/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.internal.telephony; import com.android.internal.telephony.imsphone.ImsPhone; import com.android.internal.telephony.sip.SipPhone; import android.content.Context; import android.os.AsyncResult; import android.os.Handler; import android.os.Message; import android.os.RegistrantList; import android.os.Registrant; import android.telecom.VideoProfile; import android.telephony.PhoneNumberUtils; import android.telephony.TelephonyManager; import android.telephony.PhoneStateListener; import android.telephony.ServiceState; import android.telephony.Rlog; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.List; /** * @hide * * CallManager class provides an abstract layer for PhoneApp to access * and control calls. It implements Phone interface. * * CallManager provides call and connection control as well as * channel capability. * * There are three categories of APIs CallManager provided * * 1. Call control and operation, such as dial() and hangup() * 2. Channel capabilities, such as CanConference() * 3. Register notification * * */ public final class CallManager { private static final String LOG_TAG ="CallManager"; private static final boolean DBG = true; private static final boolean VDBG = false; private static final int EVENT_DISCONNECT = 100; private static final int EVENT_PRECISE_CALL_STATE_CHANGED = 101; private static final int EVENT_NEW_RINGING_CONNECTION = 102; private static final int EVENT_UNKNOWN_CONNECTION = 103; private static final int EVENT_INCOMING_RING = 104; private static final int EVENT_RINGBACK_TONE = 105; private static final int EVENT_IN_CALL_VOICE_PRIVACY_ON = 106; private static final int EVENT_IN_CALL_VOICE_PRIVACY_OFF = 107; private static final int EVENT_CALL_WAITING = 108; private static final int EVENT_DISPLAY_INFO = 109; private static final int EVENT_SIGNAL_INFO = 110; private static final int EVENT_CDMA_OTA_STATUS_CHANGE = 111; private static final int EVENT_RESEND_INCALL_MUTE = 112; private static final int EVENT_MMI_INITIATE = 113; private static final int EVENT_MMI_COMPLETE = 114; private static final int EVENT_ECM_TIMER_RESET = 115; private static final int EVENT_SUBSCRIPTION_INFO_READY = 116; private static final int EVENT_SUPP_SERVICE_FAILED = 117; private static final int EVENT_SERVICE_STATE_CHANGED = 118; private static final int EVENT_POST_DIAL_CHARACTER = 119; private static final int EVENT_ONHOLD_TONE = 120; // Singleton instance private static final CallManager INSTANCE = new CallManager(); // list of registered phones, which are PhoneBase objs private final ArrayList mPhones; // list of supported ringing calls private final ArrayList mRingingCalls; // list of supported background calls private final ArrayList mBackgroundCalls; // list of supported foreground calls private final ArrayList mForegroundCalls; // empty connection list private final ArrayList mEmptyConnections = new ArrayList(); // mapping of phones to registered handler instances used for callbacks from RIL private final HashMap mHandlerMap = new HashMap<>(); // default phone as the first phone registered, which is PhoneBase obj private Phone mDefaultPhone; private boolean mSpeedUpAudioForMtCall = false; // state registrants protected final RegistrantList mPreciseCallStateRegistrants = new RegistrantList(); protected final RegistrantList mNewRingingConnectionRegistrants = new RegistrantList(); protected final RegistrantList mIncomingRingRegistrants = new RegistrantList(); protected final RegistrantList mDisconnectRegistrants = new RegistrantList(); protected final RegistrantList mMmiRegistrants = new RegistrantList(); protected final RegistrantList mUnknownConnectionRegistrants = new RegistrantList(); protected final RegistrantList mRingbackToneRegistrants = new RegistrantList(); protected final RegistrantList mOnHoldToneRegistrants = new RegistrantList(); protected final RegistrantList mInCallVoicePrivacyOnRegistrants = new RegistrantList(); protected final RegistrantList mInCallVoicePrivacyOffRegistrants = new RegistrantList(); protected final RegistrantList mCallWaitingRegistrants = new RegistrantList(); protected final RegistrantList mDisplayInfoRegistrants = new RegistrantList(); protected final RegistrantList mSignalInfoRegistrants = new RegistrantList(); protected final RegistrantList mCdmaOtaStatusChangeRegistrants = new RegistrantList(); protected final RegistrantList mResendIncallMuteRegistrants = new RegistrantList(); protected final RegistrantList mMmiInitiateRegistrants = new RegistrantList(); protected final RegistrantList mMmiCompleteRegistrants = new RegistrantList(); protected final RegistrantList mEcmTimerResetRegistrants = new RegistrantList(); protected final RegistrantList mSubscriptionInfoReadyRegistrants = new RegistrantList(); protected final RegistrantList mSuppServiceFailedRegistrants = new RegistrantList(); protected final RegistrantList mServiceStateChangedRegistrants = new RegistrantList(); protected final RegistrantList mPostDialCharacterRegistrants = new RegistrantList(); private CallManager() { mPhones = new ArrayList(); mRingingCalls = new ArrayList(); mBackgroundCalls = new ArrayList(); mForegroundCalls = new ArrayList(); mDefaultPhone = null; } /** * get singleton instance of CallManager * @return CallManager */ public static CallManager getInstance() { return INSTANCE; } /** * Get the corresponding PhoneBase obj * * @param phone a Phone object * @return the corresponding PhoneBase obj in Phone if Phone * is a PhoneProxy obj * or the Phone itself if Phone is not a PhoneProxy obj */ private static Phone getPhoneBase(Phone phone) { if (phone instanceof PhoneProxy) { return phone.getForegroundCall().getPhone(); } return phone; } /** * Check if two phones refer to the same PhoneBase obj * * Note: PhoneBase, not PhoneProxy, is to be used inside of CallManager * * Both PhoneBase and PhoneProxy implement Phone interface, so * they have same phone APIs, such as dial(). The real implementation, for * example in GSM, is in GSMPhone as extend from PhoneBase, so that * foregroundCall.getPhone() returns GSMPhone obj. On the other hand, * PhoneFactory.getDefaultPhone() returns PhoneProxy obj, which has a class * member of GSMPhone. * * So for phone returned by PhoneFacotry, which is used by PhoneApp, * phone.getForegroundCall().getPhone() != phone * but * isSamePhone(phone, phone.getForegroundCall().getPhone()) == true * * @param p1 is the first Phone obj * @param p2 is the second Phone obj * @return true if p1 and p2 refer to the same phone */ public static boolean isSamePhone(Phone p1, Phone p2) { return (getPhoneBase(p1) == getPhoneBase(p2)); } /** * Returns all the registered phone objects. * @return all the registered phone objects. */ public List getAllPhones() { return Collections.unmodifiableList(mPhones); } /** * get Phone object corresponds to subId * @return Phone */ private Phone getPhone(long subId) { Phone p = null; for (Phone phone : mPhones) { if (phone.getSubId() == subId && !(phone instanceof ImsPhone)) { p = phone; break; } } return p; } /** * Get current coarse-grained voice call state. * If the Call Manager has an active call and call waiting occurs, * then the phone state is RINGING not OFFHOOK * */ public PhoneConstants.State getState() { PhoneConstants.State s = PhoneConstants.State.IDLE; for (Phone phone : mPhones) { if (phone.getState() == PhoneConstants.State.RINGING) { s = PhoneConstants.State.RINGING; } else if (phone.getState() == PhoneConstants.State.OFFHOOK) { if (s == PhoneConstants.State.IDLE) s = PhoneConstants.State.OFFHOOK; } } return s; } /** * Get current coarse-grained voice call state on a subId. * If the Call Manager has an active call and call waiting occurs, * then the phone state is RINGING not OFFHOOK * */ public PhoneConstants.State getState(long subId) { PhoneConstants.State s = PhoneConstants.State.IDLE; for (Phone phone : mPhones) { if (phone.getSubId() == subId) { if (phone.getState() == PhoneConstants.State.RINGING) { s = PhoneConstants.State.RINGING; } else if (phone.getState() == PhoneConstants.State.OFFHOOK) { if (s == PhoneConstants.State.IDLE) s = PhoneConstants.State.OFFHOOK; } } } return s; } /** * @return the service state of CallManager, which represents the * highest priority state of all the service states of phones * * The priority is defined as * * STATE_IN_SERIVCE > STATE_OUT_OF_SERIVCE > STATE_EMERGENCY > STATE_POWER_OFF * */ public int getServiceState() { int resultState = ServiceState.STATE_OUT_OF_SERVICE; for (Phone phone : mPhones) { int serviceState = phone.getServiceState().getState(); if (serviceState == ServiceState.STATE_IN_SERVICE) { // IN_SERVICE has the highest priority resultState = serviceState; break; } else if (serviceState == ServiceState.STATE_OUT_OF_SERVICE) { // OUT_OF_SERVICE