@ChannelPipelineCoverage("one") private static class NioSslHandler extends SslHandler { private final AtomicBoolean first = new AtomicBoolean(true); NioSslHandler() { super(SslSetup.getServerEngine()); } private static List<String> httpVerbPrefix = Lists.newArrayList( HttpMethod.CONNECT.getName().substring(0, 3), HttpMethod.GET.getName().substring(0, 3), HttpMethod.PUT.getName().substring(0, 3), HttpMethod.POST.getName().substring(0, 3), HttpMethod.HEAD.getName().substring(0, 3), HttpMethod.OPTIONS.getName().substring(0, 3), HttpMethod.DELETE.getName().substring(0, 3), HttpMethod.TRACE.getName().substring(0, 3)); private static boolean maybeSsl(final ChannelBuffer buffer) { buffer.markReaderIndex(); final StringBuffer sb = new StringBuffer(); for (int lineLength = 0; lineLength++ < 3; sb.append((char) buffer.readByte())) ; buffer.resetReaderIndex(); return !httpVerbPrefix.contains(sb.toString()); } @Override public void handleUpstream(final ChannelHandlerContext ctx, final ChannelEvent e) throws Exception { Object o = null; if ((e instanceof MessageEvent) && this.first.compareAndSet(true, false) && ((o = ((MessageEvent) e).getMessage()) instanceof ChannelBuffer) && !maybeSsl((ChannelBuffer) o)) { ctx.getPipeline().removeFirst(); ctx.sendUpstream(e); } else { super.handleUpstream(ctx, e); } } }
@Override public void messageReceived(ChannelHandlerContext ctx, MessageEvent e) throws Exception { Object message = ((MessageEvent) e).getMessage(); if (message instanceof MappingHttpRequest) { MappingHttpRequest request = ((MappingHttpRequest) message); if (HttpMethod.GET.equals(request.getMethod())) { handleGet(ctx, request); } else if (!initialized) { handleInitialize(ctx, request); } else if (request.getMessage() instanceof HeartbeatType) { handleHeartbeat(request); } else { ChannelFuture writeFuture = ctx.getChannel() .write( new DefaultHttpResponse( request.getProtocolVersion(), HttpResponseStatus.NOT_ACCEPTABLE)); writeFuture.addListener(ChannelFutureListener.CLOSE); } } else { super.messageReceived(ctx, e); } }
@Override public void messageReceived(ChannelHandlerContext ctx, MessageEvent e) throws Exception { if (e.getMessage() instanceof HttpRequest && HttpMethod.GET.equals(((HttpRequest) e.getMessage()).getMethod())) { HttpRequest request = (HttpRequest) e.getMessage(); HttpResponse response = new DefaultHttpResponse(request.getProtocolVersion(), HttpResponseStatus.OK); String resp = ""; for (Component c : Component.values()) { resp += String.format( "name=%-20.20s enabled=%-10.10s local=%-10.10s initialized=%-10.10s\n", c.name(), c.isEnabled(), c.isLocal(), c.isInitialized()); } ChannelBuffer buf = ChannelBuffers.copiedBuffer(resp.getBytes()); response.setContent(buf); response.addHeader(HttpHeaders.Names.CONTENT_LENGTH, String.valueOf(buf.readableBytes())); response.addHeader(HttpHeaders.Names.CONTENT_TYPE, "text/plain; charset=UTF-8"); ChannelFuture writeFuture = ctx.getChannel().write(response); writeFuture.addListener(ChannelFutureListener.CLOSE); } else { ctx.sendUpstream(e); } }
@Override public void messageReceived(ChannelHandlerContext ctx, MessageEvent e) throws Exception { RequestV2 request = null; RendererConfiguration renderer = null; String userAgentString = null; StringBuilder unknownHeaders = new StringBuilder(); String separator = ""; boolean isWindowsMediaPlayer = false; HttpRequest nettyRequest = this.nettyRequest = (HttpRequest) e.getMessage(); InetSocketAddress remoteAddress = (InetSocketAddress) e.getChannel().getRemoteAddress(); InetAddress ia = remoteAddress.getAddress(); // Apply the IP filter if (filterIp(ia)) { e.getChannel().close(); LOGGER.trace("Access denied for address " + ia + " based on IP filter"); return; } LOGGER.trace("Opened request handler on socket " + remoteAddress); PMS.get().getRegistry().disableGoToSleep(); if (HttpMethod.GET.equals(nettyRequest.getMethod())) { request = new RequestV2("GET", nettyRequest.getUri().substring(1)); } else if (HttpMethod.POST.equals(nettyRequest.getMethod())) { request = new RequestV2("POST", nettyRequest.getUri().substring(1)); } else if (HttpMethod.HEAD.equals(nettyRequest.getMethod())) { request = new RequestV2("HEAD", nettyRequest.getUri().substring(1)); } else { request = new RequestV2(nettyRequest.getMethod().getName(), nettyRequest.getUri().substring(1)); } LOGGER.trace( "Request: " + nettyRequest.getProtocolVersion().getText() + " : " + request.getMethod() + " : " + request.getArgument()); if (nettyRequest.getProtocolVersion().getMinorVersion() == 0) { request.setHttp10(true); } // The handler makes a couple of attempts to recognize a renderer from its requests. // IP address matches from previous requests are preferred, when that fails request // header matches are attempted and if those fail as well we're stuck with the // default renderer. // Attempt 1: try to recognize the renderer by its socket address from previous requests renderer = RendererConfiguration.getRendererConfigurationBySocketAddress(ia); if (renderer != null) { if (!"WMP".equals(renderer.getRendererName())) { PMS.get().setRendererfound(renderer); request.setMediaRenderer(renderer); LOGGER.trace( "Matched