am 8ec526e4: am adb591e7: Merge "Revert "ResearchLogging capture full n-gram data"" into jb-mr1-dev

* commit '8ec526e43d74b5b0603c18b0b3430bf91942d20c':
  Revert "ResearchLogging capture full n-gram data"
main
Kurt Partridge 2012-08-20 10:22:46 -07:00 committed by Android Git Automerger
commit 71f6d6c516
10 changed files with 492 additions and 629 deletions

View File

@ -261,8 +261,7 @@
<string name="research_feedback_dialog_title" translatable="false">Send feedback</string>
<!-- Text for checkbox option to include user data in feedback for research purposes [CHAR LIMIT=50] -->
<!-- TODO: remove translatable=false attribute once text is stable -->
<!-- TODO: handle multilingual plurals -->
<string name="research_feedback_include_history_label" translatable="false">Include last <xliff:g id="word">%d</xliff:g> words entered</string>
<string name="research_feedback_include_history_label" translatable="false">Include last 5 words entered</string>
<!-- Hint to user about the text entry field where they should enter research feedback [CHAR LIMIT=40] -->
<!-- TODO: remove translatable=false attribute once text is stable -->
<string name="research_feedback_hint" translatable="false">Enter your feedback here.</string>

View File

@ -1247,6 +1247,11 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen
}
mLastKeyTime = when;
mConnection.beginBatchEdit();
if (ProductionFlag.IS_EXPERIMENTAL) {
ResearchLogger.latinIME_onCodeInput(primaryCode, x, y);
}
final KeyboardSwitcher switcher = mKeyboardSwitcher;
// The space state depends only on the last character pressed and its own previous
// state. Here, we revert the space state to neutral if the key is actually modifying
@ -1328,9 +1333,6 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen
mLastComposedWord.deactivate();
mEnteredText = null;
mConnection.endBatchEdit();
if (ProductionFlag.IS_EXPERIMENTAL) {
ResearchLogger.latinIME_onCodeInput(primaryCode, x, y);
}
}
// Called from PointerTracker through the KeyboardActionListener interface

View File

@ -18,7 +18,10 @@ package com.android.inputmethod.research;
import android.app.Activity;
import android.os.Bundle;
import android.text.Editable;
import android.view.View;
import android.widget.CheckBox;
import android.widget.EditText;
import com.android.inputmethod.latin.R;
@ -28,11 +31,6 @@ public class FeedbackActivity extends Activity {
super.onCreate(savedInstanceState);
setContentView(R.layout.research_feedback_activity);
final FeedbackLayout layout = (FeedbackLayout) findViewById(R.id.research_feedback_layout);
final CheckBox checkbox = (CheckBox) findViewById(R.id.research_feedback_include_history);
final CharSequence cs = checkbox.getText();
final String actualString = String.format(cs.toString(),
ResearchLogger.FEEDBACK_WORD_BUFFER_SIZE);
checkbox.setText(actualString);
layout.setActivity(this);
}

View File

@ -1,111 +0,0 @@
/*
* Copyright (C) 2012 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.inputmethod.research;
import java.util.LinkedList;
/**
* A buffer that holds a fixed number of LogUnits.
*
* LogUnits are added in and shifted out in temporal order. Only a subset of the LogUnits are
* actual words; the other LogUnits do not count toward the word limit. Once the buffer reaches
* capacity, adding another LogUnit that is a word evicts the oldest LogUnits out one at a time to
* stay under the capacity limit.
*/
public class LogBuffer {
protected final LinkedList<LogUnit> mLogUnits;
/* package for test */ int mWordCapacity;
// The number of members of mLogUnits that are actual words.
protected int mNumActualWords;
/**
* Create a new LogBuffer that can hold a fixed number of LogUnits that are words (and
* unlimited number of non-word LogUnits), and that outputs its result to a researchLog.
*
* @param wordCapacity maximum number of words
*/
LogBuffer(final int wordCapacity) {
if (wordCapacity <= 0) {
throw new IllegalArgumentException("wordCapacity must be 1 or greater.");
}
mLogUnits = new LinkedList<LogUnit>();
mWordCapacity = wordCapacity;
mNumActualWords = 0;
}
/**
* Adds a new LogUnit to the front of the LIFO queue, evicting existing LogUnit's
* (oldest first) if word capacity is reached.
*/
public void shiftIn(LogUnit newLogUnit) {
if (newLogUnit.getWord() == null) {
// This LogUnit isn't a word, so it doesn't count toward the word-limit.
mLogUnits.add(newLogUnit);
return;
}
if (mNumActualWords == mWordCapacity) {
shiftOutThroughFirstWord();
}
mLogUnits.add(newLogUnit);
mNumActualWords++; // Must be a word, or we wouldn't be here.
}
private void shiftOutThroughFirstWord() {
while (!mLogUnits.isEmpty()) {
final LogUnit logUnit = mLogUnits.removeFirst();
onShiftOut(logUnit);
if (logUnit.hasWord()) {
// Successfully shifted out a word-containing LogUnit and made space for the new
// LogUnit.
mNumActualWords--;
break;
}
}
}
/**
* Removes all LogUnits from the buffer without calling onShiftOut().
*/
public void clear() {
mLogUnits.clear();
mNumActualWords = 0;
}
/**
* Called when a LogUnit is removed from the LogBuffer as a result of a shiftIn. LogUnits are
* removed in the order entered. This method is not called when shiftOut is called directly.
*
* Base class does nothing; subclasses may override.
*/
protected void onShiftOut(LogUnit logUnit) {
}
/**
* Called to deliberately remove the oldest LogUnit. Usually called when draining the
* LogBuffer.
*/
public LogUnit shiftOut() {
if (mLogUnits.isEmpty()) {
return null;
}
final LogUnit logUnit = mLogUnits.removeFirst();
if (logUnit.hasWord()) {
mNumActualWords--;
}
return logUnit;
}
}

