/* * 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.providers.settings; import android.app.backup.BackupAgentHelper; import android.app.backup.BackupDataInput; import android.app.backup.BackupDataOutput; import android.app.backup.FullBackupDataOutput; import android.content.ContentValues; import android.content.Context; import android.database.Cursor; import android.net.Uri; import android.net.wifi.WifiManager; import android.os.FileUtils; import android.os.ParcelFileDescriptor; import android.os.Process; import android.provider.Settings; import android.util.Log; import java.io.BufferedOutputStream; import java.io.BufferedReader; import java.io.BufferedWriter; import java.io.CharArrayReader; import java.io.DataInputStream; import java.io.DataOutputStream; import java.io.EOFException; import java.io.File; import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.FileReader; import java.io.FileWriter; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.io.Reader; import java.io.Writer; import java.util.ArrayList; import java.util.HashMap; import java.util.HashSet; import java.util.Map; import java.util.zip.CRC32; /** * Performs backup and restore of the System and Secure settings. * List of settings that are backed up are stored in the Settings.java file */ public class SettingsBackupAgent extends BackupAgentHelper { private static final boolean DEBUG = false; private static final boolean DEBUG_BACKUP = DEBUG || false; private static final String KEY_SYSTEM = "system"; private static final String KEY_SECURE = "secure"; private static final String KEY_LOCALE = "locale"; //Version 2 adds STATE_WIFI_CONFIG private static final int STATE_VERSION_1 = 1; private static final int STATE_VERSION_1_SIZE = 4; // Versioning of the state file. Increment this version // number any time the set of state items is altered. private static final int STATE_VERSION = 2; private static final int STATE_SYSTEM = 0; private static final int STATE_SECURE = 1; private static final int STATE_LOCALE = 2; private static final int STATE_WIFI_SUPPLICANT = 3; private static final int STATE_WIFI_CONFIG = 4; private static final int STATE_SIZE = 5; // The number of state items // Versioning of the 'full backup' format private static final int FULL_BACKUP_VERSION = 1; private static final int INTEGER_BYTE_COUNT = Integer.SIZE / Byte.SIZE; private static final byte[] EMPTY_DATA = new byte[0]; private static final String TAG = "SettingsBackupAgent"; private static final int COLUMN_NAME = 1; private static final int COLUMN_VALUE = 2; private static final String[] PROJECTION = { Settings.NameValueTable._ID, Settings.NameValueTable.NAME, Settings.NameValueTable.VALUE }; private static final String FILE_WIFI_SUPPLICANT = "/data/misc/wifi/wpa_supplicant.conf"; private static final String FILE_WIFI_SUPPLICANT_TEMPLATE = "/system/etc/wifi/wpa_supplicant.conf"; // the key to store the WIFI data under, should be sorted as last, so restore happens last. // use very late unicode character to quasi-guarantee last sort position. private static final String KEY_WIFI_SUPPLICANT = "\uffedWIFI"; private static final String KEY_WIFI_CONFIG = "\uffedCONFIG_WIFI"; // Name of the temporary file we use during full backup/restore. This is // stored in the full-backup tarfile as well, so should not be changed. private static final String STAGE_FILE = "flattened-data"; private SettingsHelper mSettingsHelper; private WifiManager mWfm; private static String mWifiConfigFile; // Class for capturing a network definition from the wifi supplicant config file static class Network { String ssid = ""; // equals() and hashCode() need these to be non-null String key_mgmt = ""; final ArrayList rawLines = new ArrayList(); public static Network readFromStream(BufferedReader in) { final Network n = new Network(); String line; try { while (in.ready()) { line = in.readLine(); if (line == null || line.startsWith("}")) { break; } n.rememberLine(line); } } catch (IOException e) { return null; } return n; } void rememberLine(String line) { // can't rely on particular whitespace patterns so strip leading/trailing line = line.trim(); if (line.isEmpty()) return; // only whitespace; drop the line rawLines.add(line); // remember the ssid and key_mgmt lines for duplicate culling if (line.startsWith("ssid")) { ssid = line; } else if (line.startsWith("key_mgmt")) { key_mgmt = line; } } public void write(Writer w) throws IOException { w.write("\nnetwork={\n"); for (String line : rawLines) { w.write("\t" + line + "\n"); } w.write("}\n"); } public void dump() { Log.v(TAG, "network={"); for (String line : rawLines) { Log.v(TAG, " " + line); } Log.v(TAG, "}"); } // Same approach as Pair.equals() and Pair.hashCode() @Override public boolean equals(Object o) { if (o == this) return true; if (!(o instanceof Network)) return false; final Network other; try { other = (Network) o; } catch (ClassCastException e) { return false; } return ssid.equals(other.ssid) && key_mgmt.equals(other.key_mgmt); } @Override public int hashCode() { int result = 17; result = 31 * result + ssid.hashCode(); result = 31 * result + key_mgmt.hashCode(); return result; } } // Ingest multiple wifi config file fragments, looking for network={} blocks // and eliminating duplicates class WifiNetworkSettings { // One for fast lookup, one for maintaining ordering final HashSet mKnownNetworks = new HashSet(); final ArrayList mNetworks = new ArrayList(8); public void readNetworks(BufferedReader in) { try { String line; while (in.ready()) { line = in.readLine(); if (line != null) { // Parse out 'network=' decls so we can ignore duplicates if (line.startsWith("network")) { Network net = Network.readFromStream(in); if (! mKnownNetworks.contains(net)) { if (DEBUG_BACKUP) { Log.v(TAG, "Adding " + net.ssid + " / " + net.key_mgmt); } mKnownNetworks.add(net); mNetworks.add(net); } else { if (DEBUG_BACKUP) { Log.v(TAG, "Dupe; skipped " + net.ssid + " / " + net.key_mgmt); } } } } } } catch (IOException e) { // whatever happened, we're done now } } public void write(Writer w) throws IOException { for (Network net : mNetworks) { net.write(w); } } public void dump() { for (Network net : mNetworks) { net.dump(); } } } @Override public void onCreate() { if (DEBUG_BACKUP) Log.d(TAG, "onCreate() invoked"); mSettingsHelper = new SettingsHelper(this); super.onCreate(); WifiManager mWfm = (WifiManager) getSystemService(Context.WIFI_SERVICE); if (mWfm != null) mWifiConfigFile = mWfm.getConfigFile(); } @Override public void onBackup(ParcelFileDescriptor oldState, BackupDataOutput data, ParcelFileDescriptor newState) throws IOException { byte[] systemSettingsData = getSystemSettings(); byte[] secureSettingsData = getSecureSettings(); byte[] locale = mSettingsHelper.getLocaleData(); byte[] wifiSupplicantData = getWifiSupplicant(FILE_WIFI_SUPPLICANT); byte[] wifiConfigData = getFileData(mWifiConfigFile); long[] stateChecksums = readOldChecksums(oldState); stateChecksums[STATE_SYSTEM] = writeIfChanged(stateChecksums[STATE_SYSTEM], KEY_SYSTEM, systemSettingsData, data); stateChecksums[STATE_SECURE] = writeIfChanged(stateChecksums[STATE_SECURE], KEY_SECURE, secureSettingsData, data); stateChecksums[STATE_LOCALE] = writeIfChanged(stateChecksums[STATE_LOCALE], KEY_LOCALE, locale, data); stateChecksums[STATE_WIFI_SUPPLICANT] = writeIfChanged(stateChecksums[STATE_WIFI_SUPPLICANT], KEY_WIFI_SUPPLICANT, wifiSupplicantData, data); stateChecksums[STATE_WIFI_CONFIG] = writeIfChanged(stateChecksums[STATE_WIFI_CONFIG], KEY_WIFI_CONFIG, wifiConfigData, data); writeNewChecksums(stateChecksums, newState); } @Override public void onRestore(BackupDataInput data, int appVersionCode, ParcelFileDescriptor newState) throws IOException { while (data.readNextHeader()) { final String key = data.getKey(); final int size = data.getDataSize(); if (KEY_SYSTEM.equals(key)) { restoreSettings(data, Settings.System.CONTENT_URI); mSettingsHelper.applyAudioSettings(); } else