/* * Copyright (C) 2011 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 android.net.wifi.p2p; import android.annotation.SdkConstant; import android.annotation.SdkConstant.SdkConstantType; import android.content.Context; import android.net.wifi.WpsInfo; import android.net.wifi.p2p.nsd.WifiP2pDnsSdServiceInfo; import android.net.wifi.p2p.nsd.WifiP2pDnsSdServiceResponse; import android.net.wifi.p2p.nsd.WifiP2pServiceInfo; import android.net.wifi.p2p.nsd.WifiP2pServiceRequest; import android.net.wifi.p2p.nsd.WifiP2pServiceResponse; import android.net.wifi.p2p.nsd.WifiP2pUpnpServiceInfo; import android.net.wifi.p2p.nsd.WifiP2pUpnpServiceResponse; import android.os.Bundle; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.os.Messenger; import android.os.RemoteException; import android.text.TextUtils; import android.util.Log; import com.android.internal.util.AsyncChannel; import com.android.internal.util.Protocol; import java.util.HashMap; import java.util.List; import java.util.Map; /** * This class provides the API for managing Wi-Fi peer-to-peer connectivity. This lets an * application discover available peers, setup connection to peers and query for the list of peers. * When a p2p connection is formed over wifi, the device continues to maintain the uplink * connection over mobile or any other available network for internet connectivity on the device. * *

The API is asynchronous and responses to requests from an application are on listener * callbacks provided by the application. The application needs to do an initialization with * {@link #initialize} before doing any p2p operation. * *

Most application calls need a {@link ActionListener} instance for receiving callbacks * {@link ActionListener#onSuccess} or {@link ActionListener#onFailure}. Action callbacks * indicate whether the initiation of the action was a success or a failure. * Upon failure, the reason of failure can be one of {@link #ERROR}, {@link #P2P_UNSUPPORTED} * or {@link #BUSY}. * *

An application can initiate discovery of peers with {@link #discoverPeers}. An initiated * discovery request from an application stays active until the device starts connecting to a peer * ,forms a p2p group or there is an explicit {@link #stopPeerDiscovery}. * Applications can listen to {@link #WIFI_P2P_DISCOVERY_CHANGED_ACTION} to know if a peer-to-peer * discovery is running or stopped. Additionally, {@link #WIFI_P2P_PEERS_CHANGED_ACTION} indicates * if the peer list has changed. * *

When an application needs to fetch the current list of peers, it can request the list * of peers with {@link #requestPeers}. When the peer list is available * {@link PeerListListener#onPeersAvailable} is called with the device list. * *

An application can initiate a connection request to a peer through {@link #connect}. See * {@link WifiP2pConfig} for details on setting up the configuration. For communication with legacy * Wi-Fi devices that do not support p2p, an app can create a group using {@link #createGroup} * which creates an access point whose details can be fetched with {@link #requestGroupInfo}. * *

After a successful group formation through {@link #createGroup} or through {@link #connect}, * use {@link #requestConnectionInfo} to fetch the connection details. The connection info * {@link WifiP2pInfo} contains the address of the group owner * {@link WifiP2pInfo#groupOwnerAddress} and a flag {@link WifiP2pInfo#isGroupOwner} to indicate * if the current device is a p2p group owner. A p2p client can thus communicate with * the p2p group owner through a socket connection. * *

With peer discovery using {@link #discoverPeers}, an application discovers the neighboring * peers, but has no good way to figure out which peer to establish a connection with. For example, * if a game application is interested in finding all the neighboring peers that are also running * the same game, it has no way to find out until after the connection is setup. Pre-association * service discovery is meant to address this issue of filtering the peers based on the running * services. * *

With pre-association service discovery, an application can advertise a service for a * application on a peer device prior to a connection setup between the devices. * Currently, DNS based service discovery (Bonjour) and Upnp are the higher layer protocols * supported. Get Bonjour resources at dns-sd.org and Upnp resources at upnp.org * As an example, a video application can discover a Upnp capable media renderer * prior to setting up a Wi-fi p2p connection with the device. * *

An application can advertise a Upnp or a Bonjour service with a call to * {@link #addLocalService}. After a local service is added, * the framework automatically responds to a peer application discovering the service prior * to establishing a p2p connection. A call to {@link #removeLocalService} removes a local * service and {@link #clearLocalServices} can be used to clear all local services. * *

An application that is looking for peer devices that support certain services * can do so with a call to {@link #discoverServices}. Prior to initiating the discovery, * application can add service discovery request with a call to {@link #addServiceRequest}, * remove a service discovery request with a call to {@link #removeServiceRequest} or clear * all requests with a call to {@link #clearServiceRequests}. When no service requests remain, * a previously running service discovery will stop. * * The application is notified of a result of service discovery request through listener callbacks * set through {@link #setDnsSdResponseListeners} for Bonjour or * {@link #setUpnpServiceResponseListener} for Upnp. * *

