/* * Copyright (C) 2006 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.internal.telephony; import android.app.ActivityManager; import android.content.AsyncQueryHandler; import android.content.ContentResolver; import android.content.Context; import android.content.pm.PackageManager.NameNotFoundException; import android.database.Cursor; import android.database.SQLException; import android.net.Uri; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.os.UserHandle; import android.os.UserManager; import android.provider.ContactsContract.PhoneLookup; import android.telephony.PhoneNumberUtils; import android.text.TextUtils; import android.telephony.Rlog; import android.telephony.SubscriptionManager; import android.util.Log; /** * Helper class to make it easier to run asynchronous caller-id lookup queries. * @see CallerInfo * * {@hide} */ public class CallerInfoAsyncQuery { private static final boolean DBG = false; private static final String LOG_TAG = "CallerInfoAsyncQuery"; private static final int EVENT_NEW_QUERY = 1; private static final int EVENT_ADD_LISTENER = 2; private static final int EVENT_END_OF_QUEUE = 3; private static final int EVENT_EMERGENCY_NUMBER = 4; private static final int EVENT_VOICEMAIL_NUMBER = 5; private CallerInfoAsyncQueryHandler mHandler; // If the CallerInfo query finds no contacts, should we use the // PhoneNumberOfflineGeocoder to look up a "geo description"? // (TODO: This could become a flag in config.xml if it ever needs to be // configured on a per-product basis.) private static final boolean ENABLE_UNKNOWN_NUMBER_GEO_DESCRIPTION = true; /** * Interface for a CallerInfoAsyncQueryHandler result return. */ public interface OnQueryCompleteListener { /** * Called when the query is complete. */ public void onQueryComplete(int token, Object cookie, CallerInfo ci); } /** * Wrap the cookie from the WorkerArgs with additional information needed by our * classes. */ private static final class CookieWrapper { public OnQueryCompleteListener listener; public Object cookie; public int event; public String number; public int subId; } /** * Simple exception used to communicate problems with the query pool. */ public static class QueryPoolException extends SQLException { public QueryPoolException(String error) { super(error); } } /** * @return {@link ContentResolver} for the "current" user. */ static ContentResolver getCurrentProfileContentResolver(Context context) { if (DBG) Rlog.d(LOG_TAG, "Trying to get current content resolver..."); final int currentUser = ActivityManager.getCurrentUser(); final int myUser = UserManager.get(context).getUserHandle(); if (DBG) Rlog.d(LOG_TAG, "myUser=" + myUser + "currentUser=" + currentUser); if (myUser != currentUser) { final Context otherContext; try { otherContext = context.createPackageContextAsUser(context.getPackageName(), /* flags =*/ 0, new UserHandle(currentUser)); return otherContext.getContentResolver(); } catch (NameNotFoundException e) { Rlog.e(LOG_TAG, "Can't find self package", e); // Fall back to the primary user. } } return context.getContentResolver(); } /** * Our own implementation of the AsyncQueryHandler. */ private class CallerInfoAsyncQueryHandler extends AsyncQueryHandler { /* * The information relevant to each CallerInfo query. Each query may have multiple * listeners, so each AsyncCursorInfo is associated with 2 or more CookieWrapper * objects in the queue (one with a new query event, and one with a end event, with * 0 or more additional listeners in between). */ /** * Context passed by the caller. * * NOTE: The actual context we use for query may *not* be this context; since we query * against the "current" contacts provider. In the constructor we pass the "current" * context resolver (obtained via {@link #getCurrentProfileContentResolver) and pass it * to the super class. */ private Context mContext; private Uri mQueryUri; private CallerInfo mCallerInfo; /** * Our own query worker thread. * * This thread handles the messages enqueued in the looper. The normal sequence * of events is that a new query shows up in the looper queue, followed by 0 or * more add listener requests, and then an end request. Of course, these requests * can be interlaced with requests from other tokens, but is irrelevant to this * handler since the handler has no state. * * Note that we depend on the queue to keep things in order; in other words, the * looper queue must be FIFO with respect to input from the synchronous startQuery * calls and output to this handleMessage call. * * This use of the queue is required because CallerInfo objects may be accessed * multiple times before the query is complete. All accesses (listeners) must be * queued up and informed in order when the query is complete. */ protected class CallerInfoWorkerHandler extends WorkerHandler { public CallerInfoWorkerHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { WorkerArgs args = (WorkerArgs) msg.obj; CookieWrapper cw = (CookieWrapper) args.cookie; if (cw == null) { // Normally, this should never be the case for calls originating // from within this code. // However, if there is any