View File

@ -1,81 +0,0 @@
/*
* Copyright (C) 2012 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.inputmethod.research;
import java.util.ArrayList;
/**
* A group of log statements related to each other.
*
* A LogUnit is collection of LogStatements, each of which is generated by at a particular point
* in the code. (There is no LogStatement class; the data is stored across the instance variables
* here.) A single LogUnit's statements can correspond to all the calls made while in the same
* composing region, or all the calls between committing the last composing region, and the first
* character of the next composing region.
*
* Individual statements in a log may be marked as potentially private. If so, then they are only
* published to a ResearchLog if the ResearchLogger determines that publishing the entire LogUnit
* will not violate the user's privacy. Checks for this may include whether other LogUnits have
* been published recently, or whether the LogUnit contains numbers, etc.
*/
/* package */ class LogUnit {
private final ArrayList<String[]> mKeysList = new ArrayList<String[]>();
private final ArrayList<Object[]> mValuesList = new ArrayList<Object[]>();
private final ArrayList<Boolean> mIsPotentiallyPrivate = new ArrayList<Boolean>();
private String mWord;
private boolean mContainsDigit;
public void addLogStatement(final String[] keys, final Object[] values,
final Boolean isPotentiallyPrivate) {
mKeysList.add(keys);
mValuesList.add(values);
mIsPotentiallyPrivate.add(isPotentiallyPrivate);
}
public void publishTo(final ResearchLog researchLog, final boolean isIncludingPrivateData) {
final int size = mKeysList.size();
for (int i = 0; i < size; i++) {
if (!mIsPotentiallyPrivate.get(i) || isIncludingPrivateData) {
researchLog.outputEvent(mKeysList.get(i), mValuesList.get(i));
}
}
}
public void setWord(String word) {
mWord = word;
}
public String getWord() {
return mWord;
}
public boolean hasWord() {
return mWord != null;
}
public void setContainsDigit() {
mContainsDigit = true;
}
public boolean hasDigit() {
return mContainsDigit;
}
public boolean isEmpty() {
return mKeysList.isEmpty();
}
}

View File

@ -1,127 +0,0 @@
/*
* Copyright (C) 2012 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.inputmethod.research;
import com.android.inputmethod.latin.Dictionary;
import com.android.inputmethod.latin.Suggest;
import java.util.Random;
public class MainLogBuffer extends LogBuffer {
// The size of the n-grams logged. E.g. N_GRAM_SIZE = 2 means to sample bigrams.
private static final int N_GRAM_SIZE = 2;
// The number of words between n-grams to omit from the log.
private static final int DEFAULT_NUMBER_OF_WORDS_BETWEEN_SAMPLES = 18;
private final ResearchLog mResearchLog;
private Suggest mSuggest;
// The minimum periodicity with which n-grams can be sampled. E.g. mWinWordPeriod is 10 if
// every 10th bigram is sampled, i.e., words 1-8 are not, but the bigram at words 9 and 10, etc.
// for 11-18, and the bigram at words 19 and 20. If an n-gram is not safe (e.g. it contains a
// number in the middle or an out-of-vocabulary word), then sampling is delayed until a safe
// n-gram does appear.
/* package for test */ int mMinWordPeriod;
// Counter for words left to suppress before an n-gram can be sampled. Reset to mMinWordPeriod
// after a sample is taken.
/* package for test */ int mWordsUntilSafeToSample;
public MainLogBuffer(final ResearchLog researchLog) {
super(N_GRAM_SIZE);
mResearchLog = researchLog;
mMinWordPeriod = DEFAULT_NUMBER_OF_WORDS_BETWEEN_SAMPLES + N_GRAM_SIZE;
final Random random = new Random();
mWordsUntilSafeToSample = random.nextInt(mMinWordPeriod);
}
public void setSuggest(Suggest suggest) {
mSuggest = suggest;
}
@Override
public void shiftIn(final LogUnit newLogUnit) {
super.shiftIn(newLogUnit);
if (newLogUnit.hasWord()) {
if (mWordsUntilSafeToSample > 0) {
mWordsUntilSafeToSample--;
}
}
}
public void resetWordCounter() {
mWordsUntilSafeToSample = mMinWordPeriod;
}
/**
* Determines whether the content of the MainLogBuffer can be safely uploaded in its complete
* form and still protect the user's privacy.
*
* The size of the MainLogBuffer is just enough to hold one n-gram, its corrections, and any
* non-character data that is typed between words. The decision about privacy is made based on
* the buffer's entire content. If it is decided that the privacy risks are too great to upload
* the contents of this buffer, a censored version of the LogItems may still be uploaded. E.g.,
* the screen orientation and other characteristics about the device can be uploaded without
* revealing much about the user.
*/
public boolean isSafeToLog() {
// Check that we are not sampling too frequently. Having sampled recently might disclose
// too much of the user's intended meaning.
if (mWordsUntilSafeToSample > 0) {
return false;
}
if (mSuggest == null || !mSuggest.hasMainDictionary()) {
// Main dictionary is unavailable. Since we cannot check it, we cannot tell if a word
// is out-of-vocabulary or not. Therefore, we must judge the entire buffer contents to
// potentially pose a privacy risk.
return false;
}
// Reload the dictionary in case it has changed (e.g., because the user has changed
// languages).
final Dictionary dictionary = mSuggest.getMainDictionary();
if (dictionary == null) {
return false;
}
// Check each word in the buffer. If any word poses a privacy threat, we cannot upload the
// complete buffer contents in detail.
final int length = mLogUnits.size();
for (int i = 0; i < length; i++) {
final LogUnit logUnit = mLogUnits.get(i);
final String word = logUnit.getWord();
if (word == null) {
// Digits outside words are a privacy threat.
if (logUnit.hasDigit()) {
return false;
}
} else {
// Words not in the dictionary are a privacy threat.
if (!(dictionary.isValidWord(word))) {
return false;
}
}
}
// All checks have passed; this buffer's content can be safely uploaded.
return true;
}
@Override
protected void onShiftOut(LogUnit logUnit) {
if (mResearchLog != null) {
mResearchLog.publish(logUnit, false /* isIncludingPrivateData */);
}
}
}

