JP2010192959A - System, method and apparatus for managing self-decrypting type encrypted file, and method and apparatus for decryption control of the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a managing method for effectively limiting the number of decryption trials of a self-decrypting type encrypted file. <P>SOLUTION: In the method for managing a self-decrypting type encrypted file, a management device (10) connected to a network manages the number of decryption trials of self-decrypting type encrypted files, a communication device (30) connected to the network transmits a request of permission of decryption to the management device (10) when decrypting a self-decrypting type encrypted file, and the management device prohibits the communication device (30) from decrypting the decryption the self-decrypting type encrypted file if the number C<SB>TRIAL</SB>of decryption trials of the self-decrypting type encrypted file for which decryption permission is requested exceeds a predetermined number of times C<SB>MAX</SB>. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a self-decryption encrypted file management system, and more particularly to a self-decryption encrypted file management method and apparatus, and a control method and apparatus for decrypting a self-decryption encrypted file.

  Since the self-decryption file contains a decryption program that decrypts the self-encryption file, it is very important how to prevent unauthorized use of this decryption program, and various countermeasures are proposed. Has been.

  For example, the system disclosed in Patent Literature 1 protects a self-decryption type encrypted file by setting a password for file encryption and setting an upper limit on the number of password attempts when self-decrypting an encrypted file. We are trying to strengthen it.

  Further, in the authentication management system as disclosed in Patent Literature 2, when an incorrect password is input more than the set number of times in access from the user terminal, the service use by the user is stopped for the set period.

JP 2008-9483 A JP 2003-178029 A

  However, in the system disclosed in Patent Document 1, since the self-decryption type encrypted file can be copied any number of times, even if an upper limit is set for the number of password attempts, the number of password attempts is virtually unlimited. It can be done and allows brute force attacks.

  In addition, the system disclosed in Patent Document 2 attempts to prevent unauthorized access from a user terminal by setting a use suspension period, and is suitable as a protection enhancement measure for an acquired self-decryption file. Absent. For example, even if an incorrect password is entered more than the set number of times and the password cannot be entered, if the password can be entered again after the period of suspension of use, a brute force attack on the password of the self-decryption encrypted file is practical I will forgive you.

  Accordingly, an object of the present invention is to provide a management system, a management method and apparatus, and a decryption control method and apparatus that can effectively limit the number of decryption attempts of a self-decryption type encrypted file.

  In the self-decryption encrypted file management method according to the present invention, the management device connected to the network manages the number of attempts to decrypt the self-decryption encryption file, and the communication device connected to the network When decrypting a type-encrypted file, a decryption permission request is transmitted to the management device, and when the number of decryption attempts of the self-decryption type encrypted file for which the decryption permission is requested exceeds a predetermined number The communication device is prohibited from decrypting the self-decryption file.

  The self-decryption encrypted file management system according to the present invention is connected to a network and manages the number of attempts to decrypt the self-decryption encrypted file. The self-decryption encrypted file is connected to the network. A communication device that transmits a decryption permission request to the management device when controlling the decryption of the self-decryption encrypted file in response to a response to the decryption permission request. The decryption of the self-decryption file is prohibited for the communication device when the number of decryption attempts of the self-decryption file requested to be permitted to decrypt exceeds a predetermined number of times. .

  The management device according to the present invention is a self-decryption file management device capable of communicating with a plurality of communication devices via a network, and stores storage means for storing the number of decryption attempts of at least one self-decryption file In response to a request for permission to decrypt a self-decryption encrypted file received from a communication device, if the number of attempts to decrypt the self-decryption encrypted file exceeds a predetermined number, the decryption permission request is transmitted. Management means for transmitting an instruction for prohibiting the decryption of the self-decryption file to the communication device.

  A communication apparatus according to the present invention is a communication apparatus for acquiring and decrypting a self-decryption type encrypted file, and storing means for storing the self-decryption type encrypted file, embedded in the self-decryption type encrypted file Program execution means for executing a decryption program, and by executing the decryption program, a decryption permission request is transmitted to the management apparatus through a network, and the self-decryption encrypted file requested to be decrypted is decrypted. When the determination result indicating that the number of times exceeds the predetermined number is received from the management apparatus, the decryption process of the self-decryption file is terminated.

