JPS5997173A - Cipher decoder - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an encryption/decryption device having a function of obtaining a key for decrypting encrypted digital data from digital data sent from a transmitting side.

When a broadcast program is encrypted and broadcast, key distribution is required. Conventionally, two key delivery methods have been considered. One is to assign a master key to each terminal,
This is a method of encrypting and sending the key to be delivered using the master key. This method has the disadvantage that as the number of receiving terminals increases, the amount of transmission by the broadcast station increases. Another method is to install a remote switch on the receiver that cannot be accessed even by the owner of the receiver, and for the broadcasting station to control the remote switch using broadcasting means.

This method requires less transmission than the previous method, but it also allows you to store previously received signals and input them into the receiver later, or when a broadcast station sends a signal to turn off a remote switch. The drawback is that it is weak against the method of turning off the power to the receiver.

The object of the present invention is to provide an encryption/decryption device that eliminates the above-mentioned drawbacks.

The above objective can be achieved with an encryption/decryption device having the following configuration. That is, according to the first invention, encrypted digital data is extracted from digital data sent from the transmitting side.
An encryption/decryption device that has the function of obtaining a key for decrypting data receives a digital pattern input to an input terminal and determines whether the digital pattern belongs to a predetermined group of patterns. a pattern determining means for determining a pattern; a code converting means for converting the code of digital data input to the input terminal depending on a determination result of the pattern determining means and an output of an extracting means described below; and a determination result of the pattern determining means. a switch means for sending the output of the code conversion means to an output terminal or an extraction means described below depending on the output of the switch means; and an extraction means for extracting a part of the output or not extracting any of the output depending on the output of the switch means; The present invention is constructed as an encryption/decryption device characterized by comprising a protection means for preventing access to the input terminal means.

Further, according to the second aspect of the present invention, in an encryption/decryption device having a function of obtaining a key for decrypting encrypted digital data from digital data sent from a transmitting side, the digital data input to the input terminal is - pattern determining means for receiving a pattern and determining whether or not the digital pattern belongs to a group of patterns added in advance; and encoding the digital pattern depending on the determination result of the pattern determining means; a first code converting means for converting; an extracting means for extracting a part or nothing of the output depending on the output of the first stage of the first code converting means; and an output of the extracting means. and a protection means for preventing access to the first code converting means, the second code converting means, and the extracting means. It is configured as an encryption/decryption device.

Hereinafter, the present invention will be explained in detail using block diagrams showing embodiments. FIG. 1 is a block diagram showing an embodiment of the first invention. Digital data for key distribution and f[transmission digital data are input to the input terminal 101. Pattern determiner 102 input terminal 1
01K If a predetermined pattern exists in the input digital data, output l't-1.
If so, output 0. @Let this predetermined pattern <p. The decoder 103 has the input terminal 1
01 K The input digital data is decoded as the digital pattern all keys from the selector 6-108, which will be described later. A switch 104 converts the output of the decoder 103 into an extractor 105 (described later) if the output of the pattern determiner 102 is 1.
If the signal is 9.0, it is output to the output terminal 109. Extractor 1
05 outputs all part of the digital pattern if 1 exists at a predetermined position of the digital pattern from the switch 104, and does not output if it is 0. A first memory 106 stores the output of the extractor 105, and a second memory 107 stores six predetermined digital patterns MKtl-. selector 10
8 outputs the digital pattern stored in the second memory if the output of the pattern determiner 102 is 1, and outputs the digital pattern stored in the first memory if the output is 0. The protection device 110 communicates only with the input terminal 101 and the output terminal 1091, and connects the pattern determiner 102, the decoder 103, the switch 104, the extractor 105, the first memory 106, and the second memory.
FIG. 2 is a block diagram showing an embodiment of the second invention. The pattern determiner 202 outputs lt- if a predetermined pattern P exists in the digital data input to the input terminal 201, and outputs O if it does not exist. Code converter 203
If the output of the pattern determiner 202 is 1, the input terminal 201 converts the input digital data tube code. extractor 204 Fi the code converter 203
When a 1 is present in a predetermined position of a digital pattern from , a portion of the digital pattern is output. The decoder 205 decodes the digital data input to the input terminal 201 using the output of the extractor 204 as a key, and outputs the decoded data to the output terminal 206. The protection device 207 is for making it possible to access the pattern determiner 202, the code converter 203, the extractor 204, and the decoder 205 only through the input terminal 201 and the output terminal 206. Yes 0 The operating principle of the first invention will be explained using the block diagram of the embodiment shown in FIG. The transmitting side encrypts digital data for key distribution using a predetermined key MK and transmits the encrypted data. The decoder 103 is a decoder for the cipher.

