JP3880701B2 - Copy protection method and recording / reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a copy protection method and a recording / reproducing apparatus using copy generation management information for video content and audio content.
[0002]
[Prior art]
In recent years, digital processing of images and sounds has become widespread, and DVC (digital video cassette recorder) in which recording and reproduction are digitized has also been developed. Digitization can prevent noise from being mixed in transmission and recording, and can improve signal quality. In such digital recording, the same copy as the original can be created, and the need to protect the copyright of the information recorded on the recording medium has increased.
[0003]
In particular, copyright protection of moving image data including audio data is stipulated by the Video Home Recording Act (VHRA) proposed in Japan and currently being discussed mainly in the United States. In this VHRA, it is stipulated that an analog connection using an analog device as a source adopts a macrovision method or a CGMS (Copy Generation Management System) -A method. It is stipulated that the CGMS-A or CGMS-D method is adopted in the digital connection using the vision method and the digital device as the source.
[0004]
CGMS-D used in digital connection adds 2-bit copy generation management information in the recording format unique to each device such as digital VTR (video tape recorder) and DVD (digital video disc), or in the digital interface format. To do. In the reproduction side device, copy generation management information is always inserted in the output signal, and in the recording side device, the copy generation management information is detected from the input signal to control recording.
[0005]
In the copy generation management information, “11” indicates that the copy is prohibited, “10” indicates that the copy is permitted once, and “00” indicates that the copy is free. When the copy generation management information included in the input signal is “10”, the recording side device records the input signal and changes the copy generation management information to “11” (copy prohibited) at the time of recording. That is, grandchild recording is impossible.
[0006]
In DVC, a recording format and a digital interface format for copy generation management information are already defined. In both the recording format and the digital interface format, the copy generation management information is inserted into a source control (SOURCE CONTROL) packet in the VAUX area.
[0007]
Except for the DVC standard, it is roughly defined that the copy generation management information is inserted into the header of the MPEG2 transport stream. However, standards other than these standards do not consider CGMS-D, and specify where copy generation management information is inserted in various digital signals, various digital device packets or I / F formats. Absent.
[0008]
According to the standard currently deliberated by the IEC (International Electrotechnical Committee), copy generation management information is recorded in recorded digital data of equipment that handles various images, and at the time of reproduction, a digital interface output including the copy generation management information is output. Output is specified. Further, it is stipulated that the recording side device for recording the digital interface output detects the copy generation management information and performs recording according to the rule.
[0009]
Incidentally, in recent years, network systems have become widespread with the development of multimedia. In multimedia, it is necessary not only to send and receive data between personal computers, but also to be able to send and receive data with audio equipment and video equipment (hereinafter referred to as AV equipment).
[0010]
Therefore, a unified standard for a digital interface method for transmitting and receiving data between a computer and a digital image device has been studied. IEEE (The Institute of Electrical and Electronics Engineers, Inc.) 1394 is regarded as a promising low-cost peripheral interface suitable for multimedia applications.
[0011]
IEEE 1394 is capable of multiplex transfer of a plurality of channels. IEEE 1394 has an isochronous transfer function that guarantees transfer of video and audio data within a predetermined time, and is therefore a digital interface suitable for image transmission.
[0012]
The details of IEEE 1394 are detailed in pages 152-163 of Nikkei Electronics 1994.7.4 (no. 612) "Comparison of three new interfaces for exploring post SCSI design philosophy" (reference 1). Has been. As described on page 161 and after of this article, IEEE 1394 is based on a computer, but it is characterized by “having an isochronous transfer function for multimedia”. Is more effective than other interface methods. Further, IEEE 1394 is described in detail in Japanese Patent Application No. 7-81548, Japanese Patent Application No. 7-342842, etc. filed earlier by the present applicant.
[0013]
In IEEE 1394, as described above, multiplex transmission of a plurality of channels is possible, and image data from a plurality of devices can be transmitted through a plurality of channels assigned to isochronous packets. However, for the IEEE 1394 digital interface, no rules regarding copy protection are defined. In IEEE 1394, the digital interface format data of various devices such as DVC DI / F format data and MPEG2 transport packet data is simply converted and transmitted.
[0014]
Therefore, when data is transmitted using IEEE 1394 to copy an image, the recording side device captures data for the own device from the data flowing on the IEEE 1394 bus, and the captured data is specific to the playback side device. After returning to the digital interface format, the inserted copy generation management information is extracted. That is, the recording / reproduction data processing unit such as the digital interface processing unit or the error correction circuit detects the insertion position of the copy generation management information to obtain the copy generation management information. For example, if the transmitted data is DVC data, recording is performed depending on whether two predetermined bits in the SOURCE CONTROL packet in VAUX are “11”, “10”, or “00”. Control.
[0015]
As described above, the recording side device needs to be able to recognize and detect the digital interface format unique to the received data for the copy generation management information. That is, when a plurality of types of data are received and recorded, it is necessary to deal with all the received data, which increases the circuit scale of the recording side device. In addition, although it is possible to cope with a digital interface format whose standard has already been determined, it is not possible to support a digital interface format whose standard has not been determined.
[0016]
Further, it is conceivable that image data is copied by a data streamer that does not have an image decoding circuit and only records image data. At present, such data streamers are not applicable to devices to which the copy generation management information rule is applied, but may be subject to future regulations. However, as described above, in order to detect copy generation management information from data received via the IEEE 1394 bus, a decoder corresponding to each received data is required, and even in a data streamer that originally does not require a decoder There is also a problem that a decoding circuit is required only for detection of generation management information.
