/* * Copyright (C) 2012 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.bluetooth.hdp; import android.bluetooth.BluetoothDevice; import android.bluetooth.BluetoothHealth; import android.bluetooth.BluetoothHealthAppConfiguration; import android.bluetooth.BluetoothProfile; import android.bluetooth.IBluetooth; import android.bluetooth.IBluetoothHealth; import android.bluetooth.IBluetoothHealthCallback; import android.content.Intent; import android.content.pm.PackageManager; import android.os.Handler; import android.os.HandlerThread; import android.os.IBinder; import android.os.IBinder.DeathRecipient; import android.os.Looper; import android.os.Message; import android.os.ParcelFileDescriptor; import android.os.RemoteException; import android.os.ServiceManager; import android.util.Log; import com.android.bluetooth.btservice.ProfileService; import com.android.bluetooth.btservice.ProfileService.IProfileServiceBinder; import com.android.bluetooth.Utils; import java.io.FileDescriptor; import java.io.IOException; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.Map.Entry; import java.util.NoSuchElementException; /** * Provides Bluetooth Health Device profile, as a service in * the Bluetooth application. * @hide */ public class HealthService extends ProfileService { private static final boolean DBG = true; private static final boolean VDBG = false; private static final String TAG="HealthService"; private List mHealthChannels; private Map mApps; private Map mHealthDevices; private boolean mNativeAvailable; private HealthServiceMessageHandler mHandler; private static final int MESSAGE_REGISTER_APPLICATION = 1; private static final int MESSAGE_UNREGISTER_APPLICATION = 2; private static final int MESSAGE_CONNECT_CHANNEL = 3; private static final int MESSAGE_DISCONNECT_CHANNEL = 4; private static final int MESSAGE_APP_REGISTRATION_CALLBACK = 11; private static final int MESSAGE_CHANNEL_STATE_CALLBACK = 12; static { classInitNative(); } protected String getName() { return TAG; } protected IProfileServiceBinder initBinder() { return new BluetoothHealthBinder(this); } protected boolean start() { mHealthChannels = Collections.synchronizedList(new ArrayList()); mApps = Collections.synchronizedMap(new HashMap()); mHealthDevices = Collections.synchronizedMap(new HashMap()); HandlerThread thread = new HandlerThread("BluetoothHdpHandler"); thread.start(); Looper looper = thread.getLooper(); mHandler = new HealthServiceMessageHandler(looper); initializeNative(); mNativeAvailable=true; return true; } protected boolean stop() { if (mHandler != null) { mHandler.removeCallbacksAndMessages(null); Looper looper = mHandler.getLooper(); if (looper != null) { looper.quit(); } } cleanupApps(); return true; } private void cleanupApps(){ if (mApps != null) { Iterator >it = mApps.entrySet().iterator(); while (it.hasNext()) { Map.Entry entry = it.next(); AppInfo appInfo = entry.getValue(); if (appInfo != null) appInfo.cleanup(); it.remove(); } } } protected boolean cleanup() { mHandler = null; //Cleanup native if (mNativeAvailable) { cleanupNative(); mNativeAvailable=false; } if(mHealthChannels != null) { mHealthChannels.clear(); } if(mHealthDevices != null) { mHealthDevices.clear(); } if(mApps != null) { mApps.clear(); } return true; } private final class HealthServiceMessageHandler extends Handler { private HealthServiceMessageHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { if (DBG) log("HealthService Handler msg: " + msg.what); switch (msg.what) { case MESSAGE_REGISTER_APPLICATION: { BluetoothHealthAppConfiguration appConfig = (BluetoothHealthAppConfiguration) msg.obj; AppInfo appInfo = mApps.get(appConfig); if (appInfo == null) break; int halRole = convertRoleToHal(appConfig.getRole()); int halChannelType = convertChannelTypeToHal(appConfig.getChannelType()); if (VDBG) log("register datatype: " + appConfig.getDataType() + " role: " + halRole + " name: " + appConfig.getName() + " channeltype: " + halChannelType); int appId = registerHealthAppNative(appConfig.getDataType(), halRole, appConfig.getName(), halChannelType); if (appId == -1) { callStatusCallback(appConfig, BluetoothHealth.APP_CONFIG_REGISTRATION_FAILURE); appInfo.cleanup(); mApps.remove(appConfig); } else { //link to death with a recipient object to implement binderDead() appInfo.mRcpObj = new BluetoothHealthDeathRecipient(HealthService.this,appConfig); IBinder binder = appInfo.mCallback.asBinder(); try { binder.linkToDeath(appInfo.mRcpObj,0); } catch (RemoteException e) { Log.e(TAG,"LinktoDeath Exception:"+e); } appInfo.mAppId = appId; callStatusCallback(appConfig, BluetoothHealth.APP_CONFIG_REGISTRATION_SUCCESS); } } break; case MESSAGE_UNREGISTER_APPLICATION: { BluetoothHealthAppConfiguration appConfig = (BluetoothHealthAppConfiguration) msg.obj; int appId = (mApps.get(appConfig)).mAppId; if (!unregisterHealthAppNative(appId)) { Log.e(TAG, "Failed to unregister application: id: " + appId); callStatusCallback(appConfig, BluetoothHealth.APP_CONFIG_UNREGISTRATION_FAILURE); } } break; case MESSAGE_CONNECT_CHANNEL: { HealthChannel chan = (HealthChannel) msg.obj; byte[] devAddr = Utils.getByteAddress(chan.mDevice); int appId = (mApps.get(chan.mConfig)).mAppId; chan.mChannelId = connectChannelNative(devAddr, appId); if (chan.mChannelId == -1) { callHealthChannelCallback(chan.mConfig, chan.mDevice, BluetoothHealth.STATE_CHANNEL_DISCONNECTING, BluetoothHealth.STATE_CHANNEL_DISCONNECTED, chan.mChannelFd, chan.mChannelId); callHealthChannelCallback(chan.mConfig, chan.mDevice, BluetoothHealth.STATE_CHANNEL_DISCONNECTED, BluetoothHealth.STATE_CHANNEL_DISCONNECTING, chan.mChannelFd, chan.mChannelId); } } break; case MESSAGE_DISCONNECT_CHANNEL: { HealthChannel chan = (HealthChannel) msg.obj; if (!disconnectChannelNative(chan.mChannelId)) { callHealthChannelCallback(chan.mConfig, chan.mDevice, BluetoothHealth.STATE_CHANNEL_DISCONNECTING, BluetoothHealth.STATE_CHANNEL_CONNECTED, chan.mChannelFd, chan.mChannelId); callHealthChannelCallback(chan.mConfig, chan.mDevice, BluetoothHealth.STATE_CHANNEL_CONNECTED, BluetoothHealth.STATE_CHANNEL_DISCONNECTING, chan.mChannelFd, chan.mChannelId); } } break; case MESSAGE_APP_REGISTRATION_CALLBACK: { BluetoothHealthAppConfiguration appConfig = findAppConfigByAppId(msg.arg1); if (appConfig == null) break; int regStatus = convertHalRegStatus(msg.arg2); callStatusCallback(appConfig, regStatus); if (regStatus == BluetoothHealth.APP_CONFIG_REGISTRATION_FAILURE || regStatus == BluetoothHealth.APP_CONFIG_UNREGISTRATION_SUCCESS) { //unlink to death once app is unregistered AppInfo appInfo = mApps.get(appConfig); appInfo.cleanup(); mApps.remove(appConfig); } } break; case MESSAGE_CHANNEL_STATE_CALLBACK: { ChannelStateEvent channelStateEvent = (ChannelStateEvent) msg.obj; HealthChannel chan = findChannelById(channelStateEvent.mChannelId); BluetoothHealthAppConfiguration appConfig = findAppConfigByAppId(channelStateEvent.mAppId); int newState; newState = convertHalChannelState(channelStateEvent.mState); if (newState == BluetoothHealth.STATE_CHANNEL_DISCONNECTED && appConfig == null) { Log.e(TAG,"Disconnected for non existing app"); break; } if (chan == null) { // incoming connection BluetoothDevice device = getDevice(channelStateEvent.mAddr); chan = new HealthChannel(device, appConfig, appConfig.getChannelType()); chan.mChannelId = channelStateEvent.mChannelId; mHealthChannels.add(chan); } newState = convertHalChannelState(channelStateEvent.mState); if (newState == BluetoothHealth.STATE_CHANNEL_CONNECTED) { try { chan.mChannelFd = ParcelFileDescriptor.dup(channelStateEvent.mFd); } catch (IOException e) { Log.e(TAG, "failed to dup ParcelFileDescriptor"); break; } } /*set the channel fd to null if channel state isnot equal to connected*/ else{ chan.mChannelFd = null; } callHealthChannelCallback(chan.mConfig, chan.mDevice, newState, chan.mState, chan.mChannelFd, chan.mChannelId); chan.mState = newState; if (channelStateEvent.mState == CONN_STATE_DESTROYED) { mHealthChannels.remove(chan); } } break; } } } //Handler for DeathReceipient private static class BluetoothHealthDeathRecipient implements IBinder.DeathRecipient{ private BluetoothHealthAppConfiguration mConfig; private HealthService mService; public BluetoothHealthDeathRecipient(HealthService service, BluetoothHealthAppConfiguration config) { mService = service; mConfig = config; } public void binderDied() { if (DBG) Log.d(TAG,"Binder is dead."); mService.unregisterAppConfiguration(mConfig); } public void cleanup(){ mService = null; mConfig = null; } } /** * Handlers for incoming service calls */ private static class BluetoothHealthBinder extends IBluetoothHealth.Stub implements IProfileServiceBinder { private HealthService mService; public BluetoothHealthBinder(HealthService svc) { mService = svc; } public boolean cleanup() { mService = null; return true; } private HealthService getService() { if (!Utils.checkCaller()) { Log.w(TAG,"Health call not allowed for non-active user"); return null; } if (mService != null && mService.isAvailable()) { return mService; } return null; } public boolean registerAppConfiguration(BluetoothHealthAppConfiguration config, IBluetoothHealthCallback callback) { HealthService service = getService(); if (service == null) return false; return service.registerAppConfiguration(config, callback); } public boolean unregisterAppConfiguration(BluetoothHealthAppConfiguration config) { HealthService service = getService(); if (service == null) return false; return service.unregisterAppConfiguration(config); } public boolean connectChannelToSource(BluetoothDevice device, BluetoothHealthAppConfiguration config) { HealthService service = getService(); if (service == null) return false; return service.connectChannelToSource(device, config); } public boolean connectChannelToSink(BluetoothDevice device, BluetoothHealthAppConfiguration config, int channelType) { HealthService service = getService(); if (service == null) return false; return service.connectChannelToSink(device, config, channelType); } public boolean disconnectChannel(BluetoothDevice device, BluetoothHealthAppConfiguration config, int channelId) { HealthService service = getService(); if (service == null) return false; return service.disconnectChannel(device, config, channelId); } public ParcelFileDescriptor getMainChannelFd(BluetoothDevice device, BluetoothHealthAppConfiguration config) { HealthService service = getService(); if (service == null) return null; return service.getMainChannelFd(device, config); } public int getHealthDeviceConnectionState(BluetoothDevice device) { HealthService service = getService(); if (service == null) return BluetoothHealth.STATE_DISCONNECTED; return service.getHealthDeviceConnectionState(device); } public List getConnectedHealthDevices() { HealthService service = getService(); if (service == null) return new ArrayList (0); return service.getConnectedHealthDevices(); } public List getHealthDevicesMatchingConnectionStates(int[] states) { HealthService service = getService(); if (service == null) return new ArrayList (0); return service.getHealthDevicesMatchingConnectionStates(states); } }; boolean registerAppConfiguration(BluetoothHealthAppConfiguration config, IBluetoothHealthCallback callback) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); if (mApps.get(config) != null) { if (DBG) Log.d(TAG, "Config has already