/* * Copyright (C) 2014 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 android.jobscheduler; import android.annotation.TargetApi; import android.app.job.JobInfo; import android.app.job.JobParameters; import android.app.job.JobScheduler; import android.app.job.JobService; import android.app.job.JobWorkItem; import android.content.ClipData; import android.content.Context; import android.content.Intent; import android.content.pm.PackageManager; import android.net.Uri; import android.os.Process; import android.util.Log; import junit.framework.Assert; import java.util.ArrayList; import java.util.concurrent.CountDownLatch; import java.util.concurrent.TimeUnit; /** * Handles callback from the framework {@link android.app.job.JobScheduler}. The behaviour of this * class is configured through the static * {@link TestEnvironment}. */ @TargetApi(21) public class MockJobService extends JobService { private static final String TAG = "MockJobService"; /** Wait this long before timing out the test. */ private static final long DEFAULT_TIMEOUT_MILLIS = 30000L; // 30 seconds. private JobParameters mParams; ArrayList mReceivedWork = new ArrayList<>(); private boolean mWaitingForStop; @Override public void onDestroy() { super.onDestroy(); Log.i(TAG, "Destroying test service"); if (TestEnvironment.getTestEnvironment().getExpectedWork() != null) { TestEnvironment.getTestEnvironment().notifyExecution(mParams, 0, 0, mReceivedWork, null); } } @Override public void onCreate() { super.onCreate(); Log.i(TAG, "Created test service."); } @Override public boolean onStartJob(JobParameters params) { Log.i(TAG, "Test job executing: " + params.getJobId()); mParams = params; int permCheckRead = PackageManager.PERMISSION_DENIED; int permCheckWrite = PackageManager.PERMISSION_DENIED; ClipData clip = params.getClipData(); if (clip != null) { permCheckRead = checkUriPermission(clip.getItemAt(0).getUri(), Process.myPid(), Process.myUid(), Intent.FLAG_GRANT_READ_URI_PERMISSION); permCheckWrite = checkUriPermission(clip.getItemAt(0).getUri(), Process.myPid(), Process.myUid(), Intent.FLAG_GRANT_WRITE_URI_PERMISSION); } TestWorkItem[] expectedWork = TestEnvironment.getTestEnvironment().getExpectedWork(); if (expectedWork != null) { try { if (!TestEnvironment.getTestEnvironment().awaitDoWork()) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Spent too long waiting to start executing work"); return false; } } catch (InterruptedException e) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Failed waiting for work: " + e); return false; } JobWorkItem work; int index = 0; while ((work = params.dequeueWork()) != null) { Log.i(TAG, "Received work #" + index + ": " + work.getIntent()); mReceivedWork.add(work); if (index < expectedWork.length) { TestWorkItem expected = expectedWork[index]; int grantFlags = work.getIntent().getFlags(); if (expected.requireUrisGranted != null) { for (int ui = 0; ui < expected.requireUrisGranted.length; ui++) { if ((grantFlags & Intent.FLAG_GRANT_READ_URI_PERMISSION) != 0) { if (checkUriPermission(expected.requireUrisGranted[ui], Process.myPid(), Process.myUid(), Intent.FLAG_GRANT_READ_URI_PERMISSION) != PackageManager.PERMISSION_GRANTED) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Expected read permission but not granted: " + expected.requireUrisGranted[ui] + " @ #" + index); return false; } } if ((grantFlags & Intent.FLAG_GRANT_WRITE_URI_PERMISSION) != 0) { if (checkUriPermission(expected.requireUrisGranted[ui], Process.myPid(), Process.myUid(), Intent.FLAG_GRANT_WRITE_URI_PERMISSION) != PackageManager.PERMISSION_GRANTED) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Expected write permission but not granted: " + expected.requireUrisGranted[ui] + " @ #" + index); return false; } } } } if (expected.requireUrisNotGranted != null) { // XXX note no delay here, current impl will have fully revoked the // permission by the time we return from completing the last work. for (int ui = 0; ui < expected.requireUrisNotGranted.length; ui++) { if ((grantFlags & Intent.FLAG_GRANT_READ_URI_PERMISSION) != 0) { if (checkUriPermission(expected.requireUrisNotGranted[ui], Process.myPid(), Process.myUid(), Intent.FLAG_GRANT_READ_URI_PERMISSION) != PackageManager.PERMISSION_DENIED) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Not expected read permission but granted: " + expected.requireUrisNotGranted[ui] + " @ #" + index); return false; } } if ((grantFlags & Intent.FLAG_GRANT_WRITE_URI_PERMISSION) != 0) { if (checkUriPermission(expected.requireUrisNotGranted[ui], Process.myPid(), Process.myUid(), Intent.FLAG_GRANT_WRITE_URI_PERMISSION) != PackageManager.PERMISSION_DENIED) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Not expected write permission but granted: " + expected.requireUrisNotGranted[ui] + " @ #" + index); return false; } } } } if ((expected.flags & TestWorkItem.FLAG_WAIT_FOR_STOP) != 0) { Log.i(TAG, "Now waiting to stop"); mWaitingForStop = true; TestEnvironment.getTestEnvironment().notifyWaitingForStop(); return true; } } mParams.completeWork(work); if (index < expectedWork.length) { TestWorkItem expected = expectedWork[index]; if (expected.subitems != null) { final TestWorkItem[] sub = expected.subitems; final JobInfo ji = expected.jobInfo; final JobScheduler js = (JobScheduler) getSystemService( Context.JOB_SCHEDULER_SERVICE); for (int subi = 0; subi < sub.length; subi++) { js.enqueue(ji, new JobWorkItem(sub[subi].intent)); } } } index++; } Log.i(TAG, "Done with all work at #" + index); // We don't notifyExecution here because we want to make sure the job properly // stops itself. return true; } else { boolean continueAfterStart = TestEnvironment.getTestEnvironment().handleContinueAfterStart(); try { if (!TestEnvironment.getTestEnvironment().awaitDoJob()) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Spent too long waiting to start job"); return false; } } catch (InterruptedException e) { TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, "Failed waiting to start job: " + e); return false; } TestEnvironment.getTestEnvironment().notifyExecution(params, permCheckRead, permCheckWrite, null, null); return continueAfterStart; } } @Override public boolean onStopJob(JobParameters params) { Log.i(TAG, "Received stop callback"); TestEnvironment.getTestEnvironment().notifyStopped(); return mWaitingForStop; } public static final class TestWorkItem { public static final int FLAG_WAIT_FOR_STOP = 1<<0; public final Intent intent; public final JobInfo jobInfo; public final int flags; public final int deliveryCount; public final TestWorkItem[] subitems; public final Uri[] requireUrisGranted; public final Uri[] requireUrisNotGranted; public TestWorkItem(Intent _intent) { intent = _intent; jobInfo = null; flags = 0; deliveryCount = 1; subitems = null; requireUrisGranted = null; requireUrisNotGranted = null; } public TestWorkItem(Intent _intent, int _flags, int _deliveryCount) { intent = _intent; jobInfo = null; flags = _flags; deliveryCount = _deliveryCount; subitems = null; requireUrisGranted = null; requireUrisNotGranted = null; } public TestWorkItem(Intent _intent, JobInfo _jobInfo, TestWorkItem[] _subitems) { intent = _intent; jobInfo = _jobInfo; flags = 0; deliveryCount = 1; subitems = _subitems; requireUrisGranted = null; requireUrisNotGranted = null; } public TestWorkItem(Intent _intent, Uri[] _requireUrisGranted, Uri[] _requireUrisNotGranted) { intent = _intent; jobInfo = null; flags = 0; deliveryCount = 1; subitems = null; requireUrisGranted = _requireUrisGranted; requireUrisNotGranted = _requireUrisNotGranted; } @Override public String toString() { return "TestWorkItem { " + intent + " dc=" + deliveryCount + " }"; } } /** * Configures the expected behaviour for each test. This object is shared across consecutive * tests, so to clear state each test is responsible for calling * {@link TestEnvironment#setUp()}. */ public static final class TestEnvironment { private static TestEnvironment kTestEnvironment; //public static final int INVALID_JOB_ID = -1; private CountDownLatch mLatch; private CountDownLatch mWaitingForStopLatch; private CountDownLatch mDoJobLatch; private CountDownLatch mStoppedLatch; private CountDownLatch