ppapi/proxy/websocket_resource.cc - chromium/src - Git at Google

 // Copyright (c) 2012 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 "ppapi/proxy/websocket_resource.h"

 #include <stddef.h>

 #include <limits>
 #include <set>
 #include <string>
 #include <vector>

 #include "base/bind.h"
 #include "base/numerics/safe_conversions.h"
 #include "ppapi/c/pp_errors.h"
 #include "ppapi/proxy/dispatch_reply_message.h"
 #include "ppapi/proxy/ppapi_messages.h"
 #include "ppapi/shared_impl/ppapi_globals.h"
 #include "ppapi/shared_impl/var.h"
 #include "ppapi/shared_impl/var_tracker.h"

 namespace {

 const uint32_t kMaxReasonSizeInBytes = 123;
 const size_t kBaseFramingOverhead = 2;
 const size_t kMaskingKeyLength = 4;
 const size_t kMinimumPayloadSizeWithTwoByteExtendedPayloadLength = 126;
 const size_t kMinimumPayloadSizeWithEightByteExtendedPayloadLength = 0x10000;

 uint64_t SaturateAdd(uint64_t a, uint64_t b) {
   if (std::numeric_limits<uint64_t>::max() - a < b)
     return std::numeric_limits<uint64_t>::max();
   return a + b;
 }

 uint64_t GetFrameSize(uint64_t payload_size) {
   uint64_t overhead = kBaseFramingOverhead + kMaskingKeyLength;
   if (payload_size > kMinimumPayloadSizeWithEightByteExtendedPayloadLength)
     overhead += 8;
   else if (payload_size > kMinimumPayloadSizeWithTwoByteExtendedPayloadLength)
     overhead += 2;
   return SaturateAdd(payload_size, overhead);
 }

 bool InValidStateToReceive(PP_WebSocketReadyState state) {
   return state == PP_WEBSOCKETREADYSTATE_OPEN ||
          state == PP_WEBSOCKETREADYSTATE_CLOSING;
 }

 }  // namespace


 namespace ppapi {
 namespace proxy {

 WebSocketResource::WebSocketResource(Connection connection,
                                      PP_Instance instance)
     : PluginResource(connection, instance),
       state_(PP_WEBSOCKETREADYSTATE_INVALID),
       error_was_received_(false),
       receive_callback_var_(NULL),
       empty_string_(new StringVar(std::string())),
       close_code_(0),
       close_reason_(NULL),
       close_was_clean_(PP_FALSE),
       extensions_(NULL),
       protocol_(NULL),
       url_(NULL),
       buffered_amount_(0),
       buffered_amount_after_close_(0) {
 }

 WebSocketResource::~WebSocketResource() {
 }

 thunk::PPB_WebSocket_API* WebSocketResource::AsPPB_WebSocket_API() {
   return this;
 }

 int32_t WebSocketResource::Connect(
     const PP_Var& url,
     const PP_Var protocols[],
     uint32_t protocol_count,
     scoped_refptr<TrackedCallback> callback) {
   if (TrackedCallback::IsPending(connect_callback_))
     return PP_ERROR_INPROGRESS;

   // Connect() can be called at most once.
   if (state_ != PP_WEBSOCKETREADYSTATE_INVALID)
     return PP_ERROR_INPROGRESS;
   state_ = PP_WEBSOCKETREADYSTATE_CLOSED;

   // Get the URL.
   url_ = StringVar::FromPPVar(url);
   if (!url_.get())
     return PP_ERROR_BADARGUMENT;

   // Get the protocols.
   std::set<std::string> protocol_set;
   std::vector<std::string> protocol_strings;
   protocol_strings.reserve(protocol_count);
   for (uint32_t i = 0; i < protocol_count; ++i) {
     scoped_refptr<StringVar> protocol(StringVar::FromPPVar(protocols[i]));

     // Check invalid and empty entries.
     if (!protocol.get() || !protocol->value().length())
       return PP_ERROR_BADARGUMENT;

     // Check duplicated protocol entries.
     if (protocol_set.find(protocol->value()) != protocol_set.end())
       return PP_ERROR_BADARGUMENT;
     protocol_set.insert(protocol->value());

     protocol_strings.push_back(protocol->value());
   }

   // Install callback.
   connect_callback_ = callback;