been registered"); return false; } mApps.put(config, new AppInfo(callback)); Message msg = mHandler.obtainMessage(MESSAGE_REGISTER_APPLICATION,config); mHandler.sendMessage(msg); return true; } boolean unregisterAppConfiguration(BluetoothHealthAppConfiguration config) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); if (mApps.get(config) == null) { if (DBG) Log.d(TAG,"unregisterAppConfiguration: no app found"); return false; } Message msg = mHandler.obtainMessage(MESSAGE_UNREGISTER_APPLICATION,config); mHandler.sendMessage(msg); return true; } boolean connectChannelToSource(BluetoothDevice device, BluetoothHealthAppConfiguration config) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return connectChannel(device, config, BluetoothHealth.CHANNEL_TYPE_ANY); } boolean connectChannelToSink(BluetoothDevice device, BluetoothHealthAppConfiguration config, int channelType) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return connectChannel(device, config, channelType); } boolean disconnectChannel(BluetoothDevice device, BluetoothHealthAppConfiguration config, int channelId) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); HealthChannel chan = findChannelById(channelId); if (chan == null) { if (DBG) Log.d(TAG,"disconnectChannel: no channel found"); return false; } Message msg = mHandler.obtainMessage(MESSAGE_DISCONNECT_CHANNEL,chan); mHandler.sendMessage(msg); return true; } ParcelFileDescriptor getMainChannelFd(BluetoothDevice device, BluetoothHealthAppConfiguration config) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); HealthChannel healthChan = null; for (HealthChannel chan: mHealthChannels) { if (chan.mDevice.equals(device) && chan.mConfig.equals(config)) { healthChan = chan; } } if (healthChan == null) { Log.e(TAG, "No channel found for device: " + device + " config: " + config); return null; } return healthChan.mChannelFd; } int getHealthDeviceConnectionState(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return getConnectionState(device); } List getConnectedHealthDevices() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); List devices = lookupHealthDevicesMatchingStates( new int[] {BluetoothHealth.STATE_CONNECTED}); return devices; } List getHealthDevicesMatchingConnectionStates(int[] states) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); List devices = lookupHealthDevicesMatchingStates(states); return devices; } private void onAppRegistrationState(int appId, int state) { Message msg = mHandler.obtainMessage(MESSAGE_APP_REGISTRATION_CALLBACK); msg.arg1 = appId; msg.arg2 = state; mHandler.sendMessage(msg); } private void onChannelStateChanged(int appId, byte[] addr, int cfgIndex, int channelId, int state, FileDescriptor pfd) { Message msg = mHandler.obtainMessage(MESSAGE_CHANNEL_STATE_CALLBACK); ChannelStateEvent channelStateEvent = new ChannelStateEvent(appId, addr, cfgIndex, channelId, state, pfd); msg.obj = channelStateEvent; mHandler.sendMessage(msg); } private String getStringChannelType(int type) { if (type == BluetoothHealth.CHANNEL_TYPE_RELIABLE) { return "Reliable"; } else if (type == BluetoothHealth.CHANNEL_TYPE_STREAMING) { return "Streaming"; } else { return "Any"; } } private void callStatusCallback(BluetoothHealthAppConfiguration config, int status) { if (VDBG) log ("Health Device Application: " + config + " State Change: status:" + status); IBluetoothHealthCallback callback = (mApps.get(config)).mCallback; if (callback == null) { Log.e(TAG, "Callback object null"); } try { callback.onHealthAppConfigurationStatusChange(config, status); } catch (RemoteException e) { Log.e(TAG, "Remote Exception:" + e); } } private BluetoothHealthAppConfiguration findAppConfigByAppId(int appId) { BluetoothHealthAppConfiguration appConfig = null; for (Entry e : mApps.entrySet()) { if (appId == (e.getValue()).mAppId) { appConfig = e.getKey(); break; } } if (appConfig == null) { Log.e(TAG, "No appConfig found for " + appId); } return appConfig; } private int convertHalRegStatus(int halRegStatus) { switch (halRegStatus) { case APP_REG_STATE_REG_SUCCESS: return BluetoothHealth.APP_CONFIG_REGISTRATION_SUCCESS; case APP_REG_STATE_REG_FAILED: return BluetoothHealth.APP_CONFIG_REGISTRATION_FAILURE; case APP_REG_STATE_DEREG_SUCCESS: return BluetoothHealth.APP_CONFIG_UNREGISTRATION_SUCCESS; case APP_REG_STATE_DEREG_FAILED: return BluetoothHealth.APP_CONFIG_UNREGISTRATION_FAILURE; } Log.e(TAG, "Unexpected App Registration state: " + halRegStatus); return BluetoothHealth.APP_CONFIG_REGISTRATION_FAILURE; } private int convertHalChannelState(int halChannelState) { switch (halChannelState) { case CONN_STATE_CONNECTED: return BluetoothHealth.STATE_CHANNEL_CONNECTED; case CONN_STATE_CONNECTING: return BluetoothHealth.STATE_CHANNEL_CONNECTING; case CONN_STATE_DISCONNECTING: return BluetoothHealth.STATE_CHANNEL_DISCONNECTING; case CONN_STATE_DISCONNECTED: return BluetoothHealth.STATE_CHANNEL_DISCONNECTED; case CONN_STATE_DESTROYED: // TODO(BT) add BluetoothHealth.STATE_CHANNEL_DESTROYED; return BluetoothHealth.STATE_CHANNEL_DISCONNECTED; default: Log.e(TAG, "Unexpected channel state: " + halChannelState); return BluetoothHealth.STATE_CHANNEL_DISCONNECTED; } } private boolean connectChannel(BluetoothDevice device, BluetoothHealthAppConfiguration config, int channelType) { if (mApps.get(config) == null) { Log.e(TAG, "connectChannel fail to get a app id from config"); return false; } HealthChannel chan = new HealthChannel(device, config, channelType); Message msg = mHandler.obtainMessage(MESSAGE_CONNECT_CHANNEL); msg.obj = chan; mHandler.sendMessage(msg); return true; } private void callHealthChannelCallback(BluetoothHealthAppConfiguration config, BluetoothDevice device, int state, int prevState, ParcelFileDescriptor fd, int id) { broadcastHealthDeviceStateChange(device, state); log("Health Device Callback: " + device + " State Change: " + prevState + "->" + state); ParcelFileDescriptor dupedFd = null; if (fd != null) { try { dupedFd = fd.dup(); } catch (IOException e) { dupedFd = null; Log.e(TAG, "Exception while duping: " + e); } } IBluetoothHealthCallback callback = (mApps.get(config)).mCallback; if (callback == null) { Log.e(TAG, "No callback found for config: " + config); return; } try { callback.onHealthChannelStateChange(config, device, prevState, state, dupedFd, id); } catch (RemoteException e) { Log.e(TAG, "Remote Exception:" + e); } } /** * This function sends the intent for the updates on the connection status to the remote device. * Note that multiple channels can be connected to the remote device by multiple applications. * This sends an intent for the update to the device connection status and not the channel * connection status. Only the following state transitions are possible: * * {@link BluetoothHealth#STATE_DISCONNECTED} to {@link BluetoothHealth#STATE_CONNECTING} * {@link BluetoothHealth#STATE_CONNECTING} to {@link BluetoothHealth#STATE_CONNECTED} * {@link BluetoothHealth#STATE_CONNECTED} to {@link BluetoothHealth#STATE_DISCONNECTING} * {@link BluetoothHealth#STATE_DISCONNECTING} to {@link BluetoothHealth#STATE_DISCONNECTED} * {@link BluetoothHealth#STATE_DISCONNECTED} to {@link BluetoothHealth#STATE_CONNECTED} * {@link BluetoothHealth#STATE_CONNECTED} to {@link BluetoothHealth#STATE_DISCONNECTED} * {@link BluetoothHealth#STATE_CONNECTING} to {{@link BluetoothHealth#STATE_DISCONNECTED} * * @param device * @param prevChannelState * @param newChannelState * @hide */ private void broadcastHealthDeviceStateChange(BluetoothDevice device, int newChannelState) { if (mHealthDevices.get(device) == null) { mHealthDevices.put(device, BluetoothHealth.STATE_DISCONNECTED); } int currDeviceState = mHealthDevices.get(device); int newDeviceState = convertState(newChannelState); if (currDeviceState == newDeviceState) return; boolean sendIntent = false; List chan; switch (currDeviceState) { case BluetoothHealth.STATE_DISCONNECTED: // there was no connection or connect/disconnect attemp with the remote device sendIntent = true; break; case BluetoothHealth.STATE_CONNECTING: // there was no connection, there was a connecting attempt going on // Channel got connected. if (newDeviceState == BluetoothHealth.STATE_CONNECTED) { sendIntent = true; } else { // Channel got disconnected chan = findChannelByStates(device, new int [] { BluetoothHealth.STATE_CHANNEL_CONNECTING, BluetoothHealth.STATE_CHANNEL_DISCONNECTING}); if (chan.isEmpty()) { sendIntent = true; } } break; case BluetoothHealth.STATE_CONNECTED: // there was at least one connection // Channel got disconnected or is in disconnecting state. chan = findChannelByStates(device, new int [] { BluetoothHealth.STATE_CHANNEL_CONNECTING, BluetoothHealth.STATE_CHANNEL_CONNECTED}); if (chan.isEmpty()) { sendIntent = true; } break; case BluetoothHealth.STATE_DISCONNECTING: // there was no connected channel with the remote device // We were disconnecting all the channels with the remote device // Channel got disconnected. chan = findChannelByStates(device, new int [] { BluetoothHealth.STATE_CHANNEL_CONNECTING, BluetoothHealth.STATE_CHANNEL_DISCONNECTING}); if (chan.isEmpty()) { updateAndSendIntent(device, newDeviceState, currDeviceState); } break; } if (sendIntent) updateAndSendIntent(device, newDeviceState, currDeviceState); } private void updateAndSendIntent(BluetoothDevice device, int newDeviceState, int prevDeviceState) { if (newDeviceState == BluetoothHealth.STATE_DISCONNECTED) { mHealthDevices.remove(device); } else { mHealthDevices.put(device, newDeviceState); } notifyProfileConnectionStateChanged(device, BluetoothProfile.HEALTH, newDeviceState, prevDeviceState); } /** * This function converts the channel connection state to device connection state. * * @param state * @return */ private int convertState(int state) { switch (state) { case BluetoothHealth.STATE_CHANNEL_CONNECTED: return BluetoothHealth.STATE_CONNECTED; case BluetoothHealth.STATE_CHANNEL_CONNECTING: return BluetoothHealth.STATE_CONNECTING; case BluetoothHealth.STATE_CHANNEL_DISCONNECTING: return BluetoothHealth.STATE_DISCONNECTING; case BluetoothHealth.STATE_CHANNEL_DISCONNECTED: return BluetoothHealth.STATE_DISCONNECTED; } Log.e(TAG, "Mismatch in Channel and Health Device State: " + state); return BluetoothHealth.STATE_DISCONNECTED; } private int convertRoleToHal(int role) { if (role == BluetoothHealth.SOURCE_ROLE) return MDEP_ROLE_SOURCE; if (role == BluetoothHealth.SINK_ROLE) return MDEP_ROLE_SINK; Log.e(TAG, "unkonw role: " + role); return MDEP_ROLE_SINK; } private int convertChannelTypeToHal(int channelType) { if (channelType == BluetoothHealth.CHANNEL_TYPE_RELIABLE) return CHANNEL_TYPE_RELIABLE; if (channelType == BluetoothHealth.CHANNEL_TYPE_STREAMING) return CHANNEL_TYPE_STREAMING; if (channelType == BluetoothHealth.CHANNEL_TYPE_ANY) return CHANNEL_TYPE_ANY; Log.e(TAG, "unkonw channel type: " + channelType); return CHANNEL_TYPE_ANY; } private HealthChannel findChannelById(int id) { for (HealthChannel chan : mHealthChannels) { if (chan.mChannelId == id) return chan; } Log.e(TAG, "No channel found by id: " + id); return null; } private List findChannelByStates(BluetoothDevice device, int[] states) { List channels = new ArrayList(); for (HealthChannel chan: mHealthChannels) { if (chan.mDevice.equals(device)) { for (int state : states) { if (chan.mState == state) { channels.add(chan); } } } } return