/* * Copyright (C) 2010 Google Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "SerializedScriptValue.h" #include "Blob.h" #include "ByteArray.h" #include "CanvasPixelArray.h" #include "ExceptionCode.h" #include "File.h" #include "FileList.h" #include "ImageData.h" #include "SharedBuffer.h" #include "V8Binding.h" #include "V8Blob.h" #include "V8File.h" #include "V8FileList.h" #include "V8ImageData.h" #include "V8Proxy.h" #include "V8Utilities.h" #include #include #include // FIXME: consider crashing in debug mode on deserialization errors namespace WebCore { namespace { typedef UChar BufferValueType; // Serialization format is a sequence of (tag, optional data) // pairs. Tag always takes exactly one byte. enum SerializationTag { InvalidTag = '!', PaddingTag = '\0', UndefinedTag = '_', NullTag = '0', TrueTag = 'T', FalseTag = 'F', StringTag = 'S', Int32Tag = 'I', Uint32Tag = 'U', DateTag = 'D', NumberTag = 'N', BlobTag = 'b', FileTag = 'f', FileListTag = 'l', ImageDataTag = '#', ArrayTag = '[', ObjectTag = '{', SparseArrayTag = '@', RegExpTag = 'R', }; static bool shouldCheckForCycles(int depth) { ASSERT(depth >= 0); // Since we are not required to spot the cycle as soon as it // happens we can check for cycles only when the current depth // is a power of two. return !(depth & (depth - 1)); } static const int maxDepth = 20000; // VarInt encoding constants. static const int varIntShift = 7; static const int varIntMask = (1 << varIntShift) - 1; // ZigZag encoding helps VarInt encoding stay small for negative // numbers with small absolute values. class ZigZag { public: static uint32_t encode(uint32_t value) { if (value & (1U << 31)) value = ((~value) << 1) + 1; else value <<= 1; return value; } static uint32_t decode(uint32_t value) { if (value & 1) value = ~(value >> 1); else value >>= 1; return value; } private: ZigZag(); }; // Writer is responsible for serializing primitive types and storing // information used to reconstruct composite types. class Writer { WTF_MAKE_NONCOPYABLE(Writer); public: Writer() : m_position(0) { } // Write functions for primitive types. void writeUndefined() { append(UndefinedTag); } void writeNull() { append(NullTag); } void writeTrue() { append(TrueTag); } void writeFalse() { append(FalseTag); } void writeString(const char* data, int length) { ASSERT(length >= 0); append(StringTag); doWriteString(data, length); } void writeWebCoreString(const String& string) { // Uses UTF8 encoding so we can read it back as either V8 or // WebCore string. append(StringTag); doWriteWebCoreString(string); } void writeInt32(int32_t value) { append(Int32Tag); doWriteUint32(ZigZag::encode(static_cast(value))); } void writeUint32(uint32_t value) { append(Uint32Tag); doWriteUint32(value); } void writeDate(double numberValue) { append(DateTag); doWriteNumber(numberValue); } void writeNumber(double number) { append(NumberTag); doWriteNumber(number); } void writeBlob(const String& url, const String& type, unsigned long long size) { append(BlobTag); doWriteWebCoreString(url); doWriteWebCoreString(type); doWriteUint64(size); } void writeFile(const String& path, const String& url, const String& type) { append(FileTag); doWriteWebCoreString(path); doWriteWebCoreString(url); doWriteWebCoreString(type); } void writeFileList(const FileList& fileList) { append(FileListTag); uint32_t length = fileList.length(); doWriteUint32(length); for (unsigned i = 0; i < length; ++i) { doWriteWebCoreString(fileList.item(i)->path()); doWriteWebCoreString(fileList.item(i)->url().string()); doWriteWebCoreString(fileList.item(i)->type()); } } void writeImageData(uint32_t width, uint32_t height, const uint8_t* pixelData, uint32_t pixelDataLength) { append(ImageDataTag); doWriteUint32(width); doWriteUint32(height); doWriteUint32(pixelDataLength); append(pixelData, pixelDataLength); } void