1*e3723e1fSApple OSS Distributions #include <darwintest.h>
2*e3723e1fSApple OSS Distributions
3*e3723e1fSApple OSS Distributions #include <errno.h>
4*e3723e1fSApple OSS Distributions #include <pthread.h>
5*e3723e1fSApple OSS Distributions #include <stdio.h>
6*e3723e1fSApple OSS Distributions #include <stdlib.h>
7*e3723e1fSApple OSS Distributions #include <unistd.h>
8*e3723e1fSApple OSS Distributions
9*e3723e1fSApple OSS Distributions #include <mach/mach.h>
10*e3723e1fSApple OSS Distributions #include <mach/mach_time.h>
11*e3723e1fSApple OSS Distributions #include <mach/semaphore.h>
12*e3723e1fSApple OSS Distributions #include <sys/select.h>
13*e3723e1fSApple OSS Distributions
14*e3723e1fSApple OSS Distributions /* Select parameters */
15*e3723e1fSApple OSS Distributions #define TIMEOUT_CHANCE 17 /* one in this many times, timeout */
16*e3723e1fSApple OSS Distributions #define TIMEOUT_POLLCHANCE 11 /* one in this many is a poll */
17*e3723e1fSApple OSS Distributions #define TIMEOUT_SCALE 5 /* microseconds multiplier */
18*e3723e1fSApple OSS Distributions
19*e3723e1fSApple OSS Distributions static semaphore_t g_thread_sem;
20*e3723e1fSApple OSS Distributions static semaphore_t g_sync_sem;
21*e3723e1fSApple OSS Distributions
22*e3723e1fSApple OSS Distributions struct endpoint {
23*e3723e1fSApple OSS Distributions int fd[4];
24*e3723e1fSApple OSS Distributions pthread_t pth;
25*e3723e1fSApple OSS Distributions };
26*e3723e1fSApple OSS Distributions
27*e3723e1fSApple OSS Distributions typedef void * (*thread_func)(struct endpoint *ep);
28*e3723e1fSApple OSS Distributions typedef void (*setup_func)(struct endpoint *ep);
29*e3723e1fSApple OSS Distributions
30*e3723e1fSApple OSS Distributions struct thread_sync_arg {
31*e3723e1fSApple OSS Distributions struct endpoint ep;
32*e3723e1fSApple OSS Distributions setup_func setup;
33*e3723e1fSApple OSS Distributions thread_func work;
34*e3723e1fSApple OSS Distributions };
35*e3723e1fSApple OSS Distributions
36*e3723e1fSApple OSS Distributions static mach_timebase_info_data_t g_timebase;
37*e3723e1fSApple OSS Distributions
38*e3723e1fSApple OSS Distributions static int g_sleep_iterations = 150000;
39*e3723e1fSApple OSS Distributions static int g_sleep_usecs = 30;
40*e3723e1fSApple OSS Distributions static int g_stress_nthreads = 100;
41*e3723e1fSApple OSS Distributions static uint64_t g_stress_duration = 5;
42*e3723e1fSApple OSS Distributions
43*e3723e1fSApple OSS Distributions static inline uint64_t
ns_to_abs(uint64_t ns)44*e3723e1fSApple OSS Distributions ns_to_abs(uint64_t ns)
45*e3723e1fSApple OSS Distributions {
46*e3723e1fSApple OSS Distributions return ns * g_timebase.denom / g_timebase.numer;
47*e3723e1fSApple OSS Distributions }
48*e3723e1fSApple OSS Distributions
49*e3723e1fSApple OSS Distributions static inline uint64_t
abs_to_ns(uint64_t abs)50*e3723e1fSApple OSS Distributions abs_to_ns(uint64_t abs)
51*e3723e1fSApple OSS Distributions {
52*e3723e1fSApple OSS Distributions return abs * g_timebase.numer / g_timebase.denom;
53*e3723e1fSApple OSS Distributions }
54*e3723e1fSApple OSS Distributions
55*e3723e1fSApple OSS Distributions
56*e3723e1fSApple OSS Distributions
57*e3723e1fSApple OSS Distributions /*
58*e3723e1fSApple OSS Distributions * Synchronize the startup / initialization of a set of threads
59*e3723e1fSApple OSS Distributions */
60*e3723e1fSApple OSS Distributions static void *
thread_sync(void * ctx)61*e3723e1fSApple OSS Distributions thread_sync(void *ctx)
62*e3723e1fSApple OSS Distributions {
63*e3723e1fSApple OSS Distributions struct thread_sync_arg *a = (struct thread_sync_arg *)ctx;
64*e3723e1fSApple OSS Distributions T_QUIET;
65*e3723e1fSApple OSS Distributions T_ASSERT_TRUE(((a != NULL) && (a->work != NULL)), "thread setup error");
66*e3723e1fSApple OSS Distributions
