JP2002198949A - Cryptographic key distribution server and its control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cryptographic key distribution server and its control method, which can reduce a load of the server that distributes cryptographic keys such as a public key, and can hold a vote, an auction, or the like impartial. SOLUTION: When it is at or before the starting time of the auction, the vote, or the like, a public key distribution server 20 forces a plurality of mobile terminals 1 to distribute a public key by using a common calling number all at once.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an encryption key distribution server and a control method for the encryption key distribution server.

[0002]

2. Description of the Related Art Conventionally, a common key cryptosystem and a public key cryptosystem have been widely known as cryptographic technologies in the communication field. In the common key cryptosystem, the key to be encrypted and the key to be decrypted are the same, and both the sender and the receiver need to have a common key secretly. On the other hand, the public key cryptosystem is a cryptosystem in which a key to be encrypted (public key) and a key to be decrypted (private key) are different, and the public key may be made public and only the secret key may be kept secret. Therefore, the public key cryptosystem has a feature that the key can be distributed without impairing security by distributing the public key to a client terminal that requires the public key at the time of registration or immediately before the start of encrypted communication.

[0003]

In electronic voting and Internet auction in which voting is performed from a client terminal, it is necessary for the client terminal to encrypt the contents of voting, personal information, and the like and transmit the encrypted voting contents to a server of the business entity. In this case, a method of distributing the public key to the client terminal can be considered.

[0004] However, since there are many client terminals that distribute a public key, the method of distributing a public key at the time of a request from the client terminal increases the burden on the server of the business operator. In particular, in the case of electronic voting, it is necessary to distribute the public key fairly by the voting start time. On the other hand, if the public key is distributed before the voting start time or the auction start time, access to the server of the business operator may be performed even before the start time, and it is desirable to avoid such a case. It is.

The present invention has been made under such a background, and can reduce the load on a server that transmits an encryption key such as a public key, and can ensure fairness in voting and auctions. It is an object to provide an encryption key distribution server and a control method thereof.

[0006]

According to the present invention, there is provided an encryption key distribution server for distributing an encryption key to a plurality of client terminals, and a control method therefor. And transmitting the encryption key to the plurality of client terminals immediately before or at the transmission start time at which the transmission of the information is permitted.

Further, the encryption key distribution server distributes the encryption key using a common call number assigned to the plurality of client terminals.

Further, the encryption key distribution server is characterized in that the encryption key is distributed a plurality of times at gradually longer time intervals.

Further, the encryption key distribution server includes: an encryption key generation unit configured to generate the encryption key; a reception unit configured to receive information encrypted with the encryption key transmitted from the plurality of client terminals; Decrypting means for decrypting the information encrypted with the received encryption key.

Further, the encryption key is a public key.

[0011]

Embodiments of the present invention will be described below with reference to the accompanying drawings. The present invention is not limited to such an embodiment, and various changes can be made within the scope of the technical idea.

(1) Configuration of Embodiment FIG. 1 is a diagram showing an overall configuration of a cryptographic communication system according to an embodiment of the present invention. In FIG. 1, a mobile terminal (client terminal) 1 is a terminal that receives a packet communication service of the mobile packet communication network 10. Further, the mobile terminal 1 includes a pager network 1 in addition to the wireless packet communication network 10.
1 is also wirelessly connected, and it is also possible to call information using a call number assigned to the mobile terminal 1 and to transmit information by so-called PUSH transmission. Here, the mobile terminal 1 is assigned a common call number and an individual call number for a plurality of mobile terminals 1.

As shown in FIG. 2, a mobile terminal 1 includes a radio unit 2 for performing radio communication with a base station (not shown), a pager receiving unit 3, a voice input / output unit 4 for a user to make a voice call, In addition to an information display unit 5 composed of a liquid crystal panel and the like, an operation unit 6 for a user to perform an operation of inputting information such as characters, a control unit 7 for controlling these units and performing an encryption process is built in. . Also, the mobile terminal 1 has a so-called browser function, and is provided by an HTML supplied from an information provider via the mobile packet communication network 10.
(Hyper Text Markup Language) format data can be displayed on the information display unit 5 and browsed.