if (KEY_SECURE.equals(key)) { restoreSettings(data, Settings.Secure.CONTENT_URI); } else if (KEY_WIFI_SUPPLICANT.equals(key)) { int retainedWifiState = enableWifi(false); restoreWifiSupplicant(FILE_WIFI_SUPPLICANT, data); FileUtils.setPermissions(FILE_WIFI_SUPPLICANT, FileUtils.S_IRUSR | FileUtils.S_IWUSR | FileUtils.S_IRGRP | FileUtils.S_IWGRP, Process.myUid(), Process.WIFI_UID); // retain the previous WIFI state. enableWifi(retainedWifiState == WifiManager.WIFI_STATE_ENABLED || retainedWifiState == WifiManager.WIFI_STATE_ENABLING); } else if (KEY_LOCALE.equals(key)) { byte[] localeData = new byte[size]; data.readEntityData(localeData, 0, size); mSettingsHelper.setLocaleData(localeData, size); } else if (KEY_WIFI_CONFIG.equals(key)) { restoreFileData(mWifiConfigFile, data); } else { data.skipEntityData(); } } } @Override public void onFullBackup(FullBackupDataOutput data) throws IOException { byte[] systemSettingsData = getSystemSettings(); byte[] secureSettingsData = getSecureSettings(); byte[] locale = mSettingsHelper.getLocaleData(); byte[] wifiSupplicantData = getWifiSupplicant(FILE_WIFI_SUPPLICANT); byte[] wifiConfigData = getFileData(mWifiConfigFile); // Write the data to the staging file, then emit that as our tarfile // representation of the backed-up settings. String root = getFilesDir().getAbsolutePath(); File stage = new File(root, STAGE_FILE); try { FileOutputStream filestream = new FileOutputStream(stage); BufferedOutputStream bufstream = new BufferedOutputStream(filestream); DataOutputStream out = new DataOutputStream(bufstream); if (DEBUG_BACKUP) Log.d(TAG, "Writing flattened data version " + FULL_BACKUP_VERSION); out.writeInt(FULL_BACKUP_VERSION); if (DEBUG_BACKUP) Log.d(TAG, systemSettingsData.length + " bytes of settings data"); out.writeInt(systemSettingsData.length); out.write(systemSettingsData); if (DEBUG_BACKUP) Log.d(TAG, secureSettingsData.length + " bytes of secure settings data"); out.writeInt(secureSettingsData.length); out.write(secureSettingsData); if (DEBUG_BACKUP) Log.d(TAG, locale.length + " bytes of locale data"); out.writeInt(locale.length); out.write(locale); if (DEBUG_BACKUP) Log.d(TAG, wifiSupplicantData.length + " bytes of wifi supplicant data"); out.writeInt(wifiSupplicantData.length); out.write(wifiSupplicantData); if (DEBUG_BACKUP) Log.d(TAG, wifiConfigData.length + " bytes of wifi config data"); out.writeInt(wifiConfigData.length); out.write(wifiConfigData); out.flush(); // also flushes downstream // now we're set to emit the tar stream fullBackupFile(stage, data); } finally { stage.delete(); } } @Override public void onRestoreFile(ParcelFileDescriptor data, long size, int type, String domain, String relpath, long mode, long mtime) throws IOException { if (DEBUG_BACKUP) Log.d(TAG, "onRestoreFile() invoked"); // Our data is actually a blob of flattened settings data identical to that // produced during incremental backups. Just unpack and apply it all in // turn. FileInputStream instream = new FileInputStream(data.getFileDescriptor()); DataInputStream in = new DataInputStream(instream); int version = in.readInt(); if (DEBUG_BACKUP) Log.d(TAG, "Flattened data version " + version); if (version == FULL_BACKUP_VERSION) { // system settings data first int nBytes = in.readInt(); if (DEBUG_BACKUP) Log.d(TAG, nBytes + " bytes of settings data"); byte[] buffer = new byte[nBytes]; in.readFully(buffer, 0, nBytes); restoreSettings(buffer, nBytes, Settings.System.CONTENT_URI); // secure settings nBytes = in.readInt(); if (DEBUG_BACKUP) Log.d(TAG, nBytes + " bytes of secure settings data"); if (nBytes > buffer.length) buffer = new byte[nBytes]; in.readFully(buffer, 0, nBytes); restoreSettings(buffer, nBytes, Settings.Secure.CONTENT_URI); // locale nBytes = in.readInt(); if (DEBUG_BACKUP) Log.d(TAG, nBytes + " bytes of locale data"); if (nBytes > buffer.length) buffer = new byte[nBytes]; in.readFully(buffer, 0, nBytes); mSettingsHelper.setLocaleData(buffer, nBytes); // wifi