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android / platform / tools / tradefederation / 58f3e9ea6d8941b76bdd1fdfa6a425c080a6c1e9 / . / tests / src / com / android / tradefed / device / TestDeviceTest.java
blob: e570966836e80e7f290b261af5e589297197e5fd [file] [log] [blame]
/*
* Copyright (C) 2010 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.tradefed.device;
import com.android.ddmlib.AdbCommandRejectedException;
import com.android.ddmlib.IDevice;
import com.android.ddmlib.IDevice.DeviceState;
import com.android.ddmlib.IShellOutputReceiver;
import com.android.ddmlib.InstallReceiver;
import com.android.ddmlib.RawImage;
import com.android.ddmlib.ShellCommandUnresponsiveException;
import com.android.ddmlib.TimeoutException;
import com.android.ddmlib.testrunner.IRemoteAndroidTestRunner;
import com.android.ddmlib.testrunner.ITestRunListener;
import com.android.ddmlib.testrunner.RemoteAndroidTestRunner;
import com.android.tradefed.config.OptionSetter;
import com.android.tradefed.device.ITestDevice.MountPointInfo;
import com.android.tradefed.device.ITestDevice.RecoveryMode;
import com.android.tradefed.host.HostOptions;
import com.android.tradefed.host.IHostOptions;
import com.android.tradefed.log.LogUtil.CLog;
import com.android.tradefed.result.ByteArrayInputStreamSource;
import com.android.tradefed.result.ITestLifeCycleReceiver;
import com.android.tradefed.result.InputStreamSource;
import com.android.tradefed.util.ArrayUtil;
import com.android.tradefed.util.CommandResult;
import com.android.tradefed.util.CommandStatus;
import com.android.tradefed.util.FileUtil;
import com.android.tradefed.util.IRunUtil;
import com.android.tradefed.util.KeyguardControllerState;
import com.android.tradefed.util.RunUtil;
import com.android.tradefed.util.StreamUtil;
import com.android.tradefed.util.ZipUtil2;
import com.google.common.util.concurrent.SettableFuture;
import junit.framework.TestCase;
import org.easymock.EasyMock;
import org.easymock.IAnswer;
import org.easymock.IExpectationSetters;
import org.junit.Assert;
import org.mockito.ArgumentCaptor;
import org.mockito.Mockito;
import java.awt.image.BufferedImage;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;
/**
* Unit tests for {@link TestDevice}.
*/
public class TestDeviceTest extends TestCase {
private static final String MOCK_DEVICE_SERIAL = "serial";
// For getCurrentUser, the min api should be 24. We make the stub return 23, the logic should
// increment it by one.
private static final int MIN_API_LEVEL_GET_CURRENT_USER = 23;
private static final int MIN_API_LEVEL_STOP_USER = 22;
private static final String RAWIMAGE_RESOURCE = "/testdata/rawImage.zip";
private IDevice mMockIDevice;
private IShellOutputReceiver mMockReceiver;
private TestDevice mTestDevice;
private TestDevice mRecoveryTestDevice;
private TestDevice mNoFastbootTestDevice;
private IDeviceRecovery mMockRecovery;
private IDeviceStateMonitor mMockStateMonitor;
private IRunUtil mMockRunUtil;
private IWifiHelper mMockWifi;
private IDeviceMonitor mMockDvcMonitor;
/**
* A {@link TestDevice} that is suitable for running tests against
*/
private class TestableTestDevice extends TestDevice {
public TestableTestDevice() {
super(mMockIDevice, mMockStateMonitor, mMockDvcMonitor);
}
@Override
public void postBootSetup() {
// too annoying to mock out postBootSetup actions everyone, so do nothing
}
@Override
protected IRunUtil getRunUtil() {
return mMockRunUtil;
}
@Override
void doReboot() throws DeviceNotAvailableException, UnsupportedOperationException {
}
@Override
IHostOptions getHostOptions() {
// Avoid issue with GlobalConfiguration
return new HostOptions();
}
}
/**
* {@inheritDoc}
*/
@Override
protected void setUp() throws Exception {
super.setUp();
mMockIDevice = EasyMock.createMock(IDevice.class);
EasyMock.expect(mMockIDevice.getSerialNumber()).andReturn(MOCK_DEVICE_SERIAL).anyTimes();
mMockReceiver = EasyMock.createMock(IShellOutputReceiver.class);
mMockRecovery = EasyMock.createMock(IDeviceRecovery.class);
mMockStateMonitor = EasyMock.createMock(IDeviceStateMonitor.class);
mMockDvcMonitor = EasyMock.createMock(IDeviceMonitor.class);
mMockRunUtil = EasyMock.createMock(IRunUtil.class);
mMockWifi = EasyMock.createMock(IWifiHelper.class);
// A TestDevice with a no-op recoverDevice() implementation
mTestDevice =
new TestableTestDevice() {
@Override
public void recoverDevice() throws DeviceNotAvailableException {
// ignore
}
@Override
IWifiHelper createWifiHelper() throws DeviceNotAvailableException {
return mMockWifi;
}
};
mTestDevice.setRecovery(mMockRecovery);
mTestDevice.setCommandTimeout(100);
mTestDevice.setLogStartDelay(-1);
// TestDevice with intact recoverDevice()
mRecoveryTestDevice = new TestableTestDevice();
mRecoveryTestDevice.setRecovery(mMockRecovery);
mRecoveryTestDevice.setCommandTimeout(100);
mRecoveryTestDevice.setLogStartDelay(-1);
// TestDevice without fastboot
mNoFastbootTestDevice = new TestableTestDevice();
mNoFastbootTestDevice.setFastbootEnabled(false);
mNoFastbootTestDevice.setRecovery(mMockRecovery);
mNoFastbootTestDevice.setCommandTimeout(100);
mNoFastbootTestDevice.setLogStartDelay(-1);
}
/**
* Test {@link TestDevice#enableAdbRoot()} when adb is already root
*/
public void testEnableAdbRoot_alreadyRoot() throws Exception {
injectShellResponse("id", "uid=0(root) gid=0(root)");
EasyMock.replay(mMockIDevice);
assertTrue(mTestDevice.enableAdbRoot());
}
/**
* Test {@link TestDevice#enableAdbRoot()} when adb is not root
*/
public void testEnableAdbRoot_notRoot() throws Exception {
setEnableAdbRootExpectations();
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
assertTrue(mTestDevice.enableAdbRoot());
}
/**
* Test {@link TestDevice#enableAdbRoot()} when "enable-root" is "false"
*/
public void testEnableAdbRoot_noEnableRoot() throws Exception {
boolean enableRoot = mTestDevice.getOptions().isEnableAdbRoot();
OptionSetter setter = new OptionSetter(mTestDevice.getOptions());
setter.setOptionValue("enable-root", "false");
try {
assertFalse(mTestDevice.enableAdbRoot());
} finally {
setter.setOptionValue("enable-root", Boolean.toString(enableRoot));
}
}
/**
* Test {@link TestDevice#disableAdbRoot()} when adb is already unroot
*/
public void testDisableAdbRoot_alreadyUnroot() throws Exception {
injectShellResponse("id", "uid=2000(shell) gid=2000(shell) groups=2000(shell)");
EasyMock.replay(mMockIDevice);
assertTrue(mTestDevice.disableAdbRoot());
EasyMock.verify(mMockIDevice);
}
/**
* Test {@link TestDevice#disableAdbRoot()} when adb is root
*/
public void testDisableAdbRoot_unroot() throws Exception {
injectShellResponse("id", "uid=0(root) gid=0(root)");
injectShellResponse("id", "uid=2000(shell) gid=2000(shell)");
CommandResult adbResult = new CommandResult();
adbResult.setStatus(CommandStatus.SUCCESS);
adbResult.setStdout("restarting adbd as non root");
setExecuteAdbCommandExpectations(adbResult, "unroot");
EasyMock.expect(mMockStateMonitor.waitForDeviceNotAvailable(EasyMock.anyLong())).andReturn(
Boolean.TRUE);
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(
mMockIDevice);
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
assertTrue(mTestDevice.disableAdbRoot());
EasyMock.verify(mMockIDevice, mMockRunUtil, mMockStateMonitor);
}
/**
* Configure EasyMock expectations for a successful adb root call
*/
private void setEnableAdbRootExpectations() throws Exception {
injectShellResponse("id", "uid=2000(shell) gid=2000(shell)");
injectShellResponse("id", "uid=0(root) gid=0(root)");
CommandResult adbResult = new CommandResult();
adbResult.setStatus(CommandStatus.SUCCESS);
adbResult.setStdout("restarting adbd as root");
setExecuteAdbCommandExpectations(adbResult, "root");
EasyMock.expect(mMockStateMonitor.waitForDeviceNotAvailable(EasyMock.anyLong())).andReturn(
Boolean.TRUE);
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(
mMockIDevice);
}
/**
* COnfigure EasMock expectations for a successful adb command call
* @param command the adb command to execute
* @param result the {@link CommandResult} expected from the adb command execution
* @throws Exception
*/
private void setExecuteAdbCommandExpectations(CommandResult result, String command)
throws Exception {
EasyMock.expect(mMockRunUtil.runTimedCmd(EasyMock.anyLong(),
EasyMock.eq("adb"), EasyMock.eq("-s"), EasyMock.eq(MOCK_DEVICE_SERIAL),
EasyMock.eq(command))).andReturn(result);
}
/**
* Test that {@link TestDevice#enableAdbRoot()} reattempts adb root
*/
public void testEnableAdbRoot_rootRetry() throws Exception {
injectShellResponse("id", "uid=2000(shell) gid=2000(shell)");
injectShellResponse("id", "uid=2000(shell) gid=2000(shell)");
injectShellResponse("id", "uid=0(root) gid=0(root)");
CommandResult adbBadResult = new CommandResult(CommandStatus.SUCCESS);
adbBadResult.setStdout("");
setExecuteAdbCommandExpectations(adbBadResult, "root");
CommandResult adbResult = new CommandResult(CommandStatus.SUCCESS);
adbResult.setStdout("restarting adbd as root");
setExecuteAdbCommandExpectations(adbResult, "root");
EasyMock.expect(mMockStateMonitor.waitForDeviceNotAvailable(EasyMock.anyLong())).andReturn(
Boolean.TRUE).times(2);
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(
mMockIDevice).times(2);
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
assertTrue(mTestDevice.enableAdbRoot());
}
/**
* Test that {@link TestDevice#isAdbRoot()} for device without adb root.
*/
public void testIsAdbRootForNonRoot() throws Exception {
injectShellResponse("id", "uid=2000(shell) gid=2000(shell)");
EasyMock.replay(mMockIDevice);
assertFalse(mTestDevice.isAdbRoot());
}
/**
* Test that {@link TestDevice#isAdbRoot()} for device with adb root.
*/
public void testIsAdbRootForRoot() throws Exception {
injectShellResponse("id", "uid=0(root) gid=0(root)");
EasyMock.replay(mMockIDevice);
assertTrue(mTestDevice.isAdbRoot());
}
/**
* Test {@link TestDevice#getProductType()} when device is in fastboot and IDevice has not
* cached product type property
*/
public void testGetProductType_fastboot() throws DeviceNotAvailableException {
EasyMock.expect(mMockIDevice.getProperty(EasyMock.<String>anyObject())).andReturn(null);
CommandResult fastbootResult = new CommandResult();
fastbootResult.setStatus(CommandStatus.SUCCESS);
// output of this cmd goes to stderr
fastbootResult.setStdout("");
fastbootResult.setStderr("product: nexusone\n" + "finished. total time: 0.001s");
EasyMock.expect(
mMockRunUtil.runTimedCmd(EasyMock.anyLong(), (String)EasyMock.anyObject(),
(String)EasyMock.anyObject(), (String)EasyMock.anyObject(),
(String)EasyMock.anyObject(), (String)EasyMock.anyObject())).andReturn(
fastbootResult);
EasyMock.replay(mMockIDevice, mMockRunUtil);
mRecoveryTestDevice.setDeviceState(TestDeviceState.FASTBOOT);
assertEquals("nexusone", mRecoveryTestDevice.getProductType());
}
/**
* Test {@link TestDevice#getProductType()} for a device with a non-alphanumeric fastboot
* product type
*/
public void testGetProductType_fastbootNonalpha() throws DeviceNotAvailableException {
EasyMock.expect(mMockIDevice.getProperty(EasyMock.<String>anyObject())).andReturn(null);
CommandResult fastbootResult = new CommandResult();
fastbootResult.setStatus(CommandStatus.SUCCESS);
// output of this cmd goes to stderr
fastbootResult.setStdout("");
fastbootResult.setStderr("product: foo-bar\n" + "finished. total time: 0.001s");
EasyMock.expect(
mMockRunUtil.runTimedCmd(EasyMock.anyLong(), (String)EasyMock.anyObject(),
(String)EasyMock.anyObject(), (String)EasyMock.anyObject(),
(String)EasyMock.anyObject(), (String)EasyMock.anyObject())).andReturn(
fastbootResult);
EasyMock.replay(mMockIDevice, mMockRunUtil);
mRecoveryTestDevice.setDeviceState(TestDeviceState.FASTBOOT);
assertEquals("foo-bar", mRecoveryTestDevice.getProductType());
}
/**
* Verify that {@link TestDevice#getProductType()} throws an exception if requesting a product
* type directly fails while the device is in fastboot.
