package com.planet_ink.coffee_mud.WebMacros; import com.planet_ink.coffee_web.http.HTTPException; import com.planet_ink.coffee_web.http.HTTPHeader; import com.planet_ink.coffee_web.http.HTTPStatus; import com.planet_ink.coffee_web.interfaces.*; import com.planet_ink.coffee_web.util.CWDataBuffers; import com.planet_ink.coffee_mud.core.interfaces.*; import com.planet_ink.coffee_mud.core.*; import com.planet_ink.coffee_mud.core.collections.*; import com.planet_ink.coffee_mud.Abilities.interfaces.*; import com.planet_ink.coffee_mud.Areas.interfaces.*; import com.planet_ink.coffee_mud.Behaviors.interfaces.*; import com.planet_ink.coffee_mud.CharClasses.interfaces.*; import com.planet_ink.coffee_mud.Libraries.interfaces.*; import com.planet_ink.coffee_mud.Libraries.interfaces.DatabaseEngine.PlayerData; import com.planet_ink.coffee_mud.Common.interfaces.*; import com.planet_ink.coffee_mud.Exits.interfaces.*; import com.planet_ink.coffee_mud.Items.interfaces.*; import com.planet_ink.coffee_mud.Locales.interfaces.*; import com.planet_ink.coffee_mud.MOBS.interfaces.*; import com.planet_ink.coffee_mud.Races.interfaces.*; import java.io.ByteArrayOutputStream; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.io.PipedInputStream; import java.io.PipedOutputStream; import java.io.UnsupportedEncodingException; import java.net.InetAddress; import java.net.Socket; import java.net.URLDecoder; import java.nio.ByteBuffer; import java.nio.channels.Pipe; import java.nio.charset.Charset; import java.security.MessageDigest; import java.util.*; import com.planet_ink.coffee_mud.core.exceptions.HTTPServerException; import com.planet_ink.siplet.applet.*; /* Copyright 2011-2016 Bo Zimmerman Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ public class SipletInterface extends StdWebMacro { @Override public String name() { return "SipletInterface"; } @Override public boolean isAWebPath() { return true; } public static final LinkedList<String> removables = new LinkedList<String>(); public static final Object sipletConnectSync = new Object(); public static volatile boolean initialized = false; public static final SHashtable<String,SipletSession> siplets = new SHashtable<String,SipletSession>(); protected class SipletSession { public long lastTouched = System.currentTimeMillis(); public Siplet siplet = null; public String response = ""; public SipletSession(Siplet sip) { siplet=sip;} } protected class PipeSocket extends Socket { private boolean isClosed = false; private final PipedInputStream inStream = new PipedInputStream(); private final PipedOutputStream outStream = new PipedOutputStream(); private InetAddress addr = null; private PipeSocket friendPipe = null; public PipeSocket(InetAddress addr, PipeSocket pipeLocal) throws IOException { this.addr=addr; if(pipeLocal!=null) { pipeLocal.inStream.connect(outStream); pipeLocal.outStream.connect(inStream); friendPipe=pipeLocal; pipeLocal=friendPipe; } } @Override public void shutdownInput() throws IOException { inStream.close(); isClosed = true; } @Override public void shutdownOutput() throws IOException { outStream.close(); isClosed = true; } @Override public boolean isConnected() { return !isClosed; } @Override public boolean isClosed() { return isClosed; } @Override public synchronized void close() throws IOException { inStream.close(); outStream.close(); if (friendPipe != null) { friendPipe.shutdownInput(); friendPipe.shutdownOutput(); } isClosed = true; } @Override public InputStream getInputStream() throws IOException { return inStream; } @Override public OutputStream getOutputStream() throws IOException { return outStream; } @Override public InetAddress getInetAddress() { return addr; } } protected