/* * Copyright (C) 2012 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 <stdlib.h> #include <utils/JenkinsHash.h> #include <utils/LruCache.h> #include <cutils/log.h> #include <gtest/gtest.h> namespace android { typedef int SimpleKey; typedef const char* StringValue; struct ComplexKey { int k; explicit ComplexKey(int k) : k(k) { instanceCount += 1; } ComplexKey(const ComplexKey& other) : k(other.k) { instanceCount += 1; } ~ComplexKey() { instanceCount -= 1; } bool operator ==(const ComplexKey& other) const { return k == other.k; } bool operator !=(const ComplexKey& other) const { return k != other.k; } static ssize_t instanceCount; }; ssize_t ComplexKey::instanceCount = 0; template<> inline hash_t hash_type(const ComplexKey& value) { return hash_type(value.k); } struct ComplexValue { int v; explicit ComplexValue(int v) : v(v) { instanceCount += 1; } ComplexValue(const ComplexValue& other) : v(other.v) { instanceCount += 1; } ~ComplexValue() { instanceCount -= 1; } static ssize_t instanceCount; }; ssize_t ComplexValue::instanceCount = 0; typedef LruCache<ComplexKey, ComplexValue> ComplexCache; class EntryRemovedCallback : public OnEntryRemoved<SimpleKey, StringValue> { public: EntryRemovedCallback() : callbackCount(0), lastKey(-1), lastValue(NULL) { } ~EntryRemovedCallback() {} void operator()(SimpleKey& k, StringValue& v) { callbackCount += 1; lastKey = k; lastValue = v; } ssize_t callbackCount; SimpleKey lastKey; StringValue lastValue; }; class LruCacheTest : public testing::Test { protected: virtual void SetUp() { ComplexKey::instanceCount = 0; ComplexValue::instanceCount = 0; } virtual void TearDown() { ASSERT_NO_FATAL_FAILURE(assertInstanceCount(0, 0)); } void assertInstanceCount(ssize_t keys, ssize_t values) { if (keys != ComplexKey::instanceCount || values != ComplexValue::instanceCount) { FAIL() << "Expected " << keys << " keys and " << values << " values " "but there were actually " << ComplexKey::instanceCount << " keys and " << ComplexValue::instanceCount << " values"; } } }; TEST_F(LruCacheTest, Empty) { LruCache<SimpleKey, StringValue> cache(100); EXPECT_EQ(NULL, cache.get(0)); EXPECT_EQ(0u, cache.size()); } TEST_F(LruCacheTest, Simple) { LruCache<SimpleKey, StringValue> cache(100); cache.put(1, "one"); cache.put(2, "two"); cache.put(3, "three"); EXPECT_STREQ("one", cache.get(1)); EXPECT_STREQ("two", cache.get(2)); EXPECT_STREQ("three", cache.get(3)); EXPECT_EQ(3u, cache.size()); } TEST_F(LruCacheTest, MaxCapacity) { LruCache<SimpleKey, StringValue> cache(2); cache.put(1, "one"); cache.put(2, "two"); cache.put(3, "three"); EXPECT_EQ(NULL, cache.get(1)); EXPECT_STREQ("two", cache.get(2)); EXPECT_STREQ("three", cache.get(3)); EXPECT_EQ(2u, cache.size()); } TEST_F(LruCacheTest, RemoveLru) { LruCache<SimpleKey, StringValue> cache(100); cache.put(1, "one"); cache.put(2, "two"); cache.put(3, "three"); cache.removeOldest(); EXPECT_EQ(NULL, cache.get(1)); EXPECT_STREQ("two", cache.get(2)); EXPECT_STREQ("three", cache.get(3)); EXPECT_EQ(2u, cache.size()); } TEST_F(LruCacheTest, GetUpdatesLru) { LruCache<SimpleKey, StringValue> cache(100); cache.put(1, "one"); cache.put(2, "two"); cache.put(3, "three"); EXPECT_STREQ("one", cache.get(1)); cache.removeOldest(); EXPECT_STREQ("one", cache.get(1)); EXPECT_EQ(NULL, cache.get(2)); EXPECT_STREQ("three", cache.get(3)); EXPECT_EQ(2u, cache.size()); } uint32_t