 123);
522 ovs_assert(ovs_scan(" 123", "%d", &i));
523 ovs_assert(i == 123);
524 ovs_assert(ovs_scan("0x123", "%d", &i));
525 ovs_assert(i == 0);
526 ovs_assert(ovs_scan("123", "%2d %d", &i, &i2));
527 ovs_assert(i == 12);
528 ovs_assert(i2 == 3);
529 ovs_assert(ovs_scan("+123", "%2d %d", &i, &i2));
530 ovs_assert(i == 1);
531 ovs_assert(i2 == 23);
532 ovs_assert(ovs_scan("-123", "%2d %d", &i, &i2));
533 ovs_assert(i == -1);
534 ovs_assert(i2 == 23);
535 ovs_assert(ovs_scan("0123", "%2d %d", &i, &i2));
536 ovs_assert(i == 1);
537 ovs_assert(i2 == 23);
538 ovs_assert(ovs_scan("123", "%*2d %d", &i));
539 ovs_assert(i == 3);
540 ovs_assert(ovs_scan("+123", "%2d %*d", &i));
541 ovs_assert(i == 1);
542 ovs_assert(i2 == 23);
543 ovs_assert(ovs_scan("-123", "%*2d %*d"));
544
545 ovs_assert(ovs_scan("123", "%u", &i));
546 ovs_assert(i == 123);
547 ovs_assert(ovs_scan("0", "%u", &i));
548 ovs_assert(i == 0);
549 ovs_assert(!ovs_scan("123", "%u%u", &i, &i2));
550 ovs_assert(ovs_scan("+123", "%u", &i));
551 ovs_assert(i == 123);
552 ovs_assert(ovs_scan("-123", "%u", &i));
553 ovs_assert(i == -123);
554 ovs_assert(ovs_scan("0123", "%u", &i));
555 ovs_assert(i == 123);
556 ovs_assert(ovs_scan(" 123", "%u", &i));
557 ovs_assert(i == 123);
558 ovs_assert(ovs_scan("0x123", "%u", &i));
559 ovs_assert(i == 0);
560 ovs_assert(ovs_scan("123", "%2u %u", &i, &i2));
561 ovs_assert(i == 12);
562 ovs_assert(i2 == 3);
563 ovs_assert(ovs_scan("+123", "%2u %u", &i, &i2));
564 ovs_assert(i == 1);
565 ovs_assert(i2 == 23);
566 ovs_assert(ovs_scan("-123", "%2u %u", &i, &i2));
567 ovs_assert(i == -1);
568 ovs_assert(i2 == 23);
569 ovs_assert(ovs_scan("0123", "%2u %u", &i, &i2));
570 ovs_assert(i == 1);
571 ovs_assert(i2 == 23);
572 ovs_assert(ovs_scan("123", "%*2u %u", &i));
573 ovs_assert(i == 3);
574 ovs_assert(ovs_scan("+123", "%2u %*u", &i));
575 ovs_assert(i == 1);
576 ovs_assert(i2 == 23);
577 ovs_assert(ovs_scan("-123", "%*2u %*u"));
578
579 ovs_assert(ovs_scan("123", "%i", &i));
580 ovs_assert(i == 123);
581 ovs_assert(ovs_scan("0", "%i", &i));
582 ovs_assert(i == 0);
583 ovs_assert(!ovs_scan("123", "%i%i", &i, &i2));
584 ovs_assert(ovs_scan("+123", "%i", &i));
585 ovs_assert(i == 123);
586 ovs_assert(ovs_scan("-123", "%i", &i));
587 ovs_assert(i == -123);
588 ovs_assert(ovs_scan("0123", "%i", &i));
589 ovs_assert(i == 0123);
590 ovs_assert(ovs_scan(" 123", "%i", &i));
591 ovs_assert(i == 123);
592 ovs_assert(ovs_scan("0x123", "%i", &i));
593 ovs_assert(i == 0x123);
594 ovs_assert(ovs_scan("123", "%2i %i", &i, &i2));
595 ovs_assert(i == 12);
