JP2001156771A - Encrypted information transmission method, encrypted information transmitter and transmission medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an encrypted information transmission method that can strongly prevent illegal use of contents information even in the case that a transmission stream is partially encrypted and to provide a transmitter and a transmission medium. SOLUTION: An audio or image stream is encrypted at random in the unit of frames on the basis of a random number and the encrypted stream is transmitted. Since flag information or the like denoting which stream is encrypted or not is not provided in the stream, the security strength against the illegal use of contents can be much more enhanced than that of a conventional partial encryption method.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an encrypted information transmission method, a transmission apparatus, and a transmission medium for encrypting and transmitting a stream such as a sound or an image. In particular, the present invention provides an encrypted information transmission method for partially encrypting a stream such as audio or image and performing processing for making it difficult to find an encrypted portion, thereby preventing unauthorized use of music, video information, and the like. , A transmission device, and a transmission medium.

[0002]

2. Description of the Related Art Recent advances in compression technology have made it possible to transmit music and video signals with high quality over low-rate lines such as the Internet. Against this background, the business of distributing information such as music and video is rapidly spreading. It is very convenient to be able to easily obtain high-quality music and video information using the Internet, but on the other hand, illegal use such as copying a large amount of such information without the permission of the copyright holder has become a problem. .

[0003] As a method for preventing unauthorized copying of information such as music and video, many methods of encrypting the information itself have conventionally been adopted. In other words, if the key used for the encryption is not known, the original information cannot be restored even if it is illegally copied, and as a result, the copy is completely meaningless.

FIG. 3 shows an example of information transmission using a conventional encryption method. When a line connection between a user (reception side) and a provider (transmission side) is made, an authentication process is first performed (step 1). As a result of the authentication, if it is determined that the receiving side is not a legitimate user (NG), the line is naturally cut off there.
If it is determined that the user is an authorized user (OK), the key (key) used for encrypting the content information and the encrypted content information such as music and video are transmitted to the user (steps 2 to 2). 4).

[0005] Here, the transmission of the key used for encrypting the content information is performed. The key is not in the same state (naked), but is transmitted with some encryption. Special data (ID) is used as a key for encrypting the key. For example, there are a system ID or a member number which is data unique to the receiving (user) side. Or,
Data that the user does not want to notify others, such as a credit card number or a cash card number, is also effective as an ID.

[0006] A key obtained and encrypted by acquiring such an ID is expressed as Ex (ID, Key) as shown in FIG. Key, which is a key for encrypting music information and video information,
This means that encryption is performed by a certain encryption method Ex () using the above-mentioned ID as a key. Expressing the encryption of music and video information (Data) using a similar formula, Ey (Key, Dat
a).

On the receiving side, the encrypted key Ex (I
D, Key) and Ey (Ke
y, Data) will be stored. All the data is encrypted, so that even if it is illegally copied, it cannot be easily restored to the original music or video information. The above is the outline of the conventional method adopted to prevent unauthorized use of information.

[0008]

By the way, in order to increase the user's willingness to purchase, it is necessary to freely reproduce a part of music or video to be purchased even if the quality is poor (encryption). Leaving it unattended) is advantageous in many ways. The problem here is that if the entire content is encrypted in order to prevent unauthorized use, no music or video can be reproduced unless the encryption is completely broken.

[0009] On the other hand, in order to enable partial reproduction with a certain level of quality without decrypting the data, if partial encryption has been performed, which part of the stream has been conventionally encrypted. The information (flag) of whether or not it is provided is provided inside the stream to be transmitted. Therefore, there has been a problem that the entire content is easily returned to the original information, and the ability to prevent unauthorized use is reduced.

[0010] The present invention provides a method for partially reproducing a transmission stream such as an audio or an image with a certain quality without deciphering the transmission stream even when the transmission stream is partially encrypted. It is an object of the present invention to provide an encrypted information transmission method, a transmission apparatus, and a transmission medium that can strongly prevent illegal use of content.