   // Create remote host in the renderer, then request to check the URL and
   // establish the connection.
   state_ = PP_WEBSOCKETREADYSTATE_CONNECTING;
   SendCreate(RENDERER, PpapiHostMsg_WebSocket_Create());
   PpapiHostMsg_WebSocket_Connect msg(url_->value(), protocol_strings);
   Call<PpapiPluginMsg_WebSocket_ConnectReply>(RENDERER, msg,
       base::Bind(&WebSocketResource::OnPluginMsgConnectReply, this));

   return PP_OK_COMPLETIONPENDING;
 }

 int32_t WebSocketResource::Close(uint16_t code,
                                  const PP_Var& reason,
                                  scoped_refptr<TrackedCallback> callback) {
   if (TrackedCallback::IsPending(close_callback_))
     return PP_ERROR_INPROGRESS;
   if (state_ == PP_WEBSOCKETREADYSTATE_INVALID)
     return PP_ERROR_FAILED;

   // Validate |code| and |reason|.
   scoped_refptr<StringVar> reason_string_var;
   std::string reason_string;
   if (code != PP_WEBSOCKETSTATUSCODE_NOT_SPECIFIED) {
     if (code != PP_WEBSOCKETSTATUSCODE_NORMAL_CLOSURE &&
         (code < PP_WEBSOCKETSTATUSCODE_USER_REGISTERED_MIN ||
         code > PP_WEBSOCKETSTATUSCODE_USER_PRIVATE_MAX))
       // RFC 6455 limits applications to use reserved connection close code in
       // section 7.4.2.. The WebSocket API (http://www.w3.org/TR/websockets/)
       // defines this out of range error as InvalidAccessError in JavaScript.
       return PP_ERROR_NOACCESS;

     // |reason| must be ignored if it is PP_VARTYPE_UNDEFINED or |code| is
     // PP_WEBSOCKETSTATUSCODE_NOT_SPECIFIED.
     if (reason.type != PP_VARTYPE_UNDEFINED) {
       // Validate |reason|.
       reason_string_var = StringVar::FromPPVar(reason);
       if (!reason_string_var.get() ||
           reason_string_var->value().size() > kMaxReasonSizeInBytes)
         return PP_ERROR_BADARGUMENT;
       reason_string = reason_string_var->value();
     }
   }

   // Check state.
   if (state_ == PP_WEBSOCKETREADYSTATE_CLOSING)
     return PP_ERROR_INPROGRESS;
   if (state_ == PP_WEBSOCKETREADYSTATE_CLOSED)
     return PP_OK;

   // Install |callback|.
   close_callback_ = callback;

   // Abort ongoing connect.
   if (TrackedCallback::IsPending(connect_callback_)) {
     state_ = PP_WEBSOCKETREADYSTATE_CLOSING;
     // Need to do a "Post" to avoid reentering the plugin.
     connect_callback_->PostAbort();
     connect_callback_ = NULL;
     Post(RENDERER, PpapiHostMsg_WebSocket_Fail(
         "WebSocket was closed before the connection was established."));
     return PP_OK_COMPLETIONPENDING;
   }

   // Abort ongoing receive.
   if (TrackedCallback::IsPending(receive_callback_)) {
     receive_callback_var_ = NULL;
     // Need to do a "Post" to avoid reentering the plugin.
     receive_callback_->PostAbort();
     receive_callback_ = NULL;
   }

   // Close connection.
   state_ = PP_WEBSOCKETREADYSTATE_CLOSING;
   PpapiHostMsg_WebSocket_Close msg(static_cast<int32_t>(code),
                                    reason_string);
   Call<PpapiPluginMsg_WebSocket_CloseReply>(RENDERER, msg,
       base::Bind(&WebSocketResource::OnPluginMsgCloseReply, this));
   return PP_OK_COMPLETIONPENDING;
 }

 int32_t WebSocketResource::ReceiveMessage(
     PP_Var* message,
     scoped_refptr<TrackedCallback> callback) {
   if (TrackedCallback::IsPending(receive_callback_))
     return PP_ERROR_INPROGRESS;

   // Check state.
   if (state_ == PP_WEBSOCKETREADYSTATE_INVALID ||
       state_ == PP_WEBSOCKETREADYSTATE_CONNECTING)
     return PP_ERROR_BADARGUMENT;

   // Just return received message if any received message is queued.
   if (!received_messages_.empty()) {
     receive_callback_var_ = message;
     return DoReceive();
   }

   // Check state again. In CLOSED state, no more messages will be received.
   if (state_ == PP_WEBSOCKETREADYSTATE_CLOSED)
     return PP_ERROR_BADARGUMENT;

   // Returns PP_ERROR_FAILED after an error is received and received messages
   // is exhausted.
   if (error_was_received_)
     return PP_ERROR_FAILED;