596 ovs_assert(i2 == 3);
597 ovs_assert(ovs_scan("+123", "%2i %i", &i, &i2));
598 ovs_assert(i == 1);
599 ovs_assert(i2 == 23);
600 ovs_assert(ovs_scan("-123", "%2i %i", &i, &i2));
601 ovs_assert(i == -1);
602 ovs_assert(i2 == 23);
603 ovs_assert(ovs_scan("0123", "%2i %i", &i, &i2));
604 ovs_assert(i == 1);
605 ovs_assert(i2 == 23);
606 ovs_assert(ovs_scan("123", "%*2i %i", &i));
607 ovs_assert(i == 3);
608 ovs_assert(ovs_scan("+123", "%2i %*i", &i));
609 ovs_assert(i == 1);
610 ovs_assert(i2 == 23);
611 ovs_assert(ovs_scan("-123", "%*2i %*i"));
612
613 ovs_assert(ovs_scan("123", "%o", &i));
614 ovs_assert(i == 0123);
615 ovs_assert(ovs_scan("0", "%o", &i));
616 ovs_assert(i == 0);
617 ovs_assert(!ovs_scan("123", "%o%o", &i, &i2));
618 ovs_assert(ovs_scan("+123", "%o", &i));
619 ovs_assert(i == 0123);
620 ovs_assert(ovs_scan("-123", "%o", &i));
621 ovs_assert(i == -0123);
622 ovs_assert(ovs_scan("0123", "%o", &i));
623 ovs_assert(i == 0123);
624 ovs_assert(ovs_scan(" 123", "%o", &i));
625 ovs_assert(i == 0123);
626 ovs_assert(ovs_scan("0x123", "%o", &i));
627 ovs_assert(i == 0);
628 ovs_assert(ovs_scan("123", "%2o %o", &i, &i2));
629 ovs_assert(i == 012);
630 ovs_assert(i2 == 3);
631 ovs_assert(ovs_scan("+123", "%2o %o", &i, &i2));
632 ovs_assert(i == 1);
633 ovs_assert(i2 == 023);
634 ovs_assert(ovs_scan("-123", "%2o %o", &i, &i2));
635 ovs_assert(i == -1);
636 ovs_assert(i2 == 023);
637 ovs_assert(ovs_scan("0123", "%2o %o", &i, &i2));
638 ovs_assert(i == 1);
639 ovs_assert(i2 == 023);
640 ovs_assert(ovs_scan("123", "%*2o %o", &i));
641 ovs_assert(i == 3);
642 ovs_assert(ovs_scan("+123", "%2o %*o", &i));
643 ovs_assert(i == 1);
644 ovs_assert(i2 == 023);
645 ovs_assert(ovs_scan("-123", "%*2o %*o"));
646
647 ovs_assert(ovs_scan("123", "%x", &i));
648 ovs_assert(i == 0x123);
649 ovs_assert(ovs_scan("0", "%x", &i));
650 ovs_assert(i == 0);
651 ovs_assert(!ovs_scan("123", "%x%x", &i, &i2));
652 ovs_assert(ovs_scan("+123", "%x", &i));
653 ovs_assert(i == 0x123);
654 ovs_assert(ovs_scan("-123", "%x", &i));
655 ovs_assert(i == -0x123);
656 ovs_assert(ovs_scan("0123", "%x", &i));
657 ovs_assert(i == 0x123);
658 ovs_assert(ovs_scan(" 123", "%x", &i));
659 ovs_assert(i == 0x123);
660 ovs_assert(ovs_scan("0x123", "%x", &i));
661 ovs_assert(i == 0x123);
662 ovs_assert(ovs_scan("123", "%2x %x", &i, &i2));
663 ovs_assert(i == 0x12);
664 ovs_assert(i2 == 3);
665 ovs_assert(ovs_scan("+123", "%2x %x", &i, &i2));
666 ovs_assert(i == 1);
667 ovs_assert(i2 == 0x23);
668 ovs_assert(ovs_scan("-123", "%2x %x", &i, &i2));
669 ovs_assert(i == -1);
