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// 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.
#include "ppapi/proxy/plugin_var_tracker.h"
#include "base/memory/ref_counted.h"
#include "base/memory/singleton.h"
#include "ppapi/c/dev/ppp_class_deprecated.h"
#include "ppapi/c/ppb_var.h"
#include "ppapi/proxy/plugin_array_buffer_var.h"
#include "ppapi/proxy/plugin_dispatcher.h"
#include "ppapi/proxy/ppapi_messages.h"
#include "ppapi/proxy/proxy_object_var.h"
#include "ppapi/shared_impl/api_id.h"
#include "ppapi/shared_impl/var.h"
namespace ppapi {
namespace proxy {
PluginVarTracker::HostVar::HostVar(PluginDispatcher* d, int32 i)
: dispatcher(d),
host_object_id(i) {
}
bool PluginVarTracker::HostVar::operator<(const HostVar& other) const {
if (dispatcher < other.dispatcher)
return true;
if (other.dispatcher < dispatcher)
return false;
return host_object_id < other.host_object_id;
}
PluginVarTracker::PluginVarTracker() : VarTracker(THREAD_SAFE) {
}
PluginVarTracker::~PluginVarTracker() {
}
PP_Var PluginVarTracker::ReceiveObjectPassRef(const PP_Var& host_var,
PluginDispatcher* dispatcher) {
CheckThreadingPreconditions();
DCHECK(host_var.type == PP_VARTYPE_OBJECT);
// Get the object.
scoped_refptr<ProxyObjectVar> object(
FindOrMakePluginVarFromHostVar(host_var, dispatcher));
// Actually create the PP_Var, this will add all the tracking info but not
// adjust any refcounts.
PP_Var ret = GetOrCreateObjectVarID(object.get());
VarInfo& info = GetLiveVar(ret)->second;
if (info.ref_count > 0) {
// We already had a reference to it before. That means the renderer now has
// two references on our behalf. We want to transfer that extra reference
// to our list. This means we addref in the plugin, and release the extra
// one in the renderer.
SendReleaseObjectMsg(*object);
}
info.ref_count++;
return ret;
}
PP_Var PluginVarTracker::TrackObjectWithNoReference(
const PP_Var& host_var,
PluginDispatcher* dispatcher) {
CheckThreadingPreconditions();
DCHECK(host_var.type == PP_VARTYPE_OBJECT);
// Get the object.
scoped_refptr<ProxyObjectVar> object(
FindOrMakePluginVarFromHostVar(host_var, dispatcher));
// Actually create the PP_Var, this will add all the tracking info but not
// adjust any refcounts.
PP_Var ret = GetOrCreateObjectVarID(object.get());
VarInfo& info = GetLiveVar(ret)->second;
info.track_with_no_reference_count++;
return ret;
}
void PluginVarTracker::StopTrackingObjectWithNoReference(
const PP_Var& plugin_var) {
CheckThreadingPreconditions();
DCHECK(plugin_var.type == PP_VARTYPE_OBJECT);
VarMap::iterator found = GetLiveVar(plugin_var);
if (found == live_vars_.end()) {
NOTREACHED();
return;
}
DCHECK(found->second.track_with_no_reference_count > 0);
found->second.track_with_no_reference_count--;
DeleteObjectInfoIfNecessary(found);
}
PP_Var PluginVarTracker::GetHostObject(const PP_Var& plugin_object) const {
CheckThreadingPreconditions();
if (plugin_object.type != PP_VARTYPE_OBJECT) {
NOTREACHED();
return PP_MakeUndefined();
}
Var* var = GetVar(plugin_object);
ProxyObjectVar* object = var->AsProxyObjectVar();
if (!object) {
NOTREACHED();
return PP_MakeUndefined();
}
// Make a var with the host ID.
PP_Var ret = { PP_VARTYPE_OBJECT };
ret.value.as_id = object->host_var_id();
return ret;
}
PluginDispatcher* PluginVarTracker::DispatcherForPluginObject(
const PP_Var& plugin_object) const {
CheckThreadingPreconditions();
if (plugin_object.type != PP_VARTYPE_OBJECT)
return NULL;
VarMap::const_iterator found = GetLiveVar(plugin_object);
if (found == live_vars_.end())
return NULL;
ProxyObjectVar* object = found->second.var->AsProxyObjectVar();
if (!object)
return NULL;
return object->dispatcher();
}
void PluginVarTracker::ReleaseHostObject(PluginDispatcher* dispatcher,
const PP_Var& host_object) {
CheckThreadingPreconditions();
DCHECK(host_object.type == PP_VARTYPE_OBJECT);
// Convert the host object to a normal var valid in the plugin.
HostVarToPluginVarMap::iterator found = host_var_to_plugin_var_.find(
HostVar(dispatcher, static_cast<int32>(host_object.value.as_id)));
if (found == host_var_to_plugin_var_.end()) {
NOTREACHED();
return;
}
// Now just release the object given the plugin var ID.
