示例#1
0
  public static boolean isModified(String etag, long last, HttpRequest nettyRequest) {

    if (nettyRequest.containsHeader(IF_NONE_MATCH)) {
      final String browserEtag = nettyRequest.getHeader(IF_NONE_MATCH);
      if (browserEtag.equals(etag)) {
        return false;
      }
      return true;
    }

    if (nettyRequest.containsHeader(IF_MODIFIED_SINCE)) {
      final String ifModifiedSince = nettyRequest.getHeader(IF_MODIFIED_SINCE);

      if (!StringUtils.isEmpty(ifModifiedSince)) {
        try {
          Date browserDate = Utils.getHttpDateFormatter().parse(ifModifiedSince);
          if (browserDate.getTime() >= last) {
            return false;
          }
        } catch (ParseException ex) {
          Logger.warn("Can't parse HTTP date", ex);
        }
        return true;
      }
    }
    return true;
  }
示例#2
0
 public void handleJsRequest(String path, HttpRequest req, HttpResponse resp) {
   if (req.containsHeader(IF_NONE_MATCH) || req.containsHeader(IF_MODIFIED_SINCE)) {
     resp.setStatus(HttpResponseStatus.NOT_MODIFIED);
     return;
   }
   String jsName = path.substring(1);
   ChannelBuffer buf = jsBufferMap.get(jsName);
   if (buf == null) {
     tryReloadJs();
     if (jsName == null) {
       log.error("需要访问的JS名称为空。[req: " + req.getUri() + "]");
     }
     buf = jsBufferMap.get(jsName);
   }
   if (buf != null) {
     resp.setContent(buf);
     resp.setHeader(CONTENT_LENGTH, buf.capacity());
     resp.setHeader(CONTENT_TYPE, "text/javascript; charset=UTF-8");
     resp.setHeader(CONTENT_ENCODING, "gzip");
     //			resp.setHeader(EXPIRES,  System.currentTimeMillis() + expired);
     StringBuilder etagBuilder =
         new StringBuilder("W/\"")
             .append(buf.capacity())
             .append("-")
             .append(System.currentTimeMillis())
             .append("\"");
     resp.setHeader(ETAG, etagBuilder.toString());
     LogRequestParser lrp = logRequestParserThreadLocal.get();
     if (lrp == null) {
       lrp = new LogRequestParser();
     }
     lrp.cdate.setTime(System.currentTimeMillis() + expired);
     resp.setHeader(EXPIRES, lrp.sdf.format(lrp.cdate));
   } else {
     resp.setStatus(HttpResponseStatus.NOT_FOUND);
   }
 }
示例#3
0
 public static boolean matches(HttpRequest request) {
   return (request.containsHeader("Sec-WebSocket-Key1")
       && request.containsHeader("Sec-WebSocket-Key2"));
 }
示例#4
0
  private void handleHttpRequest(ChannelHandlerContext ctx, HttpRequest req) throws Exception {
    // Allow only GET methods.
    if (req.getMethod() != GET) {
      sendHttpResponse(ctx, req, new DefaultHttpResponse(HTTP_1_1, FORBIDDEN));
      return;
    }

    // Send the demo page.
    if (req.getUri().equals("/")) {
      HttpResponse res = new DefaultHttpResponse(HTTP_1_1, OK);

      ChannelBuffer content = WebSocketServerIndexPage.getContent(getWebSocketLocation(req));

      res.setHeader(CONTENT_TYPE, "text/html; charset=UTF-8");
      setContentLength(res, content.readableBytes());

      res.setContent(content);
      sendHttpResponse(ctx, req, res);
      return;
    }

    // Serve the WebSocket handshake request.
    if (req.getUri().equals(WEBSOCKET_PATH)
        && Values.UPGRADE.equalsIgnoreCase(req.getHeader(CONNECTION))
        && WEBSOCKET.equalsIgnoreCase(req.getHeader(Names.UPGRADE))) {

      // Create the WebSocket handshake response.
      HttpResponse res =
          new DefaultHttpResponse(
              HTTP_1_1, new HttpResponseStatus(101, "Web Socket Protocol Handshake"));
      res.addHeader(Names.UPGRADE, WEBSOCKET);
      res.addHeader(CONNECTION, Values.UPGRADE);

