JP4799689B1 - Content transmitting apparatus and dubbing control method - Google Patents

Abstract

To prevent key destruction during dubbing.
A content transmission apparatus according to an embodiment includes an encryption unit, a detection unit, a holding unit, and a transmission unit. The encryption unit encrypts the content stored in the storage unit, using a key that is shared between the transmitting and receiving apparatuses and for which a discard condition is set due to time restrictions. The detecting means detects that a specific processing load is generated. The holding unit starts the specific processing load when the detection unit detects that the specific processing load is generated during the dubbing process in which the content encrypted by the encryption unit is transmitted to the receiving device. Before being performed, the content that has not been transmitted to the receiving device during the dubbing process is encrypted by the encryption means and held in the temporary storage means. The transmission unit transmits the content held by the holding unit according to a predetermined transmission condition in which the key is not discarded by the discard condition during execution of the specific processing load.
[Selection] Figure 2

Description

  Embodiments described herein relate generally to a content transmission apparatus and a dubbing control method.

  2. Description of the Related Art Conventionally, in a dubbing system that dubbs (moves or copies) copyright-protected content such as video and music between devices connected via a network, a work called DTCP-IP (Digital Transmission Content Protection Over IP) It is common to use rights protection technology.

  In the dubbing system, a key used for encryption and decryption is shared between transmitting and receiving apparatuses by a procedure called AKE (Authentication And Key Exchange). The key has a discarding condition defined in the DTCP-IP standard, and when the transmitting apparatus does not transmit the content encrypted for two hours in the PCP (Protected Content Packet) format, the receiving apparatus If the key is not used for decryption, the key is destroyed. The transmitting device encrypts the content using the key, and transmits the encrypted content to the receiving device via the network. On the other hand, the receiving device decrypts the encrypted content received via the network using the key, and stores the decrypted content in a predetermined storage unit.

JP 2009-60451 A

  However, in the conventional dubbing system, during the dubbing between the transmitting and receiving apparatuses, at least one of the apparatuses generates a high load process that occupies resources necessary for the dubbing and the dubbing is interrupted. There is a problem that when the key destruction condition is satisfied as time passes, the key destruction occurs and the dubbing fails.

  Therefore, the present invention has been made in view of the above problems, and by controlling so that dubbing is not completely interrupted even during high load processing, it is possible to prevent key destruction during dubbing and The purpose is to prevent failure.

  The content transmission apparatus according to the present embodiment includes an encryption unit, a detection unit, a holding unit, and a transmission unit. The encryption unit encrypts the content stored in the storage unit, using a key that is shared between the transmitting and receiving apparatuses and for which a discard condition is set due to time restrictions. The detecting means detects that a specific processing load is generated. The holding unit starts the specific processing load when the detection unit detects that the specific processing load is generated during the dubbing process in which the content encrypted by the encryption unit is transmitted to the receiving device. Before being performed, the content being dubbed that has not been transmitted to the receiving device is encrypted by the encryption means and held in the temporary storage means. The transmission unit transmits the content held by the holding unit according to a predetermined transmission condition in which the key is not discarded by the discard condition during execution of the specific processing load.

FIG. 1 is a block diagram illustrating a schematic configuration of a dubbing system and a schematic configuration of each apparatus according to the present embodiment. FIG. 2 is a block diagram illustrating a functional configuration of the content transmission apparatus. FIG. 3 is a sequence diagram showing a flow of processing between the content transmission device and the content reception device in the dubbing system. FIG. 4 is a flowchart showing a processing procedure of dubbing processing in the content transmitting apparatus. FIG. 5 is a block diagram illustrating a functional configuration of the content transmission apparatus according to the second embodiment. FIG. 6 is a flowchart illustrating a processing procedure of dubbing processing in the content transmission apparatus according to the second embodiment.

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

(First embodiment)
FIG. 1 is a block diagram showing a schematic configuration of a dubbing system 1 according to the present embodiment and a schematic configuration of each device.

  As shown in FIG. 1, the dubbing system 1 includes a content transmission device 2 and a content reception device 3, which are connected to each other via a communication network 4 so as to communicate with each other.

