/* * 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 android.net; import android.annotation.NonNull; import android.annotation.Nullable; import android.net.ProxyInfo; import android.os.Parcelable; import android.os.Parcel; import android.text.TextUtils; import java.net.InetAddress; import java.net.Inet4Address; import java.net.Inet6Address; import java.net.UnknownHostException; import java.util.ArrayList; import java.util.Collection; import java.util.Collections; import java.util.Hashtable; import java.util.List; import java.util.Objects; /** * Describes the properties of a network link. * * A link represents a connection to a network. * It may have multiple addresses and multiple gateways, * multiple dns servers but only one http proxy and one * network interface. * * Note that this is just a holder of data. Modifying it * does not affect live networks. * */ public final class LinkProperties implements Parcelable { // The interface described by the network link. private String mIfaceName; private ArrayList mLinkAddresses = new ArrayList(); private ArrayList mDnses = new ArrayList(); private String mDomains; private ArrayList mRoutes = new ArrayList(); private ProxyInfo mHttpProxy; private int mMtu; // in the format "rmem_min,rmem_def,rmem_max,wmem_min,wmem_def,wmem_max" private String mTcpBufferSizes; private static final int MIN_MTU = 68; private static final int MIN_MTU_V6 = 1280; private static final int MAX_MTU = 10000; // Stores the properties of links that are "stacked" above this link. // Indexed by interface name to allow modification and to prevent duplicates being added. private Hashtable mStackedLinks = new Hashtable(); /** * @hide */ public static class CompareResult { public List removed = new ArrayList(); public List added = new ArrayList(); @Override public String toString() { String retVal = "removed=["; for (T addr : removed) retVal += addr.toString() + ","; retVal += "] added=["; for (T addr : added) retVal += addr.toString() + ","; retVal += "]"; return retVal; } } /** * @hide */ public enum ProvisioningChange { STILL_NOT_PROVISIONED, LOST_PROVISIONING, GAINED_PROVISIONING, STILL_PROVISIONED, } /** * Compare the provisioning states of two LinkProperties instances. * * @hide */ public static ProvisioningChange compareProvisioning( LinkProperties before, LinkProperties after) { if (before.isProvisioned() && after.isProvisioned()) { // On dualstack networks, DHCPv4 renewals can occasionally fail. // When this happens, IPv6-reachable services continue to function // normally but IPv4-only services (naturally) fail. // // When an application using an IPv4-only service reports a bad // network condition to the framework, attempts to re-validate // the network succeed (since we support IPv6-only networks) and // nothing is changed. // // For users, this is confusing and unexpected behaviour, and is // not necessarily easy to diagnose. Therefore, we treat changing // from a dualstack network to an IPv6-only network equivalent to // a total loss of provisioning. // // For one such example of this, see b/18867306. // // Additionally, losing IPv6 provisioning can result in TCP // connections getting stuck until timeouts fire and other // baffling failures. Therefore, loss of either IPv4 or IPv6 on a // previously dualstack network is deemed a lost of provisioning. if ((before.isIPv4Provisioned() && !after.isIPv4Provisioned()) || (before.isIPv6Provisioned() && !after.isIPv6Provisioned())) { return ProvisioningChange.LOST_PROVISIONING; } return ProvisioningChange.STILL_PROVISIONED; } else if (before.isProvisioned() && !after.isProvisioned()) { return ProvisioningChange.LOST_PROVISIONING; } else if (!before.isProvisioned() && after.isProvisioned()) { return ProvisioningChange.GAINED_PROVISIONING; } else { // !before.isProvisioned() && !after.isProvisioned() return ProvisioningChange.STILL_NOT_PROVISIONED; } } /** * @hide */ public LinkProperties() { } /** * @hide */ public LinkProperties(LinkProperties source) { if (source != null) { mIfaceName = source.getInterfaceName(); for (LinkAddress l : source.getLinkAddresses()) mLinkAddresses.add(l); for (InetAddress i : source.getDnsServers()) mDnses.add(i); mDomains = source.getDomains(); for (RouteInfo r : source.getRoutes()) mRoutes.add(r); mHttpProxy = (source.getHttpProxy() == null) ? null : new ProxyInfo(source.getHttpProxy()); for (LinkProperties l: source.mStackedLinks.values()) { addStackedLink(l); } setMtu(source.getMtu()); mTcpBufferSizes = source.mTcpBufferSizes; } } /** * Sets the interface name for this link. All {@link RouteInfo} already set for this * will have their interface changed to match this new value. * * @param iface The name of the network interface used for this link. * @hide */ public void setInterfaceName(String iface) { mIfaceName = iface; ArrayList newRoutes = new ArrayList(mRoutes.size()); for (RouteInfo route : mRoutes) { newRoutes.add(routeWithInterface(route)); } mRoutes = newRoutes; } /** * Gets the interface name for this link. May be {@code null} if not set. * * @return The interface name set for this link or {@code null}. */ public @Nullable String getInterfaceName() { return mIfaceName; } /** * @hide */ public List getAllInterfaceNames() { List interfaceNames = new ArrayList(mStackedLinks.size() + 1); if (mIfaceName != null) interfaceNames.add(new String(mIfaceName)); for (LinkProperties stacked: mStackedLinks.values()) { interfaceNames.addAll(stacked.getAllInterfaceNames()); } return interfaceNames; } /** * Returns all the addresses on this link. We often think of a link having a single address, * however, particularly with Ipv6 several addresses are typical. Note that the * {@code LinkProperties} actually contains {@link LinkAddress} objects which also include * prefix lengths for each address. This is a simplified utility alternative to * {@link LinkProperties#getLinkAddresses}. * * @return An umodifiable {@link List} of {@link InetAddress} for this link. * @hide */ public List getAddresses() { List addresses = new ArrayList(); for (LinkAddress linkAddress : mLinkAddresses) { addresses.add(linkAddress.getAddress()); } return Collections.unmodifiableList(addresses); } /** * Returns all the addresses on this link and all the links stacked above it. * @hide */ public List getAllAddresses() { List addresses = new ArrayList(); for (LinkAddress linkAddress : mLinkAddresses) { addresses.add(linkAddress.getAddress()); } for (LinkProperties stacked: mStackedLinks.values()) { addresses.addAll(stacked.getAllAddresses()); } return addresses; } private int findLinkAddressIndex(LinkAddress address) { for (int i = 0; i < mLinkAddresses.size(); i++) { if (mLinkAddresses.get(i).isSameAddressAs(address)) { return i; } } return -1; } /** * Adds a {@link LinkAddress} to this {@code LinkProperties} if a {@link LinkAddress} of the * same address/prefix does not already exist. If it does exist it is replaced. * @param address The {@code LinkAddress} to add. * @return true if {@code address} was added or updated, false otherwise. * @hide */ public boolean addLinkAddress(LinkAddress address) { if (address == null) { return false; } int i = findLinkAddressIndex(address); if (i < 0) { // Address was not present. Add it. mLinkAddresses.add(address); return true; } else if (mLinkAddresses.get(i).equals(address)) { // Address was present and has same properties. Do nothing. return false; } else { // Address was present and has different properties. Update it. mLinkAddresses.set(i, address); return true; } } /** * Removes a {@link LinkAddress} from this {@code LinkProperties}. Specifically, matches * and {@link LinkAddress} with the same address and prefix. * * @param toRemove A {@link LinkAddress} specifying the address to remove. * @return true if the address was removed, false if it did not exist. * @hide */ public boolean removeLinkAddress(LinkAddress toRemove) { int i = findLinkAddressIndex(toRemove); if (i >= 0) { mLinkAddresses.remove(i); return true; } return false; } /** * Returns all the {@link LinkAddress} on this link. Typically a link will have * one IPv4 address and one or more IPv6 addresses. * * @return An unmodifiable {@link List} of {@link LinkAddress} for this link. */ public List getLinkAddresses() { return Collections.unmodifiableList(mLinkAddresses); } /** * Returns all the addresses on this link and all the links stacked above it. * @hide */ public List getAllLinkAddresses() { List addresses = new ArrayList(); addresses.addAll(mLinkAddresses); for (LinkProperties stacked: mStackedLinks.values()) { addresses.addAll(stacked.getAllLinkAddresses()); } return addresses; } /** * Replaces the {@link LinkAddress} in this {@code LinkProperties} with * the given {@link Collection} of {@link LinkAddress}. * * @param addresses The {@link Collection} of {@link LinkAddress} to set in this * object. * @hide */ public void setLinkAddresses(Collection addresses) { mLinkAddresses.clear(); for (LinkAddress address: addresses) { addLinkAddress(address); } } /** * Adds the given {@link InetAddress} to the list of DNS servers, if not present. * * @param dnsServer The {@link InetAddress} to add to the list of DNS servers. * @return true if the DNS server was added, false if it was already present. * @hide */ public boolean addDnsServer(InetAddress dnsServer) { if (dnsServer != null && !mDnses.contains(dnsServer)) { mDnses.add(dnsServer); return true; } return false; } /** * Removes the given {@link InetAddress} from the list of DNS servers. * * @param dnsServer The {@link InetAddress} to remove from the list of DNS servers. * @return true if the DNS server was removed, false if it did not exist. * @hide */ public boolean removeDnsServer(InetAddress dnsServer) { if (dnsServer != null) { return mDnses.remove(dnsServer); } return false; } /** * Replaces the DNS servers in this {@code LinkProperties} with * the given {@link Collection} of {@link InetAddress} objects. * * @param addresses The {@link Collection} of DNS servers to set in this object. * @hide */ public void setDnsServers(Collection dnsServers) { mDnses.clear(); for (InetAddress dnsServer: dnsServers) { addDnsServer(dnsServer); } } /** * Returns all the {@link InetAddress} for DNS servers on this link. * * @return An umodifiable {@link List} of {@link InetAddress} for DNS servers on * this link. */ public List getDnsServers() { return Collections.unmodifiableList(mDnses); } /** * Sets the DNS domain search path used on this link. * * @param domains A {@link String} listing in priority order the comma separated * domains to search when resolving host names on this link. * @hide */ public void setDomains(String domains) { mDomains = domains; } /** * Get the DNS domains search path set for this link. * * @return A {@link String} containing the comma separated domains to search when resolving * host names on this link. */ public String getDomains() { return mDomains; } /** * Sets the Maximum Transmission Unit size to use on this link. This should not be used * unless the system default (1500) is incorrect. Values less than 68 or greater than * 10000 will be ignored. * * @param mtu The MTU to use for this link. * @hide */ public void setMtu(int mtu) { mMtu = mtu; } /** * Gets any non-default MTU size set for this link. Note that if the default is being used * this will return 0. * * @return The mtu value set for this link. * @hide */ public int getMtu() { return mMtu; } /** * Sets the tcp buffers sizes to be used when this link is the system default. * Should be of the form "rmem_min,rmem_def,rmem_max,wmem_min,wmem_def,wmem_max". * * @param tcpBufferSizes The tcp buffers sizes to use. * * @hide */ public void setTcpBufferSizes(String tcpBufferSizes) { mTcpBufferSizes = tcpBufferSizes; } /** * Gets the tcp buffer sizes. * * @return the tcp buffer sizes to use when this link is the system default. * * @hide */ public String getTcpBufferSizes() { return mTcpBufferSizes; } private RouteInfo routeWithInterface(RouteInfo route) { return new RouteInfo( route.getDestination(), route.getGateway(), mIfaceName, route.getType()); } /** * Adds a {@link RouteInfo} to this {@code LinkProperties}, if not present. If the * {@link RouteInfo} had an interface name set and that differs from the interface set for this * {@code LinkProperties} an {@link IllegalArgumentException} will be thrown. The proper * course is to add either un-named or properly named {@link RouteInfo}. * * @param route A {@link RouteInfo} to add to this object. * @return {@code false} if the route was already present, {@code true} if it was added. * * @hide */ public boolean addRoute(RouteInfo route) { if (route != null) { String routeIface = route.getInterface(); if (routeIface != null && !routeIface.equals(mIfaceName)) { throw new IllegalArgumentException( "Route added with non-matching interface: " + routeIface + " vs. " + mIfaceName); } route = routeWithInterface(route); if (!mRoutes.contains(route)) { mRoutes.add(route); return true; } } return false; } /** * Removes a {@link RouteInfo} from this {@code LinkProperties}, if present. The route must * specify an interface and the interface must match the interface of this * {@code LinkProperties}, or it will not be removed. * * @return {@code true} if the route was removed, {@code false} if it was not present. * * @hide */ public boolean removeRoute(RouteInfo route) { return route != null && Objects.equals(mIfaceName, route.getInterface()) && mRoutes.remove(route); } /** * Returns all the {@link RouteInfo} set on this link. * * @return An unmodifiable {@link List} of {@link RouteInfo} for this link. */ public List getRoutes() { return Collections.unmodifiableList(mRoutes); } /** * Returns all the routes on this link and all the links stacked above it. * @hide */ public List getAllRoutes() { List routes = new ArrayList(); routes.addAll(mRoutes); for (LinkProperties stacked: mStackedLinks.values()) { routes.addAll(stacked.getAllRoutes()); } return routes; } /** * Sets the recommended {@link ProxyInfo} to use on this link, or {@code null} for none. * Note that Http Proxies are only a hint - the system recommends their use, but it does * not enforce it and applications may ignore them. * * @param proxy A {@link ProxyInfo} defining the HTTP Proxy to use on this link. * @hide */ public void setHttpProxy(ProxyInfo proxy) { mHttpProxy = proxy; } /** * Gets the recommended {@link ProxyInfo} (or {@code null}) set on this link. * * @return The {@link ProxyInfo} set on this link */ public ProxyInfo getHttpProxy() { return mHttpProxy; } /** * Adds a stacked link. * * If there is already a stacked link with the same interfacename as link, * that link is replaced with link. Otherwise, link is added to the list * of stacked links. If link is null, nothing changes. * * @param link The link to add. * @return true if the link was stacked, false otherwise. * @hide */ public boolean addStackedLink(LinkProperties link) { if (link != null && link.getInterfaceName() != null) { mStackedLinks.put(link.getInterfaceName(), link); return true; } return false; } /** * Removes a stacked link. * * If there is a stacked link with the given interface name, it is * removed. Otherwise, nothing changes. * * @param iface The interface name of the link to remove. * @return true if the link was removed, false otherwise. * @hide */ public boolean removeStackedLink(String iface) { if (iface != null) { LinkProperties removed = mStackedLinks.remove(iface); return removed != null; } return false; } /** * Returns all the links stacked on top of this link. * @hide */ public @NonNull List getStackedLinks() { if (mStackedLinks.isEmpty()) { return Collections.EMPTY_LIST; } List stacked = new ArrayList(); for (LinkProperties link : mStackedLinks.values()) { stacked.add(new LinkProperties(link)); } return Collections.unmodifiableList(stacked); } /** * Clears this object to its initial state. * @hide */ public void clear() { mIfaceName = null; mLinkAddresses.clear(); mDnses.clear(); mDomains = null; mRoutes.clear(); mHttpProxy = null; mStackedLinks.clear(); mMtu = 0; mTcpBufferSizes = null; } /** * Implement the Parcelable interface */ public int describeContents() { return 0; } @Override public String toString() { String ifaceName = (mIfaceName == null ? "" : "InterfaceName: " + mIfaceName + " "); String linkAddresses = "LinkAddresses: ["; for (LinkAddress addr : mLinkAddresses) linkAddresses += addr.toString() + ","; linkAddresses += "] "; String dns = "DnsAddresses: ["; for (InetAddress addr : mDnses) dns += addr.getHostAddress() + ","; dns += "] "; String domainName = "Domains: " + mDomains; String mtu = " MTU: " + mMtu; String tcpBuffSizes = ""; if (mTcpBufferSizes != null) { tcpBuffSizes = " TcpBufferSizes: " + mTcpBufferSizes; } String routes = " Routes: ["; for (RouteInfo route : mRoutes) routes += route.toString() + ","; routes += "] "; String proxy = (mHttpProxy == null ? "" : " HttpProxy: " + mHttpProxy.toString() + " "); String stacked = ""; if (mStackedLinks.values().size() > 0) { stacked += " Stacked: ["; for (LinkProperties link: mStackedLinks.values()) { stacked += " [" + link.toString() + " ],"; } stacked += "] "; } return "{" + ifaceName + linkAddresses + routes + dns + domainName + mtu + tcpBuffSizes + proxy + stacked + "}"; } /** * Returns true if this link has an IPv4 address. * * @return {@code true} if there is an IPv4 address, {@code false} otherwise. * @hide */ public boolean hasIPv4Address() { for (LinkAddress address : mLinkAddresses) { if (address.getAddress() instanceof Inet4Address) { return true; } } return false; } /** * Returns true if this link or any of its stacked interfaces has an IPv4 address. * * @return {@code true} if there is an IPv4 address, {@code false} otherwise. */ private boolean hasIPv4AddressOnInterface(String iface) { // mIfaceName can be null. return (Objects.equals(iface, mIfaceName) && hasIPv4Address()) || (iface != null && mStackedLinks.containsKey(iface) && mStackedLinks.get(iface).hasIPv4Address()); } /** * Returns true if this link has a global preferred IPv6 address. * * @return {@code true} if there is a global preferred IPv6 address, {@code false} otherwise. * @hide */ public boolean hasGlobalIPv6Address() { for (LinkAddress address : mLinkAddresses) { if (address.getAddress() instanceof Inet6Address && address.isGlobalPreferred()) { return true; } } return false; } /** * Returns true if this link has an IPv4 default route. * * @return {@code true} if there is an IPv4 default route, {@code false} otherwise. * @hide */ public boolean hasIPv4DefaultRoute() { for (RouteInfo r : mRoutes) { if (r.isIPv4Default()) { return true; } } return false; } /** * Returns true if this link has an IPv6 default route. * * @return {@code true} if there is an IPv6 default route, {@code false} otherwise. * @hide */ public boolean hasIPv6DefaultRoute() { for (RouteInfo r : mRoutes) { if (r.isIPv6Default()) { return true; } } return false; } /** * Returns true if this link has an IPv4 DNS server. * * @return {@code true} if there is an IPv4 DNS server, {@code false} otherwise. * @hide */ public boolean hasIPv4DnsServer() { for (InetAddress ia : mDnses) { if (ia instanceof Inet4Address) { return true; } } return false; } /** * Returns true if this link has an IPv6 DNS server. * * @return {@code true} if there is an IPv6 DNS server, {@code false} otherwise. * @hide */ public boolean hasIPv6DnsServer() { for (InetAddress ia : mDnses) { if (ia instanceof Inet6Address) { return true; } } return false; } /** * Returns true if this link is provisioned for global IPv4 connectivity. * This requires an IP address, default route, and DNS server. * * @return {@code true} if the link is provisioned, {@code false} otherwise. * @hide */ public boolean isIPv4Provisioned() { return (hasIPv4Address() && hasIPv4DefaultRoute() && hasIPv4DnsServer()); } /** * Returns true if this link is provisioned for global IPv6 connectivity. * This requires an IP address, default route, and DNS server. * * @return {@code true} if the link is provisioned, {@code false} otherwise. * @hide */ public boolean isIPv6Provisioned() { return (hasGlobalIPv6Address() && hasIPv6DefaultRoute() && hasIPv6DnsServer()); } /** * Returns true if this link is provisioned for global connectivity, * for at least one Internet Protocol family. * * @return {@code true} if the link is provisioned, {@code false} otherwise. * @hide */ public boolean isProvisioned() { return (isIPv4Provisioned() || isIPv6Provisioned()); } /** * Evaluate whether the {@link InetAddress} is considered reachable. * * @return {@code true} if the given {@link InetAddress} is considered reachable, * {@code false} otherwise. * @hide */ public boolean isReachable(InetAddress ip) { final List allRoutes = getAllRoutes(); // If we don't have a route to this IP address, it's not reachable. final RouteInfo bestRoute = RouteInfo.selectBestRoute(allRoutes, ip); if (bestRoute == null) { return false; } // TODO: better source address evaluation for destination addresses. if (ip instanceof Inet4Address) { // For IPv4, it suffices for now to simply have any address. return hasIPv4AddressOnInterface(bestRoute.getInterface()); } else if (ip instanceof Inet6Address) { if (ip.isLinkLocalAddress()) { // For now, just make sure link-local destinations have // scopedIds set, since transmits will generally fail otherwise. // TODO: verify it matches the ifindex of one of the interfaces. return (((Inet6Address)ip).getScopeId() != 0); } else { // For non-link-local destinations check that either the best route // is directly connected or that some global preferred address exists. // TODO: reconsider all cases (disconnected ULA networks, ...). return (!bestRoute.hasGateway() || hasGlobalIPv6Address()); } } return false; } /** * Compares this {@code LinkProperties} interface name against the target * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalInterfaceName(LinkProperties target) { return TextUtils.equals(getInterfaceName(), target.getInterfaceName()); } /** * Compares this {@code LinkProperties} interface addresses against the target * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalAddresses(LinkProperties target) { Collection targetAddresses = target.getAddresses(); Collection sourceAddresses = getAddresses(); return (sourceAddresses.size() == targetAddresses.size()) ? sourceAddresses.containsAll(targetAddresses) : false; } /** * Compares