writeRegExp(v8::Local pattern, v8::RegExp::Flags flags) { append(RegExpTag); v8::String::Utf8Value patternUtf8Value(pattern); doWriteString(*patternUtf8Value, patternUtf8Value.length()); doWriteUint32(static_cast(flags)); } void writeArray(uint32_t length) { append(ArrayTag); doWriteUint32(length); } void writeObject(uint32_t numProperties) { append(ObjectTag); doWriteUint32(numProperties); } void writeSparseArray(uint32_t numProperties, uint32_t length) { append(SparseArrayTag); doWriteUint32(numProperties); doWriteUint32(length); } Vector& data() { fillHole(); return m_buffer; } private: void doWriteString(const char* data, int length) { doWriteUint32(static_cast(length)); append(reinterpret_cast(data), length); } void doWriteWebCoreString(const String& string) { RefPtr buffer = utf8Buffer(string); doWriteString(buffer->data(), buffer->size()); } template void doWriteUintHelper(T value) { while (true) { uint8_t b = (value & varIntMask); value >>= varIntShift; if (!value) { append(b); break; } append(b | (1 << varIntShift)); } } void doWriteUint32(uint32_t value) { doWriteUintHelper(value); } void doWriteUint64(uint64_t value) { doWriteUintHelper(value); } void doWriteNumber(double number) { append(reinterpret_cast(&number), sizeof(number)); } void append(SerializationTag tag) { append(static_cast(tag)); } void append(uint8_t b) { ensureSpace(1); *byteAt(m_position++) = b; } void append(const uint8_t* data, int length) { ensureSpace(length); memcpy(byteAt(m_position), data, length); m_position += length; } void ensureSpace(int extra) { COMPILE_ASSERT(sizeof(BufferValueType) == 2, BufferValueTypeIsTwoBytes); m_buffer.grow((m_position + extra + 1) / 2); // "+ 1" to round up. } void fillHole() { COMPILE_ASSERT(sizeof(BufferValueType) == 2, BufferValueTypeIsTwoBytes); // If the writer is at odd position in the buffer, then one of // the bytes in the last UChar is not initialized. if (m_position % 2) *byteAt(m_position) = static_cast(PaddingTag); } uint8_t* byteAt(int position) { return reinterpret_cast(m_buffer.data()) + position; } Vector m_buffer; unsigned m_position; }; class Serializer { class StateBase; public: enum Status { Success, InputError, JSException, JSFailure }; Serializer(Writer& writer, v8::TryCatch& tryCatch) : m_writer(writer) , m_tryCatch(tryCatch) , m_depth(0) , m_status(Success) { ASSERT(!tryCatch.HasCaught()); } Status serialize(v8::Handle value) { v8::HandleScope scope; StateBase* state = doSerialize(value, 0); while (state) state = state->advance(*this); return m_status; } // Functions used by serialization states. StateBase* doSerialize(v8::Handle value, StateBase* next); StateBase* checkException(StateBase* state) { return m_tryCatch.HasCaught() ? handleError(JSException, state) : 0; } StateBase* reportFailure(StateBase* state) { return handleError(JSFailure, state); } StateBase* writeArray(uint32_t length, StateBase* state) { m_writer.writeArray(length); return pop(state); } StateBase* writeObject(uint32_t numProperties, StateBase* state) { m_writer.writeObject(numProperties); return pop(state); } StateBase* writeSparseArray(uint32_t numProperties, uint32_t length, StateBase* state) { m_writer.writeSparseArray(numProperties, length); return pop(state); } private: class StateBase { WTF_MAKE_NONCOPYABLE(StateBase); public: virtual ~StateBase() { } // Link to the next state to form a stack. StateBase* nextState() { return m_next; } // Composite object we're processing in this state. v8::Handle composite() { return m_composite; } // Serializes (a part of) the current composite and returns // the next state to process or null when this is the final // state. virtual StateBase* advance(Serializer&) = 0; protected: StateBase(v8::Handle