JP2004349970A - Bridge circuit, image/audio stream recording and reproducing device, and digital broadcast receiver integrated with pvr - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To encipher/decipher video/audio stream data when necessary and transfer the data at a high speed to record and reproduce it. <P>SOLUTION: A bridge circuit 130 is provided separately from a transfer route of control information, and the bridge circuit 130 has a HOST-I/F 131A and a PVR-IF 131B directly connected to a HOST-CPU on the digital broadcast receiver side and a PVR-CPU on the image/audio stream recording and reproducing device side respectively and preserves data from the HOST-CPU and the PVR-CPU in a HOST write FIFO 132A and a PVR write FIFO 132B respectively to read out the data to FIFOs and controls a PVR selector 134B and a HOST selector 134A by an encryption control signal 31 to output read data 32A and 32B or data 35A and 35B enciphered/deciphered by an encryption processing module 140 to a PVR read FIFO 133B and a HOST read FIFO 133A by switching and performs burst transfer to the PVR-CPU and the HOST-CPU. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a bridge circuit, a video / audio stream recording / reproducing device, and a PVR-integrated digital broadcast receiver, and more particularly to a digital broadcast receiver for receiving a digital broadcast signal and a video / audio device having a PVR (Personal Video Recorder) function. The present invention relates to a method for connecting a stream recording / reproducing device.
[0002]
[Prior art]
In recent years, with the spread of digital broadcasting, commercialization of digital broadcasting receivers and related devices has been progressing.
In particular, by providing a digital broadcast receiver with a large-capacity recording device (storage device), such as a hard disk, as one of related devices, the recording device can store digital video / audio stream data in the form of digital signals. A digital broadcast receiver integrated with a PVR device equipped with a PVR (Personal Video Recorder) function capable of recording and reproducing together with data management information for managing audio stream data has been proposed, and various application products have appeared on the market. Have been.
[0003]
FIG. 6 shows a circuit block configuration of a conventional digital broadcast receiver integrated with a PVR device.
A digital broadcast receiver 110s that receives a digital broadcast signal includes a HOST-CPU 111s that performs main control, while a PVR device 120s that includes a large-capacity recording device such as a hard disk and performs recording and reproduction of video / audio stream data includes: A PVR-CPU 121s for controlling the operation of the PVR device is provided.
[0004]
The HOST-CPU 111 s has a HOST memory 112 s, and the PVR-CPU 121 s has a PVR memory 122 s. The control programs stored in the respective memories are sequentially read out by the memory signals 12 s and 22 s, whereby each control is performed. The HOST-CPU 111 s operates the respective circuit units of the digital broadcast receiver 110 s using the HOST control signal 11 s, and the PVR-CPU 121 s operates the respective circuit units of the PVR device 120 s using the PVR control signal 21 s in accordance with the application program. Are controlled individually. Further, the HOST-CPU 111s and the PVR-CPU 121s can transmit and receive control information regarding the recording / reproducing operation of video / audio stream data using the PVR control data 16s and the HOST control data 26s via the network bus 36. The PVR-CPU 121s operates as a SUB-CPU for sub-control that operates based on the control from the HOST-CPU 111s, and controls the operation of each circuit unit of the PVR device 120s.
[0005]
First, the recording operation of the video / audio stream data of the digital broadcast signal received by the digital broadcast receiver 110s shown in FIG. 6 will be described.
The digital tuner 113s selects and extracts a digital tuner signal 13s (digital video / audio stream signal, generally, an MPEG2 transport stream) from the antenna reception signal 1 and outputs the same to the demux 114s. The demux 114s converts the digital tuner signal 13s into a recording stream 15s in a signal format suitable for recording on the recording device 124s of the PVR device 120s, and outputs the same to the HOST network I / F 116s. The HOST network I / F 116s communicates with the PVR network I / F 126s on the PVR device 120s side, and transfers the video / audio stream data constituting the recording stream 15s via the network bus 36 to the HOST of the digital broadcast receiving device 110s. The data is transferred from the network I / F 116s to the PVR network I / F 126s of the PVR device 120s.
[0006]
The PVR network I / F 126s transfers the video / audio stream data transferred from the HOST network I / F 116s to the PVR-CPU 121s as PVR stream data 26sa in accordance with the control of the PVR-CPU 121s by the HOST control data 26s. The CPU 121s stores the transferred PVR stream data 26sa as a recording / playback stream 25s in the buffer memory 125s.
The video / audio stream data stored in the buffer memory 125s as the recording / reproducing stream 25s is recorded as recording / reproducing data 24s in the recording device 124s.
[0007]
Next, the operation of reproducing the video / audio stream data recorded in the recording device 124s of the PVR device 120s shown in FIG. 6 will be described.
Under the control of the PVR-CPU 121s, the video / audio stream data stored in the recording device 124s is read as the recording / reproducing data 24s, temporarily stored in the buffer memory 125s, and then read as the recording / reproducing stream 25s by the PVR-CPU 121s. The data is further transmitted from the PVR-CPU 121s to the PVR network I / F 126s as PVR stream data 26sa. The PVR network I / F 126s communicates with the HOST network I / F 116s on the digital broadcast receiver 110s side, and transfers the video / audio stream data transferred to the HOST network I / F 116s as the PVR stream data 26sa to the network bus 36. Then, the data is transferred to the HOST network I / F 116s of the digital broadcast receiver 110s.
[0008]
The HOST network I / F 116s transfers the transferred video / audio stream data to the demux 114s as the reproduction stream 15sa based on the control of the PVR control data 16s by the HOST-CPU 111s. The demax 114s converts the transferred reproduction stream 15sa into an audio / video stream packet (AVPES: Audio / Video Packetized Elementary Stream) conforming to the MPEG2 standard, and sends it to the decoder 117s. The decoder 117s obtains the output video 2 by decoding the AVPES 14s according to the MPEG2 standard.
[0009]
The recording / reproducing operation of the video / audio stream data as described above is performed by the HOST-CPU 111s, which controls the main control of the digital broadcast receiver 110s, controlling the HOST network I / F 116s with the PVR control data 16s, and the HOST network I / F 116s. / F 116s and the PVR network I / F 126s, the control information regarding the recording / reproducing operation is transferred to the PVR-CPU 121s on the side of the PVR device 120s as the HOST control data 26s via the network bus 36. This is realized by controlling the PVR-CPU 121 s serving as the SUB-CPU of the slave control unit.
[0010]
Similarly to the recording / reproducing operation, the time shift function, which is one of the features of the PVR function, also has a video / audio stream data recording operation and a reproducing operation under the control of the PVR-CPU 121s which operates according to the control of the HOST-CPU 111s. This is realized by performing the operations simultaneously.
[0011]
On the other hand, when a recording / reproducing function of video / audio stream data is realized by using a digital recording device such as a hard disk drive (HDD) as the recording device 124s as in the PVR device 120s described above, the recording device 124s Is recorded as digital content (digital audio and / or video) that can be easily copied without falsification or quality deterioration. Etc. becomes a problem. For this reason, when recording digital content in the recording device 124s, the digital content to be recorded, that is, video / audio stream data is subjected to encryption processing by using an encryption algorithm having a sufficient encryption strength, and decryption from outside is performed. It is necessary to make it difficult.
[0012]
Further, as a conventional example related to a transfer technique of video / audio stream data received by a digital broadcast receiver, for example, Japanese Patent Application Laid-Open No. 2001-86481, entitled “Packet Separation Device, Digital Signal Transfer System, Encryption” Apparatus, Media, and Information Aggregation ". In the technique described in Patent Document 1, in order to prevent unauthorized copying, encryption processing is performed on an MPEG2 transport stream, that is, video / audio stream data received by a digital tuner using an encryption unit. After that, the transfer is realized via a PCI (Peripheral Component Interconnect Bus), but there is no mention of the video / audio stream data recording / reproducing device, that is, the PVR device as described above.
[0013]
However, if a PVR device is added to the digital signal transfer system described in Patent Document 1 to constitute a PVR-integrated digital broadcast receiver, the network bus 36 shown in FIG. It can be regarded as corresponding to a PCI bus in the digital signal transfer system described in Patent Document 1.
[0014]
With the advance of computer technology in recent years, cryptanalysis technology has also made great progress, and the amount of arithmetic processing required for encryption processing to secure sufficient encryption strength has also increased significantly year by year. Thus, if the CPU attempts to perform software-based encryption processing, the load on the CPU becomes extremely large, and as a result, the use of a network bus that can be used to transfer digital contents, that is, video / audio stream data. As a result, the efficiency is greatly reduced, and there is a possibility that the recording / reproducing process of the video / audio stream data may be hindered. Therefore, it is essential to perform the encryption processing by hardware.
[0015]
[Patent Document 1]
JP 2001-86481 A (pages 9-11)
[0016]
[Problems to be solved by the invention]
As described above, the conventional PVR-integrated digital broadcast receiver has the following problems.
First, the digital broadcast receiver side and the PVR apparatus side transfer video / audio stream data via their respective network I / Fs and network buses, and the HOST-CPU, which performs the main control, Transmission and reception of control data for controlling the subordinate PVR-CPU are also performed via the respective network I / Fs and network buses which are the same transfer means as the transfer of the video / audio stream data. For this reason, if the data transfer capacity between the network I / Fs is not sufficient, the bandwidth of the network bus required for transferring the video / audio stream data cannot be secured, and the recording / reproducing processing of the video / audio stream data is hindered. There is a risk of coming.
[0017]
Second, since there is no dedicated cryptographic processing module for hardware control for performing the encryption and decryption processing, the encryption and decryption processing relating to video / audio stream data is realized using software. There must be. Either the HOST-CPU on the digital broadcast receiver side or the PVR-CPU on the PVR apparatus side performs encryption and decryption processing by software to realize an encryption processing having a sufficient encryption strength. As a result, the load on the CPU becomes extremely large, and as in the first problem, the recording / reproducing process of the video / audio stream data may be hindered. Also, even if encrypted video / audio stream data is generated by installing a hardware module for encryption / decryption processing, the data transfer path between the digital broadcast receiver side and the PVR apparatus side may be reduced. The first problem cannot be solved as long as the encrypted video / audio stream data is transferred via the network I / F having a limited transfer capability as described above.
