JP2009130743A - Copyright protection apparatus and information processing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a copyright protection apparatus and an information processing device capable of effectively using a digital tuner in accordance with throughput or the like for scramble key acquisition. <P>SOLUTION: The copyright protection apparatus R1-Rn acquires scramble key information by requesting it to an IC card, measures a key acquisition time from the request of the key to the acquisition of the key, and performs setting of a content transfer class based on a length of the relevant key acquisition time. At this point, when the key acquisition time is shorter than or equal to a predetermined time, scramble contents in contents obtained from a digital tuner are descrambled, locally encrypted and set to transfer to a general-purpose bus. When the key information acquisition time exceeds the predetermined time, at the same time, either a processing for encrypting non-scramble contents or setting to output to the general-purpose bus or a processing for stopping the digital tuner is performed. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a copyright protection device and an information processing device.

For example, when a terrestrial digital broadcast is received by a television broadcast receiving system, the television broadcast receiving system obtains a scramble key from an IC card and descrambles the scrambled content received by the digital tuner with the scramble key. Viewing is possible (for example, see Patent Document 1 below). In such terrestrial digital broadcasting or the like, since the scramble key is dynamically switched, the receiving system performs descrambling while periodically acquiring the scramble key one after another from the IC card.
JP 2000-236527 A

  However, in such a television broadcast receiving system, if the scramble key is not correctly acquired, descrambling cannot be performed and the user cannot view the content. In addition, in this type of television broadcast receiving system, a plurality of digital tuners may be provided, and a plurality of digital tuners may share one IC card. In particular, in this case, as the number of digital tuners increases, some digital tuners cannot acquire a valid scramble key within a certain time due to the limit of the processing capability of the IC card and the transmission speed of the communication path of the IC card interface. Scramble may not be possible. Therefore, in this case, the user can view only broadcast contents less than the number of tuners, and the digital tuner included in the receiving system cannot be used effectively.

  In view of such a problem, an object of the present invention is to provide a copyright protection device and an information processing device that can effectively use a digital tuner in accordance with the processing capability of acquiring a scramble key.

  The copyright protection device of the present invention is used in a television broadcast receiving system that receives a television broadcast including scrambled content that can be descrambled by key information acquired from an IC card and non-scrambled non-scrambled content, A copyright protection device for transferring television broadcast content received by a digital tuner to an output destination via a general-purpose bus, a key information acquisition unit that requests key information from an IC card and acquires key information; Key information acquisition time measuring means for measuring key information acquisition time from when the information acquisition means requests key information until key information is acquired, and the length of the key information acquisition time measured by the key information acquisition time measurement means Content transfer setting means for setting the content transfer based on the content transfer setting means. If the time is less than or equal to the predetermined time, the scrambled content is descrambled using the key information acquired from the IC card, set to be locally encrypted and transferred to the general-purpose bus, and the key information acquisition time is the predetermined time. When the value exceeds the limit, either the setting for locally encrypting the non-scrambled content and outputting it to the general-purpose bus or the process of stopping the digital tuner is performed.

  The information processing apparatus according to the present invention is an information processing apparatus that receives a television broadcast including scrambled content that can be descrambled with key information acquired from an IC card and non-scrambled content that is not scrambled. A digital tuner that receives the John broadcast, and a copyright protection device that transfers the content of the television broadcast received by the digital tuner to an output destination via a general-purpose bus. A key information acquisition unit that requests the card to acquire key information, a key information acquisition time measurement unit that measures a key information acquisition time from when the key information acquisition unit requests key information until the key information is acquired; A content transfer setting for setting the content transfer based on the length of the key information acquisition time measured by the information acquisition time measuring means. And the content transfer setting means descrambles the scrambled content using the key information acquired from the IC card when the key information acquisition time is a predetermined time or less, Set to transfer to the bus, and if the key information acquisition time exceeds a predetermined time, either set the local encryption of non-scrambled content and output to the general-purpose bus, or stop the digital tuner It is characterized by that.

  ADVANTAGE OF THE INVENTION According to this invention, the copyright protection apparatus and information processing apparatus which can use a digital tuner effectively according to the processing capability of scramble key acquisition, etc. can be provided.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of a copyright protection device and an information processing device according to the present invention will be described in detail with reference to the drawings.

(First embodiment)
First, the configuration of an information processing apparatus according to an embodiment of the present invention will be described with reference to FIG. This information processing apparatus is realized as, for example, a notebook personal computer 10.