670 ovs_assert(i2 == 0x23);
671 ovs_assert(ovs_scan("0123", "%2x %x", &i, &i2));
672 ovs_assert(i == 1);
673 ovs_assert(i2 == 0x23);
674 ovs_assert(ovs_scan("123", "%*2x %x", &i));
675 ovs_assert(i == 3);
676 ovs_assert(ovs_scan("+123", "%2x %*x", &i));
677 ovs_assert(i == 1);
678 ovs_assert(i2 == 0x23);
679 ovs_assert(ovs_scan("-123", "%*2x %*x"));
680
681 ovs_assert(ovs_scan("123", "%hd", &s));
682 ovs_assert(s == 123);
683 ovs_assert(!ovs_scan("123", "%hd%hd", &s, &s2));
684 ovs_assert(ovs_scan("+123", "%hd", &s));
685 ovs_assert(s == 123);
686 ovs_assert(ovs_scan("-123", "%hd", &s));
687 ovs_assert(s == -123);
688 ovs_assert(ovs_scan("0123", "%hd", &s));
689 ovs_assert(s == 123);
690 ovs_assert(ovs_scan(" 123", "%hd", &s));
691 ovs_assert(s == 123);
692 ovs_assert(ovs_scan("0x123", "%hd", &s));
693 ovs_assert(s == 0);
694 ovs_assert(ovs_scan("123", "%2hd %hd", &s, &s2));
695 ovs_assert(s == 12);
696 ovs_assert(s2 == 3);
697 ovs_assert(ovs_scan("+123", "%2hd %hd", &s, &s2));
698 ovs_assert(s == 1);
699 ovs_assert(s2 == 23);
700 ovs_assert(ovs_scan("-123", "%2hd %hd", &s, &s2));
701 ovs_assert(s == -1);
702 ovs_assert(s2 == 23);
703 ovs_assert(ovs_scan("0123", "%2hd %hd", &s, &s2));
704 ovs_assert(s == 1);
705 ovs_assert(s2 == 23);
706
707 ovs_assert(ovs_scan("123", "%hhd", &c));
708 ovs_assert(c == 123);
709 ovs_assert(ovs_scan("0", "%hhd", &c));
710 ovs_assert(c == 0);
711 ovs_assert(!ovs_scan("123", "%hhd%hhd", &c, &c2));
712 ovs_assert(ovs_scan("+123", "%hhd", &c));
713 ovs_assert(c == 123);
714 ovs_assert(ovs_scan("-123", "%hhd", &c));
715 ovs_assert(c == -123);
716 ovs_assert(ovs_scan("0123", "%hhd", &c));
717 ovs_assert(c == 123);
718 ovs_assert(ovs_scan(" 123", "%hhd", &c));
719 ovs_assert(c == 123);
720 ovs_assert(ovs_scan("0x123", "%hhd", &c));
721 ovs_assert(c == 0);
722 ovs_assert(ovs_scan("123", "%2hhd %hhd", &c, &c2));
723 ovs_assert(c == 12);
724 ovs_assert(c2 == 3);
725 ovs_assert(ovs_scan("+123", "%2hhd %hhd", &c, &c2));
726 ovs_assert(c == 1);
727 ovs_assert(c2 == 23);
728 ovs_assert(ovs_scan("-123", "%2hhd %hhd", &c, &c2));
729 ovs_assert(c == -1);
730 ovs_assert(c2 == 23);
731 ovs_assert(ovs_scan("0123", "%2hhd %hhd", &c, &c2));
732 ovs_assert(c == 1);
733 ovs_assert(c2 == 23);
734
735 ovs_assert(ovs_scan("123", "%ld", &l));
736 ovs_assert(l == 123);
737 ovs_assert(ovs_scan("0", "%ld", &l));
738 ovs_assert(l == 0);
739 ovs_assert(!ovs_scan("123", "%ld%ld", &l, &l2));
740 ovs_assert(ovs_scan("+123", "%ld", &l));
741 ovs_assert(l == 123);
742 ovs_assert(ovs_scan("-123", "%ld", &l));
743 ovs_assert(l == -123);