[0018]
The present invention has been made in view of such circumstances, and has been made in consideration of the data bus of the HOST-CPU of the digital broadcast receiver for transferring the video / audio stream data and the data of the PVR-CPU of the video / audio stream recording / reproducing apparatus. Control of connection switching between FIFO (First-In First-Out) buffers connected to the bus enables a high-speed data transfer function of video / audio stream data, and performs encryption or decryption processing by hardware processing. The purpose of the present invention is to realize a bridge circuit which has a built-in or externally connected processing module, and which can quickly switch and control the path to the encryption processing module according to the presence or absence of a request for encryption or decryption processing of video / audio stream data. And digitally record and reproduce video and audio stream data. A video / audio stream recording / reproducing device incorporating a bridge circuit as described above is realized as a recording / reproducing device having a PVR function, and further a PVR integrated with the video / audio stream recording / reproducing device and a digital broadcast receiver. It is intended to realize a body type digital broadcast receiver.
[0019]
That is, the bridge circuit according to the present invention comprises a data bus of a main control HOST-CPU for transferring a video / audio stream data and a video / audio stream recording / reproducing device independently of transfer of control information. Each of the data buses of the slave SUB-CPU, ie, the PVR-CPU, can be connected via a high-speed buffer, and can be connected to a cryptographic processing module realized by hardware as required. An object of the present invention is to realize a high-speed transfer of video / audio stream data that has been subjected to encryption or decryption processing as necessary by providing a selector, ie, a switching mechanism that does not pass through. Furthermore, by incorporating a cryptographic processing module realized by hardware in the bridge circuit, it is possible to realize higher-speed transfer of encrypted or decrypted video / audio stream data and to reduce costs by reducing hardware resources. The purpose is to achieve.
[0020]
Further, the video / audio stream recording / reproducing apparatus according to the present invention provides a video / audio stream recording / reproducing apparatus having a bridge circuit as described above as a recording / reproducing apparatus having a PVR function of digital recording / reproducing. It is an object of the present invention to transfer video / audio stream data at high speed while performing or decrypting, or without performing encryption or decryption. Further, it is another object of the present invention to provide an inexpensive video / audio stream recording / reproducing apparatus by providing a bridge circuit including an encryption processing module as the bridge circuit.
[0021]
Also, the PVR-integrated digital broadcast receiver according to the present invention is configured by integrating the video / audio stream recording / reproducing apparatus as described above with the digital broadcast receiver, and the video / audio received by the digital broadcast receiver. By directly connecting a data bus for recording and reproducing stream data to the above-described bridge circuit, high-speed transfer of video and audio stream data for recording and reproduction is realized, and recording and reproduction of video and audio streams with the digital broadcast receiver side. It is possible to transfer various control signals for recording / reproduction transmitted / received to / from the device side independently of the transfer path of the video / audio stream data, and the main control HOST-CPU of the digital broadcast receiver and SUB-CPU for sub-control of the video / audio stream recording / reproducing apparatus, that is, controlling the PVR function for digital recording / reproducing. Aims to improve the response of the control of the VR-CPU.
[0022]
[Means for Solving the Problems]
The first technical means is a bridge circuit that connects a plurality of CPUs that process data to be transferred to each other. The bridge circuit converts data input / output to / from a HOST-CPU that performs main control. A SUB-I / F that provides an interface for inputting and outputting to and from the CPU, and buffering output data for the HOST-CPU output from the SUB-CPU via the SUB-I / F A SUB write FIFO for reading out to a FIFO (First-In First-Out) and a buffer for input data to the SUB-CPU input from the HOST-CPU and reading out the data to the FIFO to read out the SUB-I / F. And a SUB read FIFO for sending data to and from the SUB-CPU. A HOST-I / F that provides an interface for inputting and outputting data to and from the HOST-CPU, and output data to the SUB-CPU output from the HOST-CPU via the HOST-I / F And a HOST write FIFO for buffering and reading out the data to the FIFO, and buffering input data to the HOST-CPU input from the SUB-CPU and reading out the data to the FIFO, and sending out the data via the HOST-I / F. A HOST read FIFO, and further sends data read from the SUB write FIFO and the HOST write FIFO to a cryptographic processing module for encrypting or decrypting, and encrypting or decrypting data from the cryptographic processing module. Provides an interface to receive decrypted data The data read from the HOST write FIFO and the data read from the HOST write FIFO are encrypted or decrypted, and the data received from the cryptographic module I / F and the data read from the HOST write FIFO are read out. A SUB selector that selects which of the data to be input to the SUB read FIFO based on the selection information, and data read from the SUB write FIFO is encrypted or decrypted, and the encrypted processing module I / F And a HOST selector for selecting, based on selection information, which of the data received from the HOST and the data read from the SUB write FIFO is to be input to the HOST read FIFO. It is assumed that.
[0023]
A second technical means is the bridge circuit according to the first technical means, wherein the selection information for the SUB selector and the HOST selector is the SUB-CPU for sub-control or the HOST for main control. A bridge circuit that controls the SUB selector and the HOST selector by being input from one of the CPUs via the SUB-I / F or the HOST-I / F. is there.
[0024]
A third technical means is the bridge circuit according to the first or second technical means, wherein the cryptographic processing module for encrypting or decrypting input / output data to be input / output is built in the bridge circuit. And a bridge circuit configured as described above.
[0025]
The fourth technical means is a PVR (Personal Video Recorder) format video / audio stream recording / reproducing apparatus capable of recording / reproducing video / audio stream data transferred from an external device including a digital broadcast receiver. The bridge circuit according to the first or second technical means, and the SUB-CPU described in the bridge circuit according to the first or second technical means as a PVR-CPU, A PVR memory for storing a control program for controlling the operation of the PVR-CPU, and an interface for inputting and outputting control information for instructing a recording / reproducing operation for the video / audio stream recording / reproducing device with the external device Network I / F providing video and audio stream recording / reproducing device A recording device for recording and reproducing the output video / audio stream data together with data management information for managing the video / audio stream data, wherein the recording device is provided in the external device, and the first or second technical means is provided. Is connected to the HOST-CPU described in the bridge circuit described above in the bridge circuit, based on the control signal of the recording / reproducing operation received by the PVR network I / F. , Via the bridge circuit, between the digital broadcast receiver and the video and audio stream data to be recorded and reproduced, the SUB selector and the HOST selector are selected and switched according to the selection information, encryption or A video / audio stream that can be transmitted and received without decryption or without encryption or decryption. It is characterized in that it is a raw device.
[0026]
A fifth technical means is the video / audio stream recording / playback apparatus according to the fourth technical means, and encrypts or decrypts input / output data input / output to / from the video / audio stream recording / playback apparatus. The cryptographic processing module is a video / audio stream recording / reproducing apparatus built in the video / audio stream recording / reproducing apparatus.
[0027]
A sixth technical means is a PVR (Personal Video Recorder) format video / audio stream recording / reproducing device capable of recording / reproducing video / audio stream data transferred from an external device including a digital broadcast receiver. , The bridge circuit described in the third technical means, and the SUB-CPU described in the bridge circuit described in the third technical means is provided as a PVR-CPU, and further, the operation of the PVR-CPU PVR network for providing a PVR memory for storing a control program for controlling the video and audio stream, and an interface for inputting and outputting control information for instructing a recording / reproducing operation for the video / audio stream recording / reproducing device with the external device / F and video input / output to / from the video / audio stream recording / reproducing device. A recording device for recording and reproducing the audio stream data together with data management information for managing the video / audio stream data, wherein the recording device is provided in the external device, and is described in the bridge circuit according to the third technical means. By mutually connecting the HOST-CPU via the bridge circuit, based on the control signal of the recording / reproducing operation received by the PVR network I / F, via the bridge circuit, Video / audio stream data to be recorded / reproduced between the digital broadcast receiver and the SUB selector and the HOST selector are selected and switched according to the selection information, and are encrypted or decrypted or encrypted. Video / audio stream recording / reproducing device that can transmit and receive data without decoding or decoding. Is what you do.
[0028]
A seventh technical means is the video / audio stream recording / reproducing apparatus according to any one of the fourth to sixth technical means, wherein the bridge circuit according to any one of the first to third technical means is provided. With respect to the selection information for the SUB selector and the HOST selector described in (1), the PVR-CPU, which is the SUB-CPU connected to the bridge circuit, is input / output by an instruction from a user or input / output Encryption or decryption information included in the data management information for managing the video / audio stream data, or included in the control information regarding recording / reproduction operations received by the PVR network I / F. Recording / reproduction of a video / audio stream for generating the selection information based on encryption or decryption information and inputting the selection information to the bridge circuit It is characterized in that a location.
[0029]
Eighth technical means incorporates a PVR (Personal Video Recorder) format video / audio stream recording / reproducing apparatus which receives video / audio stream data from a digital broadcast signal and records / reproduces the video / audio stream data. A PVR-integrated digital broadcast receiver, comprising the video / audio stream recording / reproducing device according to any of the fourth to seventh technical means as the built-in video / audio stream recording / reproducing device, further comprising: A digital tuner for selecting and receiving a broadcast signal, a HOST buffer for buffering video / audio stream data transmitted / received to / from the built-in video / audio stream recording / reproducing apparatus, and a HOST buffer mounted in the video / audio stream recording / reproducing apparatus. Data is input to and from the bridge circuit. A HOST-CPU for controlling the PVR-integrated digital broadcast receiver, a HOST memory for storing a control program for controlling the operation of the HOST-CPU, and the video / audio stream recording / reproduction. A HOST network I / F for providing an interface for inputting / outputting control information for instructing a recording / reproducing operation for the apparatus, and video / audio stream data from the digital tuner or the HOST buffer from the video / audio stream recording / reproducing apparatus And a decoder for reproducing video / audio stream data received through the HOST-CPU and the video / audio stream recording / reproducing device. , Transmission and reception by the HOST network I / F The video / audio stream data to be recorded / reproduced between the HOST buffer and the video / audio stream recording / reproducing device is transmitted to the SUB via the bridge circuit based on the control signal of the recording / reproducing operation to be performed. A PVR-integrated digital broadcast receiver capable of transmitting and receiving without selecting or switching the selector and the HOST selector according to the selection information, encrypting or decrypting, or encrypting or decrypting. It is a feature.