67*e3723e1fSApple OSS Distributions if (a->setup) {
68*e3723e1fSApple OSS Distributions (a->setup)(&a->ep);
69*e3723e1fSApple OSS Distributions }
70*e3723e1fSApple OSS Distributions
71*e3723e1fSApple OSS Distributions semaphore_wait_signal(g_thread_sem, g_sync_sem);
72*e3723e1fSApple OSS Distributions return (a->work)(&a->ep);
73*e3723e1fSApple OSS Distributions }
74*e3723e1fSApple OSS Distributions
75*e3723e1fSApple OSS Distributions struct select_stress_args {
76*e3723e1fSApple OSS Distributions struct endpoint *ep;
77*e3723e1fSApple OSS Distributions int nthreads;
78*e3723e1fSApple OSS Distributions };
79*e3723e1fSApple OSS Distributions
80*e3723e1fSApple OSS Distributions static void
setup_stress_event(struct endpoint * ep)81*e3723e1fSApple OSS Distributions setup_stress_event(struct endpoint *ep)
82*e3723e1fSApple OSS Distributions {
83*e3723e1fSApple OSS Distributions T_QUIET;
84*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
85*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_SUCCESS(pipe(&ep->fd[0]), "pipe()");
86*e3723e1fSApple OSS Distributions
87*e3723e1fSApple OSS Distributions T_LOG("th[0x%lx]: fd:{%d,%d}, ep@%p",
88*e3723e1fSApple OSS Distributions (uintptr_t)pthread_self(), ep->fd[0], ep->fd[1], (void *)ep);
89*e3723e1fSApple OSS Distributions }
90*e3723e1fSApple OSS Distributions
91*e3723e1fSApple OSS Distributions /*
92*e3723e1fSApple OSS Distributions * Cause file descriptors to be reused/replaced. We expect that it will at
93*e3723e1fSApple OSS Distributions * least take the lowest fd as part of the descriptor list. This may be
94*e3723e1fSApple OSS Distributions * optimistic, but it shows replacing an fd out from under a select() if it
95*e3723e1fSApple OSS Distributions * happens.
96*e3723e1fSApple OSS Distributions *
97*e3723e1fSApple OSS Distributions * We potentially delay the open for a random amount of time so that another
98*e3723e1fSApple OSS Distributions * thread can come in and wake up the fd_set with a bad (closed) fd in the set.
99*e3723e1fSApple OSS Distributions */
100*e3723e1fSApple OSS Distributions static void
recycle_fds(struct endpoint * ep)101*e3723e1fSApple OSS Distributions recycle_fds(struct endpoint *ep)
102*e3723e1fSApple OSS Distributions {
103*e3723e1fSApple OSS Distributions /* close endpoint descriptors in random order */
104*e3723e1fSApple OSS Distributions if (random() % 1) {
105*e3723e1fSApple OSS Distributions close(ep->fd[0]);
106*e3723e1fSApple OSS Distributions close(ep->fd[1]);
107*e3723e1fSApple OSS Distributions } else {
108*e3723e1fSApple OSS Distributions close(ep->fd[1]);
109*e3723e1fSApple OSS Distributions close(ep->fd[0]);
110*e3723e1fSApple OSS Distributions }
111*e3723e1fSApple OSS Distributions
112*e3723e1fSApple OSS Distributions /* randomize a delay */
113*e3723e1fSApple OSS Distributions if ((random() % ep->fd[0]) == 0) {
114*e3723e1fSApple OSS Distributions usleep(((random() % ep->fd[1]) + 1) * ep->fd[1]);
115*e3723e1fSApple OSS Distributions }
116*e3723e1fSApple OSS Distributions
117*e3723e1fSApple OSS Distributions /* reopen the FDs, hopefully in the middle of select() */
118*e3723e1fSApple OSS Distributions T_QUIET;
119*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
120*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_SUCCESS(pipe(&ep->fd[0]), "pipe");
121*e3723e1fSApple OSS Distributions }
122*e3723e1fSApple OSS Distributions
123*e3723e1fSApple OSS Distributions
124*e3723e1fSApple OSS Distributions /*
125*e3723e1fSApple OSS Distributions * Send a byte of data down the thread end of a pipe to wake up the select
126*e3723e1fSApple OSS Distributions * on the other end of it. Select will wake up normally because of this,
127*e3723e1fSApple OSS Distributions * and read the byte out. Hopefully, another thread has closed/reopened its FDs.