void initialize() { initialized = true; CMLib.threads().startTickDown(new Tickable() { private int tickStatus = Tickable.STATUS_NOT; @Override public int getTickStatus() { return tickStatus; } @Override public String name() { return "SipletInterface"; } @Override public boolean tick(Tickable ticking, int tickID) { tickStatus = Tickable.STATUS_ALIVE; synchronized (siplets) { for (final String key : siplets.keySet()) { final SipletSession p = siplets.get(key); if ((p != null) && ((System.currentTimeMillis() - p.lastTouched) > (2 * 60 * 1000))) { p.siplet.disconnectFromURL(); removables.addLast(key); } } if (removables.size() > 0) { for (final String remme : removables) siplets.remove(remme); removables.clear(); } } tickStatus = Tickable.STATUS_NOT; return true; } @Override public String ID() { return "SipletInterface"; } @Override public CMObject copyOf() { return this; } @Override public void initializeClass() { } @Override public CMObject newInstance() { return this; } @Override public int compareTo(CMObject o) { return o == this ? 0 : 1; } }, Tickable.TICKID_MISCELLANEOUS, 10); } public String processRequest(final HTTPRequest httpReq) { if(httpReq.isUrlParameter("CONNECT")) { final String url=httpReq.getUrlParameter("URL"); final int port=CMath.s_int(httpReq.getUrlParameter("PORT")); String hex=""; final Siplet sip = new Siplet(); boolean success=false; if(url!=null) { sip.init(); synchronized(sipletConnectSync) { for(final MudHost h : CMLib.hosts()) { if(h.getPort()==port) { try { final PipeSocket lsock=new PipeSocket(httpReq.getClientAddress(),null); final PipeSocket rsock=new PipeSocket(httpReq.getClientAddress(),lsock); success=sip.connectToURL(url, port,lsock); sip.setFeatures(true, Siplet.MSPStatus.External, false); h.acceptConnection(rsock); } catch(final IOException e) { success=false; } } } } if(success) { synchronized(siplets) { int tokenNum=0; int tries=1000; while((tokenNum==0)&&((--tries)>0)) { tokenNum = new Random().nextInt(); if(tokenNum<0) tokenNum = tokenNum * -1; hex=Integer.toHexString(tokenNum); if(httpReq.isUrlParameter(hex)) tokenNum=0; } siplets.put(hex, new SipletSession(sip)); } } } return Boolean.toString(success)+';'+hex+';'+sip.info()+hex+';'; } else if(httpReq.isUrlParameter("DISCONNECT")) { final String token=httpReq.getUrlParameter("TOKEN"); boolean success = false; if(token != null) { final SipletSession p = siplets.get(token); if(p!=null) { siplets.remove(token); p.siplet.disconnectFromURL(); success=true; } } return Boolean.toString(success)+';'; } else if(httpReq.isUrlParameter("SENDDATA")) { final String token=httpReq.getUrlParameter("TOKEN"); boolean success = false; if(token != null) { final SipletSession p = siplets.get(token); if(p!=null) { String data=httpReq.getUrlParameter("DATA"); if(data!=null) { p.lastTouched=System.currentTimeMillis(); p.siplet.sendData(data); if(p.siplet.isConnectedToURL()) { CMLib.s_sleep(10); if(p.siplet.isConnectedToURL()) { p.lastTouched=System.currentTimeMillis(); p.siplet.readURLData(); data = p.siplet.getURLData(); final String jscript = p.siplet.getJScriptCommands(); success=p.siplet.isConnectedToURL(); p.response=Boolean.toString(success)+';'+data+token+';'+jscript+token+';'; return p.response; } } } } } return Boolean.toString(success)+';'; } else if(httpReq.isUrlParameter("POLL")) { final String token=httpReq.getUrlParameter("TOKEN"); if(token != null) { final SipletSession p = siplets.get(token); if(p!