  The content transmission device 2 holds content to be dubbed to the content reception device 3 connected via the network 4, and encrypts the held content using a key shared between the transmission and reception devices at the time of dubbing. And transmitting the encrypted content. In addition, the content transmission apparatus 2 of this embodiment has shown the case where a television receiver is applied.

  The content receiving device 3 is a receiving device that receives encrypted content from the content transmitting device 2 connected via the network 4, decrypts the received content using the key, and performs dubbing. Note that the content receiving device 3 of the present embodiment shows a case where a recording device such as an HDD (Hard Disk Drive) recorder is applied.

  The network 4 is a network composed of a wired or wireless LAN (Local Area Network), a router, and the like.

  Next, the hardware configuration of each device 2 and 3 will be described.

  As shown in FIG. 1, the content transmission device 2 includes a tuner 5, a signal processing unit 6, a display device 7, a speaker 8, a control unit 9, an operation unit 10, a remote control signal receiving unit 11, an encryption unit. Device 12, storage unit (HDD) 13, buffer 14, communication I / F unit 15, power supply unit 16, and the like.

  The tuner 5 receives content from a broadcasting station via an antenna and outputs the content to the storage unit 13 and the control unit 9.

  The signal processing unit 6 is a selector (not shown) that converts content input via the tuner 5 or the storage unit 13 into a video signal and an audio signal, and performs predetermined image processing on the video signal to output an output image. An image processing unit (not shown) that is created and output to the display device 7, an audio processing unit (not shown) that performs predetermined processing on the audio signal and outputs the processed signal to the speaker 8, etc.

  The display device 7 displays an image and is composed of, for example, a liquid crystal display. The speaker 8 outputs sound.

  The control unit 9 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), a non-volatile memory, and the like, which are not shown in the figure. Control.

  The operation unit 10 has various switches such as a power switch, and accepts user operations. The remote control signal receiving unit 11 receives an operation signal from a remote control (not shown).

  The encryption device 12 encrypts content.

  The storage unit (HDD) 13 stores content received via the tuner 5.

  The buffer 14 temporarily stores the content encrypted by the encryptor 12 (hereinafter sometimes referred to as “encrypted content”).

  The communication I / F unit 15 transmits / receives various data to / from the content receiving device 3 connected via the network 4.

  The power supply unit 16 supplies necessary power to each load unit from a power source such as a commercial power source.

  As shown in FIG. 1, the content receiving device 3 includes a communication I / F unit 31, a control unit 32, a storage unit 33, and the like.

  The communication I / F unit 31 transmits / receives various data to / from the content transmission device 2 connected via the network 4.

  The control unit 32 includes a CPU, a ROM, a RAM, and the like (not shown), and controls the entire content receiving apparatus 3 in an integrated manner.

  The storage unit (HDD) 33 stores content received via the communication I / F unit 31 and the like.

  FIG. 2 is a block diagram illustrating a functional configuration of the content transmission device 2.

  As shown in FIG. 2, the content transmission device 2 includes a user operation control unit 21, a display control unit 22, an audio control unit 23, a recording control unit 24, a dubbing control unit 25, and a resource usage suppression instruction unit 26. Etc.

  The user operation control unit 21 receives a user operation based on an operation signal input from the operation unit 10 or the remote control signal receiving unit 11.

  The display control unit 22 uses the display device 7 to control display of various screens (such as a display screen for content video received via the tuner 5 and a list browsing screen for recorded content).

  The sound control unit 23 controls the output of various sounds using the speaker 8 in synchronization with the screen displayed on the display device 7 by the display control unit 22.

  The recording control unit 24 performs recording control for storing the content received via the tuner 5 in the storage unit 13.

  The dubbing control unit 25 performs dubbing control for transmitting the content for dubbing stored in the storage unit 13 to the content receiving device 3 connected via the network 4.