      // Fill in the headers and contents depending on handshake method.
      if (req.containsHeader(SEC_WEBSOCKET_KEY1) && req.containsHeader(SEC_WEBSOCKET_KEY2)) {
        // New handshake method with a challenge:
        res.addHeader(SEC_WEBSOCKET_ORIGIN, req.getHeader(ORIGIN));
        res.addHeader(SEC_WEBSOCKET_LOCATION, getWebSocketLocation(req));
        String protocol = req.getHeader(SEC_WEBSOCKET_PROTOCOL);
        if (protocol != null) {
          res.addHeader(SEC_WEBSOCKET_PROTOCOL, protocol);
        }

        // Calculate the answer of the challenge.
        String key1 = req.getHeader(SEC_WEBSOCKET_KEY1);
        String key2 = req.getHeader(SEC_WEBSOCKET_KEY2);
        int a =
            (int)
                (Long.parseLong(key1.replaceAll("[^0-9]", ""))
                    / key1.replaceAll("[^ ]", "").length());
        int b =
            (int)
                (Long.parseLong(key2.replaceAll("[^0-9]", ""))
                    / key2.replaceAll("[^ ]", "").length());
        long c = req.getContent().readLong();
        ChannelBuffer input = ChannelBuffers.buffer(16);
        input.writeInt(a);
        input.writeInt(b);
        input.writeLong(c);
        ChannelBuffer output =
            ChannelBuffers.wrappedBuffer(MessageDigest.getInstance("MD5").digest(input.array()));
        res.setContent(output);
      } else {
        // Old handshake method with no challenge:
        res.addHeader(WEBSOCKET_ORIGIN, req.getHeader(ORIGIN));
        res.addHeader(WEBSOCKET_LOCATION, getWebSocketLocation(req));
        String protocol = req.getHeader(WEBSOCKET_PROTOCOL);
        if (protocol != null) {
          res.addHeader(WEBSOCKET_PROTOCOL, protocol);
        }
      }

      // Upgrade the connection and send the handshake response.
      ChannelPipeline p = ctx.getChannel().getPipeline();
      p.remove("aggregator");
      p.replace("decoder", "wsdecoder", new WebSocketFrameDecoder());

      ctx.getChannel().write(res);

      p.replace("encoder", "wsencoder", new WebSocketFrameEncoder());
      return;
    }

    // Send an error page otherwise.
    sendHttpResponse(ctx, req, new DefaultHttpResponse(HTTP_1_1, FORBIDDEN));
  }
示例#5
0
  private void websocketHandshake(final ChannelHandlerContext ctx, HttpRequest req, MessageEvent e)
      throws Exception {

    // Create the WebSocket handshake response.
    HttpResponse res =
        new DefaultHttpResponse(
            HttpVersion.HTTP_1_1, new HttpResponseStatus(101, "Web Socket Protocol Handshake"));
    res.addHeader(HttpHeaders.Names.UPGRADE, HttpHeaders.Values.WEBSOCKET);
    res.addHeader(CONNECTION, HttpHeaders.Values.UPGRADE);

    // Fill in the headers and contents depending on handshake method.
    if (req.containsHeader(SEC_WEBSOCKET_KEY1) && req.containsHeader(SEC_WEBSOCKET_KEY2)) {
      // New handshake method with a challenge:
      res.addHeader(SEC_WEBSOCKET_ORIGIN, req.getHeader(ORIGIN));
      res.addHeader(
          SEC_WEBSOCKET_LOCATION, "ws://" + req.getHeader(HttpHeaders.Names.HOST) + req.getUri());
      String protocol = req.getHeader(SEC_WEBSOCKET_PROTOCOL);
      if (protocol != null) {
        res.addHeader(SEC_WEBSOCKET_PROTOCOL, protocol);
      }