  FIG. 1 is a perspective view of the notebook personal computer 10 with the display unit opened. The computer 10 includes a computer main body 11 and a display unit 12. The display unit 12 incorporates a display device composed of a TFT-LCD (Thin Film Transistor Liquid Crystal Display) 17, and the display screen of the LCD 17 is positioned substantially at the center of the display unit 12.

  The display unit 12 is attached to the computer main body 11 so as to be rotatable between an open position and a closed position. The computer main body 11 has a thin box-shaped housing, and has a keyboard 13 on its upper surface, a power button 14 for powering on / off the computer 1, an input operation panel 15, a touch pad 16, and a speaker 18A. , 18B, etc. are arranged.

  The input operation panel 15 is an input device that inputs an event corresponding to a pressed button, and includes a plurality of buttons for starting a plurality of functions. These button groups also include a TV start button 15A and a DVD / CD start button 15B. The TV start button 15A is a button for starting a TV function for reproducing and recording TV broadcast program data. When pressed by the user, a TV application program for executing the TV function is started. The

  In the computer 10, in addition to a general-purpose main operating system, a dedicated sub-operating system for processing AV (audio / video) data is installed. The TV application program is a program that operates on the sub-operating system.

  When the power button 14 is pressed by the user, the main operating system is activated. On the other hand, when the TV activation button 15A is pressed by the user, the sub operating system is activated instead of the main operating system, and the TV application program is automatically executed. The sub-operating system has only a minimum function for executing the AV function. For this reason, the time required for booting up the sub operating system is much shorter than the time required for booting up the main operating system. Therefore, the user can immediately watch / record TV by simply pressing the TV start button 15A.

  The computer 10 can receive and reproduce a multi-channel terrestrial digital TV broadcast. An antenna terminal 19 for terrestrial digital TV broadcasting is provided on the right side surface of the computer main body 11.

  The DVD / CD start button 15B is a button for playing back video content recorded on a DVD or CD. When the DVD / CD activation button 15B is pressed by the user, a video reproduction application program for reproducing video content is activated. This video playback application program is also an application program that runs on the sub-operating system. When the DVD / CD start button 15B is pressed by the user, the sub operating system is started instead of the main operating system, and the video playback application program is automatically executed.

  Next, the system configuration of the computer 10 will be described with reference to FIG.

  As shown in FIG. 2, the computer 10 includes a CPU 101, a north bridge (NB) 102, a system memory 103, a south bridge (SB) 104, a graphics controller 105, a sound controller 106, a video enhancer 107, and a BIOS-ROM 108. A LAN controller 109, a hard disk drive (HDD) 110, a DVD drive (DVDD) 111, a card controller 112, a wireless LAN controller 113, an IEEE 1394 controller 114, an embedded controller (EC) 115, and a digital TV broadcast reception processing unit 116. Yes.

  The CPU 101 is a processor that controls the operation of the computer 10, and executes various application programs such as a main operating system / sub operating system and a TV application program loaded from the HDD 110 to the system memory 103. The CPU 101 also executes a system BIOS (Basic Input Output System) stored in the BIOS-ROM 108. The system BIOS is a program for hardware control.

  The NB 102 is a bridge device that connects the local bus of the CPU 101 and the SB 104. The NB 102 also includes a memory controller that controls access to the system memory 103. The NB 102 also has a function of executing communication with the graphics controller 105 via an AGP (Accelerated Graphics Port) bus, a PCI express standard serial bus, or the like.

  The graphics controller 105 is a display controller that controls the LCD 17 used as a display monitor of the computer 10. The video data generated by the graphics controller 105 is sent to the video enhancer 107 and subjected to video processing (image quality adjustment processing) for improving the image quality of the video data. The video data that has been improved in image quality by the video enhancer 107 is sent to the LCD 17. Also, the video data with high image quality by the video enhancer 107 can be sent to an external TV monitor or HDMI monitor via a connector provided in the computer main body 11.

  The SB 104 controls each device on an LPC (Low Pin Count) bus, each device on a PCI (Peripheral Component Interconnect) bus, and each device on a USB bus. Further, the SB 104 incorporates an IDE (Integrated Drive Electronics) controller for controlling the HDD 110 and the DVDD 111. Further, the SB 104 has a function of executing communication with the sound controller 106.

