JP4150940B2 - Data recording apparatus and method, data reproducing apparatus and method, and transmission medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data recording apparatus and method, a data reproducing apparatus and method, and a transmission medium, and more particularly, to a data recording apparatus and method for encrypting data by replacing data in units of sectors, and data reproduction. The present invention relates to an apparatus and method, and a transmission medium.
[0002]
[Prior art]
Recently, with the advent of large-capacity storage media such as CD-ROM and DVD (Digital Versatile Disc), it has become possible to process a large amount of music and video digital data. Along with this, from the viewpoint of copyright protection, security measures to prevent copying and falsification of original data recorded on CD-ROM, DVD, etc. are regarded as important. As security measures, for example, cryptographic processing such as scrambling data is performed.
[0003]
[Problems to be solved by the invention]
However, when the conventionally proposed encryption method is adopted, there is a problem that not only the configuration of the apparatus becomes complicated, but also the cost increases.
[0004]
The present invention has been made in view of such a situation. By changing the order of data recording / reproduction in units of sectors, it is possible to easily and reliably prevent original data from being copied or altered. To do.
[0005]
[Means for Solving the Problems]
The data recording apparatus of the present invention includes a dividing unit that divides data to be recorded into sector data having a size corresponding to the sector, and the order of the sector data divided by the dividing unit based on the input encryption key is predetermined. Replacing means for replacing within a block composed of a plurality of sectors, and recording means for recording sector data on a recording medium and recording an encryption key on the recording medium in accordance with the order of replacement by the replacing means The replacing means replaces the order of the sector data divided by the dividing means within the range of the block based on different encryption keys for each block and according to different regularity for each block .
[0006]
According to the data recording method of the present invention, the division step of dividing the data to be recorded into sector data having a size corresponding to the sector, and the order of the sector data divided in the division step based on the input encryption key A replacement step of replacing within a block composed of a number of sectors, and a recording step of recording sector data on a recording medium and recording an encryption key on the recording medium in accordance with the order of replacement in the replacement step. The replacing step replaces the order of the sector data divided by the processing of the dividing step within the block range according to the regularity different for each block based on the encryption key different for each block .
[0008]
The data reproducing apparatus of the present invention reproduces an encryption key from a recording medium, reproduces the sector data having a size corresponding to the sector, and reproduces the reproduced sector data for each number of sectors constituting the block. Sorting means for sorting, and sorting means for sorting sector data equal to the number of sectors constituting the block, which are sorted by the sorting means, on the basis of different encryption keys for each block. The same number of sector data is replaced in the block range in accordance with different regularity for each block based on different encryption keys for each block .
[0009]
The data reproduction method of the present invention reproduces an encryption key from a recording medium, reproduces sector data having a size corresponding to the sector, and reproduces the sector data for each number of sectors constituting a block. A partitioning step for partitioning, and an alignment step for aligning the same number of sector data divided by the partitioning step based on different encryption keys for each block. The same number of sector data is replaced in the block range in accordance with different regularity for each block based on different encryption keys for each block .
[0011]
In the data recording apparatus and method of the present invention, the data to be recorded is divided into sector data having a size corresponding to the sector, and the order of the divided sector data is determined based on the input encryption key. The sector data is replaced within a block composed of the sectors, and the sector data is recorded on the recording medium and the encryption key is recorded in accordance with the replacement order. In the replacement process, the order of the divided sector data is replaced within the block range according to the regularity that is different for each block based on the encryption key that is different for each block.
[0012]
In the data reproducing apparatus and method of the present invention, the encryption key and the sector data are reproduced from the recording medium, and the reproduced sector data is divided into the same number as the number of sectors constituting the block, thereby forming the divided block. The same number of sector data as the number of sectors to be processed is arranged based on different encryption keys for each block. Note that the same number of sector data as the number of sectors constituting the block is replaced within the block range in accordance with the regularity that is different for each block based on the encryption key that is different for each block.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below, but in order to clarify the correspondence between each means of the invention described in the claims and the following embodiments, in parentheses after each means, The features of the present invention will be described with the corresponding embodiment (however, an example) added.
