// Copyright (c) 2020 Slack Technologies, 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_serializer.h" #include #include #include "gin/converter.h" #include "shell/common/api/electron_api_native_image.h" #include "shell/common/gin_helper/microtasks_scope.h" #include "skia/public/mojom/bitmap.mojom.h" #include "third_party/blink/public/common/messaging/cloneable_message.h" #include "ui/gfx/image/image_skia.h" #include "v8/include/v8.h" namespace electron { namespace { enum SerializationTag { kNativeImageTag = 'i', kVersionTag = 0xFF }; } // namespace class V8Serializer : public v8::ValueSerializer::Delegate { public: explicit V8Serializer(v8::Isolate* isolate) : isolate_(isolate), serializer_(isolate, this) {} ~V8Serializer() override = default; bool Serialize(v8::Local value, blink::CloneableMessage* out) { gin_helper::MicrotasksScope microtasks_scope( isolate_, v8::MicrotasksScope::kDoNotRunMicrotasks); WriteBlinkEnvelope(19); serializer_.WriteHeader(); bool wrote_value; if (!serializer_.WriteValue(isolate_->GetCurrentContext(), value) .To(&wrote_value)) { isolate_->ThrowException(v8::Exception::Error( gin::StringToV8(isolate_, "An object could not be cloned."))); return false; } DCHECK(wrote_value); std::pair buffer = serializer_.Release(); DCHECK_EQ(buffer.first, data_.data()); out->encoded_message = base::make_span(buffer.first, buffer.second); out->owned_encoded_message = std::move(data_); return true; } // v8::ValueSerializer::Delegate void* ReallocateBufferMemory(void* old_buffer, size_t size, size_t* actual_size) override { DCHECK_EQ(old_buffer, data_.data()); data_.resize(size); *actual_size = data_.capacity(); return data_.data(); } void FreeBufferMemory(void* buffer) override { DCHECK_EQ(buffer, data_.data()); data_ = {}; } v8::Maybe WriteHostObject(v8::Isolate* isolate, v8::Local object) override { api::NativeImage* native_image; if (gin::ConvertFromV8(isolate, object, &native_image)) { // Serialize the NativeImage WriteTag(kNativeImageTag); gfx::ImageSkia image = native_image->image().AsImageSkia(); std::vector image_reps = image.image_reps(); serializer_.WriteUint32(image_reps.size()); for (const auto& rep : image_reps) { serializer_.WriteDouble(rep.scale()); const SkBitmap& bitmap = rep.GetBitmap(); std::vector bytes = skia::mojom::InlineBitmap::Serialize(&bitmap); serializer_.WriteUint32(bytes.size()); serializer_.WriteRawBytes(bytes.data(), bytes.size()); } return v8::Just(true); } else { return v8::ValueSerializer::Delegate::WriteHostObject(isolate, object); } } void ThrowDataCloneError(v8::Local message) override { isolate_->ThrowException(v8::Exception::Error(message)); } private: void WriteTag(SerializationTag tag) { serializer_.WriteRawBytes(&tag, 1); } void WriteBlinkEnvelope(uint32_t blink_version) { // Write a dummy blink version envelope for compatibility with // blink::V8ScriptValueSerializer WriteTag(kVersionTag); serializer_.WriteUint32(blink_version); } v8::Isolate* isolate_; std::vector data_; v8::ValueSerializer serializer_; }; class V8Deserializer : public v8::ValueDeserializer::Delegate { public: V8Deserializer(v8::Isolate* isolate, base::span data) : isolate_(isolate), deserializer_(isolate, data.data(), data.size(), this) {} V8Deserializer(v8::Isolate* isolate, const blink::CloneableMessage& message) : V8Deserializer(isolate, message.encoded_message) {} v8::Local Deserialize() { v8::EscapableHandleScope scope(isolate_); auto context = isolate_->GetCurrentContext(); uint32_t blink_version; if (!ReadBlinkEnvelope(&blink_version)) return v8::Null(isolate_); bool read_header; if (!deserializer_.ReadHeader(context).To(&read_header)) return v8::Null(isolate_); DCHECK(read_header); v8::Local value; if (!deserializer_.ReadValue(context).ToLocal(&value)) return v8::Null(isolate_); return scope.Escape(value); } v8::MaybeLocal ReadHostObject(v8::Isolate* isolate) override { uint8_t tag = 0; if (!ReadTag(&tag)) return v8::ValueDeserializer::Delegate::ReadHostObject(isolate); switch (tag) { case kNativeImageTag: if (api::NativeImage* native_image = ReadNativeImage(isolate)) return native_image->GetWrapper(isolate); break; } // Throws an exception. return v8::ValueDeserializer::Delegate::ReadHostObject(isolate); } private: bool ReadTag(uint8_t* tag) { const void* tag_bytes = nullptr; if (!deserializer_.ReadRawBytes(1, &tag_bytes)) return false; *tag = *reinterpret_cast(tag_bytes); return true; } bool ReadBlinkEnvelope(uint32_t* blink_version) { // Read a dummy blink version envelope for compatibility with // blink::V8ScriptValueDeserializer uint8_t tag = 0; if (!ReadTag(&tag) || tag != kVersionTag) return false; if (!deserializer_.ReadUint32(blink_version)) return false; return true; } api::NativeImage* ReadNativeImage(v8::Isolate* isolate) { gfx::ImageSkia image_skia; uint32_t num_reps = 0; if (!deserializer_.ReadUint32(&num_reps)) return nullptr; for (uint32_t i = 0; i < num_reps; i++) { double scale = 0.0; if (!deserializer_.ReadDouble(&scale)) return nullptr; uint32_t bitmap_size_bytes = 0; if (!deserializer_.ReadUint32(&bitmap_size_bytes)) return nullptr; const void* bitmap_data = nullptr; if (!deserializer_.ReadRawBytes(bitmap_size_bytes, &bitmap_data)) return nullptr; SkBitmap bitmap; if (!skia::mojom::InlineBitmap::Deserialize(bitmap_data, bitmap_size_bytes, &bitmap)) return nullptr; image_skia.AddRepresentation(gfx::ImageSkiaRep(bitmap, scale)); } gfx::Image image(image_skia); return new api::NativeImage(isolate, image); } v8::Isolate* isolate_; v8::ValueDeserializer deserializer_; }; bool SerializeV8Value(v8::Isolate* isolate, v8::Local value, blink::CloneableMessage* out) { return V8Serializer(isolate).Serialize(value, out); } v8::Local DeserializeV8Value(v8::Isolate* isolate, const blink::CloneableMessage& in) { return V8Deserializer(isolate, in).Deserialize(); } v8::Local DeserializeV8Value(v8::Isolate* isolate, base::span data) { return V8Deserializer(isolate, data).Deserialize(); } } // namespace electron