[0017]
In order to cope with these problems, in CPT-WG DTDG (digital transmission discussion group), copying is performed by inserting a 2-bit CCI (copy control information) into the IEEE 1394 header and using a CGMS value as the CCI. A standard for controlling the above is being studied.
[0018]
However, as copy generation management information, not only CGMS for performing copy control of video equipment but also SCMS (Serial Copy Management System) for performing copy control of audio equipment is defined. In order to perform video and audio copy control with 2-bit CCI, it is conceivable to use CGMS as SCMS. However, in SCMS, since a standard for permitting two generations of digital-digital copying of voice is added, SCMS cannot be simply used for voice copy control.
[0019]
[Problems to be solved by the invention]
As described above, conventionally, the 2-bit copy control information inserted into the data format of the data transmitted via the network bus has a problem that the video device and the audio device cannot be effectively copy-controlled. It was.
[0020]
The present invention has been made in view of such problems, and inserts 2-bit copy control information into the data format of data transmitted via a network bus for video equipment and audio equipment. An object of the present invention is to provide a copy protection method and a recording / reproducing apparatus capable of effectively performing copy control.
[0021]
[Means for Solving the Problems]
In the copy protection method according to claim 1 of the present invention, when the transmission side converts the data format of the original data before transmission into the transmission format of the network bus and transmits it as transmission data on the network bus, When copy control information based on one or more types of copy generation management information included in original data before transmission is inserted into the transmission data, and CGMS for video content is included as the copy generation management information If CGMS is used as copy control information and only SCMS for audio contents is included as the copy generation management information, copy prohibition, copy free, and one or more generations of copy permission are indicated by SCMS. Copy control information on the transmission format. First processing using a value indicating copy prohibition, copy free, limited copy permission of one generation or two generations or more, and when the own device cannot recognize the data format of the original data before the transmission Includes a second process for setting the copy control information to a predetermined fixed value, and receives the transmission data from another device having a transmission side having the same configuration as the transmission side via a network bus. On the side, when the transmission format of the received transmission data is converted into the data format of the recording data and recorded, when the data format of the input data cannot be recognized, the copy control information is used to A third process for performing copy control of recording data, and a case where the own apparatus can recognize the data format of the input data. When the copy control information in the transmission data indicates that the data has been transmitted from a device capable of recognizing the data format, the copy control is performed and recorded based on the copy generation management information in the input data. The fourth process for updating and recording the copy generation management information for one generation and the case where the own apparatus can recognize the data format of the input data, and the data format is recognized by the copy control information in the transmission data When it is indicated that data has been transmitted from a device that cannot perform copy control, copy control is performed based on a value updated for one generation of copy generation management information in the input data, and copy generation management information to be recorded And a fifth process for updating and recording for two generations,
According to a fourth aspect of the present invention, there is provided a recording / reproducing apparatus capable of recording and reproducing recording data, conversion between a recording data format recorded and reproduced by the recording / reproducing means and a network bus transmission format Converting means for performing recording, CGMS for video content and audio content included in the recording data when the data format of the recording data is converted into a transmission format of the network bus and transmitted as transmission data on the network bus Reproducing side detecting means for detecting SCMS for copy as copy generation management information, and detection result of the reproducing side detecting means Thus, based on CGMS when the copy generation management information includes video content CGMS, the copy generation management information includes only the audio content SCMS as SCMS. Based on this, copy control information insertion means for creating 2-bit copy control information, inserting the created copy control information into the transmission data, and copy control information included in the transmission data received via the network bus is detected. Copy control information detection means, recording side detection means for detecting CGMS for video content and SCMS for audio content included in the received recording data as copy generation management information, copy control information detection means and recording Recording on the basis of the detection result of the recording side detection means, and recording on the basis of the detection results of the copy control information detection means and the recording side detection means. Copy generation management information determining means for determining the copy generation management information to be given to the recording / reproducing means It is intended to include a door.
[0022]
According to claim 1 of the present invention, the transmission side recognizes the value of one or more types of copy generation management information included in the original data before transmission and the data format of the recording data by the copy control information. Indicates a value indicating whether or not When the receiving side cannot recognize the data format of the input data, the recording is controlled by the copy control information. If the data format of the input data can be recognized on the receiving side, copy control is performed based on the copy control information and the copy generation management information, and the copy generation management information to be recorded is updated.
[0023]
According to a fourth aspect of the present invention, the recording permission / inhibition determining means determines whether recording is possible or not based on copy generation management information for video content and audio content included in recording data and copy control information included in transmission data. The copy generation management information determining unit determines copy generation management information to be recorded based on the copy generation management information included in the recording data and the copy control information included in the transmission data. The copy control information inserting means inserts copy control information based on the copy generation management information included in the recording data into the transmission data.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. 1 and 2 are explanatory views showing an embodiment of a copy protection method according to the present invention. FIG. 1 shows data in a predetermined data format and converts the original data before transmission (hereinafter referred to as recording data) into data in the network bus transmission format (hereinafter referred to as transmission data) and sends it over the network bus. FIG. 2 shows a process in which transmission data transmitted in a transmission format corresponding to the network bus is returned to recording data in the original format (hereinafter referred to as recording side). ) In FIG.