View File

@ -26,6 +26,7 @@ import com.android.inputmethod.keyboard.Key;
import com.android.inputmethod.latin.SuggestedWords;
import com.android.inputmethod.latin.SuggestedWords.SuggestedWordInfo;
import com.android.inputmethod.latin.define.ProductionFlag;
import com.android.inputmethod.research.ResearchLogger.LogUnit;
import java.io.BufferedWriter;
import java.io.File;
@ -36,7 +37,6 @@ import java.io.OutputStreamWriter;
import java.util.Map;
import java.util.concurrent.Callable;
import java.util.concurrent.Executors;
import java.util.concurrent.RejectedExecutionException;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
@ -51,22 +51,21 @@ import java.util.concurrent.TimeUnit;
*/
public class ResearchLog {
private static final String TAG = ResearchLog.class.getSimpleName();
private static final boolean DEBUG = false;
private static final long FLUSH_DELAY_IN_MS = 1000 * 5;
private static final int ABORT_TIMEOUT_IN_MS = 1000 * 4;
/* package */ final ScheduledExecutorService mExecutor;
/* package */ final File mFile;
private JsonWriter mJsonWriter = NULL_JSON_WRITER;
// true if at least one byte of data has been written out to the log file. This must be
// remembered because JsonWriter requires that calls matching calls to beginObject and
// endObject, as well as beginArray and endArray, and the file is opened lazily, only when
// it is certain that data will be written. Alternatively, the matching call exceptions
// could be caught, but this might suppress other errors.
private boolean mHasWrittenData = false;
private static final JsonWriter NULL_JSON_WRITER = new JsonWriter(
new OutputStreamWriter(new NullOutputStream()));
final ScheduledExecutorService mExecutor;
/* package */ final File mFile;
private JsonWriter mJsonWriter = NULL_JSON_WRITER;
private int mLoggingState;
private static final int LOGGING_STATE_UNSTARTED = 0;
private static final int LOGGING_STATE_READY = 1; // don't create file until necessary
private static final int LOGGING_STATE_RUNNING = 2;
private static final int LOGGING_STATE_STOPPING = 3;
private static final int LOGGING_STATE_STOPPED = 4;
private static final long FLUSH_DELAY_IN_MS = 1000 * 5;
private static class NullOutputStream extends OutputStream {
/** {@inheritDoc} */
@Override
@ -85,81 +84,128 @@ public class ResearchLog {
}
}
public ResearchLog(final File outputFile) {
public ResearchLog(File outputFile) {
mExecutor = Executors.newSingleThreadScheduledExecutor();
if (outputFile == null) {
throw new IllegalArgumentException();
}
mExecutor = Executors.newSingleThreadScheduledExecutor();
mFile = outputFile;
mLoggingState = LOGGING_STATE_UNSTARTED;
}
public synchronized void close() {
public synchronized void start() throws IOException {
switch (mLoggingState) {
case LOGGING_STATE_UNSTARTED:
mLoggingState = LOGGING_STATE_READY;
break;
case LOGGING_STATE_READY:
case LOGGING_STATE_RUNNING:
case LOGGING_STATE_STOPPING:
case LOGGING_STATE_STOPPED:
break;
}
}
public synchronized void stop() {
switch (mLoggingState) {
case LOGGING_STATE_UNSTARTED:
mLoggingState = LOGGING_STATE_STOPPED;
break;
case LOGGING_STATE_READY:
case LOGGING_STATE_RUNNING:
mExecutor.submit(new Callable<Object>() {
@Override
public Object call() throws Exception {
try {
if (mHasWrittenData) {
mJsonWriter.endArray();
mJsonWriter.flush();
mJsonWriter.close();
mHasWrittenData = false;
}
} catch (Exception e) {
Log.d(TAG, "error when closing ResearchLog:");
e.printStackTrace();
} finally {
if (mFile.exists()) {
mFile.setWritable(false, false);
}
boolean success = mFile.setWritable(false, false);
mLoggingState = LOGGING_STATE_STOPPED;
}
return null;
}
});
removeAnyScheduledFlush();
mExecutor.shutdown();
mLoggingState = LOGGING_STATE_STOPPING;
break;
case LOGGING_STATE_STOPPING:
case LOGGING_STATE_STOPPED:
}
}
private boolean mIsAbortSuccessful;
public boolean isAlive() {
switch (mLoggingState) {
case LOGGING_STATE_UNSTARTED:
case LOGGING_STATE_READY:
case LOGGING_STATE_RUNNING:
return true;
}
return false;
}
public void waitUntilStopped(final int timeoutInMs) throws InterruptedException {
removeAnyScheduledFlush();
mExecutor.shutdown();
mExecutor.awaitTermination(timeoutInMs, TimeUnit.MILLISECONDS);
}
public synchronized void abort() {
switch (mLoggingState) {
case LOGGING_STATE_UNSTARTED:
mLoggingState = LOGGING_STATE_STOPPED;
isAbortSuccessful = true;
break;
case LOGGING_STATE_READY:
case LOGGING_STATE_RUNNING:
mExecutor.submit(new Callable<Object>() {
@Override
public Object call() throws Exception {
try {
if (mHasWrittenData) {
mJsonWriter.endArray();
mJsonWriter.close();
mHasWrittenData = false;
}
} finally {
mIsAbortSuccessful = mFile.delete();
isAbortSuccessful = mFile.delete();
}
return null;
}
});
removeAnyScheduledFlush();
mExecutor.shutdown();
mLoggingState = LOGGING_STATE_STOPPING;
break;
case LOGGING_STATE_STOPPING:
case LOGGING_STATE_STOPPED:
}
}
public boolean blockingAbort() throws InterruptedException {
abort();
mExecutor.awaitTermination(ABORT_TIMEOUT_IN_MS, TimeUnit.MILLISECONDS);
return mIsAbortSuccessful;
}
public void awaitTermination(int delay, TimeUnit timeUnit) throws InterruptedException {
mExecutor.awaitTermination(delay, timeUnit);
private boolean isAbortSuccessful;
public boolean isAbortSuccessful() {
return isAbortSuccessful;
}
/* package */ synchronized void flush() {
switch (mLoggingState) {
case LOGGING_STATE_UNSTARTED:
break;
case LOGGING_STATE_READY:
case LOGGING_STATE_RUNNING:
removeAnyScheduledFlush();
mExecutor.submit(mFlushCallable);
break;
case LOGGING_STATE_STOPPING:
case LOGGING_STATE_STOPPED:
}
}
private final Callable<Object> mFlushCallable = new Callable<Object>() {
private Callable<Object> mFlushCallable = new Callable<Object>() {
@Override
public Object call() throws Exception {
if (mLoggingState == LOGGING_STATE_RUNNING) {
mJsonWriter.flush();
}
return null;
}
};
@ -178,40 +224,56 @@ public class ResearchLog {
mFlushFuture = mExecutor.schedule(mFlushCallable, FLUSH_DELAY_IN_MS, TimeUnit.MILLISECONDS);
}
public synchronized void publish(final LogUnit logUnit, final boolean isIncludingPrivateData) {
try {
public synchronized void publishPublicEvents(final LogUnit logUnit) {
switch (mLoggingState) {
case LOGGING_STATE_UNSTARTED:
break;
case LOGGING_STATE_READY:
case LOGGING_STATE_RUNNING:
mExecutor.submit(new Callable<Object>() {
@Override
public Object call() throws Exception {
logUnit.publishTo(ResearchLog.this, isIncludingPrivateData);
logUnit.publishPublicEventsTo(ResearchLog.this);
scheduleFlush();
return null;
}
});
} catch (RejectedExecutionException e) {
// TODO: Add code to record loss of data, and report.
break;
case LOGGING_STATE_STOPPING:
case LOGGING_STATE_STOPPED:
}
}
public synchronized void publishAllEvents(final LogUnit logUnit) {
switch (mLoggingState) {
case LOGGING_STATE_UNSTARTED:
break;
case LOGGING_STATE_READY:
case LOGGING_STATE_RUNNING:
mExecutor.submit(new Callable<Object>() {
@Override
public Object call() throws Exception {
logUnit.publishAllEventsTo(ResearchLog.this);
scheduleFlush();
return null;
}
});
break;
case LOGGING_STATE_STOPPING:
case LOGGING_STATE_STOPPED:
}
}
private static final String CURRENT_TIME_KEY = "_ct";
private static final String UPTIME_KEY = "_ut";
private static final String EVENT_TYPE_KEY = "_ty";
void outputEvent(final String[] keys, final Object[] values) {
// Not thread safe.
if (keys.length == 0) {
return;
}
if (DEBUG) {
if (keys.length != values.length + 1) {
Log.d(TAG, "Key and Value list sizes do not match. " + keys[0]);
}
}
// not thread safe.
try {
if (mJsonWriter == NULL_JSON_WRITER) {
mJsonWriter = new JsonWriter(new BufferedWriter(new FileWriter(mFile)));
mJsonWriter.setLenient(true);
mJsonWriter.beginArray();
mHasWrittenData = true;
}
mJsonWriter.beginObject();
mJsonWriter.name(CURRENT_TIME_KEY).value(System.currentTimeMillis());
@ -221,8 +283,8 @@ public class ResearchLog {
for (int i = 0; i < length; i++) {
mJsonWriter.name(keys[i + 1]);
Object value = values[i];
if (value instanceof CharSequence) {
mJsonWriter.value(value.toString());
if (value instanceof String) {
mJsonWriter.value((String) value);
} else if (value instanceof Number) {
mJsonWriter.value((Number) value);
} else if (value instanceof Boolean) {
@ -269,11 +331,14 @@ public class ResearchLog {
SuggestedWords words = (SuggestedWords) value;
mJsonWriter.beginObject();
mJsonWriter.name("typedWordValid").value(words.mTypedWordValid);
mJsonWriter.name("willAutoCorrect").value(words.mWillAutoCorrect);
mJsonWriter.name("willAutoCorrect")
.value(words.mWillAutoCorrect);
mJsonWriter.name("isPunctuationSuggestions")
.value(words.mIsPunctuationSuggestions);
mJsonWriter.name("isObsoleteSuggestions").value(words.mIsObsoleteSuggestions);
mJsonWriter.name("isPrediction").value(words.mIsPrediction);
mJsonWriter.name("isObsoleteSuggestions")
.value(words.mIsObsoleteSuggestions);
mJsonWriter.name("isPrediction")
.value(words.mIsPrediction);
mJsonWriter.name("words");
mJsonWriter.beginArray();
final int size = words.size();
@ -298,8 +363,8 @@ public class ResearchLog {
try {
mJsonWriter.close();
} catch (IllegalStateException e1) {
// Assume that this is just the json not being terminated properly.
// Ignore
// assume that this is just the json not being terminated properly.
// ignore
} catch (IOException e1) {
e1.printStackTrace();
} finally {