*/
public void testGetProductType_fastbootFail() {
EasyMock.expect(mMockIDevice.getProperty(EasyMock.<String>anyObject())).andStubReturn(null);
CommandResult fastbootResult = new CommandResult();
fastbootResult.setStatus(CommandStatus.SUCCESS);
// output of this cmd goes to stderr
fastbootResult.setStdout("");
fastbootResult.setStderr("product: \n" + "finished. total time: 0.001s");
EasyMock.expect(
mMockRunUtil.runTimedCmd(EasyMock.anyLong(), (String)EasyMock.anyObject(),
(String)EasyMock.anyObject(), (String)EasyMock.anyObject(),
(String)EasyMock.anyObject(), (String)EasyMock.anyObject())).andReturn(
fastbootResult).anyTimes();
EasyMock.replay(mMockIDevice);
EasyMock.replay(mMockRunUtil);
mTestDevice.setDeviceState(TestDeviceState.FASTBOOT);
try {
String type = mTestDevice.getProductType();
fail(String.format("DeviceNotAvailableException not thrown; productType was '%s'",
type));
} catch (DeviceNotAvailableException e) {
// expected
}
}
/**
* Test {@link TestDevice#getProductType()} when device is in adb and IDevice has not cached
* product type property
*/
public void testGetProductType_adb() throws Exception {
EasyMock.expect(mMockIDevice.getProperty(DeviceProperties.BOARD)).andReturn(null);
final String expectedOutput = "nexusone";
injectSystemProperty(DeviceProperties.BOARD, expectedOutput);
EasyMock.replay(mMockIDevice);
assertEquals(expectedOutput, mTestDevice.getProductType());
}
/**
* Verify that {@link TestDevice#getProductType()} throws an exception if requesting a product
* type directly still fails.
*/
public void testGetProductType_adbFail() throws Exception {
EasyMock.expect(mMockIDevice.getProperty(EasyMock.<String>anyObject())).andStubReturn(null);
injectSystemProperty(DeviceProperties.BOARD, null).times(3);
EasyMock.expect(mMockIDevice.getState()).andReturn(DeviceState.ONLINE).times(2);
EasyMock.replay(mMockIDevice);
try {
mTestDevice.getProductType();
fail("DeviceNotAvailableException not thrown");
} catch (DeviceNotAvailableException e) {
// expected
}
}
/**
* Test {@link TestDevice#clearErrorDialogs()} when both a error and anr dialog are present.
*/
public void testClearErrorDialogs() throws Exception {
final String anrOutput = "debugging=false crashing=false null notResponding=true "
+ "com.android.server.am.AppNotRespondingDialog@4534aaa0 bad=false\n blah\n";
final String crashOutput = "debugging=false crashing=true "
+ "com.android.server.am.AppErrorDialog@45388a60 notResponding=false null bad=false"
+ "blah \n";
// construct a string with 2 error dialogs of each type to ensure proper detection
final String fourErrors = anrOutput + anrOutput + crashOutput + crashOutput;
injectShellResponse(null, fourErrors);
mMockIDevice.executeShellCommand((String)EasyMock.anyObject(),
(IShellOutputReceiver)EasyMock.anyObject(),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
// expect 4 key events to be sent - one for each dialog
// and expect another dialog query - but return nothing
EasyMock.expectLastCall().times(5);
EasyMock.replay(mMockIDevice);
mTestDevice.clearErrorDialogs();
}
/**
* Test that the unresponsive device exception is propagated from the recovery to TestDevice.
* @throws Exception
*/
public void testRecoverDevice_ThrowException() throws Exception {
TestDevice testDevice = new TestDevice(mMockIDevice, mMockStateMonitor, mMockDvcMonitor) {
@Override
public boolean enableAdbRoot() throws DeviceNotAvailableException {
return true;
}
};
testDevice.setRecovery(new IDeviceRecovery() {
@Override
public void recoverDeviceRecovery(IDeviceStateMonitor monitor)
throws DeviceNotAvailableException {
throw new DeviceNotAvailableException();
}
@Override
public void recoverDeviceBootloader(IDeviceStateMonitor monitor)
throws DeviceNotAvailableException {
throw new DeviceNotAvailableException();
}
@Override
public void recoverDevice(IDeviceStateMonitor monitor, boolean recoverUntilOnline)
throws DeviceNotAvailableException {
throw new DeviceUnresponsiveException();
}
});
testDevice.setRecoveryMode(RecoveryMode.AVAILABLE);
mMockIDevice.executeShellCommand((String) EasyMock.anyObject(),
(CollectingOutputReceiver)EasyMock.anyObject(), EasyMock.anyLong(),
EasyMock.eq(TimeUnit.MILLISECONDS));
EasyMock.expectLastCall();
EasyMock.replay(mMockIDevice);
try {
testDevice.recoverDevice();
} catch (DeviceNotAvailableException dnae) {
assertTrue(dnae instanceof DeviceUnresponsiveException);
return;
}
fail();
}
/**
* Simple normal case test for
* {@link TestDevice#executeShellCommand(String, IShellOutputReceiver)}.
* <p/>
* Verify that the shell command is routed to the IDevice.
*/
public void testExecuteShellCommand_receiver() throws IOException, DeviceNotAvailableException,
TimeoutException, AdbCommandRejectedException, ShellCommandUnresponsiveException {
final String testCommand = "simple command";
// expect shell command to be called
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.replay(mMockIDevice);
mTestDevice.executeShellCommand(testCommand, mMockReceiver);
}
/**
* Simple normal case test for
* {@link TestDevice#executeShellCommand(String)}.
* <p/>
* Verify that the shell command is routed to the IDevice, and shell output is collected.
*/
public void testExecuteShellCommand() throws Exception {
final String testCommand = "simple command";
final String expectedOutput = "this is the output\r\n in two lines\r\n";
injectShellResponse(testCommand, expectedOutput);
EasyMock.replay(mMockIDevice);
assertEquals(expectedOutput, mTestDevice.executeShellCommand(testCommand));
}
/**
* Test {@link TestDevice#executeShellCommand(String, IShellOutputReceiver)} behavior when
* {@link IDevice} throws IOException and recovery immediately fails.
* <p/>
* Verify that a DeviceNotAvailableException is thrown.
*/
public void testExecuteShellCommand_recoveryFail() throws Exception {
final String testCommand = "simple command";
// expect shell command to be called
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.expectLastCall().andThrow(new IOException());
mMockRecovery.recoverDevice(EasyMock.eq(mMockStateMonitor), EasyMock.eq(false));
EasyMock.expectLastCall().andThrow(new DeviceNotAvailableException());
EasyMock.replay(mMockIDevice);
EasyMock.replay(mMockRecovery);
try {
mRecoveryTestDevice.executeShellCommand(testCommand, mMockReceiver);
fail("DeviceNotAvailableException not thrown");
} catch (DeviceNotAvailableException e) {
// expected
}
}
/**
* Test {@link TestDevice#executeShellCommand(String, IShellOutputReceiver)} behavior when
* {@link IDevice} throws IOException and device is in recovery until online mode.
* <p/>
* Verify that a DeviceNotAvailableException is thrown.
*/
public void testExecuteShellCommand_recoveryUntilOnline() throws Exception {
final String testCommand = "simple command";
// expect shell command to be called
mRecoveryTestDevice.setRecoveryMode(RecoveryMode.ONLINE);
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.expectLastCall().andThrow(new IOException());
mMockRecovery.recoverDevice(EasyMock.eq(mMockStateMonitor), EasyMock.eq(true));
setEnableAdbRootExpectations();
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.replay(mMockIDevice, mMockRecovery, mMockRunUtil, mMockStateMonitor);
mRecoveryTestDevice.executeShellCommand(testCommand, mMockReceiver);
}
/**
* Test {@link TestDevice#executeShellCommand(String, IShellOutputReceiver)} behavior when
* {@link IDevice} throws IOException and recovery succeeds.
* <p/>
* Verify that command is re-tried.
*/
public void testExecuteShellCommand_recoveryRetry() throws Exception {
mTestDevice =
new TestDevice(mMockIDevice, mMockStateMonitor, mMockDvcMonitor) {
@Override
IWifiHelper createWifiHelper() {
return mMockWifi;
}
@Override
public boolean isEncryptionSupported() throws DeviceNotAvailableException {
return false;
}
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return true;
}
@Override
protected IRunUtil getRunUtil() {
return mMockRunUtil;
}
@Override
void doReboot()
throws DeviceNotAvailableException, UnsupportedOperationException {}
};
mTestDevice.setRecovery(mMockRecovery);
final String testCommand = "simple command";
// expect shell command to be called
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.expectLastCall().andThrow(new IOException());
assertRecoverySuccess();
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(mMockIDevice);
injectSystemProperty("ro.build.version.sdk", "23");
replayMocks();
mTestDevice.executeShellCommand(testCommand, mMockReceiver);
verifyMocks();
}
/** Set expectations for a successful recovery operation
*/
private void assertRecoverySuccess() throws DeviceNotAvailableException, IOException,
TimeoutException, AdbCommandRejectedException, ShellCommandUnresponsiveException {
mMockRecovery.recoverDevice(EasyMock.eq(mMockStateMonitor), EasyMock.eq(false));
mMockIDevice.executeShellCommand(
EasyMock.eq("dumpsys input"),
EasyMock.anyObject(),
EasyMock.anyLong(),
EasyMock.eq(TimeUnit.MILLISECONDS));
// expect post boot up steps
mMockIDevice.executeShellCommand(
EasyMock.eq(TestDevice.DISMISS_KEYGUARD_WM_CMD),
(IShellOutputReceiver) EasyMock.anyObject(),
EasyMock.anyLong(),
(TimeUnit) EasyMock.anyObject());
}
/**
* Test {@link TestDevice#executeShellCommand(String, IShellOutputReceiver)} behavior when
* command times out and recovery succeeds.
* <p/>
* Verify that command is re-tried.
*/
public void testExecuteShellCommand_recoveryTimeoutRetry() throws Exception {
mTestDevice =
new TestDevice(mMockIDevice, mMockStateMonitor, mMockDvcMonitor) {
@Override
IWifiHelper createWifiHelper() {
return mMockWifi;
}
@Override
public boolean isEncryptionSupported() throws DeviceNotAvailableException {
return false;
}
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return true;
}
@Override
protected IRunUtil getRunUtil() {
return mMockRunUtil;
}
@Override
void doReboot()
throws DeviceNotAvailableException, UnsupportedOperationException {}
};
mTestDevice.setRecovery(mMockRecovery);
final String testCommand = "simple command";
// expect shell command to be called - and never return from that call
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.expectLastCall().andThrow(new TimeoutException());
assertRecoverySuccess();
// now expect shellCommand to be executed again, and succeed
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(mMockIDevice);
injectSystemProperty("ro.build.version.sdk", "23");
replayMocks();
mTestDevice.executeShellCommand(testCommand, mMockReceiver);
verifyMocks();
}
/**
* Test {@link TestDevice#executeShellCommand(String, IShellOutputReceiver)} behavior when
* {@link IDevice} repeatedly throws IOException and recovery succeeds.
* <p/>
* Verify that DeviceNotAvailableException is thrown.
*/
public void testExecuteShellCommand_recoveryAttempts() throws Exception {
mTestDevice =
new TestDevice(mMockIDevice, mMockStateMonitor, mMockDvcMonitor) {
@Override
IWifiHelper createWifiHelper() {
return mMockWifi;
}
@Override
public boolean isEncryptionSupported() throws DeviceNotAvailableException {
return false;
}
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return true;
}
@Override
protected IRunUtil getRunUtil() {
return mMockRunUtil;
}
@Override
void doReboot()
throws DeviceNotAvailableException, UnsupportedOperationException {}
};
mTestDevice.setRecovery(mMockRecovery);
final String testCommand = "simple command";
// expect shell command to be called
mMockIDevice.executeShellCommand(EasyMock.eq(testCommand), EasyMock.eq(mMockReceiver),
EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
EasyMock.expectLastCall().andThrow(new IOException()).times(
TestDevice.MAX_RETRY_ATTEMPTS+1);
for (int i=0; i <= TestDevice.MAX_RETRY_ATTEMPTS; i++) {
assertRecoverySuccess();
}
EasyMock.expect(mMockIDevice.getState()).andReturn(DeviceState.ONLINE).times(2);
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(mMockIDevice).times(3);
injectSystemProperty("ro.build.version.sdk", "23").times(3);
replayMocks();
try {
mTestDevice.executeShellCommand(testCommand, mMockReceiver);
fail("DeviceUnresponsiveException not thrown");
} catch (DeviceUnresponsiveException e) {
// expected
}
verifyMocks();
}
/**
* Puts all the mock objects into replay mode
*/
private void replayMocks() {
EasyMock.replay(mMockIDevice, mMockRecovery, mMockStateMonitor, mMockRunUtil, mMockWifi);
}
/**
* Verify all the mock objects
*/
private void verifyMocks() {
EasyMock.verify(mMockIDevice, mMockRecovery, mMockStateMonitor, mMockRunUtil, mMockWifi);
}
/**
* Unit test for {@link TestDevice#getExternalStoreFreeSpace()}.
* <p/>
* Verify that output of 'adb shell df' command is parsed correctly.
*/
public void testGetExternalStoreFreeSpace() throws Exception {
final String dfOutput =
"/mnt/sdcard: 3864064K total, 1282880K used, 2581184K available (block size 32768)";
assertGetExternalStoreFreeSpace(dfOutput, 2581184);
}
/**
* Unit test for {@link TestDevice#getExternalStoreFreeSpace()}.
* <p/>
* Verify that the table-based output of 'adb shell df' command is parsed correctly.
*/
public void testGetExternalStoreFreeSpace_table() throws Exception {
final String dfOutput =
"Filesystem Size Used Free Blksize\n" +
"/mnt/sdcard 3G 787M 2G 4096";
assertGetExternalStoreFreeSpace(dfOutput, 2 * 1024 * 1024);
}
/**
* Unit test for {@link TestDevice#getExternalStoreFreeSpace()}.
* <p/>
* Verify that the coreutils-like output of 'adb shell df' command is parsed correctly.