  A decryption control method according to the present invention is a decryption control method in a communication device that has acquired a self-decryption encrypted file, wherein a decryption permission request is transmitted to a management device through a network, and the self-decryption encryption requested to be decrypted is transmitted. When a determination result indicating that the number of file decryption attempts exceeds a predetermined number is received from the management device, the decryption process of the self-decryption file is terminated.

  A decryption control device according to the present invention is a decryption control device in a communication device that acquires and decrypts a self-decryption type encrypted file, and stores the self-decryption type encrypted file into a management device through a network. When transmitting a permission request and receiving from the management device a determination result indicating that the number of decryption attempts of the self-decryption encrypted file for which the decryption permission is requested exceeds a predetermined number of times, the self-decryption encrypted file And a control means for terminating the decoding process.

  According to the present invention, the number of attempts to decrypt a self-decryption file can be effectively limited.

It is a sequence diagram which shows the management method of the self-decryption type | mold encryption file by one Embodiment of this invention. 1 is a system configuration diagram schematically showing the configuration and operation of a management system according to a first embodiment of the present invention. FIG. It is a sequence diagram which shows operation | movement of the management system shown in FIG. It is a flowchart which shows control of the file encryption terminal in the management system shown in FIG. (A) is a flowchart showing serial number issuance control of the file encryption processing server in the management system shown in FIG. 1, and (B) is a flowchart showing decryption permission / prohibition control. It is a flowchart which shows the decoding control of the file decoding terminal in the management system shown in FIG. It is a block diagram which shows schematic structure of the file encryption processing server in the management system by 2nd Example of this invention. It is a block diagram which shows schematic structure of the communication apparatus in the management system by 3rd Example of this invention.

  As shown in FIG. 1, in order to describe an embodiment of the present invention, a communication system in which a management apparatus 1 and a communication apparatus 2 can be connected through a network 3 is taken up.

The management device 1 manages the number of decryption trials C _TRIAL of the self-decryption file 4 (step 5). When the communication device 2 acquires the self-decryption type encrypted file 4 and starts decryption (step 6), it first transmits a decryption permission request to the management device 1.

When the number of decryption attempts C _{TRIAL of} the self-decryption type encrypted file 4 requested to be decrypted exceeds the predetermined number of times C _MAX (step 7), the management device 1 sends the self-decryption type to the communication device 2 Notify that the encrypted file 4 is prohibited from being decrypted.

  In this way, by managing the number of decryption attempts of the self-decryption file 4 by the management device, it is possible to avoid a situation in which the self-decryption file 4 is tried without limit. That is, a brute force attack on the self-decryption encrypted file 4 is effectively prevented, and the protection of the self-decryption encrypted file 4 can be enhanced.

  Hereinafter, in order to explain an embodiment of the present invention, a management apparatus is a file encryption management server, a communication apparatus that transmits a self-decryption type encrypted file is a file encryption terminal, and a communication apparatus that decrypts a self-decryption type encryption file This is called a file decryption terminal.

1. System Configuration In FIG. 2, the management system according to the first embodiment is configured on a communication system in which a file encryption management server 10, a file encryption terminal 20, and a file decryption terminal 30 can be connected via a network 40. The network 40 is, for example, an IP (Internet Protocol) network, and the terminals 20 and 30 may be connected to the network 40 by wire, or may be connected to the network 40 through a radio base station of a mobile communication system as a mobile station. Good.

The file encryption processing server 10 includes a serial number management unit 101 and a management information storage unit 102 in addition to a communication unit connected to the network 40. The management information storage unit 102 stores, for each self-decryption type encrypted file, a serial number SNo, a password trial count C _MAX , and a decryption trial count (hereinafter, password trial count) C _TRIAL. It is managed by. The password trial count C _TRIAL is incremented (+1) each time a password mismatch notification is received from the file decryption terminal 30, as will be described later. Here, for a self-decryption file 202, the serial number SNo = 10s, password attempts permitted number C _MAX = 10 m, and the password attempts C _TRIAL = 10t.

