/* * Copyright 2015 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. */ //#define LOG_NDEBUG 0 #define LOG_TAG "ResourceManagerService_test" #include #include #include "ResourceManagerService.h" #include #include #include #include #include namespace android { static int64_t getId(sp client) { return (int64_t) client.get(); } struct TestProcessInfo : public ProcessInfoInterface { TestProcessInfo() {} virtual ~TestProcessInfo() {} virtual bool getPriority(int pid, int *priority) { // For testing, use pid as priority. // Lower the value higher the priority. *priority = pid; return true; } private: DISALLOW_EVIL_CONSTRUCTORS(TestProcessInfo); }; struct TestClient : public BnResourceManagerClient { TestClient(int pid, sp service) : mReclaimed(false), mPid(pid), mService(service) {} virtual bool reclaimResource() { sp client(this); mService->removeResource(mPid, (int64_t) client.get()); mReclaimed = true; return true; } virtual String8 getName() { return String8("test_client"); } bool reclaimed() const { return mReclaimed; } void reset() { mReclaimed = false; } protected: virtual ~TestClient() {} private: bool mReclaimed; int mPid; sp mService; DISALLOW_EVIL_CONSTRUCTORS(TestClient); }; static const int kTestPid1 = 30; static const int kTestPid2 = 20; static const int kLowPriorityPid = 40; static const int kMidPriorityPid = 25; static const int kHighPriorityPid = 10; class ResourceManagerServiceTest : public ::testing::Test { public: ResourceManagerServiceTest() : mService(new ResourceManagerService(new TestProcessInfo)), mTestClient1(new TestClient(kTestPid1, mService)), mTestClient2(new TestClient(kTestPid2, mService)), mTestClient3(new TestClient(kTestPid2, mService)) { } protected: static bool isEqualResources(const Vector &resources1, const Vector &resources2) { if (resources1.size() != resources2.size()) { return false; } for (size_t i = 0; i < resources1.size(); ++i) { if (resources1[i] != resources2[i]) { return false; } } return true; } static void expectEqResourceInfo(const ResourceInfo &info, sp client, const Vector &resources) { EXPECT_EQ(client, info.client); EXPECT_TRUE(isEqualResources(resources, info.resources)); } void verifyClients(bool c1, bool c2, bool c3) { TestClient *client1 = static_cast(mTestClient1.get()); TestClient *client2 = static_cast(mTestClient2.get()); TestClient *client3 = static_cast(mTestClient3.get()); EXPECT_EQ(c1, client1->reclaimed()); EXPECT_EQ(c2, client2->reclaimed()); EXPECT_EQ(c3, client3->reclaimed()); client1->reset(); client2->reset(); client3->reset(); } // test set up // --------------------------------------------------------------------------------- // pid priority client type number // --------------------------------------------------------------------------------- // kTestPid1(30) 30 mTestClient1 secure codec 1 // graphic memory 200 // graphic memory 200 // --------------------------------------------------------------------------------- // kTestPid2(20) 20 mTestClient2 non-secure codec 1 // graphic memory 300 // ------------------------------------------- // mTestClient3 secure codec 1 // graphic memory 100 // --------------------------------------------------------------------------------- void addResource() { // kTestPid1 mTestClient1 Vector resources1; resources1.push_back(MediaResource(String8(kResourceSecureCodec), 1)); mService->addResource(kTestPid1, getId(mTestClient1), mTestClient1, resources1); resources1.push_back(MediaResource(String8(kResourceGraphicMemory), 200)); Vector resources11; resources11.push_back(MediaResource(String8(kResourceGraphicMemory), 200)); mService->addResource(kTestPid1, getId(mTestClient1), mTestClient1, resources11); // kTestPid2 mTestClient2 Vector resources2; resources2.push_back(MediaResource(String8(kResourceNonSecureCodec), 1)); resources2.push_back(MediaResource(String8(kResourceGraphicMemory), 300)); mService->addResource(kTestPid2, getId(mTestClient2), mTestClient2, resources2); // kTestPid2 