content/browser/renderer_host/websocket_host.cc - platform/external/chromium_org - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "content/browser/renderer_host/websocket_host.h"

 #include "base/basictypes.h"
 #include "base/strings/string_util.h"
 #include "content/browser/renderer_host/websocket_dispatcher_host.h"
 #include "content/common/websocket_messages.h"
 #include "ipc/ipc_message_macros.h"
 #include "net/websockets/websocket_channel.h"
 #include "net/websockets/websocket_event_interface.h"
 #include "net/websockets/websocket_frame.h"  // for WebSocketFrameHeader::OpCode

 namespace content {

 namespace {

 typedef net::WebSocketEventInterface::ChannelState ChannelState;

 // Convert a content::WebSocketMessageType to a
 // net::WebSocketFrameHeader::OpCode
 net::WebSocketFrameHeader::OpCode MessageTypeToOpCode(
     WebSocketMessageType type) {
   DCHECK(type == WEB_SOCKET_MESSAGE_TYPE_CONTINUATION ||
          type == WEB_SOCKET_MESSAGE_TYPE_TEXT ||
          type == WEB_SOCKET_MESSAGE_TYPE_BINARY);
   typedef net::WebSocketFrameHeader::OpCode OpCode;
   // These compile asserts verify that the same underlying values are used for
   // both types, so we can simply cast between them.
   COMPILE_ASSERT(static_cast<OpCode>(WEB_SOCKET_MESSAGE_TYPE_CONTINUATION) ==
                      net::WebSocketFrameHeader::kOpCodeContinuation,
                  enum_values_must_match_for_opcode_continuation);
   COMPILE_ASSERT(static_cast<OpCode>(WEB_SOCKET_MESSAGE_TYPE_TEXT) ==
                      net::WebSocketFrameHeader::kOpCodeText,
                  enum_values_must_match_for_opcode_text);
   COMPILE_ASSERT(static_cast<OpCode>(WEB_SOCKET_MESSAGE_TYPE_BINARY) ==
                      net::WebSocketFrameHeader::kOpCodeBinary,
                  enum_values_must_match_for_opcode_binary);
   return static_cast<OpCode>(type);
 }

 WebSocketMessageType OpCodeToMessageType(
     net::WebSocketFrameHeader::OpCode opCode) {
   DCHECK(opCode == net::WebSocketFrameHeader::kOpCodeContinuation ||
          opCode == net::WebSocketFrameHeader::kOpCodeText ||
          opCode == net::WebSocketFrameHeader::kOpCodeBinary);
   // This cast is guaranteed valid by the COMPILE_ASSERT() statements above.
   return static_cast<WebSocketMessageType>(opCode);
 }

 ChannelState StateCast(WebSocketDispatcherHost::WebSocketHostState host_state) {
   const WebSocketDispatcherHost::WebSocketHostState WEBSOCKET_HOST_ALIVE =
       WebSocketDispatcherHost::WEBSOCKET_HOST_ALIVE;
   const WebSocketDispatcherHost::WebSocketHostState WEBSOCKET_HOST_DELETED =
       WebSocketDispatcherHost::WEBSOCKET_HOST_DELETED;

   DCHECK(host_state == WEBSOCKET_HOST_ALIVE ||
          host_state == WEBSOCKET_HOST_DELETED);
   // These compile asserts verify that we can get away with using static_cast<>
   // for the conversion.
   COMPILE_ASSERT(static_cast<ChannelState>(WEBSOCKET_HOST_ALIVE) ==
                      net::WebSocketEventInterface::CHANNEL_ALIVE,
                  enum_values_must_match_for_state_alive);
   COMPILE_ASSERT(static_cast<ChannelState>(WEBSOCKET_HOST_DELETED) ==
                      net::WebSocketEventInterface::CHANNEL_DELETED,
                  enum_values_must_match_for_state_deleted);
   return static_cast<ChannelState>(host_state);
 }

 // Implementation of net::WebSocketEventInterface. Receives events from our
 // WebSocketChannel object. Each event is translated to an IPC and sent to the
 // renderer or child process via WebSocketDispatcherHost.
 class WebSocketEventHandler : public net::WebSocketEventInterface {
  public:
   WebSocketEventHandler(WebSocketDispatcherHost* dispatcher, int routing_id);
   virtual ~WebSocketEventHandler();

   // net::WebSocketEventInterface implementation

   // TODO(ricea): Add |extensions| parameter to pass the list of enabled
   // WebSocket extensions through to the renderer to make it visible to
   // Javascript.
   virtual ChannelState OnAddChannelResponse(
       bool fail,
       const std::string& selected_subprotocol) OVERRIDE;
   virtual ChannelState OnDataFrame(bool fin,
                                    WebSocketMessageType type,
                                    const std::vector<char>& data) OVERRIDE;
   virtual ChannelState OnClosingHandshake() OVERRIDE;
   virtual ChannelState OnFlowControl(int64 quota) OVERRIDE;
   virtual ChannelState OnDropChannel(uint16 code,
                                      const std::string& reason) OVERRIDE;

  private:
   WebSocketDispatcherHost* const dispatcher_;
   const int routing_id_;