View File

@ -27,6 +27,7 @@ import android.os.BatteryManager;
import android.util.Log;
import com.android.inputmethod.latin.R;
import com.android.inputmethod.latin.R.string;
import java.io.BufferedReader;
import java.io.File;
@ -47,7 +48,6 @@ public final class ResearchLogUploader {
private static final String TAG = ResearchLogUploader.class.getSimpleName();
private static final int UPLOAD_INTERVAL_IN_MS = 1000 * 60 * 15; // every 15 min
private static final int BUF_SIZE = 1024 * 8;
protected static final int TIMEOUT_IN_MS = 1000 * 4;
private final boolean mCanUpload;
private final Context mContext;
@ -55,6 +55,8 @@ public final class ResearchLogUploader {
private final URL mUrl;
private final ScheduledExecutorService mExecutor;
private Runnable doUploadRunnable = new UploadRunnable(null, false);
public ResearchLogUploader(final Context context, final File filesDir) {
mContext = context;
mFilesDir = filesDir;
@ -91,15 +93,11 @@ public final class ResearchLogUploader {
public void start() {
if (mCanUpload) {
mExecutor.scheduleWithFixedDelay(new UploadRunnable(null /* logToWaitFor */,
null /* callback */, false /* forceUpload */),
UPLOAD_INTERVAL_IN_MS, UPLOAD_INTERVAL_IN_MS, TimeUnit.MILLISECONDS);
}
}
public void uploadAfterCompletion(final ResearchLog researchLog, final Callback callback) {
if (mCanUpload) {
mExecutor.submit(new UploadRunnable(researchLog, callback, true /* forceUpload */));
Log.d(TAG, "scheduling regular uploading");
mExecutor.scheduleWithFixedDelay(doUploadRunnable, UPLOAD_INTERVAL_IN_MS,
UPLOAD_INTERVAL_IN_MS, TimeUnit.MILLISECONDS);
} else {
Log.d(TAG, "no permission to upload");
}
}
@ -108,8 +106,7 @@ public final class ResearchLogUploader {
// another upload happening right now, as it may have missed the latest changes.
// TODO: Reschedule regular upload tests starting from now.
if (mCanUpload) {
mExecutor.submit(new UploadRunnable(null /* logToWaitFor */, callback,
true /* forceUpload */));
mExecutor.submit(new UploadRunnable(callback, true));
}
}
@ -133,33 +130,19 @@ public final class ResearchLogUploader {
}
class UploadRunnable implements Runnable {
private final ResearchLog mLogToWaitFor;
private final Callback mCallback;
private final boolean mForceUpload;
public UploadRunnable(final ResearchLog logToWaitFor, final Callback callback,
final boolean forceUpload) {
mLogToWaitFor = logToWaitFor;
public UploadRunnable(final Callback callback, final boolean forceUpload) {
mCallback = callback;
mForceUpload = forceUpload;
}
@Override
public void run() {
if (mLogToWaitFor != null) {
waitFor(mLogToWaitFor);
}
doUpload();
}
private void waitFor(final ResearchLog researchLog) {
try {
researchLog.awaitTermination(TIMEOUT_IN_MS, TimeUnit.MILLISECONDS);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
private void doUpload() {
if (!mForceUpload && (!isExternallyPowered() || !hasWifiConnection())) {
return;