[0025]
In the present embodiment, the playback side device and the recording side device include a bit streamer that does not recognize the format of the recording data, a device that recognizes the format of the recording data and records the SCMS, Either a device that recognizes the format and records CGMS, or a device that recognizes the format of the recording data and records CGMS and SCMS can be used. For example, not only video equipment but also audio equipment may be used, and equipment that records CGMS and SCMS may be used. Further, the values of CGMS and SCMS may be different. Note that the playback-side device and the recording-side device in the present embodiment can transmit and receive transmission data in a transmission format corresponding to the network bus.
[0026]
In this embodiment, not only CGMS and SCMS in recording data are used for copy generation management, but also copy control information inserted into transmission data corresponding to the transmission format of the network bus. For example, an example will be described in which IEEE 1394 is employed as a network bus, and CCI (copy control information), which is 2-bit copy control information, is inserted into the header portion of the IEEE 1394 packet and transmitted.
[0027]
On the reproduction side, as shown in FIG. 1, first, in step S1, it is determined whether or not the own apparatus can recognize the format of the recording data. If the device itself is a device that cannot recognize the format of the recording data, the CGMS and SCMS included in the recording data cannot be detected. In this case, in step S5, the transmission format is determined. The transmission data is transmitted on the network bus by setting “01” to the CCI defined in FIG.
[0028]
If the device itself is a device that can recognize the format of the recording data, the process proceeds to step S2, and it is determined whether or not the copy generation management information included in the data is only CGMS. If the copy generation management information included in the data is not CGMS only, the process proceeds to step S3 to determine whether the copy generation management information included in the data is only SCMS.
[0029]
If the recording data includes at least CGMS as copy generation management information, that is, if the copy generation management information included in the data includes only CGMS, or includes SCMS and CGMS, the process is performed in steps S6 and S6, respectively. In S7, the value of CGMS is set as CCI.
[0030]
If the copy generation management information included in the data is only SCMS, the process proceeds from step S3 to step S4 to determine the SCMS value.
[0031]
If the SCMS value indicates copy free, the process proceeds to step S8 and "00" is set in CCI. If the SCMS value indicates copy prohibition, the process proceeds to step S9 and "11" is set in CCI.
[0032]
As described above, not only a value indicating permission for only one generation of copying but also a value for permitting two generations of copying are set as SCMS. In the present embodiment, if the SCMS value permits copying for only one or two generations or more, the process proceeds to step S10 to indicate “10” indicating limited copy permission for CCI. Is set.
[0033]
On the recording side, as shown in FIG. 2, in step S11, it is determined whether or not the device is a device that can recognize the format of the recording data. If the recording data format cannot be recognized, the process proceeds to step S12 to detect CCI in the transmission data defined in the transmission format of the network bus.
[0034]
Next, in step S13, it is determined whether or not the CCI is “01”. If CCI is "01", "01" is set in CCI in step S5 on the reproduction side. That is, “01” of CCI indicates that the playback side device cannot recognize the format of the recording data.
[0035]
If it is determined in step S13 that the CCI is “01”, the process proceeds to step S16 to perform copy prohibition processing. That is, in the present embodiment, if neither the playback-side device nor the recording-side device can recognize the recording data format, that is, the recording-side device that cannot recognize the recording data format has already When data that has been recorded once is input, even if the copy generation management information included in the recording data indicates that copying is permitted, it is processed as copy-prohibited.
[0036]
If the CCI is not “01”, that is, if the playback side device can recognize the format of the recording data, copy control corresponding to the CCI is performed in step S14. That is, if CCI is “11”, copying is prohibited, if “00”, copying is permitted, and if CCI is “10”, copying is permitted.
[0037]
When copying based on the CCI is performed in step S14, when the recording data recorded by the recording device is reproduced and output, the process of step S5 in FIG. 1 is performed. Become.
[0038]
On the other hand, if the recording apparatus can recognize the format of the recording data, the process proceeds from step S11 to step S17. In step S17, CGMS and SCMS are detected. In the next step S18, it is determined whether or not the CCI is “01”. If the CCI is not “01”, it is determined that the playback device is a device that can recognize the format of the recording data, and the process proceeds to steps S19 and S20.
[0039]
In step S19, copying is controlled based on the detected CGMS and SCMS, and in the next step S20, a value obtained by updating CGMS for one generation is recorded as CGMS, and a value obtained by updating SCMS for one generation is recorded as SCMS. That is, in step S20, when the CGMS included in the recording data is “10” or “11”, the CGMS is recorded with “11”, and only when the CGMS is “00”, “00” is set in the CGMS. It is set and recorded. Also, if the SCMS of the data to be recorded indicates 1st or 2nd generation copy permission, the SCMS in the recording data is changed to one indicating copy prohibition or 1st generation copy permission, respectively. To record. If the SCMS in the recording data indicates copy free or copy prohibition, the value is not changed in step S20.
[0040]
For devices that can recognize the format of the recording data, the CGMS and SCMS are updated and recorded in step S20. Therefore, even when this device becomes a playback device and the recording data is converted into transmission data and sent to the network bus, the next recording device is based on CGMS and SCMS in the data format in step S19. Copy control may be performed.
[0041]
On the other hand, for a device that cannot recognize the format of recording data such as a data streamer, CGMS, SCMS, etc. are not updated during recording. Therefore, if it is determined in step S18 that the CCI is "01", the process proceeds to step S22, and copy control is performed based on the value obtained by updating CGMS and SCMS in the recording data for one generation. To do.
