Make castv2 performance test work.
[chromium-blink-merge.git] / ppapi / proxy / plugin_var_tracker.h
blob24be5a2012b065d1631570413dbb1ca65a93cc8e
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef PPAPI_PROXY_PLUGIN_VAR_TRACKER_H_
6 #define PPAPI_PROXY_PLUGIN_VAR_TRACKER_H_
8 #include <map>
9 #include <string>
11 #include "base/basictypes.h"
12 #include "base/compiler_specific.h"
13 #include "base/memory/ref_counted.h"
14 #include "base/memory/shared_memory.h"
15 #include "ppapi/c/pp_stdint.h"
16 #include "ppapi/c/pp_var.h"
17 #include "ppapi/proxy/ppapi_proxy_export.h"
18 #include "ppapi/shared_impl/var_tracker.h"
20 template<typename T> struct DefaultSingletonTraits;
21 struct PPP_Class_Deprecated;
23 namespace ppapi {
25 class ProxyObjectVar;
27 namespace proxy {
29 class PluginDispatcher;
31 // Tracks live strings and objects in the plugin process.
32 class PPAPI_PROXY_EXPORT PluginVarTracker : public VarTracker {
33 public:
34 PluginVarTracker();
35 ~PluginVarTracker();
37 // Manages tracking for receiving a VARTYPE_OBJECT from the remote side
38 // (either the plugin or the renderer) that has already had its reference
39 // count incremented on behalf of the caller.
40 PP_Var ReceiveObjectPassRef(const PP_Var& var, PluginDispatcher* dispatcher);
42 // See the comment in var_tracker.h for more about what a tracked object is.
43 // This adds and releases the "track_with_no_reference_count" for a given
44 // object.
45 PP_Var TrackObjectWithNoReference(const PP_Var& host_var,
46 PluginDispatcher* dispatcher);
47 void StopTrackingObjectWithNoReference(const PP_Var& plugin_var);
49 // Returns the host var for the corresponding plugin object var. The object
50 // should be a VARTYPE_OBJECT. The reference count is not affeceted.
51 PP_Var GetHostObject(const PP_Var& plugin_object) const;
53 PluginDispatcher* DispatcherForPluginObject(
54 const PP_Var& plugin_object) const;
56 // Like Release() but the var is identified by its host object ID (as
57 // returned by GetHostObject).
58 void ReleaseHostObject(PluginDispatcher* dispatcher,
59 const PP_Var& host_object);
61 // VarTracker public overrides.
62 virtual PP_Var MakeResourcePPVarFromMessage(
63 PP_Instance instance,
64 const IPC::Message& creation_message,
65 int pending_renderer_id,
66 int pending_browser_id) override;
67 virtual ResourceVar* MakeResourceVar(PP_Resource pp_resource) override;
68 virtual void DidDeleteInstance(PP_Instance instance) override;
69 virtual int TrackSharedMemoryHandle(PP_Instance instance,
70 base::SharedMemoryHandle file,
71 uint32 size_in_bytes) override;
72 virtual bool StopTrackingSharedMemoryHandle(int id,
73 PP_Instance instance,
74 base::SharedMemoryHandle* handle,
75 uint32* size_in_bytes) override;
77 // Notification that a plugin-implemented object (PPP_Class) was created by
78 // the plugin or deallocated by WebKit over IPC.
79 void PluginImplementedObjectCreated(PP_Instance instance,
80 const PP_Var& created_var,
81 const PPP_Class_Deprecated* ppp_class,
82 void* ppp_class_data);
83 void PluginImplementedObjectDestroyed(void* ppp_class_data);
85 // Returns true if there is an object implemented by the plugin with the
86 // given user_data that has not been deallocated yet. Call this when
87 // receiving a scripting call to the plugin to validate that the object
88 // receiving the call is still alive (see user_data_to_plugin_ below).
89 bool IsPluginImplementedObjectAlive(void* user_data);
91 // Validates that the given class/user_data pair corresponds to a currently
92 // living plugin object.
93 bool ValidatePluginObjectCall(const PPP_Class_Deprecated* ppp_class,
94 void* user_data);
96 void DidDeleteDispatcher(PluginDispatcher* dispatcher);
98 private:
99 // VarTracker protected overrides.
100 virtual int32 AddVarInternal(Var* var, AddVarRefMode mode) override;
101 virtual void TrackedObjectGettingOneRef(VarMap::const_iterator iter) override;
102 virtual void ObjectGettingZeroRef(VarMap::iterator iter) override;
103 virtual bool DeleteObjectInfoIfNecessary(VarMap::iterator iter) override;
104 virtual ArrayBufferVar* CreateArrayBuffer(uint32 size_in_bytes) override;
105 virtual ArrayBufferVar* CreateShmArrayBuffer(
106 uint32 size_in_bytes,
107 base::SharedMemoryHandle handle) override;
109 private:
110 friend struct DefaultSingletonTraits<PluginVarTracker>;
111 friend class PluginProxyTestHarness;
113 // Represents a var as received from the host.
