/* * 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.phone; import android.app.ActivityManager; import android.app.AppOpsManager; import android.content.ActivityNotFoundException; import android.content.Context; import android.content.Intent; import android.net.ConnectivityManager; import android.net.Uri; import android.os.AsyncResult; import android.os.Binder; import android.os.Bundle; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.os.Process; import android.os.ServiceManager; import android.os.UserHandle; import android.telephony.NeighboringCellInfo; import android.telephony.CellInfo; import android.telephony.ServiceState; import android.text.TextUtils; import android.util.Log; import com.android.internal.telephony.DefaultPhoneNotifier; import com.android.internal.telephony.IccCard; import com.android.internal.telephony.ITelephony; import com.android.internal.telephony.Phone; import com.android.internal.telephony.CallManager; import com.android.internal.telephony.PhoneConstants; import java.util.List; import java.util.ArrayList; /** * Implementation of the ITelephony interface. */ public class PhoneInterfaceManager extends ITelephony.Stub { private static final String LOG_TAG = "PhoneInterfaceManager"; private static final boolean DBG = (PhoneGlobals.DBG_LEVEL >= 2); private static final boolean DBG_LOC = false; // Message codes used with mMainThreadHandler private static final int CMD_HANDLE_PIN_MMI = 1; private static final int CMD_HANDLE_NEIGHBORING_CELL = 2; private static final int EVENT_NEIGHBORING_CELL_DONE = 3; private static final int CMD_ANSWER_RINGING_CALL = 4; private static final int CMD_END_CALL = 5; // not used yet private static final int CMD_SILENCE_RINGER = 6; /** The singleton instance. */ private static PhoneInterfaceManager sInstance; PhoneGlobals mApp; Phone mPhone; CallManager mCM; AppOpsManager mAppOps; MainThreadHandler mMainThreadHandler; /** * A request object for use with {@link MainThreadHandler}. Requesters should wait() on the * request after sending. The main thread will notify the request when it is complete. */ private static final class MainThreadRequest { /** The argument to use for the request */ public Object argument; /** The result of the request that is run on the main thread */ public Object result; public MainThreadRequest(Object argument) { this.argument = argument; } } /** * A handler that processes messages on the main thread in the phone process. Since many * of the Phone calls are not thread safe this is needed to shuttle the requests from the * inbound binder threads to the main thread in the phone process. The Binder thread * may provide a {@link MainThreadRequest} object in the msg.obj field that they are waiting * on, which will be notified when the operation completes and will contain the result of the * request. * *

If a MainThreadRequest object is provided in the msg.obj field, * note that request.result must be set to something non-null for the calling thread to * unblock. */ private final class MainThreadHandler extends Handler { @Override public void handleMessage(Message msg) { MainThreadRequest request; Message onCompleted; AsyncResult ar; switch (msg.what) { case CMD_HANDLE_PIN_MMI: request = (MainThreadRequest) msg.obj; request.result = Boolean.valueOf( mPhone.handlePinMmi((String) request.argument)); // Wake up the requesting thread synchronized (request) { request.notifyAll(); } break; case CMD_HANDLE_NEIGHBORING_CELL: request = (MainThreadRequest) msg.obj; onCompleted = obtainMessage(EVENT_NEIGHBORING_CELL_DONE, request); mPhone.getNeighboringCids(onCompleted); break; case EVENT_NEIGHBORING_CELL_DONE: ar = (AsyncResult) msg.obj; request = (MainThreadRequest) ar.userObj; if (ar.exception == null && ar.result != null) { request.result = ar.result; } else { // create an empty list to notify the waiting thread request.result = new ArrayList(); } // Wake up the requesting thread synchronized (request) { request.notifyAll(); } break; case CMD_ANSWER_RINGING_CALL: answerRingingCallInternal(); break; case CMD_SILENCE_RINGER: silenceRingerInternal(); break; case CMD_END_CALL: request = (MainThreadRequest) msg.obj; boolean hungUp = false; int phoneType = mPhone.getPhoneType(); if (phoneType == PhoneConstants.PHONE_TYPE_CDMA) { // CDMA: If the user presses the Power button we treat it as // ending the complete call session hungUp = PhoneUtils.hangupRingingAndActive(mPhone); } else if (phoneType == PhoneConstants.PHONE_TYPE_GSM) { // GSM: End the call as per the Phone state hungUp = PhoneUtils.hangup(mCM); } else { throw new IllegalStateException("Unexpected phone type: " + phoneType); } if (DBG) log("CMD_END_CALL: " + (hungUp ? "hung up!" : "no call to hang up")); request.result = hungUp; // Wake up the requesting thread synchronized (request) { request.notifyAll(); } break; default: Log.w(LOG_TAG, "MainThreadHandler: unexpected message code: " + msg.what); break; } } } /** * Posts the specified command to be executed on the main thread, * waits for the request to complete, and returns the result. * @see #sendRequestAsync */ private Object sendRequest(int command, Object argument) { if (Looper.myLooper() == mMainThreadHandler.getLooper()) { throw new RuntimeException("This method will deadlock if called from the main thread."); } MainThreadRequest request = new MainThreadRequest(argument); Message msg = mMainThreadHandler.obtainMessage(command, request); msg.sendToTarget(); // Wait for the request to complete synchronized (request) { while (request.result == null) { try { request.wait(); } catch (InterruptedException e) { // Do nothing, go back and wait until the request is complete } } } return request.result; } /** * Asynchronous ("fire and forget") version of sendRequest(): * Posts the specified command to be executed on the main thread, and * returns immediately. * @see #sendRequest */ private void sendRequestAsync(int command) { mMainThreadHandler.sendEmptyMessage(command); } /** * Initialize the singleton PhoneInterfaceManager instance. * This is only done once, at startup, from PhoneApp.onCreate(). */ /* package */ static PhoneInterfaceManager init(PhoneGlobals app, Phone phone) { synchronized (PhoneInterfaceManager.class) { if (sInstance == null) { sInstance = new PhoneInterfaceManager(app, phone); } else { Log.wtf(LOG_TAG, "init() called multiple times! sInstance = " + sInstance); } return sInstance; } } /** Private constructor; @see init() */ private PhoneInterfaceManager(PhoneGlobals app, Phone phone) { mApp = app; mPhone = phone; mCM = PhoneGlobals.getInstance().mCM; mAppOps = (AppOpsManager)app.getSystemService(Context.APP_OPS_SERVICE); mMainThreadHandler = new MainThreadHandler(); publish(); } private void publish() { if (DBG) log("publish: " + this); ServiceManager.addService("phone", this); } // // Implementation of the ITelephony interface. // public void dial(String number) { if (DBG) log("dial: " + number); // No permission check needed here: This is just a wrapper around the // ACTION_DIAL intent, which is available to any app since it puts up // the UI before it does anything. String url = createTelUrl(number); if (url == null) { return; } // PENDING: should we just silently fail if phone is offhook or ringing? PhoneConstants.State state = mCM.getState(); if (state != PhoneConstants.State.OFFHOOK && state != PhoneConstants.State.RINGING) { Intent intent = new Intent(Intent.ACTION_DIAL, Uri.parse(url)); intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK); mApp.startActivity(intent); } } public void call(String callingPackage, String number) { if (DBG) log("call: " + number); // This is just a wrapper around the ACTION_CALL intent, but we still // need to do a permission check since we're calling startActivity() // from the context of the phone app. enforceCallPermission(); if (mAppOps.noteOp(AppOpsManager.OP_CALL_PHONE, Binder.getCallingUid(), callingPackage) != AppOpsManager.MODE_ALLOWED) { return; } String url = createTelUrl(number); if (url == null) { return; } Intent intent = new Intent(Intent.ACTION_CALL, Uri.parse(url)); intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK); mApp.startActivity(intent); } private boolean showCallScreenInternal(boolean specifyInitialDialpadState, boolean initialDialpadState) { if (!PhoneGlobals.sVoiceCapable) { // Never allow the InCallScreen to appear on data-only devices. return false; } if (isIdle()) { return false; } // If the phone isn't idle then go to the in-call screen long callingId = Binder.clearCallingIdentity(); try { Intent intent; if (specifyInitialDialpadState) { intent = PhoneGlobals.createInCallIntent(initialDialpadState); } else { intent = PhoneGlobals.createInCallIntent(); } try { mApp.startActivity(intent); } catch (ActivityNotFoundException e) { // It's possible that the in-call UI might not exist // (like on non-voice-capable devices), although we // shouldn't be trying to bring up the InCallScreen on // devices like that in the first place! Log.w(LOG_TAG, "showCallScreenInternal: " + "transition to InCallScreen failed; intent = " + intent); } } finally { Binder.restoreCallingIdentity(callingId); } return true; } // Show the in-call screen without specifying the initial dialpad state. public boolean showCallScreen() { return showCallScreenInternal(false, false); } // The variation of showCallScreen() that specifies the initial dialpad state. // (Ideally this would be called showCallScreen() too, just with a different // signature, but AIDL doesn't allow that.) public boolean showCallScreenWithDialpad(boolean showDialpad) { return showCallScreenInternal(true, showDialpad); } /** * End a call based on call state * @return true is a call was ended */ public boolean endCall() { enforceCallPermission(); return (Boolean) sendRequest(CMD_END_CALL, null); } public void answerRingingCall() { if (DBG) log("answerRingingCall..."); // TODO: there should eventually be a separate "ANSWER_PHONE" permission, // but that can probably wait till the big TelephonyManager API overhaul. // For now, protect this call with the MODIFY_PHONE_STATE permission. enforceModifyPermission(); sendRequestAsync(CMD_ANSWER_RINGING_CALL); } /** * Make the actual telephony calls to implement answerRingingCall(). * This should only be called from the main thread of the Phone app. * @see #answerRingingCall * * TODO: it would be nice to return true if we answered the call, or * false if there wasn't actually a ringing incoming call, or some * other error occurred. (In other words, pass back the return value * from PhoneUtils.answerCall() or PhoneUtils.answerAndEndActive().) * But that would require calling this method via sendRequest() rather * than sendRequestAsync(), and right now we don't actually *need* that * return value, so let's just return void for now. */ private void answerRingingCallInternal() { final boolean hasRingingCall = !mPhone.getRingingCall().isIdle(); if (hasRingingCall) { final boolean hasActiveCall = !mPhone.getForegroundCall().isIdle(); final boolean hasHoldingCall = !mPhone.getBackgroundCall().isIdle(); if (hasActiveCall && hasHoldingCall) { // Both lines are in use! // TODO: provide a flag to let the caller specify what // policy to use if both lines are in use. (The current // behavior is hardwired to "answer incoming, end ongoing", // which is how the CALL button is specced to behave.) PhoneUtils.answerAndEndActive(mCM, mCM.getFirstActiveRingingCall()); return; } else { // answerCall() will automatically hold the current active // call, if there is one. PhoneUtils.answerCall(mCM.getFirstActiveRingingCall()); return; } } else { // No call was ringing. return; } } public void silenceRinger() { if (DBG) log("silenceRinger..."); // TODO: find a more appropriate permission to check here. // (That can probably wait till the big TelephonyManager