replaces EMERGENCY_ONLY and POWER_OFF // Note: EMERGENCY_ONLY is not in use at this moment if ( resultState == ServiceState.STATE_EMERGENCY_ONLY || resultState == ServiceState.STATE_POWER_OFF) { resultState = serviceState; } } else if (serviceState == ServiceState.STATE_EMERGENCY_ONLY) { if (resultState == ServiceState.STATE_POWER_OFF) { resultState = serviceState; } } } return resultState; } /** * @return the Phone service state corresponds to subId */ public int getServiceState(long subId) { int resultState = ServiceState.STATE_OUT_OF_SERVICE; for (Phone phone : mPhones) { if (phone.getSubId() == subId) { int serviceState = phone.getServiceState().getState(); if (serviceState == ServiceState.STATE_IN_SERVICE) { // IN_SERVICE has the highest priority resultState = serviceState; break; } else if (serviceState == ServiceState.STATE_OUT_OF_SERVICE) { // OUT_OF_SERVICE replaces EMERGENCY_ONLY and POWER_OFF // Note: EMERGENCY_ONLY is not in use at this moment if ( resultState == ServiceState.STATE_EMERGENCY_ONLY || resultState == ServiceState.STATE_POWER_OFF) { resultState = serviceState; } } else if (serviceState == ServiceState.STATE_EMERGENCY_ONLY) { if (resultState == ServiceState.STATE_POWER_OFF) { resultState = serviceState; } } } } return resultState; } /** * @return the phone associated with any call */ public Phone getPhoneInCall() { Phone phone = null; if (!getFirstActiveRingingCall().isIdle()) { phone = getFirstActiveRingingCall().getPhone(); } else if (!getActiveFgCall().isIdle()) { phone = getActiveFgCall().getPhone(); } else { // If BG call is idle, we return default phone phone = getFirstActiveBgCall().getPhone(); } return phone; } public Phone getPhoneInCall(long subId) { Phone phone = null; if (!getFirstActiveRingingCall(subId).isIdle()) { phone = getFirstActiveRingingCall(subId).getPhone(); } else if (!getActiveFgCall(subId).isIdle()) { phone = getActiveFgCall(subId).getPhone(); } else { // If BG call is idle, we return default phone phone = getFirstActiveBgCall(subId).getPhone(); } return phone; } /** * Register phone to CallManager * @param phone to be registered * @return true if register successfully */ public boolean registerPhone(Phone phone) { Phone basePhone = getPhoneBase(phone); if (basePhone != null && !mPhones.contains(basePhone)) { if (DBG) { Rlog.d(LOG_TAG, "registerPhone(" + phone.getPhoneName() + " " + phone + ")"); } if (mPhones.isEmpty()) { mDefaultPhone = basePhone; } mPhones.add(basePhone); mRingingCalls.add(basePhone.getRingingCall()); mBackgroundCalls.add(basePhone.getBackgroundCall()); mForegroundCalls.add(basePhone.getForegroundCall()); registerForPhoneStates(basePhone); return true; } return false; } /** * unregister phone from CallManager * @param phone to be unregistered */ public void unregisterPhone(Phone phone) { Phone basePhone = getPhoneBase(phone); if (basePhone != null && mPhones.contains(basePhone)) { if (DBG) { Rlog.d(LOG_TAG, "unregisterPhone(" + phone.getPhoneName() + " " + phone + ")"); } Phone vPhone = basePhone.getImsPhone(); if (vPhone != null) { unregisterPhone(vPhone); } mPhones.remove(basePhone); mRingingCalls.remove(basePhone.getRingingCall()); mBackgroundCalls.remove(basePhone.getBackgroundCall()); mForegroundCalls.remove(basePhone.getForegroundCall()); unregisterForPhoneStates(basePhone); if (basePhone == mDefaultPhone) { if (mPhones.isEmpty()) { mDefaultPhone = null; } else { mDefaultPhone = mPhones.get(0); } } } } /** * return the default phone or null if no phone available */ public Phone getDefaultPhone() { return mDefaultPhone; } /** * @return the phone associated with the foreground call */ public Phone getFgPhone() { return getActiveFgCall().getPhone(); } /** * @return the phone associated with the foreground call * of a particular subId */ public Phone getFgPhone(long subId) { return getActiveFgCall(subId).getPhone(); } /** * @return the phone associated with the background call */ public Phone getBgPhone() { return getFirstActiveBgCall().getPhone(); } /** * @return the phone associated with the background call * of a particular subId */ public Phone getBgPhone(long subId) { return getFirstActiveBgCall(subId).getPhone(); } /** * @return the phone associated with the ringing call */ public Phone getRingingPhone() { return getFirstActiveRingingCall().getPhone(); } /** * @return the phone associated with the ringing call * of a particular subId */ public Phone getRingingPhone(long subId) { return getFirstActiveRingingCall(subId).getPhone(); } private Context getContext() { Phone defaultPhone = getDefaultPhone(); return ((defaultPhone == null) ? null : defaultPhone.getContext()); } private void registerForPhoneStates(Phone phone) { // We need to keep a mapping of handler to Phone for proper unregistration. // TODO: Clean up this solution as it is just a work around for each Phone instance // using the same Handler to register with the RIL. When time permits, we should consider // moving the handler (or the reference ot the handler) into the Phone object. // See b/17414427. CallManagerHandler handler = mHandlerMap.get(phone); if (handler != null) { Rlog.d(LOG_TAG, "This phone has already been registered."); return; } // New registration, create a new handler instance and register the phone. handler = new CallManagerHandler(); mHandlerMap.put(phone, handler); // for common events supported by all phones phone.registerForPreciseCallStateChanged(handler, EVENT_PRECISE_CALL_STATE_CHANGED, null); phone.registerForDisconnect(handler, EVENT_DISCONNECT, null); phone.registerForNewRingingConnection(handler, EVENT_NEW_RINGING_CONNECTION, null); phone.registerForUnknownConnection(handler, EVENT_UNKNOWN_CONNECTION, null); phone.registerForIncomingRing(handler, EVENT_INCOMING_RING, null); phone.registerForRingbackTone(handler, EVENT_RINGBACK_TONE, null); phone.registerForInCallVoicePrivacyOn(handler, EVENT_IN_CALL_VOICE_PRIVACY_ON, null); phone.registerForInCallVoicePrivacyOff(handler, EVENT_IN_CALL_VOICE_PRIVACY_OFF, null); phone.registerForDisplayInfo(handler, EVENT_DISPLAY_INFO, null); phone.registerForSignalInfo(handler, EVENT_SIGNAL_INFO, null); phone.registerForResendIncallMute(handler, EVENT_RESEND_INCALL_MUTE, null); phone.registerForMmiInitiate(handler, EVENT_MMI_INITIATE, null); phone.registerForMmiComplete(handler, EVENT_MMI_COMPLETE, null); phone.registerForSuppServiceFailed(handler, EVENT_SUPP_SERVICE_FAILED, null); phone.registerForServiceStateChanged(handler, EVENT_SERVICE_STATE_CHANGED, null); // for events supported only by GSM, CDMA and IMS phone if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_GSM || phone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA || phone.getPhoneType() == PhoneConstants.PHONE_TYPE_IMS) { phone.setOnPostDialCharacter(handler, EVENT_POST_DIAL_CHARACTER, null); } // for events supported only by CDMA phone if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA ){ phone.registerForCdmaOtaStatusChange(handler, EVENT_CDMA_OTA_STATUS_CHANGE, null); phone.registerForSubscriptionInfoReady(handler, EVENT_SUBSCRIPTION_INFO_READY, null); phone.registerForCallWaiting(handler, EVENT_CALL_WAITING, null); phone.registerForEcmTimerReset(handler, EVENT_ECM_TIMER_RESET, null); } // for events supported only by IMS phone if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_IMS) { phone.registerForOnHoldTone(handler, EVENT_ONHOLD_TONE, null); } } private void unregisterForPhoneStates(Phone phone) { // Make sure that we clean up our map of handlers to Phones. CallManagerHandler handler = mHandlerMap.get(phone); if (handler != null) { Rlog.e(LOG_TAG, "Could not find Phone handler for unregistration"); return; } mHandlerMap.remove(phone); // for common events supported by all phones phone.unregisterForPreciseCallStateChanged(handler); phone.unregisterForDisconnect(handler); phone.unregisterForNewRingingConnection(handler); phone.unregisterForUnknownConnection(handler); phone.unregisterForIncomingRing(handler); phone.unregisterForRingbackTone(handler); phone.unregisterForInCallVoicePrivacyOn(handler); phone.unregisterForInCallVoicePrivacyOff(handler); phone.unregisterForDisplayInfo(handler); phone.unregisterForSignalInfo(handler); phone.unregisterForResendIncallMute(handler); phone.unregisterForMmiInitiate(handler); phone.unregisterForMmiComplete(handler); phone.unregisterForSuppServiceFailed(handler); phone.unregisterForServiceStateChanged(handler); // for events supported only by GSM, CDMA and IMS phone if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_GSM || phone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA || phone.getPhoneType() == PhoneConstants.PHONE_TYPE_IMS) { phone.setOnPostDialCharacter(null, EVENT_POST_DIAL_CHARACTER, null); } // for events supported only by CDMA phone