1 /*-
2 * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
3 *
4 * Copyright (c) 2019 The FreeBSD Foundation
5 *
6 * This software was developed by BFF Storage Systems, LLC under sponsorship
7 * from the FreeBSD Foundation.
8 *
9 * Redistribution and use in source and binary forms, with or without
10 * modification, are permitted provided that the following conditions
11 * are met:
12 * 1. Redistributions of source code must retain the above copyright
13 * notice, this list of conditions and the following disclaimer.
14 * 2. Redistributions in binary form must reproduce the above copyright
15 * notice, this list of conditions and the following disclaimer in the
16 * documentation and/or other materials provided with the distribution.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
19 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
20 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
21 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
22 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
23 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
24 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
25 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
26 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
27 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
28 * SUCH DAMAGE.
29 *
30 * $FreeBSD$
31 */
32
33 extern "C" {
34 #include <sys/param.h>
35 #include <sys/mman.h>
36 #include <sys/module.h>
37 #include <sys/sysctl.h>
38 #include <sys/wait.h>
39
40 #include <dirent.h>
41 #include <fcntl.h>
42 #include <grp.h>
43 #include <pwd.h>
44 #include <semaphore.h>
45 #include <unistd.h>
46 }
47
48 #include <gtest/gtest.h>
49
50 #include "mockfs.hh"
51 #include "utils.hh"
52
53 using namespace testing;
54
55 /*
56 * The default max_write is set to this formula in libfuse, though
57 * individual filesystems can lower it. The "- 4096" was added in
58 * commit 154ffe2, with the commit message "fix".
59 */
60 const uint32_t libfuse_max_write = 32 * getpagesize() + 0x1000 - 4096;
61
62 /* Check that fusefs(4) is accessible and the current user can mount(2) */
check_environment()63 void check_environment()
64 {
65 const char *devnode = "/dev/fuse";
66 const char *bsdextended_node = "security.mac.bsdextended.enabled";
67 int bsdextended_val = 0;
68 size_t bsdextended_size = sizeof(bsdextended_val);
69 int bsdextended_found;
70 const char *usermount_node = "vfs.usermount";
71 int usermount_val = 0;
72 size_t usermount_size = sizeof(usermount_val);
73 if (eaccess(devnode, R_OK | W_OK)) {
74 if (errno == ENOENT) {
75 GTEST_SKIP() << devnode << " does not exist";
76 } else if (errno == EACCES) {
77 GTEST_SKIP() << devnode <<
78 " is not accessible by the current user";
79 } else {
80 GTEST_SKIP() << strerror(errno);
81 }
82 }
83 // mac_bsdextended(4), when enabled, generates many more GETATTR
84 // operations. The fusefs tests' expectations don't account for those,
85 // and adding extra code to handle them obfuscates the real purpose of
86 // the tests. Better just to skip the fusefs tests if mac_bsdextended
87 // is enabled.
88 bsdextended_found = sysctlbyname(bsdextended_node, &bsdextended_val,
89 &bsdextended_size, NULL, 0);
90 if (bsdextended_found == 0 && bsdextended_val != 0)
91 GTEST_SKIP() <<
92 "The fusefs tests are incompatible with mac_bsdextended.";
93 ASSERT_EQ(sysctlbyname(usermount_node, &usermount_val, &usermount_size,
94 NULL, 0),
95 0);
96 if (geteuid() != 0 && !usermount_val)
97 GTEST_SKIP() << "current user is not allowed to mount";
98 }
99
cache_mode_to_s(enum cache_mode cm)100 const char *cache_mode_to_s(enum cache_mode cm) {
101 switch (cm) {
102 case Uncached:
103 return "Uncached";
104 case Writethrough:
105 return "Writethrough";
106 case Writeback:
107 return "Writeback";
108 case WritebackAsync:
109 return "WritebackAsync";
110 default:
111 return "Unknown";
112 }
113 }
114
is_unsafe_aio_enabled(void)115 bool is_unsafe_aio_enabled(void) {
116 const char *node = "vfs.aio.enable_unsafe";
117 int val = 0;
118 size_t size = sizeof(val);
119
120 if (sysctlbyname(node, &val, &size, NULL, 0)) {
121 perror("sysctlbyname");
122 return (false);
123 }
124 return (val != 0);
125 }
126
127 class FuseEnv: public Environment {
SetUp()128 virtual void SetUp() {
129 }
130 };
131
SetUp()132 void FuseTest::SetUp() {
133 const char *maxbcachebuf_node = "vfs.maxbcachebuf";
134 const char *maxphys_node = "kern.maxphys";
135 int val = 0;
136 size_t size = sizeof(val);
137
138 /*
139 * XXX check_environment should be called from FuseEnv::SetUp, but
140 * can't due to https://github.com/google/googletest/issues/2189
141 */
142 check_environment();
143 if (IsSkipped())
144 return;
145
146 ASSERT_EQ(0, sysctlbyname(maxbcachebuf_node, &val, &size, NULL, 0))
147 << strerror(errno);
148 m_maxbcachebuf = val;
149 ASSERT_EQ(0, sysctlbyname(maxphys_node, &val, &size, NULL, 0))
150 << strerror(errno);
151 m_maxphys = val;
152 /*
153 * Set the default max_write to a distinct value from MAXPHYS to catch
154 * bugs that confuse the two.