View File

@ -67,8 +67,11 @@ import com.android.inputmethod.latin.SuggestedWords;
import com.android.inputmethod.latin.define.ProductionFlag;
import java.io.File;
import java.io.IOException;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Date;
import java.util.List;
import java.util.Locale;
import java.util.UUID;
@ -94,21 +97,24 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
new SimpleDateFormat("yyyyMMddHHmmssS", Locale.US);
private static final boolean IS_SHOWING_INDICATOR = true;
private static final boolean IS_SHOWING_INDICATOR_CLEARLY = false;
public static final int FEEDBACK_WORD_BUFFER_SIZE = 5;
// constants related to specific log points
private static final String WHITESPACE_SEPARATORS = " \t\n\r";
private static final int MAX_INPUTVIEW_LENGTH_TO_CAPTURE = 8192; // must be >=1
private static final String PREF_RESEARCH_LOGGER_UUID_STRING = "pref_research_logger_uuid";
private static final int ABORT_TIMEOUT_IN_MS = 10 * 1000; // timeout to notify user
private static final ResearchLogger sInstance = new ResearchLogger();
// to write to a different filename, e.g., for testing, set mFile before calling start()
/* package */ File mFilesDir;
/* package */ String mUUIDString;
/* package */ ResearchLog mMainResearchLog;
/* package */ ResearchLog mFeedbackLog;
/* package */ MainLogBuffer mMainLogBuffer;
/* package */ LogBuffer mFeedbackLogBuffer;
// The mIntentionalResearchLog records all events for the session, private or not (excepting
// passwords). It is written to permanent storage only if the user explicitly commands
// the system to do so.
/* package */ ResearchLog mIntentionalResearchLog;
// LogUnits are queued here and released only when the user requests the intentional log.
private List<LogUnit> mIntentionalResearchLogQueue = new ArrayList<LogUnit>();
private boolean mIsPasswordView = false;
private boolean mIsLoggingSuspended = false;
@ -133,9 +139,8 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
private KeyboardSwitcher mKeyboardSwitcher;
private InputMethodService mInputMethodService;
private final Statistics mStatistics;
private ResearchLogUploader mResearchLogUploader;
private LogUnit mCurrentLogUnit = new LogUnit();
private ResearchLogUploader mResearchLogUploader;
private ResearchLogger() {
mStatistics = Statistics.getInstance();
@ -259,16 +264,6 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
e.apply();
}
private void setLoggingAllowed(boolean enableLogging) {
if (mPrefs == null) {
return;
}
Editor e = mPrefs.edit();
e.putBoolean(PREF_USABILITY_STUDY_MODE, enableLogging);
e.apply();
sIsLogging = enableLogging;
}
private File createLogFile(File filesDir) {
final StringBuilder sb = new StringBuilder();
sb.append(FILENAME_PREFIX).append('-');
@ -315,58 +310,97 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
Log.w(TAG, "IME storage directory does not exist. Cannot start logging.");
return;
}
if (mMainLogBuffer == null) {
try {
if (mMainResearchLog == null || !mMainResearchLog.isAlive()) {
mMainResearchLog = new ResearchLog(createLogFile(mFilesDir));
mMainLogBuffer = new MainLogBuffer(mMainResearchLog);
mMainLogBuffer.setSuggest(mSuggest);
}
if (mFeedbackLogBuffer == null) {
mFeedbackLog = new ResearchLog(createLogFile(mFilesDir));
// LogBuffer is one more than FEEDBACK_WORD_BUFFER_SIZE, because it must also hold
// the feedback LogUnit itself.
mFeedbackLogBuffer = new LogBuffer(FEEDBACK_WORD_BUFFER_SIZE + 1);
mMainResearchLog.start();
if (mIntentionalResearchLog == null || !mIntentionalResearchLog.isAlive()) {
mIntentionalResearchLog = new ResearchLog(createLogFile(mFilesDir));
}
mIntentionalResearchLog.start();
} catch (IOException e) {
Log.w(TAG, "Could not start ResearchLogger.");
}
}
/* package */ void stop() {
logStatistics();
commitCurrentLogUnit();
publishLogUnit(mCurrentLogUnit, true);
mCurrentLogUnit = new LogUnit();
if (mMainLogBuffer != null) {
publishLogBuffer(mMainLogBuffer, mMainResearchLog, false /* isIncludingPrivateData */);
mMainResearchLog.close();
mMainLogBuffer = null;
if (mMainResearchLog != null) {
mMainResearchLog.stop();
}
if (mFeedbackLogBuffer != null) {
mFeedbackLog.close();
mFeedbackLogBuffer = null;
if (mIntentionalResearchLog != null) {
mIntentionalResearchLog.stop();
}
}
private static final String[] EVENTKEYS_STATISTICS = {
"Statistics", "charCount", "letterCount", "numberCount", "spaceCount", "deleteOpsCount",
"wordCount", "isEmptyUponStarting", "isEmptinessStateKnown", "averageTimeBetweenKeys",
"averageTimeBeforeDelete", "averageTimeDuringRepeatedDelete", "averageTimeAfterDelete"
};
private static void logStatistics() {
final ResearchLogger researchLogger = getInstance();
final Statistics statistics = researchLogger.mStatistics;
final Object[] values = {
statistics.mCharCount, statistics.mLetterCount, statistics.mNumberCount,
statistics.mSpaceCount, statistics.mDeleteKeyCount,
statistics.mWordCount, statistics.mIsEmptyUponStarting,
statistics.mIsEmptinessStateKnown, statistics.mKeyCounter.getAverageTime(),
statistics.mBeforeDeleteKeyCounter.getAverageTime(),
statistics.mDuringRepeatedDeleteKeysCounter.getAverageTime(),
statistics.mAfterDeleteKeyCounter.getAverageTime()
};
researchLogger.enqueueEvent(EVENTKEYS_STATISTICS, values);
}
private void setLoggingAllowed(boolean enableLogging) {
if (mPrefs == null) {
return;
}
Editor e = mPrefs.edit();
e.putBoolean(PREF_USABILITY_STUDY_MODE, enableLogging);
e.apply();
sIsLogging = enableLogging;
}
public boolean abort() {
boolean didAbortMainLog = false;
if (mMainLogBuffer != null) {
mMainLogBuffer.clear();
if (mMainResearchLog != null) {
mMainResearchLog.abort();
try {
didAbortMainLog = mMainResearchLog.blockingAbort();
mMainResearchLog.waitUntilStopped(ABORT_TIMEOUT_IN_MS);
} catch (InterruptedException e) {
// Don't know whether this succeeded or not. We assume not; this is reported
// to the caller.
// interrupted early. carry on.
}
mMainLogBuffer = null;
if (mMainResearchLog.isAbortSuccessful()) {
didAbortMainLog = true;
}
boolean didAbortFeedbackLog = false;
if (mFeedbackLogBuffer != null) {
mFeedbackLogBuffer.clear();
mMainResearchLog = null;
}
boolean didAbortIntentionalLog = false;
if (mIntentionalResearchLog != null) {
mIntentionalResearchLog.abort();
try {