   DISALLOW_COPY_AND_ASSIGN(WebSocketEventHandler);
 };

 WebSocketEventHandler::WebSocketEventHandler(
     WebSocketDispatcherHost* dispatcher,
     int routing_id)
     : dispatcher_(dispatcher), routing_id_(routing_id) {}

 WebSocketEventHandler::~WebSocketEventHandler() {
   DVLOG(1) << "WebSocketEventHandler destroyed routing_id= " << routing_id_;
 }

 ChannelState WebSocketEventHandler::OnAddChannelResponse(
     bool fail,
     const std::string& selected_protocol) {
   return StateCast(dispatcher_->SendAddChannelResponse(
       routing_id_, fail, selected_protocol, std::string()));
 }

 ChannelState WebSocketEventHandler::OnDataFrame(
     bool fin,
     net::WebSocketFrameHeader::OpCode type,
     const std::vector<char>& data) {
   return StateCast(dispatcher_->SendFrame(
       routing_id_, fin, OpCodeToMessageType(type), data));
 }

 ChannelState WebSocketEventHandler::OnClosingHandshake() {
   return StateCast(dispatcher_->SendClosing(routing_id_));
 }

 ChannelState WebSocketEventHandler::OnFlowControl(int64 quota) {
   return StateCast(dispatcher_->SendFlowControl(routing_id_, quota));
 }

 ChannelState WebSocketEventHandler::OnDropChannel(uint16 code,
                                                   const std::string& reason) {
   return StateCast(dispatcher_->DoDropChannel(routing_id_, code, reason));
 }

 }  // namespace

 WebSocketHost::WebSocketHost(int routing_id,
                              WebSocketDispatcherHost* dispatcher,
                              net::URLRequestContext* url_request_context) {
   DVLOG(1) << "WebSocketHost: created routing_id= " << routing_id;
   scoped_ptr<net::WebSocketEventInterface> event_interface(
       new WebSocketEventHandler(dispatcher, routing_id));
   channel_.reset(
       new net::WebSocketChannel(event_interface.Pass(), url_request_context));
 }

 WebSocketHost::~WebSocketHost() {}

 bool WebSocketHost::OnMessageReceived(const IPC::Message& message,
                                       bool* message_was_ok) {
   bool handled = true;
   IPC_BEGIN_MESSAGE_MAP_EX(WebSocketHost, message, *message_was_ok)
     IPC_MESSAGE_HANDLER(WebSocketHostMsg_AddChannelRequest, OnAddChannelRequest)
     IPC_MESSAGE_HANDLER(WebSocketMsg_SendFrame, OnSendFrame)
     IPC_MESSAGE_HANDLER(WebSocketMsg_FlowControl, OnFlowControl)
     IPC_MESSAGE_HANDLER(WebSocketMsg_DropChannel, OnDropChannel)
     IPC_MESSAGE_UNHANDLED(handled = false)
   IPC_END_MESSAGE_MAP_EX()
   return handled;
 }

 void WebSocketHost::OnAddChannelRequest(
     const GURL& socket_url,
     const std::vector<std::string>& requested_protocols,
     const GURL& origin) {
   DVLOG(3) << "WebSocketHost::OnAddChannelRequest"
            << " routing_id= " << routing_id_ << " socket_url= " << socket_url
            << " requested_protocols= " << JoinString(requested_protocols, ", ")
            << " origin= " << origin;

   channel_->SendAddChannelRequest(socket_url, requested_protocols, origin);
 }

 void WebSocketHost::OnSendFrame(bool fin,
                                 WebSocketMessageType type,
                                 const std::vector<char>& data) {
   DVLOG(3) << "WebSocketHost::OnSendFrame"
            << " routing_id= " << routing_id_ << " fin= " << fin
            << " type= " << type << " data is " << data.size() << " bytes";

   channel_->SendFrame(fin, MessageTypeToOpCode(type), data);
 }

 void WebSocketHost::OnFlowControl(int64 quota) {
   DVLOG(3) << "WebSocketHost::OnFlowControl"
            << " routing_id= " << routing_id_ << " quota= " << quota;

   channel_->SendFlowControl(quota);
 }

 void WebSocketHost::OnDropChannel(uint16 code, const std::string& reason) {
   DVLOG(3) << "WebSocketDispatcherHost::OnDropChannel"
            << " routing_id= " << routing_id_ << " code= " << code
            << " reason= " << reason;

   channel_->StartClosingHandshake(code, reason);
 }


 }  // namespace content
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "content/browser/renderer_host/websocket_host.h"