155 */
156 if (m_maxwrite == 0)
157 m_maxwrite = MIN(libfuse_max_write, (uint32_t)m_maxphys / 2);
158
159 try {
160 m_mock = new MockFS(m_maxreadahead, m_allow_other,
161 m_default_permissions, m_push_symlinks_in, m_ro,
162 m_pm, m_init_flags, m_kernel_minor_version,
163 m_maxwrite, m_async, m_noclusterr, m_time_gran,
164 m_nointr, m_noatime);
165 /*
166 * FUSE_ACCESS is called almost universally. Expecting it in
167 * each test case would be super-annoying. Instead, set a
168 * default expectation for FUSE_ACCESS and return ENOSYS.
169 *
170 * Individual test cases can override this expectation since
171 * googlemock evaluates expectations in LIFO order.
172 */
173 EXPECT_CALL(*m_mock, process(
174 ResultOf([=](auto in) {
175 return (in.header.opcode == FUSE_ACCESS);
176 }, Eq(true)),
177 _)
178 ).Times(AnyNumber())
179 .WillRepeatedly(Invoke(ReturnErrno(ENOSYS)));
180 /*
181 * FUSE_BMAP is called for most test cases that read data. Set
182 * a default expectation and return ENOSYS.
183 *
184 * Individual test cases can override this expectation since
185 * googlemock evaluates expectations in LIFO order.
186 */
187 EXPECT_CALL(*m_mock, process(
188 ResultOf([=](auto in) {
189 return (in.header.opcode == FUSE_BMAP);
190 }, Eq(true)),
191 _)
192 ).Times(AnyNumber())
193 .WillRepeatedly(Invoke(ReturnErrno(ENOSYS)));
194 } catch (std::system_error err) {
195 FAIL() << err.what();
196 }
197 }
198
199 void
expect_access(uint64_t ino,mode_t access_mode,int error)200 FuseTest::expect_access(uint64_t ino, mode_t access_mode, int error)
201 {
202 EXPECT_CALL(*m_mock, process(
203 ResultOf([=](auto in) {
204 return (in.header.opcode == FUSE_ACCESS &&
205 in.header.nodeid == ino &&
206 in.body.access.mask == access_mode);
207 }, Eq(true)),
208 _)
209 ).WillOnce(Invoke(ReturnErrno(error)));
210 }
211
212 void
expect_destroy(int error)213 FuseTest::expect_destroy(int error)
214 {
215 EXPECT_CALL(*m_mock, process(
216 ResultOf([=](auto in) {
217 return (in.header.opcode == FUSE_DESTROY);
218 }, Eq(true)),
219 _)
220 ).WillOnce(Invoke( ReturnImmediate([&](auto in, auto& out) {
221 m_mock->m_quit = true;
222 out.header.len = sizeof(out.header);
223 out.header.unique = in.header.unique;
224 out.header.error = -error;
225 })));
226 }
227
228 void
expect_fallocate(uint64_t ino,uint64_t offset,uint64_t length,uint32_t mode,int error,int times)229 FuseTest::expect_fallocate(uint64_t ino, uint64_t offset, uint64_t length,
230 uint32_t mode, int error, int times)
231 {
232 EXPECT_CALL(*m_mock, process(
233 ResultOf([=](auto in) {
234 return (in.header.opcode == FUSE_FALLOCATE &&
235 in.header.nodeid == ino &&
236 in.body.fallocate.offset == offset &&
237 in.body.fallocate.length == length &&
238 in.body.fallocate.mode == mode);
239 }, Eq(true)),
240 _)
241 ).Times(times)
242 .WillRepeatedly(Invoke(ReturnErrno(error)));
243 }
244
245 void
expect_flush(uint64_t ino,int times,ProcessMockerT r)246 FuseTest::expect_flush(uint64_t ino, int times, ProcessMockerT r)
247 {
248 EXPECT_CALL(*m_mock, process(
249 ResultOf([=](auto in) {
250 return (in.header.opcode == FUSE_FLUSH &&
251 in.header.nodeid == ino);
252 }, Eq(true)),
253 _)
254 ).Times(times)
255 .WillRepeatedly(Invoke(r));
256 }
257
258 void
