1*43a90889SApple OSS Distributions #include <stdio.h>
2*43a90889SApple OSS Distributions #include <errno.h>
3*43a90889SApple OSS Distributions #include <string.h>
4*43a90889SApple OSS Distributions #include <unistd.h>
5*43a90889SApple OSS Distributions #include <sys/mman.h>
6*43a90889SApple OSS Distributions #include <mach/clock_types.h>
7*43a90889SApple OSS Distributions #include <sys/timex.h>
8*43a90889SApple OSS Distributions #include <mach/mach.h>
9*43a90889SApple OSS Distributions #include <darwintest.h>
10*43a90889SApple OSS Distributions #include <darwintest_utils.h>
11*43a90889SApple OSS Distributions
12*43a90889SApple OSS Distributions
13*43a90889SApple OSS Distributions #define DAY 86400 /*1 day in sec*/
14*43a90889SApple OSS Distributions #define ERROR 2 /*2 us of error tolerance*/
15*43a90889SApple OSS Distributions
16*43a90889SApple OSS Distributions T_DECL(settimeofday_29192647,
17*43a90889SApple OSS Distributions "Verify that the syscall settimeofday is effective",
18*43a90889SApple OSS Distributions T_META_ASROOT(true), T_META_CHECK_LEAKS(NO), T_META_LTEPHASE(LTE_POSTINIT))
19*43a90889SApple OSS Distributions {
20*43a90889SApple OSS Distributions struct timeval time;
21*43a90889SApple OSS Distributions long new_time;
22*43a90889SApple OSS Distributions
23*43a90889SApple OSS Distributions if (geteuid() != 0) {
24*43a90889SApple OSS Distributions T_SKIP("settimeofday_29192647 test requires root privileges to run.");
25*43a90889SApple OSS Distributions }
26*43a90889SApple OSS Distributions
27*43a90889SApple OSS Distributions T_QUIET;
28*43a90889SApple OSS Distributions T_ASSERT_POSIX_ZERO(gettimeofday(&time, NULL), NULL);
29*43a90889SApple OSS Distributions
30*43a90889SApple OSS Distributions /* increment the time of one day */
31*43a90889SApple OSS Distributions new_time = time.tv_sec + DAY;
32*43a90889SApple OSS Distributions
33*43a90889SApple OSS Distributions time.tv_sec = new_time;
34*43a90889SApple OSS Distributions time.tv_usec = 0;
35*43a90889SApple OSS Distributions
36*43a90889SApple OSS Distributions T_LOG("Attemping to set the time one day after.");
37*43a90889SApple OSS Distributions
38*43a90889SApple OSS Distributions T_WITH_ERRNO;
39*43a90889SApple OSS Distributions T_ASSERT_POSIX_ZERO(settimeofday(&time, NULL), NULL);
40*43a90889SApple OSS Distributions
41*43a90889SApple OSS Distributions T_QUIET;
42*43a90889SApple OSS Distributions T_ASSERT_POSIX_ZERO(gettimeofday(&time, NULL), NULL);
43*43a90889SApple OSS Distributions
44*43a90889SApple OSS Distributions /* expext to be past new_time */
45*43a90889SApple OSS Distributions T_EXPECT_GE_LONG(time.tv_sec, new_time, "Time successfully changed");
46*43a90889SApple OSS Distributions
47*43a90889SApple OSS Distributions /* set the time back to previous value */
48*43a90889SApple OSS Distributions if (time.tv_sec >= new_time) {
49*43a90889SApple OSS Distributions time.tv_sec = time.tv_sec - DAY;
50*43a90889SApple OSS Distributions time.tv_usec = 0;
51*43a90889SApple OSS Distributions
52*43a90889SApple OSS Distributions T_WITH_ERRNO;
53*43a90889SApple OSS Distributions T_ASSERT_POSIX_ZERO(settimeofday(&time, NULL), NULL);
54*43a90889SApple OSS Distributions }
55*43a90889SApple OSS Distributions }
56*43a90889SApple OSS Distributions
57*43a90889SApple OSS Distributions static void
get_abs_to_us_scale_factor(uint64_t * numer,uint64_t * denom)58*43a90889SApple OSS Distributions get_abs_to_us_scale_factor(uint64_t* numer, uint64_t* denom)
59*43a90889SApple OSS Distributions {
60*43a90889SApple OSS Distributions struct timespec time;
61*43a90889SApple OSS Distributions uint64_t old_abstime, new_abstime;
62*43a90889SApple OSS Distributions uint64_t old_time_usec, new_time_usec;
63*43a90889SApple OSS Distributions uint64_t time_conv1, diff;
