ppapi/proxy/enter_proxy.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_ENTER_PROXY_H_
 #define PPAPI_PROXY_ENTER_PROXY_H_

 #include <stdint.h>

 #include "base/logging.h"
 #include "ppapi/cpp/completion_callback.h"
 #include "ppapi/proxy/host_dispatcher.h"
 #include "ppapi/proxy/plugin_dispatcher.h"
 #include "ppapi/proxy/plugin_globals.h"
 #include "ppapi/proxy/plugin_resource_tracker.h"
 #include "ppapi/thunk/enter.h"

 namespace ppapi {

 namespace proxy {

 // Wrapper around EnterResourceNoLock that takes a host resource. This is used
 // when handling messages in the plugin from the host and we need to convert to
 // an object in the plugin side corresponding to that.
 //
 // This never locks since we assume the host Resource is coming from IPC, and
 // never logs errors since we assume the host is doing reasonable things.
 template<typename ResourceT>
 class EnterPluginFromHostResource
     : public thunk::EnterResourceNoLock<ResourceT> {
  public:
   explicit EnterPluginFromHostResource(const HostResource& host_resource)
       : thunk::EnterResourceNoLock<ResourceT>(
             PluginGlobals::Get()->plugin_resource_tracker()->
                 PluginResourceForHostResource(host_resource),
             false) {
     // Validate that we're in the plugin rather than the host. Otherwise this
     // object will do the wrong thing. In the plugin, the instance should have
     // a corresponding plugin dispatcher (assuming the resource is valid).
     DCHECK(this->failed() ||
            PluginDispatcher::GetForInstance(host_resource.instance()));
   }
 };

 template<typename ResourceT>
 class EnterHostFromHostResource
     : public thunk::EnterResourceNoLock<ResourceT> {
  public:
   explicit EnterHostFromHostResource(const HostResource& host_resource)
       : thunk::EnterResourceNoLock<ResourceT>(host_resource.host_resource(),
                                               false) {
     // Validate that we're in the host rather than the plugin. Otherwise this
     // object will do the wrong thing. In the host, the instance should have
     // a corresponding host disptacher (assuming the resource is valid).
     DCHECK(this->failed() ||
            HostDispatcher::GetForInstance(host_resource.instance()));
   }

   EnterHostFromHostResource(const HostResource& host_resource,
                             const pp::CompletionCallback& callback)
       : thunk::EnterResourceNoLock<ResourceT>(host_resource.host_resource(),
                                               callback.pp_completion_callback(),
                                               false) {
     // Validate that we're in the host rather than the plugin. Otherwise this
     // object will do the wrong thing. In the host, the instance should have
     // a corresponding host disptacher (assuming the resource is valid).
     DCHECK(this->failed() ||
            HostDispatcher::GetForInstance(host_resource.instance()));
   }
 };

 // Enters a resource and forces a completion callback to be issued.
 //
 // This is used when implementing the host (renderer) side of a resource
 // function that issues a completion callback. In all cases, we need to issue
 // the callback to avoid hanging the plugin.
 //
 // This class automatically constructs a callback with the given factory
 // calling the given method. The method will generally be the one that sends
 // the message to trigger the completion callback in the plugin process.
 //
 // It will automatically issue the callback with PP_ERROR_NOINTERFACE if the
 // host resource is invalid (i.e. failed() is set). In all other cases you
 // should call SetResult(), which will issue the callback immediately if the
 // result value isn't PP_OK_COMPLETIONPENDING. In the "completion pending"
 // case, it's assumed the function the proxy is calling will take responsibility
 // of executing the callback (returned by callback()).
 //
 // Example:
 //   EnterHostFromHostResourceForceCallback<PPB_Foo_API> enter(
 //       resource, callback_factory_, &MyClass::SendResult, resource);
 //   if (enter.failed())
 //     return;  // SendResult automatically called with PP_ERROR_BADRESOURCE.
 //   enter.SetResult(enter.object()->DoFoo(enter.callback()));
 //
 // Where DoFoo's signature looks like this:
 //   int32_t DoFoo(PP_CompletionCallback callback);
 // And SendResult's implementation looks like this:
 //   void MyClass::SendResult(int32_t result, const HostResource& res) {
 //     Send(new FooMsg_FooComplete(..., result, res));
 //   }
 template<typename ResourceT>
 class EnterHostFromHostResourceForceCallback
     : public EnterHostFromHostResource<ResourceT> {
  public:
   EnterHostFromHostResourceForceCallback(
       const HostResource& host_resource,
       const pp::CompletionCallback& callback)
       : EnterHostFromHostResource<ResourceT>(host_resource, callback),
         needs_running_(true) {
   }