  The sound controller 106 is a sound source device, and outputs audio data to be reproduced to an external 5.1 channel speaker system connected through speakers 18A and 18B and a connector.

  The card controller 112 controls cards such as PC cards and SD (Secure Digital) cards. The wireless LAN controller 113 is a wireless communication device that performs wireless communication of, for example, the IEEE 802.11 standard. The IEEE1394 controller 114 executes communication with an external device via an IEEE 1394 standard serial bus. The EC 115 is a one-chip microcomputer in which an embedded controller for power management and a keyboard controller for controlling the keyboard 13 and the touch pad 16 are integrated. The EC 115 has a function of powering on / off the computer 10 in accordance with the operation of the power button 14 by the user. Further, the EC 115 can also power on the computer 10 in response to an operation of the TV start button 15A and the DVD / CD start button 15B by the user.

  The digital TV broadcast reception processing unit 116 is a device that receives a digital broadcast program such as terrestrial digital TV broadcast, and is connected to the antenna terminal 19. In terrestrial digital TV broadcasting, MPEG-2 is used for 12-segment broadcasting and H.264 is used for one-segment broadcasting. H.264 | MPEG-4AVC is used. Also, as a video format of MPEG-2, high resolution HD (High Definition) and SD (Standard Definition) are used.

  The digital TV broadcast reception processing unit 116 receives a broadcast signal of a specific channel from TV broadcast signals input from the antenna terminal 19 and extracts a transport stream (TS) from the received TV broadcast signal. The transport stream is a stream in which broadcast content that has been compression-encoded is multiplexed. In terrestrial digital TV broadcasting, a plurality of programs are multiplexed for each channel (physical channel). The transport stream is composed of 188-byte packets.

  Further, the digital TV broadcast reception processing unit 116 decrypts the transport stream, local encrypts it using an encryption key shared with the TV application program, and transfers it to the system memory 103 via the USB bus. This decryption is performed by generating an encryption key from a device key given in advance (for example, device identification information composed of an identifier of a model or manufacturer) and predetermined information in the transport stream. The local encryption prevents the extracted broadcast program data from being reproduced even if the broadcast program data is illegally extracted via the USB bus.

  Next, the configuration of the main part including the digital TV broadcast reception processing unit 116 of the computer 10 will be described. The computer 10 includes a plurality of the above-mentioned digital TV broadcast reception processing units 116, and each digital TV broadcast reception processing unit 116 includes one copyright protection device and one digital tuner.

  That is, as shown in FIG. 3, the computer 10 includes n copyright protection devices R1 to Rn and n digital tuners C1 to Cn connected to the respective copyright protection devices R1 to Rn. ing. Each copyright protection device R1 to Rn is connected to a copyright protection device controller 203 via a general-purpose bus 201. Here, the general-purpose bus 201 is a USB compatible with USB (Universal Serial Bus) 2.0. The copyright protection device controller 203 and each of the copyright protection devices R1 to Rn correspond to the USB 2.0 High Speed mode (maximum transfer rate 480 Mbps). The copyright protection device controller 203 is a functional component realized by the CPU 101 executing a TV application program. Each copyright protection device R1 to Rn can access the IC card 209 via the dedicated bus 205 and the IC card access controller 207.

  In response to the channel setting request from the copyright protection device controller 203, the copyright protection device R1 sets the reception channel for the digital tuner C1, and in response to the stream transfer request from the copyright protection device controller 203, The broadcast content received by the digital tuner C1 is locally encrypted and transferred to the general-purpose bus 201. At this time, when a packet called ECM is included in the broadcast stream, the copyright protection device R1 transmits the data in the ECM packet to the IC card 209 and acquires the scramble key from the IC card 209.

  Then, the copyright protection device R1 uses the scramble key to unscramble the broadcast content, performs local encryption, and transfers it to the general-purpose bus 201. If no ECM packet is included in the broadcast stream, the broadcast content is not scrambled, and therefore, the broadcast content is locally encrypted without being communicated with the IC card 209 and transferred to the general-purpose bus 201. The copyright protection device R1 controls the power supply of the digital tuner C1, and further sets the channel of the digital tuner C1 according to an instruction from the copyright protection device controller 203.