*/
public void testGetExternalStoreFreeSpace_toybox() throws Exception {
final String dfOutput =
"Filesystem 1K-blocks Used Available Use% Mounted on\n" +
"/dev/fuse 11585536 1316348 10269188 12% /mnt/sdcard";
assertGetExternalStoreFreeSpace(dfOutput, 10269188);
}
/**
* Unit test for {@link TestDevice#getExternalStoreFreeSpace()}.
* <p/>
* Verify that the coreutils-like output of 'adb shell df' command is parsed correctly. This
* variant tests the fact that the returned mount point in last column of command output may
* not match the original path provided as parameter to df.
*/
public void testGetExternalStoreFreeSpace_toybox2() throws Exception {
final String dfOutput =
"Filesystem 1K-blocks Used Available Use% Mounted on\n" +
"/dev/fuse 27240188 988872 26251316 4% /storage/emulated";
assertGetExternalStoreFreeSpace(dfOutput, 26251316);
}
/**
* Unit test for {@link TestDevice#getExternalStoreFreeSpace()}.
* <p/>
* Verify behavior when 'df' command returns unexpected content
*/
public void testGetExternalStoreFreeSpace_badOutput() throws Exception {
final String dfOutput =
"/mnt/sdcard: blaH";
assertGetExternalStoreFreeSpace(dfOutput, 0);
}
/**
* Unit test for {@link TestDevice#getExternalStoreFreeSpace()}.
* <p/>
* Verify behavior when first 'df' attempt returns empty output
*/
public void testGetExternalStoreFreeSpace_emptyOutput() throws Exception {
final String mntPoint = "/mnt/sdcard";
final String expectedCmd = "df " + mntPoint;
EasyMock.expect(mMockStateMonitor.getMountPoint(IDevice.MNT_EXTERNAL_STORAGE)).andReturn(
mntPoint);
// expect shell command to be called, and return the empty df output
injectShellResponse(expectedCmd, "");
final String dfOutput =
"/mnt/sdcard: 3864064K total, 1282880K used, 2581184K available (block size 32768)";
injectShellResponse(expectedCmd, dfOutput);
EasyMock.replay(mMockIDevice, mMockStateMonitor);
assertEquals(2581184, mTestDevice.getExternalStoreFreeSpace());
}
/**
* Helper method to verify the {@link TestDevice#getExternalStoreFreeSpace()} method under
* different conditions.
*
* @param dfOutput the test output to inject
* @param expectedFreeSpaceKB the expected free space
*/
private void assertGetExternalStoreFreeSpace(final String dfOutput, long expectedFreeSpaceKB)
throws Exception {
final String mntPoint = "/mnt/sdcard";
final String expectedCmd = "df " + mntPoint;
EasyMock.expect(mMockStateMonitor.getMountPoint(IDevice.MNT_EXTERNAL_STORAGE)).andReturn(
mntPoint);
// expect shell command to be called, and return the test df output
injectShellResponse(expectedCmd, dfOutput);
EasyMock.replay(mMockIDevice, mMockStateMonitor);
assertEquals(expectedFreeSpaceKB, mTestDevice.getExternalStoreFreeSpace());
}
/**
* Unit test for {@link TestDevice#syncFiles(File, String)}.
* <p/>
* Verify behavior when given local file does not exist
*/
public void testSyncFiles_missingLocal() throws Exception {
EasyMock.replay(mMockIDevice);
assertFalse(mTestDevice.syncFiles(new File("idontexist"), "/sdcard"));
}
/**
* Test {@link TestDevice#runInstrumentationTests(IRemoteAndroidTestRunner, Collection)}
* success case.
*/
public void testRunInstrumentationTests() throws Exception {
IRemoteAndroidTestRunner mockRunner = EasyMock.createMock(IRemoteAndroidTestRunner.class);
EasyMock.expect(mockRunner.getPackageName()).andStubReturn("com.example");
Collection<ITestLifeCycleReceiver> listeners = new ArrayList<>(0);
mockRunner.setMaxTimeToOutputResponse(EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
// expect runner.run command to be called
Collection<ITestRunListener> expectedMock = EasyMock.anyObject();
mockRunner.run(expectedMock);
EasyMock.replay(mockRunner);
mTestDevice.runInstrumentationTests(mockRunner, listeners);
}
/**
* Test {@link TestDevice#runInstrumentationTests(IRemoteAndroidTestRunner, Collection)}
* when recovery fails.
*/
public void testRunInstrumentationTests_recoveryFails() throws Exception {
IRemoteAndroidTestRunner mockRunner = EasyMock.createMock(IRemoteAndroidTestRunner.class);
Collection<ITestLifeCycleReceiver> listeners = new ArrayList<>(1);
ITestLifeCycleReceiver listener = EasyMock.createMock(ITestLifeCycleReceiver.class);
listeners.add(listener);
mockRunner.setMaxTimeToOutputResponse(EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
Collection<ITestRunListener> expectedMock = EasyMock.anyObject();
mockRunner.run(expectedMock);
EasyMock.expectLastCall().andThrow(new IOException());
EasyMock.expect(mockRunner.getPackageName()).andReturn("foo");
listener.testRunFailed((String)EasyMock.anyObject());
mMockRecovery.recoverDevice(EasyMock.eq(mMockStateMonitor), EasyMock.eq(false));
EasyMock.expectLastCall().andThrow(new DeviceNotAvailableException());
EasyMock.replay(listener, mockRunner, mMockIDevice, mMockRecovery);
try {
mRecoveryTestDevice.runInstrumentationTests(mockRunner, listeners);
fail("DeviceNotAvailableException not thrown");
} catch (DeviceNotAvailableException e) {
// expected
}
}
/**
* Test {@link TestDevice#runInstrumentationTests(IRemoteAndroidTestRunner, Collection)}
* when recovery succeeds.
*/
public void testRunInstrumentationTests_recoverySucceeds() throws Exception {
IRemoteAndroidTestRunner mockRunner = EasyMock.createMock(IRemoteAndroidTestRunner.class);
Collection<ITestLifeCycleReceiver> listeners = new ArrayList<>(1);
ITestLifeCycleReceiver listener = EasyMock.createMock(ITestLifeCycleReceiver.class);
listeners.add(listener);
mockRunner.setMaxTimeToOutputResponse(EasyMock.anyLong(), (TimeUnit)EasyMock.anyObject());
Collection<ITestRunListener> expectedMock = EasyMock.anyObject();
mockRunner.run(expectedMock);
EasyMock.expectLastCall().andThrow(new IOException());
EasyMock.expect(mockRunner.getPackageName()).andReturn("foo");
listener.testRunFailed((String)EasyMock.anyObject());
assertRecoverySuccess();
EasyMock.replay(listener, mockRunner, mMockIDevice, mMockRecovery);
mTestDevice.runInstrumentationTests(mockRunner, listeners);
}
/**
* Test {@link TestDevice#executeFastbootCommand(String...)} throws an exception when fastboot
* is not available.
*/
public void testExecuteFastbootCommand_nofastboot() throws Exception {
try {
mNoFastbootTestDevice.executeFastbootCommand("");
fail("UnsupportedOperationException not thrown");
} catch (UnsupportedOperationException e) {
// expected
}
}
/**
* Test {@link TestDevice#executeLongFastbootCommand(String...)} throws an exception when
* fastboot is not available.
*/
public void testExecuteLongFastbootCommand_nofastboot() throws Exception {
try {
mNoFastbootTestDevice.executeFastbootCommand("");
fail("UnsupportedOperationException not thrown");
} catch (UnsupportedOperationException e) {
// expected
}
}
/**
* Test that state changes are ignore while {@link TestDevice#executeFastbootCommand(String...)}
* is active.
*/
public void testExecuteFastbootCommand_state() throws Exception {
final long waitTimeMs = 150;
// build a fastboot response that will block
IAnswer<CommandResult> blockResult = new IAnswer<CommandResult>() {
@Override
public CommandResult answer() throws Throwable {
synchronized(this) {
// first inform this test that fastboot cmd is executing
notifyAll();
// now wait for test to unblock us when its done testing logic
wait(waitTimeMs);
}
return new CommandResult(CommandStatus.SUCCESS);
}
};
EasyMock.expect(mMockRunUtil.runTimedCmd(EasyMock.anyLong(), EasyMock.eq("fastboot"),
EasyMock.eq("-s"),EasyMock.eq(MOCK_DEVICE_SERIAL), EasyMock.eq("foo"))).andAnswer(
blockResult).times(2);
// expect
mMockStateMonitor.setState(TestDeviceState.FASTBOOT);
mMockStateMonitor.setState(TestDeviceState.NOT_AVAILABLE);
mMockRecovery.recoverDeviceBootloader((IDeviceStateMonitor)EasyMock.anyObject());
EasyMock.expectLastCall().times(2);
replayMocks();
mTestDevice.setDeviceState(TestDeviceState.FASTBOOT);
assertEquals(TestDeviceState.FASTBOOT, mTestDevice.getDeviceState());
// start fastboot command in background thread
Thread fastbootThread = new Thread() {
@Override
public void run() {
try {
mTestDevice.executeFastbootCommand("foo");
} catch (DeviceNotAvailableException e) {
CLog.e(e);
}
}
};
fastbootThread.setName(getClass().getCanonicalName() + "#testExecuteFastbootCommand_state");
fastbootThread.start();
try {
synchronized (blockResult) {
blockResult.wait(waitTimeMs);
}
// expect to ignore this
mTestDevice.setDeviceState(TestDeviceState.NOT_AVAILABLE);
assertEquals(TestDeviceState.FASTBOOT, mTestDevice.getDeviceState());
} finally {
synchronized (blockResult) {
blockResult.notifyAll();
}
}
fastbootThread.join();
mTestDevice.setDeviceState(TestDeviceState.NOT_AVAILABLE);
assertEquals(TestDeviceState.NOT_AVAILABLE, mTestDevice.getDeviceState());
verifyMocks();
}
/**
* Test recovery mode is entered when fastboot command fails
*/
public void testExecuteFastbootCommand_recovery() throws UnsupportedOperationException,
DeviceNotAvailableException {
CommandResult result = new CommandResult(CommandStatus.EXCEPTION);
EasyMock.expect(mMockRunUtil.runTimedCmd(
EasyMock.anyLong(), EasyMock.eq("fastboot"), EasyMock.eq("-s"),
EasyMock.eq(MOCK_DEVICE_SERIAL), EasyMock.eq("foo"))).andReturn(result);
mMockRecovery.recoverDeviceBootloader((IDeviceStateMonitor)EasyMock.anyObject());
CommandResult successResult = new CommandResult(CommandStatus.SUCCESS);
successResult.setStderr("");
successResult.setStdout("");
// now expect a successful retry
EasyMock.expect(mMockRunUtil.runTimedCmd(EasyMock.anyLong(), EasyMock.eq("fastboot"),
EasyMock.eq("-s"),EasyMock.eq(MOCK_DEVICE_SERIAL), EasyMock.eq("foo"))).andReturn(
successResult);
replayMocks();
mTestDevice.executeFastbootCommand("foo");
verifyMocks();
}
/**
* Basic test for encryption if encryption is not supported.
* <p>
* Calls {@link TestDevice#encryptDevice(boolean)}, {@link TestDevice#unlockDevice()}, and
* {@link TestDevice#unencryptDevice()} and makes sure that a
* {@link UnsupportedOperationException} is thrown for each method.
* </p>
*/
public void testEncryptionUnsupported() throws Exception {
setEncryptedUnsupportedExpectations();
setEncryptedUnsupportedExpectations();
setEncryptedUnsupportedExpectations();
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
try {
mTestDevice.encryptDevice(false);
fail("encryptUserData() did not throw UnsupportedOperationException");
} catch (UnsupportedOperationException e) {
// Expected
}
try {
mTestDevice.unlockDevice();
fail("decryptUserData() did not throw UnsupportedOperationException");
} catch (UnsupportedOperationException e) {
// Expected
}
try {
mTestDevice.unencryptDevice();
fail("unencryptUserData() did not throw UnsupportedOperationException");
} catch (UnsupportedOperationException e) {
// Expected
}
return;
}
/**
* Unit test for {@link TestDevice#encryptDevice(boolean)}.
*/
public void testEncryptDevice_alreadyEncrypted() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public boolean isDeviceEncrypted() throws DeviceNotAvailableException {
return true;
}
};
setEncryptedSupported();
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
assertTrue(mTestDevice.encryptDevice(false));
EasyMock.verify(mMockIDevice, mMockRunUtil, mMockStateMonitor);
}
/**
* Unit test for {@link TestDevice#encryptDevice(boolean)}.
*/
public void testEncryptDevice_encryptionFails() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public boolean isDeviceEncrypted() throws DeviceNotAvailableException {
return false;
}
};
setEncryptedSupported();
setEnableAdbRootExpectations();
injectShellResponse("vdc cryptfs enablecrypto wipe \"android\"",
"500 2280 Usage: cryptfs enablecrypto\r\n");
injectShellResponse("vdc cryptfs enablecrypto wipe default", "200 0 -1\r\n");
EasyMock.expect(mMockStateMonitor.waitForDeviceNotAvailable(EasyMock.anyLong())).andReturn(
Boolean.TRUE);
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(
mMockIDevice);
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
assertFalse(mTestDevice.encryptDevice(false));
EasyMock.verify(mMockIDevice, mMockRunUtil, mMockStateMonitor);
}
/**
* Unit test for {@link TestDevice#unencryptDevice()} with fastboot erase.
*/
public void testUnencryptDevice_erase() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public boolean isDeviceEncrypted() throws DeviceNotAvailableException {
return true;
}
@Override
public void rebootIntoBootloader()
throws DeviceNotAvailableException, UnsupportedOperationException {
// do nothing.