Specifically, as will be described later, the serial number management unit 101 has a serial number issuance control function and a decryption permission / prohibition control function. The serial number management unit 101 issues a serial number SNo as identification information to the self-decryption encrypted file generated by the file encryption terminal 20. The serial number management unit 101, when the file decoding terminal 30 decodes the self-decryption file, by comparing the number of times C _TRIAL password attempts permitted number C _MAX and password attempts, the file decryption terminal 30 On the other hand, the decryption process is permitted or prohibited. Here, the serial number management unit 101 executes a serial number management unit program including a serial number issuance control function and a decryption permission / prohibition control function on a program control processor (not shown) such as a CPU (Central Processing Unit). It is realized by executing the above.

  The file encryption terminal 20 includes a self-decryption type encrypted file generation unit 201 in addition to a communication unit connected to the network 40. Here, the self-decryption type encryption file generation unit 201 is realized by executing a self-decryption type encryption file generation program on a program control processor (not shown). The self-decryption type encryption file 202 generated by the self-decryption type encryption file generation unit 201 includes an encrypted file, a decryption program for decrypting the encrypted file, and a decryption password PWD (= 20p) of the decryption program. ) And the serial number SNo = 10s notified from the file encryption management server 10. The self-decryption encrypted file 202 is transmitted to the destination terminal through the network 40, but can be moved while being stored in another medium, for example, a recording medium.

  The file decryption terminal 30 has a program control processor 301 in addition to a communication unit connected to the network 40, and executes the obtained decryption program of the self-decryption file 302. The self-decryption encrypted file 302 can be acquired not only when acquired through the network 40 but also in a state where it is stored in another medium, for example, a recording medium. As will be described later, when the decryption program of the self-decryption type encrypted file 302 is started on the program control processor 301, a decryption permission request including the serial number SNo = 10s is first transmitted to the file cipher management server 10, and the file cipher The permission or prohibition of the decryption process is received from the management server 10. Only when the decryption process is permitted, decryption password authentication by the decryption program is started, and the decryption process is executed after the decryption password is authenticated. If the decryption password is not authenticated, the file encryption management server 10 is notified of this fact.

As described above, the file encryption management server 10 monitors the password trial count C _TRIAL and gives the file decryption terminal 30 permission / prohibition of the decryption process, thereby realizing strong protection of the self-decryption type encrypted file. . In addition, the simplicity of a series of procedures from file encryption to decryption can be maintained. Hereinafter, the operation of the present embodiment will be described more specifically.

2. System Operation In FIG. 3, when the self-decryption encrypted file generation unit 201 of the file encryption terminal 20 confirms that communication with the file encryption management server 10 is possible, the file to be transmitted is encrypted (step S401). . Subsequently, a decryption program in which a password (decryption password) PWD essential for decryption is set is embedded in the encrypted file, and the self-decryption type encrypted file 202 is generated (step S402). When the self-decryption type encryption file 202 is generated, the self-decryption type encryption file generation unit 201 requests the serial number that is identification information of the self-decryption type encryption file 202 from the file encryption management server 10. (Step S403).

In response to the serial number request, the serial number management unit 101 of the file encryption management server 10 issues the serial number SNo of the self-decryption type encrypted file 202 (step S404), and relates to the self-decryption type encrypted file 202. The management information is stored in the management information storage unit 102 (step S405). The management information related to the self-decryption type encrypted file 202 is information relating at least the serial number SNo, the password trial count C _MAX and the password trial count C _TRIAL . Password attempts permitted number C _MAX is the error input number of possible passwords, is a predetermined upper limit. The number of password trials C _TRIAL is the number of times that the decryption password of the self-decryption encrypted file 202 is actually input regardless of which terminal has decrypted it. If there are a plurality of self-decryption type encrypted files, the serial number management unit 101 issues a serial number to each of them and manages the number of file decryption attempts, that is, the number of password attempts.

