/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.nfc.dhimpl; import android.content.Context; import android.nfc.ErrorCodes; import android.nfc.tech.Ndef; import android.nfc.tech.TagTechnology; import android.util.Log; import com.android.nfc.DeviceHost; import com.android.nfc.LlcpException; import com.android.nfc.NfcDiscoveryParameters; /** * Native interface to the NFC Manager functions */ public class NativeNfcManager implements DeviceHost { private static final String TAG = "NativeNfcManager"; static final String PREF = "NciDeviceHost"; static final int DEFAULT_LLCP_MIU = 1980; static final int DEFAULT_LLCP_RWSIZE = 2; static final String DRIVER_NAME = "android-nci"; static { System.loadLibrary("nfc_nci_jni"); } /* Native structure */ private long mNative; private final DeviceHostListener mListener; private final Context mContext; public NativeNfcManager(Context context, DeviceHostListener listener) { mListener = listener; initializeNativeStructure(); mContext = context; } public native boolean initializeNativeStructure(); private native boolean doDownload(); public native int doGetLastError(); @Override public void checkFirmware() { doDownload(); } private native boolean doInitialize(); @Override public boolean initialize() { return doInitialize(); } private native boolean doDeinitialize(); @Override public boolean deinitialize() { return doDeinitialize(); } @Override public String getName() { return DRIVER_NAME; } @Override public native boolean sendRawFrame(byte[] data); @Override public native boolean routeAid(byte[] aid, int route); @Override public native boolean unrouteAid(byte[] aid); @Override public native boolean commitRouting(); private native void doEnableDiscovery(int techMask, boolean enableLowPowerPolling, boolean enableReaderMode, boolean enableHostRouting, boolean restart); @Override public void enableDiscovery(NfcDiscoveryParameters params, boolean restart) { doEnableDiscovery(params.getTechMask(), params.shouldEnableLowPowerDiscovery(), params.shouldEnableReaderMode(), params.shouldEnableHostRouting(), restart); } @Override public native void disableDiscovery(); private native NativeLlcpConnectionlessSocket doCreateLlcpConnectionlessSocket(int nSap, String sn); @Override public LlcpConnectionlessSocket createLlcpConnectionlessSocket(int nSap, String sn) throws LlcpException { LlcpConnectionlessSocket socket = doCreateLlcpConnectionlessSocket(nSap, sn); if (socket != null) { return socket; } else { /* Get Error Status */ int error = doGetLastError(); Log.d(TAG, "failed to create llcp socket: " + ErrorCodes.asString(error)); switch (error) { case ErrorCodes.ERROR_BUFFER_TO_SMALL: case ErrorCodes.ERROR_INSUFFICIENT_RESOURCES: throw new LlcpException(error); default: throw new LlcpException(ErrorCodes.ERROR_SOCKET_CREATION); } } } private native NativeLlcpServiceSocket doCreateLlcpServiceSocket(int nSap, String sn, int miu, int rw, int linearBufferLength); @Override public LlcpServerSocket createLlcpServerSocket(int nSap, String sn, int miu, int rw, int linearBufferLength) throws LlcpException { LlcpServerSocket socket = doCreateLlcpServiceSocket(nSap, sn, miu, rw, linearBufferLength); if (socket != null) { return socket; } else { /* Get Error Status */ int error = doGetLastError(); Log.d(TAG, "failed to create llcp socket: " + ErrorCodes.asString(error)); switch (error) { case ErrorCodes.ERROR_BUFFER_TO_SMALL: case ErrorCodes.ERROR_INSUFFICIENT_RESOURCES: throw new LlcpException(error); default: throw new LlcpException(ErrorCodes.ERROR_SOCKET_CREATION); } } } private native NativeLlcpSocket doCreateLlcpSocket(int sap, int miu, int rw, int linearBufferLength); @Override public LlcpSocket createLlcpSocket(int sap, int miu, int rw, int linearBufferLength) throws LlcpException { LlcpSocket socket = doCreateLlcpSocket(sap, miu, rw, linearBufferLength); if (socket != null) { return socket; } else { /* Get Error Status */ int error = doGetLastError(); Log.d(TAG, "failed to