SystemClock: add test

    LruCache_test.cpp \

    String8_test.cpp \

    StrongPointer_test.cpp \

    SystemClock_test.cpp \

    Unicode_test.cpp \

    Vector_test.cpp \

/*

 * Copyright (C) 2016 The Android Open Source Project

 *

 * Licensed under the Apache License, Version 2.0 (the "License");

 * you may not use this file except in compliance with the License.

 * You may obtain a copy of the License at

 *

 *      http://www.apache.org/licenses/LICENSE-2.0

 *

 * Unless required by applicable law or agreed to in writing, software

 * distributed under the License is distributed on an "AS IS" BASIS,

 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

 * See the License for the specific language governing permissions and

 * limitations under the License.

 */

#include <unistd.h>

#include <utils/SystemClock.h>

#include <gtest/gtest.h>

static const auto MS_IN_NS = 1000000;

static const int64_t SLEEP_MS = 500;

static const int64_t SLEEP_NS = SLEEP_MS * MS_IN_NS;

// Conservatively assume that we might be descheduled for up to 50 ms

static const int64_t SLACK_MS = 50;

static const int64_t SLACK_NS = SLACK_MS * MS_IN_NS;

TEST(SystemClock, SystemClock) {

    auto startUptimeMs = android::uptimeMillis();

    auto startRealtimeMs = android::elapsedRealtime();

    auto startRealtimeNs = android::elapsedRealtimeNano();

    ASSERT_GT(startUptimeMs, 0)

            << "uptimeMillis() reported an impossible uptime";

    ASSERT_GE(startRealtimeMs, startUptimeMs)

            << "elapsedRealtime() thinks we've suspended for negative time";

    ASSERT_GE(startRealtimeNs, startUptimeMs * MS_IN_NS)

            << "elapsedRealtimeNano() thinks we've suspended for negative time";

    ASSERT_GE(startRealtimeNs, startRealtimeMs * MS_IN_NS)

            << "elapsedRealtime() and elapsedRealtimeNano() are inconsistent";

    ASSERT_LT(startRealtimeNs, (startRealtimeMs + SLACK_MS) * MS_IN_NS)

            << "elapsedRealtime() and elapsedRealtimeNano() are inconsistent";

    timespec ts;

    ts.tv_sec = 0;

    ts.tv_nsec = SLEEP_MS * MS_IN_NS;

    auto nanosleepErr = TEMP_FAILURE_RETRY(nanosleep(&ts, nullptr));

    ASSERT_EQ(nanosleepErr, 0) << "nanosleep() failed: " << strerror(errno);

    auto endUptimeMs = android::uptimeMillis();

    auto endRealtimeMs = android::elapsedRealtime();

    auto endRealtimeNs = android::elapsedRealtimeNano();

    EXPECT_GE(endUptimeMs - startUptimeMs, SLEEP_MS)

            << "uptimeMillis() advanced too little after nanosleep()";

    EXPECT_LT(endUptimeMs - startUptimeMs, SLEEP_MS + SLACK_MS)

            << "uptimeMillis() advanced too much after nanosleep()";

    EXPECT_GE(endRealtimeMs - startRealtimeMs, SLEEP_MS)

            << "elapsedRealtime() advanced too little after nanosleep()";

    EXPECT_LT(endRealtimeMs - startRealtimeMs, SLEEP_MS + SLACK_MS)

            << "elapsedRealtime() advanced too much after nanosleep()";

    EXPECT_GE(endRealtimeNs - startRealtimeNs, SLEEP_NS)

            << "elapsedRealtimeNano() advanced too little after nanosleep()";

    EXPECT_LT(endRealtimeNs - startRealtimeNs, SLEEP_NS + SLACK_NS)

            << "elapsedRealtimeNano() advanced too much after nanosleep()";

    EXPECT_GE(endRealtimeNs, endRealtimeMs * MS_IN_NS)

            << "elapsedRealtime() and elapsedRealtimeNano() are inconsistent after nanosleep()";

    EXPECT_LT(endRealtimeNs, (endRealtimeMs + SLACK_MS) * MS_IN_NS)

            << "elapsedRealtime() and elapsedRealtimeNano() are inconsistent after nanosleep()";

}