@Override
public void onBackPressed() {
Log.i(this, "onBackPressed");
// BACK is also used to exit out of any "special modes" of the
// in-call UI:
if (!mConferenceManagerFragment.isVisible() && !mCallCardFragment.isVisible()) {
return;
}
if (mDialpadFragment != null && mDialpadFragment.isVisible()) {
mCallButtonFragment.displayDialpad(false /* show */, true /* animate */);
return;
} else if (mConferenceManagerFragment.isVisible()) {
showConferenceCallManager(false);
return;
}
// Always disable the Back key while an incoming call is ringing
final Call call = CallList.getInstance().getIncomingCall();
if (call != null) {
Log.d(this, "Consume Back press for an incoming call");
return;
}
// Nothing special to do. Fall back to the default behavior.
super.onBackPressed();
}
@Override
public void onActivityCreated(Bundle savedInstanceState) {
super.onActivityCreated(savedInstanceState);
final CallList calls = CallList.getInstance();
final Call call = calls.getFirstCall();
getPresenter().init(getActivity(), call);
}
/**
* Called when a call becomes disconnected. Called everytime an existing call changes from being
* connected (incoming/outgoing/active) to disconnected.
*/
@Override
public void onDisconnect(Call call) {
hideDialpadForDisconnect();
maybeShowErrorDialogOnDisconnect(call);
// We need to do the run the same code as onCallListChange.
onCallListChange(CallList.getInstance());
if (isActivityStarted()) {
mInCallActivity.dismissKeyguard(false);
}
}
private void relaunchedFromDialer(boolean showDialpad) {
mShowDialpadRequested = showDialpad;
mAnimateDialpadOnShow = true;
if (mShowDialpadRequested) {
// If there's only one line in use, AND it's on hold, then we're sure the user
// wants to use the dialpad toward the exact line, so un-hold the holding line.
final Call call = CallList.getInstance().getActiveOrBackgroundCall();
if (call != null && call.getState() == State.ONHOLD) {
TelecomAdapter.getInstance().unholdCall(call.getId());
}
}
}
private void internalResolveIntent(Intent intent) {
final String action = intent.getAction();
if (action.equals(intent.ACTION_MAIN)) {
// This action is the normal way to bring up the in-call UI.
//
// But we do check here for one extra that can come along with the
// ACTION_MAIN intent:
if (intent.hasExtra(SHOW_DIALPAD_EXTRA)) {
// SHOW_DIALPAD_EXTRA can be used here to specify whether the DTMF
// dialpad should be initially visible. If the extra isn't
// present at all, we just leave the dialpad in its previous state.
final boolean showDialpad = intent.getBooleanExtra(SHOW_DIALPAD_EXTRA, false);
Log.d(this, "- internalResolveIntent: SHOW_DIALPAD_EXTRA: " + showDialpad);
relaunchedFromDialer(showDialpad);
}
if (intent.getBooleanExtra(NEW_OUTGOING_CALL_EXTRA, false)) {
intent.removeExtra(NEW_OUTGOING_CALL_EXTRA);
Call call = CallList.getInstance().getOutgoingCall();
if (call == null) {
call = CallList.getInstance().getPendingOutgoingCall();
}
Bundle extras = null;
if (call != null) {
extras = call.getTelecommCall().getDetails().getExtras();
}
if (extras == null) {
// Initialize the extras bundle to avoid NPE
extras = new Bundle();
}
Point touchPoint = null;
if (TouchPointManager.getInstance().hasValidPoint()) {
// Use the most immediate touch point in the InCallUi if available
touchPoint = TouchPointManager.getInstance().getPoint();
} else {
// Otherwise retrieve the touch point from the call intent
if (call != null) {
touchPoint = (Point) extras.getParcelable(TouchPointManager.TOUCH_POINT);
}
}
// This is only true in the case where an outgoing call is initiated by tapping
// on the "Select account dialog", in which case we skip the initial animation. In
// most other cases the circular reveal is done by OutgoingCallAnimationActivity.