hash_int(int x) { return JenkinsHashWhiten(JenkinsHashMix(0, x)); } TEST_F(LruCacheTest, StressTest) { const size_t kCacheSize = 512; LruCache<SimpleKey, StringValue> cache(512); const size_t kNumKeys = 16 * 1024; const size_t kNumIters = 100000; char* strings[kNumKeys]; for (size_t i = 0; i < kNumKeys; i++) { strings[i] = (char *)malloc(16); sprintf(strings[i], "%d", i); } srandom(12345); int hitCount = 0; for (size_t i = 0; i < kNumIters; i++) { int index = random() % kNumKeys; uint32_t key = hash_int(index); const char *val = cache.get(key); if (val != NULL) { EXPECT_EQ(strings[index], val); hitCount++; } else { cache.put(key, strings[index]); } } size_t expectedHitCount = kNumIters * kCacheSize / kNumKeys; EXPECT_LT(int(expectedHitCount * 0.9), hitCount); EXPECT_GT(int(expectedHitCount * 1.1), hitCount); EXPECT_EQ(kCacheSize, cache.size()); for (size_t i = 0; i < kNumKeys; i++) { free((void *)strings[i]); } } TEST_F(LruCacheTest, NoLeak) { ComplexCache cache(100); cache.put(ComplexKey(0), ComplexValue(0)); cache.put(ComplexKey(1), ComplexValue(1)); EXPECT_EQ(2, cache.size()); assertInstanceCount(2, 3); // the null value counts as an instance } TEST_F(LruCacheTest, Clear) { ComplexCache cache(100); cache.put(ComplexKey(0), ComplexValue(0)); cache.put(ComplexKey(1), ComplexValue(1)); EXPECT_EQ(2, cache.size()); assertInstanceCount(2, 3); cache.clear(); assertInstanceCount(0, 1); } TEST_F(LruCacheTest, ClearNoDoubleFree) { { ComplexCache cache(100); cache.put(ComplexKey(0), ComplexValue(0)); cache.put(ComplexKey(1), ComplexValue(1)); EXPECT_EQ(2, cache.size()); assertInstanceCount(2, 3); cache.removeOldest(); cache.clear(); assertInstanceCount(0, 1); } assertInstanceCount(0, 0); } TEST_F(LruCacheTest, ClearReuseOk) { ComplexCache cache(100); cache.put(ComplexKey(0), ComplexValue(0)); cache.put(ComplexKey(1), ComplexValue(1)); EXPECT_EQ(2, cache.size()); assertInstanceCount(2, 3); cache.clear(); assertInstanceCount(0, 1); cache.put(ComplexKey(0), ComplexValue(0)); cache.put(ComplexKey(1), ComplexValue(1)); EXPECT_EQ(2, cache.size()); assertInstanceCount(2, 3); } TEST_F(LruCacheTest, Callback) { LruCache<SimpleKey, StringValue> cache(100); EntryRemovedCallback callback; cache.setOnEntryRemovedListener(&callback); cache.put(1, "one"); cache.put(2, "two"); cache.put(3, "three"); EXPECT_EQ(3, cache.size()); cache.removeOldest(); EXPECT_EQ(1, callback.callbackCount); EXPECT_EQ(1, callback.lastKey); EXPECT_STREQ("one", callback.lastValue); } TEST_F(LruCacheTest, CallbackOnClear) { LruCache<SimpleKey, StringValue> cache(100); EntryRemovedCallback callback; cache.setOnEntryRemovedListener(&callback); cache.put(1, "one"); cache.put(2, "two"); cache.put(3, "three"); EXPECT_EQ(3, cache.size()); cache.clear(); EXPECT_EQ(3, callback.callbackCount); } }