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android / platform / frameworks / base / 07533dbffff5551ad4c58852b5856f57d7da6801 / . / packages / SettingsLib / src / com / android / settingslib / bluetooth / CachedBluetoothDevice.java
blob: d994841d64f9e76d718756d0b735deea271d8232 [file] [log] [blame]
/*
* Copyright (C) 2008 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.settingslib.bluetooth;
import android.bluetooth.BluetoothClass;
import android.bluetooth.BluetoothDevice;
import android.bluetooth.BluetoothProfile;
import android.bluetooth.BluetoothUuid;
import android.content.Context;
import android.content.SharedPreferences;
import android.os.ParcelUuid;
import android.os.SystemClock;
import android.text.TextUtils;
import android.util.Log;
import android.bluetooth.BluetoothAdapter;
import com.android.settingslib.R;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
/**
* CachedBluetoothDevice represents a remote Bluetooth device. It contains
* attributes of the device (such as the address, name, RSSI, etc.) and
* functionality that can be performed on the device (connect, pair, disconnect,
* etc.).
*/
public final class CachedBluetoothDevice implements Comparable<CachedBluetoothDevice> {
private static final String TAG = "CachedBluetoothDevice";
private static final boolean DEBUG = Utils.V;
private final Context mContext;
private final LocalBluetoothAdapter mLocalAdapter;
private final LocalBluetoothProfileManager mProfileManager;
private final BluetoothDevice mDevice;
private String mName;
private short mRssi;
private BluetoothClass mBtClass;
private HashMap<LocalBluetoothProfile, Integer> mProfileConnectionState;
private final List<LocalBluetoothProfile> mProfiles =
new ArrayList<LocalBluetoothProfile>();
// List of profiles that were previously in mProfiles, but have been removed
private final List<LocalBluetoothProfile> mRemovedProfiles =
new ArrayList<LocalBluetoothProfile>();
// Device supports PANU but not NAP: remove PanProfile after device disconnects from NAP
private boolean mLocalNapRoleConnected;
private boolean mVisible;
private int mMessageRejectionCount;
private final Collection<Callback> mCallbacks = new ArrayList<Callback>();
// Following constants indicate the user's choices of Phone book/message access settings
// User hasn't made any choice or settings app has wiped out the memory
public final static int ACCESS_UNKNOWN = 0;
// User has accepted the connection and let Settings app remember the decision
public final static int ACCESS_ALLOWED = 1;
// User has rejected the connection and let Settings app remember the decision
public final static int ACCESS_REJECTED = 2;
// How many times user should reject the connection to make the choice persist.
private final static int MESSAGE_REJECTION_COUNT_LIMIT_TO_PERSIST = 2;
private final static String MESSAGE_REJECTION_COUNT_PREFS_NAME = "bluetooth_message_reject";
/**
* When we connect to multiple profiles, we only want to display a single
* error even if they all fail. This tracks that state.
*/
private boolean mIsConnectingErrorPossible;
/**
* Last time a bt profile auto-connect was attempted.
* If an ACTION_UUID intent comes in within
* MAX_UUID_DELAY_FOR_AUTO_CONNECT milliseconds, we will try auto-connect
* again with the new UUIDs
*/
private long mConnectAttempted;
// See mConnectAttempted
private static final long MAX_UUID_DELAY_FOR_AUTO_CONNECT = 5000;
private static final long MAX_HOGP_DELAY_FOR_AUTO_CONNECT = 30000;
/** Auto-connect after pairing only if locally initiated. */
private boolean mConnectAfterPairing;
/**
* Describes the current device and profile for logging.
