resent-1.8/Resent-main/sp-server/src_aux/TcpConnection.java

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2022-12-27 12:54:38 -08:00
package net.minecraft.src;
import java.io.BufferedOutputStream;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.net.Socket;
import java.net.SocketAddress;
import java.net.SocketException;
import java.security.PrivateKey;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.atomic.AtomicInteger;
import javax.crypto.SecretKey;
public class TcpConnection implements INetworkManager {
public static AtomicInteger field_74471_a = new AtomicInteger();
public static AtomicInteger field_74469_b = new AtomicInteger();
/** The object used for synchronization on the send queue. */
private final Object sendQueueLock = new Object();
private final ILogAgent field_98215_i;
/** The socket used by this network manager. */
private Socket networkSocket;
/** The InetSocketAddress of the remote endpoint */
private final SocketAddress remoteSocketAddress;
/** The input stream connected to the socket. */
private volatile DataInputStream socketInputStream;
/** The output stream connected to the socket. */
private volatile DataOutputStream socketOutputStream;
/** Whether the network is currently operational. */
private volatile boolean isRunning = true;
/**
* Whether this network manager is currently terminating (and should ignore
* further errors).
*/
private volatile boolean isTerminating = false;
/**
* Linked list of packets that have been read and are awaiting processing.
*/
private List readPackets = Collections.synchronizedList(new ArrayList<>());
/** Linked list of packets awaiting sending. */
private List dataPackets = Collections.synchronizedList(new ArrayList<>());
/** Linked list of packets with chunk data that are awaiting sending. */
private List chunkDataPackets = Collections.synchronizedList(new ArrayList<>());
/** A reference to the NetHandler object. */
private NetHandler theNetHandler;
/**
* Whether this server is currently terminating. If this is a client, this is
* always false.
*/
private boolean isServerTerminating = false;
/** The thread used for writing. */
private Thread writeThread;
/** The thread used for reading. */
private Thread readThread;
/** A String indicating why the network has shutdown. */
private String terminationReason = "";
private Object[] field_74480_w;
private int field_74490_x = 0;
/**
* The length in bytes of the packets in both send queues (data and chunkData).
*/
private int sendQueueByteLength = 0;
public static int[] field_74470_c = new int[256];
public static int[] field_74467_d = new int[256];
public int field_74468_e = 0;
boolean isInputBeingDecrypted = false;
boolean isOutputEncrypted = false;
private SecretKey sharedKeyForEncryption = null;
private PrivateKey field_74463_A = null;
/**
* Delay for sending pending chunk data packets (as opposed to pending non-chunk
* data packets)
*/
private int chunkDataPacketsDelay = 50;
public TcpConnection(ILogAgent par1ILogAgent, Socket par2Socket, String par3Str, NetHandler par4NetHandler,
PrivateKey par5PrivateKey) throws IOException {
this.field_74463_A = par5PrivateKey;
this.networkSocket = par2Socket;
this.field_98215_i = par1ILogAgent;
this.remoteSocketAddress = par2Socket.getRemoteSocketAddress();
this.theNetHandler = par4NetHandler;
try {
par2Socket.setSoTimeout(30000);
par2Socket.setTrafficClass(24);
} catch (SocketException var7) {
System.err.println(var7.getMessage());
}
this.socketInputStream = new DataInputStream(par2Socket.getInputStream());
this.socketOutputStream = new DataOutputStream(new BufferedOutputStream(par2Socket.getOutputStream(), 5120));
this.readThread = new TcpReaderThread(this, par3Str + " read thread");
this.writeThread = new TcpWriterThread(this, par3Str + " write thread");
this.readThread.start();
this.writeThread.start();
}
/**
* Sets the NetHandler for this NetworkManager. Server-only.
*/
public void setNetHandler(NetHandler par1NetHandler) {
this.theNetHandler = par1NetHandler;
}
/**
* Adds the packet to the correct send queue (chunk data packets go to a
* separate queue).
*/
public void addToSendQueue(Packet par1Packet) {
if (!this.isServerTerminating) {
Object var2 = this.sendQueueLock;
synchronized (this.sendQueueLock) {
this.sendQueueByteLength += par1Packet.getPacketSize() + 1;
this.dataPackets.add(par1Packet);
}
}
}
/**
* Sends a data packet if there is one to send, or sends a chunk data packet if
* there is one and the counter is up, or does nothing.
