// Copyright (c) 2013 GitHub, Inc. // Use of this source code is governed by the MIT license that can be // found in the LICENSE file. #include "shell/common/v8_value_converter.h" #include #include #include #include #include #include "base/logging.h" #include "base/values.h" #include "shell/common/gin_helper/dictionary.h" #include "shell/common/node_bindings.h" #include "shell/common/node_includes.h" namespace electron { namespace { const int kMaxRecursionDepth = 100; } // namespace // The state of a call to FromV8Value. class V8ValueConverter::FromV8ValueState { public: // Level scope which updates the current depth of some FromV8ValueState. class Level { public: explicit Level(FromV8ValueState* state) : state_(state) { state_->max_recursion_depth_--; } ~Level() { state_->max_recursion_depth_++; } private: FromV8ValueState* state_; }; FromV8ValueState() : max_recursion_depth_(kMaxRecursionDepth) {} // If |handle| is not in |unique_map_|, then add it to |unique_map_| and // return true. // // Otherwise do nothing and return false. Here "A is unique" means that no // other handle B in the map points to the same object as A. Note that A can // be unique even if there already is another handle with the same identity // hash (key) in the map, because two objects can have the same hash. bool AddToUniquenessCheck(v8::Local handle) { int hash; auto iter = GetIteratorInMap(handle, &hash); if (iter != unique_map_.end()) return false; unique_map_.insert(std::make_pair(hash, handle)); return true; } bool RemoveFromUniquenessCheck(v8::Local handle) { int unused_hash; auto iter = GetIteratorInMap(handle, &unused_hash); if (iter == unique_map_.end()) return false; unique_map_.erase(iter); return true; } bool HasReachedMaxRecursionDepth() { return max_recursion_depth_ < 0; } private: using HashToHandleMap = std::multimap>; using Iterator = HashToHandleMap::const_iterator; Iterator GetIteratorInMap(v8::Local handle, int* hash) { *hash = handle->GetIdentityHash(); // We only compare using == with handles to objects with the same identity // hash. Different hash obviously means different objects, but two objects // in a couple of thousands could have the same identity hash. std::pair range = unique_map_.equal_range(*hash); for (auto it = range.first; it != range.second; ++it) { // Operator == for handles actually compares the underlying objects. if (it->second == handle) return it; } // Not found. return unique_map_.end(); } HashToHandleMap unique_map_; int max_recursion_depth_; }; // A class to ensure that objects/arrays that are being converted by // this V8ValueConverterImpl do not have cycles. // // An example of cycle: var v = {}; v = {key: v}; // Not an example of cycle: var v = {}; a = [v, v]; or w = {a: v, b: v}; class V8ValueConverter::ScopedUniquenessGuard { public: ScopedUniquenessGuard(V8ValueConverter::FromV8ValueState* state, v8::Local value) : state_(state), value_(value), is_valid_(state_->AddToUniquenessCheck(value_)) {} ~ScopedUniquenessGuard() { if (is_valid_) { bool removed = state_->RemoveFromUniquenessCheck(value_); DCHECK(removed); } } bool is_valid() const { return is_valid_; } private: typedef std::multimap> HashToHandleMap; V8ValueConverter::FromV8ValueState* state_; v8::Local value_; bool is_valid_; DISALLOW_COPY_AND_ASSIGN(ScopedUniquenessGuard); }; V8ValueConverter::V8ValueConverter() = default; void V8ValueConverter::SetRegExpAllowed(bool val) { reg_exp_allowed_ = val; } void V8ValueConverter::SetFunctionAllowed(bool val) { function_allowed_ = val; } void V8ValueConverter::SetStripNullFromObjects(bool val) { strip_null_from_objects_ = val; } v8::Local V8ValueConverter::ToV8Value( const base::Value* value, v8::Local context) const { v8::Context::Scope context_scope(context); v8::EscapableHandleScope handle_scope(context->GetIsolate()); return handle_scope.Escape(ToV8ValueImpl(context->GetIsolate(), value)); } std::unique_ptr V8ValueConverter::FromV8Value( v8::Local val, v8::Local context) const { v8::Context::Scope context_scope(context); v8::HandleScope handle_scope(context->GetIsolate()); FromV8ValueState state; return FromV8ValueImpl(&state, val, context->GetIsolate()); } v8::Local V8ValueConverter::ToV8ValueImpl( v8::Isolate* isolate, const base::Value* value) const { switch (value->type()) { case base::Value::Type::NONE: return v8::Null(isolate); case base::Value::Type::BOOLEAN: { bool val = value->GetBool(); return v8::Boolean::New(isolate, val); } case base::Value::Type::INTEGER: { int val = value->GetInt(); return v8::Integer::New(isolate, val); } case base::Value::Type::DOUBLE: { double val = value->GetDouble(); return v8::Number::New(isolate, val); } case base::Value::Type::STRING: { std::string val = value->GetString(); return v8::String::NewFromUtf8(isolate, val.c_str(), v8::NewStringType::kNormal, val.length()) .ToLocalChecked(); } case