// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // 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. #ifndef GOOGLE_PROTOBUF_GENERATED_MESSAGE_TABLE_DRIVEN_H__ #define GOOGLE_PROTOBUF_GENERATED_MESSAGE_TABLE_DRIVEN_H__ #include #include #include #include #include // We require C++11 and Clang to use constexpr for variables, as GCC 4.8 // requires constexpr to be consistent between declarations of variables // unnecessarily (see https://gcc.gnu.org/bugzilla/show_bug.cgi?id=58541). // VS 2017 Update 3 also supports this usage of constexpr. #if defined(__clang__) || (defined(_MSC_VER) && _MSC_VER >= 1911) #define PROTOBUF_CONSTEXPR_VAR constexpr #else // !__clang__ #define PROTOBUF_CONSTEXPR_VAR #endif // !_clang #ifdef SWIG #error "You cannot SWIG proto headers" #endif #include namespace google { namespace protobuf { namespace internal { // Processing-type masks. static constexpr const unsigned char kOneofMask = 0x40; static constexpr const unsigned char kRepeatedMask = 0x20; // Mask for the raw type: either a WireFormatLite::FieldType or one of the // ProcessingTypes below, without the oneof or repeated flag. static constexpr const unsigned char kTypeMask = 0x1f; // Wire type masks. static constexpr const unsigned char kNotPackedMask = 0x10; static constexpr const unsigned char kInvalidMask = 0x20; enum ProcessingTypes { TYPE_STRING_CORD = 19, TYPE_STRING_STRING_PIECE = 20, TYPE_BYTES_CORD = 21, TYPE_BYTES_STRING_PIECE = 22, TYPE_STRING_INLINED = 23, TYPE_BYTES_INLINED = 24, TYPE_MAP = 25, }; static_assert(TYPE_MAP < kRepeatedMask, "Invalid enum"); struct PROTOBUF_EXPORT FieldMetadata { uint32 offset; // offset of this field in the struct uint32 tag; // field * 8 + wire_type // byte offset * 8 + bit_offset; // if the high bit is set then this is the byte offset of the oneof_case // for this field. uint32 has_offset; uint32 type; // the type of this field. const void* ptr; // auxiliary data // From the serializer point of view each fundamental type can occur in // 4 different ways. For simplicity we treat all combinations as a cartesion // product although not all combinations are allowed. enum FieldTypeClass { kPresence, kNoPresence, kRepeated, kPacked, kOneOf, kNumTypeClasses // must be last enum }; // C++ protobuf has 20 fundamental types, were we added Cord and StringPiece // and also distinquish the same types if they have different wire format. enum { kCordType = 19, kStringPieceType = 20, kInlinedType = 21, kNumTypes = 21, kSpecial = kNumTypes * kNumTypeClasses, }; static int CalculateType(int fundamental_type, FieldTypeClass type_class); }; // TODO(ckennelly): Add a static assertion to ensure that these masks do not // conflict with wiretypes. // ParseTableField is kept small to help simplify instructions for computing // offsets, as we will always need this information to parse a field. // Additional data, needed for some types, is stored in // AuxillaryParseTableField. struct ParseTableField { uint32 offset; // The presence_index ordinarily represents a has_bit index, but for fields // inside a oneof it represents the index in _oneof_case_. uint32 presence_index; unsigned char normal_wiretype; unsigned char packed_wiretype; // processing_type is given by: // (FieldDescriptor->type() << 1) | FieldDescriptor->is_packed() unsigned char processing_type; unsigned char tag_size; }; struct ParseTable; union AuxillaryParseTableField { typedef bool (*EnumValidator)(int); // Enums struct enum_aux { EnumValidator validator; }; enum_aux enums; // Group, messages struct message_aux { // ExplicitlyInitialized -> T requires a reinterpret_cast, which prevents // the tables from being constructed as a constexpr. We use void to avoid // the cast. const void* default_message_void; const MessageLite* default_message() const { return static_cast(default_message_void); } }; message_aux messages; // Strings struct string_aux { const void* default_ptr; const char* field_name; }; string_aux strings; struct map_aux { bool (*parse_map)(io::CodedInputStream*, void*); }; map_aux maps; AuxillaryParseTableField() = default; constexpr AuxillaryParseTableField(AuxillaryParseTableField::enum_aux e) : enums(e) {} constexpr AuxillaryParseTableField(AuxillaryParseTableField::message_aux m) : messages(m) {} constexpr AuxillaryParseTableField(AuxillaryParseTableField::string_aux s) : strings(s) {} constexpr AuxillaryParseTableField(AuxillaryParseTableField::map_aux m) : maps(m) {} }; struct ParseTable { const ParseTableField* fields; const AuxillaryParseTableField* aux; int max_field_number; // TODO(ckennelly): Do something with this