64*43a90889SApple OSS Distributions mach_timebase_info_data_t timebaseInfo = { 0, 0 };
65*43a90889SApple OSS Distributions
66*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&old_abstime, NULL, &time), KERN_SUCCESS, NULL);
67*43a90889SApple OSS Distributions
68*43a90889SApple OSS Distributions old_time_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
69*43a90889SApple OSS Distributions
70*43a90889SApple OSS Distributions sleep(1);
71*43a90889SApple OSS Distributions
72*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&new_abstime, NULL, &time), KERN_SUCCESS, NULL);
73*43a90889SApple OSS Distributions
74*43a90889SApple OSS Distributions new_time_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
75*43a90889SApple OSS Distributions
76*43a90889SApple OSS Distributions /* this is conversion factors from abs to nanos */
77*43a90889SApple OSS Distributions T_ASSERT_EQ(mach_timebase_info(&timebaseInfo), KERN_SUCCESS, NULL);
78*43a90889SApple OSS Distributions
79*43a90889SApple OSS Distributions new_time_usec -= old_time_usec;
80*43a90889SApple OSS Distributions new_abstime -= old_abstime;
81*43a90889SApple OSS Distributions
82*43a90889SApple OSS Distributions time_conv1 = new_abstime;
83*43a90889SApple OSS Distributions time_conv1 *= timebaseInfo.numer;
84*43a90889SApple OSS Distributions time_conv1 /= timebaseInfo.denom * 1000;
85*43a90889SApple OSS Distributions
86*43a90889SApple OSS Distributions if (time_conv1 > new_time_usec) {
87*43a90889SApple OSS Distributions diff = time_conv1 - new_time_usec;
88*43a90889SApple OSS Distributions } else {
89*43a90889SApple OSS Distributions diff = new_time_usec - time_conv1;
90*43a90889SApple OSS Distributions }
91*43a90889SApple OSS Distributions
92*43a90889SApple OSS Distributions T_EXPECT_LE_ULLONG(diff, (unsigned long long)ERROR, "Check scale factor time base (%u/%u) delta read usec %llu delta converted %llu delta abs %llu", timebaseInfo.numer, timebaseInfo.denom, time_conv1, new_time_usec, new_abstime);
93*43a90889SApple OSS Distributions
94*43a90889SApple OSS Distributions *numer = (uint64_t)timebaseInfo.numer;
95*43a90889SApple OSS Distributions *denom = (uint64_t)timebaseInfo.denom * 1000;
96*43a90889SApple OSS Distributions }
97*43a90889SApple OSS Distributions
98*43a90889SApple OSS Distributions
99*43a90889SApple OSS Distributions #define ADJSTMENT 3333 /*3333 us*/
100*43a90889SApple OSS Distributions #define ADJTIME_OFFSET_PER_SEC 500
101*43a90889SApple OSS Distributions
102*43a90889SApple OSS Distributions T_DECL(adjtime_29192647,
103*43a90889SApple OSS Distributions "Verify that the syscall adjtime is effective",
104*43a90889SApple OSS Distributions T_META_CHECK_LEAKS(NO), T_META_LTEPHASE(LTE_POSTINIT), T_META_ASROOT(true))
105*43a90889SApple OSS Distributions {
106*43a90889SApple OSS Distributions struct timespec time;
107*43a90889SApple OSS Distributions struct timeval adj;
108*43a90889SApple OSS Distributions uint64_t old_abstime, new_abstime, abs_delta;
109*43a90889SApple OSS Distributions uint64_t old_time_usec, new_time_usec, us_delta, num, den;
110*43a90889SApple OSS Distributions unsigned int sleep_time;
111*43a90889SApple OSS Distributions long diff;
112*43a90889SApple OSS Distributions const char * lterdos_env = NULL;
113*43a90889SApple OSS Distributions
114*43a90889SApple OSS Distributions #if defined(__i386__) || defined(__x86_64__)
115*43a90889SApple OSS Distributions T_SKIP("adjtime_29192647 test requires LTE to run.");
116*43a90889SApple OSS Distributions #endif
117*43a90889SApple OSS Distributions
118*43a90889SApple OSS Distributions if (geteuid() != 0) {
119*43a90889SApple OSS Distributions T_SKIP("adjtime_29192647 test requires root privileges to run.");
120*43a90889SApple OSS Distributions }
121*43a90889SApple OSS Distributions