[0042]
That is, when the playback side device is a data streamer or the like, recording has already been performed once in the data streamer or the like. Therefore, in step S22, CGMS and SCMS are updated for one generation. That is, in step S22, if CGMS and SCMS indicate copy permission for one or two generations, CGMS and SCMS are changed to those indicating copy prohibition or one generation copy permission, and the changed values are obtained. Based on this, copy control is performed. When CGMS and SCMS indicate copy free or copy prohibition, copy control is performed without changing CGMS and SCMS.
[0043]
In the next step S23, the SCMS of the data to be recorded is updated for two generations and recorded. That is, when the SCMS in the data to be recorded indicates that the second generation copy is permitted, the SCMS in the recording data is changed to indicate that the copy is prohibited.
[0044]
Next, the operation of the embodiment configured as described above will be described with reference to FIGS. FIG. 3 shows copy control for a recording / reproducing apparatus that can recognize the format of recording data including CGMS and a recording / reproducing apparatus that cannot recognize the format of recording data, and FIG. FIG. 5 shows copy control for a recording / reproducing device that can recognize the format and a recording / reproducing device that cannot recognize the format of the recording data. FIG. 5 shows a recording / reproducing device that can recognize the format of recording data including CGMS and SCMS. Also, copy control is shown for a recording / playback device that cannot recognize the format of the recording data.
[0045]
This embodiment will be described using an example in which IEEE 1394 is used as a network bus and CCI, which is 2-bit copy control information, is inserted into the header portion of an IEEE 1394 packet.
[0046]
The bitstream recording / reproducing device 1 is a device that cannot recognize copy generation management information of recording data, and the device 2 that can recognize the format is a device that recognizes the format of recording data and can perform copy control by CGMS. is there. Recording data including CGMS is converted into a network bus format and supplied to these devices 1 and 2.
[0047]
Now, it is assumed that the CGMS in the recording data is “10” that permits recording only once, and the CCI in the transmission data is also “10”. The bit stream recording / reproducing device 1 performs copy control based on the CCI in the transmission data. That is, in this case, the device 1 detects the CCI in step S12 of FIG. 2, and determines whether or not the CCI is “01” in step S13. In this case, since the CCI is “10” and copying is permitted, the bitstream recording / reproducing apparatus 1 records transmission data in step S14.
[0048]
On the other hand, the device 2 capable of recognizing the format performs copy control not by the CCI in the transmission data but by CGMS in the recording data. That is, the device 2 detects CGMS in step S17 of FIG. 2, detects that CCI is not “01” in step S18, and shifts the processing to step S19. In this case, since the CCI is “10”, the device 2 that can recognize the format performs copying. Next, in step S20, the device 2 performs recording by changing the value of the CGMS updated for one generation, that is, “11”.
[0049]
Next, it is assumed that the recording data recorded in these devices 1 and 2 is reproduced, converted into a network bus format and output, and copied by another device. In this case, the bitstream recording / reproducing apparatus 1 sets “01” as the CCI and outputs it in step S5 of FIG. Further, the device 2 capable of recognizing the format sets and outputs “11” which is the value of CGMS as CCI in step S6 of FIG.
[0050]
Devices that receive and record outputs from these devices 1 and 2 can be devices that can recognize the format of recording data from devices 1 and 2 and devices that cannot.
[0051]
It is assumed that the recording data from the devices 1 and 2 is copied in a device that cannot recognize the format of the recording data. The CCI included in the transmission data from the device 1 is “01”. Therefore, copying of transmission data from the device 1 is prohibited in step S16 in FIG. Next, it is assumed that the output of the device 2 is copied in a device that cannot recognize the format of the recording data. In this case, the CCI included in the transmission data from the device 2 is “11”. Therefore, in this case, copying is prohibited in step S14 of FIG.
[0052]
Next, it is assumed that the recording data from the devices 1 and 2 is copied in a device that can recognize the format of the recording data. In this case, it is determined whether or not CCI is “01” in step S18 of FIG. Since the CCI in the transmission data from the device 2 is “11”, when recording data from the device 2 is copied, copy control based on CGMS is performed in step S19. In this case, since CGMS is “11”, copy is prohibited.
[0053]
The CCI in the transmission data from the device 1 is “01”. Therefore, in this case, the process of step S22 is performed. The CGMS in the transmission data from the device 1 is not changed by the device 1 and remains “10”. In step S22, copy control is performed based on the value obtained by updating CGMS for one generation. That is, in this case, the copy is controlled on the assumption that CGMS is “11”. Therefore, the recording data from the device 1 is not copied.
[0054]
In this way, the recording data can be copied only once, and copy control corresponding to CGMS is possible.
[0055]
In the present embodiment, whether or not recording is possible is determined based on the copy generation management information and the CCI, and the recording permission judgment rule shown below for the CGMS and SCMS values to be set and recorded is the CGMS / SCMS recording. Even if a device that cannot recognize the format of the data for recording is used by determining the rule and the CCI setting rule, and if not only CGMS but also SCMS is used as copy generation management information, reliable copying is possible. Generation management is possible.
[0056]
(1) Rules for determining whether or not recording is possible
a. If the recording device is a device that cannot recognize the format of the recording data, it determines whether or not recording is possible based on copy control information (for example, CCI) inserted in the transmission data defined by the network bus format. .
