JP2011232604A - Encryption device and encryption method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an encryption device and method which conceals content of a document by encryption and in which a summary of the content of the document can be understood even after the encryption.SOLUTION: The encryption device comprises: receiving means for receiving an input of a plaintext document which is an encryption target; summary readable encrypting means for dividing the plaintext document into an encryption-target portion plaintext and a non-encryption-target portion plaintext, for encrypting the encryption-target portion plaintext with a predetermined encryption algorithm to generate a partial ciphertext, and for replacing the encryption-target portion plaintext in the plaintext document by the partial ciphertext to generate a replacement document; and outputting means for outputting the replacement document as an encrypted document corresponding to the plaintext document.

Description

  The present invention relates to an encryption device and an encryption method.

  When a document is placed on NAS (Network Attached Storage) connected to a network such as the Internet, the document can be searched for automatic search robots and unauthorized viruses, and the contents of the document can be collected and leaked to the outside. There is sex. Therefore, a technique for encrypting a document has been proposed and adopted so that the content of the document is not grasped at the outflow destination even in such a case (see Patent Document 1).

JP 2002-108910 A

  Usually, since an encrypted document is converted into data having no linguistic meaning, an outline of the original document cannot be known from the data. For this reason, even a person who has a proper access right to the document cannot infer even the outline of the document unless the encrypted document is decrypted, which is inconvenient.

  On the other hand, when the document creator encrypts the document using the public key of the other person, the document creator does not know the corresponding secret key, and therefore can no longer decrypt the encrypted document. For this reason, even if the document creator is encrypted, it is inconvenient because an outline of the encrypted document cannot be grasped later.

  Therefore, the present invention provides an encryption apparatus and method that solves the above-described problems and can grasp the outline of a document even after encryption while concealing the content of the document by encryption. There is to do.

  The encryption apparatus according to the present invention includes means for receiving an input of a plaintext document to be encrypted, and classifies the plaintext document into an encryption target partial plaintext and an encryption non-target partial plaintext, and the encryption target partial plaintext A general readable encryption unit that creates a partial ciphertext by encrypting the data with a predetermined encryption algorithm, and creates a replacement document by replacing the partial plaintext to be encrypted in the plaintext document with the partial ciphertext; Means for outputting a replacement document as an encrypted document corresponding to the plain text document.

  The encryption method of the present invention includes a step of receiving an input of a plaintext document to be encrypted, and the plaintext document is divided into an encryption target partial plaintext and an encryption non-target partial plaintext, and the encryption target partial plaintext A general readable encryption step of creating a replacement document by creating a partial ciphertext by encrypting a partial ciphertext with a predetermined encryption algorithm, and replacing the encryption target partial plaintext in the plaintext document with the partial ciphertext; Outputting a replacement document as an encrypted document corresponding to the plain text document.

  The encryption method of the present invention can be implemented by a CPU provided in a computer, and a program therefor is installed or loaded on each computer through various media such as a CD-ROM, a magnetic disk, a semiconductor memory, and a communication network. be able to.

  In the present specification, the means includes a unit realized by hardware, a unit realized by software, and a unit realized by using both. One unit may be realized by using two or more hardware, and two or more units may be realized by one hardware.

  According to the present invention configured as described above, an encryption apparatus and method capable of grasping an outline of the contents of a document even after the encryption while concealing the contents of the document by encryption. Can be provided.

It is a figure which shows schematic structure of the encryption apparatus 100 of embodiment of this invention. It is a flowchart which shows the flow of a process in the encryption apparatus 100 of embodiment of this invention. It is a figure explaining a mode that a document is encrypted by the encryption apparatus 100 of embodiment of this invention.

  Hereinafter, an encryption apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a diagram showing a schematic configuration of an encryption apparatus according to an embodiment of the present invention. As shown in FIG. 1, the encryption apparatus 100 includes a plaintext receiving unit 1, an outline readable encryption unit 2, a ciphertext output unit 3, and the like. Using these units, plaintext is encrypted and output. It has a function to execute processing.

