1 /* 2 * Copyright (C) 2012 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 package com.android.server; 18 19 import java.io.FileDescriptor; 20 import java.io.PrintWriter; 21 import java.net.InetAddress; 22 23 import android.content.BroadcastReceiver; 24 import android.content.Context; 25 import android.content.Intent; 26 import android.content.IntentFilter; 27 import android.content.pm.PackageManager; 28 import android.net.ConnectivityManager; 29 import android.net.IConnectivityManager; 30 import android.net.INetworkManagementEventObserver; 31 import android.net.InterfaceConfiguration; 32 import android.net.NetworkInfo; 33 import android.os.Binder; 34 import android.os.CommonTimeConfig; 35 import android.os.Handler; 36 import android.os.IBinder; 37 import android.os.INetworkManagementService; 38 import android.os.RemoteException; 39 import android.os.ServiceManager; 40 import android.os.SystemProperties; 41 import android.util.Log; 42 43 /** 44 * @hide 45 * <p>CommonTimeManagementService manages the configuration of the native Common Time service, 46 * reconfiguring the native service as appropriate in response to changes in network configuration. 47 */ 48 class CommonTimeManagementService extends Binder { 49 /* 50 * Constants and globals. 51 */ 52 private static final String TAG = CommonTimeManagementService.class.getSimpleName(); 53 private static final int NATIVE_SERVICE_RECONNECT_TIMEOUT = 5000; 54 private static final String AUTO_DISABLE_PROP = "ro.common_time.auto_disable"; 55 private static final String ALLOW_WIFI_PROP = "ro.common_time.allow_wifi"; 56 private static final String SERVER_PRIO_PROP = "ro.common_time.server_prio"; 57 private static final String NO_INTERFACE_TIMEOUT_PROP = "ro.common_time.no_iface_timeout"; 58 private static final boolean AUTO_DISABLE; 59 private static final boolean ALLOW_WIFI; 60 private static final byte BASE_SERVER_PRIO; 61 private static final int NO_INTERFACE_TIMEOUT; 62 private static final InterfaceScoreRule[] IFACE_SCORE_RULES; 63 64 static { 65 int tmp; 66 AUTO_DISABLE = (0 != SystemProperties.getInt(AUTO_DISABLE_PROP, 1)); 67 ALLOW_WIFI = (0 != SystemProperties.getInt(ALLOW_WIFI_PROP, 0)); 68 tmp = SystemProperties.getInt(SERVER_PRIO_PROP, 1); 69 NO_INTERFACE_TIMEOUT = SystemProperties.getInt(NO_INTERFACE_TIMEOUT_PROP, 60000); 70 71 if (tmp < 1) 72 BASE_SERVER_PRIO = 1; 73 else 74 if (tmp > 30) 75 BASE_SERVER_PRIO = 30; 76 else 77 BASE_SERVER_PRIO = (byte)tmp; 78 79 if (ALLOW_WIFI) { 80 IFACE_SCORE_RULES = new InterfaceScoreRule[] { 81 new InterfaceScoreRule("wlan", (byte)1), 82 new InterfaceScoreRule("eth", (byte)2), 83 }; 84 } else { 85 IFACE_SCORE_RULES = new InterfaceScoreRule[] { 86 new InterfaceScoreRule("eth", (byte)2), 87 }; 88 } 89 }; 90 91 /* 92 * Internal state 93 */ 94 private final Context mContext; 95 private INetworkManagementService mNetMgr; 96 private CommonTimeConfig mCTConfig; 97 private String mCurIface; 98 private Handler mReconnectHandler = new Handler(); 99 private Handler mNoInterfaceHandler = new Handler(); 100 private Object mLock = new Object(); 101 private boolean mDetectedAtStartup = false; 102 private byte mEffectivePrio = BASE_SERVER_PRIO; 103 104 /* 105 * Callback handler implementations. 106 */ 107 private INetworkManagementEventObserver mIfaceObserver = 108 new INetworkManagementEventObserver.Stub() { 109 110 public void interfaceStatusChanged(String iface, boolean up) { 111 reevaluateServiceState(); 112 } 113 public void interfaceLinkStateChanged(String iface, boolean up) { 114 reevaluateServiceState(); 115 } 116 public void interfaceAdded(String iface) { 117 reevaluateServiceState(); 118 } 119 public void interfaceRemoved(String iface) { 120 reevaluateServiceState(); 121 } 122 public void limitReached(String limitName, String iface) { } 123 }; 124 125 private BroadcastReceiver mConnectivityMangerObserver = new BroadcastReceiver() { 126 @Override 127 public void onReceive(Context context, Intent intent) { 128 reevaluateServiceState(); 129 } 130 }; 131 132 private CommonTimeConfig.OnServerDiedListener mCTServerDiedListener = 133 new CommonTimeConfig.OnServerDiedListener() { 134 public void onServerDied() { 135 scheduleTimeConfigReconnect(); 136 } 137 }; 138 139 private Runnable mReconnectRunnable = new Runnable() { 140 public void run() { connectToTimeConfig(); } 141 }; 142 143 private Runnable mNoInterfaceRunnable = new Runnable() { 144 public