122*43a90889SApple OSS Distributions lterdos_env = getenv("LTERDOS");
123*43a90889SApple OSS Distributions
124*43a90889SApple OSS Distributions if (lterdos_env != NULL) {
125*43a90889SApple OSS Distributions if (!(strcmp(lterdos_env, "YES") == 0)) {
126*43a90889SApple OSS Distributions T_SKIP("adjtime_29192647 test requires LTE to run.");
127*43a90889SApple OSS Distributions }
128*43a90889SApple OSS Distributions } else {
129*43a90889SApple OSS Distributions T_SKIP("adjtime_29192647 test requires LTE to run.");
130*43a90889SApple OSS Distributions }
131*43a90889SApple OSS Distributions
132*43a90889SApple OSS Distributions /*
133*43a90889SApple OSS Distributions * Calibrate scale factor for converting from abs time to usec
134*43a90889SApple OSS Distributions */
135*43a90889SApple OSS Distributions get_abs_to_us_scale_factor(&num, &den);
136*43a90889SApple OSS Distributions
137*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&old_abstime, NULL, &time), KERN_SUCCESS, NULL);
138*43a90889SApple OSS Distributions
139*43a90889SApple OSS Distributions old_time_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
140*43a90889SApple OSS Distributions
141*43a90889SApple OSS Distributions adj.tv_sec = 0;
142*43a90889SApple OSS Distributions adj.tv_usec = ADJSTMENT;
143*43a90889SApple OSS Distributions
144*43a90889SApple OSS Distributions T_LOG("Attemping to adjust the time of %d", ADJSTMENT);
145*43a90889SApple OSS Distributions
146*43a90889SApple OSS Distributions /*
147*43a90889SApple OSS Distributions * If more than one second of adjustment
148*43a90889SApple OSS Distributions * the system slews at a rate of 5ms/s otherwise 500us/s
149*43a90889SApple OSS Distributions * until the last second is slewed the final < 500 usecs.
150*43a90889SApple OSS Distributions */
151*43a90889SApple OSS Distributions T_WITH_ERRNO;
152*43a90889SApple OSS Distributions T_ASSERT_POSIX_ZERO(adjtime(&adj, NULL), NULL);
153*43a90889SApple OSS Distributions
154*43a90889SApple OSS Distributions /*
155*43a90889SApple OSS Distributions * Wait that the full adjustment is applied.
156*43a90889SApple OSS Distributions * Note, add 2 more secs for take into account division error
157*43a90889SApple OSS Distributions * and that the last block of adj is fully elapsed.
158*43a90889SApple OSS Distributions */
159*43a90889SApple OSS Distributions sleep_time = (ADJSTMENT) / (ADJTIME_OFFSET_PER_SEC)+2;
160*43a90889SApple OSS Distributions
161*43a90889SApple OSS Distributions T_LOG("Waiting for %u sec\n", sleep_time);
162*43a90889SApple OSS Distributions sleep(sleep_time);
163*43a90889SApple OSS Distributions
164*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&new_abstime, NULL, &time), KERN_SUCCESS, NULL);
165*43a90889SApple OSS Distributions
166*43a90889SApple OSS Distributions new_time_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
167*43a90889SApple OSS Distributions
168*43a90889SApple OSS Distributions us_delta = new_time_usec - old_time_usec;
169*43a90889SApple OSS Distributions us_delta -= ADJSTMENT;
170*43a90889SApple OSS Distributions
171*43a90889SApple OSS Distributions /* abs time is not affected by adjtime */
172*43a90889SApple OSS Distributions abs_delta = new_abstime - old_abstime;
173*43a90889SApple OSS Distributions
174*43a90889SApple OSS Distributions abs_delta *= num;
175*43a90889SApple OSS Distributions abs_delta /= den;
176*43a90889SApple OSS Distributions
177*43a90889SApple OSS Distributions diff = (long) us_delta - (long) abs_delta;
178*43a90889SApple OSS Distributions
179*43a90889SApple OSS Distributions /* expext that us_delta == abs_delta */
180*43a90889SApple OSS Distributions T_EXPECT_LE_LONG(diff, (long) ERROR, "Check abs time vs calendar time");
181*43a90889SApple OSS Distributions