if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA ){ phone.unregisterForCdmaOtaStatusChange(handler); phone.unregisterForSubscriptionInfoReady(handler); phone.unregisterForCallWaiting(handler); phone.unregisterForEcmTimerReset(handler); } // for events supported only by IMS phone if (phone.getPhoneType() == PhoneConstants.PHONE_TYPE_IMS) { phone.unregisterForOnHoldTone(handler); } } /** * Answers a ringing or waiting call. * * Active call, if any, go on hold. * If active call can't be held, i.e., a background call of the same channel exists, * the active call will be hang up. * * Answering occurs asynchronously, and final notification occurs via * {@link #registerForPreciseCallStateChanged(android.os.Handler, int, * java.lang.Object) registerForPreciseCallStateChanged()}. * * @exception CallStateException when call is not ringing or waiting */ public void acceptCall(Call ringingCall) throws CallStateException { Phone ringingPhone = ringingCall.getPhone(); if (VDBG) { Rlog.d(LOG_TAG, "acceptCall(" +ringingCall + " from " + ringingCall.getPhone() + ")"); Rlog.d(LOG_TAG, toString()); } if ( hasActiveFgCall() ) { Phone activePhone = getActiveFgCall().getPhone(); boolean hasBgCall = ! (activePhone.getBackgroundCall().isIdle()); boolean sameChannel = (activePhone == ringingPhone); if (VDBG) { Rlog.d(LOG_TAG, "hasBgCall: "+ hasBgCall + "sameChannel:" + sameChannel); } if (sameChannel && hasBgCall) { getActiveFgCall().hangup(); } else if (!sameChannel && !hasBgCall) { activePhone.switchHoldingAndActive(); } else if (!sameChannel && hasBgCall) { getActiveFgCall().hangup(); } } // We only support the AUDIO_ONLY video state in this scenario. ringingPhone.acceptCall(VideoProfile.VideoState.AUDIO_ONLY); if (VDBG) { Rlog.d(LOG_TAG, "End acceptCall(" +ringingCall + ")"); Rlog.d(LOG_TAG, toString()); } } /** * Reject (ignore) a ringing call. In GSM, this means UDUB * (User Determined User Busy). Reject occurs asynchronously, * and final notification occurs via * {@link #registerForPreciseCallStateChanged(android.os.Handler, int, * java.lang.Object) registerForPreciseCallStateChanged()}. * * @exception CallStateException when no call is ringing or waiting */ public void rejectCall(Call ringingCall) throws CallStateException { if (VDBG) { Rlog.d(LOG_TAG, "rejectCall(" +ringingCall + ")"); Rlog.d(LOG_TAG, toString()); } Phone ringingPhone = ringingCall.getPhone(); ringingPhone.rejectCall(); if (VDBG) { Rlog.d(LOG_TAG, "End rejectCall(" +ringingCall + ")"); Rlog.d(LOG_TAG, toString()); } } /** * Places active call on hold, and makes held call active. * Switch occurs asynchronously and may fail. * * There are 4 scenarios * 1. only active call but no held call, aka, hold * 2. no active call but only held call, aka, unhold * 3. both active and held calls from same phone, aka, swap * 4. active and held calls from different phones, aka, phone swap * * Final notification occurs via * {@link #registerForPreciseCallStateChanged(android.os.Handler, int, * java.lang.Object) registerForPreciseCallStateChanged()}. * * @exception CallStateException if active call is ringing, waiting, or * dialing/alerting, or heldCall can't be active. * In these cases, this operation may not be performed. */ public void switchHoldingAndActive(Call heldCall) throws CallStateException { Phone activePhone = null; Phone heldPhone = null; if (VDBG) { Rlog.d(LOG_TAG, "switchHoldingAndActive(" +heldCall + ")"); Rlog.d(LOG_TAG, toString()); } if (hasActiveFgCall()) { activePhone = getActiveFgCall().getPhone(); } if (heldCall != null) { heldPhone = heldCall.getPhone(); } if (activePhone != null) { activePhone.switchHoldingAndActive(); } if (heldPhone != null && heldPhone != activePhone) { heldPhone.switchHoldingAndActive(); } if (VDBG) { Rlog.d(LOG_TAG, "End switchHoldingAndActive(" +heldCall + ")"); Rlog.d(LOG_TAG, toString()); } } /** * Hangup foreground call and resume the specific background call * * Note: this is noop if there is no foreground call or the heldCall is null * * @param heldCall to become foreground * @throws CallStateException */ public void hangupForegroundResumeBackground(Call heldCall) throws CallStateException { Phone foregroundPhone = null; Phone backgroundPhone = null; if (VDBG) { Rlog.d(LOG_TAG, "hangupForegroundResumeBackground(" +heldCall + ")"); Rlog.d(LOG_TAG, toString()); } if (hasActiveFgCall()) { foregroundPhone = getFgPhone(); if (heldCall != null) { backgroundPhone = heldCall.getPhone(); if (foregroundPhone == backgroundPhone) { getActiveFgCall().hangup(); } else { // the call to be hangup and resumed belongs to different phones getActiveFgCall().hangup(); switchHoldingAndActive(heldCall); } } } if (VDBG) { Rlog.d(LOG_TAG, "End hangupForegroundResumeBackground(" +heldCall + ")"); Rlog.d(LOG_TAG, toString()); } } /** * Whether or not the phone can conference in the current phone * state--that is, one call holding and one call active. * @return true if the phone can conference; false otherwise. */ public boolean canConference(Call heldCall) { Phone activePhone = null; Phone heldPhone = null; if (hasActiveFgCall()) { activePhone = getActiveFgCall().getPhone(); } if (heldCall != null) { heldPhone = heldCall.getPhone(); } return heldPhone.getClass().equals(activePhone.getClass()); } /** * Whether or not the phone can conference in the current phone * state--that is, one call holding and one call active. * This method consider the phone object which is specific * to the provided subId. * @return true if the phone can conference; false otherwise. */ public boolean canConference(Call heldCall, long subId) { Phone activePhone = null; Phone heldPhone = null; if (hasActiveFgCall(subId)) { activePhone = getActiveFgCall(subId).getPhone(); } if (heldCall != null) { heldPhone = heldCall.getPhone(); } return heldPhone.getClass().equals(activePhone.getClass()); } /** * Conferences holding and active. Conference occurs asynchronously * and may fail. Final notification occurs via * {@link #registerForPreciseCallStateChanged(android.os.Handler, int, * java.lang.Object) registerForPreciseCallStateChanged()}. * * @exception CallStateException if canConference() would return false. * In these cases, this operation may not be performed. */ public void conference(Call heldCall) throws CallStateException { long subId = heldCall.getPhone().getSubId(); if (VDBG) { Rlog.d(LOG_TAG, "conference(" +heldCall + ")"); Rlog.d(LOG_TAG, toString()); } Phone fgPhone = getFgPhone(subId); if (fgPhone != null) { if (fgPhone instanceof SipPhone) { ((SipPhone) fgPhone).conference(heldCall); } else if (canConference(heldCall)) { fgPhone.conference(); } else { throw(new CallStateException("Can't conference foreground and selected background call")); } } else { Rlog.d(LOG_TAG, "conference: fgPhone=null"); } if (VDBG) { Rlog.d(LOG_TAG, "End conference(" +heldCall + ")"); Rlog.d(LOG_TAG, toString()); } } /** * Initiate a new voice connection. This happens asynchronously, so you * cannot assume the audio path is connected (or a call index has been * assigned) until PhoneStateChanged notification has occurred. * * @exception CallStateException if a new outgoing call is not currently * possible because no more call slots exist or a call exists that is * dialing, alerting, ringing, or waiting. Other errors are * handled asynchronously. */ public Connection dial(Phone phone, String dialString, int videoState) throws CallStateException { Phone basePhone = getPhoneBase(phone); long subId = phone.getSubId(); Connection result; if (VDBG) { Rlog.d(LOG_TAG, " dial(" + basePhone + ", "+ dialString + ")" + " subId = " + subId); Rlog.d(LOG_TAG, toString()); } if (!canDial(phone)) { /* * canDial function only checks whether the phone can make a new call. * InCall MMI commmands are basically supplementary services * within a call eg: call hold, call deflection, explicit call transfer etc. */ String newDialString = PhoneNumberUtils.stripSeparators(dialString); if (basePhone.handleInCallMmiCommands(newDialString)) { return null; } else { throw new CallStateException("cannot dial in current state"); } } if ( hasActiveFgCall(subId) ) { Phone activePhone = getActiveFgCall(subId).getPhone(); boolean hasBgCall = !