public PeerStatistic(PeerAddress peerAddress)
{
if (peerAddress == null)
{
throw new ArgumentException("PeerAddress cannot be null.");
}
Created = Convenient.CurrentTimeMillis();
_peerId = peerAddress.PeerId;
PeerAddress = peerAddress;
}
/// <summary>
/// Creates a peer address from a continuous byte array. This is useful if you don't know the size beforehand.
/// The new offset can be accessed through the Offset property.
/// </summary>
/// <param name="me">The serialized array.</param>
/// <param name="initialOffset">The offset where to start.</param>
public PeerAddress(sbyte[] me, int initialOffset)
{
// get the peer ID, this is independent of the type
long offset = initialOffset;
// get the options
int options = me[offset++] & Utils.Utils.MaskFf;
IsIPv6 = (options & Net6) > 0; // TODO static methods could be used instead
IsFirewalledUdp = (options & FirewallUdp) > 0;
IsFirewalledTcp = (options & FirewallTcp) > 0;
IsRelayed = (options & Relayed) > 0;
// get the relays
int relays = me[offset++] & Utils.Utils.MaskFf;
// first 3 bits are the size
RelaySize = (relays >> TypeBitSize) & Mask07;
// last 5 bits indicate if IPv6 or IPv4
var b = (byte)(relays & Mask1F); // TODO check if works (2x)
_relayType = new BitArray(b);
// get the ID
var tmp = new sbyte[Number160.ByteArraySize];
Array.Copy(me, offset, tmp, 0, Number160.ByteArraySize);
PeerId = new Number160(tmp);
offset += Number160.ByteArraySize;
PeerSocketAddress = PeerSocketAddress.Create(me, IsIPv4, offset);
offset = PeerSocketAddress.Offset;
if (RelaySize > 0)
{
PeerSocketAddresses = new List <PeerSocketAddress>(RelaySize);
for (int i = 0; i < RelaySize; i++)
{
var psa = PeerSocketAddress.Create(me, !_relayType.Get(i), offset);
PeerSocketAddresses.Add(psa);
offset = psa.Offset;
}
}
else
{
PeerSocketAddresses = EmptyPeerSocketAddresses;
}
Size = offset - initialOffset;
Offset = offset;
_hashCode = PeerId.GetHashCode();
}
/// <summary>
/// Creates a new Number320 key from given location and domain keys.
/// </summary>
/// <param name="locationKey">The location key.</param>
/// <param name="domainKey">The domain key.</param>
public Number320(Number160 locationKey, Number160 domainKey)
{
if (locationKey == null)
{
throw new SystemException("LocationKey cannot be null.");
}
LocationKey = locationKey;
if (domainKey == null)
{
throw new SystemException("DomainKey cannot be null.");
}
DomainKey = domainKey;
}
/// <summary>
/// Constructor with reasonable defaults.
/// </summary>
/// <param name="self">The peer ID of this peer.</param>
public PeerMapConfiguration(Number160 self)
{
Self = self;
BagSizeVerified = 10;
BagSizeOverflow = 10;
OfflineTimeout = 60;
ShutdownTimeout = 20;
ExceptionTimeout = 120;
OfflineCount = 3;
Maintenance = new DefaultMaintenance(4, new[] { 2, 4, 8, 16, 32, 64 });
IsPeerVerification = true;
PeerFilters = new List <IPeerFilter>(2);
}
public static SortedSet <PeerAddress> ClosePeers(Number160 self, Number160 other, int atLeast,
IList <IDictionary <Number160, PeerStatistic> > peerMap)
{
var set = new SortedSet <PeerAddress>(CreateComparer(other));
int classMember = ClassMember(self, other);
// special treatment, as we can start iterating from 0
if (classMember == -1)
{
for (int j = 0; j < Number160.Bits; j++)
{
var tmp = peerMap[j];
if (FillSet(atLeast, set, tmp))
{
return(set);
}
}
return(set);
}
var tmp2 = peerMap[classMember];
if (FillSet(atLeast, set, tmp2))
{
return(set);
}
// in this case we have to go over all the bags that are smaller
bool last = false;
for (int i = 0; i < classMember; i++)
{
tmp2 = peerMap[i];
last = FillSet(atLeast, set, tmp2);
}
if (last)
{
return(set);
}
// in this case we have to go over all the bags that are larger
for (int i = 0; i < Number160.Bits; i++)
{
tmp2 = peerMap[i];
FillSet(atLeast, set, tmp2);
}
return(set);
}
/// <summary>
/// Creates a peer address from a byte buffer.