this {@code LinkProperties} DNS addresses against the target * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalDnses(LinkProperties target) { Collection targetDnses = target.getDnsServers(); String targetDomains = target.getDomains(); if (mDomains == null) { if (targetDomains != null) return false; } else { if (mDomains.equals(targetDomains) == false) return false; } return (mDnses.size() == targetDnses.size()) ? mDnses.containsAll(targetDnses) : false; } /** * Compares this {@code LinkProperties} Routes against the target * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalRoutes(LinkProperties target) { Collection targetRoutes = target.getRoutes(); return (mRoutes.size() == targetRoutes.size()) ? mRoutes.containsAll(targetRoutes) : false; } /** * Compares this {@code LinkProperties} HttpProxy against the target * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalHttpProxy(LinkProperties target) { return getHttpProxy() == null ? target.getHttpProxy() == null : getHttpProxy().equals(target.getHttpProxy()); } /** * Compares this {@code LinkProperties} stacked links against the target * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalStackedLinks(LinkProperties target) { if (!mStackedLinks.keySet().equals(target.mStackedLinks.keySet())) { return false; } for (LinkProperties stacked : mStackedLinks.values()) { // Hashtable values can never be null. String iface = stacked.getInterfaceName(); if (!stacked.equals(target.mStackedLinks.get(iface))) { return false; } } return true; } /** * Compares this {@code LinkProperties} MTU against the target * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalMtu(LinkProperties target) { return getMtu() == target.getMtu(); } /** * Compares this {@code LinkProperties} Tcp buffer sizes against the target. * * @param target LinkProperties to compare. * @return {@code true} if both are identical, {@code false} otherwise. * @hide */ public boolean isIdenticalTcpBufferSizes(LinkProperties target) { return Objects.equals(mTcpBufferSizes, target.mTcpBufferSizes); } @Override /** * Compares this {@code LinkProperties} instance against the target * LinkProperties in {@code obj}. Two LinkPropertieses are equal if * all their fields are equal in values. * * For collection fields, such as mDnses, containsAll() is used to check * if two collections contains the same elements, independent of order. * There are two thoughts regarding containsAll() * 1. Duplicated elements. eg, (A, B, B) and (A, A, B) are equal. * 2. Worst case performance is O(n^2). * * @param obj the object to be tested for equality. * @return {@code true} if both objects are equal, {@code false} otherwise. */ public boolean equals(Object obj) { if (this == obj) return true; if (!(obj instanceof LinkProperties)) return false; LinkProperties target = (LinkProperties) obj; /** * This method does not check that stacked interfaces are equal, because * stacked interfaces are not so much a property of the link as a * description of connections between links. */ return isIdenticalInterfaceName(target) && isIdenticalAddresses(target) && isIdenticalDnses(target) && isIdenticalRoutes(target) && isIdenticalHttpProxy(target) && isIdenticalStackedLinks(target) && isIdenticalMtu(target) && isIdenticalTcpBufferSizes(target); } /** * Compares the addresses in this LinkProperties with another * LinkProperties, examining only addresses on the base link. * * @param target a LinkProperties with the new list of addresses * @return the differences between the addresses. * @hide */ public CompareResult compareAddresses(LinkProperties target) { /* * Duplicate the LinkAddresses into removed, we will be removing * address which are common between mLinkAddresses and target * leaving the addresses that are different. And address which * are in target but not in mLinkAddresses are placed in the * addedAddresses. */ CompareResult result = new CompareResult(); result.removed = new ArrayList(mLinkAddresses); result.added.clear(); if (target != null) { for (LinkAddress newAddress : target.getLinkAddresses()) { if (! result.removed.remove(newAddress)) { result.added.add(newAddress); } } } return result; } /** * Compares the DNS addresses in this LinkProperties with another * LinkProperties, examining only DNS addresses on the base link. * * @param target a LinkProperties with the new list of dns addresses * @return the differences between the DNS addresses. * @hide */ public