supplicant nBytes = in.readInt(); if (DEBUG_BACKUP) Log.d(TAG, nBytes + " bytes of wifi supplicant data"); if (nBytes > buffer.length) buffer = new byte[nBytes]; in.readFully(buffer, 0, nBytes); int retainedWifiState = enableWifi(false); restoreWifiSupplicant(FILE_WIFI_SUPPLICANT, buffer, nBytes); FileUtils.setPermissions(FILE_WIFI_SUPPLICANT, FileUtils.S_IRUSR | FileUtils.S_IWUSR | FileUtils.S_IRGRP | FileUtils.S_IWGRP, Process.myUid(), Process.WIFI_UID); // retain the previous WIFI state. enableWifi(retainedWifiState == WifiManager.WIFI_STATE_ENABLED || retainedWifiState == WifiManager.WIFI_STATE_ENABLING); // wifi config nBytes = in.readInt(); if (DEBUG_BACKUP) Log.d(TAG, nBytes + " bytes of wifi config data"); if (nBytes > buffer.length) buffer = new byte[nBytes]; in.readFully(buffer, 0, nBytes); restoreFileData(mWifiConfigFile, buffer, nBytes); if (DEBUG_BACKUP) Log.d(TAG, "Full restore complete."); } else { data.close(); throw new IOException("Invalid file schema"); } } private long[] readOldChecksums(ParcelFileDescriptor oldState) throws IOException { long[] stateChecksums = new long[STATE_SIZE]; DataInputStream dataInput = new DataInputStream( new FileInputStream(oldState.getFileDescriptor())); try { int stateVersion = dataInput.readInt(); if (stateVersion == STATE_VERSION_1) { for (int i = 0; i < STATE_VERSION_1_SIZE; i++) { stateChecksums[i] = dataInput.readLong(); } } else if (stateVersion == STATE_VERSION) { for (int i = 0; i < STATE_SIZE; i++) { stateChecksums[i] = dataInput.readLong(); } } } catch (EOFException eof) { // With the default 0 checksum we'll wind up forcing a backup of // any unhandled data sets, which is appropriate. } dataInput.close(); return stateChecksums; } private void writeNewChecksums(long[] checksums, ParcelFileDescriptor newState) throws IOException { DataOutputStream dataOutput = new DataOutputStream( new FileOutputStream(newState.getFileDescriptor())); dataOutput.writeInt(STATE_VERSION); for (int i = 0; i < STATE_SIZE; i++) { dataOutput.writeLong(checksums[i]); } dataOutput.close(); } private long writeIfChanged(long oldChecksum, String key, byte[] data, BackupDataOutput output) { CRC32 checkSummer = new CRC32(); checkSummer.update(data); long newChecksum = checkSummer.getValue(); if (oldChecksum == newChecksum) { return oldChecksum; } try { output.writeEntityHeader(key, data.length); output.writeEntityData(data, data.length); } catch (IOException ioe) { // Bail } return newChecksum; } private byte[] getSystemSettings() { Cursor cursor = getContentResolver().query(Settings.System.CONTENT_URI, PROJECTION, null, null, null); try { return extractRelevantValues(cursor, Settings.System.SETTINGS_TO_BACKUP); } finally { cursor.close(); } } private byte[] getSecureSettings() { Cursor cursor = getContentResolver().query(Settings.Secure.CONTENT_URI, PROJECTION, null, null, null); try { return extractRelevantValues(cursor, Settings.Secure.SETTINGS_TO_BACKUP); } finally { cursor.close(); } } private void restoreSettings(BackupDataInput data, Uri contentUri) { byte[] settings = new byte[data.getDataSize()]; try { data.readEntityData(settings, 0, settings.length); } catch (IOException ioe) { Log.e(TAG, "Couldn't read entity data"); return; } restoreSettings(settings, settings.length, contentUri); } private void restoreSettings(byte[] settings, int bytes, Uri contentUri) { if (DEBUG) { Log.i(TAG, "restoreSettings: " + contentUri); } // Figure out the white list. String[] whitelist = null; if (contentUri.equals(Settings.Secure.CONTENT_URI)) { whitelist = Settings.Secure.SETTINGS_TO_BACKUP; } else if (contentUri.equals(Settings.System.CONTENT_URI)) { whitelist = Settings.System.SETTINGS_TO_BACKUP; } else { throw new IllegalArgumentException("Unknown URI: " + contentUri); } // Restore only the white list data. int pos = 0; Map cachedEntries = new HashMap(); ContentValues contentValues = new ContentValues(2); SettingsHelper settingsHelper = mSettingsHelper; final int whiteListSize = whitelist.length; for (int i = 0; i < whiteListSize; i++) { String key = whitelist[i]; String value = cachedEntries.remove(key); // If the value not cached, let us look it up. if (value == null) { while (pos < bytes) { int length = readInt(settings, pos); pos += INTEGER_BYTE_COUNT; String dataKey = length > 0 ? new String(settings, pos, length) : null; pos += length; length = readInt(settings, pos); pos += INTEGER_BYTE_COUNT; String dataValue = length > 0 ? new String(settings, pos, length) : null; pos += length; if (key.equals(dataKey)) { value = dataValue; break; } cachedEntries.put(dataKey, dataValue); } } if (value == null) { continue; } if (settingsHelper.restoreValue(key, value)) { contentValues.clear(); contentValues.put(Settings.NameValueTable.NAME, key); contentValues.put(Settings.NameValueTable.VALUE, value); getContentResolver().insert(contentUri, contentValues); } if (DEBUG) { Log.d(TAG, "Restored setting: " + key + "=" + value); } } } /** * Given a cursor and a set of keys, extract the required keys and * values and write them to a byte array. * * @param cursor A cursor with settings data. * @param settings The settings to extract. * @return The byte array of extracted values. */ private byte[] extractRelevantValues(Cursor cursor, String[] settings) { final int settingsCount = settings.length; byte[][] values = new byte[settingsCount * 2][]; // keys and values if (!cursor.moveToFirst()) { Log.e(TAG, "Couldn't read from the cursor"); return new byte[0]; } // Obtain the relevant data in a temporary array. int totalSize = 0; int backedUpSettingIndex = 0; Map cachedEntries = new HashMap(); for (int i = 0; i < settingsCount; i++) { String key = settings[i]; String value = cachedEntries.remove(key); // If the value not cached, let us look it up. if (value == null) { while (!cursor.isAfterLast()) { String cursorKey = cursor.getString(COLUMN_NAME); String cursorValue = cursor.getString(COLUMN_VALUE); cursor.moveToNext(); if (key.equals(cursorKey)) { value = cursorValue; break; } cachedEntries.put(cursorKey, cursorValue); } } if (value == null) { continue; } // Write the key and value in the intermediary array. byte[] keyBytes = key.getBytes(); totalSize += INTEGER_BYTE_COUNT + keyBytes.length; values[backedUpSettingIndex * 2] = keyBytes; byte[] valueBytes = value.getBytes(); totalSize += INTEGER_BYTE_COUNT + valueBytes.length; values[backedUpSettingIndex * 2 + 1] = valueBytes; backedUpSettingIndex++; if (DEBUG) { Log.d(TAG, "Backed up setting: " + key + "=" + value); } } // Aggregate the result. byte[] result = new byte[totalSize]; int pos = 0; final int keyValuePairCount = backedUpSettingIndex * 2; for (int i = 0; i < keyValuePairCount; i++) { pos = writeInt(result, pos, values[i].length); pos = writeBytes(result, pos, values[i]); } return result; } private byte[] getFileData(String filename) { InputStream is = null; try { File file = new File(filename); is = new FileInputStream(file); //Will truncate read on a very long file, //should not happen for a config file byte[] bytes = new byte[(int)file.length()]; int offset = 0; int numRead = 0; while (offset < bytes.length && (numRead=is.read(bytes, offset, bytes.length-offset)) >= 0) { offset += numRead; } //read failure if (offset < bytes.length) { Log.w(TAG, "Couldn't backup " + filename); return EMPTY_DATA; } return bytes; } catch (IOException ioe) { Log.w(TAG, "Couldn't backup " + filename); return EMPTY_DATA; } finally { if (is != null) { try { is.close(); } catch (IOException e) { } } } } private void restoreFileData(String filename, BackupDataInput data) { byte[] bytes = new byte[data.getDataSize()]; if (bytes.length <= 0) return; try { data.readEntityData(bytes, 0, data.getDataSize()); restoreFileData(filename, bytes, bytes.length); } catch (IOException e) { Log.w(TAG, "Unable to read file data for " + filename); } } private void restoreFileData(String filename, byte[] bytes, int size) { try { File