/// </summary>
/// <param name="buffer">The channel buffer to read from.</param>
public PeerAddress(AlternativeCompositeByteBuf buffer)
{
long readerIndex = buffer.ReaderIndex;
// get the type
int options = buffer.ReadByte();
IsIPv6 = (options & Net6) > 0;
IsFirewalledUdp = (options & FirewallUdp) > 0;
IsFirewalledTcp = (options & FirewallTcp) > 0;
IsRelayed = (options & Relayed) > 0;
// get the relays
int relays = buffer.ReadByte();
RelaySize = (relays >> TypeBitSize) & Mask07;
var b = (byte)(relays & Mask1F); // TODO check if works (2x)
_relayType = new BitArray(b);
// get the ID
var me = new sbyte[Number160.ByteArraySize];
buffer.ReadBytes(me);
PeerId = new Number160(me);
PeerSocketAddress = PeerSocketAddress.Create(buffer, IsIPv4);
if (RelaySize > 0)
{
PeerSocketAddresses = new List <PeerSocketAddress>(RelaySize);
for (int i = 0; i < RelaySize; i++)
{
PeerSocketAddresses.Add(PeerSocketAddress.Create(buffer, !_relayType.Get(i)));
}
}
else
{
PeerSocketAddresses = EmptyPeerSocketAddresses;
}
Size = buffer.ReaderIndex - readerIndex;
Offset = -1; // not used here
_hashCode = PeerId.GetHashCode();
}
/// <summary>
/// Creates a peer address if all the values are known.
/// </summary>
/// <param name="id">The ID of the peer.</param>
/// <param name="peerSocketAddress">The peer socket address including both ports UDP and TCP.</param>
/// <param name="isFirewalledTcp">Indicates if the peer is not reachable via UDP.</param>
/// <param name="isFirewalledUdp">Indicates if the peer is not reachable via TCP.</param>
/// <param name="isRelayed">Indicates if the peer is used as a relay.</param>
/// <param name="peerSocketAddresses">The relay peers.</param>
public PeerAddress(Number160 id, PeerSocketAddress peerSocketAddress, bool isFirewalledTcp, bool isFirewalledUdp,
bool isRelayed, ICollection <PeerSocketAddress> peerSocketAddresses)
{
PeerId = id;
int size = Number160.ByteArraySize;
PeerSocketAddress = peerSocketAddress;
_hashCode = id.GetHashCode();
IsIPv6 = peerSocketAddress.InetAddress.IsIPv6();
IsFirewalledUdp = isFirewalledUdp;
IsFirewalledTcp = isFirewalledTcp;
IsRelayed = isRelayed;
// header + TCP port + UDP port
size += HeaderSize + PortsSize + (IsIPv6 ? Utils.Utils.IPv6Bytes : Utils.Utils.IPv4Bytes);
if (PeerSocketAddresses == null)
{
PeerSocketAddresses = EmptyPeerSocketAddresses;
_relayType = EmptyRelayType;
RelaySize = 0;
}
else
{
RelaySize = PeerSocketAddresses.Count;
if (RelaySize > TypeBitSize)
{
throw new ArgumentException(String.Format("Can only store up to {0} relay peers. Tried to store {1} relay peers.", TypeBitSize, RelaySize));
}
PeerSocketAddresses = peerSocketAddresses;
_relayType = new BitArray(RelaySize);
}
int index = 0;
foreach (var psa in peerSocketAddresses)
{
bool isIPv6 = psa.InetAddress.IsIPv6();
_relayType.Set(index, isIPv6);
size += psa.Size();
index++;
}
Size = size;
Offset = -1; // not used here
}
/// <summary>
/// Creates a new Number640 key from given location, domain, content and version keys.