composite, StateBase* next) : m_composite(composite) , m_next(next) { } private: v8::Handle m_composite; StateBase* m_next; }; // Dummy state that is used to signal serialization errors. class ErrorState : public StateBase { public: ErrorState() : StateBase(v8::Handle(), 0) { } virtual StateBase* advance(Serializer&) { delete this; return 0; } }; template class State : public StateBase { public: v8::Handle composite() { return v8::Handle::Cast(StateBase::composite()); } protected: State(v8::Handle composite, StateBase* next) : StateBase(composite, next) { } }; #if 0 // Currently unused, see comment in newArrayState. class ArrayState : public State { public: ArrayState(v8::Handle array, StateBase* next) : State(array, next) , m_index(-1) { } virtual StateBase* advance(Serializer& serializer) { ++m_index; for (; m_index < composite()->Length(); ++m_index) { v8::Handle value = composite()->Get(m_index); if (StateBase* newState = serializer.checkException(this)) return newState; if (StateBase* newState = serializer.doSerialize(value, this)) return newState; } return serializer.writeArray(composite()->Length(), this); } private: unsigned m_index; }; #endif class AbstractObjectState : public State { public: AbstractObjectState(v8::Handle object, StateBase* next) : State(object, next) , m_index(0) , m_numSerializedProperties(0) , m_nameDone(false) { } virtual StateBase* advance(Serializer& serializer) { if (!m_index) { m_propertyNames = composite()->GetPropertyNames(); if (StateBase* newState = serializer.checkException(this)) return newState; if (m_propertyNames.IsEmpty()) return serializer.reportFailure(this); } while (m_index < m_propertyNames->Length()) { if (!m_nameDone) { v8::Local propertyName = m_propertyNames->Get(m_index); if (StateBase* newState = serializer.checkException(this)) return newState; if (propertyName.IsEmpty()) return serializer.reportFailure(this); bool hasStringProperty = propertyName->IsString() && composite()->HasRealNamedProperty(propertyName.As()); if (StateBase* newState = serializer.checkException(this)) return newState; bool hasIndexedProperty = !hasStringProperty && propertyName->IsUint32() && composite()->HasRealIndexedProperty(propertyName->Uint32Value()); if (StateBase* newState = serializer.checkException(this)) return newState; if (hasStringProperty || hasIndexedProperty) m_propertyName = propertyName; else { ++m_index; continue; } } ASSERT(!m_propertyName.IsEmpty()); if (!m_nameDone) { m_nameDone = true; if (StateBase* newState = serializer.doSerialize(m_propertyName, this)) return newState; } v8::Local value = composite()->Get(m_propertyName); if (StateBase* newState = serializer.checkException(this)) return newState; m_nameDone = false; m_propertyName.Clear(); ++m_index; ++m_numSerializedProperties; if (StateBase* newState = serializer.doSerialize(value, this)) return newState; } return objectDone(m_numSerializedProperties, serializer); } protected: virtual StateBase* objectDone(unsigned numProperties, Serializer&) = 0; private: v8::Local m_propertyNames; v8::Local m_propertyName; unsigned m_index; unsigned m_numSerializedProperties; bool m_nameDone; }; class ObjectState : public AbstractObjectState { public: ObjectState(v8::Handle object, StateBase* next) : AbstractObjectState(object, next) { } protected: virtual StateBase* objectDone(unsigned numProperties, Serializer& serializer) { return serializer.writeObject(numProperties, this); } }; class SparseArrayState : public AbstractObjectState { public: SparseArrayState(v8::Handle array, StateBase* next) : AbstractObjectState(array, next) { } protected: virtual StateBase* objectDone(unsigned numProperties, Serializer& serializer) { return serializer.writeSparseArray(numProperties, composite().As()->Length(), this); } }; StateBase* push(StateBase* state) { ASSERT(state); ++m_depth; return