Note: * Registering an application handler with {@link #initialize} requires the permissions * {@link android.Manifest.permission#ACCESS_WIFI_STATE} and * {@link android.Manifest.permission#CHANGE_WIFI_STATE} to perform any further peer-to-peer * operations. * * Get an instance of this class by calling {@link android.content.Context#getSystemService(String) * Context.getSystemService(Context.WIFI_P2P_SERVICE)}. * * {@see WifiP2pConfig} * {@see WifiP2pInfo} * {@see WifiP2pGroup} * {@see WifiP2pDevice} * {@see WifiP2pDeviceList} * {@see android.net.wifi.WpsInfo} */ public class WifiP2pManager { private static final String TAG = "WifiP2pManager"; /** * Broadcast intent action to indicate whether Wi-Fi p2p is enabled or disabled. An * extra {@link #EXTRA_WIFI_STATE} provides the state information as int. * * @see #EXTRA_WIFI_STATE */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String WIFI_P2P_STATE_CHANGED_ACTION = "android.net.wifi.p2p.STATE_CHANGED"; /** * The lookup key for an int that indicates whether Wi-Fi p2p is enabled or disabled. * Retrieve it with {@link android.content.Intent#getIntExtra(String,int)}. * * @see #WIFI_P2P_STATE_DISABLED * @see #WIFI_P2P_STATE_ENABLED */ public static final String EXTRA_WIFI_STATE = "wifi_p2p_state"; /** * Wi-Fi p2p is disabled. * * @see #WIFI_P2P_STATE_CHANGED_ACTION */ public static final int WIFI_P2P_STATE_DISABLED = 1; /** * Wi-Fi p2p is enabled. * * @see #WIFI_P2P_STATE_CHANGED_ACTION */ public static final int WIFI_P2P_STATE_ENABLED = 2; /** * Broadcast intent action indicating that the state of Wi-Fi p2p connectivity * has changed. One extra {@link #EXTRA_WIFI_P2P_INFO} provides the p2p connection info in * the form of a {@link WifiP2pInfo} object. Another extra {@link #EXTRA_NETWORK_INFO} provides * the network info in the form of a {@link android.net.NetworkInfo}. A third extra provides * the details of the group. * * @see #EXTRA_WIFI_P2P_INFO * @see #EXTRA_NETWORK_INFO * @see #EXTRA_WIFI_P2P_GROUP */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String WIFI_P2P_CONNECTION_CHANGED_ACTION = "android.net.wifi.p2p.CONNECTION_STATE_CHANGE"; /** * The lookup key for a {@link android.net.wifi.p2p.WifiP2pInfo} object * Retrieve with {@link android.content.Intent#getParcelableExtra(String)}. */ public static final String EXTRA_WIFI_P2P_INFO = "wifiP2pInfo"; /** * The lookup key for a {@link android.net.NetworkInfo} object associated with the * p2p network. Retrieve with * {@link android.content.Intent#getParcelableExtra(String)}. */ public static final String EXTRA_NETWORK_INFO = "networkInfo"; /** * The lookup key for a {@link android.net.wifi.p2p.WifiP2pGroup} object * associated with the p2p network. Retrieve with * {@link android.content.Intent#getParcelableExtra(String)}. */ public static final String EXTRA_WIFI_P2P_GROUP = "p2pGroupInfo"; /** * Broadcast intent action indicating that the available peer list has changed. This * can be sent as a result of peers being found, lost or updated. * *

An extra {@link #EXTRA_P2P_DEVICE_LIST} provides the full list of * current peers. The full list of peers can also be obtained any time with * {@link #requestPeers}. * * @see #EXTRA_P2P_DEVICE_LIST */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String WIFI_P2P_PEERS_CHANGED_ACTION = "android.net.wifi.p2p.PEERS_CHANGED"; /** * The lookup key for a {@link android.net.wifi.p2p.WifiP2pDeviceList} object representing * the new peer list when {@link #WIFI_P2P_PEERS_CHANGED_ACTION} broadcast is sent. * *

Retrieve with {@link android.content.Intent#getParcelableExtra(String)}. */ public static final String EXTRA_P2P_DEVICE_LIST = "wifiP2pDeviceList"; /** * Broadcast intent action indicating that peer discovery has either started or stopped. * One extra {@link #EXTRA_DISCOVERY_STATE} indicates whether discovery has started * or stopped. * *