[0011]

Accordingly, the present invention provides the following (1) to (10) to solve the above-mentioned problems. (1) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated using a predetermined generator polynomial, and it is determined that encryption is performed. And transmitting the stream by encrypting the data of each frame in units of frames. (2) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated by using a predetermined generator polynomial, and it is determined that encryption is performed. And encrypting the data of each of the generated frames on a frame-by-frame basis, and adding a generator polynomial encrypted information obtained by encrypting the information of the predetermined generator polynomial to transmit the stream. (3) Based on random numbers generated using a predetermined generator polynomial for a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined, and it is determined that encryption is performed. The encrypted data of each frame is encrypted for each frame, and the generated polynomial information obtained by encrypting the information of the predetermined generator polynomial, and information of a plurality of initial values for generating random numbers of the predetermined generator polynomial are obtained. A method for transmitting encrypted information, characterized in that a stream is transmitted by adding encrypted initial value encrypted information. (4) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated by using a predetermined generator polynomial, and it is determined that encryption is performed. An encrypted information transmission apparatus, wherein data of a frame is encrypted for each frame and a stream is transmitted. (5) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated using a predetermined generator polynomial, and it is determined that encryption is performed. An encrypted information transmission apparatus for encrypting data of each of the generated frames on a frame-by-frame basis and adding a generator polynomial encrypted information obtained by encrypting the information of the predetermined generator polynomial to transmit a stream. (6) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated by using a predetermined generator polynomial, and it is determined that encryption is performed. The encrypted data of each frame is encrypted for each frame, and the generated polynomial information obtained by encrypting the information of the predetermined generator polynomial, and information of a plurality of initial values for generating random numbers of the predetermined generator polynomial are obtained. An encrypted information transmitting apparatus for transmitting a stream by adding encrypted initial value encrypted information. (7) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated using a predetermined generator polynomial, and it is determined that encryption is performed. A transmission medium for transmitting a stream in which data of a frame is encrypted in units of each frame. (8) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated using a predetermined generator polynomial, and it is determined that encryption is performed. A transmission medium for transmitting a stream to which encrypted data of said predetermined generator polynomial is added while data of said frame is encrypted on a frame-by-frame basis. (9) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated using a predetermined generator polynomial, and it is determined that encryption is performed. Frame data is encrypted in each frame unit, and the predetermined generator polynomial information is encrypted as generator polynomial encryption information, and a plurality of initial values for random number generation of the predetermined generator polynomial are generated. A transmission medium for transmitting a stream to which initial value encryption information in which information is encrypted is added. (10) For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on random numbers generated by using a predetermined generator polynomial, and it is determined that encryption is performed. Encrypting the data of each frame in units of frames, and transmitting a stream by adding information of a plurality of initial values for generating random numbers of the predetermined generator polynomial.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a stream encryption processing method in one embodiment of an encrypted information transmission method. FIG. 1A shows a frame in an audio or video stream. When the audio data is linear PCM, there is a case where there is no concept of a frame in the stream. However, by inserting data for several hundreds to thousands of samples into one frame and inserting a frame synchronization signal at the head thereof, The concept of can be easily introduced.

[0013] Further, due to recent advances in compression technology, transmission using compressed audio or compressed images has become popular in order to save transmission time. In the case of compressed audio data, the concept of a frame is always introduced. When compressed at a fixed rate, each frame has the same size, and when it has a variable rate, each frame has a different size. In the case of a compressed image stream, the size generally varies from frame to frame, depending on the compression method. In any case, since the size of the frame is not directly related to the content of the present invention, it is shown in FIG. 1 with the same size.

FIG. 1B shows random numbers generated by a specific generator polynomial. When the random value is "0", the frame is not encrypted, and when the random value is "1", the frame is encrypted. As shown in FIG. 1C, the audio or image stream is randomly encrypted on a frame basis based on a random value.

It is clear that if such processing is performed, normal voices and images cannot be reproduced unless the encryption is restored. Encrypted frame data (Data
(n)) is expressed as Ey (Key, Data (n)). To maintain security, the key is encrypted using the ID as in the conventional method. The encrypted key information is Ex (ID, Key)
And the safety strength is the same as the conventional method. The feature point here is whether or not encryption is performed in frame units. Even if the key is stolen, manual processing of whether or not to decrypt each frame of the stream is required, so it is quite necessary to return the entire information to its original state. Obviously, this requires some effort. As described above, in the present embodiment, it is difficult to find out where the encrypted portion is. Therefore, the security against illegal use of the content can be increased as compared with the conventional partial encryption method.

Next, generation of random numbers used for determining whether to perform encryption will be described. The generation of random numbers can be easily realized by an M-sequence signal generator based on a specific generator polynomial or software processing, as is well known, so a detailed description is omitted.
For the degree of the generator polynomial, to ensure security,
The decision should be made in consideration of the following points.

Now, assuming that the degree of the generator polynomial is m, the generated random number circulates 2 ^m -1 times. Therefore, “2 ^m −
It is desirable to set the order m so that “1” is a value sufficiently larger than the total number of frames of the audio or image stream. For example, assuming that the frame frequency is 100 Hz in the content of 2 hours, the total number of frames is 7200 seconds × 1
00 = 720k. Therefore, it is sufficient that m is 20 or more. The higher the degree m, the more kinds of specific generator polynomials that can generate random numbers.
If = 20, it is almost impossible to find the generator polynomial that is actually used.

