Annotation of embedaddon/curl/tests/libtest/lib518.c, revision 1.1.1.1
1.1 misho 1: /***************************************************************************
2: * _ _ ____ _
3: * Project ___| | | | _ \| |
4: * / __| | | | |_) | |
5: * | (__| |_| | _ <| |___
6: * \___|\___/|_| \_\_____|
7: *
8: * Copyright (C) 1998 - 2018, Daniel Stenberg, <daniel@haxx.se>, et al.
9: *
10: * This software is licensed as described in the file COPYING, which
11: * you should have received as part of this distribution. The terms
12: * are also available at https://curl.haxx.se/docs/copyright.html.
13: *
14: * You may opt to use, copy, modify, merge, publish, distribute and/or sell
15: * copies of the Software, and permit persons to whom the Software is
16: * furnished to do so, under the terms of the COPYING file.
17: *
18: * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
19: * KIND, either express or implied.
20: *
21: ***************************************************************************/
22: #include "test.h"
23:
24: #ifdef HAVE_SYS_RESOURCE_H
25: #include <sys/resource.h>
26: #endif
27: #ifdef HAVE_FCNTL_H
28: #include <fcntl.h>
29: #endif
30: #include <limits.h>
31:
32: #include "warnless.h"
33: #include "memdebug.h"
34:
35: #ifndef FD_SETSIZE
36: #error "this test requires FD_SETSIZE"
37: #endif
38:
39: #define SAFETY_MARGIN (16)
40: #define NUM_OPEN (FD_SETSIZE + 10)
41: #define NUM_NEEDED (NUM_OPEN + SAFETY_MARGIN)
42:
43: #if defined(WIN32) || defined(_WIN32) || defined(MSDOS)
44: #define DEV_NULL "NUL"
45: #else
46: #define DEV_NULL "/dev/null"
47: #endif
48:
49: #if defined(HAVE_GETRLIMIT) && defined(HAVE_SETRLIMIT)
50:
51: static int *fd = NULL;
52: static struct rlimit num_open;
53: static char msgbuff[256];
54:
55: static void store_errmsg(const char *msg, int err)
56: {
57: if(!err)
58: msnprintf(msgbuff, sizeof(msgbuff), "%s", msg);
59: else
60: msnprintf(msgbuff, sizeof(msgbuff), "%s, errno %d, %s", msg,
61: err, strerror(err));
62: }
63:
64: static void close_file_descriptors(void)
65: {
66: for(num_open.rlim_cur = 0;
67: num_open.rlim_cur < num_open.rlim_max;
68: num_open.rlim_cur++)
69: if(fd[num_open.rlim_cur] > 0)
70: close(fd[num_open.rlim_cur]);
71: free(fd);
72: fd = NULL;
73: }
74:
75: static int fopen_works(void)
76: {
77: FILE *fpa[3];
78: int i;
79: int ret = 1;
80:
81: for(i = 0; i < 3; i++) {
82: fpa[i] = NULL;
83: }
84: for(i = 0; i < 3; i++) {
85: fpa[i] = fopen(DEV_NULL, FOPEN_READTEXT);
86: if(fpa[i] == NULL) {
87: store_errmsg("fopen failed", errno);
88: fprintf(stderr, "%s\n", msgbuff);
89: ret = 0;
90: break;
91: }
92: }
93: for(i = 0; i < 3; i++) {
94: if(fpa[i] != NULL)
95: fclose(fpa[i]);
96: }
97: return ret;
98: }
99:
100: static int rlimit(int keep_open)
101: {
102: int nitems, i;
103: int *memchunk = NULL;
104: char *fmt;
105: struct rlimit rl;
106: char strbuff[256];
107: char strbuff1[81];
108: char strbuff2[81];
109: char fmt_u[] = "%u";
110: char fmt_lu[] = "%lu";
111: #ifdef HAVE_LONGLONG
112: char fmt_llu[] = "%llu";
113:
114: if(sizeof(rl.rlim_max) > sizeof(long))
115: fmt = fmt_llu;
116: else
117: #endif