}
@Override
public void rebootUntilOnline() throws DeviceNotAvailableException {
// do nothing.
}
@Override
public CommandResult fastbootWipePartition(String partition)
throws DeviceNotAvailableException {
return null;
}
@Override
public void postBootSetup() {
super.postBootSetup();
}
};
setEncryptedSupported();
EasyMock.expect(mMockStateMonitor.waitForDeviceAvailable(EasyMock.anyLong()))
.andReturn(mMockIDevice);
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
assertTrue(mTestDevice.unencryptDevice());
EasyMock.verify(mMockIDevice, mMockRunUtil, mMockStateMonitor);
}
/**
* Unit test for {@link TestDevice#unencryptDevice()} with fastboot wipe.
*/
public void testUnencryptDevice_wipe() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public boolean isDeviceEncrypted() throws DeviceNotAvailableException {
return true;
}
@Override
public void rebootIntoBootloader()
throws DeviceNotAvailableException, UnsupportedOperationException {
// do nothing.
}
@Override
public void rebootUntilOnline() throws DeviceNotAvailableException {
// do nothing.
}
@Override
public CommandResult fastbootWipePartition(String partition)
throws DeviceNotAvailableException {
return null;
}
@Override
public void reboot() throws DeviceNotAvailableException {
// do nothing.
}
};
mTestDevice.getOptions().setUseFastbootErase(true);
setEncryptedSupported();
injectShellResponse("vdc volume list", "110 sdcard /mnt/sdcard1");
injectShellResponse("vdc volume format sdcard", "200 0 -1:success");
EasyMock.replay(mMockIDevice, mMockRunUtil, mMockStateMonitor);
assertTrue(mTestDevice.unencryptDevice());
EasyMock.verify(mMockIDevice, mMockRunUtil, mMockStateMonitor);
}
/**
* Configure EasyMock for a encryption check call, that returns that encryption is unsupported
*/
private void setEncryptedUnsupportedExpectations() throws Exception {
setEnableAdbRootExpectations();
injectShellResponse("vdc cryptfs enablecrypto", "\r\n");
}
/**
* Configure EasyMock for a encryption check call, that returns that encryption is unsupported
*/
private void setEncryptedSupported() throws Exception {
setEnableAdbRootExpectations();
injectShellResponse("vdc cryptfs enablecrypto",
"500 29805 Usage: cryptfs enablecrypto <wipe|inplace> "
+ "default|password|pin|pattern [passwd] [noui]\r\n");
}
/**
* Simple test for {@link TestDevice#switchToAdbUsb()}
*/
public void testSwitchToAdbUsb() throws Exception {
setExecuteAdbCommandExpectations(new CommandResult(CommandStatus.SUCCESS), "usb");
replayMocks();
mTestDevice.switchToAdbUsb();
verifyMocks();
}
/**
* Test for {@link TestDevice#switchToAdbTcp()} when device has no ip address
*/
public void testSwitchToAdbTcp_noIp() throws Exception {
EasyMock.expect(mMockWifi.getIpAddress()).andReturn(null);
replayMocks();
assertNull(mTestDevice.switchToAdbTcp());
verifyMocks();
}
/**
* Test normal success case for {@link TestDevice#switchToAdbTcp()}.
*/
public void testSwitchToAdbTcp() throws Exception {
EasyMock.expect(mMockWifi.getIpAddress()).andReturn("ip");
EasyMock.expect(mMockRunUtil.runTimedCmd(EasyMock.anyLong(), EasyMock.eq("adb"),
EasyMock.eq("-s"), EasyMock.eq("serial"), EasyMock.eq("tcpip"),
EasyMock.eq("5555"))).andReturn(
new CommandResult(CommandStatus.SUCCESS));
replayMocks();
assertEquals("ip:5555", mTestDevice.switchToAdbTcp());
verifyMocks();
}
/**
* Test simple success case for
* {@link TestDevice#installPackage(File, File, boolean, String...)}.
*/
public void testInstallPackages() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String certFile = "foo.dc";
final String apkFile = "foo.apk";
EasyMock.expect(mMockIDevice.syncPackageToDevice(EasyMock.contains(certFile))).andReturn(
certFile);
EasyMock.expect(mMockIDevice.syncPackageToDevice(EasyMock.contains(apkFile))).andReturn(
apkFile);
// expect apk path to be passed as extra arg
mMockIDevice.installRemotePackage(
EasyMock.eq(certFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("-l"),
EasyMock.contains(apkFile));
EasyMock.expectLastCall();
mMockIDevice.removeRemotePackage(certFile);
mMockIDevice.removeRemotePackage(apkFile);
replayMocks();
assertNull(mTestDevice.installPackage(new File(apkFile), new File(certFile), true, "-l"));
}
/**
* Test that isRuntimePermissionSupported returns correct result for device reporting LRX22F
* build attributes
* @throws Exception
*/
public void testRuntimePermissionSupportedLmpRelease() throws Exception {
injectSystemProperty("ro.build.version.sdk", "21");
injectSystemProperty(TestDevice.BUILD_CODENAME_PROP, "REL");
injectSystemProperty(TestDevice.BUILD_ID_PROP, "1642709");
replayMocks();
assertFalse(mTestDevice.isRuntimePermissionSupported());
}
/**
* Test that isRuntimePermissionSupported returns correct result for device reporting LMP MR1
* dev build attributes
* @throws Exception
*/
public void testRuntimePermissionSupportedLmpMr1Dev() throws Exception {
injectSystemProperty("ro.build.version.sdk", "22");
injectSystemProperty(TestDevice.BUILD_CODENAME_PROP, "REL");
injectSystemProperty(TestDevice.BUILD_ID_PROP, "1844090");
replayMocks();
assertFalse(mTestDevice.isRuntimePermissionSupported());
}
/**
* Test that isRuntimePermissionSupported returns correct result for device reporting random
* dev build attributes
* @throws Exception
*/
public void testRuntimePermissionSupportedNonMncLocal() throws Exception {
injectSystemProperty("ro.build.version.sdk", "21");
injectSystemProperty(TestDevice.BUILD_CODENAME_PROP, "LMP");
injectSystemProperty(TestDevice.BUILD_ID_PROP, "eng.foo.20150414.190304");
replayMocks();
assertFalse(mTestDevice.isRuntimePermissionSupported());
}
/**
* Test that isRuntimePermissionSupported returns correct result for device reporting early MNC
* dev build attributes
* @throws Exception
*/
public void testRuntimePermissionSupportedEarlyMnc() throws Exception {
setMockIDeviceRuntimePermissionNotSupported();
replayMocks();
assertFalse(mTestDevice.isRuntimePermissionSupported());
}
/**
* Test that isRuntimePermissionSupported returns correct result for device reporting early MNC
* dev build attributes
* @throws Exception
*/
public void testRuntimePermissionSupportedMncPostSwitch() throws Exception {
setMockIDeviceRuntimePermissionSupported();
replayMocks();
assertTrue(mTestDevice.isRuntimePermissionSupported());
}
/**
* Convenience method for setting up mMockIDevice to not support runtime permission
*/
private void setMockIDeviceRuntimePermissionNotSupported() {
injectSystemProperty("ro.build.version.sdk", "22");
}
/**
* Convenience method for setting up mMockIDevice to support runtime permission
*/
private void setMockIDeviceRuntimePermissionSupported() {
injectSystemProperty("ro.build.version.sdk", "23");
}
/**
* Test default installPackage on device not supporting runtime permission has expected
* list of args
* @throws Exception
*/
public void testInstallPackage_default_runtimePermissionNotSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
setMockIDeviceRuntimePermissionNotSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackage(new File(apkFile), true));
}
/**
* Test default installPackage on device supporting runtime permission has expected list of args
* @throws Exception
*/
public void testInstallPackage_default_runtimePermissionSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
setMockIDeviceRuntimePermissionSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("-g"));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackage(new File(apkFile), true));
}
/**
* Test default installPackageForUser on device not supporting runtime permission has expected
* list of args
* @throws Exception
*/
public void testinstallPackageForUser_default_runtimePermissionNotSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
int uid = 123;
setMockIDeviceRuntimePermissionNotSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("--user"),
EasyMock.eq(Integer.toString(uid)));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackageForUser(new File(apkFile), true, uid));
}
/**
* Test default installPackageForUser on device supporting runtime permission has expected
* list of args
* @throws Exception
*/
public void testinstallPackageForUser_default_runtimePermissionSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
int uid = 123;
setMockIDeviceRuntimePermissionSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("-g"),
EasyMock.eq("--user"),
EasyMock.eq(Integer.toString(uid)));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackageForUser(new File(apkFile), true, uid));
}
/**
* Test runtime permission variant of installPackage throws exception on unsupported device
* platform
* @throws Exception
*/
public void testInstallPackage_throw() throws Exception {
final String apkFile = "foo.apk";
setMockIDeviceRuntimePermissionNotSupported();
replayMocks();
try {
mTestDevice.installPackage(new File(apkFile), true, true);
} catch (UnsupportedOperationException uoe) {
// ignore, exception thrown here is expected
return;
}
fail("installPackage did not throw IllegalArgumentException");
}
/**
* Test runtime permission variant of installPackage has expected list of args on a supported
* device when granting
* @throws Exception
*/
public void testInstallPackage_grant_runtimePermissionSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
setMockIDeviceRuntimePermissionSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("-g"));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackage(new File(apkFile), true, true));
}
/** Test installing an apk that times out without any messages. */
public void testInstallPackage_timeout() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {});
return receiver;
}
};
final String apkFile = "foo.apk";
setMockIDeviceRuntimePermissionSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("-g"));
EasyMock.expectLastCall();
replayMocks();
assertEquals(
String.format("Installation of %s timed out", new File(apkFile).getAbsolutePath()),
mTestDevice.installPackage(new File(apkFile), true, true));
}
/**
* Test runtime permission variant of installPackage has expected list of args on a supported
* device when not granting
* @throws Exception
*/
public void testInstallPackage_noGrant_runtimePermissionSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
setMockIDeviceRuntimePermissionSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackage(new File(apkFile), true, false));
}
/**
* Test grant permission variant of installPackageForUser throws exception on unsupported
* device platform
* @throws Exception
*/
public void testInstallPackageForUser_throw() throws Exception {
final String apkFile = "foo.apk";
setMockIDeviceRuntimePermissionNotSupported();
replayMocks();
try {
mTestDevice.installPackageForUser(new File(apkFile), true, true, 123);
} catch (UnsupportedOperationException uoe) {
// ignore, exception thrown here is expected
return;
}
fail("installPackage did not throw IllegalArgumentException");
}
/**
* Test grant permission variant of installPackageForUser has expected list of args on a
* supported device when granting
* @throws Exception
*/
public void testInstallPackageForUser_grant_runtimePermissionSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
int uid = 123;
setMockIDeviceRuntimePermissionSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("-g"),
EasyMock.eq("--user"),
EasyMock.eq(Integer.toString(uid)));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackageForUser(new File(apkFile), true, true, uid));
}
/**
* Test grant permission variant of installPackageForUser has expected list of args on a
* supported device when not granting
* @throws Exception
*/
public void testInstallPackageForUser_noGrant_runtimePermissionSupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
InstallReceiver createInstallReceiver() {
InstallReceiver receiver = new InstallReceiver();
receiver.processNewLines(new String[] {"Success"});
return receiver;
}
};
final String apkFile = "foo.apk";
int uid = 123;
setMockIDeviceRuntimePermissionSupported();
mMockIDevice.installPackage(
EasyMock.contains(apkFile),
EasyMock.eq(true),
EasyMock.anyObject(),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_MINUTES),
EasyMock.eq(TestDevice.INSTALL_TIMEOUT_TO_OUTPUT_MINUTES),
EasyMock.eq(TimeUnit.MINUTES),
EasyMock.eq("--user"),
EasyMock.eq(Integer.toString(uid)));
EasyMock.expectLastCall();
replayMocks();
assertNull(mTestDevice.installPackageForUser(new File(apkFile), true, false, uid));
}
/**
* Helper method to build a response to a executeShellCommand call
*
* @param expectedCommand the shell command to expect or null to skip verification of command
* @param response the response to simulate
*/
private void injectShellResponse(final String expectedCommand, final String response)
throws Exception {
injectShellResponse(expectedCommand, response, false);
}
/**
* Helper method to build a response to a executeShellCommand call
*
* @param expectedCommand the shell command to expect or null to skip verification of command
* @param response the response to simulate
* @param asStub whether to set a single expectation or a stub expectation
*/
private void injectShellResponse(final String expectedCommand, final String response,
boolean asStub) throws Exception {
IAnswer<Object> shellAnswer = new IAnswer<Object>() {
@Override
public Object answer() throws Throwable {
IShellOutputReceiver receiver =
(IShellOutputReceiver)EasyMock.getCurrentArguments()[1];
byte[] inputData = response.getBytes();
receiver.addOutput(inputData, 0, inputData.length);
return null;
}
};
if (expectedCommand != null) {
mMockIDevice.executeShellCommand(EasyMock.eq(expectedCommand),
EasyMock.<IShellOutputReceiver>anyObject(),
EasyMock.anyLong(), EasyMock.<TimeUnit>anyObject());
} else {
mMockIDevice.executeShellCommand(EasyMock.<String>anyObject(),
EasyMock.<IShellOutputReceiver>anyObject(),
EasyMock.anyLong(), EasyMock.<TimeUnit>anyObject());
}
if (asStub) {
EasyMock.expectLastCall().andStubAnswer(shellAnswer);
} else {
EasyMock.expectLastCall().andAnswer(shellAnswer);
}
}
/**
* Helper method to inject a response to {@link TestDevice#getProperty(String)} calls
* @param property property name
* @param value property value
* @return preset {@link IExpectationSetters} returned by {@link EasyMock} where further
* expectations can be added
*/
private IExpectationSetters<Future<String>> injectSystemProperty(
final String property, final String value) {
SettableFuture<String> valueResponse = SettableFuture.create();
valueResponse.set(value);
EasyMock.expect(mMockIDevice.getState()).andReturn(DeviceState.ONLINE);
return EasyMock.expect(mMockIDevice.getSystemProperty(property)).andReturn(valueResponse);
}
/**
* Helper method to build response to a reboot call
* @throws Exception
*/
private void setRebootExpectations() throws Exception {
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(
mMockIDevice);
setEnableAdbRootExpectations();
setEncryptedUnsupportedExpectations();
EasyMock.expect(mMockStateMonitor.waitForDeviceAvailable(EasyMock.anyLong())).andReturn(
mMockIDevice);
}
/**
* Test normal success case for {@link TestDevice#reboot()}
*/
public void testReboot() throws Exception {
setRebootExpectations();
replayMocks();
mTestDevice.reboot();
verifyMocks();
}
/**
* Test {@link TestDevice#reboot()} attempts a recovery upon failure
*/
public void testRebootRecovers() throws Exception {
EasyMock.expect(mMockStateMonitor.waitForDeviceOnline()).andReturn(
mMockIDevice);
setEnableAdbRootExpectations();
setEncryptedUnsupportedExpectations();
EasyMock.expect(mMockStateMonitor.waitForDeviceAvailable(EasyMock.anyLong())).andReturn(null);
mMockRecovery.recoverDevice(mMockStateMonitor, false);
replayMocks();
mRecoveryTestDevice.reboot();
verifyMocks();
}
/**
* Unit test for {@link TestDevice#getInstalledPackageNames()}.