744 ovs_assert(ovs_scan("0123", "%ld", &l));
745 ovs_assert(l == 123);
746 ovs_assert(ovs_scan(" 123", "%ld", &l));
747 ovs_assert(l == 123);
748 ovs_assert(ovs_scan("0x123", "%ld", &l));
749 ovs_assert(l == 0);
750 ovs_assert(ovs_scan("123", "%2ld %ld", &l, &l2));
751 ovs_assert(l == 12);
752 ovs_assert(l2 == 3);
753 ovs_assert(ovs_scan("+123", "%2ld %ld", &l, &l2));
754 ovs_assert(l == 1);
755 ovs_assert(l2 == 23);
756 ovs_assert(ovs_scan("-123", "%2ld %ld", &l, &l2));
757 ovs_assert(l == -1);
758 ovs_assert(l2 == 23);
759 ovs_assert(ovs_scan("0123", "%2ld %ld", &l, &l2));
760 ovs_assert(l == 1);
761 ovs_assert(l2 == 23);
762
763 ovs_assert(ovs_scan("123", "%lld", &ll));
764 ovs_assert(ll == 123);
765 ovs_assert(ovs_scan("0", "%lld", &ll));
766 ovs_assert(ll == 0);
767 ovs_assert(!ovs_scan("123", "%lld%lld", &ll, &ll2));
768 ovs_assert(ovs_scan("+123", "%lld", &ll));
769 ovs_assert(ll == 123);
770 ovs_assert(ovs_scan("-123", "%lld", &ll));
771 ovs_assert(ll == -123);
772 ovs_assert(ovs_scan("0123", "%lld", &ll));
773 ovs_assert(ll == 123);
774 ovs_assert(ovs_scan(" 123", "%lld", &ll));
775 ovs_assert(ll == 123);
776 ovs_assert(ovs_scan("0x123", "%lld", &ll));
777 ovs_assert(ll == 0);
778 ovs_assert(ovs_scan("123", "%2lld %lld", &ll, &ll2));
779 ovs_assert(ll == 12);
780 ovs_assert(ll2 == 3);
781 ovs_assert(ovs_scan("+123", "%2lld %lld", &ll, &ll2));
782 ovs_assert(ll == 1);
783 ovs_assert(ll2 == 23);
784 ovs_assert(ovs_scan("-123", "%2lld %lld", &ll, &ll2));
785 ovs_assert(ll == -1);
786 ovs_assert(ll2 == 23);
787 ovs_assert(ovs_scan("0123", "%2lld %lld", &ll, &ll2));
788 ovs_assert(ll == 1);
789 ovs_assert(ll2 == 23);
790
791 ovs_assert(ovs_scan("123", "%jd", &im));
792 ovs_assert(im == 123);
793 ovs_assert(ovs_scan("0", "%jd", &im));
794 ovs_assert(im == 0);
795 ovs_assert(!ovs_scan("123", "%jd%jd", &im, &im2));
796 ovs_assert(ovs_scan("+123", "%jd", &im));
797 ovs_assert(im == 123);
798 ovs_assert(ovs_scan("-123", "%jd", &im));
799 ovs_assert(im == -123);
800 ovs_assert(ovs_scan("0123", "%jd", &im));
801 ovs_assert(im == 123);
802 ovs_assert(ovs_scan(" 123", "%jd", &im));
803 ovs_assert(im == 123);
804 ovs_assert(ovs_scan("0x123", "%jd", &im));
805 ovs_assert(im == 0);
806 ovs_assert(ovs_scan("123", "%2jd %jd", &im, &im2));
807 ovs_assert(im == 12);
808 ovs_assert(im2 == 3);
809 ovs_assert(ovs_scan("+123", "%2jd %jd", &im, &im2));
810 ovs_assert(im == 1);
811 ovs_assert(im2 == 23);
812 ovs_assert(ovs_scan("-123", "%2jd %jd", &im, &im2));
813 ovs_assert(im == -1);
814 ovs_assert(im2 == 23);
815 ovs_assert(ovs_scan("0123", "%2jd %jd", &im, &im2));
