// Copyright (c) 2013 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/shared_impl/var_value_conversions.h" #include <limits> #include <set> #include <stack> #include "base/logging.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_ptr.h" #include "base/stl_util.h" #include "base/values.h" #include "ppapi/c/pp_bool.h" #include "ppapi/c/pp_stdint.h" #include "ppapi/shared_impl/array_var.h" #include "ppapi/shared_impl/dictionary_var.h" #include "ppapi/shared_impl/ppapi_globals.h" #include "ppapi/shared_impl/scoped_pp_var.h" #include "ppapi/shared_impl/var.h" #include "ppapi/shared_impl/var_tracker.h" namespace ppapi { namespace { // In CreateValueFromVar(), a stack is used to keep track of conversion progress // of array and dictionary vars. VarNode represents elements of that stack. struct VarNode { VarNode(const PP_Var& in_var, base::Value* in_value) : var(in_var), value(in_value), sentinel(false) { } // This object doesn't hold a reference to it. PP_Var var; // It is not owned by this object. base::Value* value; // When this is set to true for a node in the stack, it means that we have // finished processing the node itself. However, we keep it in the stack as // a sentinel. When it becomes the top element of the stack again, we know // that we have processed all the descendants of this node. bool sentinel; }; // In CreateVarFromValue(), a stack is used to keep track of conversion progress // of list and dictionary values. ValueNode represents elements of that stack. struct ValueNode { ValueNode(const PP_Var& in_var, const base::Value* in_value) : var(in_var), value(in_value) { } // This object doesn't hold a reference to it. PP_Var var; // It is not owned by this object. const base::Value* value; }; // Helper function for CreateValueFromVar(). It only looks at |var| but not its // descendants. The conversion result is stored in |value|. If |var| is array or // dictionary, a new node is pushed onto |state|. // // Returns false on failure. bool CreateValueFromVarHelper(const std::set<int64_t>& parent_ids, const PP_Var& var, scoped_ptr<base::Value>* value, std::stack<VarNode>* state) { switch (var.type) { case PP_VARTYPE_UNDEFINED: case PP_VARTYPE_NULL: { value->reset(base::Value::CreateNullValue()); return true; } case PP_VARTYPE_BOOL: { value->reset(new base::FundamentalValue(PP_ToBool(var.value.as_bool))); return true; } case PP_VARTYPE_INT32: { value->reset(new base::FundamentalValue(var.value.as_int)); return true; } case PP_VARTYPE_DOUBLE: { value->reset(new base::FundamentalValue(var.value.as_double)); return true; } case PP_VARTYPE_STRING: { StringVar* string_var = StringVar::FromPPVar(var); if (!string_var) return false; value->reset(new base::StringValue(string_var->value())); return true; } case PP_VARTYPE_OBJECT: { return false; } case PP_VARTYPE_ARRAY: { if (ContainsKey(parent_ids, var.value.as_id)) { // A circular reference is found. return false; } value->reset(new base::ListValue()); state->push(VarNode(var, value->get())); return true; } case PP_VARTYPE_DICTIONARY: { if (ContainsKey(parent_ids, var.value.as_id)) { // A circular reference is found. return false; } value->reset(new base::DictionaryValue()); state->push(VarNode(var, value->get())); return true; } case PP_VARTYPE_ARRAY_BUFFER: { ArrayBufferVar* array_buffer = ArrayBufferVar::FromPPVar(var); if (!array_buffer) return false; base::BinaryValue* binary_value = base::BinaryValue::CreateWithCopiedBuffer( static_cast<const char*>(array_buffer->Map()), array_buffer->ByteLength()); array_buffer->Unmap(); value->reset(binary_value); return true; } case PP_VARTYPE_RESOURCE: { return false; } } NOTREACHED(); return false; } // Helper function for CreateVarFromValue(). It only looks at |value| but not // its descendants. The conversion result is stored in |var|. If |value| is list // or dictionary, a new node is pushed onto |state|. // // Returns false on failure. bool CreateVarFromValueHelper(const base::Value& value, ScopedPPVar* var, std::stack<ValueNode>* state) { switch (value.GetType()) { case base::Value::TYPE_NULL: { *var = PP_MakeNull(); return true; } case base::Value::TYPE_BOOLEAN: { bool result = false; if (value.GetAsBoolean(&result)) { *var = PP_MakeBool(PP_FromBool(result)); return true; } return false; } case base::Value::TYPE_INTEGER: { int result = 0; if (value.GetAsInteger(&result)) { *var = PP_MakeInt32(result); return true; } return false; } case base::Value::TYPE_DOUBLE: { double result = 0; if (value.GetAsDouble(&result)) { *var = PP_MakeDouble(result); return true; } return false; } case base::Value::TYPE_STRING: { std::string result; if (value.GetAsString(&result)) { *var = ScopedPPVar(ScopedPPVar::PassRef(), StringVar::StringToPPVar(result)); return true; } return false; } case base::Value::TYPE_BINARY: { const base::BinaryValue& binary_value = static_cast<const base::BinaryValue&>(value); size_t size = binary_value.GetSize(); if (size > std::numeric_limits<uint32>::max()) return false; ScopedPPVar