*
* @param profile Profile to describe
* @return Description of the device and profile
*/
private String describe(LocalBluetoothProfile profile) {
StringBuilder sb = new StringBuilder();
sb.append("Address:").append(mDevice);
if (profile != null) {
sb.append(" Profile:").append(profile);
}
return sb.toString();
}
void onProfileStateChanged(LocalBluetoothProfile profile, int newProfileState) {
if (Utils.D) {
Log.d(TAG, "onProfileStateChanged: profile " + profile +
" newProfileState " + newProfileState);
}
if (mLocalAdapter.getBluetoothState() == BluetoothAdapter.STATE_TURNING_OFF)
{
if (Utils.D) Log.d(TAG, " BT Turninig Off...Profile conn state change ignored...");
return;
}
mProfileConnectionState.put(profile, newProfileState);
if (newProfileState == BluetoothProfile.STATE_CONNECTED) {
if (profile instanceof MapProfile) {
profile.setPreferred(mDevice, true);
} else if (!mProfiles.contains(profile)) {
mRemovedProfiles.remove(profile);
mProfiles.add(profile);
if (profile instanceof PanProfile &&
((PanProfile) profile).isLocalRoleNap(mDevice)) {
// Device doesn't support NAP, so remove PanProfile on disconnect
mLocalNapRoleConnected = true;
}
}
} else if (profile instanceof MapProfile &&
newProfileState == BluetoothProfile.STATE_DISCONNECTED) {
profile.setPreferred(mDevice, false);
} else if (mLocalNapRoleConnected && profile instanceof PanProfile &&
((PanProfile) profile).isLocalRoleNap(mDevice) &&
newProfileState == BluetoothProfile.STATE_DISCONNECTED) {
Log.d(TAG, "Removing PanProfile from device after NAP disconnect");
mProfiles.remove(profile);
mRemovedProfiles.add(profile);
mLocalNapRoleConnected = false;
}
}
CachedBluetoothDevice(Context context,
LocalBluetoothAdapter adapter,
LocalBluetoothProfileManager profileManager,
BluetoothDevice device) {
mContext = context;
mLocalAdapter = adapter;
mProfileManager = profileManager;
mDevice = device;
mProfileConnectionState = new HashMap<LocalBluetoothProfile, Integer>();
fillData();
}
public void disconnect() {
for (LocalBluetoothProfile profile : mProfiles) {
disconnect(profile);
}
// Disconnect PBAP server in case its connected
// This is to ensure all the profiles are disconnected as some CK/Hs do not
// disconnect PBAP connection when HF connection is brought down
PbapServerProfile PbapProfile = mProfileManager.getPbapProfile();
if (PbapProfile.getConnectionStatus(mDevice) == BluetoothProfile.STATE_CONNECTED)
{
PbapProfile.disconnect(mDevice);
}
}
public void disconnect(LocalBluetoothProfile profile) {
if (profile.disconnect(mDevice)) {
if (Utils.D) {
Log.d(TAG, "Command sent successfully:DISCONNECT " + describe(profile));
}
}
}
public void connect(boolean connectAllProfiles) {
if (!ensurePaired()) {
return;
}
mConnectAttempted = SystemClock.elapsedRealtime();
connectWithoutResettingTimer(connectAllProfiles);
}
void onBondingDockConnect() {
// Attempt to connect if UUIDs are available. Otherwise,
// we will connect when the ACTION_UUID intent arrives.
connect(false);
}
private void connectWithoutResettingTimer(boolean connectAllProfiles) {
// Try to initialize the profiles if they were not.
if (mProfiles.isEmpty()) {
// if mProfiles is empty, then do not invoke updateProfiles. This causes a race
// condition with carkits during pairing, wherein RemoteDevice.UUIDs have been updated
// from bluetooth stack but ACTION.uuid is not sent yet.
// Eventually ACTION.uuid will be received which shall trigger the connection of the
// various profiles
// If UUIDs are not available yet, connect will be happen
// upon arrival of the ACTION_UUID intent.