In this embodiment, in order to increase the safety strength,
It is characterized in that the generator polynomial for generating random numbers is also encrypted and transmitted. The generator polynomial type encryption can be expressed as Ez (ID, generator polynomial). There is no problem if the encryption method Ez () is the same as the encryption method Ex () when encrypting the key (Key). It is also possible to change the algorithm.

As described above, the method for encrypting and transmitting a stream such as audio and video in the present embodiment encrypts a stream partially instead of entirely, and indicates which frame is encrypted. Without providing flag information or the like in the stream, it is determined whether or not to encrypt the corresponding frame based on a random number generated by a specific generator polynomial. Further, in order to ensure security, information on the used generator polynomial is encrypted and transmitted to the receiving side.

FIG. 2 shows the flow of these processes. In FIG. 2, data Ex (ID, Ke
y), data Ey (Key, D
In addition to ata (n)), data Ez (ID, generator polynomial) obtained by encrypting the type of generator polynomial for random number generation is transmitted to the receiving side. Step 14 in FIG. 2 describes “transmission of initial value table for random number generation”, which will be described in detail later.

Referring briefly to FIG. 2, when a line connection between a user (reception side) and a provider (transmission side) is made, an authentication process is first performed (step 1). As a result of the authentication, the receiving side is not an authorized user (N
If it is determined to be G), the line is cut off at that point. If it is determined that the user is a legitimate user (OK), in step 12, a key (ID) for encrypting the key (Key) and the type of the generator polynomial is obtained, and the key (Key) and the type of the generator polynomial are obtained. Encrypted data E
Obtain x (ID, Key) and Ez (ID, generator polynomial). In step 13, data Ey (Key, Data (n)) obtained by encrypting content information such as audio / image is obtained or a random number is generated to generate data Ey (Key, Data (n)). In step 14, data obtained by encrypting the content information (FIG. 1)
In addition to Ey (Key, Data (n)), which is of course also including unencrypted frame data as shown in FIG.
The data of x (ID, Key) and Ez (ID, generator polynomial) and data of an initial value table for generating random numbers (a plurality of initial values for generating random numbers) are transmitted to the receiving side.

The data Ex obtained by encrypting the key (Key)
In the data Ez (ID, generator polynomial) obtained by encrypting the type of (ID, Key) and the generator polynomial for random number generation, the key for encryption has the same ID, but different information is used. For example, the ID of Ex (ID, Key)
, A system ID is used, and a cash card number is used for the ID of Ez (ID, generator polynomial).

As a transmission medium for transferring information from the transmitting side to the receiving side (reproducing side), even if the encrypted audio or image transmission stream Ey (Key, Data (n)) is compressed information. Because of the large capacity, not only a line (optical cable, electric signal cable, etc.) but also a recording medium such as an optical disk or a magnetic recording medium may be used.

As an encrypted information transmitting apparatus for realizing the processing shown in FIG. 2, a frame for encrypting a stream composed of a plurality of frames based on a random number generated by using a predetermined generator polynomial is used. Means for determining a frame not to be subjected to encryption, means for encrypting the data of the frame determined to be encrypted for each frame, and generating polynomial encrypted information obtained by encrypting the information of the predetermined generating polynomial. Means for generating, initial value encryption information obtained by encrypting information of a plurality of initial values for random number generation of the predetermined generator polynomial, a partially encrypted stream and generator polynomial encryption An encrypted information transmission device including means for transmitting encrypted information and initial value encrypted information is conceivable.

As described above, the method of partially encrypting a stream in frame units and not providing flag information or the like indicating whether or not the frame is an encrypted frame in the stream is a method for preventing unauthorized use. It is very good in terms of strength. However, there are the following disadvantages when reproducing from the middle of the stream. That is,
Since the generation of random numbers for determining whether or not to perform encryption is performed continuously on a frame basis, if playback is attempted from the middle of a stream, the stream from the first frame to the middle frame of the stream (that is, the frame at which playback is started) ) Must be performed in a short time. This is very difficult.

