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/*
* Copyright © 2017-2019 WireGuard LLC. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0
*/
package com.wireguard.android.viewmodel;
import androidx.databinding.BaseObservable;
import androidx.databinding.Bindable;
import androidx.databinding.Observable;
import androidx.databinding.ObservableList;
import android.os.Parcel;
import android.os.Parcelable;
import androidx.annotation.Nullable;
import com.wireguard.android.BR;
import com.wireguard.config.Attribute;
import com.wireguard.config.BadConfigException;
import com.wireguard.config.InetEndpoint;
import com.wireguard.config.Peer;
import com.wireguard.crypto.Key;
import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.Collection;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Set;
import java9.util.Lists;
import java9.util.Sets;
import java9.util.stream.Collectors;
import java9.util.stream.Stream;
public class PeerProxy extends BaseObservable implements Parcelable {
public static final Parcelable.Creator<PeerProxy> CREATOR = new PeerProxyCreator();
private static final Set<String> IPV4_PUBLIC_NETWORKS = new LinkedHashSet<>(Lists.of(
"0.0.0.0/5", "8.0.0.0/7", "11.0.0.0/8", "12.0.0.0/6", "16.0.0.0/4", "32.0.0.0/3",
"64.0.0.0/2", "128.0.0.0/3", "160.0.0.0/5", "168.0.0.0/6", "172.0.0.0/12",
"172.32.0.0/11", "172.64.0.0/10", "172.128.0.0/9", "173.0.0.0/8", "174.0.0.0/7",
"176.0.0.0/4", "192.0.0.0/9", "192.128.0.0/11", "192.160.0.0/13", "192.169.0.0/16",
"192.170.0.0/15", "192.172.0.0/14", "192.176.0.0/12", "192.192.0.0/10",
"193.0.0.0/8", "194.0.0.0/7", "196.0.0.0/6", "200.0.0.0/5", "208.0.0.0/4"
));
private static final Set<String> IPV4_WILDCARD = Sets.of("0.0.0.0/0");
private final List<String> dnsRoutes = new ArrayList<>();
private String allowedIps;
private AllowedIpsState allowedIpsState = AllowedIpsState.INVALID;
private String endpoint;
@Nullable private InterfaceDnsListener interfaceDnsListener;
@Nullable private ConfigProxy owner;
@Nullable private PeerListListener peerListListener;
private String persistentKeepalive;
private String preSharedKey;
private String publicKey;
private int totalPeers;
private PeerProxy(final Parcel in) {
allowedIps = in.readString();
endpoint = in.readString();
persistentKeepalive = in.readString();
preSharedKey = in.readString();
publicKey = in.readString();
}
public PeerProxy(final Peer other) {
allowedIps = Attribute.join(other.getAllowedIps());
endpoint = other.getEndpoint().map(InetEndpoint::toString).orElse("");
persistentKeepalive = other.getPersistentKeepalive().map(String::valueOf).orElse("");
preSharedKey = other.getPreSharedKey().map(Key::toBase64).orElse("");
publicKey = other.getPublicKey().toBase64();
}
public PeerProxy() {
allowedIps = "";
endpoint = "";
persistentKeepalive = "";
preSharedKey = "";
publicKey = "";
}
public void bind(final ConfigProxy owner) {
final InterfaceProxy interfaze = owner.getInterface();
final ObservableList<PeerProxy> peers = owner.getPeers();
if (interfaceDnsListener == null)
interfaceDnsListener = new InterfaceDnsListener(this);
interfaze.addOnPropertyChangedCallback(interfaceDnsListener);
setInterfaceDns(interfaze.getDnsServers());
if (peerListListener == null)
peerListListener = new PeerListListener(this);
peers.addOnListChangedCallback(peerListListener);
setTotalPeers(peers.size());
this.owner = owner;
}
private void calculateAllowedIpsState() {
final AllowedIpsState newState;
if (totalPeers == 1) {
// String comparison works because we only care if allowedIps is a superset of one of
// the above sets of (valid) *networks*. We are not checking for a superset based on
// the individual addresses in each set.
final Collection<String> networkStrings = getAllowedIpsSet();
// If allowedIps contains both the wildcard and the public networks, then private
// networks aren't excluded!