[0014]
According to the present invention, a data recording apparatus is provided. This data recording apparatus divides the data to be recorded into sector data having a size corresponding to the sector (for example, sectorizing circuit 2 in FIG. 1) and the dividing means based on the input encryption key. The replacement means (for example, the sector order replacement circuit 3 in FIG. 1) for replacing the order of the sector data within the range of the block composed of a predetermined number of sectors, and the sector according to the order replaced by the replacement means A recording unit (for example, the optical pickup 11 in FIG. 1) that records data on a recording medium and also records an encryption key on the recording medium is provided , and the replacement unit is different for each block based on a different encryption key for each block. According to regularity, the order of the sector data divided by the dividing means is replaced within the block range .
[0015]
According to the present invention, a data reproducing apparatus is provided. This data reproducing apparatus reproduces an encryption key from a recording medium and reproduces sector data having a size corresponding to a sector (for example, the optical pickup 21 in FIG. 4) and blocks the reproduced sector data. The dividing means (for example, the block separation circuit 26 in FIG. 4) for dividing the number of sectors constituting each block, and the same number of sector data divided by the sorting means as the number of sectors constituting the block are different for each block. Alignment means (for example, the sector order replacement circuit 29 in FIG. 4) that aligns based on the encryption key is provided.
[0016]
However, of course, this description does not mean that each means is limited to the description.
[0017]
A configuration of a data recording apparatus to which the present invention is applied will be described with reference to FIG.
[0018]
In this data recording apparatus, the interface 1 accepts input of digital data and an encryption key, and outputs them to the sectorizing circuit 2 and the sector order replacing device 3, respectively. The sectorizing circuit 2 divides the input digital data into sector units (for example, 2 kilobytes) and outputs it to the sector order replacement circuit 3. The sector order replacement circuit 3 replaces the sector order for each block (for example, 16 sectors) based on the encryption key, and outputs the result to the header addition circuit 4.
[0019]
The header adding circuit 4 adds a header including a sector address to the replaced data and outputs the header to the ECC encoder 5. The ECC encoder 5 further adds parity data to the data to which the header is added and outputs the data to the blocking circuit 6. The blocking circuit 6 collectively blocks the data to which the parity data is added every predetermined number (for example, 16 sectors), and outputs the block to the modulation circuit 7.
[0020]
The modulation circuit 7 modulates the blocked data (for example, 8-16 modulation) and outputs the data to the synchronization signal adding circuit 8. The synchronization signal adding circuit 8 adds a synchronization signal to the modulated data and outputs it to the recording amplifier 9. The recording amplifier 9 amplifies the data to which the synchronization signal is added to a predetermined level and outputs it to the driver 10. The driver 10 controls the optical pickup 11 based on the input data. The optical pickup 11 is configured to record data on the recording medium 12.
[0021]
In the case of the example in FIG. 1, the ECC encoder 5 and the blocking circuit 6 are provided in the order after the header addition circuit 4, but the blocking circuit 6 is arranged in the reverse order, that is, after the header addition circuit 4. And the ECC encoder 5 may be installed in order.
[0022]
When the recording medium 12 is a DVD, one block is composed of 16 sectors, but when the recording medium 12 is a mini disk (MD) (trademark), one cluster is composed of 32 sectors. This cluster can be a block, and one block can be 32 sectors.
[0023]
Next, the operation of this data recording apparatus will be described with reference to the flowchart of FIG.
[0024]
In step S1, the interface 1 accepts input of digital data to be recorded on the recording medium 11 and an encryption key used for sector replacement from the input terminal, and outputs them to the sectorizing circuit 2 and the sector order replacement circuit 3, respectively. . In step S2, the sectorizing circuit 2 divides the input digital data as shown in FIG. 3A into 2 kilobyte sectors, for example, as shown in FIG. Output to the replacement circuit 3. Note that the numbers described in the sectors in FIGS. 3B and 3C represent the time-series order of the sectors.
[0025]
In step S3, the sector order replacement circuit 3 shows the input sector unit data (hereinafter referred to as sector data) based on the encryption key input from the interface 1, for example, as shown in FIG. As described above, the order of the time series is replaced for each block (16 sectors), and the result is output to the header addition circuit 4. As in this example, when the order is replaced every 16 sectors, the permutation of the sectors exists in 16 factorials, so that the encryption key can also be set in 16 factorials.
[0026]
In step S <b> 4, the header addition circuit 4 adds a header including a sector address to each input sector data as shown in FIG. 3D, for example, and outputs it to the ECC encoder 5. In step S 5, the ECC encoder 5 further adds parity data to the input sector data with header, and outputs the parity data to the blocking circuit 6. In step S6, for example, as shown in FIG. 3 (E), the blocking circuit 6 blocks the input parity data and the sector data to which the header is added into 16 pieces of data and outputs them to the modulation circuit 7. .