*/
private boolean sendPacket() {
boolean var1 = false;
try {
int[] var10000;
int var10001;
Packet var2;
if (this.field_74468_e == 0 || !this.dataPackets.isEmpty() && System.currentTimeMillis()
- ((Packet) this.dataPackets.get(0)).creationTimeMillis >= (long) this.field_74468_e) {
var2 = this.func_74460_a(false);
if (var2 != null) {
Packet.writePacket(var2, this.socketOutputStream);
if (var2 instanceof Packet252SharedKey && !this.isOutputEncrypted) {
if (!this.theNetHandler.isServerHandler()) {
this.sharedKeyForEncryption = ((Packet252SharedKey) var2).getSharedKey();
}
this.encryptOuputStream();
}
var10000 = field_74467_d;
var10001 = var2.getPacketId();
var10000[var10001] += var2.getPacketSize() + 1;
var1 = true;
}
}
if (this.chunkDataPacketsDelay-- <= 0 && (this.field_74468_e == 0
|| !this.chunkDataPackets.isEmpty() && System.currentTimeMillis() - ((Packet) this.chunkDataPackets
.get(0)).creationTimeMillis >= (long) this.field_74468_e)) {
var2 = this.func_74460_a(true);
if (var2 != null) {
Packet.writePacket(var2, this.socketOutputStream);
var10000 = field_74467_d;
var10001 = var2.getPacketId();
var10000[var10001] += var2.getPacketSize() + 1;
this.chunkDataPacketsDelay = 0;
var1 = true;
}
}
return var1;
} catch (Exception var3) {
if (!this.isTerminating) {
this.onNetworkError(var3);
}
return false;
}
}
private Packet func_74460_a(boolean par1) {
Packet var2 = null;
List var3 = par1 ? this.chunkDataPackets : this.dataPackets;
Object var4 = this.sendQueueLock;
synchronized (this.sendQueueLock) {
while (!var3.isEmpty() && var2 == null) {
var2 = (Packet) var3.remove(0);
this.sendQueueByteLength -= var2.getPacketSize() + 1;
if (this.func_74454_a(var2, par1)) {
var2 = null;
}
}
return var2;
}
}
private boolean func_74454_a(Packet par1Packet, boolean par2) {
if (!par1Packet.isRealPacket()) {
return false;
} else {
List var3 = par2 ? this.chunkDataPackets : this.dataPackets;
Iterator var4 = var3.iterator();
Packet var5;
do {
if (!var4.hasNext()) {
return false;
}
var5 = (Packet) var4.next();
} while (var5.getPacketId() != par1Packet.getPacketId());
return par1Packet.containsSameEntityIDAs(var5);
}
}
/**
* Wakes reader and writer threads
*/
public void wakeThreads() {
if (this.readThread != null) {
this.readThread.interrupt();
}
if (this.writeThread != null) {
this.writeThread.interrupt();
}
}
/**
* Reads a single packet from the input stream and adds it to the read queue. If
* no packet is read, it shuts down the network.
*/
private boolean readPacket() {
boolean var1 = false;
try {
Packet var2 = Packet.readPacket(this.field_98215_i, this.socketInputStream,
this.theNetHandler.isServerHandler(), this.networkSocket);
if (var2 != null) {
if (var2 instanceof Packet252SharedKey && !this.isInputBeingDecrypted) {
if (this.theNetHandler.isServerHandler()) {
this.sharedKeyForEncryption = ((Packet252SharedKey) var2).getSharedKey(this.field_74463_A);
}
this.decryptInputStream();
}
int[] var10000 = field_74470_c;
int var10001 = var2.getPacketId();
var10000[var10001] += var2.getPacketSize() + 1;
if (!this.isServerTerminating) {
if (var2.canProcessAsync() && this.theNetHandler.canProcessPacketsAsync()) {
this.field_74490_x = 0;
var2.processPacket(this.theNetHandler);
} else {
this.readPackets.add(var2);
}
}
var1 = true;
} else {
this.networkShutdown("disconnect.endOfStream", new Object[0]);
}
return var1;
} catch (Exception var3) {
if (!this.isTerminating) {
this.onNetworkError(var3);
}
return false;
}
}
/**
* Used to report network errors and causes a network shutdown.
*/
private void onNetworkError(Exception par1Exception) {
par1Exception.printStackTrace();
this.networkShutdown("disconnect.genericReason",
new Object[] { "Internal exception: " + par1Exception.toString() });
}
/**
* Shuts down the network with the specified reason. Closes all streams and
* sockets, spawns NetworkMasterThread to stop reading and writing threads.