channels; } private int getConnectionState(BluetoothDevice device) { if (mHealthDevices.get(device) == null) { return BluetoothHealth.STATE_DISCONNECTED; } return mHealthDevices.get(device); } List lookupHealthDevicesMatchingStates(int[] states) { List healthDevices = new ArrayList(); for (BluetoothDevice device: mHealthDevices.keySet()) { int healthDeviceState = getConnectionState(device); for (int state : states) { if (state == healthDeviceState) { healthDevices.add(device); break; } } } return healthDevices; } @Override public void dump(StringBuilder sb) { super.dump(sb); println(sb, "mHealthChannels:"); for (HealthChannel channel : mHealthChannels) { println(sb, " " + channel); } println(sb, "mApps:"); for (BluetoothHealthAppConfiguration conf : mApps.keySet()) { println(sb, " " + conf + " : " + mApps.get(conf)); } println(sb, "mHealthDevices:"); for (BluetoothDevice device : mHealthDevices.keySet()) { println(sb, " " + device + " : " + mHealthDevices.get(device)); } } private static class AppInfo { private IBluetoothHealthCallback mCallback; private BluetoothHealthDeathRecipient mRcpObj; private int mAppId; private AppInfo(IBluetoothHealthCallback callback) { mCallback = callback; mRcpObj = null; mAppId = -1; } private void cleanup(){ if(mCallback != null){ if(mRcpObj != null){ IBinder binder = mCallback.asBinder(); try{ binder.unlinkToDeath(mRcpObj,0); }catch(NoSuchElementException e){ Log.e(TAG,"No death recipient registered"+e); } mRcpObj.cleanup(); mRcpObj = null; } mCallback = null; } else if(mRcpObj != null){ mRcpObj.cleanup(); mRcpObj = null; } } } private class HealthChannel { private ParcelFileDescriptor mChannelFd; private BluetoothDevice mDevice; private BluetoothHealthAppConfiguration mConfig; // BluetoothHealth channel state private int mState; private int mChannelType; private int mChannelId; private HealthChannel(BluetoothDevice device, BluetoothHealthAppConfiguration config, int channelType) { mChannelFd = null; mDevice = device; mConfig = config; mState = BluetoothHealth.STATE_CHANNEL_DISCONNECTED; mChannelType = channelType; mChannelId = -1; } } // Channel state event from Hal private class ChannelStateEvent { int mAppId; byte[] mAddr; int mCfgIndex; int mChannelId; int mState; FileDescriptor mFd; private ChannelStateEvent(int appId, byte[] addr, int cfgIndex, int channelId, int state, FileDescriptor fileDescriptor) { mAppId = appId; mAddr = addr; mCfgIndex = cfgIndex; mState = state; mChannelId = channelId; mFd = fileDescriptor; } } // Constants matching Hal header file bt_hl.h // bthl_app_reg_state_t private static final int APP_REG_STATE_REG_SUCCESS = 0; private static final int APP_REG_STATE_REG_FAILED = 1; private static final int APP_REG_STATE_DEREG_SUCCESS = 2; private static final int APP_REG_STATE_DEREG_FAILED = 3; // bthl_channel_state_t private static final int CONN_STATE_CONNECTING = 0; private static final int CONN_STATE_CONNECTED = 1; private static final int CONN_STATE_DISCONNECTING = 2; private static final int CONN_STATE_DISCONNECTED = 3; private static final int CONN_STATE_DESTROYED = 4; // bthl_mdep_role_t private static final int MDEP_ROLE_SOURCE = 0; private static final int MDEP_ROLE_SINK = 1; // bthl_channel_type_t private static final int CHANNEL_TYPE_RELIABLE = 0; private static final int CHANNEL_TYPE_STREAMING = 1; private static final int CHANNEL_TYPE_ANY =2; private native static void classInitNative(); private native void initializeNative(); private native void cleanupNative(); private native int registerHealthAppNative(int dataType, int role, String name, int channelType); private native boolean unregisterHealthAppNative(int appId); private native int connectChannelNative(byte[] btAddress, int appId); private native boolean disconnectChannelNative(int channelId); }