Note that discovery will be stopped during a connection setup. If the application tries * to re-initiate discovery during this time, it can fail. */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String WIFI_P2P_DISCOVERY_CHANGED_ACTION = "android.net.wifi.p2p.DISCOVERY_STATE_CHANGE"; /** * The lookup key for an int that indicates whether p2p discovery has started or stopped. * Retrieve it with {@link android.content.Intent#getIntExtra(String,int)}. * * @see #WIFI_P2P_DISCOVERY_STARTED * @see #WIFI_P2P_DISCOVERY_STOPPED */ public static final String EXTRA_DISCOVERY_STATE = "discoveryState"; /** * p2p discovery has stopped * * @see #WIFI_P2P_DISCOVERY_CHANGED_ACTION */ public static final int WIFI_P2P_DISCOVERY_STOPPED = 1; /** * p2p discovery has started * * @see #WIFI_P2P_DISCOVERY_CHANGED_ACTION */ public static final int WIFI_P2P_DISCOVERY_STARTED = 2; /** * Broadcast intent action indicating that this device details have changed. */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String WIFI_P2P_THIS_DEVICE_CHANGED_ACTION = "android.net.wifi.p2p.THIS_DEVICE_CHANGED"; /** * The lookup key for a {@link android.net.wifi.p2p.WifiP2pDevice} object * Retrieve with {@link android.content.Intent#getParcelableExtra(String)}. */ public static final String EXTRA_WIFI_P2P_DEVICE = "wifiP2pDevice"; /** * Broadcast intent action indicating that remembered persistent groups have changed. * @hide */ public static final String WIFI_P2P_PERSISTENT_GROUPS_CHANGED_ACTION = "android.net.wifi.p2p.PERSISTENT_GROUPS_CHANGED"; /** * The lookup key for a handover message returned by the WifiP2pService. * @hide */ public static final String EXTRA_HANDOVER_MESSAGE = "android.net.wifi.p2p.EXTRA_HANDOVER_MESSAGE"; IWifiP2pManager mService; private static final int BASE = Protocol.BASE_WIFI_P2P_MANAGER; /** @hide */ public static final int DISCOVER_PEERS = BASE + 1; /** @hide */ public static final int DISCOVER_PEERS_FAILED = BASE + 2; /** @hide */ public static final int DISCOVER_PEERS_SUCCEEDED = BASE + 3; /** @hide */ public static final int STOP_DISCOVERY = BASE + 4; /** @hide */ public static final int STOP_DISCOVERY_FAILED = BASE + 5; /** @hide */ public static final int STOP_DISCOVERY_SUCCEEDED = BASE + 6; /** @hide */ public static final int CONNECT = BASE + 7; /** @hide */ public static final int CONNECT_FAILED = BASE + 8; /** @hide */ public static final int CONNECT_SUCCEEDED = BASE + 9; /** @hide */ public static final int CANCEL_CONNECT = BASE + 10; /** @hide */ public static final int CANCEL_CONNECT_FAILED = BASE + 11; /** @hide */ public static final int CANCEL_CONNECT_SUCCEEDED = BASE + 12; /** @hide */ public static final int CREATE_GROUP = BASE + 13; /** @hide */ public static final int CREATE_GROUP_FAILED = BASE + 14; /** @hide */ public static final int CREATE_GROUP_SUCCEEDED = BASE + 15; /** @hide */ public static final int REMOVE_GROUP = BASE + 16; /** @hide */ public static final int REMOVE_GROUP_FAILED = BASE + 17; /** @hide */ public static final int REMOVE_GROUP_SUCCEEDED = BASE + 18; /** @hide */ public static final int REQUEST_PEERS = BASE + 19; /** @hide */ public static final int RESPONSE_PEERS = BASE + 20; /** @hide */ public static final int REQUEST_CONNECTION_INFO = BASE + 21; /** @hide */ public static final int RESPONSE_CONNECTION_INFO = BASE + 22; /** @hide */ public static final int REQUEST_GROUP_INFO = BASE + 23; /** @hide */ public static final int RESPONSE_GROUP_INFO = BASE + 24; /** @hide */ public static final int ADD_LOCAL_SERVICE = BASE + 28; /** @hide */ public static final int ADD_LOCAL_SERVICE_FAILED = BASE + 29; /** @hide */ public static final int ADD_LOCAL_SERVICE_SUCCEEDED = BASE + 30; /** @hide */ public static final int REMOVE_LOCAL_SERVICE = BASE + 31; /** @hide */ public static final int REMOVE_LOCAL_SERVICE_FAILED = BASE + 32; /** @hide */ public static final int REMOVE_LOCAL_SERVICE_SUCCEEDED = BASE + 33; /** @hide */ public static final int CLEAR_LOCAL_SERVICES = BASE + 34; /** @hide */ public static final int CLEAR_LOCAL_SERVICES_FAILED = BASE + 35; /** @hide */ public static final int CLEAR_LOCAL_SERVICES_SUCCEEDED = BASE + 36; /** @hide */ public static final int ADD_SERVICE_REQUEST = BASE + 37; /** @hide */ public static final int ADD_SERVICE_REQUEST_FAILED = BASE + 38; /** @hide */ public static final int ADD_SERVICE_REQUEST_SUCCEEDED = BASE + 39; /** @hide */ public static final int REMOVE_SERVICE_REQUEST = BASE + 40; /** @hide */ public static final int REMOVE_SERVICE_REQUEST_FAILED = BASE + 41; /** @hide */ public static final int REMOVE_SERVICE_REQUEST_SUCCEEDED = BASE + 42; /** @hide */ public static final int CLEAR_SERVICE_REQUESTS = BASE + 43; /** @hide */ public static final int CLEAR_SERVICE_REQUESTS_FAILED = BASE + 44; /** @hide */ public static final int CLEAR_SERVICE_REQUESTS_SUCCEEDED = BASE + 45; /** @hide */ public static final int DISCOVER_SERVICES = BASE + 46; /** @hide */ public static final int DISCOVER_SERVICES_FAILED = BASE + 47; /** @hide */ public static final int DISCOVER_SERVICES_SUCCEEDED = BASE + 48; /** @hide */ public static final int PING = BASE + 49; /** @hide */ public static final int RESPONSE_SERVICE = BASE + 50; /** @hide */ public static final int SET_DEVICE_NAME = BASE + 51; /** @hide */ public static final int SET_DEVICE_NAME_FAILED = BASE + 52; /** @hide */ public static final int SET_DEVICE_NAME_SUCCEEDED = BASE + 53; /** @hide */ public static final int DELETE_PERSISTENT_GROUP = BASE + 54; /** @hide */ public static final int DELETE_PERSISTENT_GROUP_FAILED = BASE + 55; /** @hide */ public static final int DELETE_PERSISTENT_GROUP_SUCCEEDED = BASE + 56; /** @hide */ public static final int REQUEST_PERSISTENT_GROUP_INFO = BASE + 57; /** @hide */ public static final int RESPONSE_PERSISTENT_GROUP_INFO = BASE + 58; /** @hide */ public static final int SET_WFD_INFO = BASE + 59; /** @hide */ public static final int SET_WFD_INFO_FAILED = BASE + 60; /** @hide */ public static final int SET_WFD_INFO_SUCCEEDED = BASE + 61; /** @hide */ public static final int START_WPS = BASE + 62; /** @hide */ public static final int START_WPS_FAILED = BASE + 63; /** @hide */ public static final int START_WPS_SUCCEEDED = BASE + 64; /** @hide */ public static final int START_LISTEN = BASE + 65; /** @hide */ public static final int START_LISTEN_FAILED = BASE + 66; /** @hide */ public static final int START_LISTEN_SUCCEEDED = BASE + 67; /** @hide */ public static final int STOP_LISTEN = BASE + 68; /** @hide */ public static final int STOP_LISTEN_FAILED = BASE + 69; /** @hide */ public static final int STOP_LISTEN_SUCCEEDED = BASE + 70; /** @hide */ public static final int SET_CHANNEL = BASE + 71; /** @hide */ public static final int SET_CHANNEL_FAILED = BASE + 72; /** @hide */ public static final int SET_CHANNEL_SUCCEEDED = BASE + 73; /** @hide */ public static final int GET_HANDOVER_REQUEST = BASE + 75; /** @hide */ public static final int GET_HANDOVER_SELECT = BASE + 76; /** @hide */ public static final int RESPONSE_GET_HANDOVER_MESSAGE = BASE + 77; /** @hide */ public static final int INITIATOR_REPORT_NFC_HANDOVER = BASE + 78; /** @hide */ public static final int RESPONDER_REPORT_NFC_HANDOVER = BASE + 79; /** @hide */ public static final int REPORT_NFC_HANDOVER_SUCCEEDED = BASE + 80; /** @hide */ public static final int REPORT_NFC_HANDOVER_FAILED = BASE + 81; /** * Create a new WifiP2pManager instance. Applications use * {@link android.content.Context#getSystemService Context.getSystemService()} to retrieve * the standard {@link android.content.Context#WIFI_P2P_SERVICE Context.WIFI_P2P_SERVICE}. * @param service the Binder interface * @hide - hide this because it takes in a parameter of type IWifiP2pManager, which * is a system private class. */ public WifiP2pManager(IWifiP2pManager service) { mService = service; } /** * Passed with {@link ActionListener#onFailure}. * Indicates that the operation failed due to an internal error. */ public static final int ERROR = 0; /** * Passed with {@link ActionListener#onFailure}. * Indicates that the operation failed because p2p is unsupported on the device. */ public static final int P2P_UNSUPPORTED = 1; /** * Passed with {@link ActionListener#onFailure}. * Indicates that the operation failed because the framework is busy and * unable to service the request */ public static final int BUSY = 2; /** * Passed with {@link ActionListener#onFailure}. * Indicates that the {@link #discoverServices} failed because no service * requests are added. Use {@link #addServiceRequest} to add a service * request. */ public static final int NO_SERVICE_REQUESTS = 3; /** Interface for callback invocation when framework channel is lost */ public interface ChannelListener { /** * The channel to the framework has been disconnected. * Application could try re-initializing using {@link #initialize} */ public void onChannelDisconnected(); } /** Interface for callback invocation on an application action */ public interface ActionListener { /** The operation succeeded */ public void onSuccess(); /** * The operation failed * @param reason The reason for failure could be one of {@link #P2P_UNSUPPORTED}, * {@link #ERROR} or {@link #BUSY} */ public void onFailure(int reason); } /** Interface for callback invocation when peer list is available */ public interface PeerListListener { /** * The requested peer list is available * @param peers List of available peers */ public void onPeersAvailable(WifiP2pDeviceList peers); } /** Interface for callback invocation when connection info is available */ public interface ConnectionInfoListener { /** * The requested connection info is available * @param info Wi-Fi p2p connection info */ public void onConnectionInfoAvailable(WifiP2pInfo info); } /** Interface for callback invocation when group info is available */ public interface GroupInfoListener { /** * The requested p2p group info is available * @param group Wi-Fi p2p group info */ public void onGroupInfoAvailable(WifiP2pGroup group); } /** * Interface for callback invocation when service discovery response other than * Upnp or Bonjour is received */ public interface ServiceResponseListener { /** * The requested service response is available. * * @param protocolType protocol type. currently only * {@link WifiP2pServiceInfo#SERVICE_TYPE_VENDOR_SPECIFIC}. * @param responseData service discovery response data based on the requested * service protocol type. The format depends on the service type. * @param srcDevice source device. */ public void onServiceAvailable(int protocolType, byte[] responseData, WifiP2pDevice srcDevice); } /** * Interface for callback invocation when Bonjour service discovery response * is received */ public interface DnsSdServiceResponseListener { /** * The requested Bonjour service response is available. * *