[0027]
In step S <b> 7, the modulation circuit 7 modulates the blocked data and outputs it to the synchronization signal addition circuit 8. In step S <b> 8, the synchronization signal addition circuit 8 adds a synchronization signal to the modulated block data, and outputs it to the recording amplifier 9. In step S <b> 9, the recording amplifier 9 amplifies the input data with a synchronization signal to a predetermined level and outputs it to the driver 10. The driver 10 controls the optical pickup 11 based on the input amplified data, and the optical pickup 11 records data on the recording medium 12.
[0028]
The encryption key indicating the sector replacement order is recorded in the innermost TOC (Table of Contents) area of the recording medium 12.
[0029]
A configuration of a data reproducing apparatus for reproducing data recorded on the recording medium 12 by the data recording apparatus of FIG. 1 will be described with reference to FIG. The data reproducing apparatus can be integrated with the data recording apparatus shown in FIG.
[0030]
In this data reproducing apparatus, the optical pickup 21 reads the TOC and data of the recording medium 12, outputs the RF signal to the binarization circuit 22, and the binarization circuit 22 converts the RF signal into digital data. The TOC is output to the encryption key extraction circuit 23 and the data is output to the synchronization signal detection circuit 24, respectively.
[0031]
The encryption key extraction circuit 23 extracts the encryption key from the TOC and outputs it to the sector order replacement circuit 29. The synchronization signal detection circuit 24 detects the synchronization signal from the input digital data, divides the digital data into blocks, removes the synchronization signal, and outputs it to the demodulation circuit 25. The demodulation circuit 25 demodulates the data divided into blocks (demodulation of modulation performed in the modulation circuit 7 (FIG. 1)), and outputs the data to the block separation circuit 26.
[0032]
The block separation circuit 26 divides the input data into blocks and outputs them to the ECC decoder 27. The ECC decoder 27 corrects errors in the input data and outputs them to the header separation circuit 28. Yes. The header separation circuit 28 removes the header from the input data and outputs the sector data to the sector order replacement circuit 29. The sector order replacement circuit 29 replaces the input sector data with the original time series order based on the encryption key input from the encryption key extraction circuit 22 and outputs it to the interface 30. The interface 30 is configured to output the reproduced data from the output terminal.
[0033]
The operation of this data reproducing apparatus will be described with reference to the flowchart of FIG.
[0034]
In step S 21, the optical pickup 21 reads the TOC area of the recording medium 12 and outputs it to the binarization circuit 22. The binarization circuit 22 converts the input TOC RF signal into digital data and outputs the digital data to the encryption key extraction circuit 23. In step S 22, the encryption key extraction circuit 23 extracts the encryption key from the TOC and outputs it to the sector order replacement circuit 29.
[0035]
In step S 23, the optical pickup 21 reads data from the data recording area of the recording medium 12 and outputs it to the binarization circuit 23. The binarization circuit 22 converts the input RF signal into digital data and outputs the digital data to the synchronization signal detection circuit 24. In step S <b> 24, the synchronization signal detection circuit 24 detects the synchronization signal from the input digital data, deletes the synchronization signal, and outputs it to the demodulation circuit 25. In step S <b> 25, the demodulation circuit 25 demodulates the input digital data and outputs it to the block separation circuit 26.
[0036]
In step S <b> 26, the block separation circuit 26 divides the demodulated data into 16 sectors as one block, and outputs them to the ECC decoder 27. In step S <b> 26, the ECC decoder 27 refers to the parity data of the input data, corrects the data error, and outputs the data error to the header separation circuit 28. In step S 28, the header separation circuit 28 deletes the header from the input data and outputs the sector data to the sector order replacement circuit 29.
[0037]
In step S 29, the sector order replacement circuit 29 arranges the 16 sectors in one block in the original time series order based on the encryption key input from the encryption key extraction circuit 23, and outputs the result to the interface 30. In step S30, the interface 30 outputs the reproduced data from the output terminal.
[0038]
In the above example, the encryption key is recorded in the TOC area of the recording medium 12, and is reproduced and used. However, the same encryption key as that used for recording may be input from the outside. .