ReleaseVar(found->second);
}
void PluginVarTracker::DidDeleteInstance(PP_Instance instance) {
// Calling the destructors on plugin objects may in turn release other
// objects which will mutate the map out from under us. So do a two-step
// process of identifying the ones to delete, and then delete them.
//
// See the comment above user_data_to_plugin_ in the header file. We assume
// there aren't that many objects so a brute-force search is reasonable.
std::vector<void*> user_data_to_delete;
for (UserDataToPluginImplementedVarMap::const_iterator i =
user_data_to_plugin_.begin();
i != user_data_to_plugin_.end();
++i) {
if (i->second.instance == instance)
user_data_to_delete.push_back(i->first);
}
for (size_t i = 0; i < user_data_to_delete.size(); i++) {
UserDataToPluginImplementedVarMap::iterator found =
user_data_to_plugin_.find(user_data_to_delete[i]);
if (found == user_data_to_plugin_.end())
continue; // Object removed from list while we were iterating.
if (!found->second.plugin_object_id) {
// This object is for the freed instance and the plugin is not holding
// any references to it. Deallocate immediately.
found->second.ppp_class->Deallocate(found->first);
user_data_to_plugin_.erase(found);
} else {
// The plugin is holding refs to this object. We don't want to call
// Deallocate since the plugin may be depending on those refs to keep
// its data alive. To avoid crashes in this case, just clear out the
// instance to mark it and continue. When the plugin refs go to 0,
// we'll notice there is no instance and call Deallocate.
found->second.instance = 0;
}
}
}
void PluginVarTracker::DidDeleteDispatcher(PluginDispatcher* dispatcher) {
for (VarMap::iterator it = live_vars_.begin();
it != live_vars_.end();
++it) {
if (it->second.var.get() == NULL)
continue;
ProxyObjectVar* object = it->second.var->AsProxyObjectVar();
if (object && object->dispatcher() == dispatcher)
object->clear_dispatcher();
}
}
ArrayBufferVar* PluginVarTracker::CreateArrayBuffer(uint32 size_in_bytes) {
return new PluginArrayBufferVar(size_in_bytes);
}
ArrayBufferVar* PluginVarTracker::CreateShmArrayBuffer(
uint32 size_in_bytes,
base::SharedMemoryHandle handle) {
return new PluginArrayBufferVar(size_in_bytes, handle);
}
void PluginVarTracker::PluginImplementedObjectCreated(
PP_Instance instance,
const PP_Var& created_var,
const PPP_Class_Deprecated* ppp_class,
void* ppp_class_data) {
PluginImplementedVar p;
p.ppp_class = ppp_class;
p.instance = instance;
p.plugin_object_id = created_var.value.as_id;
user_data_to_plugin_[ppp_class_data] = p;
// Link the user data to the object.
ProxyObjectVar* object = GetVar(created_var)->AsProxyObjectVar();
object->set_user_data(ppp_class_data);
}
void PluginVarTracker::PluginImplementedObjectDestroyed(void* user_data) {
UserDataToPluginImplementedVarMap::iterator found =
user_data_to_plugin_.find(user_data);
if (found == user_data_to_plugin_.end()) {
NOTREACHED();
return;
}
user_data_to_plugin_.erase(found);
}
bool PluginVarTracker::IsPluginImplementedObjectAlive(void* user_data) {
return user_data_to_plugin_.find(user_data) != user_data_to_plugin_.end();
}
bool PluginVarTracker::ValidatePluginObjectCall(
const PPP_Class_Deprecated* ppp_class,
void* user_data) {
UserDataToPluginImplementedVarMap::iterator found =
user_data_to_plugin_.find(user_data);
if (found == user_data_to_plugin_.end())
return false;
return found->second.ppp_class == ppp_class;
}
int32 PluginVarTracker::AddVarInternal(Var* var, AddVarRefMode mode) {
// Normal adding.
int32 new_id = VarTracker::AddVarInternal(var, mode);
// Need to add proxy objects to the host var map.
ProxyObjectVar* proxy_object = var->AsProxyObjectVar();
if (proxy_object) {
HostVar host_var(proxy_object->dispatcher(), proxy_object->host_var_id());
DCHECK(host_var_to_plugin_var_.find(host_var) ==
host_var_to_plugin_var_.end()); // Adding an object twice, use
// FindOrMakePluginVarFromHostVar.
host_var_to_plugin_var_[host_var] = new_id;
}
return new_id;
}
void PluginVarTracker::TrackedObjectGettingOneRef(VarMap::const_iterator iter) {
ProxyObjectVar* object = iter->second.var->AsProxyObjectVar();
if (!object) {
NOTREACHED();
return;
}
DCHECK(iter->second.ref_count == 0);
// Got an AddRef for an object we have no existing reference for.