   // Or retain |message| as buffer to store and install |callback|.
   receive_callback_var_ = message;
   receive_callback_ = callback;

   return PP_OK_COMPLETIONPENDING;
 }

 int32_t WebSocketResource::SendMessage(const PP_Var& message) {
   // Check state.
   if (state_ == PP_WEBSOCKETREADYSTATE_INVALID ||
       state_ == PP_WEBSOCKETREADYSTATE_CONNECTING)
     return PP_ERROR_BADARGUMENT;

   if (state_ == PP_WEBSOCKETREADYSTATE_CLOSING ||
       state_ == PP_WEBSOCKETREADYSTATE_CLOSED) {
     // Handle buffered_amount_after_close_.
     uint64_t payload_size = 0;
     if (message.type == PP_VARTYPE_STRING) {
       scoped_refptr<StringVar> message_string = StringVar::FromPPVar(message);
       if (message_string.get())
         payload_size += message_string->value().length();
     } else if (message.type == PP_VARTYPE_ARRAY_BUFFER) {
       scoped_refptr<ArrayBufferVar> message_array_buffer =
           ArrayBufferVar::FromPPVar(message);
       if (message_array_buffer.get())
         payload_size += message_array_buffer->ByteLength();
     } else {
       // TODO(toyoshim): Support Blob.
       return PP_ERROR_NOTSUPPORTED;
     }

     buffered_amount_after_close_ =
         SaturateAdd(buffered_amount_after_close_, GetFrameSize(payload_size));

     return PP_ERROR_FAILED;
   }

   // Send the message.
   if (message.type == PP_VARTYPE_STRING) {
     // Convert message to std::string, then send it.
     scoped_refptr<StringVar> message_string = StringVar::FromPPVar(message);
     if (!message_string.get())
       return PP_ERROR_BADARGUMENT;
     Post(RENDERER, PpapiHostMsg_WebSocket_SendText(message_string->value()));
   } else if (message.type == PP_VARTYPE_ARRAY_BUFFER) {
     // Convert message to std::vector<uint8_t>, then send it.
     scoped_refptr<ArrayBufferVar> message_arraybuffer =
         ArrayBufferVar::FromPPVar(message);
     if (!message_arraybuffer.get())
       return PP_ERROR_BADARGUMENT;
     uint8_t* message_data = static_cast<uint8_t*>(message_arraybuffer->Map());
     uint32_t message_length = message_arraybuffer->ByteLength();
     std::vector<uint8_t> message_vector(message_data,
                                         message_data + message_length);
     Post(RENDERER, PpapiHostMsg_WebSocket_SendBinary(message_vector));
   } else {
     // TODO(toyoshim): Support Blob.
     return PP_ERROR_NOTSUPPORTED;
   }
   return PP_OK;
 }

 uint64_t WebSocketResource::GetBufferedAmount() {
   return SaturateAdd(buffered_amount_, buffered_amount_after_close_);
 }

 uint16_t WebSocketResource::GetCloseCode() {
   return close_code_;
 }

 PP_Var WebSocketResource::GetCloseReason() {
   if (!close_reason_.get())
     return empty_string_->GetPPVar();
   return close_reason_->GetPPVar();
 }

 PP_Bool WebSocketResource::GetCloseWasClean() {
   return close_was_clean_;
 }

 PP_Var WebSocketResource::GetExtensions() {
   return StringVar::StringToPPVar(std::string());
 }

 PP_Var WebSocketResource::GetProtocol() {
   if (!protocol_.get())
     return empty_string_->GetPPVar();
   return protocol_->GetPPVar();
 }

 PP_WebSocketReadyState WebSocketResource::GetReadyState() {
   return state_;
 }

 PP_Var WebSocketResource::GetURL() {
   if (!url_.get())
     return empty_string_->GetPPVar();
   return url_->GetPPVar();
 }

 void WebSocketResource::OnReplyReceived(
     const ResourceMessageReplyParams& params,
     const IPC::Message& msg) {
   if (params.sequence()) {
     PluginResource::OnReplyReceived(params, msg);
     return;
   }

   PPAPI_BEGIN_MESSAGE_MAP(WebSocketResource, msg)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
         PpapiPluginMsg_WebSocket_ReceiveTextReply,
         OnPluginMsgReceiveTextReply)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
         PpapiPluginMsg_WebSocket_ReceiveBinaryReply,
         OnPluginMsgReceiveBinaryReply)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL_0(
         PpapiPluginMsg_WebSocket_ErrorReply,
         OnPluginMsgErrorReply)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
         PpapiPluginMsg_WebSocket_BufferedAmountReply,
         OnPluginMsgBufferedAmountReply)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
         PpapiPluginMsg_WebSocket_StateReply,
         OnPluginMsgStateReply)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
         PpapiPluginMsg_WebSocket_ClosedReply,
         OnPluginMsgClosedReply)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL_UNHANDLED(NOTREACHED())
   PPAPI_END_MESSAGE_MAP()
 }