114 struct HostVar {
115 HostVar(PluginDispatcher* d, int32 i);
117 bool operator<(const HostVar& other) const;
119 // The dispatcher that sent us this object. This is used so we know how to
120 // send back requests on this object.
121 PluginDispatcher* dispatcher;
123 // The object ID that the host generated to identify the object. This is
124 // unique only within that host: different hosts could give us different
125 // objects with the same ID.
126 int32 host_object_id;
129 struct PluginImplementedVar {
130 const PPP_Class_Deprecated* ppp_class;
132 // The instance that created this Var. This will be 0 if the instance has
133 // been destroyed but the object is still alive.
134 PP_Instance instance;
136 // Represents the plugin var ID for the var corresponding to this object.
137 // If the plugin does not have a ref to the object but it's still alive
138 // (the DOM could be holding a ref keeping it alive) this will be 0.
140 // There is an obscure corner case. If the plugin returns an object to the
141 // renderer and releases all of its refs, the object will still be alive
142 // but there will be no plugin refs. It's possible for the plugin to get
143 // this same object again through the DOM, and we'll lose the correlation
144 // between plugin implemented object and car. This means we won't know when
145 // the plugin releases its last refs and may call Deallocate when the
146 // plugin is still holding a ref.
148 // However, for the plugin to be depending on holding a ref to an object
149 // that it implements that it previously released but got again through
150 // indirect means would be extremely rare, and we only allow var scripting
151 // in limited cases anyway.
152 int32 plugin_object_id;
155 // Returns the existing var ID for the given object var, creating and
156 // assigning an ID to it if necessary. This does not affect the reference
157 // count, so in the creation case the refcount will be 0. It's assumed in
158 // this case the caller will either adjust the refcount or the
159 // track_with_no_reference_count.
160 PP_Var GetOrCreateObjectVarID(ProxyObjectVar* object);
162 // Sends an addref or release message to the browser for the given object ID.
163 void SendAddRefObjectMsg(const ProxyObjectVar& proxy_object);
164 void SendReleaseObjectMsg(const ProxyObjectVar& proxy_object);
166 // Looks up the given host var. If we already know about it, returns a
167 // reference to the already-tracked object. If it doesn't creates a new one
168 // and returns it. If it's created, it's not added to the map.
169 scoped_refptr<ProxyObjectVar> FindOrMakePluginVarFromHostVar(
170 const PP_Var& var,
171 PluginDispatcher* dispatcher);
173 // Maps host vars in the host to IDs in the plugin process.
174 typedef std::map<HostVar, int32> HostVarToPluginVarMap;
175 HostVarToPluginVarMap host_var_to_plugin_var_;
177 // Maps "user data" for plugin implemented objects (PPP_Class) that are
178 // alive to various tracking info.
180 // This is tricky because there may not actually be any vars in the plugin
181 // associated with a plugin-implemented object, so they won't all have
182 // entries in our HostVarToPluginVarMap or the base class VarTracker's map.
184 // All objects that the plugin has created using CreateObject that have not
185 // yet been Deallocate()-ed by WebKit will be in this map. When the instance
186 // that created the object goes away, we know to call Deallocate on all
187 // remaining objects for that instance so that the data backing the object
188 // that the plugin owns is not leaked. We may not receive normal Deallocate
189 // calls from WebKit because the object could be leaked (attached to the DOM
190 // and outliving the plugin instance) or WebKit could send the deallocate
191 // after the out-of-process routing for that instance was torn down.
193 // There is an additional complexity. In WebKit, objects created by the
194 // plugin aren't actually bound to the plugin instance (for example, you
195 // could attach it to the DOM or send it to another plugin instance). It's
196 // possible that we could force deallocate an object when an instance id
197 // destroyed, but then another instance could get to that object somehow
198 // (like by reading it out of the DOM). We will then have deallocated the
199 // object and can't complete the call. We do not care about this case, and
200 // the calls will just fail.
201 typedef std::map<void*, PluginImplementedVar>
202 UserDataToPluginImplementedVarMap;
203 UserDataToPluginImplementedVarMap user_data_to_plugin_;
205 DISALLOW_COPY_AND_ASSIGN(PluginVarTracker);
208 } // namespace proxy
209 } // namespace ppapi
211 #endif // PPAPI_PROXY_PLUGIN_VAR_TRACKER_H_