API overhaul. // For now, protect this call with the MODIFY_PHONE_STATE permission.) enforceModifyPermission(); sendRequestAsync(CMD_SILENCE_RINGER); } /** * Internal implemenation of silenceRinger(). * This should only be called from the main thread of the Phone app. * @see #silenceRinger */ private void silenceRingerInternal() { if ((mCM.getState() == PhoneConstants.State.RINGING) && mApp.notifier.isRinging()) { // Ringer is actually playing, so silence it. if (DBG) log("silenceRingerInternal: silencing..."); mApp.notifier.silenceRinger(); } } public boolean isOffhook() { return (mCM.getState() == PhoneConstants.State.OFFHOOK); } public boolean isRinging() { return (mCM.getState() == PhoneConstants.State.RINGING); } public boolean isIdle() { return (mCM.getState() == PhoneConstants.State.IDLE); } public boolean isSimPinEnabled() { enforceReadPermission(); return (PhoneGlobals.getInstance().isSimPinEnabled()); } public boolean supplyPin(String pin) { enforceModifyPermission(); final UnlockSim checkSimPin = new UnlockSim(mPhone.getIccCard()); checkSimPin.start(); return checkSimPin.unlockSim(null, pin); } public boolean supplyPuk(String puk, String pin) { enforceModifyPermission(); final UnlockSim checkSimPuk = new UnlockSim(mPhone.getIccCard()); checkSimPuk.start(); return checkSimPuk.unlockSim(puk, pin); } /** * Helper thread to turn async call to {@link SimCard#supplyPin} into * a synchronous one. */ private static class UnlockSim extends Thread { private final IccCard mSimCard; private boolean mDone = false; private boolean mResult = false; // For replies from SimCard interface private Handler mHandler; // For async handler to identify request type private static final int SUPPLY_PIN_COMPLETE = 100; public UnlockSim(IccCard simCard) { mSimCard = simCard; } @Override public void run() { Looper.prepare(); synchronized (UnlockSim.this) { mHandler = new Handler() { @Override public void handleMessage(Message msg) { AsyncResult ar = (AsyncResult) msg.obj; switch (msg.what) { case SUPPLY_PIN_COMPLETE: Log.d(LOG_TAG, "SUPPLY_PIN_COMPLETE"); synchronized (UnlockSim.this) { mResult = (ar.exception == null); mDone = true; UnlockSim.this.notifyAll(); } break; } } }; UnlockSim.this.notifyAll(); } Looper.loop(); } /* * Use PIN or PUK to unlock SIM card * * If PUK is null, unlock SIM card with PIN * * If PUK is not null, unlock SIM card with PUK and set PIN code */ synchronized boolean unlockSim(String puk, String pin) { while (mHandler == null) { try { wait(); } catch (InterruptedException e) { Thread.currentThread().interrupt(); } } Message callback = Message.obtain(mHandler, SUPPLY_PIN_COMPLETE); if (puk == null) { mSimCard.supplyPin(pin, callback); } else { mSimCard.supplyPuk(puk, pin, callback); } while (!mDone) { try { Log.d(LOG_TAG, "wait for done"); wait(); } catch (InterruptedException e) { // Restore the interrupted status Thread.currentThread().interrupt(); } } Log.d(LOG_TAG, "done"); return mResult; } } public void updateServiceLocation() { // No permission check needed here: this call is harmless, and it's // needed for the ServiceState.requestStateUpdate() call (which is // already intentionally exposed to 3rd parties.) mPhone.updateServiceLocation(); } public boolean isRadioOn() { return mPhone.getServiceState().getVoiceRegState() != ServiceState.STATE_POWER_OFF; } public void toggleRadioOnOff() { enforceModifyPermission(); mPhone.setRadioPower(!isRadioOn()); } public boolean setRadio(boolean turnOn) { enforceModifyPermission(); if ((mPhone.getServiceState().getVoiceRegState() != ServiceState.STATE_POWER_OFF) != turnOn) { toggleRadioOnOff(); } return true; } public boolean setRadioPower(boolean turnOn) { enforceModifyPermission(); mPhone.setRadioPower(turnOn); return true; } public boolean enableDataConnectivity() { enforceModifyPermission(); ConnectivityManager cm = (ConnectivityManager)mApp.getSystemService(Context.CONNECTIVITY_SERVICE); cm.setMobileDataEnabled(true); return