In this cryptographic communication system, a public key distribution server (encryption key distribution server) 20 is a server that distributes a public key generated by an encryption key generation engine 21 to a plurality of mobile terminals 1 via a pager network 11. . When receiving the information encrypted with the public key from any one of the mobile terminals 1 via the wireless packet communication network 10, the public key distribution server 20 uses the private key corresponding to the public key by the decryption engine 22. To decrypt the information. As shown in FIG. 3, the public key distribution server 20 includes the above-described encryption key generation engine 21 and decryption engine 22, a database 23 for recording a call number assigned to the mobile terminal 1, customer information, and the like. And a system control unit 24 for calling the mobile terminal 1 using the pager network 11. In an actual network system, there are a gateway server that performs protocol conversion between the mobile packet communication network 10 and another network such as the Internet, a call center that actually calls the mobile terminal 1, and the like. It is omitted in FIG. 1 for simplicity.

(2) Operation of Embodiment Next, the operation of the embodiment having the above configuration will be described with reference to the sequence diagram shown in FIG. Here, a case where an auction is performed will be described as an example.

First, the public key distribution server 20 periodically generates a public key and a secret key by the encryption key generation engine 21 (step S1). And the public key distribution server 2
0, immediately before the auction start time, receives the latest public key (the public key with the latest time stamp) from the encryption key generation engine 21 (step S2), and assigns a common call number assigned to a plurality of mobile terminals 1 in advance. The latest public key is distributed to these mobile terminals 1 all at once (step S3). In this way, by calling a plurality of mobile terminals 1 with a common call number and distributing the public key, it is possible to distribute the public key to the plurality of mobile terminals 1 almost simultaneously.
As a result, the public key reaches these mobile terminals 1 at the auction start time measured by the public key distribution server,
The users of these mobile terminals 1 can bid at the same timing.

In this case, since the public key distribution server 20 does not always exist in an area where all the mobile terminals 1 of the auction applicants can call, it is desirable to distribute the public key again after a predetermined period has elapsed. . Further, since it is considered that there are many bids immediately after the start of the auction, the public key is distributed at short time intervals immediately after the start of the auction, for example, at intervals of 10 minutes, and thereafter, the public key is distributed at intervals of several hours. Is also good.

In the mobile terminal 1, when called by the common call number assigned to the mobile terminal 1, a response is returned, the public key is received by the pager receiving section 3, and stored in the internal memory. At this time, if the mobile terminal 1 notifies the user that the public key has been received, the mobile terminal 1 can quickly know that the user can bid.

Next, in the mobile terminal 1, when the user operates the mobile terminal 1 to make a bid, the wireless unit 2 accesses the homepage of the auction via the mobile packet communication network 10. When the user inputs bid information (bid goods, bid price, information for specifying the user, etc.) and instructs to start bidding, the mobile terminal 1
Performs encryption of the bid information using the public key distributed by the control unit 7 from the public key distribution server 20 (step S).
4). Thereafter, the mobile terminal 1 transmits the encrypted bid information to the public key distribution server 20 via the mobile packet communication network 10 by the wireless unit 2 (Step S5). As described above, since the cryptographic communication system transmits the public key to be encrypted to the mobile terminal 1 in advance, the SSL (Secure Socke
ts Layer) can be used to perform encrypted communication without creating a session, thereby reducing the load on the server 20.

Upon receiving the encrypted bid information from any of the mobile terminals 1, the public key distribution server 20 decrypts the bid information by the decryption engine 22 (step S).
6) Obtain decrypted bid information (step S)
7). Then, the public key distribution server 20 totals the acquired bid information and reflects the information on the bid status. In addition, the public key distribution server 20 calls the mobile terminal 1 such as the previous bidder individually when the bid price has risen and notifies the user of the fact, or calls the mobile terminal 1 that has not bid and participates in the auction. May be prompted.