file = new File(filename); if (file.exists()) file.delete(); OutputStream os = new BufferedOutputStream(new FileOutputStream(filename, true)); os.write(bytes, 0, size); os.close(); } catch (IOException ioe) { Log.w(TAG, "Couldn't restore " + filename); } } private byte[] getWifiSupplicant(String filename) { BufferedReader br = null; try { File file = new File(filename); if (file.exists()) { br = new BufferedReader(new FileReader(file)); StringBuffer relevantLines = new StringBuffer(); boolean started = false; String line; while ((line = br.readLine()) != null) { if (!started && line.startsWith("network")) { started = true; } if (started) { relevantLines.append(line).append("\n"); } } if (relevantLines.length() > 0) { return relevantLines.toString().getBytes(); } else { return EMPTY_DATA; } } else { return EMPTY_DATA; } } catch (IOException ioe) { Log.w(TAG, "Couldn't backup " + filename); return EMPTY_DATA; } finally { if (br != null) { try { br.close(); } catch (IOException e) { } } } } private void restoreWifiSupplicant(String filename, BackupDataInput data) { byte[] bytes = new byte[data.getDataSize()]; if (bytes.length <= 0) return; try { data.readEntityData(bytes, 0, data.getDataSize()); restoreWifiSupplicant(filename, bytes, bytes.length); } catch (IOException e) { Log.w(TAG, "Unable to read supplicant data"); } } private void restoreWifiSupplicant(String filename, byte[] bytes, int size) { try { WifiNetworkSettings supplicantImage = new WifiNetworkSettings(); File supplicantFile = new File(FILE_WIFI_SUPPLICANT); if (supplicantFile.exists()) { // Retain the existing APs; we'll append the restored ones to them BufferedReader in = new BufferedReader(new FileReader(FILE_WIFI_SUPPLICANT)); supplicantImage.readNetworks(in); in.close(); supplicantFile.delete(); } // Incorporate the restore AP information if (size > 0) { char[] restoredAsBytes = new char[size]; for (int i = 0; i < size; i++) restoredAsBytes[i] = (char) bytes[i]; BufferedReader in = new BufferedReader(new CharArrayReader(restoredAsBytes)); supplicantImage.readNetworks(in); if (DEBUG_BACKUP) { Log.v(TAG, "Final AP list:"); supplicantImage.dump(); } } // Install the correct default template BufferedWriter bw = new BufferedWriter(new FileWriter(FILE_WIFI_SUPPLICANT)); copyWifiSupplicantTemplate(bw); // Write the restored supplicant config and we're done supplicantImage.write(bw); bw.close(); } catch (IOException ioe) { Log.w(TAG, "Couldn't restore " + filename); } } private void copyWifiSupplicantTemplate(BufferedWriter bw) { try { BufferedReader br = new BufferedReader(new FileReader(FILE_WIFI_SUPPLICANT_TEMPLATE)); char[] temp = new char[1024]; int size; while ((size = br.read(temp)) > 0) { bw.write(temp, 0, size); } br.close(); } catch (IOException ioe) { Log.w(TAG, "Couldn't copy wpa_supplicant file"); } } /** * Write an int in BigEndian into the byte array. * @param out byte array * @param pos current pos in array * @param value integer to write * @return the index after adding the size of an int (4) in bytes. */ private int writeInt(byte[] out, int pos, int value) { out[pos + 0] = (byte) ((value >> 24) & 0xFF); out[pos + 1] = (byte) ((value >> 16) & 0xFF); out[pos + 2] = (byte) ((value >> 8) & 0xFF); out[pos + 3] = (byte) ((value >> 0) & 0xFF); return pos + INTEGER_BYTE_COUNT; } private int writeBytes(byte[] out, int pos, byte[] value) { System.arraycopy(value, 0, out, pos, value.length); return pos + value.length; } private int readInt(byte[] in, int pos) { int result = ((in[pos ] & 0xFF) << 24) | ((in[pos + 1] & 0xFF) << 16) | ((in[pos + 2] & 0xFF) << 8) | ((in[pos + 3] & 0xFF) << 0); return result; } private int enableWifi(boolean enable) { if (mWfm == null) { mWfm = (WifiManager) getSystemService(Context.WIFI_SERVICE); } if (mWfm != null) { int state = mWfm.getWifiState(); mWfm.setWifiEnabled(enable); return state; } else { Log.e(TAG, "Failed to fetch WifiManager instance"); } return WifiManager.WIFI_STATE_UNKNOWN; } }