/* * Copyright (C) 2014 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.server.net; import android.net.LinkAddress; import android.net.LinkProperties; import android.net.RouteInfo; import android.util.Log; import java.net.InetAddress; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.Set; /** * Keeps track of link configuration received from Netlink. * * Instances of this class are expected to be owned by subsystems such as Wi-Fi * or Ethernet that manage one or more network interfaces. Each interface to be * tracked needs its own {@code NetlinkTracker}. * * An instance of this class is constructed by passing in an interface name and * a callback. The owner is then responsible for registering the tracker with * NetworkManagementService. When the class receives update notifications from * the NetworkManagementService notification threads, it applies the update to * its local LinkProperties, and if something has changed, notifies its owner of * the update via the callback. * * The owner can then call {@code getLinkProperties()} in order to find out * what changed. If in the meantime the LinkProperties stored here have changed, * this class will return the current LinkProperties. Because each change * triggers an update callback after the change is made, the owner may get more * callbacks than strictly necessary (some of which may be no-ops), but will not * be out of sync once all callbacks have been processed. * * Threading model: * * - The owner of this class is expected to create it, register it, and call * getLinkProperties or clearLinkProperties on its thread. * - Most of the methods in the class are inherited from BaseNetworkObserver * and are called by NetworkManagementService notification threads. * - All accesses to mLinkProperties must be synchronized(this). All the other * member variables are immutable once the object is constructed. * * This class currently tracks IPv4 and IPv6 addresses. In the future it will * track routes and DNS servers. * * @hide */ public class NetlinkTracker extends BaseNetworkObserver { private final String TAG; public interface Callback { public void update(); } private final String mInterfaceName; private final Callback mCallback; private final LinkProperties mLinkProperties; private DnsServerRepository mDnsServerRepository; private static final boolean DBG = false; public NetlinkTracker(String iface, Callback callback) { TAG = "NetlinkTracker/" + iface; mInterfaceName = iface; mCallback = callback; mLinkProperties = new LinkProperties(); mLinkProperties.setInterfaceName(mInterfaceName); mDnsServerRepository = new DnsServerRepository(); } private void maybeLog(String operation, String iface, LinkAddress address) { if (DBG) { Log.d(TAG, operation + ": " + address + " on " + iface + " flags " + address.getFlags() + " scope " + address.getScope()); } } private void maybeLog(String operation, Object o) { if (DBG) { Log.d(TAG, operation + ": " + o.toString()); } } @Override public void interfaceRemoved(String iface) { maybeLog("interfaceRemoved", iface); if (mInterfaceName.equals(iface)) { // Our interface was removed. Clear our LinkProperties and tell our owner that they are // now empty. Note that from the moment that the interface is removed, any further // interface-specific messages (e.g., RTM_DELADDR) will not reach us, because the netd // code that parses them will not be able to resolve the ifindex to an interface name. clearLinkProperties(); mCallback.update(); } } @Override public void addressUpdated(String iface, LinkAddress address) { if (mInterfaceName.equals(iface)) { maybeLog("addressUpdated", iface, address); boolean changed; synchronized (this) { changed = mLinkProperties.addLinkAddress(address); } if (changed) { mCallback.update(); } } } @Override public void addressRemoved(String iface, LinkAddress address) { if (mInterfaceName.equals(iface)) { maybeLog("addressRemoved", iface, address); boolean changed; synchronized (this) { changed = mLinkProperties.removeLinkAddress(address); } if (changed) { mCallback.update(); } } } @Override public void routeUpdated(RouteInfo route) { if (mInterfaceName.equals(route.getInterface())) { maybeLog("routeUpdated", route); boolean changed; synchronized (this) { changed = mLinkProperties.addRoute(route); } if (changed) { mCallback.update(); } } } @Override public void routeRemoved(RouteInfo route) { if (mInterfaceName.equals(route.getInterface())) { maybeLog("routeRemoved", route); boolean changed; synchronized (this) { changed = mLinkProperties.removeRoute(route); } if (changed) { mCallback.update(); } } } @Override public void interfaceDnsServerInfo(String iface, long lifetime, String[] addresses) { if (mInterfaceName.equals(iface)) { maybeLog("interfaceDnsServerInfo", Arrays.toString(addresses)); boolean changed = mDnsServerRepository.addServers(lifetime, addresses); if (changed) { synchronized (this) { mDnsServerRepository.setDnsServersOn(mLinkProperties); } mCallback.update(); } } } /** * Returns a copy of this object's LinkProperties. */ public synchronized LinkProperties getLinkProperties() { return new LinkProperties(mLinkProperties); } public synchronized void clearLinkProperties() { // Clear the repository before clearing mLinkProperties. That way, if a clear() happens // while interfaceDnsServerInfo() is being called, we'll end up with no DNS servers in // mLinkProperties, as desired. mDnsServerRepository = new DnsServerRepository(); mLinkProperties.clear(); mLinkProperties.setInterfaceName(mInterfaceName); } } /** * Represents a DNS server entry with an expiry time. * * Implements Comparable so DNS server entries can be sorted by lifetime, longest-lived first. * The ordering of entries with the same lifetime is unspecified, because given two servers with * identical lifetimes, we don't care which one we use, and only comparing the lifetime is much * faster than comparing the IP address as well. * * Note: this class has a natural ordering that is inconsistent with equals. */ class DnsServerEntry implements Comparable { /** The IP address of the DNS server. */ public final InetAddress address; /** The time until which the DNS server may be used. A Java millisecond time as might be * returned by currentTimeMillis(). */ public long expiry; public DnsServerEntry(InetAddress address, long expiry) throws IllegalArgumentException { this.address = address; this.expiry = expiry; } public int compareTo(DnsServerEntry other) { return Long.compare(other.expiry, this.expiry); } } /** * Tracks DNS server updates received from Netlink. * * The network may announce an arbitrary number of DNS servers in Router Advertisements at any * time. Each announcement has a lifetime; when the lifetime expires, the servers should not be used * any more. In this way, the network can gracefully migrate clients from one set of DNS servers to * another. Announcements can both raise and lower the lifetime, and an announcement can expire * servers by announcing them with a lifetime of zero. * * Typically the system will only use a small number (2 or 3; {@code NUM_CURRENT_SERVERS}) of DNS * servers at any given time. These are referred to as the current servers. In case all the * current servers expire, the class also keeps track of a larger (but limited) number of servers * that are promoted to current servers when the current ones expire. In order to minimize updates * to the rest of the system (and potentially expensive cache flushes) this class attempts to keep * the list of current servers constant where possible. More specifically, the list of current * servers is only updated if a new server is learned and there are not yet {@code * NUM_CURRENT_SERVERS} current servers, or if one or more of the current servers expires or is * pushed out of the set. Therefore, the current servers will not necessarily be the ones with the * highest lifetime, but the ones learned first. * * This is by design: if instead the class always preferred the servers with the highest lifetime, a * (misconfigured?) network where two or more routers announce more than {@code NUM_CURRENT_SERVERS} * unique servers would cause persistent oscillations. * * TODO: Currently servers are only expired when a new DNS update is received. * Update them using timers, or possibly on every notification received by NetlinkTracker. * * Threading model: run by NetlinkTracker. Methods are synchronized(this) just in case netlink * notifications are sent by multiple threads. If future threads use alarms to expire, those * alarms must also be synchronized(this). * */ class DnsServerRepository { /** How many DNS servers we will use. 3 is suggested by RFC 6106. */ public static final int NUM_CURRENT_SERVERS = 3; /** How many DNS servers we'll keep track of, in total. */ public static final int NUM_SERVERS = 12; /** Stores up to {@code NUM_CURRENT_SERVERS} DNS servers we're currently using. */ private Set mCurrentServers; public static final String TAG = "DnsServerRepository"; /** * Stores all the DNS servers we know about, for use when the current servers expire. * Always sorted in order of decreasing expiry. The elements in this list are also the values * of mIndex, and may be elements in mCurrentServers. */ private ArrayList mAllServers; /** * Indexes the servers so we can update their lifetimes more quickly in the common case where * servers are not being added, but only being refreshed. */ private HashMap mIndex; public DnsServerRepository() { mCurrentServers = new HashSet(); mAllServers = new ArrayList(NUM_SERVERS); mIndex = new HashMap(NUM_SERVERS); } /** Sets the DNS servers of the provided LinkProperties object to the current servers. */ public synchronized void setDnsServersOn(LinkProperties lp) { lp.setDnsServers(mCurrentServers); } /** * Notifies the class of new DNS server information. * @param lifetime the time in seconds that the DNS servers are valid. * @param addresses the string representations of the IP addresses of the DNS servers to use. */ public synchronized boolean addServers(long lifetime, String[] addresses) { // The lifetime is actually an unsigned 32-bit number, but Java doesn't have unsigned. // Technically 0xffffffff (the maximum) is special and means "forever", but 2^32 seconds // (136 years) is close enough. long now = System.currentTimeMillis(); long expiry = now + 1000 * lifetime; // Go through the list of servers. For each one, update the entry if one exists, and // create one if it doesn't. for (String addressString : addresses) { InetAddress address; try { address = InetAddress.parseNumericAddress(addressString); } catch (IllegalArgumentException ex) { continue; } if (!updateExistingEntry(address, expiry)) { // There was no entry for this server. Create one, unless it's already expired // (i.e., if the lifetime is zero; it cannot be < 0 because it's unsigned). if (expiry > now) { DnsServerEntry entry = new DnsServerEntry(address, expiry); mAllServers.add(entry); mIndex.put(address, entry); } } } // Sort the servers by expiry. Collections.sort(mAllServers); // Prune excess entries and update the current server list. return updateCurrentServers(); } private synchronized boolean updateExistingEntry(InetAddress address, long expiry) { DnsServerEntry existing = mIndex.get(address); if (existing != null) { existing.expiry = expiry; return true; } return false; } private synchronized boolean updateCurrentServers() { long now = System.currentTimeMillis(); boolean changed = false; // Prune excess or expired entries. for (int i = mAllServers.size() - 1; i >= 0; i--) { if (i >= NUM_SERVERS || mAllServers.get(i).expiry < now) { DnsServerEntry removed = mAllServers.remove(i); mIndex.remove(removed.address); changed |= mCurrentServers.remove(removed.address); } else { break; } } // Add servers to the current set, in order of decreasing lifetime, until it has enough. // Prefer existing servers over new servers in order to minimize updates to the rest of the // system and avoid persistent oscillations. for (DnsServerEntry entry : mAllServers) { if (mCurrentServers.size() < NUM_CURRENT_SERVERS) { changed |= mCurrentServers.add(entry.address); } else { break; } } return changed; } }