// 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_THUNK_ENTER_H_ #define PPAPI_THUNK_ENTER_H_ #include #include "base/basictypes.h" #include "base/memory/ref_counted.h" #include "ppapi/c/pp_errors.h" #include "ppapi/c/pp_resource.h" #include "ppapi/shared_impl/ppapi_globals.h" #include "ppapi/shared_impl/proxy_lock.h" #include "ppapi/shared_impl/resource.h" #include "ppapi/shared_impl/resource_tracker.h" #include "ppapi/shared_impl/singleton_resource_id.h" #include "ppapi/shared_impl/tracked_callback.h" #include "ppapi/thunk/ppapi_thunk_export.h" #include "ppapi/thunk/ppb_instance_api.h" #include "ppapi/thunk/resource_creation_api.h" namespace ppapi { namespace thunk { // Enter* helper objects: These objects wrap a call from the C PPAPI into // the internal implementation. They make sure the lock is acquired and will // automatically set up some stuff for you. // // You should always check whether the enter succeeded before using the object. // If this fails, then the instance or resource ID supplied was invalid. // // The |report_error| arguments to the constructor should indicate if errors // should be logged to the console. If the calling function expects that the // input values are correct (the normal case), this should be set to true. In // some case like |IsFoo(PP_Resource)| the caller is questioning whether their // handle is this type, and we don't want to report an error if it's not. // // Resource member functions: EnterResource // Automatically interprets the given PP_Resource as a resource ID and sets // up the resource object for you. namespace subtle { // This helps us define our RAII Enter classes easily. To make an RAII class // which locks the proxy lock on construction and unlocks on destruction, // inherit from |LockOnEntry| before all other base classes. This ensures // that the lock is acquired before any other base class's constructor can run, // and that the lock is only released after all other destructors have run. // (This order of initialization is guaranteed by C++98/C++11 12.6.2.10). // // For cases where you don't want to lock, inherit from |LockOnEntry|. // This allows us to share more code between Enter* and Enter*NoLock classes. template struct LockOnEntry; template <> struct LockOnEntry { #if (!NDEBUG) LockOnEntry() { // You must already hold the lock to use Enter*NoLock. ProxyLock::AssertAcquired(); } ~LockOnEntry() { // You must not release the lock before leaving the scope of the // Enter*NoLock. ProxyLock::AssertAcquired(); } #endif }; template <> struct LockOnEntry { LockOnEntry() { ppapi::ProxyLock::Acquire(); } ~LockOnEntry() { ppapi::ProxyLock::Release(); } }; // Keep non-templatized since we need non-inline functions here. class PPAPI_THUNK_EXPORT EnterBase { public: EnterBase(); explicit EnterBase(PP_Resource resource); EnterBase(PP_Instance instance, SingletonResourceID resource_id); EnterBase(PP_Resource resource, const PP_CompletionCallback& callback); EnterBase(PP_Instance instance, SingletonResourceID resource_id, const PP_CompletionCallback& callback); virtual ~EnterBase(); // Sets the result for calls that use a completion callback. It handles making // sure that "Required" callbacks are scheduled to run asynchronously and // "Blocking" callbacks cause the caller to block. (Interface implementations, // therefore, should not do any special casing based on the type of the // callback.) // // Returns the "retval()". This is to support the typical usage of // return enter.SetResult(...); // without having to write a separate "return enter.retval();" line. int32_t SetResult(int32_t result); // Use this value as the return value for the function. int32_t retval() const { return retval_; } // All failure conditions cause retval_ to be set to an appropriate error // code. bool succeeded() const { return retval_ == PP_OK; } bool failed() const { return !succeeded(); } const scoped_refptr& callback() { return callback_; } protected: // Helper function to return a Resource from a PP_Resource. Having this // code be in the non-templatized base keeps us from having to instantiate // it in every template. static Resource* GetResource(PP_Resource resource); // Helper function to return a Resource from a PP_Instance and singleton // resource identifier. static Resource* GetSingletonResource(PP_Instance instance, SingletonResourceID resource_id); void ClearCallback(); // Does error handling associated with entering a resource. The resource_base // is the result of looking up the given pp_resource. The object is the // result of converting the base to the desired object (converted to a void* // so this function doesn't have to be templatized). The reason for passing // both resource_base and object is that we can differentiate "bad resource // ID" from "valid resource ID not of the correct type." // // This will set retval_ = PP_ERROR_BADRESOURCE if the object is invalid, and // if report_error is set, log a message to the programmer. void SetStateForResourceError(PP_Resource pp_resource, Resource* resource_base, void* object, bool report_error); // Same as