true; } public int enableApnType(String type) { enforceModifyPermission(); return mPhone.enableApnType(type); } public int disableApnType(String type) { enforceModifyPermission(); return mPhone.disableApnType(type); } public boolean disableDataConnectivity() { enforceModifyPermission(); ConnectivityManager cm = (ConnectivityManager)mApp.getSystemService(Context.CONNECTIVITY_SERVICE); cm.setMobileDataEnabled(false); return true; } public boolean isDataConnectivityPossible() { return mPhone.isDataConnectivityPossible(); } public boolean handlePinMmi(String dialString) { enforceModifyPermission(); return (Boolean) sendRequest(CMD_HANDLE_PIN_MMI, dialString); } public void cancelMissedCallsNotification() { enforceModifyPermission(); mApp.notificationMgr.cancelMissedCallNotification(); } public int getCallState() { return DefaultPhoneNotifier.convertCallState(mCM.getState()); } public int getDataState() { return DefaultPhoneNotifier.convertDataState(mPhone.getDataConnectionState()); } public int getDataActivity() { return DefaultPhoneNotifier.convertDataActivityState(mPhone.getDataActivityState()); } @Override public Bundle getCellLocation() { try { mApp.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_FINE_LOCATION, null); } catch (SecurityException e) { // If we have ACCESS_FINE_LOCATION permission, skip the check for ACCESS_COARSE_LOCATION // A failure should throw the SecurityException from ACCESS_COARSE_LOCATION since this // is the weaker precondition mApp.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_COARSE_LOCATION, null); } if (checkIfCallerIsSelfOrForegoundUser()) { if (DBG_LOC) log("getCellLocation: is active user"); Bundle data = new Bundle(); mPhone.getCellLocation().fillInNotifierBundle(data); return data; } else { if (DBG_LOC) log("getCellLocation: suppress non-active user"); return null; } } @Override public void enableLocationUpdates() { mApp.enforceCallingOrSelfPermission( android.Manifest.permission.CONTROL_LOCATION_UPDATES, null); mPhone.enableLocationUpdates(); } @Override public void disableLocationUpdates() { mApp.enforceCallingOrSelfPermission( android.Manifest.permission.CONTROL_LOCATION_UPDATES, null); mPhone.disableLocationUpdates(); } @Override @SuppressWarnings("unchecked") public List getNeighboringCellInfo(String callingPackage) { try { mApp.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_FINE_LOCATION, null); } catch (SecurityException e) { // If we have ACCESS_FINE_LOCATION permission, skip the check // for ACCESS_COARSE_LOCATION // A failure should throw the SecurityException from // ACCESS_COARSE_LOCATION since this is the weaker precondition mApp.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_COARSE_LOCATION, null); } if (mAppOps.noteOp(AppOpsManager.OP_NEIGHBORING_CELLS, Binder.getCallingUid(), callingPackage) != AppOpsManager.MODE_ALLOWED) { return null; } if (checkIfCallerIsSelfOrForegoundUser()) { if (DBG_LOC) log("getNeighboringCellInfo: is active user"); ArrayList cells = null; try { cells = (ArrayList) sendRequest( CMD_HANDLE_NEIGHBORING_CELL, null); } catch (RuntimeException e) { Log.e(LOG_TAG, "getNeighboringCellInfo " + e); } return cells; } else { if (DBG_LOC) log("getNeighboringCellInfo: suppress non-active user"); return null; } } @Override public List getAllCellInfo() { try { mApp.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_FINE_LOCATION, null); } catch (SecurityException e) { // If we have ACCESS_FINE_LOCATION permission, skip the check for ACCESS_COARSE_LOCATION // A failure should throw the SecurityException from ACCESS_COARSE_LOCATION since this // is the weaker precondition mApp.