didAbortFeedbackLog = mFeedbackLog.blockingAbort();
mIntentionalResearchLog.waitUntilStopped(ABORT_TIMEOUT_IN_MS);
} catch (InterruptedException e) {
// Don't know whether this succeeded or not. We assume not; this is reported
// to the caller.
// interrupted early. carry on.
}
mFeedbackLogBuffer = null;
if (mIntentionalResearchLog.isAbortSuccessful()) {
didAbortIntentionalLog = true;
}
mIntentionalResearchLog = null;
}
return didAbortMainLog && didAbortIntentionalLog;
}
/* package */ void flush() {
if (mMainResearchLog != null) {
mMainResearchLog.flush();
}
return didAbortMainLog && didAbortFeedbackLog;
}
private void restart() {
@ -470,39 +504,79 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
latinIME.launchKeyboardedDialogActivity(FeedbackActivity.class);
}
private static final String[] EVENTKEYS_FEEDBACK = {
"UserTimestamp", "contents"
};
private ResearchLog mFeedbackLog;
private List<LogUnit> mFeedbackQueue;
private ResearchLog mSavedMainResearchLog;
private ResearchLog mSavedIntentionalResearchLog;
private List<LogUnit> mSavedIntentionalResearchLogQueue;
private void saveLogsForFeedback() {
mFeedbackLog = mIntentionalResearchLog;
if (mIntentionalResearchLogQueue != null) {
mFeedbackQueue = new ArrayList<LogUnit>(mIntentionalResearchLogQueue);
} else {
mFeedbackQueue = null;
}
mSavedMainResearchLog = mMainResearchLog;
mSavedIntentionalResearchLog = mIntentionalResearchLog;
mSavedIntentionalResearchLogQueue = mIntentionalResearchLogQueue;
mMainResearchLog = null;
mIntentionalResearchLog = null;
mIntentionalResearchLogQueue = new ArrayList<LogUnit>();
}
private static final int LOG_DRAIN_TIMEOUT_IN_MS = 1000 * 5;
public void sendFeedback(final String feedbackContents, final boolean includeHistory) {
if (mFeedbackLogBuffer == null) {
return;
if (includeHistory && mFeedbackLog != null) {
try {
LogUnit headerLogUnit = new LogUnit();
headerLogUnit.addLogAtom(EVENTKEYS_INTENTIONAL_LOG, EVENTKEYS_NULLVALUES, false);
mFeedbackLog.publishAllEvents(headerLogUnit);
for (LogUnit logUnit : mFeedbackQueue) {
mFeedbackLog.publishAllEvents(logUnit);
}
userFeedback(mFeedbackLog, feedbackContents);
mFeedbackLog.stop();
try {
mFeedbackLog.waitUntilStopped(LOG_DRAIN_TIMEOUT_IN_MS);
} catch (InterruptedException e) {
e.printStackTrace();
}
mIntentionalResearchLog = new ResearchLog(createLogFile(mFilesDir));
mIntentionalResearchLog.start();
} catch (IOException e) {
e.printStackTrace();
} finally {
mIntentionalResearchLogQueue.clear();
}
mResearchLogUploader.uploadNow(null);
} else {
// create a separate ResearchLog just for feedback
final ResearchLog feedbackLog = new ResearchLog(createLogFile(mFilesDir));
try {
feedbackLog.start();
userFeedback(feedbackLog, feedbackContents);
feedbackLog.stop();
feedbackLog.waitUntilStopped(LOG_DRAIN_TIMEOUT_IN_MS);
mResearchLogUploader.uploadNow(null);
} catch (IOException e) {
e.printStackTrace();
} catch (InterruptedException e) {
e.printStackTrace();
}
if (!includeHistory) {
mFeedbackLogBuffer.clear();
}
commitCurrentLogUnit();
final LogUnit feedbackLogUnit = new LogUnit();
final Object[] values = {
feedbackContents
};
feedbackLogUnit.addLogStatement(EVENTKEYS_FEEDBACK, values,
false /* isPotentiallyPrivate */);
mFeedbackLogBuffer.shiftIn(feedbackLogUnit);
publishLogBuffer(mFeedbackLogBuffer, mFeedbackLog, true /* isIncludingPrivateData */);
mFeedbackLog.close();
mResearchLogUploader.uploadAfterCompletion(mFeedbackLog, null);
mFeedbackLog = new ResearchLog(createLogFile(mFilesDir));
}
public void onLeavingSendFeedbackDialog() {
mInFeedbackDialog = false;
mMainResearchLog = mSavedMainResearchLog;
mIntentionalResearchLog = mSavedIntentionalResearchLog;
mIntentionalResearchLogQueue = mSavedIntentionalResearchLogQueue;
}
public void initSuggest(Suggest suggest) {
mSuggest = suggest;
if (mMainLogBuffer != null) {
mMainLogBuffer.setSuggest(mSuggest);
}
}
private void setIsPasswordView(boolean isPasswordView) {
@ -510,7 +584,7 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
}
private boolean isAllowedToLog() {
return !mIsPasswordView && !mIsLoggingSuspended && sIsLogging && !mInFeedbackDialog;
return !mIsPasswordView && !mIsLoggingSuspended && sIsLogging;
}
public void requestIndicatorRedraw() {
@ -557,8 +631,13 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
}
}
private static final String CURRENT_TIME_KEY = "_ct";
private static final String UPTIME_KEY = "_ut";
private static final String EVENT_TYPE_KEY = "_ty";
private static final Object[] EVENTKEYS_NULLVALUES = {};
private LogUnit mCurrentLogUnit = new LogUnit();
/**
* Buffer a research log event, flagging it as privacy-sensitive.
*
@ -574,14 +653,10 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
final Object[] values) {
assert values.length + 1 == keys.length;
if (isAllowedToLog()) {
mCurrentLogUnit.addLogStatement(keys, values, true /* isPotentiallyPrivate */);
mCurrentLogUnit.addLogAtom(keys, values, true);
}
}
private void setCurrentLogUnitContainsDigitFlag() {
mCurrentLogUnit.setContainsDigit();
}
/**
* Buffer a research log event, flaggint it as not privacy-sensitive.
*
@ -597,54 +672,140 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
private synchronized void enqueueEvent(final String[] keys, final Object[] values) {
assert values.length + 1 == keys.length;
if (isAllowedToLog()) {
mCurrentLogUnit.addLogStatement(keys, values, false /* isPotentiallyPrivate */);
mCurrentLogUnit.addLogAtom(keys, values, false);
}
}
/* package for test */ void commitCurrentLogUnit() {
if (!mCurrentLogUnit.isEmpty()) {
if (mMainLogBuffer != null) {
mMainLogBuffer.shiftIn(mCurrentLogUnit);
if (mMainLogBuffer.isSafeToLog() && mMainResearchLog != null) {
publishLogBuffer(mMainLogBuffer, mMainResearchLog,
true /* isIncludingPrivateData */);
mMainLogBuffer.resetWordCounter();
// Used to track how often words are logged. Too-frequent logging can leak
// semantics, disclosing private data.
/* package for test */ static class LoggingFrequencyState {
private static final int DEFAULT_WORD_LOG_FREQUENCY = 10;
private int mWordsRemainingToSkip;
private final int mFrequency;
/**
* Tracks how often words may be uploaded.
*
* @param frequency 1=Every word, 2=Every other word, etc.
*/
public LoggingFrequencyState(int frequency) {
mFrequency = frequency;