[0057]
b. When the recording device is a device that can recognize the format of recording data, copy generation management information and copy control information included in the recording data in the data area of the transmission data transmitted via the network bus Whether or not recording is possible is determined based on the above. That is, at the time of input from the bit streamer, copying is controlled based on the value of the copy generation management information updated for one generation. For transmission data from a device that can recognize the format of the recording data, copy control is performed based on copy generation management information.
[0058]
(2) CGMS / SCMS recording rules
a. When a device that can recognize the format of recording data records CGMS on the recording medium, a value obtained by updating the CGMS included in the recording data for one generation is recorded as CGMS.
[0059]
b. When recording SCMS that is audio copy generation management information, a value obtained by updating the SCMS existing in the received recording data by one generation is recorded as a new SCMS value.
[0060]
(3) CCI setting rules
a. When a device that cannot recognize the format of recording data outputs transmission data, CCI is set to a fixed value “01”.
[0061]
b. When a device capable of recognizing the format of recording data outputs transmission data and CGMS is included as copy generation management information included in the recording data, the CGMS of CGMS is used as the CCI of the transmission data. Set the value as is.
[0062]
c. When a device capable of recognizing the format of recording data outputs transmission data, and only SCMS is included as copy generation management information included in the recording data, the CCI is determined by the SCMS. “00” is set when no copyright is indicated, “10” is set when copy permission of one generation or two or more generations is shown, and “11” is set when copy prohibition is shown.
[0063]
If such a copy protection method is adopted, as described above, not only CGMS but also CGMS and SCMS are used as copy generation management information in recording data, and both CGMS and SCMS are used with different values. Even if there is, copy control can be surely performed.
[0064]
FIG. 4 shows an example in which SCMS is included in the recording data. The bitstream recording / reproducing devices 6 and 7 are devices that cannot recognize the copy generation management information of the recording data. The devices 8 and 9 that can recognize the format recognize the recording data format and perform copy control by SCMS. It is a possible device. The recording data including SCMS is converted into digital data by the A / D converter 5 and supplied to the devices 6 and 8 in the network bus format.
[0065]
The SCMS included in the recording data in the data area of the transmission data output from the A / D converter 5 is a value that permits recording only twice, and the CCI in the transmission data is also “10”. And The bit stream recording / reproducing device 6 performs copy control based on the CCI in the transmission data. That is, in this case, the device 6 records the recording data with the CCI of “10”.
[0066]
On the other hand, since the CCI in the transmission data is not “01”, the device 8 capable of recognizing the format performs copying based on SCMS in step S19 in FIG. The SCMS included in the recording data in the transmission data received by the device 8 indicates the second generation copy permission, and the device 8 copies the recording data. In this case, in step S20, the SCMS is changed to a value indicating the one-generation copy permission and recorded.
[0067]
Next, it is assumed that the recording data recorded in these devices 6 and 8 is reproduced, converted into a network bus format and output, and copied by the devices 7 and 9. In step S5 in FIG. 1, the device 6 inserts “01” as the CCI in the transmission data. In addition, the device 8 sets “10” as the CCI in the transmission data based on the recorded SCMS value indicating the one-generation copy permission.
[0068]
Since the bit stream recording / reproducing device 7 cannot recognize the format of the recording data, the transmission data from the bit stream recording / reproducing device 6 is prohibited from being copied in step S16 in FIG.
[0069]
When the bitstream recording / reproducing device 7 is provided with transmission data from the device 8 capable of recognizing the format, the bitstream recording / reproducing device 7 performs copying based on CCI “10”.
[0070]
The SCMS in the recording data to be copied in the device 7 has a value indicating that one generation copy is permitted. In a device capable of recognizing the format of recording data, the transmission data from the device not recognizing the format of recording data is updated to the value obtained by updating the SCMS for one generation in step S22 of FIG. Since copy control is performed based on this, transmission data from the device 7 cannot be copied by another device.
[0071]
It is assumed that the transmission data from the bit stream recording / reproducing device 6 is given to the device 9 that can recognize the format. In step S22, the device 9 performs copy control based on the value obtained by updating the SCMS included in the recording data for one generation. In other words, the transmission data is copied by the device 9. In this case, in step S23, the device 9 records a value obtained by updating the SCMS included in the recording data in the transmission data for two generations as the SCMS value. That is, the SCMS of the recording data to be recorded indicates recording prohibition.
[0072]
It is assumed that the transmission data from the device 8 that can recognize the format is given to the device 9 that can recognize the format. The SCMS included in the recording data in the transmission data from the device 8 indicates a 1st generation copy, and the device 9 copies the received recording data. In this case, the device 9 records the value obtained by updating the SCMS for one generation in step S20, that is, the SCMS indicating copy prohibition.
[0073]
Next, it is assumed that the recording data recorded by the device 9 is reproduced, converted into a network bus format and output. In this case, the device 9 sets “11” in the CCI in step S9 in FIG. That is, the CCI in the transmission data from the device 9 indicates copy prohibition, and the SCMS in the recording data also indicates copy prohibition. Therefore, neither the device that can recognize the format of the recording data nor the device that can recognize the format of the recording data can copy the transmission data from the device 9.
[0074]
Thus, the output of the A / D converter 5 can be copied only twice as defined in SCMS.