*/
public void testGetInstalledPackageNames() throws Exception {
final String output = "package:/system/app/LiveWallpapers.apk=com.android.wallpaper\n" +
"package:/system/app/LiveWallpapersPicker.apk=com.android.wallpaper.livepicker";
injectShellResponse(TestDevice.LIST_PACKAGES_CMD, output);
EasyMock.replay(mMockIDevice, mMockStateMonitor);
Set<String> actualPkgs = mTestDevice.getInstalledPackageNames();
assertEquals(2, actualPkgs.size());
assertTrue(actualPkgs.contains("com.android.wallpaper"));
assertTrue(actualPkgs.contains("com.android.wallpaper.livepicker"));
}
/**
* Unit test for {@link TestDevice#getInstalledPackageNames()}.
* <p/>
* Test bad output.
*/
public void testGetInstalledPackageNamesForBadOutput() throws Exception {
final String output = "junk output";
injectShellResponse(TestDevice.LIST_PACKAGES_CMD, output);
EasyMock.replay(mMockIDevice, mMockStateMonitor);
Set<String> actualPkgs = mTestDevice.getInstalledPackageNames();
assertEquals(0, actualPkgs.size());
}
/**
* Unit test to make sure that the simple convenience constructor for
* {@link MountPointInfo#MountPointInfo(String, String, String, List)} works as expected.
*/
public void testMountInfo_simple() throws Exception {
List<String> empty = Collections.emptyList();
MountPointInfo info = new MountPointInfo("filesystem", "mountpoint", "type", empty);
assertEquals("filesystem", info.filesystem);
assertEquals("mountpoint", info.mountpoint);
assertEquals("type", info.type);
assertEquals(empty, info.options);
}
/**
* Unit test to make sure that the mount-option-parsing convenience constructor for
* {@link MountPointInfo#MountPointInfo(String, String, String, List)} works as expected.
*/
public void testMountInfo_parseOptions() throws Exception {
MountPointInfo info = new MountPointInfo("filesystem", "mountpoint", "type", "rw,relatime");
assertEquals("filesystem", info.filesystem);
assertEquals("mountpoint", info.mountpoint);
assertEquals("type", info.type);
// options should be parsed
assertNotNull(info.options);
assertEquals(2, info.options.size());
assertEquals("rw", info.options.get(0));
assertEquals("relatime", info.options.get(1));
}
/**
* A unit test to ensure {@link TestDevice#getMountPointInfo()} works as expected.
*/
public void testGetMountPointInfo() throws Exception {
injectShellResponse("cat /proc/mounts", ArrayUtil.join("\r\n",
"rootfs / rootfs ro,relatime 0 0",
"tmpfs /dev tmpfs rw,nosuid,relatime,mode=755 0 0",
"devpts /dev/pts devpts rw,relatime,mode=600 0 0",
"proc /proc proc rw,relatime 0 0",
"sysfs /sys sysfs rw,relatime 0 0",
"none /acct cgroup rw,relatime,cpuacct 0 0",
"tmpfs /mnt/asec tmpfs rw,relatime,mode=755,gid=1000 0 0",
"tmpfs /mnt/obb tmpfs rw,relatime,mode=755,gid=1000 0 0",
"none /dev/cpuctl cgroup rw,relatime,cpu 0 0",
"/dev/block/vold/179:3 /mnt/secure/asec vfat rw,dirsync,nosuid,nodev," +
"noexec,relatime,uid=1000,gid=1015,fmask=0702,dmask=0702," +
"allow_utime=0020,codepage=cp437,iocharset=iso8859-1,shortname=mixed," +
"utf8,errors=remount-ro 0 0",
"tmpfs /storage/sdcard0/.android_secure tmpfs " +
"ro,relatime,size=0k,mode=000 0 0"));
replayMocks();
List<MountPointInfo> info = mTestDevice.getMountPointInfo();
verifyMocks();
assertEquals(11, info.size());
// spot-check
MountPointInfo mpi = info.get(0);
assertEquals("rootfs", mpi.filesystem);
assertEquals("/", mpi.mountpoint);
assertEquals("rootfs", mpi.type);
assertEquals(2, mpi.options.size());
assertEquals("ro", mpi.options.get(0));
assertEquals("relatime", mpi.options.get(1));
mpi = info.get(9);
assertEquals("/dev/block/vold/179:3", mpi.filesystem);
assertEquals("/mnt/secure/asec", mpi.mountpoint);
assertEquals("vfat", mpi.type);
assertEquals(16, mpi.options.size());
assertEquals("dirsync", mpi.options.get(1));
assertEquals("errors=remount-ro", mpi.options.get(15));
}
/**
* A unit test to ensure {@link TestDevice#getMountPointInfo(String)} works as expected.
*/
public void testGetMountPointInfo_filter() throws Exception {
injectShellResponse("cat /proc/mounts", ArrayUtil.join("\r\n",
"rootfs / rootfs ro,relatime 0 0",
"tmpfs /dev tmpfs rw,nosuid,relatime,mode=755 0 0",
"devpts /dev/pts devpts rw,relatime,mode=600 0 0",
"proc /proc proc rw,relatime 0 0",
"sysfs /sys sysfs rw,relatime 0 0",
"none /acct cgroup rw,relatime,cpuacct 0 0",
"tmpfs /mnt/asec tmpfs rw,relatime,mode=755,gid=1000 0 0",
"tmpfs /mnt/obb tmpfs rw,relatime,mode=755,gid=1000 0 0",
"none /dev/cpuctl cgroup rw,relatime,cpu 0 0",
"/dev/block/vold/179:3 /mnt/secure/asec vfat rw,dirsync,nosuid,nodev," +
"noexec,relatime,uid=1000,gid=1015,fmask=0702,dmask=0702," +
"allow_utime=0020,codepage=cp437,iocharset=iso8859-1,shortname=mixed," +
"utf8,errors=remount-ro 0 0",
"tmpfs /storage/sdcard0/.android_secure tmpfs " +
"ro,relatime,size=0k,mode=000 0 0"),
true /* asStub */);
replayMocks();
MountPointInfo mpi = mTestDevice.getMountPointInfo("/mnt/secure/asec");
assertEquals("/dev/block/vold/179:3", mpi.filesystem);
assertEquals("/mnt/secure/asec", mpi.mountpoint);
assertEquals("vfat", mpi.type);
assertEquals(16, mpi.options.size());
assertEquals("dirsync", mpi.options.get(1));
assertEquals("errors=remount-ro", mpi.options.get(15));
assertNull(mTestDevice.getMountPointInfo("/a/mountpoint/too/far"));
}
public void testParseFreeSpaceFromFree() throws Exception {
assertNotNull("Failed to parse free space size with decimal point",
mTestDevice.parseFreeSpaceFromFree("/storage/emulated/legacy",
"/storage/emulated/legacy 13.2G 296.4M 12.9G 4096"));
assertNotNull("Failed to parse integer free space size",
mTestDevice.parseFreeSpaceFromFree("/storage/emulated/legacy",
"/storage/emulated/legacy 13G 395M 12G 4096"));
}
public void testIsDeviceInputReady_Ready() throws Exception {
injectShellResponse("dumpsys input", ArrayUtil.join("\r\n", getDumpsysInputHeader(),
" DispatchEnabled: 1",
" DispatchFrozen: 0",
" FocusedApplication: <null>",
" FocusedWindow: name='Window{2920620f u0 com.android.launcher/"
+ "com.android.launcher2.Launcher}'",
" TouchStates: <no displays touched>"
));
replayMocks();
assertTrue(mTestDevice.isDeviceInputReady());
}
public void testIsDeviceInputReady_NotReady() throws Exception {
injectShellResponse("dumpsys input", ArrayUtil.join("\r\n", getDumpsysInputHeader(),
" DispatchEnabled: 0",
" DispatchFrozen: 0",
" FocusedApplication: <null>",
" FocusedWindow: name='Window{2920620f u0 com.android.launcher/"
+ "com.android.launcher2.Launcher}'",
" TouchStates: <no displays touched>"
));
replayMocks();
assertFalse(mTestDevice.isDeviceInputReady());
}
public void testIsDeviceInputReady_NotSupported() throws Exception {
injectShellResponse("dumpsys input", ArrayUtil.join("\r\n",
"foo",
"bar",
"foobar",
"barfoo"
));
replayMocks();
assertNull(mTestDevice.isDeviceInputReady());
}
private static String getDumpsysInputHeader() {
return ArrayUtil.join("\r\n",
"INPUT MANAGER (dumpsys input)",
"",
"Event Hub State:",
" BuiltInKeyboardId: -2",
" Devices:",
" -1: Virtual",
" Classes: 0x40000023",
"Input Dispatcher State:"
);
}
/**
* Simple test for {@link TestDevice#handleAllocationEvent(DeviceEvent)}
*/
public void testHandleAllocationEvent() {
EasyMock.expect(mMockIDevice.getSerialNumber()).andStubReturn(MOCK_DEVICE_SERIAL);
EasyMock.replay(mMockIDevice);
assertEquals(DeviceAllocationState.Unknown, mTestDevice.getAllocationState());
assertNotNull(mTestDevice.handleAllocationEvent(DeviceEvent.CONNECTED_ONLINE));
assertEquals(DeviceAllocationState.Checking_Availability, mTestDevice.getAllocationState());
assertNotNull(mTestDevice.handleAllocationEvent(DeviceEvent.AVAILABLE_CHECK_PASSED));
assertEquals(DeviceAllocationState.Available, mTestDevice.getAllocationState());
assertNotNull(mTestDevice.handleAllocationEvent(DeviceEvent.ALLOCATE_REQUEST));
assertEquals(DeviceAllocationState.Allocated, mTestDevice.getAllocationState());
assertNotNull(mTestDevice.handleAllocationEvent(DeviceEvent.FREE_AVAILABLE));
assertEquals(DeviceAllocationState.Available, mTestDevice.getAllocationState());
assertNotNull(mTestDevice.handleAllocationEvent(DeviceEvent.DISCONNECTED));
assertEquals(DeviceAllocationState.Unknown, mTestDevice.getAllocationState());
assertNotNull(mTestDevice.handleAllocationEvent(DeviceEvent.FORCE_ALLOCATE_REQUEST));
assertEquals(DeviceAllocationState.Allocated, mTestDevice.getAllocationState());
assertNotNull(mTestDevice.handleAllocationEvent(DeviceEvent.FREE_UNKNOWN));
assertEquals(DeviceAllocationState.Unknown, mTestDevice.getAllocationState());
}
/**
* Test that a single user is handled by {@link TestDevice#listUsers()}.
*/
public void testListUsers_oneUser() throws Exception {
final String listUsersCommand = "pm list users";
injectShellResponse(listUsersCommand, ArrayUtil.join("\r\n",
"Users:",
"UserInfo{0:Foo:13} running"));
replayMocks();
ArrayList<Integer> actual = mTestDevice.listUsers();
assertNotNull(actual);
assertEquals(1, actual.size());
assertEquals(0, actual.get(0).intValue());
}
/**
* Test that invalid output is handled by {@link TestDevice#listUsers()}.
*/
public void testListUsers_invalidOutput() throws Exception {
final String listUsersCommand = "pm list users";
final String output = "not really what we are looking for";
injectShellResponse(listUsersCommand, output);
replayMocks();
try {
mTestDevice.listUsers();
fail("Failed to throw DeviceRuntimeException.");
} catch (DeviceRuntimeException expected) {
// expected
assertEquals(
String.format("'%s' in not a valid output for 'pm list users'", output),
expected.getMessage());
}
}
/** Test that invalid format of users is handled by {@link TestDevice#listUsers()}. */
public void testListUsers_unparsableOutput() throws Exception {
final String listUsersCommand = "pm list users";
final String output = "Users:\n" + "\tUserInfo{0:Ownertooshort}";
injectShellResponse(listUsersCommand, output);
replayMocks();
try {
mTestDevice.listUsers();
fail("Failed to throw DeviceRuntimeException.");
} catch (DeviceRuntimeException expected) {
// expected
assertEquals(
String.format(
"device output: '%s' \nline: '\tUserInfo{0:Ownertooshort}' was not in the"
+ " expected format for user info.",
output),
expected.getMessage());
}
}
/**
* Test that multiple user is handled by {@link TestDevice#listUsers()}.