  The digital tuner C1 receives the broadcast stream of the channel designated by the copyright protection device R1. A broadcast stream of one channel is composed of 13 segments. The 13 segments are divided into two segment groups of 12 segments and one segment, and one content is composed of each segment group. That is, a broadcast stream of the same channel is composed of two contents, and the digital tuner C1 receives these two contents. The broadcast content composed of 12 segments is a scrambled high-definition image quality content and has a high bandwidth of several tens of Mbps class. Broadcast content composed of one segment is commonly called “one segment”, is non-scrambled content of low quality, and has a low bandwidth of several hundred kbps class.

  Note that the copyright protection devices R2 to Rn have the same functions as the copyright protection device R1, and the digital tuners C2 to Cn have the same functions as the digital tuner C1, and therefore description thereof is omitted.

  The copyright protection device controller 203 has a function of sending instructions such as start, stop, channel setting, and stream transfer to each of the copyright protection devices R1 to Rn via the general-purpose bus 201. The copyright protection device controller 203 receives the broadcast content transferred from each of the copyright protection devices R1 to Rn, decodes the broadcast content, decodes it, and outputs it to the LCD 17 (FIG. 2). Or after local encryption again, storage in the HDD 110 (FIG. 2) of the storage device is performed.

  The IC card access controller 207 performs data transfer control between each of the copyright protection devices R1 to Rn and the IC card 209. The IC card 209 cannot execute processing for requests from a plurality of copyright protection devices R1 to Rn at the same time. Therefore, the IC card access controller 207 receives other requests from a plurality of copyright protection devices R1 to Rn at the same time, or during communication with one copyright protection device R1 to Rn, the other copyright protection devices R1 to R1. When a request from Rn is received, the right to use the IC card 209 is granted only to any one of the copyright protection devices R1 to Rn on a first-come-first-served basis by exclusive control.

  That is, when the IC card access controller 207 receives a request for using the IC card 209 from a certain copyright protection device (assumed to be the copyright protection device Ra), another copyright protection device is using the IC card 209. Otherwise, the right to use the IC card 209 is granted to the copyright protection device Ra. On the other hand, when another copyright protection device (assumed to be the copyright protection device Rb) is using the IC card 209 at the time of use right request from the copyright protection device Ra, the other copyright protection device Rb After releasing the right to use the IC card 209, the right to use the IC card 209 is granted to the copyright protection device Ra. Then, the copyright protection device Ra that has obtained the right to use the IC card 209 transmits the data of the ECM packet to the IC card 209 and acquires the scramble key from the IC card 209. After acquiring the scramble key, the copyright protection device Ra notifies the IC card access controller 203 of the release of the right to use the IC card 209. Thereafter, the IC card access controller 203 grants the right to use the IC card 209 to the copyright protection device waiting for the turn, or when there is no copyright protection device waiting for the turn, the IC card 209 from the copyright protection device. Wait for usage rights request.

  The IC card access controller 207 may be mounted inside the computer 10 or may be mounted outside. The method of selecting the copyright protection devices R1 to Rn that permit communication with the IC card 209 is not limited to the first-come-first-served basis, and other methods may be used. For example, the IC card access controller 207 circulates a transmission right called a token to each copyright protection device R1 to Rn, and the right to use the IC card 209 is only during the period when each copyright protection device R1 to Rn receives the token. May be used.

  Here, the copyright protection devices R1 to Rn have two types of content (12-segment content and 1-segment content), which type of content to be transferred to the copyright protection device controller 203 is different for each type. It is preset for each machine. Such a setting type is hereinafter referred to as a “content transfer type”. That is, the copyright protection apparatus whose content transfer type is set to “12 segments” descrambles the 12-segment scrambled content in the broadcast stream using the scramble key, encrypts it locally, and transfers it to the USB 201. On the other hand, the copyright protection apparatus whose content transfer type is set to “1 segment” local-encrypts one segment of non-scrambled content in the broadcast stream as it is and transfers it to the USB 201.

  Hereinafter, the content transfer type setting process (S400) in which the content transfer type as described above is set for each of the copyright protection devices R1 to Rn will be described with reference to FIGS. This content transfer type setting process is started when the copyright protection device controller 203 transmits a content transfer type setting request to each of the copyright protection devices R1 to Rn. In this process, since the same process is performed in the copyright protection devices R1 to Rn, the following description will be given with a focus on the process of the copyright protection device R1 as a representative, and a duplicate description will be omitted.

  First, the copyright protection device R1 determines the communication band used by the copyright protection device R1 on the USB 201 by auto-negotiation (S402) between the copyright protection device controller 203 and the copyright protection device R1 (S404). .