final boolean showCircularReveal =
intent.getBooleanExtra(SHOW_CIRCULAR_REVEAL_EXTRA, false);
mCallCardFragment.animateForNewOutgoingCall(touchPoint, showCircularReveal);
// InCallActivity is responsible for disconnecting a new outgoing call if there
// is no way of making it (i.e. no valid call capable accounts)
if (InCallPresenter.isCallWithNoValidAccounts(call)) {
TelecomAdapter.getInstance().disconnectCall(call.getId());
}
dismissKeyguard(true);
}
Call pendingAccountSelectionCall = CallList.getInstance().getWaitingForAccountCall();
if (pendingAccountSelectionCall != null) {
mCallCardFragment.setVisible(false);
Bundle extras = pendingAccountSelectionCall.getTelecommCall().getDetails().getExtras();
final List<PhoneAccountHandle> phoneAccountHandles;
if (extras != null) {
phoneAccountHandles =
extras.getParcelableArrayList(android.telecom.Call.AVAILABLE_PHONE_ACCOUNTS);
} else {
phoneAccountHandles = new ArrayList<>();
}
SelectPhoneAccountListener listener =
new SelectPhoneAccountListener() {
@Override
public void onPhoneAccountSelected(
PhoneAccountHandle selectedAccountHandle, boolean setDefault) {
InCallPresenter.getInstance()
.handleAccountSelection(selectedAccountHandle, setDefault);
}
@Override
public void onDialogDismissed() {
InCallPresenter.getInstance().cancelAccountSelection();
}
};
SelectPhoneAccountDialogFragment.showAccountDialog(
getFragmentManager(),
R.string.select_phone_account_for_calls,
true,
phoneAccountHandles,
listener);
} else {
mCallCardFragment.setVisible(true);
}
return;
}
}
/**
* Handles the green CALL key while in-call.
*
* @return true if we consumed the event.
*/
public boolean handleCallKey() {
Log.v(this, "handleCallKey");
// The green CALL button means either "Answer", "Unhold", or
// "Swap calls", or can be a no-op, depending on the current state
// of the Phone.
/** INCOMING CALL */
final CallList calls = CallList.getInstance();
final Call incomingCall = calls.getIncomingCall();
Log.v(this, "incomingCall: " + incomingCall);
// (1) Attempt to answer a call
if (incomingCall != null) {
CallCommandClient.getInstance().answerCall(incomingCall.getCallId());
if (mAccelerometerListener != null) {
mAccelerometerListener.enableSensor(false);
}
return true;
}
/** ACTIVE CALL */
final Call activeCall = calls.getActiveCall();
if (activeCall != null) {
// TODO: This logic is repeated from CallButtonPresenter.java. We should
// consolidate this logic.
final boolean isGeneric = activeCall.can(Capabilities.GENERIC_CONFERENCE);
final boolean canMerge = activeCall.can(Capabilities.MERGE_CALLS);
final boolean canSwap = activeCall.can(Capabilities.SWAP_CALLS);
Log.v(
this,
"activeCall: "
+ activeCall
+ ", isGeneric: "
+ isGeneric
+ ", canMerge: "
+ canMerge
+ ", canSwap: "
+ canSwap);
// (2) Attempt actions on Generic conference calls
if (activeCall.isConferenceCall() && isGeneric) {
if (canMerge) {
CallCommandClient.getInstance().merge();
return true;
} else if (canSwap) {
CallCommandClient.getInstance().swap();
return true;
}
}
// (3) Swap calls
if (canSwap) {
CallCommandClient.getInstance().swap();
return true;
}
}
/** BACKGROUND CALL */
final Call heldCall = calls.getBackgroundCall();
if (heldCall != null) {
// We have a hold call so presumeable it will always support HOLD...but
// there is no harm in double checking.
final boolean canHold = heldCall.can(Capabilities.HOLD);
Log.v(this, "heldCall: " + heldCall + ", canHold: " + canHold);
// (4) unhold call
if (heldCall.getState() == Call.State.ONHOLD && canHold) {
CallCommandClient.getInstance().hold(heldCall.getCallId(), false);
return true;
}
}
// Always consume hard keys
return true;
}