[0030]
A ninth technical means is the PVR-integrated digital broadcast receiver according to the eighth technical means, wherein the bridge circuit is provided instead of being mounted in the video / audio stream recording / reproducing apparatus. A PVR integrated digital broadcast receiver mounted on the digital broadcast receiver side of the integrated digital broadcast receiver is characterized.
[0031]
A tenth technical means is the PVR-integrated digital broadcast receiver according to the eighth or ninth technical means, wherein the digital broadcast receiver of the PVR-integrated digital broadcast receiver and the video / audio stream recording When the encryption module for encrypting or decrypting video / audio stream data input / output via the bridge circuit between the video / audio stream and the playback device is not built in the video / audio stream recording / playback device, The digital broadcast receiver is a PVR-integrated digital broadcast receiver built in the digital broadcast receiver.
[0032]
An eleventh technical means is the PVR-integrated digital broadcast receiver according to any of the eighth to tenth technical means, wherein the selection information for the SUB selector and the HOST selector of the bridge circuit is: The PVR-CPU, which is the HOST-CPU or the SUB-CPU, connected to the bridge circuit, according to an instruction from a user or for managing the input / output video / audio stream data. Encryption or decryption information included in data management information, or encryption or decryption included in the control information regarding recording / reproducing operations transmitted / received by the HOST network I / F or the PVR network I / F. PVR-integrated data that generates the selection information based on the conversion information and inputs the selection information to the bridge circuit. It is characterized in that the barrel broadcast receiver.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of a bridge circuit, a video / audio stream recording / reproducing apparatus, and a PVR-integrated digital broadcast receiver according to the present invention will be described in detail below with reference to the drawings. In the following description, for easier understanding, a PVR-integrated digital broadcast receiver according to the present invention will first be described, and then the PVR-integrated digital broadcast receiver will be incorporated into the digital broadcast receiver. A video / audio stream recording / reproducing device according to the present invention integrated as a PVR device will be described, and thereafter, a book which is incorporated in the video / audio stream recording / reproducing device to realize high-speed transfer control of video / audio stream data The bridge circuit according to the invention will be described.
[0034]
However, the bridge circuit according to the present invention realizes high-speed data transfer by directly connecting the data buses of a plurality of CPUs that process data to be transferred to each other, and is built only in a video / audio stream recording / reproducing device. The present invention is not limited to the case where data is input / output to / from a digital broadcast receiver, and may be a format in which data is input / output to / from a video / audio stream recording / reproducing device by being built in the digital broadcast receiver. Alternatively, it may be used in any device for realizing high-speed data transfer. Also, the video / audio stream recording / reproducing apparatus according to the present invention is not limited to being incorporated only in a PVR-integrated digital broadcast receiver integrated with a digital broadcast receiver, but may be integrated with another apparatus. It is also possible to perform recording and playback of video and audio stream data transferred to and from an external device including a digital broadcast receiver, or to be arranged independently of each other. No problem.
[0035]
Further, as a recording device of a video / audio stream recording / reproducing device for recording video / audio stream data and data management information on the video / audio stream data, random access is possible in the description of the following embodiments, and The case where a hard disk drive (HDD) capable of storing large-capacity digital data is used will be described as an example, but the recording apparatus of the video / audio stream recording / reproducing apparatus according to the present invention includes video / audio stream data. Any recording device may be used as long as it is a digital recording device capable of high-speed recording and reproduction of data and data management information.
[0036]
Further, the encryption processing module built in or connected to the bridge circuit according to the present invention performs encryption or decryption processing on the input MPEG-2 standard video / audio stream data by hardware logic. Also, any cryptographic module to which any cryptographic processing algorithm is applied may be used as long as the cryptographic algorithm has a sufficient cryptographic strength.
[0037]
(Embodiment of PVR-integrated digital broadcast receiver according to the present invention)
Next, an embodiment of a PVR-integrated digital broadcast receiver according to the present invention will be described with reference to the block diagram of FIG. FIG. 1 is a block diagram showing an example of a block configuration of a PVR-integrated digital broadcast receiver according to the present invention. The PVR-integrated digital broadcast receiver 100 according to the present invention includes a digital broadcast receiver 110 that tunes and receives an antenna reception signal 1 and a recording device such as a PVR-format HDD that can digitally record and reproduce video and audio stream data. A video / audio stream recording / reproducing device 120 for recording and reproducing is integrated with the video / audio stream recording / reproducing device 120 selected from the antenna reception signal 1 and recorded on the video / audio stream recording / reproducing device 120. The video / audio stream data is output as the output video 2 or the video / audio stream data selected and received is transferred at high speed by a transfer route separated from the control information for recording / reproducing to record the video / audio stream. Recorded on the playback device 120, or recorded on the video / audio stream recording / playback device 120. Are the video and audio streams are the control information may be or reproduced and outputted to the digital broadcast receiver 110 side to the high-speed data transfer by the transfer route and separated.
[0038]
In the PVR-integrated digital broadcast receiver 100 shown in FIG. 1, the HOST-CPU 111 performs main control for controlling the entire PVR-integrated digital broadcast receiver 100, and is integrated with the PVR-integrated digital broadcast receiver 100. A HOST buffer 115 for buffering video / audio stream data transmitted / received to / from the mounted video / audio stream recording / reproducing device 120 is built in. The HOST buffer 115 and the video / audio stream recording / reproducing device 120 Data can be input and output to and from a bridge circuit (a circuit that realizes high-speed data transfer between a plurality of CPUs, which will be described later in detail).
[0039]
First, an operation of recording the video / audio stream data selected and received from the antenna reception signal 1 in the video / audio stream recording / reproducing device 120 will be described. First, under the control of channel selection by the HOST control signal 11 from the HOST-CPU 111 of the digital broadcast receiver 110, the digital tuner 113 selects the specified video / audio stream data from the input antenna reception signal 1. The signal is received by the station, converted into a digital tuner signal 13, and output to the demux 114. When receiving a control signal indicating a recording instruction in response to a HOST control signal 11 from the HOST-CPU 111 based on an instruction from the user, the Demax 114 converts the input digital tuner signal 13 into a video / audio stream recording / reproducing device. The data is converted into a recording stream 15 in a signal format suitable for recording on the H.120 and temporarily stored in the HOST buffer 115.
[0040]
Further, the HOST-CPU 111, which controls the main control of the PVR-integrated digital broadcast receiver 100, reads out the recording control program stored in the HOST memory 112 by the memory signal 12, and based on the operation of the recording control program. First, the PVR control data 16 for instructing the video / audio stream recording / reproducing apparatus 120 to start a recording operation is output to the HOST network I / F 116 together with the HOST control signal.
[0041]
The HOST network I / F 116 transmits the PVR control data 16 from the HOST-CPU 111 instructing the start of the recording operation to the video / audio stream recording / reproducing apparatus 120 via the network bus 36 as control information of the recording instruction. And send it out. The video / audio stream recording / reproducing device 120 receives the control information of the instruction to start the data recording operation from the HOST-CPU 111, and should write to the HOST-CPU 111 when the preparation for recording the video / audio stream data is completed. It directly outputs a HOST write REQ signal 31a requesting transmission of video / audio stream data. The details of the internal operation in the video / audio stream recording / reproducing device 120 will be described later with reference to FIG.
[0042]
When receiving the HOST write REQ signal 31a from the video / audio stream recording / reproducing device 120, the HOST-CPU 111 converts the video / audio stream data, that is, the recording stream 15 temporarily stored in the HOST buffer 115, into the HOST stream data 35a. When a state where output to the audio stream recording / reproducing apparatus 120 is possible is reached, the HOST write ACK signal 32a is output to the video / audio stream recording / reproducing apparatus 120, and the recording stream 15 is sequentially read from the HOST buffer 115. The stream is output to the video / audio stream recording / reproducing apparatus 120 as HOST stream data 35a.
[0043]
The video / audio stream recording / reproducing device 120 sequentially transmits the HOST stream data 35a received together with the HOST write ACK signal 32a to a recording device of a PVR format capable of recording as recording / reproducing data of a digital signal, for example, a recording device including an HDD. Record. Although details will be described later, the video / audio stream recording / reproducing device 120 includes the control information of the recording operation start instruction from the HOST-CPU 111 received from the user or the HOST-CPU 111 received via the network bus 36. Video / audio stream recording based on the encrypted or decrypted information included in the received HOST stream data 35a or the encrypted or decrypted information included in the management data management information attached to the received HOST stream data 35a. The bridge circuit that is built in the playback device 120 and controls the data transfer of the video / audio stream data uses encrypted or decrypted data, or is encrypted or decrypted. Selection information for selecting whether to use the missing data is generated and output to the bridge circuit.
[0044]
In the bridge circuit of the video / audio stream recording / reproducing device 120, the video / audio stream data received as the HOST stream data 35a is encrypted or decrypted in accordance with the output selection information, or The data is recorded on a PVR format recording device capable of digital recording and reproduction without performing encryption or decryption.
[0045]
In the embodiment shown in FIG. 1, the bridge circuit which controls the data transfer of the video / audio stream data and outputs the selection information for selecting the presence / absence of encryption / decryption is connected to the video / audio stream recording / reproducing apparatus 120. Although an example in which the bridge circuit is incorporated in the digital broadcast receiver is described, the PVR-integrated digital broadcast receiver according to the present invention is not limited to such a case. In such a case, the HOST-CPU 111 of the digital broadcast receiver controls an instruction from a user or a recording operation start instruction from the HOST-CPU 111 to transmit via the network bus 36. Encryption or decryption information included in the information, or attached to the HOST stream data 35a to be transmitted. And encrypting or decrypting information contained in the data management information for management and, on the basis, to generate such selection information described above, it will be output to the bridge circuit.
[0046]
Next, a reproduction operation for reproducing and outputting video / audio stream data recorded in the recording device of the video / audio stream recording / reproducing device 120 as the output video 2 of the digital broadcast receiver 110 will be described.
First, upon receiving a reproduction instruction from the user to the HOST-CPU 111 of the digital broadcast receiver 110, the reproduction control program stored in the HOST memory 112 is read out by the memory signal 12, and the operation of the reproduction control program is performed. Based on this, the HOST-CPU 111 outputs a data reproduction start instruction as PVR control data 16 together with a HOST control signal to the HOST network I / F 116.