128*e3723e1fSApple OSS Distributions */
129*e3723e1fSApple OSS Distributions static void
write_data(struct endpoint * ep)130*e3723e1fSApple OSS Distributions write_data(struct endpoint *ep)
131*e3723e1fSApple OSS Distributions {
132*e3723e1fSApple OSS Distributions T_QUIET;
133*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
134*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_SUCCESS(write(ep->fd[1], "X", 1), "th[0x%lx] write_data(fd=%d)",
135*e3723e1fSApple OSS Distributions (uintptr_t)pthread_self(), ep->fd[1]);
136*e3723e1fSApple OSS Distributions }
137*e3723e1fSApple OSS Distributions
138*e3723e1fSApple OSS Distributions static void *
do_stress_events(struct endpoint * ep)139*e3723e1fSApple OSS Distributions do_stress_events(struct endpoint *ep)
140*e3723e1fSApple OSS Distributions {
141*e3723e1fSApple OSS Distributions unsigned write_freq = (unsigned)(((uintptr_t)pthread_self() & 0xff0000) >> 16);
142*e3723e1fSApple OSS Distributions
143*e3723e1fSApple OSS Distributions /* some default */
144*e3723e1fSApple OSS Distributions if (write_freq == 0) {
145*e3723e1fSApple OSS Distributions write_freq = 31;
146*e3723e1fSApple OSS Distributions }
147*e3723e1fSApple OSS Distributions
148*e3723e1fSApple OSS Distributions T_LOG("th[0x%lx] write_freq:%d", (uintptr_t)pthread_self(), write_freq);
149*e3723e1fSApple OSS Distributions
150*e3723e1fSApple OSS Distributions for (;;) {
151*e3723e1fSApple OSS Distributions /* randomized delay between events */
152*e3723e1fSApple OSS Distributions usleep(((random() % ep->fd[1]) + 1) * ep->fd[1]);
153*e3723e1fSApple OSS Distributions
154*e3723e1fSApple OSS Distributions if ((random() % write_freq) == 0) {
155*e3723e1fSApple OSS Distributions write_data(ep);
156*e3723e1fSApple OSS Distributions } else {
157*e3723e1fSApple OSS Distributions recycle_fds(ep);
158*e3723e1fSApple OSS Distributions }
159*e3723e1fSApple OSS Distributions }
160*e3723e1fSApple OSS Distributions }
161*e3723e1fSApple OSS Distributions
162*e3723e1fSApple OSS Distributions struct selarg {
163*e3723e1fSApple OSS Distributions struct thread_sync_arg *th;
164*e3723e1fSApple OSS Distributions fd_set def_readfds;
165*e3723e1fSApple OSS Distributions int max_fd;
166*e3723e1fSApple OSS Distributions int nthreads;
167*e3723e1fSApple OSS Distributions int ret;
168*e3723e1fSApple OSS Distributions
169*e3723e1fSApple OSS Distributions pthread_t pth;
170*e3723e1fSApple OSS Distributions };
171*e3723e1fSApple OSS Distributions
172*e3723e1fSApple OSS Distributions /*
173*e3723e1fSApple OSS Distributions * Put the actual call to select in its own thread so we can catch errors that
174*e3723e1fSApple OSS Distributions * occur only the first time a thread calls select.