  When the serial number SNo is assigned, the file encryption terminal 20 transmits the self-decryption file 202 with the serial number SNo to the destination terminal (step S406). The processing of the terminal 20 on the transmission side ends when the self-decryption encrypted file 202 is transmitted.

  It is assumed that the file decryption terminal 30 has acquired the self-decryption type encrypted file 302 from the network 40 or another route. Note that the destination terminal of the self-decryption encrypted file 202 transmitted from the file encryption terminal 20 is not necessarily the file decryption terminal 30. This is because the self-decryption type encrypted file 202 may be copied at the destination terminal and transferred to the file decryption terminal 30. Here, it is assumed that the self-decryption file 302 is the self-decryption file 202 received by the file encryption terminal 20 or a copy thereof.

  The program control processor 301 of the file decryption terminal 30 activates a decryption program from the acquired self-decryption type encrypted file 302 (step S407). The decryption process by executing the decryption program first reads the serial number SNo from the self-decryption encrypted file 302 and obtains a decryption permission request to the file encryption management server 10 in order to obtain permission to decrypt the self-decryption encrypted file 302. Transmit (step S408).

When the serial number SNo for requesting decryption is notified, the serial number management unit 101 of the file encryption management server 10 searches the management information storage unit 102 and performs the password trial count C _TRIAL and password trial corresponding to the serial number SNo. The possible number of times C _MAX is read, and it is determined whether or not the number of password trials C _TRIAL exceeds the number of possible password trials C _MAX (step S409). The determination results indicating a prohibition of decoding processing if the password attempts C _TRIAL exceeds the password attempts permitted number C _MAX, and if not exceeded and returns a determination result indicating permission of a decoding process to the file decryption terminal 30 (Step S410).

  When receiving the determination result indicating that the decryption process is prohibited, the decryption process on the program control processor 301 of the file decryption terminal 30 deletes the self-decryption type encrypted file 302 and ends the process (step S411). When a determination result indicating permission of the decryption process is received, it is determined whether or not the decryption password input from the user of the file decryption terminal 30 matches the decryption password included in the self-decryption type encrypted file 302 (step S412). ). If the decryption passwords do not match, the mismatch information is notified to the file encryption management server 10 (step S413).

When the mismatch of the decryption password is notified regarding the serial number SNo that transmitted the determination result indicating that the decryption process is permitted, the serial number management unit 101 searches the management information storage unit 102 and attempts the password corresponding to the serial number SNo. The number of times C _TRIAL is incremented by 1 (step S414), and the process ends. If the decryption passwords do not match in step S412, the decryption process on the program control processor 301 of the file decryption terminal 30 also ends. Therefore, next time, when the same terminal 30 or other similar serial numbers SNo from the terminal is notified (step S408), the file encryption management server 10, the new password attempts C _TRIAL which is incremented determination in step S409 Will do. Thus, only when the decryption passwords match in step S412, the self-decryption type encrypted file 302 is decrypted (step S415). If the file decryption terminal 30 is not communicable with the file encryption management server 10, the decryption process is interrupted.

  Hereinafter, each control flow of the file encryption terminal 20, the file encryption management server 10, and the file decryption terminal 30 will be described in detail.

2.1) Control of File Encryption Terminal In FIG. 4, the self-decryption type encrypted file generation unit 201 of the file encryption terminal 20 determines whether or not communication with the file encryption management server 10 is possible (step S501). ). If communication with the server 10 is possible (step S501: Y), the self-decryption type encrypted file 202 is generated by encrypting the file to be transmitted and embedding the decryption program in which the decryption password 20p is set in the encrypted file ( Step S502). Subsequently, the self-decryption type encrypted file generation unit 201 requests the serial number for specifying the self-decryption type encrypted file 202 from the file cipher management server 10 (step S503).

  When receiving the serial number 10s from the file encryption management server 10, the self-decryption type encrypted file generation unit 201 assigns the serial number 10s to the self-decryption type encrypted file 202 (step S504) and transmits it to the destination terminal (step S504). S505). When the transmission is completed, the processing of the self-decryption type encrypted file generation unit 201 ends. If communication with the server 10 is not possible (step S501: N), the self-decryption type encrypted file generation unit 201 ends without performing any processing.