*/
public void testListUsers_multiUsers() throws Exception {
final String listUsersCommand = "pm list users";
injectShellResponse(listUsersCommand, ArrayUtil.join("\r\n",
"Users:",
"UserInfo{0:Foo:13} running",
"UserInfo{3:FooBar:14}"));
replayMocks();
ArrayList<Integer> actual = mTestDevice.listUsers();
assertNotNull(actual);
assertEquals(2, actual.size());
assertEquals(0, actual.get(0).intValue());
assertEquals(3, actual.get(1).intValue());
}
/**
* Test that multi user output is handled by {@link TestDevice#getMaxNumberOfUsersSupported()}.
*/
public void testMaxNumberOfUsersSupported() throws Exception {
final String getMaxUsersCommand = "pm get-max-users";
injectShellResponse(getMaxUsersCommand, "Maximum supported users: 4");
replayMocks();
assertEquals(4, mTestDevice.getMaxNumberOfUsersSupported());
}
/**
* Test that invalid output is handled by {@link TestDevice#getMaxNumberOfUsersSupported()}.
*/
public void testMaxNumberOfUsersSupported_invalid() throws Exception {
final String getMaxUsersCommand = "pm get-max-users";
injectShellResponse(getMaxUsersCommand, "not the output we expect");
replayMocks();
assertEquals(0, mTestDevice.getMaxNumberOfUsersSupported());
}
/**
* Test that multi user output is handled by {@link TestDevice#getMaxNumberOfUsersSupported()}.
*/
public void testMaxNumberOfRunningUsersSupported() throws Exception {
injectSystemProperty("ro.build.version.sdk", "28");
injectSystemProperty(TestDevice.BUILD_CODENAME_PROP, "REL");
final String getMaxRunningUsersCommand = "pm get-max-running-users";
injectShellResponse(getMaxRunningUsersCommand, "Maximum supported running users: 4");
replayMocks();
assertEquals(4, mTestDevice.getMaxNumberOfRunningUsersSupported());
}
/** Test that invalid output is handled by {@link TestDevice#getMaxNumberOfUsersSupported()}. */
public void testMaxNumberOfRunningUsersSupported_invalid() throws Exception {
injectSystemProperty("ro.build.version.sdk", "28");
injectSystemProperty(TestDevice.BUILD_CODENAME_PROP, "REL");
final String getMaxRunningUsersCommand = "pm get-max-running-users";
injectShellResponse(getMaxRunningUsersCommand, "not the output we expect");
replayMocks();
assertEquals(0, mTestDevice.getMaxNumberOfRunningUsersSupported());
}
/**
* Test that single user output is handled by {@link TestDevice#getMaxNumberOfUsersSupported()}.
*/
public void testIsMultiUserSupported_singleUser() throws Exception {
final String getMaxUsersCommand = "pm get-max-users";
injectShellResponse(getMaxUsersCommand, "Maximum supported users: 1");
replayMocks();
assertFalse(mTestDevice.isMultiUserSupported());
}
/**
* Test that {@link TestDevice#isMultiUserSupported()} works.
*/
public void testIsMultiUserSupported() throws Exception {
final String getMaxUsersCommand = "pm get-max-users";
injectShellResponse(getMaxUsersCommand, "Maximum supported users: 4");
replayMocks();
assertTrue(mTestDevice.isMultiUserSupported());
}
/**
* Test that invalid output is handled by {@link TestDevice#isMultiUserSupported()}.
*/
public void testIsMultiUserSupported_invalidOutput() throws Exception {
final String getMaxUsersCommand = "pm get-max-users";
injectShellResponse(getMaxUsersCommand, "not the output we expect");
replayMocks();
assertFalse(mTestDevice.isMultiUserSupported());
}
/**
* Test that successful user creation is handled by {@link TestDevice#createUser(String)}.
*/
public void testCreateUser() throws Exception {
final String createUserCommand = "pm create-user foo";
injectShellResponse(createUserCommand, "Success: created user id 10");
replayMocks();
assertEquals(10, mTestDevice.createUser("foo"));
}
/**
* Test that successful user creation is handled by
* {@link TestDevice#createUser(String, boolean, boolean)}.
*/
public void testCreateUserFlags() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Success: created user id 12";
}
};
assertEquals(12, mTestDevice.createUser("TEST", true, true));
}
/**
* Test that {@link TestDevice#createUser(String, boolean, boolean)} fails when bad output
*/
public void testCreateUser_wrongOutput() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Success: created user id WRONG";
}
};
try {
mTestDevice.createUser("TEST", true, true);
} catch (IllegalStateException e) {
// expected
return;
}
fail("CreateUser should have thrown an exception");
}
/**
* Test that a failure to create a user is handled by {@link TestDevice#createUser(String)}.
*/
public void testCreateUser_failed() throws Exception {
final String createUserCommand = "pm create-user foo";
injectShellResponse(createUserCommand, "Error");
replayMocks();
try {
mTestDevice.createUser("foo");
fail("IllegalStateException not thrown");
} catch (IllegalStateException e) {
// Expected
}
}
/**
* Test that successful user removal is handled by {@link TestDevice#removeUser(int)}.
*/
public void testRemoveUser() throws Exception {
final String removeUserCommand = "pm remove-user 10";
injectShellResponse(removeUserCommand, "Success: removed user\n");
replayMocks();
assertTrue(mTestDevice.removeUser(10));
}
/**
* Test that a failure to remove a user is handled by {@link TestDevice#removeUser(int)}.
*/
public void testRemoveUser_failed() throws Exception {
final String removeUserCommand = "pm remove-user 10";
injectShellResponse(removeUserCommand, "Error: couldn't remove user id 10");
replayMocks();
assertFalse(mTestDevice.removeUser(10));
}
/**
* Test that trying to run a test with a user with
* {@link TestDevice#runInstrumentationTestsAsUser(IRemoteAndroidTestRunner, int, Collection)}
* fails if the {@link IRemoteAndroidTestRunner} is not an instance of
* {@link RemoteAndroidTestRunner}.
*/
public void testrunInstrumentationTestsAsUser_failed() throws Exception {
IRemoteAndroidTestRunner mockRunner = EasyMock.createMock(IRemoteAndroidTestRunner.class);
EasyMock.expect(mockRunner.getPackageName()).andStubReturn("com.example");
Collection<ITestLifeCycleReceiver> listeners = new ArrayList<>();
EasyMock.replay(mockRunner);
try {
mTestDevice.runInstrumentationTestsAsUser(mockRunner, 12, listeners);
fail("IllegalStateException not thrown.");
} catch (IllegalStateException e) {
//expected
}
}
/**
* Test that successful user start is handled by {@link TestDevice#startUser(int)}.
*/
public void testStartUser() throws Exception {
final String startUserCommand = "am start-user 10";
injectShellResponse(startUserCommand, "Success: user started\n");
replayMocks();
assertTrue(mTestDevice.startUser(10));
}
/**
* Test that a failure to start user is handled by {@link TestDevice#startUser(int)}.
*/
public void testStartUser_failed() throws Exception {
final String startUserCommand = "am start-user 10";
injectShellResponse(startUserCommand, "Error: could not start user\n");
replayMocks();
assertFalse(mTestDevice.startUser(10));
}
/**
* Test that remount works as expected on a device not supporting dm verity
* @throws Exception
*/
public void testRemount_verityUnsupported() throws Exception {
injectSystemProperty("partition.system.verified", "");
setExecuteAdbCommandExpectations(new CommandResult(CommandStatus.SUCCESS), "remount");
EasyMock.expect(mMockStateMonitor.waitForDeviceAvailable()).andReturn(mMockIDevice);
replayMocks();
mTestDevice.remountSystemWritable();
verifyMocks();
}
/**
* Test that remount works as expected on a device supporting dm verity v1
* @throws Exception
*/
public void testRemount_veritySupportedV1() throws Exception {
injectSystemProperty("partition.system.verified", "1");
setExecuteAdbCommandExpectations(
new CommandResult(CommandStatus.SUCCESS), "disable-verity");
setRebootExpectations();
setExecuteAdbCommandExpectations(new CommandResult(CommandStatus.SUCCESS), "remount");
EasyMock.expect(mMockStateMonitor.waitForDeviceAvailable()).andReturn(mMockIDevice);
replayMocks();
mTestDevice.remountSystemWritable();
verifyMocks();
}
/**
* Test that remount works as expected on a device supporting dm verity v2
* @throws Exception
*/
public void testRemount_veritySupportedV2() throws Exception {
injectSystemProperty("partition.system.verified", "2");
setExecuteAdbCommandExpectations(
new CommandResult(CommandStatus.SUCCESS), "disable-verity");
setRebootExpectations();
setExecuteAdbCommandExpectations(new CommandResult(CommandStatus.SUCCESS), "remount");
EasyMock.expect(mMockStateMonitor.waitForDeviceAvailable()).andReturn(mMockIDevice);
replayMocks();
mTestDevice.remountSystemWritable();
verifyMocks();
}
/**
* Test that remount works as expected on a device supporting dm verity but with unknown version
* @throws Exception
*/
public void testRemount_veritySupportedNonNumerical() throws Exception {
injectSystemProperty("partition.system.verified", "foo");
setExecuteAdbCommandExpectations(
new CommandResult(CommandStatus.SUCCESS), "disable-verity");
setRebootExpectations();
setExecuteAdbCommandExpectations(new CommandResult(CommandStatus.SUCCESS), "remount");
EasyMock.expect(mMockStateMonitor.waitForDeviceAvailable()).andReturn(mMockIDevice);
replayMocks();
mTestDevice.remountSystemWritable();
verifyMocks();
}
/**
* Test that {@link TestDevice#getBuildSigningKeys()} works for the typical "test-keys" case
* @throws Exception
*/
public void testGetBuildSigningKeys_test_keys() throws Exception {
injectSystemProperty(TestDevice.BUILD_TAGS, "test-keys");
replayMocks();
assertEquals("test-keys", mTestDevice.getBuildSigningKeys());
}
/**
* Test that {@link TestDevice#getBuildSigningKeys()} works for the case where build tags is a
* comma separated list
* @throws Exception
*/
public void testGetBuildSigningKeys_test_keys_commas() throws Exception {
injectSystemProperty(TestDevice.BUILD_TAGS, "test-keys,foo,bar,yadda");
replayMocks();
assertEquals("test-keys", mTestDevice.getBuildSigningKeys());
}
/**
* Test that {@link TestDevice#getBuildSigningKeys()} returns null for non-matching case
* @throws Exception
*/
public void testGetBuildSigningKeys_not_matched() throws Exception {
injectSystemProperty(TestDevice.BUILD_TAGS, "huh,foo,bar,yadda");
replayMocks();
assertNull(mTestDevice.getBuildSigningKeys());
}
/**
* Test that {@link TestDevice#getCurrentUser()} returns the current user id.
* @throws Exception
*/
public void testGetCurrentUser() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "3\n";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_GET_CURRENT_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
int res = mTestDevice.getCurrentUser();
assertEquals(3, res);
}
/**
* Test that {@link TestDevice#getCurrentUser()} returns null when output is not expected
* @throws Exception
*/
public void testGetCurrentUser_null() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "not found.";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_GET_CURRENT_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
int res = mTestDevice.getCurrentUser();
assertEquals(NativeDevice.INVALID_USER_ID, res);
}
/**
* Test that {@link TestDevice#getCurrentUser()} returns null when api level is too low
* @throws Exception
*/
public void testGetCurrentUser_lowApi() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 15;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "REL\n";
}
};
try {
mTestDevice.getCurrentUser();
} catch (IllegalArgumentException e) {
// expected
return;
}
fail("getCurrentUser should have thrown an exception.");
}
/**
* Unit test for {@link TestDevice#getUserFlags(int)}.
*/
public void testGetUserFlag() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\n\tUserInfo{0:Owner:13} running";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
int flags = mTestDevice.getUserFlags(0);
// Expected 19 because using radix 16 (so 13 becomes (1 * 16^1 + 3 * 16^0) = 19)
assertEquals(19, flags);
}
/**
* Unit test for {@link TestDevice#getUserFlags(int)} when command return empty list
* of users.
*/
public void testGetUserFlag_emptyReturn() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
int flags = mTestDevice.getUserFlags(2);
assertEquals(NativeDevice.INVALID_USER_ID, flags);
}
/**
* Unit test for {@link TestDevice#getUserFlags(int)} when there is multiple users in
* the list.
*/
public void testGetUserFlag_multiUser() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\n\tUserInfo{0:Owner:13}\n\tUserInfo{WRONG:Owner:14}\n\t"
+ "UserInfo{}\n\tUserInfo{3:Owner:15} Running";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
int flags = mTestDevice.getUserFlags(3);
assertEquals(21, flags);
}
/**
* Unit test for {@link TestDevice#getUserSerialNumber(int)}
*/
public void testGetUserSerialNumber() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\nUserInfo{0:Owner:13} serialNo=666";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
int serial = mTestDevice.getUserSerialNumber(0);
assertEquals(666, serial);
}
/**
* Unit test for {@link TestDevice#getUserSerialNumber(int)} when the dumpsys return some
* bad data.