182*43a90889SApple OSS Distributions T_EXPECT_GE_LONG(diff, (long) -ERROR, "Check abs time vs calendar time");
183*43a90889SApple OSS Distributions }
184*43a90889SApple OSS Distributions
185*43a90889SApple OSS Distributions #define FREQ_PPM 222 /*222 PPM(us/s)*/
186*43a90889SApple OSS Distributions #define SHIFT_PLL 4
187*43a90889SApple OSS Distributions #define OFFSET_US 123 /*123us*/
188*43a90889SApple OSS Distributions
189*43a90889SApple OSS Distributions T_DECL(ntp_adjtime_29192647,
190*43a90889SApple OSS Distributions "Verify that the syscall ntp_adjtime is effective",
191*43a90889SApple OSS Distributions T_META_CHECK_LEAKS(NO), T_META_LTEPHASE(LTE_POSTINIT), T_META_ASROOT(true))
192*43a90889SApple OSS Distributions {
193*43a90889SApple OSS Distributions struct timespec time;
194*43a90889SApple OSS Distributions struct timex ntptime;
195*43a90889SApple OSS Distributions uint64_t abstime1, abstime2, abs_delta, num, den, time_delta;
196*43a90889SApple OSS Distributions uint64_t time1_usec, time2_usec, time_conv, us_delta, app;
197*43a90889SApple OSS Distributions int64_t offset;
198*43a90889SApple OSS Distributions long diff, freq;
199*43a90889SApple OSS Distributions unsigned int sleep_time;
200*43a90889SApple OSS Distributions const char * lterdos_env = NULL;
201*43a90889SApple OSS Distributions
202*43a90889SApple OSS Distributions #if defined(__i386__) || defined(__x86_64__)
203*43a90889SApple OSS Distributions T_SKIP("ntp_adjtime_29192647 test requires LTE to run.");
204*43a90889SApple OSS Distributions #endif
205*43a90889SApple OSS Distributions
206*43a90889SApple OSS Distributions if (geteuid() != 0) {
207*43a90889SApple OSS Distributions T_SKIP("ntp_adjtime_29192647 test requires root privileges to run.");
208*43a90889SApple OSS Distributions }
209*43a90889SApple OSS Distributions
210*43a90889SApple OSS Distributions lterdos_env = getenv("LTERDOS");
211*43a90889SApple OSS Distributions
212*43a90889SApple OSS Distributions if (lterdos_env != NULL) {
213*43a90889SApple OSS Distributions if (!(strcmp(lterdos_env, "YES") == 0)) {
214*43a90889SApple OSS Distributions T_SKIP("adjtime_29192647 test requires LTE to run.");
215*43a90889SApple OSS Distributions }
216*43a90889SApple OSS Distributions } else {
217*43a90889SApple OSS Distributions T_SKIP("adjtime_29192647 test requires LTE to run.");
218*43a90889SApple OSS Distributions }
219*43a90889SApple OSS Distributions
220*43a90889SApple OSS Distributions /*
221*43a90889SApple OSS Distributions * Calibrate scale factor for converting from abs time to usec
222*43a90889SApple OSS Distributions */
223*43a90889SApple OSS Distributions get_abs_to_us_scale_factor(&num, &den);
224*43a90889SApple OSS Distributions
225*43a90889SApple OSS Distributions /*
226*43a90889SApple OSS Distributions * scale frequency using ntp_adjtime;
227*43a90889SApple OSS Distributions */
228*43a90889SApple OSS Distributions memset(&ntptime, 0, sizeof(ntptime));
229*43a90889SApple OSS Distributions
230*43a90889SApple OSS Distributions ntptime.modes = MOD_STATUS;
231*43a90889SApple OSS Distributions ntptime.status = TIME_OK;
232*43a90889SApple OSS Distributions /* ntp input freq is in ppm (us/s) * 2^16, max freq is 500 ppm */
233*43a90889SApple OSS Distributions freq = (FREQ_PPM) * 65536;
234*43a90889SApple OSS Distributions ntptime.modes |= MOD_FREQUENCY;
235*43a90889SApple OSS Distributions ntptime.freq = freq;
236*43a90889SApple OSS Distributions
237*43a90889SApple OSS Distributions T_LOG("Attemping to change calendar frequency of %d ppm", FREQ_PPM);
238*43a90889SApple OSS Distributions
239*43a90889SApple OSS Distributions T_WITH_ERRNO;
240*43a90889SApple OSS Distributions T_ASSERT_EQ(ntp_adjtime(&ntptime), TIME_OK, NULL);
241*43a90889SApple OSS Distributions
242*43a90889SApple OSS Distributions T_WITH_ERRNO;