In order to solve this problem, in this embodiment, as shown in step 14 of FIG. 2, a plurality of initial values for generating random numbers calculated in advance are prepared (an initial value table is prepared). )) And transmit to the receiving side. For example, 1
Every 00 frames, ie, if the frame frequency is 100 Hz
In this case, a random value is obtained in units of one second. One initial value is m, where m is the degree of a generator polynomial for random number generation.
Since the size is m bits, for example, for a content of 2 hours, the initial value table is 7200 * m bits. When playing from the middle of the stream, it is easy to find out what frame the current frame is from the beginning by the frame address or time code, so select the optimal initial value from the initial value table and set it to the random number generator Then, the random number generator can be brought to a desired state with a very small number of steps.

In this manner, even if the stream is partially encrypted and the stream is not provided with flag information indicating whether or not the frame is an encrypted frame, the stream can be reproduced from an arbitrary position. Becomes possible.
When transmitting the plurality of initial values (initial value table) to the receiving side, they may be transmitted as they are, but it is certain that it is more secure to transmit the encrypted values.

In the above description, a method of partially encrypting a stream and reproducing from the middle of the stream in a transmission method in which flag information indicating whether or not the frame is encrypted is not provided in the stream. In order to make it possible to implement easily, the method of transmitting an initial value table for random number generation from the transmitting side was introduced.

If the receiving side (reproducing side), who is a legitimate user, knows in advance the generator polynomial for generating random numbers, it is possible to create an initial value table before reproducing the transmission stream. . Alternatively, a random number value itself can be created instead of the initial value table. This is because the random value is one bit of “0” or “1”, and is a size that can be realized even if a random number table for the total frames is created. For example, for a 2-hour content, set the frame frequency to 100
Hz, the total number of frames is 7200 × 100 = 72
0k bits = 90k bytes.

On the other hand, in the case of the above-mentioned initial value table, if the degree of the generator polynomial is set to m = 20 and an initial value table for every 100 frames is created, 7200 × 100 × 20/1
00 bits = 18 kbytes. From the viewpoint of the memory size on the receiving side (reproducing side), it is better to transmit or create the initial value table, but the random number table corresponding to the total frames generated on the receiving side is more convenient. I think that the. In any case, playback from the middle of the transmission stream can be easily performed while ensuring the security against unauthorized use.

Here, the following method can be considered as a method of reproducing (receiving) the above-described transmission stream. (A) A frame to be encrypted and a frame not to be encrypted are determined based on a random number generated by using a predetermined generator polynomial, and data of the frame determined to be encrypted is determined for each frame. An encrypted information reproducing method for reproducing an encrypted stream, based on random numbers generated using the predetermined generator polynomial, after identifying an encrypted frame and an unencrypted frame,
A method for reproducing encrypted information, comprising reproducing a stream. (B) Based on random numbers generated using a predetermined generator polynomial, a frame to be encrypted and a frame not to be encrypted are determined, and data of the frame determined to be encrypted is stored in frame units. An encryption information reproducing method for reproducing a stream to which a generator polynomial encryption information is added which is encrypted and said predetermined generator polynomial information is encrypted, wherein the generator polynomial encryption information is decrypted. ,
An encrypted information reproducing method, comprising: identifying an encrypted frame and an unencrypted frame based on a random number generated by using the obtained generator polynomial, and then reproducing the stream. (C) A frame to be encrypted and a frame not to be encrypted are determined based on a random number generated by using a predetermined generator polynomial, and the data of the frame determined to be encrypted is determined for each frame. A generator polynomial encrypted information in which the information of the predetermined generator polynomial is encrypted and an initial value encryption in which information of a plurality of initial values for random number generation of the predetermined generator polynomial is encrypted. And a decryption method for decrypting the generator polynomial encrypted information, restoring the generator polynomial, and decrypting the initial value encrypted information. Restoring a value, based on the random number generated using the restored generator polynomial and the restored initial value, identified an encrypted frame and an unencrypted frame. The encrypted information reproducing method and performing playback of a stream. (D) A frame to be encrypted and a frame not to be encrypted are determined based on a random number generated using a predetermined generator polynomial, and data of the frame determined to be encrypted is determined for each frame. An encrypted information reproducing method for reproducing a stream to which a plurality of initial value information for generating random numbers of the predetermined generator polynomial are added while being encrypted, wherein the information of the initial value is reproduced. Get the initial value,
A cipher characterized in that, based on a random number generated by using the generator polynomial and the reproduced initial value, an encrypted frame and an unencrypted frame are specified, and then the stream is reproduced. Information reproduction method.

Further, as an encrypted information reproducing apparatus for realizing the above-mentioned reproducing method, there are provided means for decrypting the generated polynomial encrypted information and restoring the generated polynomial, and decrypting the initial value encrypted information. Means for restoring an initial value, means for identifying an encrypted frame and an unencrypted frame based on the random number generated using the restored generator polynomial and the restored initial value An encryption information reproducing apparatus including means for reproducing a stream based on the information on the presence or absence of encryption after the presence / absence of encryption for each frame is specified.