/// </summary>
/// <param name="locationKey">The location key.</param>
/// <param name="domainKey">The domain key.</param>
/// <param name="contentKey">The content key.</param>
/// <param name="versionKey">The version key.</param>
public Number640(Number160 locationKey, Number160 domainKey, Number160 contentKey, Number160 versionKey)
{
if (locationKey == null)
{
throw new SystemException("LocationKey cannot be null.");
}
LocationKey = locationKey;
if (domainKey == null)
{
throw new SystemException("DomainKey cannot be null.");
}
DomainKey = domainKey;
if (contentKey == null)
{
throw new SystemException("ContentKey cannot be null.");
}
ContentKey = contentKey;
if (versionKey == null) // TODO check if necessary
{
throw new SystemException("VersionKey cannot be null.");
}
VersionKey = versionKey;
}
public bool Reject(PeerAddress peerAddress, ICollection <PeerAddress> all, Number160 target)
{
if (peerAddress.InetAddress.IsIPv4())
{
var ipv4 = IPv4.FromInetAddress(peerAddress.InetAddress);
// ReSharper disable once LoopCanBeConvertedToQuery
foreach (var paddr in all)
{
if (paddr.InetAddress.IsIPv4())
{
var ipv4Test = IPv4.FromInetAddress(paddr.InetAddress);
if (ipv4.MaskWithNetworkMask(_mask4).Equals(ipv4Test.MaskWithNetworkMask(_mask4)))
{
return(true);
}
}
}
}
else
{
var ipv6 = IPv6.FromInetAddress(peerAddress.InetAddress);
// ReSharper disable once LoopCanBeConvertedToQuery
foreach (var paddr in all)
{
if (paddr.InetAddress.IsIPv6())
{
var ipv6Test = IPv6.FromInetAddress(paddr.InetAddress);
if (ipv6.MaskWithNetworkMask(_mask6).Equals(ipv6Test.MaskWithNetworkMask(_mask6)))
{
return(true);
}
}
}
}
return(false);
}
/// <summary>
/// If you only need to know the ID.
/// </summary>
/// <param name="id">The ID of the peer.</param>
public PeerAddress(Number160 id)
: this(id, (IPAddress)null, -1, -1)
{
}
public bool Reject(PeerAddress peerAddress, ICollection <PeerAddress> all, Number160 target)
{
// TODO in Java: to be implemented
return(false);
}
/// <summary>
/// Returns -1 if the first remote node is closer to the key.
/// If the second node is closer, then 1 is returned.
/// If both are equal, 0 is returned.
/// </summary>
/// <param name="id">The ID as a distance reference.</param>
/// <param name="rn">The peer to test if closer to the ID.</param>
/// <param name="rn2">The other peer to test if closer to the ID.</param>
/// <returns>-1 if the first peer is closer, 1 otherwise. 0 if both are equal.</returns>
public static int IsKadCloser(Number160 id, PeerAddress rn, PeerAddress rn2)
{
return(Distance(id, rn.PeerId).CompareTo(Distance(id, rn2.PeerId)));
}
/// <summary>
/// Creates a Kademlia distance comparer.
/// </summary>
/// <param name="id">The ID of this peer.</param>
public KademliaComparer(Number160 id)
{
_id = id;
}
/// <summary>
/// Returns the difference in terms of bit counts of two IDs, minus 1.
/// So two IDs with one bit difference are in the class 0.
/// </summary>
/// <param name="id1">The first ID.</param>
/// <param name="id2">The second ID.</param>
/// <returns>The bit difference and -1 if they are equal.</returns>
internal static int ClassMember(Number160 id1, Number160 id2)
{
return(Distance(id1, id2).BitLength - 1);
}
/// <summary>
/// The distance metric is the XOR metric.
/// </summary>
/// <param name="id1">The first ID.</param>
/// <param name="id2">The second ID.</param>
/// <returns>The XOR distance.</returns>
internal static Number160 Distance(Number160 id1, Number160 id2)
{
return(id1.Xor(id2));
}
/// <summary>
/// Creates the Kademlia distance comparer.
/// </summary>
/// <param name="id">The ID of this peer.</param>
/// <returns>The XOR comparer.</returns>
public static IComparer <PeerAddress> CreateComparer(Number160 id)
{
return(new KademliaComparer(id));
}
/// <summary>
/// Returns the number of the class that this ID belongs to.
/// </summary>
/// <param name="remoteId">The ID to test.</param>
/// <returns>The number of bits used in the difference.</returns>
private int ClassMember(Number160 remoteId)
{
return(ClassMember(Self, remoteId));
}
/// <summary>
/// Creates a new Number640 key from given location, domain, content and version keys.