243*43a90889SApple OSS Distributions T_ASSERT_EQ(ntptime.freq, freq, NULL);
244*43a90889SApple OSS Distributions
245*43a90889SApple OSS Distributions sleep(2);
246*43a90889SApple OSS Distributions
247*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&abstime1, NULL, &time), KERN_SUCCESS, NULL);
248*43a90889SApple OSS Distributions
249*43a90889SApple OSS Distributions time1_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
250*43a90889SApple OSS Distributions
251*43a90889SApple OSS Distributions sleep(1);
252*43a90889SApple OSS Distributions
253*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&abstime2, NULL, &time), KERN_SUCCESS, NULL);
254*43a90889SApple OSS Distributions
255*43a90889SApple OSS Distributions time2_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
256*43a90889SApple OSS Distributions
257*43a90889SApple OSS Distributions abs_delta = abstime2 - abstime1;
258*43a90889SApple OSS Distributions us_delta = time2_usec - time1_usec;
259*43a90889SApple OSS Distributions
260*43a90889SApple OSS Distributions time_conv = abs_delta;
261*43a90889SApple OSS Distributions time_conv *= num;
262*43a90889SApple OSS Distributions time_conv /= den;
263*43a90889SApple OSS Distributions
264*43a90889SApple OSS Distributions app = time_conv / USEC_PER_SEC; //sec elapsed
265*43a90889SApple OSS Distributions
266*43a90889SApple OSS Distributions time_delta = time_conv;
267*43a90889SApple OSS Distributions time_delta += app * (FREQ_PPM);
268*43a90889SApple OSS Distributions
269*43a90889SApple OSS Distributions app = time_conv % USEC_PER_SEC;
270*43a90889SApple OSS Distributions
271*43a90889SApple OSS Distributions time_delta += (app * (FREQ_PPM)) / USEC_PER_SEC;
272*43a90889SApple OSS Distributions
273*43a90889SApple OSS Distributions diff = (long) us_delta - (long) time_delta;
274*43a90889SApple OSS Distributions
275*43a90889SApple OSS Distributions /* expext that us_delta == time_delta */
276*43a90889SApple OSS Distributions T_EXPECT_LE_LONG(diff, (long) ERROR, "Check abs time vs calendar time");
277*43a90889SApple OSS Distributions
278*43a90889SApple OSS Distributions T_EXPECT_GE_LONG(diff, (long) -ERROR, "Check abs time vs calendar time");
279*43a90889SApple OSS Distributions
280*43a90889SApple OSS Distributions memset(&ntptime, 0, sizeof(ntptime));
281*43a90889SApple OSS Distributions
282*43a90889SApple OSS Distributions /* reset freq to zero */
283*43a90889SApple OSS Distributions freq = 0;
284*43a90889SApple OSS Distributions ntptime.modes = MOD_STATUS;
285*43a90889SApple OSS Distributions ntptime.status = TIME_OK;
286*43a90889SApple OSS Distributions ntptime.modes |= MOD_FREQUENCY;
287*43a90889SApple OSS Distributions ntptime.freq = freq;
288*43a90889SApple OSS Distributions
289*43a90889SApple OSS Distributions T_WITH_ERRNO;
290*43a90889SApple OSS Distributions T_ASSERT_EQ(ntp_adjtime(&ntptime), TIME_OK, NULL);
291*43a90889SApple OSS Distributions
292*43a90889SApple OSS Distributions T_WITH_ERRNO;
293*43a90889SApple OSS Distributions T_ASSERT_EQ(ntptime.freq, freq, NULL);
294*43a90889SApple OSS Distributions
295*43a90889SApple OSS Distributions sleep(1);
296*43a90889SApple OSS Distributions
297*43a90889SApple OSS Distributions /*
298*43a90889SApple OSS Distributions * adjust the phase using ntp_adjtime;
299*43a90889SApple OSS Distributions */
300*43a90889SApple OSS Distributions memset(&ntptime, 0, sizeof(ntptime));
301*43a90889SApple OSS Distributions ntptime.modes |= MOD_STATUS;
302*43a90889SApple OSS Distributions ntptime.status = TIME_OK;
303*43a90889SApple OSS Distributions ntptime.status |= STA_PLL | STA_FREQHOLD;
304*43a90889SApple OSS Distributions
305*43a90889SApple OSS Distributions /* ntp input phase can be both ns or us (MOD_MICRO), max offset is 500 ms */
306*43a90889SApple OSS Distributions ntptime.offset = OFFSET_US;
