Exemplo n.º 1
0
void Client::InternalSendMessage(const google::protobuf::Message& _message) {
  if (state_ != CONNECTED) {
    LOG(ERROR) << "Client is not connected. Dropping message" << std::endl;

    return;
  }

  // Generate a zero rid.
  REQID rid = REQID_Generator::generate_zero_reqid();

  // Make the outgoing packet
  sp_int32 byte_size = _message.ByteSize();
  sp_uint32 sop = OutgoingPacket::SizeRequiredToPackString(_message.GetTypeName()) + REQID_size +
                  OutgoingPacket::SizeRequiredToPackProtocolBuffer(byte_size);
  auto opkt = new OutgoingPacket(sop);
  CHECK_EQ(opkt->PackString(_message.GetTypeName()), 0);
  CHECK_EQ(opkt->PackREQID(rid), 0);
  CHECK_EQ(opkt->PackProtocolBuffer(_message, byte_size), 0);

  Connection* conn = static_cast<Connection*>(conn_);
  if (conn->sendPacket(opkt, NULL) != 0) {
    LOG(ERROR) << "Some problem sending message thru the connection. Dropping message" << std::endl;
    delete opkt;
    return;
  }
  return;
}
Exemplo n.º 2
0
void Client::SendResponse(REQID _id, const google::protobuf::Message& _response) {
  sp_int32 byte_size = _response.ByteSize();
  sp_uint32 data_size = OutgoingPacket::SizeRequiredToPackString(_response.GetTypeName()) +
                        REQID_size + OutgoingPacket::SizeRequiredToPackProtocolBuffer(byte_size);
  auto opkt = new OutgoingPacket(data_size);
  CHECK_EQ(opkt->PackString(_response.GetTypeName()), 0);
  CHECK_EQ(opkt->PackREQID(_id), 0);
  CHECK_EQ(opkt->PackProtocolBuffer(_response, byte_size), 0);
  InternalSendResponse(opkt);
  return;
}
Exemplo n.º 3
0
inline void post(const process::UPID& to,
                 const google::protobuf::Message& message)
{
  std::string data;
  message.SerializeToString(&data);
  post(to, message.GetTypeName(), data.data(), data.size());
}
Exemplo n.º 4
0
 void send(const process::UPID& to,
           const google::protobuf::Message& message)
 {
   std::string data;
   message.SerializeToString(&data);
   process::Process<T>::send(to, message.GetTypeName(), std::move(data));
 }
Exemplo n.º 5
0
void ProtobufCodec::fillEmptyBuffer(netlib::Buffer *buf,const google::protobuf::Message &message)
{
    assert(buf->readableSize() == 0);

    const std::string &typeName = message.GetTypeName();
    //类型名字长度包含'/0'
    int32_t nameLen = static_cast<int32_t>(typeName.size() + 1);

    //消息长度
    int byte_size = message.ByteSize();
    buf->makeSureEnough(byte_size);
    //总长度
    int32_t len = nameLen + kHeaderLen + byte_size;
    buf->appendInt32(len);
    //将名字长度和名字加入到buffer中去
    buf->appendInt32(nameLen);
    buf->append(typeName.c_str(),nameLen);
    
    uint8_t *start = reinterpret_cast<uint8_t *>(buf->getWritePeek());
    //将消息从start位置开始序列化
    uint8_t *end = message.SerializeWithCachedSizesToArray(start);
    buf->moveWriteIndex(byte_size);
    assert(end - start == byte_size);

}
Exemplo n.º 6
0
std::string CTcpCode::Encode(const google::protobuf::Message& message)
{
    std::string result;    
    result.resize(PKGHEAD_FIELD_SIZE); //  预留消息头的前四个字节

    // 添加消息类型长度和消息类型具体内容
    const std::string& type_name = message.GetTypeName();
    int name_len = static_cast<int>(type_name.size()+1);
    int be32 = ::htonl(name_len);
    result.append(reinterpret_cast<char*>(&be32), sizeof(be32));
    result.append(type_name.c_str(), name_len);