118: fmt = (sizeof(rl.rlim_max) < sizeof(long))?fmt_u:fmt_lu;
119:
120: /* get initial open file limits */
121:
122: if(getrlimit(RLIMIT_NOFILE, &rl) != 0) {
123: store_errmsg("getrlimit() failed", errno);
124: fprintf(stderr, "%s\n", msgbuff);
125: return -1;
126: }
127:
128: /* show initial open file limits */
129:
130: #ifdef RLIM_INFINITY
131: if(rl.rlim_cur == RLIM_INFINITY)
132: strcpy(strbuff, "INFINITY");
133: else
134: #endif
135: msnprintf(strbuff, sizeof(strbuff), fmt, rl.rlim_cur);
136: fprintf(stderr, "initial soft limit: %s\n", strbuff);
137:
138: #ifdef RLIM_INFINITY
139: if(rl.rlim_max == RLIM_INFINITY)
140: strcpy(strbuff, "INFINITY");
141: else
142: #endif
143: msnprintf(strbuff, sizeof(strbuff), fmt, rl.rlim_max);
144: fprintf(stderr, "initial hard limit: %s\n", strbuff);
145:
146: /* show our constants */
147:
148: fprintf(stderr, "test518 FD_SETSIZE: %d\n", FD_SETSIZE);
149: fprintf(stderr, "test518 NUM_OPEN : %d\n", NUM_OPEN);
150: fprintf(stderr, "test518 NUM_NEEDED: %d\n", NUM_NEEDED);
151:
152: /*
153: * if soft limit and hard limit are different we ask the
154: * system to raise soft limit all the way up to the hard
155: * limit. Due to some other system limit the soft limit
156: * might not be raised up to the hard limit. So from this
157: * point the resulting soft limit is our limit. Trying to
158: * open more than soft limit file descriptors will fail.
159: */
160:
161: if(rl.rlim_cur != rl.rlim_max) {
162:
163: #ifdef OPEN_MAX
164: if((rl.rlim_cur > 0) &&
165: (rl.rlim_cur < OPEN_MAX)) {
166: fprintf(stderr, "raising soft limit up to OPEN_MAX\n");
167: rl.rlim_cur = OPEN_MAX;
168: if(setrlimit(RLIMIT_NOFILE, &rl) != 0) {
169: /* on failure don't abort just issue a warning */
170: store_errmsg("setrlimit() failed", errno);
171: fprintf(stderr, "%s\n", msgbuff);
172: msgbuff[0] = '\0';
173: }
174: }
175: #endif
176:
177: fprintf(stderr, "raising soft limit up to hard limit\n");
178: rl.rlim_cur = rl.rlim_max;
179: if(setrlimit(RLIMIT_NOFILE, &rl) != 0) {
180: /* on failure don't abort just issue a warning */
181: store_errmsg("setrlimit() failed", errno);
182: fprintf(stderr, "%s\n", msgbuff);
183: msgbuff[0] = '\0';
184: }
185:
186: /* get current open file limits */
187:
188: if(getrlimit(RLIMIT_NOFILE, &rl) != 0) {
189: store_errmsg("getrlimit() failed", errno);
190: fprintf(stderr, "%s\n", msgbuff);
191: return -3;
192: }
193:
194: /* show current open file limits */
195:
196: #ifdef RLIM_INFINITY
197: if(rl.rlim_cur == RLIM_INFINITY)
198: strcpy(strbuff, "INFINITY");
199: else
200: #endif
201: msnprintf(strbuff, sizeof(strbuff), fmt, rl.rlim_cur);
202: fprintf(stderr, "current soft limit: %s\n", strbuff);
203:
204: #ifdef RLIM_INFINITY
205: if(rl.rlim_max == RLIM_INFINITY)
206: strcpy(strbuff, "INFINITY");
207: else
208: #endif
209: msnprintf(strbuff, sizeof(strbuff), fmt, rl.rlim_max);
210: fprintf(stderr, "current hard limit: %s\n", strbuff);
211:
212: } /* (rl.rlim_cur != rl.rlim_max) */
213:
214: /*
215: * test 518 is all about testing libcurl functionality
216: * when more than FD_SETSIZE file descriptors are open.