code that this Handler calls (such as in // super.handleMessage) that DOES place unexpected messages on the // queue, then we need pass these messages on. if (DBG) Rlog.d(LOG_TAG, "Unexpected command (CookieWrapper is null): " + msg.what + " ignored by CallerInfoWorkerHandler, passing onto parent."); super.handleMessage(msg); } else { if (DBG) Rlog.d(LOG_TAG, "Processing event: " + cw.event + " token (arg1): " + msg.arg1 + " command: " + msg.what + " query URI: " + sanitizeUriToString(args.uri)); switch (cw.event) { case EVENT_NEW_QUERY: //start the sql command. super.handleMessage(msg); break; // shortcuts to avoid query for recognized numbers. case EVENT_EMERGENCY_NUMBER: case EVENT_VOICEMAIL_NUMBER: case EVENT_ADD_LISTENER: case EVENT_END_OF_QUEUE: // query was already completed, so just send the reply. // passing the original token value back to the caller // on top of the event values in arg1. Message reply = args.handler.obtainMessage(msg.what); reply.obj = args; reply.arg1 = msg.arg1; reply.sendToTarget(); break; default: } } } } /** * Asynchronous query handler class for the contact / callerinfo object. */ private CallerInfoAsyncQueryHandler(Context context) { super(getCurrentProfileContentResolver(context)); mContext = context; } @Override protected Handler createHandler(Looper looper) { return new CallerInfoWorkerHandler(looper); } /** * Overrides onQueryComplete from AsyncQueryHandler. * * This method takes into account the state of this class; we construct the CallerInfo * object only once for each set of listeners. When the query thread has done its work * and calls this method, we inform the remaining listeners in the queue, until we're * out of listeners. Once we get the message indicating that we should expect no new * listeners for this CallerInfo object, we release the AsyncCursorInfo back into the * pool. */ @Override protected void onQueryComplete(int token, Object cookie, Cursor cursor) { if (DBG) Rlog.d(LOG_TAG, "##### onQueryComplete() ##### query complete for token: " + token); //get the cookie and notify the listener. CookieWrapper cw = (CookieWrapper) cookie; if (cw == null) { // Normally, this should never be the case for calls originating // from within this code. // However, if there is any code that calls this method, we should // check the parameters to make sure they're viable. if (DBG) Rlog.d(LOG_TAG, "Cookie is null, ignoring onQueryComplete() request."); if (cursor != null) { cursor.close(); } return; } if (cw.event == EVENT_END_OF_QUEUE) { release(); if (cursor != null) { cursor.close(); } return; } // check the token and if needed, create the callerinfo object. if (mCallerInfo == null) { if ((mContext == null) || (mQueryUri == null)) { throw new QueryPoolException ("Bad context or query uri, or CallerInfoAsyncQuery already released."); } // adjust the callerInfo data as needed, and only if it was set from the // initial query request. // Change the callerInfo number ONLY if it is an emergency number or the // voicemail number, and adjust other data (including photoResource) // accordingly. if (cw.event == EVENT_EMERGENCY_NUMBER) { // Note we're setting the phone number here (refer to javadoc // comments at the top of CallerInfo class). mCallerInfo = new CallerInfo().markAsEmergency(mContext); } else if (cw.event == EVENT_VOICEMAIL_NUMBER) { mCallerInfo = new CallerInfo().markAsVoiceMail(cw.subId); } else { mCallerInfo = CallerInfo.getCallerInfo(mContext, mQueryUri, cursor); if (DBG) Rlog.d(LOG_TAG, "==> Got mCallerInfo: " + mCallerInfo); CallerInfo newCallerInfo = CallerInfo.doSecondaryLookupIfNecessary( mContext, cw.number, mCallerInfo); if (newCallerInfo != mCallerInfo) { mCallerInfo = newCallerInfo; if (DBG) Rlog.d(LOG_TAG, "#####async contact look up with numeric username" + mCallerInfo); } // Final step: look up the geocoded description. if (ENABLE_UNKNOWN_NUMBER_GEO_DESCRIPTION) { // Note we do this only if we *don't* have a valid name (i.e. if // no contacts matched the phone number of the incoming call), // since that's the only case where the incoming-call UI cares // about this field. // // (TODO: But if we ever want the UI to show the geoDescription // even when we *do* match a contact, we'll need to either call // updateGeoDescription() unconditionally here, or possibly add a // new parameter to CallerInfoAsyncQuery.startQuery() to force // the geoDescription field to be populated.) if (TextUtils.isEmpty(mCallerInfo.name)) { // Actually when no contacts match the incoming phone number, // the CallerInfo object is totally blank here (i.e. no name // *or* phoneNumber). So we need to pass in cw.number as // a fallback number. mCallerInfo.updateGeoDescription(mContext, cw.number); } } // Use the number entered by the user for display. if (!TextUtils.isEmpty(cw.number)) { mCallerInfo.phoneNumber = PhoneNumberUtils.formatNumber(cw.number, mCallerInfo.normalizedNumber, CallerInfo.getCurrentCountryIso(mContext)); } } if (DBG) Rlog.d(LOG_TAG, "constructing CallerInfo object for token: " + token); //notify that we can clean up the queue after this. CookieWrapper endMarker = new