[0047]
The HOST network I / F 116 transmits the PVR control data 16 from the HOST-CPU 111 for instructing the start of the reproducing operation, that is, the control information of the reproducing instruction, to the video / audio stream recording / reproducing apparatus 120 via the network bus 36. Send out. The video / audio stream recording / reproducing apparatus 120 receives control information of a data reproduction operation start instruction from the HOST-CPU 111, and controls video / audio stream data to be reproduced and management data attached to the video / audio stream data. The management information is read from the recording device and temporarily stored in the buffer memory. When the video / audio stream recording / reproducing apparatus 120 reaches a state where it can be output as the HOST stream data 35a to the digital broadcast receiver 110, the video / audio stream recording / reproducing apparatus 120 reproduces the HOST-CPU 111. A HOST read REQ signal 33a requesting transmission of video / audio stream data to be transmitted is directly transmitted.
[0048]
Upon receiving the HOST read REQ signal 33a from the video / audio stream recording / reproducing device 120, the HOST-CPU 111 receives the HOST stream data 35a from the video / audio stream recording / reproducing device 120 to the HOST buffer 115 of the digital broadcast receiver 110. When the preparation for reading data for reading is completed, a HOST read ACK signal 34a is output to the video / audio stream data recording / reproducing device 120.
Upon receiving the HOST read ACK signal 34a from the digital broadcast receiver 110, the video / audio stream data recording / reproducing apparatus 120 reads the video / audio stream data read from the recording apparatus and temporarily stored in the buffer memory, and outputs the HOST stream data 35a. To the HOST buffer 115.
[0049]
When outputting the video / audio stream data to be reproduced as the HOST stream data 35a, the video / audio stream data recording / reproducing apparatus 120 has received an instruction from a user or received via the network bus 36. The video / audio read out based on the encryption or decryption information included in the control information of the reproduction operation start instruction from the HOST-CPU 111 or the encryption or decryption information of the data management information read from the recording device. The stream data is transmitted to the HOST buffer 115 of the digital broadcast receiver 110 as video / audio stream data to be reproduced, that is, HOST stream data 35a, without encryption or decryption or without performing encryption or decryption. I do.
[0050]
The HOST-CPU 111 receives the HOST stream data 35a received and stored in the HOST buffer 115, that is, the video / audio stream data to be reproduced, based on the operation of the reproduction control program read from the HOST memory 112 by the memory signal 12. Is transferred to the Demax 114 as a reproduction stream 15a, and the Demax 114 converts the input reproduction stream 15a into an AVPES14 which is an audio / video stream packet (AVPES: Audio / Video Packetized Elementary Stream) conforming to the MPEG2 standard, and a decoder. Send to 117. The decoder 117 obtains the output video 2 by decoding the AVPES 14 according to the MPEG2 standard.
[0051]
As described above, the PVR-integrated digital broadcast receiver 100 according to the present invention includes a PVR device integrated with the digital broadcast receiver 110, that is, a PVR format video / audio stream recording / reproducing device 120, which will be described in detail later. Between the HOST stream data 35a and the transfer route of the control information for recording and reproduction, that is, the HOST stream data 35a capable of high-speed transfer independent of the network bus 36. Encryption or decryption information included in the control information of the instruction from the user, the instruction to start the recording or reproduction operation from the digital broadcast receiver 110 transmitted / received via the network bus 36, the video / audio stream Based on the encryption or decryption information of the data management information attached to the data, - using the cryptographic processing module by the high-speed processing is possible hardware audio stream recording is incorporated or connected to the reproducing apparatus 120, it is possible to perform recording and reproducing operations by performing encryption or decryption. Further, the network bus 36 for inputting / outputting control information for recording / reproducing is provided separately and independently from the transfer path of the video / audio stream data, so that a quick transfer operation of the control signal can be performed. It is possible to improve the responsiveness of the video / audio stream recording / reproducing device 120.
[0052]
(Embodiment of video / audio stream recording / playback apparatus according to the present invention)
Next, an embodiment of the video / audio stream recording / reproducing apparatus according to the present invention will be described with reference to the block diagram of FIG. FIG. 2 is a block diagram showing an example of a block configuration of the video / audio stream recording / playback apparatus according to the present invention. As described above, in the present embodiment, the video / audio stream recording / reproducing apparatus 120 shown in FIG. 2 tunes and receives the antenna reception signal 1 to the PVR-integrated digital broadcast receiver 100 shown in FIG. An example of an internal configuration of a PVR-format video / audio stream recording / reproducing device 120 which is built in and integrated with the digital broadcast receiver 110 will be described. Instead, it may be built in another device or separately independent.
[0053]
As shown in FIG. 2, the video / audio stream recording / reproducing apparatus 120 according to the present invention performs data input / output with a digital broadcast receiver 110 built in the PVR-integrated digital broadcast receiver 100, and A bridge circuit 130 having a built-in cryptographic processing module for encrypting or decrypting input / output data as necessary, and sequentially transmitting a control program stored in the PVR memory 122 to a memory signal. The PVR-CPU 121 controls the entire video / audio stream recording / reproducing device 120 in accordance with each control program by reading the data by the P.22, and a PVR format recording device 124 such as an HDD for recording the video / audio stream data as recording / reproducing data. And input and output via the bridge circuit 130 and the PVR-CPU 121 Memory for temporarily storing video / audio stream data to be input / output to / from the recording device 124, and transmission / reception of control data for recording / reproducing operations between the digital broadcast receiver 110 and the buffer memory 125. And a PVR network I / F 126 that provides an interface of The details of the internal configuration of the bridge circuit 130 will be further described later with reference to FIGS.
[0054]
Here, the PVR-CPU 121 is a sub-control SUB-operating based on control information via the network bus 36 from the main control HOST-CPU 111 provided in the digital broadcast receiver 110 shown in FIG. It operates as a CPU, and can transmit and receive control information relating to recording and reproduction of video / audio stream data using the PVR control data 16 and the HOST control data 26 shown in FIG.
Further, the video / audio stream recording / reproducing apparatus 120 shown in FIG. 2 shows a case where a cryptographic processing module for performing encryption or decryption as necessary is incorporated in the bridge circuit 130. As shown in FIG. 3, the cryptographic processing module may not be built in the bridge circuit 130, but may be separately provided and configured to be connected to the bridge circuit. It is also possible to arrange a cryptographic processing module in the audio stream recording / reproducing apparatus 120 and connect it to the bridge circuit 130. In any case, the data transferred through the bridge circuit 130 is transmitted by transmitting information instructing the operation of encryption or decryption from the bridge circuit 130 to the cryptographic processing module as necessary. It will be encrypted or decrypted.
[0055]
First, an operation of recording video / audio stream data from the digital broadcast receiver 110 to the video / audio stream recording / reproducing device 120 will be described.
First, under the control of the HOST-CPU 111 of the digital broadcast receiver 110 shown in FIG. 1, a recording stream 15 in a signal format suitable for recording video / audio stream data to be recorded in the video / audio stream recording / reproducing device 120. After the data is temporarily stored in the HOST buffer 115, the PVR control data 16 for instructing the video / audio stream recording / reproducing apparatus 120 to start the recording operation is output to the HOST network I / F 116 together with the HOST control signal.
[0056]
The HOST network I / F 116 uses the PVR control data 16 from the HOST-CPU 111 for instructing the start of the recording operation as recording control information via the network bus 36 via the PVR network I / F on the video / audio stream recording / reproducing apparatus 120 side. / F126. When the PVR network I / F 126 of the video / audio stream recording / reproducing apparatus 120 receives the recording control information from the HOST-CPU 111 to start recording data, the PVR network I / F 126 instructs the PVR-CPU 121 to send the control data from the HOST-CPU 111 to the control data. Is notified as HOST control data 26.
[0057]
The PVR-CPU 121, which has been notified of the HOST control data 26 from the PVR network I / F 126, reads out the recording control program stored in the PVR memory 122 by the memory signal 22, and performs the recording by the operation of the recording control program. A preparation operation for a recording operation for the device 124 is performed.
[0058]
First, the PVR-CPU 121 outputs a PVR write REQ signal 31b for requesting the start of a recording operation to the bridge circuit 130, and also issues an instruction from a user or the network bus 36 from the HOST-CPU 111. Based on the encryption or decryption information included in the recording control information transmitted, the presence or absence of the necessity of encryption or decryption of the video / audio stream data to be recorded is determined. An encryption control signal 31 serving as encryption or decryption instruction information for the circuit 130 is generated and output to the bridge circuit 130. In some cases, the PVR-CPU 121 reads the encryption or decryption information attached to the data management information on the video / audio stream data to be recorded transmitted to the head of the received HOST stream data 35a. Thus, the necessity of encryption or decryption may be determined, and the encryption control signal 31 may be generated and output to the bridge circuit 130.
[0059]
Here, as the encryption control signal 31, the data transfer direction in the bridge circuit 130 (that is, the buffer memory via the PVR-CPU 121 from the HOST buffer 115 on the HOST-CPU 111 side of the digital broadcast receiver 110 shown in FIG. The transfer direction of the HOST stream data 35a to the HOST 125, or conversely, the transfer direction of the HOST stream data 35a from the buffer memory 125 via the PVR-CPU 121 to the HOST buffer 115 on the HOST-CPU 111 side of the digital broadcast receiver 110. The data transfer direction), the presence or absence of encryption or decryption, and the type (that is, the type of encryption or decryption).
[0060]
Based on the encryption control signal 31 received from the PVR-CPU 121, the bridge circuit 130 encrypts or encrypts the HOST stream data 35a transferred from the HOST buffer 115 of the HOST-CPU 111, that is, the video / audio stream data to be recorded. When the decoding operation is controlled and the preparation for receiving the HOST stream data 35a is completed, a request to start the recording operation is made to the HOST-CPU 111 in response to the PVR write REQ signal 31b received from the PVR-CPU 121. HOST write REQ signal 31a is sent.
[0061]
When the HOST-CPU 111 receives the HOST write REQ signal 31a from the video / audio stream recording / reproducing device 120, when the recording stream 15 reaches a state where it can be transmitted to the video / audio stream recording / reproducing device 120, the HOST-CPU 111 The write ACK signal 32a is sent to the bridge circuit 130 of the video / audio stream recording / reproducing device 120, and the recording stream 15, ie, the video / audio stream data to be recorded, is sequentially read from the HOST buffer 115, and is read as the HOST stream data 35a. The stream is sent to the stream recording / reproducing apparatus 120 side.