2.2) Control of File Encryption Management Server In FIG. 5A, the serial number management unit 101 of the file encryption management server 10 determines whether or not communication with the file encryption terminal 20 is possible (step S601). If communication is possible (step S601: Y), it waits for reception of a serial number request (step S602). When the serial number request of the self-decryption encrypted file 202 is received from the file encryption terminal 20 (step S602: Y), the serial number 10s of the self-decryption encryption file 202 is assigned and returned to the file encryption terminal 20. (Step S603). Then, the management information regarding the self-decryption type encrypted file 202 is stored in the management information storage unit 102 (step S604). Here, the serial number SNo = 10 s, the password trial count C _MAX and the password trial count C _TRIAL = 0 of the self-decryption encrypted file 202 are stored in the management information storage unit 102. When the management information is saved, the serial number management unit 101 ends the serial number issuance control and activates the decryption permission / prohibition control function described below (step S605).

  When communication with the file encryption terminal 20 is not possible (step S601: N) or when the serial number request is not within a predetermined time (step S602: N), the serial number management unit 101 does not issue the serial number. finish.

In FIG. 5B, the serial number management unit 101 of the file encryption management server 10
It is determined whether or not a serial number SNo for requesting permission for decryption has been received from the file decryption terminal 30 that intends to decrypt the self-decryption file 302 (step S701). When the serial number SNo = 10s is received (step S701: Y), the management information storage unit 102 is searched to read the password trial count C _TRIAL and password trial count C _MAX corresponding to the serial number 10s, and the password trial count C It is determined whether or not _TRIAL has exceeded the _maximum number of password trials C _MAX (step S702).

If the password trial count C _TRIAL does not exceed the password trial count C _MAX (step S702: N), the decryption password can be entered, and a determination result indicating permission of the decryption process is returned to the file decryption terminal 30. (Step S703). Then, it is determined whether or not a decryption password mismatch is notified from the file decryption terminal 30 (step S704). If there is no mismatch notification (step S704: N), the process is terminated as it is. However, if a mismatch notification is received (step S704: Y), 1 is added to the number of password trials C _TRIAL and the process is terminated (step S705). ). As a result, when a decryption permission request is issued next time from an arbitrary terminal with the same serial number 10s (step S701: Y), the password trial count C _TRIAL added with 1 and the password trial count C _MAX are compared. (Step S702).

If the password trial count C _TRIAL exceeds the password trial count C _MAX (step S702: Y), a determination result indicating that the decryption process is prohibited is returned to the file decryption terminal 30 (step S706), and the process ends. To do. If the serial number has not been received (step S701: N), the serial number management unit 101 ends without executing the permission / prohibition control of the decryption process.

2.3) Control of File Decryption Terminal In FIG. 6, when the program control processor 301 of the file decryption terminal 30 acquires the self-decryption type encrypted file 302 with the serial number 10s from the network 40 or another route (step S801), The embedded decoding program is activated (step S802).

  When the decryption process is started on the program control processor 301, first, the serial number 10s of the self-decryption type encrypted file 302 is transmitted as a decryption permission request to the file cipher management server 10 (step S803), and the file cipher management server corresponding thereto. The determination result from 10 is received (step S804). As described above, when a determination result indicating permission of the decryption process is returned from the file encryption management server 10 (step S804: permission of the decryption process), the decryption process is performed for the user of the file decryption terminal 30 to the terminal. You are prompted to enter the decryption password through the display. When the decryption password is input through the key operation unit or the like of the terminal (step S805), it is determined whether or not the decryption password matches the self-decryption type encrypted file 302 (step S806).

  If the input decryption password does not match the decryption password included in the self-decryption type encrypted file 302 (step S806: N), the decryption process sends a decryption password mismatch notification to the file encryption management server 10. (Step S807), the process ends. If the decryption passwords match (step S806: Y), the decryption process executes decryption processing of the encrypted file of the self-decryption type encrypted file 302 (step S808).