mWordsRemainingToSkip = mFrequency;
}
public void onWordLogged() {
mWordsRemainingToSkip = mFrequency;
}
if (mFeedbackLogBuffer != null) {
mFeedbackLogBuffer.shiftIn(mCurrentLogUnit);
}
mCurrentLogUnit = new LogUnit();
Log.d(TAG, "commitCurrentLogUnit");
public void onWordNotLogged() {
if (mWordsRemainingToSkip > 1) {
mWordsRemainingToSkip--;
}
}
/* package for test */ void publishLogBuffer(final LogBuffer logBuffer,
final ResearchLog researchLog, final boolean isIncludingPrivateData) {
LogUnit logUnit;
while ((logUnit = logBuffer.shiftOut()) != null) {
researchLog.publish(logUnit, isIncludingPrivateData);
public boolean isSafeToLog() {
return mWordsRemainingToSkip <= 1;
}
}
private boolean hasOnlyLetters(final String word) {
final int length = word.length();
for (int i = 0; i < length; i = word.offsetByCodePoints(i, 1)) {
final int codePoint = word.codePointAt(i);
if (!Character.isLetter(codePoint)) {
/* package for test */ LoggingFrequencyState mLoggingFrequencyState =
new LoggingFrequencyState(LoggingFrequencyState.DEFAULT_WORD_LOG_FREQUENCY);
/* package for test */ boolean isPrivacyThreat(String word) {
// Current checks:
// - Word not in dictionary
// - Word contains numbers
// - Privacy-safe word not logged recently
if (TextUtils.isEmpty(word)) {
return false;
}
}
if (!mLoggingFrequencyState.isSafeToLog()) {
return true;
}
final int length = word.length();
boolean hasLetter = false;
for (int i = 0; i < length; i = word.offsetByCodePoints(i, 1)) {
final int codePoint = Character.codePointAt(word, i);
if (Character.isDigit(codePoint)) {
return true;
}
if (Character.isLetter(codePoint)) {
hasLetter = true;
break; // Word may contain digits, but will only be allowed if in the dictionary.
}
}
if (hasLetter) {
if (mDictionary == null && mSuggest != null && mSuggest.hasMainDictionary()) {
mDictionary = mSuggest.getMainDictionary();
}
if (mDictionary == null) {
// Can't access dictionary. Assume privacy threat.
return true;
}
return !(mDictionary.isValidWord(word));
}
// No letters, no numbers. Punctuation, space, or something else.
return false;
}
private void onWordComplete(final String word) {
Log.d(TAG, "onWordComplete: " + word);
if (word != null && word.length() > 0 && hasOnlyLetters(word)) {
mCurrentLogUnit.setWord(word);
private void onWordComplete(String word) {
if (isPrivacyThreat(word)) {
publishLogUnit(mCurrentLogUnit, true);
mLoggingFrequencyState.onWordNotLogged();
} else {
publishLogUnit(mCurrentLogUnit, false);
mLoggingFrequencyState.onWordLogged();
}
mCurrentLogUnit = new LogUnit();
mStatistics.recordWordEntered();
}
commitCurrentLogUnit();
private void publishLogUnit(LogUnit logUnit, boolean isPrivacySensitive) {
if (!isAllowedToLog()) {
return;
}
if (mMainResearchLog == null) {
return;
}
if (isPrivacySensitive) {
mMainResearchLog.publishPublicEvents(logUnit);
} else {
mMainResearchLog.publishAllEvents(logUnit);
}
mIntentionalResearchLogQueue.add(logUnit);
}
/* package */ void publishCurrentLogUnit(ResearchLog researchLog, boolean isPrivacySensitive) {
publishLogUnit(mCurrentLogUnit, isPrivacySensitive);
}
static class LogUnit {
private final List<String[]> mKeysList = new ArrayList<String[]>();
private final List<Object[]> mValuesList = new ArrayList<Object[]>();
private final List<Boolean> mIsPotentiallyPrivate = new ArrayList<Boolean>();
private void addLogAtom(final String[] keys, final Object[] values,
final Boolean isPotentiallyPrivate) {
mKeysList.add(keys);
mValuesList.add(values);
mIsPotentiallyPrivate.add(isPotentiallyPrivate);
}
public void publishPublicEventsTo(ResearchLog researchLog) {
final int size = mKeysList.size();
for (int i = 0; i < size; i++) {
if (!mIsPotentiallyPrivate.get(i)) {
researchLog.outputEvent(mKeysList.get(i), mValuesList.get(i));
}
}
}
public void publishAllEventsTo(ResearchLog researchLog) {
final int size = mKeysList.size();
for (int i = 0; i < size; i++) {
researchLog.outputEvent(mKeysList.get(i), mValuesList.get(i));
}
}
}
private static int scrubDigitFromCodePoint(int codePoint) {
@ -697,6 +858,12 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
return WORD_REPLACEMENT_STRING;
}
// Special methods related to startup, shutdown, logging itself
private static final String[] EVENTKEYS_INTENTIONAL_LOG = {
"IntentionalLog"
};
private static final String[] EVENTKEYS_LATINIME_ONSTARTINPUTVIEWINTERNAL = {
"LatinIMEOnStartInputViewInternal", "uuid", "packageName", "inputType", "imeOptions",
"fieldId", "display", "model", "prefs", "versionCode", "versionName", "outputFormatVersion"
@ -704,6 +871,9 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
public static void latinIME_onStartInputViewInternal(final EditorInfo editorInfo,
final SharedPreferences prefs) {
final ResearchLogger researchLogger = getInstance();
if (researchLogger.mInFeedbackDialog) {
researchLogger.saveLogsForFeedback();
}
researchLogger.start();
if (editorInfo != null) {
final Context context = researchLogger.mInputMethodService;
@ -742,6 +912,16 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
researchLogger.enqueueEvent(EVENTKEYS_PREFS_CHANGED, values);
}
private void userFeedback(ResearchLog researchLog, String feedbackContents) {
// this method is special; it directs the feedbackContents to a particular researchLog
final LogUnit logUnit = new LogUnit();
final Object[] values = {
feedbackContents
};
logUnit.addLogAtom(EVENTKEYS_USER_FEEDBACK, values, false);
researchLog.publishAllEvents(logUnit);
}
// Regular logging methods
private static final String[] EVENTKEYS_MAINKEYBOARDVIEW_PROCESSMOTIONEVENT = {
@ -776,16 +956,12 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
"LatinIMEOnCodeInput", "code", "x", "y"
};
public static void latinIME_onCodeInput(final int code, final int x, final int y) {
final long time = SystemClock.uptimeMillis();
final ResearchLogger researchLogger = getInstance();
final Object[] values = {
Keyboard.printableCode(scrubDigitFromCodePoint(code)), x, y
};
final ResearchLogger researchLogger = getInstance();
researchLogger.enqueuePotentiallyPrivateEvent(EVENTKEYS_LATINIME_ONCODEINPUT, values);
if (Character.isDigit(code)) {
researchLogger.setCurrentLogUnitContainsDigitFlag();
}
researchLogger.mStatistics.recordChar(code, time);