 void WebSocketResource::OnPluginMsgConnectReply(
     const ResourceMessageReplyParams& params,
     const std::string& url,
     const std::string& protocol) {
   if (!TrackedCallback::IsPending(connect_callback_) ||
       TrackedCallback::IsScheduledToRun(connect_callback_)) {
     return;
   }

   int32_t result = params.result();
   if (result == PP_OK) {
     state_ = PP_WEBSOCKETREADYSTATE_OPEN;
     protocol_ = new StringVar(protocol);
     url_ = new StringVar(url);
   }
   connect_callback_->Run(params.result());
 }

 void WebSocketResource::OnPluginMsgCloseReply(
     const ResourceMessageReplyParams& params,
     unsigned long buffered_amount,
     bool was_clean,
     unsigned short code,
     const std::string& reason) {
   // Set close related properties.
   state_ = PP_WEBSOCKETREADYSTATE_CLOSED;
   buffered_amount_ = buffered_amount;
   close_was_clean_ = PP_FromBool(was_clean);
   close_code_ = code;
   close_reason_ = new StringVar(reason);

   if (TrackedCallback::IsPending(receive_callback_)) {
     receive_callback_var_ = NULL;
     if (!TrackedCallback::IsScheduledToRun(receive_callback_))
       receive_callback_->PostRun(PP_ERROR_FAILED);
     receive_callback_ = NULL;
   }

   if (TrackedCallback::IsPending(close_callback_)) {
     if (!TrackedCallback::IsScheduledToRun(close_callback_))
       close_callback_->PostRun(params.result());
     close_callback_ = NULL;
   }
 }

 void WebSocketResource::OnPluginMsgReceiveTextReply(
     const ResourceMessageReplyParams& params,
     const std::string& message) {
   // Dispose packets after receiving an error or in invalid state.
   if (error_was_received_ || !InValidStateToReceive(state_))
     return;

   // Append received data to queue.
   received_messages_.push(scoped_refptr<Var>(new StringVar(message)));

   if (!TrackedCallback::IsPending(receive_callback_) ||
       TrackedCallback::IsScheduledToRun(receive_callback_)) {
     return;
   }

   receive_callback_->Run(DoReceive());
 }

 void WebSocketResource::OnPluginMsgReceiveBinaryReply(
     const ResourceMessageReplyParams& params,
     const std::vector<uint8_t>& message) {
   // Dispose packets after receiving an error or in invalid state.
   if (error_was_received_ || !InValidStateToReceive(state_))
     return;

   // Append received data to queue.
   scoped_refptr<Var> message_var(
       PpapiGlobals::Get()->GetVarTracker()->MakeArrayBufferVar(
           base::checked_cast<uint32_t>(message.size()),
           &message.front()));
   received_messages_.push(message_var);

   if (!TrackedCallback::IsPending(receive_callback_) ||
       TrackedCallback::IsScheduledToRun(receive_callback_)) {
     return;
   }

   receive_callback_->Run(DoReceive());
 }

 void WebSocketResource::OnPluginMsgErrorReply(
     const ResourceMessageReplyParams& params) {
   error_was_received_ = true;

   if (!TrackedCallback::IsPending(receive_callback_) ||
       TrackedCallback::IsScheduledToRun(receive_callback_)) {
     return;
   }

   // No more text or binary messages will be received. If there is ongoing
   // ReceiveMessage(), we must invoke the callback with error code here.
   receive_callback_var_ = NULL;
   receive_callback_->Run(PP_ERROR_FAILED);
 }

 void WebSocketResource::OnPluginMsgBufferedAmountReply(
     const ResourceMessageReplyParams& params,
     unsigned long buffered_amount) {
   buffered_amount_ = buffered_amount;
 }

 void WebSocketResource::OnPluginMsgStateReply(
     const ResourceMessageReplyParams& params,
     int32_t state) {
   state_ = static_cast<PP_WebSocketReadyState>(state);
 }

 void WebSocketResource::OnPluginMsgClosedReply(
     const ResourceMessageReplyParams& params,
     unsigned long buffered_amount,
     bool was_clean,
     unsigned short code,
     const std::string& reason) {
   OnPluginMsgCloseReply(params, buffered_amount, was_clean, code, reason);
 }

 int32_t WebSocketResource::DoReceive() {
   if (!receive_callback_var_)
     return PP_OK;

   *receive_callback_var_ = received_messages_.front()->GetPPVar();
   received_messages_.pop();
   receive_callback_var_ = NULL;
   return PP_OK;
 }