if (networkStrings.containsAll(IPV4_WILDCARD))
newState = AllowedIpsState.CONTAINS_IPV4_WILDCARD;
else if (networkStrings.containsAll(IPV4_PUBLIC_NETWORKS))
newState = AllowedIpsState.CONTAINS_IPV4_PUBLIC_NETWORKS;
else
newState = AllowedIpsState.OTHER;
} else {
newState = AllowedIpsState.INVALID;
}
if (newState != allowedIpsState) {
allowedIpsState = newState;
notifyPropertyChanged(BR.ableToExcludePrivateIps);
notifyPropertyChanged(BR.excludingPrivateIps);
}
}
@Override
public int describeContents() {
return 0;
}
@Bindable
public String getAllowedIps() {
return allowedIps;
}
private Set<String> getAllowedIpsSet() {
return new LinkedHashSet<>(Lists.of(Attribute.split(allowedIps)));
}
@Bindable
public String getEndpoint() {
return endpoint;
}
@Bindable
public String getPersistentKeepalive() {
return persistentKeepalive;
}
@Bindable
public String getPreSharedKey() {
return preSharedKey;
}
@Bindable
public String getPublicKey() {
return publicKey;
}
@Bindable
public boolean isAbleToExcludePrivateIps() {
return allowedIpsState == AllowedIpsState.CONTAINS_IPV4_PUBLIC_NETWORKS
|| allowedIpsState == AllowedIpsState.CONTAINS_IPV4_WILDCARD;
}
@Bindable
public boolean isExcludingPrivateIps() {
return allowedIpsState == AllowedIpsState.CONTAINS_IPV4_PUBLIC_NETWORKS;
}
public Peer resolve() throws BadConfigException {
final Peer.Builder builder = new Peer.Builder();
if (!allowedIps.isEmpty())
builder.parseAllowedIPs(allowedIps);
if (!endpoint.isEmpty())
builder.parseEndpoint(endpoint);
if (!persistentKeepalive.isEmpty())
builder.parsePersistentKeepalive(persistentKeepalive);
if (!preSharedKey.isEmpty())
builder.parsePreSharedKey(preSharedKey);
if (!publicKey.isEmpty())
builder.parsePublicKey(publicKey);
return builder.build();
}
public void setAllowedIps(final String allowedIps) {
this.allowedIps = allowedIps;
notifyPropertyChanged(BR.allowedIps);
calculateAllowedIpsState();
}
public void setEndpoint(final String endpoint) {
this.endpoint = endpoint;
notifyPropertyChanged(BR.endpoint);
}
public void setExcludingPrivateIps(final boolean excludingPrivateIps) {
if (!isAbleToExcludePrivateIps() || isExcludingPrivateIps() == excludingPrivateIps)
return;
final Set<String> oldNetworks = excludingPrivateIps ? IPV4_WILDCARD : IPV4_PUBLIC_NETWORKS;
final Set<String> newNetworks = excludingPrivateIps ? IPV4_PUBLIC_NETWORKS : IPV4_WILDCARD;
final Collection<String> input = getAllowedIpsSet();
final int outputSize = input.size() - oldNetworks.size() + newNetworks.size();
final Collection<String> output = new LinkedHashSet<>(outputSize);
boolean replaced = false;
// Replace the first instance of the wildcard with the public network list, or vice versa.
for (final String network : input) {
if (oldNetworks.contains(network)) {
if (!replaced) {
for (final String replacement : newNetworks)
if (!output.contains(replacement))
output.add(replacement);
replaced = true;
}
} else if (!output.contains(network)) {
output.add(network);
}
}
// DNS servers only need to handled specially when we're excluding private IPs.
if (excludingPrivateIps)
output.addAll(dnsRoutes);
else
output.removeAll(dnsRoutes);
allowedIps = Attribute.join(output);
allowedIpsState = excludingPrivateIps ?
AllowedIpsState.CONTAINS_IPV4_PUBLIC_NETWORKS : AllowedIpsState.CONTAINS_IPV4_WILDCARD;
notifyPropertyChanged(BR.allowedIps);
notifyPropertyChanged(BR.excludingPrivateIps);
}
private void setInterfaceDns(final CharSequence dnsServers) {
final List<String> newDnsRoutes = Stream.of(Attribute.split(dnsServers))
.filter(server -> !server.contains(":"))
.map(server -> server + "/32")
.collect(Collectors.toUnmodifiableList());
if (allowedIpsState == AllowedIpsState.CONTAINS_IPV4_PUBLIC_NETWORKS) {
final Collection<String> input = getAllowedIpsSet();
final Collection<String> output = new LinkedHashSet<>(input.size() + 1);
// Yes, this is quadratic in the number of DNS servers, but most users have 1 or 2.