(activePhone.getBackgroundCall().isIdle()); if (DBG) { Rlog.d(LOG_TAG, "hasBgCall: "+ hasBgCall + " sameChannel:" + (activePhone == basePhone)); } // Manipulation between IMS phone and its owner // will be treated in GSM/CDMA phone. Phone vPhone = basePhone.getImsPhone(); if (activePhone != basePhone && (vPhone == null || vPhone != activePhone)) { if (hasBgCall) { Rlog.d(LOG_TAG, "Hangup"); getActiveFgCall(subId).hangup(); } else { Rlog.d(LOG_TAG, "Switch"); activePhone.switchHoldingAndActive(); } } } result = basePhone.dial(dialString, videoState); if (VDBG) { Rlog.d(LOG_TAG, "End dial(" + basePhone + ", "+ dialString + ")"); Rlog.d(LOG_TAG, toString()); } return result; } /** * Initiate a new voice connection. This happens asynchronously, so you * cannot assume the audio path is connected (or a call index has been * assigned) until PhoneStateChanged notification has occurred. * * @exception CallStateException if a new outgoing call is not currently * possible because no more call slots exist or a call exists that is * dialing, alerting, ringing, or waiting. Other errors are * handled asynchronously. */ public Connection dial(Phone phone, String dialString, UUSInfo uusInfo, int videoState) throws CallStateException { return phone.dial(dialString, uusInfo, videoState); } /** * clear disconnect connection for each phone */ public void clearDisconnected() { for(Phone phone : mPhones) { phone.clearDisconnected(); } } /** * clear disconnect connection for a phone specific * to the provided subId */ public void clearDisconnected(long subId) { for(Phone phone : mPhones) { if (phone.getSubId() == subId) { phone.clearDisconnected(); } } } /** * Phone can make a call only if ALL of the following are true: * - Phone is not powered off * - There's no incoming or waiting call * - The foreground call is ACTIVE or IDLE or DISCONNECTED. * (We mainly need to make sure it *isn't* DIALING or ALERTING.) * @param phone * @return true if the phone can make a new call */ private boolean canDial(Phone phone) { int serviceState = phone.getServiceState().getState(); long subId = phone.getSubId(); boolean hasRingingCall = hasActiveRingingCall(); Call.State fgCallState = getActiveFgCallState(subId); boolean result = (serviceState != ServiceState.STATE_POWER_OFF && !hasRingingCall && ((fgCallState == Call.State.ACTIVE) || (fgCallState == Call.State.IDLE) || (fgCallState == Call.State.DISCONNECTED) /*As per 3GPP TS 51.010-1 section 31.13.1.4 call should be alowed when the foreground call is in ALERTING state*/ || (fgCallState == Call.State.ALERTING))); if (result == false) { Rlog.d(LOG_TAG, "canDial serviceState=" + serviceState + " hasRingingCall=" + hasRingingCall + " fgCallState=" + fgCallState); } return result; } /** * Whether or not the phone can do explicit call transfer in the current * phone state--that is, one call holding and one call active. * @return true if the phone can do explicit call transfer; false otherwise. */ public boolean canTransfer(Call heldCall) { Phone activePhone = null; Phone heldPhone = null; if (hasActiveFgCall()) { activePhone = getActiveFgCall().getPhone(); } if (heldCall != null) { heldPhone = heldCall.getPhone(); } return (heldPhone == activePhone && activePhone.canTransfer()); } /** * Whether or not the phone specific to subId can do explicit call transfer * in the current phone state--that is, one call holding and one call active. * @return true if the phone can do explicit call transfer; false otherwise. */ public boolean canTransfer(Call heldCall, long subId) { Phone activePhone = null; Phone heldPhone = null; if (hasActiveFgCall(subId)) { activePhone = getActiveFgCall(subId).getPhone(); } if (heldCall != null) { heldPhone = heldCall.getPhone(); } return (heldPhone == activePhone && activePhone.canTransfer()); } /** * Connects the held call and active call * Disconnects the subscriber from both calls * * Explicit Call Transfer occurs asynchronously * and may fail. Final notification occurs via * {@link #registerForPreciseCallStateChanged(android.os.Handler, int, * java.lang.Object) registerForPreciseCallStateChanged()}. * * @exception CallStateException if canTransfer() would return false. * In these cases, this operation may not be performed. */ public void explicitCallTransfer(Call heldCall) throws CallStateException { if (VDBG) { Rlog.d(LOG_TAG, " explicitCallTransfer(" + heldCall + ")"); Rlog.d(LOG_TAG, toString()); } if (canTransfer(heldCall)) { heldCall.getPhone().explicitCallTransfer(); } if (VDBG) { Rlog.d(LOG_TAG, "End explicitCallTransfer(" + heldCall + ")"); Rlog.d(LOG_TAG, toString()); } } /** * Returns a list of MMI codes that are pending for a phone. (They have initiated * but have not yet completed). * Presently there is only ever one. * * Use registerForMmiInitiate * and registerForMmiComplete for change notification. * @return null if phone doesn't have or support mmi code */ public List getPendingMmiCodes(Phone phone) { Rlog.e(LOG_TAG, "getPendingMmiCodes not implemented"); return null; } /** * Sends user response to a USSD REQUEST message. An MmiCode instance * representing this response is sent to handlers registered with * registerForMmiInitiate. * * @param ussdMessge Message to send in the response. * @return false if phone doesn't support ussd service */ public boolean sendUssdResponse(Phone phone, String ussdMessge) { Rlog.e(LOG_TAG, "sendUssdResponse not implemented"); return false; } /** * Mutes or unmutes the microphone for the active call. The microphone * is automatically unmuted if a call is answered, dialed, or resumed * from a holding state. * * @param muted true to mute the microphone, * false to activate the microphone. */ public void setMute(boolean muted) { if (VDBG) { Rlog.d(LOG_TAG, " setMute(" + muted + ")"); Rlog.d(LOG_TAG, toString()); } if (hasActiveFgCall()) { getActiveFgCall().getPhone().setMute(muted); } if (VDBG) { Rlog.d(LOG_TAG, "End setMute(" + muted + ")"); Rlog.d(LOG_TAG, toString()); } } /** * Gets current mute status. Use * {@link #registerForPreciseCallStateChanged(android.os.Handler, int, * java.lang.Object) registerForPreciseCallStateChanged()} * as a change notifcation, although presently phone state changed is not * fired when setMute() is called. * * @return true is muting, false is unmuting */ public boolean getMute() { if (hasActiveFgCall()) { return getActiveFgCall().getPhone().getMute(); } else if (hasActiveBgCall()) { return getFirstActiveBgCall().getPhone().getMute(); } return false; } /** * Enables or disables echo suppression. */ public void setEchoSuppressionEnabled() { if (VDBG) { Rlog.d(LOG_TAG, " setEchoSuppression()"); Rlog.d(LOG_TAG, toString()); } if (hasActiveFgCall()) { getActiveFgCall().getPhone().setEchoSuppressionEnabled(); } if (VDBG) { Rlog.d(LOG_TAG, "End setEchoSuppression()"); Rlog.d(LOG_TAG, toString()); } } /** * Play a DTMF tone on the active call. * * @param c should be one of 0-9, '*' or '#'. Other values will be * silently ignored. * @return false if no active call or the active call doesn't support * dtmf tone */ public boolean sendDtmf(char c) { boolean result = false; if (VDBG) { Rlog.d(LOG_TAG, " sendDtmf(" + c + ")"); Rlog.d(LOG_TAG, toString()); } if (hasActiveFgCall()) { getActiveFgCall().getPhone().sendDtmf(c); result = true; } if (VDBG) { Rlog.d(LOG_TAG, "End sendDtmf(" + c + ")"); Rlog.d(LOG_TAG, toString()); } return result; } /** * Start to paly a DTMF tone on the active call. * or there is a playing DTMF tone. * @param c should be one of 0-9, '*' or '#'. Other values will be * silently ignored. * * @return false if no active call or the active call doesn't support * dtmf tone */ public boolean startDtmf(char c) { boolean result = false; if (VDBG) { Rlog.d(LOG_TAG, " startDtmf(" + c + ")"); Rlog.d(LOG_TAG, toString()); } if (hasActiveFgCall()) { getActiveFgCall().getPhone().startDtmf(c); result = true; } if (VDBG) { Rlog.d(LOG_TAG, "End startDtmf(" + c + ")"); Rlog.d(LOG_TAG, toString()); } return result; } /** * Stop the playing DTMF tone. Ignored if there is no playing DTMF * tone or no active call. */ public void stopDtmf() { if (VDBG) { Rlog.d(LOG_TAG, " stopDtmf()" ); Rlog.d(LOG_TAG, toString()); } if (hasActiveFgCall()) getFgPhone().stopDtmf(); if (VDBG) { Rlog.d(LOG_TAG, "End stopDtmf()"); Rlog.d(LOG_TAG, toString()); } } /** * send burst DTMF tone, it can send the string as single character or multiple character * ignore if there is no active call or not valid digits string. * Valid digit means only includes characters ISO-LATIN characters 0-9, *, # * The difference between sendDtmf and sendBurstDtmf is sendDtmf only sends one character, * this api can send single character and multiple character, also, this api has response * back to caller. * * @param dtmfString is string representing the dialing digit(s) in the active call * @param on the DTMF ON length in milliseconds, or 0 for default * @param off the DTMF OFF length in milliseconds, or 0 for default * @param onComplete is the callback message when the action is processed by BP * */ public boolean sendBurstDtmf(String dtmfString, int on, int off, Message onComplete) { if (hasActiveFgCall()) { getActiveFgCall().getPhone().sendBurstDtmf(dtmfString, on, off, onComplete); return true; } return false; } /** * Notifies when a voice connection has disconnected, either due to local * or remote hangup or error. * * Messages received from this will have the following members:

*

  • Message.obj will be an AsyncResult
  • *
  • AsyncResult.userObj = obj
  • *
  • AsyncResult.result = a Connection object that is * no longer connected.
*/ public void registerForDisconnect(Handler h, int what, Object obj) { mDisconnectRegistrants.addUnique(h, what, obj); } /** * Unregisters for voice disconnection notification. * Extraneous calls are tolerated silently */ public void unregisterForDisconnect(Handler h){ mDisconnectRegistrants.remove(h); } /** * Register for getting notifications for change in the Call State {@link Call.State} * This is called PreciseCallState because the call state is more precise than what * can be obtained using the {@link PhoneStateListener} * * Resulting events will have an AsyncResult in Message.obj. * AsyncResult.userData will be set to the obj argument here. * The h parameter is held only by a weak reference. */ public void registerForPreciseCallStateChanged(Handler h, int what, Object obj){ mPreciseCallStateRegistrants.addUnique(h, what, obj); } /** * Unregisters for voice call state change notifications. * Extraneous calls are tolerated silently. */ public void unregisterForPreciseCallStateChanged(Handler h){ mPreciseCallStateRegistrants.remove(h); } /** * Notifies when a previously untracked non-ringing/waiting connection has appeared. * This is likely due to some other entity (eg, SIM card application) initiating a call. */ public void registerForUnknownConnection(Handler h, int what, Object obj){ mUnknownConnectionRegistrants.addUnique(h, what, obj); } /** * Unregisters for unknown connection notifications. */ public void unregisterForUnknownConnection(Handler h){ mUnknownConnectionRegistrants.remove(h); } /** * Notifies when a new ringing or waiting connection has appeared.

* * Messages received from this: * Message.obj will be an AsyncResult * AsyncResult.userObj = obj * AsyncResult.result = a Connection.

* Please check Connection.isRinging() to make sure the Connection * has not dropped since this message was posted. * If Connection.isRinging() is true, then * Connection.getCall() == Phone.getRingingCall() */ public void registerForNewRingingConnection(Handler h, int what, Object obj){ mNewRingingConnectionRegistrants.addUnique(h, what, obj); } /** * Unregisters for new ringing connection notification. * Extraneous calls are tolerated silently */ public void unregisterForNewRingingConnection(Handler h){ mNewRingingConnectionRegistrants.remove(h); } /** * Notifies when an incoming call rings.

* * Messages received from this: * Message.obj will be an AsyncResult * AsyncResult.userObj = obj * AsyncResult.result = a Connection.

*/ public void registerForIncomingRing(Handler h, int what, Object obj){ mIncomingRingRegistrants.addUnique(h, what, obj); } /** * Unregisters for ring notification. * Extraneous calls are tolerated silently */ public void unregisterForIncomingRing(Handler h){ mIncomingRingRegistrants.remove(h); } /** * Notifies when out-band ringback tone is needed.

* * Messages received from this: * Message.obj will be an AsyncResult * AsyncResult.userObj = obj * AsyncResult.result = boolean, true to start play ringback tone * and false to stop.

*/ public void registerForRingbackTone(Handler h, int what, Object obj){ mRingbackToneRegistrants.addUnique(h, what, obj); } /** * Unregisters for ringback tone notification. */ public void unregisterForRingbackTone(Handler h){ mRingbackToneRegistrants.remove(h); } /** * Notifies when out-band on-hold tone is needed.