 }  // namespace proxy
 }  // namespace ppapi
	// Copyright (c) 2012 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 "ppapi/proxy/websocket_resource.h"

	#include <stddef.h>

	#include <limits>
	#include <set>
	#include <string>
	#include <vector>

	#include "base/bind.h"
	#include "base/numerics/safe_conversions.h"
	#include "ppapi/c/pp_errors.h"
	#include "ppapi/proxy/dispatch_reply_message.h"
	#include "ppapi/proxy/ppapi_messages.h"
	#include "ppapi/shared_impl/ppapi_globals.h"
	#include "ppapi/shared_impl/var.h"
	#include "ppapi/shared_impl/var_tracker.h"

	namespace {

	const uint32_t kMaxReasonSizeInBytes = 123;
	const size_t kBaseFramingOverhead = 2;
	const size_t kMaskingKeyLength = 4;
	const size_t kMinimumPayloadSizeWithTwoByteExtendedPayloadLength = 126;
	const size_t kMinimumPayloadSizeWithEightByteExtendedPayloadLength = 0x10000;

	uint64_t SaturateAdd(uint64_t a, uint64_t b) {
	if (std::numeric_limits<uint64_t>::max() - a < b)
	return std::numeric_limits<uint64_t>::max();
	return a + b;
	}

	uint64_t GetFrameSize(uint64_t payload_size) {
	uint64_t overhead = kBaseFramingOverhead + kMaskingKeyLength;
	if (payload_size > kMinimumPayloadSizeWithEightByteExtendedPayloadLength)
	overhead += 8;
	else if (payload_size > kMinimumPayloadSizeWithTwoByteExtendedPayloadLength)
	overhead += 2;
	return SaturateAdd(payload_size, overhead);
	}

	bool InValidStateToReceive(PP_WebSocketReadyState state) {
	return state == PP_WEBSOCKETREADYSTATE_OPEN \|\|
	state == PP_WEBSOCKETREADYSTATE_CLOSING;
	}

	} // namespace


	namespace ppapi {
	namespace proxy {

	WebSocketResource::WebSocketResource(Connection connection,
	PP_Instance instance)
	: PluginResource(connection, instance),
	state_(PP_WEBSOCKETREADYSTATE_INVALID),
	error_was_received_(false),
	receive_callback_var_(NULL),
	empty_string_(new StringVar(std::string())),
	close_code_(0),
	close_reason_(NULL),
	close_was_clean_(PP_FALSE),
	extensions_(NULL),
	protocol_(NULL),
	url_(NULL),
	buffered_amount_(0),
	buffered_amount_after_close_(0) {
	}

	WebSocketResource::~WebSocketResource() {
	}

	thunk::PPB_WebSocket_API* WebSocketResource::AsPPB_WebSocket_API() {
	return this;
	}

	int32_t WebSocketResource::Connect(
	const PP_Var& url,
	const PP_Var protocols[],
	uint32_t protocol_count,
	scoped_refptr<TrackedCallback> callback) {
	if (TrackedCallback::IsPending(connect_callback_))
	return PP_ERROR_INPROGRESS;

	// Connect() can be called at most once.
	if (state_ != PP_WEBSOCKETREADYSTATE_INVALID)
	return PP_ERROR_INPROGRESS;
	state_ = PP_WEBSOCKETREADYSTATE_CLOSED;

	// Get the URL.
	url_ = StringVar::FromPPVar(url);
	if (!url_.get())
	return PP_ERROR_BADARGUMENT;

	// Get the protocols.
	std::set<std::string> protocol_set;
	std::vector<std::string> protocol_strings;
	protocol_strings.reserve(protocol_count);
	for (uint32_t i = 0; i < protocol_count; ++i) {
	scoped_refptr<StringVar> protocol(StringVar::FromPPVar(protocols[i]));

	// Check invalid and empty entries.
	if (!protocol.get() \|\| !protocol->value().length())
	return PP_ERROR_BADARGUMENT;

	// Check duplicated protocol entries.
	if (protocol_set.find(protocol->value()) != protocol_set.end())
	return PP_ERROR_BADARGUMENT;
	protocol_set.insert(protocol->value());

	protocol_strings.push_back(protocol->value());
	}

	// Install callback.
	connect_callback_ = callback;