Log.d(TAG, "No profiles. Maybe we will connect later");
return;
}
// Reset the only-show-one-error-dialog tracking variable
mIsConnectingErrorPossible = true;
int preferredProfiles = 0;
for (LocalBluetoothProfile profile : mProfiles) {
if (connectAllProfiles ? profile.isConnectable() : profile.isAutoConnectable()) {
if (profile.isPreferred(mDevice)) {
++preferredProfiles;
connectInt(profile);
}
}
}
if (DEBUG) Log.d(TAG, "Preferred profiles = " + preferredProfiles);
if (preferredProfiles == 0) {
connectAutoConnectableProfiles();
}
}
private void connectAutoConnectableProfiles() {
if (!ensurePaired()) {
return;
}
// Reset the only-show-one-error-dialog tracking variable
mIsConnectingErrorPossible = true;
for (LocalBluetoothProfile profile : mProfiles) {
if (profile.isAutoConnectable()) {
profile.setPreferred(mDevice, true);
connectInt(profile);
}
}
}
/**
* Connect this device to the specified profile.
*
* @param profile the profile to use with the remote device
*/
public void connectProfile(LocalBluetoothProfile profile) {
mConnectAttempted = SystemClock.elapsedRealtime();
// Reset the only-show-one-error-dialog tracking variable
mIsConnectingErrorPossible = true;
connectInt(profile);
// Refresh the UI based on profile.connect() call
refresh();
}
synchronized void connectInt(LocalBluetoothProfile profile) {
if (!ensurePaired()) {
return;
}
if (profile.connect(mDevice)) {
if (Utils.D) {
Log.d(TAG, "Command sent successfully:CONNECT " + describe(profile));
}
return;
}
Log.i(TAG, "Failed to connect " + profile.toString() + " to " + mName);
}
private boolean ensurePaired() {
if (getBondState() == BluetoothDevice.BOND_NONE) {
startPairing();
return false;
} else {
return true;
}
}
public boolean startPairing() {
// Pairing is unreliable while scanning, so cancel discovery
if (mLocalAdapter.isDiscovering()) {
mLocalAdapter.cancelDiscovery();
}
if (!mDevice.createBond()) {
return false;
}
mConnectAfterPairing = true; // auto-connect after pairing
return true;
}
/**
* Return true if user initiated pairing on this device. The message text is
* slightly different for local vs. remote initiated pairing dialogs.
*/
boolean isUserInitiatedPairing() {
return mConnectAfterPairing;
}
public void unpair() {
int state = getBondState();
if (state == BluetoothDevice.BOND_BONDING) {
mDevice.cancelBondProcess();
}
if (state != BluetoothDevice.BOND_NONE) {
final BluetoothDevice dev = mDevice;
if (dev != null) {
final boolean successful = dev.removeBond();
if (successful) {
if (Utils.D) {
Log.d(TAG, "Command sent successfully:REMOVE_BOND " + describe(null));
}
} else if (Utils.V) {
Log.v(TAG, "Framework rejected command immediately:REMOVE_BOND " +
describe(null));
}
}
}
}
public int getProfileConnectionState(LocalBluetoothProfile profile) {
if (mProfileConnectionState == null ||
mProfileConnectionState.get(profile) == null) {
// If cache is empty make the binder call to get the state
int state = profile.getConnectionStatus(mDevice);
mProfileConnectionState.put(profile, state);
}
return mProfileConnectionState.get(profile);
}
public void clearProfileConnectionState ()
{
if (Utils.D) {
Log.d(TAG," Clearing all connection state for dev:" + mDevice.getName());
}
for (LocalBluetoothProfile profile :getProfiles()) {
mProfileConnectionState.put(profile, BluetoothProfile.STATE_DISCONNECTED);
}
}
// TODO: do any of these need to run async on a background thread?
