package ru.gravit.launchserver.socket; import java.io.IOException; import java.math.BigInteger; import java.net.Socket; import java.net.SocketException; import ru.gravit.launcher.Launcher; import ru.gravit.launcher.request.RequestException; import ru.gravit.launcher.serialize.HInput; import ru.gravit.launcher.serialize.HOutput; import ru.gravit.launchserver.LaunchServer; import ru.gravit.launchserver.manangers.SessionManager; import ru.gravit.launchserver.response.Response; import ru.gravit.utils.helper.IOHelper; import ru.gravit.utils.helper.LogHelper; import ru.gravit.utils.helper.SecurityHelper; public final class ResponseThread implements Runnable { class Handshake { int type; long session; public Handshake(int type, long session) { this.type = type; this.session = session; } } private final LaunchServer server; private final Socket socket; private final SessionManager sessions; public ResponseThread(LaunchServer server, long id, Socket socket, SessionManager sessionManager) throws SocketException { this.server = server; this.socket = socket; sessions = sessionManager; // Fix socket flags IOHelper.setSocketFlags(socket); } private Handshake readHandshake(HInput input, HOutput output) throws IOException { boolean legacy = false; long session = 0; // Verify magic number int magicNumber = input.readInt(); if (magicNumber != Launcher.PROTOCOL_MAGIC) if (magicNumber == Launcher.PROTOCOL_MAGIC_LEGACY - 1) { // Previous launcher protocol session = 0; legacy = true; } else if (magicNumber == Launcher.PROTOCOL_MAGIC_LEGACY - 2) { // Previous launcher protocol session = 0; legacy = true; } else if (magicNumber == Launcher.PROTOCOL_MAGIC_LEGACY) { } else throw new IOException("Invalid Handshake"); // Verify key modulus BigInteger keyModulus = input.readBigInteger(SecurityHelper.RSA_KEY_LENGTH + 1); if (!legacy) { session = input.readLong(); sessions.updateClient(session); } if (!keyModulus.equals(server.privateKey.getModulus())) { output.writeBoolean(false); throw new IOException(String.format("#%d Key modulus mismatch", session)); } // Read request type int type = input.readVarInt(); if (!server.serverSocketHandler.onHandshake(session, type)) { output.writeBoolean(false); return null; } // Protocol successfully verified output.writeBoolean(true); output.flush(); return new Handshake(type, session); } private void respond(Integer type, HInput input, HOutput output, long session, String ip) throws Exception { if (server.serverSocketHandler.logConnections) LogHelper.info("Connection #%d from %s", session, ip); // Choose response based on type Response response = Response.getResponse(type, server, session, input, output, ip); // Reply response.reply(); LogHelper.subDebug("#%d Replied", session); } @Override public void run() { if (!server.serverSocketHandler.logConnections) LogHelper.debug("Connection from %s", IOHelper.getIP(socket.getRemoteSocketAddress())); // Process connection boolean cancelled = false; Exception savedError = null; try (HInput input = new HInput(socket.getInputStream()); HOutput output = new HOutput(socket.getOutputStream())) { Handshake handshake = readHandshake(input, output); if (handshake == null) { // Not accepted cancelled = true; return; } // Start response try { respond(handshake.type, input, output, handshake.session, IOHelper.getIP(socket.getRemoteSocketAddress())); } catch (RequestException e) { LogHelper.subDebug(String.format("#%d Request error: %s", handshake.session, e.getMessage())); if(e.getMessage() == null) LogHelper.error(e); output.writeString(e.getMessage(), 0); } } catch (Exception e) { savedError = e; LogHelper.error(e); } finally { IOHelper.close(socket); if (!cancelled) server.serverSocketHandler.onDisconnect(savedError); } } }