	// Create remote host in the renderer, then request to check the URL and
	// establish the connection.
	state_ = PP_WEBSOCKETREADYSTATE_CONNECTING;
	SendCreate(RENDERER, PpapiHostMsg_WebSocket_Create());
	PpapiHostMsg_WebSocket_Connect msg(url_->value(), protocol_strings);
	Call<PpapiPluginMsg_WebSocket_ConnectReply>(RENDERER, msg,
	base::Bind(&WebSocketResource::OnPluginMsgConnectReply, this));

	return PP_OK_COMPLETIONPENDING;
	}

	int32_t WebSocketResource::Close(uint16_t code,
	const PP_Var& reason,
	scoped_refptr<TrackedCallback> callback) {
	if (TrackedCallback::IsPending(close_callback_))
	return PP_ERROR_INPROGRESS;
	if (state_ == PP_WEBSOCKETREADYSTATE_INVALID)
	return PP_ERROR_FAILED;

	// Validate \|code\| and \|reason\|.
	scoped_refptr<StringVar> reason_string_var;
	std::string reason_string;
	if (code != PP_WEBSOCKETSTATUSCODE_NOT_SPECIFIED) {
	if (code != PP_WEBSOCKETSTATUSCODE_NORMAL_CLOSURE &&
	(code < PP_WEBSOCKETSTATUSCODE_USER_REGISTERED_MIN \|\|
	code > PP_WEBSOCKETSTATUSCODE_USER_PRIVATE_MAX))
	// RFC 6455 limits applications to use reserved connection close code in
	// section 7.4.2.. The WebSocket API (http://www.w3.org/TR/websockets/)
	// defines this out of range error as InvalidAccessError in JavaScript.
	return PP_ERROR_NOACCESS;

	// \|reason\| must be ignored if it is PP_VARTYPE_UNDEFINED or \|code\| is
	// PP_WEBSOCKETSTATUSCODE_NOT_SPECIFIED.
	if (reason.type != PP_VARTYPE_UNDEFINED) {
	// Validate \|reason\|.
	reason_string_var = StringVar::FromPPVar(reason);
	if (!reason_string_var.get() \|\|
	reason_string_var->value().size() > kMaxReasonSizeInBytes)
	return PP_ERROR_BADARGUMENT;
	reason_string = reason_string_var->value();
	}
	}

	// Check state.
	if (state_ == PP_WEBSOCKETREADYSTATE_CLOSING)
	return PP_ERROR_INPROGRESS;
	if (state_ == PP_WEBSOCKETREADYSTATE_CLOSED)
	return PP_OK;

	// Install \|callback\|.
	close_callback_ = callback;

	// Abort ongoing connect.
	if (TrackedCallback::IsPending(connect_callback_)) {
	state_ = PP_WEBSOCKETREADYSTATE_CLOSING;
	// Need to do a "Post" to avoid reentering the plugin.
	connect_callback_->PostAbort();
	connect_callback_ = NULL;
	Post(RENDERER, PpapiHostMsg_WebSocket_Fail(
	"WebSocket was closed before the connection was established."));
	return PP_OK_COMPLETIONPENDING;
	}

	// Abort ongoing receive.
	if (TrackedCallback::IsPending(receive_callback_)) {
	receive_callback_var_ = NULL;
	// Need to do a "Post" to avoid reentering the plugin.
	receive_callback_->PostAbort();
	receive_callback_ = NULL;
	}

	// Close connection.
	state_ = PP_WEBSOCKETREADYSTATE_CLOSING;
	PpapiHostMsg_WebSocket_Close msg(static_cast<int32_t>(code),
	reason_string);
	Call<PpapiPluginMsg_WebSocket_CloseReply>(RENDERER, msg,
	base::Bind(&WebSocketResource::OnPluginMsgCloseReply, this));
	return PP_OK_COMPLETIONPENDING;
	}

	int32_t WebSocketResource::ReceiveMessage(
	PP_Var* message,
	scoped_refptr<TrackedCallback> callback) {
	if (TrackedCallback::IsPending(receive_callback_))
	return PP_ERROR_INPROGRESS;

	// Check state.
	if (state_ == PP_WEBSOCKETREADYSTATE_INVALID \|\|
	state_ == PP_WEBSOCKETREADYSTATE_CONNECTING)
	return PP_ERROR_BADARGUMENT;

	// Just return received message if any received message is queued.
	if (!received_messages_.empty()) {
	receive_callback_var_ = message;
	return DoReceive();
	}

	// Check state again. In CLOSED state, no more messages will be received.
	if (state_ == PP_WEBSOCKETREADYSTATE_CLOSED)
	return PP_ERROR_BADARGUMENT;

	// Returns PP_ERROR_FAILED after an error is received and received messages
	// is exhausted.
	if (error_was_received_)
	return PP_ERROR_FAILED;