base::Value::Type::LIST: return ToV8Array(isolate, static_cast(value)); case base::Value::Type::DICTIONARY: return ToV8Object(isolate, static_cast(value)); case base::Value::Type::BINARY: return ToArrayBuffer(isolate, static_cast(value)); default: LOG(ERROR) << "Unexpected value type: " << value->type(); return v8::Null(isolate); } } v8::Local V8ValueConverter::ToV8Array( v8::Isolate* isolate, const base::ListValue* val) const { v8::Local result(v8::Array::New(isolate, val->GetSize())); auto context = isolate->GetCurrentContext(); for (size_t i = 0; i < val->GetSize(); ++i) { const base::Value* child = nullptr; val->Get(i, &child); v8::Local child_v8 = ToV8ValueImpl(isolate, child); v8::TryCatch try_catch(isolate); result->Set(context, static_cast(i), child_v8).Check(); if (try_catch.HasCaught()) LOG(ERROR) << "Setter for index " << i << " threw an exception."; } return result; } v8::Local V8ValueConverter::ToV8Object( v8::Isolate* isolate, const base::DictionaryValue* val) const { gin_helper::Dictionary result = gin::Dictionary::CreateEmpty(isolate); result.SetHidden("simple", true); for (base::DictionaryValue::Iterator iter(*val); !iter.IsAtEnd(); iter.Advance()) { const std::string& key = iter.key(); v8::Local child_v8 = ToV8ValueImpl(isolate, &iter.value()); v8::TryCatch try_catch(isolate); result.Set(key, child_v8); if (try_catch.HasCaught()) { LOG(ERROR) << "Setter for property " << key.c_str() << " threw an " << "exception."; } } return result.GetHandle(); } v8::Local V8ValueConverter::ToArrayBuffer( v8::Isolate* isolate, const base::Value* value) const { const auto* data = reinterpret_cast(value->GetBlob().data()); size_t length = value->GetBlob().size(); if (NodeBindings::IsInitialized()) { return node::Buffer::Copy(isolate, data, length).ToLocalChecked(); } if (length > node::Buffer::kMaxLength) { return v8::Local(); } auto context = isolate->GetCurrentContext(); auto array_buffer = v8::ArrayBuffer::New(isolate, length); std::shared_ptr backing_store = array_buffer->GetBackingStore(); memcpy(backing_store->Data(), data, length); // From this point, if something goes wrong(can't find Buffer class for // example) we'll simply return a Uint8Array based on the created ArrayBuffer. // This can happen if no preload script was specified to the renderer. gin_helper::Dictionary global(isolate, context->Global()); v8::Local buffer_value; // Get the Buffer class stored as a hidden value in the global object. We'll // use it return a browserified Buffer. if (!global.GetHidden("Buffer", &buffer_value) || !buffer_value->IsFunction()) { return v8::Uint8Array::New(array_buffer, 0, length); } gin::Dictionary buffer_class( isolate, buffer_value->ToObject(isolate->GetCurrentContext()).ToLocalChecked()); v8::Local from_value; if (!buffer_class.Get("from", &from_value) || !from_value->IsFunction()) { return v8::Uint8Array::New(array_buffer, 0, length); } v8::Local args[] = {array_buffer}; auto func = from_value.As(); auto result = func->Call(context, v8::Null(isolate), 1, args); if (!result.IsEmpty()) { return result.ToLocalChecked(); } return v8::Uint8Array::New(array_buffer, 0, length); } std::unique_ptr V8ValueConverter::FromV8ValueImpl( FromV8ValueState* state, v8::Local val, v8::Isolate* isolate) const { FromV8ValueState::Level state_level(state); if (state->HasReachedMaxRecursionDepth()) return nullptr; if (val->IsExternal()) return std::make_unique(); if (val->IsNull()) return std::make_unique(); auto context = isolate->GetCurrentContext(); if (val->IsBoolean()) return std::make_unique(val->ToBoolean(isolate)->Value()); if (val->IsInt32()) return std::make_unique(val.As()->Value()); if (val->IsNumber()) { double val_as_double = val.As()->Value(); if (!std::isfinite(val_as_double)) return nullptr; return std::make_unique(val_as_double); } if (val->IsString()) { v8::String::Utf8Value utf8(isolate, val); return std::make_unique(std::string(*utf8, utf8.length())); } if (val->IsUndefined()) // JSON.stringify ignores undefined. return nullptr; if (val->IsDate()) { v8::Date* date = v8::Date::Cast(*val); v8::Local toISOString = date->Get(context, v8::String::NewFromUtf8(isolate, "toISOString", v8::NewStringType::kNormal) .ToLocalChecked()) .ToLocalChecked(); if (toISOString->IsFunction()) { v8::MaybeLocal result = toISOString.As()->Call(context, val, 0, nullptr); if (!result.IsEmpty()) { v8::String::Utf8Value utf8(isolate, result.ToLocalChecked()); return std::make_unique(std::string(*utf8, utf8.length())); } } } if (val->IsRegExp()) { if (!reg_exp_allowed_) // JSON.stringify converts to an object. return FromV8Object(val.As(), state, isolate); return std::make_unique(*v8::String::Utf8Value(isolate, val)); } // v8::Value doesn't have a ToArray() method for some reason. if (val->IsArray()) return FromV8Array(val.As(), state, isolate); if (val->IsFunction()) { if (!function_allowed_) // JSON.stringify refuses to convert function(){}. return nullptr; return FromV8Object(val.As(), state, isolate); } if (node::Buffer::HasInstance(val)) { return FromNodeBuffer(val, state, isolate); } if (val->IsObject()) { return FromV8Object(val.As(), state, isolate); } LOG(ERROR) << "Unexpected v8 value type encountered."; return nullptr; } std::unique_ptr V8ValueConverter::FromV8Array( v8::Local val, FromV8ValueState* state, v8::Isolate* isolate) const { ScopedUniquenessGuard uniqueness_guard(state, val); if (!uniqueness_guard.is_valid()) return std::make_unique(); std::unique_ptr scope; // If val was created in a different context than our current one, change to // that context, but change back after val is converted. if (!val->CreationContext().IsEmpty() && val->CreationContext() != isolate->GetCurrentContext()) scope = std::make_unique(val->CreationContext()); std::unique_ptr result(new base::ListValue()); // Only fields with integer keys are carried over to the ListValue. for (uint32_t i = 0; i < val->Length(); ++i) { v8::TryCatch try_catch(isolate); v8::Local child_v8; v8::MaybeLocal maybe_child = val->Get(isolate->GetCurrentContext(), i); if (try_catch.HasCaught() || !maybe_child.ToLocal(&child_v8)) { LOG(ERROR) << "Getter for index " << i << " threw an exception."; child_v8 = v8::Null(isolate); } if (!val->HasRealIndexedProperty(isolate->GetCurrentContext(), i) .FromMaybe(false)) { result->Append(std::make_unique()); continue; } std::unique_ptr child = FromV8ValueImpl(state, child_v8, isolate); if (child) result->Append(std::move(child)); else // JSON.stringify puts null in places where values don't serialize, for // example undefined and functions. Emulate that behavior. result->Append(std::make_unique()); } return std::move(result); } std::unique_ptr V8ValueConverter::FromNodeBuffer( v8::Local value, FromV8ValueState* state, v8::Isolate* isolate) const { std::vector buffer( node::Buffer::Data(value), node::Buffer::Data(value) + node::Buffer::Length(value)); return std::make_unique(std::move(buffer)); } std::unique_ptr V8ValueConverter::FromV8Object( v8::Local val, FromV8ValueState* state, v8::Isolate* isolate) const { ScopedUniquenessGuard uniqueness_guard(state, val); if (!uniqueness_guard.is_valid()) return std::make_unique(); std::unique_ptr scope; // If val was created in a different context than our current one, change to // that context, but change back after val is converted. if (!val->CreationContext().IsEmpty() && val->CreationContext() != isolate->GetCurrentContext()) scope = std::make_unique(val->CreationContext()); auto result = std::make_unique(); v8::Local property_names; if (!val->GetOwnPropertyNames(isolate->GetCurrentContext()) .ToLocal(&property_names)) { return std::move(result); } for (uint32_t i = 0; i < property_names->Length(); ++i) { v8::Local key = property_names->Get(isolate->GetCurrentContext(), i).ToLocalChecked(); // Extend this test to cover more types as necessary and if sensible. if (!key->IsString() && !key->IsNumber()) { NOTREACHED() << "Key \"" << *v8::String::Utf8Value(isolate, key) << "\" " "is neither a string nor a number"; continue; } v8::String::Utf8Value name_utf8(isolate, key); v8::TryCatch try_catch(isolate); v8::Local child_v8; v8::MaybeLocal maybe_child = val->Get(isolate->GetCurrentContext(), key); if (try_catch.HasCaught() || !maybe_child.ToLocal(&child_v8)) { LOG(ERROR) << "Getter for property " << *name_utf8 << " threw an exception."; child_v8 = v8::Null(isolate); } std::unique_ptr child = FromV8ValueImpl(state, child_v8, isolate); if (!child) // JSON.stringify skips properties whose values don't serialize, for // example undefined and functions. Emulate that behavior. continue; // Strip null if asked (and since undefined is turned into null, undefined // too). The use case for supporting this is JSON-schema support, // specifically for extensions, where "optional" JSON properties may be // represented as null, yet due to buggy legacy code elsewhere isn't // treated as such (potentially causing crashes). For example, the // "tabs.create" function takes an object as its first argument with an // optional "windowId" property. // // Given just // // tabs.create({}) // // this will work as expected on code that only checks for the existence of // a "windowId" property (such as that legacy code). However given // // tabs.create({windowId: null}) // // there *is* a "windowId" property, but since it should be an int, code // on the browser which doesn't additionally check for null will fail. // We can avoid all bugs related to this by stripping null. if (strip_null_from_objects_ && child->is_none()) continue; result->SetWithoutPathExpansion(std::string(*name_utf8, name_utf8.length()), std::move(child)); } return std::move(result); } } // namespace electron