ppapi/proxy/var_serialization_rules.h - 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.

 #ifndef PPAPI_PROXY_VAR_SERIALIZATION_RULES_H_
 #define PPAPI_PROXY_VAR_SERIALIZATION_RULES_H_

 #include "base/memory/ref_counted.h"
 #include "ppapi/c/pp_var.h"

 #include <string>

 namespace ppapi {
 namespace proxy {

 // Encapsulates the rules for serializing and deserializing vars to and from
 // the local process. The renderer and the plugin process each have separate
 // bookkeeping rules.
 class VarSerializationRules : public base::RefCounted<VarSerializationRules> {
  public:
   // Caller-owned calls --------------------------------------------------------
   //
   // A caller-owned call is when doing a function call with a "normal" input
   // argument. The caller has a reference to the var, and the caller is
   // responsible for freeing that reference.

   // Prepares the given var for sending to the remote process. For object vars,
   // the returned var will contain the id valid for the host process.
   // Otherwise, the returned var is valid in the local process.
   virtual PP_Var SendCallerOwned(const PP_Var& var) = 0;

   // When receiving a caller-owned variable, normally we don't have to do
   // anything. However, in the case of strings, we need to deserialize the
   // string from IPC, call the function, and then destroy the temporary string.
   // These two functions handle that process.
   //
   // BeginReceiveCallerOwned takes a var from IPC and returns a new var
   // representing the input in the local process.
   //
   // EndReceiveCallerOwned releases the reference count in the Var tracker for
   // the object or string that was added to the tracker. (Note, if the recipient
   // took a reference to the Var, it will remain in the tracker after
   // EndReceiveCallerOwned).
   virtual PP_Var BeginReceiveCallerOwned(const PP_Var& var) = 0;
   virtual void EndReceiveCallerOwned(const PP_Var& var) = 0;

   // Passing refs -------------------------------------------------------------
   //
   // A pass-ref transfer is when ownership of a reference is passed from
   // one side to the other. Normally, this happens via return values and
   // output arguments, as for exceptions. The code generating the value
   // (the function returning it in the case of a return value) will AddRef
   // the var on behalf of the consumer of the value. Responsibility for
   // Release is on the consumer (the caller of the function in the case of a
   // return value).

   // Creates a var in the context of the local process from the given
   // deserialized var. The input var should be the result of calling
   // SendPassRef in the remote process. The return value is the var valid in
   // the host process for object vars. Otherwise, the return value is a var
   // which is valid in the local process.
   virtual PP_Var ReceivePassRef(const PP_Var& var) = 0;

   // Prepares a var to be sent to the remote side. One local reference will
   // be passed to the remote side. Call Begin* before doing the send and End*
   // after doing the send
   //
   // For object vars, the return value from BeginSendPassRef will be the var
   // valid for the host process. Otherwise, it is a var that is valid in the
   // local process. This same var must be passed to EndSendPassRef.
   virtual PP_Var BeginSendPassRef(const PP_Var& var) = 0;
   virtual void EndSendPassRef(const PP_Var& var) = 0;

   // ---------------------------------------------------------------------------

   virtual void ReleaseObjectRef(const PP_Var& var) = 0;

  protected:
   VarSerializationRules() {}
   virtual ~VarSerializationRules() {}

  private:
   friend class base::RefCounted<VarSerializationRules>;
 };

 }  // namespace proxy
 }  // namespace ppapi

 #endif  // PPAPI_PROXY_VAR_SERIALIZATION_RULES_H_
	// 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.

	#ifndef PPAPI_PROXY_VAR_SERIALIZATION_RULES_H_
	#define PPAPI_PROXY_VAR_SERIALIZATION_RULES_H_

	#include "base/memory/ref_counted.h"
	#include "ppapi/c/pp_var.h"

	#include <string>

	namespace ppapi {
	namespace proxy {

	// Encapsulates the rules for serializing and deserializing vars to and from
	// the local process. The renderer and the plugin process each have separate
	// bookkeeping rules.
	class VarSerializationRules : public base::RefCounted<VarSerializationRules> {
	public:
	// Caller-owned calls --------------------------------------------------------
	//
	// A caller-owned call is when doing a function call with a "normal" input
	// argument. The caller has a reference to the var, and the caller is
	// responsible for freeing that reference.

	// Prepares the given var for sending to the remote process. For object vars,
	// the returned var will contain the id valid for the host process.
	// Otherwise, the returned var is valid in the local process.
	virtual PP_Var SendCallerOwned(const PP_Var& var) = 0;

	// When receiving a caller-owned variable, normally we don't have to do
	// anything. However, in the case of strings, we need to deserialize the
	// string from IPC, call the function, and then destroy the temporary string.
	// These two functions handle that process.
	//
	// BeginReceiveCallerOwned takes a var from IPC and returns a new var
	// representing the input in the local process.
	//
	// EndReceiveCallerOwned releases the reference count in the Var tracker for
	// the object or string that was added to the tracker. (Note, if the recipient
	// took a reference to the Var, it will remain in the tracker after
	// EndReceiveCallerOwned).
	virtual PP_Var BeginReceiveCallerOwned(const PP_Var& var) = 0;
	virtual void EndReceiveCallerOwned(const PP_Var& var) = 0;

	// Passing refs -------------------------------------------------------------
	//
	// A pass-ref transfer is when ownership of a reference is passed from
	// one side to the other. Normally, this happens via return values and
	// output arguments, as for exceptions. The code generating the value
	// (the function returning it in the case of a return value) will AddRef
	// the var on behalf of the consumer of the value. Responsibility for
	// Release is on the consumer (the caller of the function in the case of a
	// return value).

	// Creates a var in the context of the local process from the given
	// deserialized var. The input var should be the result of calling
	// SendPassRef in the remote process. The return value is the var valid in
	// the host process for object vars. Otherwise, the return value is a var
	// which is valid in the local process.
	virtual PP_Var ReceivePassRef(const PP_Var& var) = 0;

	// Prepares a var to be sent to the remote side. One local reference will
	// be passed to the remote side. Call Begin* before doing the send and End*
	// after doing the send
	//
	// For object vars, the return value from BeginSendPassRef will be the var
	// valid for the host process. Otherwise, it is a var that is valid in the
	// local process. This same var must be passed to EndSendPassRef.
	virtual PP_Var BeginSendPassRef(const PP_Var& var) = 0;
	virtual void EndSendPassRef(const PP_Var& var) = 0;

	// ---------------------------------------------------------------------------

	virtual void ReleaseObjectRef(const PP_Var& var) = 0;

	protected:
	VarSerializationRules() {}
	virtual ~VarSerializationRules() {}

	private:
	friend class base::RefCounted<VarSerializationRules>;
	};

	} // namespace proxy
	} // namespace ppapi

	#endif // PPAPI_PROXY_VAR_SERIALIZATION_RULES_H_