*/
public void networkShutdown(String par1Str, Object... par2ArrayOfObj) {
if (this.isRunning) {
this.isTerminating = true;
this.terminationReason = par1Str;
this.field_74480_w = par2ArrayOfObj;
this.isRunning = false;
(new TcpMasterThread(this)).start();
try {
this.socketInputStream.close();
} catch (Throwable var6) {
;
}
try {
this.socketOutputStream.close();
} catch (Throwable var5) {
;
}
try {
this.networkSocket.close();
} catch (Throwable var4) {
;
}
this.socketInputStream = null;
this.socketOutputStream = null;
this.networkSocket = null;
}
}
/**
* Checks timeouts and processes all pending read packets.
*/
public void processReadPackets() {
if (this.sendQueueByteLength > 2097152) {
this.networkShutdown("disconnect.overflow", new Object[0]);
}
if (this.readPackets.isEmpty()) {
if (this.field_74490_x++ == 1200) {
this.networkShutdown("disconnect.timeout", new Object[0]);
}
} else {
this.field_74490_x = 0;
}
int var1 = 1000;
while (!this.readPackets.isEmpty() && var1-- >= 0) {
Packet var2 = (Packet) this.readPackets.remove(0);
var2.processPacket(this.theNetHandler);
}
this.wakeThreads();
if (this.isTerminating && this.readPackets.isEmpty()) {
this.theNetHandler.handleErrorMessage(this.terminationReason, this.field_74480_w);
}
}
/**
* Returns the socket address of the remote side. Server-only.
*/
public SocketAddress getRemoteAddress() {
return this.remoteSocketAddress;
}
/**
* Shuts down the server. (Only actually used on the server)
*/
public void serverShutdown() {
if (!this.isServerTerminating) {
this.wakeThreads();
this.isServerTerminating = true;
this.readThread.interrupt();
(new TcpMonitorThread(this)).start();
}
}
private void decryptInputStream() throws IOException {
this.isInputBeingDecrypted = true;
InputStream var1 = this.networkSocket.getInputStream();
this.socketInputStream = new DataInputStream(
CryptManager.decryptInputStream(this.sharedKeyForEncryption, var1));
}
/**
* flushes the stream and replaces it with an encryptedOutputStream
*/
private void encryptOuputStream() throws IOException {
this.socketOutputStream.flush();
this.isOutputEncrypted = true;
BufferedOutputStream var1 = new BufferedOutputStream(
CryptManager.encryptOuputStream(this.sharedKeyForEncryption, this.networkSocket.getOutputStream()),
5120);
this.socketOutputStream = new DataOutputStream(var1);
}
/**
* Returns the number of chunk data packets waiting to be sent.
*/
public int getNumChunkDataPackets() {
return this.chunkDataPackets.size();
}
public Socket getSocket() {
return this.networkSocket;
}
/**
* Whether the network is operational.
*/
static boolean isRunning(TcpConnection par0TcpConnection) {
return par0TcpConnection.isRunning;
}
/**
* Is the server terminating? Client side aways returns false.
*/
static boolean isServerTerminating(TcpConnection par0TcpConnection) {
return par0TcpConnection.isServerTerminating;
}
/**
* Static accessor to readPacket.
*/
static boolean readNetworkPacket(TcpConnection par0TcpConnection) {
return par0TcpConnection.readPacket();
}
/**
* Static accessor to sendPacket.
*/
static boolean sendNetworkPacket(TcpConnection par0TcpConnection) {
return par0TcpConnection.sendPacket();
}
static DataOutputStream getOutputStream(TcpConnection par0TcpConnection) {
return par0TcpConnection.socketOutputStream;
}
/**
* Gets whether the Network manager is terminating.
*/
static boolean isTerminating(TcpConnection par0TcpConnection) {
return par0TcpConnection.isTerminating;
}
/**
* Sends the network manager an error
*/
static void sendError(TcpConnection par0TcpConnection, Exception par1Exception) {
par0TcpConnection.onNetworkError(par1Exception);
}
/**
* Returns the read thread.
*/
static Thread getReadThread(TcpConnection par0TcpConnection) {
return par0TcpConnection.readThread;
}
/**
* Returns the write thread.
*/
static Thread getWriteThread(TcpConnection par0TcpConnection) {
return par0TcpConnection.writeThread;
}
}