This function is invoked when the device with the specified Bonjour * registration type returned the instance name. * @param instanceName instance name.
* e.g) "MyPrinter". * @param registrationType
* e.g) "_ipp._tcp.local." * @param srcDevice source device. */ public void onDnsSdServiceAvailable(String instanceName, String registrationType, WifiP2pDevice srcDevice); } /** * Interface for callback invocation when Bonjour TXT record is available * for a service */ public interface DnsSdTxtRecordListener { /** * The requested Bonjour service response is available. * *

This function is invoked when the device with the specified full * service domain service returned TXT record. * * @param fullDomainName full domain name.
* e.g) "MyPrinter._ipp._tcp.local.". * @param txtRecordMap TXT record data as a map of key/value pairs * @param srcDevice source device. */ public void onDnsSdTxtRecordAvailable(String fullDomainName, Map txtRecordMap, WifiP2pDevice srcDevice); } /** * Interface for callback invocation when upnp service discovery response * is received * */ public interface UpnpServiceResponseListener { /** * The requested upnp service response is available. * *

This function is invoked when the specified device or service is found. * * @param uniqueServiceNames The list of unique service names.
* e.g) uuid:6859dede-8574-59ab-9332-123456789012::urn:schemas-upnp-org:device: * MediaServer:1 * @param srcDevice source device. */ public void onUpnpServiceAvailable(List uniqueServiceNames, WifiP2pDevice srcDevice); } /** Interface for callback invocation when stored group info list is available {@hide}*/ public interface PersistentGroupInfoListener { /** * The requested stored p2p group info list is available * @param groups Wi-Fi p2p group info list */ public void onPersistentGroupInfoAvailable(WifiP2pGroupList groups); } /** * Interface for callback invocation when Handover Request or Select Message is available * @hide */ public interface HandoverMessageListener { public void onHandoverMessageAvailable(String handoverMessage); } /** * A channel that connects the application to the Wifi p2p framework. * Most p2p operations require a Channel as an argument. An instance of Channel is obtained * by doing a call on {@link #initialize} */ public static class Channel { Channel(Context context, Looper looper, ChannelListener l) { mAsyncChannel = new AsyncChannel(); mHandler = new P2pHandler(looper); mChannelListener = l; mContext = context; } private final static int INVALID_LISTENER_KEY = 0; private ChannelListener mChannelListener; private ServiceResponseListener mServRspListener; private DnsSdServiceResponseListener mDnsSdServRspListener; private DnsSdTxtRecordListener mDnsSdTxtListener; private UpnpServiceResponseListener mUpnpServRspListener; private HashMap mListenerMap = new HashMap(); private Object mListenerMapLock = new Object(); private int mListenerKey = 0; private AsyncChannel mAsyncChannel; private P2pHandler mHandler; Context mContext; class P2pHandler extends Handler { P2pHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message message) { Object listener = getListener(message.arg2); switch (message.what) { case AsyncChannel.CMD_CHANNEL_DISCONNECTED: if (mChannelListener != null) { mChannelListener.onChannelDisconnected(); mChannelListener = null; } break; /* ActionListeners grouped together */ case DISCOVER_PEERS_FAILED: case STOP_DISCOVERY_FAILED: case DISCOVER_SERVICES_FAILED: case CONNECT_FAILED: case CANCEL_CONNECT_FAILED: case CREATE_GROUP_FAILED: case REMOVE_GROUP_FAILED: case ADD_LOCAL_SERVICE_FAILED: case REMOVE_LOCAL_SERVICE_FAILED: case CLEAR_LOCAL_SERVICES_FAILED: case ADD_SERVICE_REQUEST_FAILED: case REMOVE_SERVICE_REQUEST_FAILED: case CLEAR_SERVICE_REQUESTS_FAILED: case SET_DEVICE_NAME_FAILED: case DELETE_PERSISTENT_GROUP_FAILED: case SET_WFD_INFO_FAILED: case START_WPS_FAILED: case START_LISTEN_FAILED: case STOP_LISTEN_FAILED: case SET_CHANNEL_FAILED: case REPORT_NFC_HANDOVER_FAILED: if (listener != null) { ((ActionListener) listener).onFailure(message.arg1); } break; /* ActionListeners grouped together */ case DISCOVER_PEERS_SUCCEEDED: case STOP_DISCOVERY_SUCCEEDED: case DISCOVER_SERVICES_SUCCEEDED: case CONNECT_SUCCEEDED: case CANCEL_CONNECT_SUCCEEDED: case CREATE_GROUP_SUCCEEDED: case REMOVE_GROUP_SUCCEEDED: case ADD_LOCAL_SERVICE_SUCCEEDED: case REMOVE_LOCAL_SERVICE_SUCCEEDED: case CLEAR_LOCAL_SERVICES_SUCCEEDED: case ADD_SERVICE_REQUEST_SUCCEEDED: case REMOVE_SERVICE_REQUEST_SUCCEEDED: case CLEAR_SERVICE_REQUESTS_SUCCEEDED: case SET_DEVICE_NAME_SUCCEEDED: case DELETE_PERSISTENT_GROUP_SUCCEEDED: case SET_WFD_INFO_SUCCEEDED: case START_WPS_SUCCEEDED: case START_LISTEN_SUCCEEDED: case STOP_LISTEN_SUCCEEDED: case SET_CHANNEL_SUCCEEDED: case REPORT_NFC_HANDOVER_SUCCEEDED: if (listener != null) { ((ActionListener) listener).onSuccess(); } break; case RESPONSE_PEERS: WifiP2pDeviceList peers = (WifiP2pDeviceList) message.obj; if (listener != null) { ((PeerListListener) listener).onPeersAvailable(peers); } break; case RESPONSE_CONNECTION_INFO: WifiP2pInfo wifiP2pInfo = (WifiP2pInfo) message.obj; if (listener != null) { ((ConnectionInfoListener) listener).onConnectionInfoAvailable(wifiP2pInfo); } break; case RESPONSE_GROUP_INFO: WifiP2pGroup group = (WifiP2pGroup) message.obj; if (listener != null) { ((GroupInfoListener) listener).onGroupInfoAvailable(group); } break; case RESPONSE_SERVICE: WifiP2pServiceResponse resp = (WifiP2pServiceResponse) message.obj; handleServiceResponse(resp); break; case RESPONSE_PERSISTENT_GROUP_INFO: WifiP2pGroupList groups = (WifiP2pGroupList) message.obj; if (listener != null) { ((PersistentGroupInfoListener) listener). onPersistentGroupInfoAvailable(groups); } break; case RESPONSE_GET_HANDOVER_MESSAGE: Bundle handoverBundle = (Bundle) message.obj; if (listener != null) { String handoverMessage = handoverBundle != null ? handoverBundle.getString(EXTRA_HANDOVER_MESSAGE) : null; ((HandoverMessageListener) listener) .onHandoverMessageAvailable(handoverMessage); } break; default: Log.d(TAG, "Ignored " + message); break; } } } private void handleServiceResponse(WifiP2pServiceResponse resp) { if (resp instanceof WifiP2pDnsSdServiceResponse) { handleDnsSdServiceResponse((WifiP2pDnsSdServiceResponse)resp); } else if (resp instanceof WifiP2pUpnpServiceResponse) { if (mUpnpServRspListener != null) { handleUpnpServiceResponse((WifiP2pUpnpServiceResponse)resp); } } else { if (mServRspListener != null) { mServRspListener.onServiceAvailable(resp.getServiceType(), resp.getRawData(), resp.getSrcDevice()); } } } private void handleUpnpServiceResponse(WifiP2pUpnpServiceResponse resp) { mUpnpServRspListener.onUpnpServiceAvailable(resp.getUniqueServiceNames(), resp.getSrcDevice()); } private void handleDnsSdServiceResponse(WifiP2pDnsSdServiceResponse resp) { if (resp.getDnsType() == WifiP2pDnsSdServiceInfo.DNS_TYPE_PTR) { if (mDnsSdServRspListener != null) { mDnsSdServRspListener.onDnsSdServiceAvailable( resp.getInstanceName(), resp.getDnsQueryName(), resp.getSrcDevice()); } } else if (resp.getDnsType() == WifiP2pDnsSdServiceInfo.DNS_TYPE_TXT) { if (mDnsSdTxtListener != null) { mDnsSdTxtListener.onDnsSdTxtRecordAvailable( resp.getDnsQueryName(), resp.getTxtRecord(), resp.getSrcDevice()); } } else { Log.e(TAG, "Unhandled resp " + resp); } } private int putListener(Object listener) { if (listener == null) return INVALID_LISTENER_KEY; int key; synchronized (mListenerMapLock) { do { key = mListenerKey++; } while (key == INVALID_LISTENER_KEY); mListenerMap.put(key, listener); } return key; } private Object getListener(int key) { if (key == INVALID_LISTENER_KEY) return null; synchronized (mListenerMapLock) { return mListenerMap.remove(key); } } } private static void checkChannel(Channel c) { if (c == null) throw new IllegalArgumentException("Channel needs to be initialized"); } private static void checkServiceInfo(WifiP2pServiceInfo info) { if (info == null) throw new IllegalArgumentException("service info is null"); } private static void checkServiceRequest(WifiP2pServiceRequest req) { if (req == null) throw new IllegalArgumentException("service request is null"); } private static void checkP2pConfig(WifiP2pConfig c) { if (c == null) throw new IllegalArgumentException("config cannot be null"); if (TextUtils.isEmpty(c.deviceAddress)) { throw new IllegalArgumentException("deviceAddress cannot be empty"); } } /** * Registers the application with the Wi-Fi framework. This function * must be the first to be called before any p2p operations are performed. * * @param srcContext is the context of the source * @param srcLooper is the Looper on which the callbacks are receivied * @param listener for callback at loss of framework communication. Can be null. * @return Channel instance that is necessary for performing any further p2p operations */ public Channel initialize(Context srcContext, Looper srcLooper, ChannelListener listener) { return initalizeChannel(srcContext, srcLooper, listener, getMessenger()); } /** * Registers the application with the Wi-Fi framework. Enables system-only functionality. * @hide */ public Channel initializeInternal(Context srcContext, Looper srcLooper, ChannelListener listener) { return initalizeChannel(srcContext, srcLooper, listener, getP2pStateMachineMessenger()); } private Channel initalizeChannel(Context srcContext, Looper srcLooper, ChannelListener listener, Messenger messenger) { if (messenger == null) return null; Channel c = new Channel(srcContext, srcLooper, listener); if (c.mAsyncChannel.connectSync(srcContext, c.mHandler, messenger) == AsyncChannel.STATUS_SUCCESSFUL) { return c; } else { return null; } } /** * Initiate peer discovery. A discovery process involves scanning for available Wi-Fi peers * for the purpose of establishing a connection. * *

