// // UniqueExpireCacheTest.cpp // // Copyright (c) 2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #include "UniqueExpireCacheTest.h" #include "CppUnit/TestCaller.h" #include "CppUnit/TestSuite.h" #include "Poco/Exception.h" #include "Poco/UniqueExpireCache.h" #include "Poco/UniqueAccessExpireCache.h" #include "Poco/ExpirationDecorator.h" #include "Poco/AccessExpirationDecorator.h" #include "Poco/Bugcheck.h" #include "Poco/Thread.h" using namespace Poco; struct IntVal { int value; Poco::Timestamp validUntil; IntVal(int val, Poco::Timestamp::TimeDiff v):value(val), validUntil() { validUntil += (v*1000); } const Poco::Timestamp& getExpiration() const { return validUntil; } }; typedef AccessExpirationDecorator DIntVal; #define DURSLEEP 250 #define DURHALFSLEEP DURSLEEP / 2 #define DURWAIT 300 UniqueExpireCacheTest::UniqueExpireCacheTest(const std::string& name): CppUnit::TestCase(name) { } UniqueExpireCacheTest::~UniqueExpireCacheTest() { } void UniqueExpireCacheTest::testClear() { UniqueExpireCache aCache; aCache.add(1, IntVal(2, DURSLEEP)); aCache.add(3, IntVal(4, DURSLEEP)); aCache.add(5, IntVal(6, DURSLEEP)); assertTrue (aCache.has(1)); assertTrue (aCache.has(3)); assertTrue (aCache.has(5)); assertTrue (aCache.get(1)->value == 2); assertTrue (aCache.get(3)->value == 4); assertTrue (aCache.get(5)->value == 6); aCache.clear(); assertTrue (!aCache.has(1)); assertTrue (!aCache.has(3)); assertTrue (!aCache.has(5)); } void UniqueExpireCacheTest::testAccessClear() { UniqueAccessExpireCache aCache; aCache.add(1, DIntVal(2, DURSLEEP)); aCache.add(3, DIntVal(4, DURSLEEP)); aCache.add(5, DIntVal(6, DURSLEEP)); assertTrue (aCache.has(1)); assertTrue (aCache.has(3)); assertTrue (aCache.has(5)); assertTrue (aCache.get(1)->value() == 2); assertTrue (aCache.get(3)->value() == 4); assertTrue (aCache.get(5)->value() == 6); aCache.clear(); assertTrue (!aCache.has(1)); assertTrue (!aCache.has(3)); assertTrue (!aCache.has(5)); } void UniqueExpireCacheTest::testAccessUpdate() { UniqueAccessExpireCache aCache; aCache.add(1, DIntVal(2, DURSLEEP)); aCache.add(3, DIntVal(4, DURSLEEP)); aCache.add(5, DIntVal(6, DURSLEEP)); assertTrue (aCache.has(1)); assertTrue (aCache.has(3)); assertTrue (aCache.has(5)); assertTrue (aCache.get(1)->value() == 2); Thread::sleep(DURSLEEP/2); assertTrue (aCache.get(1)->value() == 2); Thread::sleep(DURSLEEP/2); assertTrue (aCache.get(1)->value() == 2); Thread::sleep(DURSLEEP/2); assertTrue (aCache.get(1)->value() == 2); assertTrue (!aCache.has(3)); assertTrue (!aCache.has(5)); Thread::sleep(DURSLEEP*2); assertTrue (!aCache.has(1)); assertTrue (!aCache.has(3)); assertTrue (!aCache.has(5)); aCache.remove(666); //must work too } void UniqueExpireCacheTest::testExpire0() { UniqueExpireCache aCache; aCache.add(1, IntVal(2, 0)); assertTrue (!aCache.has(1)); } void UniqueExpireCacheTest::testAccessExpire0() { UniqueAccessExpireCache aCache; aCache.add(1, DIntVal(2, Timespan(0, 0))); assertTrue (!aCache.has(1)); } void UniqueExpireCacheTest::testExpireN() { // 3-1 represents the cache sorted by age, elements get replaced at the end of the list // 3-1|5 -> 5 gets removed UniqueExpireCache aCache; aCache.add(1, IntVal(2, DURSLEEP)); // 1 assertTrue (aCache.has(1)); SharedPtr tmp = aCache.get(1); assertTrue (!tmp.isNull()); assertTrue (tmp->value == 2); Thread::sleep(DURWAIT); assertTrue (!aCache.has(1)); // tmp must still be valid, access it assertTrue (tmp->value == 2); tmp = aCache.get(1); assertTrue (tmp.isNull()); aCache.add(1, IntVal(2, DURSLEEP)); // 1 Thread::sleep(DURHALFSLEEP); aCache.add(3, IntVal(4, DURSLEEP)); // 3-1 assertTrue (aCache.has(1)); assertTrue (aCache.has(3)); tmp = aCache.get(1); SharedPtr tmp2 = aCache.get(3); assertTrue (tmp->value == 2); assertTrue (tmp2->value == 4); Thread::sleep(DURHALFSLEEP+25); //3|1 assertTrue (!aCache.has(1)); assertTrue (aCache.has(3)); assertTrue (tmp->value == 2); // 1-3 assertTrue (tmp2->value == 4); // 3-1 tmp2 = aCache.get(3); assertTrue (tmp2->value == 4); Thread::sleep(DURHALFSLEEP+25); //3|1 assertTrue (!aCache.has(3)); assertTrue (tmp2->value == 4); tmp = aCache.get(1); tmp2 = aCache.get(3); assertTrue (!tmp); assertTrue (!tmp2); // removing illegal entries should work too aCache.remove(666); aCache.clear(); assertTrue (!aCache.has(5)); assertTrue (!aCache.has(3)); } void UniqueExpireCacheTest::testDuplicateAdd() { UniqueExpireCache aCache; aCache.add(1, IntVal(2, DURSLEEP)); // 1 assertTrue (aCache.has(1)); assertTrue (aCache.get(1)->value == 2); aCache.add(1, IntVal(3, DURSLEEP)); assertTrue (aCache.has(1)); assertTrue (aCache.get(1)->value == 3); } void UniqueExpireCacheTest::testAccessDuplicateAdd() { UniqueAccessExpireCache aCache; aCache.add(1, DIntVal(2, DURSLEEP)); // 1 assertTrue (aCache.has(1)); assertTrue (aCache.get(1)->value() == 2); aCache.add(1, DIntVal(3, DURSLEEP)); assertTrue (aCache.has(1)); assertTrue (aCache.get(1)->value() == 3); } void UniqueExpireCacheTest::testExpirationDecorator() { typedef ExpirationDecorator ExpireInt; UniqueExpireCache aCache; aCache.add(1, ExpireInt(2, DURSLEEP)); // 1 assertTrue (aCache.has(1)); assertTrue (aCache.get(1)->value() == 2); aCache.add(1, ExpireInt(3, DURSLEEP)); assertTrue (aCache.has(1)); assertTrue (aCache.get(1)->value() == 3); } void UniqueExpireCacheTest::setUp() { } void UniqueExpireCacheTest::tearDown() { } CppUnit::Test* UniqueExpireCacheTest::suite() { CppUnit::TestSuite* pSuite = new CppUnit::TestSuite("UniqueExpireCacheTest"); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testClear); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testAccessClear); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testAccessUpdate); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testExpire0); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testAccessExpire0); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testExpireN); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testDuplicateAdd); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testAccessDuplicateAdd); CppUnit_addTest(pSuite, UniqueExpireCacheTest, testExpirationDecorator); return pSuite; }