[0062]
Upon receiving the HOST write ACK signal 32a, the bridge circuit 130 of the video / audio stream recording / reproducing apparatus 120 has received video / audio stream data to be recorded as the HOST stream data 35a from the HOST buffer 115 of the HOST-CPU 111. Is output to the PVR-CPU 121 and the HOST stream data 35a is sequentially received. Further, the bridge circuit 130 of the video / audio stream recording / reproducing apparatus 120 may be configured to perform hardware or hardware processing according to the contents of the encryption or decryption processing instructed based on the above-described encryption control signal 31. The received HOST stream data 35a is subjected to encryption or decryption processing by a cryptographic processing module capable of high-speed encryption or decryption operation by processing, and then output to the PVR-CPU 121 as PVR stream data 35b.
[0063]
The PVR-CPU 121 operates the PVR stream data 35b sequentially input from the bridge circuit 130 based on the PVR write ACK signal 32b input from the bridge circuit 130 by the operation of the recording control program stored in the PVR memory 122. Is temporarily stored in the buffer memory 125 as a recording / playback stream 25. Further, the PVR-CPU 121 uses the recording / reproducing stream 25 once stored in the buffer memory 125 as recording / reproducing data 24 to be recorded on a recording device 124 composed of a PVR format, for example, an HDD, and includes information on encryption or decryption. Then, the recording / reproducing data 24 is sequentially recorded on the recording device 124 together with data management information for managing the recording / reproducing data 24.
[0064]
Next, the video / audio stream data, that is, the recorded / reproduced data recorded together with the data management information in the recording device 124 of the video / audio stream recording / reproducing device 120 is read out, and the digital broadcast receiver 110 outputs A reproduction operation for reproducing and outputting the image 2 will be described.
First, upon receiving a reproduction instruction from a user to the HOST-CPU 111 of the digital broadcast receiver 110, the HOST-CPU 111 outputs a data reproduction start instruction as PVR control data 16 to the HOST network I / F 116.
[0065]
The HOST network I / F 116 uses the PVR control data 16 from the HOST-CPU 111 for instructing the start of the data reproduction operation as reproduction control information via the network bus 36 via the PVR network on the video / audio stream recording / reproducing apparatus 120 side. Send it to I / F 126. When the PVR network I / F 126 of the video / audio stream recording / reproducing apparatus 120 receives the reproduction control information from the HOST-CPU 111 to start the data reproduction operation, the PVR network I / F 126 instructs the PVR-CPU 121 to control the control data from the HOST-CPU 111. Is notified as HOST control data 26.
[0066]
The PVR-CPU 121, which has been notified of the HOST control data 26 from the PVR network I / F 126, reads out the reproduction control program stored in the PVR memory 122 by the memory signal 22, and performs the recording by the operation of the recording control program. The recording / reproducing data 24 to be reproduced recorded in the device 124, that is, the video / audio stream data and the management data management information attached to the video / audio stream data are read out and temporarily stored in the buffer memory 125. I do.
[0067]
Further, the PVR-CPU 121 receives an instruction from a user, or encryption or decryption information included in the data management information of the recording / playback stream 24, that is, video / audio stream data once stored in the buffer memory 125, or , Generates an encryption control signal 31 for the bridge circuit 130 based on the encryption or decryption information included in the reproduction control information from the HOST-CPU 111 via the network bus 36, and The video and audio stream data stored in the buffer memory 125 is read out as the recording / playback stream 25, and converted into PVR stream data 35b in a format suitable for output to the bridge circuit 130. Output to the circuit 130.
[0068]
Upon receiving the encryption control signal 31 from the PVR-CPU 121, the bridge circuit 130 of the video / audio stream recording / reproducing apparatus 120 changes the content of the instruction of the encryption or decryption processing instructed based on the encryption control signal 31 to the content. Accordingly, if necessary, the encryption or decryption processing for the PVR stream data 35b sequentially input from the PVR-CPU 121 is performed by the encryption processing module capable of performing a high-speed encryption or decryption operation by hardware processing. A HOST requesting the HOST-CPU 111 to transmit video / audio stream data to be reproduced when the HOST buffer 115 of the digital broadcast receiver 110 reaches a state where it can be output as the HOST stream data 35a. The read REQ signal 33a is sent directly.
[0069]
Upon receiving the HOST read REQ signal 33a from the bridge circuit 130 of the video / audio stream recording / reproducing device 120, the HOST-CPU 111 receives the HOST stream data 35a from the bridge circuit 130 of the video / audio stream recording / reproducing device 120. When the preparation for reading the data is completed, a HOST read ACK signal 34a is output to the bridge circuit 130 of the video / audio stream data recording / reproducing device 120.
Upon receiving the HOST read ACK signal 34a from the digital broadcast receiver 110, the bridge circuit 130 of the video / audio stream data recording / reproducing device 120 converts the PVR stream data 35b read from the recording device 124 into an encryption control signal 31b. Based on the above, without performing encryption or decryption in the bridge circuit 130 or by performing encryption or decryption processing, the HOST buffer 115 of the digital broadcast receiver 110 is sequentially transmitted as HOST stream data 35a. Send out.
[0070]
The HOST-CPU 111 converts the HOST stream data 35a received and stored in the HOST buffer 115, that is, the video / audio stream data to be reproduced, into the HOST-CPU 111 based on the operation of the reproduction control program stored in the HOST memory 112 in FIG. After conversion into an audio / video stream packet conforming to the MPEG2 standard, ie, AVPES14, at the demux 114 shown in the figure, the decoder 117 further decodes the packet according to the MPEG2 standard to obtain an output video 2 as a reproduced signal.
[0071]
In the above-described embodiment of the video / audio stream recording / reproducing apparatus 120, the bridge circuit 130 mounted on the video / audio stream recording / reproducing apparatus 120 performs an encryption process for performing an encryption or decryption process by hardware processing. Although the example in which the module is incorporated is shown, as described above, the video / audio stream recording / reproducing apparatus according to the present invention is not limited to the case where the encryption processing module is incorporated in the bridge circuit 130. 3, an encryption / decryption module 140 'for performing encryption or decryption processing by hardware processing is connected to a bridge circuit 130' and arranged like a video / audio stream recording / reproducing apparatus 120 'shown in FIG. Encryption or decryption by the cryptographic processing module 140 ' In such a case, the encryption processing module 130 ′ may be arranged so as to be connectable to the outside of the video / audio stream recording / reproducing device 120 ′, or As shown in FIG. 3, it may be mounted inside the video / audio stream recording / reproducing device 120 '.
[0072]
As described above, the video / audio stream recording / reproducing apparatus 120 according to the present invention is separated from the network bus 36 for inputting / outputting control information for recording / reproduction via the PVR network I / F 126, as will be described in detail later. A bridge circuit 130 capable of high-speed transfer enables high-speed transfer of video / audio stream data for recording and reproduction as PVR stream data 35b and HOST stream data 35a, and also provides instructions from a user and a network. The encryption or decryption information included in the control information for recording and reproduction from the digital broadcast receiver 110 received via the bus 36, and the data management information recorded along with the video / audio stream data High-speed processing, if necessary, based on the encryption or decryption information contained in Using the cryptographic processing module according to available hardware processing, it is possible to perform recording and reproducing operations by performing encryption or decryption. Further, the network bus 36 for inputting / outputting control information for recording / reproducing is provided separately and independently from the transfer path of the video / audio stream data, so that a quick transfer operation of the control signal can be performed. It is possible to improve the responsiveness of the video / audio stream recording / reproducing device 120.
[0073]
(Example of bridge circuit according to the present invention)
Next, an embodiment of a bridge circuit according to the present invention will be described with reference to the block diagram of FIG. FIG. 4 is a block diagram showing an example of the block configuration of the bridge circuit according to the present invention. As described above, in the present embodiment, the bridge circuit 130 shown in FIG. 4 is a digital broadcast receiver 110 for selecting and receiving the antenna reception signal 1 in the PVR-integrated digital broadcast receiver 100 shown in FIG. In the following, an example in which the bridge circuit 130 according to the present invention is mounted in the video / audio stream recording / reproducing apparatus 120 which is integrated with the video / audio stream recording / reproducing apparatus will be described. Conversely, it may be configured to be mounted on the digital broadcast receiver 110 side of the PVR-integrated digital broadcast receiver 100 instead of in the PVR 120, or may be required to perform high-speed transfer of video / audio information. It may be built in the device described above, or in some cases, may be separately independent.
[0074]
In the following description, the bridge circuit 130 shown as an example in FIG. 4 is mounted in the video / audio stream recording / reproducing device 120 shown in FIG. 2, for example, and the PVR-integrated digital broadcast receiver 100 shown in FIG. And a HOST-CPU 111 for main control of the digital broadcast receiver 110 and a PVR-CPU 121 of the video / audio stream recording / reproducing device 120 (that is, a SUB-CPU for subordinate control to the HOST-CPU 111 for main control is mounted. And a PVR-format recording / reproduction control CPU), which controls input / output of data including video / audio stream data, and encrypts / decrypts input / output video / audio stream data as necessary. A case will be described in which a cryptographic processing module 140 for performing the processing is incorporated.
[0075]
Note that the cryptographic processing module 140 incorporated in the bridge circuit 130 is not limited to such a form, and as shown in FIG. Only the cryptographic processing module I / F 135 ′ that provides an interface for transmitting and receiving data to and from the module 140 ′ is provided, and the cryptographic processing module 140 ′ itself is arranged outside the bridge circuit 130 ′. F135 'may be connected. In such a case, the cryptographic processing module 140 ′ may be arranged on the video / audio stream recording / reproducing device 120 provided with the bridge circuit 130 ′, or may be mounted on the digital broadcast receiver 110. It is good, or it is good also as being arranged completely independent outside.
[0076]
Here, as shown in FIGS. 1 and 2, various control information related to the recording / reproducing operation transmitted and received between the HOST-CPU 111 and the PVR-CPU 121 is transmitted between the HOST network I / F 116 and the PVR network I / F 126. Between the bridge circuit 130 and the HOST-CPU 111 of the digital broadcast receiver 110 and the PVR-ROM of the video / audio stream recording / reproducing apparatus 120 via the network bus 36. The transfer operation of the video / audio stream data for recording / reproduction transmitted / received to / from the CPU 121 via the bridge circuit 130 is not hindered by the various kinds of control information transmitted / received, and the smooth high-speed data transfer is performed. Is possible.