CompareResult compareDnses(LinkProperties target) { /* * Duplicate the InetAddresses into removed, we will be removing * dns address which are common between mDnses and target * leaving the addresses that are different. And dns address which * are in target but not in mDnses are placed in the * addedAddresses. */ CompareResult result = new CompareResult(); result.removed = new ArrayList(mDnses); result.added.clear(); if (target != null) { for (InetAddress newAddress : target.getDnsServers()) { if (! result.removed.remove(newAddress)) { result.added.add(newAddress); } } } return result; } /** * Compares all routes in this LinkProperties with another LinkProperties, * examining both the the base link and all stacked links. * * @param target a LinkProperties with the new list of routes * @return the differences between the routes. * @hide */ public CompareResult compareAllRoutes(LinkProperties target) { /* * Duplicate the RouteInfos into removed, we will be removing * routes which are common between mRoutes and target * leaving the routes that are different. And route address which * are in target but not in mRoutes are placed in added. */ CompareResult result = new CompareResult(); result.removed = getAllRoutes(); result.added.clear(); if (target != null) { for (RouteInfo r : target.getAllRoutes()) { if (! result.removed.remove(r)) { result.added.add(r); } } } return result; } /** * Compares all interface names in this LinkProperties with another * LinkProperties, examining both the the base link and all stacked links. * * @param target a LinkProperties with the new list of interface names * @return the differences between the interface names. * @hide */ public CompareResult compareAllInterfaceNames(LinkProperties target) { /* * Duplicate the interface names into removed, we will be removing * interface names which are common between this and target * leaving the interface names that are different. And interface names which * are in target but not in this are placed in added. */ CompareResult result = new CompareResult(); result.removed = getAllInterfaceNames(); result.added.clear(); if (target != null) { for (String r : target.getAllInterfaceNames()) { if (! result.removed.remove(r)) { result.added.add(r); } } } return result; } @Override /** * generate hashcode based on significant fields * Equal objects must produce the same hash code, while unequal objects * may have the same hash codes. */ public int hashCode() { return ((null == mIfaceName) ? 0 : mIfaceName.hashCode() + mLinkAddresses.size() * 31 + mDnses.size() * 37 + ((null == mDomains) ? 0 : mDomains.hashCode()) + mRoutes.size() * 41 + ((null == mHttpProxy) ? 0 : mHttpProxy.hashCode()) + mStackedLinks.hashCode() * 47) + mMtu * 51 + ((null == mTcpBufferSizes) ? 0 : mTcpBufferSizes.hashCode()); } /** * Implement the Parcelable interface. */ public void writeToParcel(Parcel dest, int flags) { dest.writeString(getInterfaceName()); dest.writeInt(mLinkAddresses.size()); for(LinkAddress linkAddress : mLinkAddresses) { dest.writeParcelable(linkAddress, flags); } dest.writeInt(mDnses.size()); for(InetAddress d : mDnses) { dest.writeByteArray(d.getAddress()); } dest.writeString(mDomains); dest.writeInt(mMtu); dest.writeString(mTcpBufferSizes); dest.writeInt(mRoutes.size()); for(RouteInfo route : mRoutes) { dest.writeParcelable(route, flags); } if (mHttpProxy != null) { dest.writeByte((byte)1); dest.writeParcelable(mHttpProxy, flags); } else { dest.writeByte((byte)0); } ArrayList stackedLinks = new ArrayList(mStackedLinks.values()); dest.writeList(stackedLinks); } /** * Implement the Parcelable interface. */ public static final Creator CREATOR = new Creator() { public LinkProperties createFromParcel(Parcel in) { LinkProperties netProp = new LinkProperties(); String iface = in.readString(); if (iface != null) { netProp.setInterfaceName(iface); } int addressCount = in.readInt(); for (int i=0; i stackedLinks = new ArrayList(); in.readList(stackedLinks, LinkProperties.class.getClassLoader()); for (LinkProperties stackedLink: stackedLinks) { netProp.addStackedLink(stackedLink); } return netProp; } public LinkProperties[] newArray(int size) { return new LinkProperties[size]; } }; /** * Check the valid MTU range based on IPv4 or IPv6. * @hide */ public static boolean isValidMtu(int mtu, boolean ipv6) { if (ipv6) { if ((mtu >= MIN_MTU_V6 && mtu <= MAX_MTU)) return true; } else { if ((mtu >= MIN_MTU && mtu <= MAX_MTU)) return true; } return false; } }