  Here, since both the copyright protection device controller 203 and the copyright protection device R1 are compatible with the USB 2.0 High Speed mode, in principle, the copyright protection device R1 operates in the High Speed mode. However, for example, the USB cable only supports FullSpeed (transfer maximum rate 12 Mbps), or a USB hub is interposed between the copyright protection device controller 203 and the copyright protection device R1, and the USB hub only supports FullSpeed. If not, the copyright protection device R1 operates in the Full Speed mode by the auto-negotiation. In this case, even if the copyright protection device R1 tries to transfer the content of 12 segments, the communication band is insufficient and cannot be transferred over the USB 201 in real time. Therefore, in such a case (No in S404), the copyright protection apparatus R1 sets its own content transfer type to “1 segment” (S406), and its own content transfer type is “1 segment”. Is notified to the copyright protection apparatus controller 203 (S408), and the process is terminated.

  On the other hand, when the copyright protection device R1 operates in the HighSpeed mode (Yes in S404), the communication band related to content transfer is sufficiently large to enable content transfer of 12 segments. Therefore, in this case, the content transfer type of the copyright protection device R1 is further determined by the following processing for confirming the communication state between the copyright protection device R1 and the IC card 209.

  First, a channel setting request and a content transfer type setting request are transmitted from the copyright protection device controller 203 to all the copyright protection devices R1 to Rn (S412). Here, it is assumed that all channels designated by the copyright protection device controller 203 to the copyright protection devices R1 to Rn are the same.

  When the copyright protection device R1 receives the channel setting request from the copyright protection device controller 203 (S412), the copyright protection device R1 sets the reception channel of the digital tuner C1 to the channel related to the request (S414). The digital tuner C1 receives a broadcast stream corresponding to the set channel and transfers it to the copyright protection device R1. When the copyright protection device R1 detects an ECM packet from the broadcast stream transferred from the digital tuner C1 (S416), the copyright protection device R1 acquires the right to use the IC card 209 from the IC card access controller 207. (S418) and waits for the usage right from the IC card access controller 207 to be granted (S420). When the usage right is granted from the IC card access controller 207, the copyright protection device R1 transmits the data of the ECM packet to the IC card 209, and acquires the scramble key from the IC card 209 (S422). After acquiring the scramble key, the copyright protection device R1 notifies the IC card access controller 207 of the release of the right to use the IC card 209 (S424).

  When accessing the IC card 209 as described above, the copyright protection apparatus R1 determines the time from detection of the ECM packet (S416) to acquisition of the scramble key (S422) (hereinafter referred to as “key acquisition time”). Measuring. Then, the copyright protection device R1 determines that the 12-segment scrambled content can be correctly descrambled if the key acquisition time is equal to or shorter than the predetermined time, and sets the content transfer type of the own device to “12 segment”. (S428). On the other hand, when the key acquisition time exceeds a predetermined time, the copyright protection device R1 determines that the 12-segment scrambled content cannot be correctly descrambled, and sets the content transfer type of the own device to “1 segment”. (S406). Thereafter, the copyright protection device 408 notifies the copyright protection device controller 203 of the set content transfer type (S408). The predetermined time for dividing the setting of the content transfer type is set in advance based on the minimum key acquisition speed necessary for correctly descrambling the 12-segment scrambled content.

  Thereafter, the copyright protection devices R1 to Rn hold the set content transfer type of their own device in an internal nonvolatile memory or the like, and do not receive the content transfer type setting request from the copyright protection device controller 203 again. No changes are made. This is because once the content transfer type is set as described above, it is considered that the copyright protection apparatuses R1 to Rn do not need to change the content transfer type unless conditions such as the device configuration change. .

  For example, the copyright protection devices R1 to Rn need to change the content transfer type when a new copyright protection device R (n + 1) and digital tuner C (n + 1) are additionally connected on the USB 201. Etc. In this case, a content transfer type setting request is transmitted from the copyright protection device controller 203 to the copyright protection devices R1 to R (n + 1), and the content transfer type setting process (S400) as described above is performed again. Thus, the content transfer type of each copyright protection device R1 to R (n + 1) is updated.