[0039]
When the data recorded on the recording medium 12 is reproduced and copied to another recording medium, the recording position (sector) is usually different from the recording position (sector) on the recording medium 12. As a result, even if the sector order is replaced based on the copied encryption key, the original time-series order cannot be restored, and data cannot be reproduced substantially. Therefore, by using the sector address as a part of the encryption key in this way, sector order replacement is performed with different regularity for each block, not only improving data security but also preventing data copying. Can do.
[0040]
The program for performing the above processes can be transmitted to the user via a network transmission medium such as the Internet or a digital satellite in addition to a transmission medium including an information recording medium such as a magnetic disk or a CD-ROM.
[0041]
【The invention's effect】
As described above, according to the present invention , the data is divided into sizes corresponding to the sectors, the order of the divided data is replaced within the range of the block, and the replaced data is sequentially applied to the sectors of the recording medium. Thus, it is possible to prevent the original data from being copied or altered easily and reliably.
[0042]
Further, according to the present invention , data is reproduced from the recording medium, the reproduced data is divided into a predetermined number of sectors, and the divided data is based on information for arranging in a predetermined order. Since the sectors are arranged in a predetermined order, data can be reproduced easily and reliably.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a data recording apparatus to which the present invention is applied.
FIG. 2 is a flowchart showing a recording process of a data recording apparatus to which the present invention is applied.
FIG. 3 is a diagram for explaining processing in steps S2 to S6 in FIG. 2;
FIG. 4 is a block diagram showing a configuration of a data reproducing apparatus to which the present invention is applied.
FIG. 5 is a flowchart showing a reproduction process of the data reproduction apparatus to which the present invention is applied.
[Explanation of symbols]
1 Interface, 2 Sectorization Circuit, 3 Sector Order Replacement Circuit, 4 Header Addition Circuit, 5 ECC Encoder, 6 Blocking Circuit, 7 Modulation Circuit, 8 Synchronization Signal Addition Circuit, 9 Recording Amplifier, 10 Driver, 11 Optical Pickup, 12 Recording medium, 21 optical pickup, 22 binarization circuit, 23 encryption key extraction circuit, 24 synchronization signal detection circuit, 25 demodulation circuit, 26 block separation circuit, 27 ECC decoder, 28 header separation circuit, 29 sector order replacement circuit, 30 The interface

Claims (4)

In a data recording apparatus for recording on a recording medium with a sector as a minimum recording unit,
Dividing means for dividing data to be recorded into sector data of a size corresponding to the sector;
Replacing means for replacing the order of the sector data divided by the dividing means within a block composed of a predetermined number of sectors based on the input encryption key;
In accordance with the order replaced by the replacement means, the sector data is recorded on the recording medium, and the encryption key is also recorded on the recording medium .
The replacement means replaces the order of the sector data divided by the dividing means within the range of the block based on the encryption key different for each block and according to different regularity for each block. . In a data recording method of a data recording apparatus for recording on a recording medium with a sector as a minimum recording unit,
A division step of dividing data to be recorded into sector data of a size corresponding to the sector;
A replacement step of replacing the order of the sector data divided in the division step based on the input encryption key within a block composed of a predetermined number of sectors;
In accordance with the order replaced in the replacement step, the sector data is recorded on the recording medium, and the encryption key is also recorded on the recording medium .
The replacing step replaces the order of the sector data divided in the processing of the dividing step within the range of the block according to the regularity different for each block based on the encryption key different for each block. Recording method. In a data reproducing apparatus for reproducing data recorded on a recording medium with a sector as a minimum recording unit,
Reproducing means for reproducing the encryption key from the recording medium and reproducing sector data having a size corresponding to the sector;
Sorting means for sorting the reproduced sector data for each number of sectors constituting a block;
Alignment means for aligning the same number of sector data as the number of sectors constituting the block divided by the sorting means based on the encryption key different for each block ;
The same number of sector data as the number of sectors constituting the block is data in which the order is replaced within the range of the block according to the regularity different for each block based on the encryption key different for each block. Playback device. In a data reproducing method of a data reproducing apparatus for reproducing data recorded on a recording medium with a sector as a minimum recording unit,
A reproducing step of reproducing the encryption key from the recording medium and reproducing sector data of a size corresponding to the sector;
A division step of dividing the reproduced sector data for each number of sectors constituting a block;
An alignment step of aligning the same number of sector data as the number of sectors constituting the block, which is partitioned in the partitioning step, based on the encryption key different for each block , and
The same number of sector data as the number of sectors constituting the block is data in which the order is replaced within the range of the block according to the regularity different for each block based on the encryption key different for each block. Playback method.

Images