  When the determination result indicating that the decryption process is prohibited is returned from the file encryption management server 10 (step S804: prohibition of the decryption process), the decryption process deletes the self-decryption type encrypted file 302 (step S809), The process ends.

3. Effect As described above, the file encryption management server 10 issues a unique serial number SNo to one self-decryption type encrypted file 202, and the number of possible password attempts C _MAX and the decryption password corresponding to this serial number SNo. The number of trials C _TRIAL is stored in the management information storage unit 102 and managed. In this management state, when receiving a decryption permission request for the self-decryption type encrypted file 302 having the same serial number SNo from the file decryption terminal 30, the file encryption management server 10 performs the decryption password trial count C _TRIAL corresponding to the serial number SNo. but to see whether the more than a password attempts possible number of times C _MAX. Decrypt password attempts C _TRIAL will allow decoding does not exceed the password attempts permitted number C _MAX, the decoding process receives an input of decrypt password, when the decoded password is correct decodes the self-decryption file 302 . If decrypt password attempts C _TRIAL exceeds the password attempts permitted number C _MAX is the decoding process is prohibited, the decoding process self-decryption file 302 is deleted is ended. As a result, the number of times that the password can be tried is strictly maintained on the file encryption management server 10.

This mechanism, even if the self-decryption file 302 is duplicated, attempts decoding exceeding password attempts permitted number C _MAX becomes impossible, can be effectively prevented brute force attacks.

  Further, the self-decryption type encrypted file 302 is a self-decryption type of an executable file format, and a program for managing the serial number and decryption password trial number necessary for decrypting the file is installed in the file cipher management server 10. The protection of the self-decryption file can be enhanced without introducing a special module to the terminal 30 that decrypts the file. In addition, since the file encryption processing server 10 manages information related to serial numbers and decryption password attempts, the procedure at the file encryption terminal and the file decryption terminal is simplified while strengthening the protection of the self-decryption type encrypted file. The

4). Other Embodiments The functions of the file encryption management server 10 and the terminals 20 and 30 shown in FIG. 2 can also be realized by program control as described below. In particular, if the function of the file decryption terminal 30 is realized by program control, a special module for decryption is unnecessary, and it can be realized if a program control processor for executing a decryption program for a self-decryption type encrypted file is installed. There are advantages.

  As shown in FIG. 7, the file encryption management server 10 is provided with a program memory 103, a program control processor 104, and a communication unit 105 in addition to the management information storage unit 102 shown in FIG. The program memory 103 stores a serial number management program including a serial number issuance control program and a decryption permission / prohibition control program. When this program is executed on the program control processor 104, FIG. The serial number issuance control function and the decryption permission / prohibition control function shown in B) can be realized. The management information stored in the management information storage unit 102 is as described with reference to FIG.

  As shown in FIG. 8, the communication device 90 includes a program control processor 901, a program memory 902, a main memory 903, a data memory 904, a wired / wireless communication unit 905 for connecting to the network 40, a display unit and a key. A user interface unit 906 such as an operation unit is included. If the program memory 902 stores a self-decryption type encryption file generation program for generating a self-decryption type encryption file, the program control processor 901 can realize the file encryption function shown in FIG. It is.

  It is assumed that a self-decryption type encrypted file 907 is acquired from the network 40 and stored in the data memory 904 by a user operation, and the decryption program is read to the main memory 903 and executed.

  When the decoding process is thus started on the program control processor 901, steps S803 to S809 shown in FIG. 6 are executed. That is, first, the serial number 10 s of the self-decryption type encrypted file 907 is transmitted to the file encryption management server 10 as a decryption permission request, and the determination result from the file encryption management server 10 is received. If the determination result is permission of the decryption process, the decryption process prompts the user to input a decryption password. If the decryption passwords match, the decryption process executes the decryption process of the encrypted file of the self-decryption type encrypted file 302 and stores the decrypted file 908 in the data memory 904. If the decryption passwords do not match, the decryption process controls the communication unit 905 to notify the file encryption management server 10 of the decryption password mismatch and ends the subsequent decryption process.

