/* * Copyright (C) 2019 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 */ package com.android.server.wm; import static com.android.dx.mockito.inline.extended.ExtendedMockito.mock; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertNull; import static org.junit.Assert.assertTrue; import static org.mockito.Mockito.spy; import static org.mockito.Mockito.verify; import android.os.UserHandle; import android.platform.test.annotations.Presubmit; import android.util.ArraySet; import androidx.test.filters.SmallTest; import org.junit.Before; import org.junit.Test; import org.junit.runner.RunWith; /** * Tests for the {@link WindowProcessControllerMap} class. * * Build/Install/Run: * atest WmTests:WindowProcessControllerMapTests */ @SmallTest @Presubmit @RunWith(WindowTestRunner.class) public class WindowProcessControllerMapTests extends WindowTestsBase { private static final int FAKE_UID1 = 666; private static final int FAKE_UID2 = 667; private static final int FAKE_PID1 = 668; private static final int FAKE_PID2 = 669; private static final int FAKE_PID3 = 670; private static final int FAKE_PID4 = 671; private WindowProcessControllerMap mProcessMap; private WindowProcessController pid1uid1; private WindowProcessController pid1uid2; private WindowProcessController pid2uid1; private WindowProcessController pid3uid1; private WindowProcessController pid4uid2; @Before public void setUp() throws Exception { mProcessMap = new WindowProcessControllerMap(); pid1uid1 = new WindowProcessController( mAtm, mAtm.mContext.getApplicationInfo(), "fakepid1fakeuid1", FAKE_UID1, UserHandle.getUserId(12345), mock(Object.class), mock(WindowProcessListener.class)); pid1uid1.setPid(FAKE_PID1); pid1uid2 = new WindowProcessController( mAtm, mAtm.mContext.getApplicationInfo(), "fakepid1fakeuid2", FAKE_UID2, UserHandle.getUserId(12345), mock(Object.class), mock(WindowProcessListener.class)); pid1uid2.setPid(FAKE_PID1); pid2uid1 = new WindowProcessController( mAtm, mAtm.mContext.getApplicationInfo(), "fakepid2fakeuid1", FAKE_UID1, UserHandle.getUserId(12345), mock(Object.class), mock(WindowProcessListener.class)); pid2uid1.setPid(FAKE_PID2); pid3uid1 = new WindowProcessController( mAtm, mAtm.mContext.getApplicationInfo(), "fakepid3fakeuid1", FAKE_UID1, UserHandle.getUserId(12345), mock(Object.class), mock(WindowProcessListener.class)); pid3uid1.setPid(FAKE_PID3); pid4uid2 = new WindowProcessController( mAtm, mAtm.mContext.getApplicationInfo(), "fakepid4fakeuid2", FAKE_UID2, UserHandle.getUserId(12345), mock(Object.class), mock(WindowProcessListener.class)); pid4uid2.setPid(FAKE_PID4); } @Test public void testAdditionsAndRemovals() { // test various additions and removals mProcessMap.put(FAKE_PID1, pid1uid1); mProcessMap.put(FAKE_PID2, pid2uid1); assertEquals(pid1uid1, mProcessMap.getProcess(FAKE_PID1)); assertEquals(pid2uid1, mProcessMap.getProcess(FAKE_PID2)); ArraySet uid1processes = mProcessMap.getProcesses(FAKE_UID1); assertTrue(uid1processes.contains(pid1uid1)); assertTrue(uid1processes.contains(pid2uid1)); assertEquals(uid1processes.size(), 2); mProcessMap.remove(FAKE_PID2); mProcessMap.put(FAKE_PID3, pid3uid1); uid1processes = mProcessMap.getProcesses(FAKE_UID1); assertTrue(uid1processes.contains(pid1uid1)); assertFalse(uid1processes.contains(pid2uid1)); assertTrue(uid1processes.contains(pid3uid1)); assertEquals(uid1processes.size(), 2); mProcessMap.put(FAKE_PID4, pid4uid2); ArraySet uid2processes = mProcessMap.getProcesses(FAKE_UID2); assertTrue(uid2processes.contains(pid4uid2)); assertEquals(uid2processes.size(), 1); mProcessMap.remove(FAKE_PID1); mProcessMap.remove(FAKE_PID3); assertNull(mProcessMap.getProcesses(FAKE_UID1)); assertEquals(mProcessMap.getProcess(FAKE_PID4), pid4uid2); } @Test public void testReplacement() { // test that replacing a process is handled correctly mProcessMap.put(FAKE_PID1, pid1uid1); ArraySet uid1processes = mProcessMap.getProcesses(FAKE_UID1); assertTrue(uid1processes.contains(pid1uid1)); assertEquals(uid1processes.size(), 1); mProcessMap.put(FAKE_PID1, pid1uid2); assertNull(mProcessMap.getProcesses(FAKE_UID1)); ArraySet uid2processes = mProcessMap.getProcesses(FAKE_UID2); assertTrue(uid2processes.contains(pid1uid2)); assertEquals(uid2processes.size(), 1); assertEquals(mProcessMap.getProcess(FAKE_PID1), pid1uid2); } @Test public void testRemove_callsDestroy() { var proc = spy(pid1uid1); mProcessMap.put(FAKE_PID1, proc); mProcessMap.remove(FAKE_PID1); verify(proc).destroy(); } }