expect_forget(uint64_t ino,uint64_t nlookup,sem_t * sem)259 FuseTest::expect_forget(uint64_t ino, uint64_t nlookup, sem_t *sem)
260 {
261 EXPECT_CALL(*m_mock, process(
262 ResultOf([=](auto in) {
263 return (in.header.opcode == FUSE_FORGET &&
264 in.header.nodeid == ino &&
265 in.body.forget.nlookup == nlookup);
266 }, Eq(true)),
267 _)
268 ).WillOnce(Invoke([=](auto in __unused, auto &out __unused) {
269 if (sem != NULL)
270 sem_post(sem);
271 /* FUSE_FORGET has no response! */
272 }));
273 }
274
expect_getattr(uint64_t ino,uint64_t size)275 void FuseTest::expect_getattr(uint64_t ino, uint64_t size)
276 {
277 EXPECT_CALL(*m_mock, process(
278 ResultOf([=](auto in) {
279 return (in.header.opcode == FUSE_GETATTR &&
280 in.header.nodeid == ino);
281 }, Eq(true)),
282 _)
283 ).WillOnce(Invoke(ReturnImmediate([=](auto i __unused, auto& out) {
284 SET_OUT_HEADER_LEN(out, attr);
285 out.body.attr.attr.ino = ino; // Must match nodeid
286 out.body.attr.attr.mode = S_IFREG | 0644;
287 out.body.attr.attr.size = size;
288 out.body.attr.attr_valid = UINT64_MAX;
289 })));
290 }
291
expect_getxattr(uint64_t ino,const char * attr,ProcessMockerT r)292 void FuseTest::expect_getxattr(uint64_t ino, const char *attr, ProcessMockerT r)
293 {
294 EXPECT_CALL(*m_mock, process(
295 ResultOf([=](auto in) {
296 const char *a = (const char*)in.body.bytes +
297 sizeof(fuse_getxattr_in);
298 return (in.header.opcode == FUSE_GETXATTR &&
299 in.header.nodeid == ino &&
300 0 == strcmp(attr, a));
301 }, Eq(true)),
302 _)
303 ).WillOnce(Invoke(r));
304 }
305
expect_lookup(const char * relpath,uint64_t ino,mode_t mode,uint64_t size,int times,uint64_t attr_valid,uid_t uid,gid_t gid)306 void FuseTest::expect_lookup(const char *relpath, uint64_t ino, mode_t mode,
307 uint64_t size, int times, uint64_t attr_valid, uid_t uid, gid_t gid)
308 {
309 EXPECT_LOOKUP(FUSE_ROOT_ID, relpath)
310 .Times(times)
311 .WillRepeatedly(Invoke(
312 ReturnImmediate([=](auto in __unused, auto& out) {
313 SET_OUT_HEADER_LEN(out, entry);
314 out.body.entry.attr.mode = mode;
315 out.body.entry.nodeid = ino;
316 out.body.entry.attr.nlink = 1;
317 out.body.entry.attr_valid = attr_valid;
318 out.body.entry.attr.size = size;
319 out.body.entry.attr.uid = uid;
320 out.body.entry.attr.gid = gid;
321 })));
322 }
323
expect_lookup_7_8(const char * relpath,uint64_t ino,mode_t mode,uint64_t size,int times,uint64_t attr_valid,uid_t uid,gid_t gid)324 void FuseTest::expect_lookup_7_8(const char *relpath, uint64_t ino, mode_t mode,
325 uint64_t size, int times, uint64_t attr_valid, uid_t uid, gid_t gid)
326 {
327 EXPECT_LOOKUP(FUSE_ROOT_ID, relpath)
328 .Times(times)
329 .WillRepeatedly(Invoke(
330 ReturnImmediate([=](auto in __unused, auto& out) {
331 SET_OUT_HEADER_LEN(out, entry_7_8);
332 out.body.entry.attr.mode = mode;
333 out.body.entry.nodeid = ino;
334 out.body.entry.attr.nlink = 1;
335 out.body.entry.attr_valid = attr_valid;
336 out.body.entry.attr.size = size;
337 out.body.entry.attr.uid = uid;
338 out.body.entry.attr.gid = gid;
339 })));
340 }
341
expect_open(uint64_t ino,uint32_t flags,int times)342 void FuseTest::expect_open(uint64_t ino, uint32_t flags, int times)
343 {
344 EXPECT_CALL(*m_mock, process(
345 ResultOf([=](auto in) {
346 return (in.header.opcode == FUSE_OPEN &&
