KR20040042730A - Network encode apparatus and method - Google Patents

Abstract

PURPOSE: A network encryption device and a method thereof are provided to select/apply a desired encryption algorithm to a system, and offer convenience to a user by making the system automatically recognize which encryption module is mounted. CONSTITUTION: The encryption module(100) mounts an encryption chip realizing the algorithm desired by the user by making a daughter board separated from a main board. An encryption module interface(200) provides a slot for connecting the encryption module to the main board by connecting to the main board. A microprocessor(6) confirms a sort of the encryption module by the information inputted from a specified pin and stores the encryption algorithm of the encryption module in a flash memory(7). If the packet data is inputted from the network, the microprocessor encrypts the packet data by the encryption module.

Description

Network encryption apparatus and method {NETWORK ENCODE APPARATUS AND METHOD}

The present invention relates to a network encryption apparatus and method, and more particularly, to a network encryption apparatus and method for selecting a desired encryption algorithm to be applied to a system.

Existing network encryption equipment is equipped with most of the cryptographic accelerator to encrypt data at high speed. In the process of hardware implementation, most of the cryptographic accelerator chip is built on the main board or developed into another model. A network encryption apparatus will be described with reference to FIG. 1.

The microprocessor 6 is a main processor of an encryption device and is a central processing unit for operating the device, and may add various external devices to configure the system according to the purpose of use. Here we use a 32-bit microprocessor that handles 32-bit.

The network processor 5 is a basic communication device for configuring network equipment, and is configured to operate in a TCP / IP based Ethernet environment.

If the algorithm for performing encryption at high speed is a chip implemented in hardware, the encryption processor 9 is equipped with an encryption algorithm desired by the user and is operated under the control of the microprocessor 6.

The memory 2 is an essential additional device for driving the microprocessor 6 and is usually called RAM. The larger the capacity, the more program processing is possible and the performance of the equipment is closely related.

The flash memory 7 stores a basic operating system for operating the device, and also includes additional information about the device. The information stored in the flash memory 7 is not erased even when the power of the device is turned off. It is used a lot as a storage device.

The power supply device 1 supplies an operating power source for operating the parts, and converts 220V AC into a DC current suitable for the microprocessor 6 to operate.

The Programmable Logic Device (PLD) 8 connects the microprocessor 6 and the peripheral processor.

Each unit is physically connected through a 32-bit bus, and the Ethernet port 3 is a port used to configure a network, and is configured as a port for connecting three RJ45 Ethernet lines.

In addition, the console serial port is a serial input port that monitors the device operation status so that the developer can check.

In the above-described conventional network encryption apparatus, all processors are integrated on one motherboard, and in order to implement the encryption algorithm required by the user, the motherboard must be redesigned or another system is developed, which is inefficient in terms of cost and time. to be.

The present invention has been made to solve the above problems, and an object thereof is to provide a network encryption apparatus and method for selecting a desired encryption algorithm to be applied to a system.

1 is a block diagram showing a configuration of a conventional network encryption apparatus.

Figure 2 is a block diagram showing the configuration of the network encryption apparatus of the present invention.

3 is a flowchart of operation of the network encryption method of the present invention.

***** Description of the symbols for the main parts of the drawings *****

1: power supply 2: memory

3: Ethernet port 4: Serial port for console

5: network processor 6: microprocessor

7: Flash memory 8: PLD

9: encryption processor

The present invention for achieving the above object, in the network device equipped with a microprocessor and a network processor to perform a network function on the main board, the motherboard is made of a separate, the user desired algorithm An encryption module for mounting the implemented encryption chip; And an encryption module connected to the main board and providing a slot for connecting the encryption module to the main board.

