// 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_SHARED_IMPL_VAR_TRACKER_H_ #define PPAPI_SHARED_IMPL_VAR_TRACKER_H_ #include #include #include "base/containers/hash_tables.h" #include "base/macros.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_ptr.h" #include "base/memory/shared_memory.h" #include "base/threading/thread_checker.h" #include "ppapi/c/pp_instance.h" #include "ppapi/c/pp_module.h" #include "ppapi/c/pp_resource.h" #include "ppapi/c/pp_var.h" #include "ppapi/shared_impl/host_resource.h" #include "ppapi/shared_impl/ppapi_shared_export.h" #include "ppapi/shared_impl/var.h" namespace IPC { class Message; } // namespace IPC namespace ppapi { class ArrayBufferVar; // Tracks non-POD (refcounted) var objects held by a plugin. // // The tricky part is the concept of a "tracked object". These are only // necessary in the plugin side of the proxy when running out of process. A // tracked object is one that the plugin is aware of, but doesn't hold a // reference to. This will happen when the plugin is passed an object as an // argument from the host (renderer) as an input argument to a sync function, // but where ownership is not passed. // // This class maintains the "track_with_no_reference_count" but doesn't do // anything with it other than call virtual functions. The interesting parts // are added by the PluginObjectVar derived from this class. class PPAPI_SHARED_EXPORT VarTracker { public: // A SINGLE_THREADED VarTracker will use a thread-checker to make sure it's // always invoked on the same thread on which it was constructed. A // THREAD_SAFE VarTracker will check that the ProxyLock is held. See // CheckThreadingPreconditions() for more details. enum ThreadMode { SINGLE_THREADED, THREAD_SAFE }; explicit VarTracker(ThreadMode thread_mode); virtual ~VarTracker(); // Called by the Var object to add a new var to the tracker. int32_t AddVar(Var* var); // Looks up a given var and returns a reference to the Var if it exists. // Returns NULL if the var type is not an object we track (POD) or is // invalid. Var* GetVar(int32_t var_id) const; Var* GetVar(const PP_Var& var) const; // Increases a previously-known Var ID's refcount, returning true on success, // false if the ID is invalid. The PP_Var version returns true and does // nothing for non-refcounted type vars. bool AddRefVar(int32_t var_id); bool AddRefVar(const PP_Var& var); // Decreases the given Var ID's refcount, returning true on success, false if // the ID is invalid or if the refcount was already 0. The PP_Var version // returns true and does nothing for non-refcounted type vars. The var will // be deleted if there are no more refs to it. bool ReleaseVar(int32_t var_id); bool ReleaseVar(const PP_Var& var); // Create a new array buffer of size |size_in_bytes|. Return a PP_Var that // that references it and has an initial reference-count of 1. PP_Var MakeArrayBufferPPVar(uint32_t size_in_bytes); // Same as above, but copy the contents of |data| in to the new array buffer. PP_Var MakeArrayBufferPPVar(uint32_t size_in_bytes, const void* data); // Same as above, but copy the contents of the shared memory in |h| // into the new array buffer. PP_Var MakeArrayBufferPPVar(uint32_t size_in_bytes, base::SharedMemoryHandle h); // Create an ArrayBuffer and copy the contents of |data| in to it. The // returned object has 0 reference count in the tracker, and like all // RefCounted objects, has a 0 initial internal reference count. (You should // usually immediately put this in a scoped_refptr). ArrayBufferVar* MakeArrayBufferVar(uint32_t size_in_bytes, const void* data); // Creates a new resource var from a resource creation message. Returns a // PP_Var that references a new PP_Resource, both with an initial reference // count of 1. On the host side, |creation_message| is ignored, and an empty // resource var is always returned. virtual PP_Var MakeResourcePPVarFromMessage( PP_Instance instance, const IPC::Message& creation_message, int pending_renderer_id, int pending_browser_id) = 0; // Creates a new resource var that points to a given resource ID. Returns a // PP_Var that references it and has an initial reference count of 1. // If |pp_resource| is 0, returns a valid, empty resource var. On the plugin // side (where it is possible to tell which resources exist), if |pp_resource| // does not exist, returns a null var. PP_Var MakeResourcePPVar(PP_Resource pp_resource); // Creates a new resource var that points to a given resource ID. This is // implemented by the host and plugin tracker separately, because the plugin // keeps a reference to the resource, and the host does not. // If |pp_resource| is 0, returns a valid, empty resource var. On the plugin // side (where it is possible to tell which resources exist), if |pp_resource| // does not exist, returns NULL. virtual ResourceVar* MakeResourceVar(PP_Resource pp_resource) = 0; // Return a vector containing all PP_Vars that are in the tracker. This is to // help implement PPB_Testing_Private.GetLiveVars