   // For callbacks that take no parameters except the "int32_t result". Most
   // implementations will use the 1-extra-argument constructor below.
   template<class CallbackFactory, typename Method>
   EnterHostFromHostResourceForceCallback(
       const HostResource& host_resource,
       CallbackFactory& factory,
       Method method)
       : EnterHostFromHostResource<ResourceT>(host_resource,
             factory.NewOptionalCallback(method)),
         needs_running_(true) {
     if (this->failed())
       RunCallback(PP_ERROR_BADRESOURCE);
   }

   // For callbacks that take an extra parameter as a closure.
   template<class CallbackFactory, typename Method, typename A>
   EnterHostFromHostResourceForceCallback(
       const HostResource& host_resource,
       CallbackFactory& factory,
       Method method,
       const A& a)
       : EnterHostFromHostResource<ResourceT>(host_resource,
             factory.NewOptionalCallback(method, a)),
         needs_running_(true) {
     if (this->failed())
       RunCallback(PP_ERROR_BADRESOURCE);
   }

   // For callbacks that take two extra parameters as a closure.
   template<class CallbackFactory, typename Method, typename A, typename B>
   EnterHostFromHostResourceForceCallback(
       const HostResource& host_resource,
       CallbackFactory& factory,
       Method method,
       const A& a,
       const B& b)
       : EnterHostFromHostResource<ResourceT>(host_resource,
             factory.NewOptionalCallback(method, a, b)),
         needs_running_(true) {
     if (this->failed())
       RunCallback(PP_ERROR_BADRESOURCE);
   }

   // For callbacks that take three extra parameters as a closure.
   template<class CallbackFactory, typename Method, typename A, typename B,
            typename C>
   EnterHostFromHostResourceForceCallback(
       const HostResource& host_resource,
       CallbackFactory& factory,
       Method method,
       const A& a,
       const B& b,
       const C& c)
       : EnterHostFromHostResource<ResourceT>(host_resource,
             factory.NewOptionalCallback(method, a, b, c)),
         needs_running_(true) {
     if (this->failed())
       RunCallback(PP_ERROR_BADRESOURCE);
   }

   ~EnterHostFromHostResourceForceCallback() {
     if (needs_running_) {
       NOTREACHED() << "Should always call SetResult except in the "
                       "initialization failed case.";
       RunCallback(PP_ERROR_FAILED);
     }
   }

   void SetResult(int32_t result) {
     DCHECK(needs_running_) << "Don't call SetResult when there already is one.";
     if (result != PP_OK_COMPLETIONPENDING)
       RunCallback(result);
     needs_running_ = false;
     // Either we already ran the callback, or it will be run asynchronously. We
     // clear the callback so it isn't accidentally run again (and because
     // EnterBase checks that the callback has been cleared).
     this->ClearCallback();
   }

  private:
   void RunCallback(int32_t result) {
     DCHECK(needs_running_);
     needs_running_ = false;
     this->callback()->Run(result);
     this->ClearCallback();
   }

   bool needs_running_;
 };