	#include "base/basictypes.h"
	#include "base/strings/string_util.h"
	#include "content/browser/renderer_host/websocket_dispatcher_host.h"
	#include "content/common/websocket_messages.h"
	#include "ipc/ipc_message_macros.h"
	#include "net/websockets/websocket_channel.h"
	#include "net/websockets/websocket_event_interface.h"
	#include "net/websockets/websocket_frame.h" // for WebSocketFrameHeader::OpCode

	namespace content {

	namespace {

	typedef net::WebSocketEventInterface::ChannelState ChannelState;

	// Convert a content::WebSocketMessageType to a
	// net::WebSocketFrameHeader::OpCode
	net::WebSocketFrameHeader::OpCode MessageTypeToOpCode(
	WebSocketMessageType type) {
	DCHECK(type == WEB_SOCKET_MESSAGE_TYPE_CONTINUATION \|\|
	type == WEB_SOCKET_MESSAGE_TYPE_TEXT \|\|
	type == WEB_SOCKET_MESSAGE_TYPE_BINARY);
	typedef net::WebSocketFrameHeader::OpCode OpCode;
	// These compile asserts verify that the same underlying values are used for
	// both types, so we can simply cast between them.
	COMPILE_ASSERT(static_cast<OpCode>(WEB_SOCKET_MESSAGE_TYPE_CONTINUATION) ==
	net::WebSocketFrameHeader::kOpCodeContinuation,
	enum_values_must_match_for_opcode_continuation);
	COMPILE_ASSERT(static_cast<OpCode>(WEB_SOCKET_MESSAGE_TYPE_TEXT) ==
	net::WebSocketFrameHeader::kOpCodeText,
	enum_values_must_match_for_opcode_text);
	COMPILE_ASSERT(static_cast<OpCode>(WEB_SOCKET_MESSAGE_TYPE_BINARY) ==
	net::WebSocketFrameHeader::kOpCodeBinary,
	enum_values_must_match_for_opcode_binary);
	return static_cast<OpCode>(type);
	}

	WebSocketMessageType OpCodeToMessageType(
	net::WebSocketFrameHeader::OpCode opCode) {
	DCHECK(opCode == net::WebSocketFrameHeader::kOpCodeContinuation \|\|
	opCode == net::WebSocketFrameHeader::kOpCodeText \|\|
	opCode == net::WebSocketFrameHeader::kOpCodeBinary);
	// This cast is guaranteed valid by the COMPILE_ASSERT() statements above.
	return static_cast<WebSocketMessageType>(opCode);
	}

	ChannelState StateCast(WebSocketDispatcherHost::WebSocketHostState host_state) {
	const WebSocketDispatcherHost::WebSocketHostState WEBSOCKET_HOST_ALIVE =
	WebSocketDispatcherHost::WEBSOCKET_HOST_ALIVE;
	const WebSocketDispatcherHost::WebSocketHostState WEBSOCKET_HOST_DELETED =
	WebSocketDispatcherHost::WEBSOCKET_HOST_DELETED;

	DCHECK(host_state == WEBSOCKET_HOST_ALIVE \|\|
	host_state == WEBSOCKET_HOST_DELETED);
	// These compile asserts verify that we can get away with using static_cast<>
	// for the conversion.
	COMPILE_ASSERT(static_cast<ChannelState>(WEBSOCKET_HOST_ALIVE) ==
	net::WebSocketEventInterface::CHANNEL_ALIVE,
	enum_values_must_match_for_state_alive);
	COMPILE_ASSERT(static_cast<ChannelState>(WEBSOCKET_HOST_DELETED) ==
	net::WebSocketEventInterface::CHANNEL_DELETED,
	enum_values_must_match_for_state_deleted);
	return static_cast<ChannelState>(host_state);
	}

	// Implementation of net::WebSocketEventInterface. Receives events from our
	// WebSocketChannel object. Each event is translated to an IPC and sent to the
	// renderer or child process via WebSocketDispatcherHost.
	class WebSocketEventHandler : public net::WebSocketEventInterface {
	public:
	WebSocketEventHandler(WebSocketDispatcherHost* dispatcher, int routing_id);
	virtual ~WebSocketEventHandler();

	// net::WebSocketEventInterface implementation

	// TODO(ricea): Add \|extensions\| parameter to pass the list of enabled
	// WebSocket extensions through to the renderer to make it visible to
	// Javascript.
	virtual ChannelState OnAddChannelResponse(
	bool fail,
	const std::string& selected_subprotocol) OVERRIDE;
	virtual ChannelState OnDataFrame(bool fin,
	WebSocketMessageType type,
	const std::vector<char>& data) OVERRIDE;
	virtual ChannelState OnClosingHandshake() OVERRIDE;
	virtual ChannelState OnFlowControl(int64 quota) OVERRIDE;
	virtual ChannelState OnDropChannel(uint16 code,
	const std::string& reason) OVERRIDE;

	private:
	WebSocketDispatcherHost* const dispatcher_;
	const int routing_id_;