217: * This means that if for any reason we are not able to
218: * open more than FD_SETSIZE file descriptors then test
219: * 518 should not be run.
220: */
221:
222: /*
223: * verify that soft limit is higher than NUM_NEEDED,
224: * which is the number of file descriptors we would
225: * try to open plus SAFETY_MARGIN to not exhaust the
226: * file descriptor pool
227: */
228:
229: num_open.rlim_cur = NUM_NEEDED;
230:
231: if((rl.rlim_cur > 0) &&
232: #ifdef RLIM_INFINITY
233: (rl.rlim_cur != RLIM_INFINITY) &&
234: #endif
235: (rl.rlim_cur <= num_open.rlim_cur)) {
236: msnprintf(strbuff2, sizeof(strbuff2), fmt, rl.rlim_cur);
237: msnprintf(strbuff1, sizeof(strbuff1), fmt, num_open.rlim_cur);
238: msnprintf(strbuff, sizeof(strbuff), "fds needed %s > system limit %s",
239: strbuff1, strbuff2);
240: store_errmsg(strbuff, 0);
241: fprintf(stderr, "%s\n", msgbuff);
242: return -4;
243: }
244:
245: /*
246: * reserve a chunk of memory before opening file descriptors to
247: * avoid a low memory condition once the file descriptors are
248: * open. System conditions that could make the test fail should
249: * be addressed in the precheck phase. This chunk of memory shall
250: * be always free()ed before exiting the rlimit() function so
251: * that it becomes available to the test.
252: */
253:
254: for(nitems = i = 1; nitems <= i; i *= 2)
255: nitems = i;
256: if(nitems > 0x7fff)
257: nitems = 0x40000;
258: do {
259: num_open.rlim_max = sizeof(*memchunk) * (size_t)nitems;
260: msnprintf(strbuff, sizeof(strbuff), fmt, num_open.rlim_max);
261: fprintf(stderr, "allocating memchunk %s byte array\n", strbuff);
262: memchunk = malloc(sizeof(*memchunk) * (size_t)nitems);
263: if(!memchunk) {
264: fprintf(stderr, "memchunk, malloc() failed\n");
265: nitems /= 2;
266: }
267: } while(nitems && !memchunk);
268: if(!memchunk) {
269: store_errmsg("memchunk, malloc() failed", errno);
270: fprintf(stderr, "%s\n", msgbuff);
271: return -5;
272: }
273:
274: /* initialize it to fight lazy allocation */
275:
276: fprintf(stderr, "initializing memchunk array\n");
277:
278: for(i = 0; i < nitems; i++)
279: memchunk[i] = -1;
280:
281: /* set the number of file descriptors we will try to open */
282:
283: num_open.rlim_max = NUM_OPEN;
284:
285: /* verify that we won't overflow size_t in malloc() */
286:
287: if((size_t)(num_open.rlim_max) > ((size_t)-1) / sizeof(*fd)) {
288: msnprintf(strbuff1, sizeof(strbuff1), fmt, num_open.rlim_max);
289: msnprintf(strbuff, sizeof(strbuff), "unable to allocate an array for %s "
290: "file descriptors, would overflow size_t", strbuff1);
291: store_errmsg(strbuff, 0);
292: fprintf(stderr, "%s\n", msgbuff);
293: free(memchunk);
294: return -6;
295: }
296:
297: /* allocate array for file descriptors */
298:
299: msnprintf(strbuff, sizeof(strbuff), fmt, num_open.rlim_max);
300: fprintf(stderr, "allocating array for %s file descriptors\n", strbuff);
301:
302: fd = malloc(sizeof(*fd) * (size_t)(num_open.rlim_max));
303: if(!fd) {
304: store_errmsg("fd, malloc() failed", errno);
305: fprintf(stderr, "%s\n", msgbuff);
306: free(memchunk);
307: return -7;
308: }
309:
310: /* initialize it to fight lazy allocation */
311:
312: fprintf(stderr, "initializing fd array\n");
313:
314: for(num_open.rlim_cur = 0;
315: num_open.rlim_cur < num_open.rlim_max;
316: num_open.rlim_cur++)
317: fd[num_open.rlim_cur] = -1;
318:
319: msnprintf(strbuff, sizeof(strbuff), fmt, num_open.rlim_max);
320: fprintf(stderr, "trying to open %s file descriptors\n", strbuff);
321:
322: /* open a dummy descriptor */
323:
324: fd[0] = open(DEV_NULL, O_RDONLY);
325: if(fd[0] < 0) {
326: msnprintf(strbuff, sizeof(strbuff), "opening of %s failed", DEV_NULL);
327: store_errmsg(strbuff, errno);
328: fprintf(stderr, "%s\n", msgbuff);
329: free(fd);
330: fd = NULL;
331: free(memchunk);
332: return -8;
333: }
334:
335: /* create a bunch of file descriptors */
336:
337: for(num_open.rlim_cur = 1;
338: num_open.rlim_cur < num_open.rlim_max;
339: num_open.rlim_cur++) {
340:
341: fd[num_open.rlim_cur] = dup(fd[0]);
342:
343: if(fd[num_open.rlim_cur] < 0) {
344:
345: fd[num_open.rlim_cur] = -1;
346:
347: msnprintf(strbuff1, sizeof(strbuff1), fmt, num_open.rlim_cur);
348: msnprintf(strbuff, sizeof(strbuff), "dup() attempt %s failed", strbuff1);
349: fprintf(stderr, "%s\n", strbuff);
350:
351: msnprintf(strbuff1, sizeof(strbuff), fmt, num_open.rlim_cur);
352: msnprintf(strbuff, sizeof(strbuff), "fds system limit seems close to %s",
353: strbuff1);
354: fprintf(stderr, "%s\n", strbuff);
355:
356: num_open.rlim_max = NUM_NEEDED;
357:
358: msnprintf(strbuff2, sizeof(strbuff2), fmt, num_open.rlim_max);
359: msnprintf(strbuff1, sizeof(strbuff1), fmt, num_open.rlim_cur);
360: msnprintf(strbuff, sizeof(strbuff), "fds needed %s > system limit %s",
361: strbuff2, strbuff1);
362: store_errmsg(strbuff, 0);
363: fprintf(stderr, "%s\n", msgbuff);
364:
365: for(num_open.rlim_cur = 0;
366: fd[num_open.rlim_cur] >= 0;
367: num_open.rlim_cur++)
368: close(fd[num_open.rlim_cur]);
369: free(fd);
370: fd = NULL;
371: free(memchunk);
372: return -9;
373:
374: }
375:
376: }
377:
378: msnprintf(strbuff, sizeof(strbuff), fmt, num_open.rlim_max);
379: fprintf(stderr, "%s file descriptors open\n", strbuff);
380:
381: #if !defined(HAVE_POLL_FINE) && \
382: !defined(USE_WINSOCK) && \
383: !defined(TPF)
384:
385: /*
386: * when using select() instead of poll() we cannot test
387: * libcurl functionality with a socket number equal or
388: * greater than FD_SETSIZE. In any case, macro VERIFY_SOCK
389: * in lib/select.c enforces this check and protects libcurl
390: * from a possible crash. The effect of this protection
391: * is that test 518 will always fail, since the actual
392: * call to select() never takes place. We skip test 518
393: * with an indication that select limit would be exceeded.