816 ovs_assert(im == 1);
817 ovs_assert(im2 == 23);
818
819 ovs_assert(ovs_scan("123", "%td", &pd));
820 ovs_assert(pd == 123);
821 ovs_assert(ovs_scan("0", "%td", &pd));
822 ovs_assert(pd == 0);
823 ovs_assert(!ovs_scan("123", "%td%td", &pd, &pd2));
824 ovs_assert(ovs_scan("+123", "%td", &pd));
825 ovs_assert(pd == 123);
826 ovs_assert(ovs_scan("-123", "%td", &pd));
827 ovs_assert(pd == -123);
828 ovs_assert(ovs_scan("0123", "%td", &pd));
829 ovs_assert(pd == 123);
830 ovs_assert(ovs_scan(" 123", "%td", &pd));
831 ovs_assert(pd == 123);
832 ovs_assert(ovs_scan("0x123", "%td", &pd));
833 ovs_assert(pd == 0);
834 ovs_assert(ovs_scan("123", "%2td %td", &pd, &pd2));
835 ovs_assert(pd == 12);
836 ovs_assert(pd2 == 3);
837 ovs_assert(ovs_scan("+123", "%2td %td", &pd, &pd2));
838 ovs_assert(pd == 1);
839 ovs_assert(pd2 == 23);
840 ovs_assert(ovs_scan("-123", "%2td %td", &pd, &pd2));
841 ovs_assert(pd == -1);
842 ovs_assert(pd2 == 23);
843 ovs_assert(ovs_scan("0123", "%2td %td", &pd, &pd2));
844 ovs_assert(pd == 1);
845 ovs_assert(pd2 == 23);
846
847 ovs_assert(ovs_scan("123", "%zd", &sz));
848 ovs_assert(sz == 123);
849 ovs_assert(ovs_scan("0", "%zd", &sz));
850 ovs_assert(sz == 0);
851 ovs_assert(!ovs_scan("123", "%zd%zd", &sz, &sz2));
852 ovs_assert(ovs_scan("+123", "%zd", &sz));
853 ovs_assert(sz == 123);
854 ovs_assert(ovs_scan("-123", "%zd", &sz));
855 ovs_assert(sz == -123);
856 ovs_assert(ovs_scan("0123", "%zd", &sz));
857 ovs_assert(sz == 123);
858 ovs_assert(ovs_scan(" 123", "%zd", &sz));
859 ovs_assert(sz == 123);
860 ovs_assert(ovs_scan("0x123", "%zd", &sz));
861 ovs_assert(sz == 0);
862 ovs_assert(ovs_scan("123", "%2zd %zd", &sz, &sz2));
863 ovs_assert(sz == 12);
864 ovs_assert(sz2 == 3);
865 ovs_assert(ovs_scan("+123", "%2zd %zd", &sz, &sz2));
866 ovs_assert(sz == 1);
867 ovs_assert(sz2 == 23);
868 ovs_assert(ovs_scan("-123", "%2zd %zd", &sz, &sz2));
869 ovs_assert(sz == -1);
870 ovs_assert(sz2 == 23);
871 ovs_assert(ovs_scan("0123", "%2zd %zd", &sz, &sz2));
872 ovs_assert(sz == 1);
873 ovs_assert(sz2 == 23);
874
875 ovs_assert(ovs_scan("0.25", "%f", &f));
876 ovs_assert(f == 0.25);
877 ovs_assert(ovs_scan("1.0", "%f", &f));
878 ovs_assert(f == 1.0);
879 ovs_assert(ovs_scan("-5", "%f", &f));
880 ovs_assert(f == -5.0);
881 ovs_assert(ovs_scan("+6", "%f", &f));
882 ovs_assert(f == 6.0);
883 ovs_assert(ovs_scan("-1e5", "%f", &f));
884 ovs_assert(f == -1e5);
885 ovs_assert(ovs_scan("-.25", "%f", &f));
886 ovs_assert(f == -.25);
887 ovs_assert(ovs_scan("+123.e1", "%f", &f));
888 ovs_assert(f == 1230.0);