*/
public void testGetUserSerialNumber_badData() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\nUserInfo{0:Owner:13} serialNo=WRONG";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
int serial = mTestDevice.getUserSerialNumber(0);
assertEquals(NativeDevice.INVALID_USER_ID, serial);
}
/**
* Unit test for {@link TestDevice#getUserSerialNumber(int)} when the dumpsys return an empty
* serial
*/
public void testGetUserSerialNumber_emptySerial() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\nUserInfo{0:Owner:13} serialNo=";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
int serial = mTestDevice.getUserSerialNumber(0);
assertEquals(NativeDevice.INVALID_USER_ID, serial);
}
/**
* Unit test for {@link TestDevice#getUserSerialNumber(int)} when there is multiple users in
* the dumpsys
*/
public void testGetUserSerialNumber_multiUsers() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\nUserInfo{0:Owner:13} serialNo=1\nUserInfo{1:Owner:13} serialNo=2"
+ "\nUserInfo{2:Owner:13} serialNo=3";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
int serial = mTestDevice.getUserSerialNumber(2);
assertEquals(3, serial);
}
/**
* Unit test for {@link TestDevice#switchUser(int)} when user requested is already is current
* user.
*/
public void testSwitchUser_alreadySameUser() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return 0;
}
@Override
public void prePostBootSetup() {
// skip for this test
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_GET_CURRENT_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
assertTrue(mTestDevice.switchUser(0));
}
/**
* Unit test for {@link TestDevice#switchUser(int)} when user switch instantly.
*/
public void testSwitchUser() throws Exception {
mTestDevice = new TestableTestDevice() {
int ret = 0;
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return ret;
}
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
ret = 10;
return "";
}
@Override
public void prePostBootSetup() {
// skip for this test
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_GET_CURRENT_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
assertTrue(mTestDevice.switchUser(10));
}
/**
* Unit test for {@link TestDevice#switchUser(int)} when user switch with a short delay.
*/
public void testSwitchUser_delay() throws Exception {
mTestDevice =
new TestableTestDevice() {
int ret = 0;
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return ret;
}
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
test.setName(getClass().getCanonicalName() + "#testSwitchUser_delay");
test.start();
return "";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_GET_CURRENT_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
@Override
public void prePostBootSetup() {
// skip for this test
}
@Override
protected long getCheckNewUserSleep() {
return 100;
}
Thread test =
new Thread(
new Runnable() {
@Override
public void run() {
RunUtil.getDefault().sleep(100);
ret = 10;
}
});
};
assertTrue(mTestDevice.switchUser(10));
}
/**
* Unit test for {@link TestDevice#switchUser(int)} when user never change.
*/
public void testSwitchUser_noChange() throws Exception {
mTestDevice = new TestableTestDevice() {
int ret = 0;
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return ret;
}
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
ret = 0;
return "";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_GET_CURRENT_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
@Override
protected long getCheckNewUserSleep() {
return 50;
}
@Override
public void prePostBootSetup() {
// skip for this test
}
};
assertFalse(mTestDevice.switchUser(10, 100));
}
/**
* Unit test for {@link TestDevice#stopUser(int)}, cannot stop current user.
*/
public void testStopUser_notCurrent() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "Can't stop current user";
}
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return 0;
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_STOP_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
assertFalse(mTestDevice.stopUser(0));
}
/**
* Unit test for {@link TestDevice#stopUser(int)}, cannot stop system
*/
public void testStopUser_notSystem() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "Error: Can't stop system user 0";
}
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return 10;
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_STOP_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
assertFalse(mTestDevice.stopUser(0));
}
/**
* Unit test for {@link TestDevice#stopUser(int, boolean, boolean)}, for a success stop in API
* 22.
*/
public void testStopUser_success_api22() throws Exception {
verifyStopUserSuccess(22, false, false, "am stop-user 10");
}
/**
* Unit test for {@link TestDevice#stopUser(int, boolean, boolean)}, for a success stop in API
* 23.
*/
public void testStopUser_success_api23() throws Exception {
verifyStopUserSuccess(23, true, false, "am stop-user -w 10");
}
/**
* Unit test for {@link TestDevice#stopUser(int, boolean, boolean)}, for a success stop in API
* 24.
*/
public void testStopUser_success_api24() throws Exception {
verifyStopUserSuccess(24, true, true, "am stop-user -w -f 10");
}
private void verifyStopUserSuccess(
int apiLevel, boolean wait, boolean force, String expectedCommand) throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
if (command.contains("am")) {
assertEquals(expectedCommand, command);
} else if (command.contains("pm")) {
assertEquals("pm list users", command);
} else {
fail("Unexpected command");
}
return "Users:\n\tUserInfo{0:Test:13}";
}
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return 0;
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return apiLevel;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
assertTrue(mTestDevice.stopUser(10, wait, force));
}
public void testStopUser_wait_api22() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
try {
mTestDevice.stopUser(10, true, false);
fail("IllegalArgumentException should be thrown");
} catch (IllegalArgumentException ex) {
// expected
}
}
public void testStopUser_force_api22() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
try {
mTestDevice.stopUser(10, false, true);
fail("IllegalArgumentException should be thrown");
} catch (IllegalArgumentException ex) {
// expected
}
}
/**
* Unit test for {@link TestDevice#stopUser(int)}, for a failed stop
*/
public void testStopUser_failed() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
if (command.contains("am")) {
assertEquals("am stop-user 0", command);
} else if (command.contains("pm")) {
assertEquals("pm list users", command);
} else {
fail("Unexpected command");
}
return "Users:\n\tUserInfo{0:Test:13} running";
}
@Override
public int getCurrentUser() throws DeviceNotAvailableException {
return 10;
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_STOP_USER;
}
@Override
public String getProperty(String name) throws DeviceNotAvailableException {
return "N\n";
}
};
assertFalse(mTestDevice.stopUser(0));
}
/**
* Unit test for {@link TestDevice#isUserRunning(int)}.
*/
public void testIsUserIdRunning_true() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\n\tUserInfo{0:Test:13} running";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return MIN_API_LEVEL_GET_CURRENT_USER;
}
};
assertTrue(mTestDevice.isUserRunning(0));
}
/**
* Unit test for {@link TestDevice#isUserRunning(int)}.
*/
public void testIsUserIdRunning_false() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\n\tUserInfo{0:Test:13} running\n\tUserInfo{10:New user:10}";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
assertFalse(mTestDevice.isUserRunning(10));
}
/**
* Unit test for {@link TestDevice#isUserRunning(int)}.
*/
public void testIsUserIdRunning_badFormat() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Users:\n\tUserInfo{WRONG:Test:13} running";
}
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
assertFalse(mTestDevice.isUserRunning(0));
}
/**
* Unit test for {@link TestDevice#hasFeature(String)} on success.
*/
public void testHasFeature_true() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "feature:com.google.android.feature.EXCHANGE_6_2\n" +
"feature:com.google.android.feature.GOOGLE_BUILD\n" +
"feature:com.google.android.feature.GOOGLE_EXPERIENCE";
}
};
assertTrue(mTestDevice.hasFeature("com.google.android.feature.EXCHANGE_6_2"));
}
/**
* Unit test for {@link TestDevice#hasFeature(String)} on failure.
*/
public void testHasFeature_fail() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "feature:com.google.android.feature.EXCHANGE_6_2\n" +
"feature:com.google.android.feature.GOOGLE_BUILD\n" +
"feature:com.google.android.feature.GOOGLE_EXPERIENCE";
}
};
assertFalse(mTestDevice.hasFeature("feature:test"));
}
/**
* Unit test for {@link TestDevice#getSetting(int, String, String)}.
*/
public void testGetSetting() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "78";
}
};
assertEquals("78", mTestDevice.getSetting(0, "system", "screen_brightness"));
}
/**
* Unit test for {@link TestDevice#getSetting(String, String)}.
*/
public void testGetSetting_SystemUser() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "78";
}
};
assertEquals("78", mTestDevice.getSetting("system", "screen_brightness"));
}
/**
* Unit test for {@link TestDevice#getSetting(int, String, String)}.
*/
public void testGetSetting_nulloutput() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "null";
}
};
assertNull(mTestDevice.getSetting(0, "system", "screen_brightness"));
}
/**
* Unit test for {@link TestDevice#getSetting(int, String, String)} with a namespace
* that is not in {global, system, secure}.
*/
public void testGetSetting_unexpectedNamespace() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
assertNull(mTestDevice.getSetting(0, "TEST", "screen_brightness"));
}
/** Unit test for {@link TestDevice#getAllSettings(String)}. */
public void testGetAllSettings() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "mobile_data=1\nmulti_sim_data_call=-1\n";
}
};
Map<String, String> map = mTestDevice.getAllSettings("system");
assertEquals("1", map.get("mobile_data"));
assertEquals("-1", map.get("multi_sim_data_call"));
}
/** Unit test for {@link TestDevice#getAllSettings(String)} with emtpy setting value */
public void testGetAllSettings_EmptyValue() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "Phenotype_flags=\nmulti_sim_data_call=-1\n";
}
};
Map<String, String> map = mTestDevice.getAllSettings("system");
assertEquals("", map.get("Phenotype_flags"));
assertEquals("-1", map.get("multi_sim_data_call"));
}
/**
* Unit test for {@link TestDevice#getAllSettings(String)} with a namespace that is not in
* {global, system, secure}.
*/
public void testGetAllSettings_unexpectedNamespace() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
assertNull(mTestDevice.getAllSettings("TEST"));
}
/**
* Unit test for {@link TestDevice#setSetting(int, String, String, String)}
* with a namespace that is not in {global, system, secure}.
*/
public void testSetSetting_unexpectedNamespace() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
try {
mTestDevice.setSetting(0, "TEST", "screen_brightness", "75");
} catch (IllegalArgumentException e) {
// expected
return;
}
fail("putSettings should have thrown an exception.");
}
/**
* Unit test for {@link TestDevice#setSetting(int, String, String, String)}
* with a normal case.
*/
public void testSetSettings() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
try {
mTestDevice.setSetting(0, "system", "screen_brightness", "75");
} catch (IllegalArgumentException e) {
fail("putSettings should not have thrown an exception.");
}
}
/**
* Unit test for {@link TestDevice#setSetting(String, String, String)}
* with a normal case.
*/
public void testSetSettings_SystemUser() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 22;
}
};
try {
mTestDevice.setSetting("system", "screen_brightness", "75");
} catch (IllegalArgumentException e) {
fail("putSettings should not have thrown an exception.");
}
}
/**
* Unit test for {@link TestDevice#setSetting(int, String, String, String)}
* when API level is too low
*/
public void testSetSettings_lowApi() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public int getApiLevel() throws DeviceNotAvailableException {
return 21;
}
};
try {
mTestDevice.setSetting(0, "system", "screen_brightness", "75");
} catch (IllegalArgumentException e) {
// expected
return;
}
fail("putSettings should have thrown an exception.");
}
/**
* Unit test for {@link TestDevice#getAndroidId(int)}.
*/
public void testGetAndroidId() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "4433829313704884235";
}
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return true;
}
};
assertEquals("4433829313704884235", mTestDevice.getAndroidId(0));
}
/**
* Unit test for {@link TestDevice#getAndroidId(int)} when db containing the id is not found
*/
public void testGetAndroidId_notFound() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public String executeShellCommand(String command) throws DeviceNotAvailableException {
return "Error: unable to open database"
+ "\"/data/0/com.google.android.gsf/databases/gservices.db\": "
+ "unable to open database file";
}
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return true;
}
};
assertNull(mTestDevice.getAndroidId(0));
}
/**
* Unit test for {@link TestDevice#getAndroidId(int)} when adb root not enabled.
*/
public void testGetAndroidId_notRoot() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return false;
}
};
assertNull(mTestDevice.getAndroidId(0));
}
/**
* Unit test for {@link TestDevice#getAndroidIds()}
*/
public void testGetAndroidIds() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public ArrayList<Integer> listUsers() throws DeviceNotAvailableException {
ArrayList<Integer> test = new ArrayList<Integer>();
test.add(0);
test.add(1);
return test;
}
@Override
public String getAndroidId(int userId) throws DeviceNotAvailableException {
return "44444";
}
};
Map<Integer, String> expected = new HashMap<Integer, String>();
expected.put(0, "44444");
expected.put(1, "44444");
assertEquals(expected, mTestDevice.getAndroidIds());
}
/**
* Unit test for {@link TestDevice#getAndroidIds()} when no user are found.
*/
public void testGetAndroidIds_noUser() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public ArrayList<Integer> listUsers() throws DeviceNotAvailableException {
return null;
}
};
assertNull(mTestDevice.getAndroidIds());
}
/**
* Unit test for {@link TestDevice#getAndroidIds()} when no match is found for user ids.
*/
public void testGetAndroidIds_noMatch() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
public ArrayList<Integer> listUsers() throws DeviceNotAvailableException {
ArrayList<Integer> test = new ArrayList<Integer>();
test.add(0);
test.add(1);
return test;
}
@Override
public String getAndroidId(int userId) throws DeviceNotAvailableException {
return null;
}
};
Map<Integer, String> expected = new HashMap<Integer, String>();
expected.put(0, null);
expected.put(1, null);
assertEquals(expected, mTestDevice.getAndroidIds());
}
/**
* Test for {@link TestDevice#getScreenshot()} when action failed.
*/
public void testGetScreenshot_failure() throws Exception {
mTestDevice = new TestableTestDevice() {
@Override
protected boolean performDeviceAction(
String actionDescription, DeviceAction action, int retryAttempts)
throws DeviceNotAvailableException {
return false;
}
};
InputStreamSource res = mTestDevice.getScreenshot();
assertNotNull(res);
assertEquals(
"Error: device reported null for screenshot.",
StreamUtil.getStringFromStream(res.createInputStream()));
}
/**
* Test for {@link TestDevice#getScreenshot()} when action succeed.