private void fillData() {
fetchName();
fetchBtClass();
updateProfiles();
migratePhonebookPermissionChoice();
migrateMessagePermissionChoice();
fetchMessageRejectionCount();
mVisible = false;
dispatchAttributesChanged();
}
public BluetoothDevice getDevice() {
return mDevice;
}
public String getName() {
return mName;
}
/**
* Populate name from BluetoothDevice.ACTION_FOUND intent
*/
void setNewName(String name) {
if (mName == null) {
mName = name;
if (mName == null || TextUtils.isEmpty(mName)) {
mName = mDevice.getAddress();
}
dispatchAttributesChanged();
}
}
/**
* user changes the device name
*/
public void setName(String name) {
if (!mName.equals(name)) {
mName = name;
mDevice.setAlias(name);
dispatchAttributesChanged();
}
}
void refreshName() {
fetchName();
dispatchAttributesChanged();
}
private void fetchName() {
mName = mDevice.getAliasName();
if (TextUtils.isEmpty(mName)) {
mName = mDevice.getAddress();
if (DEBUG) Log.d(TAG, "Device has no name (yet), use address: " + mName);
}
}
void refresh() {
dispatchAttributesChanged();
}
public boolean isVisible() {
return mVisible;
}
public void setVisible(boolean visible) {
if (mVisible != visible) {
mVisible = visible;
dispatchAttributesChanged();
}
}
public int getBondState() {
return mDevice.getBondState();
}
void setRssi(short rssi) {
if (mRssi != rssi) {
mRssi = rssi;
dispatchAttributesChanged();
}
}
/**
* Checks whether we are connected to this device (any profile counts).
*
* @return Whether it is connected.
*/
public boolean isConnected() {
for (LocalBluetoothProfile profile : mProfiles) {
int status = getProfileConnectionState(profile);
if (status == BluetoothProfile.STATE_CONNECTED) {
return true;
}
}
return false;
}
public boolean isConnectedProfile(LocalBluetoothProfile profile) {
int status = getProfileConnectionState(profile);
return status == BluetoothProfile.STATE_CONNECTED;
}
public boolean isBusy() {
for (LocalBluetoothProfile profile : mProfiles) {
int status = getProfileConnectionState(profile);
if (status == BluetoothProfile.STATE_CONNECTING
|| status == BluetoothProfile.STATE_DISCONNECTING) {
return true;
}
}
return getBondState() == BluetoothDevice.BOND_BONDING;
}
/**
* Fetches a new value for the cached BT class.
*/
private void fetchBtClass() {
mBtClass = mDevice.getBluetoothClass();
}
private boolean updateProfiles() {
ParcelUuid[] uuids = mDevice.getUuids();
if (uuids == null) return false;
ParcelUuid[] localUuids = mLocalAdapter.getUuids();
if (localUuids == null) return false;
/**
* Now we know if the device supports PBAP, update permissions...
*/
processPhonebookAccess();
mProfileManager.updateProfiles(uuids, localUuids, mProfiles, mRemovedProfiles,
mLocalNapRoleConnected, mDevice);
if (DEBUG) {
Log.e(TAG, "updating profiles for " + mDevice.getAliasName());
BluetoothClass bluetoothClass = mDevice.getBluetoothClass();
if (bluetoothClass != null) Log.v(TAG, "Class: " + bluetoothClass.toString());
Log.v(TAG, "UUID:");
for (ParcelUuid uuid : uuids) {
Log.v(TAG, " " + uuid);
}
}
return true;
}
/**
* Refreshes the UI for the BT class, including fetching the latest value
* for the class.
*/
void refreshBtClass() {
fetchBtClass();
dispatchAttributesChanged();
}
/**
* Refreshes the UI when framework alerts us of a UUID change.
*/
void onUuidChanged() {
updateProfiles();
ParcelUuid[] uuids = mDevice.getUuids();
long timeout = MAX_UUID_DELAY_FOR_AUTO_CONNECT;
if (BluetoothUuid.isUuidPresent(uuids, BluetoothUuid.Hogp)) {
timeout = MAX_HOGP_DELAY_FOR_AUTO_CONNECT;
}
if (DEBUG) {
Log.d(TAG, "onUuidChanged: Time since last connect"
+ (SystemClock.elapsedRealtime() - mConnectAttempted));
}
/*
* If a connect was attempted earlier without any UUID, we will do the connect now.
* Otherwise, allow the connect on UUID change.