Hereinafter, operations and effects of the network encryption apparatus and method according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a network encryption apparatus of the present invention. As shown in FIG. 2, the general configuration is the same as in the related art, except that the microprocessor 6 and the network processor 5 are configured to perform a network function on the motherboard. In the network device is provided, the encryption module 100 is manufactured separately from the main board, and equipped with an encryption chip that implements the algorithm desired by the user; It is configured to include an encryption module interface 200 connected to the main board, and provides a slot for connecting the encryption module 100 to the main board.

The encryption module interface 200 is a slot that connects a module equipped with an encryption chip to a main board, and uses two stackable memory slots that are directional and distinguished from males and males so that the encryption module is correctly mounted on the board. do.

The encryption module 100 is designed to manufacture a separate board (Daughter Board) separately from the main board and equipped with an encryption chip thereon, it is possible to replace various encryption modules according to the algorithm desired by the user Is to recognize which encryption module is used by connecting a specific pin.

3 is an operation flowchart of an embodiment of the network encryption method of the present invention, the first process of checking the type of the encryption module 100 according to information input to a specific pin as shown in the figure; A second process of storing a specific encryption algorithm of the encryption module 100 identified above; When packet data is input from the network, a third process of encrypting a specific encryption algorithm stored for the packet data is performed, and thus the present invention will be described.

First, an encryption module 100 equipped with an encryption chip in which an encryption algorithm desired by a user is implemented is mounted on a motherboard.

At this time, the microprocessor 6 checks the type of the encryption module 100 by a signal input from two predefined user pins through the encryption module interface 200, and then, The encryption algorithm is stored in the flash memory 7.

Then, the operating system (OS) is booted to apply the encryption algorithm stored in the flash memory (7).

For example, when processing the packet data input from the network, the packet data is encrypted using an encryption algorithm stored in the flash memory 7.

If the user wants to replace the encryption module 100 to apply another encryption algorithm, the above operation is repeated.

When the encryption module 100 is separated from the system, the system checks that there is no input information coming into the two user pins, recognizes that there is no encryption module, and then stops the operation of the system from which the encryption function is removed. Do not operate abnormally.

In other words, the present invention, after mounting the encryption module implemented by the user's desired encryption algorithm on the motherboard, and after confirming the type of the encryption module by the signal input from the user pin through the encryption module interface and stored in the flash memory When packet data is input through the network, the encryption operation is performed by applying a stored encryption algorithm to the packet data.

The specific embodiments or examples made in the detailed description of the present invention are intended to clarify the technical contents of the present invention to the extent that they should not be construed as limited to these specific embodiments and should not be construed in consultation. Various changes can be made within the scope of.

As described in detail above, the present invention can be applied to a system by selecting a user's desired encryption algorithm, and the system automatically recognizes which encryption module is mounted, which is convenient for the user to write.

In addition, when the encryption module is not installed, the system does not work, so the stability of the encryption system is provided, and when a new encryption algorithm is developed and applied, only the encryption module can be manufactured and applied to the system, so that product development time is increased. There is a significant shortening effect.

Claims (5)

In the network device equipped with a microprocessor and a network processor to perform a network function on the motherboard, An encryption module manufactured separately from the main board and equipped with an encryption chip in which an algorithm desired by a user is implemented; And an encryption module interface connected to the main board and providing a slot for connecting the encryption module to the main board. The method of claim 1, wherein the microprocessor, The type of the encryption module is checked based on the information input to the specific pin, and the specific encryption algorithm of the encryption module is stored in the flash memory, so that the packet data is encrypted by the encryption algorithm when packet data is input from the network. Network encryption apparatus, characterized in that. The method of claim 1, wherein the microprocessor, If there is no information input to a specific pin, the network encryption device characterized in that the system is stopped by recognizing that there is no encryption module. In the network encryption device, A first process of checking a type of an encryption module according to information input to a specific pin; A second process of storing a specific encryption algorithm of the encryption module identified above; And when the packet data is input from the network, performing a third process of encrypting a specific encryption algorithm stored for the packet data. The method of claim 4, wherein the first step comprises stopping the system if there is no information input to a specific pin.