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_COARSE_LOCATION, null); } if (checkIfCallerIsSelfOrForegoundUser()) { if (DBG_LOC) log("getAllCellInfo: is active user"); return mPhone.getAllCellInfo(); } else { if (DBG_LOC) log("getAllCellInfo: suppress non-active user"); return null; } } public void setCellInfoListRate(int rateInMillis) { mPhone.setCellInfoListRate(rateInMillis); } // // Internal helper methods. // private boolean checkIfCallerIsSelfOrForegoundUser() { boolean ok; boolean self = Binder.getCallingUid() == Process.myUid(); if (!self) { // Get the caller's user id then clear the calling identity // which will be restored in the finally clause. int callingUser = UserHandle.getCallingUserId(); long ident = Binder.clearCallingIdentity(); try { // With calling identity cleared the current user is the foreground user. int foregroundUser = ActivityManager.getCurrentUser(); ok = (foregroundUser == callingUser); if (DBG_LOC) { log("checkIfCallerIsSelfOrForegoundUser: foregroundUser=" + foregroundUser + " callingUser=" + callingUser + " ok=" + ok); } } catch (Exception ex) { if (DBG_LOC) loge("checkIfCallerIsSelfOrForegoundUser: Exception ex=" + ex); ok = false; } finally { Binder.restoreCallingIdentity(ident); } } else { if (DBG_LOC) log("checkIfCallerIsSelfOrForegoundUser: is self"); ok = true; } if (DBG_LOC) log("checkIfCallerIsSelfOrForegoundUser: ret=" + ok); return ok; } /** * Make sure the caller has the READ_PHONE_STATE permission. * * @throws SecurityException if the caller does not have the required permission */ private void enforceReadPermission() { mApp.enforceCallingOrSelfPermission(android.Manifest.permission.READ_PHONE_STATE, null); } /** * Make sure the caller has the MODIFY_PHONE_STATE permission. * * @throws SecurityException if the caller does not have the required permission */ private void enforceModifyPermission() { mApp.enforceCallingOrSelfPermission(android.Manifest.permission.MODIFY_PHONE_STATE, null); } /** * Make sure the caller has the CALL_PHONE permission. * * @throws SecurityException if the caller does not have the required permission */ private void enforceCallPermission() { mApp.enforceCallingOrSelfPermission(android.Manifest.permission.CALL_PHONE, null); } private String createTelUrl(String number) { if (TextUtils.isEmpty(number)) { return null; } StringBuilder buf = new StringBuilder("tel:"); buf.append(number); return buf.toString(); } private void log(String msg) { Log.d(LOG_TAG, "[PhoneIntfMgr] " + msg); } private void loge(String msg) { Log.e(LOG_TAG, "[PhoneIntfMgr] " + msg); } public int getActivePhoneType() { return mPhone.getPhoneType(); } /** * Returns the CDMA ERI icon index to display */ public int getCdmaEriIconIndex() { return mPhone.getCdmaEriIconIndex(); } /** * Returns the CDMA ERI icon mode, * 0 - ON * 1 - FLASHING */ public int getCdmaEriIconMode() { return mPhone.getCdmaEriIconMode(); } /** * Returns the CDMA ERI text, */ public String getCdmaEriText() { return mPhone.getCdmaEriText(); } /** * Returns true if CDMA provisioning needs to run. */ public boolean needsOtaServiceProvisioning() { return mPhone.needsOtaServiceProvisioning(); } /** * Returns the unread count of voicemails */ public int getVoiceMessageCount() { return mPhone.getVoiceMessageCount(); } /** * Returns the data network type * * @Deprecated to be removed Q3 2013 use {@link #getDataNetworkType}. */ @Override public int getNetworkType() { return mPhone.getServiceState().getDataNetworkType(); } /** * Returns the data network type */ @Override public int getDataNetworkType() { return mPhone.getServiceState().getDataNetworkType(); } /** * Returns the data network type */ @Override public int getVoiceNetworkType() { return mPhone.getServiceState().getVoiceNetworkType(); } /** * @return true if a ICC card is present */ public boolean hasIccCard() { return mPhone.getIccCard().hasIccCard(); } /** * Return if the current radio is LTE on CDMA. This * is a tri-state return value as for a period of time * the mode may be unknown. * * @return {@link Phone#LTE_ON_CDMA_UNKNOWN}, {@link Phone#LTE_ON_CDMA_FALSE} * or {@link PHone#LTE_ON_CDMA_TRUE} */ public int getLteOnCdmaMode() { return mPhone.getLteOnCdmaMode(); } }