175*e3723e1fSApple OSS Distributions */
176*e3723e1fSApple OSS Distributions static void *
do_select(void * arg)177*e3723e1fSApple OSS Distributions do_select(void *arg)
178*e3723e1fSApple OSS Distributions {
179*e3723e1fSApple OSS Distributions struct selarg *sarg = (struct selarg *)arg;
180*e3723e1fSApple OSS Distributions struct timeval timeout;
181*e3723e1fSApple OSS Distributions struct timeval *tp = NULL;
182*e3723e1fSApple OSS Distributions fd_set readfds;
183*e3723e1fSApple OSS Distributions int nfd;
184*e3723e1fSApple OSS Distributions
185*e3723e1fSApple OSS Distributions sarg->ret = 0;
186*e3723e1fSApple OSS Distributions
187*e3723e1fSApple OSS Distributions FD_COPY(&sarg->def_readfds, &readfds);
188*e3723e1fSApple OSS Distributions
189*e3723e1fSApple OSS Distributions /* Add a timeout probablistically */
190*e3723e1fSApple OSS Distributions if ((random() % TIMEOUT_CHANCE) == 0) {
191*e3723e1fSApple OSS Distributions timeout.tv_sec = random() % 1;
192*e3723e1fSApple OSS Distributions timeout.tv_usec = ((random() % TIMEOUT_POLLCHANCE) * TIMEOUT_SCALE);
193*e3723e1fSApple OSS Distributions tp = &timeout;
194*e3723e1fSApple OSS Distributions }
195*e3723e1fSApple OSS Distributions
196*e3723e1fSApple OSS Distributions /* Do the select */
197*e3723e1fSApple OSS Distributions nfd = select(sarg->max_fd + 1, &readfds, 0, 0, tp);
198*e3723e1fSApple OSS Distributions if (nfd < 0) {
199*e3723e1fSApple OSS Distributions /* EBADF: fd_set has changed */
200*e3723e1fSApple OSS Distributions if (errno == EBADF) {
201*e3723e1fSApple OSS Distributions sarg->ret = EBADF;
202*e3723e1fSApple OSS Distributions return NULL;
203*e3723e1fSApple OSS Distributions }
204*e3723e1fSApple OSS Distributions
205*e3723e1fSApple OSS Distributions /* Other errors are fatal */
206*e3723e1fSApple OSS Distributions T_QUIET;
207*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
208*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_SUCCESS(nfd, "select:stress");
209*e3723e1fSApple OSS Distributions }
210*e3723e1fSApple OSS Distributions
211*e3723e1fSApple OSS Distributions /* Fast: handle timeouts */
212*e3723e1fSApple OSS Distributions if (nfd == 0) {
213*e3723e1fSApple OSS Distributions return NULL;
214*e3723e1fSApple OSS Distributions }
215*e3723e1fSApple OSS Distributions
216*e3723e1fSApple OSS Distributions /* Slower: discard read input thrown at us from threads */
217*e3723e1fSApple OSS Distributions for (int i = 0; i < sarg->nthreads; i++) {
218*e3723e1fSApple OSS Distributions struct endpoint *ep = &sarg->th[i].ep;
219*e3723e1fSApple OSS Distributions
220*e3723e1fSApple OSS Distributions if (FD_ISSET(ep->fd[0], &readfds)) {
221*e3723e1fSApple OSS Distributions char c;
222*e3723e1fSApple OSS Distributions (void)read(ep->fd[0], &c, 1);
223*e3723e1fSApple OSS Distributions }
224*e3723e1fSApple OSS Distributions }
225*e3723e1fSApple OSS Distributions
226*e3723e1fSApple OSS Distributions return NULL;
227*e3723e1fSApple OSS Distributions }
228*e3723e1fSApple OSS Distributions
229*e3723e1fSApple OSS Distributions
230*e3723e1fSApple OSS Distributions static void
test_select_stress(int nthreads,uint64_t duration_seconds)231*e3723e1fSApple OSS Distributions test_select_stress(int nthreads, uint64_t duration_seconds)
232*e3723e1fSApple OSS Distributions {
233*e3723e1fSApple OSS Distributions uint64_t deadline;
234*e3723e1fSApple OSS Distributions uint64_t seconds_remain, last_print_time;