307*43a90889SApple OSS Distributions ntptime.modes |= MOD_OFFSET | MOD_MICRO;
308*43a90889SApple OSS Distributions
309*43a90889SApple OSS Distributions /*
310*43a90889SApple OSS Distributions * The system will slew each sec of:
311*43a90889SApple OSS Distributions * slew = ntp.offset >> (SHIFT_PLL + time_constant);
312*43a90889SApple OSS Distributions * ntp.offset -= slew;
313*43a90889SApple OSS Distributions */
314*43a90889SApple OSS Distributions offset = (OFFSET_US) * 1000;
315*43a90889SApple OSS Distributions sleep_time = 2;
316*43a90889SApple OSS Distributions
317*43a90889SApple OSS Distributions while ((offset >> SHIFT_PLL) > 0) {
318*43a90889SApple OSS Distributions offset -= offset >> SHIFT_PLL;
319*43a90889SApple OSS Distributions sleep_time++;
320*43a90889SApple OSS Distributions }
321*43a90889SApple OSS Distributions
322*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&abstime1, NULL, &time), KERN_SUCCESS, NULL);
323*43a90889SApple OSS Distributions
324*43a90889SApple OSS Distributions time1_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
325*43a90889SApple OSS Distributions
326*43a90889SApple OSS Distributions T_LOG("Attemping to change calendar phase of %d us", OFFSET_US);
327*43a90889SApple OSS Distributions
328*43a90889SApple OSS Distributions T_WITH_ERRNO;
329*43a90889SApple OSS Distributions T_ASSERT_EQ(ntp_adjtime(&ntptime), TIME_OK, NULL);
330*43a90889SApple OSS Distributions
331*43a90889SApple OSS Distributions T_WITH_ERRNO;
332*43a90889SApple OSS Distributions T_ASSERT_EQ(ntptime.offset, (long) OFFSET_US, NULL);
333*43a90889SApple OSS Distributions
334*43a90889SApple OSS Distributions T_LOG("Waiting for %u sec\n", sleep_time);
335*43a90889SApple OSS Distributions sleep(sleep_time);
336*43a90889SApple OSS Distributions
337*43a90889SApple OSS Distributions T_QUIET; T_ASSERT_EQ(mach_get_times(&abstime2, NULL, &time), KERN_SUCCESS, NULL);
338*43a90889SApple OSS Distributions
339*43a90889SApple OSS Distributions time2_usec = (uint64_t)time.tv_sec * USEC_PER_SEC + (uint64_t)time.tv_nsec / 1000;
340*43a90889SApple OSS Distributions
341*43a90889SApple OSS Distributions abs_delta = abstime2 - abstime1;
342*43a90889SApple OSS Distributions us_delta = time2_usec - time1_usec;
343*43a90889SApple OSS Distributions
344*43a90889SApple OSS Distributions abs_delta *= num;
345*43a90889SApple OSS Distributions abs_delta /= den;
346*43a90889SApple OSS Distributions
347*43a90889SApple OSS Distributions us_delta -= OFFSET_US;
348*43a90889SApple OSS Distributions
349*43a90889SApple OSS Distributions diff = (long) us_delta - (long) abs_delta;
350*43a90889SApple OSS Distributions
351*43a90889SApple OSS Distributions /* expext that us_delta == abs_delta */
352*43a90889SApple OSS Distributions T_EXPECT_LE_LONG(diff, (long) ERROR, "Check abs time vs calendar time");
353*43a90889SApple OSS Distributions
354*43a90889SApple OSS Distributions T_EXPECT_GE_LONG(diff, (long) -ERROR, "Check abs time vs calendar time");
355*43a90889SApple OSS Distributions
356*43a90889SApple OSS Distributions memset(&ntptime, 0, sizeof(ntptime));
357*43a90889SApple OSS Distributions ntptime.modes = MOD_STATUS;
358*43a90889SApple OSS Distributions ntptime.status = TIME_OK;
359*43a90889SApple OSS Distributions ntptime.modes |= MOD_FREQUENCY;
360*43a90889SApple OSS Distributions ntptime.freq = 0;
361*43a90889SApple OSS Distributions
362*43a90889SApple OSS Distributions ntptime.status |= STA_PLL;
363*43a90889SApple OSS Distributions ntptime.offset = 0;
364*43a90889SApple OSS Distributions ntptime.modes |= MOD_OFFSET;
365*43a90889SApple OSS Distributions
366*43a90889SApple OSS Distributions T_WITH_ERRNO;
367*43a90889SApple OSS Distributions T_ASSERT_EQ(ntp_adjtime(&ntptime), TIME_OK, NULL);
368*43a90889SApple OSS Distributions }
369