[0033]

As described above, according to the present invention, the entire content information such as voice and image is partially and randomly encrypted without being encrypted, and which portion is encrypted. Since it is difficult to find out, it is possible to increase the strength of security against unauthorized use of the content. Further, since the entire content information is partially and randomly encrypted without being encrypted, partial reproduction with a certain level of quality can be freely performed, which is very advantageous for increasing the user's willingness to purchase. Furthermore, in the case where information of a plurality of initial values for generating a random number of a predetermined generator polynomial is added and transmitted, at the time of reproduction, the reproduction from the middle of the transmission stream is performed while securing the security against unauthorized use. Can be easily performed.

[Brief description of the drawings]

FIG. 1 is a diagram showing a stream encryption process of an embodiment of an encrypted information transmission method according to the present invention.

FIG. 2 is a diagram showing a processing flow of an embodiment of an encrypted information transmission method according to the present invention.

FIG. 3 is a diagram showing a conventional encrypted information transmission method.

Claims (10)

[Claims] 1. A method comprising: determining a frame to be encrypted and a frame not to be encrypted based on a random number generated by using a predetermined generator polynomial for a stream including a plurality of frames; A method for transmitting encrypted information, comprising encrypting data of a determined frame for each frame and transmitting a stream. 2. A method comprising: determining a frame to be encrypted and a frame not to be encrypted based on a random number generated by using a predetermined generator polynomial for a stream composed of a plurality of frames; Encrypting the determined frame data on a frame-by-frame basis and adding a generator polynomial encrypted information obtained by encrypting the information of the predetermined generator polynomial to transmit a stream. . 3. A method comprising: determining a frame to be encrypted and a frame not to be encrypted based on a random number generated by using a predetermined generator polynomial for a stream composed of a plurality of frames; Encrypting the determined frame data in each frame unit, and generating polynomial encrypted information obtained by encrypting the information of the predetermined generating polynomial,
An encrypted information transmission method, characterized in that a stream is transmitted by adding a plurality of initial value information for generating random numbers of the predetermined generator polynomial to encrypted initial value encrypted information. 4. A method comprising: determining a frame to be encrypted and a frame not to be encrypted based on a random number generated by using a predetermined generator polynomial for a stream composed of a plurality of frames; An encrypted information transmission device, wherein data of a determined frame is encrypted for each frame and a stream is transmitted. 5. A method comprising: determining a frame to be encrypted and a frame not to be encrypted based on a random number generated by using a predetermined generator polynomial for a stream including a plurality of frames; An encrypted information transmitting apparatus for encrypting the determined frame data in units of frames and transmitting a stream by adding generator polynomial encryption information obtained by encrypting the information of the predetermined generator polynomial; . 6. A method comprising: determining a frame to be encrypted and a frame not to be encrypted based on a random number generated by using a predetermined generator polynomial for a stream composed of a plurality of frames; Encrypting the determined frame data in each frame unit, and generating polynomial encrypted information obtained by encrypting the information of the predetermined generating polynomial,
An encrypted information transmitting apparatus, wherein a stream is transmitted by adding information of a plurality of initial values for generating random numbers of the predetermined generator polynomial to encrypted initial value information. 7. For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on a random number generated by using a predetermined generator polynomial. A transmission medium for transmitting a stream in which data of a determined frame is encrypted in each frame unit. 8. For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on a random number generated by using a predetermined generator polynomial. A transmission medium for transmitting a stream in which data of a determined frame is encrypted for each frame and information of said predetermined generator polynomial is encrypted and to which generator polynomial encryption information is added. 9. For a stream composed of a plurality of frames, a frame to be encrypted and a frame not to be encrypted are determined based on a random number generated by using a predetermined generator polynomial. The determined frame data is encrypted on a frame-by-frame basis, and the predetermined generator polynomial information is encrypted as generator polynomial encrypted information, and a plurality of initial values for random number generation of the predetermined generator polynomial are generated. A transmission medium for transmitting a stream to which initial value encryption information in which value information is encrypted is added. 10. A method comprising: determining a frame to be encrypted and a frame not to be encrypted based on a random number generated by using a predetermined generator polynomial for a stream composed of a plurality of frames; Encrypting the determined frame data on a frame-by-frame basis, and transmitting a stream by adding information of a plurality of initial values for random number generation of the predetermined generator polynomial. Method.