 }  // namespace proxy
 }  // namespace ppapi

 #endif  // PPAPI_PROXY_ENTER_PROXY_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_ENTER_PROXY_H_
	#define PPAPI_PROXY_ENTER_PROXY_H_

	#include <stdint.h>

	#include "base/logging.h"
	#include "ppapi/cpp/completion_callback.h"
	#include "ppapi/proxy/host_dispatcher.h"
	#include "ppapi/proxy/plugin_dispatcher.h"
	#include "ppapi/proxy/plugin_globals.h"
	#include "ppapi/proxy/plugin_resource_tracker.h"
	#include "ppapi/thunk/enter.h"

	namespace ppapi {

	namespace proxy {

	// Wrapper around EnterResourceNoLock that takes a host resource. This is used
	// when handling messages in the plugin from the host and we need to convert to
	// an object in the plugin side corresponding to that.
	//
	// This never locks since we assume the host Resource is coming from IPC, and
	// never logs errors since we assume the host is doing reasonable things.
	template<typename ResourceT>
	class EnterPluginFromHostResource
	: public thunk::EnterResourceNoLock<ResourceT> {
	public:
	explicit EnterPluginFromHostResource(const HostResource& host_resource)
	: thunk::EnterResourceNoLock<ResourceT>(
	PluginGlobals::Get()->plugin_resource_tracker()->
	PluginResourceForHostResource(host_resource),
	false) {
	// Validate that we're in the plugin rather than the host. Otherwise this
	// object will do the wrong thing. In the plugin, the instance should have
	// a corresponding plugin dispatcher (assuming the resource is valid).
	DCHECK(this->failed() \|\|
	PluginDispatcher::GetForInstance(host_resource.instance()));
	}
	};

	template<typename ResourceT>
	class EnterHostFromHostResource
	: public thunk::EnterResourceNoLock<ResourceT> {
	public:
	explicit EnterHostFromHostResource(const HostResource& host_resource)
	: thunk::EnterResourceNoLock<ResourceT>(host_resource.host_resource(),
	false) {
	// Validate that we're in the host rather than the plugin. Otherwise this
	// object will do the wrong thing. In the host, the instance should have
	// a corresponding host disptacher (assuming the resource is valid).
	DCHECK(this->failed() \|\|
	HostDispatcher::GetForInstance(host_resource.instance()));
	}

	EnterHostFromHostResource(const HostResource& host_resource,
	const pp::CompletionCallback& callback)
	: thunk::EnterResourceNoLock<ResourceT>(host_resource.host_resource(),
	callback.pp_completion_callback(),
	false) {
	// Validate that we're in the host rather than the plugin. Otherwise this
	// object will do the wrong thing. In the host, the instance should have
	// a corresponding host disptacher (assuming the resource is valid).
	DCHECK(this->failed() \|\|
	HostDispatcher::GetForInstance(host_resource.instance()));
	}
	};

	// Enters a resource and forces a completion callback to be issued.
	//
	// This is used when implementing the host (renderer) side of a resource
	// function that issues a completion callback. In all cases, we need to issue
	// the callback to avoid hanging the plugin.
	//
	// This class automatically constructs a callback with the given factory
	// calling the given method. The method will generally be the one that sends
	// the message to trigger the completion callback in the plugin process.
	//
	// It will automatically issue the callback with PP_ERROR_NOINTERFACE if the
	// host resource is invalid (i.e. failed() is set). In all other cases you
	// should call SetResult(), which will issue the callback immediately if the
	// result value isn't PP_OK_COMPLETIONPENDING. In the "completion pending"
	// case, it's assumed the function the proxy is calling will take responsibility
	// of executing the callback (returned by callback()).
	//
	// Example:
	// EnterHostFromHostResourceForceCallback<PPB_Foo_API> enter(
	// resource, callback_factory_, &MyClass::SendResult, resource);
	// if (enter.failed())
	// return; // SendResult automatically called with PP_ERROR_BADRESOURCE.
	// enter.SetResult(enter.object()->DoFoo(enter.callback()));
	//
	// Where DoFoo's signature looks like this:
	// int32_t DoFoo(PP_CompletionCallback callback);
	// And SendResult's implementation looks like this:
	// void MyClass::SendResult(int32_t result, const HostResource& res) {
	// Send(new FooMsg_FooComplete(..., result, res));
	// }
	template<typename ResourceT>
	class EnterHostFromHostResourceForceCallback
	: public EnterHostFromHostResource<ResourceT> {
	public:
	EnterHostFromHostResourceForceCallback(
	const HostResource& host_resource,
	const pp::CompletionCallback& callback)
	: EnterHostFromHostResource<ResourceT>(host_resource, callback),
	needs_running_(true) {
	}