* * Messages received from this: * Message.obj will be an AsyncResult * AsyncResult.userObj = obj * AsyncResult.result = boolean, true to start play on-hold tone * and false to stop.

*/ public void registerForOnHoldTone(Handler h, int what, Object obj){ mOnHoldToneRegistrants.addUnique(h, what, obj); } /** * Unregisters for on-hold tone notification. */ public void unregisterForOnHoldTone(Handler h){ mOnHoldToneRegistrants.remove(h); } /** * Registers the handler to reset the uplink mute state to get * uplink audio. */ public void registerForResendIncallMute(Handler h, int what, Object obj){ mResendIncallMuteRegistrants.addUnique(h, what, obj); } /** * Unregisters for resend incall mute notifications. */ public void unregisterForResendIncallMute(Handler h){ mResendIncallMuteRegistrants.remove(h); } /** * Register for notifications of initiation of a new MMI code request. * MMI codes for GSM are discussed in 3GPP TS 22.030.

* * Example: If Phone.dial is called with "*#31#", then the app will * be notified here.

* * The returned Message.obj will contain an AsyncResult. * * obj.result will be an "MmiCode" object. */ public void registerForMmiInitiate(Handler h, int what, Object obj){ mMmiInitiateRegistrants.addUnique(h, what, obj); } /** * Unregisters for new MMI initiate notification. * Extraneous calls are tolerated silently */ public void unregisterForMmiInitiate(Handler h){ mMmiInitiateRegistrants.remove(h); } /** * Register for notifications that an MMI request has completed * its network activity and is in its final state. This may mean a state * of COMPLETE, FAILED, or CANCELLED. * * Message.obj will contain an AsyncResult. * obj.result will be an "MmiCode" object */ public void registerForMmiComplete(Handler h, int what, Object obj){ mMmiCompleteRegistrants.addUnique(h, what, obj); } /** * Unregisters for MMI complete notification. * Extraneous calls are tolerated silently */ public void unregisterForMmiComplete(Handler h){ mMmiCompleteRegistrants.remove(h); } /** * Registration point for Ecm timer reset * @param h handler to notify * @param what user-defined message code * @param obj placed in Message.obj */ public void registerForEcmTimerReset(Handler h, int what, Object obj){ mEcmTimerResetRegistrants.addUnique(h, what, obj); } /** * Unregister for notification for Ecm timer reset * @param h Handler to be removed from the registrant list. */ public void unregisterForEcmTimerReset(Handler h){ mEcmTimerResetRegistrants.remove(h); } /** * Register for ServiceState changed. * Message.obj will contain an AsyncResult. * AsyncResult.result will be a ServiceState instance */ public void registerForServiceStateChanged(Handler h, int what, Object obj){ mServiceStateChangedRegistrants.addUnique(h, what, obj); } /** * Unregisters for ServiceStateChange notification. * Extraneous calls are tolerated silently */ public void unregisterForServiceStateChanged(Handler h){ mServiceStateChangedRegistrants.remove(h); } /** * Register for notifications when a supplementary service attempt fails. * Message.obj will contain an AsyncResult. * * @param h Handler that receives the notification message. * @param what User-defined message code. * @param obj User object. */ public void registerForSuppServiceFailed(Handler h, int what, Object obj){ mSuppServiceFailedRegistrants.addUnique(h, what, obj); } /** * Unregister for notifications when a supplementary service attempt fails. * Extraneous calls are tolerated silently * * @param h Handler to be removed from the registrant list. */ public void unregisterForSuppServiceFailed(Handler h){ mSuppServiceFailedRegistrants.remove(h); } /** * Register for notifications when a sInCall VoicePrivacy is enabled * * @param h Handler that receives the notification message. * @param what User-defined message code. * @param obj User object. */ public void registerForInCallVoicePrivacyOn(Handler h, int what, Object obj){ mInCallVoicePrivacyOnRegistrants.addUnique(h, what, obj); } /** * Unregister for notifications when a sInCall VoicePrivacy is enabled * * @param h Handler to be removed from the registrant list. */ public void unregisterForInCallVoicePrivacyOn(Handler h){ mInCallVoicePrivacyOnRegistrants.remove(h); } /** * Register for notifications when a sInCall VoicePrivacy is disabled * * @param h Handler that receives the notification message. * @param what User-defined message code. * @param obj User object. */ public void registerForInCallVoicePrivacyOff(Handler h, int what, Object obj){ mInCallVoicePrivacyOffRegistrants.addUnique(h, what, obj); } /** * Unregister for notifications when a sInCall VoicePrivacy is disabled * * @param h Handler to be removed from the registrant list. */ public void unregisterForInCallVoicePrivacyOff(Handler h){ mInCallVoicePrivacyOffRegistrants.remove(h); } /** * Register for notifications when CDMA call waiting comes * * @param h Handler that receives the notification message. * @param what User-defined message code. * @param obj User object. */ public void registerForCallWaiting(Handler h, int what, Object obj){ mCallWaitingRegistrants.addUnique(h, what, obj); } /** * Unregister for notifications when CDMA Call waiting comes * @param h Handler to be removed from the registrant list. */ public void unregisterForCallWaiting(Handler h){ mCallWaitingRegistrants.remove(h); } /** * Register for signal information notifications from the network. * Message.obj will contain an AsyncResult. * AsyncResult.result will be a SuppServiceNotification instance. * * @param h Handler that receives the notification message. * @param what User-defined message code. * @param obj User object. */ public void registerForSignalInfo(Handler h, int what, Object obj){ mSignalInfoRegistrants.addUnique(h, what, obj); } /** * Unregisters for signal information notifications. * Extraneous calls are tolerated silently * * @param h Handler to be removed from the registrant list. */ public void unregisterForSignalInfo(Handler h){ mSignalInfoRegistrants.remove(h); } /** * Register for display information notifications from the network. * Message.obj will contain an AsyncResult. * AsyncResult.result will be a SuppServiceNotification instance. * * @param h Handler that receives the notification message. * @param what User-defined message code. * @param obj User object. */ public void registerForDisplayInfo(Handler h, int what, Object obj){ mDisplayInfoRegistrants.addUnique(h, what, obj); } /** * Unregisters for display information notifications. * Extraneous calls are tolerated silently * * @param h Handler to be removed from the registrant list. */ public void unregisterForDisplayInfo(Handler h) { mDisplayInfoRegistrants.remove(h); } /** * Register for notifications when CDMA OTA Provision status change * * @param h Handler that receives the notification message. * @param what User-defined message code. * @param obj User object. */ public void registerForCdmaOtaStatusChange(Handler h, int what, Object obj){ mCdmaOtaStatusChangeRegistrants.addUnique(h, what, obj); } /** * Unregister for notifications when CDMA OTA Provision status change * @param h Handler to be removed from the registrant list. */ public void unregisterForCdmaOtaStatusChange(Handler h){ mCdmaOtaStatusChangeRegistrants.remove(h); } /** * Registration point for subcription info ready * @param h handler to notify * @param what what code of message when delivered * @param obj placed in Message.obj */ public void registerForSubscriptionInfoReady(Handler h, int what, Object obj){ mSubscriptionInfoReadyRegistrants.addUnique(h, what, obj); } /** * Unregister for notifications for subscription info * @param h Handler to be removed from the registrant list. */ public void unregisterForSubscriptionInfoReady(Handler h){ mSubscriptionInfoReadyRegistrants.remove(h); } /** * Sets an event to be fired when the telephony system processes * a post-dial character on an outgoing call.

* * Messages of type what will be sent to h. * The obj field of these Message's will be instances of * AsyncResult. Message.obj.result will be * a Connection object.

* * Message.arg1 will be the post dial character being processed, * or 0 ('\0') if end of string.