235*e3723e1fSApple OSS Distributions
236*e3723e1fSApple OSS Distributions struct selarg sarg;
237*e3723e1fSApple OSS Distributions
238*e3723e1fSApple OSS Distributions int started_threads = 0;
239*e3723e1fSApple OSS Distributions struct thread_sync_arg *th;
240*e3723e1fSApple OSS Distributions
241*e3723e1fSApple OSS Distributions if (nthreads < 2) {
242*e3723e1fSApple OSS Distributions T_LOG("forcing a minimum of 2 threads");
243*e3723e1fSApple OSS Distributions nthreads = 2;
244*e3723e1fSApple OSS Distributions }
245*e3723e1fSApple OSS Distributions
246*e3723e1fSApple OSS Distributions /*
247*e3723e1fSApple OSS Distributions * Allocate memory for endpoint data
248*e3723e1fSApple OSS Distributions */
249*e3723e1fSApple OSS Distributions th = calloc(nthreads, sizeof(*th));
250*e3723e1fSApple OSS Distributions T_QUIET;
251*e3723e1fSApple OSS Distributions T_ASSERT_NOTNULL(th, "select_stress: No memory for thread endpoints");
252*e3723e1fSApple OSS Distributions
253*e3723e1fSApple OSS Distributions T_LOG("Select stress test: %d threads, for %lld seconds", nthreads, duration_seconds);
254*e3723e1fSApple OSS Distributions
255*e3723e1fSApple OSS Distributions /*
256*e3723e1fSApple OSS Distributions * Startup all the threads
257*e3723e1fSApple OSS Distributions */
258*e3723e1fSApple OSS Distributions T_LOG("\tcreating threads...");
259*e3723e1fSApple OSS Distributions for (int i = 0; i < nthreads; i++) {
260*e3723e1fSApple OSS Distributions struct endpoint *e = &th[i].ep;
261*e3723e1fSApple OSS Distributions th[i].setup = setup_stress_event;
262*e3723e1fSApple OSS Distributions th[i].work = do_stress_events;
263*e3723e1fSApple OSS Distributions T_QUIET;
264*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
265*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_ZERO(pthread_create(&e->pth, 0, thread_sync, &th[i]),
266*e3723e1fSApple OSS Distributions "pthread_create:do_stress_events");
267*e3723e1fSApple OSS Distributions }
268*e3723e1fSApple OSS Distributions
269*e3723e1fSApple OSS Distributions /*
270*e3723e1fSApple OSS Distributions * Wait for all the threads to start up
271*e3723e1fSApple OSS Distributions */
272*e3723e1fSApple OSS Distributions while (started_threads < nthreads) {
273*e3723e1fSApple OSS Distributions if (semaphore_wait(g_sync_sem) == KERN_SUCCESS) {
274*e3723e1fSApple OSS Distributions ++started_threads;
275*e3723e1fSApple OSS Distributions }
276*e3723e1fSApple OSS Distributions }
277*e3723e1fSApple OSS Distributions
278*e3723e1fSApple OSS Distributions /*
279*e3723e1fSApple OSS Distributions * Kick everyone off
280*e3723e1fSApple OSS Distributions */
281*e3723e1fSApple OSS Distributions semaphore_signal_all(g_thread_sem);
282*e3723e1fSApple OSS Distributions
283*e3723e1fSApple OSS Distributions /*
284*e3723e1fSApple OSS Distributions * Calculate a stop time
285*e3723e1fSApple OSS Distributions */
286*e3723e1fSApple OSS Distributions deadline = mach_absolute_time() + ns_to_abs(duration_seconds * NSEC_PER_SEC);
287*e3723e1fSApple OSS Distributions seconds_remain = duration_seconds;
288*e3723e1fSApple OSS Distributions last_print_time = seconds_remain + 1;
289*e3723e1fSApple OSS Distributions
290*e3723e1fSApple OSS Distributions /*
291*e3723e1fSApple OSS Distributions * Perform the select and read any data that comes from the
292*e3723e1fSApple OSS Distributions * constituent thread FDs.