  As described above, in the computer 10, the above-described key acquisition time is measured for each of the plurality of copyright protection devices R1 to Rn. Since the copyright protection device whose key acquisition time is the predetermined time or less among the copyright protection devices R1 to Rn is considered to be able to acquire the scramble key normally, the content transfer type is set to “12 segments”. It has a function of descrambling scrambled content of 12 segments, locally encrypting it, and transferring it to a general-purpose bus. Accordingly, 12 segments of high-quality scrambled content can be viewed via such a copyright protection device and digital tuner.

  On the other hand, since it is considered that a copyright protection device whose key acquisition time exceeds a predetermined time cannot normally acquire a scramble key, the content transfer type is set to “1 segment”, and descrambling is not required 1 It has a function of locally encrypting non-scrambled content of a segment and transferring it to a general-purpose bus. Therefore, one segment of non-scrambled content can be viewed through such a copyright protection device and a digital tuner with low image quality.

  As described above, in the computer 10, all the copyright protection devices R1 to Rn are assigned to the copyright protection devices R1 to Rn and the digital tuners C1 to Cn by assigning functions according to the scramble key acquisition capability. In addition, the digital tuners C1 to Cn are effectively used, and the user of the computer 10 can view the broadcast content corresponding to the number of digital tuners.

  Further, since the 12-segment scrambled content has a large amount of data, even if the descrambling is possible by the copyright protection devices R1 to Rn, the copyright protection devices R1 to R1 can be used if sufficient communication bandwidth of the USB 201 cannot be secured. Transfer from Rn to the copyright protection device controller 203 is not possible. Therefore, each copyright protection device R1 to Rn sets its content transfer type to “1” regardless of the key acquisition time when transfer in the High Speed mode is impossible in the above-described process S404. “Seg” is set. Therefore, through such a copyright protection device and a digital tuner, it is possible to view one-segment non-scrambled content that can be transferred in the FullSpeed mode while having low quality image quality.

  In step S412, the copyright protection devices R1 to Rn make channel setting requests for the same channel, so that the copyright protection devices R1 to Rn receive the ECM packet at the same time. Requests for using the IC card 209 from the copyright protection devices R1 to Rn are issued almost simultaneously. As a result, since the key acquisition time in each copyright protection device R1 to Rn becomes the maximum value, the maximum value of the key acquisition time of each copyright protection device R1 to Rn can be measured by this method, and the maximum Whether the descrambling process of each copyright protection device R1 to Rn can be performed based on the value can be determined.

(Second Embodiment)
In the content transfer type setting process S500 by the computer of the second embodiment, as shown in FIG. 5, instead of the “1 segment” setting (S406 of FIG. 4) in the computer 10 of the first embodiment, the content transfer type Is set to “no transfer” (S506). A copyright protection device whose content transfer type is set to “no transfer” (assuming it is assumed to be a copyright protection device Rj) does not transfer content to the copyright protection device controller 203. Since such a copyright protection device Rj does not need to receive a broadcast stream, the connected digital tuner (assumed to be digital tuner Cj) is turned off and stopped (S530). Here, if the copyright protection device Rj has no role other than content transfer, the copyright protection device Rj may further stop by turning off its own power supply (S532).

  According to this computer configuration, power consumption can be suppressed by turning off the power of the copyright protection device and the digital tuner that cannot transfer scrambled content of 12 segments. Note that, in the processing of the computer of the present embodiment, the same or equivalent processing as that of the computer 10 of the first embodiment described above is denoted by the same reference numeral in the drawing, and description thereof is omitted.

  The present invention is not limited to the first and second embodiments described above. For example, in each embodiment, the content transfer type is set and managed in common for each copyright protection device, but may be managed in units of channels. When the content transfer type is managed in units of channels, the copyright protection devices R1 to Rn perform the content of each channel by performing the above-described content transfer type setting process for all channels that can be received by the digital tuners C1 to Cn. Determine and set the transfer type.

  Further, the bus between the copyright protection devices R1 to Rn and the copyright protection device controller 203 is not limited to the USB, and auto-negotiation is performed between the copyright protection devices R1 to Rn and the copyright protection device controller 203. Other buses may be adopted as appropriate as long as the communication band can be determined. In each embodiment, the case where the copyright protection devices R1 to Rn and the digital tuners C1 to Cn are incorporated in the computer 10 has been described as an example. However, the copyright protection devices R1 to Rn and the digital tuners C1 to C1 are described. Cn may be externally installed in the computer 10. The computer configurations in the first and second embodiments may be combined as appropriate.