create llcp socket: " + ErrorCodes.asString(error)); switch (error) { case ErrorCodes.ERROR_BUFFER_TO_SMALL: case ErrorCodes.ERROR_INSUFFICIENT_RESOURCES: throw new LlcpException(error); default: throw new LlcpException(ErrorCodes.ERROR_SOCKET_CREATION); } } } @Override public native boolean doCheckLlcp(); @Override public native boolean doActivateLlcp(); private native void doResetTimeouts(); @Override public void resetTimeouts() { doResetTimeouts(); } @Override public native void doAbort(); private native boolean doSetTimeout(int tech, int timeout); @Override public boolean setTimeout(int tech, int timeout) { return doSetTimeout(tech, timeout); } private native int doGetTimeout(int tech); @Override public int getTimeout(int tech) { return doGetTimeout(tech); } @Override public boolean canMakeReadOnly(int ndefType) { return (ndefType == Ndef.TYPE_1 || ndefType == Ndef.TYPE_2); } @Override public int getMaxTransceiveLength(int technology) { switch (technology) { case (TagTechnology.NFC_A): case (TagTechnology.MIFARE_CLASSIC): case (TagTechnology.MIFARE_ULTRALIGHT): return 253; // PN544 RF buffer = 255 bytes, subtract two for CRC case (TagTechnology.NFC_B): ///////////////////////////////////////////////////////////////// // Broadcom: Since BCM2079x supports this, set NfcB max size. //return 0; // PN544 does not support transceive of raw NfcB return 253; // PN544 does not support transceive of raw NfcB case (TagTechnology.NFC_V): return 253; // PN544 RF buffer = 255 bytes, subtract two for CRC case (TagTechnology.ISO_DEP): /* The maximum length of a normal IsoDep frame consists of: * CLA, INS, P1, P2, LC, LE + 255 payload bytes = 261 bytes * such a frame is supported. Extended length frames however * are not supported. */ return 261; // Will be automatically split in two frames on the RF layer case (TagTechnology.NFC_F): return 252; // PN544 RF buffer = 255 bytes, subtract one for SoD, two for CRC default: return 0; } } private native void doSetP2pInitiatorModes(int modes); @Override public void setP2pInitiatorModes(int modes) { doSetP2pInitiatorModes(modes); } private native void doSetP2pTargetModes(int modes); @Override public void setP2pTargetModes(int modes) { doSetP2pTargetModes(modes); } @Override public boolean getExtendedLengthApdusSupported() { // TODO check BCM support return false; } @Override public int getDefaultLlcpMiu() { return DEFAULT_LLCP_MIU; } @Override public int getDefaultLlcpRwSize() { return DEFAULT_LLCP_RWSIZE; } private native String doDump(); @Override public String dump() { return doDump(); } private native void doEnableScreenOffSuspend(); @Override public boolean enableScreenOffSuspend() { doEnableScreenOffSuspend(); return true; } private native void doDisableScreenOffSuspend(); @Override public boolean disableScreenOffSuspend() { doDisableScreenOffSuspend(); return true; } /** * Notifies Ndef Message (TODO: rename into notifyTargetDiscovered) */ private void notifyNdefMessageListeners(NativeNfcTag tag) { mListener.onRemoteEndpointDiscovered(tag); } /** * Notifies P2P Device detected, to activate LLCP link */ private void notifyLlcpLinkActivation(NativeP2pDevice device) { mListener.onLlcpLinkActivated(device); } /** * Notifies P2P Device detected, to activate LLCP link */ private void notifyLlcpLinkDeactivated(NativeP2pDevice device) { mListener.onLlcpLinkDeactivated(device); } /** * Notifies first packet received from remote LLCP */ private void notifyLlcpLinkFirstPacketReceived(NativeP2pDevice device) { mListener.onLlcpFirstPacketReceived(device); } private void notifyHostEmuActivated() { mListener.onHostCardEmulationActivated(); } private void notifyHostEmuData(byte[] data) { mListener.onHostCardEmulationData(data); } private void notifyHostEmuDeactivated() { mListener.onHostCardEmulationDeactivated(); } private void notifyRfFieldActivated() { mListener.onRemoteFieldActivated(); } private void notifyRfFieldDeactivated() { mListener.onRemoteFieldDeactivated(); } }