	DISALLOW_COPY_AND_ASSIGN(WebSocketEventHandler);
	};

	WebSocketEventHandler::WebSocketEventHandler(
	WebSocketDispatcherHost* dispatcher,
	int routing_id)
	: dispatcher_(dispatcher), routing_id_(routing_id) {}

	WebSocketEventHandler::~WebSocketEventHandler() {
	DVLOG(1) << "WebSocketEventHandler destroyed routing_id= " << routing_id_;
	}

	ChannelState WebSocketEventHandler::OnAddChannelResponse(
	bool fail,
	const std::string& selected_protocol) {
	return StateCast(dispatcher_->SendAddChannelResponse(
	routing_id_, fail, selected_protocol, std::string()));
	}

	ChannelState WebSocketEventHandler::OnDataFrame(
	bool fin,
	net::WebSocketFrameHeader::OpCode type,
	const std::vector<char>& data) {
	return StateCast(dispatcher_->SendFrame(
	routing_id_, fin, OpCodeToMessageType(type), data));
	}

	ChannelState WebSocketEventHandler::OnClosingHandshake() {
	return StateCast(dispatcher_->SendClosing(routing_id_));
	}

	ChannelState WebSocketEventHandler::OnFlowControl(int64 quota) {
	return StateCast(dispatcher_->SendFlowControl(routing_id_, quota));
	}

	ChannelState WebSocketEventHandler::OnDropChannel(uint16 code,
	const std::string& reason) {
	return StateCast(dispatcher_->DoDropChannel(routing_id_, code, reason));
	}

	} // namespace

	WebSocketHost::WebSocketHost(int routing_id,
	WebSocketDispatcherHost* dispatcher,
	net::URLRequestContext* url_request_context) {
	DVLOG(1) << "WebSocketHost: created routing_id= " << routing_id;
	scoped_ptr<net::WebSocketEventInterface> event_interface(
	new WebSocketEventHandler(dispatcher, routing_id));
	channel_.reset(
	new net::WebSocketChannel(event_interface.Pass(), url_request_context));
	}

	WebSocketHost::~WebSocketHost() {}

	bool WebSocketHost::OnMessageReceived(const IPC::Message& message,
	bool* message_was_ok) {
	bool handled = true;
	IPC_BEGIN_MESSAGE_MAP_EX(WebSocketHost, message, *message_was_ok)
	IPC_MESSAGE_HANDLER(WebSocketHostMsg_AddChannelRequest, OnAddChannelRequest)
	IPC_MESSAGE_HANDLER(WebSocketMsg_SendFrame, OnSendFrame)
	IPC_MESSAGE_HANDLER(WebSocketMsg_FlowControl, OnFlowControl)
	IPC_MESSAGE_HANDLER(WebSocketMsg_DropChannel, OnDropChannel)
	IPC_MESSAGE_UNHANDLED(handled = false)
	IPC_END_MESSAGE_MAP_EX()
	return handled;
	}

	void WebSocketHost::OnAddChannelRequest(
	const GURL& socket_url,
	const std::vector<std::string>& requested_protocols,
	const GURL& origin) {
	DVLOG(3) << "WebSocketHost::OnAddChannelRequest"
	<< " routing_id= " << routing_id_ << " socket_url= " << socket_url
	<< " requested_protocols= " << JoinString(requested_protocols, ", ")
	<< " origin= " << origin;

	channel_->SendAddChannelRequest(socket_url, requested_protocols, origin);
	}

	void WebSocketHost::OnSendFrame(bool fin,
	WebSocketMessageType type,
	const std::vector<char>& data) {
	DVLOG(3) << "WebSocketHost::OnSendFrame"
	<< " routing_id= " << routing_id_ << " fin= " << fin
	<< " type= " << type << " data is " << data.size() << " bytes";

	channel_->SendFrame(fin, MessageTypeToOpCode(type), data);
	}

	void WebSocketHost::OnFlowControl(int64 quota) {
	DVLOG(3) << "WebSocketHost::OnFlowControl"
	<< " routing_id= " << routing_id_ << " quota= " << quota;

	channel_->SendFlowControl(quota);
	}

	void WebSocketHost::OnDropChannel(uint16 code, const std::string& reason) {
	DVLOG(3) << "WebSocketDispatcherHost::OnDropChannel"
	<< " routing_id= " << routing_id_ << " code= " << code
	<< " reason= " << reason;

	channel_->StartClosingHandshake(code, reason);
	}


	} // namespace content