889 ovs_assert(ovs_scan("25e-2", "%f", &f));
890 ovs_assert(f == 0.25);
891 ovs_assert(ovs_scan("0.25", "%1f %f", &f, &f2));
892 ovs_assert(f == 0);
893 ovs_assert(f2 == 0.25);
894 ovs_assert(ovs_scan("1.0", "%2f %f", &f, &f2));
895 ovs_assert(f == 1.0);
896 ovs_assert(f2 == 0.0);
897 ovs_assert(!ovs_scan("-5", "%1f", &f));
898 ovs_assert(!ovs_scan("+6", "%1f", &f));
899 ovs_assert(!ovs_scan("-1e5", "%2f %*f", &f));
900 ovs_assert(f == -1);
901 ovs_assert(!ovs_scan("-.25", "%2f", &f));
902 ovs_assert(!ovs_scan("+123.e1", "%6f", &f));
903 ovs_assert(!ovs_scan("25e-2", "%4f", &f));
904
905 ovs_assert(ovs_scan("0.25", "%lf", &d));
906 ovs_assert(d == 0.25);
907 ovs_assert(ovs_scan("1.0", "%lf", &d));
908 ovs_assert(d == 1.0);
909 ovs_assert(ovs_scan("-5", "%lf", &d));
910 ovs_assert(d == -5.0);
911 ovs_assert(ovs_scan("+6", "%lf", &d));
912 ovs_assert(d == 6.0);
913 ovs_assert(ovs_scan("-1e5", "%lf", &d));
914 ovs_assert(d == -1e5);
915 ovs_assert(ovs_scan("-.25", "%lf", &d));
916 ovs_assert(d == -.25);
917 ovs_assert(ovs_scan("+123.e1", "%lf", &d));
918 ovs_assert(d == 1230.0);
919 ovs_assert(ovs_scan("25e-2", "%lf", &d));
920 ovs_assert(d == 0.25);
921 ovs_assert(ovs_scan("0.25", "%1lf %lf", &d, &d2));
922 ovs_assert(d == 0);
923 ovs_assert(d2 == 0.25);
924 ovs_assert(ovs_scan("1.0", "%2lf %lf", &d, &d2));
925 ovs_assert(d == 1.0);
926 ovs_assert(d2 == 0.0);
927 ovs_assert(!ovs_scan("-5", "%1lf", &d));
928 ovs_assert(!ovs_scan("+6", "%1lf", &d));
929 ovs_assert(!ovs_scan("-1e5", "%2lf %*f", &d));
930 ovs_assert(d == -1);
931 ovs_assert(!ovs_scan("-.25", "%2lf", &d));
932 ovs_assert(!ovs_scan("+123.e1", "%6lf", &d));
933 ovs_assert(!ovs_scan("25e-2", "%4lf", &d));
934
935 ovs_assert(ovs_scan("0.25", "%Lf", &ld));
936 ovs_assert(ld == 0.25);
937 ovs_assert(ovs_scan("1.0", "%Lf", &ld));
938 ovs_assert(ld == 1.0);
939 ovs_assert(ovs_scan("-5", "%Lf", &ld));
940 ovs_assert(ld == -5.0);
941 ovs_assert(ovs_scan("+6", "%Lf", &ld));
942 ovs_assert(ld == 6.0);
943 ovs_assert(ovs_scan("-1e5", "%Lf", &ld));
944 ovs_assert(ld == -1e5);
945 ovs_assert(ovs_scan("-.25", "%Lf", &ld));
946 ovs_assert(ld == -.25);
947 ovs_assert(ovs_scan("+123.e1", "%Lf", &ld));
948 ovs_assert(ld == 1230.0);
949 ovs_assert(ovs_scan("25e-2", "%Lf", &ld));
950 ovs_assert(ld == 0.25);
951 ovs_assert(ovs_scan("0.25", "%1Lf %Lf", &ld, &ld2));
952 ovs_assert(ld == 0);
953 ovs_assert(ld2 == 0.25);
954 ovs_assert(ovs_scan("1.0", "%2Lf %Lf", &ld, &ld2));
955 ovs_assert(ld == 1.0);
956 ovs_assert(ld2 == 0.0);
957 ovs_assert(!ovs_scan("-5", "%1Lf", &ld));
958 ovs_assert(!ovs_scan("+6", "%1Lf", &ld));