[0075]
FIG. 5 shows an example in which both CGMS and SCMS are included in the recording data. The bitstream recording / reproducing device 11 is a device that cannot recognize the copy generation management information of the recording data. The devices 12 and 13 that can recognize the format recognize the format of the recording data and perform copy control by CGMS or SCMS. It is a possible device. Recording data including CGMS and SCMS is converted into digital data by the A / D converter 5 and supplied to the devices 11 and 12 in the network bus format.
[0076]
Now, CGMS included in the recording data in the data area of the transmission data output from the A / D converter 5 indicates copy permission for only one generation, and SCMS indicates copy permission for only two generations. It is assumed that the CCI in the transmission data is also “10”. The bit stream recording / reproducing device 11 performs copy control based on the CCI in the transmission data. That is, in this case, the device 11 records the recording data with the CCI of “10”.
[0077]
On the other hand, since the CCI in the transmission data is not “01”, the device 12 that can recognize the format performs copy control by CGMS or SCMS in the recording data in step S19 in FIG. The SCMS included in the recording data in the transmission data received by the device 12 indicates the second generation copy permission, and the device 12 copies the recording data. In this case, in step S20, the SCMS is changed to a value indicating the one-generation copy permission and recorded. As CGMS, a value obtained by updating CGMS for one generation, that is, “11” is recorded.
[0078]
Next, it is assumed that the recording data recorded in these devices 11 and 12 is reproduced, converted into a network bus format and output, and copied by the device 13. In step S5 in FIG. 1, the device 11 inserts “01” as the CCI in the transmission data. In step S7 in FIG. 1, the device 12 sets the recorded CGMS value “11” as the CCI value. Therefore, the bitstream recording / reproducing device cannot copy the output of the device 12 that can recognize the format.
[0079]
It is assumed that the transmission data from the device 12 that can recognize the format is given to the device 13 that can recognize the format. In this case, the device 13 performs copy control according to the process of step S19. That is, when the device 13 is a device that performs copy control by CGMS, the copy is prohibited because CGMS is “11”. On the other hand, when the device 13 is a device that performs copy control by SCMS, the copy is possible because the SCMS indicates a one-generation copy permission. In this case, the device 13 changes the SCMS to a value indicating copy prohibition and records it.
[0080]
Since the CCI in the transmission data of the device 13 is “11”, and the SCMS and CGMS in the recording data are values indicating copy prohibition, the transmission data from the device 13 is copied by another device. Can't do it.
[0081]
Thus, the output of the A / D converter 5 is copy-controlled as defined in SCMS and CGMS.
[0082]
6 and 7 are block diagrams showing a recording / reproducing apparatus for realizing the copy protection method of FIGS. FIG. 6 shows an example of an apparatus that cannot recognize the format of recording data, and FIG. 7 shows an example of an apparatus that can recognize the format of recording data. In addition, an example is shown in which a bus corresponding to IEEE 1394 is used as the network bus.
[0083]
In FIG. 6, the recording / playback processing circuit 27 is controlled by a recording control unit (not shown) to record the input recording data and to reproduce and output the recorded recording data. ing. The reproduction data from the recording reproduction processing circuit 27 is given to the 1394 packet transmission circuit 22. The 1394 packet transmission circuit 22 converts the reproduction data into 1349 packets having a format corresponding to IEEE 1394. The CCI value insertion circuit 21 generates “01” as the CCI and outputs it to the 1394 packet transmission circuit 22. In this way, the 1394 packet transmission circuit 22 provides the 1394 packet of CCI “01” to the interface (hereinafter referred to as I / F) 23.
[0084]
The I / F 23 is connected to a network bus (not shown). The I / F 23 sends a 1394 packet from the 1394 packet transmission circuit 22 as transmission data to the network bus, and takes in the transmission data on the network bus to receive a 1394 packet reception circuit. Output to 24. The 1394 packet receiving circuit 24 converts the 1394 packet into the data format of the original recording data and outputs it to the recording / reproducing processing circuit 27. The CCI value detection circuit 25 detects the CCI value included in the 1394 packet from the output of the 1394 packet reception circuit 24 and outputs it to the recordability determination circuit 26.
[0085]
The record enable / disable determining circuit 26 determines that copying is prohibited when the CCI is “11”, and determines that copying is permitted in the own apparatus in other cases, and performs recording control (not shown). The judgment result is output to the section.
[0086]
Next, the operation of the recording / reproducing apparatus of FIG. 6 configured as described above will be described with reference to FIG. FIG. 8 is an explanatory diagram showing a 1394 isochronous packet created by the 1394 packet transmission circuit 22.
[0087]
The 1394 packet received via the I / F 23 is returned to the recording data format by the 1394 packet receiving circuit 24. The CCI value detection circuit 25 detects the CCI value in the transmission data and outputs it to the record enable / disable determination circuit 26. It is assumed that CCI is a value other than “11”. In this case, the record availability determination circuit 26 determines that the received data can be recorded, and outputs the determination result to the recording control unit. As a result, the recording data from the 1394 packet receiving circuit 24 is recorded in the recording / reproducing processing circuit 27.
[0088]
When the CCI in the received transmission data is “11”, the recording permission determination circuit 26 determines that copying is prohibited and does not perform recording.
[0089]
On the other hand, at the time of reproduction, reproduction data from the recording / reproduction processing circuit 27 is given to the 1394 packet transmission circuit 22. The CCI value insertion circuit 21 gives “01” to the 1394 packet transmission circuit 22. The 1394 packet transmission circuit 22 converts the reproduction data into 1394 packets.
