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-rw-r--r--test/syscalls/linux/vdso_clock_gettime.cc64
1 files changed, 17 insertions, 47 deletions
diff --git a/test/syscalls/linux/vdso_clock_gettime.cc b/test/syscalls/linux/vdso_clock_gettime.cc
index ce1899f45..52b67249d 100644
--- a/test/syscalls/linux/vdso_clock_gettime.cc
+++ b/test/syscalls/linux/vdso_clock_gettime.cc
@@ -38,8 +38,6 @@ std::string PrintClockId(::testing::TestParamInfo<clockid_t> info) {
switch (info.param) {
case CLOCK_MONOTONIC:
return "CLOCK_MONOTONIC";
- case CLOCK_REALTIME:
- return "CLOCK_REALTIME";
case CLOCK_BOOTTIME:
return "CLOCK_BOOTTIME";
default:
@@ -47,59 +45,31 @@ std::string PrintClockId(::testing::TestParamInfo<clockid_t> info) {
}
}
-class CorrectVDSOClockTest : public ::testing::TestWithParam<clockid_t> {};
+class MonotonicVDSOClockTest : public ::testing::TestWithParam<clockid_t> {};
-TEST_P(CorrectVDSOClockTest, IsCorrect) {
+TEST_P(MonotonicVDSOClockTest, IsCorrect) {
+ // Check that when we alternate readings from the clock_gettime syscall and
+ // the VDSO's implementation, we observe the combined sequence as being
+ // monotonic.
struct timespec tvdso, tsys;
absl::Time vdso_time, sys_time;
- uint64_t total_calls = 0;
-
- // It is expected that 82.5% of clock_gettime calls will be less than 100us
- // skewed from the system time.
- // Unfortunately this is not only influenced by the VDSO clock skew, but also
- // by arbitrary scheduling delays and the like. The test is therefore
- // regularly disabled.
- std::map<absl::Duration, std::tuple<double, uint64_t, uint64_t>> confidence =
- {
- {absl::Microseconds(100), std::make_tuple(0.825, 0, 0)},
- {absl::Microseconds(250), std::make_tuple(0.94, 0, 0)},
- {absl::Milliseconds(1), std::make_tuple(0.999, 0, 0)},
- };
-
- absl::Time start = absl::Now();
- while (absl::Now() < start + absl::Seconds(30)) {
- EXPECT_THAT(clock_gettime(GetParam(), &tvdso), SyscallSucceeds());
- EXPECT_THAT(syscall(__NR_clock_gettime, GetParam(), &tsys),
- SyscallSucceeds());
-
+ ASSERT_THAT(syscall(__NR_clock_gettime, GetParam(), &tsys),
+ SyscallSucceeds());
+ sys_time = absl::TimeFromTimespec(tsys);
+ auto end = absl::Now() + absl::Seconds(10);
+ while (absl::Now() < end) {
+ ASSERT_THAT(clock_gettime(GetParam(), &tvdso), SyscallSucceeds());
vdso_time = absl::TimeFromTimespec(tvdso);
-
- for (auto const& conf : confidence) {
- std::get<1>(confidence[conf.first]) +=
- (sys_time - vdso_time) < conf.first;
- }
-
+ EXPECT_LE(sys_time, vdso_time);
+ ASSERT_THAT(syscall(__NR_clock_gettime, GetParam(), &tsys),
+ SyscallSucceeds());
sys_time = absl::TimeFromTimespec(tsys);
-
- for (auto const& conf : confidence) {
- std::get<2>(confidence[conf.first]) +=
- (vdso_time - sys_time) < conf.first;
- }
-
- ++total_calls;
- }
-
- for (auto const& conf : confidence) {
- EXPECT_GE(std::get<1>(conf.second) / static_cast<double>(total_calls),
- std::get<0>(conf.second));
- EXPECT_GE(std::get<2>(conf.second) / static_cast<double>(total_calls),
- std::get<0>(conf.second));
+ EXPECT_LE(vdso_time, sys_time);
}
}
-INSTANTIATE_TEST_SUITE_P(ClockGettime, CorrectVDSOClockTest,
- ::testing::Values(CLOCK_MONOTONIC, CLOCK_REALTIME,
- CLOCK_BOOTTIME),
+INSTANTIATE_TEST_SUITE_P(ClockGettime, MonotonicVDSOClockTest,
+ ::testing::Values(CLOCK_MONOTONIC, CLOCK_BOOTTIME),
PrintClockId);
} // namespace