    // 将protobuf message协议数据添加至result中
    bool succeed = message.AppendToString(&result);
    if(succeed)
    {
        // 计算消息体总长度值,并添加至消息头顶部
        int len = ::htonl(result.size());
        std::copy(reinterpret_cast<char*>(&len), reinterpret_cast<char*>(&len) + sizeof(len), result.begin());
        DLOG(INFO) << "encode message ok, name=" << type_name.c_str() << ", len=" << len;
    }
    else
    {
        LOG(ERROR) << "encode message error, name=" << type_name.c_str();
        result.clear();        
    }

    return result;
}
Exemplo n.º 7
0
		static void FillBuffer(std::string &buf, const google::protobuf::Message& message)
		{
			typedef google::protobuf::int32 int32;

			const std::string& typeName = message.GetTypeName();
			int32 nameLen = static_cast<int32>(typeName.size()+1);
			int32 be32 = nameLen;

			buf.resize(sizeof(int32) * 2 + nameLen);

			buf.append(reinterpret_cast<char*>(&be32), sizeof be32);
			buf.append(typeName.c_str(), nameLen);
			bool succeed = message.AppendToString(&buf);

			if (succeed)
			{
				const char* begin = buf.c_str() + kHeaderLen;

				// CRC32 or adler32 ??
				int32 checkSum = 0;//adler32(1, reinterpret_cast<const Bytef*>(begin), result.size()-kHeaderLen);
				int32 be32 = checkSum;
				buf.append(reinterpret_cast<char*>(&be32), sizeof(be32));

				int32 len = buf.size() - kHeaderLen;
				int32 &totalLen = *(int32 *)(buf.data());
				totalLen = len;
			}
			else
			{
				buf.clear();
			}
		}
Exemplo n.º 8
0
static T evolve(const google::protobuf::Message& message)
{
  T t;

  string data;

  // NOTE: We need to use 'SerializePartialToString' instead of
  // 'SerializeToString' because some required fields might not be set
  // and we don't want an exception to get thrown.
  CHECK(message.SerializePartialToString(&data))
    << "Failed to serialize " << message.GetTypeName()
    << " while evolving to " << t.GetTypeName();

  // NOTE: We need to use 'ParsePartialFromString' instead of
  // 'ParsePartialFromString' because some required fields might not
  // be set and we don't want an exception to get thrown.
  CHECK(t.ParsePartialFromString(data))
    << "Failed to parse " << t.GetTypeName()
    << " while evolving from " << message.GetTypeName();

  return t;
}
Exemplo n.º 9
0
void parseMessageToFILE(const google::protobuf::Message& message, FILE* output, int tabcount = 0) {
    using google::protobuf::FieldDescriptor;
    using google::protobuf::UnknownField;
    using google::protobuf::UnknownFieldSet;
    using google::protobuf::EnumValueDescriptor;

    auto* reflection = message.GetReflection();
    auto* descriptor = message.GetDescriptor();
    size_t expected_size = descriptor->field_count();
    std::vector< const FieldDescriptor* > ref_fields; // array of known fields in the message
    UnknownFieldSet unknown_fields;

    ref_fields.reserve(expected_size);

    for (int i=0, n=descriptor->field_count(); i<n; ++i) {
        auto* field_desc = descriptor->field(i);
        ref_fields.push_back(field_desc);
    }

    fprintf(output, "%s\n", /*std::string(tabcount,' ').c_str(),*/ message.GetTypeName().c_str());
    ++tabcount;
    for(const auto& ref : ref_fields) {
        switch(ref->cpp_type()) {
        case FieldDescriptor::CPPTYPE_INT32 : {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedField<google::protobuf::int32>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetInt32(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_INT64  : {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedField<google::protobuf::int64>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetInt64(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_UINT32 : {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedField<google::protobuf::uint32>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetUInt32(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_UINT64 : {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedField<google::protobuf::uint64>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetUInt64(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_DOUBLE : {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedField<double>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetDouble(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_FLOAT  : {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedField<float>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetFloat(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_BOOL   : {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedField<bool>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetBool(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_ENUM   : {
            // Enums are a little akward...
            if (ref->is_repeated()) {
                for (int i=0, n=reflection->FieldSize(message, ref); i<n; ++i) {
                    printTypeArray(*reflection->GetEnum(message, ref), ref->camelcase_name(), output, tabcount, i);
                }
            }else {
                printType(*reflection->GetEnum(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_STRING : {
            //TODO: Output binary as HEX numbers.
            // can't print bytes 
            if (ref->type() == FieldDescriptor::TYPE_BYTES) {
                fprintf(output, "%s%s=<BINARY DATA>\n", std::string(tabcount,' ').c_str(), ref->camelcase_name().c_str());
                break;
            }
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedPtrField<std::string>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetString(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        case FieldDescriptor::CPPTYPE_MESSAGE: {
            if (ref->is_repeated()) {
                printRepeatedType(reflection->GetRepeatedPtrField<google::protobuf::Message>(message, ref), ref->camelcase_name(), output, tabcount);
            }else {
                printType(reflection->GetMessage(message, ref), ref->camelcase_name(), output, tabcount);
            }
        } break;
        }
    }
}