293*e3723e1fSApple OSS Distributions */
294*e3723e1fSApple OSS Distributions
295*e3723e1fSApple OSS Distributions T_LOG("\ttest running!");
296*e3723e1fSApple OSS Distributions handle_ebadf:
297*e3723e1fSApple OSS Distributions /* (re) set up the select fd set */
298*e3723e1fSApple OSS Distributions sarg.max_fd = 0;
299*e3723e1fSApple OSS Distributions FD_ZERO(&sarg.def_readfds);
300*e3723e1fSApple OSS Distributions for (int i = 0; i < nthreads; i++) {
301*e3723e1fSApple OSS Distributions struct endpoint *ep = &th[i].ep;
302*e3723e1fSApple OSS Distributions
303*e3723e1fSApple OSS Distributions FD_SET(ep->fd[0], &sarg.def_readfds);
304*e3723e1fSApple OSS Distributions if (ep->fd[0] > sarg.max_fd) {
305*e3723e1fSApple OSS Distributions sarg.max_fd = ep->fd[0];
306*e3723e1fSApple OSS Distributions }
307*e3723e1fSApple OSS Distributions }
308*e3723e1fSApple OSS Distributions
309*e3723e1fSApple OSS Distributions sarg.th = th;
310*e3723e1fSApple OSS Distributions sarg.nthreads = nthreads;
311*e3723e1fSApple OSS Distributions
312*e3723e1fSApple OSS Distributions while (mach_absolute_time() < deadline) {
313*e3723e1fSApple OSS Distributions void *thret = NULL;
314*e3723e1fSApple OSS Distributions
315*e3723e1fSApple OSS Distributions seconds_remain = abs_to_ns(deadline - mach_absolute_time()) / NSEC_PER_SEC;
316*e3723e1fSApple OSS Distributions if (last_print_time > seconds_remain) {
317*e3723e1fSApple OSS Distributions T_LOG(" %6lld...", seconds_remain);
318*e3723e1fSApple OSS Distributions last_print_time = seconds_remain;
319*e3723e1fSApple OSS Distributions }
320*e3723e1fSApple OSS Distributions
321*e3723e1fSApple OSS Distributions sarg.ret = 0;
322*e3723e1fSApple OSS Distributions T_QUIET;
323*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
324*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_ZERO(pthread_create(&sarg.pth, 0, do_select, &sarg),
325*e3723e1fSApple OSS Distributions "pthread_create:do_select");
326*e3723e1fSApple OSS Distributions
327*e3723e1fSApple OSS Distributions T_QUIET;
328*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
329*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_ZERO(pthread_cancel(sarg.pth), "pthread_cancel");
330*e3723e1fSApple OSS Distributions T_QUIET;
331*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
332*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_ZERO(pthread_join(sarg.pth, &thret), "pthread_join");
333*e3723e1fSApple OSS Distributions
334*e3723e1fSApple OSS Distributions if (sarg.ret == EBADF) {
335*e3723e1fSApple OSS Distributions goto handle_ebadf;
336*e3723e1fSApple OSS Distributions }
337*e3723e1fSApple OSS Distributions T_QUIET;
338*e3723e1fSApple OSS Distributions T_ASSERT_GE(sarg.ret, 0, "threaded do_select returned an \
339*e3723e1fSApple OSS Distributions error: %d!", sarg.ret);
340*e3723e1fSApple OSS Distributions }
341*e3723e1fSApple OSS Distributions
342*e3723e1fSApple OSS Distributions T_PASS("select stress test passed");
343*e3723e1fSApple OSS Distributions }
344*e3723e1fSApple OSS Distributions
345*e3723e1fSApple OSS Distributions
346*e3723e1fSApple OSS Distributions /*
347*e3723e1fSApple OSS Distributions * TEST: use select as sleep()
348*e3723e1fSApple OSS Distributions */
349*e3723e1fSApple OSS Distributions static void
test_select_sleep(uint32_t niterations,unsigned long usecs)350*e3723e1fSApple OSS Distributions test_select_sleep(uint32_t niterations, unsigned long usecs)
351*e3723e1fSApple OSS Distributions {
352*e3723e1fSApple OSS Distributions int ret;
353*e3723e1fSApple OSS Distributions struct timeval tv;
354*e3723e1fSApple OSS Distributions tv.tv_sec = 0;
355*e3723e1fSApple OSS Distributions tv.tv_usec = usecs;
356*e3723e1fSApple OSS Distributions
357*e3723e1fSApple OSS Distributions if (!niterations) {