/// </summary>
/// <param name="key"></param>
/// <param name="contentKey"></param>
/// <param name="versionKey"></param>
public Number640(Number320 key, Number160 contentKey, Number160 versionKey)
: this(key.LocationKey, key.DomainKey, contentKey, versionKey)
{
}
/// <summary>
/// If you only need to know the ID and the internet address.
/// </summary>
/// <param name="id">The ID of the peer.</param>
/// <param name="inetAddress">The internet address of the peer.</param>
public PeerAddress(Number160 id, IPAddress inetAddress)
: this(id, inetAddress, -1, -1)
{
}
/// <summary>
/// Create a new peer address and change the peer ID.
/// </summary>
/// <param name="peerId">The new peer ID.</param>
/// <returns>The newly created peer address.</returns>
public PeerAddress ChangePeerId(Number160 peerId)
{
return(new PeerAddress(peerId, PeerSocketAddress, IsFirewalledTcp, IsFirewalledUdp, IsRelayed, PeerSocketAddresses));
}
/// <summary>
/// Facade for PeerAddress(Number160, IPAddress, int, int).
/// </summary>
/// <param name="peerId">The ID of the peer.</param>
/// <param name="inetSocketAddress">The socket address of the peer. Both TCP and UDP will be set to the same port.</param>
public PeerAddress(Number160 peerId, IPEndPoint inetSocketAddress)
: this(peerId, inetSocketAddress.Address, inetSocketAddress.Port, inetSocketAddress.Port)
{
}
/// <summary>
/// Facade for PeerAddress(Number160, IPAddress, int, int).
/// </summary>
/// <param name="peerId">The ID of the peer.</param>
/// <param name="inetAddress">The internet address of the peer.</param>
/// <param name="tcpPort">The TCP port of the peer.</param>
/// <param name="udpPort">The UDP port of the peer.</param>
public PeerAddress(Number160 peerId, string inetAddress, int tcpPort, int udpPort)
: this(peerId, IPAddress.Parse(inetAddress), tcpPort, udpPort)
{
}
/// <summary>
/// Facade for PeerAddress(Number160, PeerSocketAddress, bool, bool, bool, Collection-PeerSocketAddress>.
/// </summary>
/// <param name="peerId">The ID of the peer.</param>
/// <param name="inetAddress">The internet address of the peer.</param>
/// <param name="tcpPort">The TCP port of the peer.</param>
/// <param name="udpPort">The UDP port of the peer.</param>
/// <param name="options">The options for the created <see cref="PeerAddress"/>.</param>
public PeerAddress(Number160 peerId, IPAddress inetAddress, int tcpPort, int udpPort, int options)
: this(peerId, new PeerSocketAddress(inetAddress, tcpPort, udpPort), ReadIsFirewalledTcp(options), ReadIsFirewalledUdp(options), ReadIsRelay(options), EmptyPeerSocketAddresses)
{
}
// Facade Constructors:
/// <summary>
/// Facade for PeerAddress(Number160, PeerSocketAddress, bool, bool, bool, Collection-PeerSocketAddress>)}.
/// </summary>
/// <param name="peerId">The ID of the peer.</param>
/// <param name="inetAddress">The internet address of the peer.</param>
/// <param name="tcpPort">The TCP port of the peer.</param>
/// <param name="udpPort">The UDP port of the peer.</param>
public PeerAddress(Number160 peerId, IPAddress inetAddress, int tcpPort, int udpPort) // TODO both IPv4 and IPv6 can be passed here -> fix flags
: this(peerId, new PeerSocketAddress(inetAddress, tcpPort, udpPort), false, false, false, EmptyPeerSocketAddresses)
{
}
/// <summary>
/// Returns close peers from the set to a given key. This method is thread-safe.
/// You can use the returned set as it is a copy of the actual peer map and changes
/// in the return set do not affect the peer map.
/// </summary>
/// <param name="id">The key that should be close to the keys in the map.</param>
/// <param name="atLeast">The number we want to find at least.</param>
/// <returns>A sorted set with close peers first in this set.</returns>
public SortedSet <PeerAddress> ClosePeers(Number160 id, int atLeast)
{
return(ClosePeers(Self, id, atLeast, PeerMapVerified));
}
public bool Reject(PeerAddress peerAddress, ICollection <PeerAddress> all, Number160 target)
{
// by default, don't reject anything
return(false);
}