FIG. 3 shows an example of the frame structure of the digital pattern for key distribution. In the figure, pattern P is a predetermined pattern, by which it is determined that it is digital data for key distribution. The on-off pattern is a pattern that indicates whether or not each receiver is qualified to receive a broadcast program.An address is specified in advance for each receiver, and if the receiver is qualified to receive it according to the address, it will receive 1t-1. Otherwise, they are arranged in 01 in an on-off pattern.

The key is the key to be delivered. Regular data not for key distribution is encrypted with the previously distributed key and sent. The principle of key distribution will be explained below with reference to FIG.

The second memory 107 stores the key MK.

Assume that the sender sends digital data for key distribution. At this time, on the receiving side, the pattern determiner 102 detects pattern P and outputs 1. Since the output of the pattern determiner 9-102 is 1, the selector 108 selects the content M of the second memory 107.
Kt-output. The decoder 103 uses the output MK of the selector 108 to turn on/off the digital data for key distribution.
Off pattern and key Kt-Restore. switch 104
Since the output of the pattern determiner 102 is 1, the decoder 103
The output is sent to the extractor 105 and is not output to the output terminal 109. The extractor 105 stores the key K in the first memory 106 only when the bit in the position corresponding to the address of the receiver in the on-off pattern is 1, and does not store it when it is 0. When the sending side encrypts data that is not for key distribution and sends it, the receiving side uses pattern determiner 1.
02 outputs O. At this time, the selector 108 selects the first memo IJ-10 because the output of the pattern determiner 102 is 0.
6 contents Kt-output. The decoder 103 decodes the data using K. Since the output of the pattern determiner 102 is o6, the switch 104 outputs the output of the decoder 103 to the output terminal 10? Output to. Since no one on the receiving side can know the MK%Kt- due to the protection device 110,
Data cannot be decoded unless the bit at the position corresponding to the address 10- of the target receiver in the on-off pattern is 1. That is, the bit acts as a remote switch from the sending side. If the key is changed to a new key, it will be useless to have the receiving side input the previous key delivery digital data into the receiver, or turn off the power to the receiver when transmitting the key delivery digital data.

This is because subsequent broadcast programs will be encrypted and sent. Since the on/off pattern is only assigned one bit to one receiver, it is easier to use digital key distribution than the method of determining a master key for each receiver and encrypting the key ml with the master key. - Less data is required.

In the embodiment shown in FIG.
3 is executed, and the operation tube decoder 205 which decrypts the data with the key is executed. Similar to the embodiment of the first invention, upon receiving the key distribution digital data, the code converter 203
restores the on-off pattern and key K, extractor 20
4, if the bit in the on/off pattern corresponding to the end address of the receiver is 1, the key Kt- is output, and if it is 0, it is output. The decoder 205 decodes the digital data input to the input terminal 201 using a key. The protection device 207 functions similarly to the protection device 110 of the first invention. Therefore, a description of the fact that the bits in the on/off pattern corresponding to the addresses of the protection device 207 and the receiver function as a remote switch will be omitted. Also, there is no point in re-entering the previous key delivery digital data or turning off the receiver while the key delivery digital data is being sent; The reason why is short is the same as in the first invention, so the explanation will be omitted.