// We need to tell the browser we've taken a ref. This comes up when the
// browser passes an object as an input param and holds a ref for us.
// This must be a sync message since otherwise the "addref" will actually
// occur after the return to the browser of the sync function that
// presumably sent the object.
SendAddRefObjectMsg(*object);
}
void PluginVarTracker::ObjectGettingZeroRef(VarMap::iterator iter) {
ProxyObjectVar* object = iter->second.var->AsProxyObjectVar();
if (!object) {
NOTREACHED();
return;
}
// Notify the host we're no longer holding our ref.
DCHECK(iter->second.ref_count == 0);
SendReleaseObjectMsg(*object);
UserDataToPluginImplementedVarMap::iterator found =
user_data_to_plugin_.find(object->user_data());
if (found != user_data_to_plugin_.end()) {
// This object is implemented in the plugin.
if (found->second.instance == 0) {
// Instance is destroyed. This means that we'll never get a Deallocate
// call from the renderer and we should do so now.
found->second.ppp_class->Deallocate(found->first);
user_data_to_plugin_.erase(found);
} else {
// The plugin is releasing its last reference to an object it implements.
// Clear the tracking data that links our "plugin implemented object" to
// the var. If the instance is destroyed and there is no ID, we know that
// we should just call Deallocate on the object data.
//
// See the plugin_object_id declaration for more info.
found->second.plugin_object_id = 0;
}
}
// This will optionally delete the info from live_vars_.
VarTracker::ObjectGettingZeroRef(iter);
}
bool PluginVarTracker::DeleteObjectInfoIfNecessary(VarMap::iterator iter) {
// Get the info before calling the base class's version of this function,
// which may delete the object.
ProxyObjectVar* object = iter->second.var->AsProxyObjectVar();
HostVar host_var(object->dispatcher(), object->host_var_id());
if (!VarTracker::DeleteObjectInfoIfNecessary(iter))
return false;
// Clean up the host var mapping.
DCHECK(host_var_to_plugin_var_.find(host_var) !=
host_var_to_plugin_var_.end());
host_var_to_plugin_var_.erase(host_var);
return true;
}
PP_Var PluginVarTracker::GetOrCreateObjectVarID(ProxyObjectVar* object) {
// We can't use object->GetPPVar() because we don't want to affect the
// refcount, so we have to add everything manually here.
int32 var_id = object->GetExistingVarID();
if (!var_id) {
var_id = AddVarInternal(object, ADD_VAR_CREATE_WITH_NO_REFERENCE);
object->AssignVarID(var_id);
}
PP_Var ret = { PP_VARTYPE_OBJECT };
ret.value.as_id = var_id;
return ret;
}
void PluginVarTracker::SendAddRefObjectMsg(
const ProxyObjectVar& proxy_object) {
int unused;
if (proxy_object.dispatcher()) {
proxy_object.dispatcher()->Send(new PpapiHostMsg_PPBVar_AddRefObject(
API_ID_PPB_VAR_DEPRECATED, proxy_object.host_var_id(), &unused));
}
}
void PluginVarTracker::SendReleaseObjectMsg(
const ProxyObjectVar& proxy_object) {
if (proxy_object.dispatcher()) {
proxy_object.dispatcher()->Send(new PpapiHostMsg_PPBVar_ReleaseObject(
API_ID_PPB_VAR_DEPRECATED, proxy_object.host_var_id()));
}
}
scoped_refptr<ProxyObjectVar> PluginVarTracker::FindOrMakePluginVarFromHostVar(
const PP_Var& var,
PluginDispatcher* dispatcher) {
DCHECK(var.type == PP_VARTYPE_OBJECT);
HostVar host_var(dispatcher, var.value.as_id);
HostVarToPluginVarMap::iterator found =
host_var_to_plugin_var_.find(host_var);
if (found == host_var_to_plugin_var_.end()) {
// Create a new object.
return scoped_refptr<ProxyObjectVar>(
new ProxyObjectVar(dispatcher, static_cast<int32>(var.value.as_id)));
}
// Have this host var, look up the object.
VarMap::iterator ret = live_vars_.find(found->second);
DCHECK(ret != live_vars_.end());
// All objects should be proxy objects.
DCHECK(ret->second.var->AsProxyObjectVar());
return scoped_refptr<ProxyObjectVar>(ret->second.var->AsProxyObjectVar());
}
int PluginVarTracker::TrackSharedMemoryHandle(PP_Instance instance,
base::SharedMemoryHandle handle,
uint32 size_in_bytes) {
NOTREACHED();
return -1;
}
bool PluginVarTracker::StopTrackingSharedMemoryHandle(
int id,
PP_Instance instance,
base::SharedMemoryHandle* handle,
uint32* size_in_bytes) {
NOTREACHED();
return false;
}
} // namesace proxy
} // namespace ppapi
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