394: */
395:
396: num_open.rlim_cur = FD_SETSIZE - SAFETY_MARGIN;
397: if(num_open.rlim_max > num_open.rlim_cur) {
398: msnprintf(strbuff, sizeof(strbuff), "select limit is FD_SETSIZE %d",
399: FD_SETSIZE);
400: store_errmsg(strbuff, 0);
401: fprintf(stderr, "%s\n", msgbuff);
402: close_file_descriptors();
403: free(memchunk);
404: return -10;
405: }
406:
407: num_open.rlim_cur = FD_SETSIZE - SAFETY_MARGIN;
408: for(rl.rlim_cur = 0;
409: rl.rlim_cur < num_open.rlim_max;
410: rl.rlim_cur++) {
411: if((fd[rl.rlim_cur] > 0) &&
412: ((unsigned int)fd[rl.rlim_cur] > num_open.rlim_cur)) {
413: msnprintf(strbuff, sizeof(strbuff), "select limit is FD_SETSIZE %d",
414: FD_SETSIZE);
415: store_errmsg(strbuff, 0);
416: fprintf(stderr, "%s\n", msgbuff);
417: close_file_descriptors();
418: free(memchunk);
419: return -11;
420: }
421: }
422:
423: #endif /* using a FD_SETSIZE bound select() */
424:
425: /*
426: * Old or 'backwards compatible' implementations of stdio do not allow
427: * handling of streams with an underlying file descriptor number greater
428: * than 255, even when allowing high numbered file descriptors for sockets.
429: * At this point we have a big number of file descriptors which have been
430: * opened using dup(), so lets test the stdio implementation and discover
431: * if it is capable of fopen()ing some additional files.
432: */
433:
434: if(!fopen_works()) {
435: msnprintf(strbuff1, sizeof(strbuff1), fmt, num_open.rlim_max);
436: msnprintf(strbuff, sizeof(strbuff),
437: "fopen fails with %s fds open()",
438: strbuff1);
439: fprintf(stderr, "%s\n", msgbuff);
440: msnprintf(strbuff, sizeof(strbuff),
441: "fopen fails with lots of fds open()");
442: store_errmsg(strbuff, 0);
443: close_file_descriptors();
444: free(memchunk);
445: return -12;
446: }
447:
448: /* free the chunk of memory we were reserving so that it
449: becomes becomes available to the test */
450:
451: free(memchunk);
452:
453: /* close file descriptors unless instructed to keep them */
454:
455: if(!keep_open) {
456: close_file_descriptors();
457: }
458:
459: return 0;
460: }
461:
462: int test(char *URL)
463: {
464: CURLcode res;
465: CURL *curl;
466:
467: if(!strcmp(URL, "check")) {
468: /* used by the test script to ask if we can run this test or not */
469: if(rlimit(FALSE)) {
470: fprintf(stdout, "rlimit problem: %s\n", msgbuff);
471: return 1;
472: }
473: return 0; /* sure, run this! */
474: }
475:
476: if(rlimit(TRUE)) {
477: /* failure */
478: return TEST_ERR_MAJOR_BAD;
479: }
480:
481: /* run the test with the bunch of open file descriptors
482: and close them all once the test is over */
483:
484: if(curl_global_init(CURL_GLOBAL_ALL) != CURLE_OK) {
485: fprintf(stderr, "curl_global_init() failed\n");
486: close_file_descriptors();
487: return TEST_ERR_MAJOR_BAD;
488: }
489:
490: curl = curl_easy_init();
491: if(!curl) {
492: fprintf(stderr, "curl_easy_init() failed\n");
493: close_file_descriptors();
494: curl_global_cleanup();
495: return TEST_ERR_MAJOR_BAD;
496: }
497:
498: test_setopt(curl, CURLOPT_URL, URL);
499: test_setopt(curl, CURLOPT_HEADER, 1L);
500:
501: res = curl_easy_perform(curl);
502:
503: test_cleanup:
504:
505: close_file_descriptors();
506: curl_easy_cleanup(curl);
507: curl_global_cleanup();
508:
509: return (int)res;
510: }
511:
512: #else /* defined(HAVE_GETRLIMIT) && defined(HAVE_SETRLIMIT) */
513:
514: int test(char *URL)
515: {
516: (void)URL;
517: printf("system lacks necessary system function(s)");
518: return 1; /* skip test */
519: }
520:
521: #endif /* defined(HAVE_GETRLIMIT) && defined(HAVE_SETRLIMIT) */
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