FIG. 4 is a block diagram illustrating one embodiment of pattern determiners 102 and 202. In the figure, a shift register 401 sequentially stores input digital data. The memory 403 stores the pattern P.

The exclusive OR element 402 is connected to the shift register 401.
When the contents of the memory 403 are 0, the converter 404 outputs 1, and when the contents are other than 0, it outputs 0.

For the decoders 103 and 205 and the code converter 203, a decoder is used for decoding data sent by the transmitting side after encrypting key distribution digital data and other data.

The extractors 105, 204 can be configured with memory. That is, a digital pattern for key distribution is stored, and when the bit at the position corresponding to the address of the receiver is 1 from the on/off pattern in the digital pattern, the key part is read out, and the key part is read out as 0.
It should not be read when .

For example, the protective device 110.207 may be sealed except for the input terminal and the output terminal, and may be covered with a material that will destroy the contents if destroyed.

In the above embodiment, the outputs of the pattern determiners 102 and 202 were set to 1.0, but the outputs may be other than 1.0 as long as they are two distinguishable symbols. Further, the frame structure is not limited to the structure shown in FIG. 3, but may be a different structure as long as it is determined in advance by the transmitting side and the receiving side. Also, 13-kiru. Further, in the embodiment of the second invention, if the transmitting side encrypts the key distribution digital data and other data differently, the receiving side uses a decoder for the former encryption as the code converter 203, By using the latter encryption decoder as the decoder 205, data can be decrypted. Furthermore, the on/off pattern indicating reception qualifications for each receiver can be modified to further add information indicating reception qualifications for each program. All these modifications are included within the scope of the present invention.

As described in detail above, if the present invention is used, encryption keys for broadcast programs can be distributed with a small amount of transmission, and recipients who are not eligible to receive them can use the previous key distribution digital key.
When digital data is being sent, the transmitted program cannot be correctly decoded even if the receiver is turned off, so it is extremely ineffective when applied to broadcasting systems. Big 〇14-

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the first invention. FIG. 2 is a block diagram showing an embodiment of the second invention. FIG. 3 is a frame configuration diagram of a digital pattern for key distribution. FIG. 2 is a block diagram illustrating one embodiment of a pattern determiner 102.202. In the figure, 102.202 is a pattern judger, 103.205 is a decoder, 203 is a code converter,
105.204 is an extractor, 110.207 is a membrane preservation device,
108 is a selector, 106.107.403 is a memory, 104 is a switch, 401 is a shift register, 40
2 indicates an exclusive OR element, and 404 indicates a converter.〇15-

Claims (1)

[Claims] (1) In an encryption/decryption device having a function of obtaining a key for decrypting encrypted digital data from digital data sent from a transmitting side, a digital signal input to an input terminal trap is used. pattern determining means for receiving a pattern and fully determining whether or not the digital pattern belongs to a predetermined group of patterns; code converting means for converting the code of digital data inputted to an input terminal; switch means for sending the output of the code converting means to an output terminal or an extraction means described later depending on the determination result of the pattern determining means; and the switch. extraction means for extracting a portion or none of the output depending on the output of the means; and a protection means for preventing access to the switch means, and a key for decrypting encrypted digital data from the digital data sent from the transmitting side In the encryption/decryption device having the function of obtaining a digital pattern, the pattern determining means receives all digital patterns inputted to an input terminal and determines whether the digital pattern belongs to a predetermined group of patterns; a first code converting means for code converting the digital pattern depending on the judgment result of the pattern judgment means; and extracting a part of the mosquito output depending on the output of the first code converting means, or an extracting means that does not extract any digital data; a first determining means for converting the code of digital data input to the input terminal depending on the output of the extracting means; the first code converting means; and the second code. An encryption/decryption device comprising: a converting means; a protection means for preventing access to the extracting means; and l.