researchLogger.mStatistics.recordChar(code, SystemClock.uptimeMillis());
}
private static final String[] EVENTKEYS_LATINIME_ONDISPLAYCOMPLETIONS = {
@ -850,7 +1026,9 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
}
final ResearchLogger researchLogger = getInstance();
researchLogger.enqueueEvent(EVENTKEYS_LATINIME_ONWINDOWHIDDEN, values);
researchLogger.commitCurrentLogUnit();
// Play it safe. Remove privacy-sensitive events.
researchLogger.publishLogUnit(researchLogger.mCurrentLogUnit, true);
researchLogger.mCurrentLogUnit = new LogUnit();
getInstance().stop();
}
}
@ -915,11 +1093,7 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
final Object[] values = {
Keyboard.printableCode(scrubDigitFromCodePoint(code))
};
final ResearchLogger researchLogger = getInstance();
researchLogger.enqueuePotentiallyPrivateEvent(EVENTKEYS_LATINIME_SENDKEYCODEPOINT, values);
if (Character.isDigit(code)) {
researchLogger.setCurrentLogUnitContainsDigitFlag();
}
getInstance().enqueuePotentiallyPrivateEvent(EVENTKEYS_LATINIME_SENDKEYCODEPOINT, values);
}
private static final String[] EVENTKEYS_LATINIME_SWAPSWAPPERANDSPACE = {
@ -1057,21 +1231,10 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
EVENTKEYS_RICHINPUTCONNECTION_COMMITCOMPLETION, values);
}
// Disabled for privacy-protection reasons. Because this event comes after
// richInputConnection_commitText, which is the event used to separate LogUnits, the
// data in this event can be associated with the next LogUnit, revealing information
// about the current word even if it was supposed to be suppressed. The occurrance of
// autocorrection can be determined by examining the difference between the text strings in
// the last call to richInputConnection_setComposingText before
// richInputConnection_commitText, so it's not a data loss.
// TODO: Figure out how to log this event without loss of privacy.
/*
private static final String[] EVENTKEYS_RICHINPUTCONNECTION_COMMITCORRECTION = {
"RichInputConnectionCommitCorrection", "typedWord", "autoCorrection"
"RichInputConnectionCommitCorrection", "CorrectionInfo"
};
*/
public static void richInputConnection_commitCorrection(CorrectionInfo correctionInfo) {
/*
final String typedWord = correctionInfo.getOldText().toString();
final String autoCorrection = correctionInfo.getNewText().toString();
final Object[] values = {
@ -1080,7 +1243,6 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
final ResearchLogger researchLogger = getInstance();
researchLogger.enqueuePotentiallyPrivateEvent(
EVENTKEYS_RICHINPUTCONNECTION_COMMITCORRECTION, values);
*/
}
private static final String[] EVENTKEYS_RICHINPUTCONNECTION_COMMITTEXT = {
@ -1106,8 +1268,7 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
final Object[] values = {
beforeLength, afterLength
};
getInstance().enqueuePotentiallyPrivateEvent(
EVENTKEYS_RICHINPUTCONNECTION_DELETESURROUNDINGTEXT, values);
getInstance().enqueueEvent(EVENTKEYS_RICHINPUTCONNECTION_DELETESURROUNDINGTEXT, values);
}
private static final String[] EVENTKEYS_RICHINPUTCONNECTION_FINISHCOMPOSINGTEXT = {
@ -1137,8 +1298,7 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
keyEvent.getAction(),
keyEvent.getKeyCode()
};
getInstance().enqueuePotentiallyPrivateEvent(EVENTKEYS_RICHINPUTCONNECTION_SENDKEYEVENT,
values);
getInstance().enqueueEvent(EVENTKEYS_RICHINPUTCONNECTION_SENDKEYEVENT, values);
}
private static final String[] EVENTKEYS_RICHINPUTCONNECTION_SETCOMPOSINGTEXT = {
@ -1146,14 +1306,10 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
};
public static void richInputConnection_setComposingText(final CharSequence text,
final int newCursorPosition) {
if (text == null) {
throw new RuntimeException("setComposingText is null");
}
final Object[] values = {
text, newCursorPosition
};
getInstance().enqueuePotentiallyPrivateEvent(EVENTKEYS_RICHINPUTCONNECTION_SETCOMPOSINGTEXT,
values);
getInstance().enqueueEvent(EVENTKEYS_RICHINPUTCONNECTION_SETCOMPOSINGTEXT, values);
}
private static final String[] EVENTKEYS_RICHINPUTCONNECTION_SETSELECTION = {
@ -1163,8 +1319,7 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
final Object[] values = {
from, to
};
getInstance().enqueuePotentiallyPrivateEvent(EVENTKEYS_RICHINPUTCONNECTION_SETSELECTION,
values);
getInstance().enqueueEvent(EVENTKEYS_RICHINPUTCONNECTION_SETSELECTION, values);
}
private static final String[] EVENTKEYS_SUDDENJUMPINGTOUCHEVENTHANDLER_ONTOUCHEVENT = {
@ -1199,24 +1354,4 @@ public class ResearchLogger implements SharedPreferences.OnSharedPreferenceChang
public void userTimestamp() {
getInstance().enqueueEvent(EVENTKEYS_USER_TIMESTAMP, EVENTKEYS_NULLVALUES);
}
private static final String[] EVENTKEYS_STATISTICS = {
"Statistics", "charCount", "letterCount", "numberCount", "spaceCount", "deleteOpsCount",
"wordCount", "isEmptyUponStarting", "isEmptinessStateKnown", "averageTimeBetweenKeys",
"averageTimeBeforeDelete", "averageTimeDuringRepeatedDelete", "averageTimeAfterDelete"
};
private static void logStatistics() {
final ResearchLogger researchLogger = getInstance();
final Statistics statistics = researchLogger.mStatistics;
final Object[] values = {
statistics.mCharCount, statistics.mLetterCount, statistics.mNumberCount,
statistics.mSpaceCount, statistics.mDeleteKeyCount,
statistics.mWordCount, statistics.mIsEmptyUponStarting,
statistics.mIsEmptinessStateKnown, statistics.mKeyCounter.getAverageTime(),
statistics.mBeforeDeleteKeyCounter.getAverageTime(),
statistics.mDuringRepeatedDeleteKeysCounter.getAverageTime(),
statistics.mAfterDeleteKeyCounter.getAverageTime()
};
researchLogger.enqueueEvent(EVENTKEYS_STATISTICS, values);
}
}

View File

@ -66,8 +66,8 @@ public class Statistics {
// To account for the interruptions when the user's attention is directed elsewhere, times
// longer than MIN_TYPING_INTERMISSION are not counted when estimating this statistic.
public static final int MIN_TYPING_INTERMISSION = 2 * 1000; // in milliseconds
public static final int MIN_DELETION_INTERMISSION = 10 * 1000; // in milliseconds
public static final int MIN_TYPING_INTERMISSION = 5 * 1000; // in milliseconds
public static final int MIN_DELETION_INTERMISSION = 15 * 1000; // in milliseconds
// The last time that a tap was performed
private long mLastTapTime;