The function call immediately returns after sending a discovery request * to the framework. The application is notified of a success or failure to initiate * discovery through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * *

The discovery remains active until a connection is initiated or * a p2p group is formed. Register for {@link #WIFI_P2P_PEERS_CHANGED_ACTION} intent to * determine when the framework notifies of a change as peers are discovered. * *

Upon receiving a {@link #WIFI_P2P_PEERS_CHANGED_ACTION} intent, an application * can request for the list of peers using {@link #requestPeers}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void discoverPeers(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(DISCOVER_PEERS, 0, c.putListener(listener)); } /** * Stop an ongoing peer discovery * *

The function call immediately returns after sending a stop request * to the framework. The application is notified of a success or failure to initiate * stop through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void stopPeerDiscovery(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(STOP_DISCOVERY, 0, c.putListener(listener)); } /** * Start a p2p connection to a device with the specified configuration. * *

The function call immediately returns after sending a connection request * to the framework. The application is notified of a success or failure to initiate * connect through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * *

Register for {@link #WIFI_P2P_CONNECTION_CHANGED_ACTION} intent to * determine when the framework notifies of a change in connectivity. * *

If the current device is not part of a p2p group, a connect request initiates * a group negotiation with the peer. * *

If the current device is part of an existing p2p group or has created * a p2p group with {@link #createGroup}, an invitation to join the group is sent to * the peer device. * * @param c is the channel created at {@link #initialize} * @param config options as described in {@link WifiP2pConfig} class * @param listener for callbacks on success or failure. Can be null. */ public void connect(Channel c, WifiP2pConfig config, ActionListener listener) { checkChannel(c); checkP2pConfig(config); c.mAsyncChannel.sendMessage(CONNECT, 0, c.putListener(listener), config); } /** * Cancel any ongoing p2p group negotiation * *

The function call immediately returns after sending a connection cancellation request * to the framework. The application is notified of a success or failure to initiate * cancellation through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void cancelConnect(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(CANCEL_CONNECT, 0, c.putListener(listener)); } /** * Create a p2p group with the current device as the group owner. This essentially creates * an access point that can accept connections from legacy clients as well as other p2p * devices. * *

Note: * This function would normally not be used unless the current device needs * to form a p2p connection with a legacy client * *

The function call immediately returns after sending a group creation request * to the framework. The application is notified of a success or failure to initiate * group creation through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * *

Application can request for the group details with {@link #requestGroupInfo}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void createGroup(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(CREATE_GROUP, WifiP2pGroup.PERSISTENT_NET_ID, c.putListener(listener)); } /** * Remove the current p2p group. * *