mTestClient3 Vector resources3; mService->addResource(kTestPid2, getId(mTestClient3), mTestClient3, resources3); resources3.push_back(MediaResource(String8(kResourceSecureCodec), 1)); resources3.push_back(MediaResource(String8(kResourceGraphicMemory), 100)); mService->addResource(kTestPid2, getId(mTestClient3), mTestClient3, resources3); const PidResourceInfosMap &map = mService->mMap; EXPECT_EQ(2u, map.size()); ssize_t index1 = map.indexOfKey(kTestPid1); ASSERT_GE(index1, 0); const ResourceInfos &infos1 = map[index1]; EXPECT_EQ(1u, infos1.size()); expectEqResourceInfo(infos1[0], mTestClient1, resources1); ssize_t index2 = map.indexOfKey(kTestPid2); ASSERT_GE(index2, 0); const ResourceInfos &infos2 = map[index2]; EXPECT_EQ(2u, infos2.size()); expectEqResourceInfo(infos2[0], mTestClient2, resources2); expectEqResourceInfo(infos2[1], mTestClient3, resources3); } void testConfig() { EXPECT_TRUE(mService->mSupportsMultipleSecureCodecs); EXPECT_TRUE(mService->mSupportsSecureWithNonSecureCodec); Vector policies1; policies1.push_back( MediaResourcePolicy( String8(kPolicySupportsMultipleSecureCodecs), String8("true"))); policies1.push_back( MediaResourcePolicy( String8(kPolicySupportsSecureWithNonSecureCodec), String8("false"))); mService->config(policies1); EXPECT_TRUE(mService->mSupportsMultipleSecureCodecs); EXPECT_FALSE(mService->mSupportsSecureWithNonSecureCodec); Vector policies2; policies2.push_back( MediaResourcePolicy( String8(kPolicySupportsMultipleSecureCodecs), String8("false"))); policies2.push_back( MediaResourcePolicy( String8(kPolicySupportsSecureWithNonSecureCodec), String8("true"))); mService->config(policies2); EXPECT_FALSE(mService->mSupportsMultipleSecureCodecs); EXPECT_TRUE(mService->mSupportsSecureWithNonSecureCodec); } void testRemoveResource() { addResource(); mService->removeResource(kTestPid2, getId(mTestClient2)); const PidResourceInfosMap &map = mService->mMap; EXPECT_EQ(2u, map.size()); const ResourceInfos &infos1 = map.valueFor(kTestPid1); const ResourceInfos &infos2 = map.valueFor(kTestPid2); EXPECT_EQ(1u, infos1.size()); EXPECT_EQ(1u, infos2.size()); // mTestClient2 has been removed. EXPECT_EQ(mTestClient3, infos2[0].client); } void testGetAllClients() { addResource(); String8 type = String8(kResourceSecureCodec); String8 unknowType = String8("unknowType"); Vector > clients; EXPECT_FALSE(mService->getAllClients_l(kLowPriorityPid, type, &clients)); // some higher priority process (e.g. kTestPid2) owns the resource, so getAllClients_l // will fail. EXPECT_FALSE(mService->getAllClients_l(kMidPriorityPid, type, &clients)); EXPECT_TRUE(mService->getAllClients_l(kHighPriorityPid, unknowType, &clients)); EXPECT_TRUE(mService->getAllClients_l(kHighPriorityPid, type, &clients)); EXPECT_EQ(2u, clients.size()); EXPECT_EQ(mTestClient3, clients[0]); EXPECT_EQ(mTestClient1, clients[1]); } void testReclaimResourceSecure() { Vector resources; resources.push_back(MediaResource(String8(kResourceSecureCodec), 1)); resources.push_back(MediaResource(String8(kResourceGraphicMemory), 150)); // ### secure codec can't coexist and secure codec can coexist with non-secure codec ### { addResource(); mService->mSupportsMultipleSecureCodecs = false; mService->mSupportsSecureWithNonSecureCodec = true; // priority too low EXPECT_FALSE(mService->reclaimResource(kLowPriorityPid, resources)); EXPECT_FALSE(mService->reclaimResource(kMidPriorityPid, resources)); // reclaim all secure codecs EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(true /* c1 */, false /* c2 */, true /* c3 */); // call again should reclaim one largest graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, true /* c2 */, false /* c3 */); // nothing left EXPECT_FALSE(mService->reclaimResource(kHighPriorityPid, resources)); } // ### secure codecs can't coexist and secure codec can't coexist with non-secure codec ### { addResource(); mService->mSupportsMultipleSecureCodecs = false; mService->mSupportsSecureWithNonSecureCodec = false; // priority too low EXPECT_FALSE(mService->reclaimResource(kLowPriorityPid, resources)); EXPECT_FALSE(mService->reclaimResource(kMidPriorityPid, resources)); // reclaim all secure and non-secure codecs EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(true /* c1 */, true /* c2 */, true /* c3 */); // nothing left EXPECT_FALSE(mService->reclaimResource(kHighPriorityPid, resources)); } // ### secure codecs can coexist but secure codec can't coexist with non-secure codec ### { addResource(); mService->mSupportsMultipleSecureCodecs = true; mService->mSupportsSecureWithNonSecureCodec = false; // priority too low EXPECT_FALSE(mService->reclaimResource(kLowPriorityPid, resources)); EXPECT_FALSE(mService->reclaimResource(kMidPriorityPid, resources)); // reclaim all non-secure codecs EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, true /* c2 */, false /* c3 */); // call again should reclaim one largest graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(true /* c1 */, false /* c2 */, false /* c3 */); // call again should reclaim another largest graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, false /* c2 */, true /* c3 */); // nothing left EXPECT_FALSE(mService->reclaimResource(kHighPriorityPid, resources)); } // ### secure codecs can coexist and secure codec can coexist with non-secure codec ### { addResource(); mService->mSupportsMultipleSecureCodecs = true; mService->mSupportsSecureWithNonSecureCodec = true; // priority too low EXPECT_FALSE(mService->reclaimResource(kLowPriorityPid, resources)); EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); // one largest graphic memory from lowest process got reclaimed verifyClients(true /* c1 */, false /* c2 */, false /* c3 */); // call again should reclaim another graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, true /* c2 */, false /* c3 */); // call again should reclaim another graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, false /* c2 */, true /* c3 */); // nothing left EXPECT_FALSE(mService->reclaimResource(kHighPriorityPid, resources)); } // ### secure codecs can coexist and secure codec can coexist with non-secure codec ### { addResource(); mService->mSupportsMultipleSecureCodecs = true; mService->mSupportsSecureWithNonSecureCodec = true; Vector resources; resources.push_back(MediaResource(String8(kResourceSecureCodec), 1)); EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); // secure codec from lowest process got reclaimed verifyClients(true /* c1 */, false /* c2 */, false /* c3 */); // call again should reclaim another secure codec from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, false /* c2 */, true /* c3 */); // no more secure codec, non-secure codec will be reclaimed. EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, true /* c2 */, false /* c3 */); } } void testReclaimResourceNonSecure() { Vector resources; resources.push_back(MediaResource(String8(kResourceNonSecureCodec), 1)); resources.push_back(MediaResource(String8(kResourceGraphicMemory), 150)); // ### secure codec can't coexist with non-secure codec ### { addResource(); mService->mSupportsSecureWithNonSecureCodec = false; // priority too low EXPECT_FALSE(mService->reclaimResource(kLowPriorityPid, resources)); EXPECT_FALSE(mService->reclaimResource(kMidPriorityPid, resources)); // reclaim all secure codecs EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(true /* c1 */, false /* c2 */, true /* c3 */); // call again should reclaim one graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, true /* c2 */, false /* c3 */); // nothing left EXPECT_FALSE(mService->reclaimResource(kHighPriorityPid, resources)); } // ### secure codec can coexist with non-secure codec ### { addResource(); mService->mSupportsSecureWithNonSecureCodec = true; // priority too low