In contrast, when a determination result indicating that the decryption process is prohibited is returned from the file encryption management server 10, the decryption process deletes the self-decryption type encrypted file 907 in the data memory 904, and performs the subsequent decryption process. finish. As a result, the number of times that the password can be tried is strictly maintained on the file encryption management server 10. That is, even if the self-decryption file 907 is duplicated, attempts decoding exceeding password attempts permitted number C _MAX becomes impossible, can be effectively prevented brute force attacks.

  Further, when decrypting the self-decryption type encrypted file, the communication device 90 does not require a special module for decryption, and the program control processor 901 that executes the decryption program of the self-decryption type encrypted file 907 is installed. It only has to be done.

  The present invention is generally applicable to a system that transmits and receives a self-decryption file.

DESCRIPTION OF SYMBOLS 1 Management apparatus 2 Communication apparatus 3 Network 4 Self-decryption encryption file 10 File encryption management server 20 File encryption terminal 30 File decryption terminal 40 Network 90 Communication apparatus 101 Serial number management part 102 Management information storage part 103 Program memory 104 Program control Processor 105 Communication unit 201 Self-decryption type encryption file generation unit 202 Self-decryption type encryption file 301 Program control processor 302 Self-decryption type encryption file

Claims (26)

A method of managing a self-decrypting encrypted file,
A management device connected to the network manages the number of attempts to decrypt the self-decryption file,
When the communication device connected to the network decrypts the self-decryption file, the communication device transmits a decryption permission request to the management device,
The management device prohibits the communication device from decrypting the self-decryption file if the number of decryption attempts of the self-decryption file requested to permit decryption exceeds a predetermined number of times;
A method for managing a self-decryption type encrypted file.   The management method according to claim 1, wherein the number of times of decryption attempts increases each time decryption password authentication of the self-decryption type encrypted file fails.   The communication device performs decryption password authentication when the management device permits the decryption of the self-decryption file, and notifies the management device of an authentication failure when the decryption password authentication fails. Item 3. The management method according to item 2.   4. The communication device according to claim 1, wherein the communication device deletes the self-decryption file if the management device prohibits the decryption of the self-decryption file. 5. The management method described. A self-decryption file management system,
A management device connected to the network and managing the number of decryption attempts of the self-decryption file;
When decrypting the self-decryption encrypted file connected to the network, a decryption permission request is transmitted to the management apparatus, and the decryption process of the self-decryption encrypted file is controlled according to a response to the decryption permission request A communication device to
And the management device decrypts the self-decryption file with respect to the communication device if the number of decryption attempts of the self-decryption file requested to permit decryption exceeds a predetermined number. Management system characterized by prohibiting.   The management system according to claim 5, wherein the number of times of decryption attempts increases each time decryption password authentication of the self-decryption type encrypted file fails.   The communication device performs decryption password authentication when the management device permits the decryption of the self-decryption file, and notifies the management device of an authentication failure when the decryption password authentication fails. Item 7. The management system according to item 6.   8. The communication device according to claim 5, wherein the communication device deletes the self-decryption file when the management device prohibits the decryption of the self-decryption file. 9. The management system described. A self-decryption encrypted file management device capable of communicating with a plurality of communication devices through a network,
Storage means for storing the number of decryption attempts of at least one self-decryption file;
In response to a decryption permission request for a self-decryption encrypted file received from a certain communication device, if the number of decryption attempts for the self-decryption file exceeds a predetermined number, the communication that transmitted the decryption permission request Management means for transmitting an instruction to prohibit the decryption of the self-decryption type encrypted file to the device;
A device for managing a self-decrypting encrypted file, comprising:   The management apparatus according to claim 9, wherein the management unit increases the number of decryption trials every time decryption password authentication of the self-decryption type encrypted file fails.   The management means, after transmitting an instruction to permit the decryption of the self-decryption type encrypted file to the communication device, increases the number of decryption attempts when the communication device is notified of the failure of the decryption password authentication. The management device according to claim 10. A communication device that acquires and decrypts a self-decryption encrypted file,
Storage means for storing the self-decryption encrypted file;