=null) { if(p.siplet.isConnectedToURL()) { if(httpReq.isUrlParameter("LAST")) return p.response; else { p.lastTouched=System.currentTimeMillis(); p.siplet.readURLData(); final String data = p.siplet.getURLData(); final String jscript = p.siplet.getJScriptCommands(); final boolean success=p.siplet.isConnectedToURL(); p.response=Boolean.toString(success)+';'+data+token+';'+jscript+token+';'; return p.response; } } } } return "false;"+token+";"+token+";"; } return "false;"; } @Override public String runMacro(HTTPRequest httpReq, String parm, HTTPResponse httpResp) throws HTTPServerException { if(!CMProps.getBoolVar(CMProps.Bool.MUDSTARTED)) return "false;"; if(!initialized) { initialize(); } if((httpReq.getHeader("upgrade")!=null) &&("websocket".equalsIgnoreCase(httpReq.getHeader("upgrade"))) &&(httpReq.getHeader("connection")!=null) &&(httpReq.getHeader("connection").toLowerCase().indexOf("upgrade")>=0)) { final HTTPException exception = new HTTPException(HTTPStatus.S101_SWITCHING_PROTOCOLS); try { final String key = httpReq.getHeader("sec-websocket-key"); final String tokenStr = key + "258EAFA5-E914-47DA-95CA-C5AB0DC85B11"; final MessageDigest cript = MessageDigest.getInstance("SHA-1"); cript.reset(); cript.update(tokenStr.getBytes("utf8")); final String token = B64Encoder.B64encodeBytes(cript.digest()); httpResp.setStatusCode(101); exception.getErrorHeaders().put(HTTPHeader.Common.CONNECTION, HTTPHeader.Common.UPGRADE.toString()); exception.getErrorHeaders().put(HTTPHeader.Common.UPGRADE, httpReq.getHeader("upgrade")); exception.getErrorHeaders().put(HTTPHeader.Common.SEC_WEBSOCKET_ACCEPT, token); if(httpReq.getHeader("origin")!=null) exception.getErrorHeaders().put(HTTPHeader.Common.ORIGIN, httpReq.getHeader("origin")); final StringBuilder locationStr = new StringBuilder("ws://"+httpReq.getHost()); if(httpReq.getClientPort() != 80) locationStr.append(":").append(httpReq.getClientPort()); locationStr.append(httpReq.getUrlPath()); exception.getErrorHeaders().put(HTTPHeader.Common.SEC_WEBSOCKET_LOCATION, locationStr.toString()); final SipletProtocolHander newHandler = new SipletProtocolHander(); exception.setNewProtocolHandler(newHandler); } catch (Exception e) { Log.errOut(e); throw new HTTPServerException(e.getMessage()); } throw new HTTPServerException(exception); } return processRequest(httpReq); } private enum WSState { S0,P1,PX,M1,M2,M3,M4,PAYLOAD } private class SipletProtocolHander implements ProtocolHandler { private volatile WSState state = WSState.S0; private volatile int subState = 0; private volatile long dataLen = 0; private volatile byte opCode = 0; private final byte[] mask = new byte[4]; private volatile boolean finished = false; private volatile int maskPos = 0; private final ByteArrayOutputStream payload = new ByteArrayOutputStream(); private final ByteArrayOutputStream msg = new ByteArrayOutputStream(); public SipletProtocolHander() { } private byte[] encodeTextResponse(String resp) { return encodeResponse(resp.getBytes(Charset.forName("UTF8")),1); } private byte[] encodeResponse(byte[] resp, int type) { ByteArrayOutputStream bout=new ByteArrayOutputStream(); bout.write(0x80 + (byte)type); // output if(resp.length < 126) { bout.write(resp.length & 0x7f); } else if(resp.length < 65535) { bout.write(126 & 0x7f); int byte1=resp.length / 256; int byte2 = resp.length - (byte1 * 256); bout.write(byte1); bout.write(byte2); } else { bout.write(127 & 0x7f); long len = resp.length; int byte1=(int)(len / 16777216); len = len - (byte1 * 16777216); int byte2=(int)(len / 65536); len = len - (byte2 * 65536); int byte3=(int)(len / 256); len = len - (byte3 * 256); bout.write(byte1 & 0xff); bout.write(byte2 & 0xff); bout.write(byte3 & 0xff); bout.write((byte)(len & 0xff)); } try { bout.write(resp); } catch (IOException e) { e.printStackTrace(); } return bout.toByteArray(); } /** * When url-encoded data is received, this method is called to parse out * the key-pairs