* * If Connection.getPostDialState() == WAIT, * the application must call * {@link com.android.internal.telephony.Connection#proceedAfterWaitChar() * Connection.proceedAfterWaitChar()} or * {@link com.android.internal.telephony.Connection#cancelPostDial() * Connection.cancelPostDial()} * for the telephony system to continue playing the post-dial * DTMF sequence.

* * If Connection.getPostDialState() == WILD, * the application must call * {@link com.android.internal.telephony.Connection#proceedAfterWildChar * Connection.proceedAfterWildChar()} * or * {@link com.android.internal.telephony.Connection#cancelPostDial() * Connection.cancelPostDial()} * for the telephony system to continue playing the * post-dial DTMF sequence.

* */ public void registerForPostDialCharacter(Handler h, int what, Object obj){ mPostDialCharacterRegistrants.addUnique(h, what, obj); } public void unregisterForPostDialCharacter(Handler h){ mPostDialCharacterRegistrants.remove(h); } /* APIs to access foregroudCalls, backgroudCalls, and ringingCalls * 1. APIs to access list of calls * 2. APIs to check if any active call, which has connection other than * disconnected ones, pleaser refer to Call.isIdle() * 3. APIs to return first active call * 4. APIs to return the connections of first active call * 5. APIs to return other property of first active call */ /** * @return list of all ringing calls */ public List getRingingCalls() { return Collections.unmodifiableList(mRingingCalls); } /** * @return list of all foreground calls */ public List getForegroundCalls() { return Collections.unmodifiableList(mForegroundCalls); } /** * @return list of all background calls */ public List getBackgroundCalls() { return Collections.unmodifiableList(mBackgroundCalls); } /** * Return true if there is at least one active foreground call */ public boolean hasActiveFgCall() { return (getFirstActiveCall(mForegroundCalls) != null); } /** * Return true if there is at least one active foreground call * on a particular subId or an active sip call */ public boolean hasActiveFgCall(long subId) { return (getFirstActiveCall(mForegroundCalls, subId) != null); } /** * Return true if there is at least one active background call */ public boolean hasActiveBgCall() { // TODO since hasActiveBgCall may get called often // better to cache it to improve performance return (getFirstActiveCall(mBackgroundCalls) != null); } /** * Return true if there is at least one active background call * on a particular subId or an active sip call */ public boolean hasActiveBgCall(long subId) { // TODO since hasActiveBgCall may get called often // better to cache it to improve performance return (getFirstActiveCall(mBackgroundCalls, subId) != null); } /** * Return true if there is at least one active ringing call * */ public boolean hasActiveRingingCall() { return (getFirstActiveCall(mRingingCalls) != null); } /** * Return true if there is at least one active ringing call */ public boolean hasActiveRingingCall(long subId) { return (getFirstActiveCall(mRingingCalls, subId) != null); } /** * return the active foreground call from foreground calls * * Active call means the call is NOT in Call.State.IDLE * * 1. If there is active foreground call, return it * 2. If there is no active foreground call, return the * foreground call associated with default phone, which state is IDLE. * 3. If there is no phone registered at all, return null. * */ public Call getActiveFgCall() { Call call = getFirstNonIdleCall(mForegroundCalls); if (call == null) { call = (mDefaultPhone == null) ? null : mDefaultPhone.getForegroundCall(); } return call; } public Call getActiveFgCall(long subId) { Call call = getFirstNonIdleCall(mForegroundCalls, subId); if (call == null) { Phone phone = getPhone(subId); call = (phone == null) ? null : phone.getForegroundCall(); } return call; } // Returns the first call that is not in IDLE state. If both active calls // and disconnecting/disconnected calls exist, return the first active call. private Call getFirstNonIdleCall(List calls) { Call result = null; for (Call call : calls) { if (!call.isIdle()) { return call; } else if (call.getState() != Call.State.IDLE) { if (result == null) result = call; } } return result; } // Returns the first call that is not in IDLE state. If both active calls // and disconnecting/disconnected calls exist, return the first active call. private Call getFirstNonIdleCall(List calls, long subId) { Call result = null; for (Call call : calls) { if ((call.getPhone().getSubId() == subId) || (call.getPhone() instanceof SipPhone)) { if (!call.isIdle()) { return call; } else if (call.getState() != Call.State.IDLE) { if (result == null) result = call; } } } return result; } /** * return one active background call from background calls * * Active call means the call is NOT idle defined by Call.isIdle() * * 1. If there is only one active background call, return it * 2. If there is more than one active background call, return the first one * 3. If there is no active background call, return the background call * associated with default phone, which state is IDLE. * 4. If there is no background call at all, return null. * * Complete background calls list can be get by getBackgroundCalls() */ public Call getFirstActiveBgCall() { Call call = getFirstNonIdleCall(mBackgroundCalls); if (call == null) { call = (mDefaultPhone == null) ? null : mDefaultPhone.getBackgroundCall(); } return call; } /** * return one active background call from background calls of the * requested subId. * * Active call means the call is NOT idle defined by Call.isIdle() * * 1. If there is only one active background call on given sub or * on SIP Phone, return it * 2. If there is more than one active background call, return the background call * associated with the active sub. * 3. If there is no background call at all, return null. * * Complete background calls list can be get by getBackgroundCalls() */ public Call getFirstActiveBgCall(long subId) { Phone phone = getPhone(subId); if (hasMoreThanOneHoldingCall(subId)) { return phone.getBackgroundCall(); } else { Call call = getFirstNonIdleCall(mBackgroundCalls, subId); if (call == null) { call = (phone == null) ? null : phone.getBackgroundCall(); } return call; } } /** * return one active ringing call from ringing calls * * Active call means the call is NOT idle defined by Call.isIdle() * * 1. If there is only one active ringing call, return it * 2. If there is more than one active ringing call, return the first one * 3. If there is no active ringing call, return the ringing call * associated with default phone, which state is IDLE. * 4. If there is no ringing call at all, return null. * * Complete ringing calls list can be get by getRingingCalls() */ public Call getFirstActiveRingingCall() { Call call = getFirstNonIdleCall(mRingingCalls); if (call == null) { call = (mDefaultPhone == null) ? null : mDefaultPhone.getRingingCall(); } return call; } public Call getFirstActiveRingingCall(long subId) { Phone phone = getPhone(subId); Call call = getFirstNonIdleCall(mRingingCalls, subId); if (call == null) { call = (phone == null) ? null : phone.getRingingCall(); } return call; } /** * @return the state of active foreground call * return IDLE if there is no active foreground call */ public Call.State getActiveFgCallState() { Call fgCall = getActiveFgCall(); if (fgCall != null) { return fgCall.getState(); } return Call.State.IDLE; } public Call.State getActiveFgCallState(long subId) { Call fgCall = getActiveFgCall(subId); if (fgCall != null) { return fgCall.getState(); } return Call.State.IDLE; } /** * @return the connections of active foreground call * return empty list if there is no active foreground call */ public List getFgCallConnections() { Call fgCall = getActiveFgCall(); if ( fgCall != null) { return fgCall.getConnections(); } return mEmptyConnections; } /** * @return the connections of active foreground call * return empty list if there is no active foreground call */ public List getFgCallConnections(long subId) { Call fgCall = getActiveFgCall(subId); if ( fgCall != null) { return fgCall.getConnections(); } return mEmptyConnections; } /** * @return the connections of active background call * return empty list if there is no active background call */ public List getBgCallConnections() { Call bgCall = getFirstActiveBgCall(); if ( bgCall != null) { return bgCall.getConnections(); } return mEmptyConnections; } /** * @return the connections of active background call * return empty list if there is no active background call */ public List getBgCallConnections(long subId) { Call bgCall = getFirstActiveBgCall(subId); if ( bgCall != null) { return bgCall.getConnections(); } return mEmptyConnections; } /** * @return the latest connection of active foreground call * return null if there is no active foreground call */ public Connection getFgCallLatestConnection() { Call fgCall = getActiveFgCall(); if ( fgCall != null) { return fgCall.getLatestConnection(); } return null; } /** * @return the latest connection of active foreground call * return null if there is no active foreground call */ public Connection getFgCallLatestConnection(long subId) { Call fgCall = getActiveFgCall(subId); if ( fgCall != null) { return fgCall.getLatestConnection(); } return null; } /** * @return true if there is at least one Foreground call in disconnected state */ public boolean hasDisconnectedFgCall() { return (getFirstCallOfState(mForegroundCalls, Call.State.DISCONNECTED) != null); } /** * @return true if there is at least one Foreground call in disconnected state */ public boolean hasDisconnectedFgCall(long subId) { return (getFirstCallOfState(mForegroundCalls, Call.State.DISCONNECTED, subId) != null); } /** * @return true if there is at least one background call in disconnected state */ public boolean hasDisconnectedBgCall() { return (getFirstCallOfState(mBackgroundCalls, Call.State.DISCONNECTED) != null); } /** * @return true if there is at least one background call in disconnected state */ public boolean hasDisconnectedBgCall(long subId) { return (getFirstCallOfState(mBackgroundCalls, Call.State.DISCONNECTED, subId) != null); } /** * @return the first active call from a call list */ private Call getFirstActiveCall(ArrayList calls) { for (Call call : calls) { if (!call.isIdle()) { return call; } } return null; } /** * @return the first active call from a call list */ private Call getFirstActiveCall(ArrayList calls, long subId) { for (Call call : calls) { if ((!call.isIdle()) && ((call.getPhone().getSubId() == subId) || (call.getPhone() instanceof SipPhone))) { return call; } } return null; } /** * @return the first call in a the Call.state from a call list */ private Call getFirstCallOfState(ArrayList calls, Call.State state) { for (Call call : calls) { if (call.getState() == state) { return call; } } return null; } /** * @return the first call in a the Call.state from a call list */ private Call getFirstCallOfState(ArrayList calls, Call.State state, long subId) { for (Call call : calls) { if ((call.getState() == state) || ((call.getPhone().getSubId() == subId) || (call.getPhone() instanceof SipPhone))) { return call; } } return null; } private boolean hasMoreThanOneRingingCall() { int count = 0; for (Call call : mRingingCalls) { if (call.getState().isRinging()) { if (++count > 1) return true; } } return false; } /** * @return true if more than one active ringing call exists on * the active subId. * This checks for the active calls on provided * subId and also active calls on SIP Phone. * */ private boolean hasMoreThanOneRingingCall(long subId) { int count = 0; for (Call call : mRingingCalls) { if ((call.getState().isRinging()) && ((call.getPhone().getSubId() == subId) || (call.getPhone() instanceof SipPhone))) { if (++count > 1) return true; } } return false; } /** * @return true if more than one active background call exists on * the provided subId. * This checks for the background calls on provided * subId and also background calls on SIP Phone. * */ private boolean hasMoreThanOneHoldingCall(long subId) { int count = 0; for (Call call : mBackgroundCalls) { if ((call.getState() == Call.State.HOLDING) && ((call.getPhone().getSubId() == subId) || (call.getPhone() instanceof SipPhone))) { if (++count > 1) return true; } } return false; } private class CallManagerHandler extends Handler { @Override public void handleMessage(Message msg) { switch (msg.what) { case EVENT_DISCONNECT: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_DISCONNECT)"); mDisconnectRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_PRECISE_CALL_STATE_CHANGED: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_PRECISE_CALL_STATE_CHANGED)"); mPreciseCallStateRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_NEW_RINGING_CONNECTION: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_NEW_RINGING_CONNECTION)"); Connection c = (Connection) ((AsyncResult) msg.obj).result; long subId = c.getCall().getPhone().getSubId(); if (getActiveFgCallState(subId).isDialing() || hasMoreThanOneRingingCall()) { try { Rlog.d(LOG_TAG, "silently drop incoming call: " + c.getCall()); c.getCall().hangup(); } catch (CallStateException e) { Rlog.w(LOG_TAG, "new ringing connection", e); } } else { mNewRingingConnectionRegistrants.notifyRegistrants((AsyncResult) msg.obj); } break; case EVENT_UNKNOWN_CONNECTION: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_UNKNOWN_CONNECTION)"); mUnknownConnectionRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_INCOMING_RING: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_INCOMING_RING)"); // The event may come from RIL who's not aware of an ongoing fg call if (!hasActiveFgCall()) { mIncomingRingRegistrants.notifyRegistrants((AsyncResult) msg.obj); } break; case EVENT_RINGBACK_TONE: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_RINGBACK_TONE)"); mRingbackToneRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_IN_CALL_VOICE_PRIVACY_ON: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_IN_CALL_VOICE_PRIVACY_ON)"); mInCallVoicePrivacyOnRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_IN_CALL_VOICE_PRIVACY_OFF: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_IN_CALL_VOICE_PRIVACY_OFF)"); mInCallVoicePrivacyOffRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_CALL_WAITING: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_CALL_WAITING)"); mCallWaitingRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_DISPLAY_INFO: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_DISPLAY_INFO)"); mDisplayInfoRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_SIGNAL_INFO: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_SIGNAL_INFO)"); mSignalInfoRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_CDMA_OTA_STATUS_CHANGE: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_CDMA_OTA_STATUS_CHANGE)"); mCdmaOtaStatusChangeRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_RESEND_INCALL_MUTE: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_RESEND_INCALL_MUTE)"); mResendIncallMuteRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_MMI_INITIATE: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_MMI_INITIATE)"); mMmiInitiateRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_MMI_COMPLETE: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_MMI_COMPLETE)"); mMmiCompleteRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_ECM_TIMER_RESET: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_ECM_TIMER_RESET)"); mEcmTimerResetRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_SUBSCRIPTION_INFO_READY: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_SUBSCRIPTION_INFO_READY)"); mSubscriptionInfoReadyRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_SUPP_SERVICE_FAILED: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_SUPP_SERVICE_FAILED)"); mSuppServiceFailedRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_SERVICE_STATE_CHANGED: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_SERVICE_STATE_CHANGED)"); mServiceStateChangedRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; case EVENT_POST_DIAL_CHARACTER: // we need send the character that is being processed in msg.arg1 // so can't use notifyRegistrants() if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_POST_DIAL_CHARACTER)"); for(int i=0; i < mPostDialCharacterRegistrants.size(); i++) { Message notifyMsg; notifyMsg = ((Registrant)mPostDialCharacterRegistrants.get(i)).messageForRegistrant(); notifyMsg.obj = msg.obj; notifyMsg.arg1 = msg.arg1; notifyMsg.sendToTarget(); } break; case EVENT_ONHOLD_TONE: if (VDBG) Rlog.d(LOG_TAG, " handleMessage (EVENT_ONHOLD_TONE)"); mOnHoldToneRegistrants.notifyRegistrants((AsyncResult) msg.obj); break; } } }; @Override public String toString() { Call call; StringBuilder b = new StringBuilder(); for (int i = 0; i < TelephonyManager.getDefault().getPhoneCount(); i++) { b.append("CallManager {"); b.append("\nstate = " + getState(i)); call = getActiveFgCall(i); b.append("\n- Foreground: " + getActiveFgCallState(i)); b.append(" from " + call.getPhone()); b.append("\n Conn: ").append(getFgCallConnections(i)); call = getFirstActiveBgCall(i); b.append("\n- Background: " + call.getState()); b.append(" from " + call.getPhone()); b.append("\n Conn: ").append(getBgCallConnections(i)); call = getFirstActiveRingingCall(i); b.append("\n- Ringing: " +call.getState()); b.append(" from " + call.getPhone()); } for (Phone phone : getAllPhones()) { if (phone != null) { b.append("\nPhone: " + phone + ", name = " + phone.getPhoneName() + ", state = " + phone.getState()); call = phone.getForegroundCall(); b.append("\n- Foreground: ").append(call); call = phone.getBackgroundCall(); b.append(" Background: ").append(call); call = phone.getRingingCall(); b.append(" Ringing: ").append(call); } } b.append("\n}"); return b.toString(); } }