CookieWrapper(); endMarker.event = EVENT_END_OF_QUEUE; startQuery(token, endMarker, null, null, null, null, null); } //notify the listener that the query is complete. if (cw.listener != null) { if (DBG) Rlog.d(LOG_TAG, "notifying listener: " + cw.listener.getClass().toString() + " for token: " + token + mCallerInfo); cw.listener.onQueryComplete(token, cw.cookie, mCallerInfo); } if (cursor != null) { cursor.close(); } } } /** * Private constructor for factory methods. */ private CallerInfoAsyncQuery() { } /** * Factory method to start query with a Uri query spec */ public static CallerInfoAsyncQuery startQuery(int token, Context context, Uri contactRef, OnQueryCompleteListener listener, Object cookie) { CallerInfoAsyncQuery c = new CallerInfoAsyncQuery(); c.allocate(context, contactRef); if (DBG) Rlog.d(LOG_TAG, "starting query for URI: " + contactRef + " handler: " + c.toString()); //create cookieWrapper, start query CookieWrapper cw = new CookieWrapper(); cw.listener = listener; cw.cookie = cookie; cw.event = EVENT_NEW_QUERY; c.mHandler.startQuery(token, cw, contactRef, null, null, null, null); return c; } /** * Factory method to start the query based on a number. * * Note: if the number contains an "@" character we treat it * as a SIP address, and look it up directly in the Data table * rather than using the PhoneLookup table. * TODO: But eventually we should expose two separate methods, one for * numbers and one for SIP addresses, and then have * PhoneUtils.startGetCallerInfo() decide which one to call based on * the phone type of the incoming connection. */ public static CallerInfoAsyncQuery startQuery(int token, Context context, String number, OnQueryCompleteListener listener, Object cookie) { int subId = SubscriptionManager.getDefaultSubId(); return startQuery(token, context, number, listener, cookie, subId); } /** * Factory method to start the query based on a number with specific subscription. * * Note: if the number contains an "@" character we treat it * as a SIP address, and look it up directly in the Data table * rather than using the PhoneLookup table. * TODO: But eventually we should expose two separate methods, one for * numbers and one for SIP addresses, and then have * PhoneUtils.startGetCallerInfo() decide which one to call based on * the phone type of the incoming connection. */ public static CallerInfoAsyncQuery startQuery(int token, Context context, String number, OnQueryCompleteListener listener, Object cookie, int subId) { if (DBG) { Rlog.d(LOG_TAG, "##### CallerInfoAsyncQuery startQuery()... #####"); Rlog.d(LOG_TAG, "- number: " + /*number*/ "xxxxxxx"); Rlog.d(LOG_TAG, "- cookie: " + cookie); } // Construct the URI object and query params, and start the query. final Uri contactRef = PhoneLookup.ENTERPRISE_CONTENT_FILTER_URI.buildUpon() .appendPath(number) .appendQueryParameter(PhoneLookup.QUERY_PARAMETER_SIP_ADDRESS, String.valueOf(PhoneNumberUtils.isUriNumber(number))) .build(); if (DBG) { Rlog.d(LOG_TAG, "==> contactRef: " + sanitizeUriToString(contactRef)); } CallerInfoAsyncQuery c = new CallerInfoAsyncQuery(); c.allocate(context, contactRef); //create cookieWrapper, start query CookieWrapper cw = new CookieWrapper(); cw.listener = listener; cw.cookie = cookie; cw.number = number; cw.subId = subId; // check to see if these are recognized numbers, and use shortcuts if we can. if (PhoneNumberUtils.isLocalEmergencyNumber(context, number)) { cw.event = EVENT_EMERGENCY_NUMBER; } else if (PhoneNumberUtils.isVoiceMailNumber(subId, number)) { cw.event = EVENT_VOICEMAIL_NUMBER; } else { cw.event = EVENT_NEW_QUERY; } c.mHandler.startQuery(token, cw, // cookie contactRef, // uri null, // projection null, // selection null, // selectionArgs null); // orderBy return c; } /** * Method to add listeners to a currently running query */ public void addQueryListener(int token, OnQueryCompleteListener listener, Object cookie) { if (DBG) Rlog.d(LOG_TAG, "adding listener to query: " + sanitizeUriToString(mHandler.mQueryUri) + " handler: " + mHandler.toString()); //create cookieWrapper, add query request to end of queue. CookieWrapper cw = new CookieWrapper(); cw.listener = listener; cw.cookie = cookie; cw.event = EVENT_ADD_LISTENER; mHandler.startQuery(token, cw, null, null, null, null, null); } /** * Method to create a new CallerInfoAsyncQueryHandler object, ensuring correct * state of context and uri. */ private void allocate(Context context, Uri contactRef) { if ((context == null) || (contactRef == null)){ throw new QueryPoolException("Bad context or query uri."); } mHandler = new CallerInfoAsyncQueryHandler(context); mHandler.mQueryUri = contactRef; } /** * Releases the relevant data. */ private void release() { mHandler.mContext = null; mHandler.mQueryUri = null; mHandler.mCallerInfo = null; mHandler = null; } private static String sanitizeUriToString(Uri uri) { if (uri != null) { String uriString = uri.toString(); int indexOfLastSlash = uriString.lastIndexOf('/'); if (indexOfLastSlash > 0) { return uriString.substring(0, indexOfLastSlash) + "/xxxxxxx"; } else { return uriString; } } else { return ""; } } }