package net.minecraft.server; import java.io.BufferedOutputStream; import java.io.DataInputStream; import java.io.DataOutputStream; import java.net.Socket; import java.net.SocketAddress; import java.net.SocketException; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.io.IOException; // CraftBukkit public class NetworkManager { public static final Object a = new Object(); public static int b; public static int c; private Object g = new Object(); public Socket socket; // CraftBukkit - private -> public private final SocketAddress i; private DataInputStream input; private DataOutputStream output; private boolean l = true; private List m = Collections.synchronizedList(new ArrayList()); private List n = Collections.synchronizedList(new ArrayList()); private List o = Collections.synchronizedList(new ArrayList()); private NetHandler p; private boolean q = false; private Thread r; private Thread s; private boolean t = false; private String u = ""; private Object[] v; private int w = 0; private int x = 0; public static int[] d = new int[256]; public static int[] e = new int[256]; public int f = 0; private int y = 50; public NetworkManager(Socket socket, String s, NetHandler nethandler) { this.socket = socket; this.i = socket.getRemoteSocketAddress(); this.p = nethandler; // CraftBukkit start - IPv6 stack in Java on BSD/OSX doesn't support setTrafficClass try { socket.setTrafficClass(24); } catch (SocketException e) {} // CraftBukkit end try { // CraftBukkit start - cant compile these outside the try socket.setSoTimeout(30000); this.input = new DataInputStream(socket.getInputStream()); this.output = new DataOutputStream(new BufferedOutputStream(socket.getOutputStream(), 5120)); // CraftBukkit end } catch (IOException socketexception) { System.err.println(socketexception.getMessage()); } this.s = new NetworkReaderThread(this, s + " read thread"); this.r = new NetworkWriterThread(this, s + " write thread"); this.s.start(); this.r.start(); } public void a(NetHandler nethandler) { this.p = nethandler; } public void a(Packet packet) { if (!this.q) { Object object = this.g; synchronized (this.g) { this.x += packet.a() + 1; if (packet.k) { this.o.add(packet); } else { this.n.add(packet); } } } } private boolean f() { boolean flag = false; try { Object object; Packet packet; int i; int[] aint; if (!this.n.isEmpty() && (this.f == 0 || System.currentTimeMillis() - ((Packet) this.n.get(0)).timestamp >= (long) this.f)) { object = this.g; synchronized (this.g) { packet = (Packet) this.n.remove(0); this.x -= packet.a() + 1; } Packet.a(packet, this.output); aint = e; i = packet.b(); aint[i] += packet.a() + 1; flag = true; } // CraftBukkit - don't allow low priority packet to be sent unless it was placed in the queue before the first packet on the high priority queue if ((flag || this.y-- <= 0) && !this.o.isEmpty() && (this.n.isEmpty() || ((Packet) this.n.get(0)).timestamp > ((Packet) this.o.get(0)).timestamp)) { object = this.g; synchronized (this.g) { packet = (Packet) this.o.remove(0); this.x -= packet.a() + 1; } Packet.a(packet, this.output); aint = e; i = packet.b(); aint[i] += packet.a() + 1; this.y = 0; flag = true; } return flag; } catch (Exception exception) { if (!this.t) { this.a(exception); } return false; } } public void a() { this.s.interrupt(); this.r.interrupt(); } private boolean g() { boolean flag = false; try { Packet packet = Packet.a(this.input, this.p.c()); if (packet != null) { int[] aint = d; int i = packet.b(); aint[i] += packet.a() + 1; this.m.add(packet); flag = true; } else { this.a("disconnect.endOfStream", new Object[0]); } return flag; } catch (Exception exception) { if (!this.t) { this.a(exception); } return false; } } private void a(Exception exception) { exception.printStackTrace(); this.a("disconnect.genericReason", new Object[] { "Internal exception: " + exception.toString()}); } public void a(String s, Object... aobject) { if (this.l) { this.t = true; this.u = s; this.v = aobject; (new NetworkMasterThread(this)).start(); this.l = false; try { this.input.close(); this.input = null; } catch (Throwable throwable) { ; } try { this.output.close(); this.output = null; } catch (Throwable throwable1) { ; } try { this.socket.close(); this.socket = null; } catch (Throwable throwable2) { ; } } } public void b() { if (this.x > 1048576) { this.a("disconnect.overflow", new Object[0]); } if (this.m.isEmpty()) { if (this.w++ == 1200) { this.a("disconnect.timeout", new Object[0]); } } else { this.w = 0; } int i = 100; while (!this.m.isEmpty() && i-- >= 0) { Packet packet = (Packet) this.m.remove(0); packet.a(this.p); } this.a(); if (this.t && this.m.isEmpty()) { this.p.a(this.u, this.v); } } public SocketAddress getSocketAddress() { return this.i; } public void d() { this.a(); this.q = true; this.s.interrupt(); (new ThreadMonitorConnection(this)).start(); } public int e() { return this.o.size(); } static boolean a(NetworkManager networkmanager) { return networkmanager.l; } static boolean b(NetworkManager networkmanager) { return networkmanager.q; } static boolean c(NetworkManager networkmanager) { return networkmanager.g(); } static boolean d(NetworkManager networkmanager) { return networkmanager.f(); } static DataOutputStream e(NetworkManager networkmanager) { return networkmanager.output; } static boolean f(NetworkManager networkmanager) { return networkmanager.t; } static void a(NetworkManager networkmanager, Exception exception) { networkmanager.a(exception); } static Thread g(NetworkManager networkmanager) { return networkmanager.s; } static Thread h(NetworkManager networkmanager) { return networkmanager.r; } }