347 in.header.nodeid == ino);
348 }, Eq(true)),
349 _)
350 ).Times(times)
351 .WillRepeatedly(Invoke(
352 ReturnImmediate([=](auto in __unused, auto& out) {
353 out.header.len = sizeof(out.header);
354 SET_OUT_HEADER_LEN(out, open);
355 out.body.open.fh = FH;
356 out.body.open.open_flags = flags;
357 })));
358 }
359
expect_opendir(uint64_t ino)360 void FuseTest::expect_opendir(uint64_t ino)
361 {
362 /* opendir(3) calls fstatfs */
363 EXPECT_CALL(*m_mock, process(
364 ResultOf([](auto in) {
365 return (in.header.opcode == FUSE_STATFS);
366 }, Eq(true)),
367 _)
368 ).WillRepeatedly(Invoke(
369 ReturnImmediate([=](auto i __unused, auto& out) {
370 SET_OUT_HEADER_LEN(out, statfs);
371 })));
372
373 EXPECT_CALL(*m_mock, process(
374 ResultOf([=](auto in) {
375 return (in.header.opcode == FUSE_OPENDIR &&
376 in.header.nodeid == ino);
377 }, Eq(true)),
378 _)
379 ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) {
380 out.header.len = sizeof(out.header);
381 SET_OUT_HEADER_LEN(out, open);
382 out.body.open.fh = FH;
383 })));
384 }
385
expect_read(uint64_t ino,uint64_t offset,uint64_t isize,uint64_t osize,const void * contents,int flags,uint64_t fh)386 void FuseTest::expect_read(uint64_t ino, uint64_t offset, uint64_t isize,
387 uint64_t osize, const void *contents, int flags, uint64_t fh)
388 {
389 EXPECT_CALL(*m_mock, process(
390 ResultOf([=](auto in) {
391 return (in.header.opcode == FUSE_READ &&
392 in.header.nodeid == ino &&
393 in.body.read.fh == fh &&
394 in.body.read.offset == offset &&
395 in.body.read.size == isize &&
396 (flags == -1 ?
397 (in.body.read.flags == O_RDONLY ||
398 in.body.read.flags == O_RDWR)
399 : in.body.read.flags == (uint32_t)flags));
400 }, Eq(true)),
401 _)
402 ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) {
403 out.header.len = sizeof(struct fuse_out_header) + osize;
404 memmove(out.body.bytes, contents, osize);
405 }))).RetiresOnSaturation();
406 }
407
expect_readdir(uint64_t ino,uint64_t off,std::vector<struct dirent> & ents)408 void FuseTest::expect_readdir(uint64_t ino, uint64_t off,
409 std::vector<struct dirent> &ents)
410 {
411 EXPECT_CALL(*m_mock, process(
412 ResultOf([=](auto in) {
413 return (in.header.opcode == FUSE_READDIR &&
414 in.header.nodeid == ino &&
415 in.body.readdir.fh == FH &&
416 in.body.readdir.offset == off);
417 }, Eq(true)),
418 _)
419 ).WillRepeatedly(Invoke(ReturnImmediate([=](auto in, auto& out) {
420 struct fuse_dirent *fde = (struct fuse_dirent*)&(out.body);
421 int i = 0;
422
423 out.header.error = 0;
424 out.header.len = 0;
425
426 for (const auto& it: ents) {
427 size_t entlen, entsize;
428
429 fde->ino = it.d_fileno;
430 fde->off = it.d_off;
431 fde->type = it.d_type;
432 fde->namelen = it.d_namlen;
433 strncpy(fde->name, it.d_name, it.d_namlen);
434 entlen = FUSE_NAME_OFFSET + fde->namelen;
435 entsize = FUSE_DIRENT_SIZE(fde);
436 /*
437 * The FUSE protocol does not require zeroing out the
438 * unused portion of the name. But it's a good
439 * practice to prevent information disclosure to the
440 * FUSE client, even though the client is usually the
441 * kernel
442 */
443 memset(fde->name + fde->namelen, 0, entsize - entlen);
444 if (out.header.len + entsize > in.body.read.size) {
445 printf("Overflow in readdir expectation: i=%d\n"