[0077]
First, a description will be given of a case of a recording operation of transferring video / audio stream data from the HOST-CPU 111 of the digital broadcast receiver 110 to the PVR-CPU 121 of the video / audio stream recording / reproducing apparatus 120 in the bridge circuit 130 shown in FIG. I do.
The HOST-I / F 131A directly connected to the HOST-CPU 111 manages an interface with the HOST-CPU 111 for main control, and transmits and receives data to and from the PVR-CPU 121 for sub-control to the HOST-CPU 111. Provides an interface for input and output between Here, the HOST-I / F 131A monitors the empty / busy state of the HOST write FIFO 132A that buffers output data to the PVR-CPU 121 output from the HOST-CPU 111 and reads out the data to a FIFO (First-In First-Out). ing.
[0078]
When the HOST-I / F 131A detects that there is free space for storing data in the HOST write FIFO 132A, the HOST-I / F 131A outputs a HOST write REQ signal 31a for requesting output data to the HOST-CPU 111. The HOST-I / F 131A receives the HOST write ACK signal 32a indicating that the output data from the HOST-CPU 111 is to be output, and at the same time, the HOST stream data output from the HOST buffer 115 of the HOST-CPU 111 shown in FIG. Receive 35a. Here, the HOST stream data 35a is the recording stream 15 stored in the HOST buffer 115 for recording data relating to the video / audio stream data tuned and received by the digital tuner 113 of the digital broadcast receiver 110.
[0079]
When the HOST-CPU 111 receives the HOST write REQ signal 31a from the HOST-I / F 131A of the bridge circuit 130, the HOST buffer 115 of the HOST-CPU 111 stores the recording stream 15 for output, that is, the video / audio stream data. As soon as the HOST-CPU 111 itself is ready for data output, it outputs a HOST write ACK signal 32a to the HOST-I / F 131A.
[0080]
On the other hand, the PVR-I / F 131B directly connected to the PVR-CPU 121 manages an interface with the PVR-CPU 121 for sub-control. Here, the PVR-CPU 121 encrypts or decrypts the instruction from the user or the encryption or decryption attached to the recording control information from the HOST-CPU 111 for main control via the PVR network I / F 126 shown in FIG. Based on the information, it is determined whether the video / audio stream data to be recorded is encrypted, decrypted, or recorded as it is, and is generated as an encryption control signal 31 as selection information for the bridge circuit 130, The generated encryption control signal 31 is output to the PVR-I / F 131B of the bridge circuit 130 to request encryption or decryption of video / audio stream data to be recorded.
[0081]
When the PVR-I / F 131B receives an encryption or decryption request based on the encryption control signal 31 input from the PVR-CPU 121, the PVR-I / F 131B analyzes the encryption control signal 31 and sends the request from the HOST-CPU 111 to the PVR-CPU 121. Requesting the encryption / decryption of the data to be transmitted to the HOST → PVR encryption / decryption request signal 31Bb, and conversely, requesting the encryption / decryption of the data transmitted from the PVR-CPU 121 to the HOST-CPU 111 PVR → HOST encryption / decryption request signal 31Ba is set to the specified state (ie, valid or invalid type, and if valid, either encryption or decryption type is specified). Then, it outputs to the cryptographic processing module I / F 135 which controls the interface of the cryptographic processing module 140.
[0082]
The encryption processing module I / F 135 receives the HOST → PVR encryption / decryption request signal 31Bb and the PVR → HOST encryption / decryption request signal 31Ba from the PVR-I / F 131B, and encrypts the received data with the encryption processing module 140. It outputs an encryption / decryption start enable signal 46 requesting the start of encryption or decryption. Here, the encryption / decryption start enable signal 46 is a signal for instructing the encryption processing module 140 to start encryption when an encryption request is issued by the encryption control signal 31 from the PVR-CPU 121. On the other hand, when there is a request for decryption by the encryption control signal 31, the signal is a signal for instructing the start of decryption.
[0083]
After receiving the encryption / decryption start enable signal 46, the cryptographic processing module 140 reads the encryption M read requesting input of data to be encrypted / decrypted as soon as the encryption / decryption operation is enabled. The REQ signal 43 is output to the cryptographic processing module I / F 135.
[0084]
The encryption processing module I / F 135 encrypts / deletes the data transmitted from the HOST-CPU 111 to the PVR-CPU 121 as the received HOST → PVR encryption / decryption request signal 31Bb and the received PVR → HOST encryption / decryption request signal 31Ba. When decryption is requested, the HOST write FIFO 132A is monitored for the occupied or unoccupied state, and if the HOST write FIFO 132A has a sufficient amount of data for encryption or decryption, data to be encrypted / decrypted is stored in the HOST write FIFO 132A. A cryptographic M read ACK signal 44 indicating that the data has been prepared is output to the cryptographic processing module 140, and the NOENCDATA 32A indicating the data before encryption / decryption is read from the HOST write FIFO 132A to request the encryption / decryption processing. Input data to the cryptographic processing module 140 Output as TODATA45a indicating that it is.
[0085]
The encryption processing module 140 converts the input data to be encrypted / decrypted TODATA 45a into an encryption / decryption request according to the encryption / decryption request indicated by the encryption / decryption start enable signal 46. Perform decryption processing. Note that the encryption processing module 140 employs a module configured by hardware processing, and can perform encryption / decryption processing more quickly than software processing. The PVR-CPU does not impose the burden of performing the encryption / decryption processing using the PVR-CPU 121 of the video / audio stream recording / reproducing apparatus 120 having the bridge circuit 130 incorporating the processing module 140. -The CPU 121 can perform a high-speed transfer operation on video / audio stream data for recording and reproduction.
[0086]
When the encryption / decryption processing according to the encryption / decryption request indicated by the encryption / decryption start enable signal 46 ends, the encryption processing module 140 sends a message to the encryption processing module I / F 135. Then, it outputs an encrypted M write REQ signal 41 requesting to output encrypted / decrypted data. The encryption processing module I / F 135 encrypts / deletes the data transmitted from the HOST-CPU 111 to the PVR-CPU 121 as the received HOST → PVR encryption / decryption request signal 31Bb and the received PVR → HOST encryption / decryption request signal 31Ba. If decryption is requested, the status of the PVR read FIFO 133B that outputs the encrypted / decrypted data is monitored, and the PVR read FIFO 133B has free space for storing data. Is detected, an encryption M write ACK signal 42 indicating that encrypted / decrypted data can be output is output to the encryption processing module 140.
[0087]
Upon receiving the encryption M write ACK signal 42, the encryption processing module 140 sends an FMDATA 45b indicating that the data is output from the encrypted encryption / decryption processing module 140 to the encryption processing module I / F 135. Output. The cryptographic processing module I / F 135 outputs the received FMDATA 45b to the PVR read FIFO 133B via the PVR selector 134B as ENCDATA 35A indicating encrypted / decrypted data to be output to the PVR read FIFO 133B. I do.
[0088]
The PVR-I / F 131B monitors the empty / busy state of the PVR read FIFO 133B, and if enough data to be transferred to the PVR-CPU 121 has accumulated, the PVR-CPU 121 sends data to be read to the PVR-CPU 121. A PVR read REQ signal 33b indicating that they are aligned is output. Upon receiving the PVR read REQ signal 33b, the PVR-CPU 121 outputs the PVR read ACK signal 34b to the PVR-I / F 131B as soon as the data is ready to be read. Upon receiving the PVR read ACK signal 34b from the PVR-CPU 121, the PVR-I / F 131B outputs the data stored in the PVR read FIFO 133B to the PVR-CPU 121 as PVR stream data 35b.
[0089]
Upon receiving the PVR stream data 35b, the PVR-CPU 121 stores the PVR stream data 35b in the buffer memory 125 together with the data management information for managing the PVR stream data 35b as the recording / playback stream 25, as described in FIG. The recording / reproducing stream 25 stored in the buffer memory 125 is recorded as recording / reproducing data 24 on a recording device 24 such as an HDD.
As described above, the video / audio stream data transmitted from the HOST-CPU 111 to the PVR-CPU 121 is subjected to encryption and decryption processing in the encryption processing module 140 as necessary based on the encryption control signal 31. Then, the data is transferred to the PVR-CPU 121 at a high speed and recorded in the recording device 24.
[0090]
On the other hand, in the bridge circuit 130 shown in FIG. 4, in the case of a reproducing operation for transferring video / audio stream data from the PVR-CPU 121 of the video / audio stream recording / reproducing apparatus 120 to the HOST-CPU 111 of the digital broadcast receiver 110, The operation is substantially the same as the above-described recording operation for transferring the video / audio stream data from the HOST-CPU 111 to the PVR-CPU 121.
[0091]
That is, with respect to the transfer operation of the video / audio stream data from the PVR-CPU 121 to the HOST-CPU 111, the transfer operation of the video / audio stream data from the HOST-CPU 111 to the PVR-CPU 121 and the data transfer direction described above. Is reversed, instead of using the HOST write REQ signal 31a, the HOST write ACK signal 32a, the HOST write FIFO 132A, the PVR read REQ signal 33b, the PVR read ACK signal 34b, and the PVR read FIFO 133B, respectively. , PVR write ACK signal 32b, PVR write FIFO 132B, HOST read REQ signal 33a, HOST read ACK signal 34a, and HOST read FIFO 133A. Performs the same operation as the HOST-CPU 111 transfers the video and audio stream data into the PVR-CPU 121 has.
[0092]
Note that the cryptographic processing module I / F 135 is to enable full-duplex communication between data transfer from the HOST-CPU 111 to the PVR-CPU 121 and data transfer from the PVR-CPU 121 to the HOST-CPU 111. An arbitration function for arbitrating the output of data to be encrypted / decrypted to the encryption processing module 140 may be provided.
[0093]
Furthermore, data is transferred from the HOST-CPU 111 to the PVR-CPU 121 or from the PVR-CPU 121 to the HOST-CPU 111 without performing encryption / decryption without using the encryption processing module 140. Is also possible. As described above, for example, encryption / decryption information included in control information for recording / reproduction transmitted / received via the network bus 36 and video / audio stream data to be input / output are received from the user. The encryption control signal 31 generated based on the encryption / decryption information included in the data management information and output from the PVR-CPU 121 to the PVR-I / F 131B includes a data transfer direction. (Transfer direction indicating whether data is transferred from the HOST-CPU 111 to the PVR-CPU 121 or transfer from the PVR-CPU 121 to the HOST-CPU 111), whether or not the encryption processing module 140 is used; Information that can indicate the type of use (type indicating encryption or decryption) when used is included.