mDoWorkLatch; private TestWorkItem[] mExpectedWork; private boolean mContinueAfterStart; private JobParameters mExecutedJobParameters; private int mExecutedPermCheckRead; private int mExecutedPermCheckWrite; private ArrayList mExecutedReceivedWork; private String mExecutedErrorMessage; public static TestEnvironment getTestEnvironment() { if (kTestEnvironment == null) { kTestEnvironment = new TestEnvironment(); } return kTestEnvironment; } public TestWorkItem[] getExpectedWork() { return mExpectedWork; } public JobParameters getLastJobParameters() { return mExecutedJobParameters; } public int getLastPermCheckRead() { return mExecutedPermCheckRead; } public int getLastPermCheckWrite() { return mExecutedPermCheckWrite; } public ArrayList getLastReceivedWork() { return mExecutedReceivedWork; } public String getLastErrorMessage() { return mExecutedErrorMessage; } /** * Block the test thread, waiting on the JobScheduler to execute some previously scheduled * job on this service. */ public boolean awaitExecution() throws InterruptedException { return awaitExecution(DEFAULT_TIMEOUT_MILLIS); } public boolean awaitExecution(long timeoutMillis) throws InterruptedException { final boolean executed = mLatch.await(timeoutMillis, TimeUnit.MILLISECONDS); if (getLastErrorMessage() != null) { Assert.fail(getLastErrorMessage()); } return executed; } /** * Block the test thread, expecting to timeout but still listening to ensure that no jobs * land in the interim. * @return True if the latch timed out waiting on an execution. */ public boolean awaitTimeout() throws InterruptedException { return awaitTimeout(DEFAULT_TIMEOUT_MILLIS); } public boolean awaitTimeout(long timeoutMillis) throws InterruptedException { return !mLatch.await(timeoutMillis, TimeUnit.MILLISECONDS); } public boolean awaitWaitingForStop() throws InterruptedException { return mWaitingForStopLatch.await(DEFAULT_TIMEOUT_MILLIS, TimeUnit.MILLISECONDS); } public boolean awaitDoWork() throws InterruptedException { return mDoWorkLatch.await(DEFAULT_TIMEOUT_MILLIS, TimeUnit.MILLISECONDS); } public boolean awaitDoJob() throws InterruptedException { if (mDoJobLatch == null) { return true; } return mDoJobLatch.await(DEFAULT_TIMEOUT_MILLIS, TimeUnit.MILLISECONDS); } public boolean awaitStopped() throws InterruptedException { return mStoppedLatch.await(DEFAULT_TIMEOUT_MILLIS, TimeUnit.MILLISECONDS); } private void notifyExecution(JobParameters params, int permCheckRead, int permCheckWrite, ArrayList receivedWork, String errorMsg) { //Log.d(TAG, "Job executed:" + params.getJobId()); mExecutedJobParameters = params; mExecutedPermCheckRead = permCheckRead; mExecutedPermCheckWrite = permCheckWrite; mExecutedReceivedWork = receivedWork; mExecutedErrorMessage = errorMsg; mLatch.countDown(); } private void notifyWaitingForStop() { mWaitingForStopLatch.countDown(); } private void notifyStopped() { if (mStoppedLatch != null) { mStoppedLatch.countDown(); } } public void setExpectedExecutions(int numExecutions) { // For no executions expected, set count to 1 so we can still block for the timeout. if (numExecutions == 0) { mLatch = new CountDownLatch(1); } else { mLatch = new CountDownLatch(numExecutions); } mWaitingForStopLatch = null; mDoJobLatch = null; mStoppedLatch = null; mDoWorkLatch = null; mExpectedWork = null; mContinueAfterStart = false; } public void setExpectedWaitForStop() { mWaitingForStopLatch = new CountDownLatch(1); } public void setExpectedWork(TestWorkItem[] work) { mExpectedWork = work; mDoWorkLatch = new CountDownLatch(1); } public void setExpectedStopped() { mStoppedLatch = new CountDownLatch(1); } public void readyToWork() { mDoWorkLatch.countDown(); } public void setExpectedWaitForRun() { mDoJobLatch = new CountDownLatch(1); } public void readyToRun() { mDoJobLatch.countDown(); } public void setContinueAfterStart() { mContinueAfterStart = true; } public boolean handleContinueAfterStart() { boolean res = mContinueAfterStart; mContinueAfterStart = false; return res; } /** Called in each testCase#setup */ public void setUp() { mLatch = null; mExecutedJobParameters = null; } } }