The function call immediately returns after sending a group removal request * to the framework. The application is notified of a success or failure to initiate * group removal through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void removeGroup(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(REMOVE_GROUP, 0, c.putListener(listener)); } /** @hide */ public void listen(Channel c, boolean enable, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(enable ? START_LISTEN : STOP_LISTEN, 0, c.putListener(listener)); } /** @hide */ public void setWifiP2pChannels(Channel c, int lc, int oc, ActionListener listener) { checkChannel(c); Bundle p2pChannels = new Bundle(); p2pChannels.putInt("lc", lc); p2pChannels.putInt("oc", oc); c.mAsyncChannel.sendMessage(SET_CHANNEL, 0, c.putListener(listener), p2pChannels); } /** * Start a Wi-Fi Protected Setup (WPS) session. * *

The function call immediately returns after sending a request to start a * WPS session. Currently, this is only valid if the current device is running * as a group owner to allow any new clients to join the group. The application * is notified of a success or failure to initiate WPS through listener callbacks * {@link ActionListener#onSuccess} or {@link ActionListener#onFailure}. * @hide */ public void startWps(Channel c, WpsInfo wps, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(START_WPS, 0, c.putListener(listener), wps); } /** * Register a local service for service discovery. If a local service is registered, * the framework automatically responds to a service discovery request from a peer. * *

The function call immediately returns after sending a request to add a local * service to the framework. The application is notified of a success or failure to * add service through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * *

The service information is set through {@link WifiP2pServiceInfo}.
* or its subclass calls {@link WifiP2pUpnpServiceInfo#newInstance} or * {@link WifiP2pDnsSdServiceInfo#newInstance} for a Upnp or Bonjour service * respectively * *

The service information can be cleared with calls to * {@link #removeLocalService} or {@link #clearLocalServices}. * * @param c is the channel created at {@link #initialize} * @param servInfo is a local service information. * @param listener for callbacks on success or failure. Can be null. */ public void addLocalService(Channel c, WifiP2pServiceInfo servInfo, ActionListener listener) { checkChannel(c); checkServiceInfo(servInfo); c.mAsyncChannel.sendMessage(ADD_LOCAL_SERVICE, 0, c.putListener(listener), servInfo); } /** * Remove a registered local service added with {@link #addLocalService} * *

The function call immediately returns after sending a request to remove a * local service to the framework. The application is notified of a success or failure to * add service through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * * @param c is the channel created at {@link #initialize} * @param servInfo is the local service information. * @param listener for callbacks on success or failure. Can be null. */ public void removeLocalService(Channel c, WifiP2pServiceInfo servInfo, ActionListener listener) { checkChannel(c); checkServiceInfo(servInfo); c.mAsyncChannel.sendMessage(REMOVE_LOCAL_SERVICE, 0, c.putListener(listener), servInfo); } /** * Clear all registered local services of service discovery. * *

The function call immediately returns after sending a request to clear all * local services to the framework. The application is notified of a success or failure to * add service through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void clearLocalServices(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(CLEAR_LOCAL_SERVICES, 0, c.putListener(listener)); } /** * Register a callback to be invoked on receiving service discovery response. * Used only for vendor specific protocol right now. For Bonjour or Upnp, use * {@link #setDnsSdResponseListeners} or {@link #setUpnpServiceResponseListener} * respectively. * *

see {@link #discoverServices} for the detail. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on receiving service discovery response. */ public void setServiceResponseListener(Channel c, ServiceResponseListener listener) { checkChannel(c); c.mServRspListener = listener; } /** * Register a callback to be invoked on receiving Bonjour service discovery * response. * *

see {@link #discoverServices} for the detail. * * @param c * @param servListener is for listening to a Bonjour service response * @param txtListener is for listening to a Bonjour TXT record response */ public void setDnsSdResponseListeners(Channel c, DnsSdServiceResponseListener servListener, DnsSdTxtRecordListener txtListener) { checkChannel(c); c.mDnsSdServRspListener = servListener; c.mDnsSdTxtListener = txtListener; } /** * Register a callback to be invoked on receiving upnp service discovery * response. * *

see {@link #discoverServices} for the detail. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on receiving service discovery response. */ public void setUpnpServiceResponseListener(Channel c, UpnpServiceResponseListener listener) { checkChannel(c); c.mUpnpServRspListener = listener; } /** * Initiate service discovery. A discovery process involves scanning for * requested services for the purpose of establishing a connection to a peer * that supports an available service. * *

The function call immediately returns after sending a request to start service * discovery to the framework. The application is notified of a success or failure to initiate * discovery through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * *

The services to be discovered are specified with calls to {@link #addServiceRequest}. * *

The application is notified of the response against the service discovery request * through listener callbacks registered by {@link #setServiceResponseListener} or * {@link #setDnsSdResponseListeners}, or {@link #setUpnpServiceResponseListener}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void discoverServices(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(DISCOVER_SERVICES, 0, c.putListener(listener)); } /** * Add a service discovery request. * *

The function call immediately returns after sending a request to add service * discovery request to the framework. The application is notified of a success or failure to * add service through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * *

After service discovery request is added, you can initiate service discovery by * {@link #discoverServices}. * *

The added service requests can be cleared with calls to * {@link #removeServiceRequest(Channel, WifiP2pServiceRequest, ActionListener)} or * {@link #clearServiceRequests(Channel, ActionListener)}. * * @param c is the channel created at {@link #initialize} * @param req is the service discovery request. * @param listener for callbacks on success or failure. Can be null. */ public void addServiceRequest(Channel c, WifiP2pServiceRequest req, ActionListener listener) { checkChannel(c); checkServiceRequest(req); c.mAsyncChannel.sendMessage(ADD_SERVICE_REQUEST, 0, c.putListener(listener), req); } /** * Remove a specified service discovery request added with {@link #addServiceRequest} * *