959 ovs_assert(!ovs_scan("-1e5", "%2Lf %*f", &ld));
960 ovs_assert(ld == -1);
961 ovs_assert(!ovs_scan("-.25", "%2Lf", &ld));
962 ovs_assert(!ovs_scan("+123.e1", "%6Lf", &ld));
963 ovs_assert(!ovs_scan("25e-2", "%4Lf", &ld));
964
965 ovs_assert(ovs_scan(" Hello,\tworld ", "%*s%n%*s%n", &n, &n2));
966 ovs_assert(n == 7);
967 ovs_assert(n2 == 13);
968 ovs_assert(!ovs_scan(" Hello,\tworld ", "%*s%*s%*s"));
969 ovs_assert(ovs_scan(" Hello,\tworld ", "%6s%n%5s%n", str, &n, str2, &n2));
970 ovs_assert(!strcmp(str, "Hello,"));
971 ovs_assert(n == 7);
972 ovs_assert(!strcmp(str2, "world"));
973 ovs_assert(n2 == 13);
974 ovs_assert(ovs_scan(" Hello,\tworld ", "%5s%5s%5s", str, str2, str3));
975 ovs_assert(!strcmp(str, "Hello"));
976 ovs_assert(!strcmp(str2, ","));
977 ovs_assert(!strcmp(str3, "world"));
978 ovs_assert(!ovs_scan(" ", "%*s"));
979
980 ovs_assert(ovs_scan(" Hello,\tworld ", "%*c%n%*c%n%c%n",
981 &n, &n2, &c, &n3));
982 ovs_assert(n == 1);
983 ovs_assert(n2 == 2);
984 ovs_assert(c == 'e');
985 ovs_assert(n3 == 3);
986 ovs_assert(ovs_scan(" Hello,\tworld ", "%*5c%5c", str));
987 ovs_assert(!memcmp(str, "o,\two", 5));
988 ovs_assert(!ovs_scan(" Hello,\tworld ", "%*15c"));
989
990 ovs_assert(ovs_scan("0x1234xyzzy", "%9[x0-9a-fA-F]%n", str, &n));
991 ovs_assert(!strcmp(str, "0x1234x"));
992 ovs_assert(n == 7);
993 ovs_assert(ovs_scan("foo:bar=baz", "%5[^:=]%n:%5[^:=]%n=%5[^:=]%n",
994 str, &n, str2, &n2, str3, &n3));
995 ovs_assert(!strcmp(str, "foo"));
996 ovs_assert(n == 3);
997 ovs_assert(!strcmp(str2, "bar"));
998 ovs_assert(n2 == 7);
999 ovs_assert(!strcmp(str3, "baz"));
1000 ovs_assert(n3 == 11);
1001 ovs_assert(!ovs_scan(" ", "%*[0-9]"));
1002 ovs_assert(ovs_scan("0x123a]4xyzzy-", "%[]x0-9a-fA-F]", str));
1003 ovs_assert(!strcmp(str, "0x123a]4x"));
1004 ovs_assert(ovs_scan("abc]xyz","%[^]xyz]", str));
1005 ovs_assert(!strcmp(str, "abc"));
1006 ovs_assert(!ovs_scan("0x123a]4xyzzy-", "%[x0-9]a-fA-F]", str));
1007 ovs_assert(ovs_scan("0x12-3]xyz", "%[x0-9a-f-]", str));
1008 ovs_assert(!strcmp(str, "0x12-3"));
1009 ovs_assert(ovs_scan("0x12-3]xyz", "%[^a-f-]", str));
1010 ovs_assert(!strcmp(str, "0x12"));
1011 ovs_assert(sscanf("0x12-3]xyz", "%[^-a-f]", str));
1012 ovs_assert(!strcmp(str, "0x12"));
1013 }
1014
1015 static void
1016 test_snprintf(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
1017 {
1018 char s[16];
1019
1020 ovs_assert(snprintf(s, 4, "abcde") == 5);
1021 ovs_assert(!strcmp(s, "abc"));
1022
1023 ovs_assert(snprintf(s, 5, "abcde") == 5);
1024 ovs_assert(!strcmp(s, "abcd"));
1025