  Each unit of the encryption device 100 is, for example, a dedicated or general-purpose computer including a CPU (central processing unit) composed of a microprocessor, memory, HDD, various interfaces, and the like. This can be realized by executing a stored program and controlling each hardware.

  Hereinafter, each unit of the encryption device 100 will be described.

  The plaintext receiving unit 1 receives an input of a plaintext document 200 to be encrypted.

  The outline-readable encryption unit 2 includes an encryption target classification unit 21, an encryption unit 22, a replacement unit 23, and the like. Using these units, the plaintext document 200 and the encryption target partial plaintext 201 are not encrypted. The target partial plaintext 202 is divided, the encryption target partial plaintext 201 is encrypted by a predetermined encryption algorithm to create a partial ciphertext 203, and the encryption target partial plaintext 201 in the plaintext document 200 is converted into the partial ciphertext 203. A replacement document 204 is created by replacement.

  The ciphertext output unit 3 outputs the replacement document 204 as an encrypted document 205 corresponding to the plaintext document 200.

  Hereinafter, the processing flow of the encryption apparatus 100 will be described with reference to FIGS. In addition, in this specification, each process shown in the flowchart etc. (including a partial process to which no reference sign is assigned) may be executed in any order or in parallel within a range that does not cause a contradiction in processing contents. it can.

  The plaintext receiving unit 10 receives an input of the plaintext document 200 to be encrypted (S100). As a method of receiving a plain text document, for example, based on a user's specification, the file of the plain text document 200 is read from the memory included in the encryption device 1 or the file of the plain text document 200 is received from another device via a communication network. It is possible. FIG. 3A shows an example of a plain text document 200.

  Next, the encryption target classifying unit 21 classifies the plaintext document 200 into an encryption target partial plaintext 201 and an encryption non-target partial plaintext 202 (S101). As a classification method, it is desirable that the encryption target partial plaintext 201 and the encryption non-target partial plaintext 202 are alternately arranged, and further, the encryption target partial plaintext 201 and the encryption non-target partial plaintext It is desirable to divide 202 so that each consists of one character. FIG. 3B shows an example of the encryption target partial plaintext 201 divided from the plaintext document 200, and FIG. 3C shows an example of the encryption non-target partial plaintext 202.

  Next, the encryption unit 22 encrypts the encryption target partial plaintext 201 using a predetermined encryption algorithm to create a partial ciphertext 203 (S102). As the encryption algorithm, for example, a conventional encryption algorithm such as a public key encryption method can be appropriately employed.

  When the plaintext document 200 is divided so that the number of encryption target partial plaintexts 201 is N (N ≧ 2), the encryption algorithm is individually applied to each encryption target partial plaintext 201 to cope with it. The partial ciphertext 203 may be created.

  Alternatively, a partial cipher document (see FIG. 3 (d)) is created by applying an encryption algorithm to a concatenated document (see FIG. 3 (b)) in which N encryption target partial plaintexts 201 are concatenated, and the partial cipher Each data obtained by dividing the document into N pieces may be used as the partial ciphertext 203 corresponding to each of the N encryption target partial plaintexts 201.

  Next, the replacement unit 23 creates the replacement document 204 by replacing the encryption target partial plaintext 201 in the plaintext document 200 with the corresponding partial ciphertext 203 (S103). An example of the replacement document 204 is shown in FIG.

  Next, the ciphertext output unit 3 outputs the replacement document 204 as the cipher document 205 corresponding to the plaintext document 200 (S104). As a method for outputting the encrypted document 205, for example, writing the file of the encrypted document 205 to a memory included in the encryption device 1 or transmitting the file of the encrypted document 205 to another device via a communication network is conceivable. .