checkComposite(state) ? state : handleError(InputError, state); } StateBase* pop(StateBase* state) { ASSERT(state); --m_depth; StateBase* next = state->nextState(); delete state; return next; } StateBase* handleError(Status errorStatus, StateBase* state) { ASSERT(errorStatus != Success); m_status = errorStatus; while (state) { StateBase* tmp = state->nextState(); delete state; state = tmp; } return new ErrorState; } bool checkComposite(StateBase* top) { ASSERT(top); if (m_depth > maxDepth) return false; if (!shouldCheckForCycles(m_depth)) return true; v8::Handle composite = top->composite(); for (StateBase* state = top->nextState(); state; state = state->nextState()) { if (state->composite() == composite) return false; } return true; } void writeString(v8::Handle value) { v8::String::Utf8Value stringValue(value); m_writer.writeString(*stringValue, stringValue.length()); } void writeBlob(v8::Handle value) { Blob* blob = V8Blob::toNative(value.As()); if (!blob) return; m_writer.writeBlob(blob->url().string(), blob->type(), blob->size()); } void writeFile(v8::Handle value) { File* file = V8File::toNative(value.As()); if (!file) return; m_writer.writeFile(file->path(), file->url().string(), file->type()); } void writeFileList(v8::Handle value) { FileList* fileList = V8FileList::toNative(value.As()); if (!fileList) return; m_writer.writeFileList(*fileList); } void writeImageData(v8::Handle value) { ImageData* imageData = V8ImageData::toNative(value.As()); if (!imageData) return; WTF::ByteArray* pixelArray = imageData->data()->data(); m_writer.writeImageData(imageData->width(), imageData->height(), pixelArray->data(), pixelArray->length()); } void writeRegExp(v8::Handle value) { v8::Handle regExp = value.As(); m_writer.writeRegExp(regExp->GetSource(), regExp->GetFlags()); } static StateBase* newArrayState(v8::Handle array, StateBase* next) { // FIXME: use plain Array state when we can quickly check that // an array is not sparse and has only indexed properties. return new SparseArrayState(array, next); } static StateBase* newObjectState(v8::Handle object, StateBase* next) { // FIXME: check not a wrapper return new ObjectState(object, next); } Writer& m_writer; v8::TryCatch& m_tryCatch; int m_depth; Status m_status; }; Serializer::StateBase* Serializer::doSerialize(v8::Handle value, StateBase* next) { if (value.IsEmpty()) return reportFailure(next); if (value->IsUndefined()) m_writer.writeUndefined(); else if (value->IsNull()) m_writer.writeNull(); else if (value->IsTrue()) m_writer.writeTrue(); else if (value->IsFalse()) m_writer.writeFalse(); else if (value->IsInt32()) m_writer.writeInt32(value->Int32Value()); else if (value->IsUint32()) m_writer.writeUint32(value->Uint32Value()); else if (value->IsDate()) m_writer.writeDate(value->NumberValue()); else if (value->IsNumber()) m_writer.writeNumber(value.As()->Value()); else if (value->IsString()) writeString(value); else if (value->IsArray()) return push(newArrayState(value.As(), next)); else if (V8File::HasInstance(value)) writeFile(value); else if (V8Blob::HasInstance(value)) writeBlob(value); else if (V8FileList::HasInstance(value)) writeFileList(value); else if (V8ImageData::HasInstance(value)) writeImageData(value); else if (value->IsRegExp()) writeRegExp(value); else if (value->IsObject()) return push(newObjectState(value.As(), next)); return 0; } // Interface used by Reader to create objects of composite types. class CompositeCreator { public: virtual ~CompositeCreator() { } virtual bool createArray(uint32_t length, v8::Handle* value) = 0; virtual bool createObject(uint32_t numProperties, v8::Handle* value) = 0; virtual bool createSparseArray(uint32_t numProperties, uint32_t length, v8::Handle* value) = 0; }; // Reader is responsible