As described above, in this cryptographic communication system, the public key is distributed so that the public key reaches these mobile terminals 1 at the auction start time measured by the public key distribution server 20, so that auction participants can bid at the same timing. And the fairness of the bid can be maintained. Further, in this cryptographic communication system, the public key distribution server 20 broadcasts the public key to a plurality of mobile terminals 1 using a common call number, so that the public key distribution server 20 individually responds to requests from the mobile terminals as in the related art. The load on the server that transmits the public key (public key distribution server 20) can be significantly reduced as compared with the case of transmitting.

(3) Modifications (3.1) First Modification In the above embodiment, the case where the present invention is applied to the case where an auction is performed from the mobile terminal 1 has been described, but the present invention is not limited to this. The present invention can be widely applied to a case where only the up-stream communication (communication from the terminal to the server) such as a case where electronic voting is performed from the mobile terminal 1 or a case where the user's health information is transmitted from the mobile terminal 1 is required to keep the communication contents secret. Can be applied.

(3.2) Second Modification In the above embodiment, a case has been described in which a public key is broadcast to a plurality of mobile terminals 1 via a pager network 11, but the present invention is not limited to this. Instead, another broadcast distribution method such as a mail broadcast distribution method may be applied as long as the public key can be distributed at substantially the same timing as the auction or voting start time.

(3.3) Third Modification In the above embodiment, the case where the present invention is applied to the case where a public key is distributed to a plurality of mobile terminals 1 has been described, but the present invention is not limited to this. The present invention is also applicable to a case where a public key is distributed to terminals belonging to another network such as a fixed network accommodating fixed terminals. Further, the present invention is not limited to the packet communication network, and can be applied to a data communication network that performs data communication in another format, and the communication protocol described in the embodiment is merely an example.

(3.4) Fourth Modification In the above-described embodiment, the case where the present invention is applied to the case of distributing a public key has been described. However, the present invention is not limited to this, and prevents decryption of encryption. The present invention may be applied to the case where an encryption key other than a public key is distributed to the extent possible.

[0026]

As described above, according to the present invention, it is possible to reduce the load on a server that transmits an encryption key to a plurality of terminals, and to ensure fairness in voting and auctions.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an overall configuration of a cryptographic communication system according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a mobile terminal.

FIG. 3 is a block diagram illustrating a configuration of a public key distribution server.

FIG. 4 is a sequence diagram showing operations of a mobile terminal and a public key distribution server.

[Explanation of symbols]

1 mobile terminal, 2 radio section, 3 pager receiving section, 4 voice input / output section, 5 information display section, 6 operation section, 7 control section, 10 moving Packet communication network, 1
1 ... pager network, 20 ... public key distribution server, 21 ...
... Encryption key generation engine, 22 ... Decryption engine, 23 ...
... Database, 24 ... System control unit.

Claims (8)

[Claims] 1. An encryption key distribution server for distributing an encryption key to a plurality of client terminals, comprising: a transmission start time at which transmission of information encrypted with an encryption key is permitted from the plurality of client terminals; An encryption key distribution server that distributes a key to the plurality of client terminals. 2. The encryption key distribution server according to claim 1, wherein the encryption key distribution server distributes the encryption key using a common call number assigned to the plurality of client terminals. . 3. The encryption key distribution server according to claim 1, wherein the encryption key distribution server distributes the encryption key a plurality of times at gradually longer time intervals. 4. The encryption key distribution server, wherein: the encryption key generation unit generates the encryption key; a reception unit that receives information encrypted with the encryption key transmitted from the plurality of client terminals; 2. The encryption key distribution server according to claim 1, further comprising: decryption means for decrypting the information encrypted with the received encryption key. 5. The encryption key distribution server according to claim 1, wherein the encryption key is a public key. 6. A control method of an encryption key distribution server for distributing an encryption key to a plurality of client terminals, comprising: a transmission start time at which transmission of information encrypted with an encryption key is permitted from the plurality of client terminals; And transmitting the encryption key to the plurality of client terminals. 7. The control method for an encryption key distribution server according to claim 6, wherein the encryption key is distributed using a common call number assigned to the plurality of client terminals. 8. The control method for an encryption key distribution server according to claim 6, wherein the encryption key is a public key.