[0090]
FIG. 8 shows an isochronous packet that is a 1394 packet. The isochronous packet is configured by arranging a header at the head, then a header CRC, then data, and finally a data CRC. The reproduction data from the recording / reproduction processing circuit 27 is arranged in the data area of the isochronous packet. The CCI is set to predetermined 2 bits of the header as indicated by the hatched portion.
[0091]
The 1394 packet transmission circuit 22 transmits a 1394 packet having a CCI of “01” to the network bus via the I / F 23. In this way, the reproduction data from the recording / reproduction processing circuit 27 can be output in the network bus format. In this case, the CCI is always “01”.
[0092]
Next, the recording / reproducing apparatus of FIG. 7 will be described. In FIG. 7, the same components as those in FIG. The signal processing circuit 31 is controlled for recording by a recording control unit (not shown), performs recording by performing predetermined signal processing on the input recording data, and reproduces the recorded recording data to perform predetermined recording. The signal is processed and output. The reproduction data from the signal processing circuit 31 is given to the 1394 packet transmission circuit 22.
[0093]
The SCMS / CGMS detection circuit 32 detects SCMS and CGMS, which are copy generation management information included in the recording data, from the output of the signal processing circuit 31 and outputs it to the CCI value creation and insertion circuit 33.
[0094]
The CCI value creation / insertion circuit 33 inserts 2-bit CCI into the header portion of the 1394 packet. When the recording data includes CGMS, the CCI value creation and insertion circuit 33 sets the CGMS value as it is as the CCI value, and when the recording data includes only SCMS, A CCI value corresponding to the SCMS value is set. That is, when the SCMS / CGMS detection circuit 32 detects that the SCMS indicates copy free, the CCI value creation / insertion circuit 33 sets “00” as the CCI, and the SCMS indicates copy prohibition. “11” is set as the CCI when it is detected that it is an object, and “10” is set as the CCI when it is detected that the SCMS indicates a one-generation or two-generation copy permission. It is supposed to be.
[0095]
The 1394 packet receiving circuit 24 converts the 1394 packet into the data format of the original recording data and outputs it to the signal processing circuit 31. The CCI value detection circuit 25 detects the CCI value included in the 1394 packet and outputs it to the recording SCMS / CGMS value determination circuit 35 and the recording availability determination circuit 36. The SCMS / CGMS detection circuit 34 detects SCMS and CGMS included in the recording data and outputs them to the recording SCMS / CGMS value determination circuit 35 and the recording availability determination circuit 36.
[0096]
The recording SCMS / CGMS value determination circuit 35 determines SCMS and CGMS values to be recorded based on the CCI value and the SCMS / CGMS values and supplies them to the signal processing circuit 31. That is, the recording SCMS / CGMS value determination circuit 35 performs the processing of steps S20 and S23 in FIG.
[0097]
The record enable / disable determining circuit 36 determines the record enable / disable based on the CCI value and the SCMS / CGMS value, and supplies the determination result to a recording control unit (not shown). That is, the record enable / disable determining circuit 36 performs the processes of steps S19 and S22 in FIG.
[0098]
Next, the operation of the recording / reproducing apparatus of FIG. 7 configured as described above will be described.
[0099]
The 1394 packet received via the I / F 23 is returned to the recording data format by the 1394 packet receiving circuit 24. The CCI value detection circuit 25 detects the CCI value in the transmission data, and the SCMS / CGMS detection circuit 34 detects SCMS and CGMS in the recording data.
[0100]
The CCI value and the SCMS / CGMS value are supplied to a recording SCMS / CGMS value determining circuit 35 and a recording possibility determining circuit 36. When the CCI indicates that the transmission data transmission source is a device that can recognize the format of the recording data, the record availability determination circuit 36 controls recording based on the detected SCMS and CGMS. . The recording SCMS / CGMS value determination circuit 35 sets a value obtained by updating the CCI for one generation as CGMS, and sets a value obtained by updating the SCMS for one generation as SCMS.
[0101]
On the other hand, when it is indicated that the transmission source is a device that cannot recognize the format of the recording data, the recording possibility determination circuit 36 records based on a value obtained by subtracting one generation from the detected SCMS and CGMS. To control. In addition, the recording SCMS / CGMS value determination circuit 35 sets the SCMS as an SCMS for recording a value updated for two generations.
[0102]
At the time of reproduction, reproduction data from the signal processing circuit 31 is given to the 1394 packet transmission circuit 22. The SCMS / CGMS detection circuit 32 gives SCMS and CGMS included in the recording data to the CCI value creation / insertion circuit 33. The CCI value creation / insertion circuit 33 creates CCI according to CGMS or SCMS and supplies it to the 1394 packet transmission circuit 22. Thus, the 1394 packet transmission circuit 22 obtains a 1394 packet to which CCI is added.
[0103]
As described above, in this embodiment, the copy protection method shown in FIGS. 1 and 2 can be realized.
[0104]
【The invention's effect】
As described above, according to the present invention, copy control is effectively performed by inserting 2-bit copy control information into the data format of data transmitted via the network bus for video equipment and audio equipment. It has the effect that it can be performed.
[Brief description of the drawings]
FIG. 1 is a flowchart showing an embodiment of a copy protection method according to the present invention.
FIG. 2 is a flowchart showing an embodiment of a copy protection method according to the present invention.