padding. // TODO(ckennelly): Vet these for sign extension. int64 has_bits_offset; int64 oneof_case_offset; int64 extension_offset; int64 arena_offset; // ExplicitlyInitialized -> T requires a reinterpret_cast, which prevents // the tables from being constructed as a constexpr. We use void to avoid // the cast. const void* default_instance_void; const MessageLite* default_instance() const { return static_cast(default_instance_void); } bool unknown_field_set; }; static_assert(sizeof(ParseTableField) <= 16, "ParseTableField is too large"); // The tables must be composed of POD components to ensure link-time // initialization. static_assert(std::is_pod::value, ""); static_assert(std::is_pod::value, ""); static_assert(std::is_pod::value, ""); static_assert(std::is_pod::value, ""); static_assert(std::is_pod::value, ""); static_assert(std::is_pod::value, ""); // TODO(ckennelly): Consolidate these implementations into a single one, using // dynamic dispatch to the appropriate unknown field handler. bool MergePartialFromCodedStream(MessageLite* msg, const ParseTable& table, io::CodedInputStream* input); bool MergePartialFromCodedStreamLite(MessageLite* msg, const ParseTable& table, io::CodedInputStream* input); template bool ParseMap(io::CodedInputStream* input, void* map_field) { typedef typename MapEntryToMapField::MapFieldType MapFieldType; typedef Map MapType; typedef typename Entry::template Parser ParserType; ParserType parser(static_cast(map_field)); return WireFormatLite::ReadMessageNoVirtual(input, &parser); } struct SerializationTable { int num_fields; const FieldMetadata* field_table; }; PROTOBUF_EXPORT void SerializeInternal(const uint8* base, const FieldMetadata* table, int32 num_fields, io::CodedOutputStream* output); inline void TableSerialize(const MessageLite& msg, const SerializationTable* table, io::CodedOutputStream* output) { const FieldMetadata* field_table = table->field_table; int num_fields = table->num_fields - 1; const uint8* base = reinterpret_cast(&msg); // TODO(gerbens) This skips the first test if we could use the fast // array serialization path, we should make this // int cached_size = // *reinterpret_cast(base + field_table->offset); // SerializeWithCachedSize(msg, field_table + 1, num_fields, cached_size, ...) // But we keep conformance with the old way for now. SerializeInternal(base, field_table + 1, num_fields, output); } uint8* SerializeInternalToArray(const uint8* base, const FieldMetadata* table, int32 num_fields, bool is_deterministic, uint8* buffer); inline uint8* TableSerializeToArray(const MessageLite& msg, const SerializationTable* table, bool is_deterministic, uint8* buffer) { const uint8* base = reinterpret_cast(&msg); const FieldMetadata* field_table = table->field_table + 1; int num_fields = table->num_fields - 1; return SerializeInternalToArray(base, field_table, num_fields, is_deterministic, buffer); } template struct CompareHelper { bool operator()(const T& a, const T& b) const { return a < b; } }; template <> struct CompareHelper { bool operator()(const ArenaStringPtr& a, const ArenaStringPtr& b) const { return a.Get() < b.Get(); } }; struct CompareMapKey { template bool operator()(const MapEntryHelper& a, const MapEntryHelper& b) const { return Compare(a.key_, b.key_); } template bool Compare(const T& a, const T& b) const { return CompareHelper()(a, b); } }; template void MapFieldSerializer(const uint8* base, uint32 offset, uint32 tag, uint32 has_offset, io::CodedOutputStream* output) { typedef MapEntryHelper Entry; typedef typename MapFieldType::MapType::const_iterator Iter; const MapFieldType& map_field = *reinterpret_cast(base + offset); const SerializationTable* t = table + has_offset; // has_offset is overloaded for maps to mean table offset if (!output->IsSerializationDeterministic()) { for (Iter it = map_field.GetMap().begin(); it != map_field.GetMap().end(); ++it) { Entry map_entry(*it); output->WriteVarint32(tag); output->WriteVarint32(map_entry._cached_size_); SerializeInternal(reinterpret_cast(&map_entry), t->field_table, t->num_fields, output); } } else { std::vector v; for (Iter it = map_field.GetMap().begin(); it != map_field.GetMap().end(); ++it) { v.push_back(Entry(*it)); } std::sort(v.begin(), v.end(), CompareMapKey()); for (int i = 0; i < v.size(); i++) { output->WriteVarint32(tag); output->WriteVarint32(v[i]._cached_size_); SerializeInternal(reinterpret_cast(&v[i]), t->field_table, t->num_fields, output); } } } } // namespace internal } // namespace protobuf } // namespace google #include #endif // GOOGLE_PROTOBUF_GENERATED_MESSAGE_TABLE_DRIVEN_H__