for deserializing primitive types and // restoring information about saved objects of composite types. class Reader { public: Reader(const uint8_t* buffer, int length) : m_buffer(buffer) , m_length(length) , m_position(0) { ASSERT(length >= 0); } bool isEof() const { return m_position >= m_length; } bool read(v8::Handle* value, CompositeCreator& creator) { SerializationTag tag; if (!readTag(&tag)) return false; switch (tag) { case InvalidTag: return false; case PaddingTag: return true; case UndefinedTag: *value = v8::Undefined(); break; case NullTag: *value = v8::Null(); break; case TrueTag: *value = v8::True(); break; case FalseTag: *value = v8::False(); break; case StringTag: if (!readString(value)) return false; break; case Int32Tag: if (!readInt32(value)) return false; break; case Uint32Tag: if (!readUint32(value)) return false; break; case DateTag: if (!readDate(value)) return false; break; case NumberTag: if (!readNumber(value)) return false; break; case BlobTag: if (!readBlob(value)) return false; break; case FileTag: if (!readFile(value)) return false; break; case FileListTag: if (!readFileList(value)) return false; break; case ImageDataTag: if (!readImageData(value)) return false; break; case ArrayTag: { uint32_t length; if (!doReadUint32(&length)) return false; if (!creator.createArray(length, value)) return false; break; } case RegExpTag: if (!readRegExp(value)) return false; break; case ObjectTag: { uint32_t numProperties; if (!doReadUint32(&numProperties)) return false; if (!creator.createObject(numProperties, value)) return false; break; } case SparseArrayTag: { uint32_t numProperties; uint32_t length; if (!doReadUint32(&numProperties)) return false; if (!doReadUint32(&length)) return false; if (!creator.createSparseArray(numProperties, length, value)) return false; break; } default: return false; } return !value->IsEmpty(); } private: bool readTag(SerializationTag* tag) { if (m_position >= m_length) return false; *tag = static_cast(m_buffer[m_position++]); return true; } bool readString(v8::Handle* value) { uint32_t length; if (!doReadUint32(&length)) return false; if (m_position + length > m_length) return false; *value = v8::String::New(reinterpret_cast(m_buffer + m_position), length); m_position += length; return true; } bool readWebCoreString(String* string) { uint32_t length; if (!doReadUint32(&length)) return false; if (m_position + length > m_length) return false; *string = String::fromUTF8(reinterpret_cast(m_buffer + m_position), length); m_position += length; return true; } bool readInt32(v8::Handle* value) { uint32_t rawValue; if (!doReadUint32(&rawValue)) return false; *value = v8::Integer::New(static_cast(ZigZag::decode(rawValue))); return true; } bool readUint32(v8::Handle* value) { uint32_t rawValue; if (!doReadUint32(&rawValue)) return false; *value = v8::Integer::NewFromUnsigned(rawValue); return true; } bool readDate(v8::Handle* value) { double numberValue; if (!doReadNumber(&numberValue)) return false; *value = v8::Date::New(numberValue); return true; } bool readNumber(v8::Handle* value) { double number; if (!doReadNumber(&number)) return false; *value = v8::Number::New(number); return true; } bool readImageData(v8::Handle* value) { uint32_t width; uint32_t height; uint32_t pixelDataLength; if (!doReadUint32(&width)) return false; if (!doReadUint32(&height)) return false; if (!doReadUint32(&pixelDataLength)) return false; if (m_position + pixelDataLength > m_length) return false; RefPtr imageData = ImageData::create(IntSize(width, height)); WTF::ByteArray* pixelArray = imageData->data()->data(); ASSERT(pixelArray); ASSERT(pixelArray->length() >= pixelDataLength); memcpy(pixelArray->data(), m_buffer + m_position, pixelDataLength); m_position += pixelDataLength; *value = toV8(imageData.release()); return