  Specifically, the dubbing control unit 25 performs the dubbing process without being aware of the resource usage amount when no suppression instruction is received from the resource usage suppression instruction unit 26. On the other hand, when receiving a suppression instruction from the resource usage suppression instruction unit 26, the dubbing control unit 25 suppresses the resource usage until a suppression termination instruction is issued from the resource usage suppression instruction unit 26. I do.

  More specifically, the dubbing control unit 25 transmits the content encrypted according to the normal transmission condition to the content receiving apparatus 3 during the dubbing process, except during the specific load process. Note that the normal transmission condition here is a condition for transmission at the maximum speed that can be processed by the content transmission apparatus (device) 2.

  Also, when receiving a suppression instruction from the resource use suppression instruction unit 26, the dubbing control unit 25 reads the content for dubbing stored in the storage unit 13 and starts encryption before starting a specific processing load. The data is encrypted by the device 12 and temporarily stored in the buffer 14. Then, the dubbing control unit 25 performs a predetermined process in which the key is not discarded by the discard condition every time a predetermined time when the key is not discarded by the discard condition during the specific processing load. The content is transmitted to the content receiving device 3 at a minimum speed according to the DTCP-IP standard.

  The discard condition here is a discard condition defined in the DTCP-IP standard. When the transmitting apparatus does not transmit the content encrypted for two hours in the PCP (Protected Content Packet) format. Condition (1) for discarding the key, and condition (2) for discarding the key when the receiving apparatus does not use the key for 2-hour decryption.

  The resource use suppression instruction unit 26 performs dubbing control when it is determined that resources (encryptor 12 or the like) cannot be allocated to the dubbing process during dubbing due to the occurrence of a specific processing load (high load) such as the start of reserved recording. A suppression start instruction is output to the unit 25. After that, when a resource can be allocated to the dubbing process, a suppression end instruction is output to the dubbing control unit 25.

  Specifically, the resource use suppression support unit 26 performs a specific operation during the dubbing process of the dubbing control unit 25 (that is, during transmission of encrypted content from the content transmission device 2 to the content reception device 3). It detects the occurrence of processing load (high load).

  The occurrence of a specific processing load here refers to a resource (encryptor 12 or the like) used in dubbing processing by dubbing processing having higher processing priority (for example, recording processing) during dubbing. ) Cannot be used.

  The functional configuration shown in FIG. 2 is realized by the CPU (not shown) of the control unit 9 developing a processing program stored in the ROM (not shown) on the RAM (not shown) and executing it. It is what is done.

  Next, various processing operations in the dubbing system 1 having the above-described configuration will be described.

  FIG. 3 is a sequence diagram showing a flow of processing between the content transmission device 2 and the content reception device 3 in the dubbing system 1. In particular, in the example of FIG. 3, a specific processing load occurs during the dubbing processing. This shows the flow of processing when

  As shown in FIG. 3, in this sequence, when a dubbing instruction is received from the user via the operation unit 10 or the remote control signal receiving unit 11, first, an initial dubbing is performed between the content transmitting device 2 and the content receiving device 3. The process is executed (step S1), and the dubbing process is started.

  Subsequently, the content transmission device 2 transmits the content encrypted according to the normal transmission condition to the content reception device 3 (step S2). Specifically, in step S2, the content transmission device 2 transmits, for example, at the maximum speed that can be processed by the device.

  After that, when a specific processing load (high load) that may interrupt the dubbing process is detected in the content transmitting apparatus 2 (step S3), the content transmitting apparatus 2 has a specific processing load (high load). Before the processing is started, among the contents stored in the storage unit 13, a sufficient amount of content to be controlled so as not to cause key destruction during a specific processing load is encrypted and temporarily stored in the buffer 14. (Step S4).

  Subsequently, the content transmission apparatus 2 transmits the encrypted content stored in the buffer 14 to the content reception apparatus 3 according to a predetermined transmission condition during a specific processing load (high load) such as a recording process. (Step S5). Specifically, in step S5, the content transmitting apparatus 2 determines that the encrypted content stored in the buffer 14 is not discarded due to the discard condition every time a predetermined time elapses when the key is not discarded due to the discard condition. The amount is transmitted in increments (step S7).