temp( ScopedPPVar::PassRef(), PpapiGlobals::Get()->GetVarTracker()->MakeArrayBufferPPVar( static_cast<uint32>(size), binary_value.GetBuffer())); if (temp.get().type == PP_VARTYPE_ARRAY_BUFFER) { *var = temp; return true; } return false; } case base::Value::TYPE_DICTIONARY: { scoped_refptr<DictionaryVar> dict_var(new DictionaryVar()); *var = ScopedPPVar(ScopedPPVar::PassRef(), dict_var->GetPPVar()); state->push(ValueNode(var->get(), &value)); return true; } case base::Value::TYPE_LIST: { scoped_refptr<ArrayVar> array_var(new ArrayVar()); *var = ScopedPPVar(ScopedPPVar::PassRef(), array_var->GetPPVar()); state->push(ValueNode(var->get(), &value)); return true; } } NOTREACHED(); return false; } } // namespace base::Value* CreateValueFromVar(const PP_Var& var) { // Used to detect circular references. std::set<int64_t> parent_ids; std::stack<VarNode> state; scoped_ptr<base::Value> root_value; if (!CreateValueFromVarHelper(parent_ids, var, &root_value, &state)) return NULL; while (!state.empty()) { VarNode& top = state.top(); if (top.sentinel) { parent_ids.erase(top.var.value.as_id); state.pop(); } else if (top.var.type == PP_VARTYPE_DICTIONARY) { parent_ids.insert(top.var.value.as_id); top.sentinel = true; DictionaryVar* dict_var = DictionaryVar::FromPPVar(top.var); if (!dict_var) return NULL; DCHECK(top.value->GetType() == base::Value::TYPE_DICTIONARY); base::DictionaryValue* dict_value = static_cast<base::DictionaryValue*>(top.value); for (DictionaryVar::KeyValueMap::const_iterator iter = dict_var->key_value_map().begin(); iter != dict_var->key_value_map().end(); ++iter) { // Skip the key-value pair if the value is undefined or null. if (iter->second.get().type == PP_VARTYPE_UNDEFINED || iter->second.get().type == PP_VARTYPE_NULL) { continue; } scoped_ptr<base::Value> child_value; if (!CreateValueFromVarHelper(parent_ids, iter->second.get(), &child_value, &state)) { return NULL; } dict_value->SetWithoutPathExpansion(iter->first, child_value.release()); } } else if (top.var.type == PP_VARTYPE_ARRAY) { parent_ids.insert(top.var.value.as_id); top.sentinel = true; ArrayVar* array_var = ArrayVar::FromPPVar(top.var); if (!array_var) return NULL; DCHECK(top.value->GetType() == base::Value::TYPE_LIST); base::ListValue* list_value = static_cast<base::ListValue*>(top.value); for (ArrayVar::ElementVector::const_iterator iter = array_var->elements().begin(); iter != array_var->elements().end(); ++iter) { scoped_ptr<base::Value> child_value; if (!CreateValueFromVarHelper(parent_ids, iter->get(), &child_value, &state)) { return NULL; } list_value->Append(child_value.release()); } } else { NOTREACHED(); return NULL; } } DCHECK(parent_ids.empty()); return root_value.release(); } PP_Var CreateVarFromValue(const base::Value& value) { std::stack<ValueNode> state; ScopedPPVar root_var; if (!CreateVarFromValueHelper(value, &root_var, &state)) return PP_MakeUndefined(); while (!state.empty()) { ValueNode top = state.top(); state.pop(); if (top.value->GetType() == base::Value::TYPE_DICTIONARY) { const base::DictionaryValue* dict_value = static_cast<const base::DictionaryValue*>(top.value); DictionaryVar* dict_var = DictionaryVar::FromPPVar(top.var); DCHECK(dict_var); for (base::DictionaryValue::Iterator iter(*dict_value); !iter.IsAtEnd(); iter.Advance()) { ScopedPPVar child_var; if (!CreateVarFromValueHelper(iter.value(), &child_var, &state) || !dict_var->SetWithStringKey(iter.key(), child_var.get())) { return PP_MakeUndefined(); } } } else if (top.value->GetType() == base::Value::TYPE_LIST) { const base::ListValue* list_value = static_cast<const base::ListValue*>(top.value); ArrayVar* array_var = ArrayVar::FromPPVar(top.var); DCHECK(array_var); for (base::ListValue::const_iterator iter = list_value->begin(); iter != list_value->end(); ++iter) { ScopedPPVar child_var; if (!CreateVarFromValueHelper(**iter, &child_var, &state)) return PP_MakeUndefined(); array_var->elements().push_back(child_var); } } else { NOTREACHED(); return PP_MakeUndefined(); } } return root_var.Release(); } base::ListValue* CreateListValueFromVarVector( const std::vector<PP_Var>& vars) { scoped_ptr<base::ListValue> list_value(new base::ListValue()); for (std::vector<PP_Var>::const_iterator iter = vars.begin(); iter != vars.end(); ++iter) { base::Value* value = CreateValueFromVar(*iter); if (!value) return NULL; list_value->Append(value); } return list_value.release(); } bool CreateVarVectorFromListValue(const base::ListValue& list_value, std::vector<PP_Var>* vars) { if (!vars) return false; std::vector<ScopedPPVar> result; result.reserve(list_value.GetSize()); for (base::ListValue::const_iterator iter = list_value.begin(); iter != list_value.end(); ++iter) { ScopedPPVar child_var(ScopedPPVar::PassRef(), CreateVarFromValue(**iter)); if (child_var.get().type == PP_VARTYPE_UNDEFINED) return false; result.push_back(child_var); } vars->clear(); vars->reserve(result.size()); for (std::vector<ScopedPPVar>::iterator iter = result.begin(); iter != result.end(); ++iter) { vars->push_back(iter->Release()); } return true; } } // namespace ppapi