  As described above, in the present embodiment, the plaintext document 200 to be encrypted is divided into the encryption target partial plaintext 201 and the encryption non-target partial plaintext 202, and only the encryption target partial plaintext 201 is encrypted. A partial ciphertext 203 is created, and a replacement document 204 is created by replacing the encryption target partial plaintext 201 with the partial ciphertext 203 in the plaintext document 200, and is output as an encrypted document 205 corresponding to the plaintext document 200. According to such a configuration, the user can conceal the contents of the plain text document 200 by the partial cipher text 203 in the cipher document 205 to prevent collection by an automatic search robot or an illegal virus, and even after encryption, the user can The outline of the plaintext document 200 can be grasped by the encrypted non-target partial plaintext 202 in the encrypted document 205.

  In particular, when the plaintext document 200 is classified in S101, the encrypted document partial plaintext 201 and the encrypted non-target partial plaintext 202 are classified so as to be alternately arranged, so that the encrypted document 205 has a linguistic meaning. The partial ciphertext 203 having no text and the encrypted non-target partial plaintext 202 having linguistic meaning are alternately arranged, so that content concealment and summary comprehension of the plaintext document 200 can be balanced in a balanced manner. it can.

Further, in this case, by dividing the encryption target partial plaintext 201 and the encryption non-target partial plaintext 202 so as to each consist of one character, a word consisting of two or more characters in the plaintext document 200 is The plaintext 201 and the encrypted non-target partial plaintext 202 are necessarily separated. As a result, there are no linguistically meaningful words of two or more characters in the encrypted document 205, making it difficult for an automatic search robot, an illegal virus, or the like to collect the contents of the plaintext document 200. On the other hand, even if the character is replaced with a symbol or the like every other character, the user can usually guess the context by predicting / interpolating the replaced original character, so that the outline of the plaintext document 200 is grasped from the encrypted document 205. can do.
(Modification)
Although the preferred embodiments of the present invention have been described, the present invention should not be limited to the above-described embodiments, and various modifications and changes can be made without departing from the spirit and scope expressed in the claims. Additions and omissions are possible by those skilled in the art.

  For example, as a method of classifying plaintext documents, it is not necessary to classify the encryption target partial plaintext 201 and the encryption non-target partial plaintext 202 so as to always have the same number of characters. Further, at least one word consisting of two or more characters in the plaintext document 200, for example, the most frequently occurring word in the document, is divided into the encryption target partial plaintext 201 and the encryption non-target partial plaintext 202. For example, since the word is concealed, it is possible to prevent an automatic search robot or an illegal virus from collecting documents based on the word.

  Note that a decryption device corresponding to the encryption device of the present invention can be realized by executing the encryption processing steps by the encryption device of the present invention in reverse order. Specifically, in the decryption device, various rules adopted by the encryption device (a classification method, a decryption algorithm corresponding to the encryption algorithm, etc.) are stored, and the encrypted document 205 is partially encrypted based on the rules. The sentence 203 and the non-encrypted partial plaintext 202 are divided, the partial ciphertext 203 is decrypted to generate the encryption target partial plaintext 201, and the partial ciphertext 203 is replaced with the encryption target partial plaintext 201 in the encrypted document 205. Thus, the plain text document 200 is created.