*/
public void testGetScreenshot() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
protected boolean performDeviceAction(
String actionDescription, DeviceAction action, int retryAttempts)
throws DeviceNotAvailableException {
return true;
}
@Override
byte[] compressRawImage(RawImage rawImage, String format, boolean rescale) {
return "image".getBytes();
}
};
InputStreamSource data = mTestDevice.getScreenshot();
assertNotNull(data);
assertTrue(data instanceof ByteArrayInputStreamSource);
}
/**
* Helper to retrieve the test file
*/
private File getTestImageResource() throws Exception {
InputStream imageZip = getClass().getResourceAsStream(RAWIMAGE_RESOURCE);
File imageZipFile = FileUtil.createTempFile("rawImage", ".zip");
try {
FileUtil.writeToFile(imageZip, imageZipFile);
File dir = ZipUtil2.extractZipToTemp(imageZipFile, "test-raw-image");
return new File(dir, "rawImageScreenshot.raw");
} finally {
FileUtil.deleteFile(imageZipFile);
}
}
/**
* Helper to create the rawImage to test.
*/
private RawImage prepareRawImage(File rawImageFile) throws Exception {
RawImage sRawImage = null;
String data = FileUtil.readStringFromFile(rawImageFile);
sRawImage = new RawImage();
sRawImage.alpha_length = 8;
sRawImage.alpha_offset = 24;
sRawImage.blue_length = 8;
sRawImage.blue_offset = 16;
sRawImage.bpp = 32;
sRawImage.green_length = 8;
sRawImage.green_offset = 8;
sRawImage.height = 1920;
sRawImage.red_length = 8;
sRawImage.red_offset = 0;
sRawImage.size = 8294400;
sRawImage.version = 1;
sRawImage.width = 1080;
sRawImage.data = data.getBytes();
return sRawImage;
}
/**
* Test for {@link TestDevice#compressRawImage(RawImage, String, boolean)} properly reduce the
* image size with different encoding.
*/
public void testCompressScreenshot() throws Exception {
InputStream imageData = getClass().getResourceAsStream("/testdata/SmallRawImage.raw");
File testImageFile = FileUtil.createTempFile("raw-to-buffered", ".raw");
FileUtil.writeToFile(imageData, testImageFile);
RawImage testImage = null;
try {
testImage = prepareRawImage(testImageFile);
// We used the small image so we adapt the size.
testImage.height = 25;
testImage.size = 2000;
testImage.width = 25;
// Size of the raw test data
Assert.assertEquals(3000, testImage.data.length);
byte[] result = mTestDevice.compressRawImage(testImage, "PNG", true);
// Size after compressing can vary a bit depending of the JDK
if (result.length != 107 && result.length != 117) {
fail(
String.format(
"Should have compress the length as expected, got %s, "
+ "expected 107 or 117",
result.length));
}
// Do it again with JPEG encoding
Assert.assertEquals(3000, testImage.data.length);
result = mTestDevice.compressRawImage(testImage, "JPEG", true);
// Size after compressing as JPEG
Assert.assertEquals(1041, result.length);
} finally {
if (testImage != null) {
testImage.data = null;
}
FileUtil.deleteFile(testImageFile);
}
}
/**
* Test for {@link TestDevice#rawImageToBufferedImage(RawImage, String)}.
*
* @throws Exception
*/
public void testRawImageToBufferedImage() throws Exception {
InputStream imageData = getClass().getResourceAsStream("/testdata/SmallRawImage.raw");
File testImageFile = FileUtil.createTempFile("raw-to-buffered", ".raw");
FileUtil.writeToFile(imageData, testImageFile);
RawImage testImage = null;
try {
testImage = prepareRawImage(testImageFile);
// We used the small image so we adapt the size.
testImage.height = 25;
testImage.size = 2000;
testImage.width = 25;
// Test PNG format
BufferedImage bufferedImage = mTestDevice.rawImageToBufferedImage(testImage, "PNG");
assertEquals(testImage.width, bufferedImage.getWidth());
assertEquals(testImage.height, bufferedImage.getHeight());
assertEquals(BufferedImage.TYPE_INT_ARGB, bufferedImage.getType());
// Test JPEG format
bufferedImage = mTestDevice.rawImageToBufferedImage(testImage, "JPEG");
assertEquals(testImage.width, bufferedImage.getWidth());
assertEquals(testImage.height, bufferedImage.getHeight());
assertEquals(BufferedImage.TYPE_3BYTE_BGR, bufferedImage.getType());
} finally {
if (testImage != null) {
testImage.data = null;
}
FileUtil.deleteFile(testImageFile);
}
}
/**
* Test for {@link TestDevice#rescaleImage(BufferedImage)}.
*
* @throws Exception
*/
public void testRescaleImage() throws Exception {
File testImageFile = getTestImageResource();
RawImage testImage = null;
try {
testImage = prepareRawImage(testImageFile);
BufferedImage bufferedImage = mTestDevice.rawImageToBufferedImage(testImage, "PNG");
BufferedImage scaledImage = mTestDevice.rescaleImage(bufferedImage);
assertEquals(bufferedImage.getWidth() / 2, scaledImage.getWidth());
assertEquals(bufferedImage.getHeight() / 2, scaledImage.getHeight());
} finally {
if (testImage != null) {
testImage.data = null;
}
FileUtil.recursiveDelete(testImageFile.getParentFile());
}
}
/**
* Test for {@link TestDevice#compressRawImage(RawImage, String, boolean)} does not rescale
* image if specified.
*/
public void testCompressScreenshotNoRescale() throws Exception {
File testImageFile = getTestImageResource();
final RawImage[] testImage = new RawImage[1];
testImage[0] = prepareRawImage(testImageFile);
mTestDevice =
new TestableTestDevice() {
@Override
byte[] getImageData(BufferedImage image, String format) {
assertEquals(testImage[0].width, image.getWidth());
assertEquals(testImage[0].height, image.getHeight());
return super.getImageData(image, format);
}
};
try {
byte[] result = mTestDevice.compressRawImage(testImage[0], "PNG", false);
assertNotNull(result);
} finally {
FileUtil.recursiveDelete(testImageFile.getParentFile());
testImage[0].data = null;
testImage[0] = null;
}
}
/** Test for {@link TestDevice#getKeyguardState()} produces the proper output. */
public void testGetKeyguardState() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "KeyguardController:\n"
+ " mKeyguardShowing=true\n"
+ " mKeyguardGoingAway=false\n"
+ " mOccluded=false\n";
}
};
KeyguardControllerState state = mTestDevice.getKeyguardState();
Assert.assertTrue(state.isKeyguardShowing());
Assert.assertFalse(state.isKeyguardOccluded());
}
/** New output of dumpsys is not as clean and has stuff in front. */
public void testGetKeyguardState_new() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "isHomeRecentsComponent=true KeyguardController:\n"
+ " mKeyguardShowing=true\n"
+ " mKeyguardGoingAway=false\n"
+ " mOccluded=false\n";
}
};
KeyguardControllerState state = mTestDevice.getKeyguardState();
Assert.assertTrue(state.isKeyguardShowing());
Assert.assertFalse(state.isKeyguardOccluded());
}
/** Test for {@link TestDevice#getKeyguardState()} when the device does not support it. */
public void testGetKeyguardState_unsupported() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "\n";
}
};
assertNull(mTestDevice.getKeyguardState());
}
public void testSetDeviceOwner_success() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "Success: Device owner set to package ComponentInfo{xxx/yyy}";
}
};
assertTrue(mTestDevice.setDeviceOwner("xxx/yyy", 0));
}
public void testSetDeviceOwner_fail() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "java.lang.IllegalStateException: Trying to set the device owner";
}
};
assertFalse(mTestDevice.setDeviceOwner("xxx/yyy", 0));
}
public void testRemoveAdmin_success() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "Success: Admin removed";
}
};
assertTrue(mTestDevice.removeAdmin("xxx/yyy", 0));
}
public void testRemoveAdmin_fail() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "java.lang.SecurityException: Attempt to remove non-test admin";
}
};
assertFalse(mTestDevice.removeAdmin("xxx/yyy", 0));
}
public void testRemoveOwners() throws Exception {
mTestDevice =
Mockito.spy(
new TestableTestDevice() {
@Override
public String executeShellCommand(String command)
throws DeviceNotAvailableException {
return "Current Device Policy Manager state:\n"
+ " Device Owner: \n"
+ " admin=ComponentInfo{aaa/aaa}\n"
+ " name=\n"
+ " package=aaa\n"
+ " User ID: 0\n"
+ "\n"
+ " Profile Owner (User 10): \n"
+ " admin=ComponentInfo{bbb/bbb}\n"
+ " name=bbb\n"
+ " package=bbb\n";
}
});
mTestDevice.removeOwners();
// Verified removeAdmin is called to remove owners.
ArgumentCaptor<String> stringCaptor = ArgumentCaptor.forClass(String.class);
ArgumentCaptor<Integer> intCaptor = ArgumentCaptor.forClass(Integer.class);
Mockito.verify(mTestDevice, Mockito.times(2))
.removeAdmin(stringCaptor.capture(), intCaptor.capture());
List<String> stringArgs = stringCaptor.getAllValues();
List<Integer> intArgs = intCaptor.getAllValues();
assertEquals("aaa/aaa", stringArgs.get(0));
assertEquals(Integer.valueOf(0), intArgs.get(0));
assertEquals("bbb/bbb", stringArgs.get(1));
assertEquals(Integer.valueOf(10), intArgs.get(1));
}
/** Test that the output of cryptfs allows for encryption for newest format. */
public void testIsEncryptionSupported_newformat() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return true;
}
@Override
public boolean enableAdbRoot() throws DeviceNotAvailableException {
return true;
}
};
injectShellResponse(
"vdc cryptfs enablecrypto",
"500 8674 Usage with ext4crypt: cryptfs enablecrypto inplace default noui\r\n");
EasyMock.replay(mMockIDevice, mMockStateMonitor, mMockDvcMonitor);
assertTrue(mTestDevice.isEncryptionSupported());
EasyMock.verify(mMockIDevice, mMockStateMonitor, mMockDvcMonitor);
}
/** Test that the output of cryptfs does not allow for encryption. */
public void testIsEncryptionSupported_failure() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public boolean isAdbRoot() throws DeviceNotAvailableException {
return true;
}
@Override
public boolean enableAdbRoot() throws DeviceNotAvailableException {
return true;
}
};
injectShellResponse("vdc cryptfs enablecrypto", "500 8674 Command not recognized\r\n");
EasyMock.replay(mMockIDevice, mMockStateMonitor, mMockDvcMonitor);
assertFalse(mTestDevice.isEncryptionSupported());
EasyMock.verify(mMockIDevice, mMockStateMonitor, mMockDvcMonitor);
}
/** Test when getting the heapdump is successful. */
public void testGetHeapDump() throws Exception {
mTestDevice =
new TestableTestDevice() {
@Override
public File pullFile(String remoteFilePath) throws DeviceNotAvailableException {
return new File("test");
}
};
injectShellResponse("pidof system_server", "929");
injectShellResponse("am dumpheap 929 /data/dump.hprof", "");
injectShellResponse("ls \"/data/dump.hprof\"", "/data/dump.hprof");
injectShellResponse("rm /data/dump.hprof", "");
EasyMock.replay(mMockIDevice, mMockRunUtil);
File res = mTestDevice.dumpHeap("system_server", "/data/dump.hprof");
assertNotNull(res);
EasyMock.verify(mMockIDevice, mMockRunUtil);
}
/** Test when we fail to get the process pid. */
public void testGetHeapDump_nopid() throws Exception {
injectShellResponse("pidof system_server", "\n");
EasyMock.replay(mMockIDevice, mMockRunUtil);
File res = mTestDevice.dumpHeap("system_server", "/data/dump.hprof");
assertNull(res);
EasyMock.verify(mMockIDevice, mMockRunUtil);
}
public void testGetHeapDump_nullPath() throws DeviceNotAvailableException {
try {
mTestDevice.dumpHeap("system_server", null);
fail("Should have thrown an exception");
} catch (IllegalArgumentException expected) {
// expected
}
}
public void testGetHeapDump_emptyPath() throws DeviceNotAvailableException {
try {
mTestDevice.dumpHeap("system_server", "");
fail("Should have thrown an exception");
} catch (IllegalArgumentException expected) {
// expected
}
}
public void testGetHeapDump_nullService() throws DeviceNotAvailableException {
try {
mTestDevice.dumpHeap(null, "/data/hprof");
fail("Should have thrown an exception");
} catch (IllegalArgumentException expected) {
// expected
}
}
public void testGetHeapDump_emptyService() throws DeviceNotAvailableException {
try {
mTestDevice.dumpHeap("", "/data/hprof");
fail("Should have thrown an exception");
} catch (IllegalArgumentException expected) {
// expected
}
}
/**
* Test that the wifi helper is uninstalled at postInvocationTearDown if it was installed
* before.
*/
public void testPostInvocationWifiTearDown() throws Exception {
// A TestDevice with a no-op recoverDevice() implementation
mTestDevice =
new TestableTestDevice() {
@Override
public void recoverDevice() throws DeviceNotAvailableException {
// ignore
}
@Override
public String installPackage(
File packageFile, boolean reinstall, String... extraArgs)
throws DeviceNotAvailableException {
// Fake install is successfull
return null;
}
@Override
IWifiHelper createWifiHelper() throws DeviceNotAvailableException {
super.createWifiHelper();
return mMockWifi;
}
@Override
IWifiHelper createWifiHelper(boolean doSetup)
throws DeviceNotAvailableException {
return mMockWifi;
}
};
mMockIDevice.executeShellCommand(
EasyMock.eq("dumpsys package com.android.tradefed.utils.wifi"),
EasyMock.anyObject(),
EasyMock.anyLong(),
EasyMock.anyObject());
EasyMock.expect(mMockWifi.getIpAddress()).andReturn("ip");
// Wifi is cleaned up by the post invocation tear down.
mMockWifi.cleanUp();
replayMocks();
mTestDevice.getIpAddress();
mTestDevice.postInvocationTearDown();
verifyMocks();
}
}