EXPECT_FALSE(mService->reclaimResource(kLowPriorityPid, resources)); EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); // one largest graphic memory from lowest process got reclaimed verifyClients(true /* c1 */, false /* c2 */, false /* c3 */); // call again should reclaim another graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, true /* c2 */, false /* c3 */); // call again should reclaim another graphic memory from lowest process EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(false /* c1 */, false /* c2 */, true /* c3 */); // nothing left EXPECT_FALSE(mService->reclaimResource(kHighPriorityPid, resources)); } // ### secure codec can coexist with non-secure codec ### { addResource(); mService->mSupportsSecureWithNonSecureCodec = true; Vector resources; resources.push_back(MediaResource(String8(kResourceNonSecureCodec), 1)); EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); // one non secure codec from lowest process got reclaimed verifyClients(false /* c1 */, true /* c2 */, false /* c3 */); // no more non-secure codec, secure codec from lowest priority process will be reclaimed EXPECT_TRUE(mService->reclaimResource(kHighPriorityPid, resources)); verifyClients(true /* c1 */, false /* c2 */, false /* c3 */); // clean up client 3 which still left mService->removeResource(kTestPid2, getId(mTestClient3)); } } void testGetLowestPriorityBiggestClient() { String8 type = String8(kResourceGraphicMemory); sp client; EXPECT_FALSE(mService->getLowestPriorityBiggestClient_l(kHighPriorityPid, type, &client)); addResource(); EXPECT_FALSE(mService->getLowestPriorityBiggestClient_l(kLowPriorityPid, type, &client)); EXPECT_TRUE(mService->getLowestPriorityBiggestClient_l(kHighPriorityPid, type, &client)); // kTestPid1 is the lowest priority process with kResourceGraphicMemory. // mTestClient1 has the largest kResourceGraphicMemory within kTestPid1. EXPECT_EQ(mTestClient1, client); } void testGetLowestPriorityPid() { int pid; int priority; TestProcessInfo processInfo; String8 type = String8(kResourceGraphicMemory); EXPECT_FALSE(mService->getLowestPriorityPid_l(type, &pid, &priority)); addResource(); EXPECT_TRUE(mService->getLowestPriorityPid_l(type, &pid, &priority)); EXPECT_EQ(kTestPid1, pid); int priority1; processInfo.getPriority(kTestPid1, &priority1); EXPECT_EQ(priority1, priority); type = String8(kResourceNonSecureCodec); EXPECT_TRUE(mService->getLowestPriorityPid_l(type, &pid, &priority)); EXPECT_EQ(kTestPid2, pid); int priority2; processInfo.getPriority(kTestPid2, &priority2); EXPECT_EQ(priority2, priority); } void testGetBiggestClient() { String8 type = String8(kResourceGraphicMemory); sp client; EXPECT_FALSE(mService->getBiggestClient_l(kTestPid2, type, &client)); addResource(); EXPECT_TRUE(mService->getBiggestClient_l(kTestPid2, type, &client)); EXPECT_EQ(mTestClient2, client); } void testIsCallingPriorityHigher() { EXPECT_FALSE(mService->isCallingPriorityHigher_l(101, 100)); EXPECT_FALSE(mService->isCallingPriorityHigher_l(100, 100)); EXPECT_TRUE(mService->isCallingPriorityHigher_l(99, 100)); } sp mService; sp mTestClient1; sp mTestClient2; sp mTestClient3; }; TEST_F(ResourceManagerServiceTest, config) { testConfig(); } TEST_F(ResourceManagerServiceTest, addResource) { addResource(); } TEST_F(ResourceManagerServiceTest, removeResource) { testRemoveResource(); } TEST_F(ResourceManagerServiceTest, reclaimResource) { testReclaimResourceSecure(); testReclaimResourceNonSecure(); } TEST_F(ResourceManagerServiceTest, getAllClients_l) { testGetAllClients(); } TEST_F(ResourceManagerServiceTest, getLowestPriorityBiggestClient_l) { testGetLowestPriorityBiggestClient(); } TEST_F(ResourceManagerServiceTest, getLowestPriorityPid_l) { testGetLowestPriorityPid(); } TEST_F(ResourceManagerServiceTest, getBiggestClient_l) { testGetBiggestClient(); } TEST_F(ResourceManagerServiceTest, isCallingPriorityHigher_l) { testIsCallingPriorityHigher(); } } // namespace android