	// Or retain \|message\| as buffer to store and install \|callback\|.
	receive_callback_var_ = message;
	receive_callback_ = callback;

	return PP_OK_COMPLETIONPENDING;
	}

	int32_t WebSocketResource::SendMessage(const PP_Var& message) {
	// Check state.
	if (state_ == PP_WEBSOCKETREADYSTATE_INVALID \|\|
	state_ == PP_WEBSOCKETREADYSTATE_CONNECTING)
	return PP_ERROR_BADARGUMENT;

	if (state_ == PP_WEBSOCKETREADYSTATE_CLOSING \|\|
	state_ == PP_WEBSOCKETREADYSTATE_CLOSED) {
	// Handle buffered_amount_after_close_.
	uint64_t payload_size = 0;
	if (message.type == PP_VARTYPE_STRING) {
	scoped_refptr<StringVar> message_string = StringVar::FromPPVar(message);
	if (message_string.get())
	payload_size += message_string->value().length();
	} else if (message.type == PP_VARTYPE_ARRAY_BUFFER) {
	scoped_refptr<ArrayBufferVar> message_array_buffer =
	ArrayBufferVar::FromPPVar(message);
	if (message_array_buffer.get())
	payload_size += message_array_buffer->ByteLength();
	} else {
	// TODO(toyoshim): Support Blob.
	return PP_ERROR_NOTSUPPORTED;
	}

	buffered_amount_after_close_ =
	SaturateAdd(buffered_amount_after_close_, GetFrameSize(payload_size));

	return PP_ERROR_FAILED;
	}

	// Send the message.
	if (message.type == PP_VARTYPE_STRING) {
	// Convert message to std::string, then send it.
	scoped_refptr<StringVar> message_string = StringVar::FromPPVar(message);
	if (!message_string.get())
	return PP_ERROR_BADARGUMENT;
	Post(RENDERER, PpapiHostMsg_WebSocket_SendText(message_string->value()));
	} else if (message.type == PP_VARTYPE_ARRAY_BUFFER) {
	// Convert message to std::vector<uint8_t>, then send it.
	scoped_refptr<ArrayBufferVar> message_arraybuffer =
	ArrayBufferVar::FromPPVar(message);
	if (!message_arraybuffer.get())
	return PP_ERROR_BADARGUMENT;
	uint8_t* message_data = static_cast<uint8_t*>(message_arraybuffer->Map());
	uint32_t message_length = message_arraybuffer->ByteLength();
	std::vector<uint8_t> message_vector(message_data,
	message_data + message_length);
	Post(RENDERER, PpapiHostMsg_WebSocket_SendBinary(message_vector));
	} else {
	// TODO(toyoshim): Support Blob.
	return PP_ERROR_NOTSUPPORTED;
	}
	return PP_OK;
	}

	uint64_t WebSocketResource::GetBufferedAmount() {
	return SaturateAdd(buffered_amount_, buffered_amount_after_close_);
	}

	uint16_t WebSocketResource::GetCloseCode() {
	return close_code_;
	}

	PP_Var WebSocketResource::GetCloseReason() {
	if (!close_reason_.get())
	return empty_string_->GetPPVar();
	return close_reason_->GetPPVar();
	}

	PP_Bool WebSocketResource::GetCloseWasClean() {
	return close_was_clean_;
	}

	PP_Var WebSocketResource::GetExtensions() {
	return StringVar::StringToPPVar(std::string());
	}

	PP_Var WebSocketResource::GetProtocol() {
	if (!protocol_.get())
	return empty_string_->GetPPVar();
	return protocol_->GetPPVar();
	}

	PP_WebSocketReadyState WebSocketResource::GetReadyState() {
	return state_;
	}

	PP_Var WebSocketResource::GetURL() {
	if (!url_.get())
	return empty_string_->GetPPVar();
	return url_->GetPPVar();
	}

	void WebSocketResource::OnReplyReceived(
	const ResourceMessageReplyParams& params,
	const IPC::Message& msg) {
	if (params.sequence()) {
	PluginResource::OnReplyReceived(params, msg);
	return;
	}

	PPAPI_BEGIN_MESSAGE_MAP(WebSocketResource, msg)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
	PpapiPluginMsg_WebSocket_ReceiveTextReply,
	OnPluginMsgReceiveTextReply)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
	PpapiPluginMsg_WebSocket_ReceiveBinaryReply,
	OnPluginMsgReceiveBinaryReply)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL_0(
	PpapiPluginMsg_WebSocket_ErrorReply,
	OnPluginMsgErrorReply)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
	PpapiPluginMsg_WebSocket_BufferedAmountReply,
	OnPluginMsgBufferedAmountReply)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
	PpapiPluginMsg_WebSocket_StateReply,
	OnPluginMsgStateReply)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
	PpapiPluginMsg_WebSocket_ClosedReply,
	OnPluginMsgClosedReply)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL_UNHANDLED(NOTREACHED())
	PPAPI_END_MESSAGE_MAP()
	}