true; } bool readRegExp(v8::Handle* value) { v8::Handle pattern; if (!readString(&pattern)) return false; uint32_t flags; if (!doReadUint32(&flags)) return false; *value = v8::RegExp::New(pattern.As(), static_cast(flags)); return true; } bool readBlob(v8::Handle* value) { String url; String type; uint64_t size; if (!readWebCoreString(&url)) return false; if (!readWebCoreString(&type)) return false; if (!doReadUint64(&size)) return false; PassRefPtr blob = Blob::create(KURL(ParsedURLString, url), type, size); *value = toV8(blob); return true; } bool readFile(v8::Handle* value) { String path; String url; String type; if (!readWebCoreString(&path)) return false; if (!readWebCoreString(&url)) return false; if (!readWebCoreString(&type)) return false; PassRefPtr file = File::create(path, KURL(ParsedURLString, url), type); *value = toV8(file); return true; } bool readFileList(v8::Handle* value) { uint32_t length; if (!doReadUint32(&length)) return false; PassRefPtr fileList = FileList::create(); for (unsigned i = 0; i < length; ++i) { String path; String urlString; String type; if (!readWebCoreString(&path)) return false; if (!readWebCoreString(&urlString)) return false; if (!readWebCoreString(&type)) return false; fileList->append(File::create(path, KURL(ParsedURLString, urlString), type)); } *value = toV8(fileList); return true; } template bool doReadUintHelper(T* value) { *value = 0; uint8_t currentByte; int shift = 0; do { if (m_position >= m_length) return false; currentByte = m_buffer[m_position++]; *value |= ((currentByte & varIntMask) << shift); shift += varIntShift; } while (currentByte & (1 << varIntShift)); return true; } bool doReadUint32(uint32_t* value) { return doReadUintHelper(value); } bool doReadUint64(uint64_t* value) { return doReadUintHelper(value); } bool doReadNumber(double* number) { if (m_position + sizeof(double) > m_length) return false; uint8_t* numberAsByteArray = reinterpret_cast(number); for (unsigned i = 0; i < sizeof(double); ++i) numberAsByteArray[i] = m_buffer[m_position++]; return true; } const uint8_t* m_buffer; const unsigned m_length; unsigned m_position; }; class Deserializer : public CompositeCreator { public: explicit Deserializer(Reader& reader) : m_reader(reader) { } v8::Handle deserialize() { v8::HandleScope scope; while (!m_reader.isEof()) { if (!doDeserialize()) return v8::Null(); } if (stackDepth() != 1) return v8::Null(); return scope.Close(element(0)); } virtual bool createArray(uint32_t length, v8::Handle* value) { if (length > stackDepth()) return false; v8::Local array = v8::Array::New(length); if (array.IsEmpty()) return false; const int depth = stackDepth() - length; for (unsigned i = 0; i < length; ++i) array->Set(i, element(depth + i)); pop(length); *value = array; return true; } virtual bool createObject(uint32_t numProperties, v8::Handle* value) { v8::Local object = v8::Object::New(); if (object.IsEmpty()) return false; return initializeObject(object, numProperties, value); } virtual bool createSparseArray(uint32_t numProperties, uint32_t length, v8::Handle* value) { v8::Local array = v8::Array::New(length); if (array.IsEmpty()) return false; return initializeObject(array, numProperties, value); } private: bool initializeObject(v8::Handle object, uint32_t numProperties, v8::Handle* value) { unsigned length = 2 * numProperties; if (length > stackDepth()) return false; for (unsigned i = stackDepth() - length; i < stackDepth(); i += 2) { v8::Local propertyName = element(i); v8::Local propertyValue = element(i + 1); object->Set(propertyName, propertyValue); } pop(length); *value = object; return true; } bool doDeserialize() { v8::Local value; if (!m_reader.read(&value, *this)) return false; if (!value.IsEmpty()) push(value); return true; } void push(v8::Local