  Thereafter, when the execution of the specific processing load (high load) is finished, the content transmission device 2 transmits all the remaining encrypted content remaining in the buffer 14 to the content reception device 3 (step S6), After the transmission is completed, the content transmission device 2 transmits the untransmitted content that has not been transmitted yet in the dubbing process among the content stored in the storage unit 13 under the normal transmission conditions similar to step S2. Send to.

  Thereafter, after all the content has been transmitted, a dubbing end process is executed between the content transmitting apparatus 2 and the content receiving apparatus 3 (step S8), and the dubbing process is ended.

  FIG. 4 is a flowchart showing a processing procedure of the dubbing process in the content transmitting apparatus 2, and particularly shows details of processing steps S3 to S5 of the content transmitting apparatus 2 shown in FIG.

  As shown in FIG. 4, in the content transmission device 2, when receiving a dubbing instruction from the user via the operation unit 10 or the remote control signal receiving unit 11, the dubbing control unit 25 executes dubbing initial processing (step S11). Specifically, in the process of step S11, the dubbing control unit 25 executes a dubbing start procedure process, a key sharing process between transmission / reception apparatuses by AKE, and the like.

  Subsequently, if the dubbing control unit 25 does not receive a suppression start instruction from the resource use suppression instruction unit 26 during the dubbing process, the dubbing control unit 25 stores the content (for example, 1 or 1) stored in the storage unit 13 and designated by the current dubbing. Steps S12 to S15 are repeated until all of the contents of a plurality of moving image files are transmitted.

  Specifically, in step S12, the resource use suppression instruction unit 26 monitors the load state of the content transmission apparatus 2, and as a result of the monitoring, a specific process that makes it impossible to allocate resources to the dubbing process during the dubbing process Whether or not a load is generated is monitored, and as a result of the monitoring, when a specific processing load is not generated and the dubbing control unit 25 does not receive a suppression start instruction (step S12: No) Subsequently, in step S13, the dubbing control unit 25 reads content for the normal transmission size (usually about 1 Mbyte in the size of the buffer 14) from the storage unit 13 in accordance with normal transmission conditions (transmission at the maximum speed). Thereafter, in step S14, the dubbing control unit 25 encrypts the content read in step S13 using the encryptor 12.

  In step S15, the dubbing control unit 25 transmits the content encrypted in step S13 to the content receiving device 3 in the PCP (Protected Content Packet) format.

  When all the contents have been transmitted, the dubbing control unit 25 executes dubbing end processing (step S16). Specifically, in the process of step S16, a dubbing end procedure or the like is executed.

  On the other hand, if the dubbing control unit 25 receives a suppression start instruction in step S12 (step S12: Yes), then the dubbing control unit 25 determines whether the number of transmissions reaches a predetermined maximum transmission number or Steps S17 to S19 are repeatedly executed until all transmissions are completed.

  The maximum number of transmissions used here is the number of times the encrypted content data is transmitted in order to avoid the destruction of the key without using the key. The number of times to be set. For example, if the time for which the use of resources is suppressed is 24 hours at the maximum, and the encrypted content is transmitted every hour and 50 minutes, “14 times” is set.

  Specifically, in step S17, the dubbing control unit 25, when the content receiving apparatus 3 receives the encrypted content, the minimum size that can be decrypted (for example, 16 bytes for AES) (hereinafter, this minimum The size may be referred to as “encrypted minimum size.”) Content is read from the storage unit 13, and in step S18, the dubbing control unit 25 encrypts the content read in step S17 using the encryptor 12. Turn into.

  In step S19, the dubbing control unit 25 stores the content encrypted in step S18 in the buffer 14.

  Then, when the number of transmissions reaches the predetermined maximum number of transmissions or when all the content transmissions are completed, the dubbing control unit 25 notifies the resource use suppression instruction unit 26 that the preparation for suppression has been completed (step S20). Thereafter, the dubbing control unit 25 sets the next transmission time (step S21).