SetStateForResourceError except for function API. void SetStateForFunctionError(PP_Instance pp_instance, void* object, bool report_error); // For Enter objects that need a resource, we'll store a pointer to the // Resource object so that we don't need to look it up more than once. For // Enter objects with no resource, this will be NULL. Resource* resource_; private: bool CallbackIsValid() const; // Checks whether the callback is valid (i.e., if it is either non-blocking, // or blocking and we're on a background thread). If the callback is invalid, // this will set retval_ = PP_ERROR_BLOCKS_MAIN_THREAD, and if report_error is // set, it will log a message to the programmer. void SetStateForCallbackError(bool report_error); // Holds the callback. For Enter objects that aren't given a callback, this // will be NULL. scoped_refptr callback_; int32_t retval_; }; } // namespace subtle // EnterResource --------------------------------------------------------------- template class EnterResource : public subtle::LockOnEntry, // Must be first; see above. public subtle::EnterBase { public: EnterResource(PP_Resource resource, bool report_error) : EnterBase(resource) { Init(resource, report_error); } EnterResource(PP_Resource resource, const PP_CompletionCallback& callback, bool report_error) : EnterBase(resource, callback) { Init(resource, report_error); } ~EnterResource() {} ResourceT* object() { return object_; } Resource* resource() { return resource_; } private: void Init(PP_Resource resource, bool report_error) { if (resource_) object_ = resource_->GetAs(); else object_ = NULL; // Validate the resource (note, if both are wrong, we will return // PP_ERROR_BADRESOURCE; last in wins). SetStateForResourceError(resource, resource_, object_, report_error); } ResourceT* object_; DISALLOW_COPY_AND_ASSIGN(EnterResource); }; // ---------------------------------------------------------------------------- // Like EnterResource but assumes the lock is already held. template class EnterResourceNoLock : public EnterResource { public: EnterResourceNoLock(PP_Resource resource, bool report_error) : EnterResource(resource, report_error) { } EnterResourceNoLock(PP_Resource resource, const PP_CompletionCallback& callback, bool report_error) : EnterResource(resource, callback, report_error) { } }; // EnterInstance --------------------------------------------------------------- class PPAPI_THUNK_EXPORT EnterInstance : public subtle::LockOnEntry, // Must be first; see above. public subtle::EnterBase { public: explicit EnterInstance(PP_Instance instance); EnterInstance(PP_Instance instance, const PP_CompletionCallback& callback); ~EnterInstance(); bool succeeded() const { return !!functions_; } bool failed() const { return !functions_; } PPB_Instance_API* functions() const { return functions_; } private: PPB_Instance_API* functions_; }; class PPAPI_THUNK_EXPORT EnterInstanceNoLock : public subtle::LockOnEntry, // Must be first; see above. public subtle::EnterBase { public: explicit EnterInstanceNoLock(PP_Instance instance); EnterInstanceNoLock(PP_Instance instance, const PP_CompletionCallback& callback); ~EnterInstanceNoLock(); PPB_Instance_API* functions() { return functions_; } private: PPB_Instance_API* functions_; }; // EnterInstanceAPI ------------------------------------------------------------ template class EnterInstanceAPI : public subtle::LockOnEntry, // Must be first; see above public subtle::EnterBase { public: explicit EnterInstanceAPI(PP_Instance instance) : EnterBase(instance, ApiT::kSingletonResourceID), functions_(NULL) { if (resource_) functions_ = resource_->GetAs(); SetStateForFunctionError(instance, functions_, true); } EnterInstanceAPI(PP_Instance instance, const PP_CompletionCallback& callback) : EnterBase(instance, ApiT::kSingletonResourceID, callback), functions_(NULL) { if (resource_) functions_ = resource_->GetAs(); SetStateForFunctionError(instance, functions_, true); } ~EnterInstanceAPI() {} bool succeeded() const { return !!functions_; } bool failed() const { return !functions_; } ApiT* functions() const { return functions_; } private: ApiT* functions_; }; template class EnterInstanceAPINoLock : public EnterInstanceAPI { public: explicit EnterInstanceAPINoLock(PP_Instance instance) : EnterInstanceAPI(instance) { } }; // EnterResourceCreation ------------------------------------------------------- class PPAPI_THUNK_EXPORT EnterResourceCreation : public subtle::LockOnEntry, // Must be first; see above. public subtle::EnterBase { public: explicit EnterResourceCreation(PP_Instance instance); ~EnterResourceCreation(); ResourceCreationAPI* functions() { return functions_; } private: ResourceCreationAPI* functions_; }; class PPAPI_THUNK_EXPORT EnterResourceCreationNoLock : public subtle::LockOnEntry, // Must be first; see above. public subtle::EnterBase { public: explicit EnterResourceCreationNoLock(PP_Instance instance); ~EnterResourceCreationNoLock(); ResourceCreationAPI* functions() { return functions_; } private: ResourceCreationAPI* functions_; }; } // namespace thunk } // namespace ppapi #endif // PPAPI_THUNK_ENTER_H_