*/
if (!mProfiles.isEmpty()
&& ((mConnectAttempted + timeout) > SystemClock.elapsedRealtime())) {
connectWithoutResettingTimer(false);
}
dispatchAttributesChanged();
}
void onBondingStateChanged(int bondState) {
if (bondState == BluetoothDevice.BOND_NONE) {
mProfiles.clear();
mConnectAfterPairing = false; // cancel auto-connect
setPhonebookPermissionChoice(ACCESS_UNKNOWN);
setMessagePermissionChoice(ACCESS_UNKNOWN);
setSimPermissionChoice(ACCESS_UNKNOWN);
mMessageRejectionCount = 0;
saveMessageRejectionCount();
}
refresh();
if (bondState == BluetoothDevice.BOND_BONDED) {
if (mDevice.isBluetoothDock()) {
onBondingDockConnect();
} else if (mConnectAfterPairing) {
connect(false);
}
mConnectAfterPairing = false;
}
}
void setBtClass(BluetoothClass btClass) {
if (btClass != null && mBtClass != btClass) {
mBtClass = btClass;
dispatchAttributesChanged();
}
}
public BluetoothClass getBtClass() {
return mBtClass;
}
public List<LocalBluetoothProfile> getProfiles() {
return Collections.unmodifiableList(mProfiles);
}
public List<LocalBluetoothProfile> getConnectableProfiles() {
List<LocalBluetoothProfile> connectableProfiles =
new ArrayList<LocalBluetoothProfile>();
for (LocalBluetoothProfile profile : mProfiles) {
if (profile.isConnectable()) {
connectableProfiles.add(profile);
}
}
return connectableProfiles;
}
public List<LocalBluetoothProfile> getRemovedProfiles() {
return mRemovedProfiles;
}
public void registerCallback(Callback callback) {
synchronized (mCallbacks) {
mCallbacks.add(callback);
}
}
public void unregisterCallback(Callback callback) {
synchronized (mCallbacks) {
mCallbacks.remove(callback);
}
}
private void dispatchAttributesChanged() {
synchronized (mCallbacks) {
for (Callback callback : mCallbacks) {
callback.onDeviceAttributesChanged();
}
}
}
@Override
public String toString() {
return mDevice.toString();
}
@Override
public boolean equals(Object o) {
if ((o == null) || !(o instanceof CachedBluetoothDevice)) {
return false;
}
return mDevice.equals(((CachedBluetoothDevice) o).mDevice);
}
@Override
public int hashCode() {
return mDevice.getAddress().hashCode();
}
// This comparison uses non-final fields so the sort order may change
// when device attributes change (such as bonding state). Settings
// will completely refresh the device list when this happens.
public int compareTo(CachedBluetoothDevice another) {
// Connected above not connected
int comparison = (another.isConnected() ? 1 : 0) - (isConnected() ? 1 : 0);
if (comparison != 0) return comparison;
// Paired above not paired
comparison = (another.getBondState() == BluetoothDevice.BOND_BONDED ? 1 : 0) -
(getBondState() == BluetoothDevice.BOND_BONDED ? 1 : 0);
if (comparison != 0) return comparison;
// Visible above not visible
comparison = (another.mVisible ? 1 : 0) - (mVisible ? 1 : 0);
if (comparison != 0) return comparison;
// Stronger signal above weaker signal
comparison = another.mRssi - mRssi;
if (comparison != 0) return comparison;
// Fallback on name
return mName.compareTo(another.mName);
}
public interface Callback {
void onDeviceAttributesChanged();
}
public int getPhonebookPermissionChoice() {
int permission = mDevice.getPhonebookAccessPermission();
if (permission == BluetoothDevice.ACCESS_ALLOWED) {
return ACCESS_ALLOWED;
} else if (permission == BluetoothDevice.ACCESS_REJECTED) {
return ACCESS_REJECTED;
}
return ACCESS_UNKNOWN;
}
public void setPhonebookPermissionChoice(int permissionChoice) {
int permission = BluetoothDevice.ACCESS_UNKNOWN;
if (permissionChoice == ACCESS_ALLOWED) {
permission = BluetoothDevice.ACCESS_ALLOWED;
} else if (permissionChoice == ACCESS_REJECTED) {
permission = BluetoothDevice.ACCESS_REJECTED;
}
mDevice.setPhonebookAccessPermission(permission);
}
// Migrates data from old data store (in Settings app's shared preferences) to new (in Bluetooth
// app's shared preferences).