and put their decoded keys and values into the urlParameters * list. * @param httpReq the request to populate with stuff * @param parts the raw undecoded urlencoded line of data * @throws HTTPException */ private void parseUrlEncodedKeypairs(HTTPRequest httpReq, String parts) throws HTTPException { try { httpReq.getUrlParameters().clear(); final String[] urlParmArray = parts.split("&"); final Map<String,String> urlParmsFound=new HashMap<String,String>(); for(final String urlParm : urlParmArray) { final int equalDex = urlParm.indexOf('='); final String key; final String value; if(equalDex < 0) { key=URLDecoder.decode(urlParm,"UTF-8"); value=""; } else { key=URLDecoder.decode(urlParm.substring(0,equalDex),"UTF-8"); value=URLDecoder.decode(urlParm.substring(equalDex+1),"UTF-8"); } urlParmsFound.put(key, value); } for(final String key : urlParmsFound.keySet()) httpReq.addFakeUrlParameter(key,urlParmsFound.get(key)); } catch(final UnsupportedEncodingException ex) { throw HTTPException.standardException(HTTPStatus.S400_BAD_REQUEST); } } private void reset(ByteBuffer buffer) { msg.reset(); payload.reset(); state = WSState.S0; subState = 0; dataLen = 0; opCode = 0; finished = false; maskPos = 0; } private DataBuffers getOutput(DataBuffers outBuffer) { if(outBuffer == null) return new CWDataBuffers(); return outBuffer; } private DataBuffers done(HTTPRequest request, ByteBuffer buffer, DataBuffers outBuffer) throws HTTPException { switch(opCode) { case 1: // text data { final String cmd = new String(payload.toByteArray()); parseUrlEncodedKeypairs(request,cmd); final String resp = processRequest(request); final byte[] encodedResp = this.encodeTextResponse(resp); reset(buffer); outBuffer = getOutput(outBuffer); outBuffer.add(encodedResp,System.currentTimeMillis(),true); break; } case 9: // ping { final byte[] newPayload = msg.toByteArray(); newPayload[0] = (byte)((newPayload[0] & 0xf0) + 10); // 10=pong reset(buffer); outBuffer = getOutput(outBuffer); outBuffer.add(newPayload,System.currentTimeMillis(),true); break; } case 10: // pong -- ignore break; case 11: // close break; default: break; } return outBuffer; } @Override public DataBuffers processBuffer(HTTPRequest request, ByteBuffer buffer) throws HTTPException { DataBuffers outBuffers = null; buffer.flip(); // turn the writeable buffer into a "readable" one while(buffer.position() < buffer.limit()) { byte b=buffer.get(); // keep this here .. it ensures the while loop ends msg.write(b); switch(state) { case M1: mask[0]=b; state=WSState.M2; break; case M2: mask[1]=b; state=WSState.M3; break; case M3: mask[2]=b; state=WSState.M4; break; case M4: maskPos=0; mask[3]=b; if(dataLen > 0) state=WSState.PAYLOAD; else { if(finished) outBuffers = done(request,buffer,outBuffers); state=WSState.S0; } break; case P1: { if((b & 0x80) == 0) { throw HTTPException.standardException(HTTPStatus.S403_FORBIDDEN); } this.dataLen = (b & 0x7F); if(this.dataLen < 126 ) state = WSState.M1; else if(this.dataLen == 126) { this.dataLen = 0; this.subState = 2; state = WSState.PX; } else { this.dataLen = 0; this.subState = 4; state = WSState.PX; } break; } case PAYLOAD: b = (byte)((b & 0xff) ^ mask[maskPos]); maskPos = (maskPos+1) % 4; payload.write(b); if(--dataLen <= 0) { if(finished) outBuffers = done(request,buffer,outBuffers); state=WSState.S0; } break; case PX: if(subState > 0) { subState--; dataLen = (dataLen << 8) + (b & 0xff); if(subState == 0) state = WSState.M1; } else state = WSState.M1; break; case S0: { opCode = (byte)(b & 0x0f); finished = (b & 0x80) == 0x80; state = WSState.P1; break; } } //System.out.print(Integer.toHexString(buffer.get() & 0xff)+" "); } buffer.clear(); return outBuffers; } } }