for (final String network : input)
if (!dnsRoutes.contains(network) || newDnsRoutes.contains(network))
output.add(network);
// Since output is a Set, this does the Right Thing™ (it does not duplicate networks).
output.addAll(newDnsRoutes);
// None of the public networks are /32s, so this cannot change the AllowedIPs state.
allowedIps = Attribute.join(output);
notifyPropertyChanged(BR.allowedIps);
}
dnsRoutes.clear();
dnsRoutes.addAll(newDnsRoutes);
}
public void setPersistentKeepalive(final String persistentKeepalive) {
this.persistentKeepalive = persistentKeepalive;
notifyPropertyChanged(BR.persistentKeepalive);
}
public void setPreSharedKey(final String preSharedKey) {
this.preSharedKey = preSharedKey;
notifyPropertyChanged(BR.preSharedKey);
}
public void setPublicKey(final String publicKey) {
this.publicKey = publicKey;
notifyPropertyChanged(BR.publicKey);
}
private void setTotalPeers(final int totalPeers) {
if (this.totalPeers == totalPeers)
return;
this.totalPeers = totalPeers;
calculateAllowedIpsState();
}
public void unbind() {
if (owner == null)
return;
final InterfaceProxy interfaze = owner.getInterface();
final ObservableList<PeerProxy> peers = owner.getPeers();
if (interfaceDnsListener != null)
interfaze.removeOnPropertyChangedCallback(interfaceDnsListener);
if (peerListListener != null)
peers.removeOnListChangedCallback(peerListListener);
peers.remove(this);
setInterfaceDns("");
setTotalPeers(0);
owner = null;
}
@Override
public void writeToParcel(final Parcel dest, final int flags) {
dest.writeString(allowedIps);
dest.writeString(endpoint);
dest.writeString(persistentKeepalive);
dest.writeString(preSharedKey);
dest.writeString(publicKey);
}
private enum AllowedIpsState {
CONTAINS_IPV4_PUBLIC_NETWORKS,
CONTAINS_IPV4_WILDCARD,
INVALID,
OTHER
}
private static final class InterfaceDnsListener extends Observable.OnPropertyChangedCallback {
private final WeakReference<PeerProxy> weakPeerProxy;
private InterfaceDnsListener(final PeerProxy peerProxy) {
weakPeerProxy = new WeakReference<>(peerProxy);
}
@Override
public void onPropertyChanged(final Observable sender, final int propertyId) {
@Nullable final PeerProxy peerProxy = weakPeerProxy.get();
if (peerProxy == null) {
sender.removeOnPropertyChangedCallback(this);
return;
}
// This shouldn't be possible, but try to avoid a ClassCastException anyway.
if (!(sender instanceof InterfaceProxy))
return;
if (!(propertyId == BR._all || propertyId == BR.dnsServers))
return;
peerProxy.setInterfaceDns(((InterfaceProxy) sender).getDnsServers());
}
}
private static final class PeerListListener
extends ObservableList.OnListChangedCallback<ObservableList<PeerProxy>> {
private final WeakReference<PeerProxy> weakPeerProxy;
private PeerListListener(final PeerProxy peerProxy) {
weakPeerProxy = new WeakReference<>(peerProxy);
}
@Override
public void onChanged(final ObservableList<PeerProxy> sender) {
@Nullable final PeerProxy peerProxy = weakPeerProxy.get();
if (peerProxy == null) {
sender.removeOnListChangedCallback(this);
return;
}
peerProxy.setTotalPeers(sender.size());
}
@Override
public void onItemRangeChanged(final ObservableList<PeerProxy> sender,
final int positionStart, final int itemCount) {
// Do nothing.
}
@Override
public void onItemRangeInserted(final ObservableList<PeerProxy> sender,
final int positionStart, final int itemCount) {
onChanged(sender);
}
@Override
public void onItemRangeMoved(final ObservableList<PeerProxy> sender,
final int fromPosition, final int toPosition,
final int itemCount) {
// Do nothing.
}
@Override
public void onItemRangeRemoved(final ObservableList<PeerProxy> sender,
final int positionStart, final int itemCount) {
onChanged(sender);
}
}
private static class PeerProxyCreator implements Parcelable.Creator<PeerProxy> {
@Override
public PeerProxy createFromParcel(final Parcel in) {
return new PeerProxy(in);
}
@Override
public PeerProxy[] newArray(final int size) {
return new PeerProxy[size];
}
}
}
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