private void migratePhonebookPermissionChoice() {
SharedPreferences preferences = mContext.getSharedPreferences(
"bluetooth_phonebook_permission", Context.MODE_PRIVATE);
if (!preferences.contains(mDevice.getAddress())) {
return;
}
if (mDevice.getPhonebookAccessPermission() == BluetoothDevice.ACCESS_UNKNOWN) {
int oldPermission = preferences.getInt(mDevice.getAddress(), ACCESS_UNKNOWN);
if (oldPermission == ACCESS_ALLOWED) {
mDevice.setPhonebookAccessPermission(BluetoothDevice.ACCESS_ALLOWED);
} else if (oldPermission == ACCESS_REJECTED) {
mDevice.setPhonebookAccessPermission(BluetoothDevice.ACCESS_REJECTED);
}
}
SharedPreferences.Editor editor = preferences.edit();
editor.remove(mDevice.getAddress());
editor.commit();
}
public int getMessagePermissionChoice() {
int permission = mDevice.getMessageAccessPermission();
if (permission == BluetoothDevice.ACCESS_ALLOWED) {
return ACCESS_ALLOWED;
} else if (permission == BluetoothDevice.ACCESS_REJECTED) {
return ACCESS_REJECTED;
}
return ACCESS_UNKNOWN;
}
public void setMessagePermissionChoice(int permissionChoice) {
int permission = BluetoothDevice.ACCESS_UNKNOWN;
if (permissionChoice == ACCESS_ALLOWED) {
permission = BluetoothDevice.ACCESS_ALLOWED;
} else if (permissionChoice == ACCESS_REJECTED) {
permission = BluetoothDevice.ACCESS_REJECTED;
}
mDevice.setMessageAccessPermission(permission);
}
public int getSimPermissionChoice() {
int permission = mDevice.getSimAccessPermission();
if (permission == BluetoothDevice.ACCESS_ALLOWED) {
return ACCESS_ALLOWED;
} else if (permission == BluetoothDevice.ACCESS_REJECTED) {
return ACCESS_REJECTED;
}
return ACCESS_UNKNOWN;
}
void setSimPermissionChoice(int permissionChoice) {
int permission = BluetoothDevice.ACCESS_UNKNOWN;
if (permissionChoice == ACCESS_ALLOWED) {
permission = BluetoothDevice.ACCESS_ALLOWED;
} else if (permissionChoice == ACCESS_REJECTED) {
permission = BluetoothDevice.ACCESS_REJECTED;
}
mDevice.setSimAccessPermission(permission);
}
// Migrates data from old data store (in Settings app's shared preferences) to new (in Bluetooth
// app's shared preferences).
private void migrateMessagePermissionChoice() {
SharedPreferences preferences = mContext.getSharedPreferences(
"bluetooth_message_permission", Context.MODE_PRIVATE);
if (!preferences.contains(mDevice.getAddress())) {
return;
}
if (mDevice.getMessageAccessPermission() == BluetoothDevice.ACCESS_UNKNOWN) {
int oldPermission = preferences.getInt(mDevice.getAddress(), ACCESS_UNKNOWN);
if (oldPermission == ACCESS_ALLOWED) {
mDevice.setMessageAccessPermission(BluetoothDevice.ACCESS_ALLOWED);
} else if (oldPermission == ACCESS_REJECTED) {
mDevice.setMessageAccessPermission(BluetoothDevice.ACCESS_REJECTED);
}
}
SharedPreferences.Editor editor = preferences.edit();
editor.remove(mDevice.getAddress());
editor.commit();
}
/**
* @return Whether this rejection should persist.