[0094]
In accordance with the instruction of the encryption control signal 31, the PVR-I / F 131B generates the PVR → HOST encryption / decryption request signal 31Ba and the HOST → PVR encryption / decryption request signal 31Bb, and the PVR selector 134B and HOST. The selection information for the selector 134A is generated. For example, the transfer operation from the HOST-CPU 111 side to the PVR-CPU 121 side encrypts and transfers data, and conversely, the transfer operation from the PVR-CPU 121 side to the HOST-CPU 111 side performs encryption and decryption. If the data is to be transferred without any change, the HOST → PVR encryption / decryption request signal 31Bb is made valid, and the PVR → HOST encryption / decryption request signal 31Ba is made invalid.
[0095]
Thus, if the instruction to perform encryption or decryption has been validated by the HOST → PVR encryption / decryption request signal 31Bb, the PVR selector 134B performs the encryption processing module according to the selection information for the PVR selector 134B. The data that has been subjected to the encryption or decryption processing, that is, ENCDATA 35A, is selected via 140 and output to the PVR read FIFO 133B. On the other hand, if the instruction to perform encryption or decryption has been invalidated by the HOST → PVR encryption / decryption request signal 31Bb, the PVR selector 134B sends the encryption from the HOST write FIFO 132A according to the selection information for the PVR selector 134B. Unencoded or decoded data, that is, NOENCDATA 32A, is selected and output to the PVR read FIFO 133B.
[0096]
The same applies to the HOST selector 134A. If the instruction to perform encryption or decryption has been validated by the PVR → HOST encryption / decryption request signal 31Ba, the HOST selector 134A is operated in accordance with the selection information. The selector 134A selects data that has been subjected to encryption or decryption processing, that is, ENCDATA 35B via the encryption processing module 140, and outputs the data to the HOST read FIFO 133A. On the other hand, if the instruction to perform encryption or decryption has been invalidated by the PVR → HOST encryption / decryption request signal 31Ba, the HOST selector 134A sends the encryption from the PVR write FIFO 132B according to the selection information for the HOST selector 134A. The data that has not been processed or decoded, that is, NOENCDATA 35B, is selected and output to the HOST read FIFO 133A.
[0097]
As described above, in the bridge circuit 130 according to the present invention, such as between the HOST-CPU 111 and the PVR-CPU 121, the data buses of a plurality of CPUs are directly connected, and the high-speed data using the high-speed buffer performing the FIFO operation is used. It is possible to implement the transfer operation, and further, instructs whether or not to operate the cryptographic processing module 140, and also outputs selection information for selecting and switching between the HOST selector 134A and the PVR selector 134B from the PVR-CPU 121. Not only the function of inputting the data as the encryption control signal 31 via the PVR-I / F 131B and performing the encryption or decryption and transferring the data, but also the function of transferring the data as it is without performing the encryption or decryption. Have. Therefore, encryption and decryption are necessary, for example, not only for video / audio stream data, but also for transfer of data that does not require encryption, for example, video / audio stream data management information and various system control data. Can also be performed via the bridge circuit 130 according to the present invention.
[0098]
That is, a HOST selector 134A and a PVR selector 134B for selecting whether to perform encryption / decryption on the bridge circuit 130 are provided, and switching control is performed based on selection information, so that data requiring encryption / decryption and encryption It is also possible to perform data transfer via the bridge circuit 130 by mixing data that does not need to be encrypted / decoded.
[0099]
As described above, the bridge circuit 130 is controlled by a device controlled by the PVR-CPU 121, which is a SUB-CPU for sub-control (for example, the video / audio stream recording in the PVR-integrated digital broadcast receiver 100 in FIG. 1). Instead of being mounted on the playback device 120) side, it can be mounted on a device controlled by the HOST-CPU controlling the main control (for example, the digital broadcast receiver 110 in the PVR-integrated digital broadcast receiver 100 in FIG. 1), In such a case, the PVR → HOST encryption / decryption request signal 31Ba and the HOST → PVR encryption / decryption request signal 31Bb for the encryption processing module 140 of the bridge circuit 130, and the selection for the HOST selector 134A and the PVR selector 134B. Encryption control for generating information No. 31 is not from the PVR-CPU 121 side, but the HOST-CPU 111 is instructed by the user or the encryption or decryption information included in the data management information for managing the input / output video / audio stream, Alternatively, it is generated based on encryption or decryption information included in various control information related to the recording / reproduction operation, and is input from the HOST-CPU 111 via the HOST-I / F 131A.
[0100]
In the embodiment of FIG. 4, the data transfer method between the bridge circuit 130 and the HOST-CPU 111 or the PVR-CPU 121 is not particularly described, but, for example, is directly connected to the HOST-CPU 111. By employing burst transfer or the like as the data transfer format of both the HOST-I / F 131A and the PVC-I / F 131B directly connected to the PVR-CPU 121, it is possible to realize a higher-speed data transfer operation. In addition, the HOST-CPU 111 and the PVR-CPU 121 that are directly connected to the bridge circuit 130 according to the present invention include a PVR-integrated digital broadcast shown in FIG. 1 for easy understanding of the operation of the bridge circuit 130 according to the present invention. Although the case where the present invention is applied to the receiver 100 has been described as an example, as described above, the bridge circuit 130 according to the present invention is not limited to such a case, and relays high-speed data transfer between a plurality of CPUs. The present invention can be applied to any device as long as it is intended to be used, and may not be a form in which the device is built in and used.
[0101]
Further, by changing only the cryptographic module I / F 135 of the bridge circuit 130, it is possible to connect various cryptographic processing modules to perform encryption / decryption, and to perform cryptographic module using various cryptographic algorithms. Also, it is possible to support a cryptographic module having a communication interface with an external device.
[0102]
Further, in the bridge circuit 130 shown in FIG. 4, the response speed of the encryption / decryption processing is improved by connecting internally with the encryption processing module 140 without using an external interface, thereby enabling high-speed data transfer. In addition, in order to make it possible to reduce the number of components and to reduce the cost, a case where the cryptographic processing module 140 is built in the bridge circuit 130 and connected via the cryptographic processing module I / F 135 is shown. Was. However, the bridge circuit according to the present invention is not limited to such a case. For example, as in a bridge circuit 130 'shown in FIG. The cryptographic processing module I / F 135 ′ that provides an interface with the cryptographic processing module 140 ′ is mounted independently on the bridge circuit 130 ′, and is connected to the cryptographic processing module 140 ′. You may.
[0103]
In such a case, it is possible not only to reduce the size of the bridge circuit 130 ', but also to replace the cryptographic processing module I / F 135' as described above. It is possible to appropriately employ a cryptographic processing module 140 ′ using the cryptographic algorithm described above. Further, in some cases, for example, in the example of the PVR-integrated digital broadcast receiver 100 shown in FIG. 1, the video / audio stream recording / reproducing device 120 having the built-in bridge circuit 130 ′ is provided with the encryption processing module 140 ′. 1, or when the bridge circuit 130 'is built in the digital broadcast receiver side of the PVR-integrated digital broadcast receiver, unlike FIG. The processing module 140 'may be mounted.
[0104]
【The invention's effect】
As described above, according to the bridge circuit, the video / audio stream recording / reproducing device, and the PVR-integrated digital broadcast receiver according to the present invention, the following effects can be obtained.
That is, as a bridge circuit directly connecting the data buses for transferring data of each of the plurality of CPUs, a high-speed buffer performing a FIFO operation is used, and a mechanism for performing encryption / decryption by hardware processing is also provided. With the provision, it is possible to realize high-speed transfer of data that has been subjected to encryption / decryption processing. Further, by providing the bridge circuit with a selector for selecting whether to perform encryption / decryption, data requiring encryption / decryption and data not requiring encryption / decryption can be mixed together to form a bridge. Data transfer can also be performed via a circuit.
[0105]
In addition, a built-in encryption processing module that performs encryption / decryption by hardware processing in the bridge circuit enables high-speed transfer of encrypted / decrypted data and reduces the number of components. On the contrary, by independently connecting the cryptographic processing module to the outside, the bridge circuit can be downsized, and the cryptographic processing module can be easily exchanged.
[0106]
Furthermore, by mounting a bridge circuit as described above in a video / playback stream recording / playback apparatus that records and plays back video / audio stream data, video / audio stream data received from an external device can be transmitted to, for example, a user. It is possible to perform high-speed transfer without encrypting or decrypting as required, without encrypting or decrypting, and to record and play back video and audio stream data faithfully. It is possible to do.
[0107]
Furthermore, the above-described video / audio stream recording / reproducing device is a PVR-format video / audio stream recording / reproducing device, and is a PVR-integrated digital broadcast receiver integrated with a digital broadcast receiver. A HOST buffer on the digital broadcast receiver side for temporarily storing video / audio stream data tuned and received as a signal is directly connected to the above-described bridge circuit built in the video / audio stream recording / reproducing apparatus, and the received video / audio stream is directly connected. High-speed transfer of audio stream data is possible, and video / audio stream data can be faithfully recorded and reproduced. Further, transmission and reception of various control information for recording and reproduction to be exchanged between the digital broadcast receiver and the video / audio stream recording / reproducing apparatus can be performed on a different path from the bridge circuit described above. It is possible to prevent the high-speed transfer operation of the audio stream data from being hindered and to improve the responsiveness to various control information.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an example of a block configuration of a PVR-integrated digital broadcast receiver according to the present invention.
FIG. 2 is a block diagram showing an example of a block configuration of a video / audio stream recording / playback apparatus according to the present invention.
FIG. 3 is a block diagram showing another example of the block configuration of the video / audio stream recording / playback apparatus according to the present invention.
FIG. 4 is a block diagram showing an example of a block configuration of a bridge circuit according to the present invention.
FIG. 5 is a block diagram showing a different example of the block configuration of the bridge circuit according to the present invention.
FIG. 6 is a block diagram showing a circuit block configuration of a conventional digital broadcast receiver integrated with a PVR device.