void run() { handleNoInterfaceTimeout(); } 145 }; 146 147 /* 148 * Public interface (constructor, systemReady and dump) 149 */ CommonTimeManagementService(Context context)150 public CommonTimeManagementService(Context context) { 151 mContext = context; 152 } 153 systemReady()154 void systemReady() { 155 if (ServiceManager.checkService(CommonTimeConfig.SERVICE_NAME) == null) { 156 Log.i(TAG, "No common time service detected on this platform. " + 157 "Common time services will be unavailable."); 158 return; 159 } 160 161 mDetectedAtStartup = true; 162 163 IBinder b = ServiceManager.getService(Context.NETWORKMANAGEMENT_SERVICE); 164 mNetMgr = INetworkManagementService.Stub.asInterface(b); 165 166 // Network manager is running along-side us, so we should never receiver a remote exception 167 // while trying to register this observer. 168 try { 169 mNetMgr.registerObserver(mIfaceObserver); 170 } 171 catch (RemoteException e) { } 172 173 // Register with the connectivity manager for connectivity changed intents. 174 IntentFilter filter = new IntentFilter(); 175 filter.addAction(ConnectivityManager.CONNECTIVITY_ACTION); 176 mContext.registerReceiver(mConnectivityMangerObserver, filter); 177 178 // Connect to the common time config service and apply the initial configuration. 179 connectToTimeConfig(); 180 } 181 182 @Override dump(FileDescriptor fd, PrintWriter pw, String[] args)183 protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) { 184 if (mContext.checkCallingOrSelfPermission(android.Manifest.permission.DUMP) 185 != PackageManager.PERMISSION_GRANTED) { 186 pw.println(String.format( 187 "Permission Denial: can't dump CommonTimeManagement service from from " + 188 "pid=%d, uid=%d", Binder.getCallingPid(), Binder.getCallingUid())); 189 return; 190 } 191 192 if (!mDetectedAtStartup) { 193 pw.println("Native Common Time service was not detected at startup. " + 194 "Service is unavailable"); 195 return; 196 } 197 198 synchronized (mLock) { 199 pw.println("Current Common Time Management Service Config:"); 200 pw.println(String.format(" Native service : %s", 201 (null == mCTConfig) ? "reconnecting" 202 : "alive")); 203 pw.println(String.format(" Bound interface : %s", 204 (null == mCurIface ? "unbound" : mCurIface))); 205 pw.println(String.format(" Allow WiFi : %s", ALLOW_WIFI ? "yes" : "no")); 206 pw.println(String.format(" Allow Auto Disable : %s", AUTO_DISABLE ? "yes" : "no")); 207 pw.println(String.format(" Server Priority : %d", mEffectivePrio)); 208 pw.println(String.format(" No iface timeout : %d", NO_INTERFACE_TIMEOUT)); 209 } 210 } 211 212 /* 213 * Inner helper classes 214 */ 215 private static class InterfaceScoreRule { 216 public final String mPrefix; 217 public final byte mScore; InterfaceScoreRule(String prefix, byte score)218 public InterfaceScoreRule(String prefix, byte score) { 219 mPrefix = prefix; 220 mScore = score; 221 } 222 }; 223 224 /* 225 * Internal implementation 226 */ cleanupTimeConfig()227 private void cleanupTimeConfig() { 228 mReconnectHandler.removeCallbacks(mReconnectRunnable); 229 mNoInterfaceHandler.removeCallbacks(mNoInterfaceRunnable); 230 if (null != mCTConfig) { 231 mCTConfig.release(); 232 mCTConfig = null; 233 } 234 } 235 connectToTimeConfig()236 private void connectToTimeConfig() { 237 // Get access to the common time service configuration interface. If we catch a remote 238 // exception in the process (service crashed or no running for w/e reason), schedule an 239 // attempt to reconnect in the future. 240 cleanupTimeConfig(); 241 try { 242 synchronized (mLock) { 243 mCTConfig = new CommonTimeConfig(); 244 mCTConfig.setServerDiedListener(mCTServerDiedListener); 245 mCurIface = mCTConfig.getInterfaceBinding(); 246 mCTConfig.setAutoDisable(AUTO_DISABLE); 247 mCTConfig.setMasterElectionPriority(mEffectivePrio); 248 } 249 250 if (NO_INTERFACE_TIMEOUT >= 0) 251 mNoInterfaceHandler.postDelayed(mNoInterfaceRunnable, NO_INTERFACE_TIMEOUT); 252 253 reevaluateServiceState(); 254 } 255 catch (RemoteException e) { 256 scheduleTimeConfigReconnect(); 257 } 258 } 259 scheduleTimeConfigReconnect()260 private void scheduleTimeConfigReconnect() { 261 cleanupTimeConfig(); 262 Log.w(TAG, String.format("Native service died, will reconnect in %d mSec", 263 NATIVE_SERVICE_RECONNECT_TIMEOUT)); 264 mReconnectHandler.postDelayed(mReconnectRunnable, 265 NATIVE_SERVICE_RECONNECT_TIMEOUT); 266 } 267 handleNoInterfaceTimeout()268 private void handleNoInterfaceTimeout() { 269 if (null != mCTConfig) { 270 Log.i(TAG, "Timeout waiting for interface to come up. " + 271 "Forcing networkless master mode."); 272 if (CommonTimeConfig.ERROR_DEAD_OBJECT == mCTConfig.forceNetworklessMasterMode()) 273 scheduleTimeConfigReconnect(); 274 } 275 } 276 reevaluateServiceState()277 private void reevaluateServiceState() { 278 String bindIface = null; 279 byte bestScore = -1; 280 try { 281 // Check to see if this interface is suitable to use for time synchronization. 