It is a perspective view showing the appearance of a computer which is one embodiment of an information processor concerning the present invention. It is a block diagram which shows the internal system structure of the computer of FIG. It is a block diagram which shows the internal system structure of the computer of 1st Embodiment. It is a flowchart which shows the content transfer classification setting process by the copyright protection apparatus of FIG. It is a flowchart which shows the content transfer classification setting process by the copyright protection apparatus of 2nd Embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Computer (information processing apparatus) 203 ... Copyright protection apparatus controller (output destination, transfer setting request means), 207 ... IC card access controller (IC card access control means), 209 ... IC card, C1-Cn ... Digital Tuner, R1 to Rn: copyright protection device.

Claims (7)

The television broadcast used in a television broadcast receiving system for receiving a television broadcast including scrambled content that can be descrambled with key information acquired from an IC card and non-scrambled non-scrambled content, and received by a digital tuner Is a copyright protection device that transfers content to an output destination via a general-purpose bus,
Key information acquisition means for requesting the key information from the IC card and acquiring the key information;
A key information acquisition time measuring unit that measures a key information acquisition time from when the key information acquisition unit requests the key information until the key information is acquired;
Content transfer setting means for setting the content transfer based on the length of the key information acquisition time measured by the key information acquisition time measuring means,
The content transfer setting means includes
When the key information acquisition time is a predetermined time or less,
Descramble the scrambled content using the key information acquired from the IC card, perform local encryption and transfer to the general-purpose bus,
When the key information acquisition time exceeds the predetermined time,
A copyright protection device that performs either a setting for local encryption of the non-scrambled content and output to the general-purpose bus, or a process of stopping the digital tuner. The scrambled content is content of higher quality than the non-scrambled content,
The content transfer setting means includes
When it is determined that the reserved communication band is equal to or less than a predetermined value based on the size of the communication band reserved in the general-purpose bus by auto-negotiation with the output destination device, the key information acquisition time is long. Regardless,
The copyright protection apparatus according to claim 1, wherein the non-scrambled content is encrypted and output to a general-purpose bus, or the digital tuner is stopped.   3. The copyright according to claim 1, further comprising own device stop means for performing processing for stopping the own device when the content transfer setting means performs processing for stopping the digital tuner. Protective device. An information processing apparatus for receiving a television broadcast including scrambled content that can be descrambled with key information acquired from an IC card and non-scrambled non-scrambled content,
A digital tuner for receiving the television broadcast;
A copyright protection device that transfers the content of the television broadcast received by the digital tuner to an output destination via a general-purpose bus;
The copyright protection device is:
Key information acquisition means for requesting the key information from the IC card and acquiring the key information;
A key information acquisition time measuring unit that measures a key information acquisition time from when the key information acquisition unit requests the key information until the key information is acquired;
Content transfer setting means for setting the content transfer based on the length of the key information acquisition time measured by the key information acquisition time measuring means,
The content transfer setting means includes
When the key information acquisition time is a predetermined time or less,
Descramble the scrambled content using the key information acquired from the IC card, perform local encryption and transfer to the general-purpose bus,
When the key information acquisition time exceeds the predetermined time,
An information processing apparatus that performs either a local encryption of the non-scrambled content and output to the general-purpose bus or a process of stopping the digital tuner. A plurality of said copyright protection devices;
A plurality of the digital tuners connected to each of the copyright protection devices;
IC card access control means for controlling to permit access to the IC card only one at a time among the copyright protection devices;
Transfer setting request means for causing each copyright protection apparatus to set the content transfer of its own device,
The transfer setting request means includes
Each of the digital tuners corresponding to each copyright protection device is caused to cause each copyright protection device to perform the content transfer setting in a state where the television broadcast of the same channel is received. The information processing apparatus according to claim 4. The scrambled content is content of higher quality than the non-scrambled content,
The content transfer setting means of the copyright protection device includes:
When it is determined that the reserved communication band is equal to or less than a predetermined value based on the size of the communication band reserved in the general-purpose bus by auto-negotiation with the output destination device, the key information acquisition time is long. Regardless,
The information processing apparatus according to claim 4, wherein either the setting for encrypting the non-scrambled content and outputting the encrypted non-scrambled content to a general-purpose bus or the process of stopping the digital tuner is performed. The copyright protection device is:
The information processing apparatus according to any one of claims 4 to 6, further comprising own device stopping means for performing processing for stopping the own device when the content transfer setting device performs processing for stopping the digital tuner. apparatus.

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