      // Calculate the answer of the challenge.
      String key1 = req.getHeader(SEC_WEBSOCKET_KEY1);
      String key2 = req.getHeader(SEC_WEBSOCKET_KEY2);
      int a =
          (int)
              (Long.parseLong(key1.replaceAll("[^0-9]", ""))
                  / key1.replaceAll("[^ ]", "").length());
      int b =
          (int)
              (Long.parseLong(key2.replaceAll("[^0-9]", ""))
                  / key2.replaceAll("[^ ]", "").length());
      long c = req.getContent().readLong();
      ChannelBuffer input = ChannelBuffers.buffer(16);
      input.writeInt(a);
      input.writeInt(b);
      input.writeLong(c);
      try {
        ChannelBuffer output =
            ChannelBuffers.wrappedBuffer(MessageDigest.getInstance("MD5").digest(input.array()));
        res.setContent(output);
      } catch (NoSuchAlgorithmException ex) {
        throw new UnexpectedException(ex);
      }
    } else {
      // Old handshake method with no challenge:
      res.addHeader(WEBSOCKET_ORIGIN, req.getHeader(ORIGIN));
      res.addHeader(
          WEBSOCKET_LOCATION, "ws://" + req.getHeader(HttpHeaders.Names.HOST) + req.getUri());
      String protocol = req.getHeader(WEBSOCKET_PROTOCOL);
      if (protocol != null) {
        res.addHeader(WEBSOCKET_PROTOCOL, protocol);
      }
    }

    // Keep the original request
    Http.Request request = parseRequest(ctx, req);

    // Route the websocket request
    request.method = "WS";
    Map<String, String> route = Router.route(request.method, request.path);
    if (!route.containsKey("action")) {
      // No route found to handle this websocket connection
      ctx.getChannel()
          .write(new DefaultHttpResponse(HttpVersion.HTTP_1_1, HttpResponseStatus.NOT_FOUND));
      return;
    }

    // Upgrade the connection and send the handshake response.
    ChannelPipeline p = ctx.getChannel().getPipeline();
    p.remove("aggregator");
    p.replace("decoder", "wsdecoder", new WebSocketFrameDecoder());

    // Connect
    ctx.getChannel().write(res);

    p.replace("encoder", "wsencoder", new WebSocketFrameEncoder());
    req.setMethod(new HttpMethod("WEBSOCKET"));

    // Inbound
    Http.Inbound inbound =
        new Http.Inbound() {

          @Override
          public boolean isOpen() {
            return ctx.getChannel().isOpen();
          }
        };
    channels.put(ctx, inbound);

    // Outbound
    Http.Outbound outbound =
        new Http.Outbound() {

          final List<ChannelFuture> writeFutures =
              Collections.synchronizedList(new ArrayList<ChannelFuture>());
          Promise<Void> closeTask;

          synchronized void writeAndClose(ChannelFuture writeFuture) {
            if (!writeFuture.isDone()) {
              writeFutures.add(writeFuture);
              writeFuture.addListener(
                  new ChannelFutureListener() {

                    public void operationComplete(ChannelFuture cf) throws Exception {
                      writeFutures.remove(cf);
                      futureClose();
                    }
                  });
            }
          }

          void futureClose() {
            if (closeTask != null && writeFutures.isEmpty()) {
              closeTask.invoke(null);
            }
          }

          @Override
          public void send(String data) {
            if (!isOpen()) {
              throw new IllegalStateException("The outbound channel is closed");
            }
            writeAndClose(ctx.getChannel().write(new DefaultWebSocketFrame(data)));
          }

          @Override
          public void send(byte opcode, byte[] data, int offset, int length) {
            if (!isOpen()) {
              throw new IllegalStateException("The outbound channel is closed");
            }
            writeAndClose(
                ctx.getChannel()
                    .write(new DefaultWebSocketFrame(opcode, wrappedBuffer(data, offset, length))));
          }

          @Override
          public synchronized boolean isOpen() {
            return ctx.getChannel().isOpen() && closeTask == null;
          }

          @Override
          public synchronized void close() {
            closeTask = new Promise<Void>();
            closeTask.onRedeem(
                new Action<Promise<Void>>() {

                  public void invoke(Promise<Void> completed) {
                    writeFutures.clear();
                    ctx.getChannel().disconnect();
                    closeTask = null;
                  }
                });
            futureClose();
          }
        };

    Invoker.invoke(new WebSocketInvocation(route, request, inbound, outbound, ctx, e));
  }