	void WebSocketResource::OnPluginMsgConnectReply(
	const ResourceMessageReplyParams& params,
	const std::string& url,
	const std::string& protocol) {
	if (!TrackedCallback::IsPending(connect_callback_) \|\|
	TrackedCallback::IsScheduledToRun(connect_callback_)) {
	return;
	}

	int32_t result = params.result();
	if (result == PP_OK) {
	state_ = PP_WEBSOCKETREADYSTATE_OPEN;
	protocol_ = new StringVar(protocol);
	url_ = new StringVar(url);
	}
	connect_callback_->Run(params.result());
	}

	void WebSocketResource::OnPluginMsgCloseReply(
	const ResourceMessageReplyParams& params,
	unsigned long buffered_amount,
	bool was_clean,
	unsigned short code,
	const std::string& reason) {
	// Set close related properties.
	state_ = PP_WEBSOCKETREADYSTATE_CLOSED;
	buffered_amount_ = buffered_amount;
	close_was_clean_ = PP_FromBool(was_clean);
	close_code_ = code;
	close_reason_ = new StringVar(reason);

	if (TrackedCallback::IsPending(receive_callback_)) {
	receive_callback_var_ = NULL;
	if (!TrackedCallback::IsScheduledToRun(receive_callback_))
	receive_callback_->PostRun(PP_ERROR_FAILED);
	receive_callback_ = NULL;
	}

	if (TrackedCallback::IsPending(close_callback_)) {
	if (!TrackedCallback::IsScheduledToRun(close_callback_))
	close_callback_->PostRun(params.result());
	close_callback_ = NULL;
	}
	}

	void WebSocketResource::OnPluginMsgReceiveTextReply(
	const ResourceMessageReplyParams& params,
	const std::string& message) {
	// Dispose packets after receiving an error or in invalid state.
	if (error_was_received_ \|\| !InValidStateToReceive(state_))
	return;

	// Append received data to queue.
	received_messages_.push(scoped_refptr<Var>(new StringVar(message)));

	if (!TrackedCallback::IsPending(receive_callback_) \|\|
	TrackedCallback::IsScheduledToRun(receive_callback_)) {
	return;
	}

	receive_callback_->Run(DoReceive());
	}

	void WebSocketResource::OnPluginMsgReceiveBinaryReply(
	const ResourceMessageReplyParams& params,
	const std::vector<uint8_t>& message) {
	// Dispose packets after receiving an error or in invalid state.
	if (error_was_received_ \|\| !InValidStateToReceive(state_))
	return;

	// Append received data to queue.
	scoped_refptr<Var> message_var(
	PpapiGlobals::Get()->GetVarTracker()->MakeArrayBufferVar(
	base::checked_cast<uint32_t>(message.size()),
	&message.front()));
	received_messages_.push(message_var);

	if (!TrackedCallback::IsPending(receive_callback_) \|\|
	TrackedCallback::IsScheduledToRun(receive_callback_)) {
	return;
	}

	receive_callback_->Run(DoReceive());
	}

	void WebSocketResource::OnPluginMsgErrorReply(
	const ResourceMessageReplyParams& params) {
	error_was_received_ = true;

	if (!TrackedCallback::IsPending(receive_callback_) \|\|
	TrackedCallback::IsScheduledToRun(receive_callback_)) {
	return;
	}

	// No more text or binary messages will be received. If there is ongoing
	// ReceiveMessage(), we must invoke the callback with error code here.
	receive_callback_var_ = NULL;
	receive_callback_->Run(PP_ERROR_FAILED);
	}

	void WebSocketResource::OnPluginMsgBufferedAmountReply(
	const ResourceMessageReplyParams& params,
	unsigned long buffered_amount) {
	buffered_amount_ = buffered_amount;
	}

	void WebSocketResource::OnPluginMsgStateReply(
	const ResourceMessageReplyParams& params,
	int32_t state) {
	state_ = static_cast<PP_WebSocketReadyState>(state);
	}

	void WebSocketResource::OnPluginMsgClosedReply(
	const ResourceMessageReplyParams& params,
	unsigned long buffered_amount,
	bool was_clean,
	unsigned short code,
	const std::string& reason) {
	OnPluginMsgCloseReply(params, buffered_amount, was_clean, code, reason);
	}

	int32_t WebSocketResource::DoReceive() {
	if (!receive_callback_var_)
	return PP_OK;

	*receive_callback_var_ = received_messages_.front()->GetPPVar();
	received_messages_.pop();
	receive_callback_var_ = NULL;
	return PP_OK;
	}

	} // namespace proxy
	} // namespace ppapi