446 , i);
447 break;
448 }
449 out.header.len += entsize;
450 fde = (struct fuse_dirent*)
451 ((intmax_t*)fde + entsize / sizeof(intmax_t));
452 i++;
453 }
454 out.header.len += sizeof(out.header);
455 })));
456
457 }
expect_release(uint64_t ino,uint64_t fh)458 void FuseTest::expect_release(uint64_t ino, uint64_t fh)
459 {
460 EXPECT_CALL(*m_mock, process(
461 ResultOf([=](auto in) {
462 return (in.header.opcode == FUSE_RELEASE &&
463 in.header.nodeid == ino &&
464 in.body.release.fh == fh);
465 }, Eq(true)),
466 _)
467 ).WillOnce(Invoke(ReturnErrno(0)));
468 }
469
expect_releasedir(uint64_t ino,ProcessMockerT r)470 void FuseTest::expect_releasedir(uint64_t ino, ProcessMockerT r)
471 {
472 EXPECT_CALL(*m_mock, process(
473 ResultOf([=](auto in) {
474 return (in.header.opcode == FUSE_RELEASEDIR &&
475 in.header.nodeid == ino &&
476 in.body.release.fh == FH);
477 }, Eq(true)),
478 _)
479 ).WillOnce(Invoke(r));
480 }
481
expect_unlink(uint64_t parent,const char * path,int error)482 void FuseTest::expect_unlink(uint64_t parent, const char *path, int error)
483 {
484 EXPECT_CALL(*m_mock, process(
485 ResultOf([=](auto in) {
486 return (in.header.opcode == FUSE_UNLINK &&
487 0 == strcmp(path, in.body.unlink) &&
488 in.header.nodeid == parent);
489 }, Eq(true)),
490 _)
491 ).WillOnce(Invoke(ReturnErrno(error)));
492 }
493
expect_write(uint64_t ino,uint64_t offset,uint64_t isize,uint64_t osize,uint32_t flags_set,uint32_t flags_unset,const void * contents)494 void FuseTest::expect_write(uint64_t ino, uint64_t offset, uint64_t isize,
495 uint64_t osize, uint32_t flags_set, uint32_t flags_unset,
496 const void *contents)
497 {
498 EXPECT_CALL(*m_mock, process(
499 ResultOf([=](auto in) {
500 const char *buf = (const char*)in.body.bytes +
501 sizeof(struct fuse_write_in);
502 bool pid_ok;
503 uint32_t wf = in.body.write.write_flags;
504
505 if (wf & FUSE_WRITE_CACHE)
506 pid_ok = true;
507 else
508 pid_ok = (pid_t)in.header.pid == getpid();
509
510 return (in.header.opcode == FUSE_WRITE &&
511 in.header.nodeid == ino &&
512 in.body.write.fh == FH &&
513 in.body.write.offset == offset &&
514 in.body.write.size == isize &&
515 pid_ok &&
516 (wf & flags_set) == flags_set &&
517 (wf & flags_unset) == 0 &&
518 (in.body.write.flags == O_WRONLY ||
519 in.body.write.flags == O_RDWR) &&
520 0 == bcmp(buf, contents, isize));
521 }, Eq(true)),
522 _)
523 ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) {
524 SET_OUT_HEADER_LEN(out, write);
525 out.body.write.size = osize;
526 })));
527 }
528
expect_write_7_8(uint64_t ino,uint64_t offset,uint64_t isize,uint64_t osize,const void * contents)529 void FuseTest::expect_write_7_8(uint64_t ino, uint64_t offset, uint64_t isize,
530 uint64_t osize, const void *contents)
531 {
532 EXPECT_CALL(*m_mock, process(
533 ResultOf([=](auto in) {
534 const char *buf = (const char*)in.body.bytes +
535 FUSE_COMPAT_WRITE_IN_SIZE;
536 bool pid_ok = (pid_t)in.header.pid == getpid();
537 return (in.header.opcode == FUSE_WRITE &&
538 in.header.nodeid == ino &&
539 in.body.write.fh == FH &&
540 in.body.write.offset == offset &&
541 in.body.write.size == isize &&
542 pid_ok &&
543 0 == bcmp(buf, contents, isize));
544 }, Eq(true)),
545 _)
