// Copyright (c) 2010 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_serialization_rules.h" #include "ppapi/proxy/plugin_var_tracker.h" namespace pp { namespace proxy { PluginVarSerializationRules::PluginVarSerializationRules( PluginVarTracker* var_tracker) : var_tracker_(var_tracker) { } PluginVarSerializationRules::~PluginVarSerializationRules() { } void PluginVarSerializationRules::SendCallerOwned(const PP_Var& var, std::string* str_val) { // Nothing to do since we manage the refcount, other than retrieve the string // to use for IPC. if (var.type == PP_VARTYPE_STRING) *str_val = var_tracker_->GetString(var); } PP_Var PluginVarSerializationRules::BeginReceiveCallerOwned( const PP_Var& var, const std::string* str_val) { if (var.type == PP_VARTYPE_STRING) { // Convert the string to the context of the current process. PP_Var ret; ret.type = PP_VARTYPE_STRING; ret.value.as_id = var_tracker_->MakeString(*str_val); return ret; } return var; } void PluginVarSerializationRules::EndReceiveCallerOwned(const PP_Var& var) { if (var.type == PP_VARTYPE_STRING) { // Destroy the string BeginReceiveCallerOwned created above. var_tracker_->Release(var); } } PP_Var PluginVarSerializationRules::ReceivePassRef(const PP_Var& var, const std::string& str_val) { if (var.type == PP_VARTYPE_STRING) { // Convert the string to the context of the current process. PP_Var ret; ret.type = PP_VARTYPE_STRING; ret.value.as_id = var_tracker_->MakeString(str_val); return ret; } // Overview of sending an object with "pass ref" from the browser to the // plugin: // Example 1 Example 2 // Plugin Browser Plugin Browser // Before send 3 2 0 1 // Browser calls BeginSendPassRef 3 2 0 1 // Plugin calls ReceivePassRef 4 1 1 1 // Browser calls EndSendPassRef 4 1 1 1 // // In example 1 before the send, the plugin has 3 refs which are represented // as one ref in the browser (since the plugin only tells the browser when // it's refcount goes from 1 -> 0). The initial state is that the browser // plugin code started to return a value, which means it gets another ref // on behalf of the caller. This needs to be transferred to the plugin and // folded in to its set of refs it maintains (with one ref representing all // fo them in the browser). if (var.type == PP_VARTYPE_OBJECT) var_tracker_->ReceiveObjectPassRef(var); return var; } void PluginVarSerializationRules::BeginSendPassRef(const PP_Var& var, std::string* str_val) { // Overview of sending an object with "pass ref" from the plugin to the // browser: // Example 1 Example 2 // Plugin Browser Plugin Browser // Before send 3 1 1 1 // Plugin calls BeginSendPassRef 3 1 1 1 // Browser calls ReceivePassRef 3 2 1 2 // Plugin calls EndSendPassRef 2 2 0 1 // // The plugin maintains one ref count in the browser on behalf of the // entire ref count in the plugin. When the plugin refcount goes to 0, it // will call the browser to deref the object. This is why in example 2 // transferring the object ref to the browser involves no net change in the // browser's refcount. if (var.type == PP_VARTYPE_STRING) *str_val = var_tracker_->GetString(var); } void PluginVarSerializationRules::EndSendPassRef(const PP_Var& var) { // See BeginSendPassRef for an example of why we release our ref here. if (var.type == PP_VARTYPE_OBJECT) var_tracker_->Release(var); } void PluginVarSerializationRules::ReleaseObjectRef(const PP_Var& var) { var_tracker_->Release(var); } } // namespace proxy } // namespace pp