value) { m_stack.append(value); } void pop(unsigned length) { ASSERT(length <= m_stack.size()); m_stack.shrink(m_stack.size() - length); } unsigned stackDepth() const { return m_stack.size(); } v8::Local element(unsigned index) { ASSERT(index < m_stack.size()); return m_stack[index]; } Reader& m_reader; Vector > m_stack; }; } // namespace void SerializedScriptValue::deserializeAndSetProperty(v8::Handle object, const char* propertyName, v8::PropertyAttribute attribute, SerializedScriptValue* value) { if (!value) return; v8::Handle deserialized = value->deserialize(); object->ForceSet(v8::String::NewSymbol(propertyName), deserialized, attribute); } void SerializedScriptValue::deserializeAndSetProperty(v8::Handle object, const char* propertyName, v8::PropertyAttribute attribute, PassRefPtr value) { deserializeAndSetProperty(object, propertyName, attribute, value.get()); } PassRefPtr SerializedScriptValue::create(v8::Handle value, bool& didThrow) { return adoptRef(new SerializedScriptValue(value, didThrow)); } PassRefPtr SerializedScriptValue::create(v8::Handle value) { bool didThrow; return adoptRef(new SerializedScriptValue(value, didThrow)); } PassRefPtr SerializedScriptValue::createFromWire(String data) { return adoptRef(new SerializedScriptValue(data)); } PassRefPtr SerializedScriptValue::create(String data) { Writer writer; writer.writeWebCoreString(data); String wireData = StringImpl::adopt(writer.data()); return adoptRef(new SerializedScriptValue(wireData)); } PassRefPtr SerializedScriptValue::create() { return adoptRef(new SerializedScriptValue()); } SerializedScriptValue* SerializedScriptValue::nullValue() { DEFINE_STATIC_LOCAL(RefPtr, nullValue, (0)); if (!nullValue) { Writer writer; writer.writeNull(); String wireData = StringImpl::adopt(writer.data()); nullValue = adoptRef(new SerializedScriptValue(wireData)); } return nullValue.get(); } SerializedScriptValue* SerializedScriptValue::undefinedValue() { DEFINE_STATIC_LOCAL(RefPtr, undefinedValue, (0)); if (!undefinedValue) { Writer writer; writer.writeUndefined(); String wireData = StringImpl::adopt(writer.data()); undefinedValue = adoptRef(new SerializedScriptValue(wireData)); } return undefinedValue.get(); } PassRefPtr SerializedScriptValue::release() { RefPtr result = adoptRef(new SerializedScriptValue(m_data)); m_data = String().crossThreadString(); return result.release(); } SerializedScriptValue::SerializedScriptValue() { } SerializedScriptValue::SerializedScriptValue(v8::Handle value, bool& didThrow) { didThrow = false; Writer writer; Serializer::Status status; { v8::TryCatch tryCatch; Serializer serializer(writer, tryCatch); status = serializer.serialize(value); if (status == Serializer::JSException) { // If there was a JS exception thrown, re-throw it. didThrow = true; tryCatch.ReThrow(); return; } } if (status == Serializer::InputError) { // If there was an input error, throw a new exception outside // of the TryCatch scope. didThrow = true; throwError(NOT_SUPPORTED_ERR); return; } if (status == Serializer::JSFailure) { // If there was a JS failure (but no exception), there's not // much we can do except for unwinding the C++ stack by // pretending there was a JS exception. didThrow = true; return; } ASSERT(status == Serializer::Success); m_data = String(StringImpl::adopt(writer.data())).crossThreadString(); } SerializedScriptValue::SerializedScriptValue(String wireData) { m_data = wireData.crossThreadString(); } v8::Handle SerializedScriptValue::deserialize() { if (!m_data.impl()) return v8::Null(); COMPILE_ASSERT(sizeof(BufferValueType) == 2, BufferValueTypeIsTwoBytes); Reader reader(reinterpret_cast(m_data.impl()->characters()), 2 * m_data.length()); Deserializer deserializer(reader); return deserializer.deserialize(); } } // namespace WebCore