1026 ovs_assert(snprintf(s, 6, "abcde") == 5);
1027 ovs_assert(!strcmp(s, "abcde"));
1028
1029 ovs_assert(snprintf(NULL, 0, "abcde") == 5);
1030 }
1031
1032 #ifndef _WIN32
1033 static void
1034 test_file_name(int argc, char *argv[])
1035 {
1036 int i;
1037
1038 for (i = 1; i < argc; i++) {
1039 char *dir, *base;
1040
1041 dir = dir_name(argv[i]);
1042 puts(dir);
1043 free(dir);
1044
1045 base = base_name(argv[i]);
1046 puts(base);
1047 free(base);
1048 }
1049 }
1050 #endif /* _WIN32 */
1051 \f
1052 static const struct command commands[] = {
1053 {"ctz", NULL, 0, 0, test_ctz},
1054 {"clz", NULL, 0, 0, test_clz},
1055 {"round_up_pow2", NULL, 0, 0, test_round_up_pow2},
1056 {"round_down_pow2", NULL, 0, 0, test_round_down_pow2},
1057 {"count_1bits", NULL, 0, 0, test_count_1bits},
1058 {"log_2_floor", NULL, 0, 0, test_log_2_floor},
1059 {"bitwise_copy", NULL, 0, 0, test_bitwise_copy},
1060 {"bitwise_zero", NULL, 0, 0, test_bitwise_zero},
1061 {"bitwise_one", NULL, 0, 0, test_bitwise_one},
1062 {"bitwise_is_all_zeros", NULL, 0, 0, test_bitwise_is_all_zeros},
1063 {"follow-symlinks", NULL, 1, INT_MAX, test_follow_symlinks},
1064 {"assert", NULL, 0, 0, test_assert},
1065 {"ovs_scan", NULL, 0, 0, test_ovs_scan},
1066 {"snprintf", NULL, 0, 0, test_snprintf},
1067 #ifndef _WIN32
1068 {"file_name", NULL, 1, INT_MAX, test_file_name},
1069 #endif
1070 {NULL, NULL, 0, 0, NULL},
1071 };
1072
1073 static void
1074 parse_options(int argc, char *argv[])
1075 {
1076 enum {
1077 VLOG_OPTION_ENUMS
1078 };
1079 static const struct option long_options[] = {
1080 VLOG_LONG_OPTIONS,
1081 {NULL, 0, NULL, 0},
1082 };
1083 char *short_options = long_options_to_short_options(long_options);
1084
1085 for (;;) {
1086 int c = getopt_long(argc, argv, short_options, long_options, NULL);
1087 if (c == -1) {
1088 break;
1089 }
1090
1091 switch (c) {
1092 VLOG_OPTION_HANDLERS
1093
1094 case '?':
1095 exit(EXIT_FAILURE);
1096
1097 default:
1098 abort();
1099 }
1100 }
1101 free(short_options);
1102 }
1103
1104 static void
1105 test_util_main(int argc, char *argv[])
1106 {
1107 set_program_name(argv[0]);
1108 parse_options(argc, argv);
1109 /* On Windows, stderr is fully buffered if connected to a pipe.
1110 * Make it _IONBF so that an abort does not miss log contents.
1111 * POSIX doesn't define the circumstances in which stderr is
1112 * fully buffered either. */
1113 setvbuf(stderr, NULL, _IONBF, 0);
1114 run_command(argc - optind, argv + optind, commands);
1115 }
1116
1117 OVSTEST_REGISTER("test-util", test_util_main);
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