358*e3723e1fSApple OSS Distributions T_FAIL("select sleep test skipped");
359*e3723e1fSApple OSS Distributions return;
360*e3723e1fSApple OSS Distributions }
361*e3723e1fSApple OSS Distributions
362*e3723e1fSApple OSS Distributions T_LOG("Testing select as sleep (n=%d, us=%ld)...", niterations, usecs);
363*e3723e1fSApple OSS Distributions
364*e3723e1fSApple OSS Distributions while (niterations--) {
365*e3723e1fSApple OSS Distributions ret = select(0, NULL, NULL, NULL, &tv);
366*e3723e1fSApple OSS Distributions if (ret < 0 && errno != EINTR) {
367*e3723e1fSApple OSS Distributions T_QUIET;
368*e3723e1fSApple OSS Distributions T_WITH_ERRNO;
369*e3723e1fSApple OSS Distributions T_ASSERT_POSIX_SUCCESS(ret, "select:sleep");
370*e3723e1fSApple OSS Distributions }
371*e3723e1fSApple OSS Distributions }
372*e3723e1fSApple OSS Distributions
373*e3723e1fSApple OSS Distributions T_PASS("select sleep test passed");
374*e3723e1fSApple OSS Distributions }
375*e3723e1fSApple OSS Distributions
376*e3723e1fSApple OSS Distributions #define get_env_arg(NM, sval, val) \
377*e3723e1fSApple OSS Distributions do { \
378*e3723e1fSApple OSS Distributions sval = getenv(#NM); \
379*e3723e1fSApple OSS Distributions if (sval) { \
380*e3723e1fSApple OSS Distributions long v = atol(sval); \
381*e3723e1fSApple OSS Distributions if (v <= 0) \
382*e3723e1fSApple OSS Distributions v =1 ; \
383*e3723e1fSApple OSS Distributions val = (typeof(val))v; \
384*e3723e1fSApple OSS Distributions } \
385*e3723e1fSApple OSS Distributions } while (0)
386*e3723e1fSApple OSS Distributions
387*e3723e1fSApple OSS Distributions T_DECL(select_sleep, "select sleep test for rdar://problem/20804876 Gala: select with no FDs leaks waitq table objects (causes asserts/panics)", T_META_TAG_VM_PREFERRED)
388*e3723e1fSApple OSS Distributions {
389*e3723e1fSApple OSS Distributions char *env_sval = NULL;
390*e3723e1fSApple OSS Distributions
391*e3723e1fSApple OSS Distributions get_env_arg(SELSLEEP_ITERATIONS, env_sval, g_sleep_iterations);
392*e3723e1fSApple OSS Distributions get_env_arg(SELSLEEP_INTERVAL, env_sval, g_sleep_usecs);
393*e3723e1fSApple OSS Distributions
394*e3723e1fSApple OSS Distributions test_select_sleep((uint32_t)g_sleep_iterations, (unsigned long)g_sleep_usecs);
395*e3723e1fSApple OSS Distributions }
396*e3723e1fSApple OSS Distributions
397*e3723e1fSApple OSS Distributions T_DECL(select_stress, "select stress test for rdar://problem/20804876 Gala: select with no FDs leaks waitq table objects (causes asserts/panics)", T_META_TAG_VM_PREFERRED)
398*e3723e1fSApple OSS Distributions {
399*e3723e1fSApple OSS Distributions char *env_sval = NULL;
400*e3723e1fSApple OSS Distributions
401*e3723e1fSApple OSS Distributions T_QUIET;
402*e3723e1fSApple OSS Distributions T_ASSERT_MACH_SUCCESS(mach_timebase_info(&g_timebase),
403*e3723e1fSApple OSS Distributions "Can't get mach_timebase_info!");
404*e3723e1fSApple OSS Distributions
405*e3723e1fSApple OSS Distributions get_env_arg(SELSTRESS_THREADS, env_sval, g_stress_nthreads);
406*e3723e1fSApple OSS Distributions get_env_arg(SELSTRESS_DURATION, env_sval, g_stress_duration);
407*e3723e1fSApple OSS Distributions
408*e3723e1fSApple OSS Distributions T_QUIET;
409*e3723e1fSApple OSS Distributions T_ASSERT_MACH_SUCCESS(semaphore_create(mach_task_self(), &g_sync_sem, SYNC_POLICY_FIFO, 0),
410*e3723e1fSApple OSS Distributions "semaphore_create(g_sync_sem)");
411*e3723e1fSApple OSS Distributions T_QUIET;
412*e3723e1fSApple OSS Distributions T_ASSERT_MACH_SUCCESS(semaphore_create(mach_task_self(), &g_thread_sem, SYNC_POLICY_FIFO, 0),
413*e3723e1fSApple OSS Distributions "semaphore_create(g_thread_sem)");
414*e3723e1fSApple OSS Distributions
415*e3723e1fSApple OSS Distributions test_select_stress(g_stress_nthreads, g_stress_duration);
416*e3723e1fSApple OSS Distributions }
417