Program execution means for executing a decryption program embedded in the self-decryption encrypted file;
A decryption permission request is transmitted to the management apparatus through the network by executing the decryption program, and the number of attempts to decrypt the self-decryption encrypted file requested to be decrypted exceeds a predetermined number. When the determination result is received from the management device, the decryption process of the self-decryption file is terminated.   When the management device permits decryption of the self-decryption file, decryption password authentication is performed, and when the decryption password authentication fails, the management device is notified of the authentication failure, thereby increasing the number of decryption attempts. The communication device according to claim 12, characterized in that:   The communication device according to claim 12 or 13, wherein when the management device prohibits the decryption of the self-decryption file, the self-decryption file is deleted. A decryption control method in a communication device that has acquired a self-decryption type encrypted file,
Send a decryption permission request to the management device via the network,
Upon receiving from the management device a determination result indicating that the number of decryption attempts of the self-decryption encrypted file requested for decryption exceeds a predetermined number, the decryption process of the self-decryption file is terminated.
The decoding control method characterized by the above-mentioned.   When the management device permits decryption of the self-decryption file, decryption password authentication is performed, and when the decryption password authentication fails, the management device is notified of the authentication failure, thereby increasing the number of decryption attempts. The decoding control method according to claim 15, characterized in that:   The decryption control method according to claim 15 or 16, wherein when the management device prohibits the decryption of the self-decryption file, the self-decryption file is deleted. A decryption control device in a communication device that acquires and decrypts a self-decryption type encrypted file,
Storage means for storing the self-decryption encrypted file;
When sending a decryption permission request to the management apparatus through the network and receiving from the management apparatus a determination result indicating that the number of decryption attempts of the self-decryption encrypted file requested to be decrypted exceeds a predetermined number, Control means for terminating the decryption processing of the decryption type encrypted file;
A decoding control apparatus comprising:   The control means performs decryption password authentication when the management device permits the decryption of the self-decryption encrypted file, and notifies the management device of the authentication failure when the decryption password authentication fails. The decoding control device according to claim 18, wherein the decoding control device is increased.   The said control means deletes the said self-decryption type | mold encryption file from the said storage means, when the said management apparatus prohibits the decoding of the said self-decryption type | mold encryption file. Decoding control device. A computer program for causing a program control processor in a self-decryption type encrypted file management apparatus to realize the management function of the self-decryption type encrypted file,
A management device connected to the network manages the number of attempts to decrypt the self-decryption file,
When the communication device connected to the network decrypts the self-decryption file, the communication device transmits a decryption permission request to the management device,
The management device prohibits the communication device from decrypting the self-decryption file if the number of decryption attempts of the self-decryption file requested to permit decryption exceeds a predetermined number of times;
A computer program for causing the program control processor to function as described above.   The computer program according to claim 21, wherein the number of decryption attempts increases each time decryption password authentication of the self-decryption file fails.   The number of decryption attempts is increased when a failure of decryption password authentication is notified from the communication device after transmitting an instruction to permit the decryption of the self-decryption file to the communication device. Item 23. The computer program according to Item 22. A computer program for realizing a decryption control function of the self-decryption type encrypted file in a program control processor of the communication device that has acquired the self-decryption type encrypted file,
Send a decryption permission request to the management device via the network,
Upon receiving from the management device a determination result indicating that the number of decryption attempts of the self-decryption encrypted file requested for decryption exceeds a predetermined number, the decryption process of the self-decryption file is terminated.
A computer program for causing the program control processor to function as described above.   When the management device permits decryption of the self-decryption file, decryption password authentication is performed, and when the decryption password authentication fails, the management device is notified of the authentication failure, thereby increasing the number of decryption attempts. 25. A computer program according to claim 24, characterized in that:   The computer program according to claim 24 or 25, wherein when the management device prohibits the decryption of the self-decryption file, the self-decryption file is deleted.

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