and should generally not be // used in production code. The PP_Vars are returned in no particular order, // and their reference counts are unaffected. std::vector GetLiveVars(); // Retrieves the internal reference counts for testing. Returns 0 if we // know about the object but the corresponding value is 0, or -1 if the // given object ID isn't in our map. int GetRefCountForObject(const PP_Var& object); int GetTrackedWithNoReferenceCountForObject(const PP_Var& object); // Returns true if the given vartype is refcounted and has associated objects // (it's not POD). static bool IsVarTypeRefcounted(PP_VarType type); // Called after an instance is deleted to do var cleanup. virtual void DidDeleteInstance(PP_Instance instance) = 0; // Returns an "id" for a shared memory handle that can be safely sent between // the host and plugin, and resolved back into the original handle on the // host. Not implemented on the plugin side. virtual int TrackSharedMemoryHandle(PP_Instance instance, base::SharedMemoryHandle handle, uint32_t size_in_bytes) = 0; // Resolves an "id" generated by TrackSharedMemoryHandle back into // a SharedMemory handle and its size on the host. // Not implemented on the plugin side. virtual bool StopTrackingSharedMemoryHandle(int id, PP_Instance instance, base::SharedMemoryHandle* handle, uint32_t* size_in_bytes) = 0; protected: struct PPAPI_SHARED_EXPORT VarInfo { VarInfo(); VarInfo(Var* v, int input_ref_count); scoped_refptr var; // Explicit reference count. This value is affected by the renderer calling // AddRef and Release. A nonzero value here is represented by a single // reference in the host on our behalf (this reduces IPC traffic). int ref_count; // Tracked object count (see class comment above). // // "TrackObjectWithNoReference" might be called recursively in rare cases. // For example, say the host calls a plugin function with an object as an // argument, and in response, the plugin calls a host function that then // calls another (or the same) plugin function with the same object. // // This value tracks the number of calls to TrackObjectWithNoReference so // we know when we can stop tracking this object. int track_with_no_reference_count; }; typedef base::hash_map VarMap; // Specifies what should happen with the refcount when calling AddVarInternal. enum AddVarRefMode { ADD_VAR_TAKE_ONE_REFERENCE, ADD_VAR_CREATE_WITH_NO_REFERENCE }; // On the host-side, make sure we are called on the right thread. On the // plugin side, make sure we have the proxy lock. void CheckThreadingPreconditions() const; // Implementation of AddVar that allows the caller to specify whether the // initial refcount of the added object will be 0 or 1. // // Overridden in the plugin proxy to do additional object tracking. virtual int32_t AddVarInternal(Var* var, AddVarRefMode mode); // Convenience functions for doing lookups into the live_vars_ map. VarMap::iterator GetLiveVar(int32_t id); VarMap::iterator GetLiveVar(const PP_Var& var); VarMap::const_iterator GetLiveVar(const PP_Var& var) const; // Called when AddRefVar increases a "tracked" ProxyObject's refcount from // zero to one. In the plugin side of the proxy, we need to send some // messages to the host. In the host side, this should never be called since // there are no proxy objects. virtual void TrackedObjectGettingOneRef(VarMap::const_iterator iter); // Called when ReleaseVar decreases a object's refcount from one to zero. It // may still be "tracked" (has a "track_with_no_reference_count") value. In // the plugin side of the proxy, we need to tell the host that we no longer // have a reference. In the host side, this should never be called since // there are no proxy objects. virtual void ObjectGettingZeroRef(VarMap::iterator iter); // Called when an object may have had its refcount or // track_with_no_reference_count value decreased. If the object has neither // refs anymore, this will remove it and return true. Returns false if it's // still alive. // // Overridden by the PluginVarTracker to also clean up the host info map. virtual bool DeleteObjectInfoIfNecessary(VarMap::iterator iter); VarMap live_vars_; // Last assigned var ID. int32_t last_var_id_; private: // Create and return a new ArrayBufferVar size_in_bytes bytes long. This is // implemented by the Host and Plugin tracker separately, so that it can be // a real WebKit ArrayBuffer on the host side. virtual ArrayBufferVar* CreateArrayBuffer(uint32_t size_in_bytes) = 0; virtual ArrayBufferVar* CreateShmArrayBuffer( uint32_t size_in_bytes, base::SharedMemoryHandle handle) = 0; // On the host side, we want to check that we are only called on the main // thread. This is to protect us from accidentally using the tracker from // other threads (especially the IO thread). On the plugin side, the tracker // is protected by the proxy lock and is thread-safe, so this will be NULL. scoped_ptr thread_checker_; DISALLOW_COPY_AND_ASSIGN(VarTracker); }; } // namespace ppapi #endif // PPAPI_SHARED_IMPL_VAR_TRACKER_H_