*/
public boolean checkAndIncreaseMessageRejectionCount() {
if (mMessageRejectionCount < MESSAGE_REJECTION_COUNT_LIMIT_TO_PERSIST) {
mMessageRejectionCount++;
saveMessageRejectionCount();
}
return mMessageRejectionCount >= MESSAGE_REJECTION_COUNT_LIMIT_TO_PERSIST;
}
private void fetchMessageRejectionCount() {
SharedPreferences preference = mContext.getSharedPreferences(
MESSAGE_REJECTION_COUNT_PREFS_NAME, Context.MODE_PRIVATE);
mMessageRejectionCount = preference.getInt(mDevice.getAddress(), 0);
}
private void saveMessageRejectionCount() {
SharedPreferences.Editor editor = mContext.getSharedPreferences(
MESSAGE_REJECTION_COUNT_PREFS_NAME, Context.MODE_PRIVATE).edit();
if (mMessageRejectionCount == 0) {
editor.remove(mDevice.getAddress());
} else {
editor.putInt(mDevice.getAddress(), mMessageRejectionCount);
}
editor.commit();
}
private void processPhonebookAccess() {
if (mDevice.getBondState() != BluetoothDevice.BOND_BONDED) return;
ParcelUuid[] uuids = mDevice.getUuids();
if (BluetoothUuid.containsAnyUuid(uuids, PbapServerProfile.PBAB_CLIENT_UUIDS)) {
// The pairing dialog now warns of phone-book access for paired devices.
// No separate prompt is displayed after pairing.
if (getPhonebookPermissionChoice() == CachedBluetoothDevice.ACCESS_UNKNOWN) {
if (mDevice.getBluetoothClass().getDeviceClass()
== BluetoothClass.Device.AUDIO_VIDEO_HANDSFREE) {
setPhonebookPermissionChoice(CachedBluetoothDevice.ACCESS_ALLOWED);
} else {
setPhonebookPermissionChoice(CachedBluetoothDevice.ACCESS_REJECTED);
}
}
}
}
public int getMaxConnectionState() {
int maxState = BluetoothProfile.STATE_DISCONNECTED;
for (LocalBluetoothProfile profile : getProfiles()) {
int connectionStatus = getProfileConnectionState(profile);
if (connectionStatus > maxState) {
maxState = connectionStatus;
}
}
return maxState;
}
/**
* @return resource for string that discribes the connection state of this device.
*/
public int getConnectionSummary() {
boolean profileConnected = false; // at least one profile is connected
boolean a2dpNotConnected = false; // A2DP is preferred but not connected
boolean headsetNotConnected = false; // Headset is preferred but not connected
for (LocalBluetoothProfile profile : getProfiles()) {
int connectionStatus = getProfileConnectionState(profile);
switch (connectionStatus) {
case BluetoothProfile.STATE_CONNECTING:
case BluetoothProfile.STATE_DISCONNECTING:
return Utils.getConnectionStateSummary(connectionStatus);
case BluetoothProfile.STATE_CONNECTED:
profileConnected = true;
break;
case BluetoothProfile.STATE_DISCONNECTED:
if (profile.isProfileReady()) {
if (profile instanceof A2dpProfile) {
a2dpNotConnected = true;
} else if (profile instanceof HeadsetProfile) {
headsetNotConnected = true;
}
}
break;
}
}
if (profileConnected) {
if (a2dpNotConnected && headsetNotConnected) {
return R.string.bluetooth_connected_no_headset_no_a2dp;
} else if (a2dpNotConnected) {
return R.string.bluetooth_connected_no_a2dp;
} else if (headsetNotConnected) {
return R.string.bluetooth_connected_no_headset;
} else {
return R.string.bluetooth_connected;
}
}
return getBondState() == BluetoothDevice.BOND_BONDING ? R.string.bluetooth_pairing : 0;
}
}