[Explanation of symbols]
1: Antenna reception signal, 2: output video, 11, 11s: HOST control signal, 12, 12s: memory signal, 13, 13s: digital tuner signal, 14, 14s: AVPES, 15, 15s: recording stream, 15a, 15sa ... Reproduction stream, 16, 16s ... PVR control data, 21,21s ... PVR control signal, 22,22s ... Memory signal, 24,24s ... Recording / reproducing data, 25,25s ... Recording / reproducing stream, 26,26s ... HOST control data 26sa PVR stream data, 31 encryption control signal, 31a HOST write REQ signal, 31b PVR write REQ signal, 32a HOST write ACK signal, 32b PVR write ACK signal, 33a HOST read REQ signal, 33b ... PVR read REQ signal, 34a HOST read ACK signal, 34b PVR read ACK signal, 35a HOST stream data, 35b PVR stream data, 36 network bus, 31Ba PVR → HOST encryption / decryption request signal, 31Bb HOST → PVR encryption / Decryption request signal, 32A, 32B... NOENCDATA, 35A, 35B... ENCDATA, 41... Encrypted M write REQ signal, 42... Encrypted M write ACK signal, 43... Encrypted M read REQ signal, 44. ... TODATA, 45b ... FMDATA, 46 ... encryption / decryption start enable signal, 100 ... PVR integrated digital broadcasting receiver, 110, 110s ... digital broadcasting receiver, 111, 111s ... HOST-CPU, 112, 112s ... HOST Note , 113, 113s... Digital tuner, 114, 114s..., 115... HOST buffer, 116, 116s... HOST network I / F, 117, 117s... Decoder, 120, 120 ′. PVR devices, 121, 121s PVR-CPU, 122, 122s PVR memory, 124, 124s recording device, 125, 125s buffer memory, 126, 126s PVR network I / F, 130, 130 'bridge circuit, 131A: HOST-I / F, 131B: PVR-I / F, 132A: HOST write FIFO, 132B: PVR write FIFO, 133A: HOST read FIFO, 133B: PVR read FIFO, 134A: HOST selector, 134 B: PVR selector; 135, 135 ': cryptographic processing module I / F; 140, 140': cryptographic processing module.

Claims (11)

A bridge circuit that connects a plurality of CPUs that process data to be transferred to each other, and that inputs and outputs data to and from a HOST-CPU that performs main control. A SUB-I / F that provides an interface for performing the HOST-CPU via the SUB-I / F, and buffers the output data from the SUB-CPU to the HOST-CPU. A SUB write FIFO to be read out to a first-out (First-Out) and a SUB read-out buffering input data to the SUB-CPU input from the HOST-CPU and reading out the data to the FIFO, and sending out the data through the SUB-I / F A FIFO, and transfers data to and from the SUB-CPU to the HOST-CP. A HOST-I / F providing an interface for inputting and outputting data to and from the HOST-CPU, and buffering output data to the SUB-CPU output from the HOST-CPU via the HOST-I / F. A HOST write FIFO for reading out the data to the FIFO, and a HOST read FIFO for buffering input data to the HOST-CPU input from the SUB-CPU and reading out the data to the FIFO, and sending out the data via the HOST-I / F. Further, the data read from the SUB write FIFO and the HOST write FIFO are respectively sent to a cryptographic processing module for encrypting or decrypting, and the encrypted or decrypted data from the cryptographic processing module is transmitted. A cryptographic processing module that provides an interface for receiving data And the data read from the HOST write FIFO, the data read from the HOST write FIFO is encrypted or decrypted, and the data received from the cryptographic processing module I / F and the data read from the HOST write FIFO. And a SUB selector for selecting which of the two is to be input to the SUB read FIFO based on the selection information, and the data read from the SUB write FIFO is encrypted or decrypted and received from the cryptographic processing module I / F. A HOST selector for selecting, based on selection information, which of the read data and the data read from the SUB write FIFO is to be input to the HOST read FIFO. 2. The bridge circuit according to claim 1, wherein the selection information for the SUB selector and the HOST selector is transmitted from one of the SUB-CPU for slave control and the HOST-CPU for main control. A bridge circuit which controls the SUB selector and the HOST selector by being input via an I / F or the HOST-I / F. 3. The bridge circuit according to claim 1, wherein the cryptographic processing module for encrypting or decrypting input / output data to be input / output is built in the bridge circuit. Bridge circuit. 3. A PVR (Personal Video Recorder) format video / audio stream recording / reproducing apparatus capable of recording / reproducing video / audio stream data transferred from an external device including a digital broadcast receiver, according to claim 1 or 2. And the SUB-CPU described in the bridge circuit according to claim 1 or 2 as a PVR-CPU, and further stores a control program for controlling the operation of the PVR-CPU. A PVR memory, a PVR network I / F for providing an interface for inputting / outputting control information for instructing a recording / reproducing operation for the video / audio stream recording / reproducing device between the external device, and a video / audio stream recording The video / audio stream data input / output to / from the playback device is And a recording device for recording and reproducing the video / audio stream data together with data management information for management. The recording device is provided in the external device, and is connected to the HOST-CPU described in the bridge circuit according to claim 1 or 2. Are connected to each other via the bridge circuit, whereby the digital broadcast receiver is connected to the digital broadcast receiver via the bridge circuit based on the control signal of the recording / reproducing operation received by the PVR network I / F. In between, the video / audio stream data to be recorded / reproduced is switched by selecting and switching the SUB selector and the HOST selector according to the selection information, and encrypting or decrypting, or without performing encryption or decryption. A video / audio stream recording / reproducing device capable of transmitting and receiving. 5. The video / audio stream recording / reproducing apparatus according to claim 4, wherein the encryption / decryption module for encrypting or decrypting input / output data input / output to / from the video / audio stream recording / reproducing apparatus includes the video / audio stream. A video / audio stream recording / reproducing device which is built in a stream recording / reproducing device. 4. A PVR (Personal Video Recorder) format video / audio stream recording / reproducing apparatus capable of recording / reproducing video / audio stream data transferred from an external device including a digital broadcast receiver, the bridge according to claim 3. And a PVR memory for storing a control program for controlling the operation of the PVR-CPU, further comprising a circuit, and the SUB-CPU described in the bridge circuit according to claim 3 as a PVR-CPU. A PVR network I / F for providing an interface for inputting / outputting control information for instructing the video / audio stream recording / reproduction operation with the external device, and a video / audio stream recording / reproduction device. The output video / audio stream data is And a recording device for recording and reproducing the data together with data management information for managing the trim data, wherein the bridge circuit is provided in the external device and communicates with the HOST-CPU described in the bridge circuit according to claim 3. And the digital broadcast receiver through the bridge circuit based on the control signal of the recording / reproducing operation received by the PVR network I / F. The video / audio stream data to be transmitted / received can be switched by selecting and switching the SUB selector and the HOST selector based on the selection information, encrypting or decrypting, or performing no encryption or decryption. A video / audio stream recording / reproducing device characterized by being able to do so. The video / audio stream recording / reproducing device according to claim 4, wherein the selection information for the SUB selector and the HOST selector according to the bridge circuit according to claim 1. The PVR-CPU, which is the SUB-CPU connected to the bridge circuit, receives an instruction from a user or transmits to the data management information for managing the input / output video / audio stream data. Generating the selection information based on the included encryption or decryption information or the encryption or decryption information included in the control information regarding the recording / reproducing operation received by the PVR network I / F And a video / audio stream recording / reproducing apparatus. A PVR (Personal Video Recorder) -type digital broadcast receiver incorporating a PVR (Personal Video Recorder) format video / audio stream recording / reproducing device for receiving video / audio stream data from a digital broadcast signal and recording / reproducing the video / audio stream data And a digital tuner for selecting and receiving a digital broadcast signal, comprising the video / audio stream recording / reproducing device according to any one of claims 4 to 7 as the built-in video / audio stream recording / reproducing device. Data is input between a HOST buffer for buffering video / audio stream data transmitted / received to / from the built-in video / audio stream recording / reproducing device and the bridge circuit mounted in the video / audio stream recording / reproducing device. Output and the PVR integrated HOST-CPU that controls the main control of the digital broadcast receiver, a HOST memory for storing a control program for controlling the operation of the HOST-CPU, and instructs a recording / reproducing operation to the video / audio stream recording / reproducing device. HOST network I / F that provides an interface for inputting and outputting control information to be performed, and video / audio stream data from the digital tuner, or video received from the video / audio stream recording / reproducing device via the HOST buffer. A decoder for reproducing audio stream data, and the HOST-CPU and the video / audio stream recording / reproducing device are connected to each other via the bridge circuit, whereby the HOST network I / F is connected. Control of recording and reproducing operation transmitted and received by The SUB selector and the HOST selector select the video / audio stream data to be recorded / reproduced between the HOST buffer and the video / audio stream recording / reproducing device via the bridge circuit based on the SUB selector and the HOST selector. A PVR-integrated digital broadcast receiver characterized in that it can be selectively transmitted and received, transmitted or received without encryption or decryption, or encrypted or decrypted. 9. The PVR-integrated digital broadcast receiver according to claim 8, wherein the bridge circuit is not mounted in the video / audio stream recording / reproducing apparatus, but the digital broadcast reception of the PVR-integrated digital broadcast receiver is performed. A PVR-integrated digital broadcast receiver, which is mounted on a device side. The PVR-integrated digital broadcast receiver according to claim 8 or 9, wherein the PVR-integrated digital broadcast receiver is connected to the video / audio stream recording / reproducing device via the bridge circuit. If the encryption / decryption module for encrypting or decrypting video / audio stream data input / output is not incorporated in the video / audio stream recording / reproducing device, it is incorporated in the digital broadcast receiver. A PVR-integrated digital broadcast receiver, characterized in that: The PVR-integrated digital broadcast receiver according to any one of claims 8 to 10, wherein the HOST connected to the bridge circuit is related to the selection information for the SUB selector and the HOST selector of the bridge circuit. The CPU or the PVR-CPU, which is the SUB-CPU, performs encryption or encryption included in the data management information for management of the video / audio stream data to be input / output, or The selection information is generated based on decryption information or encryption or decryption information included in the control information on recording / reproduction operations transmitted / received by the HOST network I / F or the PVR network I / F. Digital broadcast receiver integrated with a PVR

Images