	// For callbacks that take no parameters except the "int32_t result". Most
	// implementations will use the 1-extra-argument constructor below.
	template<class CallbackFactory, typename Method>
	EnterHostFromHostResourceForceCallback(
	const HostResource& host_resource,
	CallbackFactory& factory,
	Method method)
	: EnterHostFromHostResource<ResourceT>(host_resource,
	factory.NewOptionalCallback(method)),
	needs_running_(true) {
	if (this->failed())
	RunCallback(PP_ERROR_BADRESOURCE);
	}

	// For callbacks that take an extra parameter as a closure.
	template<class CallbackFactory, typename Method, typename A>
	EnterHostFromHostResourceForceCallback(
	const HostResource& host_resource,
	CallbackFactory& factory,
	Method method,
	const A& a)
	: EnterHostFromHostResource<ResourceT>(host_resource,
	factory.NewOptionalCallback(method, a)),
	needs_running_(true) {
	if (this->failed())
	RunCallback(PP_ERROR_BADRESOURCE);
	}

	// For callbacks that take two extra parameters as a closure.
	template<class CallbackFactory, typename Method, typename A, typename B>
	EnterHostFromHostResourceForceCallback(
	const HostResource& host_resource,
	CallbackFactory& factory,
	Method method,
	const A& a,
	const B& b)
	: EnterHostFromHostResource<ResourceT>(host_resource,
	factory.NewOptionalCallback(method, a, b)),
	needs_running_(true) {
	if (this->failed())
	RunCallback(PP_ERROR_BADRESOURCE);
	}

	// For callbacks that take three extra parameters as a closure.
	template<class CallbackFactory, typename Method, typename A, typename B,
	typename C>
	EnterHostFromHostResourceForceCallback(
	const HostResource& host_resource,
	CallbackFactory& factory,
	Method method,
	const A& a,
	const B& b,
	const C& c)
	: EnterHostFromHostResource<ResourceT>(host_resource,
	factory.NewOptionalCallback(method, a, b, c)),
	needs_running_(true) {
	if (this->failed())
	RunCallback(PP_ERROR_BADRESOURCE);
	}

	~EnterHostFromHostResourceForceCallback() {
	if (needs_running_) {
	NOTREACHED() << "Should always call SetResult except in the "
	"initialization failed case.";
	RunCallback(PP_ERROR_FAILED);
	}
	}

	void SetResult(int32_t result) {
	DCHECK(needs_running_) << "Don't call SetResult when there already is one.";
	if (result != PP_OK_COMPLETIONPENDING)
	RunCallback(result);
	needs_running_ = false;
	// Either we already ran the callback, or it will be run asynchronously. We
	// clear the callback so it isn't accidentally run again (and because
	// EnterBase checks that the callback has been cleared).
	this->ClearCallback();
	}

	private:
	void RunCallback(int32_t result) {
	DCHECK(needs_running_);
	needs_running_ = false;
	this->callback()->Run(result);
	this->ClearCallback();
	}

	bool needs_running_;
	};

	} // namespace proxy
	} // namespace ppapi

	#endif // PPAPI_PROXY_ENTER_PROXY_H_