FIG. 3 is an explanatory diagram for explaining the operation of the embodiment.
FIG. 4 is an explanatory diagram for explaining the operation of the embodiment.
FIG. 5 is an explanatory diagram for explaining the operation of the embodiment.
FIG. 6 is a block diagram showing an embodiment of a recording / reproducing apparatus according to the present invention.
FIG. 7 is a block diagram showing an embodiment of a recording / reproducing apparatus according to the present invention.
FIG. 8 is an explanatory diagram for explaining an isochronous packet of the IEEE 1394 standard.
[Explanation of symbols]
S1, S11... Step for determining whether or not to recognize the format, S5 to S10... Setting value for CCI, S13, S18... Step for determining whether or not CCI is “01”, S14, S16 , S19, S22... Copy control step, S20, S23... SCMS, CGMS recording step

Claims (6)

On the sending side,
One or more types of copy generation management included in the original data before transmission when the data format of the original data before transmission is converted into the transmission format of the network bus and transmitted as transmission data on the network bus When copy control information based on information is inserted into the transmission data and CGMS for video content is included as the copy generation management information, CGMS is used as copy control information, and the copy generation management information is used as the copy generation management information. When only SCMS for audio content is included, copy prohibition, copy as copy control information on the transmission format, respectively, when SCMS indicates copy prohibition, copy free, and one or more generations of copy permission are indicated. Free, limited copy of one or more generations A first treatment with a value indicating permission,
When the own device is unable to recognize the data format of the original data before the transmission, it comprises a second process for setting the copy control information to a predetermined fixed value,
On the receiving side that receives the transmission data from another device having a transmitting side having the same configuration as the transmitting side via a network bus,
If the data format of the input data cannot be recognized when the transmission format of the received transmission data is converted into the data format of the recording data and recorded, the recording data is based on the copy control information. A third process for performing copy control of
When the own device can recognize the data format of the input data and the copy control information in the transmission data indicates that the data is transmitted from a device that can recognize the data format, A fourth process for performing copy control based on the copy generation management information in the input data and updating and recording one copy of the copy generation management information to be recorded;
When the own device can recognize the data format of the input data and the copy control information in the transmission data indicates that the data is transmitted from a device that cannot recognize the data format, Copy control based on a value updated for one generation of copy generation management information in input data, and a fifth process for updating and recording copy generation management information to be recorded for two generations. Copy protection method. The copy control information is 2-bit information,
2. The second process according to claim 1, wherein a value other than a value indicating copy prohibition, copy free, limited copy permission of one generation or two generations or more is used as the predetermined fixed value. Copy protection method.   The third process is characterized in that copying of the recording data is prohibited when it is indicated based on the copy control information that the transmitting device cannot recognize the data format. The copy protection method according to claim 1. Recording and reproducing means capable of recording and reproducing recording data;
Conversion means for converting between a recording data format to be recorded and reproduced in the recording / reproducing means and a network bus transmission format;
When the data format of the recording data is converted into the transmission format of the network bus and transmitted as transmission data on the network bus, the CGMS for video content and the SCMS for audio content included in the recording data are copy generations. Reproduction side detection means for detecting as management information;
Based on the detection result of the playback side detection means, when CGMS for video content is included as the copy generation management information, based on CGMS, only SCMS for audio content is included as the copy generation management information. Copy control information insertion means for creating 2-bit copy control information based on SCMS and inserting the created copy control information into the transmission data;
Copy control information detecting means for detecting copy control information included in transmission data received via the network bus;
Recording side detection means for detecting CGMS for video content and SCMS for audio content included in the received recording data as copy generation management information;
A record enable / disable determining unit that determines whether or not recording is possible based on detection results of the copy control information detecting unit and the recording side detecting unit, and controls recording in the recording / reproducing unit;
Recording / reproduction comprising: copy generation management information determining means for determining copy generation management information to be recorded based on the detection results of the copy control information detecting means and the recording side detecting means and giving the information to the recording / reproducing means apparatus. A copy based on one or more types of copy generation management information included in the original data when the data format of the original data before transmission is converted to the transmission format of the network bus and transmitted as transmission data on the network bus A recording / reproducing apparatus that performs processing for inserting control information into transmission data,
When the copy generation management information includes CGMS for video content, first processing means using CGMS as copy control information;
When only SCMS for audio contents is included as copy generation management information, copy control on the transmission format is performed when copy prohibition, copy free, one generation or two generations or more copy permission is indicated by SCMS. And a second processing unit that uses, as information for copy control, a value indicating copy prohibition, copy free, one generation or two or more generations of limited copy permission. A recording / reproducing device that receives transmission data into which copy control information is inserted from another device via a network bus,
When the received transmission data is converted to the recording data format and recorded, if the data format of the input data cannot be recognized, copy control of the recording data is performed based on the copy control information. First processing means for performing
When the device can recognize the data format of the input data, and the copy control information in the transmission data indicates that the data is transmitted from a device that can recognize the data format Performs copy control based on copy generation management information that is CGMS or SCMS in the input data, and updates and records the copy generation management information to be recorded for one generation; and
When the device can recognize the data format of the input data, and the copy control information in the transmission data indicates that the data is transmitted from a device that cannot recognize the data format Performs copy control based on a value that is updated for one generation of copy generation management information that is CGMS or SCMS in the input data, and updates and records the copy generation management information to be recorded for two generations. And a recording / reproducing apparatus.

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