282 // 283 // TODO : This selection algorithm needs to be enhanced for use with mobile devices. In 284 // particular, the choice of whether to a wireless interface or not should not be an all 285 // or nothing thing controlled by properties. It would probably be better if the 286 // platform had some concept of public wireless networks vs. home or friendly wireless 287 // networks (something a user would configure in settings or when a new interface is 288 // added). Then this algorithm could pick only wireless interfaces which were flagged 289 // as friendly, and be dormant when on public wireless networks. 290 // 291 // Another issue which needs to be dealt with is the use of driver supplied interface 292 // name to determine the network type. The fact that the wireless interface on a device 293 // is named "wlan0" is just a matter of convention; its not a 100% rule. For example, 294 // there are devices out there where the wireless is name "tiwlan0", not "wlan0". The 295 // internal network management interfaces in Android have all of the information needed 296 // to make a proper classification, there is just no way (currently) to fetch an 297 // interface's type (available from the ConnectionManager) as well as its address 298 // (available from either the java.net interfaces or from the NetworkManagment service). 299 // Both can enumerate interfaces, but that is no way to correlate their results (no 300 // common shared key; although using the interface name in the connection manager would 301 // be a good start). Until this gets resolved, we resort to substring searching for 302 // tags like wlan and eth. 303 // 304 String ifaceList[] = mNetMgr.listInterfaces(); 305 if (null != ifaceList) { 306 for (String iface : ifaceList) { 307 308 byte thisScore = -1; 309 for (InterfaceScoreRule r : IFACE_SCORE_RULES) { 310 if (iface.contains(r.mPrefix)) { 311 thisScore = r.mScore; 312 break; 313 } 314 } 315 316 if (thisScore <= bestScore) 317 continue; 318 319 InterfaceConfiguration config = mNetMgr.getInterfaceConfig(iface); 320 if (null == config) 321 continue; 322 323 if (config.isActive()) { 324 bindIface = iface; 325 bestScore = thisScore; 326 } 327 } 328 } 329 } 330 catch (RemoteException e) { 331 // Bad news; we should not be getting remote exceptions from the connectivity manager 332 // since it is running in SystemServer along side of us. It probably does not matter 333 // what we do here, but go ahead and unbind the common time service in this case, just 334 // so we have some defined behavior. 335 bindIface = null; 336 } 337 338 boolean doRebind = true; 339 synchronized (mLock) { 340 if ((null != bindIface) && (null == mCurIface)) { 341 Log.e(TAG, String.format("Binding common time service to %s.", bindIface)); 342 mCurIface = bindIface; 343 } else 344 if ((null == bindIface) && (null != mCurIface)) { 345 Log.e(TAG, "Unbinding common time service."); 346 mCurIface = null; 347 } else 348 if ((null != bindIface) && (null != mCurIface) && !bindIface.equals(mCurIface)) { 349 Log.e(TAG, String.format("Switching common time service binding from %s to %s.", 350 mCurIface, bindIface)); 351 mCurIface = bindIface; 352 } else { 353 doRebind = false; 354 } 355 } 356 357 if (doRebind && (null != mCTConfig)) { 358 byte newPrio = (bestScore > 0) 359 ? (byte)(bestScore * BASE_SERVER_PRIO) 360 : BASE_SERVER_PRIO; 361 if (newPrio != mEffectivePrio) { 362 mEffectivePrio = newPrio; 363 mCTConfig.setMasterElectionPriority(mEffectivePrio); 364 } 365 366 int res = mCTConfig.setNetworkBinding(mCurIface); 367 if (res != CommonTimeConfig.SUCCESS) 368 scheduleTimeConfigReconnect(); 369 370 else if (NO_INTERFACE_TIMEOUT >= 0) { 371 mNoInterfaceHandler.removeCallbacks(mNoInterfaceRunnable); 372 if (null == mCurIface) 373 mNoInterfaceHandler.postDelayed(mNoInterfaceRunnable, NO_INTERFACE_TIMEOUT); 374 } 375 } 376 } 377 } 378