A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.
(Appendix 1)
Means for receiving an input of a plaintext document to be encrypted; and classifying the plaintext document into an encryption target partial plaintext and an encryption non-target partial plaintext, and encrypting the encryption target partial plaintext by a predetermined encryption algorithm A partial ciphertext to create a replacement document by replacing the encryption target partial plaintext in the plaintext document with the partial ciphertext, and the replacement document corresponds to the plaintext document Means for outputting as an encrypted document to be encrypted.
(Appendix 2)
2. The encryption apparatus according to appendix 1, wherein the summary-readable encryption unit performs the classification so that an encryption target partial plaintext and an encryption non-target partial plaintext are alternately arranged.
(Appendix 3)
The encryption apparatus according to appendix 2, wherein the encryption target partial plaintext and the encryption non-target partial plaintext each consist of one character.
(Appendix 4)
The outline-readable encryption unit classifies the plaintext document so that the number of encryption target partial plaintexts is N (N ≧ 2), and determines a linked document obtained by concatenating the N encryption target partial plaintexts. A partial cipher document is created by encrypting with the encryption algorithm of the above, and the partial ciphertext is divided into N pieces, and the partial plaintext to be encrypted in the plaintext document is replaced with each of the divided partial ciphertexts. 4. The encryption apparatus according to any one of appendices 1 to 3, wherein a replacement document is created.
(Appendix 5)
The summary readable encryption means performs the classification so that at least one word in the plaintext document is separated into an encryption target partial plaintext and an encryption non-target partial plaintext. 5. The encryption device according to any one of 4 above.
(Appendix 6)
Receiving an input of a plaintext document to be encrypted; and classifying the plaintext document into an encryption target partial plaintext and an encryption non-target partial plaintext, and encrypting the encryption target partial plaintext using a predetermined encryption algorithm A partial ciphertext to create a replacement document by replacing the encryption target partial plaintext in the plaintext document with the partial ciphertext, and the replacement document corresponds to the plaintext document And outputting the encrypted document as an encrypted document.
(Appendix 7)
A program for causing a computer to execute the encryption method according to attachment 6.

DESCRIPTION OF SYMBOLS 1 Plaintext reception part 2 Summary readable encryption part 21 Encryption object classification | segmentation part 22 Encryption part 23 Replacing part 3 Ciphertext output part 100 Encryption apparatus 200 Plaintext document 201 Encryption object partial plaintext 202 Encryption non-target partial plaintext 203 Part Ciphertext 204 Replacement document 205 Cryptographic document

Claims (7)

Means for receiving input of a plain text document to be encrypted;
The plaintext document is divided into an encryption target partial plaintext and an encryption non-target partial plaintext, and the encryption target partial plaintext is encrypted by a predetermined encryption algorithm to create a partial ciphertext, and the plaintext document Summary readable encryption means for creating a replacement document by replacing the partial plaintext to be encrypted with the partial ciphertext;
Means for outputting the replacement document as an encrypted document corresponding to the plaintext document;
An encryption device comprising:   2. The encryption apparatus according to claim 1, wherein the summary-readable encryption unit performs the classification so that an encryption target partial plaintext and an encryption non-target partial plaintext are alternately arranged.   3. The encryption apparatus according to claim 2, wherein the encryption target partial plaintext and the encryption non-target partial plaintext each consist of one character.   The outline-readable encryption unit classifies the plaintext document so that the number of encryption target partial plaintexts is N (N ≧ 2), and determines a linked document obtained by concatenating the N encryption target partial plaintexts. A partial cipher document is created by encrypting with the encryption algorithm of the above, and the partial ciphertext is divided into N pieces, and the partial plaintext to be encrypted in the plaintext document is replaced with each of the divided partial ciphertexts. 4. The encryption apparatus according to claim 1, wherein a replacement document is created.   2. The summary-readable encryption unit performs the classification so that at least one word in the plaintext document is separated into an encryption target partial plaintext and an encryption non-target partial plaintext. 5. The encryption device according to any one of items 1 to 4. Receiving an input of a plain text document to be encrypted;
The plaintext document is divided into an encryption target partial plaintext and an encryption non-target partial plaintext, and the encryption target partial plaintext is encrypted by a predetermined encryption algorithm to create a partial ciphertext, and the plaintext document An outline readable encryption step of creating a replacement document by replacing the partial plaintext to be encrypted with the partial ciphertext; and
Outputting the replacement document as an encrypted document corresponding to the plaintext document;
An encryption method comprising:   A program for causing a computer to execute the encryption method according to claim 6.

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