  Here, the next transmission time is a time at which encrypted data is transmitted next in order to avoid discarding the key without using the key. Specifically, it is set after a sufficient time (for example, 1 hour and 50 minutes) with respect to 2 hours, which is the time from the last transmission time until the key destruction is performed.

  Subsequently, the dubbing control unit 25 does not receive the suppression end instruction from the resource use suppression instruction unit 26 (step S22: No), and every time the next transmission time is reached (step S23: Yes), step S24 to step S26. Repeat the process.

  Specifically, in step S24, the dubbing control unit 25 reads the encrypted content corresponding to the minimum encryption size from the buffer 14, and in step S25, the dubbing control unit 25 reads the content read in step S24. Is transmitted to the content receiver 3. Thereafter, in step S26, the dubbing control unit 25 sets the next transmission time.

  On the other hand, when the dubbing control unit 25 receives the suppression end instruction from the resource use suppression instruction unit 26 in the determination in step S22 (step S22: Yes), the dubbing control unit 25 remains from the buffer 14 in step S27. Are read out and transmitted to the content receiver 3. Then, the process proceeds to steps S12 to S15.

  According to the first embodiment described above, dubbing is performed during a dubbing process in which content encrypted using a key that is shared between transmitting and receiving devices and whose discard conditions are set due to time restrictions is transmitted to the content receiving device. Even if a specific processing load (high load) occurs, such as a processing load at which resources used in processing cannot be used or a processing load with higher processing priority than dubbing processing, dubbing may be completely interrupted Therefore, it is possible to prevent the key from being destroyed, and thus dubbing can be normally completed to the end.

(Second Embodiment)
Next, a content transmission apparatus 2A according to the second embodiment will be described with reference to FIGS.

  FIG. 5 is a block diagram illustrating a functional configuration of the content transmission device 2A according to the second embodiment.

  As illustrated in FIG. 5, the content transmission device 2 </ b> A according to the second embodiment has a configuration in which a resource usage status management unit 27 is added to the functional configuration according to the first embodiment.

  That is, the resource usage status management unit 27 determines whether or not a resource used in the dubbing process is available during execution of a specific processing load.

  FIG. 6 is a flowchart showing the processing procedure of the dubbing process in the content transmitting apparatus 2A of the second embodiment.

  In the processing procedure of FIG. 6, the processing of step S28 to step S31 is inserted between step S22 to step S27 of the processing procedure of FIG. 4, and the other processing is the same as the processing of FIG. Since it is the same process, the description of the same process is omitted below.

  That is, in the processing procedure of FIG. 6, in the second content transmitting apparatus 2A, in step S28, the resource usage status management unit 27 can use the resources (encryptor 12 and the like) used in the dubbing process. If it is determined as a result of this determination that it can be used (step S28: Yes), then, in step S29, the dubbing control unit 25 sends an empty buffer 14 from the storage unit 13. Read content for capacity.

  Thereafter, the process proceeds to step S22, and the same processing is performed thereafter.

  That is, according to the second embodiment described above, even if a resource used for the dubbing process (such as the encryptor 12) can be used even in a specific processing load, the resource can be used. Thus, it is possible to shorten the entire processing time of the dubbing process when a specific processing load occurs.

  As mentioned above, although demonstrated based on exemplary embodiment, this embodiment is not limited by above-described embodiment.

  For example, in the above-described embodiment, the content transmission apparatus 1 has been described as detecting a high load in the content transmission apparatus 1 as a load that may cause dubbing to be interrupted. For example, the traffic load on the network 4 or the load on the content receiving device 3 may be detected.

  In the embodiment described above, the case has been described in which “1 hour 50 minutes” is set as the predetermined time during which the key is not discarded due to the discard condition, and “16 bytes” is set as the predetermined amount at which the key is not discarded due to the discard condition. However, the present invention is not limited to this, and other values can be set.

  Further, the program executed by the content transmission apparatus 2 of the above-described embodiment is a computer-readable storage in a file that can be installed or executed in addition to being installed in the content transmission apparatus 2 in advance. It may be provided by being stored in a medium, or may be provided or distributed via a network such as the Internet.