The function call immediately returns after sending a request to remove service * discovery request to the framework. The application is notified of a success or failure to * add service through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * * @param c is the channel created at {@link #initialize} * @param req is the service discovery request. * @param listener for callbacks on success or failure. Can be null. */ public void removeServiceRequest(Channel c, WifiP2pServiceRequest req, ActionListener listener) { checkChannel(c); checkServiceRequest(req); c.mAsyncChannel.sendMessage(REMOVE_SERVICE_REQUEST, 0, c.putListener(listener), req); } /** * Clear all registered service discovery requests. * *

The function call immediately returns after sending a request to clear all * service discovery requests to the framework. The application is notified of a success * or failure to add service through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * * @param c is the channel created at {@link #initialize} * @param listener for callbacks on success or failure. Can be null. */ public void clearServiceRequests(Channel c, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(CLEAR_SERVICE_REQUESTS, 0, c.putListener(listener)); } /** * Request the current list of peers. * * @param c is the channel created at {@link #initialize} * @param listener for callback when peer list is available. Can be null. */ public void requestPeers(Channel c, PeerListListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(REQUEST_PEERS, 0, c.putListener(listener)); } /** * Request device connection info. * * @param c is the channel created at {@link #initialize} * @param listener for callback when connection info is available. Can be null. */ public void requestConnectionInfo(Channel c, ConnectionInfoListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(REQUEST_CONNECTION_INFO, 0, c.putListener(listener)); } /** * Request p2p group info. * * @param c is the channel created at {@link #initialize} * @param listener for callback when group info is available. Can be null. */ public void requestGroupInfo(Channel c, GroupInfoListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(REQUEST_GROUP_INFO, 0, c.putListener(listener)); } /** * Set p2p device name. * @hide * @param c is the channel created at {@link #initialize} * @param listener for callback when group info is available. Can be null. */ public void setDeviceName(Channel c, String devName, ActionListener listener) { checkChannel(c); WifiP2pDevice d = new WifiP2pDevice(); d.deviceName = devName; c.mAsyncChannel.sendMessage(SET_DEVICE_NAME, 0, c.putListener(listener), d); } /** @hide */ public void setWFDInfo( Channel c, WifiP2pWfdInfo wfdInfo, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(SET_WFD_INFO, 0, c.putListener(listener), wfdInfo); } /** * Delete a stored persistent group from the system settings. * *

The function call immediately returns after sending a persistent group removal request * to the framework. The application is notified of a success or failure to initiate * group removal through listener callbacks {@link ActionListener#onSuccess} or * {@link ActionListener#onFailure}. * *

The persistent p2p group list stored in the system can be obtained by * {@link #requestPersistentGroupInfo(Channel, PersistentGroupInfoListener)} and * a network id can be obtained by {@link WifiP2pGroup#getNetworkId()}. * * @param c is the channel created at {@link #initialize} * @param netId he network id of the p2p group. * @param listener for callbacks on success or failure. Can be null. * @hide */ public void deletePersistentGroup(Channel c, int netId, ActionListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(DELETE_PERSISTENT_GROUP, netId, c.putListener(listener)); } /** * Request a list of all the persistent p2p groups stored in system. * * @param c is the channel created at {@link #initialize} * @param listener for callback when persistent group info list is available. Can be null. * @hide */ public void requestPersistentGroupInfo(Channel c, PersistentGroupInfoListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(REQUEST_PERSISTENT_GROUP_INFO, 0, c.putListener(listener)); } /** @hide */ public static final int MIRACAST_DISABLED = 0; /** @hide */ public static final int MIRACAST_SOURCE = 1; /** @hide */ public static final int MIRACAST_SINK = 2; /** Internal use only @hide */ public void setMiracastMode(int mode) { try { mService.setMiracastMode(mode); } catch(RemoteException e) { // ignore } } /** * Get a reference to WifiP2pService handler. This is used to establish * an AsyncChannel communication with WifiService * * @return Messenger pointing to the WifiP2pService handler * @hide */ public Messenger getMessenger() { try { return mService.getMessenger(); } catch (RemoteException e) { return null; } } /** * Get a reference to P2pStateMachine handler. This is used to establish * a priveleged AsyncChannel communication with WifiP2pService. * * @return Messenger pointing to the WifiP2pService handler * @hide */ public Messenger getP2pStateMachineMessenger() { try { return mService.getP2pStateMachineMessenger(); } catch (RemoteException e) { return null; } } /** * Get a handover request message for use in WFA NFC Handover transfer. * @hide */ public void getNfcHandoverRequest(Channel c, HandoverMessageListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(GET_HANDOVER_REQUEST, 0, c.putListener(listener)); } /** * Get a handover select message for use in WFA NFC Handover transfer. * @hide */ public void getNfcHandoverSelect(Channel c, HandoverMessageListener listener) { checkChannel(c); c.mAsyncChannel.sendMessage(GET_HANDOVER_SELECT, 0, c.putListener(listener)); } /** * @hide */ public void initiatorReportNfcHandover(Channel c, String handoverSelect, ActionListener listener) { checkChannel(c); Bundle bundle = new Bundle(); bundle.putString(EXTRA_HANDOVER_MESSAGE, handoverSelect); c.mAsyncChannel.sendMessage(INITIATOR_REPORT_NFC_HANDOVER, 0, c.putListener(listener), bundle); } /** * @hide */ public void responderReportNfcHandover(Channel c, String handoverRequest, ActionListener listener) { checkChannel(c); Bundle bundle = new Bundle(); bundle.putString(EXTRA_HANDOVER_MESSAGE, handoverRequest); c.mAsyncChannel.sendMessage(RESPONDER_REPORT_NFC_HANDOVER, 0, c.putListener(listener), bundle); } }