546 ).WillOnce(Invoke(ReturnImmediate([=](auto in __unused, auto& out) {
547 SET_OUT_HEADER_LEN(out, write);
548 out.body.write.size = osize;
549 })));
550 }
551
552 void
get_unprivileged_id(uid_t * uid,gid_t * gid)553 get_unprivileged_id(uid_t *uid, gid_t *gid)
554 {
555 struct passwd *pw;
556 struct group *gr;
557
558 /*
559 * First try "tests", Kyua's default unprivileged user. XXX after
560 * GoogleTest gains a proper Kyua wrapper, get this with the Kyua API
561 */
562 pw = getpwnam("tests");
563 if (pw == NULL) {
564 /* Fall back to "nobody" */
565 pw = getpwnam("nobody");
566 }
567 if (pw == NULL)
568 GTEST_SKIP() << "Test requires an unprivileged user";
569 /* Use group "nobody", which is Kyua's default unprivileged group */
570 gr = getgrnam("nobody");
571 if (gr == NULL)
572 GTEST_SKIP() << "Test requires an unprivileged group";
573 *uid = pw->pw_uid;
574 *gid = gr->gr_gid;
575 }
576
577 void
fork(bool drop_privs,int * child_status,std::function<void ()> parent_func,std::function<int ()> child_func)578 FuseTest::fork(bool drop_privs, int *child_status,
579 std::function<void()> parent_func,
580 std::function<int()> child_func)
581 {
582 sem_t *sem;
583 int mprot = PROT_READ | PROT_WRITE;
584 int mflags = MAP_ANON | MAP_SHARED;
585 pid_t child;
586 uid_t uid;
587 gid_t gid;
588
589 if (drop_privs) {
590 get_unprivileged_id(&uid, &gid);
591 if (IsSkipped())
592 return;
593 }
594
595 sem = (sem_t*)mmap(NULL, sizeof(*sem), mprot, mflags, -1, 0);
596 ASSERT_NE(MAP_FAILED, sem) << strerror(errno);
597 ASSERT_EQ(0, sem_init(sem, 1, 0)) << strerror(errno);
598
599 if ((child = ::fork()) == 0) {
600 /* In child */
601 int err = 0;
602
603 if (sem_wait(sem)) {
604 perror("sem_wait");
605 err = 1;
606 goto out;
607 }
608
609 if (drop_privs && 0 != setegid(gid)) {
610 perror("setegid");
611 err = 1;
612 goto out;
613 }
614 if (drop_privs && 0 != setreuid(-1, uid)) {
615 perror("setreuid");
616 err = 1;
617 goto out;
618 }
619 err = child_func();
620
621 out:
622 sem_destroy(sem);
623 _exit(err);
624 } else if (child > 0) {
625 /*
626 * In parent. Cleanup must happen here, because it's still
627 * privileged.
628 */
629 m_mock->m_child_pid = child;
630 ASSERT_NO_FATAL_FAILURE(parent_func());
631
632 /* Signal the child process to go */
633 ASSERT_EQ(0, sem_post(sem)) << strerror(errno);
634
635 ASSERT_LE(0, wait(child_status)) << strerror(errno);
636 } else {
637 FAIL() << strerror(errno);
638 }
639 munmap(sem, sizeof(*sem));
640 return;
641 }
642
643 void
reclaim_vnode(const char * path)644 FuseTest::reclaim_vnode(const char *path)
645 {
646 int err;
647
648 err = sysctlbyname(reclaim_mib, NULL, 0, path, strlen(path) + 1);
649 ASSERT_EQ(0, err) << strerror(errno);
650 }
651
usage(char * progname)652 static void usage(char* progname) {
653 fprintf(stderr, "Usage: %s [-v]\n\t-v increase verbosity\n", progname);
654 exit(2);
655 }
656
main(int argc,char ** argv)657 int main(int argc, char **argv) {
658 int ch;
659 FuseEnv *fuse_env = new FuseEnv;
660
661 InitGoogleTest(&argc, argv);
662 AddGlobalTestEnvironment(fuse_env);
663
664 while ((ch = getopt(argc, argv, "v")) != -1) {
665 switch (ch) {
666 case 'v':
667 verbosity++;
668 break;
669 default:
670 usage(argv[0]);
671 break;
672 }
673 }
674
675 return (RUN_ALL_TESTS());
676 }
677