  Further, in the above-described embodiment, the television receiver is described as an example of the content transmission device 2. However, the content transmission device 2 is not limited to this, and may be a recording / playback device such as an HDD recorder. It is also possible to provide a device that does not have a recording function and includes a storage unit that holds content received from other devices.

  In the above-described embodiment, the recording apparatus such as the HDD recorder has been described as an example of the content receiving apparatus. However, the present invention is not limited to this, and other apparatuses such as a DVD recorder, a personal computer, and a server apparatus are used. It is also possible.

  In addition, the system, the hardware configuration and the functional configuration of each device, the content type, the processing procedure, and the like in the above-described embodiment are described as examples only, and the present embodiment is not limited thereto.

DESCRIPTION OF SYMBOLS 1 Dubbing system 2 Content transmission apparatus 3 Content reception apparatus 4 Network 12 Encryptor (encryption means)
13 Storage unit (storage means)
14 Buffer (temporary storage means)
25 Dubbing control unit (encryption means, holding means, transmission means)
26 Resource usage suppression instruction section (detection means)
27 Resource usage management unit (determination means)

Claims (9)

An encryption means for encrypting the content stored in the storage means, using a key that is shared between the transmission and reception devices and for which a discard condition is set due to a time limit;
Detection means for detecting that a specific processing load occurs;
If the detection unit detects that the specific processing load is generated during the dubbing process in which the content encrypted by the encryption unit is transmitted to the receiving device, before the specific processing load is started A holding unit that encrypts the content during the dubbing process that has not been transmitted to the receiving device by the encryption unit and holds the content in the temporary storage unit;
Transmitting means for transmitting the content held by the holding means according to a specific transmission condition in which the key is not destroyed by the destruction condition during execution of the specific processing load;
A content transmitting apparatus having:   The transmission means, during execution of the specific processing load, the content held by the holding means every predetermined time when the key is not destroyed by the discard condition, a predetermined amount by which the key is not destroyed by the discard condition The content transmission apparatus according to claim 1, wherein the content transmission apparatus transmits the data one by one. Determining means for determining whether or not a resource used in the dubbing process is available during execution of the specific processing load;
Further comprising
When the determination unit determines that the resource is usable, the holding unit stores the untransmitted content stored in the storage unit during the execution of the specific processing load. The content transmitting apparatus according to claim 1, wherein the content transmitting apparatus encrypts and stores the encrypted data in the temporary storage unit.   The content transmission apparatus according to any one of claims 1 to 3, wherein the detection unit detects an occurrence of a load in which a resource used in the dubbing process cannot be used as the occurrence of the specific processing load.   The content transmission apparatus according to claim 1, wherein the detection unit detects occurrence of a process having a higher processing priority than the dubbing process as the occurrence of the specific processing load.   The transmission unit transmits the content encrypted by the encryption unit at the maximum speed according to the DTCP-IP standard before the execution of the specific processing load during the dubbing process. The content transmission device according to any one of the above.   When the execution of the specific processing load is completed, the transmission unit transmits all the remaining contents held in the temporary storage unit, and after the transmission, the untransmitted content stored in the storage unit The content transmission device according to claim 6, wherein the content is encrypted by the encryption unit and transmitted at the maximum speed.   The content transmission device according to claim 6 or 7, wherein the key is a key shared between the transmission / reception devices by a predetermined procedure of the DTCP-IP. An encryption step for encrypting the content stored in the storage means, using a key that is shared between the transmission and reception devices and for which a discard condition is set due to a time limit;
A detection step for detecting the occurrence of a specific processing load;
When it is detected that the specific processing load occurs during the dubbing process for transmitting the encrypted content to the receiving device, the encrypted content is not transmitted to the receiving device before the specific processing load is started. A holding step of encrypting the content being dubbed by the encryption means and holding it in a temporary storage means;
A transmission step of transmitting the content held by the holding step according to a specific transmission condition in which the key is not destroyed by the destruction condition during execution of the specific processing load;
Dubbing control method.

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