media renderer \"" + renderer.getRendererName() + "\" based on address " + ia); } else { LOGGER.trace("Detected and blocked Windows Media Player"); isWindowsMediaPlayer = true; } } for (String name : nettyRequest.getHeaderNames()) { String headerLine = name + ": " + nettyRequest.getHeader(name); LOGGER.trace("Received on socket: " + headerLine); if (renderer == null && headerLine != null && headerLine.toUpperCase().startsWith("USER-AGENT")) { userAgentString = headerLine.substring(headerLine.indexOf(":") + 1).trim(); // Attempt 2: try to recognize the renderer by matching the "User-Agent" header renderer = RendererConfiguration.getRendererConfigurationByUA(userAgentString); if (renderer != null) { if (!"WMP".equals(renderer.getRendererName())) { request.setMediaRenderer(renderer); renderer.associateIP(ia); // Associate IP address for later requests PMS.get().setRendererfound(renderer); LOGGER.trace( "Matched media renderer \"" + renderer.getRendererName() + "\" based on header \"" + headerLine + "\""); } else if (!isWindowsMediaPlayer) { LOGGER.trace("Detected and blocked Windows Media Player"); isWindowsMediaPlayer = true; } } } if (renderer == null && headerLine != null) { // Attempt 3: try to recognize the renderer by matching an additional header renderer = RendererConfiguration.getRendererConfigurationByUAAHH(headerLine); if (renderer != null) { request.setMediaRenderer(renderer); renderer.associateIP(ia); // Associate IP address for later requests PMS.get().setRendererfound(renderer); LOGGER.trace( "Matched media renderer \"" + renderer.getRendererName() + "\" based on header \"" + headerLine + "\""); } } try { StringTokenizer s = new StringTokenizer(headerLine); String temp = s.nextToken(); if (temp.toUpperCase().equals("SOAPACTION:")) { request.setSoapaction(s.nextToken()); } else if (temp.toUpperCase().equals("CALLBACK:")) { request.setSoapaction(s.nextToken()); } else if (headerLine.toUpperCase().indexOf("RANGE: BYTES=") > -1) { String nums = headerLine.substring(headerLine.toUpperCase().indexOf("RANGE: BYTES=") + 13).trim(); StringTokenizer st = new StringTokenizer(nums, "-"); if (!nums.startsWith("-")) { request.setLowRange(Long.parseLong(st.nextToken())); } if (!nums.startsWith("-") && !nums.endsWith("-")) { request.setHighRange(Long.parseLong(st.nextToken())); } else { request.setHighRange(-1); } } else if (headerLine.toLowerCase().indexOf("transfermode.dlna.org:") > -1) { request.setTransferMode( headerLine .substring(headerLine.toLowerCase().indexOf("transfermode.dlna.org:") + 22) .trim()); } else if (headerLine.toLowerCase().indexOf("getcontentfeatures.dlna.org:") > -1) { request.setContentFeatures( headerLine .substring(headerLine.toLowerCase().indexOf("getcontentfeatures.dlna.org:") + 28) .trim()); } else { Matcher matcher = TIMERANGE_PATTERN.matcher(headerLine); if (matcher.find()) { String first = matcher.group(1); if (first != null) { request.setTimeRangeStartString(first); } String end = matcher.group(2); if (end != null) { request.setTimeRangeEndString(end); } } else { // If we made it to here, none of the previous header checks matched. // Unknown headers make interesting logging info when we cannot recognize // the media renderer, so keep track of the truly unknown ones. boolean isKnown = false; // Try to match possible known headers. for (String knownHeaderString : KNOWN_HEADERS) { if (headerLine.toLowerCase().startsWith(knownHeaderString.toLowerCase())) { isKnown = true; break; } } if (!isKnown) { // Truly unknown header, therefore interesting. Save for later use. unknownHeaders.append(separator).append(headerLine); separator = ", "; } } } } catch (Exception ee) { LOGGER.error("Error parsing HTTP headers", ee); } } if (!isWindowsMediaPlayer) { if (request != null) { // Still no media renderer recognized? if (request.getMediaRenderer() == null) { // Attempt 4: Not really an attempt; all other attempts to recognize // the renderer have failed. The only option left is to assume the // default renderer. request.setMediaRenderer(RendererConfiguration.getDefaultConf()); LOGGER.trace( "Using default media renderer: " + request.getMediaRenderer().getRendererName()); if (userAgentString != null && !userAgentString.equals("FDSSDP")) { // We have found an unknown renderer LOGGER.info( "Media renderer was not recognized. Possible identifying HTTP headers: User-Agent: " + userAgentString + ("".equals(unknownHeaders.toString()) ? "" : ", " + unknownHeaders.toString())); PMS.get().setRendererfound(request.getMediaRenderer()); } } else { if (userAgentString != null) { LOGGER.debug("HTTP User-Agent: " + userAgentString); } LOGGER.trace( "Recognized media renderer: " + request.getMediaRenderer().getRendererName()); } } if (HttpHeaders.getContentLength(nettyRequest) > 0) { byte data[] = new byte[(int) HttpHeaders.getContentLength(nettyRequest)]; ChannelBuffer content = nettyRequest.getContent(); content.readBytes(data); request.setTextContent(new String(data, "UTF-8")); } if (request != null) { LOGGER.trace( "HTTP: " + request.getArgument() + " / " + request.getLowRange() + "-" + request.getHighRange()); } writeResponse(e, request, ia); } }